diff options
author | Nick Clifton <nickc@redhat.com> | 2003-04-01 15:50:31 +0000 |
---|---|---|
committer | Nick Clifton <nickc@redhat.com> | 2003-04-01 15:50:31 +0000 |
commit | e0001a05d2e4967ee86f4468cdc4fafea66b92d1 (patch) | |
tree | 4676b72e452f4dfc81e8d6646fb43f63a108da1b /gas | |
parent | ce0c72625ad0f6497718b4293572b2b6be711714 (diff) | |
download | gdb-e0001a05d2e4967ee86f4468cdc4fafea66b92d1.zip gdb-e0001a05d2e4967ee86f4468cdc4fafea66b92d1.tar.gz gdb-e0001a05d2e4967ee86f4468cdc4fafea66b92d1.tar.bz2 |
Add Xtensa port
Diffstat (limited to 'gas')
-rw-r--r-- | gas/ChangeLog | 29 | ||||
-rw-r--r-- | gas/Makefile.am | 27 | ||||
-rw-r--r-- | gas/Makefile.in | 35 | ||||
-rw-r--r-- | gas/config/tc-xtensa.c | 9014 | ||||
-rw-r--r-- | gas/config/tc-xtensa.h | 200 | ||||
-rw-r--r-- | gas/config/xtensa-relax.c | 1766 | ||||
-rw-r--r-- | gas/config/xtensa-relax.h | 142 | ||||
-rwxr-xr-x | gas/configure | 370 | ||||
-rw-r--r-- | gas/configure.in | 10 | ||||
-rw-r--r-- | gas/doc/Makefile.am | 1 | ||||
-rw-r--r-- | gas/doc/Makefile.in | 1 | ||||
-rw-r--r-- | gas/doc/all.texi | 1 | ||||
-rw-r--r-- | gas/doc/as.texinfo | 62 | ||||
-rw-r--r-- | gas/doc/c-xtensa.texi | 740 | ||||
-rw-r--r-- | gas/doc/internals.texi | 4 | ||||
-rw-r--r-- | gas/testsuite/ChangeLog | 10 | ||||
-rw-r--r-- | gas/testsuite/gas/xtensa/all.exp | 98 | ||||
-rw-r--r-- | gas/testsuite/gas/xtensa/entry_align.s | 4 | ||||
-rw-r--r-- | gas/testsuite/gas/xtensa/entry_misalign.s | 4 | ||||
-rw-r--r-- | gas/testsuite/gas/xtensa/entry_misalign2.s | 6 | ||||
-rw-r--r-- | gas/testsuite/gas/xtensa/j_too_far.s | 8 | ||||
-rw-r--r-- | gas/testsuite/gas/xtensa/loop_align.s | 5 | ||||
-rw-r--r-- | gas/testsuite/gas/xtensa/loop_misalign.s | 5 | ||||
-rw-r--r-- | gas/write.c | 4 |
24 files changed, 12365 insertions, 181 deletions
diff --git a/gas/ChangeLog b/gas/ChangeLog index 132ad34..5462dd5 100644 --- a/gas/ChangeLog +++ b/gas/ChangeLog @@ -1,3 +1,32 @@ +2003-04-01 Bob Wilson <bob.wilson@acm.org> + + * Makefile.am (CPU_TYPES): Add xtensa. + (TARGET_CPU_CFILES): Add config/tc-xtensa.c. + (TARGET_CPU_HFILES): Add config/tc-xtensa.h. + (xtensa-relax.o): New target. + Run "make dep-am". + * Makefile.in: Regenerate. + * configure.in: Handle xtensa-*-*. Add xtensa-relax.o to + extra_objects for xtensa targets. + * configure: Regenerate. + * write.c (write_object_file): Add new md_post_relax_hook. + * config/tc-xtensa.c: New file. + * config/tc-xtensa.h: Likewise. + * config/xtensa-istack.h: Likewise. + * config/xtensa-relax.c: Likewise. + * config/xtensa-relax.h: Likewise. + * doc/Makefile.am (CPU_DOCS): Add c-xtensa.texi. + * doc/Makefile.in: Regenerate. + * doc/all.texi: Set new XTENSA variable. + * doc/as.texinfo: Set new Xtensa variable. Describe + Xtensa-specific options. Define line comment character for + Xtensa. Add Xtensa processors to list of ELF targets where + alignment is specified in bytes. Add new Xtensa-Dependent node. + Add acknowledgements for those contributing to the Xtensa port. + * doc/internals.texi: Describe new md_post_relax_hook. + * doc/c-xtensa.texi: New file. + + 2003-04-01 Nick Clifton <nickc@redhat.com> Richard Earnshaw <rearnsha@arm.com> diff --git a/gas/Makefile.am b/gas/Makefile.am index 15f8f18..76665bd 100644 --- a/gas/Makefile.am +++ b/gas/Makefile.am @@ -86,6 +86,7 @@ CPU_TYPES = \ w65 \ v850 \ xstormy16 \ + xtensa \ z8k # Object format types. This is only used for dependency information. @@ -278,6 +279,7 @@ TARGET_CPU_CFILES = \ config/tc-w65.c \ config/tc-v850.c \ config/tc-xstormy16.c \ + config/tc-xtensa.c \ config/tc-z8k.c TARGET_CPU_HFILES = \ @@ -329,6 +331,7 @@ TARGET_CPU_HFILES = \ config/tc-w65.h \ config/tc-v850.h \ config/tc-xstormy16.h \ + config/tc-xtensa.h \ config/tc-z8k.h # OBJ files in config @@ -601,6 +604,10 @@ e-crisaout.o: $(srcdir)/config/e-crisaout.c e-criself.o: $(srcdir)/config/e-criself.c $(COMPILE) -c $(srcdir)/config/e-criself.c +xtensa-relax.o: $(srcdir)/config/xtensa-relax.c + $(COMPILE) -c $(srcdir)/config/xtensa-relax.c + + # The m68k operand parser. EXTRA_as_new_SOURCES = config/m68k-parse.y @@ -1517,6 +1524,13 @@ DEPTC_xstormy16_elf = $(INCDIR)/symcat.h $(srcdir)/config/obj-elf.h \ subsegs.h $(INCDIR)/obstack.h $(srcdir)/../opcodes/xstormy16-desc.h \ $(INCDIR)/opcode/cgen.h $(srcdir)/../opcodes/xstormy16-opc.h \ cgen.h +DEPTC_xtensa_elf = $(INCDIR)/symcat.h $(srcdir)/config/obj-elf.h \ + $(BFDDIR)/elf-bfd.h $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h \ + $(INCDIR)/elf/external.h $(INCDIR)/bfdlink.h $(srcdir)/config/tc-xtensa.h \ + $(INCDIR)/xtensa-config.h sb.h $(INCDIR)/safe-ctype.h \ + subsegs.h $(INCDIR)/obstack.h $(srcdir)/config/xtensa-relax.h \ + $(INCDIR)/xtensa-isa.h $(srcdir)/config/xtensa-istack.h \ + dwarf2dbg.h struc-symbol.h DEPTC_z8k_coff = $(INCDIR)/symcat.h $(srcdir)/config/obj-coff.h \ $(srcdir)/config/tc-z8k.h $(INCDIR)/coff/internal.h \ $(INCDIR)/coff/z8k.h $(INCDIR)/coff/external.h $(BFDDIR)/libcoff.h \ @@ -1915,8 +1929,8 @@ DEPOBJ_sh64_elf = $(INCDIR)/symcat.h $(srcdir)/config/obj-elf.h \ $(BFDDIR)/elf-bfd.h $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h \ $(INCDIR)/elf/external.h $(INCDIR)/bfdlink.h $(srcdir)/config/tc-sh64.h \ $(srcdir)/config/tc-sh.h $(INCDIR)/elf/sh.h $(INCDIR)/elf/reloc-macros.h \ - $(INCDIR)/safe-ctype.h subsegs.h $(INCDIR)/obstack.h \ - struc-symbol.h $(INCDIR)/aout/aout64.h + $(BFDDIR)/elf32-sh64.h $(INCDIR)/safe-ctype.h subsegs.h \ + $(INCDIR)/obstack.h struc-symbol.h $(INCDIR)/aout/aout64.h DEPOBJ_sparc_aout = $(INCDIR)/symcat.h $(srcdir)/config/obj-aout.h \ $(srcdir)/config/tc-sparc.h $(BFDDIR)/libaout.h $(INCDIR)/bfdlink.h \ $(INCDIR)/aout/aout64.h $(INCDIR)/obstack.h @@ -2023,6 +2037,11 @@ DEPOBJ_xstormy16_elf = $(INCDIR)/symcat.h $(srcdir)/config/obj-elf.h \ $(INCDIR)/elf/external.h $(INCDIR)/bfdlink.h $(srcdir)/config/tc-xstormy16.h \ $(INCDIR)/safe-ctype.h subsegs.h $(INCDIR)/obstack.h \ struc-symbol.h $(INCDIR)/aout/aout64.h +DEPOBJ_xtensa_elf = $(INCDIR)/symcat.h $(srcdir)/config/obj-elf.h \ + $(BFDDIR)/elf-bfd.h $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h \ + $(INCDIR)/elf/external.h $(INCDIR)/bfdlink.h $(srcdir)/config/tc-xtensa.h \ + $(INCDIR)/xtensa-config.h $(INCDIR)/safe-ctype.h subsegs.h \ + $(INCDIR)/obstack.h struc-symbol.h $(INCDIR)/aout/aout64.h DEPOBJ_z8k_coff = $(INCDIR)/symcat.h $(srcdir)/config/obj-coff.h \ $(srcdir)/config/tc-z8k.h $(INCDIR)/coff/internal.h \ $(INCDIR)/coff/z8k.h $(INCDIR)/coff/external.h $(BFDDIR)/libcoff.h \ @@ -2363,6 +2382,10 @@ DEP_xstormy16_coff = $(srcdir)/config/obj-coff.h $(srcdir)/config/tc-xstormy16.h DEP_xstormy16_elf = $(srcdir)/config/obj-elf.h $(INCDIR)/symcat.h \ $(BFDDIR)/elf-bfd.h $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h \ $(INCDIR)/elf/external.h $(INCDIR)/bfdlink.h $(srcdir)/config/tc-xstormy16.h +DEP_xtensa_elf = $(srcdir)/config/obj-elf.h $(INCDIR)/symcat.h \ + $(BFDDIR)/elf-bfd.h $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h \ + $(INCDIR)/elf/external.h $(INCDIR)/bfdlink.h $(srcdir)/config/tc-xtensa.h \ + $(INCDIR)/xtensa-config.h DEP_z8k_coff = $(srcdir)/config/obj-coff.h $(srcdir)/config/tc-z8k.h \ $(INCDIR)/symcat.h $(INCDIR)/coff/internal.h $(INCDIR)/coff/z8k.h \ $(INCDIR)/coff/external.h $(BFDDIR)/libcoff.h $(INCDIR)/bfdlink.h diff --git a/gas/Makefile.in b/gas/Makefile.in index 75e8767..9f18f7f 100644 --- a/gas/Makefile.in +++ b/gas/Makefile.in @@ -1,4 +1,4 @@ -# Makefile.in generated automatically by automake 1.4-p6 from Makefile.am +# Makefile.in generated automatically by automake 1.4-p5 from Makefile.am # Copyright (C) 1994, 1995-8, 1999, 2001 Free Software Foundation, Inc. # This Makefile.in is free software; the Free Software Foundation @@ -197,6 +197,7 @@ CPU_TYPES = \ w65 \ v850 \ xstormy16 \ + xtensa \ z8k @@ -395,6 +396,7 @@ TARGET_CPU_CFILES = \ config/tc-w65.c \ config/tc-v850.c \ config/tc-xstormy16.c \ + config/tc-xtensa.c \ config/tc-z8k.c @@ -447,6 +449,7 @@ TARGET_CPU_HFILES = \ config/tc-w65.h \ config/tc-v850.h \ config/tc-xstormy16.h \ + config/tc-xtensa.h \ config/tc-z8k.h @@ -1333,6 +1336,14 @@ DEPTC_xstormy16_elf = $(INCDIR)/symcat.h $(srcdir)/config/obj-elf.h \ $(INCDIR)/opcode/cgen.h $(srcdir)/../opcodes/xstormy16-opc.h \ cgen.h +DEPTC_xtensa_elf = $(INCDIR)/symcat.h $(srcdir)/config/obj-elf.h \ + $(BFDDIR)/elf-bfd.h $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h \ + $(INCDIR)/elf/external.h $(INCDIR)/bfdlink.h $(srcdir)/config/tc-xtensa.h \ + $(INCDIR)/xtensa-config.h sb.h $(INCDIR)/safe-ctype.h \ + subsegs.h $(INCDIR)/obstack.h $(srcdir)/config/xtensa-relax.h \ + $(INCDIR)/xtensa-isa.h $(srcdir)/config/xtensa-istack.h \ + dwarf2dbg.h struc-symbol.h + DEPTC_z8k_coff = $(INCDIR)/symcat.h $(srcdir)/config/obj-coff.h \ $(srcdir)/config/tc-z8k.h $(INCDIR)/coff/internal.h \ $(INCDIR)/coff/z8k.h $(INCDIR)/coff/external.h $(BFDDIR)/libcoff.h \ @@ -1822,8 +1833,8 @@ DEPOBJ_sh64_elf = $(INCDIR)/symcat.h $(srcdir)/config/obj-elf.h \ $(BFDDIR)/elf-bfd.h $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h \ $(INCDIR)/elf/external.h $(INCDIR)/bfdlink.h $(srcdir)/config/tc-sh64.h \ $(srcdir)/config/tc-sh.h $(INCDIR)/elf/sh.h $(INCDIR)/elf/reloc-macros.h \ - $(INCDIR)/safe-ctype.h subsegs.h $(INCDIR)/obstack.h \ - struc-symbol.h $(INCDIR)/aout/aout64.h + $(BFDDIR)/elf32-sh64.h $(INCDIR)/safe-ctype.h subsegs.h \ + $(INCDIR)/obstack.h struc-symbol.h $(INCDIR)/aout/aout64.h DEPOBJ_sparc_aout = $(INCDIR)/symcat.h $(srcdir)/config/obj-aout.h \ $(srcdir)/config/tc-sparc.h $(BFDDIR)/libaout.h $(INCDIR)/bfdlink.h \ @@ -1956,6 +1967,12 @@ DEPOBJ_xstormy16_elf = $(INCDIR)/symcat.h $(srcdir)/config/obj-elf.h \ $(INCDIR)/safe-ctype.h subsegs.h $(INCDIR)/obstack.h \ struc-symbol.h $(INCDIR)/aout/aout64.h +DEPOBJ_xtensa_elf = $(INCDIR)/symcat.h $(srcdir)/config/obj-elf.h \ + $(BFDDIR)/elf-bfd.h $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h \ + $(INCDIR)/elf/external.h $(INCDIR)/bfdlink.h $(srcdir)/config/tc-xtensa.h \ + $(INCDIR)/xtensa-config.h $(INCDIR)/safe-ctype.h subsegs.h \ + $(INCDIR)/obstack.h struc-symbol.h $(INCDIR)/aout/aout64.h + DEPOBJ_z8k_coff = $(INCDIR)/symcat.h $(srcdir)/config/obj-coff.h \ $(srcdir)/config/tc-z8k.h $(INCDIR)/coff/internal.h \ $(INCDIR)/coff/z8k.h $(INCDIR)/coff/external.h $(BFDDIR)/libcoff.h \ @@ -2411,6 +2428,11 @@ DEP_xstormy16_elf = $(srcdir)/config/obj-elf.h $(INCDIR)/symcat.h \ $(BFDDIR)/elf-bfd.h $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h \ $(INCDIR)/elf/external.h $(INCDIR)/bfdlink.h $(srcdir)/config/tc-xstormy16.h +DEP_xtensa_elf = $(srcdir)/config/obj-elf.h $(INCDIR)/symcat.h \ + $(BFDDIR)/elf-bfd.h $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h \ + $(INCDIR)/elf/external.h $(INCDIR)/bfdlink.h $(srcdir)/config/tc-xtensa.h \ + $(INCDIR)/xtensa-config.h + DEP_z8k_coff = $(srcdir)/config/obj-coff.h $(srcdir)/config/tc-z8k.h \ $(INCDIR)/symcat.h $(INCDIR)/coff/internal.h $(INCDIR)/coff/z8k.h \ $(INCDIR)/coff/external.h $(BFDDIR)/libcoff.h $(INCDIR)/bfdlink.h @@ -2471,7 +2493,7 @@ configure configure.in gdbinit.in itbl-lex.c itbl-parse.c DISTFILES = $(DIST_COMMON) $(SOURCES) $(HEADERS) $(TEXINFOS) $(EXTRA_DIST) -TAR = tar +TAR = gtar GZIP_ENV = --best SOURCES = $(itbl_test_SOURCES) $(as_new_SOURCES) $(EXTRA_as_new_SOURCES) OBJECTS = $(itbl_test_OBJECTS) $(as_new_OBJECTS) @@ -2807,7 +2829,7 @@ distclean-generic: -test -z "$(DISTCLEANFILES)" || rm -f $(DISTCLEANFILES) maintainer-clean-generic: - -test -z "itbl-lex.cconfig/m68k-parse.hconfig/m68k-parse.citbl-parse.hitbl-parse.c" || rm -f itbl-lex.c config/m68k-parse.h config/m68k-parse.c itbl-parse.h itbl-parse.c + -test -z "itbl-lexlconfig/m68k-parsehconfig/m68k-parsecitbl-parsehitbl-parsec" || rm -f itbl-lexl config/m68k-parseh config/m68k-parsec itbl-parseh itbl-parsec mostlyclean-am: mostlyclean-hdr mostlyclean-noinstPROGRAMS \ mostlyclean-compile mostlyclean-libtool \ mostlyclean-tags mostlyclean-generic @@ -2955,6 +2977,9 @@ e-crisaout.o: $(srcdir)/config/e-crisaout.c e-criself.o: $(srcdir)/config/e-criself.c $(COMPILE) -c $(srcdir)/config/e-criself.c +xtensa-relax.o: $(srcdir)/config/xtensa-relax.c + $(COMPILE) -c $(srcdir)/config/xtensa-relax.c + # If m68k-parse.y is in a different directory, then ylwrap will use an # absolute path when it invokes yacc, which will cause yacc to put the # absolute path into the generated file. That's a pain when it comes diff --git a/gas/config/tc-xtensa.c b/gas/config/tc-xtensa.c new file mode 100644 index 0000000..32a04be --- /dev/null +++ b/gas/config/tc-xtensa.c @@ -0,0 +1,9014 @@ +/* tc-xtensa.c -- Assemble Xtensa instructions. + Copyright 2003 Free Software Foundation, Inc. + + 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 2, 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, 59 Temple Place - Suite 330, Boston, + MA 02111-1307, USA. */ + +#include <string.h> +#include "as.h" +#include "sb.h" +#include "safe-ctype.h" +#include "tc-xtensa.h" +#include "frags.h" +#include "subsegs.h" +#include "xtensa-relax.h" +#include "xtensa-istack.h" +#include "dwarf2dbg.h" +#include "struc-symbol.h" +#include "xtensa-config.h" + +#ifndef uint32 +#define uint32 unsigned int +#endif +#ifndef int32 +#define int32 signed int +#endif + +/* Notes: + + There are 3 forms for instructions, + 1) the MEMORY format -- this is the encoding 2 or 3 byte instruction + 2) the TInsn -- handles instructions/labels and literals; + all operands are assumed to be expressions + 3) the IStack -- a stack of TInsn. this allows us to + reason about the generated expansion instructions + + Naming conventions (used somewhat inconsistently): + The xtensa_ functions are exported + The xg_ functions are internal + + We also have a couple of different extensibility mechanisms. + 1) The idiom replacement: + This is used when a line is first parsed to + replace an instruction pattern with another instruction + It is currently limited to replacements of instructions + with constant operands. + 2) The xtensa-relax.c mechanism that has stronger instruction + replacement patterns. When an instruction's immediate field + does not fit the next instruction sequence is attempted. + In addition, "narrow" opcodes are supported this way. */ + + +/* Define characters with special meanings to GAS. */ +const char comment_chars[] = "#"; +const char line_comment_chars[] = "#"; +const char line_separator_chars[] = ";"; +const char EXP_CHARS[] = "eE"; +const char FLT_CHARS[] = "rRsSfFdDxXpP"; + + +/* Flag to indicate whether the hardware supports the density option. + If not, enabling density instructions (via directives or --density flag) + is illegal. */ + +#if STATIC_LIBISA +bfd_boolean density_supported = XCHAL_HAVE_DENSITY; +#else +bfd_boolean density_supported = TRUE; +#endif + +#define XTENSA_FETCH_WIDTH 4 + +/* Flags for properties of the last instruction in a segment. */ +#define FLAG_IS_A0_WRITER 0x1 +#define FLAG_IS_BAD_LOOPEND 0x2 + + +/* We define a special segment names ".literal" to place literals + into. The .fini and .init sections are special because they + contain code that is moved together by the linker. We give them + their own special .fini.literal and .init.literal sections. */ + +#define LITERAL_SECTION_NAME xtensa_section_rename (".literal") +#define FINI_SECTION_NAME xtensa_section_rename (".fini") +#define INIT_SECTION_NAME xtensa_section_rename (".init") +#define FINI_LITERAL_SECTION_NAME xtensa_section_rename (".fini.literal") +#define INIT_LITERAL_SECTION_NAME xtensa_section_rename (".init.literal") + + +/* This type is used for the directive_stack to keep track of the + state of the literal collection pools. */ + +typedef struct lit_state_struct +{ + const char *lit_seg_name; + const char *init_lit_seg_name; + const char *fini_lit_seg_name; + segT lit_seg; + segT init_lit_seg; + segT fini_lit_seg; +} lit_state; + +static lit_state default_lit_sections; + + +/* We keep lists of literal segments. The seg_list type is the node + for such a list. The *_literal_head locals are the heads of the + various lists. All of these lists have a dummy node at the start. */ + +typedef struct seg_list_struct +{ + struct seg_list_struct *next; + segT seg; +} seg_list; + +static seg_list literal_head_h; +static seg_list *literal_head = &literal_head_h; +static seg_list init_literal_head_h; +static seg_list *init_literal_head = &init_literal_head_h; +static seg_list fini_literal_head_h; +static seg_list *fini_literal_head = &fini_literal_head_h; + + +/* Global flag to indicate when we are emitting literals. */ +int generating_literals = 0; + + +/* Structure for saving the current state before emitting literals. */ +typedef struct emit_state_struct +{ + const char *name; + segT now_seg; + subsegT now_subseg; + int generating_literals; +} emit_state; + + +/* Directives. */ + +typedef enum +{ + directive_none = 0, + directive_literal, + directive_density, + directive_generics, + directive_relax, + directive_freeregs, + directive_longcalls, + directive_literal_prefix +} directiveE; + +typedef struct +{ + const char *name; + bfd_boolean can_be_negated; +} directive_infoS; + +const directive_infoS directive_info[] = +{ + {"none", FALSE}, + {"literal", FALSE}, + {"density", TRUE}, + {"generics", TRUE}, + {"relax", TRUE}, + {"freeregs", FALSE}, + {"longcalls", TRUE}, + {"literal_prefix", FALSE} +}; + +bfd_boolean directive_state[] = +{ + FALSE, /* none */ + FALSE, /* literal */ +#if STATIC_LIBISA && !XCHAL_HAVE_DENSITY + FALSE, /* density */ +#else + TRUE, /* density */ +#endif + TRUE, /* generics */ + TRUE, /* relax */ + FALSE, /* freeregs */ + FALSE, /* longcalls */ + FALSE /* literal_prefix */ +}; + + +enum xtensa_relax_statesE +{ + RELAX_ALIGN_NEXT_OPCODE, + /* Use the first opcode of the next fragment to determine the + alignment requirements. This is ONLY used for LOOPS + currently. */ + + RELAX_DESIRE_ALIGN_IF_TARGET, + /* These are placed in front of labels. They will all be converted + to RELAX_DESIRE_ALIGN / RELAX_LOOP_END or rs_fill of 0 before + relaxation begins. */ + + RELAX_ADD_NOP_IF_A0_B_RETW, + /* These are placed in front of conditional branches. It will be + turned into a NOP (using a1) if the branch is immediately + followed by a RETW or RETW.N. Otherwise it will be turned into + an rs_fill of 0 before relaxation begins. */ + + RELAX_ADD_NOP_IF_PRE_LOOP_END, + /* These are placed after JX instructions. It will be turned into a + NOP if there is one instruction before a loop end label. + Otherwise it will be turned into an rs_fill of 0 before + relaxation begins. This is used to avoid a hardware TIE + interlock issue prior to T1040. */ + + RELAX_ADD_NOP_IF_SHORT_LOOP, + /* These are placed after LOOP instructions. It will be turned into + a NOP when: (1) there are less than 3 instructions in the loop; + we place 2 of these in a row to add up to 2 NOPS in short loops; + or (2) The instructions in the loop do not include a branch or + jump. Otherwise it will be turned into an rs_fill of 0 before + relaxation begins. This is used to avoid hardware bug + PR3830. */ + + RELAX_ADD_NOP_IF_CLOSE_LOOP_END, + /* These are placed after LOOP instructions. It will be turned into + a NOP if there are less than 12 bytes to the end of some other + loop's end. Otherwise it will be turned into an rs_fill of 0 + before relaxation begins. This is used to avoid hardware bug + PR3830. */ + + RELAX_DESIRE_ALIGN, + /* The next fragment like its first instruction to NOT cross a + 4-byte boundary. */ + + RELAX_LOOP_END, + /* This will be turned into a NOP or NOP.N if the previous + instruction is expanded to negate a loop. */ + + RELAX_LOOP_END_ADD_NOP, + /* When the code density option is available, this will generate a + NOP.N marked RELAX_NARROW. Otherwise, it will create an rs_fill + fragment with a NOP in it. */ + + RELAX_LITERAL, + /* Another fragment could generate an expansion here but has not yet. */ + + RELAX_LITERAL_NR, + /* Expansion has been generated by an instruction that generates a + literal. However, the stretch has NOT been reported yet in this + fragment. */ + + RELAX_LITERAL_FINAL, + /* Expansion has been generated by an instruction that generates a + literal. */ + + RELAX_LITERAL_POOL_BEGIN, + RELAX_LITERAL_POOL_END, + /* Technically these are not relaxations at all, but mark a location + to store literals later. Note that fr_var stores the frchain for + BEGIN frags and fr_var stores now_seg for END frags. */ + + RELAX_NARROW, + /* The last instruction in this fragment (at->fr_opcode) can be + freely replaced with a single wider instruction if a future + alignment desires or needs it. */ + + RELAX_IMMED, + /* The last instruction in this fragment (at->fr_opcode) contains + the value defined by fr_symbol (fr_offset = 0). If the value + does not fit, use the specified expansion. This is similar to + "NARROW", except that these may not be expanded in order to align + code. */ + + RELAX_IMMED_STEP1, + /* The last instruction in this fragment (at->fr_opcode) contains a + literal. It has already been expanded at least 1 step. */ + + RELAX_IMMED_STEP2 + /* The last instruction in this fragment (at->fr_opcode) contains a + literal. It has already been expanded at least 2 steps. */ +}; + +/* This is used as a stopper to bound the number of steps that + can be taken. */ +#define RELAX_IMMED_MAXSTEPS (RELAX_IMMED_STEP2 - RELAX_IMMED) + + +typedef bfd_boolean (*frag_predicate) (const fragS *); + + +/* Directive functions. */ + +static bfd_boolean use_generics + PARAMS ((void)); +static bfd_boolean use_longcalls + PARAMS ((void)); +static bfd_boolean code_density_available + PARAMS ((void)); +static bfd_boolean can_relax + PARAMS ((void)); +static void directive_push + PARAMS ((directiveE, bfd_boolean, const void *)); +static void directive_pop + PARAMS ((directiveE *, bfd_boolean *, const char **, + unsigned int *, const void **)); +static void directive_balance + PARAMS ((void)); +static bfd_boolean inside_directive + PARAMS ((directiveE)); +static void get_directive + PARAMS ((directiveE *, bfd_boolean *)); +static void xtensa_begin_directive + PARAMS ((int)); +static void xtensa_end_directive + PARAMS ((int)); +static void xtensa_literal_prefix + PARAMS ((char const *, int)); +static void xtensa_literal_position + PARAMS ((int)); +static void xtensa_literal_pseudo + PARAMS ((int)); + +/* Parsing and Idiom Translation Functions. */ + +static const char *expression_end + PARAMS ((const char *)); +static unsigned tc_get_register + PARAMS ((const char *)); +static void expression_maybe_register + PARAMS ((xtensa_operand, expressionS *)); +static int tokenize_arguments + PARAMS ((char **, char *)); +static bfd_boolean parse_arguments + PARAMS ((TInsn *, int, char **)); +static int xg_translate_idioms + PARAMS ((char **, int *, char **)); +static int xg_translate_sysreg_op + PARAMS ((char **, int *, char **)); +static void xg_reverse_shift_count + PARAMS ((char **)); +static int xg_arg_is_constant + PARAMS ((char *, offsetT *)); +static void xg_replace_opname + PARAMS ((char **, char *)); +static int xg_check_num_args + PARAMS ((int *, int, char *, char **)); + +/* Functions for dealing with the Xtensa ISA. */ + +static bfd_boolean operand_is_immed + PARAMS ((xtensa_operand)); +static bfd_boolean operand_is_pcrel_label + PARAMS ((xtensa_operand)); +static int get_relaxable_immed + PARAMS ((xtensa_opcode)); +static xtensa_opcode get_opcode_from_buf + PARAMS ((const char *)); +static bfd_boolean is_direct_call_opcode + PARAMS ((xtensa_opcode)); +static bfd_boolean is_call_opcode + PARAMS ((xtensa_opcode)); +static bfd_boolean is_entry_opcode + PARAMS ((xtensa_opcode)); +static bfd_boolean is_loop_opcode + PARAMS ((xtensa_opcode)); +static bfd_boolean is_the_loop_opcode + PARAMS ((xtensa_opcode)); +static bfd_boolean is_jx_opcode + PARAMS ((xtensa_opcode)); +static bfd_boolean is_windowed_return_opcode + PARAMS ((xtensa_opcode)); +static bfd_boolean is_conditional_branch_opcode + PARAMS ((xtensa_opcode)); +static bfd_boolean is_branch_or_jump_opcode + PARAMS ((xtensa_opcode)); +static bfd_reloc_code_real_type opnum_to_reloc + PARAMS ((int)); +static int reloc_to_opnum + PARAMS ((bfd_reloc_code_real_type)); +static void xtensa_insnbuf_set_operand + PARAMS ((xtensa_insnbuf, xtensa_opcode, xtensa_operand, int32, + const char *, unsigned int)); +static uint32 xtensa_insnbuf_get_operand + PARAMS ((xtensa_insnbuf, xtensa_opcode, int)); +static void xtensa_insnbuf_set_immediate_field + PARAMS ((xtensa_opcode, xtensa_insnbuf, int32, const char *, + unsigned int)); +static bfd_boolean is_negatable_branch + PARAMS ((TInsn *)); + +/* Functions for Internal Lists of Symbols. */ +static void xtensa_define_label + PARAMS ((symbolS *)); +static void add_target_symbol + PARAMS ((symbolS *, bfd_boolean)); +static symbolS *xtensa_find_label + PARAMS ((fragS *, offsetT, bfd_boolean)); +static void map_over_defined_symbols + PARAMS ((void (*fn) (symbolS *))); +static bfd_boolean is_loop_target_label + PARAMS ((symbolS *)); +static void xtensa_mark_target_fragments + PARAMS ((void)); + +/* Various Other Internal Functions. */ + +static bfd_boolean is_unique_insn_expansion + PARAMS ((TransitionRule *)); +static int xg_get_insn_size + PARAMS ((TInsn *)); +static int xg_get_build_instr_size + PARAMS ((BuildInstr *)); +static bfd_boolean xg_is_narrow_insn + PARAMS ((TInsn *)); +static bfd_boolean xg_is_single_relaxable_insn + PARAMS ((TInsn *)); +static int xg_get_max_narrow_insn_size + PARAMS ((xtensa_opcode)); +static int xg_get_max_insn_widen_size + PARAMS ((xtensa_opcode)); +static int xg_get_max_insn_widen_literal_size + PARAMS ((xtensa_opcode)); +static bfd_boolean xg_is_relaxable_insn + PARAMS ((TInsn *, int)); +static symbolS *get_special_literal_symbol + PARAMS ((void)); +static symbolS *get_special_label_symbol + PARAMS ((void)); +static bfd_boolean xg_build_to_insn + PARAMS ((TInsn *, TInsn *, BuildInstr *)); +static bfd_boolean xg_build_to_stack + PARAMS ((IStack *, TInsn *, BuildInstr *)); +static bfd_boolean xg_expand_to_stack + PARAMS ((IStack *, TInsn *, int)); +static bfd_boolean xg_expand_narrow + PARAMS ((TInsn *, TInsn *)); +static bfd_boolean xg_immeds_fit + PARAMS ((const TInsn *)); +static bfd_boolean xg_symbolic_immeds_fit + PARAMS ((const TInsn *, segT, fragS *, offsetT, long)); +static bfd_boolean xg_check_operand + PARAMS ((int32, xtensa_operand)); +static int is_dnrange + PARAMS ((fragS *, symbolS *, long)); +static int xg_assembly_relax + PARAMS ((IStack *, TInsn *, segT, fragS *, offsetT, int, long)); +static void xg_force_frag_space + PARAMS ((int)); +static void xg_finish_frag + PARAMS ((char *, enum xtensa_relax_statesE, int, bfd_boolean)); +static bfd_boolean is_branch_jmp_to_next + PARAMS ((TInsn *, fragS *)); +static void xg_add_branch_and_loop_targets + PARAMS ((TInsn *)); +static bfd_boolean xg_instruction_matches_rule + PARAMS ((TInsn *, TransitionRule *)); +static TransitionRule *xg_instruction_match + PARAMS ((TInsn *)); +static bfd_boolean xg_build_token_insn + PARAMS ((BuildInstr *, TInsn *, TInsn *)); +static bfd_boolean xg_simplify_insn + PARAMS ((TInsn *, TInsn *)); +static bfd_boolean xg_expand_assembly_insn + PARAMS ((IStack *, TInsn *)); +static symbolS *xg_assemble_literal + PARAMS ((TInsn *)); +static void xg_assemble_literal_space + PARAMS ((int)); +static symbolS *xtensa_create_literal_symbol + PARAMS ((segT, fragS *)); +static symbolS *xtensa_create_local_symbol + PARAMS ((bfd *, const char *, segT, valueT, fragS *)); +static bfd_boolean get_is_linkonce_section + PARAMS ((bfd *, segT)); +static bfd_boolean xg_emit_insn + PARAMS ((TInsn *, bfd_boolean)); +static bfd_boolean xg_emit_insn_to_buf + PARAMS ((TInsn *, char *, fragS *, offsetT, bfd_boolean)); +static bfd_boolean xg_add_opcode_fix + PARAMS ((xtensa_opcode, int, expressionS *, fragS *, offsetT)); +static void xg_resolve_literals + PARAMS ((TInsn *, symbolS *)); +static void xg_resolve_labels + PARAMS ((TInsn *, symbolS *)); +static void xg_assemble_tokens + PARAMS ((TInsn *)); +static bfd_boolean is_register_writer + PARAMS ((const TInsn *, const char *, int)); +static bfd_boolean is_bad_loopend_opcode + PARAMS ((const TInsn *)); +static bfd_boolean is_unaligned_label + PARAMS ((symbolS *)); +static fragS *next_non_empty_frag + PARAMS ((const fragS *)); +static xtensa_opcode next_frag_opcode + PARAMS ((const fragS *)); +static void update_next_frag_nop_state + PARAMS ((fragS *)); +static bfd_boolean next_frag_is_branch_target + PARAMS ((const fragS *)); +static bfd_boolean next_frag_is_loop_target + PARAMS ((const fragS *)); +static addressT next_frag_pre_opcode_bytes + PARAMS ((const fragS *)); +static bfd_boolean is_next_frag_target + PARAMS ((const fragS *, const fragS *)); +static void xtensa_mark_literal_pool_location + PARAMS ((bfd_boolean)); +static void xtensa_move_labels + PARAMS ((fragS *, valueT, fragS *, valueT)); +static void assemble_nop + PARAMS ((size_t, char *)); +static addressT get_expanded_loop_offset + PARAMS ((xtensa_opcode)); +static fragS *get_literal_pool_location + PARAMS ((segT)); +static void set_literal_pool_location + PARAMS ((segT, fragS *)); + +/* Helpers for xtensa_end(). */ + +static void xtensa_cleanup_align_frags + PARAMS ((void)); +static void xtensa_fix_target_frags + PARAMS ((void)); +static bfd_boolean frag_can_negate_branch + PARAMS ((fragS *)); +static void xtensa_fix_a0_b_retw_frags + PARAMS ((void)); +static bfd_boolean next_instrs_are_b_retw + PARAMS ((fragS *)); +static void xtensa_fix_b_j_loop_end_frags + PARAMS ((void)); +static bfd_boolean next_instr_is_loop_end + PARAMS ((fragS *)); +static void xtensa_fix_close_loop_end_frags + PARAMS ((void)); +static size_t min_bytes_to_other_loop_end + PARAMS ((fragS *, fragS *, offsetT, size_t)); +static size_t unrelaxed_frag_min_size + PARAMS ((fragS *)); +static void xtensa_fix_short_loop_frags + PARAMS ((void)); +static size_t count_insns_to_loop_end + PARAMS ((fragS *, bfd_boolean, size_t)); +static size_t unrelaxed_frag_min_insn_count + PARAMS ((fragS *)); +static bfd_boolean branch_before_loop_end + PARAMS ((fragS *)); +static bfd_boolean unrelaxed_frag_has_b_j + PARAMS ((fragS *)); +static void xtensa_sanity_check + PARAMS ((void)); +static bfd_boolean is_empty_loop + PARAMS ((const TInsn *, fragS *)); +static bfd_boolean is_local_forward_loop + PARAMS ((const TInsn *, fragS *)); + +/* Alignment Functions. */ + +static size_t get_text_align_power + PARAMS ((int)); +static addressT get_text_align_max_fill_size + PARAMS ((int, bfd_boolean, bfd_boolean)); +static addressT get_text_align_fill_size + PARAMS ((addressT, int, int, bfd_boolean, bfd_boolean)); +static size_t get_text_align_nop_count + PARAMS ((size_t, bfd_boolean)); +static size_t get_text_align_nth_nop_size + PARAMS ((size_t, size_t, bfd_boolean)); +static addressT get_noop_aligned_address + PARAMS ((fragS *, addressT)); +static addressT get_widen_aligned_address + PARAMS ((fragS *, addressT)); + +/* Helpers for xtensa_relax_frag(). */ + +static long relax_frag_text_align + PARAMS ((fragS *, long)); +static long relax_frag_add_nop + PARAMS ((fragS *)); +static long relax_frag_narrow + PARAMS ((fragS *, long)); +static bfd_boolean future_alignment_required + PARAMS ((fragS *, long)); +static long relax_frag_immed + PARAMS ((segT, fragS *, long, int, int *)); + +/* Helpers for md_convert_frag(). */ + +static void convert_frag_align_next_opcode + PARAMS ((fragS *)); +static void convert_frag_narrow + PARAMS ((fragS *)); +static void convert_frag_immed + PARAMS ((segT, fragS *, int)); +static fixS *fix_new_exp_in_seg + PARAMS ((segT, subsegT, fragS *, int, int, expressionS *, int, + bfd_reloc_code_real_type)); +static void convert_frag_immed_finish_loop + PARAMS ((segT, fragS *, TInsn *)); +static offsetT get_expression_value + PARAMS ((segT, expressionS *)); + +/* Flags for the Last Instruction in Each Subsegment. */ + +static unsigned get_last_insn_flags + PARAMS ((segT, subsegT)); +static void set_last_insn_flags + PARAMS ((segT, subsegT, unsigned, bfd_boolean)); + +/* Segment list functions. */ + +static void xtensa_remove_section + PARAMS ((segT)); +static void xtensa_insert_section + PARAMS ((segT, segT)); +static void xtensa_move_seg_list_to_beginning + PARAMS ((seg_list *)); +static void xtensa_move_literals + PARAMS ((void)); +static void xtensa_move_frag_symbol + PARAMS ((symbolS *)); +static void xtensa_move_frag_symbols + PARAMS ((void)); +static void xtensa_reorder_seg_list + PARAMS ((seg_list *, segT)); +static void xtensa_reorder_segments + PARAMS ((void)); +static segT get_last_sec + PARAMS ((void)); +static void xtensa_switch_to_literal_fragment + PARAMS ((emit_state *)); +static void xtensa_switch_section_emit_state + PARAMS ((emit_state *, segT, subsegT)); +static void xtensa_restore_emit_state + PARAMS ((emit_state *)); +static void cache_literal_section + PARAMS ((seg_list *, const char *, segT *)); +static segT retrieve_literal_seg + PARAMS ((seg_list *, const char *)); +static segT seg_present + PARAMS ((const char *)); +static void add_seg_list + PARAMS ((seg_list *, segT)); + +/* Property Table (e.g., ".xt.insn" and ".xt.lit") Functions. */ + +static void xtensa_create_property_segments + PARAMS ((frag_predicate, const char *, xt_section_type)); +static segment_info_type *retrieve_segment_info + PARAMS ((segT)); +static segT retrieve_xtensa_section + PARAMS ((char *)); +static bfd_boolean section_has_property + PARAMS ((segT sec, frag_predicate)); +static void add_xt_block_frags + PARAMS ((segT, segT, xtensa_block_info **, frag_predicate)); +static bfd_boolean get_frag_is_literal + PARAMS ((const fragS *)); +static bfd_boolean get_frag_is_insn + PARAMS ((const fragS *)); + +/* Import from elf32-xtensa.c in BFD library. */ +extern char *xtensa_get_property_section_name + PARAMS ((bfd *, asection *, const char *)); + +/* TInsn and IStack functions. */ +static bfd_boolean tinsn_has_symbolic_operands + PARAMS ((const TInsn *)); +static bfd_boolean tinsn_has_invalid_symbolic_operands + PARAMS ((const TInsn *)); +static bfd_boolean tinsn_has_complex_operands + PARAMS ((const TInsn *)); +static bfd_boolean tinsn_to_insnbuf + PARAMS ((TInsn *, xtensa_insnbuf)); +static bfd_boolean tinsn_check_arguments + PARAMS ((const TInsn *)); +static void tinsn_from_chars + PARAMS ((TInsn *, char *)); +static void tinsn_immed_from_frag + PARAMS ((TInsn *, fragS *)); +static int get_num_stack_text_bytes + PARAMS ((IStack *)); +static int get_num_stack_literal_bytes + PARAMS ((IStack *)); + +/* Expression Utilities. */ +bfd_boolean expr_is_const + PARAMS ((const expressionS *)); +offsetT get_expr_const + PARAMS ((const expressionS *)); +void set_expr_const + PARAMS ((expressionS *, offsetT)); +void set_expr_symbol_offset + PARAMS ((expressionS *, symbolS *, offsetT)); +bfd_boolean expr_is_equal + PARAMS ((expressionS *, expressionS *)); +static void copy_expr + PARAMS ((expressionS *, const expressionS *)); + +#ifdef XTENSA_SECTION_RENAME +static void build_section_rename + PARAMS ((const char *)); +static void add_section_rename + PARAMS ((char *, char *)); +#endif + +#ifdef XTENSA_COMBINE_LITERALS +static void find_lit_sym_translation + PARAMS ((expressionS *)); +static void add_lit_sym_translation + PARAMS ((char *, offsetT, symbolS *)); +#endif + + +/* ISA imported from bfd. */ +extern xtensa_isa xtensa_default_isa; + +extern int target_big_endian; + +static xtensa_opcode xtensa_addi_opcode; +static xtensa_opcode xtensa_addmi_opcode; +static xtensa_opcode xtensa_call0_opcode; +static xtensa_opcode xtensa_call4_opcode; +static xtensa_opcode xtensa_call8_opcode; +static xtensa_opcode xtensa_call12_opcode; +static xtensa_opcode xtensa_callx0_opcode; +static xtensa_opcode xtensa_callx4_opcode; +static xtensa_opcode xtensa_callx8_opcode; +static xtensa_opcode xtensa_callx12_opcode; +static xtensa_opcode xtensa_entry_opcode; +static xtensa_opcode xtensa_isync_opcode; +static xtensa_opcode xtensa_j_opcode; +static xtensa_opcode xtensa_jx_opcode; +static xtensa_opcode xtensa_loop_opcode; +static xtensa_opcode xtensa_loopnez_opcode; +static xtensa_opcode xtensa_loopgtz_opcode; +static xtensa_opcode xtensa_nop_n_opcode; +static xtensa_opcode xtensa_or_opcode; +static xtensa_opcode xtensa_ret_opcode; +static xtensa_opcode xtensa_ret_n_opcode; +static xtensa_opcode xtensa_retw_opcode; +static xtensa_opcode xtensa_retw_n_opcode; +static xtensa_opcode xtensa_rsr_opcode; +static xtensa_opcode xtensa_waiti_opcode; + + +/* Command-line Options. */ + +bfd_boolean use_literal_section = TRUE; +static bfd_boolean align_targets = TRUE; +static bfd_boolean align_only_targets = FALSE; +static bfd_boolean software_a0_b_retw_interlock = TRUE; +static bfd_boolean has_a0_b_retw = FALSE; +static bfd_boolean workaround_a0_b_retw = TRUE; + +static bfd_boolean software_avoid_b_j_loop_end = TRUE; +static bfd_boolean workaround_b_j_loop_end = TRUE; +static bfd_boolean maybe_has_b_j_loop_end = FALSE; + +static bfd_boolean software_avoid_short_loop = TRUE; +static bfd_boolean workaround_short_loop = TRUE; +static bfd_boolean maybe_has_short_loop = FALSE; + +static bfd_boolean software_avoid_close_loop_end = TRUE; +static bfd_boolean workaround_close_loop_end = TRUE; +static bfd_boolean maybe_has_close_loop_end = FALSE; + +/* When avoid_short_loops is true, all loops with early exits must + have at least 3 instructions. avoid_all_short_loops is a modifier + to the avoid_short_loop flag. In addition to the avoid_short_loop + actions, all straightline loopgtz and loopnez must have at least 3 + instructions. */ + +static bfd_boolean software_avoid_all_short_loops = TRUE; +static bfd_boolean workaround_all_short_loops = TRUE; + +/* This is on a per-instruction basis. */ +static bfd_boolean specific_opcode = FALSE; + +enum +{ + option_density = OPTION_MD_BASE, + option_no_density, + + option_relax, + option_no_relax, + + option_generics, + option_no_generics, + + option_text_section_literals, + option_no_text_section_literals, + + option_align_targets, + option_no_align_targets, + + option_align_only_targets, + option_no_align_only_targets, + + option_longcalls, + option_no_longcalls, + + option_workaround_a0_b_retw, + option_no_workaround_a0_b_retw, + + option_workaround_b_j_loop_end, + option_no_workaround_b_j_loop_end, + + option_workaround_short_loop, + option_no_workaround_short_loop, + + option_workaround_all_short_loops, + option_no_workaround_all_short_loops, + + option_workaround_close_loop_end, + option_no_workaround_close_loop_end, + + option_no_workarounds, + +#ifdef XTENSA_SECTION_RENAME + option_literal_section_name, + option_text_section_name, + option_data_section_name, + option_bss_section_name, + option_rename_section_name, +#endif + + option_eb, + option_el +}; + +const char *md_shortopts = ""; + +struct option md_longopts[] = +{ + {"density", no_argument, NULL, option_density}, + {"no-density", no_argument, NULL, option_no_density}, + /* At least as early as alameda, --[no-]relax didn't work as + documented, so as of albany, --[no-]relax is equivalent to + --[no-]generics. Both of these will be deprecated in + BearValley. */ + {"relax", no_argument, NULL, option_generics}, + {"no-relax", no_argument, NULL, option_no_generics}, + {"generics", no_argument, NULL, option_generics}, + {"no-generics", no_argument, NULL, option_no_generics}, + {"text-section-literals", no_argument, NULL, option_text_section_literals}, + {"no-text-section-literals", no_argument, NULL, + option_no_text_section_literals}, + /* This option was changed from -align-target to -target-align + because it conflicted with the "-al" option. */ + {"target-align", no_argument, NULL, option_align_targets}, + {"no-target-align", no_argument, NULL, + option_no_align_targets}, +#if 0 + /* This option should do a better job aligning targets because + it will only attempt to align targets that are the target of a + branch. */ + { "target-align-only", no_argument, NULL, option_align_only_targets }, + { "no-target-align-only", no_argument, NULL, option_no_align_only_targets }, +#endif /* 0 */ + {"longcalls", no_argument, NULL, option_longcalls}, + {"no-longcalls", no_argument, NULL, option_no_longcalls}, + + {"no-workaround-a0-b-retw", no_argument, NULL, + option_no_workaround_a0_b_retw}, + {"workaround-a0-b-retw", no_argument, NULL, option_workaround_a0_b_retw}, + + {"no-workaround-b-j-loop-end", no_argument, NULL, + option_no_workaround_b_j_loop_end}, + {"workaround-b-j-loop-end", no_argument, NULL, + option_workaround_b_j_loop_end}, + + {"no-workaround-short-loops", no_argument, NULL, + option_no_workaround_short_loop}, + {"workaround-short-loops", no_argument, NULL, option_workaround_short_loop}, + + {"no-workaround-all-short-loops", no_argument, NULL, + option_no_workaround_all_short_loops}, + {"workaround-all-short-loop", no_argument, NULL, + option_workaround_all_short_loops}, + + {"no-workaround-close-loop-end", no_argument, NULL, + option_no_workaround_close_loop_end}, + {"workaround-close-loop-end", no_argument, NULL, + option_workaround_close_loop_end}, + + {"no-workarounds", no_argument, NULL, option_no_workarounds}, + +#ifdef XTENSA_SECTION_RENAME + {"literal-section-name", required_argument, NULL, + option_literal_section_name}, + {"text-section-name", required_argument, NULL, + option_text_section_name}, + {"data-section-name", required_argument, NULL, + option_data_section_name}, + {"rename-section", required_argument, NULL, + option_rename_section_name}, + {"bss-section-name", required_argument, NULL, + option_bss_section_name}, +#endif /* XTENSA_SECTION_RENAME */ + + {NULL, no_argument, NULL, 0} +}; + +size_t md_longopts_size = sizeof md_longopts; + + +int +md_parse_option (c, arg) + int c; + char *arg; +{ + switch (c) + { + case option_density: + if (!density_supported) + { + as_bad (_("'--density' option not supported in this Xtensa " + "configuration")); + return 0; + } + directive_state[directive_density] = TRUE; + return 1; + case option_no_density: + directive_state[directive_density] = FALSE; + return 1; + case option_generics: + directive_state[directive_generics] = TRUE; + return 1; + case option_no_generics: + directive_state[directive_generics] = FALSE; + return 1; + case option_longcalls: + directive_state[directive_longcalls] = TRUE; + return 1; + case option_no_longcalls: + directive_state[directive_longcalls] = FALSE; + return 1; + case option_text_section_literals: + use_literal_section = FALSE; + return 1; + case option_no_text_section_literals: + use_literal_section = TRUE; + return 1; + case option_workaround_a0_b_retw: + workaround_a0_b_retw = TRUE; + software_a0_b_retw_interlock = TRUE; + return 1; + case option_no_workaround_a0_b_retw: + workaround_a0_b_retw = FALSE; + software_a0_b_retw_interlock = FALSE; + return 1; + case option_workaround_b_j_loop_end: + workaround_b_j_loop_end = TRUE; + software_avoid_b_j_loop_end = TRUE; + return 1; + case option_no_workaround_b_j_loop_end: + workaround_b_j_loop_end = FALSE; + software_avoid_b_j_loop_end = FALSE; + return 1; + + case option_workaround_short_loop: + workaround_short_loop = TRUE; + software_avoid_short_loop = TRUE; + return 1; + case option_no_workaround_short_loop: + workaround_short_loop = FALSE; + software_avoid_short_loop = FALSE; + return 1; + + case option_workaround_all_short_loops: + workaround_all_short_loops = TRUE; + software_avoid_all_short_loops = TRUE; + return 1; + case option_no_workaround_all_short_loops: + workaround_all_short_loops = FALSE; + software_avoid_all_short_loops = FALSE; + return 1; + + case option_workaround_close_loop_end: + workaround_close_loop_end = TRUE; + software_avoid_close_loop_end = TRUE; + return 1; + case option_no_workaround_close_loop_end: + workaround_close_loop_end = FALSE; + software_avoid_close_loop_end = FALSE; + return 1; + + case option_no_workarounds: + workaround_a0_b_retw = FALSE; + software_a0_b_retw_interlock = FALSE; + workaround_b_j_loop_end = FALSE; + software_avoid_b_j_loop_end = FALSE; + workaround_short_loop = FALSE; + software_avoid_short_loop = FALSE; + workaround_all_short_loops = FALSE; + software_avoid_all_short_loops = FALSE; + workaround_close_loop_end = FALSE; + software_avoid_close_loop_end = FALSE; + return 1; + + case option_align_targets: + align_targets = TRUE; + return 1; + case option_no_align_targets: + align_targets = FALSE; + return 1; + + case option_align_only_targets: + align_only_targets = TRUE; + return 1; + case option_no_align_only_targets: + align_only_targets = FALSE; + return 1; + +#ifdef XTENSA_SECTION_RENAME + case option_literal_section_name: + add_section_rename (".literal", arg); + as_warn (_("'--literal-section-name' is deprecated; " + "use '--rename-section .literal=NEWNAME'")); + return 1; + + case option_text_section_name: + add_section_rename (".text", arg); + as_warn (_("'--text-section-name' is deprecated; " + "use '--rename-section .text=NEWNAME'")); + return 1; + + case option_data_section_name: + add_section_rename (".data", arg); + as_warn (_("'--data-section-name' is deprecated; " + "use '--rename-section .data=NEWNAME'")); + return 1; + + case option_bss_section_name: + add_section_rename (".bss", arg); + as_warn (_("'--bss-section-name' is deprecated; " + "use '--rename-section .bss=NEWNAME'")); + return 1; + + case option_rename_section_name: + build_section_rename (arg); + return 1; +#endif /* XTENSA_SECTION_RENAME */ + + case 'Q': + /* -Qy, -Qn: SVR4 arguments controlling whether a .comment section + should be emitted or not. FIXME: Not implemented. */ + return 1; + + default: + return 0; + } +} + + +void +md_show_usage (stream) + FILE *stream; +{ + fputs ("\nXtensa options:\n" + "--[no-]density [Do not] emit density instructions\n" + "--[no-]relax [Do not] perform branch relaxation\n" + "--[no-]generics [Do not] transform instructions\n" + "--[no-]longcalls [Do not] emit 32-bit call sequences\n" + "--[no-]target-align [Do not] try to align branch targets\n" + "--[no-]text-section-literals\n" + " [Do not] put literals in the text section\n" + "--no-workarounds Do not use any Xtensa workarounds\n" +#ifdef XTENSA_SECTION_RENAME + "--rename-section old=new(:old1=new1)*\n" + " Rename section 'old' to 'new'\n" + "\nThe following Xtensa options are deprecated\n" + "--literal-section-name Name of literal section (default .literal)\n" + "--text-section-name Name of text section (default .text)\n" + "--data-section-name Name of data section (default .data)\n" + "--bss-section-name Name of bss section (default .bss)\n" +#endif + , stream); +} + + +/* Directive data and functions. */ + +typedef struct state_stackS_struct +{ + directiveE directive; + bfd_boolean negated; + bfd_boolean old_state; + const char *file; + unsigned int line; + const void *datum; + struct state_stackS_struct *prev; +} state_stackS; + +state_stackS *directive_state_stack; + +const pseudo_typeS md_pseudo_table[] = +{ + {"align", s_align_bytes, 0}, /* Defaulting is invalid (0) */ + {"literal_position", xtensa_literal_position, 0}, + {"frame", s_ignore, 0}, /* formerly used for STABS debugging */ + {"word", cons, 4}, + {"begin", xtensa_begin_directive, 0}, + {"end", xtensa_end_directive, 0}, + {"file", (void (*) PARAMS ((int))) dwarf2_directive_file, 0}, + {"loc", dwarf2_directive_loc, 0}, + {"literal", xtensa_literal_pseudo, 0}, + {NULL, 0, 0}, +}; + + +bfd_boolean +use_generics () +{ + return directive_state[directive_generics]; +} + + +bfd_boolean +use_longcalls () +{ + return directive_state[directive_longcalls]; +} + + +bfd_boolean +code_density_available () +{ + return directive_state[directive_density]; +} + + +bfd_boolean +can_relax () +{ + return use_generics (); +} + + +static void +directive_push (directive, negated, datum) + directiveE directive; + bfd_boolean negated; + const void *datum; +{ + char *file; + unsigned int line; + state_stackS *stack = (state_stackS *) xmalloc (sizeof (state_stackS)); + + as_where (&file, &line); + + stack->directive = directive; + stack->negated = negated; + stack->old_state = directive_state[directive]; + stack->file = file; + stack->line = line; + stack->datum = datum; + stack->prev = directive_state_stack; + directive_state_stack = stack; + + directive_state[directive] = !negated; +} + +static void +directive_pop (directive, negated, file, line, datum) + directiveE *directive; + bfd_boolean *negated; + const char **file; + unsigned int *line; + const void **datum; +{ + state_stackS *top = directive_state_stack; + + if (!directive_state_stack) + { + as_bad (_("unmatched end directive")); + *directive = directive_none; + return; + } + + directive_state[directive_state_stack->directive] = top->old_state; + *directive = top->directive; + *negated = top->negated; + *file = top->file; + *line = top->line; + *datum = top->datum; + directive_state_stack = top->prev; + free (top); +} + + +static void +directive_balance () +{ + while (directive_state_stack) + { + directiveE directive; + bfd_boolean negated; + const char *file; + unsigned int line; + const void *datum; + + directive_pop (&directive, &negated, &file, &line, &datum); + as_warn_where ((char *) file, line, + _(".begin directive with no matching .end directive")); + } +} + + +static bfd_boolean +inside_directive (dir) + directiveE dir; +{ + state_stackS *top = directive_state_stack; + + while (top && top->directive != dir) + top = top->prev; + + return (top != NULL); +} + + +static void +get_directive (directive, negated) + directiveE *directive; + bfd_boolean *negated; +{ + int len; + unsigned i; + + if (strncmp (input_line_pointer, "no-", 3) != 0) + *negated = FALSE; + else + { + *negated = TRUE; + input_line_pointer += 3; + } + + len = strspn (input_line_pointer, + "abcdefghijklmnopqrstuvwxyz_/0123456789."); + + for (i = 0; i < sizeof (directive_info) / sizeof (*directive_info); ++i) + { + if (strncmp (input_line_pointer, directive_info[i].name, len) == 0) + { + input_line_pointer += len; + *directive = (directiveE) i; + if (*negated && !directive_info[i].can_be_negated) + as_bad (_("directive %s can't be negated"), + directive_info[i].name); + return; + } + } + + as_bad (_("unknown directive")); + *directive = (directiveE) XTENSA_UNDEFINED; +} + + +static void +xtensa_begin_directive (ignore) + int ignore ATTRIBUTE_UNUSED; +{ + directiveE directive; + bfd_boolean negated; + emit_state *state; + int len; + lit_state *ls; + + get_directive (&directive, &negated); + if (directive == (directiveE) XTENSA_UNDEFINED) + { + discard_rest_of_line (); + return; + } + + switch (directive) + { + case directive_literal: + state = (emit_state *) xmalloc (sizeof (emit_state)); + xtensa_switch_to_literal_fragment (state); + directive_push (directive_literal, negated, state); + break; + + case directive_literal_prefix: + /* Check to see if the current fragment is a literal + fragment. If it is, then this operation is not allowed. */ + if (frag_now->tc_frag_data.is_literal) + { + as_bad (_("cannot set literal_prefix inside literal fragment")); + return; + } + + /* Allocate the literal state for this section and push + onto the directive stack. */ + ls = xmalloc (sizeof (lit_state)); + assert (ls); + + *ls = default_lit_sections; + + directive_push (directive_literal_prefix, negated, ls); + + /* Parse the new prefix from the input_line_pointer. */ + SKIP_WHITESPACE (); + len = strspn (input_line_pointer, + "ABCDEFGHIJKLMNOPQRSTUVWXYZ" + "abcdefghijklmnopqrstuvwxyz_/0123456789.$"); + + /* Process the new prefix. */ + xtensa_literal_prefix (input_line_pointer, len); + + /* Skip the name in the input line. */ + input_line_pointer += len; + break; + + case directive_freeregs: + /* This information is currently unused, but we'll accept the statement + and just discard the rest of the line. This won't check the syntax, + but it will accept every correct freeregs directive. */ + input_line_pointer += strcspn (input_line_pointer, "\n"); + directive_push (directive_freeregs, negated, 0); + break; + + case directive_density: + if (!density_supported && !negated) + { + as_warn (_("Xtensa density option not supported; ignored")); + break; + } + /* fall through */ + + default: + directive_push (directive, negated, 0); + break; + } + + demand_empty_rest_of_line (); +} + + +static void +xtensa_end_directive (ignore) + int ignore ATTRIBUTE_UNUSED; +{ + directiveE begin_directive, end_directive; + bfd_boolean begin_negated, end_negated; + const char *file; + unsigned int line; + emit_state *state; + lit_state *s; + + get_directive (&end_directive, &end_negated); + if (end_directive == (directiveE) XTENSA_UNDEFINED) + { + discard_rest_of_line (); + return; + } + + if (end_directive == directive_density && !density_supported && !end_negated) + { + as_warn (_("Xtensa density option not supported; ignored")); + demand_empty_rest_of_line (); + return; + } + + directive_pop (&begin_directive, &begin_negated, &file, &line, + (const void **) &state); + + if (begin_directive != directive_none) + { + if (begin_directive != end_directive || begin_negated != end_negated) + { + as_bad (_("does not match begin %s%s at %s:%d"), + begin_negated ? "no-" : "", + directive_info[begin_directive].name, file, line); + } + else + { + switch (end_directive) + { + case directive_literal: + frag_var (rs_fill, 0, 0, 0, NULL, 0, NULL); + xtensa_restore_emit_state (state); + free (state); + break; + + case directive_freeregs: + break; + + case directive_literal_prefix: + /* Restore the default collection sections from saved state. */ + s = (lit_state *) state; + assert (s); + + if (use_literal_section) + default_lit_sections = *s; + + /* free the state storage */ + free (s); + break; + + default: + break; + } + } + } + + demand_empty_rest_of_line (); +} + + +/* Place an aligned literal fragment at the current location. */ + +static void +xtensa_literal_position (ignore) + int ignore ATTRIBUTE_UNUSED; +{ + if (inside_directive (directive_literal)) + as_warn (_(".literal_position inside literal directive; ignoring")); + else if (!use_literal_section) + xtensa_mark_literal_pool_location (FALSE); + + demand_empty_rest_of_line (); +} + + +/* Support .literal label, value@plt + offset. */ + +static void +xtensa_literal_pseudo (ignored) + int ignored ATTRIBUTE_UNUSED; +{ + emit_state state; + char *base_name; +#ifdef XTENSA_COMBINE_LITERALS + char *next_name; + symbolS *duplicate; + bfd_boolean used_name = FALSE; + int offset = 0; +#endif + char c; + char *p; + expressionS expP; + segT dest_seg; + + /* If we are using text-section literals, then this is the right value... */ + dest_seg = now_seg; + + base_name = input_line_pointer; + + xtensa_switch_to_literal_fragment (&state); + + /* ...but if we aren't using text-section-literals, then we + need to put them in the section we just switched to. */ + if (use_literal_section) + dest_seg = now_seg; + + /* All literals are aligned to four-byte boundaries + which is handled by switch to literal fragment. */ + /* frag_align (2, 0, 0); */ + + c = get_symbol_end (); + /* Just after name is now '\0'. */ + p = input_line_pointer; + *p = c; + SKIP_WHITESPACE (); + + if (*input_line_pointer != ',' && *input_line_pointer != ':') + { + as_bad (_("expected comma or colon after symbol name; " + "rest of line ignored")); + ignore_rest_of_line (); + xtensa_restore_emit_state (&state); + return; + } + *p = 0; + +#ifdef XTENSA_COMBINE_LITERALS + /* We need next name to start out equal to base_name, + but we modify it later to refer to a symbol and an offset. */ + next_name = xmalloc (strlen (base_name) + 1); + strcpy (next_name, base_name); + + /* We need a copy of base_name because we refer to it in the + lit_sym_translations and the source is somewhere in the input stream. */ + base_name = xmalloc (strlen (base_name) + 1); + strcpy (base_name, next_name); + +#else + + colon (base_name); +#endif + + do + { + input_line_pointer++; /* skip ',' or ':' */ + + expr (0, &expP); + +#ifdef XTENSA_COMBINE_LITERALS + duplicate = is_duplicate_literal (&expP, dest_seg); + if (duplicate) + { + add_lit_sym_translation (base_name, offset, duplicate); + used_name = TRUE; + continue; + } + colon (next_name); +#endif + + /* We only support 4-byte literals with .literal. */ + emit_expr (&expP, 4); + +#ifdef XTENSA_COMBINE_LITERALS + cache_literal (next_name, &expP, dest_seg); + free (next_name); + + if (*input_line_pointer == ',') + { + offset += 4; + next_name = xmalloc (strlen (base_name) + + strlen (XTENSA_LIT_PLUS_OFFSET) + 10); + sprintf (next_name, "%s%s%d", + XTENSA_LIT_PLUS_OFFSET, base_name, offset); + } +#endif + } + while (*input_line_pointer == ','); + + *p = c; +#ifdef XTENSA_COMBINE_LITERALS + if (!used_name) + free (base_name); +#endif + + demand_empty_rest_of_line (); + + xtensa_restore_emit_state (&state); +} + + +static void +xtensa_literal_prefix (start, len) + char const *start; + int len; +{ + segT s_now; /* Storage for the current seg and subseg. */ + subsegT ss_now; + char *name; /* Pointer to the name itself. */ + char *newname; + + if (!use_literal_section) + return; + + /* Store away the current section and subsection. */ + s_now = now_seg; + ss_now = now_subseg; + + /* Get a null-terminated copy of the name. */ + name = xmalloc (len + 1); + assert (name); + + strncpy (name, start, len); + name[len] = 0; + + /* Allocate the sections (interesting note: the memory pointing to + the name is actually used for the name by the new section). */ + newname = xmalloc (len + strlen (".literal") + 1); + strcpy (newname, name); + strcpy (newname + len, ".literal"); + + /* Note that retrieve_literal_seg does not create a segment if + it already exists. */ + default_lit_sections.lit_seg = NULL; /* retrieved on demand */ + + /* Canonicalizing section names allows renaming literal + sections to occur correctly. */ + default_lit_sections.lit_seg_name = + tc_canonicalize_symbol_name (newname); + + free (name); + + /* Restore the current section and subsection and set the + generation into the old segment. */ + subseg_set (s_now, ss_now); +} + + +/* Parsing and Idiom Translation. */ + +static const char * +expression_end (name) + const char *name; +{ + while (1) + { + switch (*name) + { + case ';': + case '\0': + case ',': + return name; + case ' ': + case '\t': + ++name; + continue; + default: + return 0; + } + } +} + + +#define ERROR_REG_NUM ((unsigned) -1) + +static unsigned +tc_get_register (prefix) + const char *prefix; +{ + unsigned reg; + const char *next_expr; + const char *old_line_pointer; + + SKIP_WHITESPACE (); + old_line_pointer = input_line_pointer; + + if (*input_line_pointer == '$') + ++input_line_pointer; + + /* Accept "sp" as a synonym for "a1". */ + if (input_line_pointer[0] == 's' && input_line_pointer[1] == 'p' + && expression_end (input_line_pointer + 2)) + { + input_line_pointer += 2; + return 1; /* AR[1] */ + } + + while (*input_line_pointer++ == *prefix++) + ; + --input_line_pointer; + --prefix; + + if (*prefix) + { + as_bad (_("bad register name: %s"), old_line_pointer); + return ERROR_REG_NUM; + } + + if (!ISDIGIT ((unsigned char) *input_line_pointer)) + { + as_bad (_("bad register number: %s"), input_line_pointer); + return ERROR_REG_NUM; + } + + reg = 0; + + while (ISDIGIT ((int) *input_line_pointer)) + reg = reg * 10 + *input_line_pointer++ - '0'; + + if (!(next_expr = expression_end (input_line_pointer))) + { + as_bad (_("bad register name: %s"), old_line_pointer); + return ERROR_REG_NUM; + } + + input_line_pointer = (char *) next_expr; + + return reg; +} + + +#define PLT_SUFFIX "@PLT" +#define plt_suffix "@plt" + +static void +expression_maybe_register (opnd, tok) + xtensa_operand opnd; + expressionS *tok; +{ + char *kind = xtensa_operand_kind (opnd); + + if ((strlen (kind) == 1) + && (*kind == 'l' || *kind == 'L' || *kind == 'i' || *kind == 'r')) + { + segT t = expression (tok); + if (t == absolute_section && operand_is_pcrel_label (opnd)) + { + assert (tok->X_op == O_constant); + tok->X_op = O_symbol; + tok->X_add_symbol = &abs_symbol; + } + if (tok->X_op == O_symbol + && (!strncmp (input_line_pointer, PLT_SUFFIX, + strlen (PLT_SUFFIX) - 1) + || !strncmp (input_line_pointer, plt_suffix, + strlen (plt_suffix) - 1))) + { + tok->X_add_symbol->sy_tc.plt = 1; + input_line_pointer += strlen (plt_suffix); + } +#ifdef XTENSA_COMBINE_LITERALS + find_lit_sym_translation (tok); +#endif + } + else + { + unsigned reg = tc_get_register (kind); + + if (reg != ERROR_REG_NUM) /* Already errored */ + { + uint32 buf = reg; + if ((xtensa_operand_encode (opnd, &buf) != xtensa_encode_result_ok) + || (reg != xtensa_operand_decode (opnd, buf))) + as_bad (_("register number out of range")); + } + + tok->X_op = O_register; + tok->X_add_symbol = 0; + tok->X_add_number = reg; + } +} + + +/* Split up the arguments for an opcode or pseudo-op. */ + +static int +tokenize_arguments (args, str) + char **args; + char *str; +{ + char *old_input_line_pointer; + bfd_boolean saw_comma = FALSE; + bfd_boolean saw_arg = FALSE; + int num_args = 0; + char *arg_end, *arg; + int arg_len; + + /* Save and restore input_line_pointer around this function. */ + old_input_line_pointer = input_line_pointer; + input_line_pointer = str; + + while (*input_line_pointer) + { + SKIP_WHITESPACE (); + switch (*input_line_pointer) + { + case '\0': + goto fini; + + case ',': + input_line_pointer++; + if (saw_comma || !saw_arg) + goto err; + saw_comma = TRUE; + break; + + default: + if (!saw_comma && saw_arg) + goto err; + + arg_end = input_line_pointer + 1; + while (!expression_end (arg_end)) + arg_end += 1; + + arg_len = arg_end - input_line_pointer; + arg = (char *) xmalloc (arg_len + 1); + args[num_args] = arg; + + strncpy (arg, input_line_pointer, arg_len); + arg[arg_len] = '\0'; + + input_line_pointer = arg_end; + num_args += 1; + saw_comma = FALSE; + saw_arg = TRUE; + break; + } + } + +fini: + if (saw_comma) + goto err; + input_line_pointer = old_input_line_pointer; + return num_args; + +err: + input_line_pointer = old_input_line_pointer; + return -1; +} + + +/* Parse the arguments to an opcode. Return true on error. */ + +static bfd_boolean +parse_arguments (insn, num_args, arg_strings) + TInsn *insn; + int num_args; + char **arg_strings; +{ + expressionS *tok = insn->tok; + xtensa_opcode opcode = insn->opcode; + bfd_boolean had_error = TRUE; + xtensa_isa isa = xtensa_default_isa; + int n; + int opcode_operand_count; + int actual_operand_count = 0; + xtensa_operand opnd = NULL; + char *old_input_line_pointer; + + if (insn->insn_type == ITYPE_LITERAL) + opcode_operand_count = 1; + else + opcode_operand_count = xtensa_num_operands (isa, opcode); + + memset (tok, 0, sizeof (*tok) * MAX_INSN_ARGS); + + /* Save and restore input_line_pointer around this function. */ + old_input_line_pointer = input_line_pointer; + + for (n = 0; n < num_args; n++) + { + input_line_pointer = arg_strings[n]; + + if (actual_operand_count >= opcode_operand_count) + { + as_warn (_("too many arguments")); + goto err; + } + assert (actual_operand_count < MAX_INSN_ARGS); + + opnd = xtensa_get_operand (isa, opcode, actual_operand_count); + expression_maybe_register (opnd, tok); + + if (tok->X_op == O_illegal || tok->X_op == O_absent) + goto err; + actual_operand_count++; + tok++; + } + + insn->ntok = tok - insn->tok; + had_error = FALSE; + + err: + input_line_pointer = old_input_line_pointer; + return had_error; +} + + +static void +xg_reverse_shift_count (cnt_argp) + char **cnt_argp; +{ + char *cnt_arg, *new_arg; + cnt_arg = *cnt_argp; + + /* replace the argument with "31-(argument)" */ + new_arg = (char *) xmalloc (strlen (cnt_arg) + 6); + sprintf (new_arg, "31-(%s)", cnt_arg); + + free (cnt_arg); + *cnt_argp = new_arg; +} + + +/* If "arg" is a constant expression, return non-zero with the value + in *valp. */ + +static int +xg_arg_is_constant (arg, valp) + char *arg; + offsetT *valp; +{ + expressionS exp; + char *save_ptr = input_line_pointer; + + input_line_pointer = arg; + expression (&exp); + input_line_pointer = save_ptr; + + if (exp.X_op == O_constant) + { + *valp = exp.X_add_number; + return 1; + } + + return 0; +} + + +static void +xg_replace_opname (popname, newop) + char **popname; + char *newop; +{ + free (*popname); + *popname = (char *) xmalloc (strlen (newop) + 1); + strcpy (*popname, newop); +} + + +static int +xg_check_num_args (pnum_args, expected_num, opname, arg_strings) + int *pnum_args; + int expected_num; + char *opname; + char **arg_strings; +{ + int num_args = *pnum_args; + + if (num_args < expected_num) + { + as_bad (_("not enough operands (%d) for '%s'; expected %d"), + num_args, opname, expected_num); + return -1; + } + + if (num_args > expected_num) + { + as_warn (_("too many operands (%d) for '%s'; expected %d"), + num_args, opname, expected_num); + while (num_args-- > expected_num) + { + free (arg_strings[num_args]); + arg_strings[num_args] = 0; + } + *pnum_args = expected_num; + return -1; + } + + return 0; +} + + +static int +xg_translate_sysreg_op (popname, pnum_args, arg_strings) + char **popname; + int *pnum_args; + char **arg_strings; +{ + char *opname, *new_opname; + offsetT val; + bfd_boolean has_underbar = FALSE; + + opname = *popname; + if (*opname == '_') + { + has_underbar = TRUE; + opname += 1; + } + + /* Opname == [rw]ur... */ + + if (opname[3] == '\0') + { + /* If the register is not specified as part of the opcode, + then get it from the operand and move it to the opcode. */ + + if (xg_check_num_args (pnum_args, 2, opname, arg_strings)) + return -1; + + if (!xg_arg_is_constant (arg_strings[1], &val)) + { + as_bad (_("register number for `%s' is not a constant"), opname); + return -1; + } + if ((unsigned) val > 255) + { + as_bad (_("register number (%ld) for `%s' is out of range"), + val, opname); + return -1; + } + + /* Remove the last argument, which is now part of the opcode. */ + free (arg_strings[1]); + arg_strings[1] = 0; + *pnum_args = 1; + + /* Translate the opcode. */ + new_opname = (char *) xmalloc (8); + sprintf (new_opname, "%s%cur%u", (has_underbar ? "_" : ""), + opname[0], (unsigned) val); + free (*popname); + *popname = new_opname; + } + + return 0; +} + + +/* If the instruction is an idiom (i.e., a built-in macro), translate it. + Returns non-zero if an error was found. */ + +static int +xg_translate_idioms (popname, pnum_args, arg_strings) + char **popname; + int *pnum_args; + char **arg_strings; +{ + char *opname = *popname; + bfd_boolean has_underbar = FALSE; + + if (*opname == '_') + { + has_underbar = TRUE; + opname += 1; + } + + if (strcmp (opname, "mov") == 0) + { + if (!has_underbar && code_density_available ()) + xg_replace_opname (popname, "mov.n"); + else + { + if (xg_check_num_args (pnum_args, 2, opname, arg_strings)) + return -1; + xg_replace_opname (popname, (has_underbar ? "_or" : "or")); + arg_strings[2] = (char *) xmalloc (strlen (arg_strings[1]) + 1); + strcpy (arg_strings[2], arg_strings[1]); + *pnum_args = 3; + } + return 0; + } + + if (strcmp (opname, "bbsi.l") == 0) + { + if (xg_check_num_args (pnum_args, 3, opname, arg_strings)) + return -1; + xg_replace_opname (popname, (has_underbar ? "_bbsi" : "bbsi")); + if (target_big_endian) + xg_reverse_shift_count (&arg_strings[1]); + return 0; + } + + if (strcmp (opname, "bbci.l") == 0) + { + if (xg_check_num_args (pnum_args, 3, opname, arg_strings)) + return -1; + xg_replace_opname (popname, (has_underbar ? "_bbci" : "bbci")); + if (target_big_endian) + xg_reverse_shift_count (&arg_strings[1]); + return 0; + } + + if (strcmp (opname, "nop") == 0) + { + if (!has_underbar && code_density_available ()) + xg_replace_opname (popname, "nop.n"); + else + { + if (xg_check_num_args (pnum_args, 0, opname, arg_strings)) + return -1; + xg_replace_opname (popname, (has_underbar ? "_or" : "or")); + arg_strings[0] = (char *) xmalloc (3); + arg_strings[1] = (char *) xmalloc (3); + arg_strings[2] = (char *) xmalloc (3); + strcpy (arg_strings[0], "a1"); + strcpy (arg_strings[1], "a1"); + strcpy (arg_strings[2], "a1"); + *pnum_args = 3; + } + return 0; + } + + if ((opname[0] == 'r' || opname[0] == 'w') + && opname[1] == 'u' + && opname[2] == 'r') + return xg_translate_sysreg_op (popname, pnum_args, arg_strings); + + + /* WIDENING DENSITY OPCODES + + questionable relaxations (widening) from old "tai" idioms: + + ADD.N --> ADD + BEQZ.N --> BEQZ + RET.N --> RET + RETW.N --> RETW + MOVI.N --> MOVI + MOV.N --> MOV + NOP.N --> NOP + + Note: this incomplete list was imported to match the "tai" + behavior; other density opcodes are not handled. + + The xtensa-relax code may know how to do these but it doesn't do + anything when these density opcodes appear inside a no-density + region. Somehow GAS should either print an error when that happens + or do the widening. The old "tai" behavior was to do the widening. + For now, I'll make it widen but print a warning. + + FIXME: GAS needs to detect density opcodes inside no-density + regions and treat them as errors. This code should be removed + when that is done. */ + + if (use_generics () + && !has_underbar + && density_supported + && !code_density_available ()) + { + if (strcmp (opname, "add.n") == 0) + xg_replace_opname (popname, "add"); + + else if (strcmp (opname, "beqz.n") == 0) + xg_replace_opname (popname, "beqz"); + + else if (strcmp (opname, "ret.n") == 0) + xg_replace_opname (popname, "ret"); + + else if (strcmp (opname, "retw.n") == 0) + xg_replace_opname (popname, "retw"); + + else if (strcmp (opname, "movi.n") == 0) + xg_replace_opname (popname, "movi"); + + else if (strcmp (opname, "mov.n") == 0) + { + if (xg_check_num_args (pnum_args, 2, opname, arg_strings)) + return -1; + xg_replace_opname (popname, "or"); + arg_strings[2] = (char *) xmalloc (strlen (arg_strings[1]) + 1); + strcpy (arg_strings[2], arg_strings[1]); + *pnum_args = 3; + } + + else if (strcmp (opname, "nop.n") == 0) + { + if (xg_check_num_args (pnum_args, 0, opname, arg_strings)) + return -1; + xg_replace_opname (popname, "or"); + arg_strings[0] = (char *) xmalloc (3); + arg_strings[1] = (char *) xmalloc (3); + arg_strings[2] = (char *) xmalloc (3); + strcpy (arg_strings[0], "a1"); + strcpy (arg_strings[1], "a1"); + strcpy (arg_strings[2], "a1"); + *pnum_args = 3; + } + } + + return 0; +} + + +/* Functions for dealing with the Xtensa ISA. */ + +/* Return true if the given operand is an immed or target instruction, + i.e., has a reloc associated with it. Currently, this is only true + if the operand kind is "i, "l" or "L". */ + +static bfd_boolean +operand_is_immed (opnd) + xtensa_operand opnd; +{ + const char *opkind = xtensa_operand_kind (opnd); + if (opkind[0] == '\0' || opkind[1] != '\0') + return FALSE; + switch (opkind[0]) + { + case 'i': + case 'l': + case 'L': + return TRUE; + } + return FALSE; +} + + +/* Return true if the given operand is a pc-relative label. This is + true for "l", "L", and "r" operand kinds. */ + +bfd_boolean +operand_is_pcrel_label (opnd) + xtensa_operand opnd; +{ + const char *opkind = xtensa_operand_kind (opnd); + if (opkind[0] == '\0' || opkind[1] != '\0') + return FALSE; + switch (opkind[0]) + { + case 'r': + case 'l': + case 'L': + return TRUE; + } + return FALSE; +} + + +/* Currently the assembler only allows us to use a single target per + fragment. Because of this, only one operand for a given + instruction may be symbolic. If there is an operand of kind "lrL", + the last one is chosen. Otherwise, the result is the number of the + last operand of type "i", and if there are none of those, we fail + and return -1. */ + +int +get_relaxable_immed (opcode) + xtensa_opcode opcode; +{ + int last_immed = -1; + int noperands, opi; + xtensa_operand operand; + + if (opcode == XTENSA_UNDEFINED) + return -1; + + noperands = xtensa_num_operands (xtensa_default_isa, opcode); + for (opi = noperands - 1; opi >= 0; opi--) + { + operand = xtensa_get_operand (xtensa_default_isa, opcode, opi); + if (operand_is_pcrel_label (operand)) + return opi; + if (last_immed == -1 && operand_is_immed (operand)) + last_immed = opi; + } + return last_immed; +} + + +xtensa_opcode +get_opcode_from_buf (buf) + const char *buf; +{ + static xtensa_insnbuf insnbuf = NULL; + xtensa_opcode opcode; + xtensa_isa isa = xtensa_default_isa; + if (!insnbuf) + insnbuf = xtensa_insnbuf_alloc (isa); + + xtensa_insnbuf_from_chars (isa, insnbuf, buf); + opcode = xtensa_decode_insn (isa, insnbuf); + return opcode; +} + + +static bfd_boolean +is_direct_call_opcode (opcode) + xtensa_opcode opcode; +{ + if (opcode == XTENSA_UNDEFINED) + return FALSE; + + return (opcode == xtensa_call0_opcode + || opcode == xtensa_call4_opcode + || opcode == xtensa_call8_opcode + || opcode == xtensa_call12_opcode); +} + + +static bfd_boolean +is_call_opcode (opcode) + xtensa_opcode opcode; +{ + if (is_direct_call_opcode (opcode)) + return TRUE; + + if (opcode == XTENSA_UNDEFINED) + return FALSE; + + return (opcode == xtensa_callx0_opcode + || opcode == xtensa_callx4_opcode + || opcode == xtensa_callx8_opcode + || opcode == xtensa_callx12_opcode); +} + + +/* Return true if the opcode is an entry opcode. This is used because + "entry" adds an implicit ".align 4" and also the entry instruction + has an extra check for an operand value. */ + +static bfd_boolean +is_entry_opcode (opcode) + xtensa_opcode opcode; +{ + if (opcode == XTENSA_UNDEFINED) + return FALSE; + + return (opcode == xtensa_entry_opcode); +} + + +/* Return true if it is one of the loop opcodes. Loops are special + because they need automatic alignment and they have a relaxation so + complex that we hard-coded it. */ + +static bfd_boolean +is_loop_opcode (opcode) + xtensa_opcode opcode; +{ + if (opcode == XTENSA_UNDEFINED) + return FALSE; + + return (opcode == xtensa_loop_opcode + || opcode == xtensa_loopnez_opcode + || opcode == xtensa_loopgtz_opcode); +} + + +static bfd_boolean +is_the_loop_opcode (opcode) + xtensa_opcode opcode; +{ + if (opcode == XTENSA_UNDEFINED) + return FALSE; + + return (opcode == xtensa_loop_opcode); +} + + +static bfd_boolean +is_jx_opcode (opcode) + xtensa_opcode opcode; +{ + if (opcode == XTENSA_UNDEFINED) + return FALSE; + + return (opcode == xtensa_jx_opcode); +} + + +/* Return true if the opcode is a retw or retw.n. + Needed to add nops to avoid a hardware interlock issue. */ + +static bfd_boolean +is_windowed_return_opcode (opcode) + xtensa_opcode opcode; +{ + if (opcode == XTENSA_UNDEFINED) + return FALSE; + + return (opcode == xtensa_retw_opcode || opcode == xtensa_retw_n_opcode); +} + + +/* Return true if the opcode type is "l" and the opcode is NOT a jump. */ + +static bfd_boolean +is_conditional_branch_opcode (opcode) + xtensa_opcode opcode; +{ + xtensa_isa isa = xtensa_default_isa; + int num_ops, i; + + if (opcode == xtensa_j_opcode && opcode != XTENSA_UNDEFINED) + return FALSE; + + num_ops = xtensa_num_operands (isa, opcode); + for (i = 0; i < num_ops; i++) + { + xtensa_operand operand = xtensa_get_operand (isa, opcode, i); + if (strcmp (xtensa_operand_kind (operand), "l") == 0) + return TRUE; + } + return FALSE; +} + + +/* Return true if the given opcode is a conditional branch + instruction, i.e., currently this is true if the instruction + is a jx or has an operand with 'l' type and is not a loop. */ + +bfd_boolean +is_branch_or_jump_opcode (opcode) + xtensa_opcode opcode; +{ + int opn, op_count; + + if (opcode == XTENSA_UNDEFINED) + return FALSE; + + if (is_loop_opcode (opcode)) + return FALSE; + + if (is_jx_opcode (opcode)) + return TRUE; + + op_count = xtensa_num_operands (xtensa_default_isa, opcode); + for (opn = 0; opn < op_count; opn++) + { + xtensa_operand opnd = + xtensa_get_operand (xtensa_default_isa, opcode, opn); + const char *opkind = xtensa_operand_kind (opnd); + if (opkind && opkind[0] == 'l' && opkind[1] == '\0') + return TRUE; + } + return FALSE; +} + + +/* Convert from operand numbers to BFD relocation type code. + Return BFD_RELOC_NONE on failure. */ + +bfd_reloc_code_real_type +opnum_to_reloc (opnum) + int opnum; +{ + switch (opnum) + { + case 0: + return BFD_RELOC_XTENSA_OP0; + case 1: + return BFD_RELOC_XTENSA_OP1; + case 2: + return BFD_RELOC_XTENSA_OP2; + default: + break; + } + return BFD_RELOC_NONE; +} + + +/* Convert from BFD relocation type code to operand number. + Return -1 on failure. */ + +int +reloc_to_opnum (reloc) + bfd_reloc_code_real_type reloc; +{ + switch (reloc) + { + case BFD_RELOC_XTENSA_OP0: + return 0; + case BFD_RELOC_XTENSA_OP1: + return 1; + case BFD_RELOC_XTENSA_OP2: + return 2; + default: + break; + } + return -1; +} + + +static void +xtensa_insnbuf_set_operand (insnbuf, opcode, operand, value, file, line) + xtensa_insnbuf insnbuf; + xtensa_opcode opcode; + xtensa_operand operand; + int32 value; + const char *file; + unsigned int line; +{ + xtensa_encode_result encode_result; + uint32 valbuf = value; + + encode_result = xtensa_operand_encode (operand, &valbuf); + + switch (encode_result) + { + case xtensa_encode_result_ok: + break; + case xtensa_encode_result_align: + as_bad_where ((char *) file, line, + _("operand %d not properly aligned for '%s'"), + value, xtensa_opcode_name (xtensa_default_isa, opcode)); + break; + case xtensa_encode_result_not_in_table: + as_bad_where ((char *) file, line, + _("operand %d not in immediate table for '%s'"), + value, xtensa_opcode_name (xtensa_default_isa, opcode)); + break; + case xtensa_encode_result_too_high: + as_bad_where ((char *) file, line, + _("operand %d too large for '%s'"), value, + xtensa_opcode_name (xtensa_default_isa, opcode)); + break; + case xtensa_encode_result_too_low: + as_bad_where ((char *) file, line, + _("operand %d too small for '%s'"), value, + xtensa_opcode_name (xtensa_default_isa, opcode)); + break; + case xtensa_encode_result_not_ok: + as_bad_where ((char *) file, line, + _("operand %d is invalid for '%s'"), value, + xtensa_opcode_name (xtensa_default_isa, opcode)); + break; + default: + abort (); + } + + xtensa_operand_set_field (operand, insnbuf, valbuf); +} + + +static uint32 +xtensa_insnbuf_get_operand (insnbuf, opcode, opnum) + xtensa_insnbuf insnbuf; + xtensa_opcode opcode; + int opnum; +{ + xtensa_operand op = xtensa_get_operand (xtensa_default_isa, opcode, opnum); + return xtensa_operand_decode (op, xtensa_operand_get_field (op, insnbuf)); +} + + +static void +xtensa_insnbuf_set_immediate_field (opcode, insnbuf, value, file, line) + xtensa_opcode opcode; + xtensa_insnbuf insnbuf; + int32 value; + const char *file; + unsigned int line; +{ + xtensa_isa isa = xtensa_default_isa; + int last_opnd = xtensa_num_operands (isa, opcode) - 1; + xtensa_operand operand = xtensa_get_operand (isa, opcode, last_opnd); + xtensa_insnbuf_set_operand (insnbuf, opcode, operand, value, file, line); +} + + +static bfd_boolean +is_negatable_branch (insn) + TInsn *insn; +{ + xtensa_isa isa = xtensa_default_isa; + int i; + int num_ops = xtensa_num_operands (isa, insn->opcode); + + for (i = 0; i < num_ops; i++) + { + xtensa_operand opnd = xtensa_get_operand (isa, insn->opcode, i); + char *kind = xtensa_operand_kind (opnd); + if (strlen (kind) == 1 && *kind == 'l') + return TRUE; + } + return FALSE; +} + + +/* Lists for recording various properties of symbols. */ + +typedef struct symbol_consS_struct +{ + symbolS *first; + /* These are used for the target taken. */ + int is_loop_target:1; + int is_branch_target:1; + int is_literal:1; + int is_moved:1; + struct symbol_consS_struct *rest; +} symbol_consS; + +symbol_consS *defined_symbols = 0; +symbol_consS *branch_targets = 0; + + +static void +xtensa_define_label (sym) + symbolS *sym; +{ + symbol_consS *cons = (symbol_consS *) xmalloc (sizeof (symbol_consS)); + + cons->first = sym; + cons->is_branch_target = 0; + cons->is_loop_target = 0; + cons->is_literal = generating_literals ? 1 : 0; + cons->is_moved = 0; + cons->rest = defined_symbols; + defined_symbols = cons; +} + + +void +add_target_symbol (sym, is_loop) + symbolS *sym; + bfd_boolean is_loop; +{ + symbol_consS *cons, *sym_e; + + for (sym_e = branch_targets; sym_e; sym_e = sym_e->rest) + { + if (sym_e->first == sym) + { + if (is_loop) + sym_e->is_loop_target = 1; + else + sym_e->is_branch_target = 1; + return; + } + } + + cons = (symbol_consS *) xmalloc (sizeof (symbol_consS)); + cons->first = sym; + cons->is_branch_target = (is_loop ? 0 : 1); + cons->is_loop_target = (is_loop ? 1 : 0); + cons->rest = branch_targets; + branch_targets = cons; +} + + +/* Find the symbol at a given position. (Note: the "loops_ok" + argument is provided to allow ignoring labels that define loop + ends. This fixes a bug where the NOPs to align a loop opcode were + included in a previous zero-cost loop: + + loop a0, loopend + <loop1 body> + loopend: + + loop a2, loopend2 + <loop2 body> + + would become: + + loop a0, loopend + <loop1 body> + nop.n <===== bad! + loopend: + + loop a2, loopend2 + <loop2 body> + + This argument is used to prevent moving the NOP to before the + loop-end label, which is what you want in this special case.) */ + +static symbolS * +xtensa_find_label (fragP, offset, loops_ok) + fragS *fragP; + offsetT offset; + bfd_boolean loops_ok; +{ + symbol_consS *consP; + + for (consP = defined_symbols; consP; consP = consP->rest) + { + symbolS *symP = consP->first; + + if (S_GET_SEGMENT (symP) == now_seg + && symbol_get_frag (symP) == fragP + && symbol_constant_p (symP) + && S_GET_VALUE (symP) == fragP->fr_address + (unsigned) offset + && (loops_ok || !is_loop_target_label (symP))) + return symP; + } + return NULL; +} + + +static void +map_over_defined_symbols (fn) + void (*fn) PARAMS ((symbolS *)); +{ + symbol_consS *sym_cons; + + for (sym_cons = defined_symbols; sym_cons; sym_cons = sym_cons->rest) + fn (sym_cons->first); +} + + +static bfd_boolean +is_loop_target_label (sym) + symbolS *sym; +{ + symbol_consS *sym_e; + + for (sym_e = branch_targets; sym_e; sym_e = sym_e->rest) + { + if (sym_e->first == sym) + return sym_e->is_loop_target; + } + return FALSE; +} + + +/* Walk over all of the symbols that are branch target labels and + loop target labels. Mark the associated fragments for these with + the appropriate flags. */ + +static void +xtensa_mark_target_fragments () +{ + symbol_consS *sym_e; + + for (sym_e = branch_targets; sym_e; sym_e = sym_e->rest) + { + symbolS *sym = sym_e->first; + + if (symbol_get_frag (sym) + && symbol_constant_p (sym) + && S_GET_VALUE (sym) == 0) + { + if (sym_e->is_branch_target) + symbol_get_frag (sym)->tc_frag_data.is_branch_target = TRUE; + if (sym_e->is_loop_target) + symbol_get_frag (sym)->tc_frag_data.is_loop_target = TRUE; + } + } +} + + +/* Various Other Internal Functions. */ + +static bfd_boolean +is_unique_insn_expansion (r) + TransitionRule *r; +{ + if (!r->to_instr || r->to_instr->next != NULL) + return FALSE; + if (r->to_instr->typ != INSTR_INSTR) + return FALSE; + return TRUE; +} + + +static int +xg_get_insn_size (insn) + TInsn *insn; +{ + assert (insn->insn_type == ITYPE_INSN); + return xtensa_insn_length (xtensa_default_isa, insn->opcode); +} + + +static int +xg_get_build_instr_size (insn) + BuildInstr *insn; +{ + assert (insn->typ == INSTR_INSTR); + return xtensa_insn_length (xtensa_default_isa, insn->opcode); +} + + +bfd_boolean +xg_is_narrow_insn (insn) + TInsn *insn; +{ + TransitionTable *table = xg_build_widen_table (); + TransitionList *l; + int num_match = 0; + assert (insn->insn_type == ITYPE_INSN); + assert (insn->opcode < table->num_opcodes); + + for (l = table->table[insn->opcode]; l != NULL; l = l->next) + { + TransitionRule *rule = l->rule; + + if (xg_instruction_matches_rule (insn, rule) + && is_unique_insn_expansion (rule)) + { + /* It only generates one instruction... */ + assert (insn->insn_type == ITYPE_INSN); + /* ...and it is a larger instruction. */ + if (xg_get_insn_size (insn) + < xg_get_build_instr_size (rule->to_instr)) + { + num_match++; + if (num_match > 1) + return FALSE; + } + } + } + return (num_match == 1); +} + + +bfd_boolean +xg_is_single_relaxable_insn (insn) + TInsn *insn; +{ + TransitionTable *table = xg_build_widen_table (); + TransitionList *l; + int num_match = 0; + assert (insn->insn_type == ITYPE_INSN); + assert (insn->opcode < table->num_opcodes); + + for (l = table->table[insn->opcode]; l != NULL; l = l->next) + { + TransitionRule *rule = l->rule; + + if (xg_instruction_matches_rule (insn, rule) + && is_unique_insn_expansion (rule)) + { + assert (insn->insn_type == ITYPE_INSN); + /* ... and it is a larger instruction. */ + if (xg_get_insn_size (insn) + <= xg_get_build_instr_size (rule->to_instr)) + { + num_match++; + if (num_match > 1) + return FALSE; + } + } + } + return (num_match == 1); +} + + +/* Return the largest size instruction that this instruction can + expand to. Currently, in all cases, this is 3 bytes. Of course we + could just calculate this once and generate a table. */ + +int +xg_get_max_narrow_insn_size (opcode) + xtensa_opcode opcode; +{ + /* Go ahead and compute it, but it better be 3. */ + TransitionTable *table = xg_build_widen_table (); + TransitionList *l; + int old_size = xtensa_insn_length (xtensa_default_isa, opcode); + assert (opcode < table->num_opcodes); + + /* Actually we can do better. Check to see of Only one applies. */ + for (l = table->table[opcode]; l != NULL; l = l->next) + { + TransitionRule *rule = l->rule; + + /* If it only generates one instruction. */ + if (is_unique_insn_expansion (rule)) + { + int new_size = xtensa_insn_length (xtensa_default_isa, + rule->to_instr->opcode); + if (new_size > old_size) + { + assert (new_size == 3); + return 3; + } + } + } + return old_size; +} + + +/* Return the maximum number of bytes this opcode can expand to. */ + +int +xg_get_max_insn_widen_size (opcode) + xtensa_opcode opcode; +{ + TransitionTable *table = xg_build_widen_table (); + TransitionList *l; + int max_size = xtensa_insn_length (xtensa_default_isa, opcode); + + assert (opcode < table->num_opcodes); + + for (l = table->table[opcode]; l != NULL; l = l->next) + { + TransitionRule *rule = l->rule; + BuildInstr *build_list; + int this_size = 0; + + if (!rule) + continue; + build_list = rule->to_instr; + if (is_unique_insn_expansion (rule)) + { + assert (build_list->typ == INSTR_INSTR); + this_size = xg_get_max_insn_widen_size (build_list->opcode); + } + else + for (; build_list != NULL; build_list = build_list->next) + { + switch (build_list->typ) + { + case INSTR_INSTR: + this_size += xtensa_insn_length (xtensa_default_isa, + build_list->opcode); + + break; + case INSTR_LITERAL_DEF: + case INSTR_LABEL_DEF: + default: + break; + } + } + if (this_size > max_size) + max_size = this_size; + } + return max_size; +} + + +/* Return the maximum number of literal bytes this opcode can generate. */ + +int +xg_get_max_insn_widen_literal_size (opcode) + xtensa_opcode opcode; +{ + TransitionTable *table = xg_build_widen_table (); + TransitionList *l; + int max_size = 0; + + assert (opcode < table->num_opcodes); + + for (l = table->table[opcode]; l != NULL; l = l->next) + { + TransitionRule *rule = l->rule; + BuildInstr *build_list; + int this_size = 0; + + if (!rule) + continue; + build_list = rule->to_instr; + if (is_unique_insn_expansion (rule)) + { + assert (build_list->typ == INSTR_INSTR); + this_size = xg_get_max_insn_widen_literal_size (build_list->opcode); + } + else + for (; build_list != NULL; build_list = build_list->next) + { + switch (build_list->typ) + { + case INSTR_LITERAL_DEF: + /* hard coded 4-byte literal. */ + this_size += 4; + break; + case INSTR_INSTR: + case INSTR_LABEL_DEF: + default: + break; + } + } + if (this_size > max_size) + max_size = this_size; + } + return max_size; +} + + +bfd_boolean +xg_is_relaxable_insn (insn, lateral_steps) + TInsn *insn; + int lateral_steps; +{ + int steps_taken = 0; + TransitionTable *table = xg_build_widen_table (); + TransitionList *l; + + assert (insn->insn_type == ITYPE_INSN); + assert (insn->opcode < table->num_opcodes); + + for (l = table->table[insn->opcode]; l != NULL; l = l->next) + { + TransitionRule *rule = l->rule; + + if (xg_instruction_matches_rule (insn, rule)) + { + if (steps_taken == lateral_steps) + return TRUE; + steps_taken++; + } + } + return FALSE; +} + + +static symbolS * +get_special_literal_symbol () +{ + static symbolS *sym = NULL; + + if (sym == NULL) + sym = symbol_find_or_make ("SPECIAL_LITERAL0\001"); + return sym; +} + + +static symbolS * +get_special_label_symbol () +{ + static symbolS *sym = NULL; + + if (sym == NULL) + sym = symbol_find_or_make ("SPECIAL_LABEL0\001"); + return sym; +} + + +/* Return true on success. */ + +bfd_boolean +xg_build_to_insn (targ, insn, bi) + TInsn *targ; + TInsn *insn; + BuildInstr *bi; +{ + BuildOp *op; + symbolS *sym; + + memset (targ, 0, sizeof (TInsn)); + switch (bi->typ) + { + case INSTR_INSTR: + op = bi->ops; + targ->opcode = bi->opcode; + targ->insn_type = ITYPE_INSN; + targ->is_specific_opcode = FALSE; + + for (; op != NULL; op = op->next) + { + int op_num = op->op_num; + int op_data = op->op_data; + + assert (op->op_num < MAX_INSN_ARGS); + + if (targ->ntok <= op_num) + targ->ntok = op_num + 1; + + switch (op->typ) + { + case OP_CONSTANT: + set_expr_const (&targ->tok[op_num], op_data); + break; + case OP_OPERAND: + assert (op_data < insn->ntok); + copy_expr (&targ->tok[op_num], &insn->tok[op_data]); + break; + case OP_LITERAL: + sym = get_special_literal_symbol (); + set_expr_symbol_offset (&targ->tok[op_num], sym, 0); + break; + case OP_LABEL: + sym = get_special_label_symbol (); + set_expr_symbol_offset (&targ->tok[op_num], sym, 0); + break; + default: + /* currently handles: + OP_OPERAND_LOW8 + OP_OPERAND_HI24S + OP_OPERAND_F32MINUS */ + if (xg_has_userdef_op_fn (op->typ)) + { + assert (op_data < insn->ntok); + if (expr_is_const (&insn->tok[op_data])) + { + long val; + copy_expr (&targ->tok[op_num], &insn->tok[op_data]); + val = xg_apply_userdef_op_fn (op->typ, + targ->tok[op_num]. + X_add_number); + targ->tok[op_num].X_add_number = val; + } + else + return FALSE; /* We cannot use a relocation for this. */ + break; + } + assert (0); + break; + } + } + break; + + case INSTR_LITERAL_DEF: + op = bi->ops; + targ->opcode = XTENSA_UNDEFINED; + targ->insn_type = ITYPE_LITERAL; + targ->is_specific_opcode = FALSE; + for (; op != NULL; op = op->next) + { + int op_num = op->op_num; + int op_data = op->op_data; + assert (op->op_num < MAX_INSN_ARGS); + + if (targ->ntok <= op_num) + targ->ntok = op_num + 1; + + switch (op->typ) + { + case OP_OPERAND: + assert (op_data < insn->ntok); + copy_expr (&targ->tok[op_num], &insn->tok[op_data]); + break; + case OP_LITERAL: + case OP_CONSTANT: + case OP_LABEL: + default: + assert (0); + break; + } + } + break; + + case INSTR_LABEL_DEF: + op = bi->ops; + targ->opcode = XTENSA_UNDEFINED; + targ->insn_type = ITYPE_LABEL; + targ->is_specific_opcode = FALSE; + /* Literal with no ops. is a label? */ + assert (op == NULL); + break; + + default: + assert (0); + } + + return TRUE; +} + + +/* Return true on success. */ + +bfd_boolean +xg_build_to_stack (istack, insn, bi) + IStack *istack; + TInsn *insn; + BuildInstr *bi; +{ + for (; bi != NULL; bi = bi->next) + { + TInsn *next_insn = istack_push_space (istack); + + if (!xg_build_to_insn (next_insn, insn, bi)) + return FALSE; + } + return TRUE; +} + + +/* Return true on valid expansion. */ + +bfd_boolean +xg_expand_to_stack (istack, insn, lateral_steps) + IStack *istack; + TInsn *insn; + int lateral_steps; +{ + int stack_size = istack->ninsn; + int steps_taken = 0; + TransitionTable *table = xg_build_widen_table (); + TransitionList *l; + + assert (insn->insn_type == ITYPE_INSN); + assert (insn->opcode < table->num_opcodes); + + for (l = table->table[insn->opcode]; l != NULL; l = l->next) + { + TransitionRule *rule = l->rule; + + if (xg_instruction_matches_rule (insn, rule)) + { + if (lateral_steps == steps_taken) + { + int i; + + /* This is it. Expand the rule to the stack. */ + if (!xg_build_to_stack (istack, insn, rule->to_instr)) + return FALSE; + + /* Check to see if it fits. */ + for (i = stack_size; i < istack->ninsn; i++) + { + TInsn *insn = &istack->insn[i]; + + if (insn->insn_type == ITYPE_INSN + && !tinsn_has_symbolic_operands (insn) + && !xg_immeds_fit (insn)) + { + istack->ninsn = stack_size; + return FALSE; + } + } + return TRUE; + } + steps_taken++; + } + } + return FALSE; +} + + +bfd_boolean +xg_expand_narrow (targ, insn) + TInsn *targ; + TInsn *insn; +{ + TransitionTable *table = xg_build_widen_table (); + TransitionList *l; + + assert (insn->insn_type == ITYPE_INSN); + assert (insn->opcode < table->num_opcodes); + + for (l = table->table[insn->opcode]; l != NULL; l = l->next) + { + TransitionRule *rule = l->rule; + if (xg_instruction_matches_rule (insn, rule) + && is_unique_insn_expansion (rule)) + { + /* Is it a larger instruction? */ + if (xg_get_insn_size (insn) + <= xg_get_build_instr_size (rule->to_instr)) + { + xg_build_to_insn (targ, insn, rule->to_instr); + return FALSE; + } + } + } + return TRUE; +} + + +/* Assumes: All immeds are constants. Check that all constants fit + into their immeds; return false if not. */ + +static bfd_boolean +xg_immeds_fit (insn) + const TInsn *insn; +{ + int i; + + int n = insn->ntok; + assert (insn->insn_type == ITYPE_INSN); + for (i = 0; i < n; ++i) + { + const expressionS *expr = &insn->tok[i]; + xtensa_operand opnd = xtensa_get_operand (xtensa_default_isa, + insn->opcode, i); + if (!operand_is_immed (opnd)) + continue; + + switch (expr->X_op) + { + case O_register: + case O_constant: + { + if (xg_check_operand (expr->X_add_number, opnd)) + return FALSE; + } + break; + default: + /* The symbol should have a fixup associated with it. */ + assert (FALSE); + break; + } + } + return TRUE; +} + + +/* This should only be called after we have an initial + estimate of the addresses. */ + +static bfd_boolean +xg_symbolic_immeds_fit (insn, pc_seg, pc_frag, pc_offset, stretch) + const TInsn *insn; + segT pc_seg; + fragS *pc_frag; + offsetT pc_offset; + long stretch; +{ + symbolS *symbolP; + offsetT target, pc, new_offset; + int i; + int n = insn->ntok; + + assert (insn->insn_type == ITYPE_INSN); + + for (i = 0; i < n; ++i) + { + const expressionS *expr = &insn->tok[i]; + xtensa_operand opnd = xtensa_get_operand (xtensa_default_isa, + insn->opcode, i); + if (!operand_is_immed (opnd)) + continue; + + switch (expr->X_op) + { + case O_register: + case O_constant: + if (xg_check_operand (expr->X_add_number, opnd)) + return FALSE; + break; + + case O_symbol: + /* We only allow symbols for pc-relative stuff. + If pc_frag == 0, then we don't have frag locations yet. */ + if (pc_frag == 0) + return FALSE; + + /* If it is PC-relative and the symbol is in the same segment as + the PC.... */ + if (!xtensa_operand_isPCRelative (opnd) + || S_GET_SEGMENT (expr->X_add_symbol) != pc_seg) + return FALSE; + + symbolP = expr->X_add_symbol; + target = S_GET_VALUE (symbolP) + expr->X_add_number; + pc = pc_frag->fr_address + pc_offset; + + /* If frag has yet to be reached on this pass, assume it + will move by STRETCH just as we did. If this is not so, + it will be because some frag between grows, and that will + force another pass. Beware zero-length frags. There + should be a faster way to do this. */ + + if (stretch && is_dnrange (pc_frag, symbolP, stretch)) + target += stretch; + + new_offset = xtensa_operand_do_reloc (opnd, target, pc); + if (xg_check_operand (new_offset, opnd)) + return FALSE; + break; + + default: + /* The symbol should have a fixup associated with it. */ + return FALSE; + } + } + + return TRUE; +} + + +/* This will check to see if the value can be converted into the + operand type. It will return true if it does not fit. */ + +static bfd_boolean +xg_check_operand (value, operand) + int32 value; + xtensa_operand operand; +{ + uint32 valbuf = value; + return (xtensa_operand_encode (operand, &valbuf) != xtensa_encode_result_ok); +} + + +/* Check if a symbol is pointing to somewhere after + the start frag, given that the segment has stretched + by stretch during relaxation. + + This is more complicated than it might appear at first blush + because of the stretching that goes on. Here is how the check + works: + + If the symbol and the frag are in the same segment, then + the symbol could be down range. Note that this function + assumes that start_frag is in now_seg. + + If the symbol is pointing to a frag with an address greater than + than the start_frag's address, then it _could_ be down range. + + The problem comes because target_frag may or may not have had + stretch bytes added to its address already, depending on if it is + before or after start frag. (And if we knew that, then we wouldn't + need this function.) start_frag has definitely already had stretch + bytes added to its address. + + If target_frag's address hasn't been adjusted yet, then to + determine if it comes after start_frag, we need to subtract + stretch from start_frag's address. + + If target_frag's address has been adjusted, then it might have + been adjusted such that it comes after start_frag's address minus + stretch bytes. + + So, in that case, we scan for it down stream to within + stretch bytes. We could search to the end of the fr_chain, but + that ends up taking too much time (over a minute on some gnu + tests). */ + +int +is_dnrange (start_frag, sym, stretch) + fragS *start_frag; + symbolS *sym; + long stretch; +{ + if (S_GET_SEGMENT (sym) == now_seg) + { + fragS *cur_frag = symbol_get_frag (sym); + + if (cur_frag->fr_address >= start_frag->fr_address - stretch) + { + int distance = stretch; + + while (cur_frag && distance >= 0) + { + distance -= cur_frag->fr_fix; + if (cur_frag == start_frag) + return 0; + cur_frag = cur_frag->fr_next; + } + return 1; + } + } + return 0; +} + + +/* Relax the assembly instruction at least "min_steps". + Return the number of steps taken. */ + +int +xg_assembly_relax (istack, insn, pc_seg, pc_frag, pc_offset, min_steps, + stretch) + IStack *istack; + TInsn *insn; + segT pc_seg; + fragS *pc_frag; /* If pc_frag == 0, then no pc-relative. */ + offsetT pc_offset; /* Offset in fragment. */ + int min_steps; /* Minimum number of conversion steps. */ + long stretch; /* Number of bytes stretched so far. */ +{ + int steps_taken = 0; + + /* assert (has no symbolic operands) + Some of its immeds don't fit. + Try to build a relaxed version. + This may go through a couple of stages + of single instruction transformations before + we get there. */ + + TInsn single_target; + TInsn current_insn; + int lateral_steps = 0; + int istack_size = istack->ninsn; + + if (xg_symbolic_immeds_fit (insn, pc_seg, pc_frag, pc_offset, stretch) + && steps_taken >= min_steps) + { + istack_push (istack, insn); + return steps_taken; + } + tinsn_copy (¤t_insn, insn); + + /* Walk through all of the single instruction expansions. */ + while (xg_is_single_relaxable_insn (¤t_insn)) + { + int error_val = xg_expand_narrow (&single_target, ¤t_insn); + + assert (!error_val); + + if (xg_symbolic_immeds_fit (&single_target, pc_seg, pc_frag, pc_offset, + stretch)) + { + steps_taken++; + if (steps_taken >= min_steps) + { + istack_push (istack, &single_target); + return steps_taken; + } + } + tinsn_copy (¤t_insn, &single_target); + } + + /* Now check for a multi-instruction expansion. */ + while (xg_is_relaxable_insn (¤t_insn, lateral_steps)) + { + if (xg_symbolic_immeds_fit (¤t_insn, pc_seg, pc_frag, pc_offset, + stretch)) + { + if (steps_taken >= min_steps) + { + istack_push (istack, ¤t_insn); + return steps_taken; + } + } + steps_taken++; + if (xg_expand_to_stack (istack, ¤t_insn, lateral_steps)) + { + if (steps_taken >= min_steps) + return steps_taken; + } + lateral_steps++; + istack->ninsn = istack_size; + } + + /* It's not going to work -- use the original. */ + istack_push (istack, insn); + return steps_taken; +} + + +static void +xg_force_frag_space (size) + int size; +{ + /* This may have the side effect of creating a new fragment for the + space to go into. I just do not like the name of the "frag" + functions. */ + frag_grow (size); +} + + +void +xg_finish_frag (last_insn, state, max_growth, is_insn) + char *last_insn; + enum xtensa_relax_statesE state; + int max_growth; + bfd_boolean is_insn; +{ + /* Finish off this fragment so that it has at LEAST the desired + max_growth. If it doesn't fit in this fragment, close this one + and start a new one. In either case, return a pointer to the + beginning of the growth area. */ + + fragS *old_frag; + xg_force_frag_space (max_growth); + + old_frag = frag_now; + + frag_now->fr_opcode = last_insn; + if (is_insn) + frag_now->tc_frag_data.is_insn = TRUE; + + frag_var (rs_machine_dependent, max_growth, max_growth, + state, frag_now->fr_symbol, frag_now->fr_offset, last_insn); + + /* Just to make sure that we did not split it up. */ + assert (old_frag->fr_next == frag_now); +} + + +static bfd_boolean +is_branch_jmp_to_next (insn, fragP) + TInsn *insn; + fragS *fragP; +{ + xtensa_isa isa = xtensa_default_isa; + int i; + int num_ops = xtensa_num_operands (isa, insn->opcode); + int target_op = -1; + symbolS *sym; + fragS *target_frag; + + if (is_loop_opcode (insn->opcode)) + return FALSE; + + for (i = 0; i < num_ops; i++) + { + xtensa_operand opnd = xtensa_get_operand (isa, insn->opcode, i); + char *kind = xtensa_operand_kind (opnd); + if (strlen (kind) == 1 && *kind == 'l') + { + target_op = i; + break; + } + } + if (target_op == -1) + return FALSE; + + if (insn->ntok <= target_op) + return FALSE; + + if (insn->tok[target_op].X_op != O_symbol) + return FALSE; + + sym = insn->tok[target_op].X_add_symbol; + if (sym == NULL) + return FALSE; + + if (insn->tok[target_op].X_add_number != 0) + return FALSE; + + target_frag = symbol_get_frag (sym); + if (target_frag == NULL) + return FALSE; + + if (is_next_frag_target (fragP->fr_next, target_frag) + && S_GET_VALUE (sym) == target_frag->fr_address) + return TRUE; + + return FALSE; +} + + +static void +xg_add_branch_and_loop_targets (insn) + TInsn *insn; +{ + xtensa_isa isa = xtensa_default_isa; + int num_ops = xtensa_num_operands (isa, insn->opcode); + + if (is_loop_opcode (insn->opcode)) + { + int i = 1; + xtensa_operand opnd = xtensa_get_operand (isa, insn->opcode, i); + char *kind = xtensa_operand_kind (opnd); + if (strlen (kind) == 1 && *kind == 'l') + if (insn->tok[i].X_op == O_symbol) + add_target_symbol (insn->tok[i].X_add_symbol, TRUE); + return; + } + + /* Currently, we do not add branch targets. This is an optimization + for later that tries to align only branch targets, not just any + label in a text section. */ + + if (align_only_targets) + { + int i; + + for (i = 0; i < insn->ntok && i < num_ops; i++) + { + xtensa_operand opnd = xtensa_get_operand (isa, insn->opcode, i); + char *kind = xtensa_operand_kind (opnd); + if (strlen (kind) == 1 && *kind == 'l' + && insn->tok[i].X_op == O_symbol) + add_target_symbol (insn->tok[i].X_add_symbol, FALSE); + } + } +} + + +/* Return the transition rule that matches or NULL if none matches. */ + +bfd_boolean +xg_instruction_matches_rule (insn, rule) + TInsn *insn; + TransitionRule *rule; +{ + PreconditionList *condition_l; + + if (rule->opcode != insn->opcode) + return FALSE; + + for (condition_l = rule->conditions; + condition_l != NULL; + condition_l = condition_l->next) + { + expressionS *exp1; + expressionS *exp2; + Precondition *cond = condition_l->precond; + + switch (cond->typ) + { + case OP_CONSTANT: + /* The expression must be the constant. */ + assert (cond->op_num < insn->ntok); + exp1 = &insn->tok[cond->op_num]; + if (!expr_is_const (exp1)) + return FALSE; + switch (cond->cmp) + { + case OP_EQUAL: + if (get_expr_const (exp1) != cond->op_data) + return FALSE; + break; + case OP_NOTEQUAL: + if (get_expr_const (exp1) == cond->op_data) + return FALSE; + break; + } + break; + + case OP_OPERAND: + assert (cond->op_num < insn->ntok); + assert (cond->op_data < insn->ntok); + exp1 = &insn->tok[cond->op_num]; + exp2 = &insn->tok[cond->op_data]; + + switch (cond->cmp) + { + case OP_EQUAL: + if (!expr_is_equal (exp1, exp2)) + return FALSE; + break; + case OP_NOTEQUAL: + if (expr_is_equal (exp1, exp2)) + return FALSE; + break; + } + break; + + case OP_LITERAL: + case OP_LABEL: + default: + return FALSE; + } + } + return TRUE; +} + + +TransitionRule * +xg_instruction_match (insn) + TInsn *insn; +{ + TransitionTable *table = xg_build_simplify_table (); + TransitionList *l; + assert (insn->opcode < table->num_opcodes); + + /* Walk through all of the possible transitions. */ + for (l = table->table[insn->opcode]; l != NULL; l = l->next) + { + TransitionRule *rule = l->rule; + if (xg_instruction_matches_rule (insn, rule)) + return rule; + } + return NULL; +} + + +/* Return false if no error. */ + +bfd_boolean +xg_build_token_insn (instr_spec, old_insn, new_insn) + BuildInstr *instr_spec; + TInsn *old_insn; + TInsn *new_insn; +{ + int num_ops = 0; + BuildOp *b_op; + + switch (instr_spec->typ) + { + case INSTR_INSTR: + new_insn->insn_type = ITYPE_INSN; + new_insn->opcode = instr_spec->opcode; + new_insn->is_specific_opcode = FALSE; + break; + case INSTR_LITERAL_DEF: + new_insn->insn_type = ITYPE_LITERAL; + new_insn->opcode = XTENSA_UNDEFINED; + new_insn->is_specific_opcode = FALSE; + break; + case INSTR_LABEL_DEF: + as_bad (_("INSTR_LABEL_DEF not supported yet")); + break; + } + + for (b_op = instr_spec->ops; b_op != NULL; b_op = b_op->next) + { + expressionS *exp; + const expressionS *src_exp; + + num_ops++; + switch (b_op->typ) + { + case OP_CONSTANT: + /* The expression must be the constant. */ + assert (b_op->op_num < MAX_INSN_ARGS); + exp = &new_insn->tok[b_op->op_num]; + set_expr_const (exp, b_op->op_data); + break; + + case OP_OPERAND: + assert (b_op->op_num < MAX_INSN_ARGS); + assert (b_op->op_data < (unsigned) old_insn->ntok); + src_exp = &old_insn->tok[b_op->op_data]; + exp = &new_insn->tok[b_op->op_num]; + copy_expr (exp, src_exp); + break; + + case OP_LITERAL: + case OP_LABEL: + as_bad (_("can't handle generation of literal/labels yet")); + assert (0); + + default: + as_bad (_("can't handle undefined OP TYPE")); + assert (0); + } + } + + new_insn->ntok = num_ops; + return FALSE; +} + + +/* Return true if it was simplified. */ + +bfd_boolean +xg_simplify_insn (old_insn, new_insn) + TInsn *old_insn; + TInsn *new_insn; +{ + TransitionRule *rule = xg_instruction_match (old_insn); + BuildInstr *insn_spec; + if (rule == NULL) + return FALSE; + + insn_spec = rule->to_instr; + /* There should only be one. */ + assert (insn_spec != NULL); + assert (insn_spec->next == NULL); + if (insn_spec->next != NULL) + return FALSE; + + xg_build_token_insn (insn_spec, old_insn, new_insn); + + return TRUE; +} + + +/* xg_expand_assembly_insn: (1) Simplify the instruction, i.e., l32i -> + l32i.n. (2) Check the number of operands. (3) Place the instruction + tokens into the stack or if we can relax it at assembly time, place + multiple instructions/literals onto the stack. Return false if no + error. */ + +static bfd_boolean +xg_expand_assembly_insn (istack, orig_insn) + IStack *istack; + TInsn *orig_insn; +{ + int noperands; + TInsn new_insn; + memset (&new_insn, 0, sizeof (TInsn)); + + /* On return, we will be using the "use_tokens" with "use_ntok". + This will reduce things like addi to addi.n. */ + if (code_density_available () && !orig_insn->is_specific_opcode) + { + if (xg_simplify_insn (orig_insn, &new_insn)) + orig_insn = &new_insn; + } + + noperands = xtensa_num_operands (xtensa_default_isa, orig_insn->opcode); + if (orig_insn->ntok < noperands) + { + as_bad (_("found %d operands for '%s': Expected %d"), + orig_insn->ntok, + xtensa_opcode_name (xtensa_default_isa, orig_insn->opcode), + noperands); + return TRUE; + } + if (orig_insn->ntok > noperands) + as_warn (_("found too many (%d) operands for '%s': Expected %d"), + orig_insn->ntok, + xtensa_opcode_name (xtensa_default_isa, orig_insn->opcode), + noperands); + + /* If there are not enough operands, we will assert above. If there + are too many, just cut out the extras here. */ + + orig_insn->ntok = noperands; + + /* Cases: + + Instructions with all constant immeds: + Assemble them and relax the instruction if possible. + Give error if not possible; no fixup needed. + + Instructions with symbolic immeds: + Assemble them with a Fix up (that may cause instruction expansion). + Also close out the fragment if the fixup may cause instruction expansion. + + There are some other special cases where we need alignment. + 1) before certain instructions with required alignment (OPCODE_ALIGN) + 2) before labels that have jumps (LABEL_ALIGN) + 3) after call instructions (RETURN_ALIGN) + Multiple of these may be possible on the same fragment. + If so, make sure to satisfy the required alignment. + Then try to get the desired alignment. */ + + if (tinsn_has_invalid_symbolic_operands (orig_insn)) + return TRUE; + + if (orig_insn->is_specific_opcode || !can_relax ()) + { + istack_push (istack, orig_insn); + return FALSE; + } + + if (tinsn_has_symbolic_operands (orig_insn)) + { + if (tinsn_has_complex_operands (orig_insn)) + xg_assembly_relax (istack, orig_insn, 0, 0, 0, 0, 0); + else + istack_push (istack, orig_insn); + } + else + { + if (xg_immeds_fit (orig_insn)) + istack_push (istack, orig_insn); + else + xg_assembly_relax (istack, orig_insn, 0, 0, 0, 0, 0); + } + +#if 0 + for (i = 0; i < istack->ninsn; i++) + { + if (xg_simplify_insn (&new_insn, &istack->insn[i])) + istack->insn[i] = new_insn; + } +#endif + + return FALSE; +} + + +/* Currently all literals that are generated here are 32-bit L32R targets. */ + +symbolS * +xg_assemble_literal (insn) + /* const */ TInsn *insn; +{ + emit_state state; + symbolS *lit_sym = NULL; + + /* size = 4 for L32R. It could easily be larger when we move to + larger constants. Add a parameter later. */ + offsetT litsize = 4; + offsetT litalign = 2; /* 2^2 = 4 */ + expressionS saved_loc; + set_expr_symbol_offset (&saved_loc, frag_now->fr_symbol, frag_now_fix ()); + + assert (insn->insn_type == ITYPE_LITERAL); + assert (insn->ntok = 1); /* must be only one token here */ + + xtensa_switch_to_literal_fragment (&state); + + /* Force a 4-byte align here. Note that this opens a new frag, so all + literals done with this function have a frag to themselves. That's + important for the way text section literals work. */ + frag_align (litalign, 0, 0); + + emit_expr (&insn->tok[0], litsize); + + assert (frag_now->tc_frag_data.literal_frag == NULL); + frag_now->tc_frag_data.literal_frag = get_literal_pool_location (now_seg); + frag_now->fr_symbol = xtensa_create_literal_symbol (now_seg, frag_now); + lit_sym = frag_now->fr_symbol; + frag_now->tc_frag_data.is_literal = TRUE; + + /* Go back. */ + xtensa_restore_emit_state (&state); + return lit_sym; +} + + +static void +xg_assemble_literal_space (size) + /* const */ int size; +{ + emit_state state; + /* We might have to do something about this alignment. It only + takes effect if something is placed here. */ + offsetT litalign = 2; /* 2^2 = 4 */ + fragS *lit_saved_frag; + + expressionS saved_loc; + + assert (size % 4 == 0); + set_expr_symbol_offset (&saved_loc, frag_now->fr_symbol, frag_now_fix ()); + + xtensa_switch_to_literal_fragment (&state); + + /* Force a 4-byte align here. */ + frag_align (litalign, 0, 0); + + xg_force_frag_space (size); + + lit_saved_frag = frag_now; + frag_now->tc_frag_data.literal_frag = get_literal_pool_location (now_seg); + frag_now->tc_frag_data.is_literal = TRUE; + frag_now->fr_symbol = xtensa_create_literal_symbol (now_seg, frag_now); + xg_finish_frag (0, RELAX_LITERAL, size, FALSE); + + /* Go back. */ + xtensa_restore_emit_state (&state); + frag_now->tc_frag_data.literal_frag = lit_saved_frag; +} + + +symbolS * +xtensa_create_literal_symbol (sec, frag) + segT sec; + fragS *frag; +{ + static int lit_num = 0; + static char name[256]; + symbolS *fragSym; + + sprintf (name, ".L_lit_sym%d", lit_num); + fragSym = xtensa_create_local_symbol (stdoutput, name, sec, 0, frag_now); + + frag->tc_frag_data.is_literal = TRUE; + lit_num++; + return fragSym; +} + + +/* Create a local symbol. If it is in a linkonce section, we have to + be careful to make sure that if it is used in a relocation that the + symbol will be in the output file. */ + +symbolS * +xtensa_create_local_symbol (abfd, name, sec, value, frag) + bfd *abfd; + const char *name; + segT sec; + valueT value; + fragS *frag; +{ + symbolS *symbolP; + + if (get_is_linkonce_section (abfd, sec)) + { + symbolP = symbol_new (name, sec, value, frag); + S_CLEAR_EXTERNAL (symbolP); + /* symbolP->local = 1; */ + } + else + symbolP = symbol_new (name, sec, value, frag); + + return symbolP; +} + + +/* Return true if the section flags are marked linkonce + or the name is .gnu.linkonce*. */ + +bfd_boolean +get_is_linkonce_section (abfd, sec) + bfd *abfd ATTRIBUTE_UNUSED; + segT sec; +{ + flagword flags, link_once_flags; + + flags = bfd_get_section_flags (abfd, sec); + link_once_flags = (flags & SEC_LINK_ONCE); + + /* Flags might not be set yet. */ + if (!link_once_flags) + { + static size_t len = sizeof ".gnu.linkonce.t."; + + if (strncmp (segment_name (sec), ".gnu.linkonce.t.", len - 1) == 0) + link_once_flags = SEC_LINK_ONCE; + } + return (link_once_flags != 0); +} + + +/* Emit an instruction to the current fragment. If record_fix is true, + then this instruction will not change and we can go ahead and record + the fixup. If record_fix is false, then the instruction may change + and we are going to close out this fragment. Go ahead and set the + fr_symbol and fr_offset instead of adding a fixup. */ + +static bfd_boolean +xg_emit_insn (t_insn, record_fix) + TInsn *t_insn; + bfd_boolean record_fix; +{ + bfd_boolean ok = TRUE; + xtensa_isa isa = xtensa_default_isa; + xtensa_opcode opcode = t_insn->opcode; + bfd_boolean has_fixup = FALSE; + int noperands; + int i, byte_count; + fragS *oldfrag; + size_t old_size; + char *f; + static xtensa_insnbuf insnbuf = NULL; + + /* Use a static pointer to the insn buffer so we don't have to call + malloc each time through. */ + if (!insnbuf) + insnbuf = xtensa_insnbuf_alloc (xtensa_default_isa); + + has_fixup = tinsn_to_insnbuf (t_insn, insnbuf); + + noperands = xtensa_num_operands (isa, opcode); + assert (noperands == t_insn->ntok); + + byte_count = xtensa_insn_length (isa, opcode); + oldfrag = frag_now; + /* This should NEVER cause us to jump into a new frag; + we've already reserved space. */ + old_size = frag_now_fix (); + f = frag_more (byte_count); + assert (oldfrag == frag_now); + + /* This needs to generate a record that lists the parts that are + instructions. */ + if (!frag_now->tc_frag_data.is_insn) + { + /* If we are at the beginning of a fragment, switch this + fragment to an instruction fragment. */ + if (now_seg != absolute_section && old_size != 0) + as_warn (_("instruction fragment may contain data")); + frag_now->tc_frag_data.is_insn = TRUE; + } + + xtensa_insnbuf_to_chars (isa, insnbuf, f); + + /* dwarf2_emit_insn (byte_count); */ + + /* Now spit out the opcode fixup.... */ + if (!has_fixup) + return !ok; + + for (i = 0; i < noperands; ++i) + { + expressionS *expr = &t_insn->tok[i]; + switch (expr->X_op) + { + case O_symbol: + if (get_relaxable_immed (opcode) == i) + { + if (record_fix) + { + if (!xg_add_opcode_fix (opcode, i, expr, frag_now, + f - frag_now->fr_literal)) + ok = FALSE; + } + else + { + /* Write it to the fr_offset, fr_symbol. */ + frag_now->fr_symbol = expr->X_add_symbol; + frag_now->fr_offset = expr->X_add_number; + } + } + else + { + as_bad (_("invalid operand %d on '%s'"), + i, xtensa_opcode_name (isa, opcode)); + ok = FALSE; + } + break; + + case O_constant: + case O_register: + break; + + default: + as_bad (_("invalid expression for operand %d on '%s'"), + i, xtensa_opcode_name (isa, opcode)); + ok = FALSE; + break; + } + } + + return !ok; +} + + +static bfd_boolean +xg_emit_insn_to_buf (t_insn, buf, fragP, offset, build_fix) + TInsn *t_insn; + char *buf; + fragS *fragP; + offsetT offset; + bfd_boolean build_fix; +{ + static xtensa_insnbuf insnbuf = NULL; + bfd_boolean has_symbolic_immed = FALSE; + bfd_boolean ok = TRUE; + if (!insnbuf) + insnbuf = xtensa_insnbuf_alloc (xtensa_default_isa); + + has_symbolic_immed = tinsn_to_insnbuf (t_insn, insnbuf); + if (has_symbolic_immed && build_fix) + { + /* Add a fixup. */ + int opnum = get_relaxable_immed (t_insn->opcode); + expressionS *exp = &t_insn->tok[opnum]; + + if (!xg_add_opcode_fix (t_insn->opcode, + opnum, exp, fragP, offset)) + ok = FALSE; + } + fragP->tc_frag_data.is_insn = TRUE; + xtensa_insnbuf_to_chars (xtensa_default_isa, insnbuf, buf); + return ok; +} + + +/* Put in a fixup record based on the opcode. + Return true on success. */ + +bfd_boolean +xg_add_opcode_fix (opcode, opnum, expr, fragP, offset) + xtensa_opcode opcode; + int opnum; + expressionS *expr; + fragS *fragP; + offsetT offset; +{ + bfd_reloc_code_real_type reloc; + reloc_howto_type *howto; + int insn_length; + fixS *the_fix; + + reloc = opnum_to_reloc (opnum); + if (reloc == BFD_RELOC_NONE) + { + as_bad (_("invalid relocation operand %i on '%s'"), + opnum, xtensa_opcode_name (xtensa_default_isa, opcode)); + return FALSE; + } + + howto = bfd_reloc_type_lookup (stdoutput, reloc); + + if (!howto) + { + as_bad (_("undefined symbol for opcode \"%s\"."), + xtensa_opcode_name (xtensa_default_isa, opcode)); + return FALSE; + } + + insn_length = xtensa_insn_length (xtensa_default_isa, opcode); + the_fix = fix_new_exp (fragP, offset, insn_length, expr, + howto->pc_relative, reloc); + + if (expr->X_add_symbol && + (S_IS_EXTERNAL (expr->X_add_symbol) || S_IS_WEAK (expr->X_add_symbol))) + the_fix->fx_plt = TRUE; + + return TRUE; +} + + +void +xg_resolve_literals (insn, lit_sym) + TInsn *insn; + symbolS *lit_sym; +{ + symbolS *sym = get_special_literal_symbol (); + int i; + if (lit_sym == 0) + return; + assert (insn->insn_type == ITYPE_INSN); + for (i = 0; i < insn->ntok; i++) + if (insn->tok[i].X_add_symbol == sym) + insn->tok[i].X_add_symbol = lit_sym; + +} + + +void +xg_resolve_labels (insn, label_sym) + TInsn *insn; + symbolS *label_sym; +{ + symbolS *sym = get_special_label_symbol (); + int i; + /* assert(!insn->is_literal); */ + for (i = 0; i < insn->ntok; i++) + if (insn->tok[i].X_add_symbol == sym) + insn->tok[i].X_add_symbol = label_sym; + +} + + +static void +xg_assemble_tokens (insn) + /*const */ TInsn *insn; +{ + /* By the time we get here, there's not too much left to do. + 1) Check our assumptions. + 2) Check if the current instruction is "narrow". + If so, then finish the frag, create another one. + We could also go back to change some previous + "narrow" frags into no-change ones if we have more than + MAX_NARROW_ALIGNMENT of them without alignment restrictions + between them. + + Cases: + 1) It has constant operands and doesn't fit. + Go ahead and assemble it so it will fail. + 2) It has constant operands that fit. + If narrow and !is_specific_opcode, + assemble it and put in a relocation + else + assemble it. + 3) It has a symbolic immediate operand + a) Find the worst-case relaxation required + b) Find the worst-case literal pool space required. + Insert appropriate alignment & space in the literal. + Assemble it. + Add the relocation. */ + + assert (insn->insn_type == ITYPE_INSN); + + if (!tinsn_has_symbolic_operands (insn)) + { + if (xg_is_narrow_insn (insn) && !insn->is_specific_opcode) + { + /* assemble it but add max required space */ + int max_size = xg_get_max_narrow_insn_size (insn->opcode); + int min_size = xg_get_insn_size (insn); + char *last_insn; + assert (max_size == 3); + /* make sure we have enough space to widen it */ + xg_force_frag_space (max_size); + /* Output the instruction. It may cause an error if some + operands do not fit. */ + last_insn = frag_more (0); + if (xg_emit_insn (insn, TRUE)) + as_warn (_("instruction with constant operands does not fit")); + xg_finish_frag (last_insn, RELAX_NARROW, max_size - min_size, TRUE); + } + else + { + /* Assemble it. No relocation needed. */ + int max_size = xg_get_insn_size (insn); + xg_force_frag_space (max_size); + if (xg_emit_insn (insn, FALSE)) + as_warn (_("instruction with constant operands does not " + "fit without widening")); + /* frag_more (max_size); */ + + /* Special case for jx. If the jx is the next to last + instruction in a loop, we will add a NOP after it. This + avoids a hardware issue that could occur if the jx jumped + to the next instruction. */ + if (software_avoid_b_j_loop_end + && is_jx_opcode (insn->opcode)) + { + maybe_has_b_j_loop_end = TRUE; + /* add 2 of these */ + frag_now->tc_frag_data.is_insn = TRUE; + frag_var (rs_machine_dependent, 4, 4, + RELAX_ADD_NOP_IF_PRE_LOOP_END, + frag_now->fr_symbol, frag_now->fr_offset, NULL); + } + } + } + else + { + /* Need to assemble it with space for the relocation. */ + if (!insn->is_specific_opcode) + { + /* Assemble it but add max required space. */ + char *last_insn; + int min_size = xg_get_insn_size (insn); + int max_size = xg_get_max_insn_widen_size (insn->opcode); + int max_literal_size = + xg_get_max_insn_widen_literal_size (insn->opcode); + +#if 0 + symbolS *immed_sym = xg_get_insn_immed_symbol (insn); + set_frag_segment (frag_now, now_seg); +#endif /* 0 */ + + /* Make sure we have enough space to widen the instruction. + This may open a new fragment. */ + xg_force_frag_space (max_size); + if (max_literal_size != 0) + xg_assemble_literal_space (max_literal_size); + + /* Output the instruction. It may cause an error if some + operands do not fit. Emit the incomplete instruction. */ + last_insn = frag_more (0); + xg_emit_insn (insn, FALSE); + + xg_finish_frag (last_insn, RELAX_IMMED, max_size - min_size, TRUE); + + /* Special cases for loops: + close_loop_end should be inserted AFTER short_loop. + Make sure that CLOSE loops are processed BEFORE short_loops + when converting them. */ + + /* "short_loop": add a NOP if the loop is < 4 bytes. */ + if (software_avoid_short_loop + && is_loop_opcode (insn->opcode)) + { + maybe_has_short_loop = TRUE; + frag_now->tc_frag_data.is_insn = TRUE; + frag_var (rs_machine_dependent, 4, 4, + RELAX_ADD_NOP_IF_SHORT_LOOP, + frag_now->fr_symbol, frag_now->fr_offset, NULL); + frag_now->tc_frag_data.is_insn = TRUE; + frag_var (rs_machine_dependent, 4, 4, + RELAX_ADD_NOP_IF_SHORT_LOOP, + frag_now->fr_symbol, frag_now->fr_offset, NULL); + } + + /* "close_loop_end": Add up to 12 bytes of NOPs to keep a + loop at least 12 bytes away from another loop's loop + end. */ + if (software_avoid_close_loop_end + && is_loop_opcode (insn->opcode)) + { + maybe_has_close_loop_end = TRUE; + frag_now->tc_frag_data.is_insn = TRUE; + frag_var (rs_machine_dependent, 12, 12, + RELAX_ADD_NOP_IF_CLOSE_LOOP_END, + frag_now->fr_symbol, frag_now->fr_offset, NULL); + } + } + else + { + /* Assemble it in place. No expansion will be required, + but we'll still need a relocation record. */ + int max_size = xg_get_insn_size (insn); + xg_force_frag_space (max_size); + if (xg_emit_insn (insn, TRUE)) + as_warn (_("instruction's constant operands do not fit")); + } + } +} + + +/* Return true if the instruction can write to the specified + integer register. */ + +static bfd_boolean +is_register_writer (insn, regset, regnum) + const TInsn *insn; + const char *regset; + int regnum; +{ + int i; + int num_ops; + xtensa_isa isa = xtensa_default_isa; + + num_ops = xtensa_num_operands (isa, insn->opcode); + + for (i = 0; i < num_ops; i++) + { + xtensa_operand operand = xtensa_get_operand (isa, insn->opcode, i); + char inout = xtensa_operand_inout (operand); + + if (inout == '>' || inout == '=') + { + if (strcmp (xtensa_operand_kind (operand), regset) == 0) + { + if ((insn->tok[i].X_op == O_register) + && (insn->tok[i].X_add_number == regnum)) + return TRUE; + } + } + } + return FALSE; +} + + +static bfd_boolean +is_bad_loopend_opcode (tinsn) + const TInsn * tinsn; +{ + xtensa_opcode opcode = tinsn->opcode; + + if (opcode == XTENSA_UNDEFINED) + return FALSE; + + if (opcode == xtensa_call0_opcode + || opcode == xtensa_callx0_opcode + || opcode == xtensa_call4_opcode + || opcode == xtensa_callx4_opcode + || opcode == xtensa_call8_opcode + || opcode == xtensa_callx8_opcode + || opcode == xtensa_call12_opcode + || opcode == xtensa_callx12_opcode + || opcode == xtensa_isync_opcode + || opcode == xtensa_ret_opcode + || opcode == xtensa_ret_n_opcode + || opcode == xtensa_retw_opcode + || opcode == xtensa_retw_n_opcode + || opcode == xtensa_waiti_opcode) + return TRUE; + + /* An RSR of LCOUNT is illegal as the last opcode in a loop. */ + if (opcode == xtensa_rsr_opcode + && tinsn->ntok >= 2 + && tinsn->tok[1].X_op == O_constant + && tinsn->tok[1].X_add_number == 2) + return TRUE; + + return FALSE; +} + + +/* Labels that begin with ".Ln" or ".LM" are unaligned. + This allows the debugger to add unaligned labels. + Also, the assembler generates stabs labels that need + not be aligned: FAKE_LABEL_NAME . {"F", "L", "endfunc"}. */ + +bfd_boolean +is_unaligned_label (sym) + symbolS *sym; +{ + const char *name = S_GET_NAME (sym); + static size_t fake_size = 0; + + if (name + && name[0] == '.' + && name[1] == 'L' && (name[2] == 'n' || name[2] == 'M')) + return TRUE; + + /* FAKE_LABEL_NAME followed by "F", "L" or "endfunc" */ + if (fake_size == 0) + fake_size = strlen (FAKE_LABEL_NAME); + + if (name + && strncmp (FAKE_LABEL_NAME, name, fake_size) == 0 + && (name[fake_size] == 'F' + || name[fake_size] == 'L' + || (name[fake_size] == 'e' + && strncmp ("endfunc", name+fake_size, 7) == 0))) + return TRUE; + + return FALSE; +} + + +fragS * +next_non_empty_frag (fragP) + const fragS *fragP; +{ + fragS *next_fragP = fragP->fr_next; + + /* Sometimes an empty will end up here due storage allocation issues. + So we have to skip until we find something legit. */ + while (next_fragP && next_fragP->fr_fix == 0) + next_fragP = next_fragP->fr_next; + + if (next_fragP == NULL || next_fragP->fr_fix == 0) + return NULL; + + return next_fragP; +} + + +xtensa_opcode +next_frag_opcode (fragP) + const fragS * fragP; +{ + const fragS *next_fragP = next_non_empty_frag (fragP); + static xtensa_insnbuf insnbuf = NULL; + xtensa_isa isa = xtensa_default_isa; + + if (!insnbuf) + insnbuf = xtensa_insnbuf_alloc (isa); + + if (next_fragP == NULL) + return XTENSA_UNDEFINED; + + xtensa_insnbuf_from_chars (isa, insnbuf, next_fragP->fr_literal); + return xtensa_decode_insn (isa, insnbuf); +} + + +/* Return true if the target frag is one of the next non-empty frags. */ + +bfd_boolean +is_next_frag_target (fragP, target) + const fragS *fragP; + const fragS *target; +{ + if (fragP == NULL) + return FALSE; + + for (; fragP; fragP = fragP->fr_next) + { + if (fragP == target) + return TRUE; + if (fragP->fr_fix != 0) + return FALSE; + if (fragP->fr_type == rs_fill && fragP->fr_offset != 0) + return FALSE; + if ((fragP->fr_type == rs_align || fragP->fr_type == rs_align_code) + && ((fragP->fr_address % (1 << fragP->fr_offset)) != 0)) + return FALSE; + if (fragP->fr_type == rs_space) + return FALSE; + } + return FALSE; +} + + +/* If the next legit fragment is an end-of-loop marker, + switch its state so it will instantiate a NOP. */ + +static void +update_next_frag_nop_state (fragP) + fragS *fragP; +{ + fragS *next_fragP = fragP->fr_next; + + while (next_fragP && next_fragP->fr_fix == 0) + { + if (next_fragP->fr_type == rs_machine_dependent + && next_fragP->fr_subtype == RELAX_LOOP_END) + { + next_fragP->fr_subtype = RELAX_LOOP_END_ADD_NOP; + return; + } + next_fragP = next_fragP->fr_next; + } +} + + +static bfd_boolean +next_frag_is_branch_target (fragP) + const fragS *fragP; +{ + /* Sometimes an empty will end up here due storage allocation issues, + so we have to skip until we find something legit. */ + for (fragP = fragP->fr_next; fragP; fragP = fragP->fr_next) + { + if (fragP->tc_frag_data.is_branch_target) + return TRUE; + if (fragP->fr_fix != 0) + break; + } + return FALSE; +} + + +static bfd_boolean +next_frag_is_loop_target (fragP) + const fragS *fragP; +{ + /* Sometimes an empty will end up here due storage allocation issues. + So we have to skip until we find something legit. */ + for (fragP = fragP->fr_next; fragP; fragP = fragP->fr_next) + { + if (fragP->tc_frag_data.is_loop_target) + return TRUE; + if (fragP->fr_fix != 0) + break; + } + return FALSE; +} + + +static addressT +next_frag_pre_opcode_bytes (fragp) + const fragS *fragp; +{ + const fragS *next_fragp = fragp->fr_next; + + xtensa_opcode next_opcode = next_frag_opcode (fragp); + if (!is_loop_opcode (next_opcode)) + return 0; + + /* Sometimes an empty will end up here due storage allocation issues. + So we have to skip until we find something legit. */ + while (next_fragp->fr_fix == 0) + next_fragp = next_fragp->fr_next; + + if (next_fragp->fr_type != rs_machine_dependent) + return 0; + + /* There is some implicit knowledge encoded in here. + The LOOP instructions that are NOT RELAX_IMMED have + been relaxed. */ + if (next_fragp->fr_subtype > RELAX_IMMED) + return get_expanded_loop_offset (next_opcode); + + return 0; +} + + +/* Mark a location where we can later insert literal frags. Update + the section's literal_pool_loc, so subsequent literals can be + placed nearest to their use. */ + +static void +xtensa_mark_literal_pool_location (move_labels) + bfd_boolean move_labels; +{ + /* Any labels pointing to the current location need + to be adjusted to after the literal pool. */ + emit_state s; + fragS *label_target = frag_now; + fragS *pool_location; + offsetT label_offset = frag_now_fix (); + + frag_align (2, 0, 0); + + /* We stash info in the fr_var of these frags + so we can later move the literal's fixes into this + frchain's fix list. We can use fr_var because fr_var's + interpretation depends solely on the fr_type and subtype. */ + pool_location = frag_now; + frag_variant (rs_machine_dependent, 0, (int) frchain_now, + RELAX_LITERAL_POOL_BEGIN, NULL, 0, NULL); + frag_variant (rs_machine_dependent, 0, (int) now_seg, + RELAX_LITERAL_POOL_END, NULL, 0, NULL); + + /* Now put a frag into the literal pool that points to this location. */ + set_literal_pool_location (now_seg, pool_location); + xtensa_switch_to_literal_fragment (&s); + + /* Close whatever frag is there. */ + frag_variant (rs_fill, 0, 0, 0, NULL, 0, NULL); + frag_now->tc_frag_data.literal_frag = pool_location; + frag_variant (rs_fill, 0, 0, 0, NULL, 0, NULL); + xtensa_restore_emit_state (&s); + if (move_labels) + xtensa_move_labels (label_target, label_offset, frag_now, 0); +} + + +static void +xtensa_move_labels (old_frag, old_offset, new_frag, new_offset) + fragS *old_frag; + valueT old_offset; + fragS *new_frag ATTRIBUTE_UNUSED; + valueT new_offset; +{ + symbolS *old_sym; + + /* Repeat until there are no more.... */ + for (old_sym = xtensa_find_label (old_frag, old_offset, TRUE); + old_sym; + old_sym = xtensa_find_label (old_frag, old_offset, TRUE)) + { + S_SET_VALUE (old_sym, (valueT) new_offset); + symbol_set_frag (old_sym, frag_now); + } +} + + +/* Assemble a NOP of the requested size in the buffer. User must have + allocated "buf" with at least "size" bytes. */ + +void +assemble_nop (size, buf) + size_t size; + char *buf; +{ + static xtensa_insnbuf insnbuf = NULL; + TInsn t_insn; + if (!insnbuf) + insnbuf = xtensa_insnbuf_alloc (xtensa_default_isa); + + tinsn_init (&t_insn); + switch (size) + { + case 2: + t_insn.opcode = xtensa_nop_n_opcode; + t_insn.ntok = 0; + if (t_insn.opcode == XTENSA_UNDEFINED) + as_fatal (_("opcode 'NOP.N' unavailable in this configuration")); + tinsn_to_insnbuf (&t_insn, insnbuf); + xtensa_insnbuf_to_chars (xtensa_default_isa, insnbuf, buf); + break; + + case 3: + t_insn.opcode = xtensa_or_opcode; + assert (t_insn.opcode != XTENSA_UNDEFINED); + if (t_insn.opcode == XTENSA_UNDEFINED) + as_fatal (_("opcode 'OR' unavailable in this configuration")); + set_expr_const (&t_insn.tok[0], 1); + set_expr_const (&t_insn.tok[1], 1); + set_expr_const (&t_insn.tok[2], 1); + t_insn.ntok = 3; + tinsn_to_insnbuf (&t_insn, insnbuf); + xtensa_insnbuf_to_chars (xtensa_default_isa, insnbuf, buf); + break; + + default: + as_fatal (_("invalid %d-byte NOP requested"), size); + } +} + + +/* Return the number of bytes for the offset of the expanded loop + instruction. This should be incorporated into the relaxation + specification but is hard-coded here. This is used to auto-align + the loop instruction. It is invalid to call this function if the + configuration does not have loops or if the opcode is not a loop + opcode. */ + +static addressT +get_expanded_loop_offset (opcode) + xtensa_opcode opcode; +{ + /* This is the OFFSET of the loop instruction in the expanded loop. + This MUST correspond directly to the specification of the loop + expansion. It will be validated on fragment conversion. */ + if (opcode == XTENSA_UNDEFINED) + as_fatal (_("get_expanded_loop_offset: undefined opcode")); + if (opcode == xtensa_loop_opcode) + return 0; + if (opcode == xtensa_loopnez_opcode) + return 3; + if (opcode == xtensa_loopgtz_opcode) + return 6; + as_fatal (_("get_expanded_loop_offset: invalid opcode")); + return 0; +} + + +fragS * +get_literal_pool_location (seg) + segT seg; +{ + return seg_info (seg)->tc_segment_info_data.literal_pool_loc; +} + + +static void +set_literal_pool_location (seg, literal_pool_loc) + segT seg; + fragS *literal_pool_loc; +{ + seg_info (seg)->tc_segment_info_data.literal_pool_loc = literal_pool_loc; +} + + +/* External Functions and Other GAS Hooks. */ + +const char * +xtensa_target_format () +{ + return (target_big_endian ? "elf32-xtensa-be" : "elf32-xtensa-le"); +} + + +void +xtensa_file_arch_init (abfd) + bfd *abfd; +{ + bfd_set_private_flags (abfd, 0x100 | 0x200); +} + + +void +md_number_to_chars (buf, val, n) + char *buf; + valueT val; + int n; +{ + if (target_big_endian) + number_to_chars_bigendian (buf, val, n); + else + number_to_chars_littleendian (buf, val, n); +} + + +/* This function is called once, at assembler startup time. It should + set up all the tables, etc. that the MD part of the assembler will + need. */ + +void +md_begin () +{ + segT current_section = now_seg; + int current_subsec = now_subseg; + xtensa_isa isa; + +#if STATIC_LIBISA + isa = xtensa_isa_init (); +#else + /* ISA was already initialized by xtensa_init(). */ + isa = xtensa_default_isa; +#endif + + /* Set up the .literal, .fini.literal and .init.literal sections. */ + memset (&default_lit_sections, 0, sizeof (default_lit_sections)); + default_lit_sections.init_lit_seg_name = INIT_LITERAL_SECTION_NAME; + default_lit_sections.fini_lit_seg_name = FINI_LITERAL_SECTION_NAME; + default_lit_sections.lit_seg_name = LITERAL_SECTION_NAME; + + subseg_set (current_section, current_subsec); + + xtensa_addi_opcode = xtensa_opcode_lookup (isa, "addi"); + xtensa_addmi_opcode = xtensa_opcode_lookup (isa, "addmi"); + xtensa_call0_opcode = xtensa_opcode_lookup (isa, "call0"); + xtensa_call4_opcode = xtensa_opcode_lookup (isa, "call4"); + xtensa_call8_opcode = xtensa_opcode_lookup (isa, "call8"); + xtensa_call12_opcode = xtensa_opcode_lookup (isa, "call12"); + xtensa_callx0_opcode = xtensa_opcode_lookup (isa, "callx0"); + xtensa_callx4_opcode = xtensa_opcode_lookup (isa, "callx4"); + xtensa_callx8_opcode = xtensa_opcode_lookup (isa, "callx8"); + xtensa_callx12_opcode = xtensa_opcode_lookup (isa, "callx12"); + xtensa_entry_opcode = xtensa_opcode_lookup (isa, "entry"); + xtensa_isync_opcode = xtensa_opcode_lookup (isa, "isync"); + xtensa_j_opcode = xtensa_opcode_lookup (isa, "j"); + xtensa_jx_opcode = xtensa_opcode_lookup (isa, "jx"); + xtensa_loop_opcode = xtensa_opcode_lookup (isa, "loop"); + xtensa_loopnez_opcode = xtensa_opcode_lookup (isa, "loopnez"); + xtensa_loopgtz_opcode = xtensa_opcode_lookup (isa, "loopgtz"); + xtensa_nop_n_opcode = xtensa_opcode_lookup (isa, "nop.n"); + xtensa_or_opcode = xtensa_opcode_lookup (isa, "or"); + xtensa_ret_opcode = xtensa_opcode_lookup (isa, "ret"); + xtensa_ret_n_opcode = xtensa_opcode_lookup (isa, "ret.n"); + xtensa_retw_opcode = xtensa_opcode_lookup (isa, "retw"); + xtensa_retw_n_opcode = xtensa_opcode_lookup (isa, "retw.n"); + xtensa_rsr_opcode = xtensa_opcode_lookup (isa, "rsr"); + xtensa_waiti_opcode = xtensa_opcode_lookup (isa, "waiti"); +} + + +/* tc_frob_label hook */ + +void +xtensa_frob_label (sym) + symbolS *sym; +{ + xtensa_define_label (sym); + if (is_loop_target_label (sym) + && (get_last_insn_flags (now_seg, now_subseg) + & FLAG_IS_BAD_LOOPEND) != 0) + as_bad (_("invalid last instruction for a zero-overhead loop")); + + /* No target aligning in the absolute section. */ + if (now_seg != absolute_section && align_targets + && !is_unaligned_label (sym)) + { + fragS *old_frag = frag_now; + offsetT old_offset = frag_now_fix (); + if (frag_now->tc_frag_data.is_literal) + return; + /* frag_now->tc_frag_data.is_insn = TRUE; */ + frag_var (rs_machine_dependent, 4, 4, + RELAX_DESIRE_ALIGN_IF_TARGET, + frag_now->fr_symbol, frag_now->fr_offset, NULL); + xtensa_move_labels (old_frag, old_offset, frag_now, 0); + /* Once we know whether or not the label is a branch target + We will suppress some of these alignments. */ + } +} + + +/* md_flush_pending_output hook */ + +void +xtensa_flush_pending_output () +{ + /* If there is a non-zero instruction fragment, close it. */ + if (frag_now_fix () != 0 && frag_now->tc_frag_data.is_insn) + { + frag_wane (frag_now); + frag_new (0); + } + frag_now->tc_frag_data.is_insn = FALSE; +} + + +void +md_assemble (str) + char *str; +{ + xtensa_isa isa = xtensa_default_isa; + char *opname; + unsigned opnamelen; + bfd_boolean has_underbar = FALSE; + char *arg_strings[MAX_INSN_ARGS]; + int num_args; + IStack istack; /* Put instructions into here. */ + TInsn orig_insn; /* Original instruction from the input. */ + int i; + symbolS *lit_sym = NULL; + + if (frag_now->tc_frag_data.is_literal) + { + static bfd_boolean reported = 0; + if (reported < 4) + as_bad (_("cannot assemble '%s' into a literal fragment"), str); + if (reported == 3) + as_bad (_("...")); + reported++; + return; + } + + istack_init (&istack); + tinsn_init (&orig_insn); + + /* Split off the opcode. */ + opnamelen = strspn (str, "abcdefghijklmnopqrstuvwxyz_/0123456789."); + opname = xmalloc (opnamelen + 1); + memcpy (opname, str, opnamelen); + opname[opnamelen] = '\0'; + + num_args = tokenize_arguments (arg_strings, str + opnamelen); + if (num_args == -1) + { + as_bad (_("syntax error")); + return; + } + + if (xg_translate_idioms (&opname, &num_args, arg_strings)) + return; + + /* Check for an underbar prefix. */ + if (*opname == '_') + { + has_underbar = TRUE; + opname += 1; + } + + orig_insn.insn_type = ITYPE_INSN; + orig_insn.ntok = 0; + orig_insn.is_specific_opcode = (has_underbar || !use_generics ()); + specific_opcode = orig_insn.is_specific_opcode; + + orig_insn.opcode = xtensa_opcode_lookup (isa, opname); + if (orig_insn.opcode == XTENSA_UNDEFINED) + { + as_bad (_("unknown opcode %s"), opname); + return; + } + + if (frag_now_fix () != 0 && !frag_now->tc_frag_data.is_insn) + { + frag_wane (frag_now); + frag_new (0); + } + + if (software_a0_b_retw_interlock) + { + if ((get_last_insn_flags (now_seg, now_subseg) & FLAG_IS_A0_WRITER) != 0 + && is_conditional_branch_opcode (orig_insn.opcode)) + { + has_a0_b_retw = TRUE; + + /* Mark this fragment with the special RELAX_ADD_NOP_IF_A0_B_RETW. + After the first assembly pass we will check all of them and + add a nop if needed. */ + frag_now->tc_frag_data.is_insn = TRUE; + frag_var (rs_machine_dependent, 4, 4, + RELAX_ADD_NOP_IF_A0_B_RETW, + frag_now->fr_symbol, frag_now->fr_offset, NULL); + frag_now->tc_frag_data.is_insn = TRUE; + frag_var (rs_machine_dependent, 4, 4, + RELAX_ADD_NOP_IF_A0_B_RETW, + frag_now->fr_symbol, frag_now->fr_offset, NULL); + } + } + + /* Special case: The call instructions should be marked "specific opcode" + to keep them from expanding. */ + if (!use_longcalls () && is_direct_call_opcode (orig_insn.opcode)) + orig_insn.is_specific_opcode = TRUE; + + /* Parse the arguments. */ + if (parse_arguments (&orig_insn, num_args, arg_strings)) + { + as_bad (_("syntax error")); + return; + } + + /* Free the opcode and argument strings, now that they've been parsed. */ + free (has_underbar ? opname - 1 : opname); + opname = 0; + while (num_args-- > 0) + free (arg_strings[num_args]); + + /* Check for the right number and type of arguments. */ + if (tinsn_check_arguments (&orig_insn)) + return; + + /* See if the instruction implies an aligned section. */ + if (is_entry_opcode (orig_insn.opcode) || is_loop_opcode (orig_insn.opcode)) + record_alignment (now_seg, 2); + + xg_add_branch_and_loop_targets (&orig_insn); + + /* Special cases for instructions that force an alignment... */ + if (!orig_insn.is_specific_opcode && is_loop_opcode (orig_insn.opcode)) + { + fragS *old_frag = frag_now; + offsetT old_offset = frag_now_fix (); + symbolS *old_sym = NULL; + size_t max_fill; + + frag_now->tc_frag_data.is_insn = TRUE; + frag_now->tc_frag_data.is_no_density = !code_density_available (); + max_fill = get_text_align_max_fill_size + (get_text_align_power (XTENSA_FETCH_WIDTH), + TRUE, frag_now->tc_frag_data.is_no_density); + frag_var (rs_machine_dependent, max_fill, max_fill, + RELAX_ALIGN_NEXT_OPCODE, frag_now->fr_symbol, + frag_now->fr_offset, NULL); + + /* Repeat until there are no more. */ + while ((old_sym = xtensa_find_label (old_frag, old_offset, FALSE))) + { + S_SET_VALUE (old_sym, (valueT) 0); + symbol_set_frag (old_sym, frag_now); + } + } + + /* Special count for "entry" instruction. */ + if (is_entry_opcode (orig_insn.opcode)) + { + /* Check that the second opcode (#1) is >= 16. */ + if (orig_insn.ntok >= 2) + { + expressionS *exp = &orig_insn.tok[1]; + switch (exp->X_op) + { + case O_constant: + if (exp->X_add_number < 16) + as_warn (_("entry instruction with stack decrement < 16")); + break; + + default: + as_warn (_("entry instruction with non-constant decrement")); + } + } + } + + if (!orig_insn.is_specific_opcode && is_entry_opcode (orig_insn.opcode)) + { + xtensa_mark_literal_pool_location (TRUE); + + /* Automatically align ENTRY instructions. */ + frag_align (2, 0, 0); + } + + if (software_a0_b_retw_interlock) + set_last_insn_flags (now_seg, now_subseg, FLAG_IS_A0_WRITER, + is_register_writer (&orig_insn, "a", 0)); + + set_last_insn_flags (now_seg, now_subseg, FLAG_IS_BAD_LOOPEND, + is_bad_loopend_opcode (&orig_insn)); + + /* Finish it off: + assemble_tokens (opcode, tok, ntok); + expand the tokens from the orig_insn into the + stack of instructions that will not expand + unless required at relaxation time. */ + if (xg_expand_assembly_insn (&istack, &orig_insn)) + return; + + for (i = 0; i < istack.ninsn; i++) + { + TInsn *insn = &istack.insn[i]; + if (insn->insn_type == ITYPE_LITERAL) + { + assert (lit_sym == NULL); + lit_sym = xg_assemble_literal (insn); + } + else + { + if (lit_sym) + xg_resolve_literals (insn, lit_sym); + xg_assemble_tokens (insn); + } + } + + /* Now, if the original opcode was a call... */ + if (align_targets && is_call_opcode (orig_insn.opcode)) + { + frag_now->tc_frag_data.is_insn = TRUE; + frag_var (rs_machine_dependent, 4, 4, + RELAX_DESIRE_ALIGN, + frag_now->fr_symbol, + frag_now->fr_offset, + NULL); + } +} + + +/* TC_CONS_FIX_NEW hook: Check for "@PLT" suffix on symbol references. + If found, use an XTENSA_PLT reloc for 4-byte values. Otherwise, this + is the same as the standard code in read.c. */ + +void +xtensa_cons_fix_new (frag, where, size, exp) + fragS *frag; + int where; + int size; + expressionS *exp; +{ + bfd_reloc_code_real_type r; + bfd_boolean plt = FALSE; + + if (*input_line_pointer == '@') + { + if (!strncmp (input_line_pointer, PLT_SUFFIX, strlen (PLT_SUFFIX) - 1) + && !strncmp (input_line_pointer, plt_suffix, + strlen (plt_suffix) - 1)) + { + as_bad (_("undefined @ suffix '%s', expected '%s'"), + input_line_pointer, plt_suffix); + ignore_rest_of_line (); + return; + } + + input_line_pointer += strlen (plt_suffix); + plt = TRUE; + } + + switch (size) + { + case 1: + r = BFD_RELOC_8; + break; + case 2: + r = BFD_RELOC_16; + break; + case 4: + r = plt ? BFD_RELOC_XTENSA_PLT : BFD_RELOC_32; + break; + case 8: + r = BFD_RELOC_64; + break; + default: + as_bad (_("unsupported BFD relocation size %u"), size); + r = BFD_RELOC_32; + break; + } + fix_new_exp (frag, where, size, exp, 0, r); +} + + +/* TC_FRAG_INIT hook */ + +void +xtensa_frag_init (frag) + fragS *frag; +{ + frag->tc_frag_data.is_no_density = !code_density_available (); +} + + +symbolS * +md_undefined_symbol (name) + char *name ATTRIBUTE_UNUSED; +{ + return NULL; +} + + +/* Round up a section size to the appropriate boundary. */ + +valueT +md_section_align (segment, size) + segT segment ATTRIBUTE_UNUSED; + valueT size; +{ + return size; /* Byte alignment is fine. */ +} + + +long +md_pcrel_from (fixP) + fixS *fixP; +{ + char *insn_p; + static xtensa_insnbuf insnbuf = NULL; + int opnum; + xtensa_operand operand; + xtensa_opcode opcode; + xtensa_isa isa = xtensa_default_isa; + valueT addr = fixP->fx_where + fixP->fx_frag->fr_address; + + if (fixP->fx_done) + return addr; + + if (fixP->fx_r_type == BFD_RELOC_XTENSA_ASM_EXPAND) + return addr; + + if (!insnbuf) + insnbuf = xtensa_insnbuf_alloc (isa); + + insn_p = &fixP->fx_frag->fr_literal[fixP->fx_where]; + xtensa_insnbuf_from_chars (isa, insnbuf, insn_p); + opcode = xtensa_decode_insn (isa, insnbuf); + + opnum = reloc_to_opnum (fixP->fx_r_type); + + if (opnum < 0) + as_fatal (_("invalid operand relocation for '%s' instruction"), + xtensa_opcode_name (isa, opcode)); + if (opnum >= xtensa_num_operands (isa, opcode)) + as_fatal (_("invalid relocation for operand %d in '%s' instruction"), + opnum, xtensa_opcode_name (isa, opcode)); + operand = xtensa_get_operand (isa, opcode, opnum); + if (!operand) + { + as_warn_where (fixP->fx_file, + fixP->fx_line, + _("invalid relocation type %d for %s instruction"), + fixP->fx_r_type, xtensa_opcode_name (isa, opcode)); + return addr; + } + + if (!operand_is_pcrel_label (operand)) + { + as_bad_where (fixP->fx_file, + fixP->fx_line, + _("invalid relocation for operand %d of '%s'"), + opnum, xtensa_opcode_name (isa, opcode)); + return addr; + } + if (!xtensa_operand_isPCRelative (operand)) + { + as_warn_where (fixP->fx_file, + fixP->fx_line, + _("non-PCREL relocation operand %d for '%s': %s"), + opnum, xtensa_opcode_name (isa, opcode), + bfd_get_reloc_code_name (fixP->fx_r_type)); + return addr; + } + + return 0 - xtensa_operand_do_reloc (operand, 0, addr); +} + + +/* tc_symbol_new_hook */ + +void +xtensa_symbol_new_hook (symbolP) + symbolS *symbolP; +{ + symbolP->sy_tc.plt = 0; +} + + +/* tc_fix_adjustable hook */ + +bfd_boolean +xtensa_fix_adjustable (fixP) + fixS *fixP; +{ + /* 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; +} + + +void +md_apply_fix3 (fixP, valP, seg) + fixS *fixP; + valueT *valP; + segT seg ATTRIBUTE_UNUSED; +{ + if (fixP->fx_pcrel == 0 && fixP->fx_addsy == 0) + { + /* This happens when the relocation is within the current section. + It seems this implies a PCREL operation. We'll catch it and error + if not. */ + + char *const fixpos = fixP->fx_frag->fr_literal + fixP->fx_where; + static xtensa_insnbuf insnbuf = NULL; + xtensa_opcode opcode; + xtensa_isa isa; + + switch (fixP->fx_r_type) + { + case BFD_RELOC_XTENSA_ASM_EXPAND: + fixP->fx_done = 1; + break; + + case BFD_RELOC_XTENSA_ASM_SIMPLIFY: + as_bad (_("unhandled local relocation fix %s"), + bfd_get_reloc_code_name (fixP->fx_r_type)); + break; + + case BFD_RELOC_32: + case BFD_RELOC_16: + case BFD_RELOC_8: + /* The only one we support that isn't an instruction field. */ + md_number_to_chars (fixpos, *valP, fixP->fx_size); + fixP->fx_done = 1; + break; + + case BFD_RELOC_XTENSA_OP0: + case BFD_RELOC_XTENSA_OP1: + case BFD_RELOC_XTENSA_OP2: + isa = xtensa_default_isa; + if (!insnbuf) + insnbuf = xtensa_insnbuf_alloc (isa); + + xtensa_insnbuf_from_chars (isa, insnbuf, fixpos); + opcode = xtensa_decode_insn (isa, insnbuf); + if (opcode == XTENSA_UNDEFINED) + as_fatal (_("undecodable FIX")); + + xtensa_insnbuf_set_immediate_field (opcode, insnbuf, *valP, + fixP->fx_file, fixP->fx_line); + + fixP->fx_frag->tc_frag_data.is_insn = TRUE; + xtensa_insnbuf_to_chars (isa, insnbuf, fixpos); + fixP->fx_done = 1; + break; + + case BFD_RELOC_VTABLE_INHERIT: + case BFD_RELOC_VTABLE_ENTRY: + fixP->fx_done = 0; + break; + + default: + as_bad (_("unhandled local relocation fix %s"), + bfd_get_reloc_code_name (fixP->fx_r_type)); + } + } +} + + +char * +md_atof (type, litP, sizeP) + int type; + char *litP; + int *sizeP; +{ + int prec; + LITTLENUM_TYPE words[4]; + char *t; + int i; + + switch (type) + { + case 'f': + prec = 2; + break; + + case 'd': + prec = 4; + break; + + 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 * 2; + + for (i = prec - 1; i >= 0; i--) + { + int idx = i; + if (target_big_endian) + idx = (prec - 1 - i); + + md_number_to_chars (litP, (valueT) words[idx], 2); + litP += 2; + } + + return NULL; +} + + +int +md_estimate_size_before_relax (fragP, seg) + fragS *fragP; + segT seg ATTRIBUTE_UNUSED; +{ + return fragP->tc_frag_data.text_expansion; +} + + +/* Translate internal representation of relocation info to BFD target + format. */ + +arelent * +tc_gen_reloc (section, fixp) + asection *section 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; + + /* Make sure none of our internal relocations make it this far. + They'd better have been fully resolved by this point. */ + assert ((int) fixp->fx_r_type > 0); + + reloc->howto = bfd_reloc_type_lookup (stdoutput, fixp->fx_r_type); + if (reloc->howto == NULL) + { + as_bad_where (fixp->fx_file, fixp->fx_line, + _("cannot represent `%s' relocation in object file"), + bfd_get_reloc_code_name (fixp->fx_r_type)); + return NULL; + } + + if (!fixp->fx_pcrel != !reloc->howto->pc_relative) + { + as_fatal (_("internal error? cannot generate `%s' relocation"), + bfd_get_reloc_code_name (fixp->fx_r_type)); + } + assert (!fixp->fx_pcrel == !reloc->howto->pc_relative); + + reloc->addend = fixp->fx_offset; + + switch (fixp->fx_r_type) + { + case BFD_RELOC_XTENSA_OP0: + case BFD_RELOC_XTENSA_OP1: + case BFD_RELOC_XTENSA_OP2: + case BFD_RELOC_XTENSA_ASM_EXPAND: + case BFD_RELOC_32: + case BFD_RELOC_XTENSA_PLT: + case BFD_RELOC_VTABLE_INHERIT: + case BFD_RELOC_VTABLE_ENTRY: + break; + + case BFD_RELOC_XTENSA_ASM_SIMPLIFY: + as_warn (_("emitting simplification relocation")); + break; + + default: + as_warn (_("emitting unknown relocation")); + } + + return reloc; +} + + +void +xtensa_end () +{ + directive_balance (); + xtensa_move_literals (); + + xtensa_reorder_segments (); + xtensa_mark_target_fragments (); + xtensa_cleanup_align_frags (); + xtensa_fix_target_frags (); + if (software_a0_b_retw_interlock && has_a0_b_retw) + xtensa_fix_a0_b_retw_frags (); + if (software_avoid_b_j_loop_end && maybe_has_b_j_loop_end) + xtensa_fix_b_j_loop_end_frags (); + + /* "close_loop_end" should be processed BEFORE "short_loop". */ + if (software_avoid_close_loop_end && maybe_has_close_loop_end) + xtensa_fix_close_loop_end_frags (); + + if (software_avoid_short_loop && maybe_has_short_loop) + xtensa_fix_short_loop_frags (); + + xtensa_sanity_check (); +} + + +static void +xtensa_cleanup_align_frags () +{ + frchainS *frchP; + + for (frchP = frchain_root; frchP; frchP = frchP->frch_next) + { + fragS *fragP; + + /* Walk over all of the fragments in a subsection. */ + for (fragP = frchP->frch_root; fragP; fragP = fragP->fr_next) + { + if ((fragP->fr_type == rs_align + || fragP->fr_type == rs_align_code + || (fragP->fr_type == rs_machine_dependent + && (fragP->fr_subtype == RELAX_DESIRE_ALIGN + || fragP->fr_subtype == RELAX_DESIRE_ALIGN_IF_TARGET))) + && fragP->fr_fix == 0) + { + fragS * next = fragP->fr_next; + + while (next + && next->fr_type == rs_machine_dependent + && next->fr_subtype == RELAX_DESIRE_ALIGN_IF_TARGET) + { + frag_wane (next); + next = next->fr_next; + } + } + } + } +} + + +/* Re-process all of the fragments looking to convert all of the + RELAX_DESIRE_ALIGN_IF_TARGET fragments. If there is a branch + target in the next fragment, convert this to RELAX_DESIRE_ALIGN. + If the next fragment starts with a loop target, AND the previous + fragment can be expanded to negate the branch, convert this to a + RELAX_LOOP_END. Otherwise, convert to a .fill 0. */ + +static void +xtensa_fix_target_frags () +{ + frchainS *frchP; + + /* When this routine is called, all of the subsections are still intact + so we walk over subsections instead of sections. */ + for (frchP = frchain_root; frchP; frchP = frchP->frch_next) + { + bfd_boolean prev_frag_can_negate_branch = FALSE; + fragS *fragP; + + /* Walk over all of the fragments in a subsection. */ + for (fragP = frchP->frch_root; fragP; fragP = fragP->fr_next) + { + if (fragP->fr_type == rs_machine_dependent + && fragP->fr_subtype == RELAX_DESIRE_ALIGN_IF_TARGET) + { + if (next_frag_is_loop_target (fragP)) + { + if (prev_frag_can_negate_branch) + fragP->fr_subtype = RELAX_LOOP_END; + else + { + if (!align_only_targets || + next_frag_is_branch_target (fragP)) + fragP->fr_subtype = RELAX_DESIRE_ALIGN; + else + frag_wane (fragP); + } + } + else if (!align_only_targets + || next_frag_is_branch_target (fragP)) + fragP->fr_subtype = RELAX_DESIRE_ALIGN; + else + frag_wane (fragP); + } + if (fragP->fr_fix != 0) + prev_frag_can_negate_branch = FALSE; + if (frag_can_negate_branch (fragP)) + prev_frag_can_negate_branch = TRUE; + } + } +} + + +static bfd_boolean +frag_can_negate_branch (fragP) + fragS *fragP; +{ + if (fragP->fr_type == rs_machine_dependent + && fragP->fr_subtype == RELAX_IMMED) + { + TInsn t_insn; + tinsn_from_chars (&t_insn, fragP->fr_opcode); + if (is_negatable_branch (&t_insn)) + return TRUE; + } + return FALSE; +} + + +/* Re-process all of the fragments looking to convert all of the + RELAX_ADD_NOP_IF_A0_B_RETW. If the next instruction is a + conditional branch or a retw/retw.n, convert this frag to one that + will generate a NOP. In any case close it off with a .fill 0. */ + +static void +xtensa_fix_a0_b_retw_frags () +{ + frchainS *frchP; + + /* When this routine is called, all of the subsections are still intact + so we walk over subsections instead of sections. */ + for (frchP = frchain_root; frchP; frchP = frchP->frch_next) + { + fragS *fragP; + + /* Walk over all of the fragments in a subsection. */ + for (fragP = frchP->frch_root; fragP; fragP = fragP->fr_next) + { + if (fragP->fr_type == rs_machine_dependent + && fragP->fr_subtype == RELAX_ADD_NOP_IF_A0_B_RETW) + { + if (next_instrs_are_b_retw (fragP)) + relax_frag_add_nop (fragP); + else + frag_wane (fragP); + } + } + } +} + + +bfd_boolean +next_instrs_are_b_retw (fragP) + fragS * fragP; +{ + xtensa_opcode opcode; + const fragS *next_fragP = next_non_empty_frag (fragP); + static xtensa_insnbuf insnbuf = NULL; + xtensa_isa isa = xtensa_default_isa; + int offset = 0; + + if (!insnbuf) + insnbuf = xtensa_insnbuf_alloc (isa); + + if (next_fragP == NULL) + return FALSE; + + /* Check for the conditional branch. */ + xtensa_insnbuf_from_chars (isa, insnbuf, &next_fragP->fr_literal[offset]); + opcode = xtensa_decode_insn (isa, insnbuf); + + if (!is_conditional_branch_opcode (opcode)) + return FALSE; + + offset += xtensa_insn_length (isa, opcode); + if (offset == next_fragP->fr_fix) + { + next_fragP = next_non_empty_frag (next_fragP); + offset = 0; + } + if (next_fragP == NULL) + return FALSE; + + /* Check for the retw/retw.n. */ + xtensa_insnbuf_from_chars (isa, insnbuf, &next_fragP->fr_literal[offset]); + opcode = xtensa_decode_insn (isa, insnbuf); + + if (is_windowed_return_opcode (opcode)) + return TRUE; + return FALSE; +} + + +/* Re-process all of the fragments looking to convert all of the + RELAX_ADD_NOP_IF_PRE_LOOP_END. If there is one instruction and a + loop end label, convert this frag to one that will generate a NOP. + In any case close it off with a .fill 0. */ + +static void +xtensa_fix_b_j_loop_end_frags () +{ + frchainS *frchP; + + /* When this routine is called, all of the subsections are still intact + so we walk over subsections instead of sections. */ + for (frchP = frchain_root; frchP; frchP = frchP->frch_next) + { + fragS *fragP; + + /* Walk over all of the fragments in a subsection. */ + for (fragP = frchP->frch_root; fragP; fragP = fragP->fr_next) + { + if (fragP->fr_type == rs_machine_dependent + && fragP->fr_subtype == RELAX_ADD_NOP_IF_PRE_LOOP_END) + { + if (next_instr_is_loop_end (fragP)) + relax_frag_add_nop (fragP); + else + frag_wane (fragP); + } + } + } +} + + +bfd_boolean +next_instr_is_loop_end (fragP) + fragS * fragP; +{ + const fragS *next_fragP; + + if (next_frag_is_loop_target (fragP)) + return FALSE; + + next_fragP = next_non_empty_frag (fragP); + if (next_fragP == NULL) + return FALSE; + + if (!next_frag_is_loop_target (next_fragP)) + return FALSE; + + /* If the size is >= 3 then there is more than one instruction here. + The hardware bug will not fire. */ + if (next_fragP->fr_fix > 3) + return FALSE; + + return TRUE; +} + + +/* Re-process all of the fragments looking to convert all of the + RELAX_ADD_NOP_IF_CLOSE_LOOP_END. If there is an loop end that is + not MY loop's loop end within 12 bytes, add enough nops here to + make it at least 12 bytes away. In any case close it off with a + .fill 0. */ + +static void +xtensa_fix_close_loop_end_frags () +{ + frchainS *frchP; + + /* When this routine is called, all of the subsections are still intact + so we walk over subsections instead of sections. */ + for (frchP = frchain_root; frchP; frchP = frchP->frch_next) + { + fragS *fragP; + + fragS *current_target = NULL; + offsetT current_offset = 0; + + /* Walk over all of the fragments in a subsection. */ + for (fragP = frchP->frch_root; fragP; fragP = fragP->fr_next) + { + if (fragP->fr_type == rs_machine_dependent + && fragP->fr_subtype == RELAX_IMMED) + { + /* Read it. If the instruction is a loop, get the target. */ + xtensa_opcode opcode = get_opcode_from_buf (fragP->fr_opcode); + if (is_loop_opcode (opcode)) + { + TInsn t_insn; + + tinsn_from_chars (&t_insn, fragP->fr_opcode); + tinsn_immed_from_frag (&t_insn, fragP); + + /* Get the current fragment target. */ + if (fragP->fr_symbol) + { + current_target = symbol_get_frag (fragP->fr_symbol); + current_offset = fragP->fr_offset; + } + } + } + + if (current_target + && fragP->fr_type == rs_machine_dependent + && fragP->fr_subtype == RELAX_ADD_NOP_IF_CLOSE_LOOP_END) + { + size_t min_bytes; + size_t bytes_added = 0; + +#define REQUIRED_LOOP_DIVIDING_BYTES 12 + /* Max out at 12. */ + min_bytes = min_bytes_to_other_loop_end + (fragP->fr_next, current_target, current_offset, + REQUIRED_LOOP_DIVIDING_BYTES); + + if (min_bytes < REQUIRED_LOOP_DIVIDING_BYTES) + { + while (min_bytes + bytes_added + < REQUIRED_LOOP_DIVIDING_BYTES) + { + int length = 3; + + if (fragP->fr_var < length) + as_warn (_("fr_var %lu < length %d; ignoring"), + fragP->fr_var, length); + else + { + assemble_nop (length, + fragP->fr_literal + fragP->fr_fix); + fragP->fr_fix += length; + fragP->fr_var -= length; + } + bytes_added += length; + } + } + frag_wane (fragP); + } + } + } +} + + +size_t +min_bytes_to_other_loop_end (fragP, current_target, current_offset, max_size) + fragS *fragP; + fragS *current_target; + offsetT current_offset; + size_t max_size; +{ + size_t offset = 0; + fragS *current_fragP; + + for (current_fragP = fragP; + current_fragP; + current_fragP = current_fragP->fr_next) + { + if (current_fragP->tc_frag_data.is_loop_target + && current_fragP != current_target) + return offset + current_offset; + + offset += unrelaxed_frag_min_size (current_fragP); + + if (offset + current_offset >= max_size) + return max_size; + } + return max_size; +} + + +size_t +unrelaxed_frag_min_size (fragP) + fragS * fragP; +{ + size_t size = fragP->fr_fix; + + /* add fill size */ + if (fragP->fr_type == rs_fill) + size += fragP->fr_offset; + + return size; +} + + +/* Re-process all of the fragments looking to convert all + of the RELAX_ADD_NOP_IF_SHORT_LOOP. If: + + A) + 1) the instruction size count to the loop end label + is too short (<= 2 instructions), + 2) loop has a jump or branch in it + + or B) + 1) software_avoid_all_short_loops is true + 2) The generating loop was a 'loopgtz' or 'loopnez' + 3) the instruction size count to the loop end label is too short + (<= 2 instructions) + then convert this frag (and maybe the next one) to generate a NOP. + In any case close it off with a .fill 0. */ + +static void +xtensa_fix_short_loop_frags () +{ + frchainS *frchP; + + /* When this routine is called, all of the subsections are still intact + so we walk over subsections instead of sections. */ + for (frchP = frchain_root; frchP; frchP = frchP->frch_next) + { + fragS *fragP; + fragS *current_target = NULL; + offsetT current_offset = 0; + xtensa_opcode current_opcode = XTENSA_UNDEFINED; + + /* Walk over all of the fragments in a subsection. */ + for (fragP = frchP->frch_root; fragP; fragP = fragP->fr_next) + { + /* check on the current loop */ + if (fragP->fr_type == rs_machine_dependent + && fragP->fr_subtype == RELAX_IMMED) + { + /* Read it. If the instruction is a loop, get the target. */ + xtensa_opcode opcode = get_opcode_from_buf (fragP->fr_opcode); + if (is_loop_opcode (opcode)) + { + TInsn t_insn; + + tinsn_from_chars (&t_insn, fragP->fr_opcode); + tinsn_immed_from_frag (&t_insn, fragP); + + /* Get the current fragment target. */ + if (fragP->fr_symbol) + { + current_target = symbol_get_frag (fragP->fr_symbol); + current_offset = fragP->fr_offset; + current_opcode = opcode; + } + } + } + + if (fragP->fr_type == rs_machine_dependent + && fragP->fr_subtype == RELAX_ADD_NOP_IF_SHORT_LOOP) + { + size_t insn_count = + count_insns_to_loop_end (fragP->fr_next, TRUE, 3); + if (insn_count < 3 + && (branch_before_loop_end (fragP->fr_next) + || (software_avoid_all_short_loops + && current_opcode != XTENSA_UNDEFINED + && !is_the_loop_opcode (current_opcode)))) + relax_frag_add_nop (fragP); + else + frag_wane (fragP); + } + } + } +} + + +size_t +count_insns_to_loop_end (base_fragP, count_relax_add, max_count) + fragS *base_fragP; + bfd_boolean count_relax_add; + size_t max_count; +{ + fragS *fragP = NULL; + size_t insn_count = 0; + + fragP = base_fragP; + + for (; fragP && !fragP->tc_frag_data.is_loop_target; fragP = fragP->fr_next) + { + insn_count += unrelaxed_frag_min_insn_count (fragP); + if (insn_count >= max_count) + return max_count; + + if (count_relax_add) + { + if (fragP->fr_type == rs_machine_dependent + && fragP->fr_subtype == RELAX_ADD_NOP_IF_SHORT_LOOP) + { + /* In order to add the appropriate number of + NOPs, we count an instruction for downstream + occurrences. */ + insn_count++; + if (insn_count >= max_count) + return max_count; + } + } + } + return insn_count; +} + + +size_t +unrelaxed_frag_min_insn_count (fragP) + fragS *fragP; +{ + size_t insn_count = 0; + int offset = 0; + + if (!fragP->tc_frag_data.is_insn) + return insn_count; + + /* Decode the fixed instructions. */ + while (offset < fragP->fr_fix) + { + xtensa_opcode opcode = get_opcode_from_buf (fragP->fr_literal + offset); + if (opcode == XTENSA_UNDEFINED) + { + as_fatal (_("undecodable instruction in instruction frag")); + return insn_count; + } + offset += xtensa_insn_length (xtensa_default_isa, opcode); + insn_count++; + } + + return insn_count; +} + + +bfd_boolean +branch_before_loop_end (base_fragP) + fragS *base_fragP; +{ + fragS *fragP; + + for (fragP = base_fragP; + fragP && !fragP->tc_frag_data.is_loop_target; + fragP = fragP->fr_next) + { + if (unrelaxed_frag_has_b_j (fragP)) + return TRUE; + } + return FALSE; +} + + +bfd_boolean +unrelaxed_frag_has_b_j (fragP) + fragS *fragP; +{ + size_t insn_count = 0; + int offset = 0; + + if (!fragP->tc_frag_data.is_insn) + return FALSE; + + /* Decode the fixed instructions. */ + while (offset < fragP->fr_fix) + { + xtensa_opcode opcode = get_opcode_from_buf (fragP->fr_literal + offset); + if (opcode == XTENSA_UNDEFINED) + { + as_fatal (_("undecodable instruction in instruction frag")); + return insn_count; + } + if (is_branch_or_jump_opcode (opcode)) + return TRUE; + offset += xtensa_insn_length (xtensa_default_isa, opcode); + } + return FALSE; +} + + +/* Checks to be made after initial assembly but before relaxation. */ + +static void +xtensa_sanity_check () +{ + char *file_name; + int line; + + frchainS *frchP; + + as_where (&file_name, &line); + for (frchP = frchain_root; frchP; frchP = frchP->frch_next) + { + fragS *fragP; + + /* Walk over all of the fragments in a subsection. */ + for (fragP = frchP->frch_root; fragP; fragP = fragP->fr_next) + { + /* Currently we only check for empty loops here. */ + if (fragP->fr_type == rs_machine_dependent + && fragP->fr_subtype == RELAX_IMMED) + { + static xtensa_insnbuf insnbuf = NULL; + TInsn t_insn; + + if (fragP->fr_opcode != NULL) + { + if (!insnbuf) + insnbuf = xtensa_insnbuf_alloc (xtensa_default_isa); + tinsn_from_chars (&t_insn, fragP->fr_opcode); + tinsn_immed_from_frag (&t_insn, fragP); + + if (is_loop_opcode (t_insn.opcode)) + { + if (is_empty_loop (&t_insn, fragP)) + { + new_logical_line (fragP->fr_file, fragP->fr_line); + as_bad (_("invalid empty loop")); + } + if (!is_local_forward_loop (&t_insn, fragP)) + { + new_logical_line (fragP->fr_file, fragP->fr_line); + as_bad (_("loop target does not follow " + "loop instruction in section")); + } + } + } + } + } + } + new_logical_line (file_name, line); +} + + +#define LOOP_IMMED_OPN 1 + +/* Return true if the loop target is the next non-zero fragment. */ + +bfd_boolean +is_empty_loop (insn, fragP) + const TInsn *insn; + fragS *fragP; +{ + const expressionS *expr; + symbolS *symbolP; + fragS *next_fragP; + + if (insn->insn_type != ITYPE_INSN) + return FALSE; + + if (!is_loop_opcode (insn->opcode)) + return FALSE; + + if (insn->ntok <= LOOP_IMMED_OPN) + return FALSE; + + expr = &insn->tok[LOOP_IMMED_OPN]; + + if (expr->X_op != O_symbol) + return FALSE; + + symbolP = expr->X_add_symbol; + if (!symbolP) + return FALSE; + + if (symbol_get_frag (symbolP) == NULL) + return FALSE; + + if (S_GET_VALUE (symbolP) != 0) + return FALSE; + + /* Walk through the zero-size fragments from this one. If we find + the target fragment, then this is a zero-size loop. */ + for (next_fragP = fragP->fr_next; + next_fragP != NULL; + next_fragP = next_fragP->fr_next) + { + if (next_fragP == symbol_get_frag (symbolP)) + return TRUE; + if (next_fragP->fr_fix != 0) + return FALSE; + } + return FALSE; +} + + +bfd_boolean +is_local_forward_loop (insn, fragP) + const TInsn *insn; + fragS *fragP; +{ + const expressionS *expr; + symbolS *symbolP; + fragS *next_fragP; + + if (insn->insn_type != ITYPE_INSN) + return FALSE; + + if (!is_loop_opcode (insn->opcode)) + return FALSE; + + if (insn->ntok <= LOOP_IMMED_OPN) + return FALSE; + + expr = &insn->tok[LOOP_IMMED_OPN]; + + if (expr->X_op != O_symbol) + return FALSE; + + symbolP = expr->X_add_symbol; + if (!symbolP) + return FALSE; + + if (symbol_get_frag (symbolP) == NULL) + return FALSE; + + /* Walk through fragments until we find the target. + If we do not find the target, then this is an invalid loop. */ + for (next_fragP = fragP->fr_next; + next_fragP != NULL; + next_fragP = next_fragP->fr_next) + if (next_fragP == symbol_get_frag (symbolP)) + return TRUE; + + return FALSE; +} + + +/* Alignment Functions. */ + +size_t +get_text_align_power (target_size) + int target_size; +{ + size_t i = 0; + for (i = 0; i < sizeof (size_t); i++) + { + if (target_size <= (1 << i)) + return i; + } + as_fatal (_("get_text_align_power: argument too large")); + return 0; +} + + +addressT +get_text_align_max_fill_size (align_pow, use_nops, use_no_density) + int align_pow; + bfd_boolean use_nops; + bfd_boolean use_no_density; +{ + if (!use_nops) + return (1 << align_pow); + if (use_no_density) + return 3 * (1 << align_pow); + + return 1 + (1 << align_pow); +} + + +/* get_text_align_fill_size () + + Desired alignments: + give the address + target_size = size of next instruction + align_pow = get_text_align_power (target_size). + use_nops = 0 + use_no_density = 0; + Loop alignments: + address = current address + loop instruction size; + target_size = 3 (for 2 or 3 byte target) + = 8 (for 8 byte target) + align_pow = get_text_align_power (target_size); + use_nops = 1 + use_no_density = set appropriately + Text alignments: + address = current address + loop instruction size; + target_size = 0 + align_pow = get_text_align_power (target_size); + use_nops = 0 + use_no_density = 0. */ + +addressT +get_text_align_fill_size (address, align_pow, target_size, + use_nops, use_no_density) + addressT address; + int align_pow; + int target_size; + bfd_boolean use_nops; + bfd_boolean use_no_density; +{ + /* Input arguments: + + align_pow: log2 (required alignment). + + target_size: alignment must allow the new_address and + new_address+target_size-1. + + use_nops: if true, then we can only use 2 or 3 byte nops. + + use_no_density: if use_nops and use_no_density, we can only use + 3-byte nops. + + Usually, for non-zero target_size, the align_pow is the power of 2 + that is greater than or equal to the target_size. This handles the + 2-byte, 3-byte and 8-byte instructions. */ + + size_t alignment = (1 << align_pow); + if (!use_nops) + { + /* This is the easy case. */ + size_t mod; + mod = address % alignment; + if (mod != 0) + mod = alignment - mod; + assert ((address + mod) % alignment == 0); + return mod; + } + + /* This is the slightly harder case. */ + assert ((int) alignment >= target_size); + assert (target_size > 0); + if (!use_no_density) + { + size_t i; + for (i = 0; i < alignment * 2; i++) + { + if (i == 1) + continue; + if ((address + i) >> align_pow == + (address + i + target_size - 1) >> align_pow) + return i; + } + } + else + { + size_t i; + + /* Can only fill multiples of 3. */ + for (i = 0; i <= alignment * 3; i += 3) + { + if ((address + i) >> align_pow == + (address + i + target_size - 1) >> align_pow) + return i; + } + } + assert (0); + return 0; +} + + +/* This will assert if it is not possible. */ + +size_t +get_text_align_nop_count (fill_size, use_no_density) + size_t fill_size; + bfd_boolean use_no_density; +{ + size_t count = 0; + if (use_no_density) + { + assert (fill_size % 3 == 0); + return (fill_size / 3); + } + + assert (fill_size != 1); /* Bad argument. */ + + while (fill_size > 1) + { + size_t insn_size = 3; + if (fill_size == 2 || fill_size == 4) + insn_size = 2; + fill_size -= insn_size; + count++; + } + assert (fill_size != 1); /* Bad algorithm. */ + return count; +} + + +size_t +get_text_align_nth_nop_size (fill_size, n, use_no_density) + size_t fill_size; + size_t n; + bfd_boolean use_no_density; +{ + size_t count = 0; + + assert (get_text_align_nop_count (fill_size, use_no_density) > n); + + if (use_no_density) + return 3; + + while (fill_size > 1) + { + size_t insn_size = 3; + if (fill_size == 2 || fill_size == 4) + insn_size = 2; + fill_size -= insn_size; + count++; + if (n + 1 == count) + return insn_size; + } + assert (0); + return 0; +} + + +/* For the given fragment, find the appropriate address + for it to begin at if we are using NOPs to align it. */ + +static addressT +get_noop_aligned_address (fragP, address) + fragS *fragP; + addressT address; +{ + static xtensa_insnbuf insnbuf = NULL; + size_t fill_size = 0; + + if (!insnbuf) + insnbuf = xtensa_insnbuf_alloc (xtensa_default_isa); + + switch (fragP->fr_type) + { + case rs_machine_dependent: + if (fragP->fr_subtype == RELAX_ALIGN_NEXT_OPCODE) + { + /* The rule is: get next fragment's FIRST instruction. Find + the smallest number of bytes that need to be added to + ensure that the next fragment's FIRST instruction will fit + in a single word. + + E.G., 2 bytes : 0, 1, 2 mod 4 + 3 bytes: 0, 1 mod 4 + + If the FIRST instruction MIGHT be relaxed, + assume that it will become a 3 byte instruction. */ + + int target_insn_size; + xtensa_opcode opcode = next_frag_opcode (fragP); + addressT pre_opcode_bytes; + + if (opcode == XTENSA_UNDEFINED) + { + as_bad_where (fragP->fr_file, fragP->fr_line, + _("invalid opcode for RELAX_ALIGN_NEXT_OPCODE")); + as_fatal (_("cannot continue")); + } + + target_insn_size = xtensa_insn_length (xtensa_default_isa, opcode); + + pre_opcode_bytes = next_frag_pre_opcode_bytes (fragP); + + if (is_loop_opcode (opcode)) + { + /* next_fragP should be the loop. */ + const fragS *next_fragP = next_non_empty_frag (fragP); + xtensa_opcode next_opcode = next_frag_opcode (next_fragP); + size_t alignment; + + pre_opcode_bytes += target_insn_size; + + /* For loops, the alignment depends on the size of the + instruction following the loop, not the loop instruction. */ + if (next_opcode == XTENSA_UNDEFINED) + target_insn_size = 3; + else + { + target_insn_size = + xtensa_insn_length (xtensa_default_isa, next_opcode); + + if (target_insn_size == 2) + target_insn_size = 3; /* ISA specifies this. */ + } + + /* If it was 8, then we'll need a larger alignment + for the section. */ + alignment = get_text_align_power (target_insn_size); + + /* Is Now_seg valid */ + record_alignment (now_seg, alignment); + } + else + as_fatal (_("expected loop opcode in relax align next target")); + + fill_size = get_text_align_fill_size + (address + pre_opcode_bytes, + get_text_align_power (target_insn_size), + target_insn_size, TRUE, fragP->tc_frag_data.is_no_density); + } + break; +#if 0 + case rs_align: + case rs_align_code: + fill_size = get_text_align_fill_size + (address, fragP->fr_offset, 1, TRUE, + fragP->tc_frag_data.is_no_density); + break; +#endif + default: + as_fatal (_("expected align_code or RELAX_ALIGN_NEXT_OPCODE")); + } + + return address + fill_size; +} + + +/* 3 mechanisms for relaxing an alignment: + + Align to a power of 2. + Align so the next fragment's instruction does not cross a word boundary. + Align the current instruction so that if the next instruction + were 3 bytes, it would not cross a word boundary. + + We can align with: + + zeros - This is easy; always insert zeros. + nops - 3 and 2 byte instructions + 2 - 2 byte nop + 3 - 3 byte nop + 4 - 2, 2-byte nops + >=5 : 3 byte instruction + fn(n-3) + widening - widen previous instructions. */ + +static addressT +get_widen_aligned_address (fragP, address) + fragS *fragP; + addressT address; +{ + addressT align_pow, new_address, loop_insn_offset; + fragS *next_frag; + int insn_size; + xtensa_opcode opcode, next_opcode; + static xtensa_insnbuf insnbuf = NULL; + + if (!insnbuf) + insnbuf = xtensa_insnbuf_alloc (xtensa_default_isa); + + if (fragP->fr_type == rs_align || fragP->fr_type == rs_align_code) + { + align_pow = fragP->fr_offset; + new_address = ((address + ((1 << align_pow) - 1)) + << align_pow) >> align_pow; + return new_address; + } + + if (fragP->fr_type == rs_machine_dependent) + { + switch (fragP->fr_subtype) + { + case RELAX_DESIRE_ALIGN: + + /* The rule is: get the next fragment's FIRST instruction. + Find the smallest number of bytes needed to be added + in order to ensure that the next fragment is FIRST + instruction will fit in a single word. + i.e. 2 bytes : 0, 1, 2. mod 4 + 3 bytes: 0, 1 mod 4 + If the FIRST instruction MIGHT be relaxed, + assume that it will become a 3-byte instruction. */ + + insn_size = 3; + /* Check to see if it might be 2 bytes. */ + next_opcode = next_frag_opcode (fragP); + if (next_opcode != XTENSA_UNDEFINED + && xtensa_insn_length (xtensa_default_isa, next_opcode) == 2) + insn_size = 2; + + assert (insn_size <= 4); + for (new_address = address; new_address < address + 4; new_address++) + { + if (new_address >> 2 == (new_address + insn_size - 1) >> 2) + return new_address; + } + as_bad (_("internal error aligning")); + return address; + + case RELAX_ALIGN_NEXT_OPCODE: + /* The rule is: get next fragment's FIRST instruction. + Find the smallest number of bytes needed to be added + in order to ensure that the next fragment's FIRST + instruction will fit in a single word. + i.e. 2 bytes : 0, 1, 2. mod 4 + 3 bytes: 0, 1 mod 4 + If the FIRST instruction MIGHT be relaxed, + assume that it will become a 3 byte instruction. */ + + opcode = next_frag_opcode (fragP); + if (opcode == XTENSA_UNDEFINED) + { + as_bad_where (fragP->fr_file, fragP->fr_line, + _("invalid opcode for RELAX_ALIGN_NEXT_OPCODE")); + as_fatal (_("cannot continue")); + } + insn_size = xtensa_insn_length (xtensa_default_isa, opcode); + assert (insn_size <= 4); + assert (is_loop_opcode (opcode)); + + loop_insn_offset = 0; + next_frag = next_non_empty_frag (fragP); + + /* If the loop has been expanded then the loop + instruction could be at an offset from this fragment. */ + if (next_frag->fr_subtype != RELAX_IMMED) + loop_insn_offset = get_expanded_loop_offset (opcode); + + for (new_address = address; new_address < address + 4; new_address++) + { + if ((new_address + loop_insn_offset + insn_size) >> 2 == + (new_address + loop_insn_offset + insn_size + 2) >> 2) + return new_address; + } + as_bad (_("internal error aligning")); + return address; + + default: + as_bad (_("internal error aligning")); + return address; + } + } + as_bad (_("internal error aligning")); + return address; +} + + +/* md_relax_frag Hook and Helper Functions. */ + +/* Return the number of bytes added to this fragment, given that the + input has been stretched already by "stretch". */ + +long +xtensa_relax_frag (fragP, stretch, stretched_p) + fragS *fragP; + long stretch; + int *stretched_p; +{ + int unreported = fragP->tc_frag_data.unreported_expansion; + long new_stretch = 0; + char *file_name; + int line, lit_size; + + as_where (&file_name, &line); + new_logical_line (fragP->fr_file, fragP->fr_line); + + fragP->tc_frag_data.unreported_expansion = 0; + + switch (fragP->fr_subtype) + { + case RELAX_ALIGN_NEXT_OPCODE: + /* Always convert. */ + new_stretch = relax_frag_text_align (fragP, stretch); + break; + + case RELAX_LOOP_END: + /* Do nothing. */ + break; + + case RELAX_LOOP_END_ADD_NOP: + /* Add a NOP and switch to .fill 0. */ + new_stretch = relax_frag_add_nop (fragP); + break; + + case RELAX_DESIRE_ALIGN: + /* We REALLY want to change the relaxation order here. This + should do NOTHING. The narrowing before it will either align + it or not. */ + break; + + case RELAX_LITERAL: + case RELAX_LITERAL_FINAL: + return 0; + + case RELAX_LITERAL_NR: + lit_size = 4; + fragP->fr_subtype = RELAX_LITERAL_FINAL; + assert (unreported == lit_size); + memset (&fragP->fr_literal[fragP->fr_fix], 0, 4); + fragP->fr_var -= lit_size; + fragP->fr_fix += lit_size; + new_stretch = 4; + break; + + case RELAX_NARROW: + new_stretch = relax_frag_narrow (fragP, stretch); + break; + + case RELAX_IMMED: + case RELAX_IMMED_STEP1: + case RELAX_IMMED_STEP2: + /* Place the immediate. */ + new_stretch = relax_frag_immed (now_seg, fragP, stretch, + fragP->fr_subtype - RELAX_IMMED, + stretched_p); + break; + + case RELAX_LITERAL_POOL_BEGIN: + case RELAX_LITERAL_POOL_END: + /* No relaxation required. */ + break; + + default: + as_bad (_("bad relaxation state")); + } + + new_logical_line (file_name, line); + return new_stretch; +} + + +static long +relax_frag_text_align (fragP, stretch) + fragS *fragP; + long stretch; +{ + addressT old_address, old_next_address, old_size; + addressT new_address, new_next_address, new_size; + addressT growth; + + /* Overview of the relaxation procedure for alignment + inside an executable section: + + The old size is stored in the tc_frag_data.text_expansion field. + + Calculate the new address, fix up the text_expansion and + return the growth. */ + + /* Calculate the old address of this fragment and the next fragment. */ + old_address = fragP->fr_address - stretch; + old_next_address = (fragP->fr_address - stretch + fragP->fr_fix + + fragP->tc_frag_data.text_expansion); + old_size = old_next_address - old_address; + + /* Calculate the new address of this fragment and the next fragment. */ + new_address = fragP->fr_address; + new_next_address = + get_noop_aligned_address (fragP, fragP->fr_address + fragP->fr_fix); + new_size = new_next_address - new_address; + + growth = new_size - old_size; + + /* Fix up the text_expansion field and return the new growth. */ + fragP->tc_frag_data.text_expansion += growth; + return growth; +} + + +/* Add a NOP (i.e., "or a1, a1, a1"). Use the 3-byte one because we + don't know about the availability of density yet. TODO: When the + flags are stored per fragment, use NOP.N when possible. */ + +static long +relax_frag_add_nop (fragP) + fragS *fragP; +{ + static xtensa_insnbuf insnbuf = NULL; + TInsn t_insn; + char *nop_buf = fragP->fr_literal + fragP->fr_fix; + int length; + if (!insnbuf) + insnbuf = xtensa_insnbuf_alloc (xtensa_default_isa); + + tinsn_init (&t_insn); + t_insn.opcode = xtensa_or_opcode; + assert (t_insn.opcode != XTENSA_UNDEFINED); + + t_insn.ntok = 3; + set_expr_const (&t_insn.tok[0], 1); + set_expr_const (&t_insn.tok[1], 1); + set_expr_const (&t_insn.tok[2], 1); + + tinsn_to_insnbuf (&t_insn, insnbuf); + fragP->tc_frag_data.is_insn = TRUE; + xtensa_insnbuf_to_chars (xtensa_default_isa, insnbuf, nop_buf); + + length = xtensa_insn_length (xtensa_default_isa, t_insn.opcode); + if (fragP->fr_var < length) + { + as_warn (_("fr_var (%ld) < length (%d); ignoring"), + fragP->fr_var, length); + frag_wane (fragP); + return 0; + } + + fragP->fr_fix += length; + fragP->fr_var -= length; + frag_wane (fragP); + return length; +} + + +static long +relax_frag_narrow (fragP, stretch) + fragS *fragP; + long stretch; +{ + /* Overview of the relaxation procedure for alignment inside an + executable section: Find the number of widenings required and the + number of nop bytes required. Store the number of bytes ALREADY + widened. If there are enough instructions to widen (must go back + ONLY through NARROW fragments), mark each of the fragments as TO BE + widened, recalculate the fragment addresses. */ + + assert (fragP->fr_type == rs_machine_dependent + && fragP->fr_subtype == RELAX_NARROW); + + if (!future_alignment_required (fragP, 0)) + { + /* If already expanded but no longer needed because of a prior + stretch, it is SAFE to unexpand because the next fragment will + NEVER start at an address > the previous time through the + relaxation. */ + if (fragP->tc_frag_data.text_expansion) + { + if (stretch > 0) + { + fragP->tc_frag_data.text_expansion = 0; + return -1; + } + /* Otherwise we have to live with this bad choice. */ + return 0; + } + return 0; + } + + if (fragP->tc_frag_data.text_expansion == 0) + { + fragP->tc_frag_data.text_expansion = 1; + return 1; + } + + return 0; +} + + +static bfd_boolean +future_alignment_required (fragP, stretch) + fragS *fragP; + long stretch; +{ + long address = fragP->fr_address + stretch; + int num_widens = 0; + addressT aligned_address; + offsetT desired_diff; + + while (fragP) + { + /* Limit this to a small search. */ + if (num_widens > 8) + return FALSE; + address += fragP->fr_fix; + + switch (fragP->fr_type) + { + case rs_fill: + address += fragP->fr_offset * fragP->fr_var; + break; + + case rs_machine_dependent: + switch (fragP->fr_subtype) + { + case RELAX_NARROW: + /* address += fragP->fr_fix; */ + num_widens++; + break; + + case RELAX_IMMED: + address += (/* fragP->fr_fix + */ + fragP->tc_frag_data.text_expansion); + break; + + case RELAX_ALIGN_NEXT_OPCODE: + case RELAX_DESIRE_ALIGN: + /* address += fragP->fr_fix; */ + aligned_address = get_widen_aligned_address (fragP, address); + desired_diff = aligned_address - address; + assert (desired_diff >= 0); + /* If there are enough wideners in between do it. */ + /* return (num_widens == desired_diff); */ + if (num_widens == desired_diff) + return TRUE; + if (fragP->fr_subtype == RELAX_ALIGN_NEXT_OPCODE) + return FALSE; + break; + + default: + return FALSE; + } + break; + + default: + return FALSE; + } + fragP = fragP->fr_next; + } + + return FALSE; +} + + +static long +relax_frag_immed (segP, fragP, stretch, min_steps, stretched_p) + segT segP; + fragS *fragP; + long stretch; + int min_steps; + int *stretched_p; +{ + static xtensa_insnbuf insnbuf = NULL; + TInsn t_insn; + int old_size; + bfd_boolean negatable_branch = FALSE; + bfd_boolean branch_jmp_to_next = FALSE; + IStack istack; + offsetT frag_offset; + int num_steps; + fragS *lit_fragP; + int num_text_bytes, num_literal_bytes; + int literal_diff, text_diff; + + assert (fragP->fr_opcode != NULL); + + if (!insnbuf) + insnbuf = xtensa_insnbuf_alloc (xtensa_default_isa); + + tinsn_from_chars (&t_insn, fragP->fr_opcode); + tinsn_immed_from_frag (&t_insn, fragP); + + negatable_branch = is_negatable_branch (&t_insn); + + old_size = xtensa_insn_length (xtensa_default_isa, t_insn.opcode); + + if (software_avoid_b_j_loop_end) + branch_jmp_to_next = is_branch_jmp_to_next (&t_insn, fragP); + + /* Special case: replace a branch to the next instruction with a NOP. + This is required to work around a hardware bug in T1040.0 and also + serves as an optimization. */ + + if (branch_jmp_to_next + && ((old_size == 2) || (old_size == 3)) + && !next_frag_is_loop_target (fragP)) + return 0; + + /* Here is the fun stuff: Get the immediate field from this + instruction. If it fits, we are done. If not, find the next + instruction sequence that fits. */ + + frag_offset = fragP->fr_opcode - fragP->fr_literal; + istack_init (&istack); + num_steps = xg_assembly_relax (&istack, &t_insn, segP, fragP, frag_offset, + min_steps, stretch); + if (num_steps < min_steps) + { + as_fatal (_("internal error: relaxation failed")); + return 0; + } + + if (num_steps > RELAX_IMMED_MAXSTEPS) + { + as_fatal (_("internal error: relaxation requires too many steps")); + return 0; + } + + fragP->fr_subtype = (int) RELAX_IMMED + num_steps; + + /* Figure out the number of bytes needed. */ + lit_fragP = 0; + num_text_bytes = get_num_stack_text_bytes (&istack) - old_size; + num_literal_bytes = get_num_stack_literal_bytes (&istack); + literal_diff = num_literal_bytes - fragP->tc_frag_data.literal_expansion; + text_diff = num_text_bytes - fragP->tc_frag_data.text_expansion; + + /* It MUST get larger. If not, we could get an infinite loop. */ + know (num_text_bytes >= 0); + know (literal_diff >= 0 && text_diff >= 0); + + fragP->tc_frag_data.text_expansion = num_text_bytes; + fragP->tc_frag_data.literal_expansion = num_literal_bytes; + + /* Find the associated expandable literal for this. */ + if (literal_diff != 0) + { + lit_fragP = fragP->tc_frag_data.literal_frag; + if (lit_fragP) + { + assert (literal_diff == 4); + lit_fragP->tc_frag_data.unreported_expansion += literal_diff; + + /* We expect that the literal section state has NOT been + modified yet. */ + assert (lit_fragP->fr_type == rs_machine_dependent + && lit_fragP->fr_subtype == RELAX_LITERAL); + lit_fragP->fr_subtype = RELAX_LITERAL_NR; + + /* We need to mark this section for another iteration + of relaxation. */ + (*stretched_p)++; + } + } + + /* This implicitly uses the assumption that a branch is negated + when the size of the output increases by at least 2 bytes. */ + + if (negatable_branch && num_text_bytes >= 2) + { + /* If next frag is a loop end, then switch it to add a NOP. */ + update_next_frag_nop_state (fragP); + } + + return text_diff; +} + + +/* md_convert_frag Hook and Helper Functions. */ + +void +md_convert_frag (abfd, sec, fragp) + bfd *abfd ATTRIBUTE_UNUSED; + segT sec; + fragS *fragp; +{ + char *file_name; + int line; + + as_where (&file_name, &line); + new_logical_line (fragp->fr_file, fragp->fr_line); + + switch (fragp->fr_subtype) + { + case RELAX_ALIGN_NEXT_OPCODE: + /* Always convert. */ + convert_frag_align_next_opcode (fragp); + break; + + case RELAX_DESIRE_ALIGN: + /* Do nothing. If not aligned already, too bad. */ + break; + + case RELAX_LITERAL: + case RELAX_LITERAL_FINAL: + break; + + case RELAX_NARROW: + /* No conversion. */ + convert_frag_narrow (fragp); + break; + + case RELAX_IMMED: + case RELAX_IMMED_STEP1: + case RELAX_IMMED_STEP2: + /* Place the immediate. */ + convert_frag_immed (sec, fragp, fragp->fr_subtype - RELAX_IMMED); + break; + + case RELAX_LITERAL_NR: + if (use_literal_section) + { + /* This should have been handled during relaxation. When + relaxing a code segment, literals sometimes need to be + added to the corresponding literal segment. If that + literal segment has already been relaxed, then we end up + in this situation. Marking the literal segments as data + would make this happen less often (since GAS always relaxes + code before data), but we could still get into trouble if + there are instructions in a segment that is not marked as + containing code. Until we can implement a better solution, + cheat and adjust the addresses of all the following frags. + This could break subsequent alignments, but the linker's + literal coalescing will do that anyway. */ + + fragS *f; + fragp->fr_subtype = RELAX_LITERAL_FINAL; + assert (fragp->tc_frag_data.unreported_expansion == 4); + memset (&fragp->fr_literal[fragp->fr_fix], 0, 4); + fragp->fr_var -= 4; + fragp->fr_fix += 4; + for (f = fragp->fr_next; f; f = f->fr_next) + f->fr_address += 4; + } + else + as_bad (_("invalid relaxation fragment result")); + break; + } + + fragp->fr_var = 0; + new_logical_line (file_name, line); +} + + +void +convert_frag_align_next_opcode (fragp) + fragS *fragp; +{ + char *nop_buf; /* Location for Writing. */ + size_t i; + + bfd_boolean use_no_density = fragp->tc_frag_data.is_no_density; + addressT aligned_address; + size_t fill_size, nop_count; + + aligned_address = get_noop_aligned_address (fragp, fragp->fr_address + + fragp->fr_fix); + fill_size = aligned_address - (fragp->fr_address + fragp->fr_fix); + nop_count = get_text_align_nop_count (fill_size, use_no_density); + nop_buf = fragp->fr_literal + fragp->fr_fix; + + for (i = 0; i < nop_count; i++) + { + size_t nop_size; + nop_size = get_text_align_nth_nop_size (fill_size, i, use_no_density); + + assemble_nop (nop_size, nop_buf); + nop_buf += nop_size; + } + + fragp->fr_fix += fill_size; + fragp->fr_var -= fill_size; +} + + +static void +convert_frag_narrow (fragP) + fragS *fragP; +{ + static xtensa_insnbuf insnbuf = NULL; + TInsn t_insn, single_target; + int size, old_size, diff, error_val; + offsetT frag_offset; + + if (fragP->tc_frag_data.text_expansion == 0) + { + /* No conversion. */ + fragP->fr_var = 0; + return; + } + + assert (fragP->fr_opcode != NULL); + + if (!insnbuf) + insnbuf = xtensa_insnbuf_alloc (xtensa_default_isa); + + tinsn_from_chars (&t_insn, fragP->fr_opcode); + tinsn_immed_from_frag (&t_insn, fragP); + + /* Just convert it to a wide form.... */ + size = 0; + old_size = xtensa_insn_length (xtensa_default_isa, t_insn.opcode); + + tinsn_init (&single_target); + frag_offset = fragP->fr_opcode - fragP->fr_literal; + + error_val = xg_expand_narrow (&single_target, &t_insn); + if (error_val) + as_bad (_("unable to widen instruction")); + + size = xtensa_insn_length (xtensa_default_isa, single_target.opcode); + xg_emit_insn_to_buf (&single_target, fragP->fr_opcode, + fragP, frag_offset, TRUE); + + diff = size - old_size; + assert (diff >= 0); + assert (diff <= fragP->fr_var); + fragP->fr_var -= diff; + fragP->fr_fix += diff; + + /* clean it up */ + fragP->fr_var = 0; +} + + +static void +convert_frag_immed (segP, fragP, min_steps) + segT segP; + fragS *fragP; + int min_steps; +{ + char *immed_instr = fragP->fr_opcode; + static xtensa_insnbuf insnbuf = NULL; + TInsn orig_t_insn; + bfd_boolean expanded = FALSE; + char *fr_opcode = fragP->fr_opcode; + bfd_boolean branch_jmp_to_next = FALSE; + int size; + + assert (fragP->fr_opcode != NULL); + + if (!insnbuf) + insnbuf = xtensa_insnbuf_alloc (xtensa_default_isa); + + tinsn_from_chars (&orig_t_insn, fragP->fr_opcode); + tinsn_immed_from_frag (&orig_t_insn, fragP); + + /* Here is the fun stuff: Get the immediate field from this + instruction. If it fits, we're done. If not, find the next + instruction sequence that fits. */ + + if (software_avoid_b_j_loop_end) + branch_jmp_to_next = is_branch_jmp_to_next (&orig_t_insn, fragP); + + if (branch_jmp_to_next && !next_frag_is_loop_target (fragP)) + { + /* Conversion just inserts a NOP and marks the fix as completed. */ + size = xtensa_insn_length (xtensa_default_isa, orig_t_insn.opcode); + assemble_nop (size, fragP->fr_opcode); + fragP->fr_var = 0; + } + else + { + IStack istack; + int i; + symbolS *lit_sym = NULL; + int total_size = 0; + int old_size; + int diff; + symbolS *gen_label = NULL; + offsetT frag_offset; + + /* It does not fit. Find something that does and + convert immediately. */ + frag_offset = fragP->fr_opcode - fragP->fr_literal; + istack_init (&istack); + xg_assembly_relax (&istack, &orig_t_insn, + segP, fragP, frag_offset, min_steps, 0); + + old_size = xtensa_insn_length (xtensa_default_isa, orig_t_insn.opcode); + + /* Assemble this right inline. */ + + /* First, create the mapping from a label name to the REAL label. */ + total_size = 0; + for (i = 0; i < istack.ninsn; i++) + { + TInsn *t_insn = &istack.insn[i]; + int size = 0; + fragS *lit_frag; + + switch (t_insn->insn_type) + { + case ITYPE_LITERAL: + if (lit_sym != NULL) + as_bad (_("multiple literals in expansion")); + /* First find the appropriate space in the literal pool. */ + lit_frag = fragP->tc_frag_data.literal_frag; + if (lit_frag == NULL) + as_bad (_("no registered fragment for literal")); + if (t_insn->ntok != 1) + as_bad (_("number of literal tokens != 1")); + + /* Set the literal symbol and add a fixup. */ + lit_sym = lit_frag->fr_symbol; + break; + + case ITYPE_LABEL: + assert (gen_label == NULL); + gen_label = symbol_new (FAKE_LABEL_NAME, now_seg, + fragP->fr_opcode - fragP->fr_literal + + total_size, fragP); + break; + + case ITYPE_INSN: + size = xtensa_insn_length (xtensa_default_isa, t_insn->opcode); + total_size += size; + break; + } + } + + total_size = 0; + for (i = 0; i < istack.ninsn; i++) + { + TInsn *t_insn = &istack.insn[i]; + fragS *lit_frag; + int size; + segT target_seg; + + switch (t_insn->insn_type) + { + case ITYPE_LITERAL: + lit_frag = fragP->tc_frag_data.literal_frag; + /* already checked */ + assert (lit_frag != NULL); + assert (lit_sym != NULL); + assert (t_insn->ntok == 1); + /* add a fixup */ + target_seg = S_GET_SEGMENT (lit_sym); + assert (target_seg); + fix_new_exp_in_seg (target_seg, 0, lit_frag, 0, 4, + &t_insn->tok[0], FALSE, BFD_RELOC_32); + break; + + case ITYPE_LABEL: + break; + + case ITYPE_INSN: + xg_resolve_labels (t_insn, gen_label); + xg_resolve_literals (t_insn, lit_sym); + size = xtensa_insn_length (xtensa_default_isa, t_insn->opcode); + total_size += size; + xg_emit_insn_to_buf (t_insn, immed_instr, fragP, + immed_instr - fragP->fr_literal, TRUE); + immed_instr += size; + break; + } + } + + diff = total_size - old_size; + assert (diff >= 0); + if (diff != 0) + expanded = TRUE; + assert (diff <= fragP->fr_var); + fragP->fr_var -= diff; + fragP->fr_fix += diff; + } + + /* Clean it up. */ + fragP->fr_var = 0; + + /* Check for undefined immediates in LOOP instructions. */ + if (is_loop_opcode (orig_t_insn.opcode)) + { + symbolS *sym; + sym = orig_t_insn.tok[1].X_add_symbol; + if (sym != NULL && !S_IS_DEFINED (sym)) + { + as_bad (_("unresolved loop target symbol: %s"), S_GET_NAME (sym)); + return; + } + sym = orig_t_insn.tok[1].X_op_symbol; + if (sym != NULL && !S_IS_DEFINED (sym)) + { + as_bad (_("unresolved loop target symbol: %s"), S_GET_NAME (sym)); + return; + } + } + + if (expanded && is_loop_opcode (orig_t_insn.opcode)) + convert_frag_immed_finish_loop (segP, fragP, &orig_t_insn); + + if (expanded && is_direct_call_opcode (orig_t_insn.opcode)) + { + /* Add an expansion note on the expanded instruction. */ + fix_new_exp_in_seg (now_seg, 0, fragP, fr_opcode - fragP->fr_literal, 4, + &orig_t_insn.tok[0], TRUE, + BFD_RELOC_XTENSA_ASM_EXPAND); + + } +} + + +/* Add a new fix expression into the desired segment. We have to + switch to that segment to do this. */ + +static fixS * +fix_new_exp_in_seg (new_seg, new_subseg, + frag, where, size, exp, pcrel, r_type) + segT new_seg; + subsegT new_subseg; + fragS *frag; + int where; + int size; + expressionS *exp; + int pcrel; + bfd_reloc_code_real_type r_type; +{ + fixS *new_fix; + segT seg = now_seg; + subsegT subseg = now_subseg; + assert (new_seg != 0); + subseg_set (new_seg, new_subseg); + + if (r_type == BFD_RELOC_32 + && exp->X_add_symbol + && exp->X_add_symbol->sy_tc.plt == 1) + { + r_type = BFD_RELOC_XTENSA_PLT; + } + + new_fix = fix_new_exp (frag, where, size, exp, pcrel, r_type); + subseg_set (seg, subseg); + return new_fix; +} + + +/* Relax a loop instruction so that it can span loop >256 bytes. */ +/* + loop as, .L1 + .L0: + rsr as, LEND + wsr as, LBEG + addi as, as, lo8(label-.L1) + addmi as, as, mid8(label-.L1) + wsr as, LEND + isync + rsr as, LCOUNT + addi as, as, 1 + .L1: + <<body>> + label: */ + +static void +convert_frag_immed_finish_loop (segP, fragP, t_insn) + segT segP; + fragS *fragP; + TInsn *t_insn; +{ + TInsn loop_insn; + TInsn addi_insn; + TInsn addmi_insn; + unsigned long target; + static xtensa_insnbuf insnbuf = NULL; + unsigned int loop_length, loop_length_hi, loop_length_lo; + xtensa_isa isa = xtensa_default_isa; + addressT loop_offset; + addressT addi_offset = 9; + addressT addmi_offset = 12; + + if (!insnbuf) + insnbuf = xtensa_insnbuf_alloc (isa); + + /* Get the loop offset. */ + loop_offset = get_expanded_loop_offset (t_insn->opcode); + /* Validate that there really is a LOOP at the loop_offset. */ + tinsn_from_chars (&loop_insn, fragP->fr_opcode + loop_offset); + + if (!is_loop_opcode (loop_insn.opcode)) + { + as_bad_where (fragP->fr_file, fragP->fr_line, + _("loop relaxation specification does not correspond")); + assert (0); + } + addi_offset += loop_offset; + addmi_offset += loop_offset; + + assert (t_insn->ntok == 2); + target = get_expression_value (segP, &t_insn->tok[1]); + + know (symbolP); + know (symbolP->sy_frag); + know (!(S_GET_SEGMENT (symbolP) == absolute_section) + || symbol_get_frag (symbolP) == &zero_address_frag); + + loop_length = target - (fragP->fr_address + fragP->fr_fix); + loop_length_hi = loop_length & ~0x0ff; + loop_length_lo = loop_length & 0x0ff; + if (loop_length_lo >= 128) + { + loop_length_lo -= 256; + loop_length_hi += 256; + } + + /* Because addmi sign-extends the immediate, 'loop_length_hi' can be at most + 32512. If the loop is larger than that, then we just fail. */ + if (loop_length_hi > 32512) + as_bad_where (fragP->fr_file, fragP->fr_line, + _("loop too long for LOOP instruction")); + + tinsn_from_chars (&addi_insn, fragP->fr_opcode + addi_offset); + assert (addi_insn.opcode == xtensa_addi_opcode); + + tinsn_from_chars (&addmi_insn, fragP->fr_opcode + addmi_offset); + assert (addmi_insn.opcode == xtensa_addmi_opcode); + + set_expr_const (&addi_insn.tok[2], loop_length_lo); + tinsn_to_insnbuf (&addi_insn, insnbuf); + + fragP->tc_frag_data.is_insn = TRUE; + xtensa_insnbuf_to_chars (isa, insnbuf, fragP->fr_opcode + addi_offset); + + set_expr_const (&addmi_insn.tok[2], loop_length_hi); + tinsn_to_insnbuf (&addmi_insn, insnbuf); + xtensa_insnbuf_to_chars (isa, insnbuf, fragP->fr_opcode + addmi_offset); +} + + +static offsetT +get_expression_value (segP, exp) + segT segP; + expressionS *exp; +{ + if (exp->X_op == O_constant) + return exp->X_add_number; + if (exp->X_op == O_symbol) + { + /* Find the fragment. */ + symbolS *sym = exp->X_add_symbol; + + assert (S_GET_SEGMENT (sym) == segP + || S_GET_SEGMENT (sym) == absolute_section); + + return (S_GET_VALUE (sym) + exp->X_add_number); + } + as_bad (_("invalid expression evaluation type %d"), exp->X_op); + return 0; +} + + +/* A map that keeps information on a per-subsegment basis. This is + maintained during initial assembly, but is invalid once the + subsegments are smashed together. I.E., it cannot be used during + the relaxation. */ + +typedef struct subseg_map_struct +{ + /* the key */ + segT seg; + subsegT subseg; + + /* the data */ + unsigned flags; + + struct subseg_map_struct *next; +} subseg_map; + +static subseg_map *sseg_map = NULL; + + +static unsigned +get_last_insn_flags (seg, subseg) + segT seg; + subsegT subseg; +{ + subseg_map *subseg_e; + + for (subseg_e = sseg_map; subseg_e != NULL; subseg_e = subseg_e->next) + if (seg == subseg_e->seg && subseg == subseg_e->subseg) + return subseg_e->flags; + + return 0; +} + + +static void +set_last_insn_flags (seg, subseg, fl, val) + segT seg; + subsegT subseg; + unsigned fl; + bfd_boolean val; +{ + subseg_map *subseg_e; + + for (subseg_e = sseg_map; subseg_e; subseg_e = subseg_e->next) + if (seg == subseg_e->seg && subseg == subseg_e->subseg) + break; + + if (!subseg_e) + { + subseg_e = (subseg_map *) xmalloc (sizeof (subseg_map)); + memset (subseg_e, 0, sizeof (subseg_map)); + subseg_e->seg = seg; + subseg_e->subseg = subseg; + subseg_e->flags = 0; + subseg_e->next = sseg_map; + sseg_map = subseg_e; + } + + if (val) + subseg_e->flags |= fl; + else + subseg_e->flags &= ~fl; +} + + +/* Segment Lists and emit_state Stuff. */ + +/* Remove the segment from the global sections list. */ + +static void +xtensa_remove_section (sec) + segT sec; +{ + /* Handle brain-dead bfd_section_list_remove macro, which + expect the address of the prior section's "next" field, not + just the address of the section to remove. */ + + segT *ps_next_ptr = &stdoutput->sections; + while (*ps_next_ptr != sec && *ps_next_ptr != NULL) + ps_next_ptr = &(*ps_next_ptr)->next; + + assert (*ps_next_ptr != NULL); + + bfd_section_list_remove (stdoutput, ps_next_ptr); +} + + +static void +xtensa_insert_section (after_sec, sec) + segT after_sec; + segT sec; +{ + segT *after_sec_next; + if (after_sec == NULL) + after_sec_next = &stdoutput->sections; + else + after_sec_next = &after_sec->next; + + bfd_section_list_insert (stdoutput, after_sec_next, sec); +} + + +static void +xtensa_move_seg_list_to_beginning (head) + seg_list *head; +{ + head = head->next; + while (head) + { + segT literal_section = head->seg; + + /* Move the literal section to the front of the section list. */ + assert (literal_section); + xtensa_remove_section (literal_section); + xtensa_insert_section (NULL, literal_section); + + head = head->next; + } +} + + +void +xtensa_move_literals () +{ + seg_list *segment; + frchainS *frchain_from, *frchain_to; + fragS *search_frag, *next_frag, *last_frag, *literal_pool, *insert_after; + fragS **frag_splice; + emit_state state; + segT dest_seg; + fixS *fix, *next_fix, **fix_splice; + + /* As clunky as this is, we can't rely on frag_var + and frag_variant to get called in all situations. */ + + segment = literal_head->next; + while (segment) + { + frchain_from = seg_info (segment->seg)->frchainP; + search_frag = frchain_from->frch_root; + while (search_frag) + { + search_frag->tc_frag_data.is_literal = TRUE; + search_frag = search_frag->fr_next; + } + segment = segment->next; + } + + if (use_literal_section) + return; + + segment = literal_head->next; + while (segment) + { + frchain_from = seg_info (segment->seg)->frchainP; + search_frag = frchain_from->frch_root; + literal_pool = NULL; + frchain_to = NULL; + frag_splice = &(frchain_from->frch_root); + + while (!search_frag->tc_frag_data.literal_frag) + { + assert (search_frag->fr_fix == 0 + || search_frag->fr_type == rs_align); + search_frag = search_frag->fr_next; + } + + assert (search_frag->tc_frag_data.literal_frag->fr_subtype + == RELAX_LITERAL_POOL_BEGIN); + xtensa_switch_section_emit_state (&state, segment->seg, 0); + + /* Make sure that all the frags in this series are closed, and + that there is at least one left over of zero-size. This + prevents us from making a segment with an frchain without any + frags in it. */ + frag_variant (rs_fill, 0, 0, 0, NULL, 0, NULL); + last_frag = frag_now; + frag_variant (rs_fill, 0, 0, 0, NULL, 0, NULL); + + while (search_frag != frag_now) + { + next_frag = search_frag->fr_next; + + /* First, move the frag out of the literal section and + to the appropriate place. */ + if (search_frag->tc_frag_data.literal_frag) + { + literal_pool = search_frag->tc_frag_data.literal_frag; + assert (literal_pool->fr_subtype == RELAX_LITERAL_POOL_BEGIN); + /* Note that we set this fr_var to be a fix + chain when we created the literal pool location + as RELAX_LITERAL_POOL_BEGIN. */ + frchain_to = (frchainS *) literal_pool->fr_var; + } + insert_after = literal_pool; + + while (insert_after->fr_next->fr_subtype != RELAX_LITERAL_POOL_END) + insert_after = insert_after->fr_next; + + dest_seg = (segT) insert_after->fr_next->fr_var; + + *frag_splice = next_frag; + search_frag->fr_next = insert_after->fr_next; + insert_after->fr_next = search_frag; + search_frag->tc_frag_data.lit_seg = dest_seg; + + /* Now move any fixups associated with this frag to the + right section. */ + fix = frchain_from->fix_root; + fix_splice = &(frchain_from->fix_root); + while (fix) + { + next_fix = fix->fx_next; + if (fix->fx_frag == search_frag) + { + *fix_splice = next_fix; + fix->fx_next = frchain_to->fix_root; + frchain_to->fix_root = fix; + if (frchain_to->fix_tail == NULL) + frchain_to->fix_tail = fix; + } + else + fix_splice = &(fix->fx_next); + fix = next_fix; + } + search_frag = next_frag; + } + + if (frchain_from->fix_root != NULL) + { + frchain_from = seg_info (segment->seg)->frchainP; + as_warn (_("fixes not all moved from %s"), segment->seg->name); + + assert (frchain_from->fix_root == NULL); + } + frchain_from->fix_tail = NULL; + xtensa_restore_emit_state (&state); + segment = segment->next; + } + + xtensa_move_frag_symbols (); +} + + +static void +xtensa_move_frag_symbol (sym) + symbolS *sym; +{ + fragS *frag = symbol_get_frag (sym); + + if (frag->tc_frag_data.lit_seg != (segT) 0) + S_SET_SEGMENT (sym, frag->tc_frag_data.lit_seg); +} + + +static void +xtensa_move_frag_symbols () +{ + symbolS *symbolP; + + /* Although you might think that only one of these lists should be + searched, it turns out that the difference of the two sets + (either way) is not empty. They do overlap quite a bit, + however. */ + + for (symbolP = symbol_rootP; symbolP; symbolP = symbolP->sy_next) + xtensa_move_frag_symbol (symbolP); + + map_over_defined_symbols (xtensa_move_frag_symbol); +} + + +static void +xtensa_reorder_seg_list (head, after) + seg_list *head; + segT after; +{ + /* Move all of the sections in the section list to come + after "after" in the gnu segment list. */ + + head = head->next; + while (head) + { + segT literal_section = head->seg; + + /* Move the literal section after "after". */ + assert (literal_section); + if (literal_section != after) + { + xtensa_remove_section (literal_section); + xtensa_insert_section (after, literal_section); + } + + head = head->next; + } +} + + +/* Push all the literal segments to the end of the gnu list. */ + +void +xtensa_reorder_segments () +{ + segT sec; + segT last_sec; + int old_count = 0; + int new_count = 0; + + for (sec = stdoutput->sections; sec != NULL; sec = sec->next) + old_count++; + + /* Now that we have the last section, push all the literal + sections to the end. */ + last_sec = get_last_sec (); + xtensa_reorder_seg_list (literal_head, last_sec); + xtensa_reorder_seg_list (init_literal_head, last_sec); + xtensa_reorder_seg_list (fini_literal_head, last_sec); + + /* Now perform the final error check. */ + for (sec = stdoutput->sections; sec != NULL; sec = sec->next) + new_count++; + assert (new_count == old_count); +} + + +segT +get_last_sec () +{ + segT last_sec = stdoutput->sections; + while (last_sec->next != NULL) + last_sec = last_sec->next; + + return last_sec; +} + + +/* Change the emit state (seg, subseg, and frag related stuff) to the + correct location. Return a emit_state which can be passed to + xtensa_restore_emit_state to return to current fragment. */ + +void +xtensa_switch_to_literal_fragment (result) + emit_state *result; +{ + /* When we mark a literal pool location, we want to put a frag in + the literal pool that points to it. But to do that, we want to + switch_to_literal_fragment. But literal sections don't have + literal pools, so their location is always null, so we would + recurse forever. This is kind of hacky, but it works. */ + + static bfd_boolean recursive = FALSE; + fragS *pool_location = get_literal_pool_location (now_seg); + bfd_boolean is_init = + (now_seg && !strcmp (segment_name (now_seg), INIT_SECTION_NAME)); + + bfd_boolean is_fini = + (now_seg && !strcmp (segment_name (now_seg), FINI_SECTION_NAME)); + + + if (pool_location == NULL + && !use_literal_section + && !recursive + && !is_init && ! is_fini) + { + as_warn (_("inlining literal pool; " + "specify location with .literal_position.")); + recursive = TRUE; + xtensa_mark_literal_pool_location (FALSE); + recursive = FALSE; + } + + /* Special case: If we are in the ".fini" or ".init" section, then + we will ALWAYS be generating to the ".fini.literal" and + ".init.literal" sections. */ + + if (is_init) + { + cache_literal_section (init_literal_head, + default_lit_sections.init_lit_seg_name, + &default_lit_sections.init_lit_seg); + xtensa_switch_section_emit_state (result, + default_lit_sections.init_lit_seg, 0); + } + else if (is_fini) + { + cache_literal_section (fini_literal_head, + default_lit_sections.fini_lit_seg_name, + &default_lit_sections.fini_lit_seg); + xtensa_switch_section_emit_state (result, + default_lit_sections.fini_lit_seg, 0); + } + else + { + cache_literal_section (literal_head, + default_lit_sections.lit_seg_name, + &default_lit_sections.lit_seg); + xtensa_switch_section_emit_state (result, + default_lit_sections.lit_seg, 0); + } + + if (!use_literal_section && + !is_init && !is_fini && + get_literal_pool_location (now_seg) != pool_location) + { + /* Close whatever frag is there. */ + frag_variant (rs_fill, 0, 0, 0, NULL, 0, NULL); + frag_now->tc_frag_data.literal_frag = pool_location; + frag_variant (rs_fill, 0, 0, 0, NULL, 0, NULL); + } + + /* Do a 4 byte align here. */ + frag_align (2, 0, 0); +} + + +/* Call this function before emitting data into the literal section. + This is a helper function for xtensa_switch_to_literal_fragment. + This is similar to a .section new_now_seg subseg. */ + +void +xtensa_switch_section_emit_state (state, new_now_seg, new_now_subseg) + emit_state *state; + segT new_now_seg; + subsegT new_now_subseg; +{ + state->name = now_seg->name; + state->now_seg = now_seg; + state->now_subseg = now_subseg; + state->generating_literals = generating_literals; + generating_literals++; + subseg_new (segment_name (new_now_seg), new_now_subseg); +} + + +/* Use to restore the emitting into the normal place. */ + +void +xtensa_restore_emit_state (state) + emit_state *state; +{ + generating_literals = state->generating_literals; + subseg_new (state->name, state->now_subseg); +} + + +/* Get a segment of a given name. If the segment is already + present, return it; otherwise, create a new one. */ + +static void +cache_literal_section (head, name, seg) + seg_list *head; + const char *name; + segT *seg; +{ + segT current_section = now_seg; + int current_subsec = now_subseg; + + if (*seg != 0) + return; + *seg = retrieve_literal_seg (head, name); + subseg_set (current_section, current_subsec); +} + + +/* Get a segment of a given name. If the segment is already + present, return it; otherwise, create a new one. */ + +static segT +retrieve_literal_seg (head, name) + seg_list *head; + const char *name; +{ + segT ret = 0; + + assert (head); + + ret = seg_present (name); + if (!ret) + { + ret = subseg_new (name, (subsegT) 0); + add_seg_list (head, ret); + bfd_set_section_flags (stdoutput, ret, SEC_HAS_CONTENTS | + SEC_READONLY | SEC_ALLOC | SEC_LOAD | SEC_CODE); + bfd_set_section_alignment (stdoutput, ret, 2); + } + + return ret; +} + + +/* Return a segment of a given name if it is present. */ + +static segT +seg_present (name) + const char *name; +{ + segT seg; + seg = stdoutput->sections; + + while (seg) + { + if (!strcmp (segment_name (seg), name)) + return seg; + seg = seg->next; + } + + return 0; +} + + +/* Add a segment to a segment list. */ + +static void +add_seg_list (head, seg) + seg_list *head; + segT seg; +{ + seg_list *n; + n = (seg_list *) xmalloc (sizeof (seg_list)); + assert (n); + + n->seg = seg; + n->next = head->next; + head->next = n; +} + + +/* Set up Property Tables after Relaxation. */ + +#define XTENSA_INSN_SEC_NAME ".xt.insn" +#define XTENSA_LIT_SEC_NAME ".xt.lit" + +void +xtensa_post_relax_hook () +{ + xtensa_move_seg_list_to_beginning (literal_head); + xtensa_move_seg_list_to_beginning (init_literal_head); + xtensa_move_seg_list_to_beginning (fini_literal_head); + + xtensa_create_property_segments (get_frag_is_insn, + XTENSA_INSN_SEC_NAME, + xt_literal_sec); + if (use_literal_section) + xtensa_create_property_segments (get_frag_is_literal, + XTENSA_LIT_SEC_NAME, + xt_insn_sec); +} + + +static bfd_boolean +get_frag_is_literal (fragP) + const fragS *fragP; +{ + assert (fragP != NULL); + return (fragP->tc_frag_data.is_literal); +} + + +static bfd_boolean +get_frag_is_insn (fragP) + const fragS *fragP; +{ + assert (fragP != NULL); + return (fragP->tc_frag_data.is_insn); +} + + +static void +xtensa_create_property_segments (property_function, section_name_base, + sec_type) + frag_predicate property_function; + const char * section_name_base; + xt_section_type sec_type; +{ + segT *seclist; + + /* Walk over all of the current segments. + Walk over each fragment + For each fragment that has instructions + Build an instruction record (append where possible). */ + + for (seclist = &stdoutput->sections; + seclist && *seclist; + seclist = &(*seclist)->next) + { + segT sec = *seclist; + if (section_has_property (sec, property_function)) + { + char * property_section_name = + xtensa_get_property_section_name (stdoutput, sec, + section_name_base); + segT insn_sec = retrieve_xtensa_section (property_section_name); + segment_info_type *xt_seg_info = retrieve_segment_info (insn_sec); + xtensa_block_info ** xt_blocks = + &xt_seg_info->tc_segment_info_data.blocks[sec_type]; + /* Walk over all of the frchains here and add new sections. */ + add_xt_block_frags (sec, insn_sec, xt_blocks, property_function); + } + } + + /* Now we fill them out.... */ + + for (seclist = &stdoutput->sections; + seclist && *seclist; + seclist = &(*seclist)->next) + { + segment_info_type *seginfo; + xtensa_block_info *block; + segT sec = *seclist; + seginfo = seg_info (sec); + block = seginfo->tc_segment_info_data.blocks[sec_type]; + + if (block) + { + xtensa_block_info *cur_block; + /* This is a section with some data. */ + size_t num_recs = 0; + size_t rec_size; + + for (cur_block = block; cur_block; cur_block = cur_block->next) + num_recs++; + + rec_size = num_recs * 8; + bfd_set_section_size (stdoutput, sec, rec_size); + + /* In order to make this work with the assembler, we have to + build some frags and then build the "fixups" for it. It + would be easier to just set the contents then set the + arlents. */ + + if (num_recs) + { + /* Allocate a fragment and leak it. */ + fragS *fragP; + size_t frag_size; + fixS *fixes; + frchainS *frchainP; + size_t i; + char *frag_data; + + frag_size = sizeof (fragS) + rec_size; + fragP = (fragS *) xmalloc (frag_size); + + memset (fragP, 0, frag_size); + fragP->fr_address = 0; + fragP->fr_next = NULL; + fragP->fr_fix = rec_size; + fragP->fr_var = 0; + fragP->fr_type = rs_fill; + /* the rest are zeros */ + + frchainP = seginfo->frchainP; + frchainP->frch_root = fragP; + frchainP->frch_last = fragP; + + fixes = (fixS *) xmalloc (sizeof (fixS) * num_recs); + memset (fixes, 0, sizeof (fixS) * num_recs); + + seginfo->fix_root = fixes; + seginfo->fix_tail = &fixes[num_recs - 1]; + cur_block = block; + frag_data = &fragP->fr_literal[0]; + for (i = 0; i < num_recs; i++) + { + fixS *fix = &fixes[i]; + assert (cur_block); + + /* Write the fixup. */ + if (i != num_recs - 1) + fix->fx_next = &fixes[i + 1]; + else + fix->fx_next = NULL; + fix->fx_size = 4; + fix->fx_done = 0; + fix->fx_frag = fragP; + fix->fx_where = i * 8; + fix->fx_addsy = section_symbol (cur_block->sec); + fix->fx_offset = cur_block->offset; + fix->fx_r_type = BFD_RELOC_32; + fix->fx_file = "Internal Assembly"; + fix->fx_line = 0; + + /* Write the length. */ + md_number_to_chars (&frag_data[4 + 8 * i], + cur_block->size, 4); + cur_block = cur_block->next; + } + } + } + } +} + + +segment_info_type * +retrieve_segment_info (seg) + segT seg; +{ + segment_info_type *seginfo; + seginfo = (segment_info_type *) bfd_get_section_userdata (stdoutput, seg); + if (!seginfo) + { + frchainS *frchainP; + + seginfo = (segment_info_type *) xmalloc (sizeof (*seginfo)); + memset ((PTR) seginfo, 0, sizeof (*seginfo)); + seginfo->fix_root = NULL; + seginfo->fix_tail = NULL; + seginfo->bfd_section = seg; + seginfo->sym = 0; + /* We will not be dealing with these, only our special ones. */ +#if 0 + if (seg == bfd_abs_section_ptr) + abs_seg_info = seginfo; + else if (seg == bfd_und_section_ptr) + und_seg_info = seginfo; + else +#endif + bfd_set_section_userdata (stdoutput, seg, (PTR) seginfo); +#if 0 + seg_fix_rootP = &segment_info[seg].fix_root; + seg_fix_tailP = &segment_info[seg].fix_tail; +#endif + + frchainP = (frchainS *) xmalloc (sizeof (frchainS)); + frchainP->frch_root = NULL; + frchainP->frch_last = NULL; + frchainP->frch_next = NULL; + frchainP->frch_seg = seg; + frchainP->frch_subseg = 0; + frchainP->fix_root = NULL; + frchainP->fix_tail = NULL; + /* Do not init the objstack. */ + /* obstack_begin (&frchainP->frch_obstack, chunksize); */ + /* frchainP->frch_frag_now = fragP; */ + frchainP->frch_frag_now = NULL; + + seginfo->frchainP = frchainP; + } + + return seginfo; +} + + +segT +retrieve_xtensa_section (sec_name) + char *sec_name; +{ + bfd *abfd = stdoutput; + flagword flags, out_flags, link_once_flags; + segT s; + + flags = bfd_get_section_flags (abfd, now_seg); + link_once_flags = (flags & SEC_LINK_ONCE); + if (link_once_flags) + link_once_flags |= (flags & SEC_LINK_DUPLICATES); + out_flags = (SEC_RELOC | SEC_HAS_CONTENTS | SEC_READONLY | link_once_flags); + + s = bfd_make_section_old_way (abfd, sec_name); + if (s == NULL) + as_bad (_("could not create section %s"), sec_name); + if (!bfd_set_section_flags (abfd, s, out_flags)) + as_bad (_("invalid flag combination on section %s"), sec_name); + + return s; +} + + +bfd_boolean +section_has_property (sec, property_function) + segT sec; + frag_predicate property_function; +{ + segment_info_type *seginfo = seg_info (sec); + fragS *fragP; + + if (seginfo && seginfo->frchainP) + { + for (fragP = seginfo->frchainP->frch_root; fragP; fragP = fragP->fr_next) + { + if (property_function (fragP) + && (fragP->fr_type != rs_fill || fragP->fr_fix != 0)) + return TRUE; + } + } + return FALSE; +} + + +/* Two types of block sections exist right now: literal and insns. */ + +void +add_xt_block_frags (sec, xt_block_sec, xt_block, property_function) + segT sec; + segT xt_block_sec; + xtensa_block_info **xt_block; + frag_predicate property_function; +{ + segment_info_type *seg_info; + segment_info_type *xt_seg_info; + bfd_vma seg_offset; + fragS *fragP; + + xt_seg_info = retrieve_segment_info (xt_block_sec); + seg_info = retrieve_segment_info (sec); + + /* Build it if needed. */ + while (*xt_block != NULL) + xt_block = &(*xt_block)->next; + /* We are either at NULL at the beginning or at the end. */ + + /* Walk through the frags. */ + seg_offset = 0; + + if (seg_info->frchainP) + { + for (fragP = seg_info->frchainP->frch_root; + fragP; + fragP = fragP->fr_next) + { + if (property_function (fragP) + && (fragP->fr_type != rs_fill || fragP->fr_fix != 0)) + { + if (*xt_block != NULL) + { + if ((*xt_block)->offset + (*xt_block)->size + == fragP->fr_address) + (*xt_block)->size += fragP->fr_fix; + else + xt_block = &((*xt_block)->next); + } + if (*xt_block == NULL) + { + xtensa_block_info *new_block = (xtensa_block_info *) + xmalloc (sizeof (xtensa_block_info)); + new_block->sec = sec; + new_block->offset = fragP->fr_address; + new_block->size = fragP->fr_fix; + new_block->next = NULL; + *xt_block = new_block; + } + } + } + } +} + + +/* Instruction Stack Functions (from "xtensa-istack.h"). */ + +void +istack_init (stack) + IStack *stack; +{ + memset (stack, 0, sizeof (IStack)); + stack->ninsn = 0; +} + + +bfd_boolean +istack_empty (stack) + IStack *stack; +{ + return (stack->ninsn == 0); +} + + +bfd_boolean +istack_full (stack) + IStack *stack; +{ + return (stack->ninsn == MAX_ISTACK); +} + + +/* Return a pointer to the top IStack entry. + It is an error to call this if istack_empty () is true. */ + +TInsn * +istack_top (stack) + IStack *stack; +{ + int rec = stack->ninsn - 1; + assert (!istack_empty (stack)); + return &stack->insn[rec]; +} + + +/* Add a new TInsn to an IStack. + It is an error to call this if istack_full () is true. */ + +void +istack_push (stack, insn) + IStack *stack; + TInsn *insn; +{ + int rec = stack->ninsn; + assert (!istack_full (stack)); + tinsn_copy (&stack->insn[rec], insn); + stack->ninsn++; +} + + +/* Clear space for the next TInsn on the IStack and return a pointer + to it. It is an error to call this if istack_full () is true. */ + +TInsn * +istack_push_space (stack) + IStack *stack; +{ + int rec = stack->ninsn; + TInsn *insn; + assert (!istack_full (stack)); + insn = &stack->insn[rec]; + memset (insn, 0, sizeof (TInsn)); + stack->ninsn++; + return insn; +} + + +/* Remove the last pushed instruction. It is an error to call this if + istack_empty () returns true. */ + +void +istack_pop (stack) + IStack *stack; +{ + int rec = stack->ninsn - 1; + assert (!istack_empty (stack)); + stack->ninsn--; + memset (&stack->insn[rec], 0, sizeof (TInsn)); +} + + +/* TInsn functions. */ + +void +tinsn_init (dst) + TInsn *dst; +{ + memset (dst, 0, sizeof (TInsn)); +} + + +void +tinsn_copy (dst, src) + TInsn *dst; + const TInsn *src; +{ + tinsn_init (dst); + memcpy (dst, src, sizeof (TInsn)); +} + + +/* Get the ``num''th token of the TInsn. + It is illegal to call this if num > insn->ntoks. */ + +expressionS * +tinsn_get_tok (insn, num) + TInsn *insn; + int num; +{ + assert (num < insn->ntok); + return &insn->tok[num]; +} + + +/* Return true if ANY of the operands in the insn are symbolic. */ + +static bfd_boolean +tinsn_has_symbolic_operands (insn) + const TInsn *insn; +{ + int i; + int n = insn->ntok; + + assert (insn->insn_type == ITYPE_INSN); + + for (i = 0; i < n; ++i) + { + switch (insn->tok[i].X_op) + { + case O_register: + case O_constant: + break; + default: + return TRUE; + } + } + return FALSE; +} + + +bfd_boolean +tinsn_has_invalid_symbolic_operands (insn) + const TInsn *insn; +{ + int i; + int n = insn->ntok; + + assert (insn->insn_type == ITYPE_INSN); + + for (i = 0; i < n; ++i) + { + switch (insn->tok[i].X_op) + { + case O_register: + case O_constant: + break; + default: + if (i == get_relaxable_immed (insn->opcode)) + break; + as_bad (_("invalid symbolic operand %d on '%s'"), + i, xtensa_opcode_name (xtensa_default_isa, insn->opcode)); + return TRUE; + } + } + return FALSE; +} + + +/* For assembly code with complex expressions (e.g. subtraction), + we have to build them in the literal pool so that + their results are calculated correctly after relaxation. + The relaxation only handles expressions that + boil down to SYMBOL + OFFSET. */ + +static bfd_boolean +tinsn_has_complex_operands (insn) + const TInsn *insn; +{ + int i; + int n = insn->ntok; + assert (insn->insn_type == ITYPE_INSN); + for (i = 0; i < n; ++i) + { + switch (insn->tok[i].X_op) + { + case O_register: + case O_constant: + case O_symbol: + break; + default: + return TRUE; + } + } + return FALSE; +} + + +/* Convert the constant operands in the t_insn to insnbuf. + Return true if there is a symbol in the immediate field. + + Before this is called, + 1) the number of operands are correct + 2) the t_insn is a ITYPE_INSN + 3) ONLY the relaxable_ is built + 4) All operands are O_constant, O_symbol. All constants fit + The return value tells whether there are any remaining O_symbols. */ + +static bfd_boolean +tinsn_to_insnbuf (t_insn, insnbuf) + TInsn *t_insn; + xtensa_insnbuf insnbuf; +{ + xtensa_isa isa = xtensa_default_isa; + xtensa_opcode opcode = t_insn->opcode; + bfd_boolean has_fixup = FALSE; + int noperands = xtensa_num_operands (isa, opcode); + int i; + uint32 opnd_value; + char *file_name; + int line; + + assert (t_insn->insn_type == ITYPE_INSN); + if (noperands != t_insn->ntok) + as_fatal (_("operand number mismatch")); + + xtensa_encode_insn (isa, opcode, insnbuf); + + for (i = 0; i < noperands; ++i) + { + expressionS *expr = &t_insn->tok[i]; + xtensa_operand operand = xtensa_get_operand (isa, opcode, i); + switch (expr->X_op) + { + case O_register: + /* The register number has already been checked in + expression_maybe_register, so we don't need to check here. */ + opnd_value = expr->X_add_number; + (void) xtensa_operand_encode (operand, &opnd_value); + xtensa_operand_set_field (operand, insnbuf, opnd_value); + break; + + case O_constant: + as_where (&file_name, &line); + /* It is a constant and we called this function, + then we have to try to fit it. */ + xtensa_insnbuf_set_operand (insnbuf, opcode, operand, + expr->X_add_number, file_name, line); + break; + + case O_symbol: + default: + has_fixup = TRUE; + break; + } + } + return has_fixup; +} + + +/* Check the instruction arguments. Return true on failure. */ + +bfd_boolean +tinsn_check_arguments (insn) + const TInsn *insn; +{ + xtensa_isa isa = xtensa_default_isa; + xtensa_opcode opcode = insn->opcode; + + if (opcode == XTENSA_UNDEFINED) + { + as_bad (_("invalid opcode")); + return TRUE; + } + + if (xtensa_num_operands (isa, opcode) > insn->ntok) + { + as_bad (_("too few operands")); + return TRUE; + } + + if (xtensa_num_operands (isa, opcode) < insn->ntok) + { + as_bad (_("too many operands")); + return TRUE; + } + return FALSE; +} + + +/* Load an instruction from its encoded form. */ + +static void +tinsn_from_chars (t_insn, f) + TInsn *t_insn; + char *f; +{ + static xtensa_insnbuf insnbuf = NULL; + int i; + xtensa_opcode opcode; + xtensa_isa isa = xtensa_default_isa; + + if (!insnbuf) + insnbuf = xtensa_insnbuf_alloc (isa); + + xtensa_insnbuf_from_chars (isa, insnbuf, f); + opcode = xtensa_decode_insn (isa, insnbuf); + + /* Find the immed. */ + tinsn_init (t_insn); + t_insn->insn_type = ITYPE_INSN; + t_insn->is_specific_opcode = FALSE; /* Must not be specific. */ + t_insn->opcode = opcode; + t_insn->ntok = xtensa_num_operands (isa, opcode); + for (i = 0; i < t_insn->ntok; i++) + { + set_expr_const (&t_insn->tok[i], + xtensa_insnbuf_get_operand (insnbuf, opcode, i)); + } +} + + +/* Read the value of the relaxable immed from the fr_symbol and fr_offset. */ + +static void +tinsn_immed_from_frag (t_insn, fragP) + TInsn *t_insn; + fragS *fragP; +{ + xtensa_opcode opcode = t_insn->opcode; + int opnum; + + if (fragP->fr_symbol) + { + opnum = get_relaxable_immed (opcode); + set_expr_symbol_offset (&t_insn->tok[opnum], + fragP->fr_symbol, fragP->fr_offset); + } +} + + +static int +get_num_stack_text_bytes (istack) + IStack *istack; +{ + int i; + int text_bytes = 0; + + for (i = 0; i < istack->ninsn; i++) + { + TInsn *t_insn = &istack->insn[i]; + if (t_insn->insn_type == ITYPE_INSN) + text_bytes += xg_get_insn_size (t_insn); + } + return text_bytes; +} + + +static int +get_num_stack_literal_bytes (istack) + IStack *istack; +{ + int i; + int lit_bytes = 0; + + for (i = 0; i < istack->ninsn; i++) + { + TInsn *t_insn = &istack->insn[i]; + + if (t_insn->insn_type == ITYPE_LITERAL && t_insn->ntok == 1) + lit_bytes += 4; + } + return lit_bytes; +} + + +/* Expression utilities. */ + +/* Return true if the expression is an integer constant. */ + +bfd_boolean +expr_is_const (s) + const expressionS *s; +{ + return (s->X_op == O_constant); +} + + +/* Get the expression constant. + Calling this is illegal if expr_is_const () returns true. */ + +offsetT +get_expr_const (s) + const expressionS *s; +{ + assert (expr_is_const (s)); + return s->X_add_number; +} + + +/* Set the expression to a constant value. */ + +void +set_expr_const (s, val) + expressionS *s; + offsetT val; +{ + s->X_op = O_constant; + s->X_add_number = val; + s->X_add_symbol = NULL; + s->X_op_symbol = NULL; +} + + +/* Set the expression to a symbol + constant offset. */ + +void +set_expr_symbol_offset (s, sym, offset) + expressionS *s; + symbolS *sym; + offsetT offset; +{ + s->X_op = O_symbol; + s->X_add_symbol = sym; + s->X_op_symbol = NULL; /* unused */ + s->X_add_number = offset; +} + + +bfd_boolean +expr_is_equal (s1, s2) + expressionS *s1; + expressionS *s2; +{ + if (s1->X_op != s2->X_op) + return FALSE; + if (s1->X_add_symbol != s2->X_add_symbol) + return FALSE; + if (s1->X_op_symbol != s2->X_op_symbol) + return FALSE; + if (s1->X_add_number != s2->X_add_number) + return FALSE; + return TRUE; +} + + +static void +copy_expr (dst, src) + expressionS *dst; + const expressionS *src; +{ + memcpy (dst, src, sizeof (expressionS)); +} + + +/* Support for Tensilica's "--rename-section" option. */ + +#ifdef XTENSA_SECTION_RENAME + +struct rename_section_struct +{ + char *old_name; + char *new_name; + struct rename_section_struct *next; +}; + +static struct rename_section_struct *section_rename; + + +/* Parse the string oldname=new_name:oldname2=new_name2 + and call add_section_rename. */ + +void +build_section_rename (arg) + const char *arg; +{ + char *this_arg = NULL; + char *next_arg = NULL; + + for (this_arg = strdup (arg); this_arg != NULL; this_arg = next_arg) + { + if (this_arg) + { + next_arg = strchr (this_arg, ':'); + if (next_arg) + { + *next_arg = '\0'; + next_arg++; + } + } + { + char *old_name = this_arg; + char *new_name = strchr (this_arg, '='); + + if (*old_name == '\0') + { + as_warn (_("ignoring extra '-rename-section' delimiter ':'")); + continue; + } + if (!new_name || new_name[1] == '\0') + { + as_warn (_("ignoring invalid '-rename-section' " + "specification: '%s'"), old_name); + continue; + } + *new_name = '\0'; + new_name++; + add_section_rename (old_name, new_name); + } + } +} + + +static void +add_section_rename (old_name, new_name) + char *old_name; + char *new_name; +{ + struct rename_section_struct *r = section_rename; + + /* Check for invalid section renaming. */ + for (r = section_rename; r != NULL; r = r->next) + { + if (strcmp (r->old_name, old_name) == 0) + as_bad (_("section %s renamed multiple times"), old_name); + if (strcmp (r->new_name, new_name) == 0) + as_bad (_("multiple sections remapped to output section %s"), + new_name); + } + + /* Now add it. */ + r = (struct rename_section_struct *) + xmalloc (sizeof (struct rename_section_struct)); + r->old_name = strdup (old_name); + r->new_name = strdup (new_name); + r->next = section_rename; + section_rename = r; +} + + +const char * +xtensa_section_rename (name) + const char *name; +{ + struct rename_section_struct *r = section_rename; + + for (r = section_rename; r != NULL; r = r->next) + if (strcmp (r->old_name, name) == 0) + return r->new_name; + + return name; +} + +#endif /* XTENSA_SECTION_RENAME */ + + +/* Combining identical literals. */ + +#ifdef XTENSA_COMBINE_LITERALS + +/* This code records all the .literal values that are ever seen and + detects duplicates so that identical values can be combined. This + is currently disabled because it's only half-baked. */ + +#define XTENSA_LIT_PLUS_OFFSET ".xtensa_litsym_offset_" + +/* TODO: make this into a more efficient data structure. */ +typedef struct literal_list_elem +{ + symbolS *sym; /* The symbol that points to this literal. */ + expressionS expr; /* The expression. */ + segT seg; + struct literal_list_elem *next; /* Next in the list. */ +} literal_list_elem; + +literal_list_elem *lit_cache = NULL; + +typedef struct lit_sym_translation +{ + char *name; /* This name. */ + offsetT offset; /* Plus this offset. */ + symbolS *sym; /* Should really mean this symbol. */ + struct lit_sym_translation *next; +} lit_sym_translation; + +lit_sym_translation *translations = NULL; + +static bfd_boolean is_duplicate_expression + PARAMS ((expressionS *, expressionS *)); +static void cache_literal + PARAMS ((char *sym_name, expressionS *, segT)); +static symbolS *is_duplicate_literal + PARAMS ((expressionS *, segT)); + + +static bfd_boolean +is_duplicate_expression (e1, e2) + expressionS *e1; + expressionS *e2; +{ + if (e1->X_op != e2->X_op) + return FALSE; + if (e1->X_add_symbol != e2->X_add_symbol) + return FALSE; + if (e1->X_op_symbol != e2->X_op_symbol) + return FALSE; + if (e1->X_add_number != e2->X_add_number) + return FALSE; + if (e1->X_unsigned != e2->X_unsigned) + return FALSE; + if (e1->X_md != e2->X_md) + return FALSE; + return TRUE; +} + + +static void +cache_literal (sym_name, expP, seg) + char *sym_name; + expressionS *expP; + segT seg; +{ + literal_list_elem *lit = xmalloc (sizeof (literal_list_elem)); + + lit->sym = symbol_find (sym_name); + lit->expr = *expP; + lit->seg = seg; + lit->next = lit_cache; + lit_cache = lit; +} + + +static symbolS * +is_duplicate_literal (expr, seg) + expressionS *expr; + segT seg; +{ + literal_list_elem *lit = lit_cache; + + while (lit != NULL) + { + if (is_duplicate_expression (&lit->expr, expr) && seg == lit->seg) + return lit->sym; + lit = lit->next; + } + + return NULL; +} + + +static void +add_lit_sym_translation (name, offset, target) + char * name; + offsetT offset; + symbolS * target; +{ + lit_sym_translation *lit_trans = xmalloc (sizeof (lit_sym_translation)); + + lit_trans->name = name; + lit_trans->offset = offset; + lit_trans->sym = target; + lit_trans->next = translations; + translations = lit_trans; +} + + +static void +find_lit_sym_translation (expr) + expressionS *expr; +{ + lit_sym_translation *lit_trans = translations; + + if (expr->X_op != O_symbol) + return; + + while (lit_trans != NULL) + { + if (lit_trans->offset == expr->X_add_number + && strcmp (lit_trans->name, S_GET_NAME (expr->X_add_symbol)) == 0) + { + expr->X_add_symbol = lit_trans->sym; + expr->X_add_number = 0; + return; + } + lit_trans = lit_trans->next; + } +} + +#endif /* XTENSA_COMBINE_LITERALS */ diff --git a/gas/config/tc-xtensa.h b/gas/config/tc-xtensa.h new file mode 100644 index 0000000..c6bc09d --- /dev/null +++ b/gas/config/tc-xtensa.h @@ -0,0 +1,200 @@ +/* tc-xtensa.h -- Header file for tc-xtensa.c. + Copyright (C) 2003 Free Software Foundation, Inc. + + 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 2, 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, 59 Temple Place - Suite 330, Boston, MA + 02111-1307, USA. */ + +#ifndef TC_XTENSA +#define TC_XTENSA 1 + +#ifdef ANSI_PROTOTYPES +struct fix; +#endif + +#ifndef BFD_ASSEMBLER +#error Xtensa support requires BFD_ASSEMBLER +#endif + +#ifndef OBJ_ELF +#error Xtensa support requires ELF object format +#endif + +#include "xtensa-config.h" + +#define TARGET_BYTES_BIG_ENDIAN XCHAL_HAVE_BE + + +struct xtensa_frag_type +{ + unsigned is_literal:1; + unsigned is_text:1; + unsigned is_loop_target:1; + unsigned is_branch_target:1; + unsigned is_insn:1; + + /* Info about the current state of assembly, i.e., density, relax, + generics, freeregs, longcalls. These need to be passed to the + backend and then to the linking file. */ + + unsigned is_no_density:1; + unsigned is_relax:1; + unsigned is_generics:1; + unsigned is_longcalls:1; + + /* For text fragments that can generate literals at relax time, this + variable points to the frag where the literal will be stored. For + literal frags, this variable points to the nearest literal pool + location frag. This literal frag will be moved to after this + location. */ + + fragS *literal_frag; + + /* The destination segment for literal frags. (Note that this is only + valid after xtensa_move_literals. */ + + segT lit_seg; + + /* For the relaxation scheme, some literal fragments can have their + expansions modified by an instruction that relaxes. */ + + unsigned text_expansion; + unsigned literal_expansion; + unsigned unreported_expansion; +}; + +typedef struct xtensa_block_info_struct +{ + segT sec; + bfd_vma offset; + size_t size; + struct xtensa_block_info_struct *next; +} xtensa_block_info; + +typedef enum +{ + xt_insn_sec, + xt_literal_sec, + max_xt_sec +} xt_section_type; + +typedef struct xtensa_segment_info_struct +{ + fragS *literal_pool_loc; + xtensa_block_info *blocks[max_xt_sec]; +} xtensa_segment_info; + +typedef struct xtensa_symfield_type_struct +{ + unsigned int plt : 1; +} xtensa_symfield_type; + + +/* Section renaming is only supported in Tensilica's version of GAS. */ +#define XTENSA_SECTION_RENAME 1 +#ifdef XTENSA_SECTION_RENAME +extern const char *xtensa_section_rename + PARAMS ((const char *)); +#else +/* Tensilica's section renaming feature is not included here. */ +#define xtensa_section_rename(name) (name) +#endif /* XTENSA_SECTION_RENAME */ + + +extern const char *xtensa_target_format + PARAMS ((void)); +extern void xtensa_frag_init + PARAMS ((fragS *)); +extern void xtensa_cons_fix_new + PARAMS ((fragS *, int, int, expressionS *)); +extern void xtensa_frob_label + PARAMS ((struct symbol *)); +extern void xtensa_end + PARAMS ((void)); +extern void xtensa_post_relax_hook + PARAMS ((void)); +extern void xtensa_file_arch_init + PARAMS ((bfd *)); +extern void xtensa_flush_pending_output + PARAMS ((void)); +extern bfd_boolean xtensa_fix_adjustable + PARAMS ((struct fix *)); +extern void xtensa_symbol_new_hook + PARAMS ((symbolS *)); +extern long xtensa_relax_frag + PARAMS ((fragS *, long, int *)); + +#define TARGET_FORMAT xtensa_target_format () +#define TARGET_ARCH bfd_arch_xtensa +#define TC_SEGMENT_INFO_TYPE xtensa_segment_info +#define TC_SYMFIELD_TYPE xtensa_symfield_type +#define TC_FRAG_TYPE struct xtensa_frag_type +#define TC_FRAG_INIT(frag) xtensa_frag_init (frag) +#define TC_CONS_FIX_NEW xtensa_cons_fix_new +#define tc_canonicalize_symbol_name(s) xtensa_section_rename (s) +#define tc_init_after_args() xtensa_file_arch_init (stdoutput) +#define tc_fix_adjustable(fix) xtensa_fix_adjustable (fix) +#define tc_frob_label(sym) xtensa_frob_label (sym) +#define tc_symbol_new_hook(s) xtensa_symbol_new_hook (s) +#define md_elf_section_rename(name) xtensa_section_rename (name) +#define md_end xtensa_end +#define md_flush_pending_output() xtensa_flush_pending_output () +#define md_operand(x) +#define TEXT_SECTION_NAME xtensa_section_rename (".text") +#define DATA_SECTION_NAME xtensa_section_rename (".data") +#define BSS_SECTION_NAME xtensa_section_rename (".bss") + + +/* The renumber_section function must be mapped over all the sections + after calling xtensa_post_relax_hook. That function is static in + write.c so it cannot be called from xtensa_post_relax_hook itself. */ + +#define md_post_relax_hook \ + do \ + { \ + int i = 0; \ + xtensa_post_relax_hook (); \ + bfd_map_over_sections (stdoutput, renumber_sections, &i); \ + } \ + while (0) + + +/* Because xtensa relaxation can insert a new literal into the middle of + fragment and thus require re-running the relaxation pass on the + section, we need an explicit flag here. We explicitly use the name + "stretched" here to avoid changing the source code in write.c. */ + +#define md_relax_frag(segment, fragP, stretch) \ + xtensa_relax_frag (fragP, stretch, &stretched) + + +#define LOCAL_LABELS_FB 1 +#define WORKING_DOT_WORD 1 +#define DOUBLESLASH_LINE_COMMENTS +#define TC_HANDLES_FX_DONE +#define TC_FINALIZE_SYMS_BEFORE_SIZE_SEG 0 + +#define MD_APPLY_SYM_VALUE(FIX) 0 + +/* The default literal sections should always be marked as "code" (i.e., + SHF_EXECINSTR). This is particularly important for the Linux kernel + module loader so that the literals are not placed after the text. */ +#define ELF_TC_SPECIAL_SECTIONS \ + { ".literal", SHT_PROGBITS, SHF_ALLOC + SHF_EXECINSTR }, \ + { ".init.literal", SHT_PROGBITS, SHF_ALLOC + SHF_EXECINSTR }, \ + { ".fini.literal", SHT_PROGBITS, SHF_ALLOC + SHF_EXECINSTR }, + +#endif /* TC_XTENSA */ diff --git a/gas/config/xtensa-relax.c b/gas/config/xtensa-relax.c new file mode 100644 index 0000000..47aa03c --- /dev/null +++ b/gas/config/xtensa-relax.c @@ -0,0 +1,1766 @@ +/* Table of relaxations for Xtensa assembly. + Copyright 2003 Free Software Foundation, Inc. + + 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 2, 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, 59 Temple Place - Suite 330, Boston, + MA 02111-1307, USA. */ + +/* This file contains the code for generating runtime data structures + for relaxation pattern matching from statically specified strings. + Each action contains an instruction pattern to match and + preconditions for the match as well as an expansion if the pattern + matches. The preconditions can specify that two operands are the + same or an operand is a specific constant. The expansion uses the + bound variables from the pattern to specify that specific operands + from the pattern should be used in the result. + + The patterns match a language like: + + INSN_PATTERN ::= INSN_TEMPL ( '|' PRECOND )* + INSN_TEMPL ::= OPCODE ' ' [ OPERAND (',' OPERAND)* ] + OPCODE ::= id + OPERAND ::= CONSTANT | VARIABLE | SPECIALFN '(' VARIABLE ')' + SPECIALFN ::= 'HI24S' | 'F32MINUS' | 'LOW8' + VARIABLE ::= '%' id + PRECOND ::= OPERAND CMPOP OPERAND + CMPOP ::= '==' | '!=' + + The replacement language + INSN_REPL ::= INSN_LABEL_LIT ( ';' INSN_LABEL_LIT )* + INSN_LABEL_LIT ::= INSN_TEMPL + | 'LABEL' num + | 'LITERAL' num ' ' VARIABLE + + The operands in a PRECOND must be constants or variables bound by + the INSN_PATTERN. + + The operands in the INSN_REPL must be constants, variables bound in + the associated INSN_PATTERN, special variables that are bound in + the INSN_REPL by LABEL or LITERAL definitions, or special value + manipulation functions. + + A simple example of a replacement pattern: + {"movi.n %as,%imm", "movi %as,%imm"} would convert the narrow + movi.n instruction to the wide movi instruction. + + A more complex example of a branch around: + {"beqz %as,%label", "bnez %as,%LABEL0;j %label;LABEL0"} + would convert a branch to a negated branch to the following instruction + with a jump to the original label. + + An Xtensa-specific example that generates a literal: + {"movi %at,%imm", "LITERAL0 %imm; l32r %at,%LITERAL0"} + will convert a movi instruction to an l32r of a literal + literal defined in the literal pool. + + Even more complex is a conversion of a load with immediate offset + to a load of a freshly generated literal, an explicit add and + a load with 0 offset. This transformation is only valid, though + when the first and second operands are not the same as specified + by the "| %at!=%as" precondition clause. + {"l32i %at,%as,%imm | %at!=%as", + "LITERAL0 %imm; l32r %at,%LITERAL0; add %at,%at,%as; l32i %at,%at,0"} + + There is special case for loop instructions here, but because we do + not currently have the ability to represent the difference of two + symbols, the conversion requires special code in the assembler to + write the operands of the addi/addmi pair representing the + difference of the old and new loop end label. */ + +#include "as.h" +#include "xtensa-isa.h" +#include "xtensa-relax.h" +#include <stddef.h> + +/* Imported from bfd. */ +extern xtensa_isa xtensa_default_isa; + + +/* The opname_list is a small list of names that we use for opcode and + operand variable names to simplify ownership of these commonly used + strings. Strings entered in the table can be compared by pointer + equality. */ + +typedef struct opname_list_struct opname_list; +typedef opname_list opname_e; + +struct opname_list_struct +{ + char *opname; + opname_list *next; +}; + +static opname_list *local_opnames = NULL; + + +/* The "opname_map" and its element structure "opname_map_e" are used + for binding an operand number to a name or a constant. */ + +typedef struct opname_map_e_struct opname_map_e; +typedef struct opname_map_struct opname_map; + +struct opname_map_e_struct +{ + const char *operand_name; /* If null, then use constant_value. */ + size_t operand_num; + unsigned constant_value; + opname_map_e *next; +}; + +struct opname_map_struct +{ + opname_map_e *head; + opname_map_e **tail; +}; + +/* The "precond_list" and its element structure "precond_e" represents + explicit preconditions comparing operand variables and constants. + In the "precond_e" structure, a variable is identified by the name + in the "opname" field. If that field is NULL, then the operand + is the constant in field "opval". */ + +typedef struct precond_e_struct precond_e; +typedef struct precond_list_struct precond_list; + +struct precond_e_struct +{ + const char *opname1; + unsigned opval1; + CmpOp cmpop; + const char *opname2; + unsigned opval2; + precond_e *next; +}; + +struct precond_list_struct +{ + precond_e *head; + precond_e **tail; +}; + + +/* The insn_templ represents the INSN_TEMPL instruction template. It + is an opcode name with a list of operands. These are used for + instruction patterns and replacement patterns. */ + +typedef struct insn_templ_struct insn_templ; +struct insn_templ_struct +{ + const char *opcode_name; + opname_map operand_map; +}; + + +/* The insn_pattern represents an INSN_PATTERN instruction pattern. + It is an instruction template with preconditions that specify when + it actually matches a given instruction. */ + +typedef struct insn_pattern_struct insn_pattern; +struct insn_pattern_struct +{ + insn_templ t; + precond_list preconds; +}; + + +/* The "insn_repl" and associated element structure "insn_repl_e" + instruction replacement list is a list of + instructions/LITERALS/LABELS with constant operands or operands + with names bound to the operand names in the associated pattern. */ + +typedef struct insn_repl_e_struct insn_repl_e; +struct insn_repl_e_struct +{ + insn_templ t; + insn_repl_e *next; +}; + +typedef struct insn_repl_struct insn_repl; +struct insn_repl_struct +{ + insn_repl_e *head; + insn_repl_e **tail; +}; + + +/* The split_rec is a vector of allocated char * pointers. */ + +typedef struct split_rec_struct split_rec; +struct split_rec_struct +{ + char **vec; + size_t count; +}; + +/* The "string_pattern_pair" is a set of pairs containing instruction + patterns and replacement strings. */ + +typedef struct string_pattern_pair_struct string_pattern_pair; +struct string_pattern_pair_struct +{ + const char *pattern; + const char *replacement; +}; + + +/* The widen_spec_list is a list of valid substitutions that generate + wider representations. These are generally used to specify + replacements for instructions whose immediates do not fit their + encodings. A valid transition may require mutiple steps of + one-to-one instruction replacements with a final multiple + instruction replacement. As an example, here are the transitions + required to replace an 'addi.n' with an 'addi', 'addmi'. + + addi.n a4, 0x1010 + => addi a4, 0x1010 + => addmi a4, 0x1010 + => addmi a4, 0x1000, addi a4, 0x10. */ + +static string_pattern_pair widen_spec_list[] = +{ + {"add.n %ar,%as,%at", "add %ar,%as,%at"}, + {"addi.n %ar,%as,%imm", "addi %ar,%as,%imm"}, + {"beqz.n %as,%label", "beqz %as,%label"}, + {"bnez.n %as,%label", "bnez %as,%label"}, + {"l32i.n %at,%as,%imm", "l32i %at,%as,%imm"}, + {"mov.n %at,%as", "or %at,%as,%as"}, + {"movi.n %as,%imm", "movi %as,%imm"}, + {"nop.n", "or 1,1,1"}, + {"ret.n", "ret"}, + {"retw.n", "retw"}, + {"s32i.n %at,%as,%imm", "s32i %at,%as,%imm"}, + {"srli %at,%as,%imm", "extui %at,%as,%imm,F32MINUS(%imm)"}, + {"slli %ar,%as,0", "or %ar,%as,%as"}, + /* Widening with literals */ + {"movi %at,%imm", "LITERAL0 %imm; l32r %at,%LITERAL0"}, + {"addi %ar,%as,%imm", "addmi %ar,%as,%imm"}, + /* LOW8 is the low 8 bits of the Immed + MID8S is the middle 8 bits of the Immed */ + {"addmi %ar,%as,%imm", "addmi %ar,%as,HI24S(%imm); addi %ar,%ar,LOW8(%imm)"}, + {"addmi %ar,%as,%imm | %ar!=%as", + "LITERAL0 %imm; l32r %ar,%LITERAL0; add %ar,%as,%ar"}, + + /* Widening the load instructions with too-large immediates */ + {"l8ui %at,%as,%imm | %at!=%as", + "LITERAL0 %imm; l32r %at,%LITERAL0; add %at,%at,%as; l8ui %at,%at,0"}, + {"l16si %at,%as,%imm | %at!=%as", + "LITERAL0 %imm; l32r %at,%LITERAL0; add %at,%at,%as; l16si %at,%at,0"}, + {"l16ui %at,%as,%imm | %at!=%as", + "LITERAL0 %imm; l32r %at,%LITERAL0; add %at,%at,%as; l16ui %at,%at,0"}, +#if 0 /* Xtensa Synchronization Option not yet available */ + {"l32ai %at,%as,%imm", + "LITERAL0 %imm; l32r %at,%LITERAL0; add.n %at,%at,%as; l32ai %at,%at,0"}, +#endif +#if 0 /* Xtensa Speculation Option not yet available */ + {"l32is %at,%as,%imm", + "LITERAL0 %imm; l32r %at,%LITERAL0; add.n %at,%at,%as; l32is %at,%at,0"}, +#endif + {"l32i %at,%as,%imm | %at!=%as", + "LITERAL0 %imm; l32r %at,%LITERAL0; add %at,%at,%as; l32i %at,%at,0"}, + + /* This is only PART of the loop instruction. In addition, hard + coded into it's use is a modification of the final operand in the + instruction in bytes 9 and 12. */ + {"loop %as,%label", + "loop %as,%LABEL0;" + "rsr %as, 1;" /* LEND */ + "wsr %as, 0;" /* LBEG */ + "addi %as, %as, 0;" /* lo8(%label-%LABEL1) */ + "addmi %as, %as, 0;" /* mid8(%label-%LABEL1) */ + "wsr %as, 1;" + "isync;" + "rsr %as, 2;" /* LCOUNT */ + "addi %as, %as, 1;" /* density -> addi.n %as, %as, 1 */ + "LABEL0"}, + {"loopgtz %as,%label", + "beqz %as,%label;" + "bltz %as,%label;" + "loopgtz %as,%LABEL0;" + "rsr %as, 1;" /* LEND */ + "wsr %as, 0;" /* LBEG */ + "addi %as, %as, 0;" /* lo8(%label-%LABEL1) */ + "addmi %as, %as, 0;" /* mid8(%label-%LABEL1) */ + "wsr %as, 1;" + "isync;" + "rsr %as, 2;" /* LCOUNT */ + "addi %as, %as, 1;" /* density -> addi.n %as, %as, 1 */ + "LABEL0"}, + {"loopnez %as,%label", + "beqz %as,%label;" + "loopnez %as,%LABEL0;" + "rsr %as, 1;" /* LEND */ + "wsr %as, 0;" /* LBEG */ + "addi %as, %as, 0;" /* lo8(%label-%LABEL1) */ + "addmi %as, %as, 0;" /* mid8(%label-%LABEL1) */ + "wsr %as, 1;" + "isync;" + "rsr %as, 2;" /* LCOUNT */ + "addi %as, %as, 1;" /* density -> addi.n %as, %as, 1 */ + "LABEL0"}, + +#if 0 /* no mechanism here to determine if Density Option is available */ + {"beqz %as,%label", "bnez.n %as,%LABEL0;j %label;LABEL0"}, + {"bnez %as,%label", "beqz.n %as,%LABEL0;j %label;LABEL0"}, +#else + {"beqz %as,%label", "bnez %as,%LABEL0;j %label;LABEL0"}, + {"bnez %as,%label", "beqz %as,%LABEL0;j %label;LABEL0"}, +#endif + + {"bgez %as,%label", "bltz %as,%LABEL0;j %label;LABEL0"}, + {"bltz %as,%label", "bgez %as,%LABEL0;j %label;LABEL0"}, + {"beqi %as,%imm,%label", "bnei %as,%imm,%LABEL0;j %label;LABEL0"}, + {"bnei %as,%imm,%label", "beqi %as,%imm,%LABEL0;j %label;LABEL0"}, + {"bgei %as,%imm,%label", "blti %as,%imm,%LABEL0;j %label;LABEL0"}, + {"blti %as,%imm,%label", "bgei %as,%imm,%LABEL0;j %label;LABEL0"}, + {"bgeui %as,%imm,%label", "bltui %as,%imm,%LABEL0;j %label;LABEL0"}, + {"bltui %as,%imm,%label", "bgeui %as,%imm,%LABEL0;j %label;LABEL0"}, + {"bbci %as,%imm,%label", "bbsi %as,%imm,%LABEL0;j %label;LABEL0"}, + {"bbsi %as,%imm,%label", "bbci %as,%imm,%LABEL0;j %label;LABEL0"}, + {"beq %as,%at,%label", "bne %as,%at,%LABEL0;j %label;LABEL0"}, + {"bne %as,%at,%label", "beq %as,%at,%LABEL0;j %label;LABEL0"}, + {"bge %as,%at,%label", "blt %as,%at,%LABEL0;j %label;LABEL0"}, + {"blt %as,%at,%label", "bge %as,%at,%LABEL0;j %label;LABEL0"}, + {"bgeu %as,%at,%label", "bltu %as,%at,%LABEL0;j %label;LABEL0"}, + {"bltu %as,%at,%label", "bgeu %as,%at,%LABEL0;j %label;LABEL0"}, + {"bany %as,%at,%label", "bnone %as,%at,%LABEL0;j %label;LABEL0"}, +#if 1 /* provide relaxations for Boolean Option */ + {"bt %bs,%label", "bf %bs,%LABEL0;j %label;LABEL0"}, + {"bf %bs,%label", "bt %bs,%LABEL0;j %label;LABEL0"}, +#endif + {"bnone %as,%at,%label", "bany %as,%at,%LABEL0;j %label;LABEL0"}, + {"ball %as,%at,%label", "bnall %as,%at,%LABEL0;j %label;LABEL0"}, + {"bnall %as,%at,%label", "ball %as,%at,%LABEL0;j %label;LABEL0"}, + {"bbc %as,%at,%label", "bbs %as,%at,%LABEL0;j %label;LABEL0"}, + {"bbs %as,%at,%label", "bbc %as,%at,%LABEL0;j %label;LABEL0"}, + {"call0 %label", "LITERAL0 %label; l32r a0,%LITERAL0; callx0 a0"}, + {"call4 %label", "LITERAL0 %label; l32r a4,%LITERAL0; callx4 a4"}, + {"call8 %label", "LITERAL0 %label; l32r a8,%LITERAL0; callx8 a8"}, + {"call12 %label", "LITERAL0 %label; l32r a12,%LITERAL0; callx12 a12"} +}; + +#define WIDEN_COUNT (sizeof (widen_spec_list) / sizeof (string_pattern_pair)) + + +/* The simplify_spec_list specifies simplifying transformations that + will reduce the instruction width or otherwise simplify an + instruction. These are usually applied before relaxation in the + assembler. It is always legal to simplify. Even for "addi as, 0", + the "addi.n as, 0" will eventually be widened back to an "addi 0" + after the widening table is applied. Note: The usage of this table + has changed somewhat so that it is entirely specific to "narrowing" + instructions to use the density option. This table is not used at + all when the density option is not available. */ + +string_pattern_pair simplify_spec_list[] = +{ + {"add %ar,%as,%at", "add.n %ar,%as,%at"}, + {"addi.n %ar,%as,0", "mov.n %ar,%as"}, + {"addi %ar,%as,0", "mov.n %ar,%as"}, + {"addi %ar,%as,%imm", "addi.n %ar,%as,%imm"}, + {"addmi %ar,%as,%imm", "addi.n %ar,%as,%imm"}, + {"beqz %as,%label", "beqz.n %as,%label"}, + {"bnez %as,%label", "bnez.n %as,%label"}, + {"l32i %at,%as,%imm", "l32i.n %at,%as,%imm"}, + {"movi %as,%imm", "movi.n %as,%imm"}, + {"or %ar,%as,%at | %as==%at", "mov.n %ar,%as"}, + {"ret", "ret.n"}, + {"retw", "retw.n"}, + {"s32i %at,%as,%imm", "s32i.n %at,%as,%imm"}, + {"slli %ar,%as,0", "mov.n %ar,%as"} +}; + +#define SIMPLIFY_COUNT \ + (sizeof (simplify_spec_list) / sizeof (string_pattern_pair)) + + +/* Transition generation helpers. */ + +static void append_transition + PARAMS ((TransitionTable *, xtensa_opcode, TransitionRule *)); +static void append_condition + PARAMS ((TransitionRule *, Precondition *)); +static void append_value_condition + PARAMS ((TransitionRule *, CmpOp, unsigned, unsigned)); +static void append_constant_value_condition + PARAMS ((TransitionRule *, CmpOp, unsigned, unsigned)); +static void append_build_insn + PARAMS ((TransitionRule *, BuildInstr *)); +static void append_op + PARAMS ((BuildInstr *, BuildOp *)); +static void append_literal_op + PARAMS ((BuildInstr *, unsigned, unsigned)); +static void append_label_op + PARAMS ((BuildInstr *, unsigned, unsigned)); +static void append_constant_op + PARAMS ((BuildInstr *, unsigned, unsigned)); +static void append_field_op + PARAMS ((BuildInstr *, unsigned, unsigned)); +static void append_user_fn_field_op + PARAMS ((BuildInstr *, unsigned, OpType, unsigned)); +static long operand_function_HI24S + PARAMS ((long)); +static long operand_function_F32MINUS + PARAMS ((long)); +static long operand_function_LOW8 + PARAMS ((long)); + +/* Externally visible functions. */ + +extern bfd_boolean xg_has_userdef_op_fn + PARAMS ((OpType)); +extern long xg_apply_userdef_op_fn + PARAMS ((OpType, long)); + +/* Parsing helpers. */ + +static const char *enter_opname_n + PARAMS ((const char *, size_t)); +static const char *enter_opname + PARAMS ((const char *)); + +/* Construction and destruction. */ + +static void init_opname_map + PARAMS ((opname_map *)); +static void clear_opname_map + PARAMS ((opname_map *)); +static void init_precond_list + PARAMS ((precond_list *)); +static void clear_precond_list + PARAMS ((precond_list *)); +static void init_insn_templ + PARAMS ((insn_templ *)); +static void clear_insn_templ + PARAMS ((insn_templ *)); +static void init_insn_pattern + PARAMS ((insn_pattern *)); +static void clear_insn_pattern + PARAMS ((insn_pattern *)); +static void init_insn_repl + PARAMS ((insn_repl *)); +static void clear_insn_repl + PARAMS ((insn_repl *)); +static void init_split_rec + PARAMS ((split_rec *)); +static void clear_split_rec + PARAMS ((split_rec *)); + +/* Operand and insn_templ helpers. */ + +static bfd_boolean same_operand_name + PARAMS ((const opname_map_e *, const opname_map_e *)); +static opname_map_e *get_opmatch + PARAMS ((opname_map *, const char *)); +static bfd_boolean op_is_constant + PARAMS ((const opname_map_e *)); +static unsigned op_get_constant + PARAMS ((const opname_map_e *)); +static size_t insn_templ_operand_count + PARAMS ((const insn_templ *)); + +/* parsing helpers. */ + +static const char *skip_white + PARAMS ((const char *)); +static void trim_whitespace + PARAMS ((char *)); +static void split_string + PARAMS ((split_rec *, const char *, char, bfd_boolean)); + +/* Language parsing. */ + +static bfd_boolean parse_insn_pattern + PARAMS ((const char *, insn_pattern *)); +static bfd_boolean parse_insn_repl + PARAMS ((const char *, insn_repl *)); +static bfd_boolean parse_insn_templ + PARAMS ((const char *, insn_templ *)); +static bfd_boolean parse_special_fn + PARAMS ((const char *, const char **, const char **)); +static bfd_boolean parse_precond + PARAMS ((const char *, precond_e *)); +static bfd_boolean parse_constant + PARAMS ((const char *, unsigned *)); +static bfd_boolean parse_id_constant + PARAMS ((const char *, const char *, unsigned *)); + +/* Transition table building code. */ + +static TransitionRule *build_transition + PARAMS ((insn_pattern *, insn_repl *, const char *, const char *)); +static TransitionTable *build_transition_table + PARAMS ((const string_pattern_pair *, size_t)); + + +void +append_transition (tt, opcode, t) + TransitionTable *tt; + xtensa_opcode opcode; + TransitionRule *t; +{ + TransitionList *tl = (TransitionList *) xmalloc (sizeof (TransitionList)); + TransitionList *prev; + TransitionList *nxt; + assert (tt != NULL); + assert (opcode < tt->num_opcodes); + + prev = tt->table[opcode]; + tl->rule = t; + tl->next = NULL; + if (prev == NULL) + { + tt->table[opcode] = tl; + return; + } + nxt = prev->next; + while (nxt != NULL) + { + prev = nxt; + nxt = nxt->next; + } + prev->next = tl; + return; +} + + +void +append_condition (tr, cond) + TransitionRule *tr; + Precondition *cond; +{ + PreconditionList *pl = + (PreconditionList *) xmalloc (sizeof (PreconditionList)); + PreconditionList *prev = tr->conditions; + PreconditionList *nxt; + + pl->precond = cond; + pl->next = NULL; + if (prev == NULL) + { + tr->conditions = pl; + return; + } + nxt = prev->next; + while (nxt != NULL) + { + prev = nxt; + nxt = nxt->next; + } + prev->next = pl; +} + + +void +append_value_condition (tr, cmp, op1, op2) + TransitionRule *tr; + CmpOp cmp; + unsigned op1; + unsigned op2; +{ + Precondition *cond = (Precondition *) xmalloc (sizeof (Precondition)); + + cond->cmp = cmp; + cond->op_num = op1; + cond->typ = OP_OPERAND; + cond->op_data = op2; + append_condition (tr, cond); +} + + +void +append_constant_value_condition (tr, cmp, op1, cnst) + TransitionRule *tr; + CmpOp cmp; + unsigned op1; + unsigned cnst; +{ + Precondition *cond = (Precondition *) xmalloc (sizeof (Precondition)); + + cond->cmp = cmp; + cond->op_num = op1; + cond->typ = OP_CONSTANT; + cond->op_data = cnst; + append_condition (tr, cond); +} + + +void +append_build_insn (tr, bi) + TransitionRule *tr; + BuildInstr *bi; +{ + BuildInstr *prev = tr->to_instr; + BuildInstr *nxt; + + bi->next = NULL; + if (prev == NULL) + { + tr->to_instr = bi; + return; + } + nxt = prev->next; + while (nxt != 0) + { + prev = nxt; + nxt = prev->next; + } + prev->next = bi; +} + + +void +append_op (bi, b_op) + BuildInstr *bi; + BuildOp *b_op; +{ + BuildOp *prev = bi->ops; + BuildOp *nxt; + + if (prev == NULL) + { + bi->ops = b_op; + return; + } + nxt = prev->next; + while (nxt != NULL) + { + prev = nxt; + nxt = nxt->next; + } + prev->next = b_op; +} + + +void +append_literal_op (bi, op1, litnum) + BuildInstr *bi; + unsigned op1; + unsigned litnum; +{ + BuildOp *b_op = (BuildOp *) xmalloc (sizeof (BuildOp)); + + b_op->op_num = op1; + b_op->typ = OP_LITERAL; + b_op->op_data = litnum; + b_op->next = NULL; + append_op (bi, b_op); +} + + +void +append_label_op (bi, op1, labnum) + BuildInstr *bi; + unsigned op1; + unsigned labnum; +{ + BuildOp *b_op = (BuildOp *) xmalloc (sizeof (BuildOp)); + + b_op->op_num = op1; + b_op->typ = OP_LABEL; + b_op->op_data = labnum; + b_op->next = NULL; + append_op (bi, b_op); +} + + +void +append_constant_op (bi, op1, cnst) + BuildInstr *bi; + unsigned op1; + unsigned cnst; +{ + BuildOp *b_op = (BuildOp *) xmalloc (sizeof (BuildOp)); + + b_op->op_num = op1; + b_op->typ = OP_CONSTANT; + b_op->op_data = cnst; + b_op->next = NULL; + append_op (bi, b_op); +} + + +void +append_field_op (bi, op1, src_op) + BuildInstr *bi; + unsigned op1; + unsigned src_op; +{ + BuildOp *b_op = (BuildOp *) xmalloc (sizeof (BuildOp)); + + b_op->op_num = op1; + b_op->typ = OP_OPERAND; + b_op->op_data = src_op; + b_op->next = NULL; + append_op (bi, b_op); +} + + +/* These could be generated but are not currently. */ + +void +append_user_fn_field_op (bi, op1, typ, src_op) + BuildInstr *bi; + unsigned op1; + OpType typ; + unsigned src_op; +{ + BuildOp *b_op = (BuildOp *) xmalloc (sizeof (BuildOp)); + + b_op->op_num = op1; + b_op->typ = typ; + b_op->op_data = src_op; + b_op->next = NULL; + append_op (bi, b_op); +} + + +/* These operand functions are the semantics of user-defined + operand functions. */ + +long +operand_function_HI24S (a) + long a; +{ + if (a & 0x80) + return (a & (~0xff)) + 0x100; + else + return (a & (~0xff)); +} + + +long +operand_function_F32MINUS (a) + long a; +{ + return (32 - a); +} + + +long +operand_function_LOW8 (a) + long a; +{ + if (a & 0x80) + return (a & 0xff) | ~0xff; + else + return (a & 0xff); +} + + +bfd_boolean +xg_has_userdef_op_fn (op) + OpType op; +{ + switch (op) + { + case OP_OPERAND_F32MINUS: + case OP_OPERAND_LOW8: + case OP_OPERAND_HI24S: + return TRUE; + default: + break; + } + return FALSE; +} + + +long +xg_apply_userdef_op_fn (op, a) + OpType op; + long a; +{ + switch (op) + { + case OP_OPERAND_F32MINUS: + return operand_function_F32MINUS (a); + case OP_OPERAND_LOW8: + return operand_function_LOW8 (a); + case OP_OPERAND_HI24S: + return operand_function_HI24S (a); + default: + break; + } + return FALSE; +} + + +/* Generate a transition table. */ + +const char * +enter_opname_n (name, len) + const char *name; + size_t len; +{ + opname_e *op; + + for (op = local_opnames; op != NULL; op = op->next) + { + if (strlen (op->opname) == len && strncmp (op->opname, name, len) == 0) + return op->opname; + } + op = (opname_e *) xmalloc (sizeof (opname_e)); + op->opname = (char *) xmalloc (len + 1); + strncpy (op->opname, name, len); + op->opname[len] = '\0'; + return op->opname; +} + + +static const char * +enter_opname (name) + const char *name; +{ + opname_e *op; + + for (op = local_opnames; op != NULL; op = op->next) + { + if (strcmp (op->opname, name) == 0) + return op->opname; + } + op = (opname_e *) xmalloc (sizeof (opname_e)); + op->opname = strdup (name); + return op->opname; +} + + +void +init_opname_map (m) + opname_map *m; +{ + m->head = NULL; + m->tail = &m->head; +} + + +void +clear_opname_map (m) + opname_map *m; +{ + opname_map_e *e; + + while (m->head != NULL) + { + e = m->head; + m->head = e->next; + free (e); + } + m->tail = &m->head; +} + + +static bfd_boolean +same_operand_name (m1, m2) + const opname_map_e *m1; + const opname_map_e *m2; +{ + if (m1->operand_name == NULL || m1->operand_name == NULL) + return FALSE; + return (m1->operand_name == m2->operand_name); +} + + +opname_map_e * +get_opmatch (map, operand_name) + opname_map *map; + const char *operand_name; +{ + opname_map_e *m; + + for (m = map->head; m != NULL; m = m->next) + { + if (strcmp (m->operand_name, operand_name) == 0) + return m; + } + return NULL; +} + + +bfd_boolean +op_is_constant (m1) + const opname_map_e *m1; +{ + return (m1->operand_name == NULL); +} + + +static unsigned +op_get_constant (m1) + const opname_map_e *m1; +{ + assert (m1->operand_name == NULL); + return m1->constant_value; +} + + +void +init_precond_list (l) + precond_list *l; +{ + l->head = NULL; + l->tail = &l->head; +} + + +void +clear_precond_list (l) + precond_list *l; +{ + precond_e *e; + + while (l->head != NULL) + { + e = l->head; + l->head = e->next; + free (e); + } + l->tail = &l->head; +} + + +void +init_insn_templ (t) + insn_templ *t; +{ + t->opcode_name = NULL; + init_opname_map (&t->operand_map); +} + + +void +clear_insn_templ (t) + insn_templ *t; +{ + clear_opname_map (&t->operand_map); +} + + +void +init_insn_pattern (p) + insn_pattern *p; +{ + init_insn_templ (&p->t); + init_precond_list (&p->preconds); +} + + +void +clear_insn_pattern (p) + insn_pattern *p; +{ + clear_insn_templ (&p->t); + clear_precond_list (&p->preconds); +} + + +void +init_insn_repl (r) + insn_repl *r; +{ + r->head = NULL; + r->tail = &r->head; +} + + +void +clear_insn_repl (r) + insn_repl *r; +{ + insn_repl_e *e; + + while (r->head != NULL) + { + e = r->head; + r->head = e->next; + clear_insn_templ (&e->t); + } + r->tail = &r->head; +} + + +static size_t +insn_templ_operand_count (t) + const insn_templ *t; +{ + size_t i = 0; + const opname_map_e *op; + + for (op = t->operand_map.head; op != NULL; op = op->next, ++i) + ; + return i; +} + + +/* Convert a string to a number. E.G.: parse_constant("10", &num) */ + +bfd_boolean +parse_constant (in, val_p) + const char *in; + unsigned *val_p; +{ + unsigned val = 0; + const char *p; + + if (in == NULL) + return FALSE; + p = in; + + while (*p != '\0') + { + if (*p >= '0' && *p <= '9') + val = val * 10 + (*p - '0'); + else + return FALSE; + ++p; + } + *val_p = val; + return TRUE; +} + + +/* Match a pattern like "foo1" with + parse_id_constant("foo1", "foo", &num). + This may also be used to just match a number. */ + +bfd_boolean +parse_id_constant (in, name, val_p) + const char *in; + const char *name; + unsigned *val_p; +{ + unsigned namelen = 0; + const char *p; + + if (in == NULL) + return FALSE; + + if (name != NULL) + namelen = strlen (name); + + if (name != NULL && strncmp (in, name, namelen) != 0) + return FALSE; + + p = &in[namelen]; + return parse_constant (p, val_p); +} + + +static bfd_boolean +parse_special_fn (name, fn_name_p, arg_name_p) + const char *name; + const char **fn_name_p; + const char **arg_name_p; +{ + char *p_start; + const char *p_end; + + p_start = strchr (name, '('); + if (p_start == NULL) + return FALSE; + + p_end = strchr (p_start, ')'); + + if (p_end == NULL) + return FALSE; + + if (p_end[1] != '\0') + return FALSE; + + *fn_name_p = enter_opname_n (name, p_start - name); + *arg_name_p = enter_opname_n (p_start + 1, p_end - p_start - 1); + return TRUE; +} + + +const char * +skip_white (p) + const char *p; +{ + if (p == NULL) + return p; + while (*p == ' ') + ++p; + return p; +} + + +void +trim_whitespace (in) + char *in; +{ + char *last_white = NULL; + char *p = in; + + while (p && *p != '\0') + { + while (*p == ' ') + { + if (last_white == NULL) + last_white = p; + p++; + } + if (*p != '\0') + { + last_white = NULL; + p++; + } + } + if (last_white) + *last_white = '\0'; +} + + +/* Split a string into component strings where "c" is the + delimiter. Place the result in the split_rec. */ + +void +split_string (rec, in, c, elide_whitespace) + split_rec *rec; + const char *in; + char c; + bfd_boolean elide_whitespace; +{ + size_t cnt = 0; + size_t i; + const char *p = in; + + while (p != NULL && *p != '\0') + { + cnt++; + p = strchr (p, c); + if (p) + p++; + } + rec->count = cnt; + rec->vec = NULL; + + if (rec->count == 0) + return; + + rec->vec = (char **) xmalloc (sizeof (char *) * cnt); + for (i = 0; i < cnt; i++) + rec->vec[i] = 0; + + p = in; + for (i = 0; i < cnt; i++) + { + const char *q; + size_t len; + + q = p; + if (elide_whitespace) + q = skip_white (q); + + p = strchr (q, c); + if (p == NULL) + rec->vec[i] = strdup (q); + else + { + len = p - q; + rec->vec[i] = (char *) xmalloc (sizeof (char) * (len + 1)); + strncpy (rec->vec[i], q, len); + rec->vec[i][len] = '\0'; + p++; + } + + if (elide_whitespace) + trim_whitespace (rec->vec[i]); + } +} + + +void +clear_split_rec (rec) + split_rec *rec; +{ + size_t i; + + for (i = 0; i < rec->count; ++i) + free (rec->vec[i]); + + if (rec->count > 0) + free (rec->vec); +} + + +void +init_split_rec (rec) + split_rec *rec; +{ + rec->vec = NULL; + rec->count = 0; +} + + +/* Parse an instruction template like "insn op1, op2, op3". */ + +bfd_boolean +parse_insn_templ (s, t) + const char *s; + insn_templ *t; +{ + const char *p = s; + /* First find the first whitespace. */ + size_t insn_name_len; + split_rec oprec; + size_t i; + + init_split_rec (&oprec); + + p = skip_white (p); + insn_name_len = strcspn (s, " "); + if (insn_name_len == 0) + return FALSE; + + init_insn_templ (t); + t->opcode_name = enter_opname_n (p, insn_name_len); + + p = p + insn_name_len; + + /* Split by ',' and skip beginning and trailing whitespace. */ + split_string (&oprec, p, ',', TRUE); + + for (i = 0; i < oprec.count; i++) + { + const char *opname = oprec.vec[i]; + opname_map_e *e = (opname_map_e *) xmalloc (sizeof (opname_map_e)); + e->next = NULL; + e->operand_name = NULL; + e->constant_value = 0; + e->operand_num = i; + + /* If it begins with a number, assume that it is a number. */ + if (opname && opname[0] >= '0' && opname[0] <= '9') + { + unsigned val; + + if (parse_constant (opname, &val)) + e->constant_value = val; + else + { + free (e); + clear_split_rec (&oprec); + clear_insn_templ (t); + return FALSE; + } + } + else + e->operand_name = enter_opname (oprec.vec[i]); + + *t->operand_map.tail = e; + t->operand_map.tail = &e->next; + } + clear_split_rec (&oprec); + return TRUE; +} + + +bfd_boolean +parse_precond (s, precond) + const char *s; + precond_e *precond; +{ + /* All preconditions are currently of the form: + a == b or a != b or a == k (where k is a constant). + Later we may use some special functions like DENSITY == 1 + to identify when density is available. */ + + const char *p = s; + size_t len; + precond->opname1 = NULL; + precond->opval1 = 0; + precond->cmpop = OP_EQUAL; + precond->opname2 = NULL; + precond->opval2 = 0; + precond->next = NULL; + + p = skip_white (p); + + len = strcspn (p, " !="); + + if (len == 0) + return FALSE; + + precond->opname1 = enter_opname_n (p, len); + p = p + len; + p = skip_white (p); + + /* Check for "==" and "!=". */ + if (strncmp (p, "==", 2) == 0) + precond->cmpop = OP_EQUAL; + else if (strncmp (p, "!=", 2) == 0) + precond->cmpop = OP_NOTEQUAL; + else + return FALSE; + + p = p + 2; + p = skip_white (p); + + /* No trailing whitespace from earlier parsing. */ + if (p[0] >= '0' && p[0] <= '9') + { + unsigned val; + if (parse_constant (p, &val)) + precond->opval2 = val; + else + return FALSE; + } + else + precond->opname2 = enter_opname (p); + return TRUE; +} + + +/* Parse a string like: + "insn op1, op2, op3, op4 | op1 != op2 | op2 == op3 | op4 == 1". + I.E., instruction "insn" with 4 operands where operand 1 and 2 are not + the same and operand 2 and 3 are the same and operand 4 is 1. */ + +bfd_boolean +parse_insn_pattern (in, insn) + const char *in; + insn_pattern *insn; +{ + + split_rec rec; + size_t i; + + init_split_rec (&rec); + init_insn_pattern (insn); + + split_string (&rec, in, '|', TRUE); + + if (rec.count == 0) + { + clear_split_rec (&rec); + return FALSE; + } + + if (!parse_insn_templ (rec.vec[0], &insn->t)) + { + clear_split_rec (&rec); + return FALSE; + } + + for (i = 1; i < rec.count; i++) + { + precond_e *cond = (precond_e *) xmalloc (sizeof (precond_e)); + + if (!parse_precond (rec.vec[i], cond)) + { + clear_split_rec (&rec); + clear_insn_pattern (insn); + return FALSE; + } + + /* Append the condition. */ + *insn->preconds.tail = cond; + insn->preconds.tail = &cond->next; + } + + clear_split_rec (&rec); + return TRUE; +} + + +bfd_boolean +parse_insn_repl (in, r_p) + const char *in; + insn_repl *r_p; +{ + /* This is a list of instruction templates separated by ';'. */ + split_rec rec; + size_t i; + + split_string (&rec, in, ';', TRUE); + + for (i = 0; i < rec.count; i++) + { + insn_repl_e *e = (insn_repl_e *) xmalloc (sizeof (insn_repl_e)); + + e->next = NULL; + + if (!parse_insn_templ (rec.vec[i], &e->t)) + { + free (e); + clear_insn_repl (r_p); + return FALSE; + } + *r_p->tail = e; + r_p->tail = &e->next; + } + return TRUE; +} + + +TransitionRule * +build_transition (initial_insn, replace_insns, from_string, to_string) + insn_pattern *initial_insn; + insn_repl *replace_insns; + const char *from_string; + const char *to_string; +{ + TransitionRule *tr = NULL; + xtensa_opcode opcode; + xtensa_isa isa = xtensa_default_isa; + + opname_map_e *op1; + opname_map_e *op2; + + precond_e *precond; + insn_repl_e *r; + unsigned label_count = 0; + unsigned max_label_count = 0; + bfd_boolean has_label = FALSE; + unsigned literal_count = 0; + + opcode = xtensa_opcode_lookup (isa, initial_insn->t.opcode_name); + if (opcode == XTENSA_UNDEFINED) + { + /* It is OK to not be able to translate some of these opcodes. */ +#if 0 + as_warn (_("Invalid opcode '%s' in transition rule '%s'\n"), + initial_insn->t.opcode_name, to_string); +#endif + return NULL; + } + + + if (xtensa_num_operands (isa, opcode) + != (int) insn_templ_operand_count (&initial_insn->t)) + { + /* This is also OK because there are opcodes that + have different numbers of operands on different + architecture variations. */ +#if 0 + as_fatal (_("opcode %s mismatched operand count %d != expected %d"), + xtensa_opcode_name (isa, opcode), + xtensa_num_operands (isa, opcode), + insn_templ_operand_count (&initial_insn->t)); +#endif + return NULL; + } + + tr = (TransitionRule *) xmalloc (sizeof (TransitionRule)); + tr->opcode = opcode; + tr->conditions = NULL; + tr->to_instr = NULL; + + /* Build the conditions. First, equivalent operand condition.... */ + for (op1 = initial_insn->t.operand_map.head; op1 != NULL; op1 = op1->next) + { + for (op2 = op1->next; op2 != NULL; op2 = op2->next) + { + if (same_operand_name (op1, op2)) + { + append_value_condition (tr, OP_EQUAL, + op1->operand_num, op2->operand_num); + } + } + } + + /* Now the condition that an operand value must be a constant.... */ + for (op1 = initial_insn->t.operand_map.head; op1 != NULL; op1 = op1->next) + { + if (op_is_constant (op1)) + { + append_constant_value_condition (tr, + OP_EQUAL, + op1->operand_num, + op_get_constant (op1)); + } + } + + + /* Now add the explicit preconditions listed after the "|" in the spec. + These are currently very limited, so we do a special case + parse for them. We expect spaces, opname != opname. */ + for (precond = initial_insn->preconds.head; + precond != NULL; + precond = precond->next) + { + op1 = NULL; + op2 = NULL; + + if (precond->opname1) + { + op1 = get_opmatch (&initial_insn->t.operand_map, precond->opname1); + if (op1 == NULL) + { + as_fatal (_("opcode '%s': no bound opname '%s' " + "for precondition in '%s'"), + xtensa_opcode_name (isa, opcode), + precond->opname1, from_string); + return NULL; + } + } + + if (precond->opname2) + { + op2 = get_opmatch (&initial_insn->t.operand_map, precond->opname2); + if (op2 == NULL) + { + as_fatal (_("opcode '%s': no bound opname '%s' " + "for precondition in %s"), + xtensa_opcode_name (isa, opcode), + precond->opname2, from_string); + return NULL; + } + } + + if (op1 == NULL && op2 == NULL) + { + as_fatal (_("opcode '%s': precondition only contains " + "constants in '%s'"), + xtensa_opcode_name (isa, opcode), from_string); + return NULL; + } + else if (op1 != NULL && op2 != NULL) + append_value_condition (tr, precond->cmpop, + op1->operand_num, op2->operand_num); + else if (op2 == NULL) + append_constant_value_condition (tr, precond->cmpop, + op1->operand_num, precond->opval1); + else + append_constant_value_condition (tr, precond->cmpop, + op2->operand_num, precond->opval2); + } + + /* Generate the replacement instructions. Some of these + "instructions" are actually labels and literals. The literals + must be defined in order 0..n and a literal must be defined + (e.g., "LITERAL0 %imm") before use (e.g., "%LITERAL0"). The + labels must be defined in order, but they can be used before they + are defined. Also there are a number of special operands (e.g., + HI24S). */ + + for (r = replace_insns->head; r != NULL; r = r->next) + { + BuildInstr *bi; + const char *opcode_name; + size_t operand_count; + opname_map_e *op; + unsigned idnum = 0; + const char *fn_name; + const char *operand_arg_name; + + bi = (BuildInstr *) xmalloc (sizeof (BuildInstr)); + append_build_insn (tr, bi); + + bi->id = 0; + bi->opcode = XTENSA_UNDEFINED; + bi->ops = NULL; + bi->next = NULL; + + opcode_name = r->t.opcode_name; + operand_count = insn_templ_operand_count (&r->t); + + if (parse_id_constant (opcode_name, "LITERAL", &idnum)) + { + bi->typ = INSTR_LITERAL_DEF; + bi->id = idnum; + if (idnum != literal_count) + as_fatal (_("generated literals must be numbered consecutively")); + ++literal_count; + if (operand_count != 1) + as_fatal (_("expected one operand for generated literal")); + + } + else if (parse_id_constant (opcode_name, "LABEL", &idnum)) + { + bi->typ = INSTR_LABEL_DEF; + bi->id = idnum; + if (idnum != label_count) + as_fatal (_("generated labels must be numbered consecutively")); + ++label_count; + if (operand_count != 0) + as_fatal (_("expected 0 operands for generated label")); + } + else + { + bi->typ = INSTR_INSTR; + bi->opcode = xtensa_opcode_lookup (isa, r->t.opcode_name); + if (bi->opcode == XTENSA_UNDEFINED) + return NULL; + /* Check for the right number of ops. */ + if (xtensa_num_operands (isa, bi->opcode) + != (int) operand_count) + as_fatal (_("opcode '%s': replacement does not have %d ops"), + opcode_name, xtensa_num_operands (isa, bi->opcode)); + } + + for (op = r->t.operand_map.head; op != NULL; op = op->next) + { + unsigned idnum; + + if (op_is_constant (op)) + append_constant_op (bi, op->operand_num, op_get_constant (op)); + else if (parse_id_constant (op->operand_name, "%LITERAL", &idnum)) + { + if (idnum >= literal_count) + as_fatal (_("opcode %s: replacement " + "literal %d >= literal_count(%d)"), + opcode_name, idnum, literal_count); + append_literal_op (bi, op->operand_num, idnum); + } + else if (parse_id_constant (op->operand_name, "%LABEL", &idnum)) + { + has_label = TRUE; + if (idnum > max_label_count) + max_label_count = idnum; + append_label_op (bi, op->operand_num, idnum); + } + else if (parse_id_constant (op->operand_name, "a", &idnum)) + append_constant_op (bi, op->operand_num, idnum); + else if (op->operand_name[0] == '%') + { + opname_map_e *orig_op; + orig_op = get_opmatch (&initial_insn->t.operand_map, + op->operand_name); + if (orig_op == NULL) + { + as_fatal (_("opcode %s: unidentified operand '%s' in '%s'"), + opcode_name, op->operand_name, to_string); + + append_constant_op (bi, op->operand_num, 0); + } + else + append_field_op (bi, op->operand_num, orig_op->operand_num); + } + else if (parse_special_fn (op->operand_name, + &fn_name, &operand_arg_name)) + { + opname_map_e *orig_op; + OpType typ = OP_CONSTANT; + + if (strcmp (fn_name, "LOW8") == 0) + typ = OP_OPERAND_LOW8; + else if (strcmp (fn_name, "HI24S") == 0) + typ = OP_OPERAND_HI24S; + else if (strcmp (fn_name, "F32MINUS") == 0) + typ = OP_OPERAND_F32MINUS; + else + as_fatal (_("unknown user defined function %s"), fn_name); + + orig_op = get_opmatch (&initial_insn->t.operand_map, + operand_arg_name); + if (orig_op == NULL) + { + as_fatal (_("opcode %s: unidentified operand '%s' in '%s'"), + opcode_name, op->operand_name, to_string); + append_constant_op (bi, op->operand_num, 0); + } + else + append_user_fn_field_op (bi, op->operand_num, + typ, orig_op->operand_num); + } + else + { + as_fatal (_("opcode %s: could not parse operand '%s' in '%s'"), + opcode_name, op->operand_name, to_string); + append_constant_op (bi, op->operand_num, 0); + } + } + } + if (has_label && max_label_count >= label_count) + { + as_fatal (_("opcode %s: replacement label %d >= label_count(%d)"), + xtensa_opcode_name (isa, opcode), + max_label_count, label_count); + return NULL; + } + + return tr; +} + + +TransitionTable * +build_transition_table (transitions, transition_count) + const string_pattern_pair *transitions; + size_t transition_count; +{ + TransitionTable *table = NULL; + int num_opcodes = xtensa_num_opcodes (xtensa_default_isa); + int i; + size_t tnum; + + if (table != NULL) + return table; + + /* Otherwise, build it now. */ + table = (TransitionTable *) xmalloc (sizeof (TransitionTable)); + table->num_opcodes = num_opcodes; + table->table = + (TransitionList **) xmalloc (sizeof (TransitionTable *) * num_opcodes); + + for (i = 0; i < num_opcodes; i++) + table->table[i] = NULL; + + for (tnum = 0; tnum < transition_count; tnum++) + { + const char *from_string = transitions[tnum].pattern; + const char *to_string = transitions[tnum].replacement; + + insn_pattern initial_insn; + insn_repl replace_insns; + TransitionRule *tr; + + init_insn_pattern (&initial_insn); + if (!parse_insn_pattern (from_string, &initial_insn)) + { + as_fatal (_("could not parse INSN_PATTERN '%s'"), from_string); + clear_insn_pattern (&initial_insn); + continue; + } + + init_insn_repl (&replace_insns); + if (!parse_insn_repl (to_string, &replace_insns)) + { + as_fatal (_("could not parse INSN_REPL '%s'"), to_string); + clear_insn_pattern (&initial_insn); + clear_insn_repl (&replace_insns); + continue; + } + + tr = build_transition (&initial_insn, &replace_insns, + from_string, to_string); + if (tr) + append_transition (table, tr->opcode, tr); + + clear_insn_repl (&replace_insns); + clear_insn_pattern (&initial_insn); + } + return table; +} + + +extern TransitionTable * +xg_build_widen_table () +{ + static TransitionTable *table = NULL; + if (table == NULL) + table = build_transition_table (widen_spec_list, WIDEN_COUNT); + return table; +} + + +extern TransitionTable * +xg_build_simplify_table () +{ + static TransitionTable *table = NULL; + if (table == NULL) + table = build_transition_table (simplify_spec_list, SIMPLIFY_COUNT); + return table; +} diff --git a/gas/config/xtensa-relax.h b/gas/config/xtensa-relax.h new file mode 100644 index 0000000..99bf77b --- /dev/null +++ b/gas/config/xtensa-relax.h @@ -0,0 +1,142 @@ +/* Table of relaxations for Xtensa assembly. + Copyright 2003 Free Software Foundation, Inc. + + 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 2, 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, 59 Temple Place - Suite 330, Boston, + MA 02111-1307, USA. */ + +#ifndef XTENSA_RELAX_H +#define XTENSA_RELAX_H + +#include "xtensa-isa.h" + + +/* Data structures for the table-driven relaxations for Xtensa processors. + See xtensa-relax.c for details. */ + +typedef struct transition_list TransitionList; +typedef struct transition_table TransitionTable; +typedef struct transition_rule TransitionRule; +typedef struct precondition_list PreconditionList; +typedef struct precondition Precondition; + +struct transition_table +{ + int num_opcodes; + TransitionList **table; /* Possible transitions for each opcode. */ +}; + +struct transition_list +{ + TransitionRule *rule; + TransitionList *next; +}; + +struct precondition_list +{ + Precondition *precond; + PreconditionList *next; +}; + + +/* Operand types and constraints on operands: */ + +typedef enum op_type OpType; +typedef enum cmp_op CmpOp; + +enum op_type +{ + OP_CONSTANT, + OP_OPERAND, + OP_OPERAND_LOW8, /* Sign-extended low 8 bits of immed. */ + OP_OPERAND_HI24S, /* high 24 bits of immed, + plus 0x100 if low 8 bits are signed. */ + OP_OPERAND_F32MINUS, /* 32 - immed. */ + OP_LITERAL, + OP_LABEL +}; + +enum cmp_op +{ + OP_EQUAL, + OP_NOTEQUAL, +}; + +struct precondition +{ + CmpOp cmp; + int op_num; + OpType typ; /* CONSTANT: op_data is a constant. + OPERAND: operand op_num must equal op_data. + Cannot be LITERAL or LABEL. */ + int op_data; +}; + +typedef struct build_op BuildOp; + +struct build_op +{ + int op_num; + OpType typ; + unsigned op_data; /* CONSTANT: op_data is the value to encode. + OPERAND: op_data is the field in the + source instruction to take the value from + and encode in the op_num field here. + LITERAL or LABEL: op_data is the ordinal + that identifies the appropriate one, i.e., + there can be more than one literal or + label in an expansion. */ + BuildOp *next; +}; + +typedef struct build_instr BuildInstr; +typedef enum instr_type InstrType; + +enum instr_type +{ + INSTR_INSTR, + INSTR_LITERAL_DEF, + INSTR_LABEL_DEF +}; + +struct build_instr +{ + InstrType typ; + unsigned id; /* LITERAL_DEF or LABEL_DEF: an ordinal to + identify which one. */ + xtensa_opcode opcode; /* unused for LITERAL_DEF or LABEL_DEF. */ + BuildOp *ops; + BuildInstr *next; +}; + +struct transition_rule +{ + xtensa_opcode opcode; + PreconditionList *conditions; + BuildInstr *to_instr; +}; + +extern TransitionTable *xg_build_simplify_table + PARAMS ((void)); +extern TransitionTable *xg_build_widen_table + PARAMS ((void)); + +extern bfd_boolean xg_has_userdef_op_fn + PARAMS ((OpType)); +extern long xg_apply_userdef_op_fn + PARAMS ((OpType, long)); + +#endif /* !XTENSA_RELAX_H */ diff --git a/gas/configure b/gas/configure index 3ea803b..10989f7 100755 --- a/gas/configure +++ b/gas/configure @@ -1989,6 +1989,19 @@ case $host in # Find out which ABI we are using. echo '#line 1991 "configure"' > conftest.$ac_ext if { (eval echo configure:1992: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then + if test "$lt_cv_prog_gnu_ld" = yes; then + case `/usr/bin/file conftest.$ac_objext` in + *32-bit*) + LD="${LD-ld} -melf32bsmip" + ;; + *N32*) + LD="${LD-ld} -melf32bmipn32" + ;; + *64-bit*) + LD="${LD-ld} -melf64bmip" + ;; + esac + else case `/usr/bin/file conftest.$ac_objext` in *32-bit*) LD="${LD-ld} -32" @@ -2000,6 +2013,7 @@ case $host in LD="${LD-ld} -64" ;; esac + fi fi rm -rf conftest* ;; @@ -2007,7 +2021,7 @@ case $host in ia64-*-hpux*) # Find out which ABI we are using. echo 'int i;' > conftest.$ac_ext - if { (eval echo configure:2011: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then + if { (eval echo configure:2025: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then case "`/usr/bin/file conftest.o`" in *ELF-32*) HPUX_IA64_MODE="32" @@ -2025,7 +2039,7 @@ ia64-*-hpux*) SAVE_CFLAGS="$CFLAGS" CFLAGS="$CFLAGS -belf" echo $ac_n "checking whether the C compiler needs -belf""... $ac_c" 1>&6 -echo "configure:2029: checking whether the C compiler needs -belf" >&5 +echo "configure:2043: checking whether the C compiler needs -belf" >&5 if eval "test \"`echo '$''{'lt_cv_cc_needs_belf'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -2038,14 +2052,14 @@ ac_link='${CC-cc} -o conftest${ac_exeext} $CFLAGS $CPPFLAGS $LDFLAGS conftest.$a cross_compiling=$ac_cv_prog_cc_cross cat > conftest.$ac_ext <<EOF -#line 2042 "configure" +#line 2056 "configure" #include "confdefs.h" int main() { ; return 0; } EOF -if { (eval echo configure:2049: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:2063: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* lt_cv_cc_needs_belf=yes else @@ -2314,6 +2328,7 @@ for this_target in $target $canon_targets ; do sparc86x*) cpu_type=sparc arch=sparc86x ;; sparc*) cpu_type=sparc arch=sparclite ;; # ??? See tc-sparc.c. v850*) cpu_type=v850 ;; + xtensa*) cpu_type=xtensa arch=xtensa ;; *) cpu_type=${cpu} ;; esac @@ -2649,6 +2664,8 @@ EOF xstormy16-*-*) fmt=elf ;; + xtensa-*-*) fmt=elf ;; + z8k-*-coff | z8k-*-sim) fmt=coff ;; *-*-aout | *-*-scout) fmt=aout ;; @@ -2822,6 +2839,13 @@ EOF using_cgen=yes ;; + xtensa) + echo ${extra_objects} | grep -s "xtensa-relax.o" + if test $? -ne 0 ; then + extra_objects="$extra_objects xtensa-relax.o" + fi + ;; + *) ;; esac @@ -3201,7 +3225,7 @@ EOF # Extract the first word of "gcc", so it can be a program name with args. set dummy gcc; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:3205: checking for $ac_word" >&5 +echo "configure:3229: checking for $ac_word" >&5 if eval "test \"`echo '$''{'ac_cv_prog_CC'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -3231,7 +3255,7 @@ if test -z "$CC"; then # Extract the first word of "cc", so it can be a program name with args. set dummy cc; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:3235: checking for $ac_word" >&5 +echo "configure:3259: checking for $ac_word" >&5 if eval "test \"`echo '$''{'ac_cv_prog_CC'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -3282,7 +3306,7 @@ fi # Extract the first word of "cl", so it can be a program name with args. set dummy cl; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:3286: checking for $ac_word" >&5 +echo "configure:3310: checking for $ac_word" >&5 if eval "test \"`echo '$''{'ac_cv_prog_CC'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -3314,7 +3338,7 @@ fi fi echo $ac_n "checking whether the C compiler ($CC $CFLAGS $LDFLAGS) works""... $ac_c" 1>&6 -echo "configure:3318: checking whether the C compiler ($CC $CFLAGS $LDFLAGS) works" >&5 +echo "configure:3342: checking whether the C compiler ($CC $CFLAGS $LDFLAGS) works" >&5 ac_ext=c # CFLAGS is not in ac_cpp because -g, -O, etc. are not valid cpp options. @@ -3325,12 +3349,12 @@ cross_compiling=$ac_cv_prog_cc_cross cat > conftest.$ac_ext << EOF -#line 3329 "configure" +#line 3353 "configure" #include "confdefs.h" main(){return(0);} EOF -if { (eval echo configure:3334: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:3358: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then ac_cv_prog_cc_works=yes # If we can't run a trivial program, we are probably using a cross compiler. if (./conftest; exit) 2>/dev/null; then @@ -3356,12 +3380,12 @@ if test $ac_cv_prog_cc_works = no; then { echo "configure: error: installation or configuration problem: C compiler cannot create executables." 1>&2; exit 1; } fi echo $ac_n "checking whether the C compiler ($CC $CFLAGS $LDFLAGS) is a cross-compiler""... $ac_c" 1>&6 -echo "configure:3360: checking whether the C compiler ($CC $CFLAGS $LDFLAGS) is a cross-compiler" >&5 +echo "configure:3384: checking whether the C compiler ($CC $CFLAGS $LDFLAGS) is a cross-compiler" >&5 echo "$ac_t""$ac_cv_prog_cc_cross" 1>&6 cross_compiling=$ac_cv_prog_cc_cross echo $ac_n "checking whether we are using GNU C""... $ac_c" 1>&6 -echo "configure:3365: checking whether we are using GNU C" >&5 +echo "configure:3389: checking whether we are using GNU C" >&5 if eval "test \"`echo '$''{'ac_cv_prog_gcc'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -3370,7 +3394,7 @@ else yes; #endif EOF -if { ac_try='${CC-cc} -E conftest.c'; { (eval echo configure:3374: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; }; } | egrep yes >/dev/null 2>&1; then +if { ac_try='${CC-cc} -E conftest.c'; { (eval echo configure:3398: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; }; } | egrep yes >/dev/null 2>&1; then ac_cv_prog_gcc=yes else ac_cv_prog_gcc=no @@ -3389,7 +3413,7 @@ ac_test_CFLAGS="${CFLAGS+set}" ac_save_CFLAGS="$CFLAGS" CFLAGS= echo $ac_n "checking whether ${CC-cc} accepts -g""... $ac_c" 1>&6 -echo "configure:3393: checking whether ${CC-cc} accepts -g" >&5 +echo "configure:3417: checking whether ${CC-cc} accepts -g" >&5 if eval "test \"`echo '$''{'ac_cv_prog_cc_g'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -3426,7 +3450,7 @@ do # Extract the first word of "$ac_prog", so it can be a program name with args. set dummy $ac_prog; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:3430: checking for $ac_word" >&5 +echo "configure:3454: checking for $ac_word" >&5 if eval "test \"`echo '$''{'ac_cv_prog_YACC'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -3457,7 +3481,7 @@ done test -n "$YACC" || YACC="yacc" echo $ac_n "checking how to run the C preprocessor""... $ac_c" 1>&6 -echo "configure:3461: checking how to run the C preprocessor" >&5 +echo "configure:3485: checking how to run the C preprocessor" >&5 # On Suns, sometimes $CPP names a directory. if test -n "$CPP" && test -d "$CPP"; then CPP= @@ -3472,13 +3496,13 @@ else # On the NeXT, cc -E runs the code through the compiler's parser, # not just through cpp. cat > conftest.$ac_ext <<EOF -#line 3476 "configure" +#line 3500 "configure" #include "confdefs.h" #include <assert.h> Syntax Error EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:3482: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:3506: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then : @@ -3489,13 +3513,13 @@ else rm -rf conftest* CPP="${CC-cc} -E -traditional-cpp" cat > conftest.$ac_ext <<EOF -#line 3493 "configure" +#line 3517 "configure" #include "confdefs.h" #include <assert.h> Syntax Error EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:3499: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:3523: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then : @@ -3506,13 +3530,13 @@ else rm -rf conftest* CPP="${CC-cc} -nologo -E" cat > conftest.$ac_ext <<EOF -#line 3510 "configure" +#line 3534 "configure" #include "confdefs.h" #include <assert.h> Syntax Error EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:3516: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:3540: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then : @@ -3542,7 +3566,7 @@ do # Extract the first word of "$ac_prog", so it can be a program name with args. set dummy $ac_prog; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:3546: checking for $ac_word" >&5 +echo "configure:3570: checking for $ac_word" >&5 if eval "test \"`echo '$''{'ac_cv_prog_LEX'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -3575,7 +3599,7 @@ test -n "$LEX" || LEX="$missing_dir/missing flex" # Extract the first word of "flex", so it can be a program name with args. set dummy flex; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:3579: checking for $ac_word" >&5 +echo "configure:3603: checking for $ac_word" >&5 if eval "test \"`echo '$''{'ac_cv_prog_LEX'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -3609,7 +3633,7 @@ then *) ac_lib=l ;; esac echo $ac_n "checking for yywrap in -l$ac_lib""... $ac_c" 1>&6 -echo "configure:3613: checking for yywrap in -l$ac_lib" >&5 +echo "configure:3637: checking for yywrap in -l$ac_lib" >&5 ac_lib_var=`echo $ac_lib'_'yywrap | sed 'y%./+-%__p_%'` if eval "test \"`echo '$''{'ac_cv_lib_$ac_lib_var'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 @@ -3617,7 +3641,7 @@ else ac_save_LIBS="$LIBS" LIBS="-l$ac_lib $LIBS" cat > conftest.$ac_ext <<EOF -#line 3621 "configure" +#line 3645 "configure" #include "confdefs.h" /* Override any gcc2 internal prototype to avoid an error. */ /* We use char because int might match the return type of a gcc2 @@ -3628,7 +3652,7 @@ int main() { yywrap() ; return 0; } EOF -if { (eval echo configure:3632: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:3656: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -3651,7 +3675,7 @@ fi fi echo $ac_n "checking lex output file root""... $ac_c" 1>&6 -echo "configure:3655: checking lex output file root" >&5 +echo "configure:3679: checking lex output file root" >&5 if eval "test \"`echo '$''{'ac_cv_prog_lex_root'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -3672,7 +3696,7 @@ echo "$ac_t""$ac_cv_prog_lex_root" 1>&6 LEX_OUTPUT_ROOT=$ac_cv_prog_lex_root echo $ac_n "checking whether yytext is a pointer""... $ac_c" 1>&6 -echo "configure:3676: checking whether yytext is a pointer" >&5 +echo "configure:3700: checking whether yytext is a pointer" >&5 if eval "test \"`echo '$''{'ac_cv_prog_lex_yytext_pointer'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -3684,14 +3708,14 @@ echo 'extern char *yytext;' >>$LEX_OUTPUT_ROOT.c ac_save_LIBS="$LIBS" LIBS="$LIBS $LEXLIB" cat > conftest.$ac_ext <<EOF -#line 3688 "configure" +#line 3712 "configure" #include "confdefs.h" `cat $LEX_OUTPUT_ROOT.c` int main() { ; return 0; } EOF -if { (eval echo configure:3695: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:3719: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* ac_cv_prog_lex_yytext_pointer=yes else @@ -3717,7 +3741,7 @@ ALL_LINGUAS="fr tr es" # Extract the first word of "ranlib", so it can be a program name with args. set dummy ranlib; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:3721: checking for $ac_word" >&5 +echo "configure:3745: checking for $ac_word" >&5 if eval "test \"`echo '$''{'ac_cv_prog_RANLIB'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -3745,12 +3769,12 @@ else fi echo $ac_n "checking for ANSI C header files""... $ac_c" 1>&6 -echo "configure:3749: checking for ANSI C header files" >&5 +echo "configure:3773: checking for ANSI C header files" >&5 if eval "test \"`echo '$''{'ac_cv_header_stdc'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 3754 "configure" +#line 3778 "configure" #include "confdefs.h" #include <stdlib.h> #include <stdarg.h> @@ -3758,7 +3782,7 @@ else #include <float.h> EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:3762: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:3786: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -3775,7 +3799,7 @@ rm -f conftest* if test $ac_cv_header_stdc = yes; then # SunOS 4.x string.h does not declare mem*, contrary to ANSI. cat > conftest.$ac_ext <<EOF -#line 3779 "configure" +#line 3803 "configure" #include "confdefs.h" #include <string.h> EOF @@ -3793,7 +3817,7 @@ fi if test $ac_cv_header_stdc = yes; then # ISC 2.0.2 stdlib.h does not declare free, contrary to ANSI. cat > conftest.$ac_ext <<EOF -#line 3797 "configure" +#line 3821 "configure" #include "confdefs.h" #include <stdlib.h> EOF @@ -3814,7 +3838,7 @@ if test "$cross_compiling" = yes; then : else cat > conftest.$ac_ext <<EOF -#line 3818 "configure" +#line 3842 "configure" #include "confdefs.h" #include <ctype.h> #define ISLOWER(c) ('a' <= (c) && (c) <= 'z') @@ -3825,7 +3849,7 @@ if (XOR (islower (i), ISLOWER (i)) || toupper (i) != TOUPPER (i)) exit(2); exit (0); } EOF -if { (eval echo configure:3829: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext} && (./conftest; exit) 2>/dev/null +if { (eval echo configure:3853: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext} && (./conftest; exit) 2>/dev/null then : else @@ -3849,12 +3873,12 @@ EOF fi echo $ac_n "checking for working const""... $ac_c" 1>&6 -echo "configure:3853: checking for working const" >&5 +echo "configure:3877: checking for working const" >&5 if eval "test \"`echo '$''{'ac_cv_c_const'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 3858 "configure" +#line 3882 "configure" #include "confdefs.h" int main() { @@ -3903,7 +3927,7 @@ ccp = (char const *const *) p; ; return 0; } EOF -if { (eval echo configure:3907: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:3931: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_c_const=yes else @@ -3924,21 +3948,21 @@ EOF fi echo $ac_n "checking for inline""... $ac_c" 1>&6 -echo "configure:3928: checking for inline" >&5 +echo "configure:3952: checking for inline" >&5 if eval "test \"`echo '$''{'ac_cv_c_inline'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else ac_cv_c_inline=no for ac_kw in inline __inline__ __inline; do cat > conftest.$ac_ext <<EOF -#line 3935 "configure" +#line 3959 "configure" #include "confdefs.h" int main() { } $ac_kw foo() { ; return 0; } EOF -if { (eval echo configure:3942: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:3966: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_c_inline=$ac_kw; break else @@ -3964,12 +3988,12 @@ EOF esac echo $ac_n "checking for off_t""... $ac_c" 1>&6 -echo "configure:3968: checking for off_t" >&5 +echo "configure:3992: checking for off_t" >&5 if eval "test \"`echo '$''{'ac_cv_type_off_t'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 3973 "configure" +#line 3997 "configure" #include "confdefs.h" #include <sys/types.h> #if STDC_HEADERS @@ -3997,12 +4021,12 @@ EOF fi echo $ac_n "checking for size_t""... $ac_c" 1>&6 -echo "configure:4001: checking for size_t" >&5 +echo "configure:4025: checking for size_t" >&5 if eval "test \"`echo '$''{'ac_cv_type_size_t'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4006 "configure" +#line 4030 "configure" #include "confdefs.h" #include <sys/types.h> #if STDC_HEADERS @@ -4032,19 +4056,19 @@ fi # The Ultrix 4.2 mips builtin alloca declared by alloca.h only works # for constant arguments. Useless! echo $ac_n "checking for working alloca.h""... $ac_c" 1>&6 -echo "configure:4036: checking for working alloca.h" >&5 +echo "configure:4060: checking for working alloca.h" >&5 if eval "test \"`echo '$''{'ac_cv_header_alloca_h'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4041 "configure" +#line 4065 "configure" #include "confdefs.h" #include <alloca.h> int main() { char *p = alloca(2 * sizeof(int)); ; return 0; } EOF -if { (eval echo configure:4048: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4072: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* ac_cv_header_alloca_h=yes else @@ -4065,12 +4089,12 @@ EOF fi echo $ac_n "checking for alloca""... $ac_c" 1>&6 -echo "configure:4069: checking for alloca" >&5 +echo "configure:4093: checking for alloca" >&5 if eval "test \"`echo '$''{'ac_cv_func_alloca_works'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4074 "configure" +#line 4098 "configure" #include "confdefs.h" #ifdef __GNUC__ @@ -4098,7 +4122,7 @@ int main() { char *p = (char *) alloca(1); ; return 0; } EOF -if { (eval echo configure:4102: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4126: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* ac_cv_func_alloca_works=yes else @@ -4130,12 +4154,12 @@ EOF echo $ac_n "checking whether alloca needs Cray hooks""... $ac_c" 1>&6 -echo "configure:4134: checking whether alloca needs Cray hooks" >&5 +echo "configure:4158: checking whether alloca needs Cray hooks" >&5 if eval "test \"`echo '$''{'ac_cv_os_cray'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4139 "configure" +#line 4163 "configure" #include "confdefs.h" #if defined(CRAY) && ! defined(CRAY2) webecray @@ -4160,12 +4184,12 @@ echo "$ac_t""$ac_cv_os_cray" 1>&6 if test $ac_cv_os_cray = yes; then for ac_func in _getb67 GETB67 getb67; do echo $ac_n "checking for $ac_func""... $ac_c" 1>&6 -echo "configure:4164: checking for $ac_func" >&5 +echo "configure:4188: checking for $ac_func" >&5 if eval "test \"`echo '$''{'ac_cv_func_$ac_func'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4169 "configure" +#line 4193 "configure" #include "confdefs.h" /* System header to define __stub macros and hopefully few prototypes, which can conflict with char $ac_func(); below. */ @@ -4188,7 +4212,7 @@ $ac_func(); ; return 0; } EOF -if { (eval echo configure:4192: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4216: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_$ac_func=yes" else @@ -4215,7 +4239,7 @@ done fi echo $ac_n "checking stack direction for C alloca""... $ac_c" 1>&6 -echo "configure:4219: checking stack direction for C alloca" >&5 +echo "configure:4243: checking stack direction for C alloca" >&5 if eval "test \"`echo '$''{'ac_cv_c_stack_direction'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -4223,7 +4247,7 @@ else ac_cv_c_stack_direction=0 else cat > conftest.$ac_ext <<EOF -#line 4227 "configure" +#line 4251 "configure" #include "confdefs.h" find_stack_direction () { @@ -4242,7 +4266,7 @@ main () exit (find_stack_direction() < 0); } EOF -if { (eval echo configure:4246: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext} && (./conftest; exit) 2>/dev/null +if { (eval echo configure:4270: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext} && (./conftest; exit) 2>/dev/null then ac_cv_c_stack_direction=1 else @@ -4267,17 +4291,17 @@ for ac_hdr in unistd.h do ac_safe=`echo "$ac_hdr" | sed 'y%./+-%__p_%'` echo $ac_n "checking for $ac_hdr""... $ac_c" 1>&6 -echo "configure:4271: checking for $ac_hdr" >&5 +echo "configure:4295: checking for $ac_hdr" >&5 if eval "test \"`echo '$''{'ac_cv_header_$ac_safe'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4276 "configure" +#line 4300 "configure" #include "confdefs.h" #include <$ac_hdr> EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:4281: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:4305: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -4306,12 +4330,12 @@ done for ac_func in getpagesize do echo $ac_n "checking for $ac_func""... $ac_c" 1>&6 -echo "configure:4310: checking for $ac_func" >&5 +echo "configure:4334: checking for $ac_func" >&5 if eval "test \"`echo '$''{'ac_cv_func_$ac_func'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4315 "configure" +#line 4339 "configure" #include "confdefs.h" /* System header to define __stub macros and hopefully few prototypes, which can conflict with char $ac_func(); below. */ @@ -4334,7 +4358,7 @@ $ac_func(); ; return 0; } EOF -if { (eval echo configure:4338: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4362: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_$ac_func=yes" else @@ -4359,7 +4383,7 @@ fi done echo $ac_n "checking for working mmap""... $ac_c" 1>&6 -echo "configure:4363: checking for working mmap" >&5 +echo "configure:4387: checking for working mmap" >&5 if eval "test \"`echo '$''{'ac_cv_func_mmap_fixed_mapped'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -4367,7 +4391,7 @@ else ac_cv_func_mmap_fixed_mapped=no else cat > conftest.$ac_ext <<EOF -#line 4371 "configure" +#line 4395 "configure" #include "confdefs.h" /* Thanks to Mike Haertel and Jim Avera for this test. @@ -4507,7 +4531,7 @@ main() } EOF -if { (eval echo configure:4511: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext} && (./conftest; exit) 2>/dev/null +if { (eval echo configure:4535: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext} && (./conftest; exit) 2>/dev/null then ac_cv_func_mmap_fixed_mapped=yes else @@ -4535,17 +4559,17 @@ unistd.h values.h sys/param.h do ac_safe=`echo "$ac_hdr" | sed 'y%./+-%__p_%'` echo $ac_n "checking for $ac_hdr""... $ac_c" 1>&6 -echo "configure:4539: checking for $ac_hdr" >&5 +echo "configure:4563: checking for $ac_hdr" >&5 if eval "test \"`echo '$''{'ac_cv_header_$ac_safe'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4544 "configure" +#line 4568 "configure" #include "confdefs.h" #include <$ac_hdr> EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:4549: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:4573: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -4575,12 +4599,12 @@ done __argz_count __argz_stringify __argz_next do echo $ac_n "checking for $ac_func""... $ac_c" 1>&6 -echo "configure:4579: checking for $ac_func" >&5 +echo "configure:4603: checking for $ac_func" >&5 if eval "test \"`echo '$''{'ac_cv_func_$ac_func'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4584 "configure" +#line 4608 "configure" #include "confdefs.h" /* System header to define __stub macros and hopefully few prototypes, which can conflict with char $ac_func(); below. */ @@ -4603,7 +4627,7 @@ $ac_func(); ; return 0; } EOF -if { (eval echo configure:4607: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4631: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_$ac_func=yes" else @@ -4632,12 +4656,12 @@ done for ac_func in stpcpy do echo $ac_n "checking for $ac_func""... $ac_c" 1>&6 -echo "configure:4636: checking for $ac_func" >&5 +echo "configure:4660: checking for $ac_func" >&5 if eval "test \"`echo '$''{'ac_cv_func_$ac_func'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4641 "configure" +#line 4665 "configure" #include "confdefs.h" /* System header to define __stub macros and hopefully few prototypes, which can conflict with char $ac_func(); below. */ @@ -4660,7 +4684,7 @@ $ac_func(); ; return 0; } EOF -if { (eval echo configure:4664: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4688: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_$ac_func=yes" else @@ -4694,19 +4718,19 @@ EOF if test $ac_cv_header_locale_h = yes; then echo $ac_n "checking for LC_MESSAGES""... $ac_c" 1>&6 -echo "configure:4698: checking for LC_MESSAGES" >&5 +echo "configure:4722: checking for LC_MESSAGES" >&5 if eval "test \"`echo '$''{'am_cv_val_LC_MESSAGES'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4703 "configure" +#line 4727 "configure" #include "confdefs.h" #include <locale.h> int main() { return LC_MESSAGES ; return 0; } EOF -if { (eval echo configure:4710: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4734: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* am_cv_val_LC_MESSAGES=yes else @@ -4727,7 +4751,7 @@ EOF fi fi echo $ac_n "checking whether NLS is requested""... $ac_c" 1>&6 -echo "configure:4731: checking whether NLS is requested" >&5 +echo "configure:4755: checking whether NLS is requested" >&5 # Check whether --enable-nls or --disable-nls was given. if test "${enable_nls+set}" = set; then enableval="$enable_nls" @@ -4747,7 +4771,7 @@ fi EOF echo $ac_n "checking whether included gettext is requested""... $ac_c" 1>&6 -echo "configure:4751: checking whether included gettext is requested" >&5 +echo "configure:4775: checking whether included gettext is requested" >&5 # Check whether --with-included-gettext or --without-included-gettext was given. if test "${with_included_gettext+set}" = set; then withval="$with_included_gettext" @@ -4766,17 +4790,17 @@ fi ac_safe=`echo "libintl.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for libintl.h""... $ac_c" 1>&6 -echo "configure:4770: checking for libintl.h" >&5 +echo "configure:4794: checking for libintl.h" >&5 if eval "test \"`echo '$''{'ac_cv_header_$ac_safe'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4775 "configure" +#line 4799 "configure" #include "confdefs.h" #include <libintl.h> EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:4780: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:4804: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -4793,19 +4817,19 @@ fi if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then echo "$ac_t""yes" 1>&6 echo $ac_n "checking for gettext in libc""... $ac_c" 1>&6 -echo "configure:4797: checking for gettext in libc" >&5 +echo "configure:4821: checking for gettext in libc" >&5 if eval "test \"`echo '$''{'gt_cv_func_gettext_libc'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4802 "configure" +#line 4826 "configure" #include "confdefs.h" #include <libintl.h> int main() { return (int) gettext ("") ; return 0; } EOF -if { (eval echo configure:4809: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4833: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* gt_cv_func_gettext_libc=yes else @@ -4821,7 +4845,7 @@ echo "$ac_t""$gt_cv_func_gettext_libc" 1>&6 if test "$gt_cv_func_gettext_libc" != "yes"; then echo $ac_n "checking for bindtextdomain in -lintl""... $ac_c" 1>&6 -echo "configure:4825: checking for bindtextdomain in -lintl" >&5 +echo "configure:4849: checking for bindtextdomain in -lintl" >&5 ac_lib_var=`echo intl'_'bindtextdomain | sed 'y%./+-%__p_%'` if eval "test \"`echo '$''{'ac_cv_lib_$ac_lib_var'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 @@ -4829,7 +4853,7 @@ else ac_save_LIBS="$LIBS" LIBS="-lintl $LIBS" cat > conftest.$ac_ext <<EOF -#line 4833 "configure" +#line 4857 "configure" #include "confdefs.h" /* Override any gcc2 internal prototype to avoid an error. */ /* We use char because int might match the return type of a gcc2 @@ -4840,7 +4864,7 @@ int main() { bindtextdomain() ; return 0; } EOF -if { (eval echo configure:4844: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4868: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -4856,19 +4880,19 @@ fi if eval "test \"`echo '$ac_cv_lib_'$ac_lib_var`\" = yes"; then echo "$ac_t""yes" 1>&6 echo $ac_n "checking for gettext in libintl""... $ac_c" 1>&6 -echo "configure:4860: checking for gettext in libintl" >&5 +echo "configure:4884: checking for gettext in libintl" >&5 if eval "test \"`echo '$''{'gt_cv_func_gettext_libintl'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4865 "configure" +#line 4889 "configure" #include "confdefs.h" int main() { return (int) gettext ("") ; return 0; } EOF -if { (eval echo configure:4872: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4896: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* gt_cv_func_gettext_libintl=yes else @@ -4896,7 +4920,7 @@ EOF # Extract the first word of "msgfmt", so it can be a program name with args. set dummy msgfmt; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:4900: checking for $ac_word" >&5 +echo "configure:4924: checking for $ac_word" >&5 if eval "test \"`echo '$''{'ac_cv_path_MSGFMT'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -4930,12 +4954,12 @@ fi for ac_func in dcgettext do echo $ac_n "checking for $ac_func""... $ac_c" 1>&6 -echo "configure:4934: checking for $ac_func" >&5 +echo "configure:4958: checking for $ac_func" >&5 if eval "test \"`echo '$''{'ac_cv_func_$ac_func'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4939 "configure" +#line 4963 "configure" #include "confdefs.h" /* System header to define __stub macros and hopefully few prototypes, which can conflict with char $ac_func(); below. */ @@ -4958,7 +4982,7 @@ $ac_func(); ; return 0; } EOF -if { (eval echo configure:4962: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4986: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_$ac_func=yes" else @@ -4985,7 +5009,7 @@ done # Extract the first word of "gmsgfmt", so it can be a program name with args. set dummy gmsgfmt; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:4989: checking for $ac_word" >&5 +echo "configure:5013: checking for $ac_word" >&5 if eval "test \"`echo '$''{'ac_cv_path_GMSGFMT'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -5021,7 +5045,7 @@ fi # Extract the first word of "xgettext", so it can be a program name with args. set dummy xgettext; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:5025: checking for $ac_word" >&5 +echo "configure:5049: checking for $ac_word" >&5 if eval "test \"`echo '$''{'ac_cv_path_XGETTEXT'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -5053,7 +5077,7 @@ else fi cat > conftest.$ac_ext <<EOF -#line 5057 "configure" +#line 5081 "configure" #include "confdefs.h" int main() { @@ -5061,7 +5085,7 @@ extern int _nl_msg_cat_cntr; return _nl_msg_cat_cntr ; return 0; } EOF -if { (eval echo configure:5065: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5089: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* CATOBJEXT=.gmo DATADIRNAME=share @@ -5093,7 +5117,7 @@ fi # Extract the first word of "msgfmt", so it can be a program name with args. set dummy msgfmt; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:5097: checking for $ac_word" >&5 +echo "configure:5121: checking for $ac_word" >&5 if eval "test \"`echo '$''{'ac_cv_path_MSGFMT'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -5127,7 +5151,7 @@ fi # Extract the first word of "gmsgfmt", so it can be a program name with args. set dummy gmsgfmt; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:5131: checking for $ac_word" >&5 +echo "configure:5155: checking for $ac_word" >&5 if eval "test \"`echo '$''{'ac_cv_path_GMSGFMT'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -5163,7 +5187,7 @@ fi # Extract the first word of "xgettext", so it can be a program name with args. set dummy xgettext; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:5167: checking for $ac_word" >&5 +echo "configure:5191: checking for $ac_word" >&5 if eval "test \"`echo '$''{'ac_cv_path_XGETTEXT'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -5253,7 +5277,7 @@ fi LINGUAS= else echo $ac_n "checking for catalogs to be installed""... $ac_c" 1>&6 -echo "configure:5257: checking for catalogs to be installed" >&5 +echo "configure:5281: checking for catalogs to be installed" >&5 NEW_LINGUAS= for lang in ${LINGUAS=$ALL_LINGUAS}; do case "$ALL_LINGUAS" in @@ -5281,17 +5305,17 @@ echo "configure:5257: checking for catalogs to be installed" >&5 if test "$CATOBJEXT" = ".cat"; then ac_safe=`echo "linux/version.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for linux/version.h""... $ac_c" 1>&6 -echo "configure:5285: checking for linux/version.h" >&5 +echo "configure:5309: checking for linux/version.h" >&5 if eval "test \"`echo '$''{'ac_cv_header_$ac_safe'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 5290 "configure" +#line 5314 "configure" #include "confdefs.h" #include <linux/version.h> EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:5295: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:5319: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -5354,7 +5378,7 @@ fi echo $ac_n "checking whether to enable maintainer-specific portions of Makefiles""... $ac_c" 1>&6 -echo "configure:5358: checking whether to enable maintainer-specific portions of Makefiles" >&5 +echo "configure:5382: checking whether to enable maintainer-specific portions of Makefiles" >&5 # Check whether --enable-maintainer-mode or --disable-maintainer-mode was given. if test "${enable_maintainer_mode+set}" = set; then enableval="$enable_maintainer_mode" @@ -5379,7 +5403,7 @@ fi echo $ac_n "checking for executable suffix""... $ac_c" 1>&6 -echo "configure:5383: checking for executable suffix" >&5 +echo "configure:5407: checking for executable suffix" >&5 if eval "test \"`echo '$''{'ac_cv_exeext'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -5389,7 +5413,7 @@ else rm -f conftest* echo 'int main () { return 0; }' > conftest.$ac_ext ac_cv_exeext= - if { (eval echo configure:5393: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; }; then + if { (eval echo configure:5417: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; }; then for file in conftest.*; do case $file in *.c | *.o | *.obj | *.ilk | *.pdb) ;; @@ -5414,17 +5438,17 @@ for ac_hdr in string.h stdlib.h memory.h strings.h unistd.h stdarg.h varargs.h e do ac_safe=`echo "$ac_hdr" | sed 'y%./+-%__p_%'` echo $ac_n "checking for $ac_hdr""... $ac_c" 1>&6 -echo "configure:5418: checking for $ac_hdr" >&5 +echo "configure:5442: checking for $ac_hdr" >&5 if eval "test \"`echo '$''{'ac_cv_header_$ac_safe'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 5423 "configure" +#line 5447 "configure" #include "confdefs.h" #include <$ac_hdr> EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:5428: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:5452: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -5454,7 +5478,7 @@ done # Put this here so that autoconf's "cross-compiling" message doesn't confuse # people who are not cross-compiling but are compiling cross-assemblers. echo $ac_n "checking whether compiling a cross-assembler""... $ac_c" 1>&6 -echo "configure:5458: checking whether compiling a cross-assembler" >&5 +echo "configure:5482: checking whether compiling a cross-assembler" >&5 if test "${host}" = "${target}"; then cross_gas=no else @@ -5469,19 +5493,19 @@ echo "$ac_t""$cross_gas" 1>&6 # The Ultrix 4.2 mips builtin alloca declared by alloca.h only works # for constant arguments. Useless! echo $ac_n "checking for working alloca.h""... $ac_c" 1>&6 -echo "configure:5473: checking for working alloca.h" >&5 +echo "configure:5497: checking for working alloca.h" >&5 if eval "test \"`echo '$''{'ac_cv_header_alloca_h'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 5478 "configure" +#line 5502 "configure" #include "confdefs.h" #include <alloca.h> int main() { char *p = alloca(2 * sizeof(int)); ; return 0; } EOF -if { (eval echo configure:5485: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5509: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* ac_cv_header_alloca_h=yes else @@ -5502,12 +5526,12 @@ EOF fi echo $ac_n "checking for alloca""... $ac_c" 1>&6 -echo "configure:5506: checking for alloca" >&5 +echo "configure:5530: checking for alloca" >&5 if eval "test \"`echo '$''{'ac_cv_func_alloca_works'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 5511 "configure" +#line 5535 "configure" #include "confdefs.h" #ifdef __GNUC__ @@ -5535,7 +5559,7 @@ int main() { char *p = (char *) alloca(1); ; return 0; } EOF -if { (eval echo configure:5539: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5563: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* ac_cv_func_alloca_works=yes else @@ -5567,12 +5591,12 @@ EOF echo $ac_n "checking whether alloca needs Cray hooks""... $ac_c" 1>&6 -echo "configure:5571: checking whether alloca needs Cray hooks" >&5 +echo "configure:5595: checking whether alloca needs Cray hooks" >&5 if eval "test \"`echo '$''{'ac_cv_os_cray'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 5576 "configure" +#line 5600 "configure" #include "confdefs.h" #if defined(CRAY) && ! defined(CRAY2) webecray @@ -5597,12 +5621,12 @@ echo "$ac_t""$ac_cv_os_cray" 1>&6 if test $ac_cv_os_cray = yes; then for ac_func in _getb67 GETB67 getb67; do echo $ac_n "checking for $ac_func""... $ac_c" 1>&6 -echo "configure:5601: checking for $ac_func" >&5 +echo "configure:5625: checking for $ac_func" >&5 if eval "test \"`echo '$''{'ac_cv_func_$ac_func'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 5606 "configure" +#line 5630 "configure" #include "confdefs.h" /* System header to define __stub macros and hopefully few prototypes, which can conflict with char $ac_func(); below. */ @@ -5625,7 +5649,7 @@ $ac_func(); ; return 0; } EOF -if { (eval echo configure:5629: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5653: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_$ac_func=yes" else @@ -5652,7 +5676,7 @@ done fi echo $ac_n "checking stack direction for C alloca""... $ac_c" 1>&6 -echo "configure:5656: checking stack direction for C alloca" >&5 +echo "configure:5680: checking stack direction for C alloca" >&5 if eval "test \"`echo '$''{'ac_cv_c_stack_direction'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -5660,7 +5684,7 @@ else ac_cv_c_stack_direction=0 else cat > conftest.$ac_ext <<EOF -#line 5664 "configure" +#line 5688 "configure" #include "confdefs.h" find_stack_direction () { @@ -5679,7 +5703,7 @@ main () exit (find_stack_direction() < 0); } EOF -if { (eval echo configure:5683: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext} && (./conftest; exit) 2>/dev/null +if { (eval echo configure:5707: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext} && (./conftest; exit) 2>/dev/null then ac_cv_c_stack_direction=1 else @@ -5701,21 +5725,21 @@ EOF fi echo $ac_n "checking for inline""... $ac_c" 1>&6 -echo "configure:5705: checking for inline" >&5 +echo "configure:5729: checking for inline" >&5 if eval "test \"`echo '$''{'ac_cv_c_inline'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else ac_cv_c_inline=no for ac_kw in inline __inline__ __inline; do cat > conftest.$ac_ext <<EOF -#line 5712 "configure" +#line 5736 "configure" #include "confdefs.h" int main() { } $ac_kw foo() { ; return 0; } EOF -if { (eval echo configure:5719: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:5743: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_c_inline=$ac_kw; break else @@ -5745,12 +5769,12 @@ esac for ac_func in unlink remove do echo $ac_n "checking for $ac_func""... $ac_c" 1>&6 -echo "configure:5749: checking for $ac_func" >&5 +echo "configure:5773: checking for $ac_func" >&5 if eval "test \"`echo '$''{'ac_cv_func_$ac_func'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 5754 "configure" +#line 5778 "configure" #include "confdefs.h" /* System header to define __stub macros and hopefully few prototypes, which can conflict with char $ac_func(); below. */ @@ -5773,7 +5797,7 @@ $ac_func(); ; return 0; } EOF -if { (eval echo configure:5777: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5801: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_$ac_func=yes" else @@ -5802,12 +5826,12 @@ done for ac_func in sbrk do echo $ac_n "checking for $ac_func""... $ac_c" 1>&6 -echo "configure:5806: checking for $ac_func" >&5 +echo "configure:5830: checking for $ac_func" >&5 if eval "test \"`echo '$''{'ac_cv_func_$ac_func'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 5811 "configure" +#line 5835 "configure" #include "confdefs.h" /* System header to define __stub macros and hopefully few prototypes, which can conflict with char $ac_func(); below. */ @@ -5830,7 +5854,7 @@ $ac_func(); ; return 0; } EOF -if { (eval echo configure:5834: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5858: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_$ac_func=yes" else @@ -5865,7 +5889,7 @@ case $host in ;; *-ncr-sysv4.3*) echo $ac_n "checking for _mwvalidcheckl in -lmw""... $ac_c" 1>&6 -echo "configure:5869: checking for _mwvalidcheckl in -lmw" >&5 +echo "configure:5893: checking for _mwvalidcheckl in -lmw" >&5 ac_lib_var=`echo mw'_'_mwvalidcheckl | sed 'y%./+-%__p_%'` if eval "test \"`echo '$''{'ac_cv_lib_$ac_lib_var'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 @@ -5873,7 +5897,7 @@ else ac_save_LIBS="$LIBS" LIBS="-lmw $LIBS" cat > conftest.$ac_ext <<EOF -#line 5877 "configure" +#line 5901 "configure" #include "confdefs.h" /* Override any gcc2 internal prototype to avoid an error. */ /* We use char because int might match the return type of a gcc2 @@ -5884,7 +5908,7 @@ int main() { _mwvalidcheckl() ; return 0; } EOF -if { (eval echo configure:5888: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5912: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -5905,7 +5929,7 @@ else fi echo $ac_n "checking for main in -lm""... $ac_c" 1>&6 -echo "configure:5909: checking for main in -lm" >&5 +echo "configure:5933: checking for main in -lm" >&5 ac_lib_var=`echo m'_'main | sed 'y%./+-%__p_%'` if eval "test \"`echo '$''{'ac_cv_lib_$ac_lib_var'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 @@ -5913,14 +5937,14 @@ else ac_save_LIBS="$LIBS" LIBS="-lm $LIBS" cat > conftest.$ac_ext <<EOF -#line 5917 "configure" +#line 5941 "configure" #include "confdefs.h" int main() { main() ; return 0; } EOF -if { (eval echo configure:5924: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5948: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -5943,7 +5967,7 @@ fi ;; *) echo $ac_n "checking for main in -lm""... $ac_c" 1>&6 -echo "configure:5947: checking for main in -lm" >&5 +echo "configure:5971: checking for main in -lm" >&5 ac_lib_var=`echo m'_'main | sed 'y%./+-%__p_%'` if eval "test \"`echo '$''{'ac_cv_lib_$ac_lib_var'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 @@ -5951,14 +5975,14 @@ else ac_save_LIBS="$LIBS" LIBS="-lm $LIBS" cat > conftest.$ac_ext <<EOF -#line 5955 "configure" +#line 5979 "configure" #include "confdefs.h" int main() { main() ; return 0; } EOF -if { (eval echo configure:5962: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5986: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -5989,12 +6013,12 @@ esac # enough, but on some of those systems, the assert macro relies on requoting # working properly! echo $ac_n "checking for working assert macro""... $ac_c" 1>&6 -echo "configure:5993: checking for working assert macro" >&5 +echo "configure:6017: checking for working assert macro" >&5 if eval "test \"`echo '$''{'gas_cv_assert_ok'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 5998 "configure" +#line 6022 "configure" #include "confdefs.h" #include <assert.h> #include <stdio.h> @@ -6010,7 +6034,7 @@ assert (a == b ; return 0; } EOF -if { (eval echo configure:6014: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:6038: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* gas_cv_assert_ok=yes else @@ -6051,12 +6075,12 @@ gas_test_headers=" " echo $ac_n "checking whether declaration is required for strstr""... $ac_c" 1>&6 -echo "configure:6055: checking whether declaration is required for strstr" >&5 +echo "configure:6079: checking whether declaration is required for strstr" >&5 if eval "test \"`echo '$''{'gas_cv_decl_needed_strstr'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 6060 "configure" +#line 6084 "configure" #include "confdefs.h" $gas_test_headers int main() { @@ -6067,7 +6091,7 @@ x = (f) strstr; ; return 0; } EOF -if { (eval echo configure:6071: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:6095: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* gas_cv_decl_needed_strstr=no else @@ -6088,12 +6112,12 @@ fi echo $ac_n "checking whether declaration is required for malloc""... $ac_c" 1>&6 -echo "configure:6092: checking whether declaration is required for malloc" >&5 +echo "configure:6116: checking whether declaration is required for malloc" >&5 if eval "test \"`echo '$''{'gas_cv_decl_needed_malloc'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 6097 "configure" +#line 6121 "configure" #include "confdefs.h" $gas_test_headers int main() { @@ -6104,7 +6128,7 @@ x = (f) malloc; ; return 0; } EOF -if { (eval echo configure:6108: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:6132: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* gas_cv_decl_needed_malloc=no else @@ -6125,12 +6149,12 @@ fi echo $ac_n "checking whether declaration is required for free""... $ac_c" 1>&6 -echo "configure:6129: checking whether declaration is required for free" >&5 +echo "configure:6153: checking whether declaration is required for free" >&5 if eval "test \"`echo '$''{'gas_cv_decl_needed_free'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 6134 "configure" +#line 6158 "configure" #include "confdefs.h" $gas_test_headers int main() { @@ -6141,7 +6165,7 @@ x = (f) free; ; return 0; } EOF -if { (eval echo configure:6145: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:6169: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* gas_cv_decl_needed_free=no else @@ -6162,12 +6186,12 @@ fi echo $ac_n "checking whether declaration is required for sbrk""... $ac_c" 1>&6 -echo "configure:6166: checking whether declaration is required for sbrk" >&5 +echo "configure:6190: checking whether declaration is required for sbrk" >&5 if eval "test \"`echo '$''{'gas_cv_decl_needed_sbrk'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 6171 "configure" +#line 6195 "configure" #include "confdefs.h" $gas_test_headers int main() { @@ -6178,7 +6202,7 @@ x = (f) sbrk; ; return 0; } EOF -if { (eval echo configure:6182: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:6206: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* gas_cv_decl_needed_sbrk=no else @@ -6199,12 +6223,12 @@ fi echo $ac_n "checking whether declaration is required for environ""... $ac_c" 1>&6 -echo "configure:6203: checking whether declaration is required for environ" >&5 +echo "configure:6227: checking whether declaration is required for environ" >&5 if eval "test \"`echo '$''{'gas_cv_decl_needed_environ'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 6208 "configure" +#line 6232 "configure" #include "confdefs.h" $gas_test_headers int main() { @@ -6215,7 +6239,7 @@ x = (f) environ; ; return 0; } EOF -if { (eval echo configure:6219: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:6243: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* gas_cv_decl_needed_environ=no else @@ -6239,12 +6263,12 @@ fi # for it? echo $ac_n "checking whether declaration is required for errno""... $ac_c" 1>&6 -echo "configure:6243: checking whether declaration is required for errno" >&5 +echo "configure:6267: checking whether declaration is required for errno" >&5 if eval "test \"`echo '$''{'gas_cv_decl_needed_errno'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 6248 "configure" +#line 6272 "configure" #include "confdefs.h" #ifdef HAVE_ERRNO_H @@ -6259,7 +6283,7 @@ x = (f) errno; ; return 0; } EOF -if { (eval echo configure:6263: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:6287: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* gas_cv_decl_needed_errno=no else diff --git a/gas/configure.in b/gas/configure.in index 146822d..cb3e282 100644 --- a/gas/configure.in +++ b/gas/configure.in @@ -153,6 +153,7 @@ changequote([,])dnl sparc86x*) cpu_type=sparc arch=sparc86x ;; sparc*) cpu_type=sparc arch=sparclite ;; # ??? See tc-sparc.c. v850*) cpu_type=v850 ;; + xtensa*) cpu_type=xtensa arch=xtensa ;; *) cpu_type=${cpu} ;; esac @@ -482,6 +483,8 @@ changequote([,])dnl xstormy16-*-*) fmt=elf ;; + xtensa-*-*) fmt=elf ;; + z8k-*-coff | z8k-*-sim) fmt=coff ;; *-*-aout | *-*-scout) fmt=aout ;; @@ -648,6 +651,13 @@ changequote([,])dnl using_cgen=yes ;; + xtensa) + echo ${extra_objects} | grep -s "xtensa-relax.o" + if test $? -ne 0 ; then + extra_objects="$extra_objects xtensa-relax.o" + fi + ;; + *) ;; esac diff --git a/gas/doc/Makefile.am b/gas/doc/Makefile.am index 5dbab7a..1e8acbc 100644 --- a/gas/doc/Makefile.am +++ b/gas/doc/Makefile.am @@ -55,6 +55,7 @@ CPU_DOCS = \ c-tic54x.texi \ c-vax.texi \ c-v850.texi \ + c-xtensa.texi \ c-z8k.texi gasver.texi: Makefile diff --git a/gas/doc/Makefile.in b/gas/doc/Makefile.in index 576c5e6..6b8a4e4 100644 --- a/gas/doc/Makefile.in +++ b/gas/doc/Makefile.in @@ -167,6 +167,7 @@ CPU_DOCS = \ c-tic54x.texi \ c-vax.texi \ c-v850.texi \ + c-xtensa.texi \ c-z8k.texi diff --git a/gas/doc/all.texi b/gas/doc/all.texi index 30f02db..4e302ce 100644 --- a/gas/doc/all.texi +++ b/gas/doc/all.texi @@ -58,6 +58,7 @@ @set V850 @set VAX @set VXWORKS +@set XTENSA @set Z8000 @c Does this version of the assembler use the difference-table kluge? diff --git a/gas/doc/as.texinfo b/gas/doc/as.texinfo index 41867f6..5f95c96 100644 --- a/gas/doc/as.texinfo +++ b/gas/doc/as.texinfo @@ -59,6 +59,7 @@ @set TIC54X @set V850 @set VAX +@set XTENSA @end ifset @c man end @c common OR combinations of conditions @@ -449,6 +450,13 @@ gcc(1), ld(1), and the Info entries for @file{binutils} and @file{ld}. @ifset Z8000 @c Z8000 has no machine-dependent assembler options @end ifset +@ifset XTENSA + +@emph{Target Xtensa options:} + [@b{--[no-]density}] [@b{--[no-]relax}] [@b{--[no-]generics}] + [@b{--[no-]text-section-literals}] + [@b{--[no-]target-align}] [@b{--[no-]longcalls}] +@end ifset @c man end @end smallexample @@ -1057,6 +1065,45 @@ Assemble for a little endian target. See the info pages for documentation of the MMIX-specific options. @end ifset +@ifset XTENSA +The following options are available when @value{AS} is configured for +an Xtensa processor. + +@table @gcctabopt +@item --density | --no-density +Enable or disable use of instructions from the Xtensa code density +option. This is enabled by default when the Xtensa processor supports +the code density option. + +@item --relax | --no-relax +Enable or disable instruction relaxation. This is enabled by default. +Note: In the current implementation, these options also control whether +assembler optimizations are performed, making these options equivalent +to @option{--generics} and @option{--no-generics}. + +@item --generics | --no-generics +Enable or disable all assembler transformations of Xtensa instructions. +The default is @option{--generics}; +@option{--no-generics} should be used only in the rare cases when the +instructions must be exactly as specified in the assembly source. + +@item --text-section-literals | --no-text-section-literals +With @option{--text-@-section-@-literals}, literal pools are interspersed +in the text section. The default is +@option{--no-@-text-@-section-@-literals}, which places literals in a +separate section in the output file. + +@item --target-align | --no-target-align +Enable or disable automatic alignment to reduce branch penalties at the +expense of some code density. The default is @option{--target-@-align}. + +@item --longcalls | --no-longcalls +Enable or disable transformation of call instructions to allow calls +across a greater range of addresses. The default is +@option{--no-@-longcalls}. +@end table +@end ifset + @c man end @menu @@ -2068,6 +2115,9 @@ is considered a comment and is ignored. The line comment character is @ifset V850 @samp{#} on the V850; @end ifset +@ifset XTENSA +@samp{#} for Xtensa systems; +@end ifset see @ref{Machine Dependencies}. @refill @c FIXME What about i860? @@ -3834,7 +3884,7 @@ required alignment; this can be useful if you want the alignment to be filled with no-op instructions when appropriate. The way the required alignment is specified varies from system to system. -For the a29k, hppa, m68k, m88k, w65, sparc, and Hitachi SH, and i386 using ELF +For the a29k, hppa, m68k, m88k, w65, sparc, Xtensa, and Hitachi SH, and i386 using ELF format, the first expression is the alignment request in bytes. For example @samp{.align 8} advances @@ -5865,6 +5915,9 @@ subject, see the hardware manufacturer's manual. @ifset V850 * V850-Dependent:: V850 Dependent Features @end ifset +@ifset XTENSA +* Xtensa-Dependent:: Xtensa Dependent Features +@end ifset @ifset Z8000 * Z8000-Dependent:: Z8000 Dependent Features @end ifset @@ -6036,6 +6089,10 @@ family. @include c-v850.texi @end ifset +@ifset XTENSA +@include c-xtensa.texi +@end ifset + @ifset GENERIC @c reverse effect of @down at top of generic Machine-Dep chapter @raisesections @@ -6330,6 +6387,9 @@ support for openVMS/Alpha. Timothy Wall, Michael Hayes, and Greg Smart contributed to the various tic* flavors. +David Heine, Sterling Augustine, Bob Wilson and John Ruttenberg from Tensilica, +Inc. added support for Xtensa processors. + Several engineers at Cygnus Support have also provided many small bug fixes and configuration enhancements. diff --git a/gas/doc/c-xtensa.texi b/gas/doc/c-xtensa.texi new file mode 100644 index 0000000..69a3d81 --- /dev/null +++ b/gas/doc/c-xtensa.texi @@ -0,0 +1,740 @@ +@c Copyright (C) 2002 Free Software Foundation, Inc. +@c This is part of the GAS manual. +@c For copying conditions, see the file as.texinfo. +@c +@ifset GENERIC +@page +@node Xtensa-Dependent +@chapter Xtensa Dependent Features +@end ifset +@ifclear GENERIC +@node Machine Dependencies +@chapter Xtensa Dependent Features +@end ifclear + +@cindex Xtensa architecture +This chapter covers features of the @sc{gnu} assembler that are specific +to the Xtensa architecture. For details about the Xtensa instruction +set, please consult the @cite{Xtensa Instruction Set Architecture (ISA) +Reference Manual}. + +@menu +* Xtensa Options:: Command-line Options. +* Xtensa Syntax:: Assembler Syntax for Xtensa Processors. +* Xtensa Optimizations:: Assembler Optimizations. +* Xtensa Relaxation:: Other Automatic Transformations. +* Xtensa Directives:: Directives for Xtensa Processors. +@end menu + +@node Xtensa Options +@section Command Line Options + +The Xtensa version of the @sc{gnu} assembler supports these +special options: + +@table @code +@item --density | --no-density +@kindex --density +@kindex --no-density +@cindex Xtensa density option +@cindex density option, Xtensa +Enable or disable use of the Xtensa code density option (16-bit +instructions). @xref{Density Instructions, ,Using Density +Instructions}. If the processor is configured with the density option, +this is enabled by default; otherwise, it is always disabled. + +@item --relax | --no-relax +@kindex --relax +@kindex --no-relax +Enable or disable relaxation of instructions with immediate operands +that are outside the legal range for the instructions. @xref{Xtensa +Relaxation, ,Xtensa Relaxation}. The default is @samp{--relax} and this +default should almost always be used. If relaxation is disabled with +@samp{--no-relax}, instruction operands that are out of range will cause +errors. Note: In the current implementation, these options also control +whether assembler optimizations are performed, making these options +equivalent to @samp{--generics} and @samp{--no-generics}. + +@item --generics | --no-generics +@kindex --generics +@kindex --no-generics +Enable or disable all assembler transformations of Xtensa instructions, +including both relaxation and optimization. The default is +@samp{--generics}; @samp{--no-generics} should only be used in the rare +cases when the instructions must be exactly as specified in the assembly +source. +@c The @samp{--no-generics} option is like @samp{--no-relax} +@c except that it also disables assembler optimizations (@pxref{Xtensa +@c Optimizations}). +As with @samp{--no-relax}, using @samp{--no-generics} +causes out of range instruction operands to be errors. + +@item --text-section-literals | --no-text-section-literals +@kindex --text-section-literals +@kindex --no-text-section-literals +Control the treatment of literal pools. The default is +@samp{--no-@-text-@-section-@-literals}, which places literals in a +separate section in the output file. This allows the literal pool to be +placed in a data RAM/ROM, and it also allows the linker to combine literal +pools from separate object files to remove redundant literals and +improve code size. With @samp{--text-@-section-@-literals}, the +literals are interspersed in the text section in order to keep them as +close as possible to their references. This may be necessary for large +assembly files. + +@item --target-align | --no-target-align +@kindex --target-align +@kindex --no-target-align +Enable or disable automatic alignment to reduce branch penalties at some +expense in code size. @xref{Xtensa Automatic Alignment, ,Automatic +Instruction Alignment}. This optimization is enabled by default. Note +that the assembler will always align instructions like @code{LOOP} that +have fixed alignment requirements. + +@item --longcalls | --no-longcalls +@kindex --longcalls +@kindex --no-longcalls +Enable or disable transformation of call instructions to allow calls +across a greater range of addresses. @xref{Xtensa Call Relaxation, +,Function Call Relaxation}. This option should be used when call +targets can potentially be out of range, but it degrades both code size +and performance. The default is @samp{--no-@-longcalls}. +@end table + +@node Xtensa Syntax +@section Assembler Syntax +@cindex syntax, Xtensa assembler +@cindex Xtensa assembler syntax + +Block comments are delimited by @samp{/*} and @samp{*/}. End of line +comments may be introduced with either @samp{#} or @samp{//}. + +Instructions consist of a leading opcode or macro name followed by +whitespace and an optional comma-separated list of operands: + +@smallexample +@var{opcode} [@var{operand},@dots{}] +@end smallexample + +Instructions must be separated by a newline or semicolon. + +@menu +* Xtensa Opcodes:: Opcode Naming Conventions. +* Xtensa Registers:: Register Naming. +@end menu + +@node Xtensa Opcodes +@subsection Opcode Names +@cindex Xtensa opcode names +@cindex opcode names, Xtenxa + +See the @cite{Xtensa Instruction Set Architecture (ISA) Reference +Manual} for a complete list of opcodes and descriptions of their +semantics. + +@cindex generic opcodes +@cindex specific opcodes +@cindex _ opcode prefix +The Xtensa assembler distinguishes between @dfn{generic} and +@dfn{specific} opcodes. Specific opcodes correspond directly to Xtensa +machine instructions. Prefixing an opcode with an underscore character +(@samp{_}) identifies it as a specific opcode. Opcodes without a +leading underscore are generic, which means the assembler is required to +preserve their semantics but may not translate them directly to the +specific opcodes with the same names. Instead, the assembler may +optimize a generic opcode and select a better instruction to use in its +place (@pxref{Xtensa Optimizations, ,Xtensa Optimizations}), or the +assembler may relax the instruction to handle operands that are out of +range for the corresponding specific opcode (@pxref{Xtensa Relaxation, +,Xtensa Relaxation}). + +Only use specific opcodes when it is essential to select +the exact machine instructions produced by the assembler. +Using specific opcodes unnecessarily only makes the code less +efficient, by disabling assembler optimization, and less flexible, by +disabling relaxation. + +Note that this special handling of underscore prefixes only applies to +Xtensa opcodes, not to either built-in macros or user-defined macros. +When an underscore prefix is used with a macro (e.g., @code{_NOP}), it +refers to a different macro. The assembler generally provides built-in +macros both with and without the underscore prefix, where the underscore +versions behave as if the underscore carries through to the instructions +in the macros. For example, @code{_NOP} expands to @code{_OR a1,a1,a1}. + +The underscore prefix only applies to individual instructions, not to +series of instructions. For example, if a series of instructions have +underscore prefixes, the assembler will not transform the individual +instructions, but it may insert other instructions between them (e.g., +to align a @code{LOOP} instruction). To prevent the assembler from +modifying a series of instructions as a whole, use the +@code{no-generics} directive. @xref{Generics Directive, ,generics}. + +@node Xtensa Registers +@subsection Register Names +@cindex Xtensa register names +@cindex register names, Xtensa +@cindex sp register + +An initial @samp{$} character is optional in all register names. +General purpose registers are named @samp{a0}@dots{}@samp{a15}. Additional +registers may be added by processor configuration options. In +particular, the @sc{mac16} option adds a @sc{mr} register bank. Its +registers are named @samp{m0}@dots{}@samp{m3}. + +As a special feature, @samp{sp} is also supported as a synonym for +@samp{a1}. + +@node Xtensa Optimizations +@section Xtensa Optimizations +@cindex optimizations + +The optimizations currently supported by @code{@value{AS}} are +generation of density instructions where appropriate and automatic +branch target alignment. + +@menu +* Density Instructions:: Using Density Instructions. +* Xtensa Automatic Alignment:: Automatic Instruction Alignment. +@end menu + +@node Density Instructions +@subsection Using Density Instructions +@cindex density instructions + +The Xtensa instruction set has a code density option that provides +16-bit versions of some of the most commonly used opcodes. Use of these +opcodes can significantly reduce code size. When possible, the +assembler automatically translates generic instructions from the core +Xtensa instruction set into equivalent instructions from the Xtensa code +density option. This translation can be disabled by using specific +opcodes (@pxref{Xtensa Opcodes, ,Opcode Names}), by using the +@samp{--no-density} command-line option (@pxref{Xtensa Options, ,Command +Line Options}), or by using the @code{no-density} directive +(@pxref{Density Directive, ,density}). + +It is a good idea @emph{not} to use the density instuctions directly. +The assembler will automatically select dense instructions where +possible. If you later need to avoid using the code density option, you +can disable it in the assembler without having to modify the code. + +@node Xtensa Automatic Alignment +@subsection Automatic Instruction Alignment +@cindex alignment of @code{LOOP} instructions +@cindex alignment of @code{ENTRY} instructions +@cindex alignment of branch targets +@cindex @code{LOOP} instructions, alignment +@cindex @code{ENTRY} instructions, alignment +@cindex branch target alignment + +The Xtensa assembler will automatically align certain instructions, both +to optimize performance and to satisfy architectural requirements. + +When the @code{--target-@-align} command-line option is enabled +(@pxref{Xtensa Options, ,Command Line Options}), the assembler attempts +to widen density instructions preceding a branch target so that the +target instruction does not cross a 4-byte boundary. Similarly, the +assembler also attempts to align each instruction following a call +instruction. If there are not enough preceding safe density +instructions to align a target, no widening will be performed. This +alignment has the potential to reduce branch penalties at some expense +in code size. The assembler will not attempt to align labels with the +prefixes @code{.Ln} and @code{.LM}, since these labels are used for +debugging information and are not typically branch targets. + +The @code{LOOP} family of instructions must be aligned on either a 1 or +2 mod 4 byte boundary. The assembler knows about this restriction and +inserts the minimal number of 2 or 3 byte no-op instructions +to satisfy it. When no-op instructions are added, any label immediately +preceding the original loop will be moved in order to refer to the loop +instruction, not the newly generated no-op instruction. + +Similarly, the @code{ENTRY} instruction must be aligned on a 0 mod 4 +byte boundary. The assembler satisfies this requirement by inserting +zero bytes when required. In addition, labels immediately preceding the +@code{ENTRY} instruction will be moved to the newly aligned instruction +location. + +@node Xtensa Relaxation +@section Xtensa Relaxation +@cindex relaxation + +When an instruction operand is outside the range allowed for that +particular instruction field, @code{@value{AS}} can transform the code +to use a functionally-equivalent instruction or sequence of +instructions. This process is known as @dfn{relaxation}. This is +typically done for branch instructions because the distance of the +branch targets is not known until assembly-time. The Xtensa assembler +offers branch relaxation and also extends this concept to function +calls, @code{MOVI} instructions and other instructions with immediate +fields. + +@menu +* Xtensa Branch Relaxation:: Relaxation of Branches. +* Xtensa Call Relaxation:: Relaxation of Function Calls. +* Xtensa Immediate Relaxation:: Relaxation of other Immediate Fields. +@end menu + +@node Xtensa Branch Relaxation +@subsection Conditional Branch Relaxation +@cindex relaxation of branch instructions +@cindex branch instructions, relaxation + +When the target of a branch is too far away from the branch itself, +i.e., when the offset from the branch to the target is too large to fit +in the immediate field of the branch instruction, it may be necessary to +replace the branch with a branch around a jump. For example, + +@smallexample + beqz a2, L +@end smallexample + +may result in: + +@smallexample + bnez.n a2, M + j L +M: +@end smallexample + +(The @code{BNEZ.N} instruction would be used in this example only if the +density option is available. Otherwise, @code{BNEZ} would be used.) + +@node Xtensa Call Relaxation +@subsection Function Call Relaxation +@cindex relaxation of call instructions +@cindex call instructions, relaxation + +Function calls may require relaxation because the Xtensa immediate call +instructions (@code{CALL0}, @code{CALL4}, @code{CALL8} and +@code{CALL12}) provide a PC-relative offset of only 512 Kbytes in either +direction. For larger programs, it may be necessary to use indirect +calls (@code{CALLX0}, @code{CALLX4}, @code{CALLX8} and @code{CALLX12}) +where the target address is specified in a register. The Xtensa +assembler can automatically relax immediate call instructions into +indirect call instructions. This relaxation is done by loading the +address of the called function into the callee's return address register +and then using a @code{CALLX} instruction. So, for example: + +@smallexample + call8 func +@end smallexample + +might be relaxed to: + +@smallexample + .literal .L1, func + l32r a8, .L1 + callx8 a8 +@end smallexample + +Because the addresses of targets of function calls are not generally +known until link-time, the assembler must assume the worst and relax all +the calls to functions in other source files, not just those that really +will be out of range. The linker can recognize calls that were +unnecessarily relaxed, but it can only partially remove the overhead +introduced by the assembler. + +Call relaxation has a negative effect +on both code size and performance, so this relaxation is disabled by +default. If a program is too large and some of the calls are out of +range, function call relaxation can be enabled using the +@samp{--longcalls} command-line option or the @code{longcalls} directive +(@pxref{Longcalls Directive, ,longcalls}). + +@node Xtensa Immediate Relaxation +@subsection Other Immediate Field Relaxation +@cindex immediate fields, relaxation +@cindex relaxation of immediate fields + +@cindex @code{MOVI} instructions, relaxation +@cindex relaxation of @code{MOVI} instructions +The @code{MOVI} machine instruction can only materialize values in the +range from -2048 to 2047. Values outside this range are best +materalized with @code{L32R} instructions. Thus: + +@smallexample + movi a0, 100000 +@end smallexample + +is assembled into the following machine code: + +@smallexample + .literal .L1, 100000 + l32r a0, .L1 +@end smallexample + +@cindex @code{L8UI} instructions, relaxation +@cindex @code{L16SI} instructions, relaxation +@cindex @code{L16UI} instructions, relaxation +@cindex @code{L32I} instructions, relaxation +@cindex relaxation of @code{L8UI} instructions +@cindex relaxation of @code{L16SI} instructions +@cindex relaxation of @code{L16UI} instructions +@cindex relaxation of @code{L32I} instructions +The @code{L8UI} machine instruction can only be used with immediate +offsets in the range from 0 to 255. The @code{L16SI} and @code{L16UI} +machine instructions can only be used with offsets from 0 to 510. The +@code{L32I} machine instruction can only be used with offsets from 0 to +1020. A load offset outside these ranges can be materalized with +an @code{L32R} instruction if the destination register of the load +is different than the source address register. For example: + +@smallexample + l32i a1, a0, 2040 +@end smallexample + +is translated to: + +@smallexample + .literal .L1, 2040 + l32r a1, .L1 + addi a1, a0, a1 + l32i a1, a1, 0 +@end smallexample + +@noindent +If the load destination and source address register are the same, an +out-of-range offset causes an error. + +@cindex @code{ADDI} instructions, relaxation +@cindex relaxation of @code{ADDI} instructions +The Xtensa @code{ADDI} instruction only allows immediate operands in the +range from -128 to 127. There are a number of alternate instruction +sequences for the generic @code{ADDI} operation. First, if the +immediate is 0, the @code{ADDI} will be turned into a @code{MOV.N} +instruction (or the equivalent @code{OR} instruction if the code density +option is not available). If the @code{ADDI} immediate is outside of +the range -128 to 127, but inside the range -32896 to 32639, an +@code{ADDMI} instruction or @code{ADDMI}/@code{ADDI} sequence will be +used. Finally, if the immediate is outside of this range and a free +register is available, an @code{L32R}/@code{ADD} sequence will be used +with a literal allocated from the literal pool. + +For example: + +@smallexample + addi a5, a6, 0 + addi a5, a6, 512 + addi a5, a6, 513 + addi a5, a6, 50000 +@end smallexample + +is assembled into the following: + +@smallexample + .literal .L1, 50000 + mov.n a5, a6 + addmi a5, a6, 0x200 + addmi a5, a6, 0x200 + addi a5, a5, 1 + l32r a5, .L1 + add a5, a6, a5 +@end smallexample + +@node Xtensa Directives +@section Directives +@cindex Xtensa directives +@cindex directives, Xtensa + +The Xtensa assember supports a region-based directive syntax: + +@smallexample + .begin @var{directive} [@var{options}] + @dots{} + .end @var{directive} +@end smallexample + +All the Xtensa-specific directives that apply to a region of code use +this syntax. + +The directive applies to code between the @code{.begin} and the +@code{.end}. The state of the option after the @code{.end} reverts to +what it was before the @code{.begin}. +A nested @code{.begin}/@code{.end} region can further +change the state of the directive without having to be aware of its +outer state. For example, consider: + +@smallexample + .begin no-density +L: add a0, a1, a2 + .begin density +M: add a0, a1, a2 + .end density +N: add a0, a1, a2 + .end no-density +@end smallexample + +The generic @code{ADD} opcodes at @code{L} and @code{N} in the outer +@code{no-density} region both result in @code{ADD} machine instructions, +but the assembler selects an @code{ADD.N} instruction for the generic +@code{ADD} at @code{M} in the inner @code{density} region. + +The advantage of this style is that it works well inside macros which can +preserve the context of their callers. + +@cindex precedence of directives +@cindex directives, precedence +When command-line options and assembler directives are used at the same +time and conflict, the one that overrides a default behavior takes +precedence over one that is the same as the default. For example, if +the code density option is available, the default is to select density +instructions whenever possible. So, if the above is assembled with the +@samp{--no-density} flag, which overrides the default, all the generic +@code{ADD} instructions result in @code{ADD} machine instructions. If +assembled with the @samp{--density} flag, which is already the default, +the @code{no-density} directive takes precedence and only one of +the generic @code{ADD} instructions is optimized to be a @code{ADD.N} +machine instruction. An underscore prefix identifying a specific opcode +always takes precedence over directives and command-line flags. + +The following directives are available: +@menu +* Density Directive:: Disable Use of Density Instructions. +* Relax Directive:: Disable Assembler Relaxation. +* Longcalls Directive:: Use Indirect Calls for Greater Range. +* Generics Directive:: Disable All Assembler Transformations. +* Literal Directive:: Intermix Literals with Instructions. +* Literal Position Directive:: Specify Inline Literal Pool Locations. +* Literal Prefix Directive:: Specify Literal Section Name Prefix. +* Freeregs Directive:: List Registers Available for Assembler Use. +* Frame Directive:: Describe a stack frame. +@end menu + +@node Density Directive +@subsection density +@cindex @code{density} directive +@cindex @code{no-density} directive + +The @code{density} and @code{no-density} directives enable or disable +optimization of generic instructions into density instructions within +the region. @xref{Density Instructions, ,Using Density Instructions}. + +@smallexample + .begin [no-]density + .end [no-]density +@end smallexample + +This optimization is enabled by default unless the Xtensa configuration +does not support the code density option or the @samp{--no-density} +command-line option was specified. + +@node Relax Directive +@subsection relax +@cindex @code{relax} directive +@cindex @code{no-relax} directive + +The @code{relax} directive enables or disables relaxation +within the region. @xref{Xtensa Relaxation, ,Xtensa Relaxation}. +Note: In the current implementation, these directives also control +whether assembler optimizations are performed, making them equivalent to +the @code{generics} and @code{no-generics} directives. + +@smallexample + .begin [no-]relax + .end [no-]relax +@end smallexample + +Relaxation is enabled by default unless the @samp{--no-relax} +command-line option was specified. + +@node Longcalls Directive +@subsection longcalls +@cindex @code{longcalls} directive +@cindex @code{no-longcalls} directive + +The @code{longcalls} directive enables or disables function call +relaxation. @xref{Xtensa Call Relaxation, ,Function Call Relaxation}. + +@smallexample + .begin [no-]longcalls + .end [no-]longcalls +@end smallexample + +Call relaxation is disabled by default unless the @samp{--longcalls} +command-line option is specified. + +@node Generics Directive +@subsection generics +@cindex @code{generics} directive +@cindex @code{no-generics} directive + +This directive enables or disables all assembler transformation, +including relaxation (@pxref{Xtensa Relaxation, ,Xtensa Relaxation}) and +optimization (@pxref{Xtensa Optimizations, ,Xtensa Optimizations}). + +@smallexample + .begin [no-]generics + .end [no-]generics +@end smallexample + +Disabling generics is roughly equivalent to adding an underscore prefix +to every opcode within the region, so that every opcode is treated as a +specific opcode. @xref{Xtensa Opcodes, ,Opcode Names}. In the current +implementation of @code{@value{AS}}, built-in macros are also disabled +within a @code{no-generics} region. + +@node Literal Directive +@subsection literal +@cindex @code{literal} directive + +The @code{.literal} directive is used to define literal pool data, i.e., +read-only 32-bit data accessed via @code{L32R} instructions. + +@smallexample + .literal @var{label}, @var{value}[, @var{value}@dots{}] +@end smallexample + +This directive is similar to the standard @code{.word} directive, except +that the actual location of the literal data is determined by the +assembler and linker, not by the position of the @code{.literal} +directive. Using this directive gives the assembler freedom to locate +the literal data in the most appropriate place and possibly to combine +identical literals. For example, the code: + +@smallexample + entry sp, 40 + .literal .L1, sym + l32r a4, .L1 +@end smallexample + +can be used to load a pointer to the symbol @code{sym} into register +@code{a4}. The value of @code{sym} will not be placed between the +@code{ENTRY} and @code{L32R} instructions; instead, the assembler puts +the data in a literal pool. + +By default literal pools are placed in a separate section; however, when +using the @samp{--text-@-section-@-literals} option (@pxref{Xtensa +Options, ,Command Line Options}), the literal pools are placed in the +current section. These text section literal pools are created +automatically before @code{ENTRY} instructions and manually after +@samp{.literal_position} directives (@pxref{Literal Position Directive, +,literal_position}). If there are no preceding @code{ENTRY} +instructions or @code{.literal_position} directives, the assembler will +print a warning and place the literal pool at the beginning of the +current section. In such cases, explicit @code{.literal_position} +directives should be used to place the literal pools. + +@node Literal Position Directive +@subsection literal_position +@cindex @code{literal_position} directive + +When using @samp{--text-@-section-@-literals} to place literals inline +in the section being assembled, the @code{.literal_position} directive +can be used to mark a potential location for a literal pool. + +@smallexample + .literal_position +@end smallexample + +The @code{.literal_position} directive is ignored when the +@samp{--text-@-section-@-literals} option is not used. + +The assembler will automatically place text section literal pools +before @code{ENTRY} instructions, so the @code{.literal_position} +directive is only needed to specify some other location for a literal +pool. You may need to add an explicit jump instruction to skip over an +inline literal pool. + +For example, an interrupt vector does not begin with an @code{ENTRY} +instruction so the assembler will be unable to automatically find a good +place to put a literal pool. Moreover, the code for the interrupt +vector must be at a specific starting address, so the literal pool +cannot come before the start of the code. The literal pool for the +vector must be explicitly positioned in the middle of the vector (before +any uses of the literals, of course). The @code{.literal_position} +directive can be used to do this. In the following code, the literal +for @samp{M} will automatically be aligned correctly and is placed after +the unconditional jump. + +@smallexample + .global M +code_start: + j continue + .literal_position + .align 4 +continue: + movi a4, M +@end smallexample + +@node Literal Prefix Directive +@subsection literal_prefix +@cindex @code{literal_prefix} directive + +The @code{literal_prefix} directive allows you to specify different +sections to hold literals from different portions of an assembly file. +With this directive, a single assembly file can be used to generate code +into multiple sections, including literals generated by the assembler. + +@smallexample + .begin literal_prefix [@var{name}] + .end literal_prefix +@end smallexample + +For the code inside the delimited region, the assembler puts literals in +the section @code{@var{name}.literal}. If this section does not yet +exist, the assembler creates it. The @var{name} parameter is +optional. If @var{name} is not specified, the literal prefix is set to +the ``default'' for the file. This default is usually @code{.literal} +but can be changed with the @samp{--rename-section} command-line +argument. + +@node Freeregs Directive +@subsection freeregs +@cindex @code{freeregs} directive + +This directive tells the assembler that the given registers are unused +in the region. + +@smallexample + .begin freeregs @var{ri}[,@var{ri}@dots{}] + .end freeregs +@end smallexample + +This allows the assembler to use these registers for relaxations or +optimizations. (They are actually only for relaxations at present, but +the possibility of optimizations exists in the future.) + +Nested @code{freeregs} directives can be used to add additional registers +to the list of those available to the assembler. For example: + +@smallexample + .begin freeregs a3, a4 + .begin freeregs a5 +@end smallexample + +has the effect of declaring @code{a3}, @code{a4}, and @code{a5} all free. + +@node Frame Directive +@subsection frame +@cindex @code{frame} directive + +This directive tells the assembler to emit information to allow the +debugger to locate a function's stack frame. The syntax is: + +@smallexample + .frame @var{reg}, @var{size} +@end smallexample + +where @var{reg} is the register used to hold the frame pointer (usually +the same as the stack pointer) and @var{size} is the size in bytes of +the stack frame. The @code{.frame} directive is typically placed +immediately after the @code{ENTRY} instruction for a function. + +In almost all circumstances, this information just duplicates the +information given in the function's @code{ENTRY} instruction; however, +there are two cases where this is not true: + +@enumerate +@item +The size of the stack frame is too big to fit in the immediate field +of the @code{ENTRY} instruction. + +@item +The frame pointer is different than the stack pointer, as with functions +that call @code{alloca}. +@end enumerate + +@c Local Variables: +@c fill-column: 72 +@c End: diff --git a/gas/doc/internals.texi b/gas/doc/internals.texi index afff9f9..4e8a9d1 100644 --- a/gas/doc/internals.texi +++ b/gas/doc/internals.texi @@ -1450,6 +1450,10 @@ completed, but before the relocations have been generated. If you define this macro, GAS will call it after the relocs have been generated. +@item md_post_relax_hook +If you define this macro, GAS will call it after relaxing and sizing the +segments. + @item LISTING_HEADER A string to use on the header line of a listing. The default value is simply @code{"GAS LISTING"}. diff --git a/gas/testsuite/ChangeLog b/gas/testsuite/ChangeLog index 6f1f320..5582d16 100644 --- a/gas/testsuite/ChangeLog +++ b/gas/testsuite/ChangeLog @@ -1,3 +1,13 @@ +2003-04-01 Bob Wilson <bob.wilson@acm.org> + + * gas/xtensa/all.exp: New file. + * gas/xtensa/entry_align.s: Likewise. + * gas/xtensa/entry_misalign2.s: Likewise. + * gas/xtensa/entry_misalign.s: Likewise. + * gas/xtensa/j_too_far.s: Likewise. + * gas/xtensa/loop_align.s: Likewise. + * gas/xtensa/loop_misalign.s: Likewise. + 2003-03-25 Stan Cox <scox@redhat.com> Nick Clifton <nickc@redhat.com> diff --git a/gas/testsuite/gas/xtensa/all.exp b/gas/testsuite/gas/xtensa/all.exp new file mode 100644 index 0000000..e01c4a3 --- /dev/null +++ b/gas/testsuite/gas/xtensa/all.exp @@ -0,0 +1,98 @@ +# +# Some generic xtensa tests +# +if [istarget xtensa*-*-*] then { + gas_test_error "j_too_far.s" "" "Check for jump out of range error" + + set testname "j_too_far.s: error line number reporting" + gas_start "j_too_far.s" "" + set x1 0 + while 1 { + expect { + -re ":4: Error:.*too large" { set x1 1 } + timeout { perror "timeout\n"; break } + eof { break } + } + } + gas_finish + if [all_ones $x1] then { pass $testname } else { fail $testname } + + + gas_test "entry_misalign.s" "" "" "Xtensa Entry misalignment" + set testname "entry_misalign.s: Force entry misalignment" + objdump_start_no_subdir "a.out" "-d -j .text" + set x1 0 + while 1 { + expect { + -re "^.*2:.*entry" { set x1 1 } + timeout { perror "timeout\n"; break } + eof { break } + } + } + objdump_finish + if [all_ones $x1] then { pass $testname } else { fail $testname } + + + gas_test "entry_misalign2.s" "" "" "Xtensa Entry misalignment(2)" + set testname "entry_misalign2.s: Force entry misalignment(2)" + objdump_start_no_subdir "a.out" "-d -j .text" + set x1 0 + while 1 { + expect { + -re "^.*2:.*entry" { set x1 1 } + timeout { perror "timeout\n"; break } + eof { break } + } + } + objdump_finish + if [all_ones $x1] then { pass $testname } else { fail $testname } + + gas_test "entry_align.s" "" "" "Xtensa autoalign entry" + set testname "entry_align.s: autoalign entry" + objdump_start_no_subdir "a.out" "-d -j .text" + set x1 0 + while 1 { + expect { + -re "^.*4:.*entry" { set x1 1 } + timeout { perror "timeout\n"; break } + eof { break } + } + } + objdump_finish + if [all_ones $x1] then { pass $testname } else { fail $testname } + + gas_test "loop_misalign.s" "" "" "Xtensa Loop misalignment" + set testname "loop_misalign.s: Force loop misalignment" + objdump_start_no_subdir "a.out" "-d -j .text" + set x1 0 + while 1 { + expect { + -re "^.*0:.*loop" { set x1 1 } + timeout { perror "timeout\n"; break } + eof { break } + } + } + objdump_finish + if [all_ones $x1] then { pass $testname } else { fail $testname } + + + gas_test "loop_align.s" "" "" "Xtensa autoalign loop" + set testname "loop_align.s: autoalign loop" + objdump_start_no_subdir "a.out" "-d -j .text" + set x1 0 + while 1 { + expect { + -re "^.*2:.*loop" { set x1 1 } + timeout { perror "timeout\n"; break } + eof { break } + } + } + objdump_finish + if [all_ones $x1] then { pass $testname } else { fail $testname } + + +} + +if [info exists errorInfo] then { + unset errorInfo + } diff --git a/gas/testsuite/gas/xtensa/entry_align.s b/gas/testsuite/gas/xtensa/entry_align.s new file mode 100644 index 0000000..df8d1de --- /dev/null +++ b/gas/testsuite/gas/xtensa/entry_align.s @@ -0,0 +1,4 @@ + _nop.n +l4: + entry a5,16 + _mov.n a4,a5 diff --git a/gas/testsuite/gas/xtensa/entry_misalign.s b/gas/testsuite/gas/xtensa/entry_misalign.s new file mode 100644 index 0000000..c3e243a --- /dev/null +++ b/gas/testsuite/gas/xtensa/entry_misalign.s @@ -0,0 +1,4 @@ + _nop.n +l4: + _entry a5,16 + _mov.n a4,a5 diff --git a/gas/testsuite/gas/xtensa/entry_misalign2.s b/gas/testsuite/gas/xtensa/entry_misalign2.s new file mode 100644 index 0000000..5d48b6c --- /dev/null +++ b/gas/testsuite/gas/xtensa/entry_misalign2.s @@ -0,0 +1,6 @@ + .begin no-generics + nop.n +l4: + entry a5,16 + mov.n a4,a5 + .end no-generics diff --git a/gas/testsuite/gas/xtensa/j_too_far.s b/gas/testsuite/gas/xtensa/j_too_far.s new file mode 100644 index 0000000..3348d85 --- /dev/null +++ b/gas/testsuite/gas/xtensa/j_too_far.s @@ -0,0 +1,8 @@ + .text + .align 4 + entry a5,16 + j too_far + .fill 150000 +too_far: + nop + nop diff --git a/gas/testsuite/gas/xtensa/loop_align.s b/gas/testsuite/gas/xtensa/loop_align.s new file mode 100644 index 0000000..25ebc12 --- /dev/null +++ b/gas/testsuite/gas/xtensa/loop_align.s @@ -0,0 +1,5 @@ +l4: + loop a5,l5 + _mov.n a4,a5 +l5: + _nop.n diff --git a/gas/testsuite/gas/xtensa/loop_misalign.s b/gas/testsuite/gas/xtensa/loop_misalign.s new file mode 100644 index 0000000..bb4c6e3 --- /dev/null +++ b/gas/testsuite/gas/xtensa/loop_misalign.s @@ -0,0 +1,5 @@ +l4: + _loop a5,l5 + _mov.n a4,a5 +l5: + _nop.n diff --git a/gas/write.c b/gas/write.c index f5db82e..e4ce91c 100644 --- a/gas/write.c +++ b/gas/write.c @@ -1586,6 +1586,10 @@ write_object_file () /* Relaxation has completed. Freeze all syms. */ finalize_syms = 1; +#ifdef md_post_relax_hook + md_post_relax_hook; +#endif + #ifndef BFD_ASSEMBLER /* Crawl the symbol chain. |