diff options
55 files changed, 17988 insertions, 5 deletions
diff --git a/bfd/ChangeLog b/bfd/ChangeLog index 7abc268..a67dd1d 100644 --- a/bfd/ChangeLog +++ b/bfd/ChangeLog @@ -1,3 +1,20 @@ +2013-01-10 Will Newton <will.newton@imgtec.com> + + * Makefile.am: Add Meta. + * Makefile.in: Regenerate. + * archures.c (bfd_mach_metag): New. + * bfd-in2.h: Regenerate. + * config.bfd: Add Meta. + * configure: Regenerate. + * configure.in: Add Meta. + * cpu-metag.c: New file. + * elf-bfd.h: Add Meta. + * elf32-metag.c: New file. + * elf32-metag.h: New file. + * libbfd.h: Regenerate. + * reloc.c: Add Meta relocations. + * targets.c: Add Meta. + 2013-01-08 Yufeng Zhang <yufeng.zhang@arm.com> * elf-bfd.h (elfcore_write_aarch_tls): Add prototype. diff --git a/bfd/Makefile.am b/bfd/Makefile.am index 6fe6cb2..8098ee4 100644 --- a/bfd/Makefile.am +++ b/bfd/Makefile.am @@ -129,6 +129,7 @@ ALL_MACHINES = \ cpu-m88k.lo \ cpu-mcore.lo \ cpu-mep.lo \ + cpu-metag.lo \ cpu-microblaze.lo \ cpu-mips.lo \ cpu-mmix.lo \ @@ -211,6 +212,7 @@ ALL_MACHINES_CFILES = \ cpu-m88k.c \ cpu-mcore.c \ cpu-mep.c \ + cpu-metag.c \ cpu-microblaze.c \ cpu-mips.c \ cpu-mmix.c \ @@ -340,6 +342,7 @@ BFD32_BACKENDS = \ elf32-m88k.lo \ elf32-mcore.lo \ elf32-mep.lo \ + elf32-metag.lo \ elf32-microblaze.lo \ elf32-mips.lo \ elf32-moxie.lo \ @@ -528,6 +531,7 @@ BFD32_BACKENDS_CFILES = \ elf32-m88k.c \ elf32-mcore.c \ elf32-mep.c \ + elf32-metag.c \ elf32-microblaze.c \ elf32-mips.c \ elf32-moxie.c \ diff --git a/bfd/Makefile.in b/bfd/Makefile.in index c51c342..af4e5ed 100644 --- a/bfd/Makefile.in +++ b/bfd/Makefile.in @@ -430,6 +430,7 @@ ALL_MACHINES = \ cpu-m88k.lo \ cpu-mcore.lo \ cpu-mep.lo \ + cpu-metag.lo \ cpu-microblaze.lo \ cpu-mips.lo \ cpu-mmix.lo \ @@ -512,6 +513,7 @@ ALL_MACHINES_CFILES = \ cpu-m88k.c \ cpu-mcore.c \ cpu-mep.c \ + cpu-metag.c \ cpu-microblaze.c \ cpu-mips.c \ cpu-mmix.c \ @@ -642,6 +644,7 @@ BFD32_BACKENDS = \ elf32-m88k.lo \ elf32-mcore.lo \ elf32-mep.lo \ + elf32-metag.lo \ elf32-microblaze.lo \ elf32-mips.lo \ elf32-moxie.lo \ @@ -830,6 +833,7 @@ BFD32_BACKENDS_CFILES = \ elf32-m88k.c \ elf32-mcore.c \ elf32-mep.c \ + elf32-metag.c \ elf32-microblaze.c \ elf32-mips.c \ elf32-moxie.c \ @@ -1336,6 +1340,7 @@ distclean-compile: @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/cpu-m9s12xg.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/cpu-mcore.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/cpu-mep.Plo@am__quote@ +@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/cpu-metag.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/cpu-microblaze.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/cpu-mips.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/cpu-mmix.Plo@am__quote@ @@ -1424,6 +1429,7 @@ distclean-compile: @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/elf32-m88k.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/elf32-mcore.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/elf32-mep.Plo@am__quote@ +@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/elf32-metag.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/elf32-microblaze.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/elf32-mips.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/elf32-moxie.Plo@am__quote@ diff --git a/bfd/archures.c b/bfd/archures.c index 0843f36..66805ca 100644 --- a/bfd/archures.c +++ b/bfd/archures.c @@ -365,6 +365,8 @@ DESCRIPTION .#define bfd_mach_mep 1 .#define bfd_mach_mep_h1 0x6831 .#define bfd_mach_mep_c5 0x6335 +. bfd_arch_metag, +.#define bfd_mach_metag 1 . bfd_arch_ia64, {* HP/Intel ia64 *} .#define bfd_mach_ia64_elf64 64 .#define bfd_mach_ia64_elf32 32 @@ -548,6 +550,7 @@ extern const bfd_arch_info_type bfd_m68k_arch; extern const bfd_arch_info_type bfd_m88k_arch; extern const bfd_arch_info_type bfd_mcore_arch; extern const bfd_arch_info_type bfd_mep_arch; +extern const bfd_arch_info_type bfd_metag_arch; extern const bfd_arch_info_type bfd_mips_arch; extern const bfd_arch_info_type bfd_microblaze_arch; extern const bfd_arch_info_type bfd_mmix_arch; @@ -635,6 +638,7 @@ static const bfd_arch_info_type * const bfd_archures_list[] = &bfd_m88k_arch, &bfd_mcore_arch, &bfd_mep_arch, + &bfd_metag_arch, &bfd_microblaze_arch, &bfd_mips_arch, &bfd_mmix_arch, diff --git a/bfd/bfd-in2.h b/bfd/bfd-in2.h index 20a45b2..3f1128f 100644 --- a/bfd/bfd-in2.h +++ b/bfd/bfd-in2.h @@ -2096,6 +2096,8 @@ enum bfd_architecture #define bfd_mach_mep 1 #define bfd_mach_mep_h1 0x6831 #define bfd_mach_mep_c5 0x6335 + bfd_arch_metag, +#define bfd_mach_metag 1 bfd_arch_ia64, /* HP/Intel ia64 */ #define bfd_mach_ia64_elf64 64 #define bfd_mach_ia64_elf32 32 @@ -3996,6 +3998,46 @@ short offset into 11 bits. */ BFD_RELOC_MEP_GNU_VTENTRY, +/* Imagination Technologies Meta relocations. */ + BFD_RELOC_METAG_HIADDR16, + BFD_RELOC_METAG_LOADDR16, + BFD_RELOC_METAG_RELBRANCH, + BFD_RELOC_METAG_GETSETOFF, + BFD_RELOC_METAG_HIOG, + BFD_RELOC_METAG_LOOG, + BFD_RELOC_METAG_REL8, + BFD_RELOC_METAG_REL16, + BFD_RELOC_METAG_HI16_GOTOFF, + BFD_RELOC_METAG_LO16_GOTOFF, + BFD_RELOC_METAG_GETSET_GOTOFF, + BFD_RELOC_METAG_GETSET_GOT, + BFD_RELOC_METAG_HI16_GOTPC, + BFD_RELOC_METAG_LO16_GOTPC, + BFD_RELOC_METAG_HI16_PLT, + BFD_RELOC_METAG_LO16_PLT, + BFD_RELOC_METAG_RELBRANCH_PLT, + BFD_RELOC_METAG_GOTOFF, + BFD_RELOC_METAG_PLT, + BFD_RELOC_METAG_COPY, + BFD_RELOC_METAG_JMP_SLOT, + BFD_RELOC_METAG_RELATIVE, + BFD_RELOC_METAG_GLOB_DAT, + BFD_RELOC_METAG_TLS_GD, + BFD_RELOC_METAG_TLS_LDM, + BFD_RELOC_METAG_TLS_LDO_HI16, + BFD_RELOC_METAG_TLS_LDO_LO16, + BFD_RELOC_METAG_TLS_LDO, + BFD_RELOC_METAG_TLS_IE, + BFD_RELOC_METAG_TLS_IENONPIC, + BFD_RELOC_METAG_TLS_IENONPIC_HI16, + BFD_RELOC_METAG_TLS_IENONPIC_LO16, + BFD_RELOC_METAG_TLS_TPOFF, + BFD_RELOC_METAG_TLS_DTPMOD, + BFD_RELOC_METAG_TLS_DTPOFF, + BFD_RELOC_METAG_TLS_LE, + BFD_RELOC_METAG_TLS_LE_HI16, + BFD_RELOC_METAG_TLS_LE_LO16, + /* These are relocations for the GETA instruction. */ BFD_RELOC_MMIX_GETA, BFD_RELOC_MMIX_GETA_1, diff --git a/bfd/config.bfd b/bfd/config.bfd index b19abd6..713c3d4 100644 --- a/bfd/config.bfd +++ b/bfd/config.bfd @@ -938,6 +938,11 @@ case "${targ}" in targ_selvecs=bfd_elf32_mep_little_vec ;; + metag-*-*) + targ_defvec=bfd_elf32_metag_vec + targ_underscore=yes + ;; + microblazeel*-*) targ_defvec=bfd_elf32_microblazeel_vec targ_selvecs=bfd_elf32_microblaze_vec diff --git a/bfd/configure b/bfd/configure index 141e76d..1279e56 100755 --- a/bfd/configure +++ b/bfd/configure @@ -15283,6 +15283,7 @@ do bfd_elf32_mcore_little_vec) tb="$tb elf32-mcore.lo elf32.lo $elf" ;; bfd_elf32_mep_vec) tb="$tb elf32-mep.lo elf32.lo $elf" ;; bfd_elf32_mep_little_vec) tb="$tb elf32-mep.lo elf32.lo $elf" ;; + bfd_elf32_metag_vec) tb="$tb elf32-metag.lo elf32.lo $elf" ;; bfd_elf32_microblazeel_vec) tb="$tb elf32-microblaze.lo elf32.lo $elf" ;; bfd_elf32_microblaze_vec) tb="$tb elf32-microblaze.lo elf32.lo $elf" ;; bfd_elf32_mn10200_vec) tb="$tb elf-m10200.lo elf32.lo $elf" ;; diff --git a/bfd/configure.in b/bfd/configure.in index a581021..33f62e3 100644 --- a/bfd/configure.in +++ b/bfd/configure.in @@ -780,6 +780,7 @@ do bfd_elf32_mcore_little_vec) tb="$tb elf32-mcore.lo elf32.lo $elf" ;; bfd_elf32_mep_vec) tb="$tb elf32-mep.lo elf32.lo $elf" ;; bfd_elf32_mep_little_vec) tb="$tb elf32-mep.lo elf32.lo $elf" ;; + bfd_elf32_metag_vec) tb="$tb elf32-metag.lo elf32.lo $elf" ;; bfd_elf32_microblazeel_vec) tb="$tb elf32-microblaze.lo elf32.lo $elf" ;; bfd_elf32_microblaze_vec) tb="$tb elf32-microblaze.lo elf32.lo $elf" ;; bfd_elf32_mn10200_vec) tb="$tb elf-m10200.lo elf32.lo $elf" ;; diff --git a/bfd/cpu-metag.c b/bfd/cpu-metag.c new file mode 100644 index 0000000..a8dbfaa --- /dev/null +++ b/bfd/cpu-metag.c @@ -0,0 +1,41 @@ +/* BFD support for the Imagination Technologies Meta processor. + Copyright (C) 2013 Free Software Foundation, Inc. + Contributed by Imagination Technologies Ltd. + + This file is part of BFD, the Binary File Descriptor library. + + This program is free software; you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation; either version 3 of the License, or + (at your option) any later version. + + This program is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with this program; if not, write to the Free Software + Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, + MA 02110-1301, USA. */ + +#include "sysdep.h" +#include "bfd.h" +#include "libbfd.h" + +const bfd_arch_info_type bfd_metag_arch = +{ + 32, /* Bits per word. */ + 32, /* Bits per address. */ + 8, /* Bits per byte. */ + bfd_arch_metag, /* Architecture. */ + bfd_mach_metag, /* Machine. */ + "metag", /* Architecture name. */ + "metag", /* Printable name. */ + 4, /* Section align power. */ + TRUE, /* The default ? */ + bfd_default_compatible, /* Architecture comparison fn. */ + bfd_default_scan, /* String to architecture convert fn. */ + bfd_arch_default_fill, /* Default fill. */ + NULL /* Next in list. */ +}; diff --git a/bfd/elf-bfd.h b/bfd/elf-bfd.h index 533c5d4..43a077c 100644 --- a/bfd/elf-bfd.h +++ b/bfd/elf-bfd.h @@ -417,6 +417,7 @@ enum elf_target_id M32R_ELF_DATA, M68HC11_ELF_DATA, M68K_ELF_DATA, + METAG_ELF_DATA, MICROBLAZE_ELF_DATA, MIPS_ELF_DATA, MN10300_ELF_DATA, diff --git a/bfd/elf32-metag.c b/bfd/elf32-metag.c new file mode 100644 index 0000000..6ae3bc0 --- /dev/null +++ b/bfd/elf32-metag.c @@ -0,0 +1,4313 @@ +/* Meta support for 32-bit ELF + Copyright (C) 2013 Free Software Foundation, Inc. + Contributed by Imagination Technologies Ltd. + + This file is part of BFD, the Binary File Descriptor library. + + This program is free software; you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation; either version 3 of the License, or + (at your option) any later version. + + This program is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with this program; if not, write to the Free Software + Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, + MA 02110-1301, USA. */ + +#include "sysdep.h" +#include "bfd.h" +#include "libbfd.h" +#include "elf-bfd.h" +#include "elf32-metag.h" +#include "elf/metag.h" + +#define GOT_ENTRY_SIZE 4 +#define ELF_DYNAMIC_INTERPRETER "/lib/ld-uClibc.so.0" + +/* ABI version: + 0 - original + 1 - with GOT offset */ +#define METAG_ELF_ABI_VERSION 1 + +static const unsigned int plt0_entry[] = + { + 0x02000005, /* MOVT D0Re0, #HI(GOT+4) */ + 0x02000000, /* ADD D0Re0, D0Re0, #LO(GOT+4) */ + 0xb70001e3, /* SETL [A0StP++], D0Re0, D1Re0 */ + 0xc600012a, /* GETD PC, [D0Re0+#4] */ + 0xa0fffffe /* NOP */ + }; + +static const unsigned int plt0_pic_entry[] = + { + 0x82900001, /* ADDT A0.2, CPC0, #0 */ + 0x82100000, /* ADD A0.2, A0.2, #0 */ + 0xa3100c20, /* MOV D0Re0, A0.2 */ + 0xb70001e3, /* SETL [A0StP++], D0Re0, D1Re0 */ + 0xc600012a, /* GETD PC, [D0Re0+#4] */ + }; + +static const unsigned int plt_entry[] = + { + 0x82100005, /* MOVT A0.2, #HI(GOT+off) */ + 0x82100000, /* ADD A0.2, A0.2, #LO(GOT+off) */ + 0xc600806a, /* GETD PC, [A0.2] */ + 0x03000004, /* MOV D1Re0, #LO(offset) */ + 0xa0000000 /* B PLT0 */ + }; + +static const unsigned int plt_pic_entry[] = + { + 0x82900001, /* ADDT A0.2, CPC0, #HI(GOT+off) */ + 0x82100000, /* ADD A0.2, A0.2, #LO(GOT+off) */ + 0xc600806a, /* GETD PC, [A0.2] */ + 0x03000004, /* MOV D1Re0, #LO(offset) */ + 0xa0000000 /* B PLT0 */ + }; + +/* Variable names follow a coding style. + Please follow this (Apps Hungarian) style: + + Structure/Variable Prefix + elf_link_hash_table "etab" + elf_link_hash_entry "eh" + + elf_metag_link_hash_table "htab" + elf_metag_link_hash_entry "hh" + + bfd_link_hash_table "btab" + bfd_link_hash_entry "bh" + + bfd_hash_table containing stubs "bstab" + elf_metag_stub_hash_entry "hsh" + + elf_metag_dyn_reloc_entry "hdh" + + Always remember to use GNU Coding Style. */ + +#define PLT_ENTRY_SIZE sizeof(plt_entry) + +static reloc_howto_type elf_metag_howto_table[] = +{ + /* High order 16 bit absolute. */ + HOWTO (R_METAG_HIADDR16, /* type */ + 16, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 16, /* bitsize */ + FALSE, /* pc_relative */ + 3, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_HIADDR16", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x0007fff8, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* Low order 16 bit absolute. */ + HOWTO (R_METAG_LOADDR16, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 16, /* bitsize */ + FALSE, /* pc_relative */ + 3, /* bitpos */ + complain_overflow_dont,/* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_LOADDR16", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x0007fff8, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* 32 bit absolute. */ + HOWTO (R_METAG_ADDR32, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 32, /* bitsize */ + FALSE, /* pc_relative */ + 0, /* bitpos */ + complain_overflow_bitfield, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_ADDR32", /* name */ + FALSE, /* partial_inplace */ + 0x00000000, /* src_mask */ + 0xffffffff, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* No relocation. */ + HOWTO (R_METAG_NONE, /* type */ + 0, /* rightshift */ + 0, /* size (0 = byte, 1 = short, 2 = long) */ + 0, /* bitsize */ + FALSE, /* pc_relative */ + 0, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_NONE", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* 19 bit pc relative */ + HOWTO (R_METAG_RELBRANCH, /* type */ + 2, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 19, /* bitsize */ + TRUE, /* pc_relative */ + 5, /* bitpos */ + complain_overflow_signed, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_RELBRANCH", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x00ffffe0, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* GET/SET offset */ + HOWTO (R_METAG_GETSETOFF, /* type */ + 0, /* rightshift */ + 1, /* size (0 = byte, 1 = short, 2 = long) */ + 12, /* bitsize */ + FALSE, /* pc_relative */ + 7, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_GETSETOFF", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0, /* dst_mask */ + FALSE), /* pcrel_offset */ + + EMPTY_HOWTO (6), + EMPTY_HOWTO (7), + EMPTY_HOWTO (8), + EMPTY_HOWTO (9), + EMPTY_HOWTO (10), + EMPTY_HOWTO (11), + EMPTY_HOWTO (12), + EMPTY_HOWTO (13), + EMPTY_HOWTO (14), + EMPTY_HOWTO (15), + EMPTY_HOWTO (16), + EMPTY_HOWTO (17), + EMPTY_HOWTO (18), + EMPTY_HOWTO (19), + EMPTY_HOWTO (20), + EMPTY_HOWTO (21), + EMPTY_HOWTO (22), + EMPTY_HOWTO (23), + EMPTY_HOWTO (24), + EMPTY_HOWTO (25), + EMPTY_HOWTO (26), + EMPTY_HOWTO (27), + EMPTY_HOWTO (28), + EMPTY_HOWTO (29), + + HOWTO (R_METAG_GNU_VTINHERIT, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 0, /* bitsize */ + FALSE, /* pc_relative */ + 0, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + NULL, /* special_function */ + "R_METAG_GNU_VTINHERIT", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0, /* dst_mask */ + FALSE), /* pcrel_offset */ + + HOWTO (R_METAG_GNU_VTENTRY, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 0, /* bitsize */ + FALSE, /* pc_relative */ + 0, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + _bfd_elf_rel_vtable_reloc_fn, /* special_function */ + "R_METAG_GNU_VTENTRY", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* High order 16 bit GOT offset */ + HOWTO (R_METAG_HI16_GOTOFF, /* type */ + 16, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 16, /* bitsize */ + FALSE, /* pc_relative */ + 3, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_HI16_GOTOFF", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x0007fff8, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* Low order 16 bit GOT offset */ + HOWTO (R_METAG_LO16_GOTOFF, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 16, /* bitsize */ + FALSE, /* pc_relative */ + 3, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_LO16_GOTOFF", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x0007fff8, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* GET/SET GOT offset */ + HOWTO (R_METAG_GETSET_GOTOFF, /* type */ + 0, /* rightshift */ + 1, /* size (0 = byte, 1 = short, 2 = long) */ + 12, /* bitsize */ + FALSE, /* pc_relative */ + 7, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_GETSET_GOTOFF", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* GET/SET GOT relative */ + HOWTO (R_METAG_GETSET_GOT, /* type */ + 0, /* rightshift */ + 1, /* size (0 = byte, 1 = short, 2 = long) */ + 12, /* bitsize */ + FALSE, /* pc_relative */ + 7, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_GETSET_GOT", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* High order 16 bit GOT reference */ + HOWTO (R_METAG_HI16_GOTPC, /* type */ + 16, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 16, /* bitsize */ + FALSE, /* pc_relative */ + 3, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_HI16_GOTPC", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x0007fff8, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* Low order 16 bit GOT reference */ + HOWTO (R_METAG_LO16_GOTPC, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 16, /* bitsize */ + FALSE, /* pc_relative */ + 3, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_LO16_GOTPC", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x0007fff8, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* High order 16 bit PLT */ + HOWTO (R_METAG_HI16_PLT, /* type */ + 16, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 16, /* bitsize */ + FALSE, /* pc_relative */ + 3, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_HI16_PLT", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x0007fff8, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* Low order 16 bit PLT */ + HOWTO (R_METAG_LO16_PLT, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 16, /* bitsize */ + FALSE, /* pc_relative */ + 3, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_LO16_PLT", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0xffffffff, /* dst_mask */ + FALSE), /* pcrel_offset */ + + HOWTO (R_METAG_RELBRANCH_PLT, /* type */ + 2, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 19, /* bitsize */ + TRUE, /* pc_relative */ + 5, /* bitpos */ + complain_overflow_signed, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_RELBRANCH_PLT", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x00ffffe0, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* Dummy relocs used by the linker internally. */ + HOWTO (R_METAG_GOTOFF, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 32, /* bitsize */ + FALSE, /* pc_relative */ + 0, /* bitpos */ + complain_overflow_bitfield, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_GOTOFF", /* name */ + FALSE, /* partial_inplace */ + 0xffffffff, /* src_mask */ + 0xffffffff, /* dst_mask */ + FALSE), /* pcrel_offset */ + + HOWTO (R_METAG_PLT, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 32, /* bitsize */ + FALSE, /* pc_relative */ + 0, /* bitpos */ + complain_overflow_bitfield, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_GOTOFF", /* name */ + FALSE, /* partial_inplace */ + 0xffffffff, /* src_mask */ + 0xffffffff, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* This is used only by the dynamic linker. The symbol should exist + both in the object being run and in some shared library. The + dynamic linker copies the data addressed by the symbol from the + shared library into the object, because the object being + run has to have the data at some particular address. */ + HOWTO (R_METAG_COPY, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 32, /* bitsize */ + FALSE, /* pc_relative */ + 0, /* bitpos */ + complain_overflow_bitfield, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_COPY", /* name */ + FALSE, /* partial_inplace */ + 0xffffffff, /* src_mask */ + 0xffffffff, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* Marks a procedure linkage table entry for a symbol. */ + HOWTO (R_METAG_JMP_SLOT, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 32, /* bitsize */ + FALSE, /* pc_relative */ + 0, /* bitpos */ + complain_overflow_bitfield, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_JMP_SLOT", /* name */ + FALSE, /* partial_inplace */ + 0xffffffff, /* src_mask */ + 0xffffffff, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* Used only by the dynamic linker. When the object is run, this + longword is set to the load address of the object, plus the + addend. */ + HOWTO (R_METAG_RELATIVE, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 32, /* bitsize */ + FALSE, /* pc_relative */ + 0, /* bitpos */ + complain_overflow_bitfield, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_RELATIVE", /* name */ + FALSE, /* partial_inplace */ + 0xffffffff, /* src_mask */ + 0xffffffff, /* dst_mask */ + FALSE), /* pcrel_offset */ + + HOWTO (R_METAG_GLOB_DAT, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 32, /* bitsize */ + FALSE, /* pc_relative */ + 0, /* bitpos */ + complain_overflow_bitfield, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_GLOB_DAT", /* name */ + FALSE, /* partial_inplace */ + 0xffffffff, /* src_mask */ + 0xffffffff, /* dst_mask */ + FALSE), /* pcrel_offset */ + + HOWTO (R_METAG_TLS_GD, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 16, /* bitsize */ + FALSE, /* pc_relative */ + 3, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_TLS_GD", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x0007fff8, /* dst_mask */ + FALSE), /* pcrel_offset */ + + HOWTO (R_METAG_TLS_LDM, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 16, /* bitsize */ + FALSE, /* pc_relative */ + 3, /* bitpos */ + complain_overflow_bitfield, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_TLS_LDM", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x0007fff8, /* dst_mask */ + FALSE), /* pcrel_offset */ + + HOWTO (R_METAG_TLS_LDO_HI16, /* type */ + 16, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 16, /* bitsize */ + FALSE, /* pc_relative */ + 3, /* bitpos */ + complain_overflow_bitfield, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_TLS_LDO_HI16", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x0007fff8, /* dst_mask */ + FALSE), /* pcrel_offset */ + + HOWTO (R_METAG_TLS_LDO_LO16, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 16, /* bitsize */ + FALSE, /* pc_relative */ + 3, /* bitpos */ + complain_overflow_bitfield, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_TLS_LDO_LO16", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x0007fff8, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* Dummy reloc used by the linker internally. */ + HOWTO (R_METAG_TLS_LDO, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 16, /* bitsize */ + FALSE, /* pc_relative */ + 3, /* bitpos */ + complain_overflow_bitfield, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_TLS_LDO", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x0007fff8, /* dst_mask */ + FALSE), /* pcrel_offset */ + + HOWTO (R_METAG_TLS_IE, /* type */ + 2, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 12, /* bitsize */ + FALSE, /* pc_relative */ + 7, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_TLS_IE", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x0007ff80, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* Dummy reloc used by the linker internally. */ + HOWTO (R_METAG_TLS_IENONPIC, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 16, /* bitsize */ + FALSE, /* pc_relative */ + 3, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_TLS_IENONPIC", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x0007fff8, /* dst_mask */ + FALSE), /* pcrel_offset */ + + HOWTO (R_METAG_TLS_IENONPIC_HI16,/* type */ + 16, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 16, /* bitsize */ + FALSE, /* pc_relative */ + 3, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_TLS_IENONPIC_HI16", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x0007fff8, /* dst_mask */ + FALSE), /* pcrel_offset */ + + HOWTO (R_METAG_TLS_IENONPIC_LO16,/* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 16, /* bitsize */ + FALSE, /* pc_relative */ + 3, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_TLS_IENONPIC_LO16", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x0007fff8, /* dst_mask */ + FALSE), /* pcrel_offset */ + + HOWTO (R_METAG_TLS_TPOFF, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 32, /* bitsize */ + FALSE, /* pc_relative */ + 0, /* bitpos */ + complain_overflow_bitfield, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_TLS_TPOFF", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0xffffffff, /* dst_mask */ + FALSE), /* pcrel_offset */ + + HOWTO (R_METAG_TLS_DTPMOD, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 32, /* bitsize */ + FALSE, /* pc_relative */ + 0, /* bitpos */ + complain_overflow_bitfield, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_TLS_DTPMOD", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0xffffffff, /* dst_mask */ + FALSE), /* pcrel_offset */ + + HOWTO (R_METAG_TLS_DTPOFF, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 32, /* bitsize */ + FALSE, /* pc_relative */ + 0, /* bitpos */ + complain_overflow_bitfield, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_TLS_DTPOFF", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0xffffffff, /* dst_mask */ + FALSE), /* pcrel_offset */ + + /* Dummy reloc used by the linker internally. */ + HOWTO (R_METAG_TLS_LE, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 32, /* bitsize */ + FALSE, /* pc_relative */ + 0, /* bitpos */ + complain_overflow_bitfield, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_TLS_LE", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0xffffffff, /* dst_mask */ + FALSE), /* pcrel_offset */ + + HOWTO (R_METAG_TLS_LE_HI16, /* type */ + 16, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 16, /* bitsize */ + FALSE, /* pc_relative */ + 3, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_TLS_LE_HI16", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x0007fff8, /* dst_mask */ + FALSE), /* pcrel_offset */ + + HOWTO (R_METAG_TLS_LE_LO16, /* type */ + 0, /* rightshift */ + 2, /* size (0 = byte, 1 = short, 2 = long) */ + 16, /* bitsize */ + FALSE, /* pc_relative */ + 3, /* bitpos */ + complain_overflow_dont, /* complain_on_overflow */ + bfd_elf_generic_reloc, /* special_function */ + "R_METAG_TLS_LE_LO16", /* name */ + FALSE, /* partial_inplace */ + 0, /* src_mask */ + 0x0007fff8, /* dst_mask */ + FALSE), /* pcrel_offset */ + +}; + +#define BRANCH_BITS 19 + +/* The GOT is typically accessed using a [GS]ETD instruction. The size of the + immediate offset which can be used in such instructions therefore limits + the usable size of the GOT. If the base register for the [GS]ETD (A1LbP) + is pointing to the base of the GOT then the size is limited to the maximum + 11 bits unsigned dword offset, or 2^13 = 0x2000 bytes. However the offset + in a [GS]ETD instruction is signed, so by setting the base address register + to an offset of that 0x2000 byte maximum unsigned offset from the base of + the GOT we can use negative offsets in addition to positive. This + effectively doubles the usable GOT size to 0x4000 bytes. */ +#define GOT_REG_OFFSET 0x2000 + +struct metag_reloc_map +{ + bfd_reloc_code_real_type bfd_reloc_val; + unsigned int metag_reloc_val; +}; + +static const struct metag_reloc_map metag_reloc_map [] = + { + { BFD_RELOC_NONE, R_METAG_NONE }, + { BFD_RELOC_32, R_METAG_ADDR32 }, + { BFD_RELOC_METAG_HIADDR16, R_METAG_HIADDR16 }, + { BFD_RELOC_METAG_LOADDR16, R_METAG_LOADDR16 }, + { BFD_RELOC_METAG_RELBRANCH, R_METAG_RELBRANCH }, + { BFD_RELOC_METAG_GETSETOFF, R_METAG_GETSETOFF }, + { BFD_RELOC_VTABLE_INHERIT, R_METAG_GNU_VTINHERIT }, + { BFD_RELOC_VTABLE_ENTRY, R_METAG_GNU_VTENTRY }, + { BFD_RELOC_METAG_REL8, R_METAG_REL8 }, + { BFD_RELOC_METAG_REL16, R_METAG_REL16 }, + { BFD_RELOC_METAG_HI16_GOTOFF, R_METAG_HI16_GOTOFF }, + { BFD_RELOC_METAG_LO16_GOTOFF, R_METAG_LO16_GOTOFF }, + { BFD_RELOC_METAG_GETSET_GOTOFF, R_METAG_GETSET_GOTOFF }, + { BFD_RELOC_METAG_GETSET_GOT, R_METAG_GETSET_GOT }, + { BFD_RELOC_METAG_HI16_GOTPC, R_METAG_HI16_GOTPC }, + { BFD_RELOC_METAG_LO16_GOTPC, R_METAG_LO16_GOTPC }, + { BFD_RELOC_METAG_HI16_PLT, R_METAG_HI16_PLT }, + { BFD_RELOC_METAG_LO16_PLT, R_METAG_LO16_PLT }, + { BFD_RELOC_METAG_RELBRANCH_PLT, R_METAG_RELBRANCH_PLT }, + { BFD_RELOC_METAG_GOTOFF, R_METAG_GOTOFF }, + { BFD_RELOC_METAG_PLT, R_METAG_PLT }, + { BFD_RELOC_METAG_COPY, R_METAG_COPY }, + { BFD_RELOC_METAG_JMP_SLOT, R_METAG_JMP_SLOT }, + { BFD_RELOC_METAG_RELATIVE, R_METAG_RELATIVE }, + { BFD_RELOC_METAG_GLOB_DAT, R_METAG_GLOB_DAT }, + { BFD_RELOC_METAG_TLS_GD, R_METAG_TLS_GD }, + { BFD_RELOC_METAG_TLS_LDM, R_METAG_TLS_LDM }, + { BFD_RELOC_METAG_TLS_LDO_HI16, R_METAG_TLS_LDO_HI16 }, + { BFD_RELOC_METAG_TLS_LDO_LO16, R_METAG_TLS_LDO_LO16 }, + { BFD_RELOC_METAG_TLS_LDO, R_METAG_TLS_LDO }, + { BFD_RELOC_METAG_TLS_IE, R_METAG_TLS_IE }, + { BFD_RELOC_METAG_TLS_IENONPIC, R_METAG_TLS_IENONPIC }, + { BFD_RELOC_METAG_TLS_IENONPIC_HI16, R_METAG_TLS_IENONPIC_HI16 }, + { BFD_RELOC_METAG_TLS_IENONPIC_LO16, R_METAG_TLS_IENONPIC_LO16 }, + { BFD_RELOC_METAG_TLS_TPOFF, R_METAG_TLS_TPOFF }, + { BFD_RELOC_METAG_TLS_DTPMOD, R_METAG_TLS_DTPMOD }, + { BFD_RELOC_METAG_TLS_DTPOFF, R_METAG_TLS_DTPOFF }, + { BFD_RELOC_METAG_TLS_LE, R_METAG_TLS_LE }, + { BFD_RELOC_METAG_TLS_LE_HI16, R_METAG_TLS_LE_HI16 }, + { BFD_RELOC_METAG_TLS_LE_LO16, R_METAG_TLS_LE_LO16 }, + }; + +enum elf_metag_stub_type +{ + metag_stub_long_branch, + metag_stub_long_branch_shared, + metag_stub_none +}; + +struct elf_metag_stub_hash_entry +{ + /* Base hash table entry structure. */ + struct bfd_hash_entry bh_root; + + /* The stub section. */ + asection *stub_sec; + + /* Offset within stub_sec of the beginning of this stub. */ + bfd_vma stub_offset; + + /* Given the symbol's value and its section we can determine its final + value when building the stubs (so the stub knows where to jump. */ + bfd_vma target_value; + asection *target_section; + + enum elf_metag_stub_type stub_type; + + /* The symbol table entry, if any, that this was derived from. */ + struct elf_metag_link_hash_entry *hh; + + /* And the reloc addend that this was derived from. */ + bfd_vma addend; + + /* Where this stub is being called from, or, in the case of combined + stub sections, the first input section in the group. */ + asection *id_sec; +}; + +struct elf_metag_link_hash_entry +{ + struct elf_link_hash_entry eh; + + /* A pointer to the most recently used stub hash entry against this + symbol. */ + struct elf_metag_stub_hash_entry *hsh_cache; + + /* Used to count relocations for delayed sizing of relocation + sections. */ + struct elf_metag_dyn_reloc_entry { + + /* Next relocation in the chain. */ + struct elf_metag_dyn_reloc_entry *hdh_next; + + /* The input section of the reloc. */ + asection *sec; + + /* Number of relocs copied in this section. */ + bfd_size_type count; + + /* Number of relative relocs copied for the input section. */ + bfd_size_type relative_count; + } *dyn_relocs; + + enum + { + GOT_UNKNOWN = 0, GOT_NORMAL = 1, GOT_TLS_IE = 2, GOT_TLS_LDM = 4, GOT_TLS_GD = 8 + } tls_type; +}; + +struct elf_metag_link_hash_table +{ + /* The main hash table. */ + struct elf_link_hash_table etab; + + /* The stub hash table. */ + struct bfd_hash_table bstab; + + /* Linker stub bfd. */ + bfd *stub_bfd; + + /* Linker call-backs. */ + asection * (*add_stub_section) (const char *, asection *); + void (*layout_sections_again) (void); + + /* Array to keep track of which stub sections have been created, and + information on stub grouping. */ + struct map_stub + { + /* This is the section to which stubs in the group will be + attached. */ + asection *link_sec; + /* The stub section. */ + asection *stub_sec; + } *stub_group; + + /* Assorted information used by elf_metag_size_stubs. */ + unsigned int bfd_count; + int top_index; + asection **input_list; + Elf_Internal_Sym **all_local_syms; + + /* Short-cuts to get to dynamic linker sections. */ + asection *sgot; + asection *sgotplt; + asection *srelgot; + asection *splt; + asection *srelplt; + asection *sdynbss; + asection *srelbss; + + /* Small local sym cache. */ + struct sym_cache sym_cache; + + /* Data for LDM relocations. */ + union + { + bfd_signed_vma refcount; + bfd_vma offset; + } tls_ldm_got; +}; + +/* Return the base vma address which should be subtracted from the + real address when resolving a dtpoff relocation. This is PT_TLS + segment p_vaddr. */ +static bfd_vma +dtpoff_base (struct bfd_link_info *info) +{ + /* If tls_sec is NULL, we should have signalled an error already. */ + if (elf_hash_table (info)->tls_sec == NULL) + return 0; + return elf_hash_table (info)->tls_sec->vma; +} + +/* Return the relocation value for R_METAG_TLS_IE */ +static bfd_vma +tpoff (struct bfd_link_info *info, bfd_vma address) +{ + /* If tls_sec is NULL, we should have signalled an error already. */ + if (elf_hash_table (info)->tls_sec == NULL) + return 0; + /* METAG TLS ABI is variant I and static TLS blocks start just after + tcbhead structure which has 2 pointer fields. */ + return (address - elf_hash_table (info)->tls_sec->vma + + align_power ((bfd_vma) 8, + elf_hash_table (info)->tls_sec->alignment_power)); +} + +static void +metag_info_to_howto_rela (bfd *abfd ATTRIBUTE_UNUSED, + arelent *cache_ptr, + Elf_Internal_Rela *dst) +{ + unsigned int r_type; + + r_type = ELF32_R_TYPE (dst->r_info); + BFD_ASSERT (r_type < (unsigned int) R_METAG_MAX); + cache_ptr->howto = & elf_metag_howto_table [r_type]; +} + +static reloc_howto_type * +metag_reloc_type_lookup (bfd * abfd ATTRIBUTE_UNUSED, + bfd_reloc_code_real_type code) +{ + unsigned int i; + + for (i = 0; i < sizeof (metag_reloc_map) / sizeof (metag_reloc_map[0]); i++) + if (metag_reloc_map [i].bfd_reloc_val == code) + return & elf_metag_howto_table [metag_reloc_map[i].metag_reloc_val]; + + return NULL; +} + +static reloc_howto_type * +metag_reloc_name_lookup (bfd *abfd ATTRIBUTE_UNUSED, + const char *r_name) +{ + unsigned int i; + + for (i = 0; i < sizeof (elf_metag_howto_table) / sizeof (elf_metag_howto_table[0]); i++) + if (elf_metag_howto_table[i].name != NULL + && strcasecmp (elf_metag_howto_table[i].name, r_name) == 0) + return &elf_metag_howto_table[i]; + + return NULL; +} + +/* Various hash macros and functions. */ +#define metag_link_hash_table(p) \ + (elf_hash_table_id ((struct elf_link_hash_table *) ((p)->hash)) \ + == METAG_ELF_DATA ? ((struct elf_metag_link_hash_table *) ((p)->hash)) : NULL) + +#define metag_elf_hash_entry(ent) \ + ((struct elf_metag_link_hash_entry *)(ent)) + +#define metag_stub_hash_entry(ent) \ + ((struct elf_metag_stub_hash_entry *)(ent)) + +#define metag_stub_hash_lookup(table, string, create, copy) \ + ((struct elf_metag_stub_hash_entry *) \ + bfd_hash_lookup ((table), (string), (create), (copy))) + +#define metag_elf_local_got_tls_type(abfd) \ + ((char *)(elf_local_got_offsets (abfd) + (elf_tdata (abfd)->symtab_hdr.sh_info))) + +/* Assorted hash table functions. */ + +/* Initialize an entry in the stub hash table. */ + +static struct bfd_hash_entry * +stub_hash_newfunc (struct bfd_hash_entry *entry, + struct bfd_hash_table *table, + const char *string) +{ + /* Allocate the structure if it has not already been allocated by a + subclass. */ + if (entry == NULL) + { + entry = bfd_hash_allocate (table, + sizeof (struct elf_metag_stub_hash_entry)); + if (entry == NULL) + return entry; + } + + /* Call the allocation method of the superclass. */ + entry = bfd_hash_newfunc (entry, table, string); + if (entry != NULL) + { + struct elf_metag_stub_hash_entry *hsh; + + /* Initialize the local fields. */ + hsh = (struct elf_metag_stub_hash_entry *) entry; + hsh->stub_sec = NULL; + hsh->stub_offset = 0; + hsh->target_value = 0; + hsh->target_section = NULL; + hsh->stub_type = metag_stub_long_branch; + hsh->hh = NULL; + hsh->id_sec = NULL; + } + + return entry; +} + +/* Initialize an entry in the link hash table. */ + +static struct bfd_hash_entry * +metag_link_hash_newfunc (struct bfd_hash_entry *entry, + struct bfd_hash_table *table, + const char *string) +{ + /* Allocate the structure if it has not already been allocated by a + subclass. */ + if (entry == NULL) + { + entry = bfd_hash_allocate (table, + sizeof (struct elf_metag_link_hash_entry)); + if (entry == NULL) + return entry; + } + + /* Call the allocation method of the superclass. */ + entry = _bfd_elf_link_hash_newfunc (entry, table, string); + if (entry != NULL) + { + struct elf_metag_link_hash_entry *hh; + + /* Initialize the local fields. */ + hh = (struct elf_metag_link_hash_entry *) entry; + hh->hsh_cache = NULL; + hh->dyn_relocs = NULL; + hh->tls_type = GOT_UNKNOWN; + } + + return entry; +} + +/* Create the derived linker hash table. The Meta ELF port uses the derived + hash table to keep information specific to the Meta ELF linker (without + using static variables). */ + +static struct bfd_link_hash_table * +elf_metag_link_hash_table_create (bfd *abfd) +{ + struct elf_metag_link_hash_table *htab; + bfd_size_type amt = sizeof (*htab); + + htab = bfd_malloc (amt); + if (htab == NULL) + return NULL; + + if (!_bfd_elf_link_hash_table_init (&htab->etab, abfd, + metag_link_hash_newfunc, + sizeof (struct elf_metag_link_hash_entry), + METAG_ELF_DATA)) + { + free (htab); + return NULL; + } + + /* Init the stub hash table too. */ + if (!bfd_hash_table_init (&htab->bstab, stub_hash_newfunc, + sizeof (struct elf_metag_stub_hash_entry))) + return NULL; + + htab->stub_bfd = NULL; + htab->add_stub_section = NULL; + htab->layout_sections_again = NULL; + htab->stub_group = NULL; + htab->sgot = NULL; + htab->sgotplt = NULL; + htab->srelgot = NULL; + htab->splt = NULL; + htab->srelplt = NULL; + htab->sdynbss = NULL; + htab->srelbss = NULL; + htab->sym_cache.abfd = NULL; + htab->tls_ldm_got.refcount = 0; + + return &htab->etab.root; +} + +/* Free the derived linker hash table. */ + +static void +elf_metag_link_hash_table_free (struct bfd_link_hash_table *btab) +{ + struct elf_metag_link_hash_table *htab + = (struct elf_metag_link_hash_table *) btab; + + bfd_hash_table_free (&htab->bstab); + _bfd_generic_link_hash_table_free (btab); +} + +/* Section name for stubs is the associated section name plus this + string. */ +#define STUB_SUFFIX ".stub" + +/* Build a name for an entry in the stub hash table. */ + +static char * +metag_stub_name (const asection *input_section, + const asection *sym_sec, + const struct elf_metag_link_hash_entry *hh, + const Elf_Internal_Rela *rel) +{ + char *stub_name; + bfd_size_type len; + + if (hh) + { + len = 8 + 1 + strlen (hh->eh.root.root.string) + 1 + 8 + 1; + stub_name = bfd_malloc (len); + if (stub_name != NULL) + { + sprintf (stub_name, "%08x_%s+%x", + input_section->id & 0xffffffff, + hh->eh.root.root.string, + (int) rel->r_addend & 0xffffffff); + } + } + else + { + len = 8 + 1 + 8 + 1 + 8 + 1 + 8 + 1; + stub_name = bfd_malloc (len); + if (stub_name != NULL) + { + sprintf (stub_name, "%08x_%x:%x+%x", + input_section->id & 0xffffffff, + sym_sec->id & 0xffffffff, + (int) ELF32_R_SYM (rel->r_info) & 0xffffffff, + (int) rel->r_addend & 0xffffffff); + } + } + return stub_name; +} + +/* Look up an entry in the stub hash. Stub entries are cached because + creating the stub name takes a bit of time. */ + +static struct elf_metag_stub_hash_entry * +metag_get_stub_entry (const asection *input_section, + const asection *sym_sec, + struct elf_metag_link_hash_entry *hh, + const Elf_Internal_Rela *rel, + struct elf_metag_link_hash_table *htab) +{ + struct elf_metag_stub_hash_entry *hsh; + const asection *id_sec; + + /* If this input section is part of a group of sections sharing one + stub section, then use the id of the first section in the group. + Stub names need to include a section id, as there may well be + more than one stub used to reach say, printf, and we need to + distinguish between them. */ + id_sec = htab->stub_group[input_section->id].link_sec; + + if (hh != NULL && hh->hsh_cache != NULL + && hh->hsh_cache->hh == hh + && hh->hsh_cache->id_sec == id_sec) + { + hsh = hh->hsh_cache; + } + else + { + char *stub_name; + + stub_name = metag_stub_name (id_sec, sym_sec, hh, rel); + if (stub_name == NULL) + return NULL; + + hsh = metag_stub_hash_lookup (&htab->bstab, + stub_name, FALSE, FALSE); + + if (hh != NULL) + hh->hsh_cache = hsh; + + free (stub_name); + } + + return hsh; +} + +/* Add a new stub entry to the stub hash. Not all fields of the new + stub entry are initialised. */ + +static struct elf_metag_stub_hash_entry * +metag_add_stub (const char *stub_name, + asection *section, + struct elf_metag_link_hash_table *htab) +{ + asection *link_sec; + asection *stub_sec; + struct elf_metag_stub_hash_entry *hsh; + + link_sec = htab->stub_group[section->id].link_sec; + stub_sec = htab->stub_group[section->id].stub_sec; + if (stub_sec == NULL) + { + stub_sec = htab->stub_group[link_sec->id].stub_sec; + if (stub_sec == NULL) + { + size_t namelen; + bfd_size_type len; + char *s_name; + + namelen = strlen (link_sec->name); + len = namelen + sizeof (STUB_SUFFIX); + s_name = bfd_alloc (htab->stub_bfd, len); + if (s_name == NULL) + return NULL; + + memcpy (s_name, link_sec->name, namelen); + memcpy (s_name + namelen, STUB_SUFFIX, sizeof (STUB_SUFFIX)); + + stub_sec = (*htab->add_stub_section) (s_name, link_sec); + if (stub_sec == NULL) + return NULL; + htab->stub_group[link_sec->id].stub_sec = stub_sec; + } + htab->stub_group[section->id].stub_sec = stub_sec; + } + + /* Enter this entry into the linker stub hash table. */ + hsh = metag_stub_hash_lookup (&htab->bstab, stub_name, + TRUE, FALSE); + if (hsh == NULL) + { + (*_bfd_error_handler) (_("%B: cannot create stub entry %s"), + section->owner, + stub_name); + return NULL; + } + + hsh->stub_sec = stub_sec; + hsh->stub_offset = 0; + hsh->id_sec = link_sec; + return hsh; +} + +/* Check a signed integer value can be represented in the given number + of bits. */ + +static bfd_boolean +within_signed_range (int value, unsigned int bits) +{ + int min_val = -(1 << (bits - 1)); + int max_val = (1 << (bits - 1)) - 1; + return (value <= max_val) && (value >= min_val); +} + +/* Perform a relocation as part of a final link. */ + +static bfd_reloc_status_type +metag_final_link_relocate (reloc_howto_type *howto, + bfd *input_bfd, + asection *input_section, + bfd_byte *contents, + Elf_Internal_Rela *rel, + bfd_vma relocation, + struct elf_metag_link_hash_entry *hh, + struct elf_metag_link_hash_table *htab, + asection *sym_sec) +{ + bfd_reloc_status_type r = bfd_reloc_ok; + bfd_byte *hit_data = contents + rel->r_offset; + int opcode, op_shift, op_extended, l1, l2; + bfd_signed_vma srel, addend = rel->r_addend; + struct elf_metag_stub_hash_entry *hsh = NULL; + bfd_vma location; + + /* Find out where we are and where we're going. */ + location = (rel->r_offset + + input_section->output_offset + + input_section->output_section->vma); + + switch (howto->type) + { + case R_METAG_RELBRANCH: + case R_METAG_RELBRANCH_PLT: + /* Make it a pc relative offset. */ + relocation -= location; + break; + case R_METAG_TLS_GD: + case R_METAG_TLS_IE: + relocation -= elf_gp (input_section->output_section->owner); + break; + default: + break; + } + + switch (howto->type) + { + case R_METAG_RELBRANCH_PLT: + case R_METAG_RELBRANCH: + opcode = bfd_get_32 (input_bfd, hit_data); + + srel = (bfd_signed_vma) relocation; + srel += addend; + + /* If the branch is out of reach, then redirect the + call to the local stub for this function. */ + if (srel > ((1 << (BRANCH_BITS + 1)) - 1) || + (srel < - (1 << (BRANCH_BITS + 1)))) + { + if (sym_sec == NULL) + break; + + hsh = metag_get_stub_entry (input_section, sym_sec, + hh, rel, htab); + if (hsh == NULL) + return bfd_reloc_undefined; + + /* Munge up the value and addend so that we call the stub + rather than the procedure directly. */ + srel = (hsh->stub_offset + + hsh->stub_sec->output_offset + + hsh->stub_sec->output_section->vma); + srel -= location; + } + + srel = srel >> 2; + + if (!within_signed_range (srel, BRANCH_BITS)) + { + if (hh && hh->eh.root.type == bfd_link_hash_undefweak) + srel = 0; + else + return bfd_reloc_overflow; + } + + opcode &= ~(0x7ffff << 5); + opcode |= ((srel & 0x7ffff) << 5); + + bfd_put_32 (input_bfd, opcode, hit_data); + break; + case R_METAG_GETSETOFF: + case R_METAG_GETSET_GOT: + case R_METAG_GETSET_GOTOFF: + opcode = bfd_get_32 (input_bfd, hit_data); + + srel = (bfd_signed_vma) relocation; + srel += addend; + + /* Is this a standard or extended GET/SET? */ + if ((opcode & 0xf0000000) == 0xa0000000) + { + /* Extended GET/SET. */ + l1 = opcode & 0x2; + l2 = opcode & 0x4; + op_extended = 1; + } + else + { + /* Standard GET/SET. */ + l1 = opcode & 0x01000000; + l2 = opcode & 0x04000000; + op_extended = 0; + } + + /* Calculate the width of the GET/SET and how much we need to + shift the result by. */ + if (l2) + if (l1) + op_shift = 3; + else + op_shift = 2; + else + if (l1) + op_shift = 1; + else + op_shift = 0; + + /* GET/SET offsets are scaled by the width of the transfer. */ + srel = srel >> op_shift; + + /* Extended GET/SET has signed 12 bits of offset, standard has + signed 6 bits. */ + if (op_extended) + { + if (!within_signed_range (srel, 12)) + { + if (hh && hh->eh.root.type == bfd_link_hash_undefweak) + srel = 0; + else + return bfd_reloc_overflow; + } + opcode &= ~(0xfff << 7); + opcode |= ((srel & 0xfff) << 7); + } + else + { + if (!within_signed_range (srel, 5)) + { + if (hh && hh->eh.root.type == bfd_link_hash_undefweak) + srel = 0; + else + return bfd_reloc_overflow; + } + opcode &= ~(0x3f << 8); + opcode |= ((srel & 0x3f) << 8); + } + + bfd_put_32 (input_bfd, opcode, hit_data); + break; + case R_METAG_TLS_GD: + case R_METAG_TLS_LDM: + opcode = bfd_get_32 (input_bfd, hit_data); + + if ((bfd_signed_vma)relocation < 0) + { + /* sign extend immediate */ + if ((opcode & 0xf2000001) == 0x02000000) + { + /* ADD De.e,Dx.r,#I16 */ + /* set SE bit */ + opcode |= (1 << 1); + } else + return bfd_reloc_overflow; + } + + bfd_put_32 (input_bfd, opcode, hit_data); + + r = _bfd_final_link_relocate (howto, input_bfd, input_section, + contents, rel->r_offset, + relocation, rel->r_addend); + break; + default: + r = _bfd_final_link_relocate (howto, input_bfd, input_section, + contents, rel->r_offset, + relocation, rel->r_addend); + } + + return r; +} + +/* This is defined because R_METAG_NONE != 0... + See RELOC_AGAINST_DISCARDED_SECTION for details. */ +#define METAG_RELOC_AGAINST_DISCARDED_SECTION(info, input_bfd, input_section, \ + rel, relend, howto, contents) \ + { \ + _bfd_clear_contents (howto, input_bfd, input_section, \ + contents + rel->r_offset); \ + \ + if (info->relocatable \ + && (input_section->flags & SEC_DEBUGGING)) \ + { \ + /* Only remove relocations in debug sections since other \ + sections may require relocations. */ \ + Elf_Internal_Shdr *rel_hdr; \ + \ + rel_hdr = _bfd_elf_single_rel_hdr (input_section->output_section); \ + \ + /* Avoid empty output section. */ \ + if (rel_hdr->sh_size > rel_hdr->sh_entsize) \ + { \ + rel_hdr->sh_size -= rel_hdr->sh_entsize; \ + rel_hdr = _bfd_elf_single_rel_hdr (input_section); \ + rel_hdr->sh_size -= rel_hdr->sh_entsize; \ + \ + memmove (rel, rel + 1, (relend - rel) * sizeof (*rel)); \ + \ + input_section->reloc_count--; \ + relend--; \ + rel--; \ + continue; \ + } \ + } \ + \ + rel->r_info = R_METAG_NONE; \ + rel->r_addend = 0; \ + continue; \ + } + +/* Relocate a META ELF section. + +The RELOCATE_SECTION function is called by the new ELF backend linker +to handle the relocations for a section. + +The relocs are always passed as Rela structures; if the section +actually uses Rel structures, the r_addend field will always be +zero. + +This function is responsible for adjusting the section contents as +necessary, and (if using Rela relocs and generating a relocatable +output file) adjusting the reloc addend as necessary. + +This function does not have to worry about setting the reloc +address or the reloc symbol index. + +LOCAL_SYMS is a pointer to the swapped in local symbols. + +LOCAL_SECTIONS is an array giving the section in the input file +corresponding to the st_shndx field of each local symbol. + +The global hash table entry for the global symbols can be found +via elf_sym_hashes (input_bfd). + +When generating relocatable output, this function must handle +STB_LOCAL/STT_SECTION symbols specially. The output symbol is +going to be the section symbol corresponding to the output +section, which means that the addend must be adjusted +accordingly. */ + +static bfd_boolean +elf_metag_relocate_section (bfd *output_bfd, + struct bfd_link_info *info, + bfd *input_bfd, + asection *input_section, + bfd_byte *contents, + Elf_Internal_Rela *relocs, + Elf_Internal_Sym *local_syms, + asection **local_sections) +{ + bfd_vma *local_got_offsets; + Elf_Internal_Shdr *symtab_hdr; + struct elf_link_hash_entry **eh_syms; + struct elf_metag_link_hash_table *htab; + Elf_Internal_Rela *rel; + Elf_Internal_Rela *relend; + asection *sreloc; + + symtab_hdr = & elf_tdata (input_bfd)->symtab_hdr; + eh_syms = elf_sym_hashes (input_bfd); + relend = relocs + input_section->reloc_count; + + htab = metag_link_hash_table (info); + local_got_offsets = elf_local_got_offsets (input_bfd); + + sreloc = NULL; + + for (rel = relocs; rel < relend; rel ++) + { + reloc_howto_type *howto; + unsigned long r_symndx; + Elf_Internal_Sym *sym; + asection *sec; + struct elf_metag_link_hash_entry *hh; + bfd_vma relocation; + bfd_reloc_status_type r; + const char *name; + int r_type; + + r_type = ELF32_R_TYPE (rel->r_info); + + if (r_type == R_METAG_GNU_VTINHERIT + || r_type == R_METAG_GNU_VTENTRY + || r_type == R_METAG_NONE) + continue; + + r_symndx = ELF32_R_SYM (rel->r_info); + + howto = elf_metag_howto_table + ELF32_R_TYPE (rel->r_info); + hh = NULL; + sym = NULL; + sec = NULL; + + if (r_symndx < symtab_hdr->sh_info) + { + sym = local_syms + r_symndx; + sec = local_sections [r_symndx]; + relocation = _bfd_elf_rela_local_sym (output_bfd, sym, &sec, rel); + + name = bfd_elf_string_from_elf_section + (input_bfd, symtab_hdr->sh_link, sym->st_name); + name = (name == NULL) ? bfd_section_name (input_bfd, sec) : name; + } + else + { + struct elf_link_hash_entry *eh; + bfd_boolean unresolved_reloc, warned; + + RELOC_FOR_GLOBAL_SYMBOL (info, input_bfd, input_section, rel, + r_symndx, symtab_hdr, eh_syms, + eh, sec, relocation, + unresolved_reloc, warned); + + name = eh->root.root.string; + hh = (struct elf_metag_link_hash_entry *) eh; + } + + if (sec != NULL && discarded_section (sec)) + METAG_RELOC_AGAINST_DISCARDED_SECTION (info, input_bfd, input_section, + rel, relend, howto, contents); + + if (info->relocatable) + continue; + + switch (r_type) + { + case R_METAG_ADDR32: + case R_METAG_RELBRANCH: + if ((input_section->flags & SEC_ALLOC) == 0) + break; + + if ((info->shared + && r_symndx != STN_UNDEF + && (input_section->flags & SEC_ALLOC) != 0 + && (r_type != R_METAG_RELBRANCH + || !SYMBOL_CALLS_LOCAL (info, &hh->eh))) + || (!info->shared + && hh != NULL + && hh->eh.dynindx != -1 + && !hh->eh.non_got_ref + && ((hh->eh.def_dynamic + && !hh->eh.def_regular) + || hh->eh.root.type == bfd_link_hash_undefweak + || hh->eh.root.type == bfd_link_hash_undefined))) + { + Elf_Internal_Rela outrel; + bfd_boolean skip, relocate; + bfd_byte *loc; + + /* When generating a shared object, these relocations + are copied into the output file to be resolved at run + time. */ + + sreloc = elf_section_data (input_section)->sreloc; + BFD_ASSERT (sreloc != NULL); + + skip = FALSE; + relocate = FALSE; + + outrel.r_offset = _bfd_elf_section_offset (output_bfd, + info, + input_section, + rel->r_offset); + if (outrel.r_offset == (bfd_vma) -1) + skip = TRUE; + else if (outrel.r_offset == (bfd_vma) -2) + skip = TRUE, relocate = TRUE; + outrel.r_offset += (input_section->output_section->vma + + input_section->output_offset); + + if (skip) + { + memset (&outrel, 0, sizeof outrel); + outrel.r_info = ELF32_R_INFO (0, R_METAG_NONE); + } + else if (r_type == R_METAG_RELBRANCH) + { + BFD_ASSERT (hh != NULL && hh->eh.dynindx != -1); + outrel.r_info = ELF32_R_INFO (hh->eh.dynindx, r_type); + outrel.r_addend = rel->r_addend; + } + else + { + /* h->dynindx may be -1 if this symbol was marked to + become local. */ + if (hh == NULL + || ((info->symbolic || hh->eh.dynindx == -1) + && hh->eh.def_regular)) + { + relocate = TRUE; + outrel.r_info = ELF32_R_INFO (0, R_METAG_RELATIVE); + outrel.r_addend = relocation + rel->r_addend; + } + else + { + BFD_ASSERT (hh->eh.dynindx != -1); + outrel.r_info = ELF32_R_INFO (hh->eh.dynindx, r_type); + outrel.r_addend = rel->r_addend; + } + } + + loc = sreloc->contents; + loc += sreloc->reloc_count * sizeof(Elf32_External_Rela); + bfd_elf32_swap_reloca_out (output_bfd, &outrel,loc); + ++sreloc->reloc_count; + + /* If this reloc is against an external symbol, we do + not want to fiddle with the addend. Otherwise, we + need to include the symbol value so that it becomes + an addend for the dynamic reloc. */ + if (! relocate) + continue; + } + break; + + case R_METAG_RELBRANCH_PLT: + /* Relocation is to the entry for this symbol in the + procedure linkage table. */ + + if (hh == NULL) + break; + + if (hh->eh.forced_local) + break; + + if (hh->eh.plt.offset == (bfd_vma) -1 || + htab->splt == NULL) + { + /* We didn't make a PLT entry for this symbol. This + happens when statically linking PIC code, or when + using -Bsymbolic. */ + break; + } + + relocation = (htab->splt->output_section->vma + + htab->splt->output_offset + + hh->eh.plt.offset); + break; + case R_METAG_HI16_GOTPC: + case R_METAG_LO16_GOTPC: + BFD_ASSERT (htab->sgot != NULL); + + relocation = (htab->sgot->output_section->vma + + htab->sgot->output_offset); + relocation += GOT_REG_OFFSET; + relocation -= (input_section->output_section->vma + + input_section->output_offset + + rel->r_offset); + break; + case R_METAG_HI16_GOTOFF: + case R_METAG_LO16_GOTOFF: + case R_METAG_GETSET_GOTOFF: + BFD_ASSERT (htab->sgot != NULL); + + relocation -= (htab->sgot->output_section->vma + + htab->sgot->output_offset); + relocation -= GOT_REG_OFFSET; + break; + case R_METAG_GETSET_GOT: + { + bfd_vma off; + bfd_boolean do_got = 0; + + /* Relocation is to the entry for this symbol in the + global offset table. */ + if (hh != NULL) + { + bfd_boolean dyn; + + off = hh->eh.got.offset; + dyn = htab->etab.dynamic_sections_created; + if (! WILL_CALL_FINISH_DYNAMIC_SYMBOL (dyn, info->shared, + &hh->eh)) + { + /* If we aren't going to call finish_dynamic_symbol, + then we need to handle initialisation of the .got + entry and create needed relocs here. Since the + offset must always be a multiple of 4, we use the + least significant bit to record whether we have + initialised it already. */ + if ((off & 1) != 0) + off &= ~1; + else + { + hh->eh.got.offset |= 1; + do_got = 1; + } + } + } + else + { + /* Local symbol case. */ + if (local_got_offsets == NULL) + abort (); + + off = local_got_offsets[r_symndx]; + + /* The offset must always be a multiple of 4. We use + the least significant bit to record whether we have + already generated the necessary reloc. */ + if ((off & 1) != 0) + off &= ~1; + else + { + local_got_offsets[r_symndx] |= 1; + do_got = 1; + } + } + + if (do_got) + { + if (info->shared) + { + /* Output a dynamic relocation for this GOT entry. + In this case it is relative to the base of the + object because the symbol index is zero. */ + Elf_Internal_Rela outrel; + bfd_byte *loc; + asection *s = htab->srelgot; + + outrel.r_offset = (off + + htab->sgot->output_offset + + htab->sgot->output_section->vma); + outrel.r_info = ELF32_R_INFO (0, R_METAG_RELATIVE); + outrel.r_addend = relocation; + loc = s->contents; + loc += s->reloc_count++ * sizeof (Elf32_External_Rela); + bfd_elf32_swap_reloca_out (output_bfd, &outrel, loc); + } + else + bfd_put_32 (output_bfd, relocation, + htab->sgot->contents + off); + } + + if (off >= (bfd_vma) -2) + abort (); + + relocation = off - GOT_REG_OFFSET; + } + break; + case R_METAG_TLS_GD: + case R_METAG_TLS_IE: + { + /* XXXMJF There is room here for optimisations. For example + converting from GD->IE, etc. */ + bfd_vma off; + int indx; + char tls_type; + + if (htab->sgot == NULL) + abort(); + + indx = 0; + if (hh != NULL) + { + bfd_boolean dyn; + dyn = htab->etab.dynamic_sections_created; + + if (WILL_CALL_FINISH_DYNAMIC_SYMBOL (dyn, info->shared, &hh->eh) + && (!info->shared + || !SYMBOL_REFERENCES_LOCAL (info, &hh->eh))) + { + indx = hh->eh.dynindx; + } + off = hh->eh.got.offset; + tls_type = hh->tls_type; + } + else + { + /* Local symbol case. */ + if (local_got_offsets == NULL) + abort (); + + off = local_got_offsets[r_symndx]; + tls_type = metag_elf_local_got_tls_type (input_bfd) [r_symndx]; + } + + if (tls_type == GOT_UNKNOWN) + abort(); + + if ((off & 1) != 0) + off &= ~1; + else + { + bfd_boolean need_relocs = FALSE; + Elf_Internal_Rela outrel; + bfd_byte *loc = NULL; + int cur_off = off; + + /* The GOT entries have not been initialized yet. Do it + now, and emit any relocations. If both an IE GOT and a + GD GOT are necessary, we emit the GD first. */ + + if ((info->shared || indx != 0) + && (hh == NULL + || ELF_ST_VISIBILITY (hh->eh.other) == STV_DEFAULT + || hh->eh.root.type != bfd_link_hash_undefweak)) + { + need_relocs = TRUE; + loc = htab->srelgot->contents; + /* FIXME (CAO): Should this be reloc_count++ ? */ + loc += htab->srelgot->reloc_count * sizeof (Elf32_External_Rela); + } + + if (tls_type & GOT_TLS_GD) + { + if (need_relocs) + { + outrel.r_offset = (cur_off + + htab->sgot->output_section->vma + + htab->sgot->output_offset); + outrel.r_info = ELF32_R_INFO (indx, R_METAG_TLS_DTPMOD); + outrel.r_addend = 0; + bfd_put_32 (output_bfd, 0, htab->sgot->contents + cur_off); + + bfd_elf32_swap_reloca_out (output_bfd, &outrel, loc); + htab->srelgot->reloc_count++; + loc += sizeof (Elf32_External_Rela); + + if (indx == 0) + bfd_put_32 (output_bfd, 0, + htab->sgot->contents + cur_off + 4); + else + { + bfd_put_32 (output_bfd, 0, + htab->sgot->contents + cur_off + 4); + outrel.r_info = ELF32_R_INFO (indx, + R_METAG_TLS_DTPOFF); + outrel.r_offset += 4; + bfd_elf32_swap_reloca_out (output_bfd, + &outrel, loc); + htab->srelgot->reloc_count++; + loc += sizeof (Elf32_External_Rela); + } + } + else + { + /* We don't support changing the TLS model. */ + abort (); + } + + cur_off += 8; + } + + if (tls_type & GOT_TLS_IE) + { + if (need_relocs) + { + outrel.r_offset = (cur_off + + htab->sgot->output_section->vma + + htab->sgot->output_offset); + outrel.r_info = ELF32_R_INFO (indx, R_METAG_TLS_TPOFF); + + if (indx == 0) + outrel.r_addend = relocation - dtpoff_base (info); + else + outrel.r_addend = 0; + + bfd_elf32_swap_reloca_out (output_bfd, &outrel, loc); + htab->srelgot->reloc_count++; + loc += sizeof (Elf32_External_Rela); + } + else + bfd_put_32 (output_bfd, tpoff (info, relocation), + htab->sgot->contents + cur_off); + + cur_off += 4; + } + + if (hh != NULL) + hh->eh.got.offset |= 1; + else + local_got_offsets[r_symndx] |= 1; + } + + /* Add the base of the GOT to the relocation value. */ + relocation = off - GOT_REG_OFFSET; + + break; + } + + case R_METAG_TLS_IENONPIC_HI16: + case R_METAG_TLS_IENONPIC_LO16: + case R_METAG_TLS_LE_HI16: + case R_METAG_TLS_LE_LO16: + if (info->shared) + { + (*_bfd_error_handler) + (_("%B(%A+0x%lx): R_METAG_TLS_LE/IENONPIC relocation not permitted in shared object"), + input_bfd, input_section, + (long) rel->r_offset, howto->name); + return FALSE; + } + else + relocation = tpoff (info, relocation); + break; + case R_METAG_TLS_LDO_HI16: + case R_METAG_TLS_LDO_LO16: + if (! info->shared) + relocation = tpoff (info, relocation); + else + relocation -= dtpoff_base (info); + break; + case R_METAG_TLS_LDM: + { + bfd_vma off; + + if (htab->sgot == NULL) + abort(); + off = htab->tls_ldm_got.offset; + if (off & 1) + off &= ~1; + else + { + Elf_Internal_Rela outrel; + bfd_byte *loc; + + outrel.r_offset = (off + + htab->sgot->output_section->vma + + htab->sgot->output_offset); + + outrel.r_addend = 0; + outrel.r_info = ELF32_R_INFO (0, R_METAG_TLS_DTPMOD); + loc = htab->srelgot->contents; + loc += htab->srelgot->reloc_count++ * sizeof (Elf32_External_Rela); + bfd_elf32_swap_reloca_out (output_bfd, &outrel, loc); + htab->tls_ldm_got.offset |= 1; + } + + relocation = off - GOT_REG_OFFSET; + break; + } + default: + break; + } + + r = metag_final_link_relocate (howto, input_bfd, input_section, + contents, rel, relocation, hh, htab, + sec); + + if (r != bfd_reloc_ok) + { + const char * msg = (const char *) NULL; + + switch (r) + { + case bfd_reloc_overflow: + r = info->callbacks->reloc_overflow + (info, (hh ? &hh->eh.root : NULL), name, howto->name, + (bfd_vma) 0, input_bfd, input_section, rel->r_offset); + break; + + case bfd_reloc_undefined: + r = info->callbacks->undefined_symbol + (info, name, input_bfd, input_section, rel->r_offset, + TRUE); + break; + + case bfd_reloc_outofrange: + msg = _("internal error: out of range error"); + break; + + case bfd_reloc_notsupported: + msg = _("internal error: unsupported relocation error"); + break; + + case bfd_reloc_dangerous: + msg = _("internal error: dangerous relocation"); + break; + + default: + msg = _("internal error: unknown error"); + break; + } + + if (msg) + r = info->callbacks->warning + (info, msg, name, input_bfd, input_section, rel->r_offset); + + if (! r) + return FALSE; + } + } + + return TRUE; +} + +/* Create the .plt and .got sections, and set up our hash table + short-cuts to various dynamic sections. */ + +static bfd_boolean +elf_metag_create_dynamic_sections (bfd *abfd, struct bfd_link_info *info) +{ + struct elf_metag_link_hash_table *htab; + struct elf_link_hash_entry *eh; + struct bfd_link_hash_entry *bh; + const struct elf_backend_data *bed = get_elf_backend_data (abfd); + + /* Don't try to create the .plt and .got twice. */ + htab = metag_link_hash_table (info); + if (htab->splt != NULL) + return TRUE; + + /* Call the generic code to do most of the work. */ + if (! _bfd_elf_create_dynamic_sections (abfd, info)) + return FALSE; + + htab->sgot = bfd_get_section_by_name (abfd, ".got"); + if (! htab->sgot) + return FALSE; + + htab->sgotplt = bfd_make_section_with_flags (abfd, ".got.plt", + (SEC_ALLOC | SEC_LOAD | + SEC_HAS_CONTENTS | + SEC_IN_MEMORY | + SEC_LINKER_CREATED)); + if (htab->sgotplt == NULL + || !bfd_set_section_alignment (abfd, htab->sgotplt, 2)) + return FALSE; + + /* Define the symbol __GLOBAL_OFFSET_TABLE__ at the start of the .got + section. We don't do this in the linker script because we don't want + to define the symbol if we are not creating a global offset table. */ + bh = NULL; + if (!(_bfd_generic_link_add_one_symbol + (info, abfd, "__GLOBAL_OFFSET_TABLE__", BSF_GLOBAL, htab->sgot, + (bfd_vma) 0, NULL, FALSE, bed->collect, &bh))) + return FALSE; + eh = (struct elf_link_hash_entry *) bh; + eh->def_regular = 1; + eh->type = STT_OBJECT; + eh->other = STV_HIDDEN; + + if (! info->executable + && ! bfd_elf_link_record_dynamic_symbol (info, eh)) + return FALSE; + + elf_hash_table (info)->hgot = eh; + + htab->splt = bfd_get_section_by_name (abfd, ".plt"); + htab->srelplt = bfd_get_section_by_name (abfd, ".rela.plt"); + + htab->srelgot = bfd_get_section_by_name (abfd, ".rela.got"); + + htab->sdynbss = bfd_get_section_by_name (abfd, ".dynbss"); + htab->srelbss = bfd_get_section_by_name (abfd, ".rela.bss"); + + return TRUE; +} + +/* Look through the relocs for a section during the first phase, and + calculate needed space in the global offset table, procedure linkage + table, and dynamic reloc sections. At this point we haven't + necessarily read all the input files. */ + +static bfd_boolean +elf_metag_check_relocs (bfd *abfd, + struct bfd_link_info *info, + asection *sec, + const Elf_Internal_Rela *relocs) +{ + Elf_Internal_Shdr *symtab_hdr; + struct elf_link_hash_entry **eh_syms; + const Elf_Internal_Rela *rel; + const Elf_Internal_Rela *rel_end; + struct elf_metag_link_hash_table *htab; + asection *sreloc; + bfd *dynobj; + int tls_type = GOT_UNKNOWN, old_tls_type = GOT_UNKNOWN; + + if (info->relocatable) + return TRUE; + + htab = metag_link_hash_table (info); + dynobj = htab->etab.dynobj; + symtab_hdr = &elf_tdata (abfd)->symtab_hdr; + eh_syms = elf_sym_hashes (abfd); + sreloc = NULL; + + if (htab == NULL) + return FALSE; + + rel_end = relocs + sec->reloc_count; + for (rel = relocs; rel < rel_end; rel++) + { + int r_type; + struct elf_metag_link_hash_entry *hh; + unsigned long r_symndx; + + r_symndx = ELF32_R_SYM (rel->r_info); + r_type = ELF32_R_TYPE (rel->r_info); + if (r_symndx < symtab_hdr->sh_info) + hh = NULL; + else + { + hh = (struct elf_metag_link_hash_entry *) + eh_syms[r_symndx - symtab_hdr->sh_info]; + while (hh->eh.root.type == bfd_link_hash_indirect + || hh->eh.root.type == bfd_link_hash_warning) + hh = (struct elf_metag_link_hash_entry *) hh->eh.root.u.i.link; + } + + /* Some relocs require a global offset table. */ + if (htab->sgot == NULL) + { + switch (r_type) + { + case R_METAG_TLS_GD: + case R_METAG_TLS_LDM: + case R_METAG_TLS_IE: + if (info->shared) + info->flags |= DF_STATIC_TLS; + /* Fall through. */ + + case R_METAG_HI16_GOTOFF: + case R_METAG_LO16_GOTOFF: + case R_METAG_GETSET_GOTOFF: + case R_METAG_GETSET_GOT: + case R_METAG_HI16_GOTPC: + case R_METAG_LO16_GOTPC: + if (dynobj == NULL) + htab->etab.dynobj = dynobj = abfd; + if (!elf_metag_create_dynamic_sections (dynobj, info)) + return FALSE; + break; + + default: + break; + } + } + + switch (r_type) + { + case R_METAG_TLS_IE: + case R_METAG_TLS_GD: + case R_METAG_GETSET_GOT: + switch (r_type) + { + default: + tls_type = GOT_NORMAL; + break; + case R_METAG_TLS_IE: + tls_type = GOT_TLS_IE; + break; + case R_METAG_TLS_GD: + tls_type = GOT_TLS_GD; + break; + } + + if (hh != NULL) + { + hh->eh.got.refcount += 1; + old_tls_type = hh->tls_type; + } + else + { + bfd_signed_vma *local_got_refcounts; + + /* This is a global offset table entry for a local + symbol. */ + local_got_refcounts = elf_local_got_refcounts (abfd); + if (local_got_refcounts == NULL) + { + bfd_size_type size; + + size = symtab_hdr->sh_info; + size *= sizeof (bfd_signed_vma); + /* Add in space to store the local GOT TLS types. */ + size += symtab_hdr->sh_info; + local_got_refcounts = ((bfd_signed_vma *) + bfd_zalloc (abfd, size)); + if (local_got_refcounts == NULL) + return FALSE; + elf_local_got_refcounts (abfd) = local_got_refcounts; + memset (metag_elf_local_got_tls_type (abfd), + GOT_UNKNOWN, symtab_hdr->sh_info); + } + local_got_refcounts[r_symndx] += 1; + old_tls_type = metag_elf_local_got_tls_type (abfd) [r_symndx]; + } + + if (old_tls_type != tls_type) + { + if (hh != NULL) + { + hh->tls_type = tls_type; + } + else + { + metag_elf_local_got_tls_type (abfd) [r_symndx] = tls_type; + } + } + + break; + + case R_METAG_TLS_LDM: + metag_link_hash_table (info)->tls_ldm_got.refcount += 1; + break; + + case R_METAG_RELBRANCH_PLT: + /* This symbol requires a procedure linkage table entry. We + actually build the entry in adjust_dynamic_symbol, + because this might be a case of linking PIC code without + linking in any dynamic objects, in which case we don't + need to generate a procedure linkage table after all. */ + + /* If this is a local symbol, we resolve it directly without + creating a procedure linkage table entry. */ + if (hh == NULL) + continue; + + if (hh->eh.forced_local) + break; + + hh->eh.needs_plt = 1; + hh->eh.plt.refcount += 1; + break; + + case R_METAG_ADDR32: + case R_METAG_HIADDR16: + case R_METAG_LOADDR16: + case R_METAG_RELBRANCH: + case R_METAG_GETSETOFF: + if (hh != NULL && !info->shared) + { + hh->eh.non_got_ref = 1; + hh->eh.plt.refcount += 1; + } + + /* If we are creating a shared library, and this is a reloc + against a global symbol, or a non PC relative reloc + against a local symbol, then we need to copy the reloc + into the shared library. However, if we are linking with + -Bsymbolic, we do not need to copy a reloc against a + global symbol which is defined in an object we are + including in the link (i.e., DEF_REGULAR is set). At + this point we have not seen all the input files, so it is + possible that DEF_REGULAR is not set now but will be set + later (it is never cleared). We account for that + possibility below by storing information in the + dyn_relocs field of the hash table entry. A similar + situation occurs when creating shared libraries and symbol + visibility changes render the symbol local. + + If on the other hand, we are creating an executable, we + may need to keep relocations for symbols satisfied by a + dynamic library if we manage to avoid copy relocs for the + symbol. */ + if ((info->shared + && (sec->flags & SEC_ALLOC) != 0 + && (r_type != R_METAG_RELBRANCH + || (hh != NULL + && (! info->symbolic + || hh->eh.root.type == bfd_link_hash_defweak + || !hh->eh.def_regular)))) + || (!info->shared + && (sec->flags & SEC_ALLOC) != 0 + && hh != NULL + && (hh->eh.root.type == bfd_link_hash_defweak + || !hh->eh.def_regular))) + { + struct elf_metag_dyn_reloc_entry *hdh_p; + struct elf_metag_dyn_reloc_entry **hdh_head; + + if (dynobj == NULL) + htab->etab.dynobj = dynobj = abfd; + + /* When creating a shared object, we must copy these + relocs into the output file. We create a reloc + section in dynobj and make room for the reloc. */ + if (sreloc == NULL) + { + sreloc = _bfd_elf_make_dynamic_reloc_section + (sec, htab->etab.dynobj, 2, abfd, /*rela?*/ TRUE); + + if (sreloc == NULL) + { + bfd_set_error (bfd_error_bad_value); + return FALSE; + } + + elf_section_data (sec)->sreloc = sreloc; + } + + /* If this is a global symbol, we count the number of + relocations we need for this symbol. */ + if (hh != NULL) + hdh_head = &((struct elf_metag_link_hash_entry *) hh)->dyn_relocs; + else + { + /* Track dynamic relocs needed for local syms too. */ + asection *sr; + void *vpp; + Elf_Internal_Sym *isym; + + isym = bfd_sym_from_r_symndx (&htab->sym_cache, + abfd, r_symndx); + if (isym == NULL) + return FALSE; + + sr = bfd_section_from_elf_index (abfd, isym->st_shndx); + if (sr == NULL) + sr = sec; + + vpp = &elf_section_data (sr)->local_dynrel; + hdh_head = (struct elf_metag_dyn_reloc_entry **) vpp; + } + + hdh_p = *hdh_head; + if (hdh_p == NULL || hdh_p->sec != sec) + { + hdh_p = ((struct elf_metag_dyn_reloc_entry *) + bfd_alloc (dynobj, sizeof *hdh_p)); + if (hdh_p == NULL) + return FALSE; + hdh_p->hdh_next = *hdh_head; + *hdh_head = hdh_p; + hdh_p->sec = sec; + hdh_p->count = 0; + hdh_p->relative_count = 0; + } + + hdh_p->count += 1; + if (ELF32_R_TYPE (rel->r_info) == R_METAG_RELBRANCH) + hdh_p->relative_count += 1; + } + break; + + /* This relocation describes the C++ object vtable hierarchy. + Reconstruct it for later use during GC. */ + case R_METAG_GNU_VTINHERIT: + if (!bfd_elf_gc_record_vtinherit (abfd, sec, &hh->eh, + rel->r_offset)) + return FALSE; + break; + + /* This relocation describes which C++ vtable entries are actually + used. Record for later use during GC. */ + case R_METAG_GNU_VTENTRY: + BFD_ASSERT (hh != NULL); + if (hh != NULL + && !bfd_elf_gc_record_vtentry (abfd, sec, &hh->eh, rel->r_addend)) + return FALSE; + break; + } + } + + return TRUE; +} + +/* Copy the extra info we tack onto an elf_link_hash_entry. */ + +static void +elf_metag_copy_indirect_symbol (struct bfd_link_info *info, + struct elf_link_hash_entry *eh_dir, + struct elf_link_hash_entry *eh_ind) +{ + struct elf_metag_link_hash_entry *hh_dir, *hh_ind; + + hh_dir = metag_elf_hash_entry (eh_dir); + hh_ind = metag_elf_hash_entry (eh_ind); + + if (hh_ind->dyn_relocs != NULL) + { + if (hh_dir->dyn_relocs != NULL) + { + struct elf_metag_dyn_reloc_entry **hdh_pp; + struct elf_metag_dyn_reloc_entry *hdh_p; + + if (eh_ind->root.type == bfd_link_hash_indirect) + abort (); + + /* Add reloc counts against the weak sym to the strong sym + list. Merge any entries against the same section. */ + for (hdh_pp = &hh_ind->dyn_relocs; (hdh_p = *hdh_pp) != NULL; ) + { + struct elf_metag_dyn_reloc_entry *hdh_q; + + for (hdh_q = hh_dir->dyn_relocs; hdh_q != NULL; + hdh_q = hdh_q->hdh_next) + if (hdh_q->sec == hdh_p->sec) + { + hdh_q->relative_count += hdh_p->relative_count; + hdh_q->count += hdh_p->count; + *hdh_pp = hdh_p->hdh_next; + break; + } + if (hdh_q == NULL) + hdh_pp = &hdh_p->hdh_next; + } + *hdh_pp = hh_dir->dyn_relocs; + } + + hh_dir->dyn_relocs = hh_ind->dyn_relocs; + hh_ind->dyn_relocs = NULL; + } + + if (eh_ind->root.type == bfd_link_hash_indirect + && eh_dir->got.refcount <= 0) + { + hh_dir->tls_type = hh_ind->tls_type; + hh_ind->tls_type = GOT_UNKNOWN; + } + + _bfd_elf_link_hash_copy_indirect (info, eh_dir, eh_ind); +} + +/* Adjust a symbol defined by a dynamic object and referenced by a + regular object. The current definition is in some section of the + dynamic object, but we're not including those sections. We have to + change the definition to something the rest of the link can + understand. */ + +static bfd_boolean +elf_metag_adjust_dynamic_symbol (struct bfd_link_info *info, + struct elf_link_hash_entry *eh) +{ + struct elf_metag_link_hash_table *htab; + struct elf_metag_link_hash_entry *hh; + struct elf_metag_dyn_reloc_entry *hdh_p; + asection *s; + + /* If this is a function, put it in the procedure linkage table. We + will fill in the contents of the procedure linkage table later, + when we know the address of the .got section. */ + if (eh->type == STT_FUNC + || eh->needs_plt) + { + if (eh->plt.refcount <= 0 + || SYMBOL_CALLS_LOCAL (info, eh) + || (ELF_ST_VISIBILITY (eh->other) != STV_DEFAULT + && eh->root.type == bfd_link_hash_undefweak)) + { + /* This case can occur if we saw a PLT reloc in an input + file, but the symbol was never referred to by a dynamic + object. In such a case, we don't actually need to build + a procedure linkage table, and we can just do a PCREL + reloc instead. */ + eh->plt.offset = (bfd_vma) -1; + eh->needs_plt = 0; + } + + return TRUE; + } + else + eh->plt.offset = (bfd_vma) -1; + + /* If this is a weak symbol, and there is a real definition, the + processor independent code will have arranged for us to see the + real definition first, and we can just use the same value. */ + if (eh->u.weakdef != NULL) + { + if (eh->u.weakdef->root.type != bfd_link_hash_defined + && eh->u.weakdef->root.type != bfd_link_hash_defweak) + abort (); + eh->root.u.def.section = eh->u.weakdef->root.u.def.section; + eh->root.u.def.value = eh->u.weakdef->root.u.def.value; + eh->non_got_ref = eh->u.weakdef->non_got_ref; + return TRUE; + } + + /* This is a reference to a symbol defined by a dynamic object which + is not a function. */ + + /* If we are creating a shared library, we must presume that the + only references to the symbol are via the global offset table. + For such cases we need not do anything here; the relocations will + be handled correctly by relocate_section. */ + if (info->shared) + return TRUE; + + /* If there are no references to this symbol that do not use the + GOT, we don't need to generate a copy reloc. */ + if (!eh->non_got_ref) + return TRUE; + + /* If -z nocopyreloc was given, we won't generate them either. */ + if (info->nocopyreloc) + { + eh->non_got_ref = 0; + return TRUE; + } + + hh = (struct elf_metag_link_hash_entry *) eh; + for (hdh_p = hh->dyn_relocs; hdh_p != NULL; hdh_p = hdh_p->hdh_next) + { + s = hdh_p->sec->output_section; + if (s != NULL && (s->flags & SEC_READONLY) != 0) + break; + } + + /* If we didn't find any dynamic relocs in read-only sections, then + we'll be keeping the dynamic relocs and avoiding the copy reloc. */ + if (hdh_p == NULL) + { + eh->non_got_ref = 0; + return TRUE; + } + + if (eh->size == 0) + { + (*_bfd_error_handler) (_("dynamic variable `%s' is zero size"), + hh->eh.root.root.string); + return TRUE; + } + + /* We must allocate the symbol in our .dynbss section, which will + become part of the .bss section of the executable. There will be + an entry for this symbol in the .dynsym section. The dynamic + object will contain position independent code, so all references + from the dynamic object to this symbol will go through the global + offset table. The dynamic linker will use the .dynsym entry to + determine the address it must put in the global offset table, so + both the dynamic object and the regular object will refer to the + same memory location for the variable. */ + + htab = metag_link_hash_table (info); + + /* We must generate a COPY reloc to tell the dynamic linker to + copy the initial value out of the dynamic object and into the + runtime process image. */ + if ((eh->root.u.def.section->flags & SEC_ALLOC) != 0) + { + htab->srelbss->size += sizeof (Elf32_External_Rela); + eh->needs_copy = 1; + } + + s = htab->sdynbss; + + return _bfd_elf_adjust_dynamic_copy (eh, s); +} + +/* Allocate space in .plt, .got and associated reloc sections for + global syms. */ + +static bfd_boolean +allocate_dynrelocs (struct elf_link_hash_entry *eh, void *inf) +{ + struct bfd_link_info *info; + struct elf_metag_link_hash_table *htab; + struct elf_metag_link_hash_entry *hh; + struct elf_metag_dyn_reloc_entry *hdh_p; + + if (eh->root.type == bfd_link_hash_indirect) + return TRUE; + + if (eh->root.type == bfd_link_hash_warning) + eh = (struct elf_link_hash_entry *) eh->root.u.i.link; + + info = inf; + htab = metag_link_hash_table (info); + + if (htab->etab.dynamic_sections_created + && eh->plt.refcount > 0) + { + /* Make sure this symbol is output as a dynamic symbol. + Undefined weak syms won't yet be marked as dynamic. */ + if (eh->dynindx == -1 + && !eh->forced_local) + { + if (! bfd_elf_link_record_dynamic_symbol (info, eh)) + return FALSE; + } + + if (WILL_CALL_FINISH_DYNAMIC_SYMBOL (1, info->shared, eh)) + { + asection *s = htab->splt; + + /* If this is the first .plt entry, make room for the special + first entry. */ + if (s->size == 0) + s->size += PLT_ENTRY_SIZE; + + eh->plt.offset = s->size; + + /* If this symbol is not defined in a regular file, and we are + not generating a shared library, then set the symbol to this + location in the .plt. This is required to make function + pointers compare as equal between the normal executable and + the shared library. */ + if (! info->shared + && !eh->def_regular) + { + eh->root.u.def.section = s; + eh->root.u.def.value = eh->plt.offset; + } + + /* Make room for this entry. */ + s->size += PLT_ENTRY_SIZE; + + /* We also need to make an entry in the .got.plt section, which + will be placed in the .got section by the linker script. */ + htab->sgotplt->size += 4; + + /* We also need to make an entry in the .rel.plt section. */ + htab->srelplt->size += sizeof (Elf32_External_Rela); + } + else + { + eh->plt.offset = (bfd_vma) -1; + eh->needs_plt = 0; + } + } + else + { + eh->plt.offset = (bfd_vma) -1; + eh->needs_plt = 0; + } + + if (eh->got.refcount > 0) + { + asection *s; + bfd_boolean dyn; + int tls_type = metag_elf_hash_entry (eh)->tls_type; + + /* Make sure this symbol is output as a dynamic symbol. + Undefined weak syms won't yet be marked as dynamic. */ + if (eh->dynindx == -1 + && !eh->forced_local) + { + if (! bfd_elf_link_record_dynamic_symbol (info, eh)) + return FALSE; + } + + s = htab->sgot; + + eh->got.offset = s->size; + s->size += 4; + /* R_METAG_TLS_GD needs 2 consecutive GOT slots. */ + if (tls_type == GOT_TLS_GD) + s->size += 4; + dyn = htab->etab.dynamic_sections_created; + /* R_METAG_TLS_IE needs one dynamic relocation if dynamic, + R_METAG_TLS_GD needs one if local symbol and two if global. */ + if ((tls_type == GOT_TLS_GD && eh->dynindx == -1) + || (tls_type == GOT_TLS_IE && dyn)) + htab->srelgot->size += sizeof (Elf32_External_Rela); + else if (tls_type == GOT_TLS_GD) + htab->srelgot->size += 2 * sizeof (Elf32_External_Rela); + else if (WILL_CALL_FINISH_DYNAMIC_SYMBOL (dyn, info->shared, eh)) + htab->srelgot->size += sizeof (Elf32_External_Rela); + } + else + eh->got.offset = (bfd_vma) -1; + + hh = (struct elf_metag_link_hash_entry *) eh; + if (hh->dyn_relocs == NULL) + return TRUE; + + /* If this is a -Bsymbolic shared link, then we need to discard all + space allocated for dynamic pc-relative relocs against symbols + defined in a regular object. For the normal shared case, discard + space for relocs that have become local due to symbol visibility + changes. */ + if (info->shared) + { + if (SYMBOL_CALLS_LOCAL (info, eh)) + { + struct elf_metag_dyn_reloc_entry **hdh_pp; + + for (hdh_pp = &hh->dyn_relocs; (hdh_p = *hdh_pp) != NULL; ) + { + hdh_p->count -= hdh_p->relative_count; + hdh_p->relative_count = 0; + if (hdh_p->count == 0) + *hdh_pp = hdh_p->hdh_next; + else + hdh_pp = &hdh_p->hdh_next; + } + } + + /* Also discard relocs on undefined weak syms with non-default + visibility. */ + if (hh->dyn_relocs != NULL + && eh->root.type == bfd_link_hash_undefweak) + { + if (ELF_ST_VISIBILITY (eh->other) != STV_DEFAULT) + hh->dyn_relocs = NULL; + + /* Make sure undefined weak symbols are output as a dynamic + symbol in PIEs. */ + else if (eh->dynindx == -1 + && !eh->forced_local) + { + if (! bfd_elf_link_record_dynamic_symbol (info, eh)) + return FALSE; + } + } + } + else + { + /* For the non-shared case, discard space for relocs against + symbols which turn out to need copy relocs or are not + dynamic. */ + if (!eh->non_got_ref + && ((eh->def_dynamic + && !eh->def_regular) + || (htab->etab.dynamic_sections_created + && (eh->root.type == bfd_link_hash_undefweak + || eh->root.type == bfd_link_hash_undefined)))) + { + /* Make sure this symbol is output as a dynamic symbol. + Undefined weak syms won't yet be marked as dynamic. */ + if (eh->dynindx == -1 + && !eh->forced_local) + { + if (! bfd_elf_link_record_dynamic_symbol (info, eh)) + return FALSE; + } + + /* If that succeeded, we know we'll be keeping all the + relocs. */ + if (eh->dynindx != -1) + goto keep; + } + + hh->dyn_relocs = NULL; + return TRUE; + + keep: ; + } + + /* Finally, allocate space. */ + for (hdh_p = hh->dyn_relocs; hdh_p != NULL; hdh_p = hdh_p->hdh_next) + { + asection *sreloc = elf_section_data (hdh_p->sec)->sreloc; + sreloc->size += hdh_p->count * sizeof (Elf32_External_Rela); + } + + return TRUE; +} + +/* Find any dynamic relocs that apply to read-only sections. */ + +static bfd_boolean +readonly_dynrelocs (struct elf_link_hash_entry *eh, void *inf) +{ + struct elf_metag_link_hash_entry *hh; + struct elf_metag_dyn_reloc_entry *hdh_p; + + if (eh->root.type == bfd_link_hash_warning) + eh = (struct elf_link_hash_entry *) eh->root.u.i.link; + + hh = (struct elf_metag_link_hash_entry *) eh; + for (hdh_p = hh->dyn_relocs; hdh_p != NULL; hdh_p = hdh_p->hdh_next) + { + asection *s = hdh_p->sec->output_section; + + if (s != NULL && (s->flags & SEC_READONLY) != 0) + { + struct bfd_link_info *info = inf; + + info->flags |= DF_TEXTREL; + + /* Not an error, just cut short the traversal. */ + return FALSE; + } + } + return TRUE; +} + +/* Set the sizes of the dynamic sections. */ + +static bfd_boolean +elf_metag_size_dynamic_sections (bfd *output_bfd ATTRIBUTE_UNUSED, + struct bfd_link_info *info) +{ + struct elf_metag_link_hash_table *htab; + bfd *dynobj; + bfd *ibfd; + asection *s; + bfd_boolean relocs; + + htab = metag_link_hash_table (info); + dynobj = htab->etab.dynobj; + if (dynobj == NULL) + abort (); + + if (htab->etab.dynamic_sections_created) + { + /* Set the contents of the .interp section to the interpreter. */ + if (info->executable) + { + s = bfd_get_section_by_name (dynobj, ".interp"); + if (s == NULL) + abort (); + s->size = sizeof ELF_DYNAMIC_INTERPRETER; + s->contents = (unsigned char *) ELF_DYNAMIC_INTERPRETER; + } + } + + /* Set up .got offsets for local syms, and space for local dynamic + relocs. */ + for (ibfd = info->input_bfds; ibfd != NULL; ibfd = ibfd->link_next) + { + bfd_signed_vma *local_got; + bfd_signed_vma *end_local_got; + bfd_size_type locsymcount; + Elf_Internal_Shdr *symtab_hdr; + asection *srel; + char *local_tls_type; + + if (bfd_get_flavour (ibfd) != bfd_target_elf_flavour) + continue; + + for (s = ibfd->sections; s != NULL; s = s->next) + { + struct elf_metag_dyn_reloc_entry *hdh_p; + + for (hdh_p = ((struct elf_metag_dyn_reloc_entry *) + elf_section_data (s)->local_dynrel); + hdh_p != NULL; + hdh_p = hdh_p->hdh_next) + { + if (!bfd_is_abs_section (hdh_p->sec) + && bfd_is_abs_section (hdh_p->sec->output_section)) + { + /* Input section has been discarded, either because + it is a copy of a linkonce section or due to + linker script /DISCARD/, so we'll be discarding + the relocs too. */ + } + else if (hdh_p->count != 0) + { + srel = elf_section_data (hdh_p->sec)->sreloc; + srel->size += hdh_p->count * sizeof (Elf32_External_Rela); + if ((hdh_p->sec->output_section->flags & SEC_READONLY) != 0) + info->flags |= DF_TEXTREL; + } + } + } + + local_got = elf_local_got_refcounts (ibfd); + if (!local_got) + continue; + + symtab_hdr = &elf_tdata (ibfd)->symtab_hdr; + locsymcount = symtab_hdr->sh_info; + end_local_got = local_got + locsymcount; + local_tls_type = metag_elf_local_got_tls_type (ibfd); + s = htab->sgot; + srel = htab->srelgot; + for (; local_got < end_local_got; ++local_got) + { + if (*local_got > 0) + { + *local_got = s->size; + s->size += GOT_ENTRY_SIZE; + /* R_METAG_TLS_GD relocs need 2 consecutive GOT entries. */ + if (*local_tls_type == GOT_TLS_GD) + s->size += 4; + if (info->shared) + srel->size += sizeof (Elf32_External_Rela); + } + else + *local_got = (bfd_vma) -1; + ++local_tls_type; + } + } + + if (htab->tls_ldm_got.refcount > 0) + { + /* Allocate 2 got entries and 1 dynamic reloc for R_METAG_TLS_LDM + reloc. */ + htab->tls_ldm_got.offset = htab->sgot->size; + htab->sgot->size += 8; + htab->srelgot->size += sizeof (Elf32_External_Rela); + } + else + htab->tls_ldm_got.offset = -1; + + /* Allocate global sym .plt and .got entries, and space for global + sym dynamic relocs. */ + elf_link_hash_traverse (&htab->etab, allocate_dynrelocs, info); + + /* We now have determined the sizes of the various dynamic sections. + Allocate memory for them. */ + relocs = FALSE; + for (s = dynobj->sections; s != NULL; s = s->next) + { + bfd_boolean reloc_section = FALSE; + + if ((s->flags & SEC_LINKER_CREATED) == 0) + continue; + + if (s == htab->splt + || s == htab->sgot + || s == htab->sgotplt + || s == htab->sdynbss) + { + /* Strip this section if we don't need it; see the + comment below. */ + } + else if (CONST_STRNEQ (bfd_get_section_name (dynobj, s), ".rela")) + { + if (s->size != 0 && s != htab->srelplt) + relocs = TRUE; + + /* We use the reloc_count field as a counter if we need + to copy relocs into the output file. */ + s->reloc_count = 0; + reloc_section = TRUE; + } + else + { + /* It's not one of our sections, so don't allocate space. */ + continue; + } + + if (s->size == 0) + { + /* If we don't need this section, strip it from the + output file. This is mostly to handle .rela.bss and + .rela.plt. We must create both sections in + create_dynamic_sections, because they must be created + before the linker maps input sections to output + sections. The linker does that before + adjust_dynamic_symbol is called, and it is that + function which decides whether anything needs to go + into these sections. */ + s->flags |= SEC_EXCLUDE; + continue; + } + + if ((s->flags & SEC_HAS_CONTENTS) == 0) + continue; + + /* Allocate memory for the section contents. */ + s->contents = bfd_zalloc (dynobj, s->size); + if (s->contents == NULL) + return FALSE; + else if (reloc_section) + { + unsigned char *contents = s->contents; + Elf32_External_Rela reloc; + + /* Fill the reloc section with a R_METAG_NONE type reloc. */ + memset(&reloc, 0, sizeof(Elf32_External_Rela)); + reloc.r_info[0] = R_METAG_NONE; + for (; contents < (s->contents + s->size); + contents += sizeof(Elf32_External_Rela)) + { + memcpy(contents, &reloc, sizeof(Elf32_External_Rela)); + } + } + } + + if (htab->etab.dynamic_sections_created) + { + /* Add some entries to the .dynamic section. We fill in the + values later, in elf_metag_finish_dynamic_sections, but we + must add the entries now so that we get the correct size for + the .dynamic section. The DT_DEBUG entry is filled in by the + dynamic linker and used by the debugger. */ +#define add_dynamic_entry(TAG, VAL) \ + _bfd_elf_add_dynamic_entry (info, TAG, VAL) + + if (!add_dynamic_entry (DT_PLTGOT, 0)) + return FALSE; + + if (info->executable) + { + if (!add_dynamic_entry (DT_DEBUG, 0)) + return FALSE; + } + + if (htab->srelplt->size != 0) + { + if (!add_dynamic_entry (DT_PLTRELSZ, 0) + || !add_dynamic_entry (DT_PLTREL, DT_RELA) + || !add_dynamic_entry (DT_JMPREL, 0)) + return FALSE; + } + + if (relocs) + { + if (!add_dynamic_entry (DT_RELA, 0) + || !add_dynamic_entry (DT_RELASZ, 0) + || !add_dynamic_entry (DT_RELAENT, sizeof (Elf32_External_Rela))) + return FALSE; + + /* If any dynamic relocs apply to a read-only section, + then we need a DT_TEXTREL entry. */ + if ((info->flags & DF_TEXTREL) == 0) + elf_link_hash_traverse (&htab->etab, readonly_dynrelocs, info); + + if ((info->flags & DF_TEXTREL) != 0) + { + if (!add_dynamic_entry (DT_TEXTREL, 0)) + return FALSE; + } + } + } +#undef add_dynamic_entry + + return TRUE; +} + +/* Finish up dynamic symbol handling. We set the contents of various + dynamic sections here. */ + +static bfd_boolean +elf_metag_finish_dynamic_symbol (bfd *output_bfd, + struct bfd_link_info *info, + struct elf_link_hash_entry *eh, + Elf_Internal_Sym *sym) +{ + struct elf_metag_link_hash_table *htab; + Elf_Internal_Rela rel; + bfd_byte *loc; + + htab = metag_link_hash_table (info); + + if (eh->plt.offset != (bfd_vma) -1) + { + asection *splt; + asection *sgot; + asection *srela; + + bfd_vma plt_index; + bfd_vma got_offset; + bfd_vma got_entry; + + if (eh->plt.offset & 1) + abort (); + + BFD_ASSERT (eh->dynindx != -1); + + splt = htab->splt; + sgot = htab->sgotplt; + srela = htab->srelplt; + BFD_ASSERT (splt != NULL && sgot != NULL && srela != NULL); + + /* Get the index in the procedure linkage table which + corresponds to this symbol. This is the index of this symbol + in all the symbols for which we are making plt entries. The + first entry in the procedure linkage table is reserved. */ + plt_index = eh->plt.offset / PLT_ENTRY_SIZE - 1; + + /* Get the offset into the .got.plt table of the entry that + corresponds to this function. */ + got_offset = plt_index * GOT_ENTRY_SIZE; + + BFD_ASSERT (got_offset < (1 << 16)); + + got_entry = sgot->output_section->vma + + sgot->output_offset + + got_offset; + + BFD_ASSERT (plt_index < (1 << 16)); + + /* Fill in the entry in the procedure linkage table. */ + if (! info->shared) + { + bfd_put_32 (output_bfd, + (plt_entry[0] + | (((got_entry >> 16) & 0xffff) << 3)), + splt->contents + eh->plt.offset); + bfd_put_32 (output_bfd, + (plt_entry[1] + | ((got_entry & 0xffff) << 3)), + splt->contents + eh->plt.offset + 4); + bfd_put_32 (output_bfd, plt_entry[2], + splt->contents + eh->plt.offset + 8); + bfd_put_32 (output_bfd, + (plt_entry[3] | (plt_index << 3)), + splt->contents + eh->plt.offset + 12); + bfd_put_32 (output_bfd, + (plt_entry[4] + | ((((unsigned int) ((- (eh->plt.offset + 16)) >> 2)) & 0x7ffff) << 5)), + splt->contents + eh->plt.offset + 16); + } + else + { + bfd_vma addr = got_entry - (splt->output_section->vma + + splt->output_offset + eh->plt.offset); + + bfd_put_32 (output_bfd, + plt_pic_entry[0] | (((addr >> 16) & 0xffff) << 3), + splt->contents + eh->plt.offset); + bfd_put_32 (output_bfd, + plt_pic_entry[1] | ((addr & 0xffff) << 3), + splt->contents + eh->plt.offset + 4); + bfd_put_32 (output_bfd, plt_pic_entry[2], + splt->contents + eh->plt.offset + 8); + bfd_put_32 (output_bfd, + (plt_pic_entry[3] | (plt_index << 3)), + splt->contents + eh->plt.offset + 12); + bfd_put_32 (output_bfd, + (plt_pic_entry[4] + + ((((unsigned int) ((- (eh->plt.offset + 16)) >> 2)) & 0x7ffff) << 5)), + splt->contents + eh->plt.offset + 16); + } + + /* Fill in the entry in the global offset table. */ + bfd_put_32 (output_bfd, + (splt->output_section->vma + + splt->output_offset + + eh->plt.offset + + 12), /* offset within PLT entry */ + sgot->contents + got_offset); + + /* Fill in the entry in the .rela.plt section. */ + rel.r_offset = (sgot->output_section->vma + + sgot->output_offset + + got_offset); + rel.r_info = ELF32_R_INFO (eh->dynindx, R_METAG_JMP_SLOT); + rel.r_addend = 0; + loc = htab->srelplt->contents; + loc += plt_index * sizeof(Elf32_External_Rela); + bfd_elf32_swap_reloca_out (output_bfd, &rel, loc); + + if (!eh->def_regular) + { + /* Mark the symbol as undefined, rather than as defined in + the .plt section. Leave the value alone. */ + sym->st_shndx = SHN_UNDEF; + } + } + + if (eh->got.offset != (bfd_vma) -1 + && (metag_elf_hash_entry (eh)->tls_type & GOT_TLS_GD) == 0 + && (metag_elf_hash_entry (eh)->tls_type & GOT_TLS_IE) == 0) + { + /* This symbol has an entry in the global offset table. Set it + up. */ + + rel.r_offset = ((eh->got.offset &~ (bfd_vma) 1) + + htab->sgot->output_offset + + htab->sgot->output_section->vma); + + /* If this is a -Bsymbolic link and the symbol is defined + locally or was forced to be local because of a version file, + we just want to emit a RELATIVE reloc. The entry in the + global offset table will already have been initialized in the + relocate_section function. */ + if (info->shared + && (info->symbolic || eh->dynindx == -1) + && eh->def_regular) + { + rel.r_info = ELF32_R_INFO (0, R_METAG_RELATIVE); + rel.r_addend = (eh->root.u.def.value + + eh->root.u.def.section->output_offset + + eh->root.u.def.section->output_section->vma); + } + else + { + if ((eh->got.offset & 1) != 0) + abort (); + bfd_put_32 (output_bfd, 0, htab->sgot->contents + eh->got.offset); + rel.r_info = ELF32_R_INFO (eh->dynindx, R_METAG_GLOB_DAT); + rel.r_addend = 0; + } + + loc = htab->srelgot->contents; + loc += htab->srelgot->reloc_count++ * sizeof (Elf32_External_Rela); + bfd_elf32_swap_reloca_out (output_bfd, &rel, loc); + } + + if (eh->needs_copy) + { + asection *s; + + /* This symbol needs a copy reloc. Set it up. */ + + if (! (eh->dynindx != -1 + && (eh->root.type == bfd_link_hash_defined + || eh->root.type == bfd_link_hash_defweak))) + abort (); + + s = htab->srelbss; + + rel.r_offset = (eh->root.u.def.value + + eh->root.u.def.section->output_offset + + eh->root.u.def.section->output_section->vma); + rel.r_addend = 0; + rel.r_info = ELF32_R_INFO (eh->dynindx, R_METAG_COPY); + loc = s->contents + s->reloc_count++ * sizeof (Elf32_External_Rela); + bfd_elf32_swap_reloca_out (output_bfd, &rel, loc); + } + + /* Mark _DYNAMIC and _GLOBAL_OFFSET_TABLE_ as absolute. */ + if (eh->root.root.string[0] == '_' + && (strcmp (eh->root.root.string, "_DYNAMIC") == 0 + || eh == htab->etab.hgot)) + { + sym->st_shndx = SHN_ABS; + } + + return TRUE; +} + +/* Set the Meta ELF ABI version. */ + +static void +elf_metag_post_process_headers (bfd * abfd, struct bfd_link_info * link_info ATTRIBUTE_UNUSED) +{ + Elf_Internal_Ehdr * i_ehdrp; /* ELF file header, internal form. */ + + i_ehdrp = elf_elfheader (abfd); + i_ehdrp->e_ident[EI_ABIVERSION] = METAG_ELF_ABI_VERSION; +} + +/* Used to decide how to sort relocs in an optimal manner for the + dynamic linker, before writing them out. */ + +static enum elf_reloc_type_class +elf_metag_reloc_type_class (const Elf_Internal_Rela *rela) +{ + switch ((int) ELF32_R_TYPE (rela->r_info)) + { + case R_METAG_RELATIVE: + return reloc_class_relative; + case R_METAG_JMP_SLOT: + return reloc_class_plt; + case R_METAG_COPY: + return reloc_class_copy; + default: + return reloc_class_normal; + } +} + +/* Finish up the dynamic sections. */ + +static bfd_boolean +elf_metag_finish_dynamic_sections (bfd *output_bfd, + struct bfd_link_info *info) +{ + bfd *dynobj; + struct elf_metag_link_hash_table *htab; + asection *sdyn; + + htab = metag_link_hash_table (info); + dynobj = htab->etab.dynobj; + + sdyn = bfd_get_section_by_name (dynobj, ".dynamic"); + + if (htab->etab.dynamic_sections_created) + { + asection *splt; + Elf32_External_Dyn *dyncon, *dynconend; + + if (sdyn == NULL) + abort (); + + dyncon = (Elf32_External_Dyn *) sdyn->contents; + dynconend = (Elf32_External_Dyn *) (sdyn->contents + sdyn->size); + for (; dyncon < dynconend; dyncon++) + { + Elf_Internal_Dyn dyn; + asection *s; + + bfd_elf32_swap_dyn_in (dynobj, dyncon, &dyn); + + switch (dyn.d_tag) + { + default: + continue; + + case DT_PLTGOT: + s = htab->sgot->output_section; + BFD_ASSERT (s != NULL); + dyn.d_un.d_ptr = s->vma + htab->sgot->output_offset; + bfd_elf32_swap_dyn_out (output_bfd, &dyn, dyncon); + break; + + case DT_JMPREL: + s = htab->srelplt->output_section; + BFD_ASSERT (s != NULL); + dyn.d_un.d_ptr = s->vma; + bfd_elf32_swap_dyn_out (output_bfd, &dyn, dyncon); + break; + + case DT_PLTRELSZ: + s = htab->srelplt; + dyn.d_un.d_val = s->size; + bfd_elf32_swap_dyn_out (output_bfd, &dyn, dyncon); + break; + + case DT_RELASZ: + /* Don't count procedure linkage table relocs in the + overall reloc count. */ + if (htab->srelplt) { + s = htab->srelplt; + dyn.d_un.d_val -= s->size; + } + bfd_elf32_swap_dyn_out (output_bfd, &dyn, dyncon); + break; + + case DT_RELA: + /* We may not be using the standard ELF linker script. + If .rela.plt is the first .rela section, we adjust + DT_RELA to not include it. */ + if (htab->srelplt) { + s = htab->srelplt; + if (dyn.d_un.d_ptr == s->output_section->vma + s->output_offset) + dyn.d_un.d_ptr += s->size; + } + bfd_elf32_swap_dyn_out (output_bfd, &dyn, dyncon); + break; + } + + } + + /* Fill in the first entry in the procedure linkage table. */ + splt = htab->splt; + if (splt && splt->size > 0) + { + unsigned long addr; + /* addr = .got + 4 */ + addr = htab->sgot->output_section->vma + + htab->sgot->output_offset + 4; + if (info->shared) + { + addr -= splt->output_section->vma + splt->output_offset; + bfd_put_32 (output_bfd, + plt0_pic_entry[0] | (((addr >> 16) & 0xffff) << 3), + splt->contents); + bfd_put_32 (output_bfd, + plt0_pic_entry[1] | ((addr & 0xffff) << 3), + splt->contents + 4); + bfd_put_32 (output_bfd, plt0_pic_entry[2], splt->contents + 8); + bfd_put_32 (output_bfd, plt0_pic_entry[3], splt->contents + 12); + bfd_put_32 (output_bfd, plt0_pic_entry[4], splt->contents + 16); + } + else + { + bfd_put_32 (output_bfd, + plt0_entry[0] | (((addr >> 16) & 0xffff) << 3), + splt->contents); + bfd_put_32 (output_bfd, + plt0_entry[1] | ((addr & 0xffff) << 3), + splt->contents + 4); + bfd_put_32 (output_bfd, plt0_entry[2], splt->contents + 8); + bfd_put_32 (output_bfd, plt0_entry[3], splt->contents + 12); + bfd_put_32 (output_bfd, plt0_entry[4], splt->contents + 16); + } + + elf_section_data (splt->output_section)->this_hdr.sh_entsize = + PLT_ENTRY_SIZE; + } + } + + if (htab->sgot != NULL && htab->sgot->size != 0) + { + /* Fill in the first entry in the global offset table. + We use it to point to our dynamic section, if we have one. */ + bfd_put_32 (output_bfd, + sdyn ? sdyn->output_section->vma + sdyn->output_offset : 0, + htab->sgot->contents); + + /* The second entry is reserved for use by the dynamic linker. */ + memset (htab->sgot->contents + GOT_ENTRY_SIZE, 0, GOT_ENTRY_SIZE); + + /* Set .got entry size. */ + elf_section_data (htab->sgot->output_section) + ->this_hdr.sh_entsize = GOT_ENTRY_SIZE; + } + + return TRUE; +} + +/* Return the section that should be marked against GC for a given + relocation. */ + +static asection * +elf_metag_gc_mark_hook (asection *sec, + struct bfd_link_info *info, + Elf_Internal_Rela *rela, + struct elf_link_hash_entry *hh, + Elf_Internal_Sym *sym) +{ + if (hh != NULL) + switch ((unsigned int) ELF32_R_TYPE (rela->r_info)) + { + case R_METAG_GNU_VTINHERIT: + case R_METAG_GNU_VTENTRY: + return NULL; + } + + return _bfd_elf_gc_mark_hook (sec, info, rela, hh, sym); +} + +/* Update the got and plt entry reference counts for the section being + removed. */ + +static bfd_boolean +elf_metag_gc_sweep_hook (bfd *abfd ATTRIBUTE_UNUSED, + struct bfd_link_info *info ATTRIBUTE_UNUSED, + asection *sec ATTRIBUTE_UNUSED, + const Elf_Internal_Rela *relocs ATTRIBUTE_UNUSED) +{ + Elf_Internal_Shdr *symtab_hdr; + struct elf_link_hash_entry **eh_syms; + bfd_signed_vma *local_got_refcounts; + bfd_signed_vma *local_plt_refcounts; + const Elf_Internal_Rela *rel, *relend; + + if (info->relocatable) + return TRUE; + + elf_section_data (sec)->local_dynrel = NULL; + + symtab_hdr = &elf_tdata (abfd)->symtab_hdr; + eh_syms = elf_sym_hashes (abfd); + local_got_refcounts = elf_local_got_refcounts (abfd); + local_plt_refcounts = local_got_refcounts; + if (local_plt_refcounts != NULL) + local_plt_refcounts += symtab_hdr->sh_info; + + relend = relocs + sec->reloc_count; + for (rel = relocs; rel < relend; rel++) + { + unsigned long r_symndx; + unsigned int r_type; + struct elf_link_hash_entry *eh = NULL; + + r_symndx = ELF32_R_SYM (rel->r_info); + if (r_symndx >= symtab_hdr->sh_info) + { + struct elf_metag_link_hash_entry *hh; + struct elf_metag_dyn_reloc_entry **hdh_pp; + struct elf_metag_dyn_reloc_entry *hdh_p; + + eh = eh_syms[r_symndx - symtab_hdr->sh_info]; + while (eh->root.type == bfd_link_hash_indirect + || eh->root.type == bfd_link_hash_warning) + eh = (struct elf_link_hash_entry *) eh->root.u.i.link; + hh = (struct elf_metag_link_hash_entry *) eh; + + for (hdh_pp = &hh->dyn_relocs; (hdh_p = *hdh_pp) != NULL; + hdh_pp = &hdh_p->hdh_next) + if (hdh_p->sec == sec) + { + /* Everything must go for SEC. */ + *hdh_pp = hdh_p->hdh_next; + break; + } + } + + r_type = ELF32_R_TYPE (rel->r_info); + switch (r_type) + { + case R_METAG_TLS_LDM: + if (metag_link_hash_table (info)->tls_ldm_got.refcount > 0) + metag_link_hash_table (info)->tls_ldm_got.refcount -= 1; + break; + case R_METAG_TLS_IE: + case R_METAG_TLS_GD: + case R_METAG_GETSET_GOT: + if (eh != NULL) + { + if (eh->got.refcount > 0) + eh->got.refcount -= 1; + } + else if (local_got_refcounts != NULL) + { + if (local_got_refcounts[r_symndx] > 0) + local_got_refcounts[r_symndx] -= 1; + } + break; + + case R_METAG_RELBRANCH_PLT: + if (eh != NULL) + { + if (eh->plt.refcount > 0) + eh->plt.refcount -= 1; + } + break; + + case R_METAG_ADDR32: + case R_METAG_HIADDR16: + case R_METAG_LOADDR16: + case R_METAG_GETSETOFF: + case R_METAG_RELBRANCH: + if (eh != NULL) + { + struct elf_metag_link_hash_entry *hh; + struct elf_metag_dyn_reloc_entry **hdh_pp; + struct elf_metag_dyn_reloc_entry *hdh_p; + + if (!info->shared && eh->plt.refcount > 0) + eh->plt.refcount -= 1; + + hh = (struct elf_metag_link_hash_entry *) eh; + + for (hdh_pp = &hh->dyn_relocs; (hdh_p = *hdh_pp) != NULL; + hdh_pp = &hdh_p->hdh_next) + if (hdh_p->sec == sec) + { + if (ELF32_R_TYPE (rel->r_info) == R_METAG_RELBRANCH) + hdh_p->relative_count -= 1; + hdh_p->count -= 1; + if (hdh_p->count == 0) + *hdh_pp = hdh_p->hdh_next; + break; + } + } + break; + + default: + break; + } + } + + return TRUE; +} + +/* Determine the type of stub needed, if any, for a call. */ + +static enum elf_metag_stub_type +metag_type_of_stub (asection *input_sec, + const Elf_Internal_Rela *rel, + struct elf_metag_link_hash_entry *hh, + bfd_vma destination, + struct bfd_link_info *info ATTRIBUTE_UNUSED) +{ + bfd_vma location; + bfd_vma branch_offset; + bfd_vma max_branch_offset; + + if (hh != NULL && + !(hh->eh.root.type == bfd_link_hash_defined + || hh->eh.root.type == bfd_link_hash_defweak)) + return metag_stub_none; + + /* Determine where the call point is. */ + location = (input_sec->output_offset + + input_sec->output_section->vma + + rel->r_offset); + + branch_offset = destination - location; + + /* Determine if a long branch stub is needed. Meta branch offsets + are signed 19 bits 4 byte aligned. */ + max_branch_offset = (1 << (BRANCH_BITS-1)) << 2; + + if (branch_offset + max_branch_offset >= 2*max_branch_offset) + { + if (info->shared) + return metag_stub_long_branch_shared; + else + return metag_stub_long_branch; + } + + return metag_stub_none; +} + +#define MOVT_A0_3 0x82180005 +#define JUMP_A0_3 0xac180003 + +#define MOVT_A1LBP 0x83080005 +#define ADD_A1LBP 0x83080000 + +#define ADDT_A0_3_CPC 0x82980001 +#define ADD_A0_3_A0_3 0x82180000 +#define MOV_PC_A0_3 0xa3180ca0 + +static bfd_boolean +metag_build_one_stub (struct bfd_hash_entry *gen_entry, void *in_arg ATTRIBUTE_UNUSED) +{ + struct elf_metag_stub_hash_entry *hsh; + asection *stub_sec; + bfd *stub_bfd; + bfd_byte *loc; + bfd_vma sym_value; + int size; + + /* Massage our args to the form they really have. */ + hsh = (struct elf_metag_stub_hash_entry *) gen_entry; + + stub_sec = hsh->stub_sec; + + /* Make a note of the offset within the stubs for this entry. */ + hsh->stub_offset = stub_sec->size; + loc = stub_sec->contents + hsh->stub_offset; + + stub_bfd = stub_sec->owner; + + switch (hsh->stub_type) + { + case metag_stub_long_branch_shared: + /* A PIC long branch stub is an ADDT and an ADD instruction used to + calculate the jump target using A0.3 as a temporary. Then a MOV + to PC carries out the jump. */ + sym_value = (hsh->target_value + + hsh->target_section->output_offset + + hsh->target_section->output_section->vma + + hsh->addend); + + sym_value -= (hsh->stub_offset + + stub_sec->output_offset + + stub_sec->output_section->vma); + + bfd_put_32 (stub_bfd, ADDT_A0_3_CPC | (((sym_value >> 16) & 0xffff) << 3), + loc); + + bfd_put_32 (stub_bfd, ADD_A0_3_A0_3 | ((sym_value & 0xffff) << 3), + loc + 4); + + bfd_put_32 (stub_bfd, MOV_PC_A0_3, loc + 8); + + size = 12; + break; + case metag_stub_long_branch: + /* A standard long branch stub is a MOVT instruction followed by a + JUMP instruction using the A0.3 register as a temporary. This is + the same method used by the LDLK linker (patch.c). */ + sym_value = (hsh->target_value + + hsh->target_section->output_offset + + hsh->target_section->output_section->vma + + hsh->addend); + + bfd_put_32 (stub_bfd, MOVT_A0_3 | (((sym_value >> 16) & 0xffff) << 3), + loc); + + bfd_put_32 (stub_bfd, JUMP_A0_3 | ((sym_value & 0xffff) << 3), loc + 4); + + size = 8; + break; + default: + BFD_FAIL (); + return FALSE; + } + + stub_sec->size += size; + return TRUE; +} + +/* As above, but don't actually build the stub. Just bump offset so + we know stub section sizes. */ + +static bfd_boolean +metag_size_one_stub (struct bfd_hash_entry *gen_entry, void *in_arg ATTRIBUTE_UNUSED) +{ + struct elf_metag_stub_hash_entry *hsh; + int size = 0; + + /* Massage our args to the form they really have. */ + hsh = (struct elf_metag_stub_hash_entry *) gen_entry; + + if (hsh->stub_type == metag_stub_long_branch) + size = 8; + else if (hsh->stub_type == metag_stub_long_branch_shared) + size = 12; + + hsh->stub_sec->size += size; + return TRUE; +} + +/* Set up various things so that we can make a list of input sections + for each output section included in the link. Returns -1 on error, + 0 when no stubs will be needed, and 1 on success. */ + +int +elf_metag_setup_section_lists (bfd *output_bfd, struct bfd_link_info *info) +{ + bfd *input_bfd; + unsigned int bfd_count; + int top_id, top_index; + asection *section; + asection **input_list, **list; + bfd_size_type amt; + struct elf_metag_link_hash_table *htab = metag_link_hash_table (info); + + /* Count the number of input BFDs and find the top input section id. */ + for (input_bfd = info->input_bfds, bfd_count = 0, top_id = 0; + input_bfd != NULL; + input_bfd = input_bfd->link_next) + { + bfd_count += 1; + for (section = input_bfd->sections; + section != NULL; + section = section->next) + { + if (top_id < section->id) + top_id = section->id; + } + } + + htab->bfd_count = bfd_count; + + amt = sizeof (struct map_stub) * (top_id + 1); + htab->stub_group = bfd_zmalloc (amt); + if (htab->stub_group == NULL) + return -1; + + /* We can't use output_bfd->section_count here to find the top output + section index as some sections may have been removed, and + strip_excluded_output_sections doesn't renumber the indices. */ + for (section = output_bfd->sections, top_index = 0; + section != NULL; + section = section->next) + { + if (top_index < section->index) + top_index = section->index; + } + + htab->top_index = top_index; + amt = sizeof (asection *) * (top_index + 1); + input_list = bfd_malloc (amt); + htab->input_list = input_list; + if (input_list == NULL) + return -1; + + /* For sections we aren't interested in, mark their entries with a + value we can check later. */ + list = input_list + top_index; + do + *list = bfd_abs_section_ptr; + while (list-- != input_list); + + for (section = output_bfd->sections; + section != NULL; + section = section->next) + { + /* FIXME: This is a bit of hack. Currently our .ctors and .dtors + * have PC relative relocs in them but no code flag set. */ + if (((section->flags & SEC_CODE) != 0) || + strcmp(".ctors", section->name) || + strcmp(".dtors", section->name)) + input_list[section->index] = NULL; + } + + return 1; +} + +/* The linker repeatedly calls this function for each input section, + in the order that input sections are linked into output sections. + Build lists of input sections to determine groupings between which + we may insert linker stubs. */ + +void +elf_metag_next_input_section (struct bfd_link_info *info, asection *isec) +{ + struct elf_metag_link_hash_table *htab = metag_link_hash_table (info); + + if (isec->output_section->index <= htab->top_index) + { + asection **list = htab->input_list + isec->output_section->index; + if (*list != bfd_abs_section_ptr) + { + /* Steal the link_sec pointer for our list. */ +#define PREV_SEC(sec) (htab->stub_group[(sec)->id].link_sec) + /* This happens to make the list in reverse order, + which is what we want. */ + PREV_SEC (isec) = *list; + *list = isec; + } + } +} + +/* See whether we can group stub sections together. Grouping stub + sections may result in fewer stubs. More importantly, we need to + put all .init* and .fini* stubs at the beginning of the .init or + .fini output sections respectively, because glibc splits the + _init and _fini functions into multiple parts. Putting a stub in + the middle of a function is not a good idea. */ + +static void +group_sections (struct elf_metag_link_hash_table *htab, + bfd_size_type stub_group_size, + bfd_boolean stubs_always_before_branch) +{ + asection **list = htab->input_list + htab->top_index; + do + { + asection *tail = *list; + if (tail == bfd_abs_section_ptr) + continue; + while (tail != NULL) + { + asection *curr; + asection *prev; + bfd_size_type total; + bfd_boolean big_sec; + + curr = tail; + total = tail->size; + big_sec = total >= stub_group_size; + + while ((prev = PREV_SEC (curr)) != NULL + && ((total += curr->output_offset - prev->output_offset) + < stub_group_size)) + curr = prev; + + /* OK, the size from the start of CURR to the end is less + than stub_group_size bytes and thus can be handled by one stub + section. (or the tail section is itself larger than + stub_group_size bytes, in which case we may be toast.) + We should really be keeping track of the total size of + stubs added here, as stubs contribute to the final output + section size. */ + do + { + prev = PREV_SEC (tail); + /* Set up this stub group. */ + htab->stub_group[tail->id].link_sec = curr; + } + while (tail != curr && (tail = prev) != NULL); + + /* But wait, there's more! Input sections up to stub_group_size + bytes before the stub section can be handled by it too. + Don't do this if we have a really large section after the + stubs, as adding more stubs increases the chance that + branches may not reach into the stub section. */ + if (!stubs_always_before_branch && !big_sec) + { + total = 0; + while (prev != NULL + && ((total += tail->output_offset - prev->output_offset) + < stub_group_size)) + { + tail = prev; + prev = PREV_SEC (tail); + htab->stub_group[tail->id].link_sec = curr; + } + } + tail = prev; + } + } + while (list-- != htab->input_list); + free (htab->input_list); +#undef PREV_SEC +} + +/* Read in all local syms for all input bfds. + Returns -1 on error, 0 otherwise. */ + +static int +get_local_syms (bfd *output_bfd ATTRIBUTE_UNUSED, bfd *input_bfd, + struct bfd_link_info *info) +{ + unsigned int bfd_indx; + Elf_Internal_Sym *local_syms, **all_local_syms; + int stub_changed = 0; + struct elf_metag_link_hash_table *htab = metag_link_hash_table (info); + + /* We want to read in symbol extension records only once. To do this + we need to read in the local symbols in parallel and save them for + later use; so hold pointers to the local symbols in an array. */ + bfd_size_type amt = sizeof (Elf_Internal_Sym *) * htab->bfd_count; + all_local_syms = bfd_zmalloc (amt); + htab->all_local_syms = all_local_syms; + if (all_local_syms == NULL) + return -1; + + /* Walk over all the input BFDs, swapping in local symbols. */ + for (bfd_indx = 0; + input_bfd != NULL; + input_bfd = input_bfd->link_next, bfd_indx++) + { + Elf_Internal_Shdr *symtab_hdr; + + /* We'll need the symbol table in a second. */ + symtab_hdr = &elf_tdata (input_bfd)->symtab_hdr; + if (symtab_hdr->sh_info == 0) + continue; + + /* We need an array of the local symbols attached to the input bfd. */ + local_syms = (Elf_Internal_Sym *) symtab_hdr->contents; + if (local_syms == NULL) + { + local_syms = bfd_elf_get_elf_syms (input_bfd, symtab_hdr, + symtab_hdr->sh_info, 0, + NULL, NULL, NULL); + /* Cache them for elf_link_input_bfd. */ + symtab_hdr->contents = (unsigned char *) local_syms; + } + if (local_syms == NULL) + return -1; + + all_local_syms[bfd_indx] = local_syms; + } + + return stub_changed; +} + +/* Determine and set the size of the stub section for a final link. + +The basic idea here is to examine all the relocations looking for +PC-relative calls to a target that is unreachable with a "CALLR" +instruction. */ + +/* See elf32-hppa.c and elf64-ppc.c. */ + +bfd_boolean +elf_metag_size_stubs(bfd *output_bfd, bfd *stub_bfd, + struct bfd_link_info *info, + bfd_signed_vma group_size, + asection * (*add_stub_section) (const char *, asection *), + void (*layout_sections_again) (void)) +{ + bfd_size_type stub_group_size; + bfd_boolean stubs_always_before_branch; + bfd_boolean stub_changed; + struct elf_metag_link_hash_table *htab = metag_link_hash_table (info); + + /* Stash our params away. */ + htab->stub_bfd = stub_bfd; + htab->add_stub_section = add_stub_section; + htab->layout_sections_again = layout_sections_again; + stubs_always_before_branch = group_size < 0; + if (group_size < 0) + stub_group_size = -group_size; + else + stub_group_size = group_size; + if (stub_group_size == 1) + { + /* Default values. */ + /* FIXME: not sure what these values should be */ + if (stubs_always_before_branch) + { + stub_group_size = (1 << BRANCH_BITS); + } + else + { + stub_group_size = (1 << BRANCH_BITS); + } + } + + group_sections (htab, stub_group_size, stubs_always_before_branch); + + switch (get_local_syms (output_bfd, info->input_bfds, info)) + { + default: + if (htab->all_local_syms) + goto error_ret_free_local; + return FALSE; + + case 0: + stub_changed = FALSE; + break; + + case 1: + stub_changed = TRUE; + break; + } + + while (1) + { + bfd *input_bfd; + unsigned int bfd_indx; + asection *stub_sec; + + for (input_bfd = info->input_bfds, bfd_indx = 0; + input_bfd != NULL; + input_bfd = input_bfd->link_next, bfd_indx++) + { + Elf_Internal_Shdr *symtab_hdr; + asection *section; + Elf_Internal_Sym *local_syms; + + /* We'll need the symbol table in a second. */ + symtab_hdr = &elf_tdata (input_bfd)->symtab_hdr; + if (symtab_hdr->sh_info == 0) + continue; + + local_syms = htab->all_local_syms[bfd_indx]; + + /* Walk over each section attached to the input bfd. */ + for (section = input_bfd->sections; + section != NULL; + section = section->next) + { + Elf_Internal_Rela *internal_relocs, *irelaend, *irela; + + /* If there aren't any relocs, then there's nothing more + to do. */ + if ((section->flags & SEC_RELOC) == 0 + || section->reloc_count == 0) + continue; + + /* If this section is a link-once section that will be + discarded, then don't create any stubs. */ + if (section->output_section == NULL + || section->output_section->owner != output_bfd) + continue; + + /* Get the relocs. */ + internal_relocs + = _bfd_elf_link_read_relocs (input_bfd, section, NULL, NULL, + info->keep_memory); + if (internal_relocs == NULL) + goto error_ret_free_local; + + /* Now examine each relocation. */ + irela = internal_relocs; + irelaend = irela + section->reloc_count; + for (; irela < irelaend; irela++) + { + unsigned int r_type, r_indx; + enum elf_metag_stub_type stub_type; + struct elf_metag_stub_hash_entry *hsh; + asection *sym_sec; + bfd_vma sym_value; + bfd_vma destination; + struct elf_metag_link_hash_entry *hh; + char *stub_name; + const asection *id_sec; + + r_type = ELF32_R_TYPE (irela->r_info); + r_indx = ELF32_R_SYM (irela->r_info); + + if (r_type >= (unsigned int) R_METAG_MAX) + { + bfd_set_error (bfd_error_bad_value); + error_ret_free_internal: + if (elf_section_data (section)->relocs == NULL) + free (internal_relocs); + goto error_ret_free_local; + } + + /* Only look for stubs on CALLR and B instructions. */ + if (!(r_type == (unsigned int) R_METAG_RELBRANCH || + r_type == (unsigned int) R_METAG_RELBRANCH_PLT)) + continue; + + /* Now determine the call target, its name, value, + section. */ + sym_sec = NULL; + sym_value = 0; + destination = 0; + hh = NULL; + if (r_indx < symtab_hdr->sh_info) + { + /* It's a local symbol. */ + Elf_Internal_Sym *sym; + Elf_Internal_Shdr *hdr; + unsigned int shndx; + + sym = local_syms + r_indx; + if (ELF_ST_TYPE (sym->st_info) != STT_SECTION) + sym_value = sym->st_value; + shndx = sym->st_shndx; + if (shndx < elf_numsections (input_bfd)) + { + hdr = elf_elfsections (input_bfd)[shndx]; + sym_sec = hdr->bfd_section; + destination = (sym_value + irela->r_addend + + sym_sec->output_offset + + sym_sec->output_section->vma); + } + } + else + { + /* It's an external symbol. */ + int e_indx; + + e_indx = r_indx - symtab_hdr->sh_info; + hh = ((struct elf_metag_link_hash_entry *) + elf_sym_hashes (input_bfd)[e_indx]); + + while (hh->eh.root.type == bfd_link_hash_indirect + || hh->eh.root.type == bfd_link_hash_warning) + hh = ((struct elf_metag_link_hash_entry *) + hh->eh.root.u.i.link); + + if (hh->eh.root.type == bfd_link_hash_defined + || hh->eh.root.type == bfd_link_hash_defweak) + { + sym_sec = hh->eh.root.u.def.section; + sym_value = hh->eh.root.u.def.value; + if (hh->eh.plt.offset != (bfd_vma) -1 + && hh->eh.dynindx != -1 + && r_type == (unsigned int) R_METAG_RELBRANCH_PLT) + { + sym_sec = htab->splt; + sym_value = hh->eh.plt.offset; + } + + if (sym_sec->output_section != NULL) + destination = (sym_value + irela->r_addend + + sym_sec->output_offset + + sym_sec->output_section->vma); + else + continue; + } + else if (hh->eh.root.type == bfd_link_hash_undefweak) + { + if (! info->shared) + continue; + } + else if (hh->eh.root.type == bfd_link_hash_undefined) + { + if (! (info->unresolved_syms_in_objects == RM_IGNORE + && (ELF_ST_VISIBILITY (hh->eh.other) + == STV_DEFAULT))) + continue; + } + else + { + bfd_set_error (bfd_error_bad_value); + goto error_ret_free_internal; + } + } + + /* Determine what (if any) linker stub is needed. */ + stub_type = metag_type_of_stub (section, irela, hh, + destination, info); + if (stub_type == metag_stub_none) + continue; + + /* Support for grouping stub sections. */ + id_sec = htab->stub_group[section->id].link_sec; + + /* Get the name of this stub. */ + stub_name = metag_stub_name (id_sec, sym_sec, hh, irela); + if (!stub_name) + goto error_ret_free_internal; + + hsh = metag_stub_hash_lookup (&htab->bstab, + stub_name, + FALSE, FALSE); + if (hsh != NULL) + { + /* The proper stub has already been created. */ + free (stub_name); + continue; + } + + hsh = metag_add_stub (stub_name, section, htab); + if (hsh == NULL) + { + free (stub_name); + goto error_ret_free_internal; + } + hsh->target_value = sym_value; + hsh->target_section = sym_sec; + hsh->stub_type = stub_type; + hsh->hh = hh; + hsh->addend = irela->r_addend; + stub_changed = TRUE; + } + + /* We're done with the internal relocs, free them. */ + if (elf_section_data (section)->relocs == NULL) + free (internal_relocs); + } + } + + if (!stub_changed) + break; + + /* OK, we've added some stubs. Find out the new size of the + stub sections. */ + for (stub_sec = htab->stub_bfd->sections; + stub_sec != NULL; + stub_sec = stub_sec->next) + stub_sec->size = 0; + + bfd_hash_traverse (&htab->bstab, metag_size_one_stub, htab); + + /* Ask the linker to do its stuff. */ + (*htab->layout_sections_again) (); + stub_changed = FALSE; + } + + free (htab->all_local_syms); + return TRUE; + + error_ret_free_local: + free (htab->all_local_syms); + return FALSE; +} + +/* Build all the stubs associated with the current output file. The + stubs are kept in a hash table attached to the main linker hash + table. This function is called via metagelf_finish in the linker. */ + +bfd_boolean +elf_metag_build_stubs (struct bfd_link_info *info) +{ + asection *stub_sec; + struct bfd_hash_table *table; + struct elf_metag_link_hash_table *htab; + + htab = metag_link_hash_table (info); + + for (stub_sec = htab->stub_bfd->sections; + stub_sec != NULL; + stub_sec = stub_sec->next) + { + bfd_size_type size; + + /* Allocate memory to hold the linker stubs. */ + size = stub_sec->size; + stub_sec->contents = bfd_zalloc (htab->stub_bfd, size); + if (stub_sec->contents == NULL && size != 0) + return FALSE; + stub_sec->size = 0; + } + + /* Build the stubs as directed by the stub hash table. */ + table = &htab->bstab; + bfd_hash_traverse (table, metag_build_one_stub, info); + + return TRUE; +} + +/* Return TRUE if SYM represents a local label symbol. */ + +static bfd_boolean +elf_metag_is_local_label_name (bfd *abfd ATTRIBUTE_UNUSED, const char *name) +{ + if (name[0] == '$' && name[1] == 'L') + return 1; + return _bfd_elf_is_local_label_name (abfd, name); +} + +/* Return address for Ith PLT stub in section PLT, for relocation REL + or (bfd_vma) -1 if it should not be included. */ + +static bfd_vma +elf_metag_plt_sym_val (bfd_vma i, const asection *plt, + const arelent *rel ATTRIBUTE_UNUSED) +{ + return plt->vma + (i + 1) * PLT_ENTRY_SIZE; +} + +#define ELF_ARCH bfd_arch_metag +#define ELF_TARGET_ID METAG_ELF_DATA +#define ELF_MACHINE_CODE EM_METAG +#define ELF_MINPAGESIZE 0x1000 +#define ELF_MAXPAGESIZE 0x4000 +#define ELF_COMMONPAGESIZE 0x1000 + +#define TARGET_LITTLE_SYM bfd_elf32_metag_vec +#define TARGET_LITTLE_NAME "elf32-metag" + +#define elf_symbol_leading_char '_' + +#define elf_info_to_howto_rel NULL +#define elf_info_to_howto metag_info_to_howto_rela + +#define bfd_elf32_bfd_is_local_label_name elf_metag_is_local_label_name +#define bfd_elf32_bfd_link_hash_table_create \ + elf_metag_link_hash_table_create +#define bfd_elf32_bfd_link_hash_table_free elf_metag_link_hash_table_free +#define elf_backend_relocate_section elf_metag_relocate_section +#define elf_backend_gc_mark_hook elf_metag_gc_mark_hook +#define elf_backend_gc_sweep_hook elf_metag_gc_sweep_hook +#define elf_backend_check_relocs elf_metag_check_relocs +#define elf_backend_create_dynamic_sections elf_metag_create_dynamic_sections +#define elf_backend_adjust_dynamic_symbol elf_metag_adjust_dynamic_symbol +#define elf_backend_finish_dynamic_symbol elf_metag_finish_dynamic_symbol +#define elf_backend_finish_dynamic_sections elf_metag_finish_dynamic_sections +#define elf_backend_size_dynamic_sections elf_metag_size_dynamic_sections +#define elf_backend_omit_section_dynsym \ + ((bfd_boolean (*) (bfd *, struct bfd_link_info *, asection *)) bfd_true) +#define elf_backend_post_process_headers elf_metag_post_process_headers +#define elf_backend_reloc_type_class elf_metag_reloc_type_class +#define elf_backend_copy_indirect_symbol elf_metag_copy_indirect_symbol +#define elf_backend_plt_sym_val elf_metag_plt_sym_val + +#define elf_backend_can_gc_sections 1 +#define elf_backend_can_refcount 1 +#define elf_backend_got_header_size 12 +#define elf_backend_rela_normal 1 +#define elf_backend_want_got_sym 0 +#define elf_backend_want_plt_sym 0 +#define elf_backend_plt_readonly 1 + +#define bfd_elf32_bfd_reloc_type_lookup metag_reloc_type_lookup +#define bfd_elf32_bfd_reloc_name_lookup metag_reloc_name_lookup + +#include "elf32-target.h" diff --git a/bfd/elf32-metag.h b/bfd/elf32-metag.h new file mode 100644 index 0000000..46772e0 --- /dev/null +++ b/bfd/elf32-metag.h @@ -0,0 +1,38 @@ +/* Meta support for 32-bit ELF + Copyright (C) 2013 Free Software Foundation, Inc. + Contributed by Imagination Technologies Ltd. + + This file is part of BFD, the Binary File Descriptor library. + + This program is free software; you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation; either version 3 of the License, or + (at your option) any later version. + + This program is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with this program; if not, write to the Free Software + Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, + MA 02110-1301, USA. */ + +#ifndef _ELF32_METAG_H +#define _ELF32_METAG_H + +extern int elf_metag_setup_section_lists + (bfd *, struct bfd_link_info *); + +extern void elf_metag_next_input_section + (struct bfd_link_info *, asection *); + +extern bfd_boolean elf_metag_size_stubs + (bfd *, bfd *, struct bfd_link_info *, bfd_signed_vma, + asection * (*) (const char *, asection *), void (*) (void)); + +extern bfd_boolean elf_metag_build_stubs + (struct bfd_link_info *); + +#endif /* _ELF32_METAG_H */ diff --git a/bfd/libbfd.h b/bfd/libbfd.h index 362e35f..d548143 100644 --- a/bfd/libbfd.h +++ b/bfd/libbfd.h @@ -1844,6 +1844,44 @@ static const char *const bfd_reloc_code_real_names[] = { "@@uninitialized@@", "BFD_RELOC_MEP_GNU_VTINHERIT", "BFD_RELOC_MEP_GNU_VTENTRY", + "BFD_RELOC_METAG_HIADDR16", + "BFD_RELOC_METAG_LOADDR16", + "BFD_RELOC_METAG_RELBRANCH", + "BFD_RELOC_METAG_GETSETOFF", + "BFD_RELOC_METAG_HIOG", + "BFD_RELOC_METAG_LOOG", + "BFD_RELOC_METAG_REL8", + "BFD_RELOC_METAG_REL16", + "BFD_RELOC_METAG_HI16_GOTOFF", + "BFD_RELOC_METAG_LO16_GOTOFF", + "BFD_RELOC_METAG_GETSET_GOTOFF", + "BFD_RELOC_METAG_GETSET_GOT", + "BFD_RELOC_METAG_HI16_GOTPC", + "BFD_RELOC_METAG_LO16_GOTPC", + "BFD_RELOC_METAG_HI16_PLT", + "BFD_RELOC_METAG_LO16_PLT", + "BFD_RELOC_METAG_RELBRANCH_PLT", + "BFD_RELOC_METAG_GOTOFF", + "BFD_RELOC_METAG_PLT", + "BFD_RELOC_METAG_COPY", + "BFD_RELOC_METAG_JMP_SLOT", + "BFD_RELOC_METAG_RELATIVE", + "BFD_RELOC_METAG_GLOB_DAT", + "BFD_RELOC_METAG_TLS_GD", + "BFD_RELOC_METAG_TLS_LDM", + "BFD_RELOC_METAG_TLS_LDO_HI16", + "BFD_RELOC_METAG_TLS_LDO_LO16", + "BFD_RELOC_METAG_TLS_LDO", + "BFD_RELOC_METAG_TLS_IE", + "BFD_RELOC_METAG_TLS_IENONPIC", + "BFD_RELOC_METAG_TLS_IENONPIC_HI16", + "BFD_RELOC_METAG_TLS_IENONPIC_LO16", + "BFD_RELOC_METAG_TLS_TPOFF", + "BFD_RELOC_METAG_TLS_DTPMOD", + "BFD_RELOC_METAG_TLS_DTPOFF", + "BFD_RELOC_METAG_TLS_LE", + "BFD_RELOC_METAG_TLS_LE_HI16", + "BFD_RELOC_METAG_TLS_LE_LO16", "BFD_RELOC_MMIX_GETA", "BFD_RELOC_MMIX_GETA_1", "BFD_RELOC_MMIX_GETA_2", diff --git a/bfd/reloc.c b/bfd/reloc.c index 3f88049..1cc48d7 100644 --- a/bfd/reloc.c +++ b/bfd/reloc.c @@ -4198,6 +4198,85 @@ ENUMDOC COMMENT ENUM + BFD_RELOC_METAG_HIADDR16 +ENUMX + BFD_RELOC_METAG_LOADDR16 +ENUMX + BFD_RELOC_METAG_RELBRANCH +ENUMX + BFD_RELOC_METAG_GETSETOFF +ENUMX + BFD_RELOC_METAG_HIOG +ENUMX + BFD_RELOC_METAG_LOOG +ENUMX + BFD_RELOC_METAG_REL8 +ENUMX + BFD_RELOC_METAG_REL16 +ENUMX + BFD_RELOC_METAG_HI16_GOTOFF +ENUMX + BFD_RELOC_METAG_LO16_GOTOFF +ENUMX + BFD_RELOC_METAG_GETSET_GOTOFF +ENUMX + BFD_RELOC_METAG_GETSET_GOT +ENUMX + BFD_RELOC_METAG_HI16_GOTPC +ENUMX + BFD_RELOC_METAG_LO16_GOTPC +ENUMX + BFD_RELOC_METAG_HI16_PLT +ENUMX + BFD_RELOC_METAG_LO16_PLT +ENUMX + BFD_RELOC_METAG_RELBRANCH_PLT +ENUMX + BFD_RELOC_METAG_GOTOFF +ENUMX + BFD_RELOC_METAG_PLT +ENUMX + BFD_RELOC_METAG_COPY +ENUMX + BFD_RELOC_METAG_JMP_SLOT +ENUMX + BFD_RELOC_METAG_RELATIVE +ENUMX + BFD_RELOC_METAG_GLOB_DAT +ENUMX + BFD_RELOC_METAG_TLS_GD +ENUMX + BFD_RELOC_METAG_TLS_LDM +ENUMX + BFD_RELOC_METAG_TLS_LDO_HI16 +ENUMX + BFD_RELOC_METAG_TLS_LDO_LO16 +ENUMX + BFD_RELOC_METAG_TLS_LDO +ENUMX + BFD_RELOC_METAG_TLS_IE +ENUMX + BFD_RELOC_METAG_TLS_IENONPIC +ENUMX + BFD_RELOC_METAG_TLS_IENONPIC_HI16 +ENUMX + BFD_RELOC_METAG_TLS_IENONPIC_LO16 +ENUMX + BFD_RELOC_METAG_TLS_TPOFF +ENUMX + BFD_RELOC_METAG_TLS_DTPMOD +ENUMX + BFD_RELOC_METAG_TLS_DTPOFF +ENUMX + BFD_RELOC_METAG_TLS_LE +ENUMX + BFD_RELOC_METAG_TLS_LE_HI16 +ENUMX + BFD_RELOC_METAG_TLS_LE_LO16 +ENUMDOC + Imagination Technologies Meta relocations. + +ENUM BFD_RELOC_MMIX_GETA ENUMX BFD_RELOC_MMIX_GETA_1 diff --git a/bfd/targets.c b/bfd/targets.c index 0ca6a1a..17553eb 100644 --- a/bfd/targets.c +++ b/bfd/targets.c @@ -659,6 +659,7 @@ extern const bfd_target bfd_elf32_mcore_big_vec; extern const bfd_target bfd_elf32_mcore_little_vec; extern const bfd_target bfd_elf32_mep_vec; extern const bfd_target bfd_elf32_mep_little_vec; +extern const bfd_target bfd_elf32_metag_vec; extern const bfd_target bfd_elf32_microblazeel_vec; extern const bfd_target bfd_elf32_microblaze_vec; extern const bfd_target bfd_elf32_mn10200_vec; @@ -1036,6 +1037,7 @@ static const bfd_target * const _bfd_target_vector[] = &bfd_elf32_mcore_big_vec, &bfd_elf32_mcore_little_vec, &bfd_elf32_mep_vec, + &bfd_elf32_metag_vec, &bfd_elf32_microblaze_vec, &bfd_elf32_mn10200_vec, &bfd_elf32_mn10300_vec, diff --git a/binutils/ChangeLog b/binutils/ChangeLog index 89e427e..585ed8d 100644 --- a/binutils/ChangeLog +++ b/binutils/ChangeLog @@ -1,3 +1,11 @@ +2013-01-10 Will Newton <will.newton@imgtec.com> + + * binutils/readelf.c: (guess_is_rela): Add EM_METAG. + (dump_relocations): Add EM_METAG. + (get_machine_name): Correct case for Meta. + (is_32bit_abs_reloc): Add support for Meta ADDR32 reloc. + (is_none_reloc): Add support for Meta NONE reloc. + 2013-01-08 Yufeng Zhang <yufeng.zhang@arm.com> * readelf.c (get_note_type): Handle NT_ARM_TLS, NT_ARM_HW_BREAK diff --git a/binutils/readelf.c b/binutils/readelf.c index 690f740..1d43a64 100644 --- a/binutils/readelf.c +++ b/binutils/readelf.c @@ -124,6 +124,7 @@ #include "elf/m68hc11.h" #include "elf/mcore.h" #include "elf/mep.h" +#include "elf/metag.h" #include "elf/microblaze.h" #include "elf/mips.h" #include "elf/mmix.h" @@ -610,6 +611,7 @@ guess_is_rela (unsigned int e_machine) case EM_M32R: case EM_MCORE: case EM_CYGNUS_MEP: + case EM_METAG: case EM_MMIX: case EM_MN10200: case EM_CYGNUS_MN10200: @@ -1264,6 +1266,10 @@ dump_relocations (FILE * file, rtype = elf_rx_reloc_type (type); break; + case EM_METAG: + rtype = elf_metag_reloc_type (type); + break; + case EM_XC16X: case EM_C166: rtype = elf_xc16x_reloc_type (type); @@ -2029,7 +2035,7 @@ get_machine_name (unsigned e_machine) case EM_MICROBLAZE_OLD: return "Xilinx MicroBlaze"; case EM_RL78: return "Renesas RL78"; case EM_RX: return "Renesas RX"; - case EM_METAG: return "Imagination Technologies META processor architecture"; + case EM_METAG: return "Imagination Technologies Meta processor architecture"; case EM_MCST_ELBRUS: return "MCST Elbrus general purpose hardware architecture"; case EM_ECOG16: return "Cyan Technology eCOG16 family"; case EM_ETPU: return "Freescale Extended Time Processing Unit"; @@ -10049,6 +10055,8 @@ is_32bit_abs_reloc (unsigned int reloc_type) return reloc_type == 1; /* R_MCORE_ADDR32. */ case EM_CYGNUS_MEP: return reloc_type == 4; /* R_MEP_32. */ + case EM_METAG: + return reloc_type == 2; /* R_METAG_ADDR32. */ case EM_MICROBLAZE: return reloc_type == 1; /* R_MICROBLAZE_32. */ case EM_MIPS: @@ -10384,6 +10392,8 @@ is_none_reloc (unsigned int reloc_type) || reloc_type == 17 /* R_XTENSA_DIFF8. */ || reloc_type == 18 /* R_XTENSA_DIFF16. */ || reloc_type == 19 /* R_XTENSA_DIFF32. */); + case EM_METAG: + return reloc_type == 3; /* R_METAG_NONE. */ } return FALSE; } diff --git a/gas/ChangeLog b/gas/ChangeLog index ba29792..d8563c8 100644 --- a/gas/ChangeLog +++ b/gas/ChangeLog @@ -1,3 +1,16 @@ +2013-01-10 Will Newton <will.newton@imgtec.com> + + * Makefile.am: Add Meta. + * Makefile.in: Regenerate. + * config/tc-metag.c: New file. + * config/tc-metag.h: New file. + * configure.tgt: Add Meta. + * doc/Makefile.am: Add Meta. + * doc/Makefile.in: Regenerate. + * doc/all.texi: Add Meta. + * doc/as.texiinfo: Document Meta options. + * doc/c-metag.texi: New file. + 2013-01-09 Steve Ellcey <sellcey@mips.com> * config/tc-i386.c (md_begin): Remove 'internal Error' from as_fatal diff --git a/gas/Makefile.am b/gas/Makefile.am index 272a311..7729d4a 100644 --- a/gas/Makefile.am +++ b/gas/Makefile.am @@ -155,6 +155,7 @@ TARGET_CPU_CFILES = \ config/tc-m68k.c \ config/tc-mcore.c \ config/tc-mep.c \ + config/tc-metag.c \ config/tc-microblaze.c \ config/tc-mips.c \ config/tc-mmix.c \ @@ -225,6 +226,7 @@ TARGET_CPU_HFILES = \ config/tc-m68k.h \ config/tc-mcore.h \ config/tc-mep.h \ + config/tc-metag.h \ config/tc-microblaze.h \ config/tc-mips.h \ config/tc-mmix.h \ diff --git a/gas/Makefile.in b/gas/Makefile.in index a2c2c6b..c2a646c 100644 --- a/gas/Makefile.in +++ b/gas/Makefile.in @@ -424,6 +424,7 @@ TARGET_CPU_CFILES = \ config/tc-m68k.c \ config/tc-mcore.c \ config/tc-mep.c \ + config/tc-metag.c \ config/tc-microblaze.c \ config/tc-mips.c \ config/tc-mmix.c \ @@ -494,6 +495,7 @@ TARGET_CPU_HFILES = \ config/tc-m68k.h \ config/tc-mcore.h \ config/tc-mep.h \ + config/tc-metag.h \ config/tc-microblaze.h \ config/tc-mips.h \ config/tc-mmix.h \ @@ -844,6 +846,7 @@ distclean-compile: @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-m68k.Po@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-mcore.Po@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-mep.Po@am__quote@ +@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-metag.Po@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-microblaze.Po@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-mips.Po@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-mmix.Po@am__quote@ @@ -1339,6 +1342,20 @@ tc-mep.obj: config/tc-mep.c @AMDEP_TRUE@@am__fastdepCC_FALSE@ DEPDIR=$(DEPDIR) $(CCDEPMODE) $(depcomp) @AMDEPBACKSLASH@ @am__fastdepCC_FALSE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -c -o tc-mep.obj `if test -f 'config/tc-mep.c'; then $(CYGPATH_W) 'config/tc-mep.c'; else $(CYGPATH_W) '$(srcdir)/config/tc-mep.c'; fi` +tc-metag.o: config/tc-metag.c +@am__fastdepCC_TRUE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -MT tc-metag.o -MD -MP -MF $(DEPDIR)/tc-metag.Tpo -c -o tc-metag.o `test -f 'config/tc-metag.c' || echo '$(srcdir)/'`config/tc-metag.c +@am__fastdepCC_TRUE@ $(am__mv) $(DEPDIR)/tc-metag.Tpo $(DEPDIR)/tc-metag.Po +@AMDEP_TRUE@@am__fastdepCC_FALSE@ source='config/tc-metag.c' object='tc-metag.o' libtool=no @AMDEPBACKSLASH@ +@AMDEP_TRUE@@am__fastdepCC_FALSE@ DEPDIR=$(DEPDIR) $(CCDEPMODE) $(depcomp) @AMDEPBACKSLASH@ +@am__fastdepCC_FALSE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -c -o tc-metag.o `test -f 'config/tc-metag.c' || echo '$(srcdir)/'`config/tc-metag.c + +tc-metag.obj: config/tc-metag.c +@am__fastdepCC_TRUE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -MT tc-metag.obj -MD -MP -MF $(DEPDIR)/tc-metag.Tpo -c -o tc-metag.obj `if test -f 'config/tc-metag.c'; then $(CYGPATH_W) 'config/tc-metag.c'; else $(CYGPATH_W) '$(srcdir)/config/tc-metag.c'; fi` +@am__fastdepCC_TRUE@ $(am__mv) $(DEPDIR)/tc-metag.Tpo $(DEPDIR)/tc-metag.Po +@AMDEP_TRUE@@am__fastdepCC_FALSE@ source='config/tc-metag.c' object='tc-metag.obj' libtool=no @AMDEPBACKSLASH@ +@AMDEP_TRUE@@am__fastdepCC_FALSE@ DEPDIR=$(DEPDIR) $(CCDEPMODE) $(depcomp) @AMDEPBACKSLASH@ +@am__fastdepCC_FALSE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -c -o tc-metag.obj `if test -f 'config/tc-metag.c'; then $(CYGPATH_W) 'config/tc-metag.c'; else $(CYGPATH_W) '$(srcdir)/config/tc-metag.c'; fi` + tc-microblaze.o: config/tc-microblaze.c @am__fastdepCC_TRUE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -MT tc-microblaze.o -MD -MP -MF $(DEPDIR)/tc-microblaze.Tpo -c -o tc-microblaze.o `test -f 'config/tc-microblaze.c' || echo '$(srcdir)/'`config/tc-microblaze.c @am__fastdepCC_TRUE@ $(am__mv) $(DEPDIR)/tc-microblaze.Tpo $(DEPDIR)/tc-microblaze.Po @@ -1,5 +1,7 @@ -*- text -*- +* Add support for the Imagination Technologies Meta processor. + * Add support for the v850e3v5. Changes in 2.23: diff --git a/gas/config/tc-metag.c b/gas/config/tc-metag.c new file mode 100644 index 0000000..d5e603a --- /dev/null +++ b/gas/config/tc-metag.c @@ -0,0 +1,7115 @@ +/* tc-metag.c -- Assembler for the Imagination Technologies Meta. + Copyright (C) 2013 Free Software Foundation, Inc. + Contributed by Imagination Technologies Ltd. + + This file is part of GAS, the GNU Assembler. + + GAS is free software; you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation; either version 3, or (at your option) + any later version. + + GAS is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with GAS; see the file COPYING. If not, write to the Free + Software Foundation, 51 Franklin Street - Fifth Floor, Boston, MA + 02110-1301, USA. */ + +#include "as.h" +#include "subsegs.h" +#include "symcat.h" +#include "safe-ctype.h" +#include "hashtab.h" +#include "libbfd.h" + +#include <stdio.h> + +#include "opcode/metag.h" + +const char comment_chars[] = "!"; +const char line_comment_chars[] = "!#"; +const char line_separator_chars[] = ";"; +const char FLT_CHARS[] = "rRsSfFdDxXpP"; +const char EXP_CHARS[] = "eE"; +const char metag_symbol_chars[] = "["; + +static char register_chars[256]; +static char mnemonic_chars[256]; + +#define is_register_char(x) (register_chars[(unsigned char) x]) +#define is_mnemonic_char(x) (mnemonic_chars[(unsigned char) x]) +#define is_whitespace_char(x) (((x) == ' ') || ((x) == '\t')) +#define is_space_char(x) ((x) == ' ') + +#define FPU_PREFIX_CHAR 'f' +#define DSP_PREFIX_CHAR 'd' + +/* Instruction mnemonics that need disambiguating with respect to prefixes. */ +#define FFB_INSN "ffb" +#define DCACHE_INSN "dcache" +#define DEFR_INSN "defr" + +#define FPU_DOUBLE_CHAR 'd' +#define FPU_PAIR_CHAR 'l' + +#define DSP_DUAL_CHAR 'l' + +#define END_OF_INSN '\0' + +/* Maximum length of a mnemonic including all suffixes. */ +#define MAX_MNEMONIC_LEN 16 +/* Maximum length of a register name. */ +#define MAX_REG_LEN 17 + +/* Addressing modes must be enclosed with square brackets. */ +#define ADDR_BEGIN_CHAR '[' +#define ADDR_END_CHAR ']' +/* Immediates must be prefixed with a hash. */ +#define IMM_CHAR '#' + +#define COMMA ',' +#define PLUS '+' +#define MINUS '-' + +/* Short units are those that can be encoded with 2 bits. */ +#define SHORT_UNITS "D0, D1, A0 or A1" + +static unsigned int mcpu_opt = CoreMeta12; +static unsigned int mfpu_opt = 0; +static unsigned int mdsp_opt = 0; + +const char * md_shortopts = "m:"; + +struct option md_longopts[] = +{ + {NULL, no_argument, NULL, 0} +}; +size_t md_longopts_size = sizeof (md_longopts); + +/* Parser hash tables. */ +static htab_t mnemonic_htab; +static htab_t reg_htab; +static htab_t dsp_reg_htab; +static htab_t dsp_tmpl_reg_htab[2]; +static htab_t scond_htab; + +#define GOT_NAME "__GLOBAL_OFFSET_TABLE__" +symbolS * GOT_symbol; + +enum fpu_insn_width { + FPU_WIDTH_SINGLE, + FPU_WIDTH_DOUBLE, + FPU_WIDTH_PAIR, +}; + +#define FPU_ACTION_ABS_CHAR 'a' +#define FPU_ACTION_INV_CHAR 'i' +#define FPU_ACTION_QUIET_CHAR 'q' +#define FPU_ACTION_ZERO_CHAR 'z' + +#define FPU_ACTION_ABS 0x1 +#define FPU_ACTION_INV 0x2 +#define FPU_ACTION_QUIET 0x4 +#define FPU_ACTION_ZERO 0x8 + +enum dsp_insn_width { + DSP_WIDTH_SINGLE, + DSP_WIDTH_DUAL, +}; + +#define DSP_ACTION_QR64_CHAR 'q' +#define DSP_ACTION_UMUL_CHAR 'u' +#define DSP_ACTION_ROUND_CHAR 'r' +#define DSP_ACTION_CLAMP9_CHAR 'g' +#define DSP_ACTION_CLAMP8_CHAR 'b' +#define DSP_ACTION_MOD_CHAR 'm' +#define DSP_ACTION_ACC_ZERO_CHAR 'z' +#define DSP_ACTION_ACC_ADD_CHAR 'p' +#define DSP_ACTION_ACC_SUB_CHAR 'n' +#define DSP_ACTION_OV_CHAR 'o' + +#define DSP_ACTION_QR64 0x001 +#define DSP_ACTION_UMUL 0x002 +#define DSP_ACTION_ROUND 0x004 +#define DSP_ACTION_CLAMP9 0x008 +#define DSP_ACTION_CLAMP8 0x010 +#define DSP_ACTION_MOD 0x020 +#define DSP_ACTION_ACC_ZERO 0x040 +#define DSP_ACTION_ACC_ADD 0x080 +#define DSP_ACTION_ACC_SUB 0x100 +#define DSP_ACTION_OV 0x200 + +#define DSP_DAOPPAME_8_CHAR 'b' +#define DSP_DAOPPAME_16_CHAR 'w' +#define DSP_DAOPPAME_TEMP_CHAR 't' +#define DSP_DAOPPAME_HIGH_CHAR 'h' + +#define DSP_DAOPPAME_8 0x1 +#define DSP_DAOPPAME_16 0x2 +#define DSP_DAOPPAME_TEMP 0x4 +#define DSP_DAOPPAME_HIGH 0x8 + +/* Structure holding information about a parsed instruction. */ +typedef struct { + /* Instruction type. */ + enum insn_type type; + /* Split condition code. */ + enum scond_code scond; + + /* Instruction bits. */ + unsigned int bits; + /* Size of the instruction in bytes. */ + size_t len; + + /* FPU instruction encoding. */ + enum fpu_insn_width fpu_width; + unsigned int fpu_action_flags; + + /* DSP instruction encoding. */ + enum dsp_insn_width dsp_width; + unsigned int dsp_action_flags; + unsigned int dsp_daoppame_flags; + + /* Reloc encoding information, maximum of one reloc per insn. */ + enum bfd_reloc_code_real reloc_type; + int reloc_pcrel; + expressionS reloc_exp; + unsigned int reloc_size; +} metag_insn; + +/* Structure holding information about a parsed addressing mode. */ +typedef struct { + const metag_reg *base_reg; + const metag_reg *offset_reg; + + expressionS exp; + + enum bfd_reloc_code_real reloc_type; + + /* Whether we have an immediate or not. */ + unsigned short immediate:1; + /* Whether or not the base register is updated. */ + unsigned short update:1; + /* Whether the operation uses the address pre or post increment. */ + unsigned short post_increment:1; + /* Whether the immediate should be negated. */ + unsigned short negate:1; +} metag_addr; + +/* Linked list of possible parsers for this instruction. */ +typedef struct _insn_templates { + const insn_template *template; + struct _insn_templates *next; +} insn_templates; + +/* Parse an instruction that takes no operands. */ +static const char * +parse_none (const char *line, metag_insn *insn, + const insn_template *template) +{ + insn->bits = template->meta_opcode; + insn->len = 4; + return line; +} + +/* Return the next non-whitespace character in LINE or NULL. */ +static const char * +skip_whitespace (const char *line) +{ + const char *l = line; + + if (is_whitespace_char (*l)) + { + l++; + } + + return l; +} + +/* Return the next non-space character in LINE or NULL. */ +static const char * +skip_space (const char *line) +{ + const char *l = line; + + if (is_space_char (*l)) + { + l++; + } + + return l; +} + +/* Return the character after the current one in LINE if the current + character is a comma, otherwise NULL. */ +static const char * +skip_comma (const char *line) +{ + const char *l = line; + + if (l == NULL || *l != COMMA) + return NULL; + + l++; + + return l; +} + +/* Return the metag_reg struct corresponding to NAME or NULL if no such + register exists. */ +static const metag_reg * +parse_gp_reg (const char *name) +{ + const metag_reg *reg; + metag_reg entry; + + entry.name = name; + + reg = (const metag_reg *) htab_find (reg_htab, &entry); + + return reg; +} + +/* Parse a list of up to COUNT GP registers from LINE, returning the + registers parsed in REGS and the number parsed in REGS_READ. Return + a pointer to the next character or NULL. */ +static const char * +parse_gp_regs_list (const char *line, const metag_reg **regs, size_t count, + size_t *regs_read) +{ + const char *l = line; + char reg_buf[MAX_REG_LEN]; + int seen_regs = 0; + size_t i; + + for (i = 0; i < count; i++) + { + size_t len = 0; + const char *next; + + next = l; + + if (i > 0) + { + l = skip_comma (l); + if (l == NULL) + { + *regs_read = seen_regs; + return next; + } + } + + while (is_register_char (*l)) + { + reg_buf[len] = *l; + l++; + len++; + if (!(len < MAX_REG_LEN)) + return NULL; + } + + reg_buf[len] = '\0'; + + if (len) + { + const metag_reg *reg = parse_gp_reg (reg_buf); + + if (!reg) + { + *regs_read = seen_regs; + return next; + } + else + { + regs[i] = reg; + seen_regs++; + } + } + else + { + *regs_read = seen_regs; + return next; + } + } + + *regs_read = seen_regs; + return l; +} + +/* Parse a list of exactly COUNT GP registers from LINE, returning the + registers parsed in REGS. Return a pointer to the next character or NULL. */ +static const char * +parse_gp_regs (const char *line, const metag_reg **regs, size_t count) +{ + const char *l = line; + size_t regs_read = 0; + + l = parse_gp_regs_list (l, regs, count, ®s_read); + + if (regs_read != count) + return NULL; + else + return l; +} + +/* Parse a list of exactly COUNT FPU registers from LINE, returning the + registers parsed in REGS. Return a pointer to the next character or NULL. */ +static const char * +parse_fpu_regs (const char *line, const metag_reg **regs, size_t count) +{ + const char *l = line; + size_t regs_read = 0; + + l = parse_gp_regs_list (l, regs, count, ®s_read); + + if (regs_read != count) + return NULL; + else + { + size_t i; + for (i = 0; i < count; i++) + { + if (regs[i]->unit != UNIT_FX) + return NULL; + } + return l; + } +} + +/* Return TRUE if REG1 and REG2 are in paired units. */ +static bfd_boolean +is_unit_pair (const metag_reg *reg1, const metag_reg *reg2) +{ + if ((reg1->unit == UNIT_A0 && + (reg2->unit == UNIT_A1)) || + (reg1->unit == UNIT_A1 && + (reg2->unit == UNIT_A0)) || + (reg1->unit == UNIT_D0 && + (reg2->unit == UNIT_D1)) || + (reg1->unit == UNIT_D1 && + (reg2->unit == UNIT_D0))) + return TRUE; + + return FALSE; +} + +/* Return TRUE if REG1 and REG2 form a register pair. */ +static bfd_boolean +is_reg_pair (const metag_reg *reg1, const metag_reg *reg2) +{ + if (reg1->unit == UNIT_FX && + reg2->unit == UNIT_FX && + reg2->no == reg1->no + 1) + return TRUE; + + if (reg1->no != reg2->no) + return FALSE; + + return is_unit_pair (reg1, reg2); +} + +/* Parse a pair of GP registers from LINE, returning the registers parsed + in REGS. Return a pointer to the next character or NULL. */ +static const char * +parse_pair_gp_regs (const char *line, const metag_reg **regs) +{ + const char *l = line; + + l = parse_gp_regs (line, regs, 2); + + if (l == NULL) + { + l = parse_gp_regs (line, regs, 1); + + if (l == NULL) + return NULL; + + if (regs[0]->unit == UNIT_RD) + return l; + else + return NULL; + } + + if (is_reg_pair (regs[0], regs[1])) + return l; + + return NULL; +} + +/* Parse a unit-to-unit MOV instruction. */ +static const char * +parse_mov_u2u (const char *line, metag_insn *insn, + const insn_template *template) +{ + const metag_reg *regs[2]; + + line = parse_gp_regs (line, regs, 2); + + if (line == NULL) + return NULL; + + if (!mfpu_opt && (regs[0]->unit == UNIT_FX || regs[1]->unit == UNIT_FX)) + { + as_bad (_("no floating point unit specified")); + return NULL; + } + + insn->bits = (template->meta_opcode | + (regs[1]->no << 19) | + (regs[0]->no << 14) | + (regs[1]->unit << 10) | + (regs[0]->unit << 5)); + insn->len = 4; + return line; +} + +/* Parse a MOV to port instruction. */ +static const char * +parse_mov_port (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + unsigned int is_movl = MINOR_OPCODE (template->meta_opcode) == MOVL_MINOR; + const metag_reg *dest_regs[2]; + const metag_reg *port_regs[1]; + + if (is_movl) + l = parse_gp_regs (l, dest_regs, 2); + else + l = parse_gp_regs (l, dest_regs, 1); + + if (l == NULL) + return NULL; + + if (template->insn_type == INSN_FPU && dest_regs[0]->unit != UNIT_FX) + return NULL; + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + l = parse_gp_regs (l, port_regs, 1); + + if (l == NULL) + return NULL; + + if (port_regs[0]->unit != UNIT_RD || + port_regs[0]->no != 0) + return NULL; + + if (is_movl) + { + if (!is_unit_pair (dest_regs[0], dest_regs[1])) + return NULL; + + insn->bits = (template->meta_opcode | + (dest_regs[0]->no << 14) | + (dest_regs[1]->no << 9) | + ((dest_regs[0]->unit & SHORT_UNIT_MASK) << 5)); + } + else + insn->bits = (template->meta_opcode | + (dest_regs[0]->no << 14) | + (dest_regs[0]->unit << 5)); + + insn->len = 4; + return l; +} + +/* Parse a MOVL to TTREC instruction. */ +static const char * +parse_movl_ttrec (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *src_regs[2]; + const metag_reg *dest_regs[1]; + + l = parse_gp_regs (l, dest_regs, 1); + + if (l == NULL) + return NULL; + + if (dest_regs[0]->unit != UNIT_TT || + dest_regs[0]->no != 3) + return NULL; + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + l = parse_gp_regs (l, src_regs, 2); + + if (l == NULL) + return NULL; + + if (!is_unit_pair (src_regs[0], src_regs[1])) + return NULL; + + insn->bits = (template->meta_opcode | + (src_regs[0]->no << 19) | + (src_regs[1]->no << 14) | + ((src_regs[0]->unit & SHORT_UNIT_MASK) << 7)); + + insn->len = 4; + return l; +} + +/* Parse an incrementing or decrementing addressing mode. */ +static const char * +parse_addr_incr_op (const char *line, metag_addr *addr) +{ + const char *l = line; + const char *ll; + + ll = l + 1; + + if (*l == PLUS && + *ll == PLUS) + { + addr->update = 1; + ll++; + return ll; + } + else if (*l == MINUS && + *ll == MINUS) + { + addr->update = 1; + addr->negate = 1; + ll++; + return ll; + } + return NULL; +} + +/* Parse an pre-incrementing or pre-decrementing addressing mode. */ +static const char * +parse_addr_pre_incr_op (const char *line, metag_addr *addr) +{ + return parse_addr_incr_op (line, addr); +} + +/* Parse an post-incrementing or post-decrementing addressing mode. */ +static const char * +parse_addr_post_incr_op (const char *line, metag_addr *addr) +{ + const char *l; + + l = parse_addr_incr_op (line, addr); + + if (l == NULL) + return NULL; + + addr->post_increment = 1; + + return l; +} + +/* Parse an infix addressing mode. */ +static const char * +parse_addr_op (const char *line, metag_addr *addr) +{ + const char *l = line; + const char *ll; + + ll = l + 1; + + if (*l == PLUS) + { + if (*ll == PLUS) + { + addr->update = 1; + ll++; + return ll; + } + l++; + return l; + } + return NULL; +} + +/* Parse the immediate portion of an addrssing mode. */ +static const char * +parse_imm_addr (const char *line, metag_addr *addr) +{ + const char *l = line; + char *save_input_line_pointer; + expressionS *exp = &addr->exp; + + /* Skip #. */ + if (*l == '#') + l++; + else + return NULL; + + save_input_line_pointer = input_line_pointer; + input_line_pointer = (char *) l; + + expression (exp); + + l = input_line_pointer; + input_line_pointer = save_input_line_pointer; + + if (exp->X_op == O_absent || exp->X_op == O_big) + { + return NULL; + } + else if (exp->X_op == O_constant) + { + return l; + } + else + { + if (exp->X_op == O_PIC_reloc && + exp->X_md == BFD_RELOC_METAG_GETSET_GOT) + { + exp->X_op = O_symbol; + addr->reloc_type = BFD_RELOC_METAG_GETSET_GOT; + } + else if (exp->X_op == O_PIC_reloc && + exp->X_md == BFD_RELOC_METAG_TLS_IE) + { + exp->X_op = O_symbol; + addr->reloc_type = BFD_RELOC_METAG_TLS_IE; + } + else if (exp->X_op == O_PIC_reloc && + exp->X_md == BFD_RELOC_METAG_GOTOFF) + { + exp->X_op = O_symbol; + addr->reloc_type = BFD_RELOC_METAG_GETSET_GOTOFF; + } + else + addr->reloc_type = BFD_RELOC_METAG_GETSETOFF; + return l; + } +} + +/* Parse the offset portion of an addressing mode (register or immediate). */ +static const char * +parse_addr_offset (const char *line, metag_addr *addr, int size) +{ + const char *l = line; + const metag_reg *regs[1]; + + if (*l == IMM_CHAR) + { + /* ++ is a valid operator in our addressing but not in an expr. Make + sure that the expression parser never sees it. */ + char *ppp = strstr(l, "++"); + char ppch = '+'; + + if (ppp) + *ppp = '\0'; + + l = parse_imm_addr (l, addr); + + if (ppp) + *ppp = ppch; + + if (l == NULL) + return NULL; + + if (addr->exp.X_add_number % size) + { + as_bad (_("offset must be a multiple of %d"), size); + return NULL; + } + + addr->immediate = 1; + return l; + } + else + { + l = parse_gp_regs (l, regs, 1); + + if (l == NULL) + return NULL; + + if (regs[0]->unit != addr->base_reg->unit) + { + as_bad (_("offset and base must be from the same unit")); + return NULL; + } + + addr->offset_reg = regs[0]; + return l; + } +} + +/* Parse an addressing mode. */ +static const char * +parse_addr (const char *line, metag_addr *addr, unsigned int size) +{ + const char *l = line; + const char *ll; + const metag_reg *regs[1]; + + /* Skip opening square bracket. */ + l++; + + ll = parse_addr_pre_incr_op (l, addr); + + if (ll != NULL) + l = ll; + + l = parse_gp_regs (l, regs, 1); + + if (l == NULL) + return NULL; + + addr->base_reg = regs[0]; + + if (*l == ADDR_END_CHAR) + { + addr->exp.X_op = O_constant; + addr->exp.X_add_symbol = NULL; + addr->exp.X_op_symbol = NULL; + if (addr->update == 1) + { + /* We have a pre increment/decrement. */ + addr->exp.X_add_number = size; + } + else + { + /* Simple register with no offset (0 immediate). */ + addr->exp.X_add_number = 0; + } + addr->immediate = 1; + l++; + return l; + } + + /* We already had a pre increment/decrement. */ + if (addr->update == 1) + return NULL; + + ll = parse_addr_post_incr_op (l, addr); + + if (ll && *ll == ADDR_END_CHAR) + { + if (addr->update == 1) + { + /* We have a post increment/decrement. */ + addr->exp.X_op = O_constant; + addr->exp.X_add_number = size; + addr->exp.X_add_symbol = NULL; + addr->exp.X_op_symbol = NULL; + addr->post_increment = 1; + } + addr->immediate = 1; + ll++; + return ll; + } + + addr->post_increment = 0; + + l = parse_addr_op (l, addr); + + if (l == NULL) + return NULL; + + l = parse_addr_offset (l, addr, size); + + if (l == NULL) + return NULL; + + if (*l == ADDR_END_CHAR) + { + l++; + return l; + } + + /* We already had a pre increment/decrement. */ + if (addr->update == 1) + return NULL; + + l = parse_addr_post_incr_op (l, addr); + + if (l == NULL) + return NULL; + + if (*l == ADDR_END_CHAR) + { + l++; + return l; + } + + return NULL; +} + +/* Parse a GET or pipeline MOV instruction. */ +static const char * +parse_get (const char *line, const metag_reg **regs, metag_addr *addr, + unsigned int size, bfd_boolean is_mov) +{ + const char *l = line; + + if (size == 8) + { + l = parse_pair_gp_regs (l, regs); + + if (l == NULL) + return NULL; + } + else + { + l = parse_gp_regs (l, regs, 1); + + if (l == NULL) + { + if (!is_mov) + as_bad (_("invalid destination register")); + return NULL; + } + } + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + l = parse_addr (l, addr, size); + + if (l == NULL) + { + if (!is_mov) + as_bad (_("invalid memory operand")); + return NULL; + } + + return l; +} + +/* Parse a SET instruction. */ +static const char * +parse_set (const char *line, const metag_reg **regs, metag_addr *addr, + unsigned int size) +{ + const char *l = line; + + l = parse_addr (l, addr, size); + + if (l == NULL) + { + as_bad (_("invalid memory operand")); + return NULL; + } + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + if (size == 8) + { + const char *ll = l; + + ll = parse_pair_gp_regs (l, regs); + + if (ll == NULL) + { + /* Maybe this is an RD register, which is 64 bits wide so needs no + pair. */ + l = parse_gp_regs (l, regs, 1); + + if (l == NULL || + regs[0]->unit != UNIT_RD) + { + return NULL; + } + } + else + l = ll; + } + else + { + l = parse_gp_regs (l, regs, 1); + + if (l == NULL) + { + as_bad (_("invalid source register")); + return NULL; + } + } + + return l; +} + +/* Check a signed integer value can be represented in the given number + of bits. */ +static bfd_boolean +within_signed_range (int value, unsigned int bits) +{ + int min_val = -(1 << (bits - 1)); + int max_val = (1 << (bits - 1)) - 1; + return (value <= max_val) && (value >= min_val); +} + +/* Check an unsigned integer value can be represented in the given number + of bits. */ +static bfd_boolean +within_unsigned_range (unsigned int value, unsigned int bits) +{ + return value < (unsigned int)(1 << bits); +} + +/* Return TRUE if UNIT can be expressed using a short code. */ +static bfd_boolean +is_short_unit (enum metag_unit unit) +{ + switch (unit) + { + case UNIT_A0: + case UNIT_A1: + case UNIT_D0: + case UNIT_D1: + return TRUE; + default: + return FALSE; + } +} + +/* Copy reloc data from ADDR to INSN. */ +static void +copy_addr_reloc (metag_insn *insn, metag_addr *addr) +{ + memcpy (&insn->reloc_exp, &addr->exp, sizeof(insn->reloc_exp)); + insn->reloc_type = addr->reloc_type; +} + +/* Parse a GET, SET or pipeline MOV instruction. */ +static const char * +parse_get_set (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[2]; + metag_addr addr; + unsigned int size = metag_get_set_size_bytes (template->meta_opcode); + bfd_boolean is_get = MAJOR_OPCODE (template->meta_opcode) == OPC_GET; + unsigned int reg_no; + + memset(&addr, 0, sizeof(addr)); + addr.reloc_type = BFD_RELOC_UNUSED; + + if (is_get) + { + bfd_boolean is_mov = strncmp (template->name, "MOV", 3) == 0; + + l = parse_get (l, regs, &addr, size, is_mov); + + if (l == NULL) + return NULL; + + if (!(regs[0]->unit == UNIT_D0 || + regs[0]->unit == UNIT_D1 || + regs[0]->unit == UNIT_A0 || + regs[0]->unit == UNIT_A1 || + (regs[0]->unit == UNIT_RD && is_mov) || + (regs[0]->unit == UNIT_CT && size == 4) || + (regs[0]->unit == UNIT_PC && size == 4) || + (regs[0]->unit == UNIT_TR && size == 4) || + (regs[0]->unit == UNIT_TT && (size == 4 || size == 8)) || + regs[0]->unit == UNIT_FX)) + { + as_bad (_("invalid destination unit")); + return NULL; + } + + if (regs[0]->unit == UNIT_RD) + { + if (regs[0]->no == 0) + { + as_bad (_("mov cannot use RD port as destination")); + return NULL; + } + } + + reg_no = regs[0]->no; + } + else + { + l = parse_set (l, regs, &addr, size); + + if (l == NULL) + return NULL; + + if (!(regs[0]->unit == UNIT_D0 || + regs[0]->unit == UNIT_D1 || + regs[0]->unit == UNIT_A0 || + regs[0]->unit == UNIT_A1 || + regs[0]->unit == UNIT_RD || + (regs[0]->unit == UNIT_CT && size == 4) || + (regs[0]->unit == UNIT_PC && size == 4) || + (regs[0]->unit == UNIT_TR && size == 4) || + (regs[0]->unit == UNIT_TT && (size == 4 || size == 8)) || + regs[0]->unit == UNIT_FX)) + { + as_bad (_("invalid source unit")); + return NULL; + } + + if (addr.immediate == 0 && + (regs[0]->unit == addr.base_reg->unit || + (size == 8 && is_unit_pair (regs[0], addr.base_reg)))) + { + as_bad (_("source and address units must not be shared for this addressing mode")); + return NULL; + } + + if (regs[0]->unit == UNIT_RD) + { + if (regs[0]->no != 0) + { + as_bad (_("set can only use RD port as source")); + return NULL; + } + reg_no = 16; + } + else + reg_no = regs[0]->no; + } + + insn->bits = (template->meta_opcode | + (reg_no << 19) | + (regs[0]->unit << 1)); + + if (!is_short_unit (addr.base_reg->unit)) + { + as_bad (_("base unit must be one of %s"), SHORT_UNITS); + return NULL; + } + + insn->bits |= ((addr.base_reg->no << 14) | + ((addr.base_reg->unit & SHORT_UNIT_MASK) << 5)); + + if (addr.immediate) + { + int offset = addr.exp.X_add_number; + + copy_addr_reloc (insn, &addr); + + if (addr.negate) + offset = -offset; + + offset = offset / (int)size; + + if (!within_signed_range (offset, GET_SET_IMM_BITS)) + { + /* We already tried to encode as an extended GET/SET. */ + as_bad (_("offset value out of range")); + return NULL; + } + + offset = offset & GET_SET_IMM_MASK; + + insn->bits |= (0x1 << 25); + insn->bits |= (offset << 8); + } + else + { + insn->bits |= (addr.offset_reg->no << 9); + } + + if (addr.update) + insn->bits |= (0x1 << 7); + + if (addr.post_increment) + insn->bits |= 0x1; + + insn->len = 4; + return l; +} + +/* Parse an extended GET or SET instruction. */ +static const char * +parse_get_set_ext (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[2]; + metag_addr addr; + unsigned int size = metag_get_set_ext_size_bytes (template->meta_opcode); + bfd_boolean is_get = MINOR_OPCODE (template->meta_opcode) == GET_EXT_MINOR; + bfd_boolean is_mov = MINOR_OPCODE (template->meta_opcode) == MOV_EXT_MINOR; + unsigned int reg_unit; + + memset(&addr, 0, sizeof(addr)); + addr.reloc_type = BFD_RELOC_UNUSED; + + if (is_get || is_mov) + { + l = parse_get (l, regs, &addr, size, is_mov); + } + else + { + l = parse_set (l, regs, &addr, size); + } + + if (l == NULL) + return NULL; + + /* Extended GET/SET does not support incrementing addressing. */ + if (addr.update) + return NULL; + + if (is_mov) + { + if (regs[0]->unit != UNIT_RD) + { + as_bad (_("destination unit must be RD")); + return NULL; + } + reg_unit = 0; + } + else + { + if (!is_short_unit (regs[0]->unit)) + { + return NULL; + } + reg_unit = regs[0]->unit; + } + + insn->bits = (template->meta_opcode | + (regs[0]->no << 19) | + ((reg_unit & SHORT_UNIT_MASK) << 3)); + + if (!is_short_unit (addr.base_reg->unit)) + { + as_bad (_("base unit must be one of %s"), SHORT_UNITS); + return NULL; + } + + if (addr.base_reg->no > 1) + { + return NULL; + } + + insn->bits |= ((addr.base_reg->no & EXT_BASE_REG_MASK) | + ((addr.base_reg->unit & SHORT_UNIT_MASK) << 5)); + + if (addr.immediate) + { + int offset = addr.exp.X_add_number; + + copy_addr_reloc (insn, &addr); + + if (addr.negate) + offset = -offset; + + offset = offset / (int)size; + + if (!within_signed_range (offset, GET_SET_EXT_IMM_BITS)) + { + /* Parsing as a standard GET/SET provides a smaller offset. */ + as_bad (_("offset value out of range")); + return NULL; + } + + offset = offset & GET_SET_EXT_IMM_MASK; + + insn->bits |= (offset << 7); + } + else + { + return NULL; + } + + insn->len = 4; + return l; +} + +/* Parse an MGET or MSET instruction addressing mode. */ +static const char * +parse_mget_mset_addr (const char *line, metag_addr *addr) +{ + const char *l = line; + const char *ll; + const metag_reg *regs[1]; + + /* Skip opening square bracket. */ + l++; + + l = parse_gp_regs (l, regs, 1); + + if (l == NULL) + return NULL; + + addr->base_reg = regs[0]; + + ll = parse_addr_post_incr_op (l, addr); + + if (ll != NULL) + l = ll; + + if (addr->negate == 1) + return NULL; + + if (*l == ADDR_END_CHAR) + { + l++; + return l; + } + + return NULL; +} + +/* Parse an MGET instruction. */ +static const char * +parse_mget (const char *line, const metag_reg **regs, metag_addr *addr, + size_t *regs_read) +{ + const char *l = line; + + l = parse_gp_regs_list (l, regs, MGET_MSET_MAX_REGS, regs_read); + + if (l == NULL || + *regs_read == 0) + { + as_bad (_("invalid destination register list")); + return NULL; + } + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + l = parse_mget_mset_addr (l, addr); + + if (l == NULL) + { + as_bad (_("invalid memory operand")); + return NULL; + } + + return l; +} + +/* Parse an MSET instruction. */ +static const char * +parse_mset (const char *line, const metag_reg **regs, metag_addr *addr, + size_t *regs_read) +{ + const char *l = line; + + l = parse_mget_mset_addr (l, addr); + + if (l == NULL) + { + as_bad (_("invalid memory operand")); + return NULL; + } + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + l = parse_gp_regs_list (l, regs, MGET_MSET_MAX_REGS, regs_read); + + if (l == NULL || + *regs_read == 0) + { + as_bad (_("invalid source register list")); + return NULL; + } + + return l; +} + +/* Take a register list REGS of size REGS_READ and convert it into an + rmask value if possible. Return the rmask value in RMASK and the + lowest numbered register in LOWEST_REG. Return TRUE if the conversion + was successful. */ +static bfd_boolean +check_rmask (const metag_reg **regs, size_t regs_read, bfd_boolean is_fpu, + bfd_boolean is_64bit, unsigned int *lowest_reg, + unsigned int *rmask) +{ + unsigned int reg_unit = regs[0]->unit; + size_t i; + + for (i = 0; i < regs_read; i++) + { + if (is_fpu) + { + if (is_64bit && regs[i]->no % 2) + { + as_bad (_("register list must be even numbered")); + return FALSE; + } + } + else if (regs[i]->unit != reg_unit) + { + as_bad (_("register list must be from the same unit")); + return FALSE; + } + + if (regs[i]->no < *lowest_reg) + *lowest_reg = regs[i]->no; + } + + for (i = 0; i < regs_read; i++) + { + unsigned int next_bit, next_reg; + if (regs[i]->no == *lowest_reg) + continue; + + if (is_fpu && is_64bit) + next_reg = ((regs[i]->no / 2) - ((*lowest_reg / 2) + 1)); + else + next_reg = (regs[i]->no - (*lowest_reg + 1)); + + next_bit = (1 << next_reg); + + if (*rmask & next_bit) + { + as_bad (_("register list must not contain duplicates")); + return FALSE; + } + + *rmask |= next_bit; + } + + return TRUE; +} + +/* Parse an MGET or MSET instruction. */ +static const char * +parse_mget_mset (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[MGET_MSET_MAX_REGS]; + metag_addr addr; + bfd_boolean is_get = MAJOR_OPCODE (template->meta_opcode) == OPC_GET; + bfd_boolean is_fpu = (MINOR_OPCODE (template->meta_opcode) & 0x6) == 0x6; + bfd_boolean is_64bit = (MINOR_OPCODE (template->meta_opcode) & 0x1) == 0x1; + size_t regs_read = 0; + unsigned int rmask = 0, reg_unit = 0, lowest_reg = 0xffffffff; + + memset(&addr, 0, sizeof(addr)); + addr.reloc_type = BFD_RELOC_UNUSED; + + if (is_get) + { + l = parse_mget (l, regs, &addr, ®s_read); + } + else + { + l = parse_mset (l, regs, &addr, ®s_read); + } + + if (l == NULL) + return NULL; + + if (!check_rmask (regs, regs_read, is_fpu, is_64bit, &lowest_reg, &rmask)) + return NULL; + + reg_unit = regs[0]->unit; + + if (is_fpu) + { + if (reg_unit != UNIT_FX) + return NULL; + + reg_unit = 0; + } + else if (reg_unit == UNIT_FX) + return NULL; + + insn->bits = (template->meta_opcode | + (lowest_reg << 19) | + ((reg_unit & SHORT_UNIT_MASK) << 3)); + + if (!is_short_unit (addr.base_reg->unit)) + { + as_bad (_("base unit must be one of %s"), SHORT_UNITS); + return NULL; + } + + insn->bits |= ((addr.base_reg->no << 14) | + ((addr.base_reg->unit & SHORT_UNIT_MASK) << 5)); + + insn->bits |= (rmask & RMASK_MASK) << 7; + + insn->len = 4; + return l; +} + +/* Parse a list of registers for MMOV pipeline prime. */ +static const char * +parse_mmov_prime_list (const char *line, const metag_reg **regs, + unsigned int *rmask) +{ + const char *l = line; + const metag_reg *ra_regs[MMOV_MAX_REGS]; + size_t regs_read = 0, i; + unsigned int mask = 0; + + l = parse_gp_regs_list (l, regs, 1, ®s_read); + + /* First register must be a port. */ + if (l == NULL || regs[0]->unit != UNIT_RD) + return NULL; + + l = skip_comma (l); + + if (l == NULL) + return NULL; + + l = parse_gp_regs_list (l, ra_regs, MMOV_MAX_REGS, ®s_read); + + if (l == NULL) + return NULL; + + /* Check remaining registers match the first. + + Note that we also accept RA (0x10) as input for the remaining registers. + Whilst this doesn't represent the instruction in any way we're stuck + with it because the embedded assembler accepts it. */ + for (i = 0; i < regs_read; i++) + { + if (ra_regs[i]->unit != UNIT_RD || + (ra_regs[i]->no != 0x10 && ra_regs[i]->no != regs[0]->no)) + return NULL; + + mask = (mask << 1) | 0x1; + } + + *rmask = mask; + + return l; +} + +/* Parse a MMOV instruction. */ +static const char * +parse_mmov (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + unsigned int is_fpu = template->insn_type == INSN_FPU; + unsigned int is_prime = ((MINOR_OPCODE (template->meta_opcode) & 0x2) && + !is_fpu); + unsigned int is_64bit = MINOR_OPCODE (template->meta_opcode) & 0x1; + unsigned int rmask = 0; + + if (is_prime) + { + const metag_reg *reg; + metag_addr addr; + + memset (&addr, 0, sizeof(addr)); + + l = parse_mmov_prime_list (l, ®, &rmask); + + if (l == NULL) + return NULL; + + l = skip_comma (l); + + if (l == NULL) + return NULL; + + l = parse_mget_mset_addr (l, &addr); + + if (l == NULL) + { + as_bad (_("invalid memory operand")); + return NULL; + } + + insn->bits = (template->meta_opcode | + (reg->no << 19) | + (addr.base_reg->no << 14) | + ((rmask & RMASK_MASK) << 7) | + ((addr.base_reg->unit & SHORT_UNIT_MASK) << 5)); + } + else + { + const metag_reg *regs[MMOV_MAX_REGS + 1]; + unsigned int lowest_reg = 0xffffffff; + size_t regs_read = 0; + + l = parse_gp_regs_list (l, regs, MMOV_MAX_REGS + 1, ®s_read); + + if (l == NULL || regs_read == 0) + return NULL; + + if (!is_short_unit (regs[0]->unit) && + !(is_fpu && regs[0]->unit == UNIT_FX)) + { + return NULL; + } + + if (!(regs[regs_read-1]->unit == UNIT_RD && + regs[regs_read-1]->no == 0)) + { + return NULL; + } + + if (!check_rmask (regs, regs_read - 1, is_fpu, is_64bit, &lowest_reg, + &rmask)) + return NULL; + + if (is_fpu) + { + insn->bits = (template->meta_opcode | + (regs[0]->no << 14) | + ((rmask & RMASK_MASK) << 7)); + } + else + { + insn->bits = (template->meta_opcode | + (regs[0]->no << 19) | + ((rmask & RMASK_MASK) << 7) | + ((regs[0]->unit & SHORT_UNIT_MASK) << 3)); + } + } + + insn->len = 4; + return l; +} + +/* Parse an immediate constant. */ +static const char * +parse_imm_constant (const char *line, metag_insn *insn, int *value) +{ + const char *l = line; + char *save_input_line_pointer; + expressionS *exp = &insn->reloc_exp; + + /* Skip #. */ + if (*l == '#') + l++; + else + return NULL; + + save_input_line_pointer = input_line_pointer; + input_line_pointer = (char *) l; + + expression (exp); + + l = input_line_pointer; + input_line_pointer = save_input_line_pointer; + + if (exp->X_op == O_constant) + { + *value = exp->X_add_number; + + return l; + } + else + { + return NULL; + } +} + +/* Parse an MDRD instruction. */ +static const char * +parse_mdrd (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + unsigned int rmask = 0; + int value = 0, i; + + l = parse_imm_constant (l, insn, &value); + + if (l == NULL) + return NULL; + + if (value < 1 || value > 8) + { + as_bad (_("MDRD value must be between 1 and 8")); + return NULL; + } + + for (i = 1; i < value; i++) + { + rmask <<= 1; + rmask |= 1; + } + + insn->bits = (template->meta_opcode | + (rmask << 7)); + + insn->len = 4; + return l; +} + +/* Parse a conditional SET instruction. */ +static const char * +parse_cond_set (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[2]; + metag_addr addr; + unsigned int size = metag_cond_set_size_bytes (template->meta_opcode); + unsigned int reg_no; + + memset(&addr, 0, sizeof(addr)); + addr.reloc_type = BFD_RELOC_UNUSED; + + l = parse_set (l, regs, &addr, size); + + if (l == NULL) + return NULL; + + if (regs[0]->unit == UNIT_RD) + { + if (regs[0]->no != 0) + { + as_bad (_("set can only use RD port as source")); + return NULL; + } + reg_no = 16; + } + else + reg_no = regs[0]->no; + + if (addr.update) + return NULL; + + if (!(addr.immediate && + addr.exp.X_add_number == 0)) + return NULL; + + insn->bits = (template->meta_opcode | + (reg_no << 19) | + (regs[0]->unit << 10)); + + if (!is_short_unit (addr.base_reg->unit)) + { + as_bad (_("base unit must be one of %s"), SHORT_UNITS); + return NULL; + } + + insn->bits |= ((addr.base_reg->no << 14) | + ((addr.base_reg->unit & SHORT_UNIT_MASK) << 5)); + + insn->len = 4; + return l; +} + +/* Parse an XFR instruction. */ +static const char * +parse_xfr (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + metag_addr dest_addr, src_addr; + unsigned int size = 4; + + memset(&dest_addr, 0, sizeof(dest_addr)); + memset(&src_addr, 0, sizeof(src_addr)); + dest_addr.reloc_type = BFD_RELOC_UNUSED; + src_addr.reloc_type = BFD_RELOC_UNUSED; + + l = parse_addr (l, &dest_addr, size); + + if (l == NULL || + dest_addr.immediate == 1) + { + as_bad (_("invalid destination memory operand")); + return NULL; + } + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + l = parse_addr (l, &src_addr, size); + + if (l == NULL || + src_addr.immediate == 1) + { + as_bad (_("invalid source memory operand")); + return NULL; + } + + if (!is_short_unit (dest_addr.base_reg->unit) || + !is_short_unit (src_addr.base_reg->unit)) + { + as_bad (_("address units must be one of %s"), SHORT_UNITS); + return NULL; + } + + if ((dest_addr.base_reg->unit != dest_addr.offset_reg->unit) || + (src_addr.base_reg->unit != src_addr.offset_reg->unit)) + { + as_bad (_("base and offset must be from the same unit")); + return NULL; + } + + if (dest_addr.update == 1 && + src_addr.update == 1 && + dest_addr.post_increment != src_addr.post_increment) + { + as_bad (_("source and destination increment mode must agree")); + return NULL; + } + + insn->bits = (template->meta_opcode | + (src_addr.base_reg->no << 19) | + (src_addr.offset_reg->no << 14) | + ((src_addr.base_reg->unit & SHORT_UNIT_MASK) << 2)); + + insn->bits |= ((dest_addr.base_reg->no << 9) | + (dest_addr.offset_reg->no << 4) | + ((dest_addr.base_reg->unit & SHORT_UNIT_MASK))); + + if (dest_addr.update == 1) + insn->bits |= (1 << 26); + + if (src_addr.update == 1) + insn->bits |= (1 << 27); + + if (dest_addr.post_increment == 1 || + src_addr.post_increment == 1) + insn->bits |= (1 << 24); + + insn->len = 4; + return l; +} + +/* Parse an 8bit immediate value. */ +static const char * +parse_imm8 (const char *line, metag_insn *insn, int *value) +{ + const char *l = line; + char *save_input_line_pointer; + expressionS *exp = &insn->reloc_exp; + + /* Skip #. */ + if (*l == '#') + l++; + else + return NULL; + + save_input_line_pointer = input_line_pointer; + input_line_pointer = (char *) l; + + expression (exp); + + l = input_line_pointer; + input_line_pointer = save_input_line_pointer; + + if (exp->X_op == O_absent || exp->X_op == O_big) + { + return NULL; + } + else if (exp->X_op == O_constant) + { + *value = exp->X_add_number; + } + else + { + insn->reloc_type = BFD_RELOC_METAG_REL8; + insn->reloc_pcrel = 0; + } + + return l; +} + +/* Parse a 16bit immediate value. */ +static const char * +parse_imm16 (const char *line, metag_insn *insn, int *value) +{ + const char *l = line; + char *save_input_line_pointer; + expressionS *exp = &insn->reloc_exp; + bfd_boolean is_hi = FALSE; + bfd_boolean is_lo = FALSE; + + /* Skip #. */ + if (*l == '#') + l++; + else + return NULL; + + if (strncasecmp (l, "HI", 2) == 0) + { + is_hi = TRUE; + l += 2; + } + else if (strncasecmp (l, "LO", 2) == 0) + { + is_lo = TRUE; + l += 2; + } + + save_input_line_pointer = input_line_pointer; + input_line_pointer = (char *) l; + + expression (exp); + + l = input_line_pointer; + input_line_pointer = save_input_line_pointer; + + if (exp->X_op == O_absent || exp->X_op == O_big) + { + return NULL; + } + else if (exp->X_op == O_constant) + { + if (is_hi) + *value = (exp->X_add_number >> 16) & IMM16_MASK; + else if (is_lo) + *value = exp->X_add_number & IMM16_MASK; + else + *value = exp->X_add_number; + } + else + { + if (exp->X_op == O_PIC_reloc) + { + exp->X_op = O_symbol; + + if (exp->X_md == BFD_RELOC_METAG_GOTOFF) + { + if (is_hi) + insn->reloc_type = BFD_RELOC_METAG_HI16_GOTOFF; + else if (is_lo) + insn->reloc_type = BFD_RELOC_METAG_LO16_GOTOFF; + else + return NULL; + } + else if (exp->X_md == BFD_RELOC_METAG_PLT) + { + if (is_hi) + insn->reloc_type = BFD_RELOC_METAG_HI16_PLT; + else if (is_lo) + insn->reloc_type = BFD_RELOC_METAG_LO16_PLT; + else + return NULL; + } + else if (exp->X_md == BFD_RELOC_METAG_TLS_LDO) + { + if (is_hi) + insn->reloc_type = BFD_RELOC_METAG_TLS_LDO_HI16; + else if (is_lo) + insn->reloc_type = BFD_RELOC_METAG_TLS_LDO_LO16; + else + return NULL; + } + else if (exp->X_md == BFD_RELOC_METAG_TLS_IENONPIC) + { + if (is_hi) + insn->reloc_type = BFD_RELOC_METAG_TLS_IENONPIC_HI16; + else if (is_lo) + insn->reloc_type = BFD_RELOC_METAG_TLS_IENONPIC_LO16; + else + return NULL; + } + else if (exp->X_md == BFD_RELOC_METAG_TLS_LE) + { + if (is_hi) + insn->reloc_type = BFD_RELOC_METAG_TLS_LE_HI16; + else if (is_lo) + insn->reloc_type = BFD_RELOC_METAG_TLS_LE_LO16; + else + return NULL; + } + else if (exp->X_md == BFD_RELOC_METAG_TLS_GD || + exp->X_md == BFD_RELOC_METAG_TLS_LDM) + insn->reloc_type = exp->X_md; + } + else + { + if (exp->X_op == O_symbol && exp->X_add_symbol == GOT_symbol) + { + if (is_hi) + insn->reloc_type = BFD_RELOC_METAG_HI16_GOTPC; + else if (is_lo) + insn->reloc_type = BFD_RELOC_METAG_LO16_GOTPC; + else + return NULL; + } + else + { + if (is_hi) + insn->reloc_type = BFD_RELOC_METAG_HIADDR16; + else if (is_lo) + insn->reloc_type = BFD_RELOC_METAG_LOADDR16; + else + insn->reloc_type = BFD_RELOC_METAG_REL16; + } + } + + insn->reloc_pcrel = 0; + } + + return l; +} + +/* Parse a MOV to control unit instruction. */ +static const char * +parse_mov_ct (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[1]; + unsigned int top = template->meta_opcode & 0x1; + unsigned int is_trace = (template->meta_opcode >> 2) & 0x1; + unsigned int sign_extend = 0; + int value = 0; + + l = parse_gp_regs (l, regs, 1); + + if (l == NULL) + return NULL; + + if (is_trace) + { + if (regs[0]->unit != UNIT_TT) + return NULL; + } + else + { + if (regs[0]->unit != UNIT_CT) + return NULL; + } + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + l = parse_imm16 (l, insn, &value); + + if (l == NULL) + return NULL; + + if (value < 0) + sign_extend = 1; + + insn->bits = (template->meta_opcode | + (regs[0]->no << 19) | + ((value & IMM16_MASK) << 3)); + + if (sign_extend == 1 && top == 0) + insn->bits |= (1 << 1); + + insn->len = 4; + return l; +} + +/* Parse a SWAP instruction. */ +static const char * +parse_swap (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[2]; + + l = parse_gp_regs (l, regs, 2); + + if (l == NULL) + return NULL; + + insn->bits = (template->meta_opcode | + (regs[1]->no << 19) | + (regs[0]->no << 14) | + (regs[1]->unit << 10) | + (regs[0]->unit << 5)); + + insn->len = 4; + return l; +} + +/* Parse a JUMP instruction. */ +static const char * +parse_jump (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[1]; + int value = 0; + + l = parse_gp_regs (l, regs, 1); + + if (l == NULL) + return NULL; + + if (!is_short_unit (regs[0]->unit)) + { + as_bad (_("register unit must be one of %s"), SHORT_UNITS); + return FALSE; + } + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + l = parse_imm16 (l, insn, &value); + + if (l == NULL) + return NULL; + + insn->bits = (template->meta_opcode | + (regs[0]->no << 19) | + (regs[0]->unit & SHORT_UNIT_MASK) | + ((value & IMM16_MASK) << 3)); + + insn->len = 4; + return l; +} + +/* Parse a 19bit immediate value. */ +static const char * +parse_imm19 (const char *line, metag_insn *insn, int *value) +{ + const char *l = line; + char *save_input_line_pointer; + expressionS *exp = &insn->reloc_exp; + + /* Skip #. */ + if (*l == '#') + l++; + + save_input_line_pointer = input_line_pointer; + input_line_pointer = (char *) l; + + expression (exp); + + l = input_line_pointer; + input_line_pointer = save_input_line_pointer; + + if (exp->X_op == O_absent || exp->X_op == O_big) + { + return NULL; + } + else if (exp->X_op == O_constant) + { + *value = exp->X_add_number; + } + else + { + if (exp->X_op == O_PIC_reloc) + { + exp->X_op = O_symbol; + + if (exp->X_md == BFD_RELOC_METAG_PLT) + insn->reloc_type = BFD_RELOC_METAG_RELBRANCH_PLT; + else + return NULL; + } + else + insn->reloc_type = BFD_RELOC_METAG_RELBRANCH; + insn->reloc_pcrel = 1; + } + + return l; +} + +/* Parse a CALLR instruction. */ +static const char * +parse_callr (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[1]; + int value = 0; + + l = parse_gp_regs (l, regs, 1); + + if (l == NULL) + return NULL; + + if (!is_short_unit (regs[0]->unit)) + { + as_bad (_("link register unit must be one of %s"), SHORT_UNITS); + return NULL; + } + + if (regs[0]->no & ~CALLR_REG_MASK) + { + as_bad (_("link register must be in a low numbered register")); + return NULL; + } + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + l = parse_imm19 (l, insn, &value); + + if (l == NULL) + return NULL; + + if (!within_signed_range (value / 4, IMM19_BITS)) + { + as_bad (_("target out of range")); + return NULL; + } + + insn->bits = (template->meta_opcode | + (regs[0]->no & CALLR_REG_MASK) | + ((regs[0]->unit & SHORT_UNIT_MASK) << 3) | + ((value & IMM19_MASK) << 5)); + + insn->len = 4; + return l; +} + +/* Return the value for the register field if we apply the O2R modifier + to operand 2 REG, combined with UNIT_BIT derived from the destination + register or source1. Uses address unit O2R if IS_ADDR is set. */ +static int +lookup_o2r (unsigned int is_addr, unsigned int unit_bit, const metag_reg *reg) +{ + if (reg->no & ~O2R_REG_MASK) + return -1; + + if (is_addr) + { + if (unit_bit) + { + switch (reg->unit) + { + case UNIT_D1: + return reg->no; + case UNIT_D0: + return (1 << 3) | reg->no; + case UNIT_RD: + return (2 << 3) | reg->no; + case UNIT_A0: + return (3 << 3) | reg->no; + default: + return -1; + } + } + else + { + switch (reg->unit) + { + case UNIT_A1: + return reg->no; + case UNIT_D0: + return (1 << 3) | reg->no; + case UNIT_RD: + return (2 << 3) | reg->no; + case UNIT_D1: + return (3 << 3) | reg->no; + default: + return -1; + } + } + } + else + { + if (unit_bit) + { + switch (reg->unit) + { + case UNIT_A1: + return reg->no; + case UNIT_D0: + return (1 << 3) | reg->no; + case UNIT_RD: + return (2 << 3) | reg->no; + case UNIT_A0: + return (3 << 3) | reg->no; + default: + return -1; + } + } + else + { + switch (reg->unit) + { + case UNIT_A1: + return reg->no; + case UNIT_D1: + return (1 << 3) | reg->no; + case UNIT_RD: + return (2 << 3) | reg->no; + case UNIT_A0: + return (3 << 3) | reg->no; + default: + return -1; + } + } + } +} + +/* Parse GP ALU instruction. */ +static const char * +parse_alu (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *dest_regs[1]; + const metag_reg *src_regs[2]; + int value = 0; + unsigned int o1z = 0; + unsigned int imm = (template->meta_opcode >> 25) & 0x1; + unsigned int cond = (template->meta_opcode >> 26) & 0x1; + unsigned int ca = (template->meta_opcode >> 5) & 0x1; + unsigned int top = template->meta_opcode & 0x1; + unsigned int sign_extend = 0; + unsigned int is_addr_op = MAJOR_OPCODE (template->meta_opcode) == OPC_ADDR; + unsigned int is_mul = MAJOR_OPCODE (template->meta_opcode) == OPC_MUL; + unsigned int unit_bit = 0; + bfd_boolean is_quickrot = template->arg_type & GP_ARGS_QR; + + l = parse_gp_regs (l, dest_regs, 1); + + if (l == NULL) + return NULL; + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + if (is_addr_op) + { + if (dest_regs[0]->unit == UNIT_A0) + unit_bit = 0; + else if (dest_regs[0]->unit == UNIT_A1) + unit_bit = 1; + } + else + { + if (dest_regs[0]->unit == UNIT_D0) + unit_bit = 0; + else if (dest_regs[0]->unit == UNIT_D1) + unit_bit = 1; + } + + if ((MAJOR_OPCODE (template->meta_opcode) == OPC_ADDR || + MAJOR_OPCODE (template->meta_opcode) == OPC_ADD || + MAJOR_OPCODE (template->meta_opcode) == OPC_SUB) && + ((template->meta_opcode >> 2) & 0x1)) + o1z = 1; + + if (imm) + { + if (!cond) + { + if (is_addr_op) + { + if (dest_regs[0]->unit == UNIT_A0) + unit_bit = 0; + else if (dest_regs[0]->unit == UNIT_A1) + unit_bit = 1; + else + return NULL; + } + else + { + if (dest_regs[0]->unit == UNIT_D0) + unit_bit = 0; + else if (dest_regs[0]->unit == UNIT_D1) + unit_bit = 1; + else + return NULL; + } + } + + if (cond) + { + l = parse_gp_regs (l, src_regs, 1); + + if (l == NULL) + return NULL; + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + if (is_addr_op) + { + if (src_regs[0]->unit == UNIT_A0) + unit_bit = 0; + else if (src_regs[0]->unit == UNIT_A1) + unit_bit = 1; + else + return NULL; + } + else + { + if (src_regs[0]->unit == UNIT_D0) + unit_bit = 0; + else if (src_regs[0]->unit == UNIT_D1) + unit_bit = 1; + else + return NULL; + } + + if (src_regs[0]->unit != dest_regs[0]->unit && !ca) + return NULL; + + l = parse_imm8 (l, insn, &value); + + if (l == NULL) + return NULL; + + if (!within_unsigned_range (value, IMM8_BITS)) + return NULL; + + insn->bits = (template->meta_opcode | + (dest_regs[0]->no << 19) | + (src_regs[0]->no << 14) | + ((value & IMM8_MASK) << 6)); + + if (ca) + { + if (is_addr_op) + { + if (src_regs[0]->unit == UNIT_A0) + unit_bit = 0; + else if (src_regs[0]->unit == UNIT_A1) + unit_bit = 1; + else + return NULL; + } + else + { + if (src_regs[0]->unit == UNIT_D0) + unit_bit = 0; + else if (src_regs[0]->unit == UNIT_D1) + unit_bit = 1; + else + return NULL; + } + + insn->bits |= dest_regs[0]->unit << 1; + } + } + else if (o1z) + { + l = parse_imm16 (l, insn, &value); + + if (l == NULL) + return NULL; + + if (value < 0) + { + if (!within_signed_range (value, IMM16_BITS)) + { + as_bad (_("immediate out of range")); + return NULL; + } + sign_extend = 1; + } + else + { + if (!within_unsigned_range (value, IMM16_BITS)) + { + as_bad (_("immediate out of range")); + return NULL; + } + } + + insn->bits = (template->meta_opcode | + (dest_regs[0]->no << 19) | + ((value & IMM16_MASK) << 3)); + } + else + { + l = parse_gp_regs (l, src_regs, 1); + + if (l == NULL) + return NULL; + + if (!(src_regs[0]->unit == dest_regs[0]->unit)) + return NULL; + + /* CPC is valid for address ops. */ + if (src_regs[0]->no != dest_regs[0]->no && + !(is_addr_op && src_regs[0]->no == 0x10)) + return NULL; + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + l = parse_imm16 (l, insn, &value); + + if (l == NULL) + return NULL; + + if (value < 0) + { + if (!within_signed_range (value, IMM16_BITS)) + { + as_bad (_("immediate out of range")); + return NULL; + } + sign_extend = 1; + } + else + { + if (!within_unsigned_range (value, IMM16_BITS)) + { + as_bad (_("immediate out of range")); + return NULL; + } + } + + insn->bits = (template->meta_opcode | + (dest_regs[0]->no << 19) | + (src_regs[0]->no << 19) | + ((value & IMM16_MASK) << 3)); + } + } + else + { + unsigned int o2r = 0; + int rs2; + + if (cond || !o1z) + l = parse_gp_regs (l, src_regs, 2); + else + l = parse_gp_regs (l, src_regs, 1); + + if (l == NULL) + return NULL; + + if (cond || !o1z) + { + if (is_addr_op) + { + if (src_regs[0]->unit == UNIT_A0) + unit_bit = 0; + else if (src_regs[0]->unit == UNIT_A1) + unit_bit = 1; + else + return NULL; + } + else + { + if (src_regs[0]->unit == UNIT_D0) + unit_bit = 0; + else if (src_regs[0]->unit == UNIT_D1) + unit_bit = 1; + else + return NULL; + } + } + else + { + if (is_addr_op) + { + if (dest_regs[0]->unit == UNIT_A0) + unit_bit = 0; + else if (dest_regs[0]->unit == UNIT_A1) + unit_bit = 1; + else + return NULL; + } + else + { + if (dest_regs[0]->unit == UNIT_D0) + unit_bit = 0; + else if (dest_regs[0]->unit == UNIT_D1) + unit_bit = 1; + else + return NULL; + } + } + + if (cond) + { + if (src_regs[0]->unit != src_regs[1]->unit) + { + rs2 = lookup_o2r (is_addr_op, unit_bit, src_regs[1]); + + if (rs2 < 0) + return NULL; + + o2r = 1; + } + else + { + rs2 = src_regs[1]->no; + } + + insn->bits = (template->meta_opcode | + (dest_regs[0]->no << 19) | + (src_regs[0]->no << 14) | + (rs2 << 9)); + + if (is_mul) + { + if (dest_regs[0]->unit != src_regs[0]->unit && is_mul) + { + if (ca) + { + insn->bits |= dest_regs[0]->unit << 1; + } + else + return NULL; + } + } + else + insn->bits |= dest_regs[0]->unit << 5; + } + else if (o1z) + { + if (dest_regs[0]->unit != src_regs[0]->unit) + { + rs2 = lookup_o2r (is_addr_op, unit_bit, src_regs[0]); + + if (rs2 < 0) + return NULL; + + o2r = 1; + } + else + { + rs2 = src_regs[0]->no; + } + + insn->bits = (template->meta_opcode | + (dest_regs[0]->no << 19) | + (rs2 << 9)); + } + else + { + if (dest_regs[0]->unit != src_regs[0]->unit) + return NULL; + + if (dest_regs[0]->unit != src_regs[1]->unit) + { + rs2 = lookup_o2r (is_addr_op, unit_bit, src_regs[1]); + + if (rs2 < 0) + return NULL; + + o2r = 1; + } + else + { + rs2 = src_regs[1]->no; + } + + insn->bits = (template->meta_opcode | + (dest_regs[0]->no << 19) | + (src_regs[0]->no << 14) | + (rs2 << 9)); + } + + if (o2r) + insn->bits |= 1; + } + + if (is_quickrot) + { + const metag_reg *qr_regs[1]; + bfd_boolean limit_regs = imm && cond; + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + l = parse_gp_regs (l, qr_regs, 1); + + if (l == NULL) + return NULL; + + if (!((unit_bit == 0 && qr_regs[0]->unit != UNIT_A0) || + !(unit_bit == 1 && qr_regs[0]->unit != UNIT_A1))) + { + as_bad (_("invalid quickrot unit specified")); + return NULL; + } + + switch (qr_regs[0]->no) + { + case 2: + break; + case 3: + if (!limit_regs) + { + insn->bits |= (1 << 7); + break; + } + default: + as_bad (_("invalid quickrot register specified")); + return NULL; + } + } + + if (sign_extend == 1 && top == 0) + insn->bits |= (1 << 1); + + insn->bits |= unit_bit << 24; + insn->len = 4; + return l; +} + +/* Parse a B instruction. */ +static const char * +parse_branch (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + int value = 0; + + l = parse_imm19 (l, insn, &value); + + if (l == NULL) + return NULL; + + if (!within_signed_range (value / 4, IMM19_BITS)) + { + as_bad (_("target out of range")); + return NULL; + } + + insn->bits = (template->meta_opcode | + ((value & IMM19_MASK) << 5)); + + insn->len = 4; + return l; +} + +/* Parse a KICK instruction. */ +static const char * +parse_kick (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[2]; + + l = parse_gp_regs (l, regs, 2); + + if (l == NULL) + return NULL; + + if (regs[1]->unit != UNIT_TR) + { + as_bad (_("source register must be in the trigger unit")); + return NULL; + } + + insn->bits = (template->meta_opcode | + (regs[1]->no << 19) | + (regs[0]->no << 14) | + (regs[0]->unit << 5)); + + insn->len = 4; + return l; +} + +/* Parse a SWITCH instruction. */ +static const char * +parse_switch (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + int value = 0; + + l = parse_imm_constant (l, insn, &value); + + if (l == NULL) + return NULL; + + if (!within_unsigned_range (value, IMM24_BITS)) + { + as_bad (_("target out of range")); + return NULL; + } + + insn->bits = (template->meta_opcode | + (value & IMM24_MASK)); + + insn->len = 4; + return l; +} + +/* Parse a shift instruction. */ +static const char * +parse_shift (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[2]; + const metag_reg *src2_regs[1]; + int value = 0; + unsigned int cond = (template->meta_opcode >> 26) & 0x1; + unsigned int ca = (template->meta_opcode >> 5) & 0x1; + unsigned int unit_bit = 0; + + l = parse_gp_regs (l, regs, 2); + + if (l == NULL) + return NULL; + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + if (regs[1]->unit == UNIT_D0) + unit_bit = 0; + else if (regs[1]->unit == UNIT_D1) + unit_bit = 1; + else + return NULL; + + if (regs[0]->unit != regs[1]->unit && !(cond && ca)) + return NULL; + + if (*l == '#') + { + l = parse_imm_constant (l, insn, &value); + + if (l == NULL) + return NULL; + + if (!within_unsigned_range (value, IMM5_BITS)) + return NULL; + + insn->bits = (template->meta_opcode | + (1 << 25) | + (regs[0]->no << 19) | + (regs[1]->no << 14) | + ((value & IMM5_MASK) << 9)); + } + else + { + l = parse_gp_regs (l, src2_regs, 1); + + if (l == NULL) + return NULL; + + insn->bits = (template->meta_opcode | + (regs[0]->no << 19) | + (regs[1]->no << 14) | + (src2_regs[0]->no << 9)); + + if (src2_regs[0]->unit != regs[1]->unit) + { + as_bad(_("Source registers must be in the same unit")); + return NULL; + } + } + + if (regs[0]->unit != regs[1]->unit) + { + if (cond && ca) + { + if (regs[1]->unit == UNIT_D0) + unit_bit = 0; + else if (regs[1]->unit == UNIT_D1) + unit_bit = 1; + else + return NULL; + + insn->bits |= ((1 << 5) | + (regs[0]->unit << 1)); + } + else + return NULL; + } + + insn->bits |= unit_bit << 24; + insn->len = 4; + return l; +} + +/* Parse a MIN or MAX instruction. */ +static const char * +parse_min_max (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[3]; + + l = parse_gp_regs (l, regs, 3); + + if (l == NULL) + return NULL; + + if (!(regs[0]->unit == UNIT_D0 || + regs[0]->unit == UNIT_D1)) + return NULL; + + if (!(regs[0]->unit == regs[1]->unit && + regs[1]->unit == regs[2]->unit)) + return NULL; + + insn->bits = (template->meta_opcode | + (regs[0]->no << 19) | + (regs[1]->no << 14) | + (regs[2]->no << 9)); + + if (regs[0]->unit == UNIT_D1) + insn->bits |= (1 << 24); + + insn->len = 4; + return l; +} + +/* Parse a bit operation instruction. */ +static const char * +parse_bitop (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[2]; + unsigned int swap_inst = MAJOR_OPCODE (template->meta_opcode) == OPC_MISC; + unsigned int is_bexl = 0; + + if (swap_inst && + ((template->meta_opcode >> 1) & 0xb) == 0xa) + is_bexl = 1; + + l = parse_gp_regs (l, regs, 2); + + if (l == NULL) + return NULL; + + if (!(regs[0]->unit == UNIT_D0 || + regs[0]->unit == UNIT_D1)) + return NULL; + + if (is_bexl) + { + if (regs[0]->unit == UNIT_D0 && + regs[1]->unit != UNIT_D1) + return NULL; + else if (regs[0]->unit == UNIT_D1 && + regs[1]->unit != UNIT_D0) + return NULL; + } + else if (!(regs[0]->unit == regs[1]->unit)) + return NULL; + + insn->bits = (template->meta_opcode | + (regs[0]->no << 19) | + (regs[1]->no << 14)); + + if (swap_inst) + { + if (regs[1]->unit == UNIT_D1) + insn->bits |= 1; + } + else + { + if (regs[1]->unit == UNIT_D1) + insn->bits |= (1 << 24); + } + + insn->len = 4; + return l; +} + +/* Parse a CMP or TST instruction. */ +static const char * +parse_cmp (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *dest_regs[1]; + const metag_reg *src_regs[1]; + int value = 0; + unsigned int imm = (template->meta_opcode >> 25) & 0x1; + unsigned int cond = (template->meta_opcode >> 26) & 0x1; + unsigned int top = template->meta_opcode & 0x1; + unsigned int sign_extend = 0; + unsigned int unit_bit = 0; + + l = parse_gp_regs (l, dest_regs, 1); + + if (l == NULL) + return NULL; + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + if (dest_regs[0]->unit == UNIT_D0) + unit_bit = 0; + else if (dest_regs[0]->unit == UNIT_D1) + unit_bit = 1; + else + return NULL; + + if (imm) + { + if (cond) + { + l = parse_imm_constant (l, insn, &value); + + if (l == NULL) + return NULL; + + if (!within_unsigned_range (value, IMM8_BITS)) + return NULL; + + insn->bits = (template->meta_opcode | + (dest_regs[0]->no << 14) | + ((value & IMM8_MASK) << 6)); + + } + else + { + l = parse_imm16 (l, insn, &value); + + if (l == NULL) + return NULL; + + if (value < 0) + { + if (!within_signed_range (value, IMM16_BITS)) + { + as_bad (_("immediate out of range")); + return NULL; + } + sign_extend = 1; + } + else + { + if (!within_unsigned_range (value, IMM16_BITS)) + { + as_bad (_("immediate out of range")); + return NULL; + } + } + + insn->bits = (template->meta_opcode | + (dest_regs[0]->no << 19) | + ((value & IMM16_MASK) << 3)); + } + } + else + { + unsigned int o2r = 0; + int rs2; + + l = parse_gp_regs (l, src_regs, 1); + + if (l == NULL) + return NULL; + + if (dest_regs[0]->unit != src_regs[0]->unit) + { + rs2 = lookup_o2r (0, unit_bit, src_regs[0]); + + if (rs2 < 0) + return NULL; + + o2r = 1; + } + else + { + rs2 = src_regs[0]->no; + } + + insn->bits = (template->meta_opcode | + (dest_regs[0]->no << 14) | + (rs2 << 9)); + + if (o2r) + insn->bits |= 1; + } + + if (sign_extend == 1 && top == 0) + insn->bits |= (1 << 1); + + insn->bits |= unit_bit << 24; + insn->len = 4; + return l; +} + +/* Parse a CACHEW instruction. */ +static const char * +parse_cachew (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *src_regs[2]; + unsigned int size = ((template->meta_opcode >> 1) & 0x1) ? 8 : 4; + metag_addr addr; + int offset; + + memset(&addr, 0, sizeof(addr)); + addr.reloc_type = BFD_RELOC_UNUSED; + + l = parse_addr (l, &addr, size); + + if (l == NULL || + !is_short_unit (addr.base_reg->unit) || + addr.update || + !addr.immediate) + { + as_bad (_("invalid memory operand")); + return NULL; + } + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + if (size == 4) + l = parse_gp_regs (l, src_regs, 1); + else + l = parse_pair_gp_regs (l, src_regs); + + if (l == NULL || + !is_short_unit (src_regs[0]->unit)) + { + as_bad (_("invalid source register")); + return NULL; + } + + offset = addr.exp.X_add_number; + + if (addr.negate) + offset = -offset; + + offset = offset / 64; + + if (!within_signed_range (offset, GET_SET_IMM_BITS)) + { + as_bad (_("offset value out of range")); + return NULL; + } + + insn->bits = (template->meta_opcode | + (src_regs[0]->no << 19) | + (addr.base_reg->no << 14) | + ((offset & GET_SET_IMM_MASK) << 8) | + ((addr.base_reg->unit & SHORT_UNIT_MASK) << 5) | + ((src_regs[0]->unit & SHORT_UNIT_MASK) << 3)); + + insn->len = 4; + return l; +} + +/* Parse a CACHEW instruction. */ +static const char * +parse_cacher (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *dest_regs[2]; + unsigned int size = ((template->meta_opcode >> 1) & 0x1) ? 8 : 4; + metag_addr addr; + int offset; + + memset(&addr, 0, sizeof(addr)); + addr.reloc_type = BFD_RELOC_UNUSED; + + if (size == 4) + l = parse_gp_regs (l, dest_regs, 1); + else + l = parse_pair_gp_regs (l, dest_regs); + + if (l == NULL || + !is_short_unit (dest_regs[0]->unit)) + { + as_bad (_("invalid destination register")); + return NULL; + } + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + l = parse_addr (l, &addr, size); + + if (l == NULL || + !is_short_unit (addr.base_reg->unit) || + addr.update || + !addr.immediate) + { + as_bad (_("invalid memory operand")); + return NULL; + } + + offset = addr.exp.X_add_number; + + if (addr.negate) + offset = -offset; + + offset = offset / (int)size; + + if (!within_signed_range (offset, GET_SET_IMM_BITS)) + { + as_bad (_("offset value out of range")); + return NULL; + } + + insn->bits = (template->meta_opcode | + (dest_regs[0]->no << 19) | + (addr.base_reg->no << 14) | + ((offset & GET_SET_IMM_MASK) << 8) | + ((addr.base_reg->unit & SHORT_UNIT_MASK) << 5) | + ((dest_regs[0]->unit & SHORT_UNIT_MASK) << 3)); + + insn->len = 4; + return l; +} + +/* Parse an ICACHE instruction. */ +static const char * +parse_icache (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + int offset; + int pfcount; + + l = parse_imm_constant (l, insn, &offset); + + if (l == NULL) + return NULL; + + if (!within_signed_range (offset, IMM15_BITS)) + return NULL; + + l = skip_comma (l); + + l = parse_imm_constant (l, insn, &pfcount); + + if (l == NULL) + return NULL; + + if (!within_unsigned_range (pfcount, IMM4_BITS)) + return NULL; + + insn->bits = (template->meta_opcode | + ((offset & IMM15_MASK) << 9) | + ((pfcount & IMM4_MASK) << 1)); + + insn->len = 4; + return l; +} + +/* Parse a LNKGET instruction. */ +static const char * +parse_lnkget (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *dest_regs[2]; + unsigned int size = metag_get_set_ext_size_bytes (template->meta_opcode); + metag_addr addr; + int offset; + + memset(&addr, 0, sizeof(addr)); + addr.reloc_type = BFD_RELOC_UNUSED; + + if (size == 8) + l = parse_pair_gp_regs (l, dest_regs); + else + l = parse_gp_regs (l, dest_regs, 1); + + if (l == NULL || + !is_short_unit (dest_regs[0]->unit)) + { + as_bad (_("invalid destination register")); + return NULL; + } + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + l = parse_addr (l, &addr, size); + + if (l == NULL || + !is_short_unit (addr.base_reg->unit) || + addr.update || + !addr.immediate) + { + as_bad (_("invalid memory operand")); + return NULL; + } + + offset = addr.exp.X_add_number; + + if (addr.negate) + offset = -offset; + + offset = offset / size; + + if (!within_signed_range (offset, GET_SET_IMM_BITS)) + { + as_bad (_("offset value out of range")); + return NULL; + } + + insn->bits = (template->meta_opcode | + (dest_regs[0]->no << 19) | + (addr.base_reg->no << 14) | + ((offset & GET_SET_IMM_MASK) << 8) | + ((addr.base_reg->unit & SHORT_UNIT_MASK) << 5) | + ((dest_regs[0]->unit & SHORT_UNIT_MASK) << 3)); + + insn->len = 4; + return l; +} + +/* Parse an FPU MOV instruction. */ +static const char * +parse_fmov (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[2]; + + l = parse_fpu_regs (l, regs, 2); + + if (l == NULL) + return NULL; + + insn->bits = (template->meta_opcode | + (regs[0]->no << 19) | + (regs[1]->no << 14)); + + if (insn->fpu_width == FPU_WIDTH_DOUBLE) + insn->bits |= (1 << 5); + else if (insn->fpu_width == FPU_WIDTH_PAIR) + insn->bits |= (1 << 6); + + insn->len = 4; + return l; +} + +/* Parse an FPU MMOV instruction. */ +static const char * +parse_fmmov (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + bfd_boolean to_fpu = MAJOR_OPCODE (template->meta_opcode) == OPC_GET; + bfd_boolean is_mmovl = MINOR_OPCODE (template->meta_opcode) & 0x1; + size_t regs_read = 0; + const metag_reg *regs[16]; + unsigned int lowest_data_reg = 0xffffffff; + unsigned int lowest_fpu_reg = 0xffffffff; + unsigned int rmask = 0, data_unit; + size_t i; + int last_reg = -1; + + if (insn->fpu_width != FPU_WIDTH_SINGLE) + return NULL; + + l = parse_gp_regs_list (l, regs, 16, ®s_read); + + if (l == NULL) + return NULL; + + if (regs_read % 2) + return NULL; + + if (to_fpu) + { + for (i = 0; i < regs_read / 2; i++) + { + if (regs[i]->unit != UNIT_FX) + return NULL; + + if (last_reg == -1) + { + last_reg = regs[i]->no; + lowest_fpu_reg = last_reg; + } + else + { + if (is_mmovl) + { + if (regs[i]->no != (unsigned int)(last_reg + 2)) + return NULL; + } + else if (regs[i]->no != (unsigned int)(last_reg + 1)) + return NULL; + + last_reg = regs[i]->no; + } + } + + if (regs[i]->unit == UNIT_D0) + data_unit = 0; + else if (regs[i]->unit == UNIT_D1) + data_unit = 1; + else + return NULL; + + if (!check_rmask (®s[i], regs_read / 2, TRUE, FALSE, &lowest_data_reg, + &rmask)) + return NULL; + } + else + { + if (regs[0]->unit == UNIT_D0) + data_unit = 0; + else if (regs[0]->unit == UNIT_D1) + data_unit = 1; + else + return NULL; + + if (!check_rmask (regs, regs_read / 2, TRUE, FALSE, &lowest_data_reg, + &rmask)) + return NULL; + + for (i = regs_read / 2; i < regs_read; i++) + { + if (regs[i]->unit != UNIT_FX) + return NULL; + + if (last_reg == -1) + { + last_reg = regs[i]->no; + lowest_fpu_reg = last_reg; + } + else + { + if (is_mmovl) + { + if (regs[i]->no != (unsigned int)(last_reg + 2)) + return NULL; + } + else if (regs[i]->no != (unsigned int)(last_reg + 1)) + return NULL; + + last_reg = regs[i]->no; + } + } + } + + insn->bits = (template->meta_opcode | + ((lowest_data_reg & REG_MASK) << 19) | + ((lowest_fpu_reg & REG_MASK) << 14) | + ((rmask & RMASK_MASK) << 7) | + data_unit); + + insn->len = 4; + return l; +} + +/* Parse an FPU data unit MOV instruction. */ +static const char * +parse_fmov_data (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + unsigned int to_fpu = ((template->meta_opcode >> 7) & 0x1); + const metag_reg *regs[2]; + unsigned int base_unit; + + if (insn->fpu_width == FPU_WIDTH_PAIR) + return NULL; + + l = parse_gp_regs (l, regs, 2); + + if (l == NULL) + return NULL; + + if (to_fpu) + { + if (regs[0]->unit != UNIT_FX) + return NULL; + + if (regs[1]->unit == UNIT_D0) + base_unit = 0; + else if (regs[1]->unit == UNIT_D1) + base_unit = 1; + else + return NULL; + } + else + { + if (regs[0]->unit == UNIT_D0) + base_unit = 0; + else if (regs[0]->unit == UNIT_D1) + base_unit = 1; + else + return NULL; + + if (regs[1]->unit != UNIT_FX) + return NULL; + } + + insn->bits = (template->meta_opcode | + (base_unit << 24) | + (regs[0]->no << 19) | + (regs[1]->no << 9)); + + insn->len = 4; + return l; +} + +/* Parse an FPU immediate MOV instruction. */ +static const char * +parse_fmov_i (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[1]; + int value = 0; + + l = parse_fpu_regs (l, regs, 1); + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + l = parse_imm16 (l, insn, &value); + + if (l == NULL) + return NULL; + + insn->bits = (template->meta_opcode | + (regs[0]->no << 19) | + ((value & IMM16_MASK) << 3)); + + if (insn->fpu_width == FPU_WIDTH_DOUBLE) + insn->bits |= (1 << 1); + else if (insn->fpu_width == FPU_WIDTH_PAIR) + insn->bits |= (1 << 2); + + insn->len = 4; + return l; +} + +/* Parse an FPU PACK instruction. */ +static const char * +parse_fpack (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[3]; + + l = parse_fpu_regs (l, regs, 3); + + if (l == NULL) + return NULL; + + if (regs[0]->no % 2) + { + as_bad (_("destination register should be even numbered")); + return NULL; + } + + insn->bits = (template->meta_opcode | + (regs[0]->no << 19) | + (regs[1]->no << 14) | + (regs[2]->no << 9)); + + insn->len = 4; + return l; +} + +/* Parse an FPU SWAP instruction. */ +static const char * +parse_fswap (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[2]; + + if (insn->fpu_width != FPU_WIDTH_PAIR) + return NULL; + + l = parse_fpu_regs (l, regs, 2); + + if (l == NULL) + return NULL; + + if (regs[0]->no % 2) + return NULL; + + if (regs[1]->no % 2) + return NULL; + + insn->bits = (template->meta_opcode | + (regs[0]->no << 19) | + (regs[1]->no << 14)); + + insn->len = 4; + return l; +} + +/* Parse an FPU CMP instruction. */ +static const char * +parse_fcmp (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line, *l2; + const metag_reg *regs1[1]; + const metag_reg *regs2[1]; + + l = parse_fpu_regs (l, regs1, 1); + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + l2 = parse_fpu_regs (l, regs2, 1); + + if (l2 != NULL) + { + insn->bits = (regs2[0]->no << 9); + } + else + { + int constant = 0; + l2 = parse_imm_constant (l, insn, &constant); + if (!l2 || constant != 0) + { + as_bad (_("comparison must be with register or #0")); + return NULL; + } + insn->bits = (1 << 8); + } + + insn->bits |= (template->meta_opcode | + (regs1[0]->no << 14)); + + if (insn->fpu_action_flags & FPU_ACTION_ABS) + insn->bits |= (1 << 19); + + if (insn->fpu_action_flags & FPU_ACTION_QUIET) + insn->bits |= (1 << 7); + + if (insn->fpu_width == FPU_WIDTH_PAIR) + insn->bits |= (1 << 6); + else if (insn->fpu_width == FPU_WIDTH_DOUBLE) + insn->bits |= (1 << 5); + + insn->len = 4; + return l2; +} + +/* Parse an FPU MIN or MAX instruction. */ +static const char * +parse_fminmax (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[3]; + + l = parse_fpu_regs (l, regs, 3); + + if (l == NULL) + return NULL; + + insn->bits = (template->meta_opcode | + (regs[0]->no << 19) | + (regs[1]->no << 14) | + (regs[2]->no << 9)); + + if (insn->fpu_width == FPU_WIDTH_PAIR) + insn->bits |= (1 << 6); + else if (insn->fpu_width == FPU_WIDTH_DOUBLE) + insn->bits |= (1 << 5); + + insn->len = 4; + return l; +} + +/* Parse an FPU data conversion instruction. */ +static const char * +parse_fconv (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[2]; + + if (insn->fpu_width == FPU_WIDTH_PAIR) + { + if (strncasecmp (template->name, "FTOH", 4) && + strncasecmp (template->name, "HTOF", 4) && + strncasecmp (template->name, "FTOI", 4) && + strncasecmp (template->name, "ITOF", 4)) + { + as_bad (_("instruction cannot operate on pair values")); + return NULL; + } + } + + if (insn->fpu_action_flags & FPU_ACTION_ZERO) + { + if (strncasecmp (template->name, "FTOI", 4) && + strncasecmp (template->name, "DTOI", 4) && + strncasecmp (template->name, "DTOL", 4)) + { + as_bad (_("zero flag is not valid for this instruction")); + return NULL; + } + } + + l = parse_fpu_regs (l, regs, 2); + + if (l == NULL) + return NULL; + + if (!strncasecmp (template->name, "DTOL", 4) || + !strncasecmp (template->name, "LTOD", 4)) + { + if (regs[0]->no % 2) + { + as_bad (_("destination register should be even numbered")); + return NULL; + } + + if (regs[1]->no % 2) + { + as_bad (_("source register should be even numbered")); + return NULL; + } + } + + insn->bits = (template->meta_opcode | + (regs[0]->no << 19) | + (regs[1]->no << 14)); + + if (insn->fpu_width == FPU_WIDTH_PAIR) + insn->bits |= (1 << 6); + + if (insn->fpu_action_flags & FPU_ACTION_ZERO) + insn->bits |= (1 << 12); + + insn->len = 4; + return l; +} + +/* Parse an FPU extended data conversion instruction. */ +static const char * +parse_fconvx (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[2]; + int fraction_bits = 0; + + if (insn->fpu_width == FPU_WIDTH_PAIR) + { + if (strncasecmp (template->name, "FTOX", 4) && + strncasecmp (template->name, "XTOF", 4)) + { + as_bad (_("instruction cannot operate on pair values")); + return NULL; + } + } + + l = parse_fpu_regs (l, regs, 2); + + l = skip_comma (l); + + if (l == NULL || + *l == END_OF_INSN) + return NULL; + + l = parse_imm_constant (l, insn, &fraction_bits); + + if (l == NULL) + return NULL; + + insn->bits = (template->meta_opcode | + (regs[0]->no << 19) | + (regs[1]->no << 14)); + + if (strncasecmp (template->name, "DTOXL", 5) && + strncasecmp (template->name, "XLTOD", 5)) + { + if (!within_unsigned_range (fraction_bits, IMM5_BITS)) + { + as_bad (_("fraction bits value out of range")); + return NULL; + } + insn->bits |= ((fraction_bits & IMM5_MASK) << 9); + } + else + { + if (!within_unsigned_range (fraction_bits, IMM6_BITS)) + { + as_bad (_("fraction bits value out of range")); + return NULL; + } + insn->bits |= ((fraction_bits & IMM6_MASK) << 8); + } + + if (insn->fpu_width == FPU_WIDTH_PAIR) + insn->bits |= (1 << 6); + + insn->len = 4; + return l; +} + +/* Parse an FPU basic arithmetic instruction. */ +static const char * +parse_fbarith (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[3]; + + l = parse_fpu_regs (l, regs, 3); + + if (l == NULL) + return NULL; + + insn->bits = (template->meta_opcode | + (regs[0]->no << 19) | + (regs[1]->no << 14) | + (regs[2]->no << 9)); + + if (insn->fpu_width == FPU_WIDTH_PAIR) + insn->bits |= (1 << 6); + else if (insn->fpu_width == FPU_WIDTH_DOUBLE) + insn->bits |= (1 << 5); + + if (insn->fpu_action_flags & FPU_ACTION_INV) + insn->bits |= (1 << 7); + + insn->len = 4; + return l; +} + +/* Parse a floating point accumulator name. */ +static const char * +parse_acf (const char *line, int *part) +{ + const char *l = line; + size_t i; + + for (i = 0; i < sizeof(metag_acftab)/sizeof(metag_acftab[0]); i++) + { + const metag_acf *acf = &metag_acftab[i]; + size_t name_len = strlen (acf->name); + + if (strncasecmp (l, acf->name, name_len) == 0) + { + l += name_len; + *part = acf->part; + return l; + } + } + return NULL; +} + +/* Parse an FPU extended arithmetic instruction. */ +static const char * +parse_fearith (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[3]; + bfd_boolean is_muz = (MINOR_OPCODE (template->meta_opcode) == 0x6 && + ((template->meta_opcode >> 4) & 0x1)); + unsigned int is_o3o = template->meta_opcode & 0x1; + unsigned int is_mac = 0; + unsigned int is_maw = 0; + + if (!strncasecmp (template->name, "MAW", 3)) + is_maw = 1; + + if (!strncasecmp (template->name, "MAC", 3)) + { + int part; + l = parse_acf (l, &part); + + if (l == NULL || part != 0) + return NULL; + + l = skip_comma (l); + + l = parse_fpu_regs (l, ®s[1], 2); + + is_mac = 1; + } + else + { + if (is_o3o && is_maw) + l = parse_fpu_regs (l, regs, 2); + else + l = parse_fpu_regs (l, regs, 3); + } + + if (l == NULL) + return NULL; + + if (is_o3o && is_maw) + insn->bits = (template->meta_opcode | + (regs[1]->no << 9)); + else + insn->bits = (template->meta_opcode | + (regs[1]->no << 14)); + + if (!(is_o3o && is_maw)) + insn->bits |= (regs[2]->no << 9); + + if (is_o3o && is_maw) + insn->bits |= (regs[0]->no << 14); + else if (!is_mac) + insn->bits |= (regs[0]->no << 19); + + if (insn->fpu_width == FPU_WIDTH_PAIR) + insn->bits |= (1 << 6); + else if (insn->fpu_width == FPU_WIDTH_DOUBLE) + insn->bits |= (1 << 5); + + if (!is_mac && !is_maw) + if (insn->fpu_action_flags & FPU_ACTION_INV) + insn->bits |= (1 << 7); + + if (is_muz) + if (insn->fpu_action_flags & FPU_ACTION_QUIET) + insn->bits |= (1 << 1); + + insn->len = 4; + return l; +} + +/* Parse an FPU RCP or RSQ instruction. */ +static const char * +parse_frec (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[2]; + + l = parse_fpu_regs (l, regs, 2); + + if (l == NULL) + return NULL; + + insn->bits = (template->meta_opcode | + (regs[0]->no << 19) | + (regs[1]->no << 14)); + + if (insn->fpu_width == FPU_WIDTH_PAIR) + insn->bits |= (1 << 6); + else if (insn->fpu_width == FPU_WIDTH_DOUBLE) + insn->bits |= (1 << 5); + + if (insn->fpu_action_flags & FPU_ACTION_ZERO) + insn->bits |= (1 << 10); + else if (insn->fpu_action_flags & FPU_ACTION_QUIET) + insn->bits |= (1 << 9); + + if (insn->fpu_action_flags & FPU_ACTION_INV) + insn->bits |= (1 << 7); + + insn->len = 4; + return l; +} + +/* Parse an FPU vector arithmetic instruction. */ +static const char * +parse_fsimd (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[3]; + + if (insn->fpu_width != FPU_WIDTH_PAIR) + { + as_bad (_("simd instructions operate on pair values (L prefix)")); + return NULL; + } + + l = parse_fpu_regs (l, regs, 3); + + if (l == NULL) + return NULL; + + if (regs[0]->no % 2) + { + as_bad (_("destination register should be even numbered")); + return NULL; + } + + if ((regs[1]->no % 2) || + (regs[2]->no % 2)) + { + as_bad (_("source registers should be even numbered")); + return NULL; + } + + insn->bits = (template->meta_opcode | + (regs[0]->no << 19) | + (regs[1]->no << 14) | + (regs[2]->no << 9)); + + if (insn->fpu_action_flags & FPU_ACTION_INV) + insn->bits |= (1 << 7); + + insn->len = 4; + return l; +} + +/* Parse an FPU accumulator GET or SET instruction. */ +static const char * +parse_fget_set_acf (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + int part; + metag_addr addr; + bfd_boolean is_get = MAJOR_OPCODE (template->meta_opcode) == OPC_GET; + + memset(&addr, 0, sizeof(addr)); + addr.reloc_type = BFD_RELOC_UNUSED; + + if (is_get) + { + l = parse_acf (l, &part); + + l = skip_comma (l); + + if (l == NULL) + return NULL; + + l = parse_mget_mset_addr (l, &addr); + } + else + { + l = parse_mget_mset_addr (l, &addr); + + l = skip_comma (l); + + if (l == NULL) + return NULL; + + l = parse_acf (l, &part); + } + + if (l == NULL) + return NULL; + + insn->bits = (template->meta_opcode | + (part << 19)); + + if (!is_short_unit (addr.base_reg->unit)) + { + as_bad (_("base unit must be one of %s"), SHORT_UNITS); + return NULL; + } + + insn->bits |= ((addr.base_reg->no << 14) | + ((addr.base_reg->unit & SHORT_UNIT_MASK) << 5)); + + insn->len = 4; + return l; +} + +/* Copy the name of the next register in LINE to REG_BUF. */ +static size_t +strip_reg_name(const char *line, char *reg_buf) +{ + const char *l = line; + size_t len = 0; + + while (is_register_char (*l)) + { + reg_buf[len] = *l; + l++; + len++; + if (!(len < MAX_REG_LEN)) + return 0; + } + + if (len) + reg_buf[len] = '\0'; + + return len; +} + +/* Parse a DSP register from LINE into REG using only the registers + from DSP_REGTAB. Return the next character or NULL. */ +static const char * +__parse_dsp_reg (const char *line, const metag_reg **reg, htab_t dsp_regtab) +{ + const char *l = line; + char name[MAX_REG_LEN]; + size_t len = 0; + metag_reg entry; + const metag_reg *_reg; + + /* We don't entirely strip the register name because we might + actually want to match whole string in the register table, + e.g. "D0AW.1++" not just "D0AW.1". The string length of the table + entry limits our comaprison to a reasonable bound anyway. */ + while (is_register_char (*l) || *l == PLUS) + { + name[len] = *l; + l++; + len++; + if (!(len < MAX_REG_LEN)) + return NULL; + } + + if (!len) + return NULL; + + name[len] = '\0'; + entry.name = name; + + _reg = (const metag_reg *) htab_find (dsp_regtab, &entry); + if (!_reg) + return NULL; + + *reg = _reg; + + return l; +} + +/* Parse a DSP register and setup "reg" with a metag_reg whose "no" + member is suitable for encoding into a DSP insn register field. */ +static const char * +parse_dsp_insn_reg (const char *line, const metag_reg **reg) +{ + return __parse_dsp_reg (line, reg, dsp_reg_htab); +} + +/* Parse a DSP register and setup "reg" with a metag_reg whose "no" + member is suitable for encoding into a DSP template definition insn + register field. + + There is a separate table for whether we're doing a load or a store + definition. "load" specifies which table to look at. */ +static const char * +parse_dsp_template_reg (const char *line, const metag_reg **reg, + bfd_boolean load) +{ + return __parse_dsp_reg (line, reg, dsp_tmpl_reg_htab[load]); +} + +/* Parse a single DSP register from LINE. */ +static const char * +parse_dsp_reg (const char *line, const metag_reg **reg, + bfd_boolean tmpl, bfd_boolean load) +{ + if (tmpl) + return parse_dsp_template_reg (line, reg, load); + else + return parse_dsp_insn_reg (line, reg); +} + +/* Return TRUE if UNIT is an address unit. */ +static bfd_boolean +is_addr_unit (enum metag_unit unit) +{ + switch (unit) + { + case UNIT_A0: + case UNIT_A1: + return TRUE; + default: + return FALSE; + } +} + +/* Return TRUE if UNIT1 and UNIT2 are equivalent units. */ +static bfd_boolean +is_same_data_unit (enum metag_unit unit1, enum metag_unit unit2) +{ + if (unit1 == unit2) + return TRUE; + + switch (unit1) + { + case UNIT_D0: + if (unit2 == UNIT_ACC_D0 || unit2 == UNIT_RAM_D0) + return TRUE; + break; + case UNIT_D1: + if (unit2 == UNIT_ACC_D1 || unit2 == UNIT_RAM_D1) + return TRUE; + break; + case UNIT_ACC_D0: + if (unit2 == UNIT_D0 || unit2 == UNIT_RAM_D0) + return TRUE; + break; + case UNIT_ACC_D1: + if (unit2 == UNIT_D1 || unit2 == UNIT_RAM_D1) + return TRUE; + break; + case UNIT_RAM_D0: + if (unit2 == UNIT_ACC_D0 || unit2 == UNIT_D0) + return TRUE; + break; + case UNIT_RAM_D1: + if (unit2 == UNIT_ACC_D1 || unit2 == UNIT_D1) + return TRUE; + break; + default: + return FALSE; + } + + return FALSE; +} + +/* Return TRUE if the register NUM is a quickrot control register. */ +static bfd_boolean +is_quickrot_reg (unsigned int num) +{ + switch (num) + { + case 2: + case 3: + return TRUE; + } + + return FALSE; +} + +/* Return TRUE if REG is an accumulator register. */ +static bfd_boolean +is_accumulator_reg (const metag_reg *reg) +{ + if (reg->unit == UNIT_ACC_D0 || reg->unit == UNIT_ACC_D1) + return TRUE; + + return FALSE; +} + +/* Return TRUE if REG is a DSP RAM register. */ +static bfd_boolean +is_dspram_reg (const metag_reg *reg) +{ + if (reg->unit == UNIT_RAM_D0 || reg->unit == UNIT_RAM_D1) + return TRUE; + + return FALSE; +} + +static const char * +__parse_gp_reg (const char *line, const metag_reg **reg, bfd_boolean load) +{ + const char *l = line; + char reg_buf[MAX_REG_LEN]; + size_t len = 0; + + if (l == NULL) + return NULL; + + /* Parse [DSPRAM.x]. */ + if (*l == ADDR_BEGIN_CHAR) + { + l++; + + if (l == NULL) + return NULL; + + l = parse_dsp_reg (l, reg, TRUE, load); + if (l == NULL) + return NULL; + + if (*l == ADDR_END_CHAR) + l++; + else + { + as_bad (_("expected ']', not %c in %s"), *l, l); + return NULL; + } + + return l; + } + else + { + + len = strip_reg_name (l, reg_buf); + if (!len) + return NULL; + + l += len; + *reg = parse_gp_reg (reg_buf); + if (*reg == NULL) + return NULL; + } + + return l; +} + +/* Parse a list of DSP/GP registers. TRY_GP indicates whether we + should try to parse the register as a general-purpose register if + we fail to parse it as a DSP one. TMPL indicates whether the + registers are part of a template definition instruction. If this is + a template definition instruction LOAD says whether it's a load + template insn. FIRST_DST indicates whether the first register is + a destination operand. */ +static const char * +parse_dsp_regs_list (const char *line, const metag_reg **regs, size_t count, + size_t *regs_read, bfd_boolean try_gp, bfd_boolean tmpl, + bfd_boolean load, bfd_boolean first_dst) +{ + const char *l = line; + int seen_regs = 0; + size_t i; + const metag_reg *reg; + + for (i = 0; i < count; i++) + { + const char *next, *ll; + + next = l; + + if (i > 0) + { + l = skip_comma (l); + if (l == NULL) + { + *regs_read = seen_regs; + return next; + } + } + + ll = parse_dsp_reg (l, ®, tmpl, load); + + if (!ll) + { + if (try_gp) + { + l = __parse_gp_reg (l, ®, !(first_dst && i == 0)); + if (l == NULL) + { + *regs_read = seen_regs; + return next; + } + regs[i] = reg; + seen_regs++; + } + else + { + *regs_read = seen_regs; + return l; + } + } + else + { + regs[i] = reg; + seen_regs++; + l = ll; + } + } + + *regs_read = seen_regs; + return l; +} + +/* Parse the following memory references: + + - [Ax.r] + - [Ax.r++] + - [Ax.r--] + - [Ax.r+Ax.r++] + - [Ax.r-Ax.r--] + + - [DSPRam] + - [DSPRam++] + - [DSPRam+DSPRam++] + - [DSPRam-DSPRam--] */ +static const char * +parse_dsp_addr (const char *line, metag_addr *addr, unsigned int size, + bfd_boolean load) +{ + const char *l = line, *ll; + const metag_reg *regs[1]; + size_t regs_read; + + /* Skip opening square bracket. */ + l++; + + l = parse_dsp_regs_list (l, regs, 1, ®s_read, TRUE, TRUE, load, FALSE); + + if (l == NULL) + return NULL; + + if (!is_addr_unit (regs[0]->unit) && + !is_dspram_reg (regs[0])) + { + as_bad (_("invalid register for memory access")); + return NULL; + } + + addr->base_reg = regs[0]; + + if (*l == ADDR_END_CHAR) + { + addr->exp.X_op = O_constant; + addr->exp.X_add_symbol = NULL; + addr->exp.X_op_symbol = NULL; + + /* Simple register with no offset (0 immediate). */ + addr->exp.X_add_number = 0; + + addr->immediate = 1; + l++; + + return l; + } + + ll = parse_addr_post_incr_op (l, addr); + + if (ll && *ll == ADDR_END_CHAR) + { + if (addr->update == 1) + { + /* We have a post increment/decrement. */ + addr->exp.X_op = O_constant; + addr->exp.X_add_number = size; + addr->exp.X_add_symbol = NULL; + addr->exp.X_op_symbol = NULL; + addr->post_increment = 1; + } + addr->immediate = 1; + ll++; + return ll; + } + + addr->post_increment = 0; + + l = parse_addr_op (l, addr); + + if (l == NULL) + return NULL; + + l = parse_dsp_regs_list (l, regs, 1, ®s_read, TRUE, TRUE, load, FALSE); + + if (l == NULL) + return NULL; + + if (regs[0]->unit != addr->base_reg->unit) + { + as_bad (_("offset and base must be from the same unit")); + return NULL; + } + + addr->offset_reg = regs[0]; + + if (*l == ADDR_END_CHAR) + { + l++; + return l; + } + + l = parse_addr_post_incr_op (l, addr); + + if (l == NULL) + return NULL; + + if (*l == ADDR_END_CHAR) + { + l++; + return l; + } + + return NULL; +} + +/* Parse a DSP GET or SET instruction. */ +static const char * +parse_dget_set (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + metag_addr addr; + int unit = 0; + int rd_reg = 0; + bfd_boolean is_get = (template->meta_opcode & 0x100); + bfd_boolean is_dual = (template->meta_opcode & 0x4); + bfd_boolean is_template = FALSE; + const metag_reg *regs[2]; + unsigned int size; + size_t count, regs_read; + + memset(&addr, 0, sizeof(addr)); + addr.reloc_type = BFD_RELOC_UNUSED; + + size = is_dual ? 8 : 4; + count = is_dual ? 2 : 1; + + if (is_get) + { + /* GETL can be used on one template table entry. */ + if (*l == 'T') + count = 1; + + l = parse_dsp_regs_list (l, regs, count, ®s_read, FALSE, + FALSE, FALSE, FALSE); + l = skip_comma (l); + + if (l == NULL) + { + as_bad (_("unexpected end of line")); + return NULL; + } + + l = parse_addr (l, &addr, size); + } + else + { + l = parse_addr (l, &addr, size); + + l = skip_comma (l); + + if (l == NULL) + return NULL; + + /* GETL can be used on one template table entry. */ + if (*l == 'T') + count = 1; + + l = parse_dsp_regs_list (l, regs, count, ®s_read, FALSE, FALSE, + FALSE, FALSE); + } + + if (l == NULL) + return NULL; + + /* The first register dictates the unit. */ + if (regs[0]->unit == UNIT_DT) + is_template = TRUE; + else + { + if (regs[0]->unit == UNIT_D0 || regs[0]->unit == UNIT_RAM_D0 || + regs[0]->unit == UNIT_ACC_D0) + unit = 0; + else + unit = 1; + } + + rd_reg = regs[0]->no; + + /* The 'H' modifier allows a DSP GET/SET instruction to target the + upper 8-bits of an accumulator. It is _only_ valid for the + accumulators. */ + if (insn->dsp_daoppame_flags & DSP_DAOPPAME_HIGH) + { + if (is_template || !(rd_reg >= 16 && rd_reg < 20)) + { + as_bad (_("'H' modifier only valid for accumulator registers")); + return NULL; + } + + /* Top 8-bits of the accumulator. */ + rd_reg |= 8; + } + + if (is_template) + { + insn->bits = (template->meta_opcode | (1 << 1)); + } + else + { + insn->bits = (template->meta_opcode | unit); + } + + insn->bits |= (rd_reg << 19); + + if (addr.immediate) + { + int offset = addr.exp.X_add_number; + + if (addr.negate) + offset = -offset; + + offset = offset / (int)size; + + if (!within_signed_range (offset, DGET_SET_IMM_BITS)) + { + as_bad (_("offset value out of range")); + return NULL; + } + + offset = offset & DGET_SET_IMM_MASK; + + insn->bits |= (1 << 13); + insn->bits |= (offset << 9); + } + else + { + int au = (addr.base_reg->unit == UNIT_A1); + + insn->bits |= (au << 18); + insn->bits |= ((addr.base_reg->no & REG_MASK) << 14); + insn->bits |= ((addr.offset_reg->no & REG_MASK) << 9); + } + + if (is_dual) + insn->bits |= (1 << 2); + + if (!is_addr_unit (addr.base_reg->unit)) + { + as_bad (_("base unit must be either A0 or A1")); + return NULL; + } + + unit = (addr.base_reg->unit == UNIT_A0) ? 0 : 1; + insn->bits |= ((addr.base_reg->no << 14) | (unit << 18)); + + insn->len = 4; + + return l; +} + +/* Parse a DSP template instruction. */ +static const char * +parse_dtemplate (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const metag_reg *regs[TEMPLATE_NUM_REGS]; + bfd_boolean daop_only = FALSE; + int regs_val[4]; + int regs_which[4] = { -1, -1, -1, -1}; /* Register or immediate? */ + int i; + + for (i = 0; i < TEMPLATE_NUM_REGS; i++) + { + if (l == NULL) + { + as_bad (_("unexpected end of line")); + return NULL; + } + + /* We may only have 3 register operands. */ + if (*l == END_OF_INSN && i == 3) + { + daop_only = TRUE; + break; + } + + if (i != 0) + { + l = skip_comma (l); + if (l == NULL) + return NULL; + } + + if (*l == IMM_CHAR) + { + l = parse_imm_constant (l, insn, ®s_val[i]); + if (l == NULL) + { + as_bad (_("invalid immediate")); + return NULL; + } + regs_which[i] = 0; + } + else + { + /* We can't tell from the template instantiation whether + this is a load or store. So we have to try looking up the + register name in both the load and store tables. */ + const char *l2 = l; + l = __parse_gp_reg (l, ®s[i], TRUE); + if (l == NULL) + { + /* Try the store table too. */ + l = __parse_gp_reg (l2, ®s[i], FALSE); + if (l == NULL) + { + /* Then try a DSP register. */ + l = parse_dsp_insn_reg (l2, ®s[i]); + if (l == NULL || regs[i]->unit == UNIT_DT) + { + as_bad (_("invalid register")); + return NULL; + } + } + } + regs_which[i] = 1; + } + } + + insn->bits = template->meta_opcode; + + if (regs_which[0] == 0) + insn->bits |= (regs_val[0] << 19); + else if (regs_which[0] == 1) + insn->bits |= (regs[0]->no << 19); + + if (regs_which[1] == 0) + insn->bits |= (regs_val[1] << 14); + else if (regs_which[1] == 1) + insn->bits |= (regs[1]->no << 14); + + if (regs_which[2] == 0) + insn->bits |= (regs_val[2] << 9); + else if (regs_which[2] == 1) + insn->bits |= (regs[2]->no << 9); + + if (regs_which[3] == 0) + insn->bits |= (regs_val[3] << 4); + else if (regs_which[3] == 1) + insn->bits |= (regs[3]->no << 4); + + /* DaOp only. */ + if (daop_only) + insn->bits |= (0x3 << 24); /* Set the minor opcode. */ + else if (insn->dsp_daoppame_flags & DSP_DAOPPAME_HIGH) /* Half Load/Store. */ + insn->bits |= (0x5 << 24); /* Set the minor opcode. */ + + insn->len = 4; + + return l; +} + +/* Parse a DSP Template definiton memory reference, e.g + [A0.7+A0.5++]. DSPRAM is set to true by this function if this + template definition is a DSP RAM template definition. */ +static const char * +template_mem_ref(const char *line, metag_addr *addr, + bfd_boolean *dspram, int size, bfd_boolean load) +{ + const char *l = line; + + l = parse_dsp_addr (l, addr, size, load); + + if (l != NULL) + { + if (is_addr_unit(addr->base_reg->unit)) + *dspram = FALSE; + else + *dspram = TRUE; + } + + return l; +} + +/* Sets LOAD to TRUE if this is a Template load definiton (otherwise + it's a store). Fills out ADDR, TEMPLATE_REG and ADDR_UNIT. */ +static const char * +parse_template_regs (const char *line, bfd_boolean *load, + unsigned int *addr_unit, + const metag_reg **template_reg, metag_addr *addr, + bfd_boolean *dspram, int size) +{ + const char *l = line; + + if (l == NULL) + return NULL; + + /* DSP Template load definition (Tx, [Ax]) */ + if (*l == 'T') + { + *load = TRUE; + l = parse_dsp_reg (l, &template_reg[0], FALSE, FALSE); + if (l == NULL) + return NULL; + + l = skip_comma (l); + + l = template_mem_ref (l, addr, dspram, size, *load); + + if (addr->base_reg->unit == UNIT_A1) + *addr_unit = 1; + + } + else if (*l == ADDR_BEGIN_CHAR) /* DSP Template store ([Ax], Tx) */ + { + *load = FALSE; + l = template_mem_ref (l, addr, dspram, size, *load); + l = skip_comma(l); + + if (l == NULL) + return NULL; + + l = parse_dsp_reg (l, &template_reg[0], FALSE, FALSE); + if (l == NULL) + return NULL; + + if (addr->base_reg->unit == UNIT_A1) + *addr_unit = 1; + } + else + { + as_bad (_("invalid register operand")); + return NULL; + } + + return l; +} + +#define INVALID_SHIFT (-1) + +static metag_reg _reg; + +/* Parse a template instruction definition. */ +static const char * +interpret_template_regs(const char *line, metag_insn *insn, + const metag_reg **regs, + int *regs_shift, bfd_boolean *load, bfd_boolean *dspram, + int size, int *ls_shift, int *au_shift, + unsigned int *au, int *imm, int *imm_shift, + unsigned int *imm_mask) +{ + const char *l = line; + metag_addr addr; + const metag_reg *template_reg[1]; + + memset (&addr, 0, sizeof(addr)); + + regs_shift[0] = 19; + regs_shift[1] = INVALID_SHIFT; + + insn->bits |= (1 << 1); + + l = skip_whitespace (l); + + l = parse_template_regs (l, load, au, template_reg, + &addr, dspram, size); + if (l == NULL) + { + as_bad (_("could not parse template definition")); + return NULL; + } + + regs[2] = template_reg[0]; + regs_shift[2] = 9; + + /* DSPRAM definition. */ + if (*dspram) + { + + _reg = *addr.base_reg; + + if (addr.immediate) + { + /* Set the post-increment bit in the register field. */ + if (addr.update) + _reg.no |= 0x1; + } + else + { + /* The bottom bit of the increment register tells us + whether it's increment register 0 or 1. */ + if (addr.offset_reg->no & 0x1) + _reg.no |= 0x3; + else + _reg.no |= 0x2; + } + + regs[0] = &_reg; + + insn->bits |= (0x3 << 17); /* This signifies a DSPRAM definition. */ + } + else /* DaOpPaMe definition. */ + { + regs[0] = addr.base_reg; + if (addr.immediate) + { + /* Set the I bit. */ + insn->bits |= (1 << 18); + + if (addr.update == 1) + { + if (addr.negate == 1) + *imm = 0x3; + else + *imm = 0x1; + } + + *imm_shift = 14; + *imm_mask = 0x3; + } + else + { + /* Setup the offset register. */ + regs[1] = addr.offset_reg; + regs_shift[1] = 14; + } + *au_shift = 23; + } + + *ls_shift = 13; + + return l; +} + +/* Does this combination of units need the O2R bit and can it be encoded? */ +static bfd_boolean +units_need_o2r (enum metag_unit unit1, enum metag_unit unit2) +{ + if (unit1 == unit2) + return FALSE; + + if (unit1 == UNIT_D0 || unit1 == UNIT_ACC_D0 || unit1 == UNIT_RAM_D0) + { + if (unit2 == UNIT_ACC_D0 || unit2 == UNIT_RAM_D0 || unit2 == UNIT_D0) + return FALSE; + + switch (unit2) + { + case UNIT_A1: + case UNIT_D1: + case UNIT_RD: + case UNIT_A0: + return TRUE; + default: + return FALSE; + } + } + + if (unit1 == UNIT_D1 || unit1 == UNIT_ACC_D1 || unit1 == UNIT_RAM_D1) + { + if (unit2 == UNIT_ACC_D1 || unit2 == UNIT_RAM_D1 || unit2 == UNIT_D1) + return FALSE; + + switch (unit2) + { + case UNIT_A1: + case UNIT_D0: + case UNIT_RD: + case UNIT_A0: + return TRUE; + default: + return FALSE; + } + } + + return FALSE; +} + +/* Return TRUE if this is a DSP data unit. */ +static bfd_boolean +is_dsp_data_unit (const metag_reg *reg) +{ + switch (reg->unit) + { + case UNIT_D0: + case UNIT_D1: + case UNIT_ACC_D0: + case UNIT_ACC_D1: + case UNIT_RAM_D0: + case UNIT_RAM_D1: + return TRUE; + default: + return FALSE; + } +} + +static metag_reg o2r_reg; + +/* Parse a DaOpPaMe load template definition. */ +static const char * +parse_dalu (const char *line, metag_insn *insn, + const insn_template *template) +{ + const char *l = line; + const char *ll; + const metag_reg *regs[4]; + metag_addr addr; + size_t regs_read; + bfd_boolean is_mov = MAJOR_OPCODE (template->meta_opcode) == OPC_ADD; + bfd_boolean is_cmp = ((MAJOR_OPCODE (template->meta_opcode) == OPC_CMP) && + ((template->meta_opcode & 0xee) == 0)); + bfd_boolean is_dual = (insn->dsp_width == DSP_WIDTH_DUAL); + bfd_boolean is_quickrot64 = ((insn->dsp_action_flags & DSP_ACTION_QR64) != 0); + int l1_shift = INVALID_SHIFT; + bfd_boolean load = FALSE; + int ls_shift = INVALID_SHIFT; + bfd_boolean ar = FALSE; + int ar_shift = INVALID_SHIFT; + int regs_shift[3] = { INVALID_SHIFT, INVALID_SHIFT, INVALID_SHIFT }; + int imm = 0; + int imm_shift = INVALID_SHIFT; + unsigned int imm_mask = 0; + unsigned int au = 0; + int au_shift = INVALID_SHIFT; + unsigned int du = 0; + int du_shift = INVALID_SHIFT; + unsigned int sc = ((insn->dsp_action_flags & DSP_ACTION_OV) != 0); + int sc_shift = INVALID_SHIFT; + unsigned int om = ((insn->dsp_action_flags & DSP_ACTION_MOD) != 0); + int om_shift = INVALID_SHIFT; + unsigned int o2r = 0; + int o2r_shift = INVALID_SHIFT; + unsigned int qr = 0; + int qr_shift = INVALID_SHIFT; + int qd_shift = INVALID_SHIFT; + unsigned int qn = 0; + int qn_shift = INVALID_SHIFT; + unsigned int a1 = ((insn->dsp_action_flags & (DSP_ACTION_ACC_SUB|DSP_ACTION_ACC_ZERO)) != 0); + int a1_shift = INVALID_SHIFT; + unsigned int a2 = ((insn->dsp_action_flags & (DSP_ACTION_ACC_SUB|DSP_ACTION_ACC_ADD)) != 0); + int a2_shift = INVALID_SHIFT; + unsigned su = ((insn->dsp_action_flags & DSP_ACTION_UMUL) != 0); + int su_shift = INVALID_SHIFT; + unsigned int ac; + int ac_shift = INVALID_SHIFT; + unsigned int mx = (((insn->dsp_daoppame_flags & DSP_DAOPPAME_8) != 0) || + (insn->dsp_daoppame_flags & DSP_DAOPPAME_16) != 0); + int mx_shift = INVALID_SHIFT; + int size = is_dual ? 8 : 4; + bfd_boolean dspram; + bfd_boolean conditional = (MINOR_OPCODE (template->meta_opcode) & 0x4); + + /* XFIXME: check the flags are valid with the instruction. */ + if (is_quickrot64 && !(template->arg_type & DSP_ARGS_QR)) + { + as_bad (_("QUICKRoT 64-bit extension not applicable to this instruction")); + return NULL; + } + + insn->bits = template->meta_opcode; + + memset (regs, 0, sizeof (regs)); + memset (&addr, 0, sizeof (addr)); + + /* There are the following forms of DSP ALU instructions, + + * Group 1: + 19. D[T] Op De.r,Dx.r,De.r + 1. D[T] Op De.r,Dx.r,De.r|ACe.r [Accumulator in src 2] + 3. D[T] Op De.r,Dx.r,De.r[,Ae.r] [QUICKRoT] + 2. D[T] Op ACe.e,ACx.r,ACo.e [cross-unit accumulator op] + 5. D[T] Op De.r|ACe.r,Dx.r,De.r + 20. D[T] Op De.r,Dx.r|ACx.r,De.r + 8. D Opcc De.r,Dx.r,Rx.r + 6. D Op De.r,Dx.r,Rx.r|RD + 17. D Op De.r|ACe.r,Dx.r,Rx.r|RD + 7. D Op De.e,Dx.r,#I16 + + * Group 2: + 4. D[T] Op Dx.r,De.r + 10. D Op Dx.r,Rx.r|RD + 13. D Op Dx.r,Rx.r + 11. D Op Dx.r,#I16 + 12. D[T] Op De.r,Dx.r + 14. D Op DSPe.r,Dx.r + 15. D Op DSPx.r,#I16 + 16. D Op De.r,DSPx.r + 18. D Op De.r,Dx.r|ACx.r + + * Group 3: + 22. D Op De.r,Dx.r|ACx.r,De.r|#I5 + 23. D Op Ux.r,Dx.r|ACx.r,De.r|#I5 + 21. D Op De.r,Dx.r|ACx.r,#I5 */ + + /* Group 1. */ + if (template->arg_type & DSP_ARGS_1) + { + du_shift = 24; + + /* Could this be a cross-unit accumulator op, + e.g. ACe.e,ACx.r,ACo.e */ + if (template->arg_type & DSP_ARGS_XACC) + { + ll = parse_dsp_regs_list (l, regs, 3, ®s_read, FALSE, FALSE, + FALSE, FALSE); + if (ll != NULL && regs_read == 3 + && is_accumulator_reg (regs[0])) + { + if (regs[0]->unit != regs[1]->unit || + regs[2]->unit == regs[1]->unit) + { + as_bad (_("invalid operands for cross-unit op")); + return NULL; + } + + du = (regs[1]->unit == UNIT_ACC_D1); + regs_shift[1] = 19; + l = ll; + + /* All cross-unit accumulator ops have bits 8 and 6 set. */ + insn->bits |= (5 << 6); + + goto check_for_template; + } + + /* If we reach here, this instruction is not a + cross-unit accumulator op. */ + } + + if (template->arg_type & DSP_ARGS_SPLIT8) + om_shift = 7; + + sc_shift = 5; + l1_shift = 4; + o2r_shift = 0; + + /* De.r|ACe.r,Dx.r,De.r */ + if (template->arg_type & DSP_ARGS_DACC) + { + /* XFIXME: these need moving? */ + a2_shift = 7; + su_shift = 6; + a1_shift = 2; + om_shift = 3; + + ll = parse_dsp_reg (l, ®s[0], FALSE, FALSE); + if (ll != NULL) + { + /* Using ACe.r as the dst requires one of the P,N or Z + flags to be used. */ + if (!(insn->dsp_action_flags & + (DSP_ACTION_ACC_SUB|DSP_ACTION_ACC_ADD|DSP_ACTION_ACC_ZERO))) + { + as_bad (_("missing flags: one of 'P', 'N' or 'Z' required")); + return NULL; + } + + l = ll; + l = skip_comma (l); + l = parse_dsp_regs_list (l, ®s[1], 2, ®s_read, + TRUE, FALSE, FALSE, FALSE); + if (l == NULL || regs_read != 2) + { + as_bad (_("invalid register")); + return NULL; + } + + if (regs[1]->unit == UNIT_D1 || regs[1]->unit == UNIT_RAM_D1) + du = 1; + + regs_shift[0] = 19; + regs_shift[1] = 14; + regs_shift[2] = 9; + goto check_for_template; + } + + /* If we reach here, this instruction does not use the + accumulator as the destination register. */ + if ((insn->dsp_action_flags & + (DSP_ACTION_ACC_SUB|DSP_ACTION_ACC_ADD|DSP_ACTION_ACC_ZERO))) + { + as_bad (_("'P', 'N' or 'Z' flags may only be specified when accumulating")); + return NULL; + } + } + + regs_shift[0] = 19; + + + l = parse_dsp_regs_list (l, regs, 2, ®s_read, TRUE, FALSE, FALSE, TRUE); + if (l == NULL || regs_read != 2) + return NULL; + + l = skip_comma (l); + if (l == NULL) + return NULL; + + if (regs[1]->unit == UNIT_D1 || regs[1]->unit == UNIT_RAM_D1) + du = 1; + + if (is_accumulator_reg(regs[0]) && !(template->arg_type & DSP_ARGS_DACC)) + { + as_bad (_("accumulator not a valid destination")); + return NULL; + } + + /* Check for immediate, e.g. De.r,Dx.r,#I16 */ + if (*l == IMM_CHAR) + { + l = parse_imm16 (l, insn, &imm); + if (l == NULL) + { + as_bad (_("invalid immediate value")); + return NULL; + } + + if (!within_signed_range (imm, IMM16_BITS)) + { + as_bad (_("immediate value out of range")); + return NULL; + } + + if (regs[0]->unit != regs[1]->unit || regs[0]->no != regs[1]->no) + { + as_bad (_("immediate value not allowed when source & dest differ")); + return NULL; + } + + imm_mask = 0xffff; + imm_shift = 3; + + /* Set the I-bit */ + insn->bits |= (1 << 25); + + insn->bits |= (0x3 << 0); + + l1_shift = 2; + + /* Remove any bits that have been set in the immediate + field. */ + insn->bits &= ~(imm_mask << imm_shift); + } + else + { + + regs_shift[1] = 14; + regs_shift[2] = 9; + + /* Is Rs2 an accumulator reg, e.g. De.r,Dx.r,De.r|ACe.r */ + ll = parse_dsp_reg (l, ®s[2], FALSE, FALSE); + if (ll != NULL) + { + l = ll; + + if (!(template->arg_type & DSP_ARGS_ACC2)) + { + as_bad (_("invalid register operand: %s"), regs[2]->name); + return NULL; + } + + om_shift = 3; + ar_shift = 7; + ar = TRUE; + } + else + { + /* De.r,Dx.r,De.r */ + l = __parse_gp_reg (l, ®s[2], TRUE); + if (l == NULL) + return NULL; + } + + if (template->arg_type & DSP_ARGS_ACC2) + om_shift = 3; + + /* Is this a QUICKRoT instruction? De.r,Dx.r,De.r[,Ae.r] */ + if (template->arg_type & DSP_ARGS_QR) + { + if (conditional) + qn_shift = 5; + else + { + qn_shift = 7; + qr_shift = 6; + qd_shift = 5; + } + + l = skip_comma (l); + if (l == NULL) + { + as_bad (_("QUICKRoT extension requires 4 registers")); + return NULL; + } + + l = __parse_gp_reg (l, ®s[3], TRUE); + if (l == NULL) + { + as_bad (_("invalid fourth register")); + return NULL; + } + + if (!is_addr_unit (regs[3]->unit) || + !is_quickrot_reg (regs[3]->no)) + { + as_bad (_("A0.2,A0.3,A1.2,A1.3 required for QUICKRoT register")); + return NULL; + } + + qn = (regs[3]->no == 3); + } + } + + check_for_template: + /* This is the common exit path. Check for o2r. */ + if (regs[2] != NULL) + { + o2r = units_need_o2r (regs[1]->unit, regs[2]->unit); + if (o2r) + { + o2r_reg.no = lookup_o2r (0, du, regs[2]); + o2r_reg.unit = regs[2]->unit; + regs[2] = &o2r_reg; + } + } + + /* Check any DSP RAM pointers are valid for this unit. */ + if ((du && (regs[0]->unit == UNIT_RAM_D0)) || + (!du && (regs[0]->unit == UNIT_RAM_D1)) || + (du && (regs[1]->unit == UNIT_RAM_D0)) || + (!du && (regs[1]->unit == UNIT_RAM_D1)) || + (du && regs[2] && (regs[2]->unit == UNIT_RAM_D0)) || + (!du && regs[2] && (regs[2]->unit == UNIT_RAM_D1))) { + as_bad (_("DSP RAM pointer in incorrect unit")); + return NULL; + } + + /* Is this a template definition? */ + if (IS_TEMPLATE_DEF (insn)) + { + l = interpret_template_regs(l, insn, regs, regs_shift, &load, + &dspram, size, &ls_shift, &au_shift, + &au, &imm, &imm_shift, &imm_mask); + + if (l == NULL) + return NULL; + + if (!dspram) + mx_shift = 0; + } + + goto matched; + } + + /* Group 2. */ + if (template->arg_type & DSP_ARGS_2) + { + bfd_boolean is_xsd = ((MAJOR_OPCODE (template->meta_opcode) == OPC_MISC) && + (MINOR_OPCODE (template->meta_opcode) == 0xa)); + bfd_boolean is_fpu_mov = template->insn_type == INSN_DSP_FPU; + bfd_boolean to_fpu = (template->meta_opcode >> 7) & 0x1; + + if (is_xsd) + du_shift = 0; + else + du_shift = 24; + + l1_shift = 4; + + /* CMPs and TSTs don't store to their destination operand. */ + ll = __parse_gp_reg (l, regs, is_cmp); + if (ll == NULL) + { + /* DSPe.r,Dx.r or DSPx.r,#I16 */ + if (template->arg_type & DSP_ARGS_DSP_SRC1) + { + l = parse_dsp_reg (l, regs, FALSE, FALSE); + if (l == NULL) + { + as_bad (_("invalid register operand #1")); + return NULL; + } + + /* Only MOV instructions have a DSP register as a + destination. Set the MOV DSPe.r opcode. The simple + OR'ing is OK because the usual MOV opcode is 0x00. */ + insn->bits = (0x91 << 24); + du_shift = 0; + l1_shift = 2; + regs_shift[0] = 19; + } + else + { + as_bad (_("invalid register operand #2")); + return NULL; + } + } + else + { + l = ll; + + /* Everything but CMP and TST. */ + if (MAJOR_OPCODE (template->meta_opcode) == OPC_ADD || + MAJOR_OPCODE (template->meta_opcode) == OPC_SUB || + MAJOR_OPCODE (insn->bits) == OPC_9 || + MAJOR_OPCODE (template->meta_opcode) == OPC_MISC || + ((template->meta_opcode & 0x0000002c) != 0)) + regs_shift[0] = 19; + else + regs_shift[0] = 14; + } + + if (!is_dsp_data_unit (regs[0]) && !(regs[0]->unit == UNIT_FX && + is_fpu_mov && to_fpu)) + return NULL; + + du = (regs[0]->unit == UNIT_D1 || regs[0]->unit == UNIT_RAM_D1 || + regs[0]->unit == UNIT_ACC_D1); + + l = skip_comma (l); + + if (*l == IMM_CHAR) + { + if (template->arg_type & DSP_ARGS_IMM && + !(is_mov && (MAJOR_OPCODE (insn->bits) != OPC_9))) + { + l = parse_imm16 (l, insn, &imm); + if (l == NULL) + { + as_bad (_("invalid immediate value")); + return NULL; + } + + if (!within_signed_range (imm, IMM16_BITS)) + return NULL; + + l1_shift = 2; + regs_shift[0] = 19; + + imm_mask = 0xffff; + imm_shift = 3; + + /* Set the I-bit unless it's a MOV because they're + different. */ + if (!(is_mov && MAJOR_OPCODE (insn->bits) == OPC_9)) + insn->bits |= (1 << 25); + + /* All instructions that takes immediates also have bit 1 set. */ + insn->bits |= (1 << 1); + + if (MAJOR_OPCODE (insn->bits) != OPC_9) + insn->bits |= (1 << 0); + + insn->bits &= ~(1 << 8); + } + else + { + as_bad (_("this instruction does not accept an immediate")); + return NULL; + } + } + else + { + if (MAJOR_OPCODE (insn->bits) != OPC_9) + { + insn->bits |= (1 << 8); + l1_shift = 4; + } + + ll = __parse_gp_reg (l, ®s[1], TRUE); + if (ll == NULL) + { + if (template->arg_type & DSP_ARGS_DSP_SRC2) + { + l = parse_dsp_reg (l, ®s[1], FALSE, FALSE); + if (l == NULL) + { + as_bad (_("invalid register operand #3")); + return NULL; + } + + /* MOV and NEG. */ + if ((is_mov && (MAJOR_OPCODE (insn->bits) != OPC_9)) || + MAJOR_OPCODE (template->meta_opcode) == OPC_SUB) + { + if (is_accumulator_reg (regs[1])) + { + if (is_fpu_mov) + { + as_bad (_("this instruction does not accept an accumulator")); + return NULL; + } + ar_shift = 7; + ar = 1; + regs_shift[1] = 9; + } + else + { + du_shift = 0; + l1_shift = 2; + regs_shift[1] = 14; + insn->bits = (0x92 << 24); /* Set opcode. */ + } + } + } + else + { + as_bad (_("invalid register operand #4")); + return NULL; + } + } + else + { + /* Set the o2r bit if required. */ + if (!is_fpu_mov && units_need_o2r (regs[0]->unit, regs[1]->unit)) + { + o2r_reg = *regs[1]; + o2r_reg.no = lookup_o2r (0, du, regs[1]); + regs[1] = &o2r_reg; + o2r_shift = 0; + o2r = 1; + } + else if (!is_dsp_data_unit (regs[1]) && + !(is_fpu_mov && !to_fpu && regs[1]->unit == UNIT_FX)) + return NULL; + + if (is_fpu_mov && to_fpu) + du = (regs[1]->unit == UNIT_D1 || + regs[1]->unit == UNIT_RAM_D1 || + regs[1]->unit == UNIT_ACC_D1); + + l = ll; + + if (MAJOR_OPCODE (insn->bits) == OPC_ADD || + MAJOR_OPCODE (template->meta_opcode) == OPC_SUB || + (((template->meta_opcode & 0x0000002c) == 0) && + MAJOR_OPCODE (template->meta_opcode) != OPC_MISC)) + regs_shift[1] = 9; + else + regs_shift[1] = 14; + } + } + + /* If it's an 0x0 MOV or NEG set some lower bits. */ + if ((MAJOR_OPCODE (insn->bits) == OPC_ADD || + MAJOR_OPCODE (template->meta_opcode) == OPC_SUB) && !is_fpu_mov) + { + om_shift = 3; + sc_shift = 5; + insn->bits |= (1 << 2); + } + + /* Check for template definitons. */ + if (IS_TEMPLATE_DEF (insn)) + { + l = interpret_template_regs(l, insn, regs, regs_shift, &load, + &dspram, size, &ls_shift, &au_shift, + &au, &imm, &imm_shift, &imm_mask); + mx_shift = 0; + + if (l == NULL) + return NULL; + } + goto matched; + } + + /* Group 3. */ + du_shift = 24; + l1_shift = 4; + + l = __parse_gp_reg (l, regs, FALSE); + if (l == NULL) + { + as_bad (_("invalid register operand")); + return NULL; + } + + l = skip_comma (l); + + if (*l == 'A') + { + l = parse_dsp_reg (l, ®s[1], FALSE, FALSE); + if (l == NULL) + { + as_bad (_("invalid accumulator register")); + return NULL; + } + ac = 1; + ac_shift = 0; + } + else + { + l = __parse_gp_reg (l, ®s[1], TRUE); + if (l == NULL) + { + as_bad (_("invalid register operand")); + return NULL; + } + } + + regs_shift[0] = 19; + regs_shift[1] = 14; + + du = (regs[1]->unit == UNIT_D1 || regs[1]->unit == UNIT_ACC_D1 + || regs[1]->unit == UNIT_RAM_D1); + + l = skip_comma (l); + + if (*l == IMM_CHAR) + { + l = parse_imm_constant (l, insn, &imm); + if (l == NULL) + { + as_bad (_("invalid immediate value")); + return NULL; + } + + if (!within_unsigned_range (imm, IMM5_BITS)) + return NULL; + + imm_mask = 0x1f; + imm_shift = 9; + + /* Set the I-bit */ + insn->bits |= (1 << 25); + } + else + { + regs_shift[2] = 9; + l = __parse_gp_reg (l, ®s[2], TRUE); + if (l == NULL) + return NULL; + } + + /* Check for post-processing R,G,B flags. Conditional instructions + do not have these bits. */ + if (insn->dsp_action_flags & DSP_ACTION_CLAMP9) + { + if ((template->meta_opcode >> 26) & 0x1) + { + as_bad (_("conditional instruction cannot use G flag")); + return NULL; + } + + insn->bits |= (1 << 3); + } + + if (insn->dsp_action_flags & DSP_ACTION_CLAMP8) + { + if ((template->meta_opcode >> 26) & 0x1) + { + as_bad (_("conditional instruction cannot use B flag")); + return NULL; + } + + insn->bits |= (0x3 << 2); + } + + if (insn->dsp_action_flags & DSP_ACTION_ROUND) + { + if ((template->meta_opcode >> 26) & 0x1) + { + as_bad (_("conditional instruction cannot use R flag")); + return NULL; + } + insn->bits |= (1 << 2); + } + + /* Conditional Data Unit Shift instructions cannot be dual unit. */ + if ((template->meta_opcode >> 26) & 0x1) + ls_shift = INVALID_SHIFT; + + /* The Condition Is Always (CA) bit must be set if we're targetting a + Ux.r register as the destination. This means that we can't have + any other condition bits set. */ + if (!is_same_data_unit (regs[1]->unit, regs[0]->unit)) + { + /* Set both the Conditional bit and the Condition is Always bit. */ + insn->bits |= (1 << 26); + insn->bits |= (1 << 5); + + /* Fill out the Ud field. */ + insn->bits |= (regs[0]->unit << 1); + } + + if (IS_TEMPLATE_DEF (insn)) + { + l = interpret_template_regs(l, insn, regs, regs_shift, &load, + &dspram, size, &ls_shift, &au_shift, + &au, &imm, &imm_shift, &imm_mask); + + if (l == NULL) + return NULL; + + if (!dspram) + mx_shift = 5; + } + + /* Fall through. */ + matched: + + /* Set the registers and immediate values. */ + if (regs_shift[0] != INVALID_SHIFT) + insn->bits |= (regs[0]->no << regs_shift[0]); + + if (regs_shift[1] != INVALID_SHIFT) + insn->bits |= (regs[1]->no << regs_shift[1]); + + if (regs_shift[2] != INVALID_SHIFT) + insn->bits |= (regs[2]->no << regs_shift[2]); + + /* Does this insn have an 'IMM' bit? The immediate value should + already have been masked. */ + if (imm_shift != INVALID_SHIFT) + insn->bits |= ((imm & imm_mask) << imm_shift); + + /* Does this insn have an 'AU' bit? */ + if (au_shift != INVALID_SHIFT) + insn->bits |= (au << au_shift); + + /* Does this instruction have an 'LS' bit? */ + if (ls_shift != INVALID_SHIFT) + insn->bits |= (load << ls_shift); + + /* Does this instruction have an 'AR' bit? */ + if (ar) + insn->bits |= (1 << ar_shift); + + if (du_shift != INVALID_SHIFT) + insn->bits |= (du << du_shift); + + if (sc_shift != INVALID_SHIFT) + insn->bits |= (sc << sc_shift); + + if (om_shift != INVALID_SHIFT) + insn->bits |= (om << om_shift); + + if (o2r_shift != INVALID_SHIFT) + insn->bits |= (o2r << o2r_shift); + + if (qn_shift != INVALID_SHIFT) + insn->bits |= (qn << qn_shift); + + if (qr_shift != INVALID_SHIFT) + insn->bits |= (qr << qr_shift); + + if (qd_shift != INVALID_SHIFT) + insn->bits |= (is_quickrot64 << qd_shift); + + if (a1_shift != INVALID_SHIFT) + insn->bits |= (a1 << a1_shift); + + if (a2_shift != INVALID_SHIFT) + insn->bits |= (a2 << a2_shift); + + if (su_shift != INVALID_SHIFT) + insn->bits |= (su << su_shift); + + if (imm_shift != INVALID_SHIFT) + insn->bits |= ((imm & imm_mask) << imm_shift); + + if (ac_shift != INVALID_SHIFT) + insn->bits |= (ac << ac_shift); + + if (mx_shift != INVALID_SHIFT) + insn->bits |= (mx << mx_shift); + + if (is_dual) + { + if (l1_shift == INVALID_SHIFT) + { + as_bad (_("'L' modifier not valid for this instruction")); + return NULL; + } + + insn->bits |= (1 << l1_shift); + } + + insn->len = 4; + + return l; +} + +typedef const char *(*insn_parser)(const char *, metag_insn *, + const insn_template *); + +/* Parser table. */ +static const insn_parser insn_parsers[ENC_MAX] = + { + [ENC_NONE] = parse_none, + [ENC_MOV_U2U] = parse_mov_u2u, + [ENC_MOV_PORT] = parse_mov_port, + [ENC_MMOV] = parse_mmov, + [ENC_MDRD] = parse_mdrd, + [ENC_MOVL_TTREC] = parse_movl_ttrec, + [ENC_GET_SET] = parse_get_set, + [ENC_GET_SET_EXT] = parse_get_set_ext, + [ENC_MGET_MSET] = parse_mget_mset, + [ENC_COND_SET] = parse_cond_set, + [ENC_XFR] = parse_xfr, + [ENC_MOV_CT] = parse_mov_ct, + [ENC_SWAP] = parse_swap, + [ENC_JUMP] = parse_jump, + [ENC_CALLR] = parse_callr, + [ENC_ALU] = parse_alu, + [ENC_SHIFT] = parse_shift, + [ENC_MIN_MAX] = parse_min_max, + [ENC_BITOP] = parse_bitop, + [ENC_CMP] = parse_cmp, + [ENC_BRANCH] = parse_branch, + [ENC_KICK] = parse_kick, + [ENC_SWITCH] = parse_switch, + [ENC_CACHER] = parse_cacher, + [ENC_CACHEW] = parse_cachew, + [ENC_ICACHE] = parse_icache, + [ENC_LNKGET] = parse_lnkget, + [ENC_FMOV] = parse_fmov, + [ENC_FMMOV] = parse_fmmov, + [ENC_FMOV_DATA] = parse_fmov_data, + [ENC_FMOV_I] = parse_fmov_i, + [ENC_FPACK] = parse_fpack, + [ENC_FSWAP] = parse_fswap, + [ENC_FCMP] = parse_fcmp, + [ENC_FMINMAX] = parse_fminmax, + [ENC_FCONV] = parse_fconv, + [ENC_FCONVX] = parse_fconvx, + [ENC_FBARITH] = parse_fbarith, + [ENC_FEARITH] = parse_fearith, + [ENC_FREC] = parse_frec, + [ENC_FSIMD] = parse_fsimd, + [ENC_FGET_SET_ACF] = parse_fget_set_acf, + [ENC_DGET_SET] = parse_dget_set, + [ENC_DTEMPLATE] = parse_dtemplate, + [ENC_DALU] = parse_dalu, + }; + +struct metag_core_option +{ + char *name; + unsigned int value; +}; + +/* CPU type options. */ +static const struct metag_core_option metag_cpus[] = + { + {"all", CoreMeta11|CoreMeta12|CoreMeta21}, + {"metac11", CoreMeta11}, + {"metac12", CoreMeta12}, + {"metac21", CoreMeta21}, + {NULL, 0}, + }; + +/* FPU type options. */ +static const struct metag_core_option metag_fpus[] = + { + {"metac21", FpuMeta21}, + {NULL, 0}, + }; + +/* DSP type options. */ +static const struct metag_core_option metag_dsps[] = + { + {"metac21", DspMeta21}, + {NULL, 0}, + }; + +/* Parse a CPU command line option. */ +static int +metag_parse_cpu (char * str) +{ + const struct metag_core_option * opt; + int optlen; + + optlen = strlen (str); + + if (optlen == 0) + { + as_bad (_("missing cpu name `%s'"), str); + return 0; + } + + for (opt = metag_cpus; opt->name != NULL; opt++) + if (strncmp (opt->name, str, optlen) == 0) + { + mcpu_opt = opt->value; + return 1; + } + + as_bad (_("unknown cpu `%s'"), str); + return 0; +} + +/* Parse an FPU command line option. */ +static int +metag_parse_fpu (char * str) +{ + const struct metag_core_option * opt; + int optlen; + + optlen = strlen (str); + + if (optlen == 0) + { + as_bad (_("missing fpu name `%s'"), str); + return 0; + } + + for (opt = metag_fpus; opt->name != NULL; opt++) + if (strncmp (opt->name, str, optlen) == 0) + { + mfpu_opt = opt->value; + return 1; + } + + as_bad (_("unknown fpu `%s'"), str); + return 0; +} + +/* Parse a DSP command line option. */ +static int +metag_parse_dsp (char * str) +{ + const struct metag_core_option * opt; + int optlen; + + optlen = strlen (str); + + if (optlen == 0) + { + as_bad (_("missing DSP name `%s'"), str); + return 0; + } + + for (opt = metag_dsps; opt->name != NULL; opt++) + if (strncmp (opt->name, str, optlen) == 0) + { + mdsp_opt = opt->value; + return 1; + } + + as_bad (_("unknown DSP `%s'"), str); + return 0; +} + +struct metag_long_option +{ + char * option; /* Substring to match. */ + char * help; /* Help information. */ + int (* func) (char * subopt); /* Function to decode sub-option. */ + char * deprecated; /* If non-null, print this message. */ +}; + +struct metag_long_option metag_long_opts[] = + { + {"mcpu=", N_("<cpu name>\t assemble for CPU <cpu name>"), + metag_parse_cpu, NULL}, + {"mfpu=", N_("<fpu name>\t assemble for FPU architecture <fpu name>"), + metag_parse_fpu, NULL}, + {"mdsp=", N_("<dsp name>\t assemble for DSP architecture <dsp name>"), + metag_parse_dsp, NULL}, + {NULL, NULL, 0, NULL} + }; + +int +md_parse_option (int c, char * arg) +{ + struct metag_long_option *lopt; + + for (lopt = metag_long_opts; lopt->option != NULL; lopt++) + { + /* These options are expected to have an argument. */ + if (c == lopt->option[0] + && arg != NULL + && strncmp (arg, lopt->option + 1, + strlen (lopt->option + 1)) == 0) + { +#if WARN_DEPRECATED + /* If the option is deprecated, tell the user. */ + if (lopt->deprecated != NULL) + as_tsktsk (_("option `-%c%s' is deprecated: %s"), c, arg, + _(lopt->deprecated)); +#endif + + /* Call the sup-option parser. */ + return lopt->func (arg + strlen (lopt->option) - 1); + } + } + + return 0; +} + +void +md_show_usage (FILE * stream) +{ + struct metag_long_option *lopt; + + fprintf (stream, _(" Meta specific command line options:\n")); + + for (lopt = metag_long_opts; lopt->option != NULL; lopt++) + if (lopt->help != NULL) + fprintf (stream, " -%s%s\n", lopt->option, _(lopt->help)); +} + +/* The target specific pseudo-ops which we support. */ +const pseudo_typeS md_pseudo_table[] = +{ + { "word", cons, 2 }, + { NULL, NULL, 0 } +}; + +void +md_begin (void) +{ + int c; + + for (c = 0; c < 256; c++) + { + if (ISDIGIT (c)) + { + register_chars[c] = c; + /* LOCK0, LOCK1, LOCK2. */ + mnemonic_chars[c] = c; + } + else if (ISLOWER (c)) + { + register_chars[c] = c; + mnemonic_chars[c] = c; + } + else if (ISUPPER (c)) + { + register_chars[c] = c; + mnemonic_chars[c] = c; + } + else if (c == '.') + { + register_chars[c] = c; + } + } +} + +/* Parse a split condition code prefix. */ +static const char * +parse_split_condition (const char *line, metag_insn *insn) +{ + const char *l = line; + const split_condition *scond; + split_condition entry; + char buf[4]; + + memcpy (buf, l, 4); + buf[3] = '\0'; + + entry.name = buf; + + scond = (const split_condition *) htab_find (scond_htab, &entry); + + if (!scond) + return NULL; + + insn->scond = scond->code; + + return l + strlen (scond->name); +} + +/* Parse an instruction prefix - F for float, D for DSP - and associated + flags and condition codes. */ +static const char * +parse_prefix (const char *line, metag_insn *insn) +{ + const char *l = line; + + l = skip_whitespace (l); + + insn->type = INSN_GP; + + if (TOLOWER (*l) == FPU_PREFIX_CHAR) + { + if (strncasecmp (l, FFB_INSN, strlen(FFB_INSN))) + { + insn->type = INSN_FPU; + + l++; + + if (*l == END_OF_INSN) + { + as_bad (_("premature end of floating point prefix")); + return NULL; + } + + if (TOLOWER (*l) == FPU_DOUBLE_CHAR) + { + insn->fpu_width = FPU_WIDTH_DOUBLE; + l++; + } + else if (TOLOWER (*l) == FPU_PAIR_CHAR) + { + const char *l2 = l; + + /* Check this isn't a split condition beginning with L. */ + l2 = parse_split_condition (l2, insn); + + if (l2 && is_whitespace_char (*l2)) + { + l = l2; + } + else + { + insn->fpu_width = FPU_WIDTH_PAIR; + l++; + } + } + else + { + insn->fpu_width = FPU_WIDTH_SINGLE; + } + + if (TOLOWER (*l) == FPU_ACTION_ABS_CHAR) + { + insn->fpu_action_flags |= FPU_ACTION_ABS; + l++; + } + else if (TOLOWER (*l) == FPU_ACTION_INV_CHAR) + { + insn->fpu_action_flags |= FPU_ACTION_INV; + l++; + } + + if (TOLOWER (*l) == FPU_ACTION_QUIET_CHAR) + { + insn->fpu_action_flags |= FPU_ACTION_QUIET; + l++; + } + + if (TOLOWER (*l) == FPU_ACTION_ZERO_CHAR) + { + insn->fpu_action_flags |= FPU_ACTION_ZERO; + l++; + } + + if (! is_whitespace_char (*l)) + { + l = parse_split_condition (l, insn); + + if (!l) + { + as_bad (_("unknown floating point prefix character")); + return NULL; + } + } + + l = skip_space (l); + } + } + else if (TOLOWER (*l) == DSP_PREFIX_CHAR) + { + if (strncasecmp (l, DCACHE_INSN, strlen (DCACHE_INSN)) && + strncasecmp (l, DEFR_INSN, strlen (DEFR_INSN))) + { + const char *ll = l; + insn->type = INSN_DSP; + + l++; + + insn->dsp_width = DSP_WIDTH_SINGLE; + + while (!is_whitespace_char (*l)) + { + /* We have to check for split condition codes first + because they are the longest strings to match, + e.g. if the string contains "LLS" we want it to match + the split condition code "LLS", not the dual unit + character "L". */ + ll = l; + l = parse_split_condition (l, insn); + + if (l == NULL) + l = ll; + else + continue; + + /* Accept an FPU prefix char which may be used when doing + template MOV with FPU registers. */ + if (TOLOWER(*l) == FPU_PREFIX_CHAR) + { + insn->type = INSN_DSP_FPU; + l++; + continue; + } + + if (TOLOWER(*l) == DSP_DUAL_CHAR) + { + insn->dsp_width = DSP_WIDTH_DUAL; + l++; + continue; + } + + if (TOLOWER(*l) == DSP_ACTION_QR64_CHAR) + { + insn->dsp_action_flags |= DSP_ACTION_QR64; + l++; + continue; + } + + if (TOLOWER(*l) == DSP_ACTION_UMUL_CHAR) + { + insn->dsp_action_flags |= DSP_ACTION_UMUL; + l++; + continue; + } + + if (TOLOWER(*l) == DSP_ACTION_ROUND_CHAR) + { + insn->dsp_action_flags |= DSP_ACTION_ROUND; + l++; + continue; + } + + if (TOLOWER(*l) == DSP_ACTION_CLAMP9_CHAR) + { + insn->dsp_action_flags |= DSP_ACTION_CLAMP9; + l++; + continue; + } + + if (TOLOWER(*l) == DSP_ACTION_CLAMP8_CHAR) + { + insn->dsp_action_flags |= DSP_ACTION_CLAMP8; + l++; + continue; + } + + if (TOLOWER(*l) == DSP_ACTION_MOD_CHAR) + { + insn->dsp_action_flags |= DSP_ACTION_MOD; + l++; + continue; + } + + if (TOLOWER(*l) == DSP_ACTION_ACC_ZERO_CHAR) + { + insn->dsp_action_flags |= DSP_ACTION_ACC_ZERO; + l++; + continue; + } + + if (TOLOWER(*l) == DSP_ACTION_ACC_ADD_CHAR) + { + insn->dsp_action_flags |= DSP_ACTION_ACC_ADD; + l++; + continue; + } + + if (TOLOWER(*l) == DSP_ACTION_ACC_SUB_CHAR) + { + insn->dsp_action_flags |= DSP_ACTION_ACC_SUB; + l++; + continue; + } + + if (TOLOWER(*l) == DSP_ACTION_OV_CHAR) + { + insn->dsp_action_flags |= DSP_ACTION_OV; + l++; + continue; + } + + if (TOLOWER(*l) == DSP_DAOPPAME_8_CHAR) + { + insn->dsp_daoppame_flags |= DSP_DAOPPAME_8; + l++; + continue; + } + + if (TOLOWER(*l) == DSP_DAOPPAME_16_CHAR) + { + insn->dsp_daoppame_flags |= DSP_DAOPPAME_16; + l++; + continue; + } + + if (TOLOWER(*l) == DSP_DAOPPAME_TEMP_CHAR) + { + insn->dsp_daoppame_flags |= DSP_DAOPPAME_TEMP; + l++; + continue; + } + + if (TOLOWER(*l) == DSP_DAOPPAME_HIGH_CHAR) + { + insn->dsp_daoppame_flags |= DSP_DAOPPAME_HIGH; + l++; + continue; + } + + as_bad (_("unknown DSP prefix character %c %s"), *l, l); + return NULL; + } + + l = skip_space (l); + } + } + + return l; +} + +/* Return a list of appropriate instruction parsers for MNEMONIC. */ +static insn_templates * +find_insn_templates (const char *mnemonic) +{ + insn_template template; + insn_templates entry; + insn_templates *slot; + + entry.template = &template; + + memcpy ((void *)&entry.template->name, &mnemonic, sizeof (char *)); + + slot = (insn_templates *) htab_find (mnemonic_htab, &entry); + + if (slot) + return slot; + + return NULL; +} + +/* Make an uppercase copy of SRC into DST and return DST. */ +static char * +strupper (char * dst, const char *src) +{ + size_t i = 0; + + while (src[i]) + { + dst[i] = TOUPPER (src[i]); + i++; + } + + dst[i] = 0; + + return dst; +} + +/* Calculate a hash value for a template. */ +static hashval_t +hash_templates (const void *p) +{ + insn_templates *tp = (insn_templates *)p; + char buf[MAX_MNEMONIC_LEN]; + + strupper (buf, tp->template->name); + + return htab_hash_string (buf); +} + +/* Check if two templates are equal. */ +static int +eq_templates (const void *a, const void *b) +{ + insn_templates *ta = (insn_templates *)a; + insn_templates *tb = (insn_templates *)b; + return strcasecmp (ta->template->name, tb->template->name) == 0; +} + +/* Create the hash table required for parsing instructions. */ +static void +create_mnemonic_htab (void) +{ + size_t i, num_templates = sizeof(metag_optab)/sizeof(metag_optab[0]); + + mnemonic_htab = htab_create_alloc (num_templates, hash_templates, + eq_templates, NULL, xcalloc, free); + + for (i = 0; i < num_templates; i++) + { + const insn_template *template = &metag_optab[i]; + insn_templates **slot = NULL; + insn_templates *new_entry; + + new_entry = xmalloc (sizeof (insn_templates)); + + new_entry->template = template; + new_entry->next = NULL; + + slot = (insn_templates **) htab_find_slot (mnemonic_htab, new_entry, + INSERT); + + if (*slot) + { + insn_templates *last_entry = *slot; + + while (last_entry->next) + last_entry = last_entry->next; + + last_entry->next = new_entry; + } + else + { + *slot = new_entry; + } + } +} + +/* Calculate a hash value for a register. */ +static hashval_t +hash_regs (const void *p) +{ + metag_reg *rp = (metag_reg *)p; + char buf[MAX_REG_LEN]; + + strupper (buf, rp->name); + + return htab_hash_string (buf); +} + +/* Check if two registers are equal. */ +static int +eq_regs (const void *a, const void *b) +{ + metag_reg *ra = (metag_reg *)a; + metag_reg *rb = (metag_reg *)b; + return strcasecmp (ra->name, rb->name) == 0; +} + +/* Create the hash table required for parsing registers. */ +static void +create_reg_htab (void) +{ + size_t i, num_regs = sizeof(metag_regtab)/sizeof(metag_regtab[0]); + + reg_htab = htab_create_alloc (num_regs, hash_regs, + eq_regs, NULL, xcalloc, free); + + for (i = 0; i < num_regs; i++) + { + const metag_reg *reg = &metag_regtab[i]; + const metag_reg **slot; + + slot = (const metag_reg **) htab_find_slot (reg_htab, reg, INSERT); + + if (!*slot) + *slot = reg; + } +} + +/* Create the hash table required for parsing DSP registers. */ +static void +create_dspreg_htabs (void) +{ + size_t i, num_regs = sizeof(metag_dsp_regtab)/sizeof(metag_dsp_regtab[0]); + size_t h; + + dsp_reg_htab = htab_create_alloc (num_regs, hash_regs, + eq_regs, NULL, xcalloc, free); + + for (i = 0; i < num_regs; i++) + { + const metag_reg *reg = &metag_dsp_regtab[i]; + const metag_reg **slot; + + slot = (const metag_reg **) htab_find_slot (dsp_reg_htab, reg, INSERT); + + /* Make sure there are no hash table collisions, which would + require chaining entries. */ + BFD_ASSERT (*slot == NULL); + *slot = reg; + } + + num_regs = sizeof(metag_dsp_tmpl_regtab[0])/sizeof(metag_dsp_tmpl_regtab[0][0]); + + for (h = 0; h < 2; h++) + { + dsp_tmpl_reg_htab[h] = htab_create_alloc (num_regs, hash_regs, + eq_regs, NULL, xcalloc, free); + } + + for (h = 0; h < 2; h++) + { + for (i = 0; i < num_regs; i++) + { + const metag_reg *reg = &metag_dsp_tmpl_regtab[h][i]; + const metag_reg **slot; + slot = (const metag_reg **) htab_find_slot (dsp_tmpl_reg_htab[h], + reg, INSERT); + + /* Make sure there are no hash table collisions, which would + require chaining entries. */ + BFD_ASSERT (*slot == NULL); + *slot = reg; + } + } +} + +/* Calculate a hash value for a split condition code. */ +static hashval_t +hash_scond (const void *p) +{ + split_condition *cp = (split_condition *)p; + char buf[4]; + + strupper (buf, cp->name); + + return htab_hash_string (buf); +} + +/* Check if two split condition codes are equal. */ +static int +eq_scond (const void *a, const void *b) +{ + split_condition *ra = (split_condition *)a; + split_condition *rb = (split_condition *)b; + + return strcasecmp (ra->name, rb->name) == 0; +} + +/* Create the hash table required for parsing split condition codes. */ +static void +create_scond_htab (void) +{ + size_t i, nentries; + + nentries = sizeof (metag_scondtab) / sizeof (metag_scondtab[0]); + + scond_htab = htab_create_alloc (nentries, hash_scond, eq_scond, + NULL, xcalloc, free); + for (i = 0; i < nentries; i++) + { + const split_condition *scond = &metag_scondtab[i]; + const split_condition **slot; + + slot = (const split_condition **) htab_find_slot (scond_htab, + scond, INSERT); + /* Make sure there are no hash table collisions, which would + require chaining entries. */ + BFD_ASSERT (*slot == NULL); + *slot = scond; + } +} + +/* Entry point for instruction parsing. */ +static bfd_boolean +parse_insn (const char *line, metag_insn *insn) +{ + char mnemonic[MAX_MNEMONIC_LEN]; + const char *l = line; + size_t mnemonic_len = 0; + insn_templates *templates; + + l = skip_space (l); + + while (is_mnemonic_char(*l)) + { + l++; + mnemonic_len++; + } + + if (mnemonic_len >= MAX_MNEMONIC_LEN) + { + as_bad (_("instruction mnemonic too long: %s"), line); + return FALSE; + } + + strncpy(mnemonic, line, mnemonic_len); + + mnemonic[mnemonic_len] = '\0'; + + templates = find_insn_templates (mnemonic); + + if (templates) + { + insn_templates *current_template = templates; + + l = skip_space (l); + + while (current_template) + { + const insn_template *template = current_template->template; + enum insn_encoding encoding = template->encoding; + insn_parser parser = insn_parsers[encoding]; + + current_template = current_template->next; + + if (template->insn_type == INSN_GP && + !(template->core_flags & mcpu_opt)) + continue; + + if (template->insn_type == INSN_FPU && + !(template->core_flags & mfpu_opt)) + continue; + + if (template->insn_type == INSN_DSP && + !(template->core_flags & mdsp_opt)) + continue; + + if (template->insn_type == INSN_DSP_FPU && + !((template->core_flags & mdsp_opt) && + (template->core_flags & mfpu_opt))) + continue; + + /* DSP instructions always require special decoding */ + if ((insn->type == INSN_DSP && (template->insn_type != INSN_DSP)) || + ((template->insn_type == INSN_DSP) && insn->type != INSN_DSP) || + (insn->type == INSN_DSP_FPU && (template->insn_type != INSN_DSP_FPU)) || + ((template->insn_type == INSN_DSP_FPU) && insn->type != INSN_DSP_FPU)) + continue; + + if (parser) + { + const char *end = parser(l, insn, template); + + if (end != NULL) + { + if (*end != END_OF_INSN) + as_bad (_("junk at end of line: \"%s\""), line); + else + return TRUE; + } + } + } + + as_bad (_("failed to assemble instruction: \"%s\""), line); + } + else + { + if (insn->type == INSN_FPU) + as_bad (_("unknown floating point mnemonic: \"%s\""), mnemonic); + else + as_bad (_("unknown mnemonic: \"%s\""), mnemonic); + } + return FALSE; +} + +static void +output_insn (metag_insn *insn) +{ + char *output; + + output = frag_more (insn->len); + dwarf2_emit_insn (insn->len); + + if (insn->reloc_type != BFD_RELOC_UNUSED) + { + fix_new_exp (frag_now, output - frag_now->fr_literal, + insn->reloc_size, &insn->reloc_exp, + insn->reloc_pcrel, insn->reloc_type); + } + + md_number_to_chars (output, insn->bits, insn->len); +} + +void +md_assemble (char *line) +{ + const char *l = line; + metag_insn insn; + + memset (&insn, 0, sizeof(insn)); + + insn.reloc_type = BFD_RELOC_UNUSED; + insn.reloc_pcrel = 0; + insn.reloc_size = 4; + + if (!mnemonic_htab) + { + create_mnemonic_htab (); + create_reg_htab (); + create_dspreg_htabs (); + create_scond_htab (); + } + + l = parse_prefix (l, &insn); + + if (l == NULL) + return; + + if (insn.type == INSN_DSP && + !mdsp_opt) + { + as_bad (_("cannot assemble DSP instruction, DSP option not set: %s"), + line); + return; + } + else if (insn.type == INSN_FPU && + !mfpu_opt) + { + as_bad (_("cannot assemble FPU instruction, FPU option not set: %s"), + line); + return; + } + + if (!parse_insn (l, &insn)) + return; + + output_insn (&insn); +} + +void +md_operand (expressionS * expressionP) +{ + if (* input_line_pointer == IMM_CHAR) + { + input_line_pointer ++; + expression (expressionP); + } +} + +valueT +md_section_align (segT segment ATTRIBUTE_UNUSED, valueT size) +{ + return size; +} + +symbolS * +md_undefined_symbol (char *name ATTRIBUTE_UNUSED) +{ + return NULL; +} + +/* Functions concerning relocs. */ + +/* The location from which a PC relative jump should be calculated, + given a PC relative reloc. */ + +long +md_pcrel_from_section (fixS * fixP, segT sec) +{ + if ((fixP->fx_addsy != (symbolS *) NULL + && (! S_IS_DEFINED (fixP->fx_addsy) + || S_GET_SEGMENT (fixP->fx_addsy) != sec)) + || metag_force_relocation (fixP)) + { + /* The symbol is undefined (or is defined but not in this section). + Let the linker figure it out. */ + return 0; + } + + return fixP->fx_frag->fr_address + fixP->fx_where; +} + +/* Write a value out to the object file, using the appropriate endianness. */ + +void +md_number_to_chars (char * buf, valueT val, int n) +{ + number_to_chars_littleendian (buf, val, n); +} + +/* Turn a string in input_line_pointer into a floating point constant of type + type, and store the appropriate bytes in *litP. The number of LITTLENUMS + emitted is stored in *sizeP . An error message is returned, or NULL on OK. +*/ + +/* Equal to MAX_PRECISION in atof-ieee.c */ +#define MAX_LITTLENUMS 6 + +char * +md_atof (int type, char * litP, int * sizeP) +{ + int i; + int prec; + LITTLENUM_TYPE words [MAX_LITTLENUMS]; + char * t; + + switch (type) + { + case 'f': + case 'F': + case 's': + case 'S': + prec = 2; + break; + + case 'd': + case 'D': + case 'r': + case 'R': + prec = 4; + break; + + /* FIXME: Some targets allow other format chars for bigger sizes here. */ + + default: + * sizeP = 0; + return _("Bad call to md_atof()"); + } + + t = atof_ieee (input_line_pointer, type, words); + if (t) + input_line_pointer = t; + * sizeP = prec * sizeof (LITTLENUM_TYPE); + + for (i = 0; i < prec; i++) + { + md_number_to_chars (litP, (valueT) words[i], + sizeof (LITTLENUM_TYPE)); + litP += sizeof (LITTLENUM_TYPE); + } + + return 0; +} + +/* If this function returns non-zero, it prevents the relocation + against symbol(s) in the FIXP from being replaced with relocations + against section symbols, and guarantees that a relocation will be + emitted even when the value can be resolved locally. */ + +int +metag_force_relocation (fixS * fix) +{ + switch (fix->fx_r_type) + { + case BFD_RELOC_METAG_RELBRANCH_PLT: + case BFD_RELOC_METAG_TLS_LE: + case BFD_RELOC_METAG_TLS_IE: + case BFD_RELOC_METAG_TLS_LDO: + case BFD_RELOC_METAG_TLS_LDM: + case BFD_RELOC_METAG_TLS_GD: + return 1; + default: + ; + } + + return generic_force_reloc (fix); +} + +bfd_boolean +metag_fix_adjustable (fixS * fixP) +{ + if (fixP->fx_addsy == NULL) + return 1; + + /* Prevent all adjustments to global symbols. */ + if (S_IS_EXTERNAL (fixP->fx_addsy)) + return 0; + if (S_IS_WEAK (fixP->fx_addsy)) + return 0; + + if (fixP->fx_r_type == BFD_RELOC_METAG_HI16_GOTOFF || + fixP->fx_r_type == BFD_RELOC_METAG_LO16_GOTOFF || + fixP->fx_r_type == BFD_RELOC_METAG_GETSET_GOTOFF || + fixP->fx_r_type == BFD_RELOC_METAG_GETSET_GOT || + fixP->fx_r_type == BFD_RELOC_METAG_HI16_GOTPC || + fixP->fx_r_type == BFD_RELOC_METAG_LO16_GOTPC || + fixP->fx_r_type == BFD_RELOC_METAG_HI16_PLT || + fixP->fx_r_type == BFD_RELOC_METAG_LO16_PLT || + fixP->fx_r_type == BFD_RELOC_METAG_RELBRANCH_PLT) + return 0; + + /* We need the symbol name for the VTABLE entries. */ + if (fixP->fx_r_type == BFD_RELOC_VTABLE_INHERIT + || fixP->fx_r_type == BFD_RELOC_VTABLE_ENTRY) + return 0; + + return 1; +} + +/* Return an initial guess of the length by which a fragment must grow to + hold a branch to reach its destination. + Also updates fr_type/fr_subtype as necessary. + + Called just before doing relaxation. + Any symbol that is now undefined will not become defined. + The guess for fr_var is ACTUALLY the growth beyond fr_fix. + Whatever we do to grow fr_fix or fr_var contributes to our returned value. + Although it may not be explicit in the frag, pretend fr_var starts with a + 0 value. */ + +int +md_estimate_size_before_relax (fragS * fragP ATTRIBUTE_UNUSED, + segT segment ATTRIBUTE_UNUSED) +{ + /* No assembler relaxation is defined (or necessary) for this port. */ + abort (); +} + +/* *fragP has been relaxed to its final size, and now needs to have + the bytes inside it modified to conform to the new size. + + Called after relaxation is finished. + fragP->fr_type == rs_machine_dependent. + fragP->fr_subtype is the subtype of what the address relaxed to. */ + +void +md_convert_frag (bfd * abfd ATTRIBUTE_UNUSED, segT sec ATTRIBUTE_UNUSED, + fragS * fragP ATTRIBUTE_UNUSED) +{ + /* No assembler relaxation is defined (or necessary) for this port. */ + abort (); +} + +/* This is called from HANDLE_ALIGN in tc-metag.h. */ + +void +metag_handle_align (fragS * fragP) +{ + static char const noop[4] = { 0xfe, 0xff, 0xff, 0xa0 }; + int bytes, fix; + char *p; + + if (fragP->fr_type != rs_align_code) + return; + + bytes = fragP->fr_next->fr_address - fragP->fr_address - fragP->fr_fix; + p = fragP->fr_literal + fragP->fr_fix; + fix = 0; + + if (bytes & 3) + { + fix = bytes & 3; + memset (p, 0, fix); + p += fix; + bytes -= fix; + } + + while (bytes >= 4) + { + memcpy (p, noop, 4); + p += 4; + bytes -= 4; + fix += 4; + } + + fragP->fr_fix += fix; + fragP->fr_var = 4; +} + +static char * +metag_end_of_match (char * cont, char * what) +{ + int len = strlen (what); + + if (strncasecmp (cont, what, strlen (what)) == 0 + && ! is_part_of_name (cont[len])) + return cont + len; + + return NULL; +} + +int +metag_parse_name (char const * name, expressionS * exprP, enum expr_mode mode, + char * nextcharP) +{ + char *next = input_line_pointer; + char *next_end; + int reloc_type; + operatorT op_type; + segT segment; + + exprP->X_op_symbol = NULL; + exprP->X_md = BFD_RELOC_UNUSED; + + if (strcmp (name, GOT_NAME) == 0) + { + if (! GOT_symbol) + GOT_symbol = symbol_find_or_make (name); + + exprP->X_add_symbol = GOT_symbol; + no_suffix: + /* If we have an absolute symbol or a + reg, then we know its value now. */ + segment = S_GET_SEGMENT (exprP->X_add_symbol); + if (mode != expr_defer && segment == absolute_section) + { + exprP->X_op = O_constant; + exprP->X_add_number = S_GET_VALUE (exprP->X_add_symbol); + exprP->X_add_symbol = NULL; + } + else if (mode != expr_defer && segment == reg_section) + { + exprP->X_op = O_register; + exprP->X_add_number = S_GET_VALUE (exprP->X_add_symbol); + exprP->X_add_symbol = NULL; + } + else + { + exprP->X_op = O_symbol; + exprP->X_add_number = 0; + } + + return 1; + } + + exprP->X_add_symbol = symbol_find_or_make (name); + + if (*nextcharP != '@') + goto no_suffix; + else if ((next_end = metag_end_of_match (next + 1, "GOTOFF"))) + { + reloc_type = BFD_RELOC_METAG_GOTOFF; + op_type = O_PIC_reloc; + } + else if ((next_end = metag_end_of_match (next + 1, "GOT"))) + { + reloc_type = BFD_RELOC_METAG_GETSET_GOT; + op_type = O_PIC_reloc; + } + else if ((next_end = metag_end_of_match (next + 1, "PLT"))) + { + reloc_type = BFD_RELOC_METAG_PLT; + op_type = O_PIC_reloc; + } + else if ((next_end = metag_end_of_match (next + 1, "TLSGD"))) + { + reloc_type = BFD_RELOC_METAG_TLS_GD; + op_type = O_PIC_reloc; + } + else if ((next_end = metag_end_of_match (next + 1, "TLSLDM"))) + { + reloc_type = BFD_RELOC_METAG_TLS_LDM; + op_type = O_PIC_reloc; + } + else if ((next_end = metag_end_of_match (next + 1, "TLSLDO"))) + { + reloc_type = BFD_RELOC_METAG_TLS_LDO; + op_type = O_PIC_reloc; + } + else if ((next_end = metag_end_of_match (next + 1, "TLSIE"))) + { + reloc_type = BFD_RELOC_METAG_TLS_IE; + op_type = O_PIC_reloc; + } + else if ((next_end = metag_end_of_match (next + 1, "TLSIENONPIC"))) + { + reloc_type = BFD_RELOC_METAG_TLS_IENONPIC; + op_type = O_PIC_reloc; /* FIXME: is this correct? */ + } + else if ((next_end = metag_end_of_match (next + 1, "TLSLE"))) + { + reloc_type = BFD_RELOC_METAG_TLS_LE; + op_type = O_PIC_reloc; + } + else + goto no_suffix; + + *input_line_pointer = *nextcharP; + input_line_pointer = next_end; + *nextcharP = *input_line_pointer; + *input_line_pointer = '\0'; + + exprP->X_op = op_type; + exprP->X_add_number = 0; + exprP->X_md = reloc_type; + + return 1; +} + +/* If while processing a fixup, a reloc really needs to be created + then it is done here. */ + +arelent * +tc_gen_reloc (seg, fixp) + asection *seg ATTRIBUTE_UNUSED; + fixS *fixp; +{ + arelent *reloc; + + reloc = (arelent *) xmalloc (sizeof (arelent)); + reloc->sym_ptr_ptr = (asymbol **) xmalloc (sizeof (asymbol *)); + *reloc->sym_ptr_ptr = symbol_get_bfdsym (fixp->fx_addsy); + reloc->address = fixp->fx_frag->fr_address + fixp->fx_where; + + reloc->addend = fixp->fx_offset; + reloc->howto = bfd_reloc_type_lookup (stdoutput, fixp->fx_r_type); + + if (reloc->howto == (reloc_howto_type *) NULL) + { + as_bad_where (fixp->fx_file, fixp->fx_line, + /* xgettext:c-format. */ + _("reloc %d not supported by object file format"), + (int) fixp->fx_r_type); + + xfree (reloc); + + return NULL; + } + + return reloc; +} + +static unsigned int +md_chars_to_number (char *val, int n) +{ + int retval; + unsigned char * where = (unsigned char *) val; + + for (retval = 0; n--;) + { + retval <<= 8; + retval |= where[n]; + } + return retval; +} + +void +md_apply_fix (fixS *fixP, valueT *valP, segT seg ATTRIBUTE_UNUSED) +{ + char *buf = fixP->fx_where + fixP->fx_frag->fr_literal; + int value = (int)*valP; + + switch (fixP->fx_r_type) + { + case BFD_RELOC_METAG_TLS_GD: + case BFD_RELOC_METAG_TLS_LE_HI16: + case BFD_RELOC_METAG_TLS_LE_LO16: + case BFD_RELOC_METAG_TLS_IE: + case BFD_RELOC_METAG_TLS_IENONPIC_HI16: + case BFD_RELOC_METAG_TLS_IENONPIC_LO16: + case BFD_RELOC_METAG_TLS_LDM: + case BFD_RELOC_METAG_TLS_LDO_HI16: + case BFD_RELOC_METAG_TLS_LDO_LO16: + S_SET_THREAD_LOCAL (fixP->fx_addsy); + /* Fall through */ + + case BFD_RELOC_METAG_HIADDR16: + case BFD_RELOC_METAG_LOADDR16: + case BFD_RELOC_VTABLE_INHERIT: + case BFD_RELOC_VTABLE_ENTRY: + fixP->fx_done = FALSE; + break; + + case BFD_RELOC_METAG_REL8: + if (!within_unsigned_range (value, IMM8_BITS)) + { + as_bad_where (fixP->fx_file, fixP->fx_line, + "rel8 out of range %d", value); + } + else + { + unsigned int newval; + newval = md_chars_to_number (buf, 4); + newval = (newval & 0xffffc03f) | ((value & IMM8_MASK) << 6); + md_number_to_chars (buf, newval, 4); + } + break; + case BFD_RELOC_METAG_REL16: + if (!within_unsigned_range (value, IMM16_BITS)) + { + as_bad_where (fixP->fx_file, fixP->fx_line, + "rel16 out of range %d", value); + } + else + { + unsigned int newval; + newval = md_chars_to_number (buf, 4); + newval = (newval & 0xfff80007) | ((value & IMM16_MASK) << 3); + md_number_to_chars (buf, newval, 4); + } + break; + + case BFD_RELOC_8: + md_number_to_chars (buf, value, 1); + break; + case BFD_RELOC_16: + md_number_to_chars (buf, value, 2); + break; + case BFD_RELOC_32: + md_number_to_chars (buf, value, 4); + break; + case BFD_RELOC_64: + md_number_to_chars (buf, value, 8); + + case BFD_RELOC_METAG_RELBRANCH: + if (!value) + break; + + value = value / 4; + + if (!within_signed_range (value, IMM19_BITS)) + { + as_bad_where (fixP->fx_file, fixP->fx_line, + "relbranch out of range %d", value); + } + else + { + unsigned int newval; + newval = md_chars_to_number (buf, 4); + newval = (newval & 0xff00001f) | ((value & IMM19_MASK) << 5); + md_number_to_chars (buf, newval, 4); + } + break; + default: + break; + } + + if (fixP->fx_addsy == NULL) + fixP->fx_done = TRUE; +} diff --git a/gas/config/tc-metag.h b/gas/config/tc-metag.h new file mode 100644 index 0000000..e0411f5 --- /dev/null +++ b/gas/config/tc-metag.h @@ -0,0 +1,72 @@ +/* tc-metag.h -- Header file for tc-metag.c. + Copyright (C) 2013 Free Software Foundation, Inc. + Contributed by Imagination Technologies Ltd. + + This file is part of GAS, the GNU Assembler. + + GAS is free software; you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation; either version 3, or (at your option) + any later version. + + GAS is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with GAS; see the file COPYING. If not, write to the Free + Software Foundation, 51 Franklin Street - Fifth Floor, Boston, MA + 02110-1301, USA. */ + +#define TC_METAG + +#define LISTING_HEADER "META GAS " + +/* The target BFD architecture. */ +#define TARGET_ARCH bfd_arch_metag + +#define TARGET_FORMAT "elf32-metag" + +#define TARGET_BYTES_BIG_ENDIAN 0 + +/* Permit temporary numeric labels. */ +#define LOCAL_LABELS_FB 1 + +#define DIFF_EXPR_OK /* foo-. gets turned into PC relative relocs */ + +/* We don't need to handle .word strangely. */ +#define WORKING_DOT_WORD + +/* Values passed to md_apply_fix don't include the symbol value. */ +#define MD_APPLY_SYM_VALUE(FIX) 0 + +#define tc_fix_adjustable(FIX) metag_fix_adjustable (FIX) +extern bfd_boolean metag_fix_adjustable (struct fix *); + +#define TC_FORCE_RELOCATION(fix) metag_force_relocation (fix) +extern int metag_force_relocation (struct fix *); + +#define TC_HANDLES_FX_DONE + +/* Call md_pcrel_from_section(), not md_pcrel_from(). */ +#define MD_PCREL_FROM_SECTION(FIX, SEC) md_pcrel_from_section (FIX, SEC) +extern long md_pcrel_from_section (struct fix *, segT); + +#define HANDLE_ALIGN(fragp) metag_handle_align (fragp) +extern void metag_handle_align (struct frag *); + +#define DWARF2_LINE_MIN_INSN_LENGTH 1 + +#define md_parse_name(name, exprP, mode, nextcharP) \ + metag_parse_name ((name), (exprP), (mode), (nextcharP)) +extern int metag_parse_name (char const *, expressionS *, enum expr_mode, char *); + +/* This is used to construct expressions out of @GOTOFF, @PLT and @GOT + symbols. The relocation type is stored in X_md. */ +#define O_PIC_reloc O_md1 + +#define TC_CASE_SENSITIVE + +extern const char metag_symbol_chars[]; +#define tc_symbol_chars metag_symbol_chars diff --git a/gas/configure.tgt b/gas/configure.tgt index 6ce3aca..8454ab9 100644 --- a/gas/configure.tgt +++ b/gas/configure.tgt @@ -306,6 +306,9 @@ case ${generic_target} in mep-*-elf) fmt=elf ;; + metag-*-elf) fmt=elf ;; + metag-*-linux*) fmt=elf em=linux ;; + mcore-*-elf) fmt=elf ;; mcore-*-pe) fmt=coff em=pe bfd_gas=yes ;; diff --git a/gas/doc/Makefile.am b/gas/doc/Makefile.am index 57c5f81..e7e1be5 100644 --- a/gas/doc/Makefile.am +++ b/gas/doc/Makefile.am @@ -68,6 +68,7 @@ CPU_DOCS = \ c-m32r.texi \ c-m68hc11.texi \ c-m68k.texi \ + c-metag.texi \ c-microblaze.texi \ c-mips.texi \ c-mmix.texi \ diff --git a/gas/doc/Makefile.in b/gas/doc/Makefile.in index d075e81..4d0eb6d 100644 --- a/gas/doc/Makefile.in +++ b/gas/doc/Makefile.in @@ -310,6 +310,7 @@ CPU_DOCS = \ c-m32r.texi \ c-m68hc11.texi \ c-m68k.texi \ + c-metag.texi \ c-microblaze.texi \ c-mips.texi \ c-mmix.texi \ diff --git a/gas/doc/all.texi b/gas/doc/all.texi index e294208..b213ad7 100644 --- a/gas/doc/all.texi +++ b/gas/doc/all.texi @@ -52,6 +52,7 @@ @set M68HC11 @set M680X0 @set MCORE +@set METAG @set MICROBLAZE @set MIPS @set MMIX diff --git a/gas/doc/as.texinfo b/gas/doc/as.texinfo index 8c43940..0d04932 100644 --- a/gas/doc/as.texinfo +++ b/gas/doc/as.texinfo @@ -387,6 +387,11 @@ gcc(1), ld(1), and the Info entries for @file{binutils} and @file{ld}. [@b{-jsri2bsr}] [@b{-sifilter}] [@b{-relax}] [@b{-mcpu=[210|340]}] @end ifset +@ifset METAG + +@emph{Target Meta options:} + [@b{-mcpu=@var{cpu}}] [@b{-mfpu=@var{cpu}}] [@b{-mdsp=@var{cpu}}] +@end ifset @ifset MICROBLAZE @emph{Target MICROBLAZE options:} @c MicroBlaze has no machine-dependent assembler options. @@ -1372,7 +1377,28 @@ Assemble for a little endian target. @end table @end ifset +@c man end +@ifset METAG + +@ifclear man +@xref{Meta Options}, for the options available when @value{AS} is configured +for a Meta processor. +@end ifclear + +@ifset man +@c man begin OPTIONS +The following options are available when @value{AS} is configured for a +Meta processor. +@c man end +@c man begin INCLUDE +@include c-metag.texi +@c ended inside the included file +@end ifset + +@end ifset + +@c man begin OPTIONS @ifset MMIX See the info pages for documentation of the MMIX-specific options. @end ifset @@ -7018,6 +7044,9 @@ subject, see the hardware manufacturer's manual. @ifset M68HC11 * M68HC11-Dependent:: M68HC11 and 68HC12 Dependent Features @end ifset +@ifset METAG +* Meta-Dependent :: Meta Dependent Features +@end ifset @ifset MICROBLAZE * MicroBlaze-Dependent:: MICROBLAZE Dependent Features @end ifset @@ -7221,6 +7250,10 @@ family. @include c-m68hc11.texi @end ifset +@ifset METAG +@include c-metag.texi +@end ifset + @ifset MICROBLAZE @include c-microblaze.texi @end ifset diff --git a/gas/doc/c-metag.texi b/gas/doc/c-metag.texi new file mode 100644 index 0000000..225d02d --- /dev/null +++ b/gas/doc/c-metag.texi @@ -0,0 +1,82 @@ +@c Copyright 2013 Free Software Foundation, Inc. +@c Contributed by Imagination Technologies Ltd. +@c This is part of the GAS manual. +@c For copying conditions, see the file as.texinfo. +@ifset GENERIC +@page +@node Meta-Dependent +@chapter Meta Dependent Features +@end ifset +@ifclear GENERIC +@node Machine Dependencies +@chapter Meta Dependent Features +@end ifclear + +@cindex Meta support +@menu +* Meta Options:: Options +* Meta Syntax:: Meta Assembler Syntax +@end menu + +@node Meta Options +@section Options + +@cindex options for Meta +@cindex Meta options +@cindex architectures, Meta +@cindex Meta architectures + +The Imagination Technologies Meta architecture is implemented in a +number of versions, with each new version adding new features such as +instructions and registers. For precise details of what instructions +each core supports, please see the chip's technical reference manual. + +The following table lists all available Meta options. + +@table @code +@item -mcpu=metac11 +Generate code for Meta 1.1. + +@item -mcpu=metac12 +Generate code for Meta 1.2. + +@item -mcpu=metac21 +Generate code for Meta 2.1. + +@item -mfpu=metac21 +Allow code to use FPU hardware of Meta 2.1. + +@end table + +@node Meta Syntax +@section Syntax + +@menu +* Meta-Chars:: Special Characters +* Meta-Regs:: Register Names +@end menu + +@node Meta-Chars +@subsection Special Characters + +@cindex line comment character, Meta +@cindex Meta line comment character +@samp{!} is the line comment character. + +@cindex line separator, Meta +@cindex statement separator, Meta +@cindex Meta line separator +You can use @samp{;} instead of a newline to separate statements. + +@cindex symbol names, @samp{$} in +@cindex @code{$} in symbol names +Since @samp{$} has no special meaning, you may use it in symbol names. + +@node Meta-Regs +@subsection Register Names + +@cindex Meta registers +@cindex registers, Meta +Registers can be specified either using their mnemonic names, such as +@samp{D0Re0}, or using the unit plus register number separated by a @samp{.}, +such as @samp{D0.0}. diff --git a/gas/testsuite/ChangeLog b/gas/testsuite/ChangeLog index dc6ceb0..22e1953 100644 --- a/gas/testsuite/ChangeLog +++ b/gas/testsuite/ChangeLog @@ -1,3 +1,29 @@ +2013-01-10 Will Newton <will.newton@imgtec.com> + + * gas/metag/labelarithmetic.d: New file. + * gas/metag/labelarithmetic.s: New file. + * gas/metag/metacore12.d: New file. + * gas/metag/metacore12.s: New file. + * gas/metag/metacore21-invalid.l: New file. + * gas/metag/metacore21-invalid.s: New file. + * gas/metag/metacore21.d: New file. + * gas/metag/metacore21.s: New file. + * gas/metag/metacore21ext.d: New file. + * gas/metag/metacore21ext.s: New file. + * gas/metag/metadsp21-invalid.l: New file. + * gas/metag/metadsp21-invalid.s: New file. + * gas/metag/metadsp21.d: New file. + * gas/metag/metadsp21.s: New file. + * gas/metag/metadsp21ext.d: New file. + * gas/metag/metadsp21ext.s: New file. + * gas/metag/metafpu21.d: New file. + * gas/metag/metafpu21.s: New file. + * gas/metag/metafpu21ext.d: New file. + * gas/metag/metafpu21ext.s: New file. + * gas/metag/metag.exp: New file. + * gas/metag/tls.d: New file. + * gas/metag/tls.s: New file. + 2013-01-08 Yufeng Zhang <yufeng.zhang@arm.com> * gas/aarch64/diagnostic.s: Add test. diff --git a/include/ChangeLog b/include/ChangeLog index 4be13bc..3e68263 100644 --- a/include/ChangeLog +++ b/include/ChangeLog @@ -1,3 +1,7 @@ +2013-01-10 Will Newton <will.newton@imgtec.com> + + * dis-asm.h (print_insn_metag): New declaration. + 2012-12-18 Aldy Hernandez <aldyh@redhat.com> PR other/54324 diff --git a/include/dis-asm.h b/include/dis-asm.h index 25d44fc..43c26b1 100644 --- a/include/dis-asm.h +++ b/include/dis-asm.h @@ -267,6 +267,7 @@ extern int print_insn_m68k (bfd_vma, disassemble_info *); extern int print_insn_m88k (bfd_vma, disassemble_info *); extern int print_insn_mcore (bfd_vma, disassemble_info *); extern int print_insn_mep (bfd_vma, disassemble_info *); +extern int print_insn_metag (bfd_vma, disassemble_info *); extern int print_insn_microblaze (bfd_vma, disassemble_info *); extern int print_insn_mmix (bfd_vma, disassemble_info *); extern int print_insn_mn10200 (bfd_vma, disassemble_info *); diff --git a/include/elf/ChangeLog b/include/elf/ChangeLog index 8cb1cb8..c86fbf7 100644 --- a/include/elf/ChangeLog +++ b/include/elf/ChangeLog @@ -1,3 +1,8 @@ +2013-01-10 Will Newton <will.newton@imgtec.com> + + * common.h: Fix case of "Meta". + * metag.h: New file. + 2013-01-08 Yufeng Zhang <yufeng.zhang@arm.com> * common.h (NT_ARM_TLS, NT_ARM_HW_BREAK, NT_ARM_HW_WATCH): New macro diff --git a/include/elf/common.h b/include/elf/common.h index ca36935..2bae603 100644 --- a/include/elf/common.h +++ b/include/elf/common.h @@ -279,7 +279,7 @@ #define EM_MANIK 171 /* M2000 Reconfigurable RISC Microprocessor */ #define EM_CRAYNV2 172 /* Cray Inc. NV2 vector architecture */ #define EM_RX 173 /* Renesas RX family */ -#define EM_METAG 174 /* Imagination Technologies META processor architecture */ +#define EM_METAG 174 /* Imagination Technologies Meta processor architecture */ #define EM_MCST_ELBRUS 175 /* MCST Elbrus general purpose hardware architecture */ #define EM_ECOG16 176 /* Cyan Technology eCOG16 family */ #define EM_CR16 177 /* National Semiconductor CompactRISC 16-bit processor */ diff --git a/include/elf/metag.h b/include/elf/metag.h new file mode 100644 index 0000000..7ea699d --- /dev/null +++ b/include/elf/metag.h @@ -0,0 +1,91 @@ +/* Meta ELF support for BFD. + Copyright (C) 2013 Free Software Foundation, Inc. + Contributed by Imagination Technologies Ltd. + + This file is part of BFD, the Binary File Descriptor library. + + This program is free software; you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation; either version 3 of the License, or + (at your option) any later version. + + This program is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with this program; if not, write to the Free Software Foundation, + Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. */ + +#ifndef _ELF_METAG_H +#define _ELF_METAG_H + +#include "elf/reloc-macros.h" + +/* Relocation types. */ + +START_RELOC_NUMBERS (elf_metag_reloc_type) + RELOC_NUMBER (R_METAG_HIADDR16, 0) + RELOC_NUMBER (R_METAG_LOADDR16, 1) + RELOC_NUMBER (R_METAG_ADDR32, 2) + RELOC_NUMBER (R_METAG_NONE, 3) + RELOC_NUMBER (R_METAG_RELBRANCH, 4) + RELOC_NUMBER (R_METAG_GETSETOFF, 5) + + /* Backward compatability */ + RELOC_NUMBER (R_METAG_REG32OP1, 6) + RELOC_NUMBER (R_METAG_REG32OP2, 7) + RELOC_NUMBER (R_METAG_REG32OP3, 8) + RELOC_NUMBER (R_METAG_REG16OP1, 9) + RELOC_NUMBER (R_METAG_REG16OP2, 10) + RELOC_NUMBER (R_METAG_REG16OP3, 11) + RELOC_NUMBER (R_METAG_REG32OP4, 12) + + RELOC_NUMBER (R_METAG_HIOG, 13) + RELOC_NUMBER (R_METAG_LOOG, 14) + + RELOC_NUMBER (R_METAG_REL8, 15) + RELOC_NUMBER (R_METAG_REL16, 16) + + /* GNU */ + RELOC_NUMBER (R_METAG_GNU_VTINHERIT,30) + RELOC_NUMBER (R_METAG_GNU_VTENTRY, 31) + + /* PIC relocations */ + RELOC_NUMBER (R_METAG_HI16_GOTOFF, 32) + RELOC_NUMBER (R_METAG_LO16_GOTOFF, 33) + RELOC_NUMBER (R_METAG_GETSET_GOTOFF,34) + RELOC_NUMBER (R_METAG_GETSET_GOT, 35) + RELOC_NUMBER (R_METAG_HI16_GOTPC, 36) + RELOC_NUMBER (R_METAG_LO16_GOTPC, 37) + RELOC_NUMBER (R_METAG_HI16_PLT, 38) + RELOC_NUMBER (R_METAG_LO16_PLT, 39) + RELOC_NUMBER (R_METAG_RELBRANCH_PLT,40) + RELOC_NUMBER (R_METAG_GOTOFF, 41) + RELOC_NUMBER (R_METAG_PLT, 42) + RELOC_NUMBER (R_METAG_COPY, 43) + RELOC_NUMBER (R_METAG_JMP_SLOT, 44) + RELOC_NUMBER (R_METAG_RELATIVE, 45) + RELOC_NUMBER (R_METAG_GLOB_DAT, 46) + + /* TLS relocations */ + RELOC_NUMBER (R_METAG_TLS_GD, 47) + RELOC_NUMBER (R_METAG_TLS_LDM, 48) + RELOC_NUMBER (R_METAG_TLS_LDO_HI16, 49) + RELOC_NUMBER (R_METAG_TLS_LDO_LO16, 50) + RELOC_NUMBER (R_METAG_TLS_LDO, 51) + RELOC_NUMBER (R_METAG_TLS_IE, 52) + RELOC_NUMBER (R_METAG_TLS_IENONPIC, 53) + RELOC_NUMBER (R_METAG_TLS_IENONPIC_HI16,54) + RELOC_NUMBER (R_METAG_TLS_IENONPIC_LO16,55) + RELOC_NUMBER (R_METAG_TLS_TPOFF, 56) + RELOC_NUMBER (R_METAG_TLS_DTPMOD, 57) + RELOC_NUMBER (R_METAG_TLS_DTPOFF, 58) + RELOC_NUMBER (R_METAG_TLS_LE, 59) + RELOC_NUMBER (R_METAG_TLS_LE_HI16, 60) + RELOC_NUMBER (R_METAG_TLS_LE_LO16, 61) + +END_RELOC_NUMBERS (R_METAG_MAX) + +#endif /* _ELF_METAG_H */ diff --git a/include/opcode/ChangeLog b/include/opcode/ChangeLog index 64c931a..c315603 100644 --- a/include/opcode/ChangeLog +++ b/include/opcode/ChangeLog @@ -1,3 +1,7 @@ +2013-01-10 Will Newton <will.newton@imgtec.com> + + * metag.h: New file. + 2013-01-07 Kaushik Phatak <kaushik.phatak@kpitcummins.com> * cr16.h (make_instruction): Rename to cr16_make_instruction. diff --git a/include/opcode/metag.h b/include/opcode/metag.h new file mode 100644 index 0000000..c9bb668 --- /dev/null +++ b/include/opcode/metag.h @@ -0,0 +1,2079 @@ +/* Imagination Technologies Meta opcode table. + Copyright (C) 2013 Free Software Foundation, Inc. + Contributed by Imagination Technologies Ltd. + + This file is part of GDB and GAS. + + GDB and GAS are free software; you can redistribute it and/or + modify it under the terms of the GNU General Public License as + published by the Free Software Foundation; either version 3, or (at + your option) any later version. + + GDB and GAS are distributed in the hope that it will be useful, but + WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + General Public License for more details. + + You should have received a copy of the GNU General Public License + along with GDB or GAS; see the file COPYING3. If not, write to the + Free Software Foundation, 51 Franklin Street - Fifth Floor, Boston, + MA 02110-1301, USA. */ + +enum metag_unit +{ + UNIT_CT, + UNIT_D0, + UNIT_D1, + UNIT_A0, + UNIT_A1, + UNIT_PC, + UNIT_RD, + UNIT_TR, + UNIT_TT, + UNIT_FX, + UNIT_DT, /* DSP Template Table */ + UNIT_ACC_D0, + UNIT_ACC_D1, + UNIT_RAM_D0, + UNIT_RAM_D1, +}; + +typedef struct +{ + const char * name; + enum metag_unit unit; + unsigned int no; +} metag_reg; + +static const metag_reg metag_regtab[] = + { + { "TXENABLE", UNIT_CT, 0 }, + { "CT.0", UNIT_CT, 0 }, + { "TXMODE", UNIT_CT, 1 }, + { "CT.1", UNIT_CT, 1 }, + { "TXSTATUS", UNIT_CT, 2 }, + { "CT.2", UNIT_CT, 2 }, + { "TXRPT", UNIT_CT, 3 }, + { "CT.3", UNIT_CT, 3 }, + { "TXTIMER", UNIT_CT, 4 }, + { "CT.4", UNIT_CT, 4 }, + { "TXL1START", UNIT_CT, 5 }, + { "CT.5", UNIT_CT, 5 }, + { "TXL1END", UNIT_CT, 6 }, + { "CT.6", UNIT_CT, 6 }, + { "TXL1COUNT", UNIT_CT, 7 }, + { "CT.7", UNIT_CT, 7 }, + { "TXL2START", UNIT_CT, 8 }, + { "CT.8", UNIT_CT, 8 }, + { "TXL2END", UNIT_CT, 9 }, + { "CT.9", UNIT_CT, 9 }, + { "TXL2COUNT", UNIT_CT, 10 }, + { "CT.10", UNIT_CT, 10 }, + { "TXBPOBITS", UNIT_CT, 11 }, + { "CT.11", UNIT_CT, 11 }, + { "TXMRSIZE", UNIT_CT, 12 }, + { "CT.12", UNIT_CT, 12 }, + { "TXTIMERI", UNIT_CT, 13 }, + { "CT.13", UNIT_CT, 13 }, + { "TXDRCTRL", UNIT_CT, 14 }, + { "CT.14", UNIT_CT, 14 }, + { "TXDRSIZE", UNIT_CT, 15 }, + { "CT.15", UNIT_CT, 15 }, + { "TXCATCH0", UNIT_CT, 16 }, + { "CT.16", UNIT_CT, 16 }, + { "TXCATCH1", UNIT_CT, 17 }, + { "CT.17", UNIT_CT, 17 }, + { "TXCATCH2", UNIT_CT, 18 }, + { "CT.18", UNIT_CT, 18 }, + { "TXCATCH3", UNIT_CT, 19 }, + { "CT.19", UNIT_CT, 19 }, + { "TXDEFR", UNIT_CT, 20 }, + { "CT.20", UNIT_CT, 20 }, + { "TXCPRS", UNIT_CT, 21 }, + { "CT.21", UNIT_CT, 21 }, + { "TXCLKCTRL", UNIT_CT, 22 }, + { "CT.22", UNIT_CT, 22 }, + { "TXINTERN0", UNIT_CT, 23 }, + { "TXSTATE", UNIT_CT, 23 }, + { "CT.23", UNIT_CT, 23 }, + { "TXAMAREG0", UNIT_CT, 24 }, + { "CT.24", UNIT_CT, 24 }, + { "TXAMAREG1", UNIT_CT, 25 }, + { "CT.25", UNIT_CT, 25 }, + { "TXAMAREG2", UNIT_CT, 26 }, + { "CT.26", UNIT_CT, 26 }, + { "TXAMAREG3", UNIT_CT, 27 }, + { "CT.27", UNIT_CT, 27 }, + { "TXDIVTIME", UNIT_CT, 28 }, + { "CT.28", UNIT_CT, 28 }, + { "TXPRIVEXT", UNIT_CT, 29 }, + { "CT.29", UNIT_CT, 29 }, + { "TXTACTCYC", UNIT_CT, 30 }, + { "TXACTCYC", UNIT_CT, 30 }, + { "CT.30", UNIT_CT, 30 }, + { "TXIDLECYC", UNIT_CT, 31 }, + { "CT.31", UNIT_CT, 31 }, + + { "D0Re0", UNIT_D0, 0 }, + { "D0.0", UNIT_D0, 0 }, + { "D0Ar6", UNIT_D0, 1 }, + { "D0.1", UNIT_D0, 1 }, + { "D0Ar4", UNIT_D0, 2 }, + { "D0.2", UNIT_D0, 2 }, + { "D0Ar2", UNIT_D0, 3 }, + { "D0.3", UNIT_D0, 3 }, + { "D0FrT", UNIT_D0, 4 }, + { "D0.4", UNIT_D0, 4 }, + { "D0.5", UNIT_D0, 5 }, + { "D0.6", UNIT_D0, 6 }, + { "D0.7", UNIT_D0, 7 }, + { "D0.8", UNIT_D0, 8 }, + { "D0.9", UNIT_D0, 9 }, + { "D0.10", UNIT_D0, 10 }, + { "D0.11", UNIT_D0, 11 }, + { "D0.12", UNIT_D0, 12 }, + { "D0.13", UNIT_D0, 13 }, + { "D0.14", UNIT_D0, 14 }, + { "D0.15", UNIT_D0, 15 }, + { "D0.16", UNIT_D0, 16 }, + { "D0.17", UNIT_D0, 17 }, + { "D0.18", UNIT_D0, 18 }, + { "D0.19", UNIT_D0, 19 }, + { "D0.20", UNIT_D0, 20 }, + { "D0.21", UNIT_D0, 21 }, + { "D0.22", UNIT_D0, 22 }, + { "D0.23", UNIT_D0, 23 }, + { "D0.24", UNIT_D0, 24 }, + { "D0.25", UNIT_D0, 25 }, + { "D0.26", UNIT_D0, 26 }, + { "D0.27", UNIT_D0, 27 }, + { "D0.28", UNIT_D0, 28 }, + { "D0.29", UNIT_D0, 29 }, + { "D0.30", UNIT_D0, 30 }, + { "D0.31", UNIT_D0, 31 }, + + { "D1Re0", UNIT_D1, 0 }, + { "D1.0", UNIT_D1, 0 }, + { "D1Ar5", UNIT_D1, 1 }, + { "D1.1", UNIT_D1, 1 }, + { "D1Ar3", UNIT_D1, 2 }, + { "D1.2", UNIT_D1, 2 }, + { "D1Ar1", UNIT_D1, 3 }, + { "D1.3", UNIT_D1, 3 }, + { "D1RtP", UNIT_D1, 4 }, + { "D1.4", UNIT_D1, 4 }, + { "D1.5", UNIT_D1, 5 }, + { "D1.6", UNIT_D1, 6 }, + { "D1.7", UNIT_D1, 7 }, + { "D1.8", UNIT_D1, 8 }, + { "D1.9", UNIT_D1, 9 }, + { "D1.10", UNIT_D1, 10 }, + { "D1.11", UNIT_D1, 11 }, + { "D1.12", UNIT_D1, 12 }, + { "D1.13", UNIT_D1, 13 }, + { "D1.14", UNIT_D1, 14 }, + { "D1.15", UNIT_D1, 15 }, + { "D1.16", UNIT_D1, 16 }, + { "D1.17", UNIT_D1, 17 }, + { "D1.18", UNIT_D1, 18 }, + { "D1.19", UNIT_D1, 19 }, + { "D1.20", UNIT_D1, 20 }, + { "D1.21", UNIT_D1, 21 }, + { "D1.22", UNIT_D1, 22 }, + { "D1.23", UNIT_D1, 23 }, + { "D1.24", UNIT_D1, 24 }, + { "D1.25", UNIT_D1, 25 }, + { "D1.26", UNIT_D1, 26 }, + { "D1.27", UNIT_D1, 27 }, + { "D1.28", UNIT_D1, 28 }, + { "D1.29", UNIT_D1, 29 }, + { "D1.30", UNIT_D1, 30 }, + { "D1.31", UNIT_D1, 31 }, + + { "A0StP", UNIT_A0, 0 }, + { "A0.0", UNIT_A0, 0 }, + { "A0FrP", UNIT_A0, 1 }, + { "A0.1", UNIT_A0, 1 }, + { "A0.2", UNIT_A0, 2 }, + { "A0.3", UNIT_A0, 3 }, + { "A0.4", UNIT_A0, 4 }, + { "A0.5", UNIT_A0, 5 }, + { "A0.6", UNIT_A0, 6 }, + { "A0.7", UNIT_A0, 7 }, + { "A0.8", UNIT_A0, 8 }, + { "A0.9", UNIT_A0, 9 }, + { "A0.10", UNIT_A0, 10 }, + { "A0.11", UNIT_A0, 11 }, + { "A0.12", UNIT_A0, 12 }, + { "A0.13", UNIT_A0, 13 }, + { "A0.14", UNIT_A0, 14 }, + { "A0.15", UNIT_A0, 15 }, + { "CPC0", UNIT_A0, 16 }, + + { "A1GbP", UNIT_A1, 0 }, + { "A1.0", UNIT_A1, 0 }, + { "A1LbP", UNIT_A1, 1 }, + { "A1.1", UNIT_A1, 1 }, + { "A1.2", UNIT_A1, 2 }, + { "A1.3", UNIT_A1, 3 }, + { "A1.4", UNIT_A1, 4 }, + { "A1.5", UNIT_A1, 5 }, + { "A1.6", UNIT_A1, 6 }, + { "A1.7", UNIT_A1, 7 }, + { "A1.8", UNIT_A1, 8 }, + { "A1.9", UNIT_A1, 9 }, + { "A1.10", UNIT_A1, 10 }, + { "A1.11", UNIT_A1, 11 }, + { "A1.12", UNIT_A1, 12 }, + { "A1.13", UNIT_A1, 13 }, + { "A1.14", UNIT_A1, 14 }, + { "A1.15", UNIT_A1, 15 }, + { "CPC1", UNIT_A1, 16 }, + + { "PC", UNIT_PC, 0 }, + { "PCX", UNIT_PC, 1 }, + + { "RD", UNIT_RD, 0 }, + { "RA", UNIT_RD, 16 }, + { "RD", UNIT_RD, 16 }, + { "RAPF", UNIT_RD, 17 }, + { "RAM8X32", UNIT_RD, 22 }, + { "RAM8X", UNIT_RD, 23 }, + { "RABZ", UNIT_RD, 24 }, + { "RAWZ", UNIT_RD, 25 }, + { "RADZ", UNIT_RD, 26 }, + { "RABX", UNIT_RD, 28 }, + { "RAWX", UNIT_RD, 29 }, + { "RADX", UNIT_RD, 30 }, + { "RAMX", UNIT_RD, 31 }, + { "RAM16X", UNIT_RD, 31 }, + + { "TXSTAT", UNIT_TR, 0 }, + { "TR.0", UNIT_TR, 0 }, + { "TXMASK", UNIT_TR, 1 }, + { "TR.1", UNIT_TR, 1 }, + { "TXSTATI", UNIT_TR, 2 }, + { "TR.2", UNIT_TR, 2 }, + { "TXMASKI", UNIT_TR, 3 }, + { "TR.3", UNIT_TR, 3 }, + { "TXPOLL", UNIT_TR, 4 }, + { "TR.4", UNIT_TR, 4 }, + { "TXGPIOI", UNIT_TR, 5 }, + { "TR.5", UNIT_TR, 5 }, + { "TXPOLLI", UNIT_TR, 6 }, + { "TR.6", UNIT_TR, 6 }, + { "TXGPIOO", UNIT_TR, 7 }, + { "TR.7", UNIT_TR, 7 }, + + { "TTEXEC", UNIT_TT, 0 }, + { "TT.0", UNIT_TT, 0 }, + { "TTCTRL", UNIT_TT, 1 }, + { "TT.1", UNIT_TT, 1 }, + { "TTMARK", UNIT_TT, 2 }, + { "TT.2", UNIT_TT, 2 }, + { "TTREC", UNIT_TT, 3 }, + { "TT.3", UNIT_TT, 3 }, + { "GTEXEC", UNIT_TT, 4 }, + { "TT.4", UNIT_TT, 4 }, + + { "FX.0", UNIT_FX, 0 }, + { "FX.1", UNIT_FX, 1 }, + { "FX.2", UNIT_FX, 2 }, + { "FX.3", UNIT_FX, 3 }, + { "FX.4", UNIT_FX, 4 }, + { "FX.5", UNIT_FX, 5 }, + { "FX.6", UNIT_FX, 6 }, + { "FX.7", UNIT_FX, 7 }, + { "FX.8", UNIT_FX, 8 }, + { "FX.9", UNIT_FX, 9 }, + { "FX.10", UNIT_FX, 10 }, + { "FX.11", UNIT_FX, 11 }, + { "FX.12", UNIT_FX, 12 }, + { "FX.13", UNIT_FX, 13 }, + { "FX.14", UNIT_FX, 14 }, + { "FX.15", UNIT_FX, 15 }, + }; + +static const metag_reg metag_dsp_regtab[] = + { + { "D0AR.0", UNIT_RAM_D0, 0 }, + { "D0AR.1", UNIT_RAM_D0, 1 }, + { "D0AW.0", UNIT_RAM_D0, 2 }, + { "D0AW.1", UNIT_RAM_D0, 3 }, + { "D0BR.0", UNIT_RAM_D0, 4 }, + { "D0BR.1", UNIT_RAM_D0, 5 }, + { "D0BW.0", UNIT_RAM_D0, 6 }, + { "D0BW.1", UNIT_RAM_D0, 7 }, + { "D0ARI.0", UNIT_RAM_D0, 8 }, + { "D0ARI.1", UNIT_RAM_D0, 9 }, + { "D0AWI.0", UNIT_RAM_D0, 10 }, + { "D0AWI.1", UNIT_RAM_D0, 11 }, + { "D0BRI.0", UNIT_RAM_D0, 12 }, + { "D0BRI.1", UNIT_RAM_D0, 13 }, + { "D0BWI.0", UNIT_RAM_D0, 14 }, + { "D0BWI.1", UNIT_RAM_D0, 15 }, + + { "AC0.0", UNIT_ACC_D0, 16 }, + { "AC0.1", UNIT_ACC_D0, 17 }, + { "AC0.2", UNIT_ACC_D0, 18 }, + { "AC0.3", UNIT_ACC_D0, 19 }, + + { "D1AR.0", UNIT_RAM_D1, 0 }, + { "D1AR.1", UNIT_RAM_D1, 1 }, + { "D1AW.0", UNIT_RAM_D1, 2 }, + { "D1AW.1", UNIT_RAM_D1, 3 }, + { "D1BR.0", UNIT_RAM_D1, 4 }, + { "D1BR.1", UNIT_RAM_D1, 5 }, + { "D1BW.0", UNIT_RAM_D1, 6 }, + { "D1BW.1", UNIT_RAM_D1, 7 }, + { "D1ARI.0", UNIT_RAM_D1, 8 }, + { "D1ARI.1", UNIT_RAM_D1, 9 }, + { "D1AWI.0", UNIT_RAM_D1, 10 }, + { "D1AWI.1", UNIT_RAM_D1, 11 }, + { "D1BRI.0", UNIT_RAM_D1, 12 }, + { "D1BRI.1", UNIT_RAM_D1, 13 }, + { "D1BWI.0", UNIT_RAM_D1, 14 }, + { "D1BWI.1", UNIT_RAM_D1, 15 }, + + { "AC1.0", UNIT_ACC_D1, 16 }, + { "AC1.1", UNIT_ACC_D1, 17 }, + { "AC1.2", UNIT_ACC_D1, 18 }, + { "AC1.3", UNIT_ACC_D1, 19 }, + + { "T0", UNIT_DT, 0 }, + { "T1", UNIT_DT, 1 }, + { "T2", UNIT_DT, 2 }, + { "T3", UNIT_DT, 3 }, + { "T4", UNIT_DT, 4 }, + { "T5", UNIT_DT, 5 }, + { "T6", UNIT_DT, 6 }, + { "T7", UNIT_DT, 7 }, + { "T8", UNIT_DT, 8 }, + { "T9", UNIT_DT, 9 }, + { "TA", UNIT_DT, 10 }, + { "TB", UNIT_DT, 11 }, + { "TC", UNIT_DT, 12 }, + { "TD", UNIT_DT, 13 }, + { "TE", UNIT_DT, 14 }, + { "TF", UNIT_DT, 15 }, + }; + +/* This table differs from 'metag_dsp_regtab' in that the number + fields in this table are suitable for insertion into DSPRAM + template definition instruction encodings. + + The table is indexed by "load". The main benefit of this is that we + can implicitly check that the correct DSPRAM register has been used + when parsing, e.g. the read pointer only appears in the load table + and the write pointer only exists in the store table. + + The ordering of the table entries might look a bit weird but it is + based on matching the longest register string. */ +static const metag_reg metag_dsp_tmpl_regtab[2][56] = + { + { + { "D0AW.0+D0AWI.0++", UNIT_RAM_D0, 18 }, + { "D0AW.0+D0AWI.0", UNIT_RAM_D0, 18 }, + { "D0AW.0+D0AWI.1++", UNIT_RAM_D0, 19 }, + { "D0AW.0+D0AWI.1", UNIT_RAM_D0, 19 }, + { "D0AW.0++", UNIT_RAM_D0, 17 }, + { "D0AW.0", UNIT_RAM_D0, 16 }, + { "D0AWI.0", UNIT_RAM_D0, 18 }, + { "D0AWI.1", UNIT_RAM_D0, 19 }, + { "D0AW.1+D0AWI.0++", UNIT_RAM_D0, 22 }, + { "D0AW.1+D0AWI.0", UNIT_RAM_D0, 22 }, + { "D0AW.1+D0AWI.1++", UNIT_RAM_D0, 23 }, + { "D0AW.1+D0AWI.1", UNIT_RAM_D0, 23 }, + { "D0AW.1++", UNIT_RAM_D0, 21 }, + { "D0AW.1", UNIT_RAM_D0, 20 }, + { "D0BW.0+D0BWI.0++", UNIT_RAM_D0, 26 }, + { "D0BW.0+D0BWI.0", UNIT_RAM_D0, 26 }, + { "D0BW.0+D0BWI.1++", UNIT_RAM_D0, 27 }, + { "D0BW.0+D0BWI.1", UNIT_RAM_D0, 27 }, + { "D0BW.0++", UNIT_RAM_D0, 25 }, + { "D0BW.0", UNIT_RAM_D0, 24 }, + { "D0BWI.0", UNIT_RAM_D0, 18 }, + { "D0BWI.1", UNIT_RAM_D0, 19 }, + { "D0BW.1+D0BWI.0++", UNIT_RAM_D0, 30 }, + { "D0BW.1+D0BWI.0", UNIT_RAM_D0, 30 }, + { "D0BW.1+D0BWI.1++", UNIT_RAM_D0, 31 }, + { "D0BW.1+D0BWI.1", UNIT_RAM_D0, 31 }, + { "D0BW.1++", UNIT_RAM_D0, 29 }, + { "D0BW.1", UNIT_RAM_D0, 28 }, + + { "D1AW.0+D1AWI.0++", UNIT_RAM_D1, 18 }, + { "D1AW.0+D1AWI.0", UNIT_RAM_D1, 18 }, + { "D1AW.0+D1AWI.1++", UNIT_RAM_D1, 19 }, + { "D1AW.0+D1AWI.1", UNIT_RAM_D1, 19 }, + { "D1AW.0++", UNIT_RAM_D1, 17 }, + { "D1AW.0", UNIT_RAM_D1, 16 }, + { "D1AWI.0", UNIT_RAM_D1, 18 }, + { "D1AWI.1", UNIT_RAM_D1, 19 }, + { "D1AW.1+D1AWI.0++", UNIT_RAM_D1, 22 }, + { "D1AW.1+D1AWI.0", UNIT_RAM_D1, 22 }, + { "D1AW.1+D1AWI.1++", UNIT_RAM_D1, 23 }, + { "D1AW.1+D1AWI.1", UNIT_RAM_D1, 23 }, + { "D1AW.1++", UNIT_RAM_D1, 21 }, + { "D1AW.1", UNIT_RAM_D1, 20 }, + { "D1BW.0+D1BWI.0++", UNIT_RAM_D1, 26 }, + { "D1BW.0+D1BWI.0", UNIT_RAM_D1, 26 }, + { "D1BW.0+D1BWI.1++", UNIT_RAM_D1, 27 }, + { "D1BW.0+D1BWI.1", UNIT_RAM_D1, 27 }, + { "D1BW.0++", UNIT_RAM_D1, 25 }, + { "D1BW.0", UNIT_RAM_D1, 24 }, + { "D1BWI.0", UNIT_RAM_D1, 18 }, + { "D1BWI.1", UNIT_RAM_D1, 19 }, + { "D1BW.1+D1BWI.0++", UNIT_RAM_D1, 30 }, + { "D1BW.1+D1BWI.0", UNIT_RAM_D1, 30 }, + { "D1BW.1+D1BWI.1++", UNIT_RAM_D1, 31 }, + { "D1BW.1+D1BWI.1", UNIT_RAM_D1, 31 }, + { "D1BW.1++", UNIT_RAM_D1, 29 }, + { "D1BW.1", UNIT_RAM_D1, 28 }, + }, + + { + { "D0AR.0+D0ARI.0++", UNIT_RAM_D0, 18 }, + { "D0AR.0+D0ARI.0", UNIT_RAM_D0, 18 }, + { "D0AR.0+D0ARI.1++", UNIT_RAM_D0, 19 }, + { "D0AR.0+D0ARI.1", UNIT_RAM_D0, 19 }, + { "D0AR.0++", UNIT_RAM_D0, 17 }, + { "D0AR.0", UNIT_RAM_D0, 16 }, + { "D0ARI.0", UNIT_RAM_D0, 18 }, + { "D0ARI.1", UNIT_RAM_D0, 19 }, + { "D0AR.1+D0ARI.0++", UNIT_RAM_D0, 22 }, + { "D0AR.1+D0ARI.0", UNIT_RAM_D0, 22 }, + { "D0AR.1+D0ARI.1++", UNIT_RAM_D0, 23 }, + { "D0AR.1+D0ARI.1", UNIT_RAM_D0, 23 }, + { "D0AR.1++", UNIT_RAM_D0, 21 }, + { "D0AR.1", UNIT_RAM_D0, 20 }, + { "D0BR.0+D0BRI.0++", UNIT_RAM_D0, 26 }, + { "D0BR.0+D0BRI.0", UNIT_RAM_D0, 26 }, + { "D0BR.0+D0BRI.1++", UNIT_RAM_D0, 27 }, + { "D0BR.0+D0BRI.1", UNIT_RAM_D0, 27 }, + { "D0BR.0++", UNIT_RAM_D0, 25 }, + { "D0BR.0", UNIT_RAM_D0, 24 }, + { "D0BRI.0", UNIT_RAM_D0, 18 }, + { "D0BRI.1", UNIT_RAM_D0, 19 }, + { "D0BR.1+D0BRI.0++", UNIT_RAM_D0, 30 }, + { "D0BR.1+D0BRI.0", UNIT_RAM_D0, 30 }, + { "D0BR.1+D0BRI.1++", UNIT_RAM_D0, 31 }, + { "D0BR.1+D0BRI.1", UNIT_RAM_D0, 31 }, + { "D0BR.1++", UNIT_RAM_D0, 29 }, + { "D0BR.1", UNIT_RAM_D0, 28 }, + + { "D1AR.0+D1ARI.0++", UNIT_RAM_D1, 18 }, + { "D1AR.0+D1ARI.0", UNIT_RAM_D1, 18 }, + { "D1AR.0+D1ARI.1++", UNIT_RAM_D1, 19 }, + { "D1AR.0+D1ARI.1", UNIT_RAM_D1, 19 }, + { "D1AR.0++", UNIT_RAM_D1, 17 }, + { "D1AR.0", UNIT_RAM_D1, 16 }, + { "D1ARI.0", UNIT_RAM_D1, 18 }, + { "D1ARI.1", UNIT_RAM_D1, 19 }, + { "D1AR.1+D1ARI.0++", UNIT_RAM_D1, 22 }, + { "D1AR.1+D1ARI.0", UNIT_RAM_D1, 22 }, + { "D1AR.1+D1ARI.1++", UNIT_RAM_D1, 23 }, + { "D1AR.1+D1ARI.1", UNIT_RAM_D1, 23 }, + { "D1AR.1++", UNIT_RAM_D1, 21 }, + { "D1AR.1", UNIT_RAM_D1, 20 }, + { "D1BR.0+D1BRI.0++", UNIT_RAM_D1, 26 }, + { "D1BR.0+D1BRI.0", UNIT_RAM_D1, 26 }, + { "D1BR.0+D1BRI.1++", UNIT_RAM_D1, 27 }, + { "D1BR.0+D1BRI.1", UNIT_RAM_D1, 27 }, + { "D1BR.0++", UNIT_RAM_D1, 25 }, + { "D1BR.0", UNIT_RAM_D1, 24 }, + { "D1BR.1+D1BRI.0++", UNIT_RAM_D1, 30 }, + { "D1BR.1+D1BRI.0", UNIT_RAM_D1, 30 }, + { "D1BR.1+D1BRI.1++", UNIT_RAM_D1, 31 }, + { "D1BR.1+D1BRI.1", UNIT_RAM_D1, 31 }, + { "D1BR.1++", UNIT_RAM_D1, 29 }, + { "D1BR.1", UNIT_RAM_D1, 28 }, + { "D1BRI.0", UNIT_RAM_D1, 18 }, + { "D1BRI.1", UNIT_RAM_D1, 19 }, + }, + }; + +typedef struct +{ + const char * name; + unsigned int part; +} metag_acf; + +static const metag_acf metag_acftab[] = + { + { "ACF.0", 0}, + { "ACF.1", 1}, + { "ACF.2", 2}, + { "ACF.3", 3}, + }; + +enum insn_encoding +{ + ENC_NONE, + ENC_MOV_U2U, + ENC_MOV_PORT, + ENC_MMOV, + ENC_MDRD, + ENC_MOVL_TTREC, + ENC_GET_SET, + ENC_GET_SET_EXT, + ENC_MGET_MSET, + ENC_COND_SET, + ENC_XFR, + ENC_MOV_CT, + ENC_SWAP, + ENC_JUMP, + ENC_CALLR, + ENC_ALU, + ENC_SHIFT, + ENC_MIN_MAX, + ENC_BITOP, + ENC_CMP, + ENC_BRANCH, + ENC_KICK, + ENC_SWITCH, + ENC_CACHER, + ENC_CACHEW, + ENC_ICACHE, + ENC_LNKGET, + ENC_FMOV, + ENC_FMMOV, + ENC_FMOV_DATA, + ENC_FMOV_I, + ENC_FPACK, + ENC_FSWAP, + ENC_FCMP, + ENC_FMINMAX, + ENC_FCONV, + ENC_FCONVX, + ENC_FBARITH, + ENC_FEARITH, + ENC_FREC, + ENC_FSIMD, + ENC_FGET_SET_ACF, + ENC_DGET_SET, + ENC_DTEMPLATE, + ENC_DALU, + ENC_MAX, +}; + +enum insn_type +{ + INSN_GP, + INSN_FPU, + INSN_DSP, + INSN_DSP_FPU, +}; + +typedef struct +{ + const char *name; + + unsigned int core_flags; +#define CoreMeta11 0x1 /* The earliest Meta core we support */ +#define CoreMeta12 0x2 +#define CoreMeta21 0x4 + +#define FpuMeta21 0x21 + +#define DspMeta21 0x100 + + unsigned int meta_opcode; + unsigned int meta_mask; + + enum insn_type insn_type; + + enum insn_encoding encoding; + +#define DSP_ARGS_1 0x0000001 /* De.r,Dx.r,De.r (3 register operands) */ +#define DSP_ARGS_ACC2 0x0000002 /* Accumulator source operand 2 */ +#define DSP_ARGS_QR 0x0000004 /* QUICKRoT */ +#define DSP_ARGS_XACC 0x0000008 /* Cross-unit accumulator op */ +#define DSP_ARGS_DACC 0x0000010 /* Target accumulator as destination */ +#define DSP_ARGS_SRD 0x0000020 /* Source the RD port */ +#define DSP_ARGS_2 0x0000040 /* De.r,Dx.r (2 register operands) */ +#define DSP_ARGS_DSP_SRC1 0x0000080 /* Source a DSP register */ +#define DSP_ARGS_DSP_SRC2 0x0000100 /* Source a DSP register */ +#define DSP_ARGS_IMM 0x0000200 /* Immediate value for src 2 */ +#define DSP_ARGS_SPLIT8 0x0000400 /* Data unit split 8 operations */ +#define DSP_ARGS_12 0x0000800 /* De.r,Dx.r */ +#define DSP_ARGS_13 0x0001000 /* Dx.r,Rx.r */ +#define DSP_ARGS_14 0x0002000 /* DSPe.r,Dx.r */ +#define DSP_ARGS_15 0x0004000 /* DSPx.r,#I16 */ +#define DSP_ARGS_16 0x0008000 /* De.r,DSPx.r */ +#define DSP_ARGS_17 0x0010000 /* De.r|ACe.r,Dx.r,Rx.r|RD */ +#define DSP_ARGS_18 0x0020000 /* De.r,Dx.r|ACx.r */ +#define DSP_ARGS_20 0x0080000 /* De.r,Dx.r|ACx.r,De.r */ +#define DSP_ARGS_21 0x0100000 /* De.r,Dx.r|ACx.r,#I5 */ +#define DSP_ARGS_22 0x0200000 /* De.r,Dx.r|ACx.r,De.r|#I5 */ +#define DSP_ARGS_23 0x0400000 /* Ux.r,Dx.r|ACx.r,De.r|#I5 */ +#define GP_ARGS_QR 0x0000001 /* QUICKRoT */ + unsigned int arg_type; +} insn_template; + +enum major_opcode +{ + OPC_ADD, + OPC_SUB, + OPC_AND, + OPC_OR, + OPC_XOR, + OPC_SHIFT, + OPC_MUL, + OPC_CMP, + OPC_ADDR, + OPC_9, + OPC_MISC, + OPC_SET, + OPC_GET, + OPC_XFR, + OPC_CPR, + OPC_FPU, +}; + +#define GET_EXT_MINOR 0x7 +#define MOV_EXT_MINOR 0x6 +#define MOVL_MINOR 0x2 + +#define MAJOR_OPCODE(opcode) (((opcode) >> 28) & 0xf) +#define MINOR_OPCODE(opcode) (((opcode) >> 24) & 0xf) + +enum cond_code +{ + COND_A, + COND_EQ, + COND_NE, + COND_CS, + COND_CC, + COND_MI, + COND_PL, + COND_VS, + COND_VC, + COND_HI, + COND_LS, + COND_GE, + COND_LT, + COND_GT, + COND_LE, + COND_NV, +}; + +enum scond_code +{ + SCOND_A, + SCOND_LEQ, + SCOND_LNE, + SCOND_LLO, + SCOND_LHS, + SCOND_HEQ, + SCOND_HNE, + SCOND_HLO, + SCOND_HHS, + SCOND_LGR, + SCOND_LLE, + SCOND_HGR, + SCOND_HLE, + SCOND_EEQ, + SCOND_ELO, + SCOND_NV, +}; + +typedef struct +{ + const char *name; + enum scond_code code; +} split_condition; + +static const split_condition metag_scondtab[] = + { + { "LEQ", SCOND_LEQ }, + { "LEZ", SCOND_LEQ }, + { "LNE", SCOND_LNE }, + { "LNZ", SCOND_LNE }, + { "LLO", SCOND_LLO }, + { "LCS", SCOND_LLO }, + { "LHS", SCOND_LHS }, + { "LCC", SCOND_LHS }, + { "HEQ", SCOND_HEQ }, + { "HEZ", SCOND_HEQ }, + { "HNE", SCOND_HNE }, + { "HNZ", SCOND_HNE }, + { "HLO", SCOND_HLO }, + { "HCS", SCOND_HLO }, + { "HHS", SCOND_HHS }, + { "HCC", SCOND_HHS }, + { "LGR", SCOND_LGR }, + { "LHI", SCOND_LGR }, + { "LLE", SCOND_LLE }, + { "LLS", SCOND_LLE }, + { "HGR", SCOND_HGR }, + { "HHI", SCOND_HGR }, + { "HLE", SCOND_HLE }, + { "HLS", SCOND_HLE }, + { "EEQ", SCOND_EEQ }, + { "EEZ", SCOND_EEQ }, + { "ELO", SCOND_ELO }, + { "ECS", SCOND_ELO }, + }; + +static const split_condition metag_dsp_scondtab[] = + { + { "LEQ", SCOND_LEQ }, + { "LEZ", SCOND_LEQ }, + { "LNE", SCOND_LNE }, + { "LNZ", SCOND_LNE }, + { "LCS", SCOND_LLO }, + { "LLO", SCOND_LLO }, + { "LCC", SCOND_LHS }, + { "LHS", SCOND_LHS }, + { "HEQ", SCOND_HEQ }, + { "HEZ", SCOND_HEQ }, + { "HNE", SCOND_HNE }, + { "HNZ", SCOND_HNE }, + { "HCS", SCOND_HLO }, + { "HLO", SCOND_HLO }, + { "HCC", SCOND_HHS }, + { "HHS", SCOND_HHS }, + { "LHI", SCOND_LGR }, + { "LGR", SCOND_LGR }, + { "LLS", SCOND_LLE }, + { "LLE", SCOND_LLE }, + { "HHI", SCOND_HGR }, + { "HGR", SCOND_HGR }, + { "HLS", SCOND_HLE }, + { "HLE", SCOND_HLE }, + { "EEQ", SCOND_EEQ }, + { "EEZ", SCOND_EEQ }, + { "ECS", SCOND_ELO }, + { "ELO", SCOND_ELO }, + }; + +static const split_condition metag_fpu_scondtab[] = + { + { "LEQ", SCOND_LEQ }, + { "LEZ", SCOND_LEQ }, + { "LNE", SCOND_LNE }, + { "LNZ", SCOND_LNE }, + { "LLO", SCOND_LLO }, + { "LCS", SCOND_LLO }, + { "LHS", SCOND_LHS }, + { "LCC", SCOND_LHS }, + { "HEQ", SCOND_HEQ }, + { "HEZ", SCOND_HEQ }, + { "HNE", SCOND_HNE }, + { "HNZ", SCOND_HNE }, + { "HLO", SCOND_HLO }, + { "HCS", SCOND_HLO }, + { "HHS", SCOND_HHS }, + { "HCC", SCOND_HHS }, + { "LGR", SCOND_LGR }, + { "LHI", SCOND_LGR }, + { "LLE", SCOND_LLE }, + { "LLS", SCOND_LLE }, + { "HGR", SCOND_HGR }, + { "HHI", SCOND_HGR }, + { "HLE", SCOND_HLE }, + { "HLS", SCOND_HLE }, + { "EEQ", SCOND_EEQ }, + { "EEZ", SCOND_EEQ }, + { "ELO", SCOND_ELO }, + { "ECS", SCOND_ELO }, + }; + +enum fcond_code +{ + FCOND_A, + FCOND_FEQ, + FCOND_UNE, + FCOND_FLT, + FCOND_UGE, + + FCOND_UVS = 7, + FCOND_FVC, + FCOND_UGT, + FCOND_FLE, + FCOND_FGE, + FCOND_ULT, + FCOND_FGT, + FCOND_ULE, + FCOND_NV, +}; + +#define COND_INSN(mnemonic, suffix, field_shift, flags, meta_opcode, \ + meta_mask, insn_type, encoding, args) \ + { mnemonic suffix, flags, meta_opcode, meta_mask, \ + insn_type, encoding, args }, \ + { mnemonic "A" suffix, flags, meta_opcode, meta_mask, \ + insn_type, encoding, args }, \ + { mnemonic "EQ" suffix, flags, meta_opcode | (COND_EQ << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "Z" suffix, flags, meta_opcode | (COND_EQ << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "NE" suffix, flags, meta_opcode | (COND_NE << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "NZ" suffix, flags, meta_opcode | (COND_NE << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "CS" suffix, flags, meta_opcode | (COND_CS << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "LO" suffix, flags, meta_opcode | (COND_CS << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "CC" suffix, flags, meta_opcode | (COND_CC << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "HS" suffix, flags, meta_opcode | (COND_CC << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "MI" suffix, flags, meta_opcode | (COND_MI << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "N" suffix, flags, meta_opcode | (COND_MI << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "PL" suffix, flags, meta_opcode | (COND_PL << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "NC" suffix, flags, meta_opcode | (COND_PL << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "VS" suffix, flags, meta_opcode | (COND_VS << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "VC" suffix, flags, meta_opcode | (COND_VC << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "HI" suffix, flags, meta_opcode | (COND_HI << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "LS" suffix, flags, meta_opcode | (COND_LS << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "GE" suffix, flags, meta_opcode | (COND_GE << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "LT" suffix, flags, meta_opcode | (COND_LT << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "GT" suffix, flags, meta_opcode | (COND_GT << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "LE" suffix, flags, meta_opcode | (COND_LE << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "NV" suffix, flags, meta_opcode | (COND_NV << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "FEQ" suffix, flags, meta_opcode | \ + (FCOND_FEQ << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "FZ" suffix, flags, meta_opcode | \ + (FCOND_FEQ << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "UNE" suffix, flags, meta_opcode | \ + (FCOND_UNE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "UNZ" suffix, flags, meta_opcode | \ + (FCOND_UNE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "FLT" suffix, flags, meta_opcode | \ + (FCOND_FLT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "FLO" suffix, flags, meta_opcode | \ + (FCOND_FLT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "UGE" suffix, flags, meta_opcode | \ + (FCOND_UGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "UHS" suffix, flags, meta_opcode | \ + (FCOND_UGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "UVS" suffix, flags, meta_opcode | \ + (FCOND_UVS << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "FVC" suffix, flags, meta_opcode | \ + (FCOND_FVC << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "UGT" suffix, flags, meta_opcode | \ + (FCOND_UGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "UHI" suffix, flags, meta_opcode | \ + (FCOND_UGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "FLE" suffix, flags, meta_opcode | \ + (FCOND_FLE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "FGE" suffix, flags, meta_opcode | \ + (FCOND_FGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "FHS" suffix, flags, meta_opcode | \ + (FCOND_FGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "ULT" suffix, flags, meta_opcode | \ + (FCOND_ULT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "ULO" suffix, flags, meta_opcode | \ + (FCOND_ULT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "FGT" suffix, flags, meta_opcode | \ + (FCOND_FGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "FHI" suffix, flags, meta_opcode | \ + (FCOND_FGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "ULE" suffix, flags, meta_opcode | \ + (FCOND_ULE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "NV" suffix, flags, meta_opcode | \ + (FCOND_NV << field_shift), meta_mask, INSN_FPU, encoding, args } + +#define FCOND_INSN(mnemonic, suffix, field_shift, flags, meta_opcode, \ + meta_mask, insn_type, encoding, args) \ + { mnemonic suffix, flags, meta_opcode, meta_mask, \ + insn_type, encoding, args }, \ + { mnemonic "A" suffix, flags, meta_opcode, meta_mask, \ + insn_type, encoding, args }, \ + { mnemonic "FEQ" suffix, flags, meta_opcode | \ + (FCOND_FEQ << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "FZ" suffix, flags, meta_opcode | \ + (FCOND_FEQ << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "UNE" suffix, flags, meta_opcode | \ + (FCOND_UNE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "UNZ" suffix, flags, meta_opcode | \ + (FCOND_UNE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "FLO" suffix, flags, meta_opcode | \ + (FCOND_FLT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "FLT" suffix, flags, meta_opcode | \ + (FCOND_FLT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "UHS" suffix, flags, meta_opcode | \ + (FCOND_UGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "UGE" suffix, flags, meta_opcode | \ + (FCOND_UGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "UVS" suffix, flags, meta_opcode | \ + (FCOND_UVS << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "FVC" suffix, flags, meta_opcode | \ + (FCOND_FVC << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "UHI" suffix, flags, meta_opcode | \ + (FCOND_UGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "UGT" suffix, flags, meta_opcode | \ + (FCOND_UGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "FLE" suffix, flags, meta_opcode | \ + (FCOND_FLE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "FGE" suffix, flags, meta_opcode | \ + (FCOND_FGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "FHS" suffix, flags, meta_opcode | \ + (FCOND_FGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "ULT" suffix, flags, meta_opcode | \ + (FCOND_ULT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "ULO" suffix, flags, meta_opcode | \ + (FCOND_ULT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "FGT" suffix, flags, meta_opcode | \ + (FCOND_FGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "FHI" suffix, flags, meta_opcode | \ + (FCOND_FGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "ULE" suffix, flags, meta_opcode | \ + (FCOND_ULE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "NV" suffix, flags, meta_opcode | \ + (FCOND_NV << field_shift), meta_mask, INSN_FPU, encoding, args }, \ + { mnemonic "EQ" suffix, flags, meta_opcode | (COND_EQ << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "Z" suffix, flags, meta_opcode | (COND_EQ << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "NE" suffix, flags, meta_opcode | (COND_NE << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "NZ" suffix, flags, meta_opcode | (COND_NE << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "CS" suffix, flags, meta_opcode | (COND_CS << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "LO" suffix, flags, meta_opcode | (COND_CS << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "CC" suffix, flags, meta_opcode | (COND_CC << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "HS" suffix, flags, meta_opcode | (COND_CC << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "MI" suffix, flags, meta_opcode | (COND_MI << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "N" suffix, flags, meta_opcode | (COND_MI << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "PL" suffix, flags, meta_opcode | (COND_PL << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "NC" suffix, flags, meta_opcode | (COND_PL << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "VS" suffix, flags, meta_opcode | (COND_VS << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "VC" suffix, flags, meta_opcode | (COND_VC << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "HI" suffix, flags, meta_opcode | (COND_HI << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "LS" suffix, flags, meta_opcode | (COND_LS << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "GE" suffix, flags, meta_opcode | (COND_GE << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "LT" suffix, flags, meta_opcode | (COND_LT << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "GT" suffix, flags, meta_opcode | (COND_GT << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "LE" suffix, flags, meta_opcode | (COND_LE << field_shift), \ + meta_mask, insn_type, encoding, args }, \ + { mnemonic "NV" suffix, flags, meta_opcode | (COND_NV << field_shift), \ + meta_mask, insn_type, encoding, args } + +#define TEMPLATE_INSN(flags, meta_opcode, meta_mask, insn_type) \ + { "T0", flags, meta_opcode | 0x0, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ + { "T1", flags, meta_opcode | 0x1, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ + { "T2", flags, meta_opcode | 0x2, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ + { "T3", flags, meta_opcode | 0x3, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ + { "T4", flags, meta_opcode | 0x4, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ + { "T5", flags, meta_opcode | 0x5, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ + { "T6", flags, meta_opcode | 0x6, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ + { "T7", flags, meta_opcode | 0x7, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ + { "T8", flags, meta_opcode | 0x8, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ + { "T9", flags, meta_opcode | 0x9, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ + { "TA", flags, meta_opcode | 0xa, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ + { "TB", flags, meta_opcode | 0xb, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ + { "TC", flags, meta_opcode | 0xc, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ + { "TD", flags, meta_opcode | 0xd, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ + { "TE", flags, meta_opcode | 0xe, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ + { "TF", flags, meta_opcode | 0xf, meta_mask, insn_type, ENC_DTEMPLATE, 0 } + + +/* Unimplemented GP instructions: + CPR - coprocessor read + CPW - coprocessor write + MORT - morton order operation + VPACK, VADD, VSUB - vector instructions + + The order of the entries in this table is extremely important. DO + NOT modify it unless you know what you're doing. If you do modify + it, be sure to run the entire testsuite to make sure you haven't + caused a regression. */ + +static const insn_template metag_optab[] = + { + /* Port-to-unit MOV */ + COND_INSN ("MOVB", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0xa1800000, 0xfff83e1f, INSN_GP, ENC_MOV_PORT, 0), + COND_INSN ("MOVW", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0xa1800001, 0xfff83e1f, INSN_GP, ENC_MOV_PORT, 0), + COND_INSN ("MOVD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0xa1800200, 0xfff83e1f, INSN_GP, ENC_MOV_PORT, 0), + COND_INSN ("MOVL", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0xa2800000, 0xfff8019f, INSN_GP, ENC_MOV_PORT, 0), + + /* Read pipeline prime/drain */ + { "MMOVD", CoreMeta11|CoreMeta12|CoreMeta21, + 0xca000000, 0xff00001f, INSN_GP, ENC_MMOV, 0 }, + { "MMOVL", CoreMeta11|CoreMeta12|CoreMeta21, + 0xcb000000, 0xff00001f, INSN_GP, ENC_MMOV, 0 }, + { "MMOVD", CoreMeta11|CoreMeta12|CoreMeta21, + 0xcc000000, 0xff07c067, INSN_GP, ENC_MMOV, 0 }, + { "MMOVL", CoreMeta11|CoreMeta12|CoreMeta21, + 0xcd000000, 0xff07c067, INSN_GP, ENC_MMOV, 0 }, + + /* Read pipeline flush */ + { "MDRD", CoreMeta11|CoreMeta12|CoreMeta21, + 0xcc000002, 0xffffc07f, INSN_GP, ENC_MDRD, 0 }, + + /* Unit-to-TTREC MOVL */ + COND_INSN ("MOVL", "", 1, CoreMeta12|CoreMeta21, + 0xa2002001, 0xff003e7f, INSN_GP, ENC_MOVL_TTREC, 0), + + /* MOV to RA (extended) */ + { "MOVB", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa6000000, 0xff00001e, INSN_GP, ENC_GET_SET_EXT, 0 }, + { "MOVW", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa6000002, 0xff00001e, INSN_GP, ENC_GET_SET_EXT, 0 }, + { "MOVD", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa6000004, 0xff00001e, INSN_GP, ENC_GET_SET_EXT, 0 }, + { "MOVL", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa6000006, 0xff00001e, INSN_GP, ENC_GET_SET_EXT, 0 }, + + /* Extended GET */ + { "GETB", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa7000000, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 }, + { "GETW", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa7000002, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 }, + { "GETD", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa7000004, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 }, + { "GETL", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa7000006, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 }, + + /* Extended SET */ + { "SETB", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa5000000, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 }, + { "SETW", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa5000002, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 }, + { "SETD", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa5000004, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 }, + { "SETL", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa5000006, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 }, + + /* MOV to RA */ + { "MOVB", CoreMeta11|CoreMeta12|CoreMeta21, + 0xc000000c, 0xfd00001e, INSN_GP, ENC_GET_SET, 0 }, + { "MOVW", CoreMeta11|CoreMeta12|CoreMeta21, + 0xc100000c, 0xfd00001e, INSN_GP, ENC_GET_SET, 0 }, + { "MOVD", CoreMeta11|CoreMeta12|CoreMeta21, + 0xc400000c, 0xfd00001e, INSN_GP, ENC_GET_SET, 0 }, + { "MOVL", CoreMeta11|CoreMeta12|CoreMeta21, + 0xc500000c, 0xfd00001e, INSN_GP, ENC_GET_SET, 0 }, + + /* Standard GET */ + { "GETB", CoreMeta11|CoreMeta12|CoreMeta21, + 0xc0000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, + { "GETW", CoreMeta11|CoreMeta12|CoreMeta21, + 0xc1000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, + { "GETD", CoreMeta11|CoreMeta12|CoreMeta21, + 0xc4000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, + /* GET is a synonym for GETD. */ + { "GET", CoreMeta11|CoreMeta12|CoreMeta21, + 0xc4000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, + { "GETL", CoreMeta11|CoreMeta12|CoreMeta21, + 0xc5000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, + + /* Standard SET */ + { "SETB", CoreMeta11|CoreMeta12|CoreMeta21, + 0xb0000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, + { "SETW", CoreMeta11|CoreMeta12|CoreMeta21, + 0xb1000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, + { "SETD", CoreMeta11|CoreMeta12|CoreMeta21, + 0xb4000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, + /* SET is a synonym for SETD. */ + { "SET", CoreMeta11|CoreMeta12|CoreMeta21, + 0xb4000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, + { "SETL", CoreMeta11|CoreMeta12|CoreMeta21, + 0xb5000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, + + /* Multiple GET */ + { "MGETD", CoreMeta11|CoreMeta12|CoreMeta21, + 0xc8000000, 0xff000007, INSN_GP, ENC_MGET_MSET, 0 }, + { "MGETL", CoreMeta11|CoreMeta12|CoreMeta21, + 0xc9000000, 0xff000007, INSN_GP, ENC_MGET_MSET, 0 }, + + /* Multiple SET */ + { "MSETD", CoreMeta11|CoreMeta12|CoreMeta21, + 0xb8000000, 0xff000007, INSN_GP, ENC_MGET_MSET, 0 }, + { "MSETL", CoreMeta11|CoreMeta12|CoreMeta21, + 0xb9000000, 0xff000007, INSN_GP, ENC_MGET_MSET, 0 }, + + /* Conditional SET */ + COND_INSN ("SETB", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0xa4000000, 0xff00039f, INSN_GP, ENC_COND_SET, 0), + COND_INSN ("SETW", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0xa4000001, 0xff00039f, INSN_GP, ENC_COND_SET, 0), + COND_INSN ("SETD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0xa4000200, 0xff00039f, INSN_GP, ENC_COND_SET, 0), + COND_INSN ("SETL", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0xa4000201, 0xff00039f, INSN_GP, ENC_COND_SET, 0), + { "XFRD", CoreMeta11|CoreMeta12|CoreMeta21, + 0xd0000000, 0xf2000000, INSN_GP, ENC_XFR, 0 }, + { "XFRL", CoreMeta11|CoreMeta12|CoreMeta21, + 0xd2000000, 0xf2000000, INSN_GP, ENC_XFR, 0 }, + + /* Fast control register setup */ + { "MOV", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa9000000, 0xff000005, INSN_GP, ENC_MOV_CT, 0 }, + { "MOVT", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa9000001, 0xff000005, INSN_GP, ENC_MOV_CT, 0 }, + { "MOV", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa9000004, 0xff000005, INSN_GP, ENC_MOV_CT, 0 }, + { "MOVT", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa9000005, 0xff000005, INSN_GP, ENC_MOV_CT, 0 }, + + /* Internal transfer operations */ + { "JUMP", CoreMeta11|CoreMeta12|CoreMeta21, + 0xac000000, 0xff000004, INSN_GP, ENC_JUMP, 0 }, + { "CALL", CoreMeta11|CoreMeta12|CoreMeta21, + 0xac000004, 0xff000004, INSN_GP, ENC_JUMP, 0 }, + { "CALLR", CoreMeta11|CoreMeta12|CoreMeta21, + 0xab000000, 0xff000000, INSN_GP, ENC_CALLR, 0 }, + + /* Address unit ALU operations */ + { "MOV", CoreMeta11|CoreMeta12|CoreMeta21, + 0x80000004, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, + { "MOV", CoreMeta11|CoreMeta12|CoreMeta21, + 0x82000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "MOVT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x82000005, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "ADD", CoreMeta11|CoreMeta12|CoreMeta21, + 0x80000000, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, + { "ADD", CoreMeta11|CoreMeta12|CoreMeta21, + 0x82000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "ADDT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x82000001, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "ADD", CoreMeta11|CoreMeta12|CoreMeta21, + 0x86000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, + COND_INSN ("ADD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x84000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), + COND_INSN ("ADD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x86000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), + { "NEG", CoreMeta11|CoreMeta12|CoreMeta21, + 0x88000004, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, + { "NEG", CoreMeta11|CoreMeta12|CoreMeta21, + 0x8a000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "NEGT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x8a000005, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "SUB", CoreMeta11|CoreMeta12|CoreMeta21, + 0x88000000, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, + { "SUB", CoreMeta11|CoreMeta12|CoreMeta21, + 0x8a000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "SUBT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x8a000001, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "SUB", CoreMeta11|CoreMeta12|CoreMeta21, + 0x8e000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, + COND_INSN ("SUB", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x8c000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), + COND_INSN ("SUB", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x8e000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), + + /* Data unit ALU operations */ + { "MOV", CoreMeta11|CoreMeta12|CoreMeta21, + 0x00000004, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, + { "MOVS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x08000004, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, + { "MOV", CoreMeta11|CoreMeta12|CoreMeta21, + 0x02000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "MOVS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x0a000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "MOVT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x02000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, + { "MOVST", CoreMeta11|CoreMeta12|CoreMeta21, + 0x0a000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, + { "ADD", DspMeta21, + 0x00000100, 0xfe000104, INSN_DSP, ENC_DALU, + DSP_ARGS_1|DSP_ARGS_ACC2|DSP_ARGS_XACC|DSP_ARGS_IMM }, + { "ADD", DspMeta21, + 0x02000003, 0xfe000003, INSN_DSP, ENC_DALU, + DSP_ARGS_1|DSP_ARGS_IMM }, + COND_INSN ("ADD", "", 1, DspMeta21, + 0x040001e0, 0xfe0001fe, INSN_DSP, ENC_DALU, DSP_ARGS_1), + { "ADD", CoreMeta11|CoreMeta12|CoreMeta21, + 0x00000000, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, + { "ADDS", DspMeta21, + 0x08000100, 0xfe000104, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_ACC2 }, + { "ADDS", DspMeta21, + 0x0a000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, + { "ADDS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x08000000, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, + { "ADD", CoreMeta11|CoreMeta12|CoreMeta21, + 0x02000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "ADDS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x0a000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "ADDT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x02000001, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "ADDST", CoreMeta11|CoreMeta12|CoreMeta21, + 0x0a000001, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "ADD", CoreMeta11|CoreMeta12|CoreMeta21, + 0x06000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, + COND_INSN ("ADDS", "", 1, DspMeta21, + 0x0c0001e0, 0xfe0001fe, INSN_DSP, ENC_DALU, DSP_ARGS_1), + { "ADDS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x0e000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, + COND_INSN ("ADD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x04000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), + COND_INSN ("ADDS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x0c000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), + COND_INSN ("ADD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x06000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), + COND_INSN ("ADDS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x0e000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), + { "NEG", CoreMeta11|CoreMeta12|CoreMeta21, + 0x10000004, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, + { "NEGS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x18000004, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, + { "NEG", CoreMeta11|CoreMeta12|CoreMeta21, + 0x12000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "NEGS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x1a000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "NEGT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x12000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, + { "NEGST", CoreMeta11|CoreMeta12|CoreMeta21, + 0x1a000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, + { "SUB", DspMeta21, + 0x10000100, 0xfe000104, INSN_DSP, ENC_DALU, + DSP_ARGS_1|DSP_ARGS_ACC2|DSP_ARGS_XACC }, + { "SUB", DspMeta21, + 0x12000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, + { "SUB", CoreMeta11|CoreMeta12|CoreMeta21, + 0x10000000, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, + { "SUBS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x18000000, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, + { "SUB", CoreMeta11|CoreMeta12|CoreMeta21, + 0x12000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "SUBS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x1a000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "SUBT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x12000001, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "SUBS", DspMeta21, + 0x18000100, 0xfe000104, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_ACC2 }, + { "SUBS", DspMeta21, + 0x1a000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, + { "SUBST", CoreMeta11|CoreMeta12|CoreMeta21, + 0x1a000001, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "SUB", CoreMeta11|CoreMeta12|CoreMeta21, + 0x16000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, + { "SUBS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x1e000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, + COND_INSN ("SUBS", "", 1, DspMeta21, + 0x1c0001e0, 0xfe0001fe, INSN_DSP, ENC_DALU, DSP_ARGS_1), + COND_INSN ("SUB", "", 1, DspMeta21, + 0x140001e0, 0xfe0001fe, INSN_DSP, ENC_DALU, DSP_ARGS_1), + COND_INSN ("SUB", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x14000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), + COND_INSN ("SUBS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x1c000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), + COND_INSN ("SUB", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x16000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), + COND_INSN ("SUBS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x1e000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), + { "AND", CoreMeta11|CoreMeta12|CoreMeta21, + 0x20000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 }, + { "ANDS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x28000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 }, + { "ANDQ", CoreMeta11|CoreMeta12|CoreMeta21, + 0x20000040, 0xfe00017e, INSN_GP, ENC_ALU, GP_ARGS_QR }, + { "ANDSQ", CoreMeta11|CoreMeta12|CoreMeta21, + 0x28000040, 0xfe00017e, INSN_GP, ENC_ALU, GP_ARGS_QR }, + { "AND", CoreMeta11|CoreMeta12|CoreMeta21, + 0x22000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "ANDMB", CoreMeta11|CoreMeta12|CoreMeta21, + 0x22000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "ANDS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x2a000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "ANDSMB", CoreMeta11|CoreMeta12|CoreMeta21, + 0x2a000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "ANDT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x22000001, 0xfe000007, INSN_GP, ENC_ALU, 0 }, + { "ANDMT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x22000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, + { "ANDST", CoreMeta11|CoreMeta12|CoreMeta21, + 0x2a000001, 0xfe000007, INSN_GP, ENC_ALU, 0 }, + { "ANDSMT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x2a000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, + { "AND", DspMeta21, + 0x20000100, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1 }, + { "AND", CoreMeta11|CoreMeta12|CoreMeta21, + 0x26000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, + { "ANDS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x2e000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, + { "ANDQ", CoreMeta11|CoreMeta12|CoreMeta21, + 0x26000021, 0xfe000021, INSN_GP, ENC_ALU, GP_ARGS_QR }, + { "ANDSQ", CoreMeta11|CoreMeta12|CoreMeta21, + 0x2e000021, 0xfe000021, INSN_GP, ENC_ALU, GP_ARGS_QR }, + { "ANDQ", DspMeta21, + 0x20000140, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_QR }, + COND_INSN ("ANDQ", "", 1, DspMeta21, + 0x240001c0, 0xfe0001de, INSN_DSP, ENC_DALU, + DSP_ARGS_1|DSP_ARGS_QR), + COND_INSN ("AND", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x24000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), + { "ANDSQ", DspMeta21, + 0x28000140, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_QR }, + COND_INSN ("ANDSQ", "", 1, DspMeta21, + 0x2c0001c0, 0xfe0001de, INSN_DSP, ENC_DALU, + DSP_ARGS_1|DSP_ARGS_QR), + COND_INSN ("ANDS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x2c000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), + COND_INSN ("AND", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x26000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), + COND_INSN ("ANDS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x2e000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), + COND_INSN ("ANDQ", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x26000001, 0xfe00003f, INSN_GP, ENC_ALU, GP_ARGS_QR), + COND_INSN ("ANDSQ", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x2e000001, 0xfe00003f, INSN_GP, ENC_ALU, GP_ARGS_QR), + { "OR", CoreMeta11|CoreMeta12|CoreMeta21, + 0x30000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 }, + { "ORS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x38000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 }, + { "ORQ", CoreMeta11|CoreMeta12|CoreMeta21, + 0x30000040, 0xfe00017e, INSN_GP, ENC_ALU, GP_ARGS_QR }, + { "ORSQ", CoreMeta11|CoreMeta12|CoreMeta21, + 0x38000040, 0xfe00017e, INSN_GP, ENC_ALU, GP_ARGS_QR }, + { "OR", CoreMeta11|CoreMeta12|CoreMeta21, + 0x32000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "ORMB", CoreMeta11|CoreMeta12|CoreMeta21, + 0x32000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "ORS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x3a000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "ORSMB", CoreMeta11|CoreMeta12|CoreMeta21, + 0x3a000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "ORT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x32000001, 0xfe000007, INSN_GP, ENC_ALU, 0 }, + { "ORMT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x32000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, + { "ORST", CoreMeta11|CoreMeta12|CoreMeta21, + 0x3a000001, 0xfe000007, INSN_GP, ENC_ALU, 0 }, + { "ORSMT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x3a000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, + { "OR", CoreMeta11|CoreMeta12|CoreMeta21, + 0x36000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, + { "ORS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x3e000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, + { "ORQ", CoreMeta11|CoreMeta12|CoreMeta21, + 0x36000021, 0xfe000021, INSN_GP, ENC_ALU, GP_ARGS_QR }, + { "ORSQ", CoreMeta11|CoreMeta12|CoreMeta21, + 0x3e000021, 0xfe000021, INSN_GP, ENC_ALU, GP_ARGS_QR }, + { "ORQ", DspMeta21, + 0x30000140, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_QR }, + COND_INSN ("ORQ", "", 1, DspMeta21, + 0x340001c0, 0xfe0001de, INSN_DSP, ENC_DALU, + DSP_ARGS_1|DSP_ARGS_QR), + COND_INSN ("OR", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x34000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), + { "ORSQ", DspMeta21, + 0x38000140, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_QR }, + COND_INSN ("ORSQ", "", 1, DspMeta21, + 0x3c0001c0, 0xfe0001de, INSN_DSP, ENC_DALU, + DSP_ARGS_1|DSP_ARGS_QR), + COND_INSN ("ORS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x3c000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), + COND_INSN ("OR", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x36000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), + COND_INSN ("ORS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x3e000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), + COND_INSN ("ORQ", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x36000001, 0xfe00003f, INSN_GP, ENC_ALU, GP_ARGS_QR), + COND_INSN ("ORSQ", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x3e000001, 0xfe00003f, INSN_GP, ENC_ALU, GP_ARGS_QR), + { "XOR", CoreMeta11|CoreMeta12|CoreMeta21, + 0x40000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 }, + { "XORS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x48000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 }, + { "XORQ", CoreMeta11|CoreMeta12|CoreMeta21, + 0x40000040, 0xfe00017e, INSN_GP, ENC_ALU, GP_ARGS_QR }, + { "XORSQ", CoreMeta11|CoreMeta12|CoreMeta21, + 0x48000040, 0xfe00017e, INSN_GP, ENC_ALU, GP_ARGS_QR }, + { "XOR", CoreMeta11|CoreMeta12|CoreMeta21, + 0x42000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "XORMB", CoreMeta11|CoreMeta12|CoreMeta21, + 0x42000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "XORS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x4a000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "XORSMB", CoreMeta11|CoreMeta12|CoreMeta21, + 0x4a000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "XORT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x42000001, 0xfe000007, INSN_GP, ENC_ALU, 0 }, + { "XORMT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x42000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, + { "XORST", CoreMeta11|CoreMeta12|CoreMeta21, + 0x4a000001, 0xfe000007, INSN_GP, ENC_ALU, 0 }, + { "XORSMT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x4a000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, + { "XOR", CoreMeta11|CoreMeta12|CoreMeta21, + 0x46000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, + { "XORS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x4e000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, + { "XORQ", CoreMeta11|CoreMeta12|CoreMeta21, + 0x46000021, 0xfe000021, INSN_GP, ENC_ALU, GP_ARGS_QR }, + { "XORSQ", CoreMeta11|CoreMeta12|CoreMeta21, + 0x4e000021, 0xfe000021, INSN_GP, ENC_ALU, GP_ARGS_QR }, + { "XORQ", DspMeta21, + 0x40000140, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_QR }, + COND_INSN ("XORQ", "", 1, DspMeta21, + 0x440001c0, 0xfe0001de, INSN_DSP, ENC_DALU, + DSP_ARGS_1|DSP_ARGS_QR), + COND_INSN ("XOR", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x44000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), + { "XORSQ", DspMeta21, + 0x48000140, 0xfe000140, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_QR }, + COND_INSN ("XORSQ", "", 1, DspMeta21, + 0x4c0001c0, 0xfe0001de, INSN_DSP, ENC_DALU, + DSP_ARGS_1|DSP_ARGS_QR), + COND_INSN ("XORS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x4c000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), + COND_INSN ("XOR", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x46000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), + COND_INSN ("XORS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x4e000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), + COND_INSN ("XORQ", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x46000001, 0xfe00003f, INSN_GP, ENC_ALU, GP_ARGS_QR), + COND_INSN ("XORSQ", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x4e000001, 0xfe00003f, INSN_GP, ENC_ALU, GP_ARGS_QR), + { "LSL", CoreMeta11|CoreMeta12|CoreMeta21, + 0x50000000, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 }, + { "LSL", CoreMeta11|CoreMeta12|CoreMeta21, + 0x54000020, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 }, + COND_INSN ("LSL", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x54000000, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0), + { "LSLS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x58000000, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 }, + { "LSLS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x5c000020, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 }, + COND_INSN ("LSLS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x5c000000, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0), + { "LSR", CoreMeta11|CoreMeta12|CoreMeta21, + 0x50000040, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 }, + { "LSR", CoreMeta11|CoreMeta12|CoreMeta21, + 0x54000060, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 }, + COND_INSN ("LSR", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x54000040, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0), + { "LSRS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x58000040, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 }, + { "LSRS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x5c000060, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 }, + COND_INSN ("LSRS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x5c000040, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0), + { "ASL", CoreMeta11|CoreMeta12|CoreMeta21, + 0x50000080, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 }, + { "ASL", CoreMeta11|CoreMeta12|CoreMeta21, + 0x540000a0, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 }, + COND_INSN ("ASL", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x54000080, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0), + { "ASLS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x58000080, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 }, + { "ASLS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x5c0000a0, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 }, + COND_INSN ("ASLS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x5c000080, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0), + { "ASR", CoreMeta11|CoreMeta12|CoreMeta21, + 0x500000c0, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 }, + { "ASR", CoreMeta11|CoreMeta12|CoreMeta21, + 0x540000e0, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 }, + COND_INSN ("ASR", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x540000c0, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0), + { "ASRS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x580000c0, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 }, + { "ASRS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x5c0000e0, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 }, + COND_INSN ("ASRS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x5c0000c0, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0), + { "MULW", CoreMeta11|CoreMeta12|CoreMeta21, + 0x60000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 }, + { "MULD", CoreMeta11|CoreMeta12|CoreMeta21, + 0x60000040, 0xfe0001fe, INSN_GP, ENC_ALU, 0 }, + /* MUL is a synonym from MULD. */ + { "MUL", CoreMeta11|CoreMeta12|CoreMeta21, + 0x60000040, 0xfe0001fe, INSN_GP, ENC_ALU, 0 }, + { "MULW", CoreMeta11|CoreMeta12|CoreMeta21, + 0x62000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "MULD", CoreMeta11|CoreMeta12|CoreMeta21, + 0x62000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "MUL", CoreMeta11|CoreMeta12|CoreMeta21, + 0x62000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, + { "MULWT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x62000001, 0xfe000007, INSN_GP, ENC_ALU, 0 }, + { "MULDT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x62000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, + { "MULT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x62000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, + { "MULW", CoreMeta11|CoreMeta12|CoreMeta21, + 0x64000020, 0xfe0001e0, INSN_GP, ENC_ALU, 0 }, + { "MULD", CoreMeta11|CoreMeta12|CoreMeta21, + 0x64000060, 0xfe0001e0, INSN_GP, ENC_ALU, 0 }, + { "MUL", CoreMeta11|CoreMeta12|CoreMeta21, + 0x64000060, 0xfe0001e0, INSN_GP, ENC_ALU, 0 }, + { "MULW", CoreMeta11|CoreMeta12|CoreMeta21, + 0x66000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, + { "MULD", CoreMeta11|CoreMeta12|CoreMeta21, + 0x66000021, 0xfe000021, INSN_GP, ENC_ALU, 0 }, + { "MUL", CoreMeta11|CoreMeta12|CoreMeta21, + 0x66000021, 0xfe000021, INSN_GP, ENC_ALU, 0 }, + COND_INSN ("MULW", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x64000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0), + COND_INSN ("MULD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x64000040, 0xfe0001fe, INSN_GP, ENC_ALU, 0), + COND_INSN ("MUL", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x64000040, 0xfe0001fe, INSN_GP, ENC_ALU, 0), + COND_INSN ("MULW", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x66000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), + COND_INSN ("MULD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x66000001, 0xfe00003f, INSN_GP, ENC_ALU, 0), + COND_INSN ("MUL", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x66000001, 0xfe00003f, INSN_GP, ENC_ALU, 0), + { "MIN", CoreMeta11|CoreMeta12|CoreMeta21, + 0x70000020, 0xfe0001ff, INSN_GP, ENC_MIN_MAX, 0 }, + { "MAX", CoreMeta11|CoreMeta12|CoreMeta21, + 0x70000024, 0xfe0001ff, INSN_GP, ENC_MIN_MAX, 0 }, + { "FFB", CoreMeta11|CoreMeta12|CoreMeta21, + 0x70000004, 0xfe003fff, INSN_GP, ENC_BITOP, 0 }, + { "NORM", CoreMeta11|CoreMeta12|CoreMeta21, + 0x70000008, 0xfe003fff, INSN_GP, ENC_BITOP, 0 }, + { "ABS", CoreMeta11|CoreMeta12|CoreMeta21, + 0x70000028, 0xfe003fff, INSN_GP, ENC_BITOP, 0 }, + { "XSDB", CoreMeta11|CoreMeta12|CoreMeta21, + 0xaa000000, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, + { "XSDSB", CoreMeta11|CoreMeta12|CoreMeta21, + 0xaa000008, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, + { "XSDW", CoreMeta11|CoreMeta12|CoreMeta21, + 0xaa000002, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, + { "XSDSW", CoreMeta11|CoreMeta12|CoreMeta21, + 0xaa00000a, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, + { "RTDW", CoreMeta11|CoreMeta12|CoreMeta21, + 0xaa000006, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, + { "RTDSW", CoreMeta11|CoreMeta12|CoreMeta21, + 0xaa00000e, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, + { "NMIN", CoreMeta11|CoreMeta12|CoreMeta21, + 0x7000002c, 0xfe0001ff, INSN_GP, ENC_MIN_MAX, 0 }, + + /* Condition setting operations */ + { "CMP", CoreMeta11|CoreMeta12|CoreMeta21, + 0x70000000, 0xfef801fe, INSN_GP, ENC_CMP, 0 }, + { "TST", CoreMeta11|CoreMeta12|CoreMeta21, + 0x78000000, 0xfef801fe, INSN_GP, ENC_CMP, 0 }, + { "CMP", CoreMeta11|CoreMeta12|CoreMeta21, + 0x72000000, 0xfe000005, INSN_GP, ENC_CMP, 0 }, + { "CMPMB", CoreMeta11|CoreMeta12|CoreMeta21, + 0x72000004, 0xfe000005, INSN_GP, ENC_CMP, 0 }, + { "TST", CoreMeta11|CoreMeta12|CoreMeta21, + 0x7a000000, 0xfe000005, INSN_GP, ENC_CMP, 0 }, + { "TSTMB", CoreMeta11|CoreMeta12|CoreMeta21, + 0x7a000004, 0xfe000005, INSN_GP, ENC_CMP, 0 }, + { "CMPT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x72000001, 0xfe000007, INSN_GP, ENC_CMP, 0 }, + { "CMPMT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x72000005, 0xfe000007, INSN_GP, ENC_CMP, 0 }, + { "TSTT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x7a000001, 0xfe000007, INSN_GP, ENC_CMP, 0 }, + { "TSTMT", CoreMeta11|CoreMeta12|CoreMeta21, + 0x7a000005, 0xfe000007, INSN_GP, ENC_CMP, 0 }, + COND_INSN ("CMP", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x74000000, 0xfef801fe, INSN_GP, ENC_CMP, 0), + COND_INSN ("TST", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x7c000000, 0xfef801fe, INSN_GP, ENC_CMP, 0), + COND_INSN ("CMP", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x76000000, 0xfef8003e, INSN_GP, ENC_CMP, 0), + COND_INSN ("TST", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0x7e000000, 0xfef8003e, INSN_GP, ENC_CMP, 0), + + /* No-op (BNV) */ + { "NOP", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa0fffffe, 0xffffffff, INSN_GP, ENC_NONE, 0 }, + + /* Branch */ + COND_INSN ("B", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0xa0000000, 0xff00001f, INSN_GP, ENC_BRANCH, 0), + COND_INSN ("B", "R", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0xa0000001, 0xff00001f, INSN_GP, ENC_BRANCH, 0), + + /* System operations */ + { "LOCK0", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa8000000, 0xffffffff, INSN_GP, ENC_NONE, 0 }, + { "LOCK1", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa8000001, 0xffffffff, INSN_GP, ENC_NONE, 0 }, + { "LOCK2", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa8000003, 0xffffffff, INSN_GP, ENC_NONE, 0 }, + { "RTI", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa3ffffff, 0xffffffff, INSN_GP, ENC_NONE, 0 }, + { "RTH", CoreMeta11|CoreMeta12|CoreMeta21, + 0xa37fffff, 0xffffffff, INSN_GP, ENC_NONE, 0 }, + COND_INSN ("KICK", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0xa3000001, 0xff003e1f, INSN_GP, ENC_KICK, 0), + { "SWITCH", CoreMeta11|CoreMeta12|CoreMeta21, + 0xaf000000, 0xff000000, INSN_GP, ENC_SWITCH, 0 }, + { "DCACHE", CoreMeta11|CoreMeta12|CoreMeta21, + 0xad000000, 0xff000087, INSN_GP, ENC_CACHEW, 0 }, + { "ICACHEEXIT", CoreMeta12|CoreMeta21, + 0xae000000, 0xffffffff, INSN_GP, ENC_NONE, 0 }, + { "ICACHEEXITR", CoreMeta12|CoreMeta21, + 0xae000001, 0xffffffff, INSN_GP, ENC_NONE, 0 }, + { "ICACHE", CoreMeta12|CoreMeta21, + 0xae000000, 0xff0001e1, INSN_GP, ENC_ICACHE, 0 }, + { "ICACHER", CoreMeta12|CoreMeta21, + 0xae000001, 0xff0001e1, INSN_GP, ENC_ICACHE, 0 }, + + /* Meta 2 instructions */ + { "CACHERD", CoreMeta21, + 0xad000081, 0xff000087, INSN_GP, ENC_CACHER, 0 }, + { "CACHERL", CoreMeta21, + 0xad000083, 0xff000087, INSN_GP, ENC_CACHER, 0 }, + { "CACHEWD", CoreMeta21, + 0xad000001, 0xff000087, INSN_GP, ENC_CACHEW, 0 }, + { "CACHEWL", CoreMeta21, + 0xad000003, 0xff000087, INSN_GP, ENC_CACHEW, 0 }, + COND_INSN ("DEFR", "", 1, CoreMeta21, + 0xa3002001, 0xff003e1f, INSN_GP, ENC_KICK, 0), + { "BEXD", CoreMeta21, + 0xaa000004, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, + { "BEXSD", CoreMeta21, + 0xaa00000c, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, + { "BEXL", CoreMeta21, + 0xaa000014, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, + { "BEXSL", CoreMeta21, + 0xaa00001c, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, + { "LNKGETB", CoreMeta21, + 0xad000080, 0xff000087, INSN_GP, ENC_LNKGET, 0 }, + { "LNKGETW", CoreMeta21, + 0xad000082, 0xff000087, INSN_GP, ENC_LNKGET, 0 }, + { "LNKGETD", CoreMeta21, + 0xad000084, 0xff000087, INSN_GP, ENC_LNKGET, 0 }, + { "LNKGETL", CoreMeta21, + 0xad000086, 0xff000087, INSN_GP, ENC_LNKGET, 0 }, + COND_INSN ("LNKSETB", "", 1, CoreMeta21, + 0xa4000080, 0xff00039f, INSN_GP, ENC_COND_SET, 0), + COND_INSN ("LNKSETW", "", 1, CoreMeta21, + 0xa4000081, 0xff00039f, INSN_GP, ENC_COND_SET, 0), + COND_INSN ("LNKSETD", "", 1, CoreMeta21, + 0xa4000280, 0xff00039f, INSN_GP, ENC_COND_SET, 0), + COND_INSN ("LNKSETL", "", 1, CoreMeta21, + 0xa4000281, 0xff00039f, INSN_GP, ENC_COND_SET, 0), + + /* Meta 2 FPU instructions */ + + /* Port-to-unit MOV */ + COND_INSN ("MOVL", "", 1, FpuMeta21, + 0xa1800201, 0xfff83e1f, INSN_FPU, ENC_MOV_PORT, 0), + + /* Read pipeline drain */ + { "MMOVD", FpuMeta21, + 0xce000006, 0xfffc007f, INSN_FPU, ENC_MMOV, 0 }, + { "MMOVL", FpuMeta21, + 0xcf000006, 0xfffc007f, INSN_FPU, ENC_MMOV, 0 }, + + /* FP data movement instructions */ + FCOND_INSN ("ABS", "", 1, FpuMeta21, + 0xf0000080, 0xff843f9f, INSN_FPU, ENC_FMOV, 0), + { "MMOVD", FpuMeta21, + 0xbe000002, 0xff84007e, INSN_FPU, ENC_FMMOV, 0 }, + { "MMOVL", FpuMeta21, + 0xbf000002, 0xff84007e, INSN_FPU, ENC_FMMOV, 0 }, + { "MMOVD", FpuMeta21, + 0xce000002, 0xff84007e, INSN_FPU, ENC_FMMOV, 0 }, + { "MMOVL", FpuMeta21, + 0xcf000002, 0xff84007e, INSN_FPU, ENC_FMMOV, 0 }, + { "MOVD", FpuMeta21, + 0x08000144, 0xfe03e1ff, INSN_FPU, ENC_FMOV_DATA, 0 }, + { "MOVD", FpuMeta21, + 0x080001c4, 0xfe83c1ff, INSN_FPU, ENC_FMOV_DATA, 0 }, + { "MOVL", FpuMeta21, + 0x08000154, 0xfe03e1ff, INSN_FPU, ENC_FMOV_DATA, 0 }, + { "MOVL", FpuMeta21, + 0x080001d4, 0xfe83c1ff, INSN_FPU, ENC_FMOV_DATA, 0 }, + FCOND_INSN ("MOV", "", 1, FpuMeta21, + 0xf0000000, 0xff843f9f, INSN_FPU, ENC_FMOV, 0), + { "MOV", FpuMeta21, + 0xf0000001, 0xff800001, INSN_FPU, ENC_FMOV_I, 0 }, + FCOND_INSN ("NEG", "", 1, FpuMeta21, + 0xf0000100, 0xff843f9f, INSN_FPU, ENC_FMOV, 0), + { "PACK", FpuMeta21, + 0xf0000180, 0xff8c21ff, INSN_FPU, ENC_FPACK, 0 }, + { "SWAP", FpuMeta21, + 0xf00001c0, 0xff8c7fff, INSN_FPU, ENC_FSWAP, 0 }, + + /* FP comparison instructions */ + FCOND_INSN ("CMP", "", 1, FpuMeta21, + 0xf3000000, 0xfff4201f, INSN_FPU, ENC_FCMP, 0), + FCOND_INSN ("MAX", "", 1, FpuMeta21, + 0xf3000081, 0xff84219f, INSN_FPU, ENC_FMINMAX, 0), + FCOND_INSN ("MIN", "", 1, FpuMeta21, + 0xf3000001, 0xff84219f, INSN_FPU, ENC_FMINMAX, 0), + + /* FP data conversion instructions */ + FCOND_INSN ("DTOF", "", 1, FpuMeta21, + 0xf2000121, 0xff843fff, INSN_FPU, ENC_FCONV, 0), + FCOND_INSN ("FTOD", "", 1, FpuMeta21, + 0xf2000101, 0xff843fff, INSN_FPU, ENC_FCONV, 0), + FCOND_INSN ("DTOH", "", 1, FpuMeta21, + 0xf2000320, 0xff843fff, INSN_FPU, ENC_FCONV, 0), + FCOND_INSN ("FTOH", "", 1, FpuMeta21, + 0xf2000300, 0xff843fbf, INSN_FPU, ENC_FCONV, 0), + FCOND_INSN ("DTOI", "", 1, FpuMeta21, + 0xf2002120, 0xff842fff, INSN_FPU, ENC_FCONV, 0), + FCOND_INSN ("FTOI", "", 1, FpuMeta21, + 0xf2002100, 0xff842fbf, INSN_FPU, ENC_FCONV, 0), + FCOND_INSN ("DTOL", "", 1, FpuMeta21, + 0xf2002320, 0xff8c6fff, INSN_FPU, ENC_FCONV, 0), + + FCOND_INSN ("DTOX", "", 1, FpuMeta21, + 0xf2000020, 0xff8401bf, INSN_FPU, ENC_FCONVX, 0), + FCOND_INSN ("FTOX", "", 1, FpuMeta21, + 0xf2000000, 0xff8401bf, INSN_FPU, ENC_FCONVX, 0), + FCOND_INSN ("DTOXL", "", 1, FpuMeta21, + 0xf20000a0, 0xff8c40ff, INSN_FPU, ENC_FCONVX, 0), + + FCOND_INSN ("HTOD", "", 1, FpuMeta21, + 0xf2000321, 0xff843fff, INSN_FPU, ENC_FCONV, 0), + FCOND_INSN ("HTOF", "", 1, FpuMeta21, + 0xf2000301, 0xff843fbf, INSN_FPU, ENC_FCONV, 0), + FCOND_INSN ("ITOD", "", 1, FpuMeta21, + 0xf2002121, 0xff843fff, INSN_FPU, ENC_FCONV, 0), + FCOND_INSN ("ITOF", "", 1, FpuMeta21, + 0xf2002101, 0xff843fbf, INSN_FPU, ENC_FCONV, 0), + FCOND_INSN ("LTOD", "", 1, FpuMeta21, + 0xf2002321, 0xff8c7fff, INSN_FPU, ENC_FCONV, 0), + + FCOND_INSN ("XTOD", "", 1, FpuMeta21, + 0xf2000021, 0xff8401bf, INSN_FPU, ENC_FCONVX, 0), + FCOND_INSN ("XTOF", "", 1, FpuMeta21, + 0xf2000001, 0xff8401bf, INSN_FPU, ENC_FCONVX, 0), + FCOND_INSN ("XLTOD", "", 1, FpuMeta21, + 0xf20000a1, 0xff8c40ff, INSN_FPU, ENC_FCONVX, 0), + + /* FP basic arithmetic instructions */ + FCOND_INSN ("ADD", "", 1, FpuMeta21, + 0xf1000001, 0xff84211f, INSN_FPU, ENC_FBARITH, 0), + FCOND_INSN ("MUL", "", 1, FpuMeta21, + 0xf1000100, 0xff84211f, INSN_FPU, ENC_FBARITH, 0), + FCOND_INSN ("SUB", "", 1, FpuMeta21, + 0xf1000101, 0xff84211f, INSN_FPU, ENC_FBARITH, 0), + + /* FP extended arithmetic instructions */ + { "MAC", FpuMeta21, + 0xf6000000, 0xfffc219f, INSN_FPU, ENC_FEARITH, 0 }, + { "MACS", FpuMeta21, + 0xf6000100, 0xfffc219f, INSN_FPU, ENC_FEARITH, 0 }, + + { "MAR", FpuMeta21, + 0xf6000004, 0xff84211f, INSN_FPU, ENC_FEARITH, 0 }, + { "MARS", FpuMeta21, + 0xf6000104, 0xff84211f, INSN_FPU, ENC_FEARITH, 0 }, + + { "MAW", FpuMeta21, + 0xf6000008, 0xff84219f, INSN_FPU, ENC_FEARITH, 0 }, + { "MAWS", FpuMeta21, + 0xf6000108, 0xff84219f, INSN_FPU, ENC_FEARITH, 0 }, + { "MAW1", FpuMeta21, + 0xf6000009, 0xff84219f, INSN_FPU, ENC_FEARITH, 0 }, + { "MAWS1", FpuMeta21, + 0xf6000109, 0xff84219f, INSN_FPU, ENC_FEARITH, 0 }, + + FCOND_INSN ("MXA", "", 1, FpuMeta21, + 0xf5000000, 0xff84211f, INSN_FPU, ENC_FEARITH, 0), + FCOND_INSN ("MXAS", "", 1, FpuMeta21, + 0xf5000100, 0xff84211f, INSN_FPU, ENC_FEARITH, 0), + FCOND_INSN ("MXA1", "", 1, FpuMeta21, + 0xf5000001, 0xff84211f, INSN_FPU, ENC_FEARITH, 0), + FCOND_INSN ("MXAS1", "", 1, FpuMeta21, + 0xf5000101, 0xff84211f, INSN_FPU, ENC_FEARITH, 0), + + { "MUZ", FpuMeta21, + 0xf6000010, 0xff84211d, INSN_FPU, ENC_FEARITH, 0 }, + { "MUZS", FpuMeta21, + 0xf6000110, 0xff84211d, INSN_FPU, ENC_FEARITH, 0 }, + { "MUZ1", FpuMeta21, + 0xf6000011, 0xff84211d, INSN_FPU, ENC_FEARITH, 0 }, + { "MUZS1", FpuMeta21, + 0xf6000111, 0xff84211d, INSN_FPU, ENC_FEARITH, 0 }, + + { "RCP", FpuMeta21, + 0xf7000000, 0xff84391f, INSN_FPU, ENC_FREC, 0 }, + { "RSQ", FpuMeta21, + 0xf7000100, 0xff84391f, INSN_FPU, ENC_FREC, 0 }, + + /* FP SIMD arithmetic instructions */ + { "ADDRE", FpuMeta21, + 0xf4000000, 0xff8c637f, INSN_FPU, ENC_FSIMD, 0 }, + { "MULRE", FpuMeta21, + 0xf4000001, 0xff8c637f, INSN_FPU, ENC_FSIMD, 0 }, + { "SUBRE", FpuMeta21, + 0xf4000100, 0xff8c637f, INSN_FPU, ENC_FSIMD, 0 }, + + /* FP memory instructions */ + { "MGETD", FpuMeta21, + 0xce000000, 0xff00001f, INSN_FPU, ENC_MGET_MSET, 0 }, + { "MGET", FpuMeta21, + 0xce000000, 0xff00001f, INSN_FPU, ENC_MGET_MSET, 0 }, + { "MGETL", FpuMeta21, + 0xcf000000, 0xff00001f, INSN_FPU, ENC_MGET_MSET, 0 }, + + { "MSETD", FpuMeta21, + 0xbe000000, 0xff00001f, INSN_FPU, ENC_MGET_MSET, 0 }, + { "MSET", FpuMeta21, + 0xbe000000, 0xff00001f, INSN_FPU, ENC_MGET_MSET, 0 }, + { "MSETL", FpuMeta21, + 0xbf000000, 0xff00001f, INSN_FPU, ENC_MGET_MSET, 0 }, + + /* FP accumulator memory instructions */ + { "GETL", FpuMeta21, + 0xcf000004, 0xffe03f9f, INSN_FPU, ENC_FGET_SET_ACF, 0 }, + { "SETL", FpuMeta21, + 0xbf000004, 0xffe03f9f, INSN_FPU, ENC_FGET_SET_ACF, 0 }, + + /* DSP FPU data movement */ + { "MOV", DspMeta21|FpuMeta21, + 0x08000146, 0xfe0001ee, INSN_DSP_FPU, ENC_DALU, + DSP_ARGS_2|DSP_ARGS_DSP_SRC1 }, + { "MOV", DspMeta21|FpuMeta21, + 0x080001c6, 0xfe0001ee, INSN_DSP_FPU, ENC_DALU, + DSP_ARGS_2|DSP_ARGS_DSP_SRC2 }, + + /* Unit-to-unit MOV */ + COND_INSN ("MOV", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0xa3000000, 0xff00021f, INSN_GP, ENC_MOV_U2U, 0), + COND_INSN ("TTMOV", "", 1, CoreMeta12|CoreMeta21, + 0xa3000201, 0xff00021f, INSN_GP, ENC_MOV_U2U, 0), + COND_INSN ("SWAP", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, + 0xa3000200, 0xff00021f, INSN_GP, ENC_SWAP, 0), + + /* DSP memory instructions */ + { "GETD", DspMeta21, + 0x94000100, 0xff0001fc, INSN_DSP, ENC_DGET_SET, 0 }, + { "SETD", DspMeta21, + 0x94000000, 0xff0001fc, INSN_DSP, ENC_DGET_SET, 0 }, + { "GETL", DspMeta21, + 0x94000104, 0xff0001fc, INSN_DSP, ENC_DGET_SET, 0 }, + { "SETL", DspMeta21, + 0x94000004, 0xff0001fc, INSN_DSP, ENC_DGET_SET, 0 }, + + /* DSP read pipeline prime/drain */ + { "MMOVD", DspMeta21, + 0xca000001, 0xff00001f, INSN_DSP, ENC_MMOV, 0 }, + { "MMOVL", DspMeta21, + 0xcb000001, 0xff00001f, INSN_DSP, ENC_MMOV, 0 }, + { "MMOVD", DspMeta21, + 0xcc000001, 0xff07c067, INSN_DSP, ENC_MMOV, 0 }, + { "MMOVL", DspMeta21, + 0xcd000001, 0xff07c067, INSN_DSP, ENC_MMOV, 0 }, + + /* DSP Template instantiation */ + TEMPLATE_INSN (DspMeta21, 0x90000000, 0xff00000f, INSN_DSP), + TEMPLATE_INSN (DspMeta21, 0x93000000, 0xff0001ff, INSN_DSP), + TEMPLATE_INSN (DspMeta21, 0x95000000, 0xff00000f, INSN_DSP), + + { "AND", DspMeta21, + 0x22000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, + { "ANDS", DspMeta21, + 0x28000100, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1 }, + { "ANDS", DspMeta21, + 0x2a000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, + { "MAX", DspMeta21, + 0x70000124, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_1 }, + { "MIN", DspMeta21, + 0x70000120, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_1 }, + { "NMIN", DspMeta21, + 0x7000012c, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_1 }, + { "OR", DspMeta21, + 0x30000100, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1 }, + { "OR", DspMeta21, + 0x32000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, + { "ORS", DspMeta21, + 0x38000100, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1 }, + { "ORS", DspMeta21, + 0x3a000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, + { "XOR", DspMeta21, + 0x40000100, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1 }, + { "XOR", DspMeta21, + 0x42000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, + { "XORS", DspMeta21, + 0x48000100, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1 }, + { "XORS", DspMeta21, + 0x4a000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, + { "ADDB8", DspMeta21, + 0x20000108, 0xfe00010c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, + { "ADDT8", DspMeta21, + 0x2000010c, 0xfe00010c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, + { "ADDSB8", DspMeta21, + 0x28000108, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, + { "ADDST8", DspMeta21, + 0x2800010c, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, + { "MULB8", DspMeta21, + 0x40000108, 0xfe00012c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, + { "MULT8", DspMeta21, + 0x4000010c, 0xfe00012c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, + { "MULSB8", DspMeta21, + 0x48000108, 0xfe00012c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, + { "MULST8", DspMeta21, + 0x4800010c, 0xfe00012c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, + { "SUBB8", DspMeta21, + 0x30000108, 0xfe00010c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, + { "SUBT8", DspMeta21, + 0x3000010c, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, + { "SUBSB8", DspMeta21, + 0x38000108, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, + { "SUBST8", DspMeta21, + 0x3800010c, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, + { "MUL", DspMeta21, + 0x60000100, 0xfe000100, INSN_DSP, ENC_DALU, + DSP_ARGS_1|DSP_ARGS_DACC }, + { "MUL", DspMeta21, + 0x62000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, + { "ABS", DspMeta21, + 0x70000128, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, + { "FFB", DspMeta21, + 0x70000104, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, + { "NORM", DspMeta21, + 0x70000108, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, + { "CMP", DspMeta21, + 0x70000000, 0xfe0000ec, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_IMM }, + { "CMP", DspMeta21, + 0x72000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_IMM }, + { "TST", DspMeta21, + 0x78000100, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_IMM }, + { "TST", DspMeta21, + 0x7a000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_IMM }, + { "MOV", DspMeta21, + 0x00000104, 0xfe078146, INSN_DSP, ENC_DALU, + DSP_ARGS_2|DSP_ARGS_DSP_SRC1|DSP_ARGS_DSP_SRC2|DSP_ARGS_IMM }, + { "MOVS", DspMeta21, + 0x08000104, 0xfe000146, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_DSP_SRC2 }, + { "MOV", DspMeta21, + 0x91000000, 0xff000000, INSN_DSP, ENC_DALU, + DSP_ARGS_2|DSP_ARGS_DSP_SRC1|DSP_ARGS_IMM }, + { "MOV", DspMeta21, + 0x92000000, 0xff000000, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_DSP_SRC2 }, + { "NEG", DspMeta21, + 0x10000104, 0xfe000146, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_DSP_SRC2 }, + { "NEGS", DspMeta21, + 0x18000104, 0xfe000146, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_DSP_SRC2 }, + { "XSDB", DspMeta21, + 0xaa000100, 0xff0001ee, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, + { "XSD", DspMeta21, + 0xaa000100, 0xff0001ee, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, + { "XSDW", DspMeta21, + 0xaa000102, 0xff0001ee, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, + { "XSDSB", DspMeta21, + 0xaa000108, 0xff0001ee, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, + { "XSDS", DspMeta21, + 0xaa000108, 0xff0001ee, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, + { "XSDSW", DspMeta21, + 0xaa00010a, 0xff0001ee, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, + { "LSL", DspMeta21, + 0x50000100, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 }, + { "LSR", DspMeta21, + 0x50000140, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 }, + { "ASL", DspMeta21, + 0x50000180, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 }, + { "ASR", DspMeta21, + 0x500001c0, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 }, + { "LSL", DspMeta21, + 0x54000120, 0xfc0001e0, INSN_DSP, ENC_DALU, DSP_ARGS_IMM }, + { "LSR", DspMeta21, + 0x54000160, 0xfc0001e0, INSN_DSP, ENC_DALU, DSP_ARGS_IMM }, + { "ASL", DspMeta21, + 0x540001a0, 0xfc0001e0, INSN_DSP, ENC_DALU, DSP_ARGS_IMM }, + { "ASR", DspMeta21, + 0x540001e0, 0xfc0001e0, INSN_DSP, ENC_DALU, DSP_ARGS_IMM }, + COND_INSN ("LSL", "", 1, DspMeta21, + 0x54000100, 0xfc0001fe, INSN_DSP, ENC_DALU, 0), + COND_INSN ("LSR", "", 1, DspMeta21, + 0x54000140, 0xfc0001fe, INSN_DSP, ENC_DALU, 0), + COND_INSN ("ASL", "", 1, DspMeta21, + 0x54000180, 0xfc0001fe, INSN_DSP, ENC_DALU, 0), + COND_INSN ("ASR", "", 1, DspMeta21, + 0x540001c0, 0xfc0001fe, INSN_DSP, ENC_DALU, 0), + { "LSLS", DspMeta21, + 0x58000100, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 }, + { "LSRS", DspMeta21, + 0x58000140, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 }, + { "ASLS", DspMeta21, + 0x58000180, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 }, + { "ASRS", DspMeta21, + 0x580001c0, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 }, + COND_INSN ("LSLS", "", 1, DspMeta21, + 0x5c000100, 0xfc0001fe, INSN_DSP, ENC_DALU, 0), + COND_INSN ("LSRS", "", 1, DspMeta21, + 0x5c000140, 0xfc0001fe, INSN_DSP, ENC_DALU, 0), + COND_INSN ("ASLS", "", 1, DspMeta21, + 0x5c000180, 0xfc0001fe, INSN_DSP, ENC_DALU, 0), + COND_INSN ("ASRS", "", 1, DspMeta21, + 0x5c0001c0, 0xfc0001fe, INSN_DSP, ENC_DALU, 0), + { "LSLS", DspMeta21, + 0x5c000120, 0xfc0001e0, INSN_DSP, ENC_DALU, 0 }, + { "LSRS", DspMeta21, + 0x5c000160, 0xfc0001e0, INSN_DSP, ENC_DALU, 0 }, + { "ASLS", DspMeta21, + 0x5c0001a0, 0xfc0001e0, INSN_DSP, ENC_DALU, 0 }, + { "ASRS", DspMeta21, + 0x5c0001e0, 0xfc0001e0, INSN_DSP, ENC_DALU, 0 }, + { "RTDW", DspMeta21, + 0xaa000106, 0xff00010e, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, + { "RTDSW", DspMeta21, + 0xaa00010e, 0xff00010e, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, + }; + +#define UNIT_MASK 0xf +#define SHORT_UNIT_MASK 0x3 +#define EXT_BASE_REG_MASK 0x1 +#define REG_MASK 0x1f +#define CC_MASK 0xf +#define RMASK_MASK 0x7f +#define GET_SET_IMM_MASK 0x3f +#define GET_SET_IMM_BITS 6 +#define GET_SET_EXT_IMM_MASK 0xfff +#define GET_SET_EXT_IMM_BITS 12 +#define DGET_SET_IMM_MASK 0x3 +#define DGET_SET_IMM_BITS 2 +#define MGET_MSET_MAX_REGS 8 +#define MMOV_MAX_REGS 8 +#define IMM16_MASK 0xffff +#define IMM16_BITS 16 +#define IMM19_MASK 0x7ffff +#define IMM19_BITS 19 +#define IMM8_MASK 0xff +#define IMM8_BITS 8 +#define IMM24_MASK 0xffffff +#define IMM24_BITS 24 +#define IMM5_MASK 0x1f +#define IMM5_BITS 5 +#define IMM6_MASK 0x3f +#define IMM6_BITS 6 +#define IMM15_MASK 0x7fff +#define IMM15_BITS 15 +#define IMM4_MASK 0x1f +#define IMM4_BITS 4 +#define CALLR_REG_MASK 0x7 +#define CPC_REG_MASK 0xf +#define O2R_REG_MASK 0x7 +#define ACF_PART_MASK 0x3 +#define DSP_REG_MASK 0xf +#define DSP_PART_MASK 0x17 +#define TEMPLATE_NUM_REGS 4 +#define TEMPLATE_REGS_MASK 0xf + +#define IS_TEMPLATE_DEF(insn) (insn->dsp_daoppame_flags & DSP_DAOPPAME_TEMP) + +unsigned int metag_get_set_size_bytes (unsigned int opcode); +unsigned int metag_get_set_ext_size_bytes (unsigned int opcode); +unsigned int metag_cond_set_size_bytes (unsigned int opcode); diff --git a/ld/ChangeLog b/ld/ChangeLog index 5ae45a7..5fe6ed4d 100644 --- a/ld/ChangeLog +++ b/ld/ChangeLog @@ -1,3 +1,11 @@ +2013-01-10 Will Newton <will.newton@imgtec.com> + + * Makefile.am: Add Meta. + * Makefile.in: Regenerate. + * configure.tgt: Add Meta. + * emulparams/elf32metag.sh: New file. + * emultempl/metagelf.em: New file. + 2013-01-09 Alan Modra <amodra@gmail.com> * emulparams/elf_x86_64.sh (LARGE_BSS_AFTER_BSS): Define. diff --git a/ld/Makefile.am b/ld/Makefile.am index 4c0db63..5fb039f 100644 --- a/ld/Makefile.am +++ b/ld/Makefile.am @@ -257,6 +257,7 @@ ALL_EMULATION_SOURCES = \ eelf32mb_linux.c \ eelf32mcore.c \ eelf32mep.c \ + eelf32metag.c \ eelf32microblazeel.c \ eelf32microblaze.c \ eelf32mipswindiss.c \ @@ -1157,6 +1158,10 @@ eelf32mcore.c: $(srcdir)/emulparams/elf32mcore.sh \ eelf32mep.c: $(srcdir)/emulparams/elf32mep.sh \ $(srcdir)/emultempl/elf32.em $(srcdir)/scripttempl/mep.sc ${GEN_DEPENDS} ${GENSCRIPTS} elf32mep "$(tdir_mep)" +eelf32metag.c: $(srcdir)/emulparams/elf32metag.sh \ + $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/metagelf.em \ + $(srcdir)/scripttempl/elf.sc ${GEN_DEPENDS} + ${GENSCRIPTS} elf32metag "$(tdir_metag)" eelf32microblazeel.c: $(srcdir)/emulparams/elf32microblazeel.sh \ $(srcdir)/emultempl/elf32.em $(srcdir)/scripttempl/elfmicroblaze.sc ${GEN_DEPENDS} ${GENSCRIPTS} elf32microblazeel "$(tdir_microblazeel)" diff --git a/ld/Makefile.in b/ld/Makefile.in index c326c41..a350bc0 100644 --- a/ld/Makefile.in +++ b/ld/Makefile.in @@ -565,6 +565,7 @@ ALL_EMULATION_SOURCES = \ eelf32mb_linux.c \ eelf32mcore.c \ eelf32mep.c \ + eelf32metag.c \ eelf32microblazeel.c \ eelf32microblaze.c \ eelf32mipswindiss.c \ @@ -1198,6 +1199,7 @@ distclean-compile: @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/eelf32mb_linux.Po@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/eelf32mcore.Po@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/eelf32mep.Po@am__quote@ +@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/eelf32metag.Po@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/eelf32microblaze.Po@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/eelf32microblazeel.Po@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/eelf32mipswindiss.Po@am__quote@ @@ -2640,6 +2642,10 @@ eelf32mcore.c: $(srcdir)/emulparams/elf32mcore.sh \ eelf32mep.c: $(srcdir)/emulparams/elf32mep.sh \ $(srcdir)/emultempl/elf32.em $(srcdir)/scripttempl/mep.sc ${GEN_DEPENDS} ${GENSCRIPTS} elf32mep "$(tdir_mep)" +eelf32metag.c: $(srcdir)/emulparams/elf32metag.sh \ + $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/metagelf.em \ + $(srcdir)/scripttempl/elf.sc ${GEN_DEPENDS} + ${GENSCRIPTS} elf32metag "$(tdir_metag)" eelf32microblazeel.c: $(srcdir)/emulparams/elf32microblazeel.sh \ $(srcdir)/emultempl/elf32.em $(srcdir)/scripttempl/elfmicroblaze.sc ${GEN_DEPENDS} ${GENSCRIPTS} elf32microblazeel "$(tdir_microblazeel)" @@ -1,5 +1,7 @@ -*- text -*- +* Add support for the Imagination Technologies Meta processor. + Changes in 2.23: * Enable compressed debug section feature for x86/x86_64 pe-coff. diff --git a/ld/configure.tgt b/ld/configure.tgt index ea55895..33e7a17 100644 --- a/ld/configure.tgt +++ b/ld/configure.tgt @@ -415,6 +415,7 @@ mcore-*-pe) targ_emul=mcorepe ; mcore-*-elf) targ_emul=elf32mcore ;; mep-*-elf) targ_emul=elf32mep ;; +metag-*-*) targ_emul=elf32metag ;; microblazeel*-linux*) targ_emul="elf32mbel_linux" targ_extra_emuls="elf32mb_linux" ;; diff --git a/ld/emulparams/elf32metag.sh b/ld/emulparams/elf32metag.sh new file mode 100644 index 0000000..861daba --- /dev/null +++ b/ld/emulparams/elf32metag.sh @@ -0,0 +1,30 @@ +MACHINE= +SCRIPT_NAME=elf +TEMPLATE_NAME=elf32 +GENERATE_SHLIB_SCRIPT=yes +GENERATE_PIE_SCRIPT=yes +OUTPUT_FORMAT="elf32-metag" +TEXT_START_ADDR=0x10005000 +ARCH=metag +MAXPAGESIZE="CONSTANT (MAXPAGESIZE)" +ENTRY=__start +NOP=0xa0fffffe +EXTRA_EM_FILE=metagelf +USER_LABEL_PREFIX=_ +OTHER_SECTIONS=" + .core_text 0x80000000 : + { + *(.core_text) + } + .core_data 0x82000000 : + { + *(.core_data) + *(.core_rodata) + } + .internal_memory 0xe0200000 : + { + *(.internal_text) + *(.internal_data) + *(.internal_rodata) + } +" diff --git a/ld/emultempl/metagelf.em b/ld/emultempl/metagelf.em new file mode 100644 index 0000000..8ab1272 --- /dev/null +++ b/ld/emultempl/metagelf.em @@ -0,0 +1,337 @@ +# This shell script emits a C file. -*- C -*- +# Copyright 2013 Free Software Foundation, Inc. +# +# This file is part of GNU Binutils. +# +# This program is free software; you can redistribute it and/or modify +# it under the terms of the GNU General Public License as published by +# the Free Software Foundation; either version 3 of the License, or +# (at your option) any later version. +# +# This program is distributed in the hope that it will be useful, +# but WITHOUT ANY WARRANTY; without even the implied warranty of +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +# GNU General Public License for more details. +# +# You should have received a copy of the GNU General Public License +# along with this program; if not, write to the Free Software +# Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, +# MA 02110-1301, USA. +# + +# This file is sourced from elf32.em, and defines extra metagelf +# specific routines. Taken from hppaelf.em. +# +fragment <<EOF + +#include "ldctor.h" +#include "elf32-metag.h" + + +/* Fake input file for stubs. */ +static lang_input_statement_type *stub_file; + +/* Whether we need to call metag_layout_sections_again. */ +static int need_laying_out = 0; + +/* Maximum size of a group of input sections that can be handled by + one stub section. A value of +/-1 indicates the bfd back-end + should use a suitable default size. */ +static bfd_signed_vma group_size = 1; + +/* This is called before the input files are opened. We create a new + fake input file to hold the stub sections. */ + +static void +metagelf_create_output_section_statements (void) +{ + extern const bfd_target bfd_elf32_metag_vec; + + if (link_info.output_bfd->xvec != &bfd_elf32_metag_vec) + return; + + stub_file = lang_add_input_file ("linker stubs", + lang_input_file_is_fake_enum, + NULL); + stub_file->the_bfd = bfd_create ("linker stubs", link_info.output_bfd); + if (stub_file->the_bfd == NULL + || ! bfd_set_arch_mach (stub_file->the_bfd, + bfd_get_arch (link_info.output_bfd), + bfd_get_mach (link_info.output_bfd))) + { + einfo ("%X%P: can not create BFD %E\n"); + return; + } + + stub_file->the_bfd->flags |= BFD_LINKER_CREATED; + ldlang_add_file (stub_file); +} + + +struct hook_stub_info +{ + lang_statement_list_type add; + asection *input_section; +}; + +/* Traverse the linker tree to find the spot where the stub goes. */ + +static bfd_boolean +hook_in_stub (struct hook_stub_info *info, lang_statement_union_type **lp) +{ + lang_statement_union_type *l; + bfd_boolean ret; + + for (; (l = *lp) != NULL; lp = &l->header.next) + { + switch (l->header.type) + { + case lang_constructors_statement_enum: + ret = hook_in_stub (info, &constructor_list.head); + if (ret) + return ret; + break; + + case lang_output_section_statement_enum: + ret = hook_in_stub (info, + &l->output_section_statement.children.head); + if (ret) + return ret; + break; + + case lang_wild_statement_enum: + ret = hook_in_stub (info, &l->wild_statement.children.head); + if (ret) + return ret; + break; + + case lang_group_statement_enum: + ret = hook_in_stub (info, &l->group_statement.children.head); + if (ret) + return ret; + break; + + case lang_input_section_enum: + if (l->input_section.section == info->input_section) + { + /* We've found our section. Insert the stub immediately + before its associated input section. */ + *lp = info->add.head; + *(info->add.tail) = l; + return TRUE; + } + break; + + case lang_data_statement_enum: + case lang_reloc_statement_enum: + case lang_object_symbols_statement_enum: + case lang_output_statement_enum: + case lang_target_statement_enum: + case lang_input_statement_enum: + case lang_assignment_statement_enum: + case lang_padding_statement_enum: + case lang_address_statement_enum: + case lang_fill_statement_enum: + break; + + default: + FAIL (); + break; + } + } + return FALSE; +} + + +/* Call-back for elf_metag_size_stubs. */ + +/* Create a new stub section, and arrange for it to be linked + immediately before INPUT_SECTION. */ + +static asection * +metagelf_add_stub_section (const char *stub_sec_name, asection *input_section) +{ + asection *stub_sec; + flagword flags; + asection *output_section; + const char *secname; + lang_output_section_statement_type *os; + struct hook_stub_info info; + + flags = (SEC_ALLOC | SEC_LOAD | SEC_READONLY | SEC_CODE + | SEC_HAS_CONTENTS | SEC_RELOC | SEC_IN_MEMORY | SEC_KEEP); + stub_sec = bfd_make_section_anyway_with_flags (stub_file->the_bfd, + stub_sec_name, flags); + if (stub_sec == NULL) + goto err_ret; + + output_section = input_section->output_section; + secname = bfd_get_section_name (output_section->owner, output_section); + os = lang_output_section_find (secname); + + info.input_section = input_section; + lang_list_init (&info.add); + lang_add_section (&info.add, stub_sec, NULL, os); + + if (info.add.head == NULL) + goto err_ret; + + if (hook_in_stub (&info, &os->children.head)) + return stub_sec; + + err_ret: + einfo ("%X%P: can not make stub section: %E\n"); + return NULL; +} + + +/* Another call-back for elf_metag_size_stubs. */ + +static void +metagelf_layout_sections_again (void) +{ + /* If we have changed sizes of the stub sections, then we need + to recalculate all the section offsets. This may mean we need to + add even more stubs. */ + gld${EMULATION_NAME}_map_segments (TRUE); + need_laying_out = -1; +} + + +static void +build_section_lists (lang_statement_union_type *statement) +{ + if (statement->header.type == lang_input_section_enum) + { + asection *i = statement->input_section.section; + + if (!((lang_input_statement_type *) i->owner->usrdata)->flags.just_syms + && (i->flags & SEC_EXCLUDE) == 0 + && i->output_section != NULL + && i->output_section->owner == link_info.output_bfd) + { + elf_metag_next_input_section (&link_info, i); + } + } +} + + +/* For Meta we use this opportunity to build linker stubs. */ + +static void +gld${EMULATION_NAME}_after_allocation (void) +{ + /* bfd_elf_discard_info just plays with data and debugging sections, + ie. doesn't affect code size, so we can delay resizing the + sections. It's likely we'll resize everything in the process of + adding stubs. */ + if (bfd_elf_discard_info (link_info.output_bfd, &link_info)) + need_laying_out = 1; + + /* If generating a relocatable output file, then we don't + have to examine the relocs. */ + if (stub_file != NULL && !link_info.relocatable) + { + int ret = elf_metag_setup_section_lists (link_info.output_bfd, + &link_info); + + if (ret != 0) + { + if (ret < 0) + { + einfo ("%X%P: can not size stub section: %E\n"); + return; + } + + lang_for_each_statement (build_section_lists); + + /* Call into the BFD backend to do the real work. */ + if (! elf_metag_size_stubs (link_info.output_bfd, + stub_file->the_bfd, + &link_info, + group_size, + &metagelf_add_stub_section, + &metagelf_layout_sections_again)) + { + einfo ("%X%P: can not size stub section: %E\n"); + return; + } + } + } + + if (need_laying_out != -1) + gld${EMULATION_NAME}_map_segments (need_laying_out); + + if (! link_info.relocatable) + { + /* Now build the linker stubs. */ + if (stub_file != NULL && stub_file->the_bfd->sections != NULL) + { + if (! elf_metag_build_stubs (&link_info)) + einfo ("%X%P: can not build stubs: %E\n"); + } + } +} + + +/* Avoid processing the fake stub_file in vercheck, stat_needed and + check_needed routines. */ + +static void (*real_func) (lang_input_statement_type *); + +static void metag_for_each_input_file_wrapper (lang_input_statement_type *l) +{ + if (l != stub_file) + (*real_func) (l); +} + +static void +metag_lang_for_each_input_file (void (*func) (lang_input_statement_type *)) +{ + real_func = func; + lang_for_each_input_file (&metag_for_each_input_file_wrapper); +} + +#define lang_for_each_input_file metag_lang_for_each_input_file + +EOF + +# Define some shell vars to insert bits of code into the standard elf +# parse_args and list_options functions. +# +PARSE_AND_LIST_PROLOGUE=' +#define OPTION_STUBGROUP_SIZE 301 +' + +PARSE_AND_LIST_LONGOPTS=' + { "stub-group-size", required_argument, NULL, OPTION_STUBGROUP_SIZE }, +' + +PARSE_AND_LIST_OPTIONS=' + fprintf (file, _("\ + --stub-group-size=N Maximum size of a group of input sections that\n\ + can be handled by one stub section. A negative\n\ + value locates all stubs before their branches\n\ + (with a group size of -N), while a positive\n\ + value allows two groups of input sections, one\n\ + before, and one after each stub section.\n\ + Values of +/-1 indicate the linker should\n\ + choose suitable defaults.\n" + )); +' + +PARSE_AND_LIST_ARGS_CASES=' + case OPTION_STUBGROUP_SIZE: + { + const char *end; + group_size = bfd_scan_vma (optarg, &end, 0); + if (*end) + einfo (_("%P%F: invalid number `%s'\''\n"), optarg); + } + break; +' + +# Put these extra metagelf routines in ld_${EMULATION_NAME}_emulation +# +LDEMUL_AFTER_ALLOCATION=gld${EMULATION_NAME}_after_allocation +LDEMUL_CREATE_OUTPUT_SECTION_STATEMENTS=metagelf_create_output_section_statements diff --git a/ld/testsuite/ChangeLog b/ld/testsuite/ChangeLog index 3df6a67..f5563e4 100644 --- a/ld/testsuite/ChangeLog +++ b/ld/testsuite/ChangeLog @@ -1,3 +1,26 @@ +2013-01-10 Will Newton <will.newton@imgtec.com> + + * ld-elf/merge.d: Mark Meta as xfail. + * ld-gc/start.d: Skip this test on Meta. + * ld-gc/personality.d: Skip this test on Meta. + * ld-metag/external.s: New file. + * ld-metag/metag.exp: New file. + * ld-metag/pcrel.d: New file. + * ld-metag/pcrel.s: New file. + * ld-metag/shared.d: New file. + * ld-metag/shared.r: New file. + * ld-metag/shared.s: New file. + * ld-metag/stub.d: New file. + * ld-metag/stub.s: New file. + * ld-metag/stub_pic_app.d: New file. + * ld-metag/stub_pic_app.r: New file. + * ld-metag/stub_pic_app.s: New file. + * ld-metag/stub_pic_shared.d: New file. + * ld-metag/stub_pic_shared.s: New file. + * ld-metag/stub_shared.d: New file. + * ld-metag/stub_shared.r: New file. + * ld-metag/stub_shared.s: New file. + 2013-01-08 Thomas Schwinge <thomas@codesourcery.com> * ld-i386/export-class.exp: Restore (and reword) comment about diff --git a/ld/testsuite/ld-elf/merge.d b/ld/testsuite/ld-elf/merge.d index 83b5698..3593f96 100644 --- a/ld/testsuite/ld-elf/merge.d +++ b/ld/testsuite/ld-elf/merge.d @@ -6,7 +6,7 @@ #xfail: "i370-*-*" "i860-*-*" "i960-*-*" "ip2k-*-*" "iq2000-*-*" "lm32-*-*" #xfail: "mcore-*-*" "mn102*-*-*" "mips*-*-*" "ms1-*-*" "msp430-*-*" "mep-*-*" #xfail: "or32-*-*" "pj-*-*" "sparc*-*-*" "tic6x-*-*" "vax-*-*" "xstormy16-*-*" -#xfail: "xtensa*-*-*" +#xfail: "xtensa*-*-*" "metag-*-*" .*: file format .*elf.* diff --git a/ld/testsuite/ld-gc/personality.d b/ld/testsuite/ld-gc/personality.d index 89fe8b4..f3cf652 100644 --- a/ld/testsuite/ld-gc/personality.d +++ b/ld/testsuite/ld-gc/personality.d @@ -1,7 +1,7 @@ #name: --gc-sections with __gxx_personality #ld: --gc-sections -e main -L tmpdir -lpersonality #nm: -n -#xfail: bfin-*-* cris*-*-* frv-*-* mn10300-*-* vax-*-* xtensa-*-* +#xfail: bfin-*-* cris*-*-* frv-*-* mn10300-*-* vax-*-* xtensa-*-* metag-*-* # above targets don't support cfi #failif diff --git a/ld/testsuite/ld-gc/start.d b/ld/testsuite/ld-gc/start.d index d7e47b2..18e74c1 100644 --- a/ld/testsuite/ld-gc/start.d +++ b/ld/testsuite/ld-gc/start.d @@ -2,7 +2,7 @@ #ld: --gc-sections -e _start #nm: -n #target: *-*-linux* *-*-gnu* -#notarget: *-*-*aout *-*-*oldld frv-*-linux* +#notarget: *-*-*aout *-*-*oldld frv-*-linux* metag-*-linux* #... [0-9a-f]+ D +__start__foo diff --git a/opcodes/ChangeLog b/opcodes/ChangeLog index b8c2246..0316cce 100644 --- a/opcodes/ChangeLog +++ b/opcodes/ChangeLog @@ -1,3 +1,12 @@ +2013-01-10 Will Newton <will.newton@imgtec.com> + + * Makefile.am: Add Meta. + * configure.in: Add Meta. + * disassemble.c: Add Meta support. + * metag-dis.c: New file. + * Makefile.in: Regenerate. + * configure: Regenerate. + 2013-01-07 Kaushik Phatak <kaushik.phatak@kpitcummins.com> * cr16-dis.c (make_instruction): Rename to cr16_make_instruction. diff --git a/opcodes/Makefile.am b/opcodes/Makefile.am index eb6b39f..e161490 100644 --- a/opcodes/Makefile.am +++ b/opcodes/Makefile.am @@ -189,6 +189,7 @@ TARGET_LIBOPCODES_CFILES = \ mep-dis.c \ mep-ibld.c \ mep-opc.c \ + metag-dis.c \ microblaze-dis.c \ micromips-opc.c \ mips-dis.c \ diff --git a/opcodes/Makefile.in b/opcodes/Makefile.in index 06fd275..c8eae65 100644 --- a/opcodes/Makefile.in +++ b/opcodes/Makefile.in @@ -461,6 +461,7 @@ TARGET_LIBOPCODES_CFILES = \ mep-dis.c \ mep-ibld.c \ mep-opc.c \ + metag-dis.c \ microblaze-dis.c \ micromips-opc.c \ mips-dis.c \ @@ -857,6 +858,7 @@ distclean-compile: @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/mep-dis.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/mep-ibld.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/mep-opc.Plo@am__quote@ +@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/metag-dis.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/microblaze-dis.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/micromips-opc.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/mips-dis.Plo@am__quote@ diff --git a/opcodes/configure b/opcodes/configure index cd8a371..4a8ff54 100755 --- a/opcodes/configure +++ b/opcodes/configure @@ -12532,6 +12532,7 @@ if test x${all_targets} = xfalse ; then bfd_m88k_arch) ta="$ta m88k-dis.lo" ;; bfd_mcore_arch) ta="$ta mcore-dis.lo" ;; bfd_mep_arch) ta="$ta mep-asm.lo mep-desc.lo mep-dis.lo mep-ibld.lo mep-opc.lo" using_cgen=yes ;; + bfd_metag_arch) ta="$ta metag-dis.lo" ;; bfd_microblaze_arch) ta="$ta microblaze-dis.lo" ;; bfd_mips_arch) ta="$ta mips-dis.lo mips-opc.lo mips16-opc.lo micromips-opc.lo" ;; bfd_mmix_arch) ta="$ta mmix-dis.lo mmix-opc.lo" ;; diff --git a/opcodes/configure.in b/opcodes/configure.in index d78f5c4..5f9b3a3 100644 --- a/opcodes/configure.in +++ b/opcodes/configure.in @@ -285,6 +285,7 @@ if test x${all_targets} = xfalse ; then bfd_m88k_arch) ta="$ta m88k-dis.lo" ;; bfd_mcore_arch) ta="$ta mcore-dis.lo" ;; bfd_mep_arch) ta="$ta mep-asm.lo mep-desc.lo mep-dis.lo mep-ibld.lo mep-opc.lo" using_cgen=yes ;; + bfd_metag_arch) ta="$ta metag-dis.lo" ;; bfd_microblaze_arch) ta="$ta microblaze-dis.lo" ;; bfd_mips_arch) ta="$ta mips-dis.lo mips-opc.lo mips16-opc.lo micromips-opc.lo" ;; bfd_mmix_arch) ta="$ta mmix-dis.lo mmix-opc.lo" ;; diff --git a/opcodes/disassemble.c b/opcodes/disassemble.c index b3ff6ff..2073a5e 100644 --- a/opcodes/disassemble.c +++ b/opcodes/disassemble.c @@ -58,6 +58,7 @@ #define ARCH_m88k #define ARCH_mcore #define ARCH_mep +#define ARCH_metag #define ARCH_microblaze #define ARCH_mips #define ARCH_mmix @@ -309,6 +310,11 @@ disassembler (abfd) disassemble = print_insn_mep; break; #endif +#ifdef ARCH_metag + case bfd_arch_metag: + disassemble = print_insn_metag; + break; +#endif #ifdef ARCH_mips case bfd_arch_mips: if (bfd_big_endian (abfd)) @@ -581,6 +587,11 @@ disassemble_init_for_target (struct disassemble_info * info) info->skip_zeroes_at_end = 0; break; #endif +#ifdef ARCH_metag + case bfd_arch_metag: + info->disassembler_needs_relocs = TRUE; + break; +#endif #ifdef ARCH_m32c case bfd_arch_m32c: /* This processor in fact is little endian. The value set here diff --git a/opcodes/metag-dis.c b/opcodes/metag-dis.c new file mode 100644 index 0000000..8a03a92 --- /dev/null +++ b/opcodes/metag-dis.c @@ -0,0 +1,3384 @@ +/* Disassemble Imagination Technologies Meta instructions. + Copyright (C) 2013 Free Software Foundation, Inc. + Contributed by Imagination Technologies Ltd. + + This library is free software; you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation; either version 3 of the License, or + (at your option) any later version. + + It is distributed in the hope that it will be useful, but WITHOUT + ANY WARRANTY; without even the implied warranty of MERCHANTABILITY + or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public + License for more details. + + You should have received a copy of the GNU General Public License + along with this program; if not, write to the Free Software + Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, + MA 02110-1301, USA. */ + +#include "sysdep.h" +#include "dis-asm.h" +#include "opintl.h" + +#include <stdio.h> +#include <stdlib.h> +#include <string.h> + +#include "opcode/metag.h" + +/* Column widths for printing. */ +#define PREFIX_WIDTH "10" +#define INSN_NAME_WIDTH "10" + +#define OPERAND_WIDTH 92 +#define ADDR_WIDTH 20 +#define REG_WIDTH 50 +#define DSP_PREFIX_WIDTH 17 + +/* Value to print if we fail to parse a register name. */ +const char unknown_reg[] = "?"; + +/* Return the size of a GET or SET instruction. */ +unsigned int +metag_get_set_size_bytes (unsigned int opcode) +{ + switch (((opcode) >> 24) & 0x5) + { + case 0x5: + return 8; + case 0x4: + return 4; + case 0x1: + return 2; + case 0x0: + return 1; + } + return 1; +} + +/* Return the size of an extended GET or SET instruction. */ +unsigned int +metag_get_set_ext_size_bytes (unsigned int opcode) +{ + switch (((opcode) >> 1) & 0x3) + { + case 0x3: + return 8; + case 0x2: + return 4; + case 0x1: + return 2; + case 0x0: + return 1; + } + return 1; +} + +/* Return the size of a conditional SET instruction. */ +unsigned int +metag_cond_set_size_bytes (unsigned int opcode) +{ + switch (opcode & 0x201) + { + case 0x201: + return 8; + case 0x200: + return 4; + case 0x001: + return 2; + case 0x000: + return 1; + } + return 1; +} + +/* Return a value sign-extended. */ +static int +sign_extend (int n, unsigned int bits) +{ + int mask = 1 << (bits - 1); + return -(n & mask) | n; +} + +/* Return the short interpretation of UNIT. */ +static unsigned int +short_unit (unsigned int unit) +{ + if (unit == UNIT_CT) + return UNIT_A1; + else + return unit; +} + +/* Return the register corresponding to UNIT and NUMBER or NULL. */ +static const metag_reg * +lookup_reg (unsigned int unit, unsigned int number) +{ + size_t i; + + for (i = 0; i < sizeof(metag_regtab)/sizeof(metag_regtab[0]); i++) + { + const metag_reg *reg = &metag_regtab[i]; + + if (reg->unit == unit && reg->no == number) + return reg; + } + return NULL; +} + + +/* Return the register name corresponding to UNIT and NUMBER or NULL. */ +static const char * +lookup_reg_name (unsigned int unit, unsigned int number) +{ + const metag_reg *reg; + + reg = lookup_reg (unit, number); + + if (reg) + return reg->name; + else + return unknown_reg; +} + +/* Return the unit that is the pair of UNIT. */ +static unsigned int +get_pair_unit (unsigned int unit) +{ + switch (unit) + { + case UNIT_D0: + return UNIT_D1; + case UNIT_D1: + return UNIT_D0; + case UNIT_A0: + return UNIT_A1; + case UNIT_A1: + return UNIT_A0; + default: + return unit; + } +} + +/* Return the name of the pair register for UNIT and NUMBER or NULL. */ +static const char * +lookup_pair_reg_name (unsigned int unit, unsigned int number) +{ + if (unit == UNIT_FX) + return lookup_reg_name (unit, number + 1); + else + return lookup_reg_name (get_pair_unit (unit), number); +} + +/* Return the name of the accumulator register for PART. */ +static const char * +lookup_acf_name (unsigned int part) +{ + size_t i; + + for (i = 0; i < sizeof(metag_acftab)/sizeof(metag_acftab[0]); i++) + { + const metag_acf *acf = &metag_acftab[i]; + + if (acf->part == part) + return acf->name; + } + return "ACF.?"; +} + +/* Return the register name for the O2R register for UNIT and NUMBER. */ +static const char * +lookup_o2r (enum metag_unit unit, unsigned int number) +{ + unsigned int o2r_unit; + enum metag_unit actual_unit = UNIT_A0; + const metag_reg *reg; + + o2r_unit = (number & ~O2R_REG_MASK) >> 3; + number = number & O2R_REG_MASK; + + if (unit == UNIT_A0) + { + switch (o2r_unit) + { + case 0: + actual_unit = UNIT_A1; + break; + case 1: + actual_unit = UNIT_D0; + break; + case 2: + actual_unit = UNIT_RD; + break; + case 3: + actual_unit = UNIT_D1; + break; + } + } + else if (unit == UNIT_A1) + { + switch (o2r_unit) + { + case 0: + actual_unit = UNIT_D1; + break; + case 1: + actual_unit = UNIT_D0; + break; + case 2: + actual_unit = UNIT_RD; + break; + case 3: + actual_unit = UNIT_A0; + break; + } + } + else if (unit == UNIT_D0) + { + switch (o2r_unit) + { + case 0: + actual_unit = UNIT_A1; + break; + case 1: + actual_unit = UNIT_D1; + break; + case 2: + actual_unit = UNIT_RD; + break; + case 3: + actual_unit = UNIT_A0; + break; + } + } + else if (unit == UNIT_D1) + { + switch (o2r_unit) + { + case 0: + actual_unit = UNIT_A1; + break; + case 1: + actual_unit = UNIT_D0; + break; + case 2: + actual_unit = UNIT_RD; + break; + case 3: + actual_unit = UNIT_A0; + break; + } + } + + reg = lookup_reg (actual_unit, number); + + if (reg) + return reg->name; + else + return unknown_reg; +} + +/* Return the string for split condition code CODE. */ +static const char * +lookup_scc_flags (unsigned int code) +{ + size_t i; + + for (i = 0; i < sizeof (metag_dsp_scondtab) / sizeof (metag_dsp_scondtab[0]); i++) + { + if (metag_dsp_scondtab[i].code == code) + { + return metag_dsp_scondtab[i].name; + } + } + return NULL; +} + +/* Return the string for FPU split condition code CODE. */ +static const char * +lookup_fpu_scc_flags (unsigned int code) +{ + size_t i; + + for (i = 0; i < sizeof (metag_fpu_scondtab) / sizeof (metag_fpu_scondtab[0]); i++) + { + if (metag_fpu_scondtab[i].code == code) + { + return metag_fpu_scondtab[i].name; + } + } + return NULL; +} + +/* Print an instruction with PREFIX, NAME and OPERANDS. */ +static void +print_insn (disassemble_info *outf, const char *prefix, const char *name, + const char *operands) +{ + outf->fprintf_func (outf->stream, "%-" PREFIX_WIDTH "s%-" INSN_NAME_WIDTH "s%s", prefix, name, operands); +} + +/* Print an instruction with no operands. */ +static void +print_none (unsigned int insn_word ATTRIBUTE_UNUSED, + bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + outf->fprintf_func (outf->stream, "%-" PREFIX_WIDTH "s%s", "", + template->name); +} + +/* Print a unit to unit MOV instruction. */ +static void +print_mov_u2u (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + unsigned int dest_unit, dest_no, src_unit, src_no; + unsigned int is_kick = (insn_word & 0x1) && !((insn_word >> 9) & 0x1); + unsigned int major = MAJOR_OPCODE (insn_word); + unsigned int minor = MINOR_OPCODE (insn_word); + char buf[OPERAND_WIDTH]; + const char *dest_reg; + const char *src_reg; + + dest_unit = (insn_word >> 5) & UNIT_MASK; + dest_no = (insn_word >> 14) & REG_MASK; + + dest_reg = lookup_reg_name (dest_unit, dest_no); + + if (is_kick) + src_unit = UNIT_TR; + else + src_unit = (insn_word >> 10) & UNIT_MASK; + + /* This is really an RTI/RTH. No, really. */ + if (major == OPC_MISC && + minor == 0x3 && + src_unit == 0xf) + { + if (insn_word & 0x800000) + outf->fprintf_func (outf->stream, "%-" PREFIX_WIDTH "s%s", "", + "RTI"); + else + outf->fprintf_func (outf->stream, "%-" PREFIX_WIDTH "s%s", "", + "RTH"); + + return; + } + + src_no = (insn_word >> 19) & REG_MASK; + + src_reg = lookup_reg_name (src_unit, src_no); + + snprintf (buf, OPERAND_WIDTH, "%s,%s", dest_reg, src_reg); + + if (dest_unit == UNIT_FX || src_unit == UNIT_FX) + print_insn (outf, "F", template->name, buf); + else + print_insn (outf, "", template->name, buf); +} + +/* Print a MOV to port instruction. */ +static void +print_mov_port (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + unsigned int dest_unit, dest1_no, dest2_no, src_unit, src_no; + unsigned int is_movl = MINOR_OPCODE (insn_word) == MOVL_MINOR; + char buf[OPERAND_WIDTH]; + const char *dest_reg; + const char *pair_reg; + const char *src_reg; + + if (is_movl) + dest_unit = short_unit ((insn_word >> 5) & SHORT_UNIT_MASK); + else + dest_unit = (insn_word >> 5) & UNIT_MASK; + + dest1_no = (insn_word >> 14) & REG_MASK; + dest2_no = (insn_word >> 9) & REG_MASK; + + dest_reg = lookup_reg_name (dest_unit, dest1_no); + pair_reg = lookup_pair_reg_name (dest_unit, dest2_no); + + src_unit = UNIT_RD; + src_no = 0; + + src_reg = lookup_reg_name (src_unit, src_no); + + if (is_movl) + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s", dest_reg, pair_reg, src_reg); + else + snprintf (buf, OPERAND_WIDTH, "%s,%s", dest_reg, src_reg); + + if (dest_unit == UNIT_FX) + print_insn (outf, "F", template->name, buf); + else + print_insn (outf, "", template->name, buf); +} + +/* Return the number of bits set in rmask. */ +static unsigned int hweight (unsigned int rmask) +{ + unsigned int count; + + for (count = 0; rmask; count++) + { + rmask &= rmask - 1; + } + + return count; +} + +/* Print a MOVL to TTREC instruction. */ +static void +print_movl_ttrec (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + unsigned int dest_unit, dest_no, src1_no, src2_no, src_unit; + char buf[OPERAND_WIDTH]; + const char *dest_reg; + const char *src_reg; + const char *pair_reg; + + dest_unit = UNIT_TT; + dest_no = 3; + + dest_reg = lookup_reg_name (dest_unit, dest_no); + + src1_no = (insn_word >> 19) & REG_MASK; + src2_no = (insn_word >> 14) & REG_MASK; + + src_unit = short_unit ((insn_word >> 7) & SHORT_UNIT_MASK); + + src_reg = lookup_reg_name (src_unit, src1_no); + pair_reg = lookup_pair_reg_name (src_unit, src2_no); + + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s", dest_reg, src_reg, pair_reg); + + print_insn (outf, "", template->name, buf); +} + +/* Format a GET or SET address mode string from INSN_WORD into BUF. */ +static void +get_set_addr_str (char *buf, unsigned int buf_size, unsigned int size, + unsigned int insn_word) +{ + const char *base_reg; + unsigned int base_unit, base_no; + unsigned int imm = (insn_word >> 25) & 1; + unsigned int ua = (insn_word >> 7) & 1; + unsigned int pp = insn_word & 1; + + base_unit = short_unit ((insn_word >> 5) & SHORT_UNIT_MASK); + base_no = (insn_word >> 14) & REG_MASK; + + base_reg = lookup_reg_name (base_unit, base_no); + + if (imm) + { + int offset = (insn_word >> 8) & GET_SET_IMM_MASK; + + offset = sign_extend (offset, GET_SET_IMM_BITS); + + if (offset == 0) + { + snprintf (buf, buf_size, "[%s]", base_reg); + return; + } + + if (offset == 1 && ua) + { + if (pp) + snprintf (buf, buf_size, "[%s++]", base_reg); + else + snprintf (buf, buf_size, "[++%s]", base_reg); + + return; + } + else if (offset == -1 && ua) + { + if (pp) + snprintf (buf, buf_size, "[%s--]", base_reg); + else + snprintf (buf, buf_size, "[--%s]", base_reg); + + return; + } + + offset = offset * size; + + if (ua) + { + if (pp) + snprintf (buf, buf_size, "[%s+#%d++]", base_reg, offset); + else + snprintf (buf, buf_size, "[%s++#%d]", base_reg, offset); + } + else + snprintf (buf, buf_size, "[%s+#%d]", base_reg, offset); + } + else + { + const char *offset_reg; + unsigned int offset_no; + + offset_no = (insn_word >> 9) & REG_MASK; + + offset_reg = lookup_reg_name (base_unit, offset_no); + + if (ua) + { + if (pp) + snprintf (buf, buf_size, "[%s+%s++]", base_reg, offset_reg); + else + snprintf (buf, buf_size, "[%s++%s]", base_reg, offset_reg); + } + else + snprintf (buf, buf_size, "[%s+%s]", base_reg, offset_reg); + } +} + +/* Format an extended GET or SET address mode string from INSN_WORD into BUF. */ +static void +get_set_ext_addr_str (char *buf, unsigned int buf_size, unsigned int size, + unsigned int insn_word) +{ + const char *base_reg; + unsigned int base_unit, base_no; + int offset; + + base_unit = short_unit ((insn_word >> 5) & SHORT_UNIT_MASK); + base_no = insn_word & EXT_BASE_REG_MASK; + + base_reg = lookup_reg_name (base_unit, base_no); + + offset = (insn_word >> 7) & GET_SET_EXT_IMM_MASK; + + offset = sign_extend (offset, GET_SET_EXT_IMM_BITS); + + offset = offset * size; + + if (offset == 0) + { + snprintf (buf, buf_size, "[%s]", base_reg); + } + else + { + snprintf (buf, buf_size, "[%s+#%d]", base_reg, offset); + } +} + +/* Format an MGET or MSET address mode string from INSN_WORD into BUF. */ +static void +mget_mset_addr_str (char *buf, unsigned int buf_size, + unsigned int insn_word) +{ + const char *base_reg; + unsigned int base_unit, base_no; + + base_unit = short_unit ((insn_word >> 5) & SHORT_UNIT_MASK); + base_no = (insn_word >> 14) & REG_MASK; + + base_reg = lookup_reg_name (base_unit, base_no); + + snprintf (buf, buf_size, "[%s++]", base_reg); +} + +/* Format a conditional SET address mode string from INSN_WORD into BUF. */ +static void +cond_set_addr_str (char *buf, unsigned int buf_size, + unsigned int insn_word) +{ + const char *base_reg; + unsigned int base_unit, base_no; + + base_unit = short_unit ((insn_word >> 5) & SHORT_UNIT_MASK); + base_no = (insn_word >> 14) & REG_MASK; + + base_reg = lookup_reg_name (base_unit, base_no); + + snprintf (buf, buf_size, "[%s]", base_reg); +} + +/* Format a cache instruction address mode string from INSN_WORD into BUF. */ +static void +cache_addr_str (char *buf, unsigned int buf_size, unsigned int insn_word, + int width) +{ + const char *base_reg; + unsigned int base_unit, base_no; + int offset; + + base_unit = short_unit ((insn_word >> 5) & SHORT_UNIT_MASK); + base_no = (insn_word >> 14) & REG_MASK; + + base_reg = lookup_reg_name (base_unit, base_no); + + offset = (insn_word >> 8) & GET_SET_IMM_MASK; + + offset = sign_extend (offset, GET_SET_IMM_BITS); + + offset = offset * width; + + if (offset == 0) + { + snprintf (buf, buf_size, "[%s]", base_reg); + } + else + { + snprintf (buf, buf_size, "[%s+#%d]", base_reg, offset); + } +} + +/* Format a list of registers starting at REG_UNIT and REG_NO and conforming + to RMASK into BUF. */ +static void +lookup_reg_list (char *reg_buf, size_t buf_len, unsigned int reg_unit, + unsigned int reg_no, unsigned int rmask, + bfd_boolean is_fpu_64bit) +{ + const char *regs[MGET_MSET_MAX_REGS]; + size_t used_regs = 1, i, remaining; + + regs[0] = lookup_reg_name (reg_unit, reg_no); + + for (i = 1; i < MGET_MSET_MAX_REGS; i++) + { + if (rmask & 1) + { + if (is_fpu_64bit) + regs[used_regs] = lookup_reg_name (reg_unit, reg_no + (i * 2)); + else + regs[used_regs] = lookup_reg_name (reg_unit, reg_no + i); + used_regs++; + } + rmask = rmask >> 1; + } + + remaining = buf_len; + + for (i = 0; i < used_regs; i++) + { + size_t len; + if (i == 0) + len = snprintf(reg_buf, remaining, "%s", regs[i]); + else + len = snprintf(reg_buf, remaining, ",%s", regs[i]); + + reg_buf += len; + remaining -= len; + } +} + +/* Print a GET instruction. */ +static void +print_get (char *buf, char *addr_buf, unsigned int size, + const char *dest_reg, const char *pair_reg, unsigned int reg_unit, + const insn_template *template, + disassemble_info *outf) +{ + if (size == 8) + { + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s", dest_reg, pair_reg, + addr_buf); + } + else + { + snprintf (buf, OPERAND_WIDTH, "%s,%s", dest_reg, addr_buf); + } + + if (reg_unit == UNIT_FX) + print_insn (outf, "F", template->name, buf); + else + print_insn (outf, "", template->name, buf); +} + +/* Print a SET instruction. */ +static void +print_set (char *buf, char *addr_buf, unsigned int size, + const char *src_reg, const char *pair_reg, unsigned int reg_unit, + const insn_template *template, + disassemble_info *outf) +{ + if (size == 8) + { + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s", addr_buf, src_reg, pair_reg); + } + else + { + snprintf (buf, OPERAND_WIDTH, "%s,%s", addr_buf, src_reg); + } + + if (reg_unit == UNIT_FX) + print_insn (outf, "F", template->name, buf); + else + print_insn (outf, "", template->name, buf); +} + +/* Print a GET or SET instruction. */ +static void +print_get_set (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + bfd_boolean is_get = MAJOR_OPCODE (template->meta_opcode) == OPC_GET; + char buf[OPERAND_WIDTH]; + char addr_buf[ADDR_WIDTH]; + unsigned int reg_unit, reg_no; + unsigned int size = metag_get_set_size_bytes (insn_word); + const char *reg_name; + const char *pair_reg; + + reg_unit = (insn_word >> 1) & UNIT_MASK; + reg_no = (insn_word >> 19) & REG_MASK; + + /* SETs should always print RD. */ + if (!is_get && reg_unit == UNIT_RD) + reg_no = 0; + + reg_name = lookup_reg_name (reg_unit, reg_no); + + pair_reg = lookup_pair_reg_name (reg_unit, reg_no); + + get_set_addr_str (addr_buf, ADDR_WIDTH, size, insn_word); + + if (is_get) + { + /* RD regs are 64 bits wide so don't use the pair syntax. */ + if (reg_unit == UNIT_RD) + print_get (buf, addr_buf, 4, reg_name, pair_reg, reg_unit, + template, outf); + else + print_get (buf, addr_buf, size, reg_name, pair_reg, reg_unit, + template, outf); + } + else + { + /* RD regs are 64 bits wide so don't use the pair syntax. */ + if (reg_unit == UNIT_RD) + print_set (buf, addr_buf, 4, reg_name, pair_reg, reg_unit, + template, outf); + else + print_set (buf, addr_buf, size, reg_name, pair_reg, reg_unit, + template, outf); + } +} + +/* Print an extended GET or SET instruction. */ +static void +print_get_set_ext (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + bfd_boolean is_get = MINOR_OPCODE (template->meta_opcode) == GET_EXT_MINOR; + bfd_boolean is_mov = MINOR_OPCODE (template->meta_opcode) == MOV_EXT_MINOR; + char buf[OPERAND_WIDTH]; + char addr_buf[ADDR_WIDTH]; + unsigned int reg_unit, reg_no; + unsigned int size = metag_get_set_ext_size_bytes (insn_word); + const char *reg_name; + const char *pair_reg; + + if (is_mov) + reg_unit = UNIT_RD; + else + reg_unit = short_unit ((insn_word >> 3) & SHORT_UNIT_MASK); + + reg_no = (insn_word >> 19) & REG_MASK; + + reg_name = lookup_reg_name (reg_unit, reg_no); + + pair_reg = lookup_pair_reg_name (reg_unit, reg_no); + + get_set_ext_addr_str (addr_buf, ADDR_WIDTH, size, insn_word); + + if (is_get) + print_get (buf, addr_buf, size, reg_name, pair_reg, reg_unit, + template, outf); + else if (is_mov) + print_get (buf, addr_buf, 4, reg_name, pair_reg, reg_unit, + template, outf); + else + print_set (buf, addr_buf, size, reg_name, pair_reg, reg_unit, + template, outf); +} + +/* Print an MGET or MSET instruction. */ +static void +print_mget_mset (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + bfd_boolean is_get = MAJOR_OPCODE (template->meta_opcode) == OPC_GET; + bfd_boolean is_fpu = (MINOR_OPCODE (template->meta_opcode) & 0x6) == 0x6; + bfd_boolean is_64bit = (MINOR_OPCODE (template->meta_opcode) & 0x1) == 0x1; + char buf[OPERAND_WIDTH]; + char addr_buf[ADDR_WIDTH]; + char reg_buf[REG_WIDTH]; + unsigned int reg_unit, reg_no, rmask; + + if (is_fpu) + reg_unit = UNIT_FX; + else + reg_unit = short_unit ((insn_word >> 3) & SHORT_UNIT_MASK); + + reg_no = (insn_word >> 19) & REG_MASK; + rmask = (insn_word >> 7) & RMASK_MASK; + + lookup_reg_list (reg_buf, REG_WIDTH, reg_unit, reg_no, rmask, + is_fpu && is_64bit); + + mget_mset_addr_str (addr_buf, ADDR_WIDTH, insn_word); + + if (is_get) + snprintf (buf, OPERAND_WIDTH, "%s,%s", reg_buf, addr_buf); + else + snprintf (buf, OPERAND_WIDTH, "%s,%s", addr_buf, reg_buf); + + if (is_fpu) + print_insn (outf, "F", template->name, buf); + else + print_insn (outf, "", template->name, buf); +} + +/* Print a conditional SET instruction. */ +static void +print_cond_set (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + char addr_buf[ADDR_WIDTH]; + unsigned int src_unit, src_no; + unsigned int size = metag_cond_set_size_bytes (insn_word); + const char *src_reg; + const char *pair_reg; + + src_unit = (insn_word >> 10) & UNIT_MASK; + src_no = (insn_word >> 19) & REG_MASK; + + if (src_unit == UNIT_RD) + src_no = 0; + + src_reg = lookup_reg_name (src_unit, src_no); + + pair_reg = lookup_pair_reg_name (src_unit, src_no); + + cond_set_addr_str (addr_buf, ADDR_WIDTH, insn_word); + + if (src_unit == UNIT_RD) + print_set (buf, addr_buf, 4, src_reg, pair_reg, src_unit, + template, outf); + else + print_set (buf, addr_buf, size, src_reg, pair_reg, src_unit, + template, outf); +} + +/* Print a MMOV instruction. */ +static void +print_mmov (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + unsigned int is_fpu = template->insn_type == INSN_FPU; + unsigned int is_prime = ((MINOR_OPCODE (template->meta_opcode) & 0x2) && + !is_fpu); + unsigned int is_64bit = MINOR_OPCODE (template->meta_opcode) & 0x1; + unsigned int is_dsp = template->meta_opcode & 0x1; + unsigned int dest_unit, dest_no, rmask; + char buf[OPERAND_WIDTH]; + char reg_buf[REG_WIDTH]; + char addr_buf[ADDR_WIDTH]; + + if (is_fpu) + dest_no = (insn_word >> 14) & REG_MASK; + else + dest_no = (insn_word >> 19) & REG_MASK; + + rmask = (insn_word >> 7) & RMASK_MASK; + + if (is_prime) + { + const char *dest_reg; + const char *base_reg; + unsigned int base_unit, base_no; + int i, count = hweight (rmask); + + dest_reg = lookup_reg_name (UNIT_RD, dest_no); + + strcpy (reg_buf, dest_reg); + + for (i = 0; i < count; i++) + { + strcat (reg_buf, ","); + strcat (reg_buf, dest_reg); + } + + base_unit = short_unit ((insn_word >> 5) & SHORT_UNIT_MASK); + base_no = (insn_word >> 14) & REG_MASK; + + base_reg = lookup_reg_name (base_unit, base_no); + + snprintf (addr_buf, ADDR_WIDTH, "[%s++]", base_reg); + + snprintf (buf, OPERAND_WIDTH, "%s,%s", reg_buf, addr_buf); + } + else + { + if (is_fpu) + dest_unit = UNIT_FX; + else + dest_unit = short_unit ((insn_word >> 3) & SHORT_UNIT_MASK); + + lookup_reg_list (reg_buf, REG_WIDTH, dest_unit, dest_no, rmask, + is_fpu && is_64bit); + + snprintf (buf, OPERAND_WIDTH, "%s,RD", reg_buf); + } + + if (is_dsp) + { + char prefix_buf[10] = {0}; + if (is_prime) + { + if (dest_no == 22 || dest_no == 23) + strcpy (prefix_buf, "DB"); + else if (dest_no == 24) + strcpy (prefix_buf, "DBH"); + else if (dest_no == 25) + strcpy (prefix_buf, "DWH"); + else if (dest_no == 31) + strcpy (prefix_buf, "DW"); + } + else + strcpy (prefix_buf, "DW"); + print_insn (outf, prefix_buf, template->name, buf); + } + else if (is_fpu) + print_insn (outf, "F", template->name, buf); + else + print_insn (outf, "", template->name, buf); +} + +/* Print an MDRD instruction. */ +static void +print_mdrd (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + unsigned int rmask, count; + char buf[OPERAND_WIDTH]; + + rmask = (insn_word >> 7) & RMASK_MASK; + + count = hweight (rmask); + + snprintf (buf, OPERAND_WIDTH, "#%#x", count + 1); + + print_insn (outf, "", template->name, buf); +} + +/* Print an XFR instruction. */ +static void +print_xfr (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + char dest_buf[ADDR_WIDTH]; + char src_buf[ADDR_WIDTH]; + unsigned int dest_unit, src_unit; + unsigned int dest_no, src_no; + unsigned int us, ud, pp; + const char *dest_base_reg; + const char *dest_offset_reg; + const char *src_base_reg; + const char *src_offset_reg; + + src_unit = short_unit ((insn_word >> 2) & SHORT_UNIT_MASK); + src_no = (insn_word >> 19) & REG_MASK; + + src_base_reg = lookup_reg_name (src_unit, src_no); + + src_no = (insn_word >> 14) & REG_MASK; + + src_offset_reg = lookup_reg_name (src_unit, src_no); + + dest_unit = short_unit (insn_word & SHORT_UNIT_MASK); + dest_no = (insn_word >> 9) & REG_MASK; + + dest_base_reg = lookup_reg_name (dest_unit, dest_no); + + dest_no = (insn_word >> 4) & REG_MASK; + + dest_offset_reg = lookup_reg_name (dest_unit, dest_no); + + us = (insn_word >> 27) & 0x1; + ud = (insn_word >> 26) & 0x1; + pp = (insn_word >> 24) & 0x1; + + if (us) + if (pp) + snprintf (src_buf, ADDR_WIDTH, "[%s+%s++]", src_base_reg, + src_offset_reg); + else + snprintf (src_buf, ADDR_WIDTH, "[%s++%s]", src_base_reg, + src_offset_reg); + else + snprintf (src_buf, ADDR_WIDTH, "[%s+%s]", src_base_reg, + src_offset_reg); + + if (ud) + if (pp) + snprintf (dest_buf, ADDR_WIDTH, "[%s+%s++]", dest_base_reg, + dest_offset_reg); + else + snprintf (dest_buf, ADDR_WIDTH, "[%s++%s]", dest_base_reg, + dest_offset_reg); + else + snprintf (dest_buf, ADDR_WIDTH, "[%s+%s]", dest_base_reg, + dest_offset_reg); + + snprintf (buf, OPERAND_WIDTH, "%s,%s", dest_buf, src_buf); + + print_insn (outf, "", template->name, buf); +} + +/* Print a MOV to control unit instruction. */ +static void +print_mov_ct (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + unsigned int reg_no; + unsigned int se = (insn_word >> 1) & 0x1; + unsigned int is_trace = (insn_word >> 2) & 0x1; + int value; + const char *dest_reg; + + reg_no = (insn_word >> 19) & REG_MASK; + + if (is_trace) + dest_reg = lookup_reg_name (UNIT_TT, reg_no); + else + dest_reg = lookup_reg_name (UNIT_CT, reg_no); + + value = (insn_word >> 3) & IMM16_MASK; + + if (se) + { + value = sign_extend (value, IMM16_BITS); + snprintf (buf, OPERAND_WIDTH, "%s,#%d", dest_reg, value); + } + else + { + snprintf (buf, OPERAND_WIDTH, "%s,#%#x", dest_reg, value); + } + + print_insn (outf, "", template->name, buf); +} + +/* Print a SWAP instruction. */ +static void +print_swap (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + unsigned int dest_no, src_no; + unsigned int dest_unit, src_unit; + const char *dest_reg; + const char *src_reg; + + src_unit = (insn_word >> 10) & UNIT_MASK; + src_no = (insn_word >> 19) & REG_MASK; + + src_reg = lookup_reg_name (src_unit, src_no); + + dest_unit = (insn_word >> 5) & UNIT_MASK; + dest_no = (insn_word >> 14) & REG_MASK; + + dest_reg = lookup_reg_name (dest_unit, dest_no); + + snprintf (buf, OPERAND_WIDTH, "%s,%s", dest_reg, src_reg); + + if (dest_unit == UNIT_FX || src_unit == UNIT_FX) + print_insn (outf, "F", template->name, buf); + else + print_insn (outf, "", template->name, buf); +} + +/* Print a SWAP instruction. */ +static void +print_jump (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + unsigned int reg_no, reg_unit; + const char *reg_name; + int value; + + reg_unit = short_unit (insn_word & SHORT_UNIT_MASK); + reg_no = (insn_word >> 19) & REG_MASK; + + reg_name = lookup_reg_name (reg_unit, reg_no); + + value = (insn_word >> 3) & IMM16_MASK; + + snprintf (buf, OPERAND_WIDTH, "%s,#%#x", reg_name, value); + + print_insn (outf, "", template->name, buf); +} + +/* Print a CALLR instruction. */ +static void +print_callr (unsigned int insn_word, bfd_vma pc, const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + unsigned int reg_no, reg_unit; + const char *reg_name; + int value; + + reg_unit = short_unit ((insn_word >> 3) & SHORT_UNIT_MASK); + reg_no = insn_word & CALLR_REG_MASK; + + reg_name = lookup_reg_name (reg_unit, reg_no); + + value = (insn_word >> 5) & IMM19_MASK; + + value = sign_extend (value, IMM19_BITS); + + value = value * 4; + + value += pc; + + snprintf (buf, OPERAND_WIDTH, "%s,", reg_name); + + print_insn (outf, "", template->name, buf); + + outf->print_address_func (value, outf); +} + +/* Print a GP ALU instruction. */ +static void +print_alu (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + unsigned int is_addr_op = MAJOR_OPCODE (template->meta_opcode) == OPC_ADDR; + unsigned int is_mul = MAJOR_OPCODE (template->meta_opcode) == OPC_MUL; + unsigned int dest_no, src1_no, src2_no; + unsigned int imm = (insn_word >> 25) & 0x1; + unsigned int cond = (insn_word >> 26) & 0x1; + unsigned int o1z = 0; + unsigned int o2r = insn_word & 0x1; + unsigned int unit_bit = (insn_word >> 24) & 0x1; + unsigned int ca = (insn_word >> 5) & 0x1; + unsigned int se = (insn_word >> 1) & 0x1; + bfd_boolean is_quickrot = template->arg_type & GP_ARGS_QR; + enum metag_unit base_unit; + enum metag_unit dest_unit; + const char *dest_reg; + const char *src1_reg; + const char *src2_reg; + int value; + + if ((MAJOR_OPCODE (template->meta_opcode) == OPC_ADDR || + MAJOR_OPCODE (template->meta_opcode) == OPC_ADD || + MAJOR_OPCODE (template->meta_opcode) == OPC_SUB) && + ((insn_word >> 2) & 0x1)) + o1z = 1; + + if (is_addr_op) + { + if (unit_bit) + base_unit = UNIT_A1; + else + base_unit = UNIT_A0; + } + else + { + if (unit_bit) + base_unit = UNIT_D1; + else + base_unit = UNIT_D0; + } + + dest_no = (insn_word >> 19) & REG_MASK; + src1_no = (insn_word >> 14) & REG_MASK; + src2_no = (insn_word >> 9) & REG_MASK; + + dest_unit = base_unit; + + if (imm) + { + if (cond) + { + if (ca) + { + dest_unit = (insn_word >> 1) & UNIT_MASK; + dest_reg = lookup_reg_name (dest_unit, dest_no); + } + else + dest_reg = lookup_reg_name (dest_unit, dest_no); + + src1_reg = lookup_reg_name (base_unit, src1_no); + + value = (insn_word >> 6) & IMM8_MASK; + + if (is_quickrot) + { + unsigned int qr_unit = unit_bit ? UNIT_A1 : UNIT_A0; + unsigned int qr_no = 2; + const char *qr_reg = lookup_reg_name (qr_unit, qr_no); + + snprintf (buf, OPERAND_WIDTH, "%s,%s,#%#x,%s", dest_reg, + src1_reg, value, qr_reg); + } + else + snprintf (buf, OPERAND_WIDTH, "%s,%s,#%#x", dest_reg, + src1_reg, value); + } + else + { + if (is_addr_op && (dest_no & ~CPC_REG_MASK)) + { + dest_reg = lookup_reg_name (dest_unit, dest_no & CPC_REG_MASK); + src1_reg = lookup_reg_name (base_unit, 0x10); + } + else + { + dest_reg = lookup_reg_name (dest_unit, dest_no); + src1_reg = lookup_reg_name (base_unit, dest_no); + } + + value = (insn_word >> 3) & IMM16_MASK; + + if (se) + { + value = sign_extend (value, IMM16_BITS); + if (o1z) + { + snprintf (buf, OPERAND_WIDTH, "%s,#%d", dest_reg, value); + } + else + { + snprintf (buf, OPERAND_WIDTH, "%s,%s,#%d", dest_reg, + src1_reg, value); + } + } + else + { + if (o1z) + { + snprintf (buf, OPERAND_WIDTH, "%s,#%#x", dest_reg, value); + } + else + { + snprintf (buf, OPERAND_WIDTH, "%s,%s,#%#x", dest_reg, + src1_reg, value); + } + } + } + } + else + { + src1_reg = lookup_reg_name (base_unit, src1_no); + + if (o2r) + src2_reg = lookup_o2r (base_unit, src2_no); + else + src2_reg = lookup_reg_name (base_unit, src2_no); + + if (cond) + { + dest_unit = (insn_word >> 5) & UNIT_MASK; + + if (is_mul) + { + if (ca) + dest_unit = (insn_word >> 1) & UNIT_MASK; + else + dest_unit = base_unit; + } + + dest_reg = lookup_reg_name (dest_unit, dest_no); + + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s", dest_reg, + src1_reg, src2_reg); + } + else + { + dest_reg = lookup_reg_name (dest_unit, dest_no); + + if (is_quickrot) + { + unsigned int qr_unit = unit_bit ? UNIT_A1 : UNIT_A0; + unsigned int qr_no = 2 + ((insn_word >> 7) & 0x1); + const char *qr_reg = lookup_reg_name (qr_unit, qr_no); + + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s,%s", dest_reg, + src1_reg, src2_reg, qr_reg); + } + else if (o1z) + { + snprintf (buf, OPERAND_WIDTH, "%s,%s", dest_reg, src2_reg); + } + else + { + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s", dest_reg, + src1_reg, src2_reg); + } + } + } + + if (dest_unit == UNIT_FX) + print_insn (outf, "F", template->name, buf); + else + print_insn (outf, "", template->name, buf); +} + +/* Print a B instruction. */ +static void +print_branch (unsigned int insn_word, bfd_vma pc, + const insn_template *template, + disassemble_info *outf) +{ + int value; + + value = (insn_word >> 5) & IMM19_MASK; + + value = sign_extend (value, IMM19_BITS); + + value = value * 4; + + value += pc; + + print_insn (outf, "", template->name, ""); + + outf->print_address_func (value, outf); +} + +/* Print a SWITCH instruction. */ +static void +print_switch (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + unsigned int value; + + value = insn_word & IMM24_MASK; + + snprintf (buf, OPERAND_WIDTH, "#%#x", value); + + print_insn (outf, "", template->name, buf); +} + +/* Print a shift instruction. */ +static void +print_shift (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + unsigned int dest_no, src1_no, src2_no; + unsigned int imm = (insn_word >> 25) & 0x1; + unsigned int cond = (insn_word >> 26) & 0x1; + unsigned int unit_bit = (insn_word >> 24) & 0x1; + unsigned int ca = (insn_word >> 5) & 0x1; + enum metag_unit base_unit; + unsigned int dest_unit; + const char *dest_reg; + const char *src1_reg; + const char *src2_reg; + int value; + + if (unit_bit) + base_unit = UNIT_D1; + else + base_unit = UNIT_D0; + + dest_no = (insn_word >> 19) & REG_MASK; + src1_no = (insn_word >> 14) & REG_MASK; + src2_no = (insn_word >> 9) & REG_MASK; + + dest_unit = base_unit; + + if (imm) + { + if (cond && ca) + dest_unit = (insn_word >> 1) & UNIT_MASK; + + dest_reg = lookup_reg_name (dest_unit, dest_no); + + src1_reg = lookup_reg_name (base_unit, src1_no); + + value = (insn_word >> 9) & IMM5_MASK; + + snprintf (buf, OPERAND_WIDTH, "%s,%s,#%#x", dest_reg, + src1_reg, value); + } + else + { + if (cond && ca) + dest_unit = (insn_word >> 1) & UNIT_MASK; + + dest_reg = lookup_reg_name (dest_unit, dest_no); + + src1_reg = lookup_reg_name (base_unit, src1_no); + src2_reg = lookup_reg_name (base_unit, src2_no); + + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s", dest_reg, + src1_reg, src2_reg); + } + + if (dest_unit == UNIT_FX) + print_insn (outf, "F", template->name, buf); + else + print_insn (outf, "", template->name, buf); +} + +/* Print a MIN or MAX instruction. */ +static void +print_min_max (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + unsigned int base_unit, dest_no, src1_no, src2_no; + char buf[OPERAND_WIDTH]; + const char *dest_reg; + const char *src1_reg; + const char *src2_reg; + + if ((insn_word >> 24) & UNIT_MASK) + base_unit = UNIT_D1; + else + base_unit = UNIT_D0; + + dest_no = (insn_word >> 19) & REG_MASK; + src1_no = (insn_word >> 14) & REG_MASK; + src2_no = (insn_word >> 9) & REG_MASK; + + dest_reg = lookup_reg_name (base_unit, dest_no); + + src1_reg = lookup_reg_name (base_unit, src1_no); + src2_reg = lookup_reg_name (base_unit, src2_no); + + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s", dest_reg, src1_reg, src2_reg); + + print_insn (outf, "", template->name, buf); +} + +/* Print a bit operation instruction. */ +static void +print_bitop (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + unsigned int swap_inst = MAJOR_OPCODE (template->meta_opcode) == OPC_MISC; + unsigned int base_unit, src_unit, dest_no, src_no; + unsigned int is_bexl = 0; + char buf[OPERAND_WIDTH]; + const char *dest_reg; + const char *src_reg; + + if (swap_inst && + ((insn_word >> 1) & 0xb) == 0xa) + is_bexl = 1; + + if (swap_inst) + { + if (insn_word & 0x1) + base_unit = UNIT_D1; + else + base_unit = UNIT_D0; + } + else + { + if ((insn_word >> 24) & 0x1) + base_unit = UNIT_D1; + else + base_unit = UNIT_D0; + } + + src_unit = base_unit; + + if (is_bexl) + base_unit = get_pair_unit (base_unit); + + dest_no = (insn_word >> 19) & REG_MASK; + + dest_reg = lookup_reg_name (base_unit, dest_no); + + src_no = (insn_word >> 14) & REG_MASK; + + src_reg = lookup_reg_name (src_unit, src_no); + + snprintf (buf, OPERAND_WIDTH, "%s,%s", dest_reg, src_reg); + + print_insn (outf, "", template->name, buf); +} + +/* Print a CMP or TST instruction. */ +static void +print_cmp (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + unsigned int dest_no, src_no; + unsigned int imm = (insn_word >> 25) & 0x1; + unsigned int cond = (insn_word >> 26) & 0x1; + unsigned int o2r = insn_word & 0x1; + unsigned int unit_bit = (insn_word >> 24) & 0x1; + unsigned int se = (insn_word >> 1) & 0x1; + enum metag_unit base_unit; + const char *dest_reg; + const char *src_reg; + int value; + + if (unit_bit) + base_unit = UNIT_D1; + else + base_unit = UNIT_D0; + + dest_no = (insn_word >> 14) & REG_MASK; + src_no = (insn_word >> 9) & REG_MASK; + + dest_reg = lookup_reg_name (base_unit, dest_no); + + if (imm) + { + if (cond) + { + value = (insn_word >> 6) & IMM8_MASK; + + snprintf (buf, OPERAND_WIDTH, "%s,#%#x", dest_reg, value); + } + else + { + dest_no = (insn_word >> 19) & REG_MASK; + + dest_reg = lookup_reg_name (base_unit, dest_no); + + value = (insn_word >> 3) & IMM16_MASK; + + if (se) + { + value = sign_extend (value, IMM16_BITS); + snprintf (buf, OPERAND_WIDTH, "%s,#%d", dest_reg, value); + } + else + { + snprintf (buf, OPERAND_WIDTH, "%s,#%#x", dest_reg, value); + } + } + } + else + { + if (o2r) + src_reg = lookup_o2r (base_unit, src_no); + else + src_reg = lookup_reg_name (base_unit, src_no); + + snprintf (buf, OPERAND_WIDTH, "%s,%s", dest_reg, src_reg); + } + + print_insn (outf, "", template->name, buf); +} + +/* Print a CACHER instruction. */ +static void +print_cacher (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + char addr_buf[ADDR_WIDTH]; + unsigned int reg_unit, reg_no; + unsigned int size = ((insn_word >> 1) & 0x1) ? 8 : 4; + const char *reg_name; + const char *pair_name; + + reg_unit = short_unit ((insn_word >> 3) & SHORT_UNIT_MASK); + reg_no = (insn_word >> 19) & REG_MASK; + + reg_name = lookup_reg_name (reg_unit, reg_no); + pair_name = lookup_pair_reg_name (reg_unit, reg_no); + + cache_addr_str (addr_buf, ADDR_WIDTH, insn_word, size); + + if (size == 8) + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s", reg_name, pair_name, addr_buf); + else + snprintf (buf, OPERAND_WIDTH, "%s,%s", reg_name, addr_buf); + + print_insn (outf, "", template->name, buf); +} + +/* Print a CACHEW instruction. */ +static void +print_cachew (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + char addr_buf[ADDR_WIDTH]; + unsigned int reg_unit, reg_no; + unsigned int size = ((insn_word >> 1) & 0x1) ? 8 : 4; + const char *reg_name; + const char *pair_name; + + reg_unit = short_unit ((insn_word >> 3) & SHORT_UNIT_MASK); + reg_no = (insn_word >> 19) & REG_MASK; + + reg_name = lookup_reg_name (reg_unit, reg_no); + pair_name = lookup_pair_reg_name (reg_unit, reg_no); + + cache_addr_str (addr_buf, ADDR_WIDTH, insn_word, 64); + + if (size == 8) + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s", addr_buf, reg_name, pair_name); + else + snprintf (buf, OPERAND_WIDTH, "%s,%s", addr_buf, reg_name); + + print_insn (outf, "", template->name, buf); +} + +/* Print an ICACHE instruction. */ +static void +print_icache (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + int offset; + int pfcount; + + offset = ((insn_word >> 9) & IMM15_MASK); + pfcount = ((insn_word >> 1) & IMM4_MASK); + + offset = sign_extend (offset, IMM15_BITS); + + if (pfcount) + snprintf (buf, OPERAND_WIDTH, "#%d,#0x%x", offset, pfcount); + else + snprintf (buf, OPERAND_WIDTH, "#%d,#0", offset); + print_insn (outf, "", template->name, buf); +} + +/* Print a LNKGET instruction. */ +static void +print_lnkget (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + char addr_buf[ADDR_WIDTH]; + unsigned int reg_unit, reg_no; + unsigned int size = metag_get_set_ext_size_bytes (insn_word); + const char *reg_name; + const char *pair_name; + + reg_unit = short_unit ((insn_word >> 3) & SHORT_UNIT_MASK); + reg_no = (insn_word >> 19) & REG_MASK; + + reg_name = lookup_reg_name (reg_unit, reg_no); + pair_name = lookup_pair_reg_name (reg_unit, reg_no); + + cache_addr_str (addr_buf, ADDR_WIDTH, insn_word, size); + + if (size == 8) + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s", reg_name, pair_name, addr_buf); + else + snprintf (buf, OPERAND_WIDTH, "%s,%s", reg_name, addr_buf); + + print_insn (outf, "", template->name, buf); +} + +/* Print an FPU MOV instruction. */ +static void +print_fmov (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + char prefix_buf[10]; + unsigned int src_no, dest_no; + unsigned int p = (insn_word >> 6) & 0x1; + unsigned int d = (insn_word >> 5) & 0x1; + unsigned int cc = (insn_word >> 1) & CC_MASK; + bfd_boolean show_cond = cc != COND_A && cc != COND_NV; + const char *dest_reg; + const char *src_reg; + const char *cc_flags; + + dest_no = (insn_word >> 19) & REG_MASK; + src_no = (insn_word >> 14) & REG_MASK; + + dest_reg = lookup_reg_name (UNIT_FX, dest_no); + src_reg = lookup_reg_name (UNIT_FX, src_no); + + cc_flags = lookup_fpu_scc_flags (cc); + + snprintf (buf, OPERAND_WIDTH, "%s,%s", dest_reg, src_reg); + + snprintf (prefix_buf, 10, "F%s%s%s", p ? "L" : "", + d ? "D" : "", show_cond ? cc_flags : ""); + + print_insn (outf, prefix_buf, template->name, buf); +} + +/* Convert an FPU rmask into a compatible form. */ +static unsigned int +convert_fx_rmask (unsigned int rmask) +{ + int num_bits = hweight (rmask), i; + unsigned int ret = 0; + + for (i = 0; i < num_bits; i++) + { + ret <<= 1; + ret |= 0x1; + } + + return ret; +} + +/* Print an FPU MMOV instruction. */ +static void +print_fmmov (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + char data_buf[REG_WIDTH]; + char fpu_buf[REG_WIDTH]; + bfd_boolean to_fpu = MAJOR_OPCODE (insn_word) == OPC_GET; + bfd_boolean is_mmovl = MINOR_OPCODE (insn_word) & 0x1; + unsigned int rmask = (insn_word >> 7) & RMASK_MASK; + unsigned int fpu_no, data_no, data_unit; + + data_no = (insn_word >> 19) & REG_MASK; + fpu_no = (insn_word >> 14) & REG_MASK; + + if (insn_word & 0x1) + data_unit = UNIT_D1; + else + data_unit = UNIT_D0; + + lookup_reg_list (data_buf, REG_WIDTH, data_unit, data_no, rmask, FALSE); + lookup_reg_list (fpu_buf, REG_WIDTH, UNIT_FX, fpu_no, + convert_fx_rmask (rmask), is_mmovl); + + if (to_fpu) + snprintf (buf, OPERAND_WIDTH, "%s,%s", fpu_buf, data_buf); + else + snprintf (buf, OPERAND_WIDTH, "%s,%s", data_buf, fpu_buf); + + print_insn (outf, "F", template->name, buf); +} + +/* Print an FPU data unit MOV instruction. */ +static void +print_fmov_data (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + unsigned int src_no, dest_no; + unsigned int to_fpu = ((insn_word >> 7) & 0x1); + unsigned int unit_bit = (insn_word >> 24) & 0x1; + enum metag_unit base_unit; + const char *dest_reg; + const char *src_reg; + + dest_no = (insn_word >> 19) & REG_MASK; + src_no = (insn_word >> 9) & REG_MASK; + + if (unit_bit) + base_unit = UNIT_D1; + else + base_unit = UNIT_D0; + + if (to_fpu) + { + dest_reg = lookup_reg_name (UNIT_FX, dest_no); + src_reg = lookup_reg_name (base_unit, src_no); + } + else + { + dest_reg = lookup_reg_name (base_unit, dest_no); + src_reg = lookup_reg_name (UNIT_FX, src_no); + } + + snprintf (buf, OPERAND_WIDTH, "%s,%s", dest_reg, src_reg); + + print_insn (outf, "F", template->name, buf); +} + +/* Print an FPU MOV immediate instruction. */ +static void +print_fmov_i (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + unsigned int dest_no; + unsigned int p = (insn_word >> 2) & 0x1; + unsigned int d = (insn_word >> 1) & 0x1; + const char *dest_reg; + unsigned int value = (insn_word >> 3) & IMM16_MASK; + + dest_no = (insn_word >> 19) & REG_MASK; + + dest_reg = lookup_reg_name (UNIT_FX, dest_no); + + snprintf (buf, OPERAND_WIDTH, "%s,#%#x", dest_reg, value); + + if (p) + print_insn (outf, "FL", template->name, buf); + else if (d) + print_insn (outf, "FD", template->name, buf); + else + print_insn (outf, "F", template->name, buf); +} + +/* Print an FPU PACK instruction. */ +static void +print_fpack (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + unsigned int src1_no, src2_no, dest_no; + const char *dest_reg; + const char *src1_reg; + const char *src2_reg; + + dest_no = (insn_word >> 19) & REG_MASK; + src1_no = (insn_word >> 14) & REG_MASK; + src2_no = (insn_word >> 9) & REG_MASK; + + dest_reg = lookup_reg_name (UNIT_FX, dest_no); + src1_reg = lookup_reg_name (UNIT_FX, src1_no); + src2_reg = lookup_reg_name (UNIT_FX, src2_no); + + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s", dest_reg, src1_reg, src2_reg); + + print_insn (outf, "F", template->name, buf); +} + +/* Print an FPU SWAP instruction. */ +static void +print_fswap (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + unsigned int src_no, dest_no; + const char *dest_reg; + const char *src_reg; + + dest_no = (insn_word >> 19) & REG_MASK; + src_no = (insn_word >> 14) & REG_MASK; + + dest_reg = lookup_reg_name (UNIT_FX, dest_no); + src_reg = lookup_reg_name (UNIT_FX, src_no); + + snprintf (buf, OPERAND_WIDTH, "%s,%s", dest_reg, src_reg); + + print_insn (outf, "FL", template->name, buf); +} + +/* Print an FPU CMP instruction. */ +static void +print_fcmp (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + char prefix_buf[10]; + unsigned int src_no, dest_no; + unsigned int a = (insn_word >> 19) & 0x1; + unsigned int z = (insn_word >> 8) & 0x1; + unsigned int p = (insn_word >> 6) & 0x1; + unsigned int d = (insn_word >> 5) & 0x1; + unsigned int q = (insn_word >> 7) & 0x1; + unsigned int cc = (insn_word >> 1) & CC_MASK; + bfd_boolean show_cond = cc != COND_A && cc != COND_NV; + const char *dest_reg; + const char *src_reg; + const char *cc_flags; + + dest_no = (insn_word >> 14) & REG_MASK; + src_no = (insn_word >> 9) & REG_MASK; + + dest_reg = lookup_reg_name (UNIT_FX, dest_no); + src_reg = lookup_reg_name (UNIT_FX, src_no); + + cc_flags = lookup_fpu_scc_flags (cc); + + if (z) + snprintf (buf, OPERAND_WIDTH, "%s,#0", dest_reg); + else + snprintf (buf, OPERAND_WIDTH, "%s,%s", dest_reg, src_reg); + + snprintf (prefix_buf, 10, "F%s%s%s%s%s", p ? "L" : "", + d ? "D" : "", a ? "A" : "", q ? "Q" : "", + show_cond ? cc_flags : ""); + + print_insn (outf, prefix_buf, template->name, buf); +} + +/* Print an FPU MIN or MAX instruction. */ +static void +print_fminmax (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + char prefix_buf[10]; + unsigned int p = (insn_word >> 6) & 0x1; + unsigned int d = (insn_word >> 5) & 0x1; + unsigned int src1_no, src2_no, dest_no; + unsigned int cc = (insn_word >> 1) & CC_MASK; + bfd_boolean show_cond = cc != COND_A && cc != COND_NV; + const char *dest_reg; + const char *src1_reg; + const char *src2_reg; + const char *cc_flags; + + dest_no = (insn_word >> 19) & REG_MASK; + src1_no = (insn_word >> 14) & REG_MASK; + src2_no = (insn_word >> 9) & REG_MASK; + + dest_reg = lookup_reg_name (UNIT_FX, dest_no); + src1_reg = lookup_reg_name (UNIT_FX, src1_no); + src2_reg = lookup_reg_name (UNIT_FX, src2_no); + + cc_flags = lookup_fpu_scc_flags (cc); + + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s", dest_reg, src1_reg, src2_reg); + + snprintf (prefix_buf, 10, "F%s%s%s", p ? "L" : "", + d ? "D" : "", show_cond ? cc_flags : ""); + + print_insn (outf, prefix_buf, template->name, buf); +} + +/* Print an FPU data conversion instruction. */ +static void +print_fconv (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + char prefix_buf[10]; + unsigned int p = (insn_word >> 6) & 0x1; + unsigned int z = (insn_word >> 12) & 0x1; + unsigned int src_no, dest_no; + unsigned int cc = (insn_word >> 1) & CC_MASK; + bfd_boolean show_cond = cc != COND_A && cc != COND_NV; + const char *dest_reg; + const char *src_reg; + const char *cc_flags; + + dest_no = (insn_word >> 19) & REG_MASK; + src_no = (insn_word >> 14) & REG_MASK; + + dest_reg = lookup_reg_name (UNIT_FX, dest_no); + src_reg = lookup_reg_name (UNIT_FX, src_no); + + cc_flags = lookup_fpu_scc_flags (cc); + + snprintf (buf, OPERAND_WIDTH, "%s,%s", dest_reg, src_reg); + + snprintf (prefix_buf, 10, "F%s%s%s", p ? "L" : "", + z ? "Z" : "", show_cond ? cc_flags : ""); + + print_insn (outf, prefix_buf, template->name, buf); +} + +/* Print an FPU extended data conversion instruction. */ +static void +print_fconvx (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + char prefix_buf[10]; + unsigned int p = (insn_word >> 6) & 0x1; + unsigned int xl = (insn_word >> 7) & 0x1; + unsigned int src_no, dest_no, fraction_bits; + unsigned int cc = (insn_word >> 1) & CC_MASK; + bfd_boolean show_cond = cc != COND_A && cc != COND_NV; + const char *dest_reg; + const char *src_reg; + const char *cc_flags; + + dest_no = (insn_word >> 19) & REG_MASK; + src_no = (insn_word >> 14) & REG_MASK; + + dest_reg = lookup_reg_name (UNIT_FX, dest_no); + src_reg = lookup_reg_name (UNIT_FX, src_no); + + cc_flags = lookup_fpu_scc_flags (cc); + + if (xl) + fraction_bits = (insn_word >> 8) & IMM6_MASK; + else + fraction_bits = (insn_word >> 9) & IMM5_MASK; + + snprintf (buf, OPERAND_WIDTH, "%s,%s,#%#x", dest_reg, src_reg, + fraction_bits); + + snprintf (prefix_buf, 10, "F%s%s", p ? "L" : "", + show_cond ? cc_flags : ""); + + print_insn (outf, prefix_buf, template->name, buf); +} + +/* Print an FPU basic arithmetic instruction. */ +static void +print_fbarith (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + char prefix_buf[10]; + unsigned int n = (insn_word >> 7) & 0x1; + unsigned int p = (insn_word >> 6) & 0x1; + unsigned int d = (insn_word >> 5) & 0x1; + unsigned int src1_no, src2_no, dest_no; + unsigned int cc = (insn_word >> 1) & CC_MASK; + bfd_boolean show_cond = cc != COND_A && cc != COND_NV; + const char *dest_reg; + const char *src1_reg; + const char *src2_reg; + const char *cc_flags; + + dest_no = (insn_word >> 19) & REG_MASK; + src1_no = (insn_word >> 14) & REG_MASK; + src2_no = (insn_word >> 9) & REG_MASK; + + dest_reg = lookup_reg_name (UNIT_FX, dest_no); + src1_reg = lookup_reg_name (UNIT_FX, src1_no); + src2_reg = lookup_reg_name (UNIT_FX, src2_no); + + cc_flags = lookup_fpu_scc_flags (cc); + + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s", dest_reg, src1_reg, src2_reg); + + snprintf (prefix_buf, 10, "F%s%s%s%s", p ? "L" : "", + d ? "D" : "", n ? "I" : "", show_cond ? cc_flags : ""); + + print_insn (outf, prefix_buf, template->name, buf); +} + +/* Print an FPU extended arithmetic instruction. */ +static void +print_fearith (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + char prefix_buf[10]; + bfd_boolean is_muz = (MINOR_OPCODE (insn_word) == 0x6 && + ((insn_word >> 4) & 0x1)); + bfd_boolean is_mac = (MINOR_OPCODE (insn_word) == 0x6 && + (insn_word & 0x1f) == 0); + bfd_boolean is_maw = (MINOR_OPCODE (insn_word) == 0x6 && + ((insn_word >> 3) & 0x1)); + unsigned int o3o = insn_word & 0x1; + unsigned int q = is_muz && ((insn_word >> 1) & 0x1); + unsigned int n = (insn_word >> 7) & 0x1; + unsigned int p = (insn_word >> 6) & 0x1; + unsigned int d = (insn_word >> 5) & 0x1; + unsigned int cc = (insn_word >> 1) & CC_MASK; + bfd_boolean show_cond = (MINOR_OPCODE (insn_word) == 0x5 && cc != COND_A && + cc != COND_NV); + unsigned int src1_no, src2_no, dest_no; + const char *dest_reg; + const char *src1_reg; + const char *src2_reg; + const char *cc_flags; + + dest_no = (insn_word >> 19) & REG_MASK; + src1_no = (insn_word >> 14) & REG_MASK; + src2_no = (insn_word >> 9) & REG_MASK; + + dest_reg = lookup_reg_name (UNIT_FX, dest_no); + src1_reg = lookup_reg_name (UNIT_FX, src1_no); + src2_reg = lookup_reg_name (UNIT_FX, src2_no); + + cc_flags = lookup_fpu_scc_flags (cc); + + if (is_mac) + snprintf (buf, OPERAND_WIDTH, "ACF.0,%s,%s", src1_reg, src2_reg); + else if (o3o && is_maw) + snprintf (buf, OPERAND_WIDTH, "%s,%s", src1_reg, src2_reg); + else + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s", dest_reg, src1_reg, src2_reg); + + snprintf (prefix_buf, 10, "F%s%s%s%s%s", p ? "L" : "", + d ? "D" : "", n ? "I" : "", q ? "Q" : "", + show_cond ? cc_flags : ""); + + print_insn (outf, prefix_buf, template->name, buf); +} + +/* Print an FPU RCP or RSQ instruction. */ +static void +print_frec (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + char prefix_buf[10]; + unsigned int z = (insn_word >> 10) & 0x1; + unsigned int q = (insn_word >> 9) & 0x1; + unsigned int n = (insn_word >> 7) & 0x1; + unsigned int p = (insn_word >> 6) & 0x1; + unsigned int d = (insn_word >> 5) & 0x1; + unsigned int src_no, dest_no; + const char *dest_reg; + const char *src_reg; + + dest_no = (insn_word >> 19) & REG_MASK; + src_no = (insn_word >> 14) & REG_MASK; + + dest_reg = lookup_reg_name (UNIT_FX, dest_no); + src_reg = lookup_reg_name (UNIT_FX, src_no); + + snprintf (buf, OPERAND_WIDTH, "%s,%s", dest_reg, src_reg); + + snprintf (prefix_buf, 10, "F%s%s%s%s%s", p ? "L" : "", + d ? "D" : "", n ? "I" : "", q ? "Q" : "", z ? "Z" : ""); + + print_insn (outf, prefix_buf, template->name, buf); +} + +static void +print_fsimd (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + unsigned int n = (insn_word >> 7) & 0x1; + unsigned int src1_no, src2_no, dest_no; + const char *dest_reg; + const char *src1_reg; + const char *src2_reg; + + dest_no = (insn_word >> 19) & REG_MASK; + src1_no = (insn_word >> 14) & REG_MASK; + src2_no = (insn_word >> 9) & REG_MASK; + + dest_reg = lookup_reg_name (UNIT_FX, dest_no); + src1_reg = lookup_reg_name (UNIT_FX, src1_no); + src2_reg = lookup_reg_name (UNIT_FX, src2_no); + + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s", dest_reg, src1_reg, src2_reg); + + if (n) + print_insn (outf, "FLI", template->name, buf); + else + print_insn (outf, "FL", template->name, buf); +} + +/* Print an FPU accumulator GET or SET instruction. */ +static void +print_fget_set_acf (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + bfd_boolean is_get = MAJOR_OPCODE (template->meta_opcode) == OPC_GET; + char buf[OPERAND_WIDTH]; + char addr_buf[ADDR_WIDTH]; + unsigned int part; + const char *reg_name; + + part = (insn_word >> 19) & ACF_PART_MASK; + + reg_name = lookup_acf_name (part); + + mget_mset_addr_str (addr_buf, ADDR_WIDTH, insn_word); + + if (is_get) + { + snprintf (buf, OPERAND_WIDTH, "%s,%s", reg_name, addr_buf); + } + else + { + snprintf (buf, OPERAND_WIDTH, "%s,%s", addr_buf, reg_name); + } + print_insn (outf, "F", template->name, buf); +} + +/* Return the name of the DSP register or accumulator for NUM and UNIT. */ +static const char * +__lookup_dsp_name (unsigned int num, unsigned int unit) +{ + size_t i; + + for (i = 0; i < sizeof(metag_dsp_regtab)/sizeof(metag_dsp_regtab[0]); i++) + { + const metag_reg *reg = &metag_dsp_regtab[i]; + + if (reg->no == num) + { + if ((reg->unit == UNIT_RAM_D0 || reg->unit == UNIT_ACC_D0) && + unit == UNIT_D0) + return reg->name; + + if ((reg->unit == UNIT_RAM_D1 || reg->unit == UNIT_ACC_D1) && + unit == UNIT_D1) + return reg->name; + } + } + return "?.?"; +} + +/* Return the name of the DSP register for NUM and UNIT. */ +static const char * +lookup_dsp_name (unsigned int num, unsigned int unit) +{ + size_t i; + + for (i = 0; i < sizeof(metag_dsp_regtab)/sizeof(metag_dsp_regtab[0]); i++) + { + const metag_reg *reg = &metag_dsp_regtab[i]; + + if (reg->no == num && reg->unit == unit) + return reg->name; + } + return "?.?"; +} + +/* Return the name of the DSP RAM register for NUM and UNIT. */ +static const char * +lookup_dspram_name (unsigned int num, unsigned int unit, bfd_boolean load) +{ + size_t i, nentries; + + nentries = sizeof(metag_dsp_tmpl_regtab[load])/sizeof(metag_dsp_tmpl_regtab[load][0]); + + for (i = 0; i < nentries; i++) + { + const metag_reg *reg = &metag_dsp_tmpl_regtab[load][i]; + + if (reg->no == num && reg->unit == unit) + return reg->name; + } + return "?.?"; +} + +/* This lookup function looks up the corresponding name for a register + number in a DSP instruction. SOURCE indicates whether this + register is a source or destination operand. */ +static const char * +lookup_any_reg_name (unsigned int unit, unsigned int num, bfd_boolean source) +{ + /* A register with the top bit set (5th bit) indicates a DSPRAM + register. */ + if (num > 15) + { + unsigned int dunit = (unit == UNIT_D0) ? UNIT_RAM_D0 : UNIT_RAM_D1; + return lookup_dspram_name (num, dunit, source); + } + else + return lookup_reg_name (unit, num); +} + +/* Return the DSP data unit for UNIT. */ +static inline enum metag_unit +dsp_data_unit_to_sym (unsigned int unit) +{ + if (unit == 0) + return UNIT_D0; + else + return UNIT_D1; +} + +/* Print a DSP GET or SET instruction. */ +static void +print_dget_set (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + bfd_boolean is_get = (template->meta_opcode & 0x100); + char buf[OPERAND_WIDTH]; + char addr_buf[ADDR_WIDTH]; + char prefix[DSP_PREFIX_WIDTH]; + unsigned int part; + const char *reg_name[2]; + bfd_boolean is_high = FALSE; + bfd_boolean is_dual = (insn_word & 0x4); + bfd_boolean is_template = (insn_word & 0x2); + const char *base_reg = "?"; + unsigned int addr_unit, base_no, unit; + + unit = dsp_data_unit_to_sym (insn_word & 0x1); + + /* Is this a load/store to a template table? */ + if (is_template) + { + part = (insn_word >> 19) & 0x1f; + reg_name[0] = lookup_dsp_name (part, UNIT_DT); + } + else + { + part = (insn_word >> 19) & REG_MASK; + is_high = ((part & 0x18) == 0x18); + + /* Strip bit high indicator. */ + if (is_high) + part &= 0x17; + + reg_name[0] = __lookup_dsp_name (part, unit); + + } + + /* Is this a dual unit DSP operation? The modulo operator below + makes sure that we print the Rd register in the correct order, + e.g. because there's only one bit in the instruction for the Data + Unit we have to work out what the other data unit number is. + (there's only 2). */ + if (is_dual) + { + unsigned int _unit = insn_word & 0x1; + + _unit = ((_unit + 1) % 2); + reg_name[1] = __lookup_dsp_name(part, dsp_data_unit_to_sym (_unit)); + } + else + reg_name[1] = NULL; + + addr_unit = ((insn_word >> 18) & 0x1); + if (addr_unit == 0) + addr_unit = UNIT_A0; + else + addr_unit = UNIT_A1; + + base_no = (insn_word >> 14) & DSP_REG_MASK; + + base_reg = lookup_reg_name (addr_unit, base_no); + + /* Check if it's a post-increment/post-decrement. */ + if (insn_word & 0x2000) + { + unsigned int imm = (insn_word >> 9) & DGET_SET_IMM_MASK; + const char *post_op; + + switch (imm) + { + case 0x1: + post_op = "++"; + break; + case 0x3: + post_op = "--"; + break; + default: + post_op = ""; + } + + snprintf (addr_buf, ADDR_WIDTH, "[%s%s]", base_reg, post_op); + } + else + { + unsigned int offset_part = (insn_word >> 9) & DSP_REG_MASK; + const char *offset_reg = lookup_reg_name (addr_unit, offset_part); + + snprintf (addr_buf, ADDR_WIDTH, "[%s+%s++]", base_reg, offset_reg); + } + + if (is_get) + { + if (is_dual && !is_template) + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s", reg_name[0], + reg_name[1], addr_buf); + else + snprintf (buf, OPERAND_WIDTH, "%s,%s", reg_name[0], addr_buf); + } + else + { + if (is_dual && !is_template) + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s", addr_buf, + reg_name[0], reg_name[1]); + else + snprintf (buf, OPERAND_WIDTH, "%s,%s", addr_buf, reg_name[0]); + } + + snprintf (prefix, DSP_PREFIX_WIDTH, "D%s", is_high ? "H" : ""); + print_insn (outf, prefix, template->name, buf); +} + +/* Print a DSP template instruction. */ +static void +print_dtemplate (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + char buf[OPERAND_WIDTH]; + char prefix[DSP_PREFIX_WIDTH]; + unsigned int offset[4]; + bfd_boolean is_half = (MINOR_OPCODE (insn_word) == 0x5); + bfd_boolean daop_only = (MINOR_OPCODE (insn_word) == 0x3); + + offset[0] = ((insn_word >> 19) & REG_MASK); + offset[1] = ((insn_word >> 14) & REG_MASK); + offset[2] = ((insn_word >> 9) & REG_MASK); + offset[3] = ((insn_word >> 4) & REG_MASK); + + if (daop_only) + snprintf (buf, OPERAND_WIDTH, "#0x%x,#0x%x,#0x%x", offset[0], + offset[1], offset[2]); + else + { + snprintf (buf, OPERAND_WIDTH, "#0x%x,#0x%x,#0x%x,#0x%x", offset[0], + offset[1], offset[2], offset[3]); + } + + snprintf (prefix, DSP_PREFIX_WIDTH, "D%s", is_half ? "H" : ""); + print_insn (outf, prefix, template->name, buf); +} + +/* Format template definition from INSN_WORD into BUF. */ +static void +decode_template_definition(unsigned int insn_word, char *buf, size_t len) +{ + bfd_boolean load = ((insn_word >> 13) & 0x1); + bfd_boolean dspram = (((insn_word >> 17) & 0x3) == 0x3); + const char *template[1]; + unsigned int tidx = ((insn_word >> 9) & TEMPLATE_REGS_MASK); + enum metag_unit au, ram_unit; + unsigned int addr_reg_nums[2]; + const char *addr_reg_names[2]; + const char *post_op = ""; + const char *join_op = ""; + enum metag_unit data_unit = ((insn_word >> 24) & 0x1) ? UNIT_D1 : UNIT_D0; + + template[0] = lookup_dsp_name (tidx, UNIT_DT); + + addr_reg_names[1] = ""; + + if (dspram) + { + ram_unit = (data_unit == UNIT_D0) ? UNIT_RAM_D0 : UNIT_RAM_D1; + addr_reg_nums[0] = ((insn_word >> 19) & REG_MASK); + addr_reg_names[0] = lookup_dspram_name (addr_reg_nums[0], + ram_unit, load); + } + else + { + bfd_boolean im = (((insn_word >> 18) & 0x1) != 0); + + au = (((insn_word >> 23) & 0x1) == 0) ? UNIT_A0 : UNIT_A1; + addr_reg_nums[0] = ((insn_word >> 19) & DSP_REG_MASK); + + addr_reg_names[0] = lookup_reg_name (au, addr_reg_nums[0]); + + if (im) + { + unsigned int im_value = ((insn_word >> 14) & 0x3); + + switch (im_value) + { + case 0x1: + post_op = "++"; + break; + case 0x3: + post_op = "--"; + break; + } + } + else + { + addr_reg_nums[1] = ((insn_word >> 14) & DSP_REG_MASK); + addr_reg_names[1] = lookup_reg_name (au, addr_reg_nums[1]); + join_op = "+"; + post_op = "++"; + } + } + + if (load) + { + len = snprintf (buf, len, " %s,[%s%s%s%s]", template[0], addr_reg_names[0], + join_op, addr_reg_names[1], post_op); + } + else + { + len = snprintf (buf, len, " [%s%s%s%s],%s", addr_reg_names[0], join_op, + addr_reg_names[1], post_op, template[0]); + } +} + +/* Print a DSP ALU instruction. */ +static void +print_dalu (unsigned int insn_word, bfd_vma pc ATTRIBUTE_UNUSED, + const insn_template *template, + disassemble_info *outf) +{ + bfd_boolean is_dual = FALSE; + unsigned int data_unit = (((insn_word >> 24) & 0x1) ? UNIT_D1 : UNIT_D0); + const char *reg_names[3]; + unsigned int reg_nums[3]; + bfd_boolean ac = ((insn_word >> 7) & 0x1); + char buf[OPERAND_WIDTH]; + char prefix[DSP_PREFIX_WIDTH]; + size_t len; + bfd_boolean is_mod = FALSE; + bfd_boolean is_overflow = FALSE; + unsigned int reg_brackets[3]; + bfd_boolean is_w_mx = FALSE; + bfd_boolean is_b_mx = FALSE; + bfd_boolean imm = FALSE; + bfd_boolean is_quickrot64 = FALSE; + bfd_boolean conditional = FALSE; + const char *cc_flags = NULL; + bfd_boolean is_unsigned = FALSE; + + memset (reg_brackets, 0, sizeof (reg_brackets)); + + if (template->arg_type & DSP_ARGS_1) + { + bfd_boolean is_template = FALSE; + const char *addr_reg = NULL; + bfd_boolean qr = FALSE; + bfd_boolean is_acc_add = FALSE; + bfd_boolean is_acc_sub = FALSE; + bfd_boolean is_acc_zero = FALSE; + bfd_boolean is_split8 = (template->arg_type & DSP_ARGS_SPLIT8); + + /* Read DU bit. */ + data_unit = ((insn_word >> 24) & 0x1) ? UNIT_D1 : UNIT_D0; + + conditional = ((insn_word >> 24) & 0x4); + + /* Templates can't be conditional. */ + is_template = (((insn_word & 0x02000002) == 0x2) && !conditional); + + if (is_split8) + is_mod = (insn_word & 0x80); + + if (template->arg_type & DSP_ARGS_QR) + { + if (!conditional) + is_quickrot64 = ((insn_word >> 5) & 0x1); + } + + if (template->arg_type & DSP_ARGS_DACC) + { + is_mod = (insn_word & 0x8); + is_unsigned = (insn_word & 0x40); + } + + if (is_template) + { + is_w_mx = (insn_word & 0x1); + is_dual = ((insn_word >> 0x4) & 0x1); + + /* De.r,Dx.r,De.r|ACe.r */ + if (template->arg_type & DSP_ARGS_ACC2) + { + is_mod = (insn_word & 0x8); + is_overflow = (insn_word & 0x20); + } + + /* ACe.e,ACx.r,ACo.e? */ + if ((template->arg_type & DSP_ARGS_XACC) && + (((insn_word >> 6) & 0x5) == 0x5)) + { + enum metag_unit ac_unit, ao_unit; + + ac_unit = (data_unit == UNIT_D0) ? UNIT_ACC_D0 : UNIT_ACC_D1; + + if (ac_unit == UNIT_ACC_D0) + ao_unit = UNIT_ACC_D1; + else + ao_unit = UNIT_ACC_D0; + + reg_nums[1] = ((insn_word >> 19) & REG_MASK); + + /* These are dummy arguments anyway so the register + number does not matter. */ + reg_names[0] = lookup_dsp_name (16, ac_unit); /* ACe.0 */ + reg_names[1] = lookup_dsp_name (16, ac_unit); /* ACx.0 */ + reg_names[2] = lookup_dsp_name (16, ao_unit); /* ACo.0 */ + } + else + { + /* De.r|ACe.r,Dx.r,De.r */ + if (template->arg_type & DSP_ARGS_DACC && + ((insn_word & 0x84) != 0)) + { + enum metag_unit ac_unit; + + ac_unit = (data_unit == UNIT_D0) ? UNIT_ACC_D0 : UNIT_ACC_D1; + reg_names[0] = lookup_dsp_name (16, ac_unit); + + is_acc_zero = ((insn_word & 0x84) == 0x04); + is_acc_add = ((insn_word & 0x84) == 0x80); + is_acc_sub = ((insn_word & 0x84) == 0x84); + } + else + reg_names[0] = lookup_any_reg_name (data_unit, 0, FALSE); + + /* These are dummy arguments anyway so the register + number does not matter. */ + reg_names[1] = lookup_any_reg_name (data_unit, 0, TRUE); + + /* De.r,Dx.r,De.r|ACe.r */ + if ((template->arg_type & DSP_ARGS_ACC2) && + ((insn_word & 0x80) == 0x80)) + { + enum metag_unit ac_unit; + + ac_unit = (data_unit == UNIT_D0) ? UNIT_ACC_D0 : UNIT_ACC_D1; + reg_names[2] = lookup_dsp_name (16, ac_unit); + } + /* Detection of QUICKRoT and accumulator usage uses the + same bits. They are mutually exclusive. */ + else if (ac && (template->arg_type & DSP_ARGS_ACC2)) + { + reg_nums[2] = ((insn_word >> 9) & REG_MASK); + + if (data_unit == UNIT_D0) + reg_names[2] = lookup_dsp_name (reg_nums[2], UNIT_ACC_D0); + else + reg_names[2] = lookup_dsp_name (reg_nums[2], UNIT_ACC_D1); + } + else + { + if ((template->arg_type & DSP_ARGS_QR) && + ((insn_word & 0x40) == 0x40)) + { + enum metag_unit aunit; + int reg_no; + + if (conditional) + reg_no = ((insn_word >> 5) & 0x1); + else + reg_no = ((insn_word >> 7) & 0x1); + + aunit = (data_unit == UNIT_D0) ? UNIT_A0 : UNIT_A1; + addr_reg = lookup_reg_name (aunit, reg_no + 2); + + qr = TRUE; + } + + reg_names[2] = lookup_any_reg_name (data_unit, 0, TRUE); + } + } + + if (qr) + { + len = snprintf (buf, OPERAND_WIDTH, "%s,%s,%s,%s", + reg_names[0], reg_names[1], reg_names[2], + addr_reg); + } + else + { + len = snprintf (buf, OPERAND_WIDTH, "%s,%s,%s%s%s", + reg_names[0], reg_names[1], + reg_brackets[2] ? "[" : "", + reg_names[2], reg_brackets[2] ? "]" : ""); + } + + decode_template_definition (insn_word, buf + len, + OPERAND_WIDTH - len); + } + else /* Not a template definiton. */ + { + reg_nums[0] = ((insn_word >> 19) & REG_MASK); + reg_nums[1] = ((insn_word >> 14) & REG_MASK); + reg_nums[2] = ((insn_word >> 9) & REG_MASK); + + imm = (((insn_word >> 24) & 0x2) && (template->arg_type & DSP_ARGS_IMM)); + + if (imm) + is_dual = (insn_word & 0x4); + else if (!conditional) + is_dual = (insn_word & 0x10); + else + cc_flags = lookup_scc_flags ((insn_word >> 1) & CC_MASK); + + /* De.r,Dx.r,De.r|ACe.r */ + if (template->arg_type & DSP_ARGS_ACC2) + { + is_mod = (insn_word & 0x8); + is_overflow = (insn_word & 0x20); + } + + if (template->arg_type & DSP_ARGS_SPLIT8) + { + is_overflow = (insn_word & 0x20); + } + + /* ACe.e,ACx.r,ACo.e? */ + if ((template->arg_type & DSP_ARGS_XACC) && + (((insn_word >> 6) & 0x5) == 0x5)) + { + enum metag_unit ac_unit, ao_unit; + + ac_unit = (data_unit == UNIT_D0) ? UNIT_ACC_D0 : UNIT_ACC_D1; + + if (ac_unit == UNIT_ACC_D0) + ao_unit = UNIT_ACC_D1; + else + ao_unit = UNIT_ACC_D0; + + reg_nums[1] = ((insn_word >> 19) & REG_MASK); + reg_names[0] = lookup_dsp_name (reg_nums[1], ac_unit); + reg_names[1] = lookup_dsp_name (reg_nums[1], ac_unit); + reg_names[2] = lookup_dsp_name (reg_nums[1], ao_unit); + } + else + { + bfd_boolean o2r = (insn_word & 0x1); + + /* De.r|ACe.r,Dx.r,De.r */ + if ((template->arg_type & DSP_ARGS_DACC) && + ((insn_word & 0x84) != 0)) + { + enum metag_unit ac_unit; + + ac_unit = (data_unit == UNIT_D0) ? UNIT_ACC_D0 : UNIT_ACC_D1; + reg_names[0] = lookup_dsp_name (reg_nums[0], ac_unit); + + is_acc_zero = ((insn_word & 0x84) == 0x04); + is_acc_add = ((insn_word & 0x84) == 0x80); + is_acc_sub = ((insn_word & 0x84) == 0x84); + } + else if (conditional) + { + reg_names[0] = lookup_reg_name (data_unit, reg_nums[0]); + } + else + { + reg_names[0] = lookup_any_reg_name (data_unit, + reg_nums[0], FALSE); + if (reg_nums[0] > 15) + reg_brackets[0] = 1; + } + + if (imm) + { + reg_names[1] = lookup_any_reg_name (data_unit, reg_nums[0], TRUE); + + if (reg_brackets[0]) + reg_brackets[1] = 1; + } + else + { + if (is_split8 && is_mod) + { + reg_names[1] = lookup_reg_name (data_unit, reg_nums[1]); + } + else + { + reg_names[1] = lookup_any_reg_name (data_unit, reg_nums[1], TRUE); + + if (reg_nums[1] > 15) + reg_brackets[1] = 1; + } + } + + /* Detection of QUICKRoT and accumulator usage uses the + same bits. They are mutually exclusive. */ + if (ac && (template->arg_type & DSP_ARGS_ACC2)) + { + if (data_unit == UNIT_D0) + reg_names[2] = lookup_dsp_name (reg_nums[2], UNIT_ACC_D0); + else + reg_names[2] = lookup_dsp_name (reg_nums[2], UNIT_ACC_D1); + } + + else + { + if ((template->arg_type & DSP_ARGS_QR) && + ((insn_word & 0x40) == 0x40)) + { + enum metag_unit aunit; + int reg_no; + + if (conditional) + reg_no = ((insn_word >> 5) & 0x1); + else + reg_no = ((insn_word >> 7) & 0x1); + + aunit = (data_unit == UNIT_D0) ? UNIT_A0 : UNIT_A1; + addr_reg = lookup_reg_name (aunit, reg_no + 2); + + qr = TRUE; + } + + if (o2r) + reg_names[2] = lookup_o2r (data_unit, reg_nums[2]); + else + { + /* Can't use a DSPRAM reg if both QD and L1 are + set on a QUICKRoT instruction or if we're a + split 8. */ + if (((template->arg_type & DSP_ARGS_QR) + && ((insn_word & 0x30) == 0x30 && !conditional)) || + (is_split8 && is_mod)) + reg_names[2] = lookup_reg_name (data_unit, reg_nums[2]); + else + { + reg_names[2] = lookup_any_reg_name (data_unit, + reg_nums[2], TRUE); + if (reg_nums[2] > 15) + reg_brackets[2] = 1; + } + } + } + } + + if (qr) + { + len = snprintf (buf, OPERAND_WIDTH, "%s%s%s,%s%s%s,%s%s%s,%s", + reg_brackets[0] ? "[" : "", + reg_names[0], reg_brackets[0] ? "]" : "", + reg_brackets[1] ? "[" : "", + reg_names[1], reg_brackets[1] ? "]" : "", + reg_brackets[2] ? "[" : "", + reg_names[2], reg_brackets[2] ? "]" : "", + addr_reg); + } + else + { + if (imm) + { + /* Conform to the embedded assembler's policy of + printing negative numbers as decimal and positive + as hex. */ + int value = ((insn_word >> 3) & IMM16_MASK); + + if ((value & 0x8000) || value == 0) + { + value = sign_extend (value, IMM16_BITS); + len = snprintf (buf, OPERAND_WIDTH, "%s%s%s,%s%s%s,#%d", + reg_brackets[0] ? "[" : "", + reg_names[0], reg_brackets[0] ? "]" : "", + reg_brackets[1] ? "[" : "", + reg_names[1], reg_brackets[1] ? "]" : "", + value); + } + else + { + len = snprintf (buf, OPERAND_WIDTH, "%s%s%s,%s%s%s,#%#x", + reg_brackets[0] ? "[" : "", + reg_names[0], reg_brackets[0] ? "]" : "", + reg_brackets[1] ? "[" : "", + reg_names[1], reg_brackets[1] ? "]" : "", + value); + } + } + else + { + len = snprintf (buf, OPERAND_WIDTH, "%s%s%s,%s%s%s,%s%s%s", + reg_brackets[0] ? "[" : "", + reg_names[0], reg_brackets[0] ? "]" : "", + reg_brackets[1] ? "[" : "", reg_names[1], + reg_brackets[1] ? "]" : "", + reg_brackets[2] ? "[" : "", + reg_names[2], reg_brackets[2] ? "]" : ""); + } + } + } + + snprintf (prefix, DSP_PREFIX_WIDTH, "D%s%s%s%s%s%s%s%s%s%s%s%s", + cc_flags ? cc_flags : "", + is_dual ? "L" : "", + is_quickrot64 ? "Q" : "", + is_unsigned ? "U" : "", + is_mod ? "M" : "", + is_acc_zero ? "Z" : "", + is_acc_add ? "P" : "", is_acc_sub ? "N" : "", + is_overflow ? "O" : "", + is_w_mx ? "W" : "", + is_b_mx ? "B" : "", + is_template ? "T" : ""); + } + else if (template->arg_type & DSP_ARGS_2) /* Group 2. */ + { + bfd_boolean is_template; + bfd_boolean o2r = FALSE; + int major = MAJOR_OPCODE (template->meta_opcode); + bfd_boolean is_neg_or_mov = (major == OPC_ADD || major == OPC_SUB); + bfd_boolean is_cmp_tst = ((major == OPC_CMP) && + ((insn_word & 0x0000002c) == 0)); + bfd_boolean is_fpu_mov = template->insn_type == INSN_DSP_FPU; + bfd_boolean to_fpu = (template->meta_opcode >> 7) & 0x1; + + if (major == OPC_9) + imm = (insn_word & 0x2); + else if (template->arg_type & DSP_ARGS_IMM) + imm = ((insn_word >> 25) & 0x1); + + is_template = (((insn_word & 0x02000002) == 0x2) && + major != OPC_9); + + if (imm) + is_dual = ((insn_word >> 0x2) & 0x1); + else + is_dual = ((insn_word >> 0x4) & 0x1); + + /* MOV and XSD[BW] do not have o2r. */ + if (major != OPC_9 && major != OPC_MISC) + o2r = (insn_word & 0x1); + + if (is_neg_or_mov) + { + is_mod = (insn_word & 0x8); + is_overflow = (insn_word & 0x20); + } + + /* XSD */ + if (major == OPC_MISC) + data_unit = (insn_word & 0x1) ? UNIT_D1 : UNIT_D0; + else + data_unit = ((insn_word >> 24) & 0x1) ? UNIT_D1 : UNIT_D0; + + /* Check for NEG,MOV,ABS,FFB, etc. */ + if (is_neg_or_mov || !is_cmp_tst || imm || + MAJOR_OPCODE (insn_word) == OPC_9 || + MAJOR_OPCODE (insn_word) == OPC_MISC) + reg_nums[0] = ((insn_word >> 19) & REG_MASK); + else + reg_nums[0] = ((insn_word >> 14) & REG_MASK); + + if (is_template) + { + is_w_mx = (insn_word & 0x1); + + /* These are dummy arguments anyway so the register number + does not matter. */ + if (is_fpu_mov) + { + if (to_fpu) + { + reg_names[0] = lookup_reg_name (UNIT_FX, 0); + reg_names[1] = lookup_reg_name (data_unit, 0); + } + else + { + reg_names[0] = lookup_reg_name (data_unit, 0); + reg_names[1] = lookup_reg_name (UNIT_FX, 0); + } + } + else + { + reg_names[0] = lookup_reg_name (data_unit, 0); + reg_names[1] = lookup_reg_name (data_unit, 0); + } + + len = snprintf (buf, OPERAND_WIDTH, "%s,%s", + reg_names[0], reg_names[1]); + + decode_template_definition (insn_word, buf + len, + OPERAND_WIDTH - len); + } + else + { + if (imm) + { + /* Conform to the embedded assembler's policy of + printing negative numbers as decimal and positive as + hex. */ + unsigned int value = ((insn_word >> 3) & IMM16_MASK); + + if (major == OPC_9) + { + data_unit = (insn_word & 0x1) ? UNIT_D1 : UNIT_D0; + is_dual = (insn_word & 0x4); + + reg_names[0] = __lookup_dsp_name (reg_nums[0], data_unit); + } + else + { + reg_names[0] = lookup_any_reg_name (data_unit, reg_nums[0], TRUE); + if (reg_nums[0] > 15) + reg_brackets[0] = 1; + } + + if ((value & 0x8000) || value == 0) + { + value = sign_extend (value, IMM16_BITS); + snprintf (buf, OPERAND_WIDTH, "%s%s%s,#%d", + reg_brackets[0] ? "[" : "", + reg_names[0], reg_brackets[0] ? "]" : "", + value); + } + else + { + snprintf (buf, OPERAND_WIDTH, "%s%s%s,#0x%x", + reg_brackets[0] ? "[" : "", + reg_names[0], reg_brackets[0] ? "]" : "", + value); + } + } + else + { + if (is_neg_or_mov || is_cmp_tst) + reg_nums[1] = ((insn_word >> 9) & REG_MASK); + else + reg_nums[1] = ((insn_word >> 14) & REG_MASK); + + if (major == OPC_9) + { + is_dual = (insn_word & 0x4); + data_unit = (insn_word & 0x1) ? UNIT_D1 : UNIT_D0; + + if (MINOR_OPCODE (template->meta_opcode) == 0x1) + reg_names[0] = __lookup_dsp_name (reg_nums[0], data_unit); + else + reg_names[0] = lookup_reg_name (data_unit, reg_nums[0]); + } + else + { + unsigned int reg0_unit = data_unit; + + if (is_fpu_mov && to_fpu) + reg0_unit = UNIT_FX; + + reg_names[0] = lookup_any_reg_name (reg0_unit, reg_nums[0], + (!is_neg_or_mov && is_cmp_tst)); + if (reg_nums[0] > 15) + reg_brackets[0] = 1; + } + + if (o2r) + reg_names[1] = lookup_o2r (data_unit, reg_nums[1]); + else + { + /* Check for accumulator argument. */ + if (is_neg_or_mov && ((insn_word & 0x80) == 0x80)) + { + if (data_unit == UNIT_D0) + reg_names[1] = lookup_dsp_name (reg_nums[1], UNIT_ACC_D0); + else + reg_names[1] = lookup_dsp_name (reg_nums[1], UNIT_ACC_D1); + } + else + { + if (major == OPC_9) + { + if (MINOR_OPCODE (template->meta_opcode) == 0x1) + { + reg_names[1] = lookup_reg_name (data_unit, reg_nums[1]); + } + else + { + enum metag_unit u; + + u = (insn_word & 0x1) ? UNIT_RAM_D1 : UNIT_RAM_D0; + reg_names[1] = lookup_dsp_name (reg_nums[1], u); + } + } + else + { + reg_names[1] = lookup_any_reg_name (data_unit, + reg_nums[1], TRUE); + if (reg_nums[1] > 15) + reg_brackets[1] = 1; + } + } + } + + snprintf (buf, OPERAND_WIDTH, "%s%s%s,%s%s%s", + reg_brackets[0] ? "[" : "", reg_names[0], + reg_brackets[0] ? "]" : "", + reg_brackets[1] ? "[" : "", reg_names[1], + reg_brackets[1] ? "]" : ""); + } + } + + snprintf (prefix, DSP_PREFIX_WIDTH, "D%s%s%s%s%s%s", + is_fpu_mov ? "F" : "", + is_dual ? "L" : "", + is_mod ? "M" : "", is_overflow ? "O" : "", + is_w_mx ? "W" : "", + is_template ? "T" : ""); + } + else /* Group 3. */ + { + /* If both the C and CA bits are set, then the Rd register can + be in any unit. Figure out which unit from the Ud field. */ + bfd_boolean all_units = (((insn_word) & 0x04000020) == 0x04000020); + enum metag_unit ud_unit = ((insn_word >> 1) & UNIT_MASK); + enum metag_unit ram_unit, acc_unit; + bfd_boolean round = FALSE; + bfd_boolean clamp9 = FALSE; + bfd_boolean clamp8 = FALSE; + bfd_boolean is_template = ((insn_word & 0x04000002) == 0x2); + + imm = ((insn_word >> 25) & 0x1); + ac = (insn_word & 0x1); + + conditional = (MINOR_OPCODE (insn_word) & 0x4); + + /* Check for conditional and not Condition Always. */ + if (conditional && !(insn_word & 0x20)) + cc_flags = lookup_scc_flags ((insn_word >> 1) & CC_MASK); + else if (!(conditional && (insn_word & 0x20))) + is_dual = ((insn_word >> 0x4) & 0x1); + + /* Conditional instructions don't have the L1 or RSPP fields. */ + if ((insn_word & 0x04000000) == 0) + { + round = (((insn_word >> 2) & 0x3) == 0x1); + clamp9 = (((insn_word >> 2) & 0x3) == 0x2); + clamp8 = (((insn_word >> 2) & 0x3) == 0x3); + } + + /* Read DU bit. */ + data_unit = ((insn_word >> 24) & 0x1) ? UNIT_D1 : UNIT_D0; + reg_nums[0] = ((insn_word >> 19) & REG_MASK); + reg_nums[1] = ((insn_word >> 14) & REG_MASK); + + ram_unit = (data_unit == UNIT_D0) ? UNIT_RAM_D0 : UNIT_RAM_D1; + acc_unit = (data_unit == UNIT_D0) ? UNIT_ACC_D0 : UNIT_ACC_D1; + + if (all_units) + reg_names[0] = lookup_reg_name (ud_unit, reg_nums[0]); + else + { + if (conditional) + reg_names[0] = lookup_reg_name (data_unit, reg_nums[0]); + else + { + reg_names[0] = lookup_any_reg_name (data_unit, reg_nums[0], FALSE); + if (reg_nums[0] > 15) + reg_brackets[0] = 1; + } + } + + if (ac) + { + reg_names[1] = lookup_dsp_name (reg_nums[1], acc_unit); + } + else + { + reg_names[1] = lookup_any_reg_name (data_unit, reg_nums[1], TRUE); + if (reg_nums[1] > 15) + reg_brackets[1] = 1; + } + + if (imm) + { + snprintf (buf, OPERAND_WIDTH, "%s%s%s,%s%s%s,#%#x", + reg_brackets[0] ? "[" : "", + reg_names[0], reg_brackets[0] ? "]" : "", + reg_brackets[1] ? "[" : "", + reg_names[1], reg_brackets[1] ? "]" : "", + ((insn_word >> 9) & IMM5_MASK)); + } + else + { + reg_nums[2] = ((insn_word >> 9) & REG_MASK); + + reg_names[2] = lookup_any_reg_name (data_unit, reg_nums[2], TRUE); + + if (reg_nums[2] > 15) + reg_brackets[2] = 1; + + if (is_template) + { + bfd_boolean load = ((insn_word >> 13) & 0x1); + bfd_boolean dspram = (((insn_word >> 17) & 0x3) == 0x3); + const char *tname[1]; + unsigned int tidx = ((insn_word >> 9) & TEMPLATE_REGS_MASK); + enum metag_unit au; + unsigned int addr_reg_nums[2]; + const char *addr_reg_names[2]; + const char *post_op = ""; + const char *join_op = ""; + + is_w_mx = ((insn_word >> 5) & 0x1); + + tname[0] = lookup_dsp_name (tidx, UNIT_DT); + + /* These are dummy arguments anyway */ + reg_names[0] = lookup_reg_name (data_unit, 0); + if (ac) + reg_names[1] = lookup_dsp_name (16, acc_unit); + else + reg_names[1] = lookup_reg_name (data_unit, 0); + reg_names[2] = lookup_reg_name (data_unit, 0); + + addr_reg_names[1] = ""; + + if (dspram) + { + ram_unit = (data_unit == UNIT_D0) ? UNIT_RAM_D0 : UNIT_RAM_D1; + addr_reg_nums[0] = ((insn_word >> 19) & REG_MASK); + addr_reg_names[0] = lookup_dspram_name (addr_reg_nums[0], + ram_unit, load); + } + else + { + bfd_boolean im = (((insn_word >> 18) & 0x1) != 0); + + au = (((insn_word >> 23) & 0x1) == 0) ? UNIT_A0 : UNIT_A1; + addr_reg_nums[0] = ((insn_word >> 19) & DSP_REG_MASK); + + addr_reg_names[0] = lookup_reg_name (au, addr_reg_nums[0]); + + if (im) + { + unsigned int im_value = ((insn_word >> 14) & 0x3); + + switch (im_value) + { + case 0x1: + post_op = "++"; + break; + case 0x3: + post_op = "--"; + break; + } + } + else + { + addr_reg_nums[1] = ((insn_word >> 14) & DSP_REG_MASK); + addr_reg_names[1] = lookup_reg_name (au, addr_reg_nums[1]); + join_op = "+"; + post_op = "++"; + } + } + + if (load) + { + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s %s,[%s%s%s%s]", + reg_names[0], reg_names[1], reg_names[2], + tname[0], addr_reg_names[0], join_op, + addr_reg_names[1], post_op); + } + else + { + snprintf (buf, OPERAND_WIDTH, "%s,%s,%s [%s%s%s%s],%s", + reg_names[0], reg_names[1], reg_names[2], + addr_reg_names[0], join_op, addr_reg_names[1], + post_op, tname[0]); + } + } + else + { + snprintf (buf, OPERAND_WIDTH, "%s%s%s,%s%s%s,%s%s%s", + reg_brackets[0] ? "[" : "", + reg_names[0], reg_brackets[0] ? "]" : "", + reg_brackets[1] ? "[" : "", + reg_names[1], reg_brackets[1] ? "]" : "", + reg_brackets[2] ? "[" : "", + reg_names[2], reg_brackets[2] ? "]" : ""); + } + } + + snprintf (prefix, DSP_PREFIX_WIDTH, "D%s%s%s%s%s%s%s", + cc_flags ? cc_flags : "", + is_dual ? "L" : "", clamp9 ? "G" : "", + clamp8 ? "B" : "", round ? "R" : "", + is_w_mx ? "W" : "", + is_template ? "T" : ""); + } + + print_insn (outf, prefix, template->name, buf); + +} + +typedef void (*insn_printer)(unsigned int, bfd_vma, const insn_template *, + disassemble_info *); + +/* Printer table. */ +static const insn_printer insn_printers[ENC_MAX] = + { + [ENC_NONE] = print_none, + [ENC_MOV_U2U] = print_mov_u2u, + [ENC_MOV_PORT] = print_mov_port, + [ENC_MMOV] = print_mmov, + [ENC_MDRD] = print_mdrd, + [ENC_MOVL_TTREC] = print_movl_ttrec, + [ENC_GET_SET] = print_get_set, + [ENC_GET_SET_EXT] = print_get_set_ext, + [ENC_MGET_MSET] = print_mget_mset, + [ENC_COND_SET] = print_cond_set, + [ENC_XFR] = print_xfr, + [ENC_MOV_CT] = print_mov_ct, + [ENC_SWAP] = print_swap, + [ENC_JUMP] = print_jump, + [ENC_CALLR] = print_callr, + [ENC_ALU] = print_alu, + [ENC_SHIFT] = print_shift, + [ENC_MIN_MAX] = print_min_max, + [ENC_BITOP] = print_bitop, + [ENC_CMP] = print_cmp, + [ENC_BRANCH] = print_branch, + [ENC_KICK] = print_mov_u2u, + [ENC_SWITCH] = print_switch, + [ENC_CACHER] = print_cacher, + [ENC_CACHEW] = print_cachew, + [ENC_ICACHE] = print_icache, + [ENC_LNKGET] = print_lnkget, + [ENC_FMOV] = print_fmov, + [ENC_FMMOV] = print_fmmov, + [ENC_FMOV_DATA] = print_fmov_data, + [ENC_FMOV_I] = print_fmov_i, + [ENC_FPACK] = print_fpack, + [ENC_FSWAP] = print_fswap, + [ENC_FCMP] = print_fcmp, + [ENC_FMINMAX] = print_fminmax, + [ENC_FCONV] = print_fconv, + [ENC_FCONVX] = print_fconvx, + [ENC_FBARITH] = print_fbarith, + [ENC_FEARITH] = print_fearith, + [ENC_FREC] = print_frec, + [ENC_FSIMD] = print_fsimd, + [ENC_FGET_SET_ACF] = print_fget_set_acf, + [ENC_DGET_SET] = print_dget_set, + [ENC_DTEMPLATE] = print_dtemplate, + [ENC_DALU] = print_dalu, + }; + +/* Entry point for instruction printing. */ +int +print_insn_metag (bfd_vma pc, disassemble_info *outf) +{ + bfd_byte buf[4]; + unsigned int insn_word; + size_t i; + + (*outf->read_memory_func) (pc & ~0x03, buf, 4, outf); + insn_word = bfd_getl32 (buf); + + for (i = 0; i < sizeof(metag_optab)/sizeof(metag_optab[0]); i++) + { + const insn_template *template = &metag_optab[i]; + + if ((insn_word & template->meta_mask) == template->meta_opcode) + { + enum insn_encoding encoding = template->encoding; + insn_printer printer = insn_printers[encoding]; + + if (printer) + printer (insn_word, pc, template, outf); + + return 4; + } + } + + return 4; +} |