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|
/* tc-nds32.c -- Assemble for the nds32
Copyright (C) 2012-2013 Free Software Foundation, Inc.
Contributed by Andes Technology Corporation.
This file is part of GAS, the GNU Assembler.
GAS is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GAS is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GAS; see the file COPYING. If not, write to the Free
Software Foundation, 51 Franklin Street - Fifth Floor, Boston, MA
02110-1301, USA. */
#include "as.h"
#include "safe-ctype.h"
#include "subsegs.h"
#include "symcat.h"
#include "dwarf2dbg.h"
#include "dw2gencfi.h"
#include "opcodes/nds32-asm.h"
#include "elf/nds32.h"
#include "bfd/elf32-nds32.h"
#include "hash.h"
#include "sb.h"
#include "macro.h"
#include "struc-symbol.h"
#include "opcode/nds32.h"
#include <stdio.h>
/* GAS definitions. */
/* Characters which start a comment. */
const char comment_chars[] = "!";
/* Characters which start a comment when they appear at the start of a line. */
const char line_comment_chars[] = "#!";
/* Characters which separate lines (null and newline are by default). */
const char line_separator_chars[] = ";";
/* Characters which may be used as the exponent character
in a floating point number. */
const char EXP_CHARS[] = "eE";
/* Characters which may be used to indicate a floating point constant. */
const char FLT_CHARS[] = "dDfF";
static int enable_16bit = 1;
/* Save for md_assemble to distinguish if this instruction is
expanded from the pseudo instruction. */
static bfd_boolean pseudo_opcode = FALSE;
static struct nds32_relocs_pattern *relocs_list = NULL;
struct nds32_relocs_pattern
{
segT seg;
fragS *frag;
frchainS *frchain;
symbolS *sym;
int reloc;
unsigned int insn;
unsigned int size;
char *where;
struct nds32_relocs_pattern *next;
};
/*
static int relax_jal_bound = 3;
static int multi_call_relax;
static int pltgot_call_relax;
*/
static int vec_size = 0;
/* If the assembly code is generated by compiler, it is supposed to have
".flag verbatim" at beginning of the content. We have
'nds32_flag' to parse it and set this field to be non-zero. */
static int verbatim = 0;
static struct hash_control *nds32_gprs_hash;
static struct hash_control *nds32_hint_hash;
/* Generate relocation for relax or not, and the default is true. */
static int enable_relax_relocs = 1;
/* The value will be used in RELAX_ENTRY. */
static int enable_relax_ex9 = 0;
/* The value will be used in RELAX_ENTRY. */
static int enable_relax_ifc = 0;
/* Save option -O for perfomance. */
static int optimize = 0;
/* Save option -Os for code size. */
static int optimize_for_space = 0;
struct nds32_keyword nds32_fsrs[] =
{
/* Standard names. */
{"$fs0", 0, 0}, {"$fs1", 1, 0}, {"$fs2", 2, 0}, {"$fs3", 3, 0},
{"$fs4", 4, 0}, {"$fs5", 5, 0}, {"$fs6", 6, 0}, {"$fs7", 7, 0},
{"$fs8", 8, 0}, {"$fs9", 9, 0}, {"$fs10", 10, 0}, {"$fs11", 11, 0},
{"$fs12", 12, 0}, {"$fs13", 13, 0}, {"$fs14", 14, 0}, {"$fs15", 15, 0},
{"$fs16", 16, 0}, {"$fs17", 17, 0}, {"$fs18", 18, 0}, {"$fs19", 19, 0},
{"$fs20", 20, 0}, {"$fs21", 21, 0}, {"$fs22", 22, 0}, {"$fs23", 23, 0},
{"$fs24", 24, 0}, {"$fs25", 25, 0}, {"$fs26", 26, 0}, {"$fs27", 27, 0},
{"$fs28", 28, 0}, {"$fs29", 29, 0}, {"$fs30", 30, 0}, {"$fs31", 31, 0},
{NULL, 0, 0}
};
struct nds32_keyword nds32_fdrs[] =
{
/* Standard names. */
{"$fd0", 0, 0}, {"$fd1", 1, 0}, {"$fd2", 2, 0}, {"$fd3", 3, 0},
{"$fd4", 4, 0}, {"$fd5", 5, 0}, {"$fd6", 6, 0}, {"$fd7", 7, 0},
{"$fd8", 8, 0}, {"$fd9", 9, 0}, {"$fd10", 10, 0}, {"$fd11", 11, 0},
{"$fd12", 12, 0}, {"$fd13", 13, 0}, {"$fd14", 14, 0}, {"$fd15", 15, 0},
{"$fd16", 16, 0}, {"$fd17", 17, 0}, {"$fd18", 18, 0}, {"$fd19", 19, 0},
{"$fd20", 20, 0}, {"$fd21", 21, 0}, {"$fd22", 22, 0}, {"$fd23", 23, 0},
{"$fd24", 24, 0}, {"$fd25", 25, 0}, {"$fd26", 26, 0}, {"$fd27", 27, 0},
{"$fd28", 28, 0}, {"$fd29", 29, 0}, {"$fd30", 30, 0}, {"$fd31", 31, 0},
{NULL, 0, 0}
};
struct nds32_keyword nds32_gprs[] =
{
/* Standard names. */
{"$r0", 0, 0}, {"$r1", 1, 0}, {"$r2", 2, 0}, {"$r3", 3, 0},
{"$r4", 4, 0}, {"$r5", 5, 0}, {"$r6", 6, 0}, {"$r7", 7, 0},
{"$r8", 8, 0}, {"$r9", 9, 0}, {"$r10", 10, 0}, {"$r11", 11, 0},
{"$r12", 12, 0}, {"$r13", 13, 0}, {"$r14", 14, 0}, {"$r15", 15, 0},
{"$r16", 16, 0}, {"$r17", 17, 0}, {"$r18", 18, 0}, {"$r19", 19, 0},
{"$r20", 20, 0}, {"$r21", 21, 0}, {"$r22", 22, 0}, {"$r23", 23, 0},
{"$r24", 24, 0}, {"$r25", 25, 0}, {"$r26", 26, 0}, {"$r27", 27, 0},
{"$r28", 28, 0}, {"$r29", 29, 0}, {"$r30", 30, 0}, {"$r31", 31, 0},
/* Names for parameter passing. */
{"$a0", 0, 0}, {"$a1", 1, 0}, {"$a2", 2, 0}, {"$a3", 3, 0},
{"$a4", 4, 0}, {"$a5", 5, 0},
/* Names reserved for 5-bit addressing only. */
{"$s0", 6, 0}, {"$s1", 7, 0}, {"$s2", 8, 0}, {"$s3", 9, 0},
{"$s4", 10, 0}, {"$s5", 11, 0}, {"$s6", 12, 0}, {"$s7", 13, 0},
{"$s8", 14, 0}, {"$s9", 28, 0},
{"$ta", 15, 0},
{"$t0", 16, 0}, {"$t1", 17, 0}, {"$t2", 18, 0}, {"$t3", 19, 0},
{"$t4", 20, 0}, {"$t5", 21, 0}, {"$t6", 22, 0}, {"$t7", 23, 0},
{"$t8", 24, 0}, {"$t9", 25, 0},
{"$p0", 26, 0}, {"$p1", 27, 0},
{"$fp", 28, 0}, {"$gp", 29, 0}, {"$lp", 30, 0}, {"$sp", 31, 0},
/* Names reserved for 4-bit addressing only. */
{"$h0", 0, 0}, {"$h1", 1, 0}, {"$h2", 2, 0}, {"$h3", 3, 0},
{"$h4", 4, 0}, {"$h5", 5, 0}, {"$h6", 6, 0}, {"$h7", 7, 0},
{"$h8", 8, 0}, {"$h9", 9, 0}, {"$h10", 10, 0}, {"$h11", 11, 0},
{"$h12", 16, 0}, {"$h13", 17, 0}, {"$h14", 18, 0}, {"$h15", 19, 0},
/* Names reserved for 3-bit addressing only. */
{"$o0", 0, 0}, {"$o1", 1, 0}, {"$o2", 2, 0}, {"$o3", 3, 0},
{"$o4", 4, 0}, {"$o5", 5, 0}, {"$o6", 6, 0}, {"$o7", 7, 0},
{NULL, 0, 0}
};
static struct hash_control *nds32_relax_info_hash;
static relax_info_t relax_table[] =
{
{
"jal", /* opcode */
BR_RANGE_S16M, /* br_range */
{{0, 0, 0}}, /* cond_field */
{
{
INSN_JAL /* jal label */
}, /* BR_RANGE_S256 */
{
INSN_JAL /* jal label */
}, /* BR_RANGE_S16K */
{
INSN_JAL /* jal label */
}, /* BR_RANGE_S64K */
{
INSN_JAL /* jal label */
}, /* BR_RANGE_S16M */
{
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JRAL_TA
}, /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{{0, 0, 0}}, /* BR_RANGE_S256 */
{{0, 0, 0}}, /* BR_RANGE_S16K */
{{0, 0, 0}}, /* BR_RANGE_S64K */
{{0, 0, 0}}, /* BR_RANGE_S16M */
{{0, 0, 0}} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{4, 4, 4, 4, 12}, /* relax_code_size */
{4, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, 0, BFD_RELOC_NDS32_HI20},
{0, 12, NDS32_RELAX, BFD_RELOC_NDS32_LONGCALL1},
{4, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{8, 4, NDS32_ORIGIN, 0},
{8, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"bltzal", /* opcode */
BR_RANGE_S64K, /* br_range */
{
{0, 20, 0x1F},
{ 0, 0, 0 }
}, /* cond_field */
{
{
INSN_BLTZAL /* bltzal $rt, label */
}, /* BR_RANGE_S256 */
{
INSN_BLTZAL /* bltzal $rt, label */
}, /* BR_RANGE_S16K */
{
INSN_BLTZAL /* bltzal $rt, label */
}, /* BR_RANGE_S64K */
{
INSN_BGEZ, /* bgez $rt, $1 */
INSN_JAL /* jal label */
}, /* BR_RANGE_S16M */
{
INSN_BGEZ, /* bgez $rt, $1 */
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JRAL_TA /* jral $ta */
} /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 20, 0x1F},
{0, 0, 0}
} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{4, 4, 4, 8, 16}, /* relax_code_size */
{4, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, NDS32_CREATE_LABLE, BFD_RELOC_NDS32_17_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGCALL2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, NDS32_CREATE_LABLE, BFD_RELOC_NDS32_17_PCREL},
{0, 16, NDS32_RELAX, BFD_RELOC_NDS32_LONGCALL3},
{4, 4, 0, BFD_RELOC_NDS32_HI20},
{8, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{12, 4, NDS32_ORIGIN, 0},
{12, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"bgezal", /* opcode */
BR_RANGE_S64K, /* br_range */
{
{0, 20, 0x1F},
{ 0, 0, 0 }
}, /* cond_field */
{
{
INSN_BGEZAL /* bgezal $rt, label */
}, /* BR_RANGE_S256 */
{
INSN_BGEZAL /* bgezal $rt, label */
}, /* BR_RANGE_S16K */
{
INSN_BGEZAL /* bgezal $rt, label */
}, /* BR_RANGE_S64K */
{
INSN_BLTZ, /* bltz $rt, $1 */
INSN_JAL /* jal label */
}, /* BR_RANGE_S16M */
{
INSN_BLTZ, /* bltz $rt, $1 */
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JRAL_TA /* jral $ta */
} /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 20, 0x1F},
{0, 0, 0}
} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{4, 4, 4, 8, 16}, /* relax_code_size */
{4, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, NDS32_CREATE_LABLE, BFD_RELOC_NDS32_17_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGCALL2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, NDS32_CREATE_LABLE, BFD_RELOC_NDS32_17_PCREL},
{0, 16, NDS32_RELAX, BFD_RELOC_NDS32_LONGCALL3},
{4, 4, 0, BFD_RELOC_NDS32_HI20},
{8, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{12, 4, NDS32_ORIGIN, 0},
{12, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"j", /* opcode */
BR_RANGE_S16M, /* br_range */
{{0, 0, 0}}, /* cond_field */
{
{
(INSN_J8 << 16) /* j8 label */
}, /* BR_RANGE_S256 */
{
INSN_J /* j label */
}, /* BR_RANGE_S16K */
{
INSN_J /* j label */
}, /* BR_RANGE_S64K */
{
INSN_J /* j label */
}, /* BR_RANGE_S16M */
{
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JR_TA /* jr $ta */
}, /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{{0, 0, 0}}, /* BR_RANGE_S256 */
{{0, 0, 0}}, /* BR_RANGE_S16K */
{{0, 0, 0}}, /* BR_RANGE_S64K */
{{0, 0, 0}}, /* BR_RANGE_S16M */
{{0, 0, 0}} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{2, 4, 4, 4, 12}, /* relax_code_size */
{2, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 2, 0, BFD_RELOC_NDS32_9_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, 0, BFD_RELOC_NDS32_HI20},
{0, 12, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP1},
{4, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{8, 4, NDS32_ORIGIN, 0},
{8, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"j8", /* opcode */
BR_RANGE_S256, /* br_range */
{{0, 0, 0}}, /* cond_field */
{
{
(INSN_J8 << 16) /* j8 label */
}, /* BR_RANGE_S256 */
{
INSN_J /* j label */
}, /* BR_RANGE_S16K */
{
INSN_J /* j label */
}, /* BR_RANGE_S64K */
{
INSN_J /* j label */
}, /* BR_RANGE_S16M */
{
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JR_TA /* jr $ta */
}, /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{{0, 0, 0}}, /* BR_RANGE_S256 */
{{0, 0, 0}}, /* BR_RANGE_S16K */
{{0, 0, 0}}, /* BR_RANGE_S64K */
{{0, 0, 0}}, /* BR_RANGE_S16M */
{{0, 0, 0}} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{2, 4, 4, 4, 12}, /* relax_code_size */
{2, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 2, 0, BFD_RELOC_NDS32_9_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, 0, BFD_RELOC_NDS32_HI20},
{0, 12, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP1},
{4, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{8, 4, NDS32_ORIGIN, 0},
{8, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"beqz", /* opcode */
BR_RANGE_S64K, /* br_range */
{
{0, 20, 0x1F},
{ 0, 0, 0 }
}, /* cond_field */
{
{
INSN_BEQZ /* beqz $rt, label */
}, /* BR_RANGE_S256 */
{
INSN_BEQZ /* beqz $rt, label */
}, /* BR_RANGE_S16K */
{
INSN_BEQZ /* beqz $rt, label */
}, /* BR_RANGE_S64K */
{
INSN_BNEZ, /* bnez $rt, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S16M */
{
INSN_BNEZ, /* bnez $rt, $1 */
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JR_TA /* jr $ta */
} /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 20, 0x1F},
{0, 0, 0}
} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{4, 4, 4, 8, 16}, /* relax_code_size */
{4, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 2, NDS32_CONVERT, BFD_RELOC_NDS32_9_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 16, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP3},
{4, 4, 0, BFD_RELOC_NDS32_HI20},
{8, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{12, 4, NDS32_ORIGIN, 0},
{12, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"bgez", /* opcode */
BR_RANGE_S64K, /* br_range */
{
{0, 20, 0x1F},
{ 0, 0, 0 }
}, /* cond_field */
{
{
INSN_BGEZ /* bgez $rt, label */
}, /* BR_RANGE_S256 */
{
INSN_BGEZ /* bgez $rt, label */
}, /* BR_RANGE_S16K */
{
INSN_BGEZ /* bgez $rt, label */
}, /* BR_RANGE_S64K */
{
INSN_BLTZ, /* bltz $rt, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S16M */
{
INSN_BLTZ, /* bltz $rt, $1 */
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JR_TA /* jr $ta */
} /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 20, 0x1F},
{0, 0, 0}
} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{4, 4, 4, 8, 16}, /* relax_code_size */
{4, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 16, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP3},
{4, 4, 0, BFD_RELOC_NDS32_HI20},
{8, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{12, 4, NDS32_ORIGIN, 0},
{12, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"bnez", /* opcode */
BR_RANGE_S64K, /* br_range */
{
{0, 20, 0x1F},
{ 0, 0, 0 }
}, /* cond_field */
{
{
INSN_BNEZ /* bnez $rt, label */
}, /* BR_RANGE_S256 */
{
INSN_BNEZ /* bnez $rt, label */
}, /* BR_RANGE_S16K */
{
INSN_BNEZ /* bnez $rt, label */
}, /* BR_RANGE_S64K */
{
INSN_BEQZ, /* beqz $rt, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S16M */
{
INSN_BEQZ, /* beqz $rt, $1 */
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JR_TA /* jr $ta */
} /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 20, 0x1F},
{0, 0, 0}
} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{4, 4, 4, 8, 16}, /* relax_code_size */
{4, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 2, NDS32_CONVERT, BFD_RELOC_NDS32_9_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 16, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP3},
{4, 4, 0, BFD_RELOC_NDS32_HI20},
{8, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{12, 4, NDS32_ORIGIN, 0},
{12, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"bgtz", /* opcode */
BR_RANGE_S64K, /* br_range */
{
{0, 20, 0x1F},
{ 0, 0, 0 }
}, /* cond_field */
{
{
INSN_BGTZ /* bgtz $rt, label */
}, /* BR_RANGE_S256 */
{
INSN_BGTZ /* bgtz $rt, label */
}, /* BR_RANGE_S16K */
{
INSN_BGTZ /* bgtz $rt, label */
}, /* BR_RANGE_S64K */
{
INSN_BLEZ, /* blez $rt, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S16M */
{
INSN_BLEZ, /* blez $rt, $1 */
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JR_TA /* jr $ta */
} /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 20, 0x1F},
{0, 0, 0}
} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{4, 4, 4, 8, 16}, /* relax_code_size */
{4, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 16, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP3},
{4, 4, 0, BFD_RELOC_NDS32_HI20},
{8, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{12, 4, NDS32_ORIGIN, 0},
{12, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"blez", /* opcode */
BR_RANGE_S64K, /* br_range */
{
{0, 20, 0x1F},
{ 0, 0, 0 }
}, /* cond_field */
{
{
INSN_BLEZ /* blez $rt, label */
}, /* BR_RANGE_S256 */
{
INSN_BLEZ /* blez $rt, label */
}, /* BR_RANGE_S16K */
{
INSN_BLEZ /* blez $rt, label */
}, /* BR_RANGE_S64K */
{
INSN_BGTZ, /* bgtz $rt, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S16M */
{
INSN_BGTZ, /* bgtz $rt, $1 */
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JR_TA /* jr $ta */
} /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 20, 0x1F},
{0, 0, 0}
} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{4, 4, 4, 8, 16}, /* relax_code_size */
{4, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 16, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP3},
{4, 4, 0, BFD_RELOC_NDS32_HI20},
{8, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{12, 4, NDS32_ORIGIN, 0},
{12, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"bltz", /* opcode */
BR_RANGE_S64K, /* br_range */
{
{0, 20, 0x1F},
{ 0, 0, 0 }
}, /* cond_field */
{
{
INSN_BLTZ /* bltz $rt, label */
}, /* BR_RANGE_S256 */
{
INSN_BLTZ /* bltz $rt, label */
}, /* BR_RANGE_S16K */
{
INSN_BLTZ /* bltz $rt, label */
}, /* BR_RANGE_S64K */
{
INSN_BGEZ, /* bgez $rt, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S16M */
{
INSN_BGEZ, /* bgez $rt, $1 */
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JR_TA /* jr $ta */
} /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 20, 0x1F},
{0, 0, 0}
} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{4, 4, 4, 8, 16}, /* relax_code_size */
{4, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 16, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP3},
{4, 4, 0, BFD_RELOC_NDS32_HI20},
{8, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{12, 4, NDS32_ORIGIN, 0},
{12, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"beq", /* opcode */
BR_RANGE_S16K, /* br_range */
{
{0, 20, 0x1F},
{0, 15, 0x1F},
{ 0, 0, 0 }
}, /* cond_field */
{
{
INSN_BEQ /* beq $rt, $ra, label */
}, /* BR_RANGE_S256 */
{
INSN_BEQ /* beq $rt, $ra, label */
}, /* BR_RANGE_S16K */
{
INSN_BNE, /* bne $rt, $ra, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S64K */
{
INSN_BNE, /* bne $rt, $ra, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S16M */
{
INSN_BNE, /* bne $rt, $ra, $1 */
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JR_TA /* jr $ta */
} /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{
{0, 20, 0x1F},
{0, 15, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 20, 0x1F},
{0, 15, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 20, 0x1F},
{0, 15, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 20, 0x1F},
{0, 15, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 20, 0x1F},
{0, 15, 0x1F},
{0, 0, 0}
} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{4, 4, 8, 8, 16}, /* relax_code_size */
{4, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 4, NDS32_ORIGIN, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT, BFD_RELOC_NDS32_9_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 4, 0, BFD_RELOC_NDS32_15_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 16, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP3},
{4, 4, 0, BFD_RELOC_NDS32_HI20},
{8, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{12, 4, NDS32_ORIGIN, 0},
{12, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"bne", /* opcode */
BR_RANGE_S16K, /* br_range */
{
{0, 20, 0x1F},
{0, 15, 0x1F},
{ 0, 0, 0 }
}, /* cond_field */
{
{
INSN_BNE /* bne $rt, $ra, label */
}, /* BR_RANGE_S256 */
{
INSN_BNE /* bne $rt, $ra, label */
}, /* BR_RANGE_S16K */
{
INSN_BEQ, /* beq $rt, $ra, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S64K */
{
INSN_BEQ, /* beq $rt, $ra, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S16M */
{
INSN_BEQ, /* beq $rt, $ra, $1 */
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JR_TA /* jr $ta */
} /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{
{0, 20, 0x1F},
{0, 15, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 20, 0x1F},
{0, 15, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 20, 0x1F},
{0, 15, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 20, 0x1F},
{0, 15, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 20, 0x1F},
{0, 15, 0x1F},
{0, 0, 0}
} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{4, 4, 8, 8, 16}, /* relax_code_size */
{4, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 4, NDS32_ORIGIN, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT, BFD_RELOC_NDS32_9_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 4, 0, BFD_RELOC_NDS32_15_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 16, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP3},
{4, 4, 0, BFD_RELOC_NDS32_HI20},
{8, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{12, 4, NDS32_ORIGIN, 0},
{12, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"beqz38", /* opcode */
BR_RANGE_S256, /* br_range */
{
{0, 8, 0x7},
{ 0, 0, 0 }
}, /* cond_field */
{
{
INSN_BEQZ /* beqz $rt, label */
}, /* BR_RANGE_S256 */
{
INSN_BEQZ /* beqz $rt, label */
}, /* BR_RANGE_S16K */
{
INSN_BEQZ /* beqz $rt, label */
}, /* BR_RANGE_S64K */
{
INSN_BNEZ, /* bnez $rt, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S16M */
{
INSN_BNEZ, /* bnez $rt, $1 */
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JR_TA /* jr $ta */
} /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 20, 0x1F},
{0, 0, 0}
} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{4, 4, 4, 8, 16}, /* relax_code_size */
{4, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 4, NDS32_ORIGIN, BFD_RELOC_NDS32_17_PCREL},
{0, 2, NDS32_CONVERT, BFD_RELOC_NDS32_9_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 16, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP3},
{4, 4, 0, BFD_RELOC_NDS32_HI20},
{8, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{12, 4, NDS32_ORIGIN, 0},
{12, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"bnez38", /* opcode */
BR_RANGE_S256, /* br_range */
{
{0, 8, 0x7},
{ 0, 0, 0 }
}, /* cond_field */
{
{
INSN_BNEZ /* bnez $rt, label */
}, /* BR_RANGE_S256 */
{
INSN_BNEZ /* bnez $rt, label */
}, /* BR_RANGE_S16K */
{
INSN_BNEZ /* bnez $rt, label */
}, /* BR_RANGE_S64K */
{
INSN_BEQZ, /* beqz $rt, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S16M */
{
INSN_BEQZ, /* beqz $rt, $1 */
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JR_TA /* jr $ta */
} /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 20, 0x1F},
{0, 0, 0}
} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{4, 4, 4, 8, 16}, /* relax_code_size */
{4, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 4, NDS32_ORIGIN, BFD_RELOC_NDS32_17_PCREL},
{0, 2, NDS32_CONVERT, BFD_RELOC_NDS32_9_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 16, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP3},
{4, 4, 0, BFD_RELOC_NDS32_HI20},
{8, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{12, 4, NDS32_ORIGIN, 0},
{12, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"beqzs8", /* opcode */
BR_RANGE_S256, /* br_range */
{{0, 0, 0}}, /* cond_field */
{
{
INSN_BEQZ_TA /* beqz $r15, label */
}, /* BR_RANGE_S256 */
{
INSN_BNEZ /* bnez $rt, label */
}, /* BR_RANGE_S16K */
{
INSN_BNEZ /* bnez $rt, label */
}, /* BR_RANGE_S64K */
{
INSN_BNEZ_TA, /* bnez $r15, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S16M */
{
INSN_BNEZ_TA, /* bnez $r15, $1 */
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JR_TA /* jr $ta */
} /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{{0, 0, 0}}, /* BR_RANGE_S256 */
{{0, 0, 0}}, /* BR_RANGE_S16K */
{{0, 0, 0}}, /* BR_RANGE_S64K */
{{0, 0, 0}}, /* BR_RANGE_S16M */
{{0, 0, 0}} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{4, 4, 4, 8, 16}, /* relax_code_size */
{4, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 4, NDS32_ORIGIN, BFD_RELOC_NDS32_17_PCREL},
{0, 2, NDS32_CONVERT, BFD_RELOC_NDS32_9_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 16, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP3},
{4, 4, 0, BFD_RELOC_NDS32_HI20},
{8, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{12, 4, NDS32_ORIGIN, 0},
{12, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"bnezs8", /* opcode */
BR_RANGE_S256, /* br_range */
{{0, 0, 0}}, /* cond_field */
{
{
INSN_BNEZ_TA /* bnez $r15, label */
}, /* BR_RANGE_S256 */
{
INSN_BNEZ_TA /* bnez $r15, label */
}, /* BR_RANGE_S16K */
{
INSN_BNEZ_TA /* bnez $r15, label */
}, /* BR_RANGE_S64K */
{
INSN_BEQZ_TA, /* beqz $r15, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S16M */
{
INSN_BEQZ_TA, /* beqz $r15, $1 */
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JR_TA /* jr $ta */
} /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{{0, 0, 0}}, /* BR_RANGE_S256 */
{{0, 0, 0}}, /* BR_RANGE_S16K */
{{0, 0, 0}}, /* BR_RANGE_S64K */
{{0, 0, 0}}, /* BR_RANGE_S16M */
{{0, 0, 0}} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{4, 4, 4, 8, 16}, /* relax_code_size */
{4, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 4, NDS32_ORIGIN, BFD_RELOC_NDS32_17_PCREL},
{0, 2, NDS32_CONVERT, BFD_RELOC_NDS32_9_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 4, 0, BFD_RELOC_NDS32_17_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 16, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP3},
{4, 4, 0, BFD_RELOC_NDS32_HI20},
{8, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{12, 4, NDS32_ORIGIN, 0},
{12, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"bnes38", /* opcode */
BR_RANGE_S256, /* br_range */
{
{0, 8, 0x7},
{ 0, 0, 0 }
}, /* cond_field */
{
{
INSN_BNE_R5 /* bne $rt, $r5, label */
}, /* BR_RANGE_S256 */
{
INSN_BNE_R5 /* bne $rt, $r5, label */
}, /* BR_RANGE_S16K */
{
INSN_BEQ_R5, /* beq $rt, $r5, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S64K */
{
INSN_BEQ_R5, /* beq $rt, $r5, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S16M */
{
INSN_BEQ_R5, /* beq $rt, $r5, $1 */
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JR_TA /* jr $ta */
} /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 20, 0x1F},
{0, 0, 0}
} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{4, 4, 8, 8, 16}, /* relax_code_size */
{4, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 4, NDS32_ORIGIN, BFD_RELOC_NDS32_17_PCREL},
{0, 2, NDS32_CONVERT, BFD_RELOC_NDS32_9_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 4, 0, BFD_RELOC_NDS32_15_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 16, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP3},
{4, 4, 0, BFD_RELOC_NDS32_HI20},
{8, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{12, 4, NDS32_ORIGIN, 0},
{12, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"beqs38", /* opcode */
BR_RANGE_S256, /* br_range */
{
{0, 8, 0x7},
{ 0, 0, 0 }
}, /* cond_field */
{
{
INSN_BEQ_R5 /* beq $rt, $r5, label */
}, /* BR_RANGE_S256 */
{
INSN_BEQ_R5 /* beq $rt, $r5, label */
}, /* BR_RANGE_S16K */
{
INSN_BNE_R5, /* bne $rt, $r5, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S64K */
{
INSN_BNE_R5, /* bne $rt, $r5, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S16M */
{
INSN_BNE_R5, /* bne $rt, $r5, $1 */
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JR_TA /* jr $ta */
} /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 20, 0x1F},
{0, 0, 0}
} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{4, 4, 8, 8, 16}, /* relax_code_size */
{4, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 4, NDS32_ORIGIN, BFD_RELOC_NDS32_17_PCREL},
{0, 2, NDS32_CONVERT, BFD_RELOC_NDS32_9_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 4, 0, BFD_RELOC_NDS32_15_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 8, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP2},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, NDS32_ORIGIN| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_15_PCREL},
{0, 2, NDS32_CONVERT| NDS32_CREATE_LABLE, BFD_RELOC_NDS32_9_PCREL},
{0, 16, NDS32_RELAX, BFD_RELOC_NDS32_LONGJUMP3},
{4, 4, 0, BFD_RELOC_NDS32_HI20},
{8, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{12, 4, NDS32_ORIGIN, 0},
{12, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"beqc", /* opcode */
BR_RANGE_S256, /* br_range */
{
{0, 8, 0x7FF},
{0, 20, 0x1F},
{0, 0, 0}
}, /* cond_field */
{
{
INSN_BEQC /* beqc $rt, imm11s, label */
}, /* BR_RANGE_S256 */
{
INSN_MOVI_TA, /* movi $ta, imm11s */
INSN_BEQ_TA /* beq $rt, $ta, label */
}, /* BR_RANGE_S16K */
{
INSN_MOVI_TA, /* movi $ta, imm11s */
INSN_BEQ_TA /* beq $rt, $ta, label */
}, /* BR_RANGE_S64K */
{
INSN_BNEC, /* bnec $rt, imm11s, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S16M */
{
INSN_BNEC, /* bnec $rt, imm11s, $1 */
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JR_TA /* jr $ta */
} /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{
{0, 8, 0x7FF},
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 0, 0xFFFFF},
{4, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 0, 0xFFFFF},
{4, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 8, 0x7FF},
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 8, 0x7FF},
{0, 20, 0x1F},
{0, 0, 0}
} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{4, 8, 8, 8, 16}, /* relax_code_size */
{4, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 4, 0, BFD_RELOC_NDS32_WORD_9_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{4, 4, 0, BFD_RELOC_NDS32_15_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{4, 4, 0, BFD_RELOC_NDS32_15_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, NDS32_CREATE_LABLE, BFD_RELOC_NDS32_WORD_9_PCREL},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, NDS32_CREATE_LABLE, BFD_RELOC_NDS32_WORD_9_PCREL},
{4, 4, 0, BFD_RELOC_NDS32_HI20},
{8, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{12, 4, NDS32_ORIGIN, 0},
{12, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
"bnec", /* opcode */
BR_RANGE_S256, /* br_range */
{
{0, 8, 0x7FF},
{0, 20, 0x1F},
{0, 0, 0}
}, /* cond_field */
{
{
INSN_BNEC /* bnec $rt, imm11s, label */
}, /* BR_RANGE_S256 */
{
INSN_MOVI_TA, /* movi $ta, imm11s */
INSN_BNE_TA /* bne $rt, $ta, label */
}, /* BR_RANGE_S16K */
{
INSN_MOVI_TA, /* movi $ta, imm11s */
INSN_BNE_TA /* bne $rt, $ta, label */
}, /* BR_RANGE_S64K */
{
INSN_BEQC, /* beqc $rt, imm11s, $1 */
INSN_J /* j label */
}, /* BR_RANGE_S16M */
{
INSN_BEQC, /* beqc $rt, imm11s, $1 */
INSN_SETHI_TA, /* sethi $ta, label */
INSN_ORI_TA, /* ori $ta, $ta, label */
INSN_JR_TA /* jr $ta */
} /* BR_RANGE_U4G */
}, /* relax_code_seq */
{
{
{0, 8, 0x7FF},
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S256 */
{
{0, 0, 0xFFFFF},
{4, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16K */
{
{0, 0, 0xFFFFF},
{4, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 8, 0x7FF},
{0, 20, 0x1F},
{0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 8, 0x7FF},
{0, 20, 0x1F},
{0, 0, 0}
} /* BR_RANGE_U4G */
}, /* relax_code_condition */
{4, 8, 8, 8, 16}, /* relax_code_size */
{4, 4, 4, 4, 4}, /* relax_branch_isize */
{
{
{0, 4, 0, BFD_RELOC_NDS32_WORD_9_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S256 */
{
{4, 4, 0, BFD_RELOC_NDS32_15_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16K */
{
{4, 4, 0, BFD_RELOC_NDS32_15_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S64K */
{
{0, 4, NDS32_CREATE_LABLE, BFD_RELOC_NDS32_WORD_9_PCREL},
{4, 4, 0, BFD_RELOC_NDS32_25_PCREL},
{0, 0, 0, 0}
}, /* BR_RANGE_S16M */
{
{0, 4, NDS32_CREATE_LABLE, BFD_RELOC_NDS32_WORD_9_PCREL},
{4, 4, 0, BFD_RELOC_NDS32_HI20},
{8, 4, 0, BFD_RELOC_NDS32_LO12S0_ORI},
{12, 4, NDS32_ORIGIN, 0},
{12, 2, NDS32_CONVERT, 0},
{0, 0, 0, 0}
} /* BR_RANGE_U4G */
} /* relax_fixup */
},
{
NULL, /* opcode */
0, /* br_range */
{{0, 0, 0}}, /* cond_field */
{{0}}, /* relax_code_seq */
{{{0, 0, 0}}}, /* relax_code_condition */
{0}, /* relax_code_size */
{0}, /* relax_branch_isize */
{{{0, 0, 0, 0}}}, /* relax_fixup */
},
};
/* GAS definitions for command-line options. */
enum options
{
OPTION_BIG = OPTION_MD_BASE,
OPTION_LITTLE,
OPTION_TURBO,
OPTION_PIC,
OPTION_RELAX_FP_AS_GP_OFF,
OPTION_RELAX_B2BB_ON,
OPTION_RELAX_ALL_OFF,
OPTION_OPTIMIZE,
OPTION_OPTIMIZE_SPACE
};
const char *md_shortopts = "m:G:O";
struct option md_longopts[] =
{
{"O1", no_argument, NULL, OPTION_OPTIMIZE},
{"Os", no_argument, NULL, OPTION_OPTIMIZE_SPACE},
{"big", no_argument, NULL, OPTION_BIG},
{"little", no_argument, NULL, OPTION_LITTLE},
{"EB", no_argument, NULL, OPTION_BIG},
{"EL", no_argument, NULL, OPTION_LITTLE},
{"meb", no_argument, NULL, OPTION_BIG},
{"mel", no_argument, NULL, OPTION_LITTLE},
{"mall-ext", no_argument, NULL, OPTION_TURBO},
{"mpic", no_argument, NULL, OPTION_PIC},
/* Relaxation related options. */
{"mno-fp-as-gp-relax", no_argument, NULL, OPTION_RELAX_FP_AS_GP_OFF},
{"mb2bb", no_argument, NULL, OPTION_RELAX_B2BB_ON},
{"mno-all-relax", no_argument, NULL, OPTION_RELAX_ALL_OFF},
{NULL, no_argument, NULL, 0}
};
size_t md_longopts_size = sizeof (md_longopts);
struct nds32_parse_option_table
{
const char *name; /* Option string. */
char *help; /* Help description. */
int (*func) (char *arg); /* How to parse it. */
};
/* The value `-1' represents this option has *NOT* been set. */
#ifdef NDS32_DEFAULT_ARCH_NAME
static char* nds32_arch_name = NDS32_DEFAULT_ARCH_NAME;
#else
static char* nds32_arch_name = "v3";
#endif
static int nds32_baseline = -1;
static int nds32_gpr16 = -1;
static int nds32_fpu_sp_ext = -1;
static int nds32_fpu_dp_ext = -1;
static int nds32_freg = -1;
static int nds32_abi = -1;
/* Record ELF flags */
static int nds32_elf_flags = 0;
static int nds32_fpu_com = 0;
static int nds32_parse_arch (char *str);
static int nds32_parse_baseline (char *str);
static int nds32_parse_freg (char *str);
static int nds32_parse_abi (char *str);
static struct nds32_parse_option_table parse_opts [] =
{
{"arch=", N_("<arch name>\t Assemble for architecture <arch name>\n\
<arch name> could be\n\
v3, v3j, v3m, v3f, v3s, "\
"v2, v2j, v2f, v2s"), nds32_parse_arch},
{"baseline=", N_("<baseline>\t Assemble for baseline <baseline>\n\
<baseline> could be v2, v3, v3m"),
nds32_parse_baseline},
{"fpu-freg=", N_("<freg>\t Specify a FPU configuration\n\
<freg>\n\
0: 8 SP / 4 DP registers\n\
1: 16 SP / 8 DP registers\n\
2: 32 SP / 16 DP registers\n\
3: 32 SP / 32 DP registers"), nds32_parse_freg},
{"abi=", N_("<abi>\t Specify a abi version\n\
<abi> could be v1, v2, v2fp, v2fpp"), nds32_parse_abi},
{NULL, NULL, NULL}
};
static int nds32_mac = 1;
static int nds32_div = 1;
static int nds32_16bit_ext = 1;
static int nds32_dx_regs = 1;
static int nds32_perf_ext = 1;
static int nds32_perf_ext2 = 1;
static int nds32_string_ext = 1;
static int nds32_audio_ext = 1;
static int nds32_fpu_fma = 0;
static int nds32_pic = 0;
static int nds32_relax_fp_as_gp = 1;
static int nds32_relax_b2bb = 0;
static int nds32_relax_all = 1;
struct nds32_set_option_table
{
const char *name; /* Option string. */
char *help; /* Help description. */
int *var; /* Variable to be set. */
int value; /* Value to set. */
};
/* The option in this group has both Enable/Disable settings.
Just list on here. */
static struct nds32_set_option_table toggle_opts [] =
{
{"mac", N_("Multiply instructions support"), &nds32_mac, 1},
{"div", N_("Divide instructions support"), &nds32_div, 1},
{"16bit-ext", N_("16-bit extension"), &nds32_16bit_ext, 1},
{"dx-regs", N_("d0/d1 registers"), &nds32_dx_regs, 1},
{"perf-ext", N_("Performance extension"), &nds32_perf_ext, 1},
{"perf2-ext", N_("Performance extension 2"), &nds32_perf_ext2, 1},
{"string-ext", N_("String extension"), &nds32_string_ext, 1},
{"reduced-regs", N_("Reduced Register configuration (GPR16) option"), &nds32_gpr16, 1},
{"audio-isa-ext", N_("AUDIO ISA extension"), &nds32_audio_ext, 1},
{"fpu-sp-ext", N_("FPU SP extension"), &nds32_fpu_sp_ext, 1},
{"fpu-dp-ext", N_("FPU DP extension"), &nds32_fpu_dp_ext, 1},
{"fpu-fma", N_("FPU fused-multiply-add instructions"), &nds32_fpu_fma, 1},
{NULL, NULL, NULL, 0}
};
/* GAS declarations. */
/* This is the callback for nds32-asm.c to parse operands. */
int
nds32_asm_parse_operand (struct nds32_asm_desc *pdesc,
struct nds32_asm_insn *pinsn,
char **pstr, int64_t *value);
struct nds32_asm_desc asm_desc;
/* md_after_parse_args ()
GAS will call md_after_parse_args whenever it is defined.
This function checks any conflicting options specified. */
void
nds32_after_parse_args (void)
{
/* If -march option is not used in command-line, set the value of option
variable according to NDS32_DEFAULT_ARCH_NAME. */
nds32_parse_arch (nds32_arch_name);
}
/* This function is called when printing usage message (--help). */
void
md_show_usage (FILE *stream)
{
struct nds32_parse_option_table *coarse_tune;
struct nds32_set_option_table *fine_tune;
fprintf (stream, _("\n NDS32-specific assembler options:\n"));
fprintf (stream, _("\
-O1, Optimize for performance\n\
-Os Optimize for space\n"));
fprintf (stream, _("\
-EL, -mel or -little Produce little endian output\n\
-EB, -meb or -big Produce big endian output\n\
-mpic Generate PIC\n\
-mno-fp-as-gp-relax Suppress fp-as-gp relaxation for this file\n\
-mb2bb-relax Back-to-back branch optimization\n\
-mno-all-relax Suppress all relaxation for this file\n"));
for (coarse_tune = parse_opts; coarse_tune->name != NULL; coarse_tune++)
{
if (coarse_tune->help != NULL)
fprintf (stream, _(" -m%s%s\n"),
coarse_tune->name, _(coarse_tune->help));
}
for (fine_tune = toggle_opts; fine_tune->name != NULL; fine_tune++)
{
if (fine_tune->help != NULL)
fprintf (stream, _(" -m[no-]%-17sEnable/Disable %s\n"),
fine_tune->name, _(fine_tune->help));
}
fprintf (stream, _("\
-mall-ext Turn on all extensions and instructions support\n"));
}
void
nds32_frag_init (fragS *fragp)
{
fragp->tc_frag_data.flag = 0;
fragp->tc_frag_data.opcode = NULL;
fragp->tc_frag_data.fixup = NULL;
}
/* This function reads an expression from a C string and returns a pointer past
the end of the expression. */
static char *
parse_expression (char *str, expressionS *exp)
{
char *s;
char *tmp;
tmp = input_line_pointer; /* Save line pointer. */
input_line_pointer = str;
expression (exp);
s = input_line_pointer;
input_line_pointer = tmp; /* Restore line pointer. */
return s; /* Return pointer to where parsing stopped. */
}
void
nds32_start_line_hook (void)
{
}
/*
* Pseudo opcodes
*/
typedef void (*nds32_pseudo_opcode_func) (int argc, char *argv[], int pv);
struct nds32_pseudo_opcode
{
const char *opcode;
int argc;
nds32_pseudo_opcode_func proc;
int pseudo_val;
/* Some instructions are not pseudo opcode, but they might still be
expanded or changed with other instruction combination for some
conditions. We also apply this structure to assist such work.
For example, if the distance of branch target '.L0' is larger than
imm8s<<1 range,
the instruction:
beqzs8 .L0
will be transformed into:
bnezs8 .LCB0
j .L0
.LCB0:
However, sometimes we do not want assembler to do such changes
because compiler knows how to generate corresponding instruction sequence.
Use this field to indicate that this opcode is also a physical instruction.
If the flag 'verbatim' is nozero and this opcode
is a physical instruction, we should not expand it. */
int physical_op;
};
#define PV_DONT_CARE 0
static struct hash_control *nds32_pseudo_opcode_hash = NULL;
static int
builtin_isreg (const char *s, const char *x ATTRIBUTE_UNUSED)
{
return s[0] == '$';
}
static int
builtin_regnum (const char *s, const char *x ATTRIBUTE_UNUSED)
{
struct nds32_keyword *k;
k = hash_find (nds32_gprs_hash, s);
if (k == NULL)
return -1;
return k->value;
}
static int
builtin_addend (const char *s, char *x ATTRIBUTE_UNUSED)
{
const char *ptr = s;
while (*ptr != '+' && *ptr != '-' && *ptr)
++ptr;
if (*ptr == 0)
return 0;
else
return strtol (ptr, NULL, 0);
}
static void
md_assemblef (char *format, ...)
{
/* FIXME: hope this is long enough. */
char line[1024];
va_list ap;
unsigned int r;
va_start (ap, format);
r = vsnprintf (line, sizeof (line), format, ap);
md_assemble (line);
gas_assert (r < sizeof (line));
}
/* Some prototypes here, since some op may use another op. */
static void do_pseudo_li_internal (char *rt, int imm32s);
static void do_pseudo_move_reg_internal (char *dst, char *src);
static void
do_pseudo_b (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
char *arg_label = argv[0];
/* b label */
if (nds32_pic
&& (strstr (arg_label, "@GOT") || strstr (arg_label, "@PLT")))
{
md_assemblef ("sethi $ta,hi20(%s)", arg_label);
md_assemblef ("ori $ta,$ta,lo12(%s)", arg_label);
md_assemble ("add $ta,$ta,$gp");
md_assemble ("jr $ta");
}
else
{
md_assemblef ("j %s", arg_label);
}
}
static void
do_pseudo_bal (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
char *arg_label = argv[0];
/* bal|call label */
if (nds32_pic
&& (strstr (arg_label, "@GOT") || strstr (arg_label, "@PLT")))
{
md_assemblef ("sethi $ta,hi20(%s)", arg_label);
md_assemblef ("ori $ta,$ta,lo12(%s)", arg_label);
md_assemble ("add $ta,$ta,$gp");
md_assemble ("jral $ta");
}
else
{
md_assemblef ("jal %s", arg_label);
}
}
static void
do_pseudo_bge (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
/* rt5, ra5, label */
md_assemblef ("slt $ta,%s,%s", argv[0], argv[1]);
md_assemblef ("beqz $ta,%s", argv[2]);
}
static void
do_pseudo_bges (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
/* rt5, ra5, label */
md_assemblef ("slts $ta,%s,%s", argv[0], argv[1]);
md_assemblef ("beqz $ta,%s", argv[2]);
}
static void
do_pseudo_bgt (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
/* bgt rt5, ra5, label */
md_assemblef ("slt $ta,%s,%s", argv[1], argv[0]);
md_assemblef ("bnez $ta,%s", argv[2]);
}
static void
do_pseudo_bgts (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
/* bgt rt5, ra5, label */
md_assemblef ("slts $ta,%s,%s", argv[1], argv[0]);
md_assemblef ("bnez $ta,%s", argv[2]);
}
static void
do_pseudo_ble (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
/* bgt rt5, ra5, label */
md_assemblef ("slt $ta,%s,%s", argv[1], argv[0]);
md_assemblef ("beqz $ta,%s", argv[2]);
}
static void
do_pseudo_bles (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
/* bgt rt5, ra5, label */
md_assemblef ("slts $ta,%s,%s", argv[1], argv[0]);
md_assemblef ("beqz $ta,%s", argv[2]);
}
static void
do_pseudo_blt (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
/* rt5, ra5, label */
md_assemblef ("slt $ta,%s,%s", argv[0], argv[1]);
md_assemblef ("bnez $ta,%s", argv[2]);
}
static void
do_pseudo_blts (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
/* rt5, ra5, label */
md_assemblef ("slts $ta,%s,%s", argv[0], argv[1]);
md_assemblef ("bnez $ta,%s", argv[2]);
}
static void
do_pseudo_br (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
md_assemblef ("jr %s", argv[0]);
}
static void
do_pseudo_bral (int argc, char *argv[], int pv ATTRIBUTE_UNUSED)
{
if (argc == 1)
md_assemblef ("jral $lp,%s", argv[0]);
else
md_assemblef ("jral %s,%s", argv[0], argv[1]);
}
static void
do_pseudo_la_internal (const char *arg_reg, const char *arg_label, const char *line)
{
/* rt, label */
if (!nds32_pic)
{
md_assemblef ("sethi %s,hi20(%s)", arg_reg, arg_label);
md_assemblef ("ori %s,%s,lo12(%s)", arg_reg, arg_reg, arg_label);
}
else if ((strstr (arg_label, "@PLT") || strstr (arg_label, "@GOTOFF")))
{
md_assemblef ("sethi $ta,hi20(%s)", arg_label);
md_assemblef ("ori $ta,$ta,lo12(%s)", arg_label);
md_assemblef ("add %s,$ta,$gp", arg_reg);
}
else if (strstr (arg_label, "@GOT"))
{
long addend = builtin_addend (arg_label, NULL);
md_assemblef ("sethi $ta,hi20(%s)", arg_label);
md_assemblef ("ori $ta,$ta,lo12(%s)", arg_label);
md_assemblef ("lw %s,[$gp+$ta]", arg_reg);
if (addend != 0)
{
if (addend < 0x4000 && addend >= -0x4000)
{
md_assemblef ("addi %s,%s,%d", arg_reg, arg_reg, addend);
}
else
{
do_pseudo_li_internal ("$ta", addend);
md_assemblef ("add %s,$ta,%s", arg_reg, arg_reg);
}
}
}
else
as_bad (_("need PIC qualifier with symbol. '%s'"), line);
}
static void
do_pseudo_la (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
do_pseudo_la_internal (argv[0], argv[1], argv[argc]);
}
static void
do_pseudo_li_internal (char *rt, int imm32s)
{
if (enable_16bit && imm32s <= 0xf && imm32s >= -0x10)
md_assemblef ("movi55 %s,%d", rt, imm32s);
else if (imm32s <= 0x7ffff && imm32s >= -0x80000)
md_assemblef ("movi %s,%d", rt, imm32s);
else if ((imm32s & 0xfff) == 0)
md_assemblef ("sethi %s,hi20(%d)", rt, imm32s);
else
{
md_assemblef ("sethi %s,hi20(%d)", rt, imm32s);
md_assemblef ("ori %s,%s,lo12(%d)", rt, rt, imm32s);
}
}
static void
do_pseudo_li (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
/* Validate argv[1] for constant expression. */
expressionS exp;
parse_expression (argv[1], &exp);
if (exp.X_op != O_constant)
{
as_bad (_("Operand is not a constant. `%s'"), argv[argc]);
return;
}
do_pseudo_li_internal (argv[0], exp.X_add_number);
}
static void
do_pseudo_ls_bhw (int argc ATTRIBUTE_UNUSED, char *argv[], int pv)
{
char ls = 'r';
char size = 'x';
const char *sign = "";
/* Prepare arguments for various load/store. */
sign = (pv & 0x10) ? "s" : "";
ls = (pv & 0x80000000) ? 's' : 'l';
switch (pv & 0x3)
{
case 0: size = 'b'; break;
case 1: size = 'h'; break;
case 2: size = 'w'; break;
}
if (ls == 's' || size == 'w')
sign = "";
if (builtin_isreg (argv[1], NULL))
{
/* lwi */
md_assemblef ("%c%c%si %s,[%s]", ls, size, argv[0], argv[1]);
}
else if (!nds32_pic)
{
/* lwi */
md_assemblef ("sethi $ta,hi20(%s)", argv[1]);
md_assemblef ("%c%c%si %s,[$ta+lo12(%s)]", ls, size, sign, argv[0], argv[1]);
}
else
{
/* PIC code. */
if (strstr (argv[1], "@GOTOFF"))
{
/* lw */
md_assemblef ("sethi $ta,hi20(%s)", argv[1]);
md_assemblef ("ori $ta,$ta,lo12(%s)", argv[1]);
md_assemblef ("%c%c%s %s,[$ta+$gp]", ls, size, sign, argv[0]);
}
else if (strstr (argv[1], "@GOT"))
{
long addend = builtin_addend (argv[1], NULL);
/* lw */
md_assemblef ("sethi $ta,hi20(%s)", argv[1]);
md_assemblef ("ori $ta,$ta,lo12(%s)", argv[1]);
md_assemble ("lw $ta,[$gp+$ta]"); /* Load address word. */
if (addend < 0x10000 && addend >= -0x10000)
{
md_assemblef ("%c%c%si %s,[$ta+(%d)]", ls, size, sign, argv[0], addend);
}
else
{
/* lw */
do_pseudo_li_internal (argv[0], addend);
md_assemblef ("%c%c%s %s,[$ta+%s]", ls, size, sign, argv[0], argv[0]);
}
}
else
{
as_bad (_("needs @GOT or @GOTOFF. %s"), argv[argc]);
}
}
}
static void
do_pseudo_ls_bhwp (int argc ATTRIBUTE_UNUSED, char *argv[], int pv)
{
char *arg_rt = argv[0];
char *arg_label = argv[1];
char *arg_inc = argv[2];
char ls = 'r';
char size = 'x';
const char *sign = "";
/* Prepare arguments for various load/store. */
sign = (pv & 0x10) ? "s" : "";
ls = (pv & 0x80000000) ? 's' : 'l';
switch (pv & 0x3)
{
case 0: size = 'b'; break;
case 1: size = 'h'; break;
case 2: size = 'w'; break;
}
if (ls == 's' || size == 'w')
sign = "";
do_pseudo_la_internal ("$ta", arg_label, argv[argc]);
md_assemblef ("%c%c%si.bi %s,[$ta],%s", ls, size, sign, arg_rt, arg_inc);
}
static void
do_pseudo_ls_bhwpc (int argc ATTRIBUTE_UNUSED, char *argv[], int pv)
{
char *arg_rt = argv[0];
char *arg_inc = argv[2];
char ls = 'r';
char size = 'x';
const char *sign = "";
/* Prepare arguments for various load/store. */
sign = (pv & 0x10) ? "s" : "";
ls = (pv & 0x80000000) ? 's' : 'l';
switch (pv & 0x3)
{
case 0: size = 'b'; break;
case 1: size = 'h'; break;
case 2: size = 'w'; break;
}
if (ls == 's' || size == 'w')
sign = "";
md_assemblef ("%c%c%si.bi %s,[$ta],%s", ls, size, sign, arg_rt, arg_inc);
}
static void
do_pseudo_ls_bhwi (int argc ATTRIBUTE_UNUSED, char *argv[], int pv)
{
char ls = 'r';
char size = 'x';
const char *sign = "";
/* Prepare arguments for various load/store. */
sign = (pv & 0x10) ? "s" : "";
ls = (pv & 0x80000000) ? 's' : 'l';
switch (pv & 0x3)
{
case 0: size = 'b'; break;
case 1: size = 'h'; break;
case 2: size = 'w'; break;
}
if (ls == 's' || size == 'w')
sign = "";
md_assemblef ("%c%c%si.bi %s,%s,%s",
ls, size, sign, argv[0], argv[1], argv[2]);
}
static void
do_pseudo_move_reg_internal (char *dst, char *src)
{
if (enable_16bit)
md_assemblef ("mov55 %s,%s", dst, src);
else
md_assemblef ("ori %s,%s,0", dst, src);
}
static void
do_pseudo_move (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
if (builtin_isreg (argv[1], NULL))
do_pseudo_move_reg_internal (argv[0], argv[1]);
else
/* move $rt, imm -> li $rt, imm */
do_pseudo_li (argc, argv, PV_DONT_CARE);
}
static void
do_pseudo_neg (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
md_assemble ("movi $ta,0");
md_assemblef ("sub %s,$ta,%s", argv[0], argv[1]);
}
static void
do_pseudo_not (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
md_assemblef ("nor %s,%s,%s", argv[0], argv[1], argv[1]);
}
static void
do_pseudo_pushpopm (int argc, char *argv[], int pv ATTRIBUTE_UNUSED)
{
/* posh/pop $ra, $rb */
/* SMW.{b | a}{i | d}{m?} Rb, [Ra], Re, Enable4 */
int rb, re, ra, en4;
int i;
char *opc = "pushpopm";
if (argc == 3)
as_bad ("'pushm/popm $ra5, $rb5, $label' is deprecated. "
"Only 'pushm/popm $ra5' is supported now. %s", argv[argc]);
else if (argc == 1)
as_bad ("'pushm/popm $ra5, $rb5'. %s\n", argv[argc]);
if (strstr (argv[argc], "pop") == argv[argc])
opc = "lmw.bim";
else if (strstr (argv[argc], "push") == argv[argc])
opc = "smw.adm";
else
as_fatal ("nds32-as internal error. %s", argv[argc]);
rb = builtin_regnum (argv[0], NULL);
re = builtin_regnum (argv[1], NULL);
if (re < rb)
{
as_warn ("$rb should not be smaller than $ra. %s", argv[argc]);
/* Swap to right order. */
ra = re;
re = rb;
rb = ra;
}
/* Build enable4 mask. */
en4 = 0;
if (re >= 28 || rb >= 28)
{
for (i = (rb >= 28? rb: 28); i <= re; i++)
en4 |= 1 << (3 - (i - 28));
}
/* Adjust $re, $rb. */
if (rb >= 28)
rb = re = 31;
else if (re >= 28)
re = 27;
md_assemblef ("%s $r%d,[$sp],$r%d,%d", opc, rb, re, en4);
}
static void
do_pseudo_pushpop (int argc, char *argv[], int pv ATTRIBUTE_UNUSED)
{
/* push/pop $ra5, $label=$sp */
char *argvm[3];
if (argc == 2)
as_bad ("'push/pop $ra5, rb5' is deprecated. "
"Only 'push/pop $ra5' is supported now. %s", argv[argc]);
argvm[0] = argv[0];
argvm[1] = argv[0];
argvm[2] = argv[argc];
do_pseudo_pushpopm (2, argvm, PV_DONT_CARE);
}
static void
do_pseudo_v3push (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
md_assemblef ("push25 %s,%s", argv[0], argv[1]);
}
static void
do_pseudo_v3pop (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
md_assemblef ("pop25 %s,%s", argv[0], argv[1]);
}
/* pv == 0, parsing "push.s" pseudo instruction operands.
pv != 0, parsing "pop.s" pseudo instruction operands. */
static void
do_pseudo_pushpop_stack (int argc, char *argv[], int pv)
{
/* push.s Rb,Re,{$fp $gp $lp $sp} ==> smw.adm Rb,[$sp],Re,Eable4 */
/* pop.s Rb,Re,{$fp $gp $lp $sp} ==> lmw.bim Rb,[$sp],Re,Eable4 */
int rb, re;
int en4;
int last_arg_index;
char *opc = (pv == 0) ? "smw.adm" : "lmw.bim";
rb = re = 0;
if (argc == 1)
{
/* argc=1, operands pattern: { $fp $gp $lp $sp } */
/* Set register number Rb = Re = $sp = $r31. */
rb = re = 31;
}
else if (argc == 2 || argc == 3)
{
/* argc=2, operands pattern: Rb, Re */
/* argc=3, operands pattern: Rb, Re, { $fp $gp $lp $sp } */
/* Get register number in integer. */
rb = builtin_regnum (argv[0], NULL);
re = builtin_regnum (argv[1], NULL);
/* Rb should be equal/less than Re. */
if (rb > re)
as_bad ("The first operand (%s) should be equal to or smaller than "
"second operand (%s).", argv[0], argv[1]);
/* forbid using $fp|$gp|$lp|$sp in Rb or Re
r28 r29 r30 r31 */
if (rb >= 28)
as_bad ("Cannot use $fp, $gp, $lp, or $sp at first operand !!");
if (re >= 28)
as_bad ("Cannot use $fp, $gp, $lp, or $sp at second operand !!");
}
else
{
as_bad ("Invalid operands pattern !!");
}
/* Build Enable4 mask. */
/* Using last_arg_index for argc=1|2|3 is safe, because $fp, $gp, $lp,
and $sp only appear in argc=1 or argc=3 if argc=2, en4 remains 0,
which is also valid for code generation. */
en4 = 0;
last_arg_index = argc - 1;
if (strstr (argv[last_arg_index], "$fp"))
en4 |= 8;
if (strstr (argv[last_arg_index], "$gp"))
en4 |= 4;
if (strstr (argv[last_arg_index], "$lp"))
en4 |= 2;
if (strstr (argv[last_arg_index], "$sp"))
en4 |= 1;
md_assemblef ("%s $r%d,[$sp],$r%d,%d", opc, rb, re, en4);
}
static void
do_pseudo_push_bhwd (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
char size = 'x';
/* If users omit push location, use $sp as default value. */
char location[8] = "$sp"; /* 8 is enough for register name. */
switch (pv & 0x3)
{
case 0: size = 'b'; break;
case 1: size = 'h'; break;
case 2: size = 'w'; break;
case 3: size = 'w'; break;
}
if (argc == 2)
{
strncpy (location, argv[1], 8);
location[7] = '\0';
}
md_assemblef ("l.%c $ta,%s", size, argv[0]);
md_assemblef ("smw.adm $ta,[%s],$ta", location);
if ((pv & 0x3) == 0x3) /* double-word */
{
md_assemblef ("l.w $ta,%s+4", argv[0]);
md_assemblef ("smw.adm $ta,[%s],$ta", location);
}
}
static void
do_pseudo_pop_bhwd (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
char size = 'x';
/* If users omit pop location, use $sp as default value. */
char location[8] = "$sp"; /* 8 is enough for register name. */
switch (pv & 0x3)
{
case 0: size = 'b'; break;
case 1: size = 'h'; break;
case 2: size = 'w'; break;
case 3: size = 'w'; break;
}
if (argc == 3)
{
strncpy (location, argv[2], 8);
location[7] = '\0';
}
if ((pv & 0x3) == 0x3) /* double-word */
{
md_assemblef ("lmw.bim %s,[%s],%s", argv[1], location, argv[1]);
md_assemblef ("s.w %s,%s+4", argv[1], argv[0]);
}
md_assemblef ("lmw.bim %s,[%s],%s", argv[1], location, argv[1]);
md_assemblef ("s.%c %s,%s", size, argv[1], argv[0]);
}
static void
do_pseudo_pusha (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
/* If users omit push location, use $sp as default value. */
char location[8] = "$sp"; /* 8 is enough for register name. */
if (argc == 2)
{
strncpy (location, argv[1], 8);
location[7] = '\0';
}
md_assemblef ("la $ta,%s", argv[0]);
md_assemblef ("smw.adm $ta,[%s],$ta", location);
}
static void
do_pseudo_pushi (int argc ATTRIBUTE_UNUSED, char *argv[], int pv ATTRIBUTE_UNUSED)
{
/* If users omit push location, use $sp as default value. */
char location[8] = "$sp"; /* 8 is enough for register name. */
if (argc == 2)
{
strncpy (location, argv[1], 8);
location[7] = '\0';
}
md_assemblef ("li $ta,%s", argv[0]);
md_assemblef ("smw.adm $ta,[%s],$ta", location);
}
struct nds32_pseudo_opcode nds32_pseudo_opcode_table[] =
{
{"b", 1, do_pseudo_b, 0, 0},
{"bal", 1, do_pseudo_bal, 0, 0},
{"bge", 3, do_pseudo_bge, 0, 0},
{"bges", 3, do_pseudo_bges, 0, 0},
{"bgt", 3, do_pseudo_bgt, 0, 0},
{"bgts", 3, do_pseudo_bgts, 0, 0},
{"ble", 3, do_pseudo_ble, 0, 0},
{"bles", 3, do_pseudo_bles, 0, 0},
{"blt", 3, do_pseudo_blt, 0, 0},
{"blts", 3, do_pseudo_blts, 0, 0},
{"br", 1, do_pseudo_br, 0, 0},
{"bral", 1, do_pseudo_bral, 0, 0},
{"call", 1, do_pseudo_bal, 0, 0},
{"la", 2, do_pseudo_la, 0, 0},
{"li", 2, do_pseudo_li, 0, 0},
{"l.b", 2, do_pseudo_ls_bhw, 0, 0},
{"l.h", 2, do_pseudo_ls_bhw, 1, 0},
{"l.w", 2, do_pseudo_ls_bhw, 2, 0},
{"l.bs", 2, do_pseudo_ls_bhw, 0 | 0x10, 0},
{"l.hs", 2, do_pseudo_ls_bhw, 1 | 0x10, 0},
{"s.b", 2, do_pseudo_ls_bhw, 0 | 0x80000000, 0},
{"s.h", 2, do_pseudo_ls_bhw, 1 | 0x80000000, 0},
{"s.w", 2, do_pseudo_ls_bhw, 2 | 0x80000000, 0},
{"l.bp", 3, do_pseudo_ls_bhwp, 0, 0},
{"l.bpc", 3, do_pseudo_ls_bhwpc, 0, 0},
{"l.hp", 3, do_pseudo_ls_bhwp, 1, 0},
{"l.hpc", 3, do_pseudo_ls_bhwpc, 1, 0},
{"l.wp", 3, do_pseudo_ls_bhwp, 2, 0},
{"l.wpc", 3, do_pseudo_ls_bhwpc, 2, 0},
{"l.bsp", 3, do_pseudo_ls_bhwp, 0 | 0x10, 0},
{"l.bspc", 3, do_pseudo_ls_bhwpc, 0 | 0x10, 0},
{"l.hsp", 3, do_pseudo_ls_bhwp, 1 | 0x10, 0},
{"l.hspc", 3, do_pseudo_ls_bhwpc, 1 | 0x10, 0},
{"s.bp", 3, do_pseudo_ls_bhwp, 0 | 0x80000000, 0},
{"s.bpc", 3, do_pseudo_ls_bhwpc, 0 | 0x80000000, 0},
{"s.hp", 3, do_pseudo_ls_bhwp, 1 | 0x80000000, 0},
{"s.hpc", 3, do_pseudo_ls_bhwpc, 1 | 0x80000000, 0},
{"s.wp", 3, do_pseudo_ls_bhwp, 2 | 0x80000000, 0},
{"s.wpc", 3, do_pseudo_ls_bhwpc, 2 | 0x80000000, 0},
{"s.bsp", 3, do_pseudo_ls_bhwp, 0 | 0x80000000 | 0x10, 0},
{"s.hsp", 3, do_pseudo_ls_bhwp, 1 | 0x80000000 | 0x10, 0},
{"lbi.p", 3, do_pseudo_ls_bhwi, 0, 0},
{"lhi.p", 3, do_pseudo_ls_bhwi, 1, 0},
{"lwi.p", 3, do_pseudo_ls_bhwi, 2, 0},
{"sbi.p", 3, do_pseudo_ls_bhwi, 0 | 0x80000000, 0},
{"shi.p", 3, do_pseudo_ls_bhwi, 1 | 0x80000000, 0},
{"swi.p", 3, do_pseudo_ls_bhwi, 2 | 0x80000000, 0},
{"lbsi.p", 3, do_pseudo_ls_bhwi, 0 | 0x10, 0},
{"lhsi.p", 3, do_pseudo_ls_bhwi, 1 | 0x10, 0},
{"lwsi.p", 3, do_pseudo_ls_bhwi, 0 | 0x10, 0},
{"move", 2, do_pseudo_move, 0, 0},
{"neg", 2, do_pseudo_neg, 0, 0},
{"not", 2, do_pseudo_not, 0, 0},
{"pop", 2, do_pseudo_pushpop, 0, 0},
{"push", 2, do_pseudo_pushpop, 0, 0},
{"popm", 2, do_pseudo_pushpopm, 0, 0},
{"pushm", 3, do_pseudo_pushpopm, 0, 0},
{"v3push", 2, do_pseudo_v3push, 0, 0},
{"v3pop", 2, do_pseudo_v3pop, 0, 0},
/* Support pseudo instructions of pushing/poping registers into/from stack
push.s Rb, Re, { $fp $gp $lp $sp } ==> smw.adm Rb,[$sp],Re,Enable4
pop.s Rb, Re, { $fp $gp $lp $sp } ==> lmw.bim Rb,[$sp],Re,Enable4 */
{ "push.s", 3, do_pseudo_pushpop_stack, 0, 0 },
{ "pop.s", 3, do_pseudo_pushpop_stack, 1, 0 },
{ "push.b", 2, do_pseudo_push_bhwd, 0, 0 },
{ "push.h", 2, do_pseudo_push_bhwd, 1, 0 },
{ "push.w", 2, do_pseudo_push_bhwd, 2, 0 },
{ "push.d", 2, do_pseudo_push_bhwd, 3, 0 },
{ "pop.b", 3, do_pseudo_pop_bhwd, 0, 0 },
{ "pop.h", 3, do_pseudo_pop_bhwd, 1, 0 },
{ "pop.w", 3, do_pseudo_pop_bhwd, 2, 0 },
{ "pop.d", 3, do_pseudo_pop_bhwd, 3, 0 },
{ "pusha", 2, do_pseudo_pusha, 0, 0 },
{ "pushi", 2, do_pseudo_pushi, 0, 0 },
{NULL, 0, NULL, 0, 0}
};
static void
nds32_init_nds32_pseudo_opcodes (void)
{
struct nds32_pseudo_opcode *opcode = nds32_pseudo_opcode_table;
nds32_pseudo_opcode_hash = hash_new ();
for ( ; opcode->opcode; opcode++)
{
void *op;
op = hash_find (nds32_pseudo_opcode_hash, opcode->opcode);
if (op != NULL)
{
as_warn (_("Duplicated pseudo-opcode %s."), opcode->opcode);
continue;
}
hash_insert (nds32_pseudo_opcode_hash, opcode->opcode, opcode);
}
}
static struct nds32_pseudo_opcode *
nds32_lookup_pseudo_opcode (char *str)
{
int i = 0;
/* Assume pseudo-opcode are less than 16-char in length. */
char op[16] = {0};
for (i = 0; i < (int)ARRAY_SIZE (op); i++)
{
if (ISSPACE (op[i] = str[i]))
break;
}
if (i >= (int)ARRAY_SIZE (op))
return NULL;
op[i] = '\0';
return hash_find (nds32_pseudo_opcode_hash, op);
}
static void
nds32_pseudo_opcode_wrapper (char *line, struct nds32_pseudo_opcode *opcode)
{
int argc = 0;
char *argv[8] = {NULL};
char *s;
char *str = xstrdup (line);
/* Parse arguments for opcode. */
s = str + strlen (opcode->opcode);
if (!s[0])
goto end;
/* Dummy comma to ease separate arguments as below. */
s[0] = ',';
do
{
if (s[0] == ',')
{
if (argc >= opcode->argc
|| (argc >= (int)ARRAY_SIZE (argv) - 1))
as_bad (_("Too many argument. `%s'"), line);
argv[argc] = s + 1;
argc ++;
s[0] = '\0';
}
++s;
} while (s[0] != '\0');
end:
/* Put the origin line for debugging. */
argv[argc] = line;
opcode->proc (argc, argv, opcode->pseudo_val);
free (str);
}
/* This function will be invoked from function `nds32_after_parse_args'.
Thus, if the value of option has been set, keep the value the way it is. */
static int
nds32_parse_arch (char *str)
{
static const struct nds32_arch
{
const char *name;
int baseline;
int reduced_reg;
int fpu_sp_ext;
int fpu_dp_ext;
int fpu_freg;
int abi;
} archs[] =
{
{"v3m", ISA_V3M, 1, 0, 0, E_NDS32_FPU_REG_32SP_16DP, E_NDS_ABI_AABI},
{"v3j", ISA_V3, 1, 0, 0, E_NDS32_FPU_REG_32SP_16DP, E_NDS_ABI_AABI},
{"v3s", ISA_V3, 0, 1, 0, E_NDS32_FPU_REG_32SP_16DP, E_NDS_ABI_V2FP_PLUS},
{"v3f", ISA_V3, 0, 1, 1, E_NDS32_FPU_REG_32SP_16DP, E_NDS_ABI_V2FP_PLUS},
{"v3", ISA_V3, 0, 0, 0, E_NDS32_FPU_REG_32SP_16DP, E_NDS_ABI_AABI},
{"v2j", ISA_V2, 1, 0, 0, E_NDS32_FPU_REG_32SP_16DP, E_NDS_ABI_AABI},
{"v2s", ISA_V2, 0, 1, 0, E_NDS32_FPU_REG_32SP_16DP, E_NDS_ABI_V2FP_PLUS},
{"v2f", ISA_V2, 0, 1, 1, E_NDS32_FPU_REG_32SP_16DP, E_NDS_ABI_V2FP_PLUS},
{"v2", ISA_V2, 0, 0, 0, E_NDS32_FPU_REG_32SP_16DP, E_NDS_ABI_AABI},
};
size_t i;
for (i = 0; i < ARRAY_SIZE (archs); i++)
{
if (strcmp (str, archs[i].name) != 0)
continue;
/* The value `-1' represents this option has *NOT* been set. */
nds32_baseline = (-1 != nds32_baseline) ? nds32_baseline : archs[i].baseline;
nds32_gpr16 = (-1 != nds32_gpr16) ? nds32_gpr16 : archs[i].reduced_reg;
nds32_fpu_sp_ext = (-1 != nds32_fpu_sp_ext) ? nds32_fpu_sp_ext : archs[i].fpu_sp_ext;
nds32_fpu_dp_ext = (-1 != nds32_fpu_dp_ext) ? nds32_fpu_dp_ext : archs[i].fpu_dp_ext;
nds32_freg = (-1 != nds32_freg) ? nds32_freg : archs[i].fpu_freg;
nds32_abi = (-1 != nds32_abi) ? nds32_abi : archs[i].abi;
return 1;
}
/* Logic here rejects the input arch name. */
as_bad (_("unknown arch name `%s'\n"), str);
return 1;
}
/* This function parses "baseline" specified. */
static int
nds32_parse_baseline (char *str)
{
if (strcmp (str, "v3") == 0)
nds32_baseline = ISA_V3;
else if (strcmp (str, "v3m") == 0)
nds32_baseline = ISA_V3M;
else if (strcmp (str, "v2") == 0)
nds32_baseline = ISA_V2;
else
{
/* Logic here rejects the input baseline. */
as_bad (_("unknown baseline `%s'\n"), str);
return 0;
}
return 1;
}
/* This function parses "fpu-freg" specified. */
static int
nds32_parse_freg (char *str)
{
if (strcmp (str, "2") == 0)
nds32_freg = E_NDS32_FPU_REG_32SP_16DP;
else if (strcmp (str, "3") == 0)
nds32_freg = E_NDS32_FPU_REG_32SP_32DP;
else if (strcmp (str, "1") == 0)
nds32_freg = E_NDS32_FPU_REG_16SP_8DP;
else if (strcmp (str, "0") == 0)
nds32_freg = E_NDS32_FPU_REG_8SP_4DP;
else
{
/* Logic here rejects the input FPU configuration. */
as_bad (_("unknown FPU configuration `%s'\n"), str);
return 0;
}
return 1;
}
/* This function parse "abi=" specified. */
static int
nds32_parse_abi (char *str)
{
if (strcmp (str, "v2") == 0)
nds32_abi = E_NDS_ABI_AABI;
/* Obsolete. */
else if (strcmp (str, "v2fp") == 0)
nds32_abi = E_NDS_ABI_V2FP;
else if (strcmp (str, "v1") == 0)
nds32_abi = E_NDS_ABI_V1;
else if (strcmp (str,"v2fpp") == 0)
nds32_abi = E_NDS_ABI_V2FP_PLUS;
else
{
/* Logic here rejects the input abi version. */
as_bad (_("unknown ABI version`%s'\n"), str);
return 0;
}
return 1;
}
/* This function turn on all extensions and instructions support. */
static int
nds32_all_ext (void)
{
nds32_mac = 1;
nds32_div = 1;
nds32_dx_regs = 1;
nds32_16bit_ext = 1;
nds32_perf_ext = 1;
nds32_perf_ext2 = 1;
nds32_string_ext = 1;
nds32_audio_ext = 1;
nds32_fpu_fma = 1;
nds32_fpu_sp_ext = 1;
nds32_fpu_dp_ext = 1;
return 1;
}
/* GAS will call md_parse_option whenever getopt returns an unrecognized code,
presumably indicating a special code value which appears in md_longopts.
This function should return non-zero if it handled the option and zero
otherwise. There is no need to print a message about an option not being
recognized. This will be handled by the generic code. */
int
nds32_parse_option (int c, char *arg)
{
struct nds32_parse_option_table *coarse_tune;
struct nds32_set_option_table *fine_tune;
char *ptr_arg = NULL;
switch (c)
{
case OPTION_OPTIMIZE:
optimize = 1;
optimize_for_space = 0;
break;
case OPTION_OPTIMIZE_SPACE:
optimize = 0;
optimize_for_space = 1;
break;
case OPTION_BIG:
target_big_endian = 1;
break;
case OPTION_LITTLE:
target_big_endian = 0;
break;
case OPTION_TURBO:
nds32_all_ext ();
break;
case OPTION_PIC:
nds32_pic = 1;
break;
case OPTION_RELAX_FP_AS_GP_OFF:
nds32_relax_fp_as_gp = 0;
break;
case OPTION_RELAX_B2BB_ON:
nds32_relax_b2bb = 1;
break;
case OPTION_RELAX_ALL_OFF:
nds32_relax_all = 0;
break;
default:
/* Determination of which option table to search for to save time. */
ptr_arg = strchr (arg, '=');
if (ptr_arg)
{
/* Find the value after '='. */
if (ptr_arg != NULL)
ptr_arg++;
for (coarse_tune = parse_opts; coarse_tune->name != NULL; coarse_tune++)
{
if (strncmp (arg, coarse_tune->name, (ptr_arg - arg)) == 0)
{
coarse_tune->func (ptr_arg);
return 1;
}
}
}
else
{
for (fine_tune = toggle_opts; fine_tune->name != NULL; fine_tune++)
{
int disable = 0;
/* Filter out the Disable option first. */
if (strncmp (arg, "no-", 3) == 0)
{
disable = 1;
arg += 3;
}
if (strcmp (arg, fine_tune->name) == 0)
{
if (fine_tune->var != NULL)
*fine_tune->var = (disable) ? 0 : 1;
return 1;
}
}
}
/* Nothing match. */
return 0;
}
return 1;
}
/* tc_check_label */
void
nds32_check_label (symbolS *label ATTRIBUTE_UNUSED)
{
/* The code used to create BB is move to frob_label.
They should go there. */
}
static void
set_endian_little (int on)
{
target_big_endian = !on;
}
/* These functions toggles the generation of 16-bit. First encounter signals
the beginning of not generating 16-bit instructions and next encounter
signals the restoring back to default behavior. */
static void
trigger_16bit (int trigger)
{
enable_16bit = trigger;
}
static int backup_16bit_mode;
static void
restore_16bit (int no_use ATTRIBUTE_UNUSED)
{
enable_16bit = backup_16bit_mode;
}
static void
off_16bit (int no_use ATTRIBUTE_UNUSED)
{
backup_16bit_mode = enable_16bit;
enable_16bit = 0;
}
/* Built-in segments for small object. */
typedef struct nds32_seg_entryT
{
segT s;
const char *name;
flagword flags;
} nds32_seg_entry;
nds32_seg_entry nds32_seg_table[] =
{
{NULL, ".sdata_f", SEC_ALLOC | SEC_LOAD | SEC_RELOC | SEC_DATA
| SEC_HAS_CONTENTS | SEC_SMALL_DATA},
{NULL, ".sdata_b", SEC_ALLOC | SEC_LOAD | SEC_RELOC | SEC_DATA
| SEC_HAS_CONTENTS | SEC_SMALL_DATA},
{NULL, ".sdata_h", SEC_ALLOC | SEC_LOAD | SEC_RELOC | SEC_DATA
| SEC_HAS_CONTENTS | SEC_SMALL_DATA},
{NULL, ".sdata_w", SEC_ALLOC | SEC_LOAD | SEC_RELOC | SEC_DATA
| SEC_HAS_CONTENTS | SEC_SMALL_DATA},
{NULL, ".sdata_d", SEC_ALLOC | SEC_LOAD | SEC_RELOC | SEC_DATA
| SEC_HAS_CONTENTS | SEC_SMALL_DATA},
{NULL, ".sbss_f", SEC_ALLOC | SEC_SMALL_DATA},
{NULL, ".sbss_b", SEC_ALLOC | SEC_SMALL_DATA},
{NULL, ".sbss_h", SEC_ALLOC | SEC_SMALL_DATA},
{NULL, ".sbss_w", SEC_ALLOC | SEC_SMALL_DATA},
{NULL, ".sbss_d", SEC_ALLOC | SEC_SMALL_DATA}
};
/* Indexes to nds32_seg_table[]. */
enum NDS32_SECTIONS_ENUM
{
SDATA_F_SECTION = 0,
SDATA_B_SECTION = 1,
SDATA_H_SECTION = 2,
SDATA_W_SECTION = 3,
SDATA_D_SECTION = 4,
SBSS_F_SECTION = 5,
SBSS_B_SECTION = 6,
SBSS_H_SECTION = 7,
SBSS_W_SECTION = 8,
SBSS_D_SECTION = 9
};
/* The following code is borrowed from v850_seg. Revise this is needed. */
static void
do_nds32_seg (int i, subsegT sub)
{
nds32_seg_entry *seg = nds32_seg_table + i;
obj_elf_section_change_hook ();
if (seg->s != NULL)
subseg_set (seg->s, sub);
else
{
seg->s = subseg_new (seg->name, sub);
if (OUTPUT_FLAVOR == bfd_target_elf_flavour)
{
bfd_set_section_flags (stdoutput, seg->s, seg->flags);
if ((seg->flags & SEC_LOAD) == 0)
seg_info (seg->s)->bss = 1;
}
}
}
static void
nds32_seg (int i)
{
subsegT sub = get_absolute_expression ();
do_nds32_seg (i, sub);
demand_empty_rest_of_line ();
}
/* Set if label adjustment is needed. I should not adjust .xbyte in dwarf. */
static symbolS *nds32_last_label; /* Last label for aligment. */
/* This code is referred from D30V for adjust label to be with pedning
aligment. For example,
LBYTE: .byte 0x12
LHALF: .half 0x12
LWORD: .word 0x12
Without this, the above label will not attatch to incoming data. */
static void
nds32_adjust_label (int n)
{
/* FIXME: I think adjust lable and alignment is
the programmer's obligation. Saddly, VLSI team doesn't
properly use .align for their test cases.
So I re-implement cons_align and auto adjust labels, again.
I think d30v's implmentation is simple and good enough. */
symbolS *label = nds32_last_label;
nds32_last_label = NULL;
/* SEC_ALLOC is used to eliminate .debug_ sections.
SEC_CODE is used to include section for ILM. */
if (((now_seg->flags & SEC_ALLOC) == 0 && (now_seg->flags & SEC_CODE) == 0)
|| strcmp (now_seg->name, ".eh_frame") == 0
|| strcmp (now_seg->name, ".gcc_except_table") == 0)
return;
/* Only frag by alignment when needed.
Otherwise, it will fail to optimize labels on 4-byte boundary. (bug8454)
See md_convert_frag () and RELAX_SET_RELAXABLE (frag) for details. */
if (frag_now_fix () & ((1 << n) -1 ))
{
if (subseg_text_p (now_seg))
frag_align_code (n, 0);
else
frag_align (n, 0, 0);
/* Record the minimum alignment for this segment. */
record_alignment (now_seg, n - OCTETS_PER_BYTE_POWER);
}
if (label != NULL)
{
symbolS *sym;
int label_seen = FALSE;
struct frag *old_frag;
valueT old_value, new_value;
gas_assert (S_GET_SEGMENT (label) == now_seg);
old_frag = symbol_get_frag (label);
old_value = S_GET_VALUE (label);
new_value = (valueT) frag_now_fix ();
/* Multiple labels may be on the same address. And the last symbol
may not be a label at all, e.g., register name, external function names,
so I have to track the last label in tc_frob_label instead of
just using symbol_lastP. */
for (sym = symbol_lastP; sym != NULL; sym = symbol_previous (sym))
{
if (symbol_get_frag (sym) == old_frag
&& S_GET_VALUE (sym) == old_value)
{
/* Warning HERE! */
label_seen = TRUE;
symbol_set_frag (sym, frag_now);
S_SET_VALUE (sym, new_value);
}
else if (label_seen && symbol_get_frag (sym) != old_frag)
break;
}
}
}
void
nds32_cons_align (int size ATTRIBUTE_UNUSED)
{
/* Do nothing here.
This is called before `md_flush_pending_output' is called by `cons'.
There are two things should be done for auto-adjust-label.
1. Align data/instructions and adjust label to be attached to them.
2. Clear auto-adjust state, so incommng data/instructions will not
adjust the label.
For example,
.byte 0x1
.L0:
.word 0x2
.word 0x3
in this case, '.word 0x2' will adjust the label, .L0, but '.word 0x3' should not.
I think `md_flush_pending_output' is a good place to clear the auto-adjust state,
but it is also called by `cons' before this function.
To simplify the code, instead of overriding .zero, .fill, .space, etc,
I think we should just adjust label in `nds32_aligned_X_cons' instead of here. */
}
static void
nds32_aligned_cons (int idx)
{
nds32_adjust_label (idx);
/* Call default handler. */
cons (1 << idx);
if (now_seg->flags & SEC_CODE
&& now_seg->flags & SEC_ALLOC && now_seg->flags & SEC_RELOC)
{
/* Use BFD_RELOC_NDS32_DATA to avoid EX9 optimization replacing data. */
expressionS exp;
exp.X_add_number = 0;
exp.X_op = O_constant;
fix_new_exp (frag_now,
frag_now_fix () - (1 << idx),
1 << idx,
&exp,
0,
BFD_RELOC_NDS32_DATA);
}
}
/* `.double' directive. */
static void
nds32_aligned_float_cons (int type)
{
switch (type)
{
case 'f':
case 'F':
case 's':
case 'S':
nds32_adjust_label (2);
break;
case 'd':
case 'D':
case 'r':
case 'R':
nds32_adjust_label (4);
break;
default:
as_bad ("Unrecognized float type, %c\n", (char)type);
}
/* Call default handler. */
float_cons (type);
}
static void
nds32_enable_pic (int ignore ATTRIBUTE_UNUSED)
{
/* Another way to do -mpic.
This is for GCC internal use and should always be first line
of code, otherwise, the effect is not determined. */
nds32_pic = 1;
}
static void
nds32_set_abi (int ver)
{
nds32_abi = ver;
}
/* Relax directive to set relocation R_NDS32_RELAX_ENTRY value. */
static void
nds32_relax_relocs (int relax)
{
char saved_char;
char *name;
int i;
char *subtype_relax[] =
{"", "", "ex9", "ifc"};
name = input_line_pointer;
while (*input_line_pointer && !ISSPACE (*input_line_pointer))
input_line_pointer++;
saved_char = *input_line_pointer;
*input_line_pointer = 0;
for (i = 0; i < (int) ARRAY_SIZE (subtype_relax); i++)
{
if (strcmp (name, subtype_relax[i]) == 0)
{
switch (i)
{
case 0:
case 1:
enable_relax_relocs = relax & enable_relax_relocs;
enable_relax_ex9 = relax & enable_relax_ex9;
enable_relax_ifc = relax & enable_relax_ifc;
break;
case 2:
enable_relax_ex9 = relax;
break;
case 3:
enable_relax_ifc = relax;
break;
default:
break;
}
break;
}
}
*input_line_pointer = saved_char;
ignore_rest_of_line ();
}
/* Record which arguments register($r0 ~ $r5) is not used in callee.
bit[i] for $ri */
static void
nds32_set_hint_func_args (int ignore ATTRIBUTE_UNUSED)
{
ignore_rest_of_line ();
}
/* Insert relocations to mark the begin and end of a fp-omitted function,
for further relaxation use.
bit[i] for $ri */
static void
nds32_omit_fp_begin (int mode)
{
expressionS exp;
if (nds32_relax_fp_as_gp == 0)
return;
exp.X_op = O_symbol;
exp.X_add_symbol = abs_section_sym;
if (mode == 1)
{
exp.X_add_number = R_NDS32_RELAX_REGION_OMIT_FP_FLAG;
fix_new_exp (frag_now, frag_now_fix (), 0, &exp, 0,
BFD_RELOC_NDS32_RELAX_REGION_BEGIN);
}
else
{
exp.X_add_number = R_NDS32_RELAX_REGION_OMIT_FP_FLAG;
fix_new_exp (frag_now, frag_now_fix (), 0, &exp, 0,
BFD_RELOC_NDS32_RELAX_REGION_END);
}
}
/* Insert relocations to mark the begin and end of ex9 region,
for further relaxation use.
bit[i] for $ri */
static void
nds32_no_ex9_begin (int mode)
{
expressionS exp;
exp.X_op = O_symbol;
exp.X_add_symbol = abs_section_sym;
if (mode == 1)
{
exp.X_add_number = R_NDS32_RELAX_REGION_NO_EX9_FLAG;
fix_new_exp (frag_now, frag_now_fix (), 0, &exp, 0,
BFD_RELOC_NDS32_RELAX_REGION_BEGIN);
}
else
{
exp.X_add_number = R_NDS32_RELAX_REGION_NO_EX9_FLAG;
fix_new_exp (frag_now, frag_now_fix (), 0, &exp, 0,
BFD_RELOC_NDS32_RELAX_REGION_END);
}
}
static void
nds32_loop_begin (int mode)
{
/* Insert loop region relocation here. */
expressionS exp;
exp.X_op = O_symbol;
exp.X_add_symbol = abs_section_sym;
if (mode == 1)
{
exp.X_add_number = R_NDS32_RELAX_REGION_INNERMOST_LOOP_FLAG;
fix_new_exp (frag_now, frag_now_fix (), 0, &exp, 0,
BFD_RELOC_NDS32_RELAX_REGION_BEGIN);
}
else
{
exp.X_add_number = R_NDS32_RELAX_REGION_INNERMOST_LOOP_FLAG;
fix_new_exp (frag_now, frag_now_fix (), 0, &exp, 0,
BFD_RELOC_NDS32_RELAX_REGION_END);
}
}
struct nds32_relocs_group
{
struct nds32_relocs_pattern *pattern;
struct nds32_relocs_group *next;
};
static struct nds32_relocs_group *nds32_relax_hint_current = NULL;
/* Insert a relax hint. */
static void
nds32_relax_hint (int mode ATTRIBUTE_UNUSED)
{
char *name;
char saved_char;
struct nds32_relocs_pattern *relocs = NULL;
struct nds32_relocs_group *group, *new;
name = input_line_pointer;
while (*input_line_pointer && !ISSPACE (*input_line_pointer))
input_line_pointer++;
saved_char = *input_line_pointer;
*input_line_pointer = 0;
name = strdup (name);
/* Find relax hint entry for next instruction, and all member will be
initialized at that time. */
relocs = hash_find (nds32_hint_hash, name);
if (relocs == NULL)
{
relocs = malloc (sizeof (struct nds32_relocs_pattern));
hash_insert (nds32_hint_hash, name, relocs);
}
else
{
while (relocs->next)
relocs=relocs->next;
relocs->next = malloc (sizeof (struct nds32_relocs_pattern));
relocs = relocs->next;
}
relocs->next = NULL;
*input_line_pointer = saved_char;
ignore_rest_of_line ();
/* Get the final one of relax hint series. */
/* It has to build this list because there are maybe more than one
instructions relative to the same instruction. It to connect to
next instruction after md_assemble. */
new = malloc (sizeof (struct nds32_relocs_group));
new->pattern = relocs;
new->next = NULL;
group = nds32_relax_hint_current;
if (!group)
nds32_relax_hint_current = new;
else
{
while (group->next != NULL)
group = group->next;
group->next = new;
}
}
/* Decide the size of vector entries, only accepts 4 or 16 now. */
static void
nds32_vec_size (int ignore ATTRIBUTE_UNUSED)
{
expressionS exp;
expression (&exp);
if (exp.X_op == O_constant)
{
if (exp.X_add_number == 4 || exp.X_add_number == 16)
{
if (vec_size == 0)
vec_size = exp.X_add_number;
else if (vec_size != exp.X_add_number)
as_warn (_("Different arguments of .vec_size are found, "
"previous %d, current %d"),
(int) vec_size, (int) exp.X_add_number);
}
else
as_warn (_("Argument of .vec_size is expected 4 or 16, actual: %d."),
(int) exp.X_add_number);
}
else
as_warn (_("Argument of .vec_size is not a constant."));
}
/* The behavior of ".flag" directive varies depending on the target.
In nds32 target, we use it to recognize whether this assembly content is
generated by compiler. Other features can also be added in this function
in the future. */
static void
nds32_flag (int ignore ATTRIBUTE_UNUSED)
{
char *name;
char saved_char;
int i;
char *possible_flags[] = { "verbatim" };
/* Skip whitespaces. */
name = input_line_pointer;
while (*input_line_pointer && !ISSPACE (*input_line_pointer))
input_line_pointer++;
saved_char = *input_line_pointer;
*input_line_pointer = 0;
for (i = 0; i < (int) ARRAY_SIZE (possible_flags); i++)
{
if (strcmp (name, possible_flags[i]) == 0)
{
switch (i)
{
case 0:
/* flag: verbatim */
verbatim = 1;
break;
default:
break;
}
/* Already found the flag, no need to continue next loop. */
break;
}
}
*input_line_pointer = saved_char;
ignore_rest_of_line ();
}
static void
nds32_n12hc (int ignore ATTRIBUTE_UNUSED)
{
/* N1213HC core is used. */
}
/* The target specific pseudo-ops which we support. */
const pseudo_typeS md_pseudo_table[] =
{
/* Forced alignment if declared these ways. */
{"ascii", stringer, 8 + 0},
{"asciz", stringer, 8 + 1},
{"double", nds32_aligned_float_cons, 'd'},
{"dword", nds32_aligned_cons, 3},
{"float", nds32_aligned_float_cons, 'f'},
{"half", nds32_aligned_cons, 1},
{"hword", nds32_aligned_cons, 1},
{"int", nds32_aligned_cons, 2},
{"long", nds32_aligned_cons, 2},
{"octa", nds32_aligned_cons, 4},
{"quad", nds32_aligned_cons, 3},
{"qword", nds32_aligned_cons, 4},
{"short", nds32_aligned_cons, 1},
{"byte", nds32_aligned_cons, 0},
{"single", nds32_aligned_float_cons, 'f'},
{"string", stringer, 8 + 1},
{"word", nds32_aligned_cons, 2},
{"little", set_endian_little, 1},
{"big", set_endian_little, 0},
{"16bit_on", trigger_16bit, 1},
{"16bit_off", trigger_16bit, 0},
{"restore_16bit", restore_16bit, 0},
{"off_16bit", off_16bit, 0},
{"sdata_d", nds32_seg, SDATA_D_SECTION},
{"sdata_w", nds32_seg, SDATA_W_SECTION},
{"sdata_h", nds32_seg, SDATA_H_SECTION},
{"sdata_b", nds32_seg, SDATA_B_SECTION},
{"sdata_f", nds32_seg, SDATA_F_SECTION},
{"sbss_d", nds32_seg, SBSS_D_SECTION},
{"sbss_w", nds32_seg, SBSS_W_SECTION},
{"sbss_h", nds32_seg, SBSS_H_SECTION},
{"sbss_b", nds32_seg, SBSS_B_SECTION},
{"sbss_f", nds32_seg, SBSS_F_SECTION},
{"pic", nds32_enable_pic, 0},
{"n12_hc", nds32_n12hc, 0},
{"abi_1", nds32_set_abi, E_NDS_ABI_V1},
{"abi_2", nds32_set_abi, E_NDS_ABI_AABI},
/* Obsolete. */
{"abi_2fp", nds32_set_abi, E_NDS_ABI_V2FP},
{"abi_2fp_plus", nds32_set_abi, E_NDS_ABI_V2FP_PLUS},
{"relax", nds32_relax_relocs, 1},
{"no_relax", nds32_relax_relocs, 0},
{"hint_func_args", nds32_set_hint_func_args, 0}, /* Abandon?? */
{"omit_fp_begin", nds32_omit_fp_begin, 1},
{"omit_fp_end", nds32_omit_fp_begin, 0},
{"no_ex9_begin", nds32_no_ex9_begin, 1},
{"no_ex9_end", nds32_no_ex9_begin, 0},
{"vec_size", nds32_vec_size, 0},
{"flag", nds32_flag, 0},
{"innermost_loop_begin", nds32_loop_begin, 1},
{"innermost_loop_end", nds32_loop_begin, 0},
{"relax_hint", nds32_relax_hint, 0},
{NULL, NULL, 0}
};
void
nds32_pre_do_align (int n, char *fill, int len, int max)
{
/* Only make a frag if we HAVE to... */
if (n != 0 && !need_pass_2)
{
if (fill == NULL)
{
if (subseg_text_p (now_seg))
frag_align_code (n, max);
else
frag_align (n, 0, max);
}
else if (len <= 1)
frag_align (n, *fill, max);
else
frag_align_pattern (n, fill, len, max);
}
}
void
nds32_do_align (int n)
{
/* Optimize for space and label exists. */
expressionS exp;
/* FIXME:I think this will break debug info sections and except_table. */
if (!enable_relax_relocs || !subseg_text_p (now_seg))
return;
/* Create and attach a BFD_RELOC_NDS32_LABEL fixup
the size of instruction may not be correct because
it could be relaxable. */
exp.X_op = O_symbol;
exp.X_add_symbol = section_symbol (now_seg);
exp.X_add_number = n;
fix_new_exp (frag_now,
frag_now_fix (), 0, &exp, 0, BFD_RELOC_NDS32_LABEL);
}
/* Supported Andes machines. */
struct nds32_machs
{
enum bfd_architecture bfd_mach;
int mach_flags;
};
/* This is the callback for nds32-asm.c to parse operands. */
int
nds32_asm_parse_operand (struct nds32_asm_desc *pdesc ATTRIBUTE_UNUSED,
struct nds32_asm_insn *pinsn,
char **pstr, int64_t *value)
{
char *hold;
expressionS *pexp = pinsn->info;
hold = input_line_pointer;
input_line_pointer = *pstr;
expression (pexp);
*pstr = input_line_pointer;
input_line_pointer = hold;
switch (pexp->X_op)
{
case O_symbol:
*value = 0;
return NASM_R_SYMBOL;
case O_constant:
*value = pexp->X_add_number;
return NASM_R_CONST;
case O_illegal:
case O_absent:
case O_register:
default:
return NASM_R_ILLEGAL;
}
}
/* GAS will call this function at the start of the assembly, after the command
line arguments have been parsed and all the machine independent
initializations have been completed. */
void
md_begin (void)
{
struct nds32_keyword *k;
relax_info_t *relax_info;
bfd_set_arch_mach (stdoutput, TARGET_ARCH, nds32_baseline);
nds32_init_nds32_pseudo_opcodes ();
asm_desc.parse_operand = nds32_asm_parse_operand;
nds32_asm_init (&asm_desc, 0);
/* Initial general pupose registers hash table. */
nds32_gprs_hash = hash_new ();
for (k = nds32_gprs; k->name; k++)
hash_insert (nds32_gprs_hash, k->name, k);
/* Initial branch hash table. */
nds32_relax_info_hash = hash_new ();
for (relax_info = relax_table; relax_info->opcode; relax_info++)
hash_insert (nds32_relax_info_hash, relax_info->opcode, relax_info);
/* Initial relax hint hash table. */
nds32_hint_hash = hash_new ();
}
/* HANDLE_ALIGN in write.c. */
void
nds32_handle_align (fragS *fragp)
{
static const unsigned char nop16[] = { 0x92, 0x00 };
static const unsigned char nop32[] = { 0x40, 0x00, 0x00, 0x09 };
int bytes;
char *p;
if (fragp->fr_type != rs_align_code)
return;
bytes = fragp->fr_next->fr_address - fragp->fr_address - fragp->fr_fix;
p = fragp->fr_literal + fragp->fr_fix;
if (bytes & 1)
{
*p++ = 0;
bytes--;
}
if (bytes & 2)
{
expressionS exp_t;
exp_t.X_op = O_symbol;
exp_t.X_add_symbol = abs_section_sym;
exp_t.X_add_number = R_NDS32_INSN16_CONVERT_FLAG;
fix_new_exp (fragp, fragp->fr_fix, 2, &exp_t, 0,
BFD_RELOC_NDS32_INSN16);
memcpy (p, nop16, 2);
p += 2;
bytes -= 2;
}
while (bytes >= 4)
{
memcpy (p, nop32, 4);
p += 4;
bytes -= 4;
}
bytes = fragp->fr_next->fr_address - fragp->fr_address - fragp->fr_fix;
fragp->fr_fix += bytes;
}
/* md_flush_pending_output */
void
nds32_flush_pending_output (void)
{
nds32_last_label = NULL;
}
void
nds32_frob_label (symbolS *label)
{
dwarf2_emit_label (label);
}
/* TC_START_LABEL */
int
nds32_start_label (int asmdone ATTRIBUTE_UNUSED, int secdone ATTRIBUTE_UNUSED)
{
return 1;
}
/* TARGET_FORMAT */
const char *
nds32_target_format (void)
{
#ifdef TE_LINUX
if (target_big_endian)
return "elf32-nds32be-linux";
else
return "elf32-nds32le-linux";
#else
if (target_big_endian)
return "elf32-nds32be";
else
return "elf32-nds32le";
#endif
}
static enum nds32_br_range
get_range_type (const struct nds32_field *field)
{
gas_assert (field != NULL);
if (field->bitpos != 0)
return BR_RANGE_U4G;
if (field->bitsize == 24 && field->shift == 1)
return BR_RANGE_S16M;
else if (field->bitsize == 16 && field->shift == 1)
return BR_RANGE_S64K;
else if (field->bitsize == 14 && field->shift == 1)
return BR_RANGE_S16K;
else if (field->bitsize == 8 && field->shift == 1)
return BR_RANGE_S256;
else
return BR_RANGE_U4G;
}
/* Save pseudo instruction relocation list. */
static struct nds32_relocs_pattern*
nds32_elf_save_pseudo_pattern (int reloc, struct nds32_asm_insn *insn,
char *out, symbolS *sym,
struct nds32_relocs_pattern *reloc_ptr)
{
if (!reloc_ptr)
reloc_ptr = malloc (sizeof (struct nds32_relocs_pattern));
reloc_ptr->seg = now_seg;
reloc_ptr->sym = sym;
reloc_ptr->frag = frag_now;
reloc_ptr->frchain = frchain_now;
reloc_ptr->reloc = reloc;
reloc_ptr->insn = insn->opcode->value;
reloc_ptr->size = insn->opcode->isize;
reloc_ptr->where = out;
reloc_ptr->next = NULL;
return reloc_ptr;
}
/* Check X_md to transform relocation. */
static void
nds32_elf_record_fixup_exp (char *str, const struct nds32_field *fld,
expressionS *pexp, char* out,
struct nds32_asm_insn *insn)
{
int reloc = -1;
symbolS *sym = NULL;
struct nds32_relocs_group *group;
struct nds32_relocs_pattern *reloc_ptr;
/* Handle instruction relocation. */
if (fld && fld->bitpos == 0 && (insn->attr & NASM_ATTR_HI20))
{
/* Relocation for hi20 modifier. */
sym = pexp->X_add_symbol;
switch (pexp->X_md)
{
case BFD_RELOC_NDS32_GOTOFF:
/* @GOTOFF */
reloc = BFD_RELOC_NDS32_GOTOFF_HI20;
break;
case BFD_RELOC_NDS32_GOT20:
/* @GOT */
reloc = BFD_RELOC_NDS32_GOT_HI20;
break;
case BFD_RELOC_NDS32_25_PLTREL:
/* @PLT */
if (!nds32_pic)
as_bad (_("Invalid PIC expression."));
else
reloc = BFD_RELOC_NDS32_PLT_GOTREL_HI20;
break;
default:
/* No suffix. */
reloc = BFD_RELOC_NDS32_HI20;
break;
}
fix_new_exp (frag_now, out - frag_now->fr_literal,
insn->opcode->isize, insn->info, 0 /* pcrel */,
reloc);
}
else if (fld && fld->bitpos == 0 && (insn->attr & NASM_ATTR_LO12))
{
/* Relocation for lo12 modifier. */
if (fld->bitsize == 15 && fld->shift == 0)
{
switch (pexp->X_md)
{
case BFD_RELOC_NDS32_GOTOFF:
/* @GOTOFF */
reloc = BFD_RELOC_NDS32_GOTOFF_LO12;
break;
case BFD_RELOC_NDS32_GOT20:
/* @GOT */
reloc = BFD_RELOC_NDS32_GOT_LO12;
break;
case BFD_RELOC_NDS32_25_PLTREL:
/* @PLT */
if (!nds32_pic)
as_bad (_("Invalid PIC expression."));
else
reloc = BFD_RELOC_NDS32_PLT_GOTREL_LO12;
break;
default:
/* No suffix. */
reloc = BFD_RELOC_NDS32_LO12S0; /* [ls]bi || ori */
break;
}
}
else if (fld->bitsize == 15 && fld->shift == 1)
reloc = BFD_RELOC_NDS32_LO12S1; /* [ls]hi */
else if (fld->bitsize == 15 && fld->shift == 2)
reloc = BFD_RELOC_NDS32_LO12S2; /* [ls]wi */
else if (fld->bitsize == 15 && fld->shift == 3)
reloc = BFD_RELOC_NDS32_LO12S3; /* [ls]di */
else if (fld->bitsize == 12 && fld->shift == 2)
reloc = BFD_RELOC_NDS32_LO12S2; /* f[ls][sd]i */
fix_new_exp (frag_now, out - frag_now->fr_literal,
insn->opcode->isize, insn->info, 0 /* pcrel */,
reloc);
}
else if (fld && fld->bitpos == 0 && insn->opcode->isize == 4
&& (insn->attr & NASM_ATTR_PCREL))
{
/* Relocation for 32-bit branch instructions. */
if (fld->bitsize == 24 && fld->shift == 1)
reloc = BFD_RELOC_NDS32_25_PCREL;
else if (fld->bitsize == 16 && fld->shift == 1)
reloc = BFD_RELOC_NDS32_17_PCREL;
else if (fld->bitsize == 14 && fld->shift == 1)
reloc = BFD_RELOC_NDS32_15_PCREL;
else if (fld->bitsize == 8 && fld->shift == 1)
reloc = BFD_RELOC_NDS32_WORD_9_PCREL;
else
abort ();
fix_new_exp (frag_now, out - frag_now->fr_literal,
insn->opcode->isize, insn->info, 1 /* pcrel */,
reloc);
}
else if (fld && fld->bitpos == 0 && insn->opcode->isize == 4
&& (insn->attr & NASM_ATTR_GPREL))
{
/* Relocation for 32-bit gp-relative instructions. */
if (fld->bitsize == 19 && fld->shift == 0)
reloc = BFD_RELOC_NDS32_SDA19S0;
else if (fld->bitsize == 18 && fld->shift == 1)
reloc = BFD_RELOC_NDS32_SDA18S1;
else if (fld->bitsize == 17 && fld->shift == 2)
reloc = BFD_RELOC_NDS32_SDA17S2;
else
abort ();
fix_new_exp (frag_now, out - frag_now->fr_literal,
insn->opcode->isize, insn->info, 0 /* pcrel */,
reloc);
}
else if (fld && fld->bitpos == 0 && insn->opcode->isize == 2
&& (insn->attr & NASM_ATTR_PCREL))
{
/* Relocation for 16-bit branch instructions. */
if (fld->bitsize == 8 && fld->shift == 1)
reloc = BFD_RELOC_NDS32_9_PCREL;
else
abort ();
fix_new_exp (frag_now, out - frag_now->fr_literal,
insn->opcode->isize, insn->info, 1 /* pcrel */,
reloc);
}
else if (fld)
{
as_bad (_("Don't know how to handle this field. %s"),
str);
}
if (pseudo_opcode)
{
/* Save instruction relation for pseudo instruction expanding pattern. */
reloc_ptr = nds32_elf_save_pseudo_pattern (reloc, insn, out, sym, NULL);
if (!relocs_list)
relocs_list = reloc_ptr;
else
{
struct nds32_relocs_pattern *temp = relocs_list;
while (temp->next)
temp = temp->next;
temp->next = reloc_ptr;
}
}
else if (nds32_relax_hint_current)
{
/* Save instruction relation by relax hint. */
group = nds32_relax_hint_current;
while (group)
{
nds32_elf_save_pseudo_pattern (reloc, insn, out, sym, group->pattern);
group = group->next;
free (nds32_relax_hint_current);
nds32_relax_hint_current = group;
}
}
}
#define N32_MEM_EXT(insn) (N32_OP6_MEM<< 25| insn)
/* Relax pattern for link time relaxation. */
static struct nds32_relocation_map relocation_table[] =
{
{
/* Load-Store: sethi lwi+
Load address: sethi ori */
BFD_RELOC_NDS32_HI20, /* main_type */
{
{
{BFD_RELOC_NDS32_LOADSTORE, 0},
{0, 0}
},
{
{BFD_RELOC_NDS32_INSN16, 0},
{0, 0}
},
{
{0, 0}
}
},
},
{
/* Load-Store: sethi ori lwi+
Load address: sethi ori add */
BFD_RELOC_NDS32_GOTOFF_HI20, /* main_type */
{
{
{BFD_RELOC_NDS32_LOADSTORE, 0},
{0, 0}
},
{
{BFD_RELOC_NDS32_INSN16, 0},
{BFD_RELOC_NDS32_PTR, 0},
{BFD_RELOC_NDS32_PTR_COUNT, 0},
{0, 0}
},
{
{BFD_RELOC_NDS32_GOTOFF_SUFF, 0},
{BFD_RELOC_NDS32_PTR_RESOLVED, 0},
{0, 0}
},
{
{0, 0}
}
},
},
{
/* Load-Store: sethi ori lw lwi+
Load address: sethi ori lw [addi|add] */
BFD_RELOC_NDS32_GOT_HI20, /* main_type */
{
{
{BFD_RELOC_NDS32_LOADSTORE, 0},
{0, 0}
},
{
{BFD_RELOC_NDS32_INSN16, 0},
/* For pseudo la and l.w.
Lw is the next one instruction. */
{BFD_RELOC_NDS32_PTR, N32_MEM_EXT (N32_MEM_LW)},
{BFD_RELOC_NDS32_PTR_COUNT, 0},
{0, 0}
},
{
{BFD_RELOC_NDS32_GOT_SUFF, N32_MEM_EXT (N32_MEM_LW)},
{BFD_RELOC_NDS32_PTR_RESOLVED, N32_MEM_EXT (N32_MEM_LW)},
{0, 0}
},
{
{0, 0},
},
},
},
{
BFD_RELOC_NDS32_PLT_GOTREL_HI20, /* main_type */
{
{
{BFD_RELOC_NDS32_LOADSTORE, 0},
{0, 0}
},
{
{BFD_RELOC_NDS32_INSN16, 0},
/* For pseudo bal.
jral is the target instruction. */
{BFD_RELOC_NDS32_PTR, INSN_JRAL},
{BFD_RELOC_NDS32_PTR, (INSN_JRAL | (REG_LP << 20))},
{BFD_RELOC_NDS32_PTR_COUNT, 0},
{0, 0}
},
{
/* For pseudo bal.
jral is the target instruction. */
{BFD_RELOC_NDS32_PTR, INSN_JRAL},
{BFD_RELOC_NDS32_PTR, (INSN_JRAL | (REG_LP << 20))},
{BFD_RELOC_NDS32_PTR_COUNT, 0},
{0, 0}
},
{
{BFD_RELOC_NDS32_PLT_GOT_SUFF, 0},
{BFD_RELOC_NDS32_PTR_RESOLVED, 0},
{0, 0}
},
{
{0, 0},
},
},
},
{
0,
{
{
{0, 0},
},
},
}
};
/* Since sethi loadstore relocation has to using next instruction to determine
elimination itself or not, we have to return the next instruction range. */
static int
nds32_elf_sethi_range (struct nds32_relocs_pattern *relocs_ptr)
{
unsigned int insn = relocs_ptr->insn;
int range;
switch (insn)
{
case INSN_LBI:
case INSN_SBI:
case INSN_LBSI:
case N32_MEM_EXT (N32_MEM_LB):
case N32_MEM_EXT (N32_MEM_LBS):
case N32_MEM_EXT (N32_MEM_SB):
range = 0x01;
break;
case INSN_LHI:
case INSN_SHI:
case INSN_LHSI:
case N32_MEM_EXT (N32_MEM_LH):
case N32_MEM_EXT (N32_MEM_LHS):
case N32_MEM_EXT (N32_MEM_SH):
range = 0x02;
break;
case INSN_LWI:
case INSN_SWI:
case N32_MEM_EXT (N32_MEM_LW):
case N32_MEM_EXT (N32_MEM_SW):
range = 0x04;
break;
case INSN_FLSI:
case INSN_FSSI:
range = 0x08;
break;
case INSN_FLDI:
case INSN_FSDI:
range = 0x10;
break;
case INSN_ORI:
range = 0x20;
break;
default:
range = 0x0;
break;
}
return range;
}
/* The args means: instruction size, the 1st instruction is converted to 16 or
not, optimize option, 16 bit instruction is enable. */
#define SET_ADDEND( size, convertible, optimize, insn16_on ) \
(((size) & 0xff) | ((convertible) ? 1 << 31 : 0) \
| ((optimize) ? 1<< 30 : 0) | (insn16_on ? 1 << 29 : 0))
/* Insert new fix. */
static void
nds32_elf_insert_relocation (struct nds32_relocs_pattern *pattern, unsigned int reloc,
unsigned int insn_mask, symbolS *sym)
{
expressionS exp;
symbolS *sym_t;
struct nds32_relocs_pattern *pattern_t;
int range;
fragS *frag = pattern->frag;
char *out = pattern->where;
unsigned int size = pattern->size;
static int ptr_count = 0;
exp.X_op = O_symbol;
exp.X_add_symbol = abs_section_sym;
exp.X_add_number = 0;
switch (reloc)
{
case BFD_RELOC_NDS32_LOADSTORE:
/* To get the sethi match pattern. */
range = nds32_elf_sethi_range (pattern->next);
exp.X_add_number = SET_ADDEND (4 /* size */, 0, optimize, enable_16bit);
exp.X_add_number |= ((range & 0x3f) << 8);
fix_new_exp (frag, out - frag->fr_literal, size, &exp, 0 /* pcrel */, reloc);
break;
case BFD_RELOC_NDS32_PTR:
pattern_t = pattern->next;
while (pattern_t)
{
if (insn_mask == 0 || pattern_t->insn == insn_mask)
{
sym_t = symbol_temp_new (pattern_t->seg,
pattern_t->where - pattern_t->frag->fr_literal,
pattern_t->frag);
exp.X_add_symbol = sym_t;
fix_new_exp (frag, out - frag->fr_literal, 0, &exp, 0 /* pcrel */, reloc);
ptr_count++;
break;
}
pattern_t = pattern_t->next;
}
break;
case BFD_RELOC_NDS32_PTR_COUNT:
/* In current design, it only be referanced once. */
if (ptr_count != 0)
{
exp.X_add_number = ptr_count;
fix_new_exp (frag, out - frag->fr_literal, size, &exp, 0, reloc);
}
ptr_count = 0;
break;
case BFD_RELOC_NDS32_GOTOFF_SUFF:
case BFD_RELOC_NDS32_GOT_SUFF:
case BFD_RELOC_NDS32_PLT_GOT_SUFF:
/* It has to record symbol. */
if (insn_mask == 0 || pattern->insn == insn_mask)
{
exp.X_add_symbol = sym;
fix_new_exp (frag, out - frag->fr_literal, size, &exp, 0, reloc);
}
break;
case BFD_RELOC_NDS32_PTR_RESOLVED:
default:
if (insn_mask == 0 || pattern->insn == insn_mask)
{
fix_new_exp (frag, out - frag->fr_literal, size, &exp, 0, reloc);
}
}
}
static void
nds32_set_elf_flags_by_insn (struct nds32_asm_insn * insn)
{
/* Set E_NDS32_HAS_EXT_INST. */
if (insn->opcode->attr & NASM_ATTR_PERF_EXT)
{
if (nds32_perf_ext)
nds32_elf_flags |= E_NDS32_HAS_EXT_INST;
else
as_bad (_("instruction %s requires enabling performance extension"),
insn->opcode->opcode);
}
else if (insn->opcode->attr & NASM_ATTR_PERF2_EXT)
{
if (nds32_perf_ext2)
nds32_elf_flags |= E_NDS32_HAS_EXT2_INST;
else
as_bad (_("instruction %s requires enabling performance extension II"),
insn->opcode->opcode);
}
else if (insn->opcode->attr & NASM_ATTR_AUDIO_ISAEXT)
{
if (nds32_audio_ext)
nds32_elf_flags |= E_NDS32_HAS_AUDIO_INST;
else
as_bad (_("instruction %s requires enabling AUDIO extension"),
insn->opcode->opcode);
}
else if (insn->opcode->attr & NASM_ATTR_STR_EXT)
{
if (nds32_string_ext)
nds32_elf_flags |= E_NDS32_HAS_STRING_INST;
else
as_bad (_("instruction %s requires enabling STRING extension"),
insn->opcode->opcode);
}
else if ((insn->opcode->attr & NASM_ATTR_DIV)
&& (insn->opcode->attr & NASM_ATTR_DXREG))
{
if (nds32_div && nds32_dx_regs)
nds32_elf_flags |= E_NDS32_HAS_DIV_DX_INST;
else
as_bad (_("instruction %s requires enabling DIV & DX_REGS extension"),
insn->opcode->opcode);
}
else if (insn->opcode->attr & NASM_ATTR_FPU)
{
if (nds32_fpu_sp_ext || nds32_fpu_dp_ext)
{
if (!(nds32_elf_flags & (E_NDS32_HAS_FPU_INST | E_NDS32_HAS_FPU_DP_INST)))
nds32_fpu_com = 1;
}
else
as_bad (_("instruction %s requires enabling FPU extension"),
insn->opcode->opcode);
}
else if (insn->opcode->attr & NASM_ATTR_FPU_SP_EXT)
{
if (nds32_fpu_sp_ext)
nds32_elf_flags |= E_NDS32_HAS_FPU_INST;
else
as_bad (_("instruction %s requires enabling FPU_SP extension"),
insn->opcode->opcode);
}
else if ((insn->opcode->attr & NASM_ATTR_FPU_SP_EXT)
&& (insn->opcode->attr & NASM_ATTR_MAC))
{
if (nds32_fpu_sp_ext && nds32_mac)
{
nds32_elf_flags |= E_NDS32_HAS_FPU_MAC_INST;
nds32_elf_flags |= E_NDS32_HAS_FPU_INST;
}
else
as_bad (_("instruction %s requires enabling FPU_MAC extension"),
insn->opcode->opcode);
}
else if (insn->opcode->attr & NASM_ATTR_FPU_DP_EXT)
{
if (nds32_fpu_dp_ext)
nds32_elf_flags |= E_NDS32_HAS_FPU_DP_INST;
else
as_bad (_("instruction %s requires enabling FPU_DP extension"),
insn->opcode->opcode);
}
else if ((insn->opcode->attr & NASM_ATTR_FPU_DP_EXT)
&& (insn->opcode->attr & NASM_ATTR_MAC))
{
if (nds32_fpu_dp_ext && nds32_mac)
{
nds32_elf_flags |= E_NDS32_HAS_FPU_MAC_INST;
nds32_elf_flags |= E_NDS32_HAS_FPU_DP_INST;
}
else
as_bad (_("instruction %s requires enabling FPU_MAC extension"),
insn->opcode->opcode);
}
/* TODO: FPU_BOTH */
else if ((insn->opcode->attr & NASM_ATTR_MAC)
&& (insn->opcode->attr & NASM_ATTR_DXREG))
{
if (nds32_mac && nds32_dx_regs)
nds32_elf_flags |= E_NDS32_HAS_MAC_DX_INST;
else
as_bad (_("instruction %s requires enabling DX_REGS extension"),
insn->opcode->opcode);
}
/* TODO: for DX_REG set but not for MAC, DIV, AUDIO */
else if (insn->opcode->attr & NASM_ATTR_IFC_EXT)
{
nds32_elf_flags |= E_NDS32_HAS_IFC_INST;
}
/* TODO: E_NDS32_HAS_SATURATION_INST */
}
/* Append relax relocation for link time relaxing. */
static void
nds32_elf_append_relax_relocs (const char *key ATTRIBUTE_UNUSED, void *value)
{
struct nds32_relocs_pattern *relocs_temp =
(struct nds32_relocs_pattern *) value;
unsigned int reloc, group_type, insn;
symbolS *sym;
unsigned int i = 0, x = 0, y;
segT seg_bak = now_seg;
frchainS *frchain_bak = frchain_now;
if (!relocs_temp)
return;
group_type = relocs_temp->reloc;
sym = relocs_temp->sym;
/* Inserting fix up must specify now_seg or frchain_now. */
now_seg = relocs_temp->seg;
frchain_now = relocs_temp->frchain;
/* Find pattern in relocation table. */
while (i < (sizeof (relocation_table)/sizeof (relocation_table[0]))
&&relocation_table[i].main_type != group_type)
i++;
/* Can not find relocation pattern. */
if (relocation_table[i].main_type == 0)
return;
while (relocs_temp)
{
y = 0;
while (relocation_table[i].reloc_insn[x][y][0] != 0)
{
reloc = relocation_table[i].reloc_insn[x][y][0];
insn = relocation_table[i].reloc_insn[x][y][1];
nds32_elf_insert_relocation (relocs_temp, reloc, insn, sym);
y++;
}
/* Next instruction. */
relocs_temp = relocs_temp->next;
/* There are load store instruction shared setting symbol part, so
re-using the final relocation. */
if (relocation_table[i].reloc_insn[x+1][0][0] != 0)
x++;
}
now_seg = seg_bak;
frchain_now = frchain_bak;
}
/* Check instruction if it can be used for the baseline. */
static bfd_boolean
nds32_check_insn_available (struct nds32_asm_insn insn, char *str)
{
int attr = insn.attr & ATTR_ALL;
static int baseline_isa = 0;
/* No isa setting or all isa can use. */
if (attr == 0 || attr == ATTR_ALL)
return TRUE;
if (baseline_isa == 0)
{
/* Map option baseline and instruction attribute. */
switch (nds32_baseline)
{
case ISA_V2:
baseline_isa = ATTR (ISA_V2);
break;
case ISA_V3:
baseline_isa = ATTR (ISA_V3);
break;
case ISA_V3M:
baseline_isa = ATTR (ISA_V3M);
break;
}
}
if ((baseline_isa & attr) == 0)
{
as_bad (_("Not support instrcution %s in the baseline."), str);
return FALSE;
}
return TRUE;
}
/* Stub of machine dependent. */
void
md_assemble (char *str)
{
struct nds32_asm_insn insn;
char *out;
struct nds32_pseudo_opcode *popcode;
const struct nds32_field *fld = NULL;
fixS *fixP ATTRIBUTE_UNUSED;
int insn_type;
uint16_t insn_16;
uint32_t insn_32;
struct nds32_relocs_pattern *relocs_temp;
expressionS *pexp;
popcode = nds32_lookup_pseudo_opcode (str);
/* Note that we need to check 'verbatim' and
'opcode->physical_op'. If the assembly content is generated by
compiler and this opcode is a physical instruction, there is no
need to perform pseudo instruction expansion/transformation. */
if (popcode && !(verbatim && popcode->physical_op))
{
pseudo_opcode = TRUE;
nds32_pseudo_opcode_wrapper (str, popcode);
pseudo_opcode = FALSE;
nds32_elf_append_relax_relocs (NULL, relocs_list);
/* Free pseudo list. */
relocs_temp = relocs_list;
while (relocs_temp)
{
relocs_list = relocs_list->next;
free (relocs_temp);
relocs_temp = relocs_list;
}
return;
}
insn.info = (expressionS *) alloca (sizeof (expressionS));
nds32_assemble (&asm_desc, &insn, str);
switch (asm_desc.result)
{
case NASM_ERR_UNKNOWN_OP:
as_bad (_("Unrecognized opcode, %s."), str);
return;
case NASM_ERR_SYNTAX:
as_bad (_("Incorrect syntax, %s."), str);
return;
case NASM_ERR_OPERAND:
as_bad (_("Unrecognized operand, %s."), str);
return;
case NASM_ERR_OUT_OF_RANGE:
as_bad (_("Operand out of range, %s."), str);
return;
case NASM_ERR_REG_REDUCED:
as_bad (_("Prohibited register used for reduced-register, %s."), str);
return;
case NASM_ERR_JUNK_EOL:
as_bad (_("Junk at end of line, %s."), str);
return;
}
gas_assert (insn.opcode);
nds32_set_elf_flags_by_insn (&insn);
gas_assert (insn.opcode->isize == 4 || insn.opcode->isize == 2);
if (!nds32_check_insn_available (insn, str))
return;
/* Create new frag if the instruction can be relaxed. */
fld = insn.field;
if (!verbatim && fld && (insn.attr & NASM_ATTR_BRANCH))
{
/* User assembly code branch relax for it. */
fragS *fragp = frag_now;
/* If fld is not NULL, it is a symbol. */
/* Get branch range type. */
enum nds32_br_range range_type;
range_type = get_range_type (fld);
pexp = insn.info;
out = frag_var (rs_machine_dependent,
NDS32_MAXCHAR,
0, /* VAR is un-used. */
range_type, /* SUBTYPE is used as range type. */
pexp->X_add_symbol,
pexp->X_add_number,
0);
/* If the original frag is full, the instruction must save in next
one. */
while (fragp->fr_next != frag_now)
fragp = fragp->fr_next;
fragp->fr_fix += insn.opcode->isize;
fragp->tc_frag_data.opcode = insn.opcode;
fragp->tc_frag_data.insn = insn.insn;
dwarf2_emit_insn (insn.opcode->isize);
if (insn.opcode->isize == 4)
bfd_putb32 (insn.insn, out);
else if (insn.opcode->isize == 2)
bfd_putb16 (insn.insn, out);
return;
/* md_convert_frag will insert relocations. */
}
else if (!verbatim && !fld && (optimize || optimize_for_space))
{
/* User assembly code without relocating convert it to 16bits if needed. */
insn_32 = insn.insn;
/* Convert instruction to 16-bits. */
if (insn.opcode->isize == 4
&& nds32_convert_32_to_16 (stdoutput, insn_32,
&insn_16, &insn_type))
{
out = frag_more (2);
frag_var (rs_fill, 0, 0, 0, NULL, 0, NULL);
bfd_putb16 (insn_16, out);
dwarf2_emit_insn (2);
return;
}
}
out = frag_more (insn.opcode->isize);
if (insn.opcode->isize == 4)
bfd_putb32 (insn.insn, out);
else if (insn.opcode->isize == 2)
bfd_putb16 (insn.insn, out);
dwarf2_emit_insn (insn.opcode->isize);
if (fld)
{
/* Compiler generating code and user assembly pseudo load-store, insert
fixup here. */
pexp = insn.info;
nds32_elf_record_fixup_exp (str, fld, pexp, out, &insn);
}
}
/* md_macro_start */
void
nds32_macro_start (void)
{
}
/* md_macro_info */
void
nds32_macro_info (void *info ATTRIBUTE_UNUSED)
{
}
/* md_macro_end */
void
nds32_macro_end (void)
{
}
/* GAS will call this function with one argument, an expressionS pointer, for
any expression that can not be recognized. When the function is called,
input_line_pointer will point to the start of the expression. */
void
md_operand (expressionS *expressionP)
{
if (*input_line_pointer == '#')
{
input_line_pointer++;
expression (expressionP);
}
}
/* GAS will call this function for each section at the end of the assembly, to
permit the CPU back end to adjust the alignment of a section. The function
must take two arguments, a segT for the section and a valueT for the size of
the section, and return a valueT for the rounded size. */
valueT
md_section_align (segT segment, valueT size)
{
int align = bfd_get_section_alignment (stdoutput, segment);
return ((size + (1 << align) - 1) & (-1 << align));
}
/* GAS will call this function when a symbol table lookup fails, before it
creates a new symbol. Typically this would be used to supply symbols whose
name or value changes dynamically, possibly in a context sensitive way.
Predefined symbols with fixed values, such as register names or condition
codes, are typically entered directly into the symbol table when md_begin
is called. One argument is passed, a char * for the symbol. */
symbolS *
md_undefined_symbol (char *name ATTRIBUTE_UNUSED)
{
return NULL;
}
static long
nds32_calc_branch_offset (segT segment, fragS *fragP,
long stretch ATTRIBUTE_UNUSED,
relax_info_t *relax_info,
enum nds32_br_range branch_range_type)
{
struct nds32_opcode *opcode = fragP->tc_frag_data.opcode;
symbolS *branch_symbol = fragP->fr_symbol;
offsetT branch_offset = fragP->fr_offset;
offsetT branch_target_address;
offsetT branch_insn_address;
long offset = 0;
if ((S_GET_SEGMENT (branch_symbol) != segment)
|| S_IS_WEAK (branch_symbol))
{
/* The symbol is not in the SEGMENT. It could be far far away. */
offset = 0x80000000;
}
else
{
/* Calculate symbol-to-instruction offset. */
branch_target_address = S_GET_VALUE (branch_symbol) + branch_offset;
/* If the destination symbol is beyond current frag address,
STRETCH will take effect to symbol's position. */
if (S_GET_VALUE (branch_symbol) > fragP->fr_address)
branch_target_address += stretch;
branch_insn_address = fragP->fr_address + fragP->fr_fix;
branch_insn_address -= opcode->isize;
/* Update BRANCH_INSN_ADDRESS to relaxed position. */
branch_insn_address += (relax_info->relax_code_size[branch_range_type]
- relax_info->relax_branch_isize[branch_range_type]);
offset = branch_target_address - branch_insn_address;
}
return offset;
}
static enum nds32_br_range
nds32_convert_to_range_type (long offset)
{
enum nds32_br_range range_type;
if (-(0x100) <= offset && offset < 0x100) /* 256 bytes */
range_type = BR_RANGE_S256;
else if (-(0x4000) <= offset && offset < 0x4000) /* 16K bytes */
range_type = BR_RANGE_S16K;
else if (-(0x10000) <= offset && offset < 0x10000) /* 64K bytes */
range_type = BR_RANGE_S64K;
else if (-(0x1000000) <= offset && offset < 0x1000000) /* 16M bytes */
range_type = BR_RANGE_S16M;
else /* 4G bytes */
range_type = BR_RANGE_U4G;
return range_type;
}
/* Set insntruction register mask. */
static void
nds32_elf_get_set_cond (relax_info_t *relax_info, int offset, uint32_t *insn,
uint32_t ori_insn, int range)
{
nds32_cond_field_t *cond_fields = relax_info->cond_field;
nds32_cond_field_t *code_seq_cond = relax_info->relax_code_condition[range];
uint32_t mask;
int i = 0;
/* The instruction has conditions. Collect condition values. */
while (offset == code_seq_cond[i].offset)
{
mask = (ori_insn >> cond_fields[i].bitpos) & cond_fields[i].bitmask;
*insn |= (mask & code_seq_cond[i].bitmask) << code_seq_cond[i].bitpos;
i++;
}
}
static int
nds32_relax_branch_instructions (segT segment, fragS *fragP,
long stretch ATTRIBUTE_UNUSED,
int init)
{
enum nds32_br_range branch_range_type;
struct nds32_opcode *opcode = fragP->tc_frag_data.opcode;
long offset = 0;
enum nds32_br_range real_range_type;
int adjust = 0;
relax_info_t *relax_info;
int diff = 0;
int i, j, k;
int code_seq_size;
uint32_t *code_seq;
uint32_t insn;
int insn_size;
uint16_t insn_16;
int insn_type;
int code_seq_offset;
/* Replace with gas_assert (fragP->fr_symbol != NULL); */
if (fragP->fr_symbol == NULL)
return adjust;
/* If frag_var is not enough room, the previos frag is fr_full and with
opcode. The new one is rs_dependent but without opcode. */
if (opcode == NULL)
return adjust;
relax_info = hash_find (nds32_relax_info_hash, opcode->opcode);
if (relax_info == NULL)
return adjust;
if (init)
branch_range_type = relax_info->br_range;
else
branch_range_type = fragP->fr_subtype;
offset = nds32_calc_branch_offset (segment, fragP, stretch,
relax_info, branch_range_type);
real_range_type = nds32_convert_to_range_type (offset);
/* If actual range is equal to instruction jump range, do nothing. */
if (real_range_type == branch_range_type)
return adjust;
/* Find out proper relaxation code sequence. */
for (i = BR_RANGE_S256; i < BR_RANGE_NUM; i++)
{
if (real_range_type <= (unsigned int) i)
{
if (init)
diff = relax_info->relax_code_size[i] - opcode->isize;
else
diff = relax_info->relax_code_size[i]
- relax_info->relax_code_size[branch_range_type];
/* If the instruction could be converted to 16-bits,
minus the difference. */
code_seq_offset = 0;
j = 0;
k = 0;
code_seq_size = relax_info->relax_code_size[i];
code_seq = relax_info->relax_code_seq[i];
while (code_seq_offset < code_seq_size)
{
insn = code_seq[j];
if (insn & 0x80000000) /* 16-bits instruction. */
{
insn_size = 2;
}
else /* 32-bits instruction. */
{
insn_size = 4;
while (relax_info->relax_fixup[i][k].size !=0
&& relax_info->relax_fixup[i][k].offset < code_seq_offset)
k++;
if (relax_info->relax_fixup[i][k].size !=0
&& relax_info->relax_fixup[i][k].ramp & NDS32_ORIGIN)
{
/* Set register num to insntruction. */
nds32_elf_get_set_cond (relax_info, code_seq_offset, &insn,
fragP->tc_frag_data.insn, i);
/* Try to convert to 16-bits instruction. */
if (nds32_convert_32_to_16 (stdoutput,
insn, &insn_16, &insn_type))
diff -= 2;
}
}
code_seq_offset += insn_size;
j++;
}
/* Update fr_subtype to new NDS32_BR_RANGE. */
fragP->fr_subtype = i;
break;
}
}
return diff + adjust;
}
/* md_relax_frag */
int
nds32_relax_frag (segT segment, fragS *fragP, long stretch ATTRIBUTE_UNUSED)
{
/* Currently, there are two kinds of relaxation in nds32 assembler.
1. relax for branch
2. relax for 32-bits to 16-bits */
int adjust;
adjust = nds32_relax_branch_instructions (segment, fragP, stretch, 0);
return adjust;
}
/* This function returns an initial guess of the length by which a fragment
must grow to hold a branch to reach its destination. Also updates
fr_type/fr_subtype as necessary.
It is called just before doing relaxation. Any symbol that is now undefined
will not become defined. The guess for fr_var is ACTUALLY the growth beyond
fr_fix. Whatever we do to grow fr_fix or fr_var contributes to our returned
value. Although it may not be explicit in the frag, pretend fr_var starts
with a 0 value. */
int
md_estimate_size_before_relax (fragS *fragP, segT segment)
{
/* Currently, there are two kinds of relaxation in nds32 assembler.
1. relax for branch
2. relax for 32-bits to 16-bits */
int adjust;
adjust = nds32_relax_branch_instructions (segment, fragP, 0, 1);
return adjust;
}
/* GAS will call this for each rs_machine_dependent fragment. The instruction
is completed using the data from the relaxation pass. It may also create any
necessary relocations.
*FRAGP has been relaxed to its final size, and now needs to have the bytes
inside it modified to conform to the new size. It is called after relaxation
is finished.
fragP->fr_type == rs_machine_dependent.
fragP->fr_subtype is the subtype of what the address relaxed to. */
void
md_convert_frag (bfd *abfd ATTRIBUTE_UNUSED, segT sec, fragS *fragP)
{
/* Convert branch relaxation instructions. */
symbolS *branch_symbol = fragP->fr_symbol;
offsetT branch_offset = fragP->fr_offset;
enum nds32_br_range branch_range_type = fragP->fr_subtype;
struct nds32_opcode *opcode = fragP->tc_frag_data.opcode;
uint32_t origin_insn = fragP->tc_frag_data.insn;
int backup_endian;
relax_info_t *relax_info;
char *fr_buffer;
int fr_where;
int addend ATTRIBUTE_UNUSED;
offsetT branch_target_address;
offsetT branch_insn_address;
expressionS exp;
fixS *fixP;
uint32_t *code_seq;
int code_size;
uint32_t insn;
int insn_size;
int offset;
int i, j, k;
uint16_t insn_16;
int insn_type;
int buf_offset;
nds32_relax_fixup_info_t fixup_info[MAX_RELAX_NUM];
/* Save the 1st instruction is converted to 16 bit or not. */
bfd_boolean insn_convert = FALSE;
int fixup_size;
/* Replace with gas_assert (branch_symbol != NULL); */
if (branch_symbol == NULL)
return;
/* If frag_var is not enough room, the previos frag is fr_full and with
opcode. The new one is rs_dependent but without opcode. */
if (opcode == NULL)
return;
relax_info = hash_find (nds32_relax_info_hash, opcode->opcode);
if (relax_info == NULL)
return;
backup_endian = target_big_endian;
target_big_endian = 1;
fr_where = fragP->fr_fix - opcode->isize;
fr_buffer = fragP->fr_literal + fr_where;
if ((S_GET_SEGMENT (branch_symbol) != sec)
|| S_IS_WEAK (branch_symbol))
{
if (fragP->fr_offset & 3)
as_warn (_("Addend to unresolved symbol is not on word boundary."));
addend = 0;
}
else
{
/* Calculate symbol-to-instruction offset. */
branch_target_address = S_GET_VALUE (branch_symbol) + branch_offset;
branch_insn_address = fragP->fr_address + fr_where;
addend = (branch_target_address - branch_insn_address) >> 1;
}
code_size = relax_info->relax_code_size[branch_range_type];
code_seq = relax_info->relax_code_seq[branch_range_type];
memcpy (fixup_info,
relax_info->relax_fixup[branch_range_type],
sizeof (fixup_info));
/* Fill in frag. */
i = 0;
k = 0;
offset = 0; /* code_seq offset */
buf_offset = 0; /* fr_buffer offset */
while (offset < code_size)
{
insn = code_seq[i];
if (insn & 0x80000000) /* 16-bits instruction. */
{
insn = (insn >> 16) & 0xFFFF;
insn_size = 2;
}
else /* 32-bits instruction. */
{
insn_size = 4;
}
nds32_elf_get_set_cond (relax_info, offset, &insn,
origin_insn, branch_range_type);
/* Try to convert to 16-bits instruction. Currently, only the first
insntruction in pattern can be converted. EX: bnez sethi ori jr,
only bnez can be converted to 16 bit and ori can't. */
while (fixup_info[k].size != 0
&& relax_info->relax_fixup[branch_range_type][k].offset < offset)
k++;
if ((fixup_info[k].size != 0
&& fixup_info[k].ramp & NDS32_ORIGIN)
&& nds32_convert_32_to_16 (stdoutput, insn, &insn_16, &insn_type))
{
/* Reduce to 16-bits instructions, adjust fixup_info[j]->offset. */
for (j = 0; fixup_info[j].size != 0; j++)
{
if (fixup_info[j].ramp & NDS32_RELAX)
fixup_info[j].size -= 2;
if (fixup_info[j].offset > buf_offset)
fixup_info[j].offset -= 2;
}
md_number_to_chars (fr_buffer + buf_offset, insn_16, 2);
buf_offset += 2;
if (offset == 0)
insn_convert = TRUE;
}
else
{
md_number_to_chars (fr_buffer + buf_offset, insn, insn_size);
buf_offset += insn_size;
}
offset += insn_size;
i++;
}
/* Set up fixup. */
exp.X_op = O_symbol;
for (i = 0; fixup_info[i].size != 0; i++)
{
fixup_size = fixup_info[i].size;
if (((fixup_info[i].ramp & NDS32_ORIGIN) && insn_convert == TRUE)
||((fixup_info[i].ramp & NDS32_CONVERT) && insn_convert == FALSE))
continue;
if ((fixup_info[i].ramp & NDS32_CREATE_LABLE) != 0)
{
/* This is a reverse branch. */
exp.X_add_symbol = symbol_temp_new (sec, 0, fragP->fr_next);
exp.X_add_number = 0;
}
else if ((fixup_info[i].ramp & NDS32_RELAX) != 0)
{
/* This is a relax relocation. */
exp.X_add_symbol = abs_section_sym;
exp.X_add_number =
SET_ADDEND (fixup_size /* size */ ,
insn_convert , optimize, enable_16bit);
}
else
{
exp.X_add_symbol = branch_symbol;
exp.X_add_number = branch_offset;
}
if (fixup_info[i].r_type != 0)
{
fixP = fix_new_exp (fragP,
fr_where + fixup_info[i].offset,
fixup_size,
&exp,
0,
fixup_info[i].r_type);
fixP->fx_addnumber = fixP->fx_offset;
}
}
fragP->fr_fix = fr_where + buf_offset;
target_big_endian = backup_endian;
}
/* tc_frob_file_before_fix */
void
nds32_frob_file_before_fix (void)
{
}
/* TC_FORCE_RELOCATION */
int
nds32_force_relocation (fixS *fix ATTRIBUTE_UNUSED)
{
/* Always force relocation, because linker may adjust the code. */
return 1;
}
/* TC_VALIDATE_FIX_SUB */
int
nds32_validate_fix_sub (fixS *fix, segT add_symbol_segment)
{
segT sub_symbol_segment;
/* This code is referred from Xtensa. Check their implementation for
details. */
/* Make sure both symbols are in the same segment, and that segment is
"normal" and relaxable. */
sub_symbol_segment = S_GET_SEGMENT (fix->fx_subsy);
return (sub_symbol_segment == add_symbol_segment
&& add_symbol_segment != undefined_section);
}
void
md_number_to_chars (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);
}
/* Equal to MAX_PRECISION in atof-ieee.c. */
#define MAX_LITTLENUMS 6
/* This function is called to convert an ASCII string into a floating point
value in format used by the CPU. */
char *
md_atof (int type, char *litP, int *sizeP)
{
int i;
int prec;
LITTLENUM_TYPE words[MAX_LITTLENUMS];
char *t;
switch (type)
{
case 'f':
case 'F':
case 's':
case 'S':
prec = 2;
break;
case 'd':
case 'D':
case 'r':
case 'R':
prec = 4;
break;
default:
*sizeP = 0;
return _("Bad call to md_atof()");
}
t = atof_ieee (input_line_pointer, type, words);
if (t)
input_line_pointer = t;
*sizeP = prec * sizeof (LITTLENUM_TYPE);
if (target_big_endian)
{
for (i = 0; i < prec; i++)
{
md_number_to_chars (litP, (valueT) words[i],
sizeof (LITTLENUM_TYPE));
litP += sizeof (LITTLENUM_TYPE);
}
}
else
{
for (i = prec - 1; i >= 0; i--)
{
md_number_to_chars (litP, (valueT) words[i],
sizeof (LITTLENUM_TYPE));
litP += sizeof (LITTLENUM_TYPE);
}
}
return 0;
}
/* md_elf_section_change_hook */
void
nds32_elf_section_change_hook (void)
{
}
/* md_cleanup */
void
nds32_cleanup (void)
{
}
/* This function is used to scan leb128 subtraction expressions,
and insert fixups for them.
e.g., .leb128 .L1 - .L0
These expressions are heavily used in debug information or
exception tables. Because relaxation will change code size,
we must resolve them in link time. */
static void
nds32_insert_leb128_fixes (bfd *abfd ATTRIBUTE_UNUSED,
asection *sec, void *xxx ATTRIBUTE_UNUSED)
{
segment_info_type *seginfo = seg_info (sec);
struct frag *fragP;
subseg_set (sec, 0);
for (fragP = seginfo->frchainP->frch_root;
fragP; fragP = fragP->fr_next)
{
expressionS *exp;
/* Only unsigned leb128 can be handle. */
if (fragP->fr_type != rs_leb128 || fragP->fr_subtype != 0
|| fragP->fr_symbol == NULL)
continue;
exp = symbol_get_value_expression (fragP->fr_symbol);
if (exp->X_op != O_subtract)
continue;
fix_new_exp (fragP, fragP->fr_fix, 0,
exp, 0, BFD_RELOC_NDS32_DIFF_ULEB128);
}
}
static void
nds32_insert_relax_entry (bfd *abfd ATTRIBUTE_UNUSED, asection *sec,
void *xxx ATTRIBUTE_UNUSED)
{
segment_info_type *seginfo;
fragS *fragP;
fixS *fixP;
expressionS exp;
fixS *fixp;
seginfo = seg_info (sec);
if (!seginfo || !symbol_rootP || !subseg_text_p (sec))
return;
/* If there is no relocation and relax is disabled, it is not necessary to
insert R_NDS32_RELAX_ENTRY for linker do EX9 or IFC optimization. */
for (fixp = seginfo->fix_root; fixp; fixp = fixp->fx_next)
if (!fixp->fx_done)
break;
if (!fixp && !enable_relax_ex9 && !verbatim)
return;
subseg_change (sec, 0);
/* Set RELAX_ENTRY flags for linker. */
fragP = seginfo->frchainP->frch_root;
exp.X_op = O_symbol;
exp.X_add_symbol = section_symbol (sec);
exp.X_add_number = 0;
if (!enable_relax_relocs)
exp.X_add_number |= R_NDS32_RELAX_ENTRY_DISABLE_RELAX_FLAG;
else
{
/* These flags are only enabled when global relax is enabled.
Maybe we can check DISABLE_RELAX_FLAG at linke-time,
so we set them anyway. */
if (enable_relax_ex9)
exp.X_add_number |= R_NDS32_RELAX_ENTRY_EX9_FLAG;
if (enable_relax_ifc)
exp.X_add_number |= R_NDS32_RELAX_ENTRY_IFC_FLAG;
if (verbatim)
exp.X_add_number |= R_NDS32_RELAX_ENTRY_VERBATIM_FLAG;
}
if (optimize)
exp.X_add_number |= R_NDS32_RELAX_ENTRY_OPTIMIZE_FLAG;
if (optimize_for_space)
exp.X_add_number |= R_NDS32_RELAX_ENTRY_OPTIMIZE_FOR_SPACE_FLAG;
fixP = fix_new_exp (fragP, 0, 0, &exp, 0, BFD_RELOC_NDS32_RELAX_ENTRY);
fixP->fx_no_overflow = 1;
}
/* Analysis relax hint and insert suitable relocation pattern. */
static void
nds32_elf_analysis_relax_hint (void)
{
hash_traverse (nds32_hint_hash, nds32_elf_append_relax_relocs);
}
void
md_end (void)
{
nds32_elf_analysis_relax_hint ();
bfd_map_over_sections (stdoutput, nds32_insert_leb128_fixes, NULL);
}
/* Implement md_allow_local_subtract. */
bfd_boolean
nds32_allow_local_subtract (expressionS *expr_l ATTRIBUTE_UNUSED,
expressionS *expr_r ATTRIBUTE_UNUSED,
segT sec ATTRIBUTE_UNUSED)
{
/* Don't allow any subtraction, because relax may change the code. */
return FALSE;
}
/* Sort relocation by address.
We didn't use qsort () in stdlib, because quick-sort is not a stable
sorting algorithm. Relocations at the same address (r_offset) must keep
their relative order. For example, RELAX_ENTRY must be the very first
relocation entry.
Currently, this function implements insertion-sort. */
static int
compar_relent (const void *lhs, const void *rhs)
{
const arelent **l = (const arelent **) lhs;
const arelent **r = (const arelent **) rhs;
if ((*l)->address > (*r)->address)
return 1;
else if ((*l)->address == (*r)->address)
return 0;
else
return -1;
}
/* SET_SECTION_RELOCS ()
Although this macro is originally used to set a relocation for each section,
we use it to sort relocations in the same section by the address of the
relocation. */
void
nds32_set_section_relocs (asection *sec, arelent ** relocs ATTRIBUTE_UNUSED,
unsigned int n ATTRIBUTE_UNUSED)
{
bfd *abfd ATTRIBUTE_UNUSED = sec->owner;
if (bfd_get_section_flags (abfd, sec) & (flagword) SEC_RELOC)
nds32_insertion_sort (sec->orelocation, sec->reloc_count, sizeof (arelent**),
compar_relent);
}
long
nds32_pcrel_from_section (fixS *fixP, segT sec ATTRIBUTE_UNUSED)
{
if (fixP->fx_addsy == NULL || !S_IS_DEFINED (fixP->fx_addsy)
|| S_IS_EXTERNAL (fixP->fx_addsy) || S_IS_WEAK (fixP->fx_addsy))
{
/* Let linker resolve undefined symbols. */
return 0;
}
return fixP->fx_frag->fr_address + fixP->fx_where;
}
/* md_post_relax_hook ()
Insert relax entry relocation into sections. */
void
nds32_post_relax_hook (void)
{
bfd_map_over_sections (stdoutput, nds32_insert_relax_entry, NULL);
}
/* tc_fix_adjustable ()
Return whether this symbol (fixup) can be replaced with
section symbols. */
bfd_boolean
nds32_fix_adjustable (fixS *fixP)
{
switch (fixP->fx_r_type)
{
case BFD_RELOC_NDS32_WORD_9_PCREL:
case BFD_RELOC_NDS32_9_PCREL:
case BFD_RELOC_NDS32_15_PCREL:
case BFD_RELOC_NDS32_17_PCREL:
case BFD_RELOC_NDS32_25_PCREL:
case BFD_RELOC_NDS32_HI20:
case BFD_RELOC_NDS32_LO12S0:
case BFD_RELOC_8:
case BFD_RELOC_16:
case BFD_RELOC_32:
case BFD_RELOC_NDS32_PTR:
return 1;
default:
return 0;
}
}
/* elf_tc_final_processing */
void
elf_nds32_final_processing (void)
{
/* An FPU_COM instruction is found without previous non-FPU_COM instruction. */
if (nds32_fpu_com
&& !(nds32_elf_flags & (E_NDS32_HAS_FPU_INST | E_NDS32_HAS_FPU_DP_INST)))
{
/* Since only FPU_COM instructions are used and no other FPU instructions
are used. The nds32_elf_flags will be decided by the enabled options by
command line or default configuration. */
if (nds32_fpu_dp_ext || nds32_fpu_sp_ext)
{
nds32_elf_flags |= nds32_fpu_dp_ext ? E_NDS32_HAS_FPU_DP_INST : 0;
nds32_elf_flags |= nds32_fpu_sp_ext ? E_NDS32_HAS_FPU_INST : 0;
}
else
{
/* Should never here. */
as_bad (_("Used FPU instructions requires enabling FPU extension"));
}
}
if (nds32_elf_flags & (E_NDS32_HAS_FPU_INST | E_NDS32_HAS_FPU_DP_INST))
{
/* Single/double FPU has been used, set FPU register config. */
/* We did not check the actual number of register used. We may
want to do it while assemble. */
nds32_elf_flags &= ~E_NDS32_FPU_REG_CONF;
nds32_elf_flags |= (nds32_freg << E_NDS32_FPU_REG_CONF_SHIFT);
}
if (nds32_pic)
nds32_elf_flags |= E_NDS32_HAS_PIC;
if (nds32_gpr16)
nds32_elf_flags |= E_NDS32_HAS_REDUCED_REGS;
nds32_elf_flags |= (E_NDS32_ELF_VER_1_4 | nds32_abi);
elf_elfheader (stdoutput)->e_flags |= nds32_elf_flags;
}
/* Implement md_apply_fix. Apply the fix-up or tranform the fix-up for
later relocation generation. */
void
nds32_apply_fix (fixS *fixP, valueT *valP, segT seg ATTRIBUTE_UNUSED)
{
char *where = fixP->fx_frag->fr_literal + fixP->fx_where;
bfd_vma value = *valP;
if (fixP->fx_r_type < BFD_RELOC_UNUSED
&& fixP->fx_r_type > BFD_RELOC_NONE
&& fixP->fx_r_type != BFD_RELOC_NDS32_DIFF_ULEB128)
{
/* FIXME: This implementation is partially borrowed from our old
nds32 binutils. Its purpose is to leave original bfd
relocation untouched, while other relocation created by CGEN
will be converted into general bfd relocations.
However, since we no longer use CGEN, we can simply use
a little piece of code to deal with general bfd relocation,
especially for the BFD_RELOC_NDS32_DATA, which is just used
as a marker for different purpose.
It is believed that we can construct a better mechanism to
deal with the whole relocation issue in nds32 target
without using CGEN. */
fixP->fx_addnumber = value;
fixP->tc_fix_data = NULL;
if (fixP->fx_r_type == BFD_RELOC_NDS32_DATA)
fixP->fx_done = 1;
return;
}
if (fixP->fx_addsy == (symbolS *) NULL)
fixP->fx_done = 1;
if (fixP->fx_subsy != (symbolS *) NULL)
{
/* HOW DIFF RELOCATION WORKS.
First of all, this relocation is used to calculate the distance
between two symbols in the SAME section. It is used for jump-
table, debug information, exception table, et al. Therefore,
it is a unsigned positive value. It is NOT used for general-
purpose arithmetic.
Consider this example, the distance between .LEND and .LBEGIN
is stored at the address of foo.
---- >8 ---- >8 ---- >8 ---- >8 ----
.data
foo:
.word .LBEGIN - .LEND
.text
[before]
.LBEGIN
\
[between] distance
/
.LEND
[after]
---- 8< ---- 8< ---- 8< ---- 8< ----
We use a single relocation entry for this expression.
* The initial distance value is stored direcly in that location
specified by r_offset (i.e., foo in this example.)
* The begin of the region, i.e., .LBEGIN, is specified by
r_info/R_SYM and r_addend, e.g., .text + 0x32.
* The end of region, i.e., .LEND, is represented by
.LBEGIN + distance instead of .LEND, so we only need
a single relocation entry instead of two.
When an instruction is relaxed, we adjust the relocation entry
depending on where the instruction locates. There are three
cases, before, after and between the region.
* between: Distance value is read from r_offset, adjusted and
written back into r_offset.
* before: Only r_addend is adjust.
* after: We don't care about it.
Hereby, there are some limitation.
`(.LEND - 1) - .LBEGIN' and `(.LEND - .LBEGIN) - 1'
are semantically different, and we cannot handle latter case
when relaxation.
The latter expression means subtracting 1 from the distance
between .LEND and .LBEGIN. And the former expression means
the distance between (.LEND - 1) and .LBEGIN.
The nuance affects whether to adjust distance value when relax
an instruction. In another words, whether the instruction
locates in the region. Because we use a single relocation entry,
there is no field left for .LEND and the subtrahend.
Since GCC-4.5, GCC may produce debug information in such expression
.long .L1-1-.L0
in order to describe register clobbering during an function-call.
.L0:
call foo
.L1:
Check http://gcc.gnu.org/ml/gcc-patches/2009-06/msg01317.html
for details. */
value -= S_GET_VALUE (fixP->fx_subsy);
*valP = value;
fixP->fx_subsy = NULL;
fixP->fx_offset -= value;
switch (fixP->fx_r_type)
{
case BFD_RELOC_8:
fixP->fx_r_type = BFD_RELOC_NDS32_DIFF8;
md_number_to_chars (where, value, 1);
break;
case BFD_RELOC_16:
fixP->fx_r_type = BFD_RELOC_NDS32_DIFF16;
md_number_to_chars (where, value, 2);
break;
case BFD_RELOC_32:
fixP->fx_r_type = BFD_RELOC_NDS32_DIFF32;
md_number_to_chars (where, value, 4);
break;
case BFD_RELOC_NDS32_DIFF_ULEB128:
/* cvt_frag_to_fill () has called output_leb128 () for us. */
break;
default:
as_bad_where (fixP->fx_file, fixP->fx_line, _("expression too complex"));
return;
}
}
else if (fixP->fx_done)
{
/* We're finished with this fixup. Install it because
bfd_install_relocation won't be called to do it. */
switch (fixP->fx_r_type)
{
case BFD_RELOC_8:
md_number_to_chars (where, value, 1);
break;
case BFD_RELOC_16:
md_number_to_chars (where, value, 2);
break;
case BFD_RELOC_32:
md_number_to_chars (where, value, 4);
break;
case BFD_RELOC_64:
md_number_to_chars (where, value, 8);
default:
as_bad_where (fixP->fx_file, fixP->fx_line,
_("Internal error: Unknown fixup type %d (`%s')"),
fixP->fx_r_type, bfd_get_reloc_code_name (fixP->fx_r_type));
break;
}
}
}
/* Implement tc_gen_reloc. Generate ELF relocation for a fix-up. */
arelent *
tc_gen_reloc (asection *section ATTRIBUTE_UNUSED, fixS *fixP)
{
arelent *reloc;
bfd_reloc_code_real_type code;
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;
code = fixP->fx_r_type;
reloc->howto = bfd_reloc_type_lookup (stdoutput, code);
if (reloc->howto == (reloc_howto_type *) NULL)
{
as_bad_where (fixP->fx_file, fixP->fx_line,
_("internal error: can't export reloc type %d (`%s')"),
fixP->fx_r_type, bfd_get_reloc_code_name (code));
return NULL;
}
/* Add relocation handling here. */
switch (fixP->fx_r_type)
{
default:
/* In general, addend of a relocation is the offset to the
associated symbol. */
reloc->addend = fixP->fx_offset;
break;
case BFD_RELOC_NDS32_DATA:
/* Prevent linker from optimizing data in text sections.
For example, jump table. */
reloc->addend = fixP->fx_size;
break;
}
return reloc;
}
/* Implement md_parse_name. */
int
nds32_parse_name (char const *name, expressionS *exprP,
enum expr_mode mode ATTRIBUTE_UNUSED,
char *nextcharP ATTRIBUTE_UNUSED)
{
char *suffix_table[] = { "GOTOFF", "GOT", "PLT" };
short unsigned int reloc_table [] =
{
BFD_RELOC_NDS32_GOTOFF, BFD_RELOC_NDS32_GOT20,
BFD_RELOC_NDS32_25_PLTREL
};
segT segment;
exprP->X_op_symbol = NULL;
exprP->X_md = BFD_RELOC_UNUSED;
exprP->X_add_symbol = symbol_find_or_make (name);
segment = S_GET_SEGMENT (exprP->X_add_symbol);
if (segment != undefined_section)
return 0;
if (*nextcharP == '@')
{
size_t i;
char *next;
for (i = 0; i < ARRAY_SIZE (suffix_table); i++)
{
next = input_line_pointer + 1 + strlen (suffix_table[i]);
if (strncasecmp (input_line_pointer + 1, suffix_table[i],
strlen (suffix_table[i])) == 0
&& !is_part_of_name (*next))
{
exprP->X_md = reloc_table[i];
*input_line_pointer = *nextcharP;
input_line_pointer = next;
*nextcharP = *input_line_pointer;
*input_line_pointer = '\0';
break;
}
}
}
exprP->X_op = O_symbol;
exprP->X_add_number = 0;
return 1;
}
/* Implement tc_regname_to_dw2regnum. */
int
tc_nds32_regname_to_dw2regnum (char *regname)
{
symbolS *sym = symbol_find (regname);
if (S_GET_SEGMENT (sym) == reg_section
&& sym->sy_value.X_add_number < 32)
return sym->sy_value.X_add_number;
return -1;
}
void
tc_nds32_frame_initial_instructions (void)
{
/* CIE */
/* Default cfa is register-28/sp. */
cfi_add_CFA_def_cfa (31, 0);
}
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