Commit | Line | Data |
---|---|---|
252b5132 | 1 | /* i386.c -- Assemble code for the Intel 80386 |
f7e42eb4 | 2 | Copyright 1989, 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, |
67a4f2b7 | 3 | 2000, 2001, 2002, 2003, 2004, 2005, 2006 |
47926f60 | 4 | Free Software Foundation, Inc. |
252b5132 RH |
5 | |
6 | This file is part of GAS, the GNU Assembler. | |
7 | ||
8 | GAS is free software; you can redistribute it and/or modify | |
9 | it under the terms of the GNU General Public License as published by | |
10 | the Free Software Foundation; either version 2, or (at your option) | |
11 | any later version. | |
12 | ||
13 | GAS is distributed in the hope that it will be useful, | |
14 | but WITHOUT ANY WARRANTY; without even the implied warranty of | |
15 | MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |
16 | GNU General Public License for more details. | |
17 | ||
18 | You should have received a copy of the GNU General Public License | |
19 | along with GAS; see the file COPYING. If not, write to the Free | |
4b4da160 NC |
20 | Software Foundation, 51 Franklin Street - Fifth Floor, Boston, MA |
21 | 02110-1301, USA. */ | |
252b5132 | 22 | |
47926f60 KH |
23 | /* Intel 80386 machine specific gas. |
24 | Written by Eliot Dresselhaus (eliot@mgm.mit.edu). | |
3e73aa7c | 25 | x86_64 support by Jan Hubicka (jh@suse.cz) |
0f10071e | 26 | VIA PadLock support by Michal Ludvig (mludvig@suse.cz) |
47926f60 KH |
27 | Bugs & suggestions are completely welcome. This is free software. |
28 | Please help us make it better. */ | |
252b5132 | 29 | |
252b5132 | 30 | #include "as.h" |
3882b010 | 31 | #include "safe-ctype.h" |
252b5132 | 32 | #include "subsegs.h" |
316e2c05 | 33 | #include "dwarf2dbg.h" |
54cfded0 | 34 | #include "dw2gencfi.h" |
252b5132 | 35 | #include "opcode/i386.h" |
d2b2c203 | 36 | #include "elf/x86-64.h" |
252b5132 | 37 | |
252b5132 RH |
38 | #ifndef REGISTER_WARNINGS |
39 | #define REGISTER_WARNINGS 1 | |
40 | #endif | |
41 | ||
c3332e24 | 42 | #ifndef INFER_ADDR_PREFIX |
eecb386c | 43 | #define INFER_ADDR_PREFIX 1 |
c3332e24 AM |
44 | #endif |
45 | ||
252b5132 RH |
46 | #ifndef SCALE1_WHEN_NO_INDEX |
47 | /* Specifying a scale factor besides 1 when there is no index is | |
48 | futile. eg. `mov (%ebx,2),%al' does exactly the same as | |
49 | `mov (%ebx),%al'. To slavishly follow what the programmer | |
50 | specified, set SCALE1_WHEN_NO_INDEX to 0. */ | |
51 | #define SCALE1_WHEN_NO_INDEX 1 | |
52 | #endif | |
53 | ||
29b0f896 AM |
54 | #ifndef DEFAULT_ARCH |
55 | #define DEFAULT_ARCH "i386" | |
246fcdee | 56 | #endif |
252b5132 | 57 | |
edde18a5 AM |
58 | #ifndef INLINE |
59 | #if __GNUC__ >= 2 | |
60 | #define INLINE __inline__ | |
61 | #else | |
62 | #define INLINE | |
63 | #endif | |
64 | #endif | |
65 | ||
29b0f896 AM |
66 | static INLINE unsigned int mode_from_disp_size PARAMS ((unsigned int)); |
67 | static INLINE int fits_in_signed_byte PARAMS ((offsetT)); | |
68 | static INLINE int fits_in_unsigned_byte PARAMS ((offsetT)); | |
69 | static INLINE int fits_in_unsigned_word PARAMS ((offsetT)); | |
70 | static INLINE int fits_in_signed_word PARAMS ((offsetT)); | |
71 | static INLINE int fits_in_unsigned_long PARAMS ((offsetT)); | |
72 | static INLINE int fits_in_signed_long PARAMS ((offsetT)); | |
847f7ad4 AM |
73 | static int smallest_imm_type PARAMS ((offsetT)); |
74 | static offsetT offset_in_range PARAMS ((offsetT, int)); | |
252b5132 | 75 | static int add_prefix PARAMS ((unsigned int)); |
3e73aa7c | 76 | static void set_code_flag PARAMS ((int)); |
47926f60 | 77 | static void set_16bit_gcc_code_flag PARAMS ((int)); |
252b5132 | 78 | static void set_intel_syntax PARAMS ((int)); |
e413e4e9 | 79 | static void set_cpu_arch PARAMS ((int)); |
6482c264 NC |
80 | #ifdef TE_PE |
81 | static void pe_directive_secrel PARAMS ((int)); | |
82 | #endif | |
d182319b | 83 | static void signed_cons PARAMS ((int)); |
29b0f896 AM |
84 | static char *output_invalid PARAMS ((int c)); |
85 | static int i386_operand PARAMS ((char *operand_string)); | |
86 | static int i386_intel_operand PARAMS ((char *operand_string, int got_a_float)); | |
87 | static const reg_entry *parse_register PARAMS ((char *reg_string, | |
88 | char **end_op)); | |
89 | static char *parse_insn PARAMS ((char *, char *)); | |
90 | static char *parse_operands PARAMS ((char *, const char *)); | |
91 | static void swap_operands PARAMS ((void)); | |
92 | static void optimize_imm PARAMS ((void)); | |
93 | static void optimize_disp PARAMS ((void)); | |
94 | static int match_template PARAMS ((void)); | |
95 | static int check_string PARAMS ((void)); | |
96 | static int process_suffix PARAMS ((void)); | |
97 | static int check_byte_reg PARAMS ((void)); | |
98 | static int check_long_reg PARAMS ((void)); | |
99 | static int check_qword_reg PARAMS ((void)); | |
100 | static int check_word_reg PARAMS ((void)); | |
101 | static int finalize_imm PARAMS ((void)); | |
102 | static int process_operands PARAMS ((void)); | |
103 | static const seg_entry *build_modrm_byte PARAMS ((void)); | |
104 | static void output_insn PARAMS ((void)); | |
105 | static void output_branch PARAMS ((void)); | |
106 | static void output_jump PARAMS ((void)); | |
107 | static void output_interseg_jump PARAMS ((void)); | |
2bbd9c25 JJ |
108 | static void output_imm PARAMS ((fragS *insn_start_frag, |
109 | offsetT insn_start_off)); | |
110 | static void output_disp PARAMS ((fragS *insn_start_frag, | |
111 | offsetT insn_start_off)); | |
29b0f896 AM |
112 | #ifndef I386COFF |
113 | static void s_bss PARAMS ((int)); | |
252b5132 | 114 | #endif |
17d4e2a2 L |
115 | #if defined (OBJ_ELF) || defined (OBJ_MAYBE_ELF) |
116 | static void handle_large_common (int small ATTRIBUTE_UNUSED); | |
117 | #endif | |
252b5132 | 118 | |
a847613f | 119 | static const char *default_arch = DEFAULT_ARCH; |
3e73aa7c | 120 | |
252b5132 | 121 | /* 'md_assemble ()' gathers together information and puts it into a |
47926f60 | 122 | i386_insn. */ |
252b5132 | 123 | |
520dc8e8 AM |
124 | union i386_op |
125 | { | |
126 | expressionS *disps; | |
127 | expressionS *imms; | |
128 | const reg_entry *regs; | |
129 | }; | |
130 | ||
252b5132 RH |
131 | struct _i386_insn |
132 | { | |
47926f60 | 133 | /* TM holds the template for the insn were currently assembling. */ |
252b5132 RH |
134 | template tm; |
135 | ||
136 | /* SUFFIX holds the instruction mnemonic suffix if given. | |
137 | (e.g. 'l' for 'movl') */ | |
138 | char suffix; | |
139 | ||
47926f60 | 140 | /* OPERANDS gives the number of given operands. */ |
252b5132 RH |
141 | unsigned int operands; |
142 | ||
143 | /* REG_OPERANDS, DISP_OPERANDS, MEM_OPERANDS, IMM_OPERANDS give the number | |
144 | of given register, displacement, memory operands and immediate | |
47926f60 | 145 | operands. */ |
252b5132 RH |
146 | unsigned int reg_operands, disp_operands, mem_operands, imm_operands; |
147 | ||
148 | /* TYPES [i] is the type (see above #defines) which tells us how to | |
520dc8e8 | 149 | use OP[i] for the corresponding operand. */ |
252b5132 RH |
150 | unsigned int types[MAX_OPERANDS]; |
151 | ||
520dc8e8 AM |
152 | /* Displacement expression, immediate expression, or register for each |
153 | operand. */ | |
154 | union i386_op op[MAX_OPERANDS]; | |
252b5132 | 155 | |
3e73aa7c JH |
156 | /* Flags for operands. */ |
157 | unsigned int flags[MAX_OPERANDS]; | |
158 | #define Operand_PCrel 1 | |
159 | ||
252b5132 | 160 | /* Relocation type for operand */ |
f86103b7 | 161 | enum bfd_reloc_code_real reloc[MAX_OPERANDS]; |
252b5132 | 162 | |
252b5132 RH |
163 | /* BASE_REG, INDEX_REG, and LOG2_SCALE_FACTOR are used to encode |
164 | the base index byte below. */ | |
165 | const reg_entry *base_reg; | |
166 | const reg_entry *index_reg; | |
167 | unsigned int log2_scale_factor; | |
168 | ||
169 | /* SEG gives the seg_entries of this insn. They are zero unless | |
47926f60 | 170 | explicit segment overrides are given. */ |
ce8a8b2f | 171 | const seg_entry *seg[2]; |
252b5132 RH |
172 | |
173 | /* PREFIX holds all the given prefix opcodes (usually null). | |
174 | PREFIXES is the number of prefix opcodes. */ | |
175 | unsigned int prefixes; | |
176 | unsigned char prefix[MAX_PREFIXES]; | |
177 | ||
178 | /* RM and SIB are the modrm byte and the sib byte where the | |
179 | addressing modes of this insn are encoded. */ | |
180 | ||
181 | modrm_byte rm; | |
3e73aa7c | 182 | rex_byte rex; |
252b5132 RH |
183 | sib_byte sib; |
184 | }; | |
185 | ||
186 | typedef struct _i386_insn i386_insn; | |
187 | ||
188 | /* List of chars besides those in app.c:symbol_chars that can start an | |
189 | operand. Used to prevent the scrubber eating vital white-space. */ | |
32137342 | 190 | const char extra_symbol_chars[] = "*%-([" |
252b5132 | 191 | #ifdef LEX_AT |
32137342 NC |
192 | "@" |
193 | #endif | |
194 | #ifdef LEX_QM | |
195 | "?" | |
252b5132 | 196 | #endif |
32137342 | 197 | ; |
252b5132 | 198 | |
29b0f896 AM |
199 | #if (defined (TE_I386AIX) \ |
200 | || ((defined (OBJ_ELF) || defined (OBJ_MAYBE_ELF)) \ | |
3896cfd5 | 201 | && !defined (TE_GNU) \ |
29b0f896 | 202 | && !defined (TE_LINUX) \ |
32137342 | 203 | && !defined (TE_NETWARE) \ |
29b0f896 AM |
204 | && !defined (TE_FreeBSD) \ |
205 | && !defined (TE_NetBSD))) | |
252b5132 | 206 | /* This array holds the chars that always start a comment. If the |
b3b91714 AM |
207 | pre-processor is disabled, these aren't very useful. The option |
208 | --divide will remove '/' from this list. */ | |
209 | const char *i386_comment_chars = "#/"; | |
210 | #define SVR4_COMMENT_CHARS 1 | |
252b5132 | 211 | #define PREFIX_SEPARATOR '\\' |
252b5132 | 212 | |
b3b91714 AM |
213 | #else |
214 | const char *i386_comment_chars = "#"; | |
215 | #define PREFIX_SEPARATOR '/' | |
216 | #endif | |
217 | ||
252b5132 RH |
218 | /* This array holds the chars that only start a comment at the beginning of |
219 | a line. If the line seems to have the form '# 123 filename' | |
ce8a8b2f AM |
220 | .line and .file directives will appear in the pre-processed output. |
221 | Note that input_file.c hand checks for '#' at the beginning of the | |
252b5132 | 222 | first line of the input file. This is because the compiler outputs |
ce8a8b2f AM |
223 | #NO_APP at the beginning of its output. |
224 | Also note that comments started like this one will always work if | |
252b5132 | 225 | '/' isn't otherwise defined. */ |
b3b91714 | 226 | const char line_comment_chars[] = "#/"; |
252b5132 | 227 | |
63a0b638 | 228 | const char line_separator_chars[] = ";"; |
252b5132 | 229 | |
ce8a8b2f AM |
230 | /* Chars that can be used to separate mant from exp in floating point |
231 | nums. */ | |
252b5132 RH |
232 | const char EXP_CHARS[] = "eE"; |
233 | ||
ce8a8b2f AM |
234 | /* Chars that mean this number is a floating point constant |
235 | As in 0f12.456 | |
236 | or 0d1.2345e12. */ | |
252b5132 RH |
237 | const char FLT_CHARS[] = "fFdDxX"; |
238 | ||
ce8a8b2f | 239 | /* Tables for lexical analysis. */ |
252b5132 RH |
240 | static char mnemonic_chars[256]; |
241 | static char register_chars[256]; | |
242 | static char operand_chars[256]; | |
243 | static char identifier_chars[256]; | |
244 | static char digit_chars[256]; | |
245 | ||
ce8a8b2f | 246 | /* Lexical macros. */ |
252b5132 RH |
247 | #define is_mnemonic_char(x) (mnemonic_chars[(unsigned char) x]) |
248 | #define is_operand_char(x) (operand_chars[(unsigned char) x]) | |
249 | #define is_register_char(x) (register_chars[(unsigned char) x]) | |
250 | #define is_space_char(x) ((x) == ' ') | |
251 | #define is_identifier_char(x) (identifier_chars[(unsigned char) x]) | |
252 | #define is_digit_char(x) (digit_chars[(unsigned char) x]) | |
253 | ||
0234cb7c | 254 | /* All non-digit non-letter characters that may occur in an operand. */ |
252b5132 RH |
255 | static char operand_special_chars[] = "%$-+(,)*._~/<>|&^!:[@]"; |
256 | ||
257 | /* md_assemble() always leaves the strings it's passed unaltered. To | |
258 | effect this we maintain a stack of saved characters that we've smashed | |
259 | with '\0's (indicating end of strings for various sub-fields of the | |
47926f60 | 260 | assembler instruction). */ |
252b5132 | 261 | static char save_stack[32]; |
ce8a8b2f | 262 | static char *save_stack_p; |
252b5132 RH |
263 | #define END_STRING_AND_SAVE(s) \ |
264 | do { *save_stack_p++ = *(s); *(s) = '\0'; } while (0) | |
265 | #define RESTORE_END_STRING(s) \ | |
266 | do { *(s) = *--save_stack_p; } while (0) | |
267 | ||
47926f60 | 268 | /* The instruction we're assembling. */ |
252b5132 RH |
269 | static i386_insn i; |
270 | ||
271 | /* Possible templates for current insn. */ | |
272 | static const templates *current_templates; | |
273 | ||
47926f60 | 274 | /* Per instruction expressionS buffers: 2 displacements & 2 immediate max. */ |
252b5132 RH |
275 | static expressionS disp_expressions[2], im_expressions[2]; |
276 | ||
47926f60 KH |
277 | /* Current operand we are working on. */ |
278 | static int this_operand; | |
252b5132 | 279 | |
3e73aa7c JH |
280 | /* We support four different modes. FLAG_CODE variable is used to distinguish |
281 | these. */ | |
282 | ||
283 | enum flag_code { | |
284 | CODE_32BIT, | |
285 | CODE_16BIT, | |
286 | CODE_64BIT }; | |
f3c180ae | 287 | #define NUM_FLAG_CODE ((int) CODE_64BIT + 1) |
3e73aa7c JH |
288 | |
289 | static enum flag_code flag_code; | |
4fa24527 | 290 | static unsigned int object_64bit; |
3e73aa7c JH |
291 | static int use_rela_relocations = 0; |
292 | ||
293 | /* The names used to print error messages. */ | |
b77a7acd | 294 | static const char *flag_code_names[] = |
3e73aa7c JH |
295 | { |
296 | "32", | |
297 | "16", | |
298 | "64" | |
299 | }; | |
252b5132 | 300 | |
47926f60 KH |
301 | /* 1 for intel syntax, |
302 | 0 if att syntax. */ | |
303 | static int intel_syntax = 0; | |
252b5132 | 304 | |
47926f60 KH |
305 | /* 1 if register prefix % not required. */ |
306 | static int allow_naked_reg = 0; | |
252b5132 | 307 | |
47926f60 KH |
308 | /* Used in 16 bit gcc mode to add an l suffix to call, ret, enter, |
309 | leave, push, and pop instructions so that gcc has the same stack | |
310 | frame as in 32 bit mode. */ | |
311 | static char stackop_size = '\0'; | |
eecb386c | 312 | |
12b55ccc L |
313 | /* Non-zero to optimize code alignment. */ |
314 | int optimize_align_code = 1; | |
315 | ||
47926f60 KH |
316 | /* Non-zero to quieten some warnings. */ |
317 | static int quiet_warnings = 0; | |
a38cf1db | 318 | |
47926f60 KH |
319 | /* CPU name. */ |
320 | static const char *cpu_arch_name = NULL; | |
5c6af06e | 321 | static const char *cpu_sub_arch_name = NULL; |
a38cf1db | 322 | |
47926f60 | 323 | /* CPU feature flags. */ |
29b0f896 | 324 | static unsigned int cpu_arch_flags = CpuUnknownFlags | CpuNo64; |
a38cf1db | 325 | |
fddf5b5b AM |
326 | /* If set, conditional jumps are not automatically promoted to handle |
327 | larger than a byte offset. */ | |
328 | static unsigned int no_cond_jump_promotion = 0; | |
329 | ||
29b0f896 | 330 | /* Pre-defined "_GLOBAL_OFFSET_TABLE_". */ |
87c245cc | 331 | static symbolS *GOT_symbol; |
29b0f896 | 332 | |
a4447b93 RH |
333 | /* The dwarf2 return column, adjusted for 32 or 64 bit. */ |
334 | unsigned int x86_dwarf2_return_column; | |
335 | ||
336 | /* The dwarf2 data alignment, adjusted for 32 or 64 bit. */ | |
337 | int x86_cie_data_alignment; | |
338 | ||
252b5132 | 339 | /* Interface to relax_segment. |
fddf5b5b AM |
340 | There are 3 major relax states for 386 jump insns because the |
341 | different types of jumps add different sizes to frags when we're | |
342 | figuring out what sort of jump to choose to reach a given label. */ | |
252b5132 | 343 | |
47926f60 | 344 | /* Types. */ |
93c2a809 AM |
345 | #define UNCOND_JUMP 0 |
346 | #define COND_JUMP 1 | |
347 | #define COND_JUMP86 2 | |
fddf5b5b | 348 | |
47926f60 | 349 | /* Sizes. */ |
252b5132 RH |
350 | #define CODE16 1 |
351 | #define SMALL 0 | |
29b0f896 | 352 | #define SMALL16 (SMALL | CODE16) |
252b5132 | 353 | #define BIG 2 |
29b0f896 | 354 | #define BIG16 (BIG | CODE16) |
252b5132 RH |
355 | |
356 | #ifndef INLINE | |
357 | #ifdef __GNUC__ | |
358 | #define INLINE __inline__ | |
359 | #else | |
360 | #define INLINE | |
361 | #endif | |
362 | #endif | |
363 | ||
fddf5b5b AM |
364 | #define ENCODE_RELAX_STATE(type, size) \ |
365 | ((relax_substateT) (((type) << 2) | (size))) | |
366 | #define TYPE_FROM_RELAX_STATE(s) \ | |
367 | ((s) >> 2) | |
368 | #define DISP_SIZE_FROM_RELAX_STATE(s) \ | |
369 | ((((s) & 3) == BIG ? 4 : (((s) & 3) == BIG16 ? 2 : 1))) | |
252b5132 RH |
370 | |
371 | /* This table is used by relax_frag to promote short jumps to long | |
372 | ones where necessary. SMALL (short) jumps may be promoted to BIG | |
373 | (32 bit long) ones, and SMALL16 jumps to BIG16 (16 bit long). We | |
374 | don't allow a short jump in a 32 bit code segment to be promoted to | |
375 | a 16 bit offset jump because it's slower (requires data size | |
376 | prefix), and doesn't work, unless the destination is in the bottom | |
377 | 64k of the code segment (The top 16 bits of eip are zeroed). */ | |
378 | ||
379 | const relax_typeS md_relax_table[] = | |
380 | { | |
24eab124 AM |
381 | /* The fields are: |
382 | 1) most positive reach of this state, | |
383 | 2) most negative reach of this state, | |
93c2a809 | 384 | 3) how many bytes this mode will have in the variable part of the frag |
ce8a8b2f | 385 | 4) which index into the table to try if we can't fit into this one. */ |
252b5132 | 386 | |
fddf5b5b | 387 | /* UNCOND_JUMP states. */ |
93c2a809 AM |
388 | {127 + 1, -128 + 1, 1, ENCODE_RELAX_STATE (UNCOND_JUMP, BIG)}, |
389 | {127 + 1, -128 + 1, 1, ENCODE_RELAX_STATE (UNCOND_JUMP, BIG16)}, | |
390 | /* dword jmp adds 4 bytes to frag: | |
391 | 0 extra opcode bytes, 4 displacement bytes. */ | |
252b5132 | 392 | {0, 0, 4, 0}, |
93c2a809 AM |
393 | /* word jmp adds 2 byte2 to frag: |
394 | 0 extra opcode bytes, 2 displacement bytes. */ | |
252b5132 RH |
395 | {0, 0, 2, 0}, |
396 | ||
93c2a809 AM |
397 | /* COND_JUMP states. */ |
398 | {127 + 1, -128 + 1, 1, ENCODE_RELAX_STATE (COND_JUMP, BIG)}, | |
399 | {127 + 1, -128 + 1, 1, ENCODE_RELAX_STATE (COND_JUMP, BIG16)}, | |
400 | /* dword conditionals adds 5 bytes to frag: | |
401 | 1 extra opcode byte, 4 displacement bytes. */ | |
402 | {0, 0, 5, 0}, | |
fddf5b5b | 403 | /* word conditionals add 3 bytes to frag: |
93c2a809 AM |
404 | 1 extra opcode byte, 2 displacement bytes. */ |
405 | {0, 0, 3, 0}, | |
406 | ||
407 | /* COND_JUMP86 states. */ | |
408 | {127 + 1, -128 + 1, 1, ENCODE_RELAX_STATE (COND_JUMP86, BIG)}, | |
409 | {127 + 1, -128 + 1, 1, ENCODE_RELAX_STATE (COND_JUMP86, BIG16)}, | |
410 | /* dword conditionals adds 5 bytes to frag: | |
411 | 1 extra opcode byte, 4 displacement bytes. */ | |
412 | {0, 0, 5, 0}, | |
413 | /* word conditionals add 4 bytes to frag: | |
414 | 1 displacement byte and a 3 byte long branch insn. */ | |
415 | {0, 0, 4, 0} | |
252b5132 RH |
416 | }; |
417 | ||
e413e4e9 AM |
418 | static const arch_entry cpu_arch[] = { |
419 | {"i8086", Cpu086 }, | |
420 | {"i186", Cpu086|Cpu186 }, | |
421 | {"i286", Cpu086|Cpu186|Cpu286 }, | |
422 | {"i386", Cpu086|Cpu186|Cpu286|Cpu386 }, | |
423 | {"i486", Cpu086|Cpu186|Cpu286|Cpu386|Cpu486 }, | |
5c6af06e JB |
424 | {"i586", Cpu086|Cpu186|Cpu286|Cpu386|Cpu486|Cpu586 }, |
425 | {"i686", Cpu086|Cpu186|Cpu286|Cpu386|Cpu486|Cpu586|Cpu686 }, | |
426 | {"pentium", Cpu086|Cpu186|Cpu286|Cpu386|Cpu486|Cpu586 }, | |
427 | {"pentiumpro",Cpu086|Cpu186|Cpu286|Cpu386|Cpu486|Cpu586|Cpu686 }, | |
428 | {"pentiumii", Cpu086|Cpu186|Cpu286|Cpu386|Cpu486|Cpu586|Cpu686|CpuMMX }, | |
429 | {"pentiumiii",Cpu086|Cpu186|Cpu286|Cpu386|Cpu486|Cpu586|Cpu686|CpuMMX|CpuMMX2|CpuSSE }, | |
430 | {"pentium4", Cpu086|Cpu186|Cpu286|Cpu386|Cpu486|Cpu586|Cpu686|CpuP4|CpuMMX|CpuMMX2|CpuSSE|CpuSSE2 }, | |
431 | {"prescott", Cpu086|Cpu186|Cpu286|Cpu386|Cpu486|Cpu586|Cpu686|CpuP4|CpuMMX|CpuMMX2|CpuSSE|CpuSSE2|CpuPNI }, | |
432 | {"k6", Cpu086|Cpu186|Cpu286|Cpu386|Cpu486|Cpu586|CpuK6|CpuMMX }, | |
433 | {"k6_2", Cpu086|Cpu186|Cpu286|Cpu386|Cpu486|Cpu586|CpuK6|CpuMMX|Cpu3dnow }, | |
434 | {"athlon", Cpu086|Cpu186|Cpu286|Cpu386|Cpu486|Cpu586|Cpu686|CpuK6|CpuAthlon|CpuMMX|CpuMMX2|Cpu3dnow|Cpu3dnowA }, | |
435 | {"sledgehammer",Cpu086|Cpu186|Cpu286|Cpu386|Cpu486|Cpu586|Cpu686|CpuK6|CpuAthlon|CpuSledgehammer|CpuMMX|CpuMMX2|Cpu3dnow|Cpu3dnowA|CpuSSE|CpuSSE2 }, | |
30123838 | 436 | {"opteron", Cpu086|Cpu186|Cpu286|Cpu386|Cpu486|Cpu586|Cpu686|CpuK6|CpuAthlon|CpuSledgehammer|CpuMMX|CpuMMX2|Cpu3dnow|Cpu3dnowA|CpuSSE|CpuSSE2 }, |
5c6af06e JB |
437 | {".mmx", CpuMMX }, |
438 | {".sse", CpuMMX|CpuMMX2|CpuSSE }, | |
439 | {".sse2", CpuMMX|CpuMMX2|CpuSSE|CpuSSE2 }, | |
bf50992e | 440 | {".sse3", CpuMMX|CpuMMX2|CpuSSE|CpuSSE2|CpuSSE3 }, |
5c6af06e JB |
441 | {".3dnow", CpuMMX|Cpu3dnow }, |
442 | {".3dnowa", CpuMMX|CpuMMX2|Cpu3dnow|Cpu3dnowA }, | |
443 | {".padlock", CpuPadLock }, | |
30123838 JB |
444 | {".pacifica", CpuSVME }, |
445 | {".svme", CpuSVME }, | |
e413e4e9 AM |
446 | {NULL, 0 } |
447 | }; | |
448 | ||
29b0f896 AM |
449 | const pseudo_typeS md_pseudo_table[] = |
450 | { | |
451 | #if !defined(OBJ_AOUT) && !defined(USE_ALIGN_PTWO) | |
452 | {"align", s_align_bytes, 0}, | |
453 | #else | |
454 | {"align", s_align_ptwo, 0}, | |
455 | #endif | |
456 | {"arch", set_cpu_arch, 0}, | |
457 | #ifndef I386COFF | |
458 | {"bss", s_bss, 0}, | |
459 | #endif | |
460 | {"ffloat", float_cons, 'f'}, | |
461 | {"dfloat", float_cons, 'd'}, | |
462 | {"tfloat", float_cons, 'x'}, | |
463 | {"value", cons, 2}, | |
d182319b | 464 | {"slong", signed_cons, 4}, |
29b0f896 AM |
465 | {"noopt", s_ignore, 0}, |
466 | {"optim", s_ignore, 0}, | |
467 | {"code16gcc", set_16bit_gcc_code_flag, CODE_16BIT}, | |
468 | {"code16", set_code_flag, CODE_16BIT}, | |
469 | {"code32", set_code_flag, CODE_32BIT}, | |
470 | {"code64", set_code_flag, CODE_64BIT}, | |
471 | {"intel_syntax", set_intel_syntax, 1}, | |
472 | {"att_syntax", set_intel_syntax, 0}, | |
3b22753a L |
473 | #if defined (OBJ_ELF) || defined (OBJ_MAYBE_ELF) |
474 | {"largecomm", handle_large_common, 0}, | |
07a53e5c RH |
475 | #else |
476 | {"file", (void (*) PARAMS ((int))) dwarf2_directive_file, 0}, | |
477 | {"loc", dwarf2_directive_loc, 0}, | |
478 | {"loc_mark_labels", dwarf2_directive_loc_mark_labels, 0}, | |
3b22753a | 479 | #endif |
6482c264 NC |
480 | #ifdef TE_PE |
481 | {"secrel32", pe_directive_secrel, 0}, | |
482 | #endif | |
29b0f896 AM |
483 | {0, 0, 0} |
484 | }; | |
485 | ||
486 | /* For interface with expression (). */ | |
487 | extern char *input_line_pointer; | |
488 | ||
489 | /* Hash table for instruction mnemonic lookup. */ | |
490 | static struct hash_control *op_hash; | |
491 | ||
492 | /* Hash table for register lookup. */ | |
493 | static struct hash_control *reg_hash; | |
494 | \f | |
252b5132 RH |
495 | void |
496 | i386_align_code (fragP, count) | |
497 | fragS *fragP; | |
498 | int count; | |
499 | { | |
ce8a8b2f AM |
500 | /* Various efficient no-op patterns for aligning code labels. |
501 | Note: Don't try to assemble the instructions in the comments. | |
502 | 0L and 0w are not legal. */ | |
252b5132 RH |
503 | static const char f32_1[] = |
504 | {0x90}; /* nop */ | |
505 | static const char f32_2[] = | |
506 | {0x89,0xf6}; /* movl %esi,%esi */ | |
507 | static const char f32_3[] = | |
508 | {0x8d,0x76,0x00}; /* leal 0(%esi),%esi */ | |
509 | static const char f32_4[] = | |
510 | {0x8d,0x74,0x26,0x00}; /* leal 0(%esi,1),%esi */ | |
511 | static const char f32_5[] = | |
512 | {0x90, /* nop */ | |
513 | 0x8d,0x74,0x26,0x00}; /* leal 0(%esi,1),%esi */ | |
514 | static const char f32_6[] = | |
515 | {0x8d,0xb6,0x00,0x00,0x00,0x00}; /* leal 0L(%esi),%esi */ | |
516 | static const char f32_7[] = | |
517 | {0x8d,0xb4,0x26,0x00,0x00,0x00,0x00}; /* leal 0L(%esi,1),%esi */ | |
518 | static const char f32_8[] = | |
519 | {0x90, /* nop */ | |
520 | 0x8d,0xb4,0x26,0x00,0x00,0x00,0x00}; /* leal 0L(%esi,1),%esi */ | |
521 | static const char f32_9[] = | |
522 | {0x89,0xf6, /* movl %esi,%esi */ | |
523 | 0x8d,0xbc,0x27,0x00,0x00,0x00,0x00}; /* leal 0L(%edi,1),%edi */ | |
524 | static const char f32_10[] = | |
525 | {0x8d,0x76,0x00, /* leal 0(%esi),%esi */ | |
526 | 0x8d,0xbc,0x27,0x00,0x00,0x00,0x00}; /* leal 0L(%edi,1),%edi */ | |
527 | static const char f32_11[] = | |
528 | {0x8d,0x74,0x26,0x00, /* leal 0(%esi,1),%esi */ | |
529 | 0x8d,0xbc,0x27,0x00,0x00,0x00,0x00}; /* leal 0L(%edi,1),%edi */ | |
530 | static const char f32_12[] = | |
531 | {0x8d,0xb6,0x00,0x00,0x00,0x00, /* leal 0L(%esi),%esi */ | |
532 | 0x8d,0xbf,0x00,0x00,0x00,0x00}; /* leal 0L(%edi),%edi */ | |
533 | static const char f32_13[] = | |
534 | {0x8d,0xb6,0x00,0x00,0x00,0x00, /* leal 0L(%esi),%esi */ | |
535 | 0x8d,0xbc,0x27,0x00,0x00,0x00,0x00}; /* leal 0L(%edi,1),%edi */ | |
536 | static const char f32_14[] = | |
537 | {0x8d,0xb4,0x26,0x00,0x00,0x00,0x00, /* leal 0L(%esi,1),%esi */ | |
538 | 0x8d,0xbc,0x27,0x00,0x00,0x00,0x00}; /* leal 0L(%edi,1),%edi */ | |
539 | static const char f32_15[] = | |
540 | {0xeb,0x0d,0x90,0x90,0x90,0x90,0x90, /* jmp .+15; lotsa nops */ | |
541 | 0x90,0x90,0x90,0x90,0x90,0x90,0x90,0x90}; | |
c3332e24 AM |
542 | static const char f16_3[] = |
543 | {0x8d,0x74,0x00}; /* lea 0(%esi),%esi */ | |
252b5132 RH |
544 | static const char f16_4[] = |
545 | {0x8d,0xb4,0x00,0x00}; /* lea 0w(%si),%si */ | |
546 | static const char f16_5[] = | |
547 | {0x90, /* nop */ | |
548 | 0x8d,0xb4,0x00,0x00}; /* lea 0w(%si),%si */ | |
549 | static const char f16_6[] = | |
550 | {0x89,0xf6, /* mov %si,%si */ | |
551 | 0x8d,0xbd,0x00,0x00}; /* lea 0w(%di),%di */ | |
552 | static const char f16_7[] = | |
553 | {0x8d,0x74,0x00, /* lea 0(%si),%si */ | |
554 | 0x8d,0xbd,0x00,0x00}; /* lea 0w(%di),%di */ | |
555 | static const char f16_8[] = | |
556 | {0x8d,0xb4,0x00,0x00, /* lea 0w(%si),%si */ | |
557 | 0x8d,0xbd,0x00,0x00}; /* lea 0w(%di),%di */ | |
558 | static const char *const f32_patt[] = { | |
559 | f32_1, f32_2, f32_3, f32_4, f32_5, f32_6, f32_7, f32_8, | |
560 | f32_9, f32_10, f32_11, f32_12, f32_13, f32_14, f32_15 | |
561 | }; | |
562 | static const char *const f16_patt[] = { | |
c3332e24 | 563 | f32_1, f32_2, f16_3, f16_4, f16_5, f16_6, f16_7, f16_8, |
252b5132 RH |
564 | f32_15, f32_15, f32_15, f32_15, f32_15, f32_15, f32_15 |
565 | }; | |
566 | ||
33fef721 JH |
567 | if (count <= 0 || count > 15) |
568 | return; | |
3e73aa7c | 569 | |
33fef721 JH |
570 | /* The recommended way to pad 64bit code is to use NOPs preceded by |
571 | maximally four 0x66 prefixes. Balance the size of nops. */ | |
572 | if (flag_code == CODE_64BIT) | |
252b5132 | 573 | { |
33fef721 JH |
574 | int i; |
575 | int nnops = (count + 3) / 4; | |
576 | int len = count / nnops; | |
577 | int remains = count - nnops * len; | |
578 | int pos = 0; | |
579 | ||
580 | for (i = 0; i < remains; i++) | |
252b5132 | 581 | { |
33fef721 JH |
582 | memset (fragP->fr_literal + fragP->fr_fix + pos, 0x66, len); |
583 | fragP->fr_literal[fragP->fr_fix + pos + len] = 0x90; | |
584 | pos += len + 1; | |
585 | } | |
586 | for (; i < nnops; i++) | |
587 | { | |
588 | memset (fragP->fr_literal + fragP->fr_fix + pos, 0x66, len - 1); | |
589 | fragP->fr_literal[fragP->fr_fix + pos + len - 1] = 0x90; | |
590 | pos += len; | |
252b5132 | 591 | } |
252b5132 | 592 | } |
33fef721 JH |
593 | else |
594 | if (flag_code == CODE_16BIT) | |
595 | { | |
596 | memcpy (fragP->fr_literal + fragP->fr_fix, | |
597 | f16_patt[count - 1], count); | |
598 | if (count > 8) | |
599 | /* Adjust jump offset. */ | |
600 | fragP->fr_literal[fragP->fr_fix + 1] = count - 2; | |
601 | } | |
602 | else | |
603 | memcpy (fragP->fr_literal + fragP->fr_fix, | |
604 | f32_patt[count - 1], count); | |
605 | fragP->fr_var = count; | |
252b5132 RH |
606 | } |
607 | ||
252b5132 RH |
608 | static INLINE unsigned int |
609 | mode_from_disp_size (t) | |
610 | unsigned int t; | |
611 | { | |
3e73aa7c | 612 | return (t & Disp8) ? 1 : (t & (Disp16 | Disp32 | Disp32S)) ? 2 : 0; |
252b5132 RH |
613 | } |
614 | ||
615 | static INLINE int | |
616 | fits_in_signed_byte (num) | |
847f7ad4 | 617 | offsetT num; |
252b5132 RH |
618 | { |
619 | return (num >= -128) && (num <= 127); | |
47926f60 | 620 | } |
252b5132 RH |
621 | |
622 | static INLINE int | |
623 | fits_in_unsigned_byte (num) | |
847f7ad4 | 624 | offsetT num; |
252b5132 RH |
625 | { |
626 | return (num & 0xff) == num; | |
47926f60 | 627 | } |
252b5132 RH |
628 | |
629 | static INLINE int | |
630 | fits_in_unsigned_word (num) | |
847f7ad4 | 631 | offsetT num; |
252b5132 RH |
632 | { |
633 | return (num & 0xffff) == num; | |
47926f60 | 634 | } |
252b5132 RH |
635 | |
636 | static INLINE int | |
637 | fits_in_signed_word (num) | |
847f7ad4 | 638 | offsetT num; |
252b5132 RH |
639 | { |
640 | return (-32768 <= num) && (num <= 32767); | |
47926f60 | 641 | } |
3e73aa7c JH |
642 | static INLINE int |
643 | fits_in_signed_long (num) | |
644 | offsetT num ATTRIBUTE_UNUSED; | |
645 | { | |
646 | #ifndef BFD64 | |
647 | return 1; | |
648 | #else | |
649 | return (!(((offsetT) -1 << 31) & num) | |
650 | || (((offsetT) -1 << 31) & num) == ((offsetT) -1 << 31)); | |
651 | #endif | |
652 | } /* fits_in_signed_long() */ | |
653 | static INLINE int | |
654 | fits_in_unsigned_long (num) | |
655 | offsetT num ATTRIBUTE_UNUSED; | |
656 | { | |
657 | #ifndef BFD64 | |
658 | return 1; | |
659 | #else | |
660 | return (num & (((offsetT) 2 << 31) - 1)) == num; | |
661 | #endif | |
662 | } /* fits_in_unsigned_long() */ | |
252b5132 RH |
663 | |
664 | static int | |
665 | smallest_imm_type (num) | |
847f7ad4 | 666 | offsetT num; |
252b5132 | 667 | { |
a847613f | 668 | if (cpu_arch_flags != (Cpu086 | Cpu186 | Cpu286 | Cpu386 | Cpu486 | CpuNo64)) |
e413e4e9 AM |
669 | { |
670 | /* This code is disabled on the 486 because all the Imm1 forms | |
671 | in the opcode table are slower on the i486. They're the | |
672 | versions with the implicitly specified single-position | |
673 | displacement, which has another syntax if you really want to | |
674 | use that form. */ | |
675 | if (num == 1) | |
3e73aa7c | 676 | return Imm1 | Imm8 | Imm8S | Imm16 | Imm32 | Imm32S | Imm64; |
e413e4e9 | 677 | } |
252b5132 | 678 | return (fits_in_signed_byte (num) |
3e73aa7c | 679 | ? (Imm8S | Imm8 | Imm16 | Imm32 | Imm32S | Imm64) |
252b5132 | 680 | : fits_in_unsigned_byte (num) |
3e73aa7c | 681 | ? (Imm8 | Imm16 | Imm32 | Imm32S | Imm64) |
252b5132 | 682 | : (fits_in_signed_word (num) || fits_in_unsigned_word (num)) |
3e73aa7c JH |
683 | ? (Imm16 | Imm32 | Imm32S | Imm64) |
684 | : fits_in_signed_long (num) | |
685 | ? (Imm32 | Imm32S | Imm64) | |
686 | : fits_in_unsigned_long (num) | |
687 | ? (Imm32 | Imm64) | |
688 | : Imm64); | |
47926f60 | 689 | } |
252b5132 | 690 | |
847f7ad4 AM |
691 | static offsetT |
692 | offset_in_range (val, size) | |
693 | offsetT val; | |
694 | int size; | |
695 | { | |
508866be | 696 | addressT mask; |
ba2adb93 | 697 | |
847f7ad4 AM |
698 | switch (size) |
699 | { | |
508866be L |
700 | case 1: mask = ((addressT) 1 << 8) - 1; break; |
701 | case 2: mask = ((addressT) 1 << 16) - 1; break; | |
3b0ec529 | 702 | case 4: mask = ((addressT) 2 << 31) - 1; break; |
3e73aa7c JH |
703 | #ifdef BFD64 |
704 | case 8: mask = ((addressT) 2 << 63) - 1; break; | |
705 | #endif | |
47926f60 | 706 | default: abort (); |
847f7ad4 AM |
707 | } |
708 | ||
ba2adb93 | 709 | /* If BFD64, sign extend val. */ |
3e73aa7c JH |
710 | if (!use_rela_relocations) |
711 | if ((val & ~(((addressT) 2 << 31) - 1)) == 0) | |
712 | val = (val ^ ((addressT) 1 << 31)) - ((addressT) 1 << 31); | |
ba2adb93 | 713 | |
47926f60 | 714 | if ((val & ~mask) != 0 && (val & ~mask) != ~mask) |
847f7ad4 AM |
715 | { |
716 | char buf1[40], buf2[40]; | |
717 | ||
718 | sprint_value (buf1, val); | |
719 | sprint_value (buf2, val & mask); | |
720 | as_warn (_("%s shortened to %s"), buf1, buf2); | |
721 | } | |
722 | return val & mask; | |
723 | } | |
724 | ||
252b5132 RH |
725 | /* Returns 0 if attempting to add a prefix where one from the same |
726 | class already exists, 1 if non rep/repne added, 2 if rep/repne | |
727 | added. */ | |
728 | static int | |
729 | add_prefix (prefix) | |
730 | unsigned int prefix; | |
731 | { | |
732 | int ret = 1; | |
b1905489 | 733 | unsigned int q; |
252b5132 | 734 | |
29b0f896 AM |
735 | if (prefix >= REX_OPCODE && prefix < REX_OPCODE + 16 |
736 | && flag_code == CODE_64BIT) | |
b1905489 JB |
737 | { |
738 | if ((i.prefix[REX_PREFIX] & prefix & REX_MODE64) | |
739 | || ((i.prefix[REX_PREFIX] & (REX_EXTX | REX_EXTY | REX_EXTZ)) | |
740 | && (prefix & (REX_EXTX | REX_EXTY | REX_EXTZ)))) | |
741 | ret = 0; | |
742 | q = REX_PREFIX; | |
743 | } | |
3e73aa7c | 744 | else |
b1905489 JB |
745 | { |
746 | switch (prefix) | |
747 | { | |
748 | default: | |
749 | abort (); | |
750 | ||
751 | case CS_PREFIX_OPCODE: | |
752 | case DS_PREFIX_OPCODE: | |
753 | case ES_PREFIX_OPCODE: | |
754 | case FS_PREFIX_OPCODE: | |
755 | case GS_PREFIX_OPCODE: | |
756 | case SS_PREFIX_OPCODE: | |
757 | q = SEG_PREFIX; | |
758 | break; | |
759 | ||
760 | case REPNE_PREFIX_OPCODE: | |
761 | case REPE_PREFIX_OPCODE: | |
762 | ret = 2; | |
763 | /* fall thru */ | |
764 | case LOCK_PREFIX_OPCODE: | |
765 | q = LOCKREP_PREFIX; | |
766 | break; | |
767 | ||
768 | case FWAIT_OPCODE: | |
769 | q = WAIT_PREFIX; | |
770 | break; | |
771 | ||
772 | case ADDR_PREFIX_OPCODE: | |
773 | q = ADDR_PREFIX; | |
774 | break; | |
775 | ||
776 | case DATA_PREFIX_OPCODE: | |
777 | q = DATA_PREFIX; | |
778 | break; | |
779 | } | |
780 | if (i.prefix[q] != 0) | |
781 | ret = 0; | |
782 | } | |
252b5132 | 783 | |
b1905489 | 784 | if (ret) |
252b5132 | 785 | { |
b1905489 JB |
786 | if (!i.prefix[q]) |
787 | ++i.prefixes; | |
788 | i.prefix[q] |= prefix; | |
252b5132 | 789 | } |
b1905489 JB |
790 | else |
791 | as_bad (_("same type of prefix used twice")); | |
252b5132 | 792 | |
252b5132 RH |
793 | return ret; |
794 | } | |
795 | ||
796 | static void | |
3e73aa7c | 797 | set_code_flag (value) |
e5cb08ac | 798 | int value; |
eecb386c | 799 | { |
3e73aa7c JH |
800 | flag_code = value; |
801 | cpu_arch_flags &= ~(Cpu64 | CpuNo64); | |
802 | cpu_arch_flags |= (flag_code == CODE_64BIT ? Cpu64 : CpuNo64); | |
803 | if (value == CODE_64BIT && !(cpu_arch_flags & CpuSledgehammer)) | |
804 | { | |
805 | as_bad (_("64bit mode not supported on this CPU.")); | |
806 | } | |
807 | if (value == CODE_32BIT && !(cpu_arch_flags & Cpu386)) | |
808 | { | |
809 | as_bad (_("32bit mode not supported on this CPU.")); | |
810 | } | |
eecb386c AM |
811 | stackop_size = '\0'; |
812 | } | |
813 | ||
814 | static void | |
3e73aa7c JH |
815 | set_16bit_gcc_code_flag (new_code_flag) |
816 | int new_code_flag; | |
252b5132 | 817 | { |
3e73aa7c JH |
818 | flag_code = new_code_flag; |
819 | cpu_arch_flags &= ~(Cpu64 | CpuNo64); | |
820 | cpu_arch_flags |= (flag_code == CODE_64BIT ? Cpu64 : CpuNo64); | |
9306ca4a | 821 | stackop_size = LONG_MNEM_SUFFIX; |
252b5132 RH |
822 | } |
823 | ||
824 | static void | |
825 | set_intel_syntax (syntax_flag) | |
eecb386c | 826 | int syntax_flag; |
252b5132 RH |
827 | { |
828 | /* Find out if register prefixing is specified. */ | |
829 | int ask_naked_reg = 0; | |
830 | ||
831 | SKIP_WHITESPACE (); | |
29b0f896 | 832 | if (!is_end_of_line[(unsigned char) *input_line_pointer]) |
252b5132 RH |
833 | { |
834 | char *string = input_line_pointer; | |
835 | int e = get_symbol_end (); | |
836 | ||
47926f60 | 837 | if (strcmp (string, "prefix") == 0) |
252b5132 | 838 | ask_naked_reg = 1; |
47926f60 | 839 | else if (strcmp (string, "noprefix") == 0) |
252b5132 RH |
840 | ask_naked_reg = -1; |
841 | else | |
d0b47220 | 842 | as_bad (_("bad argument to syntax directive.")); |
252b5132 RH |
843 | *input_line_pointer = e; |
844 | } | |
845 | demand_empty_rest_of_line (); | |
c3332e24 | 846 | |
252b5132 RH |
847 | intel_syntax = syntax_flag; |
848 | ||
849 | if (ask_naked_reg == 0) | |
f86103b7 AM |
850 | allow_naked_reg = (intel_syntax |
851 | && (bfd_get_symbol_leading_char (stdoutput) != '\0')); | |
252b5132 RH |
852 | else |
853 | allow_naked_reg = (ask_naked_reg < 0); | |
9306ca4a JB |
854 | |
855 | identifier_chars['%'] = intel_syntax && allow_naked_reg ? '%' : 0; | |
856 | identifier_chars['$'] = intel_syntax ? '$' : 0; | |
252b5132 RH |
857 | } |
858 | ||
e413e4e9 AM |
859 | static void |
860 | set_cpu_arch (dummy) | |
47926f60 | 861 | int dummy ATTRIBUTE_UNUSED; |
e413e4e9 | 862 | { |
47926f60 | 863 | SKIP_WHITESPACE (); |
e413e4e9 | 864 | |
29b0f896 | 865 | if (!is_end_of_line[(unsigned char) *input_line_pointer]) |
e413e4e9 AM |
866 | { |
867 | char *string = input_line_pointer; | |
868 | int e = get_symbol_end (); | |
869 | int i; | |
870 | ||
871 | for (i = 0; cpu_arch[i].name; i++) | |
872 | { | |
873 | if (strcmp (string, cpu_arch[i].name) == 0) | |
874 | { | |
5c6af06e JB |
875 | if (*string != '.') |
876 | { | |
877 | cpu_arch_name = cpu_arch[i].name; | |
878 | cpu_sub_arch_name = NULL; | |
879 | cpu_arch_flags = (cpu_arch[i].flags | |
880 | | (flag_code == CODE_64BIT ? Cpu64 : CpuNo64)); | |
881 | break; | |
882 | } | |
883 | if ((cpu_arch_flags | cpu_arch[i].flags) != cpu_arch_flags) | |
884 | { | |
885 | cpu_sub_arch_name = cpu_arch[i].name; | |
886 | cpu_arch_flags |= cpu_arch[i].flags; | |
887 | } | |
888 | *input_line_pointer = e; | |
889 | demand_empty_rest_of_line (); | |
890 | return; | |
e413e4e9 AM |
891 | } |
892 | } | |
893 | if (!cpu_arch[i].name) | |
894 | as_bad (_("no such architecture: `%s'"), string); | |
895 | ||
896 | *input_line_pointer = e; | |
897 | } | |
898 | else | |
899 | as_bad (_("missing cpu architecture")); | |
900 | ||
fddf5b5b AM |
901 | no_cond_jump_promotion = 0; |
902 | if (*input_line_pointer == ',' | |
29b0f896 | 903 | && !is_end_of_line[(unsigned char) input_line_pointer[1]]) |
fddf5b5b AM |
904 | { |
905 | char *string = ++input_line_pointer; | |
906 | int e = get_symbol_end (); | |
907 | ||
908 | if (strcmp (string, "nojumps") == 0) | |
909 | no_cond_jump_promotion = 1; | |
910 | else if (strcmp (string, "jumps") == 0) | |
911 | ; | |
912 | else | |
913 | as_bad (_("no such architecture modifier: `%s'"), string); | |
914 | ||
915 | *input_line_pointer = e; | |
916 | } | |
917 | ||
e413e4e9 AM |
918 | demand_empty_rest_of_line (); |
919 | } | |
920 | ||
b9d79e03 JH |
921 | unsigned long |
922 | i386_mach () | |
923 | { | |
924 | if (!strcmp (default_arch, "x86_64")) | |
925 | return bfd_mach_x86_64; | |
926 | else if (!strcmp (default_arch, "i386")) | |
927 | return bfd_mach_i386_i386; | |
928 | else | |
929 | as_fatal (_("Unknown architecture")); | |
930 | } | |
b9d79e03 | 931 | \f |
252b5132 RH |
932 | void |
933 | md_begin () | |
934 | { | |
935 | const char *hash_err; | |
936 | ||
47926f60 | 937 | /* Initialize op_hash hash table. */ |
252b5132 RH |
938 | op_hash = hash_new (); |
939 | ||
940 | { | |
29b0f896 AM |
941 | const template *optab; |
942 | templates *core_optab; | |
252b5132 | 943 | |
47926f60 KH |
944 | /* Setup for loop. */ |
945 | optab = i386_optab; | |
252b5132 RH |
946 | core_optab = (templates *) xmalloc (sizeof (templates)); |
947 | core_optab->start = optab; | |
948 | ||
949 | while (1) | |
950 | { | |
951 | ++optab; | |
952 | if (optab->name == NULL | |
953 | || strcmp (optab->name, (optab - 1)->name) != 0) | |
954 | { | |
955 | /* different name --> ship out current template list; | |
47926f60 | 956 | add to hash table; & begin anew. */ |
252b5132 RH |
957 | core_optab->end = optab; |
958 | hash_err = hash_insert (op_hash, | |
959 | (optab - 1)->name, | |
960 | (PTR) core_optab); | |
961 | if (hash_err) | |
962 | { | |
252b5132 RH |
963 | as_fatal (_("Internal Error: Can't hash %s: %s"), |
964 | (optab - 1)->name, | |
965 | hash_err); | |
966 | } | |
967 | if (optab->name == NULL) | |
968 | break; | |
969 | core_optab = (templates *) xmalloc (sizeof (templates)); | |
970 | core_optab->start = optab; | |
971 | } | |
972 | } | |
973 | } | |
974 | ||
47926f60 | 975 | /* Initialize reg_hash hash table. */ |
252b5132 RH |
976 | reg_hash = hash_new (); |
977 | { | |
29b0f896 | 978 | const reg_entry *regtab; |
252b5132 RH |
979 | |
980 | for (regtab = i386_regtab; | |
981 | regtab < i386_regtab + sizeof (i386_regtab) / sizeof (i386_regtab[0]); | |
982 | regtab++) | |
983 | { | |
984 | hash_err = hash_insert (reg_hash, regtab->reg_name, (PTR) regtab); | |
985 | if (hash_err) | |
3e73aa7c JH |
986 | as_fatal (_("Internal Error: Can't hash %s: %s"), |
987 | regtab->reg_name, | |
988 | hash_err); | |
252b5132 RH |
989 | } |
990 | } | |
991 | ||
47926f60 | 992 | /* Fill in lexical tables: mnemonic_chars, operand_chars. */ |
252b5132 | 993 | { |
29b0f896 AM |
994 | int c; |
995 | char *p; | |
252b5132 RH |
996 | |
997 | for (c = 0; c < 256; c++) | |
998 | { | |
3882b010 | 999 | if (ISDIGIT (c)) |
252b5132 RH |
1000 | { |
1001 | digit_chars[c] = c; | |
1002 | mnemonic_chars[c] = c; | |
1003 | register_chars[c] = c; | |
1004 | operand_chars[c] = c; | |
1005 | } | |
3882b010 | 1006 | else if (ISLOWER (c)) |
252b5132 RH |
1007 | { |
1008 | mnemonic_chars[c] = c; | |
1009 | register_chars[c] = c; | |
1010 | operand_chars[c] = c; | |
1011 | } | |
3882b010 | 1012 | else if (ISUPPER (c)) |
252b5132 | 1013 | { |
3882b010 | 1014 | mnemonic_chars[c] = TOLOWER (c); |
252b5132 RH |
1015 | register_chars[c] = mnemonic_chars[c]; |
1016 | operand_chars[c] = c; | |
1017 | } | |
1018 | ||
3882b010 | 1019 | if (ISALPHA (c) || ISDIGIT (c)) |
252b5132 RH |
1020 | identifier_chars[c] = c; |
1021 | else if (c >= 128) | |
1022 | { | |
1023 | identifier_chars[c] = c; | |
1024 | operand_chars[c] = c; | |
1025 | } | |
1026 | } | |
1027 | ||
1028 | #ifdef LEX_AT | |
1029 | identifier_chars['@'] = '@'; | |
32137342 NC |
1030 | #endif |
1031 | #ifdef LEX_QM | |
1032 | identifier_chars['?'] = '?'; | |
1033 | operand_chars['?'] = '?'; | |
252b5132 | 1034 | #endif |
252b5132 | 1035 | digit_chars['-'] = '-'; |
791fe849 | 1036 | mnemonic_chars['-'] = '-'; |
252b5132 RH |
1037 | identifier_chars['_'] = '_'; |
1038 | identifier_chars['.'] = '.'; | |
1039 | ||
1040 | for (p = operand_special_chars; *p != '\0'; p++) | |
1041 | operand_chars[(unsigned char) *p] = *p; | |
1042 | } | |
1043 | ||
1044 | #if defined (OBJ_ELF) || defined (OBJ_MAYBE_ELF) | |
718ddfc0 | 1045 | if (IS_ELF) |
252b5132 RH |
1046 | { |
1047 | record_alignment (text_section, 2); | |
1048 | record_alignment (data_section, 2); | |
1049 | record_alignment (bss_section, 2); | |
1050 | } | |
1051 | #endif | |
a4447b93 RH |
1052 | |
1053 | if (flag_code == CODE_64BIT) | |
1054 | { | |
1055 | x86_dwarf2_return_column = 16; | |
1056 | x86_cie_data_alignment = -8; | |
1057 | } | |
1058 | else | |
1059 | { | |
1060 | x86_dwarf2_return_column = 8; | |
1061 | x86_cie_data_alignment = -4; | |
1062 | } | |
252b5132 RH |
1063 | } |
1064 | ||
1065 | void | |
1066 | i386_print_statistics (file) | |
1067 | FILE *file; | |
1068 | { | |
1069 | hash_print_statistics (file, "i386 opcode", op_hash); | |
1070 | hash_print_statistics (file, "i386 register", reg_hash); | |
1071 | } | |
1072 | \f | |
252b5132 RH |
1073 | #ifdef DEBUG386 |
1074 | ||
ce8a8b2f | 1075 | /* Debugging routines for md_assemble. */ |
252b5132 RH |
1076 | static void pi PARAMS ((char *, i386_insn *)); |
1077 | static void pte PARAMS ((template *)); | |
1078 | static void pt PARAMS ((unsigned int)); | |
1079 | static void pe PARAMS ((expressionS *)); | |
1080 | static void ps PARAMS ((symbolS *)); | |
1081 | ||
1082 | static void | |
1083 | pi (line, x) | |
1084 | char *line; | |
1085 | i386_insn *x; | |
1086 | { | |
09f131f2 | 1087 | unsigned int i; |
252b5132 RH |
1088 | |
1089 | fprintf (stdout, "%s: template ", line); | |
1090 | pte (&x->tm); | |
09f131f2 JH |
1091 | fprintf (stdout, " address: base %s index %s scale %x\n", |
1092 | x->base_reg ? x->base_reg->reg_name : "none", | |
1093 | x->index_reg ? x->index_reg->reg_name : "none", | |
1094 | x->log2_scale_factor); | |
1095 | fprintf (stdout, " modrm: mode %x reg %x reg/mem %x\n", | |
252b5132 | 1096 | x->rm.mode, x->rm.reg, x->rm.regmem); |
09f131f2 JH |
1097 | fprintf (stdout, " sib: base %x index %x scale %x\n", |
1098 | x->sib.base, x->sib.index, x->sib.scale); | |
1099 | fprintf (stdout, " rex: 64bit %x extX %x extY %x extZ %x\n", | |
29b0f896 AM |
1100 | (x->rex & REX_MODE64) != 0, |
1101 | (x->rex & REX_EXTX) != 0, | |
1102 | (x->rex & REX_EXTY) != 0, | |
1103 | (x->rex & REX_EXTZ) != 0); | |
252b5132 RH |
1104 | for (i = 0; i < x->operands; i++) |
1105 | { | |
1106 | fprintf (stdout, " #%d: ", i + 1); | |
1107 | pt (x->types[i]); | |
1108 | fprintf (stdout, "\n"); | |
1109 | if (x->types[i] | |
3f4438ab | 1110 | & (Reg | SReg2 | SReg3 | Control | Debug | Test | RegMMX | RegXMM)) |
520dc8e8 | 1111 | fprintf (stdout, "%s\n", x->op[i].regs->reg_name); |
252b5132 | 1112 | if (x->types[i] & Imm) |
520dc8e8 | 1113 | pe (x->op[i].imms); |
252b5132 | 1114 | if (x->types[i] & Disp) |
520dc8e8 | 1115 | pe (x->op[i].disps); |
252b5132 RH |
1116 | } |
1117 | } | |
1118 | ||
1119 | static void | |
1120 | pte (t) | |
1121 | template *t; | |
1122 | { | |
09f131f2 | 1123 | unsigned int i; |
252b5132 | 1124 | fprintf (stdout, " %d operands ", t->operands); |
47926f60 | 1125 | fprintf (stdout, "opcode %x ", t->base_opcode); |
252b5132 RH |
1126 | if (t->extension_opcode != None) |
1127 | fprintf (stdout, "ext %x ", t->extension_opcode); | |
1128 | if (t->opcode_modifier & D) | |
1129 | fprintf (stdout, "D"); | |
1130 | if (t->opcode_modifier & W) | |
1131 | fprintf (stdout, "W"); | |
1132 | fprintf (stdout, "\n"); | |
1133 | for (i = 0; i < t->operands; i++) | |
1134 | { | |
1135 | fprintf (stdout, " #%d type ", i + 1); | |
1136 | pt (t->operand_types[i]); | |
1137 | fprintf (stdout, "\n"); | |
1138 | } | |
1139 | } | |
1140 | ||
1141 | static void | |
1142 | pe (e) | |
1143 | expressionS *e; | |
1144 | { | |
24eab124 | 1145 | fprintf (stdout, " operation %d\n", e->X_op); |
b77ad1d4 AM |
1146 | fprintf (stdout, " add_number %ld (%lx)\n", |
1147 | (long) e->X_add_number, (long) e->X_add_number); | |
252b5132 RH |
1148 | if (e->X_add_symbol) |
1149 | { | |
1150 | fprintf (stdout, " add_symbol "); | |
1151 | ps (e->X_add_symbol); | |
1152 | fprintf (stdout, "\n"); | |
1153 | } | |
1154 | if (e->X_op_symbol) | |
1155 | { | |
1156 | fprintf (stdout, " op_symbol "); | |
1157 | ps (e->X_op_symbol); | |
1158 | fprintf (stdout, "\n"); | |
1159 | } | |
1160 | } | |
1161 | ||
1162 | static void | |
1163 | ps (s) | |
1164 | symbolS *s; | |
1165 | { | |
1166 | fprintf (stdout, "%s type %s%s", | |
1167 | S_GET_NAME (s), | |
1168 | S_IS_EXTERNAL (s) ? "EXTERNAL " : "", | |
1169 | segment_name (S_GET_SEGMENT (s))); | |
1170 | } | |
1171 | ||
7b81dfbb | 1172 | static struct type_name |
252b5132 RH |
1173 | { |
1174 | unsigned int mask; | |
1175 | char *tname; | |
1176 | } | |
7b81dfbb | 1177 | const type_names[] = |
252b5132 RH |
1178 | { |
1179 | { Reg8, "r8" }, | |
1180 | { Reg16, "r16" }, | |
1181 | { Reg32, "r32" }, | |
09f131f2 | 1182 | { Reg64, "r64" }, |
252b5132 RH |
1183 | { Imm8, "i8" }, |
1184 | { Imm8S, "i8s" }, | |
1185 | { Imm16, "i16" }, | |
1186 | { Imm32, "i32" }, | |
09f131f2 JH |
1187 | { Imm32S, "i32s" }, |
1188 | { Imm64, "i64" }, | |
252b5132 RH |
1189 | { Imm1, "i1" }, |
1190 | { BaseIndex, "BaseIndex" }, | |
1191 | { Disp8, "d8" }, | |
1192 | { Disp16, "d16" }, | |
1193 | { Disp32, "d32" }, | |
09f131f2 JH |
1194 | { Disp32S, "d32s" }, |
1195 | { Disp64, "d64" }, | |
252b5132 RH |
1196 | { InOutPortReg, "InOutPortReg" }, |
1197 | { ShiftCount, "ShiftCount" }, | |
1198 | { Control, "control reg" }, | |
1199 | { Test, "test reg" }, | |
1200 | { Debug, "debug reg" }, | |
1201 | { FloatReg, "FReg" }, | |
1202 | { FloatAcc, "FAcc" }, | |
1203 | { SReg2, "SReg2" }, | |
1204 | { SReg3, "SReg3" }, | |
1205 | { Acc, "Acc" }, | |
1206 | { JumpAbsolute, "Jump Absolute" }, | |
1207 | { RegMMX, "rMMX" }, | |
3f4438ab | 1208 | { RegXMM, "rXMM" }, |
252b5132 RH |
1209 | { EsSeg, "es" }, |
1210 | { 0, "" } | |
1211 | }; | |
1212 | ||
1213 | static void | |
1214 | pt (t) | |
1215 | unsigned int t; | |
1216 | { | |
29b0f896 | 1217 | const struct type_name *ty; |
252b5132 | 1218 | |
09f131f2 JH |
1219 | for (ty = type_names; ty->mask; ty++) |
1220 | if (t & ty->mask) | |
1221 | fprintf (stdout, "%s, ", ty->tname); | |
252b5132 RH |
1222 | fflush (stdout); |
1223 | } | |
1224 | ||
1225 | #endif /* DEBUG386 */ | |
1226 | \f | |
252b5132 | 1227 | static bfd_reloc_code_real_type |
3956db08 | 1228 | reloc (unsigned int size, |
64e74474 AM |
1229 | int pcrel, |
1230 | int sign, | |
1231 | bfd_reloc_code_real_type other) | |
252b5132 | 1232 | { |
47926f60 | 1233 | if (other != NO_RELOC) |
3956db08 JB |
1234 | { |
1235 | reloc_howto_type *reloc; | |
1236 | ||
1237 | if (size == 8) | |
1238 | switch (other) | |
1239 | { | |
64e74474 AM |
1240 | case BFD_RELOC_X86_64_GOT32: |
1241 | return BFD_RELOC_X86_64_GOT64; | |
1242 | break; | |
1243 | case BFD_RELOC_X86_64_PLTOFF64: | |
1244 | return BFD_RELOC_X86_64_PLTOFF64; | |
1245 | break; | |
1246 | case BFD_RELOC_X86_64_GOTPC32: | |
1247 | other = BFD_RELOC_X86_64_GOTPC64; | |
1248 | break; | |
1249 | case BFD_RELOC_X86_64_GOTPCREL: | |
1250 | other = BFD_RELOC_X86_64_GOTPCREL64; | |
1251 | break; | |
1252 | case BFD_RELOC_X86_64_TPOFF32: | |
1253 | other = BFD_RELOC_X86_64_TPOFF64; | |
1254 | break; | |
1255 | case BFD_RELOC_X86_64_DTPOFF32: | |
1256 | other = BFD_RELOC_X86_64_DTPOFF64; | |
1257 | break; | |
1258 | default: | |
1259 | break; | |
3956db08 | 1260 | } |
e05278af JB |
1261 | |
1262 | /* Sign-checking 4-byte relocations in 16-/32-bit code is pointless. */ | |
1263 | if (size == 4 && flag_code != CODE_64BIT) | |
1264 | sign = -1; | |
1265 | ||
3956db08 JB |
1266 | reloc = bfd_reloc_type_lookup (stdoutput, other); |
1267 | if (!reloc) | |
1268 | as_bad (_("unknown relocation (%u)"), other); | |
1269 | else if (size != bfd_get_reloc_size (reloc)) | |
1270 | as_bad (_("%u-byte relocation cannot be applied to %u-byte field"), | |
1271 | bfd_get_reloc_size (reloc), | |
1272 | size); | |
1273 | else if (pcrel && !reloc->pc_relative) | |
1274 | as_bad (_("non-pc-relative relocation for pc-relative field")); | |
1275 | else if ((reloc->complain_on_overflow == complain_overflow_signed | |
1276 | && !sign) | |
1277 | || (reloc->complain_on_overflow == complain_overflow_unsigned | |
64e74474 | 1278 | && sign > 0)) |
3956db08 JB |
1279 | as_bad (_("relocated field and relocation type differ in signedness")); |
1280 | else | |
1281 | return other; | |
1282 | return NO_RELOC; | |
1283 | } | |
252b5132 RH |
1284 | |
1285 | if (pcrel) | |
1286 | { | |
3e73aa7c | 1287 | if (!sign) |
3956db08 | 1288 | as_bad (_("there are no unsigned pc-relative relocations")); |
252b5132 RH |
1289 | switch (size) |
1290 | { | |
1291 | case 1: return BFD_RELOC_8_PCREL; | |
1292 | case 2: return BFD_RELOC_16_PCREL; | |
1293 | case 4: return BFD_RELOC_32_PCREL; | |
d6ab8113 | 1294 | case 8: return BFD_RELOC_64_PCREL; |
252b5132 | 1295 | } |
3956db08 | 1296 | as_bad (_("cannot do %u byte pc-relative relocation"), size); |
252b5132 RH |
1297 | } |
1298 | else | |
1299 | { | |
3956db08 | 1300 | if (sign > 0) |
e5cb08ac | 1301 | switch (size) |
3e73aa7c JH |
1302 | { |
1303 | case 4: return BFD_RELOC_X86_64_32S; | |
1304 | } | |
1305 | else | |
1306 | switch (size) | |
1307 | { | |
1308 | case 1: return BFD_RELOC_8; | |
1309 | case 2: return BFD_RELOC_16; | |
1310 | case 4: return BFD_RELOC_32; | |
1311 | case 8: return BFD_RELOC_64; | |
1312 | } | |
3956db08 JB |
1313 | as_bad (_("cannot do %s %u byte relocation"), |
1314 | sign > 0 ? "signed" : "unsigned", size); | |
252b5132 RH |
1315 | } |
1316 | ||
bfb32b52 | 1317 | abort (); |
252b5132 RH |
1318 | return BFD_RELOC_NONE; |
1319 | } | |
1320 | ||
47926f60 KH |
1321 | /* Here we decide which fixups can be adjusted to make them relative to |
1322 | the beginning of the section instead of the symbol. Basically we need | |
1323 | to make sure that the dynamic relocations are done correctly, so in | |
1324 | some cases we force the original symbol to be used. */ | |
1325 | ||
252b5132 | 1326 | int |
c0c949c7 | 1327 | tc_i386_fix_adjustable (fixP) |
31312f95 | 1328 | fixS *fixP ATTRIBUTE_UNUSED; |
252b5132 | 1329 | { |
6d249963 | 1330 | #if defined (OBJ_ELF) || defined (OBJ_MAYBE_ELF) |
718ddfc0 | 1331 | if (!IS_ELF) |
31312f95 AM |
1332 | return 1; |
1333 | ||
a161fe53 AM |
1334 | /* Don't adjust pc-relative references to merge sections in 64-bit |
1335 | mode. */ | |
1336 | if (use_rela_relocations | |
1337 | && (S_GET_SEGMENT (fixP->fx_addsy)->flags & SEC_MERGE) != 0 | |
1338 | && fixP->fx_pcrel) | |
252b5132 | 1339 | return 0; |
31312f95 | 1340 | |
8d01d9a9 AJ |
1341 | /* The x86_64 GOTPCREL are represented as 32bit PCrel relocations |
1342 | and changed later by validate_fix. */ | |
1343 | if (GOT_symbol && fixP->fx_subsy == GOT_symbol | |
1344 | && fixP->fx_r_type == BFD_RELOC_32_PCREL) | |
1345 | return 0; | |
1346 | ||
ce8a8b2f | 1347 | /* adjust_reloc_syms doesn't know about the GOT. */ |
252b5132 RH |
1348 | if (fixP->fx_r_type == BFD_RELOC_386_GOTOFF |
1349 | || fixP->fx_r_type == BFD_RELOC_386_PLT32 | |
1350 | || fixP->fx_r_type == BFD_RELOC_386_GOT32 | |
13ae64f3 JJ |
1351 | || fixP->fx_r_type == BFD_RELOC_386_TLS_GD |
1352 | || fixP->fx_r_type == BFD_RELOC_386_TLS_LDM | |
1353 | || fixP->fx_r_type == BFD_RELOC_386_TLS_LDO_32 | |
1354 | || fixP->fx_r_type == BFD_RELOC_386_TLS_IE_32 | |
37e55690 JJ |
1355 | || fixP->fx_r_type == BFD_RELOC_386_TLS_IE |
1356 | || fixP->fx_r_type == BFD_RELOC_386_TLS_GOTIE | |
13ae64f3 JJ |
1357 | || fixP->fx_r_type == BFD_RELOC_386_TLS_LE_32 |
1358 | || fixP->fx_r_type == BFD_RELOC_386_TLS_LE | |
67a4f2b7 AO |
1359 | || fixP->fx_r_type == BFD_RELOC_386_TLS_GOTDESC |
1360 | || fixP->fx_r_type == BFD_RELOC_386_TLS_DESC_CALL | |
3e73aa7c JH |
1361 | || fixP->fx_r_type == BFD_RELOC_X86_64_PLT32 |
1362 | || fixP->fx_r_type == BFD_RELOC_X86_64_GOT32 | |
80b3ee89 | 1363 | || fixP->fx_r_type == BFD_RELOC_X86_64_GOTPCREL |
bffbf940 JJ |
1364 | || fixP->fx_r_type == BFD_RELOC_X86_64_TLSGD |
1365 | || fixP->fx_r_type == BFD_RELOC_X86_64_TLSLD | |
1366 | || fixP->fx_r_type == BFD_RELOC_X86_64_DTPOFF32 | |
d6ab8113 | 1367 | || fixP->fx_r_type == BFD_RELOC_X86_64_DTPOFF64 |
bffbf940 JJ |
1368 | || fixP->fx_r_type == BFD_RELOC_X86_64_GOTTPOFF |
1369 | || fixP->fx_r_type == BFD_RELOC_X86_64_TPOFF32 | |
d6ab8113 JB |
1370 | || fixP->fx_r_type == BFD_RELOC_X86_64_TPOFF64 |
1371 | || fixP->fx_r_type == BFD_RELOC_X86_64_GOTOFF64 | |
67a4f2b7 AO |
1372 | || fixP->fx_r_type == BFD_RELOC_X86_64_GOTPC32_TLSDESC |
1373 | || fixP->fx_r_type == BFD_RELOC_X86_64_TLSDESC_CALL | |
252b5132 RH |
1374 | || fixP->fx_r_type == BFD_RELOC_VTABLE_INHERIT |
1375 | || fixP->fx_r_type == BFD_RELOC_VTABLE_ENTRY) | |
1376 | return 0; | |
31312f95 | 1377 | #endif |
252b5132 RH |
1378 | return 1; |
1379 | } | |
252b5132 | 1380 | |
29b0f896 | 1381 | static int intel_float_operand PARAMS ((const char *mnemonic)); |
b4cac588 AM |
1382 | |
1383 | static int | |
252b5132 | 1384 | intel_float_operand (mnemonic) |
29b0f896 | 1385 | const char *mnemonic; |
252b5132 | 1386 | { |
9306ca4a JB |
1387 | /* Note that the value returned is meaningful only for opcodes with (memory) |
1388 | operands, hence the code here is free to improperly handle opcodes that | |
1389 | have no operands (for better performance and smaller code). */ | |
1390 | ||
1391 | if (mnemonic[0] != 'f') | |
1392 | return 0; /* non-math */ | |
1393 | ||
1394 | switch (mnemonic[1]) | |
1395 | { | |
1396 | /* fclex, fdecstp, fdisi, femms, feni, fincstp, finit, fsetpm, and | |
1397 | the fs segment override prefix not currently handled because no | |
1398 | call path can make opcodes without operands get here */ | |
1399 | case 'i': | |
1400 | return 2 /* integer op */; | |
1401 | case 'l': | |
1402 | if (mnemonic[2] == 'd' && (mnemonic[3] == 'c' || mnemonic[3] == 'e')) | |
1403 | return 3; /* fldcw/fldenv */ | |
1404 | break; | |
1405 | case 'n': | |
1406 | if (mnemonic[2] != 'o' /* fnop */) | |
1407 | return 3; /* non-waiting control op */ | |
1408 | break; | |
1409 | case 'r': | |
1410 | if (mnemonic[2] == 's') | |
1411 | return 3; /* frstor/frstpm */ | |
1412 | break; | |
1413 | case 's': | |
1414 | if (mnemonic[2] == 'a') | |
1415 | return 3; /* fsave */ | |
1416 | if (mnemonic[2] == 't') | |
1417 | { | |
1418 | switch (mnemonic[3]) | |
1419 | { | |
1420 | case 'c': /* fstcw */ | |
1421 | case 'd': /* fstdw */ | |
1422 | case 'e': /* fstenv */ | |
1423 | case 's': /* fsts[gw] */ | |
1424 | return 3; | |
1425 | } | |
1426 | } | |
1427 | break; | |
1428 | case 'x': | |
1429 | if (mnemonic[2] == 'r' || mnemonic[2] == 's') | |
1430 | return 0; /* fxsave/fxrstor are not really math ops */ | |
1431 | break; | |
1432 | } | |
252b5132 | 1433 | |
9306ca4a | 1434 | return 1; |
252b5132 RH |
1435 | } |
1436 | ||
1437 | /* This is the guts of the machine-dependent assembler. LINE points to a | |
1438 | machine dependent instruction. This function is supposed to emit | |
1439 | the frags/bytes it assembles to. */ | |
1440 | ||
1441 | void | |
1442 | md_assemble (line) | |
1443 | char *line; | |
1444 | { | |
252b5132 | 1445 | int j; |
252b5132 RH |
1446 | char mnemonic[MAX_MNEM_SIZE]; |
1447 | ||
47926f60 | 1448 | /* Initialize globals. */ |
252b5132 RH |
1449 | memset (&i, '\0', sizeof (i)); |
1450 | for (j = 0; j < MAX_OPERANDS; j++) | |
1ae12ab7 | 1451 | i.reloc[j] = NO_RELOC; |
252b5132 RH |
1452 | memset (disp_expressions, '\0', sizeof (disp_expressions)); |
1453 | memset (im_expressions, '\0', sizeof (im_expressions)); | |
ce8a8b2f | 1454 | save_stack_p = save_stack; |
252b5132 RH |
1455 | |
1456 | /* First parse an instruction mnemonic & call i386_operand for the operands. | |
1457 | We assume that the scrubber has arranged it so that line[0] is the valid | |
47926f60 | 1458 | start of a (possibly prefixed) mnemonic. */ |
252b5132 | 1459 | |
29b0f896 AM |
1460 | line = parse_insn (line, mnemonic); |
1461 | if (line == NULL) | |
1462 | return; | |
252b5132 | 1463 | |
29b0f896 AM |
1464 | line = parse_operands (line, mnemonic); |
1465 | if (line == NULL) | |
1466 | return; | |
252b5132 | 1467 | |
29b0f896 AM |
1468 | /* Now we've parsed the mnemonic into a set of templates, and have the |
1469 | operands at hand. */ | |
1470 | ||
1471 | /* All intel opcodes have reversed operands except for "bound" and | |
1472 | "enter". We also don't reverse intersegment "jmp" and "call" | |
1473 | instructions with 2 immediate operands so that the immediate segment | |
1474 | precedes the offset, as it does when in AT&T mode. "enter" and the | |
1475 | intersegment "jmp" and "call" instructions are the only ones that | |
1476 | have two immediate operands. */ | |
1477 | if (intel_syntax && i.operands > 1 | |
1478 | && (strcmp (mnemonic, "bound") != 0) | |
30123838 | 1479 | && (strcmp (mnemonic, "invlpga") != 0) |
29b0f896 AM |
1480 | && !((i.types[0] & Imm) && (i.types[1] & Imm))) |
1481 | swap_operands (); | |
1482 | ||
1483 | if (i.imm_operands) | |
1484 | optimize_imm (); | |
1485 | ||
b300c311 L |
1486 | /* Don't optimize displacement for movabs since it only takes 64bit |
1487 | displacement. */ | |
1488 | if (i.disp_operands | |
1489 | && (flag_code != CODE_64BIT | |
1490 | || strcmp (mnemonic, "movabs") != 0)) | |
29b0f896 AM |
1491 | optimize_disp (); |
1492 | ||
1493 | /* Next, we find a template that matches the given insn, | |
1494 | making sure the overlap of the given operands types is consistent | |
1495 | with the template operand types. */ | |
252b5132 | 1496 | |
29b0f896 AM |
1497 | if (!match_template ()) |
1498 | return; | |
252b5132 | 1499 | |
cd61ebfe AM |
1500 | if (intel_syntax) |
1501 | { | |
1502 | /* Undo SYSV386_COMPAT brokenness when in Intel mode. See i386.h */ | |
1503 | if (SYSV386_COMPAT | |
1504 | && (i.tm.base_opcode & 0xfffffde0) == 0xdce0) | |
1505 | i.tm.base_opcode ^= FloatR; | |
1506 | ||
1507 | /* Zap movzx and movsx suffix. The suffix may have been set from | |
1508 | "word ptr" or "byte ptr" on the source operand, but we'll use | |
1509 | the suffix later to choose the destination register. */ | |
1510 | if ((i.tm.base_opcode & ~9) == 0x0fb6) | |
9306ca4a JB |
1511 | { |
1512 | if (i.reg_operands < 2 | |
1513 | && !i.suffix | |
1514 | && (~i.tm.opcode_modifier | |
1515 | & (No_bSuf | |
1516 | | No_wSuf | |
1517 | | No_lSuf | |
1518 | | No_sSuf | |
1519 | | No_xSuf | |
1520 | | No_qSuf))) | |
1521 | as_bad (_("ambiguous operand size for `%s'"), i.tm.name); | |
1522 | ||
1523 | i.suffix = 0; | |
1524 | } | |
cd61ebfe | 1525 | } |
24eab124 | 1526 | |
29b0f896 AM |
1527 | if (i.tm.opcode_modifier & FWait) |
1528 | if (!add_prefix (FWAIT_OPCODE)) | |
1529 | return; | |
252b5132 | 1530 | |
29b0f896 AM |
1531 | /* Check string instruction segment overrides. */ |
1532 | if ((i.tm.opcode_modifier & IsString) != 0 && i.mem_operands != 0) | |
1533 | { | |
1534 | if (!check_string ()) | |
5dd0794d | 1535 | return; |
29b0f896 | 1536 | } |
5dd0794d | 1537 | |
29b0f896 AM |
1538 | if (!process_suffix ()) |
1539 | return; | |
e413e4e9 | 1540 | |
29b0f896 AM |
1541 | /* Make still unresolved immediate matches conform to size of immediate |
1542 | given in i.suffix. */ | |
1543 | if (!finalize_imm ()) | |
1544 | return; | |
252b5132 | 1545 | |
29b0f896 AM |
1546 | if (i.types[0] & Imm1) |
1547 | i.imm_operands = 0; /* kludge for shift insns. */ | |
1548 | if (i.types[0] & ImplicitRegister) | |
1549 | i.reg_operands--; | |
1550 | if (i.types[1] & ImplicitRegister) | |
1551 | i.reg_operands--; | |
1552 | if (i.types[2] & ImplicitRegister) | |
1553 | i.reg_operands--; | |
252b5132 | 1554 | |
29b0f896 AM |
1555 | if (i.tm.opcode_modifier & ImmExt) |
1556 | { | |
02fc3089 L |
1557 | expressionS *exp; |
1558 | ||
ca164297 L |
1559 | if ((i.tm.cpu_flags & CpuPNI) && i.operands > 0) |
1560 | { | |
67c1ffbe | 1561 | /* These Intel Prescott New Instructions have the fixed |
ca164297 L |
1562 | operands with an opcode suffix which is coded in the same |
1563 | place as an 8-bit immediate field would be. Here we check | |
1564 | those operands and remove them afterwards. */ | |
1565 | unsigned int x; | |
1566 | ||
a4622f40 | 1567 | for (x = 0; x < i.operands; x++) |
ca164297 L |
1568 | if (i.op[x].regs->reg_num != x) |
1569 | as_bad (_("can't use register '%%%s' as operand %d in '%s'."), | |
64e74474 | 1570 | i.op[x].regs->reg_name, x + 1, i.tm.name); |
ca164297 L |
1571 | i.operands = 0; |
1572 | } | |
1573 | ||
29b0f896 AM |
1574 | /* These AMD 3DNow! and Intel Katmai New Instructions have an |
1575 | opcode suffix which is coded in the same place as an 8-bit | |
1576 | immediate field would be. Here we fake an 8-bit immediate | |
1577 | operand from the opcode suffix stored in tm.extension_opcode. */ | |
252b5132 | 1578 | |
29b0f896 | 1579 | assert (i.imm_operands == 0 && i.operands <= 2 && 2 < MAX_OPERANDS); |
252b5132 | 1580 | |
29b0f896 AM |
1581 | exp = &im_expressions[i.imm_operands++]; |
1582 | i.op[i.operands].imms = exp; | |
1583 | i.types[i.operands++] = Imm8; | |
1584 | exp->X_op = O_constant; | |
1585 | exp->X_add_number = i.tm.extension_opcode; | |
1586 | i.tm.extension_opcode = None; | |
1587 | } | |
252b5132 | 1588 | |
29b0f896 AM |
1589 | /* For insns with operands there are more diddles to do to the opcode. */ |
1590 | if (i.operands) | |
1591 | { | |
1592 | if (!process_operands ()) | |
1593 | return; | |
1594 | } | |
1595 | else if (!quiet_warnings && (i.tm.opcode_modifier & Ugh) != 0) | |
1596 | { | |
1597 | /* UnixWare fsub no args is alias for fsubp, fadd -> faddp, etc. */ | |
1598 | as_warn (_("translating to `%sp'"), i.tm.name); | |
1599 | } | |
252b5132 | 1600 | |
29b0f896 AM |
1601 | /* Handle conversion of 'int $3' --> special int3 insn. */ |
1602 | if (i.tm.base_opcode == INT_OPCODE && i.op[0].imms->X_add_number == 3) | |
1603 | { | |
1604 | i.tm.base_opcode = INT3_OPCODE; | |
1605 | i.imm_operands = 0; | |
1606 | } | |
252b5132 | 1607 | |
29b0f896 AM |
1608 | if ((i.tm.opcode_modifier & (Jump | JumpByte | JumpDword)) |
1609 | && i.op[0].disps->X_op == O_constant) | |
1610 | { | |
1611 | /* Convert "jmp constant" (and "call constant") to a jump (call) to | |
1612 | the absolute address given by the constant. Since ix86 jumps and | |
1613 | calls are pc relative, we need to generate a reloc. */ | |
1614 | i.op[0].disps->X_add_symbol = &abs_symbol; | |
1615 | i.op[0].disps->X_op = O_symbol; | |
1616 | } | |
252b5132 | 1617 | |
29b0f896 AM |
1618 | if ((i.tm.opcode_modifier & Rex64) != 0) |
1619 | i.rex |= REX_MODE64; | |
252b5132 | 1620 | |
29b0f896 AM |
1621 | /* For 8 bit registers we need an empty rex prefix. Also if the |
1622 | instruction already has a prefix, we need to convert old | |
1623 | registers to new ones. */ | |
773f551c | 1624 | |
29b0f896 AM |
1625 | if (((i.types[0] & Reg8) != 0 |
1626 | && (i.op[0].regs->reg_flags & RegRex64) != 0) | |
1627 | || ((i.types[1] & Reg8) != 0 | |
1628 | && (i.op[1].regs->reg_flags & RegRex64) != 0) | |
1629 | || (((i.types[0] & Reg8) != 0 || (i.types[1] & Reg8) != 0) | |
1630 | && i.rex != 0)) | |
1631 | { | |
1632 | int x; | |
726c5dcd | 1633 | |
29b0f896 AM |
1634 | i.rex |= REX_OPCODE; |
1635 | for (x = 0; x < 2; x++) | |
1636 | { | |
1637 | /* Look for 8 bit operand that uses old registers. */ | |
1638 | if ((i.types[x] & Reg8) != 0 | |
1639 | && (i.op[x].regs->reg_flags & RegRex64) == 0) | |
773f551c | 1640 | { |
29b0f896 AM |
1641 | /* In case it is "hi" register, give up. */ |
1642 | if (i.op[x].regs->reg_num > 3) | |
0477af35 | 1643 | as_bad (_("can't encode register '%%%s' in an instruction requiring REX prefix."), |
29b0f896 | 1644 | i.op[x].regs->reg_name); |
773f551c | 1645 | |
29b0f896 AM |
1646 | /* Otherwise it is equivalent to the extended register. |
1647 | Since the encoding doesn't change this is merely | |
1648 | cosmetic cleanup for debug output. */ | |
1649 | ||
1650 | i.op[x].regs = i.op[x].regs + 8; | |
773f551c | 1651 | } |
29b0f896 AM |
1652 | } |
1653 | } | |
773f551c | 1654 | |
29b0f896 AM |
1655 | if (i.rex != 0) |
1656 | add_prefix (REX_OPCODE | i.rex); | |
1657 | ||
1658 | /* We are ready to output the insn. */ | |
1659 | output_insn (); | |
1660 | } | |
1661 | ||
1662 | static char * | |
1663 | parse_insn (line, mnemonic) | |
1664 | char *line; | |
1665 | char *mnemonic; | |
1666 | { | |
1667 | char *l = line; | |
1668 | char *token_start = l; | |
1669 | char *mnem_p; | |
5c6af06e JB |
1670 | int supported; |
1671 | const template *t; | |
29b0f896 AM |
1672 | |
1673 | /* Non-zero if we found a prefix only acceptable with string insns. */ | |
1674 | const char *expecting_string_instruction = NULL; | |
45288df1 | 1675 | |
29b0f896 AM |
1676 | while (1) |
1677 | { | |
1678 | mnem_p = mnemonic; | |
1679 | while ((*mnem_p = mnemonic_chars[(unsigned char) *l]) != 0) | |
1680 | { | |
1681 | mnem_p++; | |
1682 | if (mnem_p >= mnemonic + MAX_MNEM_SIZE) | |
45288df1 | 1683 | { |
29b0f896 AM |
1684 | as_bad (_("no such instruction: `%s'"), token_start); |
1685 | return NULL; | |
1686 | } | |
1687 | l++; | |
1688 | } | |
1689 | if (!is_space_char (*l) | |
1690 | && *l != END_OF_INSN | |
e44823cf JB |
1691 | && (intel_syntax |
1692 | || (*l != PREFIX_SEPARATOR | |
1693 | && *l != ','))) | |
29b0f896 AM |
1694 | { |
1695 | as_bad (_("invalid character %s in mnemonic"), | |
1696 | output_invalid (*l)); | |
1697 | return NULL; | |
1698 | } | |
1699 | if (token_start == l) | |
1700 | { | |
e44823cf | 1701 | if (!intel_syntax && *l == PREFIX_SEPARATOR) |
29b0f896 AM |
1702 | as_bad (_("expecting prefix; got nothing")); |
1703 | else | |
1704 | as_bad (_("expecting mnemonic; got nothing")); | |
1705 | return NULL; | |
1706 | } | |
45288df1 | 1707 | |
29b0f896 AM |
1708 | /* Look up instruction (or prefix) via hash table. */ |
1709 | current_templates = hash_find (op_hash, mnemonic); | |
47926f60 | 1710 | |
29b0f896 AM |
1711 | if (*l != END_OF_INSN |
1712 | && (!is_space_char (*l) || l[1] != END_OF_INSN) | |
1713 | && current_templates | |
1714 | && (current_templates->start->opcode_modifier & IsPrefix)) | |
1715 | { | |
2dd88dca JB |
1716 | if (current_templates->start->cpu_flags |
1717 | & (flag_code != CODE_64BIT ? Cpu64 : CpuNo64)) | |
1718 | { | |
1719 | as_bad ((flag_code != CODE_64BIT | |
1720 | ? _("`%s' is only supported in 64-bit mode") | |
1721 | : _("`%s' is not supported in 64-bit mode")), | |
1722 | current_templates->start->name); | |
1723 | return NULL; | |
1724 | } | |
29b0f896 AM |
1725 | /* If we are in 16-bit mode, do not allow addr16 or data16. |
1726 | Similarly, in 32-bit mode, do not allow addr32 or data32. */ | |
1727 | if ((current_templates->start->opcode_modifier & (Size16 | Size32)) | |
1728 | && flag_code != CODE_64BIT | |
1729 | && (((current_templates->start->opcode_modifier & Size32) != 0) | |
1730 | ^ (flag_code == CODE_16BIT))) | |
1731 | { | |
1732 | as_bad (_("redundant %s prefix"), | |
1733 | current_templates->start->name); | |
1734 | return NULL; | |
45288df1 | 1735 | } |
29b0f896 AM |
1736 | /* Add prefix, checking for repeated prefixes. */ |
1737 | switch (add_prefix (current_templates->start->base_opcode)) | |
1738 | { | |
1739 | case 0: | |
1740 | return NULL; | |
1741 | case 2: | |
1742 | expecting_string_instruction = current_templates->start->name; | |
1743 | break; | |
1744 | } | |
1745 | /* Skip past PREFIX_SEPARATOR and reset token_start. */ | |
1746 | token_start = ++l; | |
1747 | } | |
1748 | else | |
1749 | break; | |
1750 | } | |
45288df1 | 1751 | |
29b0f896 AM |
1752 | if (!current_templates) |
1753 | { | |
1754 | /* See if we can get a match by trimming off a suffix. */ | |
1755 | switch (mnem_p[-1]) | |
1756 | { | |
1757 | case WORD_MNEM_SUFFIX: | |
9306ca4a JB |
1758 | if (intel_syntax && (intel_float_operand (mnemonic) & 2)) |
1759 | i.suffix = SHORT_MNEM_SUFFIX; | |
1760 | else | |
29b0f896 AM |
1761 | case BYTE_MNEM_SUFFIX: |
1762 | case QWORD_MNEM_SUFFIX: | |
1763 | i.suffix = mnem_p[-1]; | |
1764 | mnem_p[-1] = '\0'; | |
1765 | current_templates = hash_find (op_hash, mnemonic); | |
1766 | break; | |
1767 | case SHORT_MNEM_SUFFIX: | |
1768 | case LONG_MNEM_SUFFIX: | |
1769 | if (!intel_syntax) | |
1770 | { | |
1771 | i.suffix = mnem_p[-1]; | |
1772 | mnem_p[-1] = '\0'; | |
1773 | current_templates = hash_find (op_hash, mnemonic); | |
1774 | } | |
1775 | break; | |
252b5132 | 1776 | |
29b0f896 AM |
1777 | /* Intel Syntax. */ |
1778 | case 'd': | |
1779 | if (intel_syntax) | |
1780 | { | |
9306ca4a | 1781 | if (intel_float_operand (mnemonic) == 1) |
29b0f896 AM |
1782 | i.suffix = SHORT_MNEM_SUFFIX; |
1783 | else | |
1784 | i.suffix = LONG_MNEM_SUFFIX; | |
1785 | mnem_p[-1] = '\0'; | |
1786 | current_templates = hash_find (op_hash, mnemonic); | |
1787 | } | |
1788 | break; | |
1789 | } | |
1790 | if (!current_templates) | |
1791 | { | |
1792 | as_bad (_("no such instruction: `%s'"), token_start); | |
1793 | return NULL; | |
1794 | } | |
1795 | } | |
252b5132 | 1796 | |
29b0f896 AM |
1797 | if (current_templates->start->opcode_modifier & (Jump | JumpByte)) |
1798 | { | |
1799 | /* Check for a branch hint. We allow ",pt" and ",pn" for | |
1800 | predict taken and predict not taken respectively. | |
1801 | I'm not sure that branch hints actually do anything on loop | |
1802 | and jcxz insns (JumpByte) for current Pentium4 chips. They | |
1803 | may work in the future and it doesn't hurt to accept them | |
1804 | now. */ | |
1805 | if (l[0] == ',' && l[1] == 'p') | |
1806 | { | |
1807 | if (l[2] == 't') | |
1808 | { | |
1809 | if (!add_prefix (DS_PREFIX_OPCODE)) | |
1810 | return NULL; | |
1811 | l += 3; | |
1812 | } | |
1813 | else if (l[2] == 'n') | |
1814 | { | |
1815 | if (!add_prefix (CS_PREFIX_OPCODE)) | |
1816 | return NULL; | |
1817 | l += 3; | |
1818 | } | |
1819 | } | |
1820 | } | |
1821 | /* Any other comma loses. */ | |
1822 | if (*l == ',') | |
1823 | { | |
1824 | as_bad (_("invalid character %s in mnemonic"), | |
1825 | output_invalid (*l)); | |
1826 | return NULL; | |
1827 | } | |
252b5132 | 1828 | |
29b0f896 | 1829 | /* Check if instruction is supported on specified architecture. */ |
5c6af06e JB |
1830 | supported = 0; |
1831 | for (t = current_templates->start; t < current_templates->end; ++t) | |
1832 | { | |
1833 | if (!((t->cpu_flags & ~(Cpu64 | CpuNo64)) | |
1834 | & ~(cpu_arch_flags & ~(Cpu64 | CpuNo64)))) | |
64e74474 | 1835 | supported |= 1; |
5c6af06e | 1836 | if (!(t->cpu_flags & (flag_code == CODE_64BIT ? CpuNo64 : Cpu64))) |
64e74474 | 1837 | supported |= 2; |
5c6af06e JB |
1838 | } |
1839 | if (!(supported & 2)) | |
1840 | { | |
1841 | as_bad (flag_code == CODE_64BIT | |
1842 | ? _("`%s' is not supported in 64-bit mode") | |
1843 | : _("`%s' is only supported in 64-bit mode"), | |
1844 | current_templates->start->name); | |
1845 | return NULL; | |
1846 | } | |
1847 | if (!(supported & 1)) | |
29b0f896 | 1848 | { |
5c6af06e JB |
1849 | as_warn (_("`%s' is not supported on `%s%s'"), |
1850 | current_templates->start->name, | |
1851 | cpu_arch_name, | |
1852 | cpu_sub_arch_name ? cpu_sub_arch_name : ""); | |
29b0f896 AM |
1853 | } |
1854 | else if ((Cpu386 & ~cpu_arch_flags) && (flag_code != CODE_16BIT)) | |
1855 | { | |
1856 | as_warn (_("use .code16 to ensure correct addressing mode")); | |
1857 | } | |
252b5132 | 1858 | |
29b0f896 | 1859 | /* Check for rep/repne without a string instruction. */ |
f41bbced | 1860 | if (expecting_string_instruction) |
29b0f896 | 1861 | { |
f41bbced JB |
1862 | static templates override; |
1863 | ||
1864 | for (t = current_templates->start; t < current_templates->end; ++t) | |
1865 | if (t->opcode_modifier & IsString) | |
1866 | break; | |
1867 | if (t >= current_templates->end) | |
1868 | { | |
1869 | as_bad (_("expecting string instruction after `%s'"), | |
64e74474 | 1870 | expecting_string_instruction); |
f41bbced JB |
1871 | return NULL; |
1872 | } | |
1873 | for (override.start = t; t < current_templates->end; ++t) | |
1874 | if (!(t->opcode_modifier & IsString)) | |
1875 | break; | |
1876 | override.end = t; | |
1877 | current_templates = &override; | |
29b0f896 | 1878 | } |
252b5132 | 1879 | |
29b0f896 AM |
1880 | return l; |
1881 | } | |
252b5132 | 1882 | |
29b0f896 AM |
1883 | static char * |
1884 | parse_operands (l, mnemonic) | |
1885 | char *l; | |
1886 | const char *mnemonic; | |
1887 | { | |
1888 | char *token_start; | |
3138f287 | 1889 | |
29b0f896 AM |
1890 | /* 1 if operand is pending after ','. */ |
1891 | unsigned int expecting_operand = 0; | |
252b5132 | 1892 | |
29b0f896 AM |
1893 | /* Non-zero if operand parens not balanced. */ |
1894 | unsigned int paren_not_balanced; | |
1895 | ||
1896 | while (*l != END_OF_INSN) | |
1897 | { | |
1898 | /* Skip optional white space before operand. */ | |
1899 | if (is_space_char (*l)) | |
1900 | ++l; | |
1901 | if (!is_operand_char (*l) && *l != END_OF_INSN) | |
1902 | { | |
1903 | as_bad (_("invalid character %s before operand %d"), | |
1904 | output_invalid (*l), | |
1905 | i.operands + 1); | |
1906 | return NULL; | |
1907 | } | |
1908 | token_start = l; /* after white space */ | |
1909 | paren_not_balanced = 0; | |
1910 | while (paren_not_balanced || *l != ',') | |
1911 | { | |
1912 | if (*l == END_OF_INSN) | |
1913 | { | |
1914 | if (paren_not_balanced) | |
1915 | { | |
1916 | if (!intel_syntax) | |
1917 | as_bad (_("unbalanced parenthesis in operand %d."), | |
1918 | i.operands + 1); | |
1919 | else | |
1920 | as_bad (_("unbalanced brackets in operand %d."), | |
1921 | i.operands + 1); | |
1922 | return NULL; | |
1923 | } | |
1924 | else | |
1925 | break; /* we are done */ | |
1926 | } | |
1927 | else if (!is_operand_char (*l) && !is_space_char (*l)) | |
1928 | { | |
1929 | as_bad (_("invalid character %s in operand %d"), | |
1930 | output_invalid (*l), | |
1931 | i.operands + 1); | |
1932 | return NULL; | |
1933 | } | |
1934 | if (!intel_syntax) | |
1935 | { | |
1936 | if (*l == '(') | |
1937 | ++paren_not_balanced; | |
1938 | if (*l == ')') | |
1939 | --paren_not_balanced; | |
1940 | } | |
1941 | else | |
1942 | { | |
1943 | if (*l == '[') | |
1944 | ++paren_not_balanced; | |
1945 | if (*l == ']') | |
1946 | --paren_not_balanced; | |
1947 | } | |
1948 | l++; | |
1949 | } | |
1950 | if (l != token_start) | |
1951 | { /* Yes, we've read in another operand. */ | |
1952 | unsigned int operand_ok; | |
1953 | this_operand = i.operands++; | |
1954 | if (i.operands > MAX_OPERANDS) | |
1955 | { | |
1956 | as_bad (_("spurious operands; (%d operands/instruction max)"), | |
1957 | MAX_OPERANDS); | |
1958 | return NULL; | |
1959 | } | |
1960 | /* Now parse operand adding info to 'i' as we go along. */ | |
1961 | END_STRING_AND_SAVE (l); | |
1962 | ||
1963 | if (intel_syntax) | |
1964 | operand_ok = | |
1965 | i386_intel_operand (token_start, | |
1966 | intel_float_operand (mnemonic)); | |
1967 | else | |
1968 | operand_ok = i386_operand (token_start); | |
1969 | ||
1970 | RESTORE_END_STRING (l); | |
1971 | if (!operand_ok) | |
1972 | return NULL; | |
1973 | } | |
1974 | else | |
1975 | { | |
1976 | if (expecting_operand) | |
1977 | { | |
1978 | expecting_operand_after_comma: | |
1979 | as_bad (_("expecting operand after ','; got nothing")); | |
1980 | return NULL; | |
1981 | } | |
1982 | if (*l == ',') | |
1983 | { | |
1984 | as_bad (_("expecting operand before ','; got nothing")); | |
1985 | return NULL; | |
1986 | } | |
1987 | } | |
7f3f1ea2 | 1988 | |
29b0f896 AM |
1989 | /* Now *l must be either ',' or END_OF_INSN. */ |
1990 | if (*l == ',') | |
1991 | { | |
1992 | if (*++l == END_OF_INSN) | |
1993 | { | |
1994 | /* Just skip it, if it's \n complain. */ | |
1995 | goto expecting_operand_after_comma; | |
1996 | } | |
1997 | expecting_operand = 1; | |
1998 | } | |
1999 | } | |
2000 | return l; | |
2001 | } | |
7f3f1ea2 | 2002 | |
29b0f896 AM |
2003 | static void |
2004 | swap_operands () | |
2005 | { | |
2006 | union i386_op temp_op; | |
2007 | unsigned int temp_type; | |
f86103b7 | 2008 | enum bfd_reloc_code_real temp_reloc; |
29b0f896 AM |
2009 | int xchg1 = 0; |
2010 | int xchg2 = 0; | |
252b5132 | 2011 | |
29b0f896 AM |
2012 | if (i.operands == 2) |
2013 | { | |
2014 | xchg1 = 0; | |
2015 | xchg2 = 1; | |
2016 | } | |
2017 | else if (i.operands == 3) | |
2018 | { | |
2019 | xchg1 = 0; | |
2020 | xchg2 = 2; | |
2021 | } | |
2022 | temp_type = i.types[xchg2]; | |
2023 | i.types[xchg2] = i.types[xchg1]; | |
2024 | i.types[xchg1] = temp_type; | |
2025 | temp_op = i.op[xchg2]; | |
2026 | i.op[xchg2] = i.op[xchg1]; | |
2027 | i.op[xchg1] = temp_op; | |
2028 | temp_reloc = i.reloc[xchg2]; | |
2029 | i.reloc[xchg2] = i.reloc[xchg1]; | |
2030 | i.reloc[xchg1] = temp_reloc; | |
2031 | ||
2032 | if (i.mem_operands == 2) | |
2033 | { | |
2034 | const seg_entry *temp_seg; | |
2035 | temp_seg = i.seg[0]; | |
2036 | i.seg[0] = i.seg[1]; | |
2037 | i.seg[1] = temp_seg; | |
2038 | } | |
2039 | } | |
252b5132 | 2040 | |
29b0f896 AM |
2041 | /* Try to ensure constant immediates are represented in the smallest |
2042 | opcode possible. */ | |
2043 | static void | |
2044 | optimize_imm () | |
2045 | { | |
2046 | char guess_suffix = 0; | |
2047 | int op; | |
252b5132 | 2048 | |
29b0f896 AM |
2049 | if (i.suffix) |
2050 | guess_suffix = i.suffix; | |
2051 | else if (i.reg_operands) | |
2052 | { | |
2053 | /* Figure out a suffix from the last register operand specified. | |
2054 | We can't do this properly yet, ie. excluding InOutPortReg, | |
2055 | but the following works for instructions with immediates. | |
2056 | In any case, we can't set i.suffix yet. */ | |
2057 | for (op = i.operands; --op >= 0;) | |
2058 | if (i.types[op] & Reg) | |
252b5132 | 2059 | { |
29b0f896 AM |
2060 | if (i.types[op] & Reg8) |
2061 | guess_suffix = BYTE_MNEM_SUFFIX; | |
2062 | else if (i.types[op] & Reg16) | |
2063 | guess_suffix = WORD_MNEM_SUFFIX; | |
2064 | else if (i.types[op] & Reg32) | |
2065 | guess_suffix = LONG_MNEM_SUFFIX; | |
2066 | else if (i.types[op] & Reg64) | |
2067 | guess_suffix = QWORD_MNEM_SUFFIX; | |
2068 | break; | |
252b5132 | 2069 | } |
29b0f896 AM |
2070 | } |
2071 | else if ((flag_code == CODE_16BIT) ^ (i.prefix[DATA_PREFIX] != 0)) | |
2072 | guess_suffix = WORD_MNEM_SUFFIX; | |
2073 | ||
2074 | for (op = i.operands; --op >= 0;) | |
2075 | if (i.types[op] & Imm) | |
2076 | { | |
2077 | switch (i.op[op].imms->X_op) | |
252b5132 | 2078 | { |
29b0f896 AM |
2079 | case O_constant: |
2080 | /* If a suffix is given, this operand may be shortened. */ | |
2081 | switch (guess_suffix) | |
252b5132 | 2082 | { |
29b0f896 AM |
2083 | case LONG_MNEM_SUFFIX: |
2084 | i.types[op] |= Imm32 | Imm64; | |
2085 | break; | |
2086 | case WORD_MNEM_SUFFIX: | |
2087 | i.types[op] |= Imm16 | Imm32S | Imm32 | Imm64; | |
2088 | break; | |
2089 | case BYTE_MNEM_SUFFIX: | |
2090 | i.types[op] |= Imm16 | Imm8 | Imm8S | Imm32S | Imm32 | Imm64; | |
2091 | break; | |
252b5132 | 2092 | } |
252b5132 | 2093 | |
29b0f896 AM |
2094 | /* If this operand is at most 16 bits, convert it |
2095 | to a signed 16 bit number before trying to see | |
2096 | whether it will fit in an even smaller size. | |
2097 | This allows a 16-bit operand such as $0xffe0 to | |
2098 | be recognised as within Imm8S range. */ | |
2099 | if ((i.types[op] & Imm16) | |
2100 | && (i.op[op].imms->X_add_number & ~(offsetT) 0xffff) == 0) | |
252b5132 | 2101 | { |
29b0f896 AM |
2102 | i.op[op].imms->X_add_number = |
2103 | (((i.op[op].imms->X_add_number & 0xffff) ^ 0x8000) - 0x8000); | |
2104 | } | |
2105 | if ((i.types[op] & Imm32) | |
2106 | && ((i.op[op].imms->X_add_number & ~(((offsetT) 2 << 31) - 1)) | |
2107 | == 0)) | |
2108 | { | |
2109 | i.op[op].imms->X_add_number = ((i.op[op].imms->X_add_number | |
2110 | ^ ((offsetT) 1 << 31)) | |
2111 | - ((offsetT) 1 << 31)); | |
2112 | } | |
2113 | i.types[op] |= smallest_imm_type (i.op[op].imms->X_add_number); | |
252b5132 | 2114 | |
29b0f896 AM |
2115 | /* We must avoid matching of Imm32 templates when 64bit |
2116 | only immediate is available. */ | |
2117 | if (guess_suffix == QWORD_MNEM_SUFFIX) | |
2118 | i.types[op] &= ~Imm32; | |
2119 | break; | |
252b5132 | 2120 | |
29b0f896 AM |
2121 | case O_absent: |
2122 | case O_register: | |
2123 | abort (); | |
2124 | ||
2125 | /* Symbols and expressions. */ | |
2126 | default: | |
9cd96992 JB |
2127 | /* Convert symbolic operand to proper sizes for matching, but don't |
2128 | prevent matching a set of insns that only supports sizes other | |
2129 | than those matching the insn suffix. */ | |
2130 | { | |
2131 | unsigned int mask, allowed = 0; | |
2132 | const template *t; | |
2133 | ||
2134 | for (t = current_templates->start; t < current_templates->end; ++t) | |
2135 | allowed |= t->operand_types[op]; | |
2136 | switch (guess_suffix) | |
2137 | { | |
2138 | case QWORD_MNEM_SUFFIX: | |
2139 | mask = Imm64 | Imm32S; | |
2140 | break; | |
2141 | case LONG_MNEM_SUFFIX: | |
2142 | mask = Imm32; | |
2143 | break; | |
2144 | case WORD_MNEM_SUFFIX: | |
2145 | mask = Imm16; | |
2146 | break; | |
2147 | case BYTE_MNEM_SUFFIX: | |
2148 | mask = Imm8; | |
2149 | break; | |
2150 | default: | |
2151 | mask = 0; | |
2152 | break; | |
2153 | } | |
64e74474 AM |
2154 | if (mask & allowed) |
2155 | i.types[op] &= mask; | |
9cd96992 | 2156 | } |
29b0f896 | 2157 | break; |
252b5132 | 2158 | } |
29b0f896 AM |
2159 | } |
2160 | } | |
47926f60 | 2161 | |
29b0f896 AM |
2162 | /* Try to use the smallest displacement type too. */ |
2163 | static void | |
2164 | optimize_disp () | |
2165 | { | |
2166 | int op; | |
3e73aa7c | 2167 | |
29b0f896 | 2168 | for (op = i.operands; --op >= 0;) |
b300c311 | 2169 | if (i.types[op] & Disp) |
252b5132 | 2170 | { |
b300c311 | 2171 | if (i.op[op].disps->X_op == O_constant) |
252b5132 | 2172 | { |
b300c311 | 2173 | offsetT disp = i.op[op].disps->X_add_number; |
29b0f896 | 2174 | |
b300c311 L |
2175 | if ((i.types[op] & Disp16) |
2176 | && (disp & ~(offsetT) 0xffff) == 0) | |
2177 | { | |
2178 | /* If this operand is at most 16 bits, convert | |
2179 | to a signed 16 bit number and don't use 64bit | |
2180 | displacement. */ | |
2181 | disp = (((disp & 0xffff) ^ 0x8000) - 0x8000); | |
2182 | i.types[op] &= ~Disp64; | |
2183 | } | |
2184 | if ((i.types[op] & Disp32) | |
2185 | && (disp & ~(((offsetT) 2 << 31) - 1)) == 0) | |
2186 | { | |
2187 | /* If this operand is at most 32 bits, convert | |
2188 | to a signed 32 bit number and don't use 64bit | |
2189 | displacement. */ | |
2190 | disp &= (((offsetT) 2 << 31) - 1); | |
2191 | disp = (disp ^ ((offsetT) 1 << 31)) - ((addressT) 1 << 31); | |
2192 | i.types[op] &= ~Disp64; | |
2193 | } | |
2194 | if (!disp && (i.types[op] & BaseIndex)) | |
2195 | { | |
2196 | i.types[op] &= ~Disp; | |
2197 | i.op[op].disps = 0; | |
2198 | i.disp_operands--; | |
2199 | } | |
2200 | else if (flag_code == CODE_64BIT) | |
2201 | { | |
2202 | if (fits_in_signed_long (disp)) | |
28a9d8f5 L |
2203 | { |
2204 | i.types[op] &= ~Disp64; | |
2205 | i.types[op] |= Disp32S; | |
2206 | } | |
b300c311 L |
2207 | if (fits_in_unsigned_long (disp)) |
2208 | i.types[op] |= Disp32; | |
2209 | } | |
2210 | if ((i.types[op] & (Disp32 | Disp32S | Disp16)) | |
2211 | && fits_in_signed_byte (disp)) | |
2212 | i.types[op] |= Disp8; | |
252b5132 | 2213 | } |
67a4f2b7 AO |
2214 | else if (i.reloc[op] == BFD_RELOC_386_TLS_DESC_CALL |
2215 | || i.reloc[op] == BFD_RELOC_X86_64_TLSDESC_CALL) | |
2216 | { | |
2217 | fix_new_exp (frag_now, frag_more (0) - frag_now->fr_literal, 0, | |
2218 | i.op[op].disps, 0, i.reloc[op]); | |
2219 | i.types[op] &= ~Disp; | |
2220 | } | |
2221 | else | |
b300c311 L |
2222 | /* We only support 64bit displacement on constants. */ |
2223 | i.types[op] &= ~Disp64; | |
252b5132 | 2224 | } |
29b0f896 AM |
2225 | } |
2226 | ||
2227 | static int | |
2228 | match_template () | |
2229 | { | |
2230 | /* Points to template once we've found it. */ | |
2231 | const template *t; | |
2232 | unsigned int overlap0, overlap1, overlap2; | |
2233 | unsigned int found_reverse_match; | |
2234 | int suffix_check; | |
2235 | ||
2236 | #define MATCH(overlap, given, template) \ | |
2237 | ((overlap & ~JumpAbsolute) \ | |
2238 | && (((given) & (BaseIndex | JumpAbsolute)) \ | |
2239 | == ((overlap) & (BaseIndex | JumpAbsolute)))) | |
2240 | ||
2241 | /* If given types r0 and r1 are registers they must be of the same type | |
2242 | unless the expected operand type register overlap is null. | |
2243 | Note that Acc in a template matches every size of reg. */ | |
2244 | #define CONSISTENT_REGISTER_MATCH(m0, g0, t0, m1, g1, t1) \ | |
2245 | (((g0) & Reg) == 0 || ((g1) & Reg) == 0 \ | |
2246 | || ((g0) & Reg) == ((g1) & Reg) \ | |
2247 | || ((((m0) & Acc) ? Reg : (t0)) & (((m1) & Acc) ? Reg : (t1)) & Reg) == 0 ) | |
2248 | ||
2249 | overlap0 = 0; | |
2250 | overlap1 = 0; | |
2251 | overlap2 = 0; | |
2252 | found_reverse_match = 0; | |
2253 | suffix_check = (i.suffix == BYTE_MNEM_SUFFIX | |
2254 | ? No_bSuf | |
2255 | : (i.suffix == WORD_MNEM_SUFFIX | |
2256 | ? No_wSuf | |
2257 | : (i.suffix == SHORT_MNEM_SUFFIX | |
2258 | ? No_sSuf | |
2259 | : (i.suffix == LONG_MNEM_SUFFIX | |
2260 | ? No_lSuf | |
2261 | : (i.suffix == QWORD_MNEM_SUFFIX | |
2262 | ? No_qSuf | |
2263 | : (i.suffix == LONG_DOUBLE_MNEM_SUFFIX | |
2264 | ? No_xSuf : 0)))))); | |
2265 | ||
45aa61fe | 2266 | for (t = current_templates->start; t < current_templates->end; t++) |
29b0f896 AM |
2267 | { |
2268 | /* Must have right number of operands. */ | |
2269 | if (i.operands != t->operands) | |
2270 | continue; | |
2271 | ||
2272 | /* Check the suffix, except for some instructions in intel mode. */ | |
2273 | if ((t->opcode_modifier & suffix_check) | |
2274 | && !(intel_syntax | |
9306ca4a | 2275 | && (t->opcode_modifier & IgnoreSize))) |
29b0f896 AM |
2276 | continue; |
2277 | ||
45aa61fe AM |
2278 | /* In general, don't allow 64-bit operands in 32-bit mode. */ |
2279 | if (i.suffix == QWORD_MNEM_SUFFIX | |
2280 | && flag_code != CODE_64BIT | |
2281 | && (intel_syntax | |
2282 | ? (!(t->opcode_modifier & IgnoreSize) | |
2283 | && !intel_float_operand (t->name)) | |
2284 | : intel_float_operand (t->name) != 2) | |
2285 | && (!(t->operand_types[0] & (RegMMX | RegXMM)) | |
2286 | || !(t->operand_types[t->operands > 1] & (RegMMX | RegXMM))) | |
2287 | && (t->base_opcode != 0x0fc7 | |
2288 | || t->extension_opcode != 1 /* cmpxchg8b */)) | |
2289 | continue; | |
2290 | ||
29b0f896 AM |
2291 | /* Do not verify operands when there are none. */ |
2292 | else if (!t->operands) | |
2293 | { | |
2294 | if (t->cpu_flags & ~cpu_arch_flags) | |
2295 | continue; | |
2296 | /* We've found a match; break out of loop. */ | |
2297 | break; | |
2298 | } | |
252b5132 | 2299 | |
29b0f896 AM |
2300 | overlap0 = i.types[0] & t->operand_types[0]; |
2301 | switch (t->operands) | |
2302 | { | |
2303 | case 1: | |
2304 | if (!MATCH (overlap0, i.types[0], t->operand_types[0])) | |
2305 | continue; | |
2306 | break; | |
2307 | case 2: | |
2308 | case 3: | |
2309 | overlap1 = i.types[1] & t->operand_types[1]; | |
2310 | if (!MATCH (overlap0, i.types[0], t->operand_types[0]) | |
2311 | || !MATCH (overlap1, i.types[1], t->operand_types[1]) | |
cb712a9e | 2312 | /* monitor in SSE3 is a very special case. The first |
708587a4 | 2313 | register and the second register may have different |
cb712a9e L |
2314 | sizes. */ |
2315 | || !((t->base_opcode == 0x0f01 | |
2316 | && t->extension_opcode == 0xc8) | |
2317 | || CONSISTENT_REGISTER_MATCH (overlap0, i.types[0], | |
2318 | t->operand_types[0], | |
2319 | overlap1, i.types[1], | |
2320 | t->operand_types[1]))) | |
29b0f896 AM |
2321 | { |
2322 | /* Check if other direction is valid ... */ | |
2323 | if ((t->opcode_modifier & (D | FloatD)) == 0) | |
2324 | continue; | |
2325 | ||
2326 | /* Try reversing direction of operands. */ | |
2327 | overlap0 = i.types[0] & t->operand_types[1]; | |
2328 | overlap1 = i.types[1] & t->operand_types[0]; | |
2329 | if (!MATCH (overlap0, i.types[0], t->operand_types[1]) | |
2330 | || !MATCH (overlap1, i.types[1], t->operand_types[0]) | |
2331 | || !CONSISTENT_REGISTER_MATCH (overlap0, i.types[0], | |
2332 | t->operand_types[1], | |
2333 | overlap1, i.types[1], | |
2334 | t->operand_types[0])) | |
2335 | { | |
2336 | /* Does not match either direction. */ | |
2337 | continue; | |
2338 | } | |
2339 | /* found_reverse_match holds which of D or FloatDR | |
2340 | we've found. */ | |
2341 | found_reverse_match = t->opcode_modifier & (D | FloatDR); | |
2342 | } | |
2343 | /* Found a forward 2 operand match here. */ | |
2344 | else if (t->operands == 3) | |
2345 | { | |
2346 | /* Here we make use of the fact that there are no | |
2347 | reverse match 3 operand instructions, and all 3 | |
2348 | operand instructions only need to be checked for | |
2349 | register consistency between operands 2 and 3. */ | |
2350 | overlap2 = i.types[2] & t->operand_types[2]; | |
2351 | if (!MATCH (overlap2, i.types[2], t->operand_types[2]) | |
2352 | || !CONSISTENT_REGISTER_MATCH (overlap1, i.types[1], | |
2353 | t->operand_types[1], | |
2354 | overlap2, i.types[2], | |
2355 | t->operand_types[2])) | |
2356 | ||
2357 | continue; | |
2358 | } | |
2359 | /* Found either forward/reverse 2 or 3 operand match here: | |
2360 | slip through to break. */ | |
2361 | } | |
2362 | if (t->cpu_flags & ~cpu_arch_flags) | |
2363 | { | |
2364 | found_reverse_match = 0; | |
2365 | continue; | |
2366 | } | |
2367 | /* We've found a match; break out of loop. */ | |
2368 | break; | |
2369 | } | |
2370 | ||
2371 | if (t == current_templates->end) | |
2372 | { | |
2373 | /* We found no match. */ | |
2374 | as_bad (_("suffix or operands invalid for `%s'"), | |
2375 | current_templates->start->name); | |
2376 | return 0; | |
2377 | } | |
252b5132 | 2378 | |
29b0f896 AM |
2379 | if (!quiet_warnings) |
2380 | { | |
2381 | if (!intel_syntax | |
2382 | && ((i.types[0] & JumpAbsolute) | |
2383 | != (t->operand_types[0] & JumpAbsolute))) | |
2384 | { | |
2385 | as_warn (_("indirect %s without `*'"), t->name); | |
2386 | } | |
2387 | ||
2388 | if ((t->opcode_modifier & (IsPrefix | IgnoreSize)) | |
2389 | == (IsPrefix | IgnoreSize)) | |
2390 | { | |
2391 | /* Warn them that a data or address size prefix doesn't | |
2392 | affect assembly of the next line of code. */ | |
2393 | as_warn (_("stand-alone `%s' prefix"), t->name); | |
2394 | } | |
2395 | } | |
2396 | ||
2397 | /* Copy the template we found. */ | |
2398 | i.tm = *t; | |
2399 | if (found_reverse_match) | |
2400 | { | |
2401 | /* If we found a reverse match we must alter the opcode | |
2402 | direction bit. found_reverse_match holds bits to change | |
2403 | (different for int & float insns). */ | |
2404 | ||
2405 | i.tm.base_opcode ^= found_reverse_match; | |
2406 | ||
2407 | i.tm.operand_types[0] = t->operand_types[1]; | |
2408 | i.tm.operand_types[1] = t->operand_types[0]; | |
2409 | } | |
2410 | ||
2411 | return 1; | |
2412 | } | |
2413 | ||
2414 | static int | |
2415 | check_string () | |
2416 | { | |
2417 | int mem_op = (i.types[0] & AnyMem) ? 0 : 1; | |
2418 | if ((i.tm.operand_types[mem_op] & EsSeg) != 0) | |
2419 | { | |
2420 | if (i.seg[0] != NULL && i.seg[0] != &es) | |
2421 | { | |
2422 | as_bad (_("`%s' operand %d must use `%%es' segment"), | |
2423 | i.tm.name, | |
2424 | mem_op + 1); | |
2425 | return 0; | |
2426 | } | |
2427 | /* There's only ever one segment override allowed per instruction. | |
2428 | This instruction possibly has a legal segment override on the | |
2429 | second operand, so copy the segment to where non-string | |
2430 | instructions store it, allowing common code. */ | |
2431 | i.seg[0] = i.seg[1]; | |
2432 | } | |
2433 | else if ((i.tm.operand_types[mem_op + 1] & EsSeg) != 0) | |
2434 | { | |
2435 | if (i.seg[1] != NULL && i.seg[1] != &es) | |
2436 | { | |
2437 | as_bad (_("`%s' operand %d must use `%%es' segment"), | |
2438 | i.tm.name, | |
2439 | mem_op + 2); | |
2440 | return 0; | |
2441 | } | |
2442 | } | |
2443 | return 1; | |
2444 | } | |
2445 | ||
2446 | static int | |
543613e9 | 2447 | process_suffix (void) |
29b0f896 AM |
2448 | { |
2449 | /* If matched instruction specifies an explicit instruction mnemonic | |
2450 | suffix, use it. */ | |
2451 | if (i.tm.opcode_modifier & (Size16 | Size32 | Size64)) | |
2452 | { | |
2453 | if (i.tm.opcode_modifier & Size16) | |
2454 | i.suffix = WORD_MNEM_SUFFIX; | |
2455 | else if (i.tm.opcode_modifier & Size64) | |
2456 | i.suffix = QWORD_MNEM_SUFFIX; | |
2457 | else | |
2458 | i.suffix = LONG_MNEM_SUFFIX; | |
2459 | } | |
2460 | else if (i.reg_operands) | |
2461 | { | |
2462 | /* If there's no instruction mnemonic suffix we try to invent one | |
2463 | based on register operands. */ | |
2464 | if (!i.suffix) | |
2465 | { | |
2466 | /* We take i.suffix from the last register operand specified, | |
2467 | Destination register type is more significant than source | |
2468 | register type. */ | |
2469 | int op; | |
543613e9 | 2470 | |
29b0f896 AM |
2471 | for (op = i.operands; --op >= 0;) |
2472 | if ((i.types[op] & Reg) | |
2473 | && !(i.tm.operand_types[op] & InOutPortReg)) | |
2474 | { | |
2475 | i.suffix = ((i.types[op] & Reg8) ? BYTE_MNEM_SUFFIX : | |
2476 | (i.types[op] & Reg16) ? WORD_MNEM_SUFFIX : | |
2477 | (i.types[op] & Reg64) ? QWORD_MNEM_SUFFIX : | |
2478 | LONG_MNEM_SUFFIX); | |
2479 | break; | |
2480 | } | |
2481 | } | |
2482 | else if (i.suffix == BYTE_MNEM_SUFFIX) | |
2483 | { | |
2484 | if (!check_byte_reg ()) | |
2485 | return 0; | |
2486 | } | |
2487 | else if (i.suffix == LONG_MNEM_SUFFIX) | |
2488 | { | |
2489 | if (!check_long_reg ()) | |
2490 | return 0; | |
2491 | } | |
2492 | else if (i.suffix == QWORD_MNEM_SUFFIX) | |
2493 | { | |
2494 | if (!check_qword_reg ()) | |
2495 | return 0; | |
2496 | } | |
2497 | else if (i.suffix == WORD_MNEM_SUFFIX) | |
2498 | { | |
2499 | if (!check_word_reg ()) | |
2500 | return 0; | |
2501 | } | |
2502 | else if (intel_syntax && (i.tm.opcode_modifier & IgnoreSize)) | |
2503 | /* Do nothing if the instruction is going to ignore the prefix. */ | |
2504 | ; | |
2505 | else | |
2506 | abort (); | |
2507 | } | |
9306ca4a JB |
2508 | else if ((i.tm.opcode_modifier & DefaultSize) |
2509 | && !i.suffix | |
2510 | /* exclude fldenv/frstor/fsave/fstenv */ | |
2511 | && (i.tm.opcode_modifier & No_sSuf)) | |
29b0f896 AM |
2512 | { |
2513 | i.suffix = stackop_size; | |
2514 | } | |
9306ca4a JB |
2515 | else if (intel_syntax |
2516 | && !i.suffix | |
2517 | && ((i.tm.operand_types[0] & JumpAbsolute) | |
64e74474 AM |
2518 | || (i.tm.opcode_modifier & (JumpByte|JumpInterSegment)) |
2519 | || (i.tm.base_opcode == 0x0f01 /* [ls][gi]dt */ | |
2520 | && i.tm.extension_opcode <= 3))) | |
9306ca4a JB |
2521 | { |
2522 | switch (flag_code) | |
2523 | { | |
2524 | case CODE_64BIT: | |
2525 | if (!(i.tm.opcode_modifier & No_qSuf)) | |
2526 | { | |
2527 | i.suffix = QWORD_MNEM_SUFFIX; | |
2528 | break; | |
2529 | } | |
2530 | case CODE_32BIT: | |
2531 | if (!(i.tm.opcode_modifier & No_lSuf)) | |
2532 | i.suffix = LONG_MNEM_SUFFIX; | |
2533 | break; | |
2534 | case CODE_16BIT: | |
2535 | if (!(i.tm.opcode_modifier & No_wSuf)) | |
2536 | i.suffix = WORD_MNEM_SUFFIX; | |
2537 | break; | |
2538 | } | |
2539 | } | |
252b5132 | 2540 | |
9306ca4a | 2541 | if (!i.suffix) |
29b0f896 | 2542 | { |
9306ca4a JB |
2543 | if (!intel_syntax) |
2544 | { | |
2545 | if (i.tm.opcode_modifier & W) | |
2546 | { | |
2547 | as_bad (_("no instruction mnemonic suffix given and no register operands; can't size instruction")); | |
2548 | return 0; | |
2549 | } | |
2550 | } | |
2551 | else | |
2552 | { | |
64e74474 AM |
2553 | unsigned int suffixes = (~i.tm.opcode_modifier |
2554 | & (No_bSuf | |
2555 | | No_wSuf | |
2556 | | No_lSuf | |
2557 | | No_sSuf | |
2558 | | No_xSuf | |
2559 | | No_qSuf)); | |
9306ca4a JB |
2560 | |
2561 | if ((i.tm.opcode_modifier & W) | |
2562 | || ((suffixes & (suffixes - 1)) | |
2563 | && !(i.tm.opcode_modifier & (DefaultSize | IgnoreSize)))) | |
2564 | { | |
2565 | as_bad (_("ambiguous operand size for `%s'"), i.tm.name); | |
2566 | return 0; | |
2567 | } | |
2568 | } | |
29b0f896 | 2569 | } |
252b5132 | 2570 | |
9306ca4a JB |
2571 | /* Change the opcode based on the operand size given by i.suffix; |
2572 | We don't need to change things for byte insns. */ | |
2573 | ||
29b0f896 AM |
2574 | if (i.suffix && i.suffix != BYTE_MNEM_SUFFIX) |
2575 | { | |
2576 | /* It's not a byte, select word/dword operation. */ | |
2577 | if (i.tm.opcode_modifier & W) | |
2578 | { | |
2579 | if (i.tm.opcode_modifier & ShortForm) | |
2580 | i.tm.base_opcode |= 8; | |
2581 | else | |
2582 | i.tm.base_opcode |= 1; | |
2583 | } | |
0f3f3d8b | 2584 | |
29b0f896 AM |
2585 | /* Now select between word & dword operations via the operand |
2586 | size prefix, except for instructions that will ignore this | |
2587 | prefix anyway. */ | |
cb712a9e L |
2588 | if (i.tm.base_opcode == 0x0f01 && i.tm.extension_opcode == 0xc8) |
2589 | { | |
2590 | /* monitor in SSE3 is a very special case. The default size | |
2591 | of AX is the size of mode. The address size override | |
2592 | prefix will change the size of AX. */ | |
2593 | if (i.op->regs[0].reg_type & | |
2594 | (flag_code == CODE_32BIT ? Reg16 : Reg32)) | |
2595 | if (!add_prefix (ADDR_PREFIX_OPCODE)) | |
2596 | return 0; | |
2597 | } | |
2598 | else if (i.suffix != QWORD_MNEM_SUFFIX | |
2599 | && i.suffix != LONG_DOUBLE_MNEM_SUFFIX | |
2600 | && !(i.tm.opcode_modifier & (IgnoreSize | FloatMF)) | |
2601 | && ((i.suffix == LONG_MNEM_SUFFIX) == (flag_code == CODE_16BIT) | |
2602 | || (flag_code == CODE_64BIT | |
2603 | && (i.tm.opcode_modifier & JumpByte)))) | |
24eab124 AM |
2604 | { |
2605 | unsigned int prefix = DATA_PREFIX_OPCODE; | |
543613e9 | 2606 | |
29b0f896 AM |
2607 | if (i.tm.opcode_modifier & JumpByte) /* jcxz, loop */ |
2608 | prefix = ADDR_PREFIX_OPCODE; | |
252b5132 | 2609 | |
29b0f896 AM |
2610 | if (!add_prefix (prefix)) |
2611 | return 0; | |
24eab124 | 2612 | } |
252b5132 | 2613 | |
29b0f896 AM |
2614 | /* Set mode64 for an operand. */ |
2615 | if (i.suffix == QWORD_MNEM_SUFFIX | |
9146926a | 2616 | && flag_code == CODE_64BIT |
29b0f896 | 2617 | && (i.tm.opcode_modifier & NoRex64) == 0) |
46e883c5 L |
2618 | { |
2619 | /* Special case for xchg %rax,%rax. It is NOP and doesn't | |
2620 | need rex64. */ | |
2621 | if (i.operands != 2 | |
2622 | || i.types [0] != (Acc | Reg64) | |
2623 | || i.types [1] != (Acc | Reg64) | |
2624 | || strcmp (i.tm.name, "xchg") != 0) | |
2625 | i.rex |= REX_MODE64; | |
2626 | } | |
3e73aa7c | 2627 | |
29b0f896 AM |
2628 | /* Size floating point instruction. */ |
2629 | if (i.suffix == LONG_MNEM_SUFFIX) | |
543613e9 NC |
2630 | if (i.tm.opcode_modifier & FloatMF) |
2631 | i.tm.base_opcode ^= 4; | |
29b0f896 | 2632 | } |
7ecd2f8b | 2633 | |
29b0f896 AM |
2634 | return 1; |
2635 | } | |
3e73aa7c | 2636 | |
29b0f896 | 2637 | static int |
543613e9 | 2638 | check_byte_reg (void) |
29b0f896 AM |
2639 | { |
2640 | int op; | |
543613e9 | 2641 | |
29b0f896 AM |
2642 | for (op = i.operands; --op >= 0;) |
2643 | { | |
2644 | /* If this is an eight bit register, it's OK. If it's the 16 or | |
2645 | 32 bit version of an eight bit register, we will just use the | |
2646 | low portion, and that's OK too. */ | |
2647 | if (i.types[op] & Reg8) | |
2648 | continue; | |
2649 | ||
2650 | /* movzx and movsx should not generate this warning. */ | |
2651 | if (intel_syntax | |
2652 | && (i.tm.base_opcode == 0xfb7 | |
2653 | || i.tm.base_opcode == 0xfb6 | |
2654 | || i.tm.base_opcode == 0x63 | |
2655 | || i.tm.base_opcode == 0xfbe | |
2656 | || i.tm.base_opcode == 0xfbf)) | |
2657 | continue; | |
2658 | ||
65ec77d2 | 2659 | if ((i.types[op] & WordReg) && i.op[op].regs->reg_num < 4) |
29b0f896 AM |
2660 | { |
2661 | /* Prohibit these changes in the 64bit mode, since the | |
2662 | lowering is more complicated. */ | |
2663 | if (flag_code == CODE_64BIT | |
2664 | && (i.tm.operand_types[op] & InOutPortReg) == 0) | |
2665 | { | |
0f3f3d8b | 2666 | as_bad (_("Incorrect register `%%%s' used with `%c' suffix"), |
29b0f896 AM |
2667 | i.op[op].regs->reg_name, |
2668 | i.suffix); | |
2669 | return 0; | |
2670 | } | |
2671 | #if REGISTER_WARNINGS | |
2672 | if (!quiet_warnings | |
2673 | && (i.tm.operand_types[op] & InOutPortReg) == 0) | |
2674 | as_warn (_("using `%%%s' instead of `%%%s' due to `%c' suffix"), | |
2675 | (i.op[op].regs + (i.types[op] & Reg16 | |
2676 | ? REGNAM_AL - REGNAM_AX | |
2677 | : REGNAM_AL - REGNAM_EAX))->reg_name, | |
2678 | i.op[op].regs->reg_name, | |
2679 | i.suffix); | |
2680 | #endif | |
2681 | continue; | |
2682 | } | |
2683 | /* Any other register is bad. */ | |
2684 | if (i.types[op] & (Reg | RegMMX | RegXMM | |
2685 | | SReg2 | SReg3 | |
2686 | | Control | Debug | Test | |
2687 | | FloatReg | FloatAcc)) | |
2688 | { | |
2689 | as_bad (_("`%%%s' not allowed with `%s%c'"), | |
2690 | i.op[op].regs->reg_name, | |
2691 | i.tm.name, | |
2692 | i.suffix); | |
2693 | return 0; | |
2694 | } | |
2695 | } | |
2696 | return 1; | |
2697 | } | |
2698 | ||
2699 | static int | |
2700 | check_long_reg () | |
2701 | { | |
2702 | int op; | |
2703 | ||
2704 | for (op = i.operands; --op >= 0;) | |
2705 | /* Reject eight bit registers, except where the template requires | |
2706 | them. (eg. movzb) */ | |
2707 | if ((i.types[op] & Reg8) != 0 | |
2708 | && (i.tm.operand_types[op] & (Reg16 | Reg32 | Acc)) != 0) | |
2709 | { | |
2710 | as_bad (_("`%%%s' not allowed with `%s%c'"), | |
2711 | i.op[op].regs->reg_name, | |
2712 | i.tm.name, | |
2713 | i.suffix); | |
2714 | return 0; | |
2715 | } | |
2716 | /* Warn if the e prefix on a general reg is missing. */ | |
2717 | else if ((!quiet_warnings || flag_code == CODE_64BIT) | |
2718 | && (i.types[op] & Reg16) != 0 | |
2719 | && (i.tm.operand_types[op] & (Reg32 | Acc)) != 0) | |
2720 | { | |
2721 | /* Prohibit these changes in the 64bit mode, since the | |
2722 | lowering is more complicated. */ | |
2723 | if (flag_code == CODE_64BIT) | |
252b5132 | 2724 | { |
0f3f3d8b | 2725 | as_bad (_("Incorrect register `%%%s' used with `%c' suffix"), |
29b0f896 AM |
2726 | i.op[op].regs->reg_name, |
2727 | i.suffix); | |
2728 | return 0; | |
252b5132 | 2729 | } |
29b0f896 AM |
2730 | #if REGISTER_WARNINGS |
2731 | else | |
2732 | as_warn (_("using `%%%s' instead of `%%%s' due to `%c' suffix"), | |
2733 | (i.op[op].regs + REGNAM_EAX - REGNAM_AX)->reg_name, | |
2734 | i.op[op].regs->reg_name, | |
2735 | i.suffix); | |
2736 | #endif | |
252b5132 | 2737 | } |
29b0f896 AM |
2738 | /* Warn if the r prefix on a general reg is missing. */ |
2739 | else if ((i.types[op] & Reg64) != 0 | |
2740 | && (i.tm.operand_types[op] & (Reg32 | Acc)) != 0) | |
252b5132 | 2741 | { |
0f3f3d8b | 2742 | as_bad (_("Incorrect register `%%%s' used with `%c' suffix"), |
29b0f896 AM |
2743 | i.op[op].regs->reg_name, |
2744 | i.suffix); | |
2745 | return 0; | |
2746 | } | |
2747 | return 1; | |
2748 | } | |
252b5132 | 2749 | |
29b0f896 AM |
2750 | static int |
2751 | check_qword_reg () | |
2752 | { | |
2753 | int op; | |
252b5132 | 2754 | |
29b0f896 AM |
2755 | for (op = i.operands; --op >= 0; ) |
2756 | /* Reject eight bit registers, except where the template requires | |
2757 | them. (eg. movzb) */ | |
2758 | if ((i.types[op] & Reg8) != 0 | |
2759 | && (i.tm.operand_types[op] & (Reg16 | Reg32 | Acc)) != 0) | |
2760 | { | |
2761 | as_bad (_("`%%%s' not allowed with `%s%c'"), | |
2762 | i.op[op].regs->reg_name, | |
2763 | i.tm.name, | |
2764 | i.suffix); | |
2765 | return 0; | |
2766 | } | |
2767 | /* Warn if the e prefix on a general reg is missing. */ | |
2768 | else if (((i.types[op] & Reg16) != 0 | |
2769 | || (i.types[op] & Reg32) != 0) | |
2770 | && (i.tm.operand_types[op] & (Reg32 | Acc)) != 0) | |
2771 | { | |
2772 | /* Prohibit these changes in the 64bit mode, since the | |
2773 | lowering is more complicated. */ | |
0f3f3d8b | 2774 | as_bad (_("Incorrect register `%%%s' used with `%c' suffix"), |
29b0f896 AM |
2775 | i.op[op].regs->reg_name, |
2776 | i.suffix); | |
2777 | return 0; | |
252b5132 | 2778 | } |
29b0f896 AM |
2779 | return 1; |
2780 | } | |
252b5132 | 2781 | |
29b0f896 AM |
2782 | static int |
2783 | check_word_reg () | |
2784 | { | |
2785 | int op; | |
2786 | for (op = i.operands; --op >= 0;) | |
2787 | /* Reject eight bit registers, except where the template requires | |
2788 | them. (eg. movzb) */ | |
2789 | if ((i.types[op] & Reg8) != 0 | |
2790 | && (i.tm.operand_types[op] & (Reg16 | Reg32 | Acc)) != 0) | |
2791 | { | |
2792 | as_bad (_("`%%%s' not allowed with `%s%c'"), | |
2793 | i.op[op].regs->reg_name, | |
2794 | i.tm.name, | |
2795 | i.suffix); | |
2796 | return 0; | |
2797 | } | |
2798 | /* Warn if the e prefix on a general reg is present. */ | |
2799 | else if ((!quiet_warnings || flag_code == CODE_64BIT) | |
2800 | && (i.types[op] & Reg32) != 0 | |
2801 | && (i.tm.operand_types[op] & (Reg16 | Acc)) != 0) | |
252b5132 | 2802 | { |
29b0f896 AM |
2803 | /* Prohibit these changes in the 64bit mode, since the |
2804 | lowering is more complicated. */ | |
2805 | if (flag_code == CODE_64BIT) | |
252b5132 | 2806 | { |
0f3f3d8b | 2807 | as_bad (_("Incorrect register `%%%s' used with `%c' suffix"), |
29b0f896 AM |
2808 | i.op[op].regs->reg_name, |
2809 | i.suffix); | |
2810 | return 0; | |
252b5132 | 2811 | } |
29b0f896 AM |
2812 | else |
2813 | #if REGISTER_WARNINGS | |
2814 | as_warn (_("using `%%%s' instead of `%%%s' due to `%c' suffix"), | |
2815 | (i.op[op].regs + REGNAM_AX - REGNAM_EAX)->reg_name, | |
2816 | i.op[op].regs->reg_name, | |
2817 | i.suffix); | |
2818 | #endif | |
2819 | } | |
2820 | return 1; | |
2821 | } | |
252b5132 | 2822 | |
29b0f896 AM |
2823 | static int |
2824 | finalize_imm () | |
2825 | { | |
2826 | unsigned int overlap0, overlap1, overlap2; | |
2827 | ||
2828 | overlap0 = i.types[0] & i.tm.operand_types[0]; | |
20f0a1fc | 2829 | if ((overlap0 & (Imm8 | Imm8S | Imm16 | Imm32 | Imm32S | Imm64)) |
29b0f896 AM |
2830 | && overlap0 != Imm8 && overlap0 != Imm8S |
2831 | && overlap0 != Imm16 && overlap0 != Imm32S | |
2832 | && overlap0 != Imm32 && overlap0 != Imm64) | |
2833 | { | |
2834 | if (i.suffix) | |
2835 | { | |
2836 | overlap0 &= (i.suffix == BYTE_MNEM_SUFFIX | |
2837 | ? Imm8 | Imm8S | |
2838 | : (i.suffix == WORD_MNEM_SUFFIX | |
2839 | ? Imm16 | |
2840 | : (i.suffix == QWORD_MNEM_SUFFIX | |
2841 | ? Imm64 | Imm32S | |
2842 | : Imm32))); | |
2843 | } | |
2844 | else if (overlap0 == (Imm16 | Imm32S | Imm32) | |
2845 | || overlap0 == (Imm16 | Imm32) | |
2846 | || overlap0 == (Imm16 | Imm32S)) | |
2847 | { | |
2848 | overlap0 = ((flag_code == CODE_16BIT) ^ (i.prefix[DATA_PREFIX] != 0) | |
2849 | ? Imm16 : Imm32S); | |
2850 | } | |
2851 | if (overlap0 != Imm8 && overlap0 != Imm8S | |
2852 | && overlap0 != Imm16 && overlap0 != Imm32S | |
2853 | && overlap0 != Imm32 && overlap0 != Imm64) | |
2854 | { | |
2855 | as_bad (_("no instruction mnemonic suffix given; can't determine immediate size")); | |
2856 | return 0; | |
2857 | } | |
2858 | } | |
2859 | i.types[0] = overlap0; | |
2860 | ||
2861 | overlap1 = i.types[1] & i.tm.operand_types[1]; | |
37edbb65 | 2862 | if ((overlap1 & (Imm8 | Imm8S | Imm16 | Imm32S | Imm32 | Imm64)) |
29b0f896 AM |
2863 | && overlap1 != Imm8 && overlap1 != Imm8S |
2864 | && overlap1 != Imm16 && overlap1 != Imm32S | |
2865 | && overlap1 != Imm32 && overlap1 != Imm64) | |
2866 | { | |
2867 | if (i.suffix) | |
2868 | { | |
2869 | overlap1 &= (i.suffix == BYTE_MNEM_SUFFIX | |
2870 | ? Imm8 | Imm8S | |
2871 | : (i.suffix == WORD_MNEM_SUFFIX | |
2872 | ? Imm16 | |
2873 | : (i.suffix == QWORD_MNEM_SUFFIX | |
2874 | ? Imm64 | Imm32S | |
2875 | : Imm32))); | |
2876 | } | |
2877 | else if (overlap1 == (Imm16 | Imm32 | Imm32S) | |
2878 | || overlap1 == (Imm16 | Imm32) | |
2879 | || overlap1 == (Imm16 | Imm32S)) | |
2880 | { | |
2881 | overlap1 = ((flag_code == CODE_16BIT) ^ (i.prefix[DATA_PREFIX] != 0) | |
2882 | ? Imm16 : Imm32S); | |
2883 | } | |
2884 | if (overlap1 != Imm8 && overlap1 != Imm8S | |
2885 | && overlap1 != Imm16 && overlap1 != Imm32S | |
2886 | && overlap1 != Imm32 && overlap1 != Imm64) | |
2887 | { | |
2888 | as_bad (_("no instruction mnemonic suffix given; can't determine immediate size %x %c"),overlap1, i.suffix); | |
2889 | return 0; | |
2890 | } | |
2891 | } | |
2892 | i.types[1] = overlap1; | |
2893 | ||
2894 | overlap2 = i.types[2] & i.tm.operand_types[2]; | |
2895 | assert ((overlap2 & Imm) == 0); | |
2896 | i.types[2] = overlap2; | |
2897 | ||
2898 | return 1; | |
2899 | } | |
2900 | ||
2901 | static int | |
2902 | process_operands () | |
2903 | { | |
2904 | /* Default segment register this instruction will use for memory | |
2905 | accesses. 0 means unknown. This is only for optimizing out | |
2906 | unnecessary segment overrides. */ | |
2907 | const seg_entry *default_seg = 0; | |
2908 | ||
2909 | /* The imul $imm, %reg instruction is converted into | |
2910 | imul $imm, %reg, %reg, and the clr %reg instruction | |
2911 | is converted into xor %reg, %reg. */ | |
2912 | if (i.tm.opcode_modifier & regKludge) | |
2913 | { | |
2914 | unsigned int first_reg_op = (i.types[0] & Reg) ? 0 : 1; | |
2915 | /* Pretend we saw the extra register operand. */ | |
2916 | assert (i.op[first_reg_op + 1].regs == 0); | |
2917 | i.op[first_reg_op + 1].regs = i.op[first_reg_op].regs; | |
2918 | i.types[first_reg_op + 1] = i.types[first_reg_op]; | |
2919 | i.reg_operands = 2; | |
2920 | } | |
2921 | ||
2922 | if (i.tm.opcode_modifier & ShortForm) | |
2923 | { | |
2924 | /* The register or float register operand is in operand 0 or 1. */ | |
2925 | unsigned int op = (i.types[0] & (Reg | FloatReg)) ? 0 : 1; | |
2926 | /* Register goes in low 3 bits of opcode. */ | |
2927 | i.tm.base_opcode |= i.op[op].regs->reg_num; | |
2928 | if ((i.op[op].regs->reg_flags & RegRex) != 0) | |
2929 | i.rex |= REX_EXTZ; | |
2930 | if (!quiet_warnings && (i.tm.opcode_modifier & Ugh) != 0) | |
2931 | { | |
2932 | /* Warn about some common errors, but press on regardless. | |
2933 | The first case can be generated by gcc (<= 2.8.1). */ | |
2934 | if (i.operands == 2) | |
2935 | { | |
2936 | /* Reversed arguments on faddp, fsubp, etc. */ | |
2937 | as_warn (_("translating to `%s %%%s,%%%s'"), i.tm.name, | |
2938 | i.op[1].regs->reg_name, | |
2939 | i.op[0].regs->reg_name); | |
2940 | } | |
2941 | else | |
2942 | { | |
2943 | /* Extraneous `l' suffix on fp insn. */ | |
2944 | as_warn (_("translating to `%s %%%s'"), i.tm.name, | |
2945 | i.op[0].regs->reg_name); | |
2946 | } | |
2947 | } | |
2948 | } | |
2949 | else if (i.tm.opcode_modifier & Modrm) | |
2950 | { | |
2951 | /* The opcode is completed (modulo i.tm.extension_opcode which | |
52271982 AM |
2952 | must be put into the modrm byte). Now, we make the modrm and |
2953 | index base bytes based on all the info we've collected. */ | |
29b0f896 AM |
2954 | |
2955 | default_seg = build_modrm_byte (); | |
2956 | } | |
2957 | else if (i.tm.opcode_modifier & (Seg2ShortForm | Seg3ShortForm)) | |
2958 | { | |
2959 | if (i.tm.base_opcode == POP_SEG_SHORT | |
2960 | && i.op[0].regs->reg_num == 1) | |
2961 | { | |
2962 | as_bad (_("you can't `pop %%cs'")); | |
2963 | return 0; | |
2964 | } | |
2965 | i.tm.base_opcode |= (i.op[0].regs->reg_num << 3); | |
2966 | if ((i.op[0].regs->reg_flags & RegRex) != 0) | |
2967 | i.rex |= REX_EXTZ; | |
2968 | } | |
2969 | else if ((i.tm.base_opcode & ~(D | W)) == MOV_AX_DISP32) | |
2970 | { | |
2971 | default_seg = &ds; | |
2972 | } | |
2973 | else if ((i.tm.opcode_modifier & IsString) != 0) | |
2974 | { | |
2975 | /* For the string instructions that allow a segment override | |
2976 | on one of their operands, the default segment is ds. */ | |
2977 | default_seg = &ds; | |
2978 | } | |
2979 | ||
30123838 JB |
2980 | if ((i.tm.base_opcode == 0x8d /* lea */ |
2981 | || (i.tm.cpu_flags & CpuSVME)) | |
2982 | && i.seg[0] && !quiet_warnings) | |
2983 | as_warn (_("segment override on `%s' is ineffectual"), i.tm.name); | |
52271982 AM |
2984 | |
2985 | /* If a segment was explicitly specified, and the specified segment | |
2986 | is not the default, use an opcode prefix to select it. If we | |
2987 | never figured out what the default segment is, then default_seg | |
2988 | will be zero at this point, and the specified segment prefix will | |
2989 | always be used. */ | |
29b0f896 AM |
2990 | if ((i.seg[0]) && (i.seg[0] != default_seg)) |
2991 | { | |
2992 | if (!add_prefix (i.seg[0]->seg_prefix)) | |
2993 | return 0; | |
2994 | } | |
2995 | return 1; | |
2996 | } | |
2997 | ||
2998 | static const seg_entry * | |
2999 | build_modrm_byte () | |
3000 | { | |
3001 | const seg_entry *default_seg = 0; | |
3002 | ||
3003 | /* i.reg_operands MUST be the number of real register operands; | |
3004 | implicit registers do not count. */ | |
3005 | if (i.reg_operands == 2) | |
3006 | { | |
3007 | unsigned int source, dest; | |
3008 | source = ((i.types[0] | |
3009 | & (Reg | RegMMX | RegXMM | |
3010 | | SReg2 | SReg3 | |
3011 | | Control | Debug | Test)) | |
3012 | ? 0 : 1); | |
3013 | dest = source + 1; | |
3014 | ||
3015 | i.rm.mode = 3; | |
3016 | /* One of the register operands will be encoded in the i.tm.reg | |
3017 | field, the other in the combined i.tm.mode and i.tm.regmem | |
3018 | fields. If no form of this instruction supports a memory | |
3019 | destination operand, then we assume the source operand may | |
3020 | sometimes be a memory operand and so we need to store the | |
3021 | destination in the i.rm.reg field. */ | |
3022 | if ((i.tm.operand_types[dest] & AnyMem) == 0) | |
3023 | { | |
3024 | i.rm.reg = i.op[dest].regs->reg_num; | |
3025 | i.rm.regmem = i.op[source].regs->reg_num; | |
3026 | if ((i.op[dest].regs->reg_flags & RegRex) != 0) | |
3027 | i.rex |= REX_EXTX; | |
3028 | if ((i.op[source].regs->reg_flags & RegRex) != 0) | |
3029 | i.rex |= REX_EXTZ; | |
3030 | } | |
3031 | else | |
3032 | { | |
3033 | i.rm.reg = i.op[source].regs->reg_num; | |
3034 | i.rm.regmem = i.op[dest].regs->reg_num; | |
3035 | if ((i.op[dest].regs->reg_flags & RegRex) != 0) | |
3036 | i.rex |= REX_EXTZ; | |
3037 | if ((i.op[source].regs->reg_flags & RegRex) != 0) | |
3038 | i.rex |= REX_EXTX; | |
3039 | } | |
c4a530c5 JB |
3040 | if (flag_code != CODE_64BIT && (i.rex & (REX_EXTX | REX_EXTZ))) |
3041 | { | |
3042 | if (!((i.types[0] | i.types[1]) & Control)) | |
3043 | abort (); | |
3044 | i.rex &= ~(REX_EXTX | REX_EXTZ); | |
3045 | add_prefix (LOCK_PREFIX_OPCODE); | |
3046 | } | |
29b0f896 AM |
3047 | } |
3048 | else | |
3049 | { /* If it's not 2 reg operands... */ | |
3050 | if (i.mem_operands) | |
3051 | { | |
3052 | unsigned int fake_zero_displacement = 0; | |
3053 | unsigned int op = ((i.types[0] & AnyMem) | |
3054 | ? 0 | |
3055 | : (i.types[1] & AnyMem) ? 1 : 2); | |
3056 | ||
3057 | default_seg = &ds; | |
3058 | ||
3059 | if (i.base_reg == 0) | |
3060 | { | |
3061 | i.rm.mode = 0; | |
3062 | if (!i.disp_operands) | |
3063 | fake_zero_displacement = 1; | |
3064 | if (i.index_reg == 0) | |
3065 | { | |
3066 | /* Operand is just <disp> */ | |
20f0a1fc | 3067 | if (flag_code == CODE_64BIT) |
29b0f896 AM |
3068 | { |
3069 | /* 64bit mode overwrites the 32bit absolute | |
3070 | addressing by RIP relative addressing and | |
3071 | absolute addressing is encoded by one of the | |
3072 | redundant SIB forms. */ | |
3073 | i.rm.regmem = ESCAPE_TO_TWO_BYTE_ADDRESSING; | |
3074 | i.sib.base = NO_BASE_REGISTER; | |
3075 | i.sib.index = NO_INDEX_REGISTER; | |
20f0a1fc NC |
3076 | i.types[op] = ((i.prefix[ADDR_PREFIX] == 0) ? Disp32S : Disp32); |
3077 | } | |
3078 | else if ((flag_code == CODE_16BIT) ^ (i.prefix[ADDR_PREFIX] != 0)) | |
3079 | { | |
3080 | i.rm.regmem = NO_BASE_REGISTER_16; | |
3081 | i.types[op] = Disp16; | |
3082 | } | |
3083 | else | |
3084 | { | |
3085 | i.rm.regmem = NO_BASE_REGISTER; | |
3086 | i.types[op] = Disp32; | |
29b0f896 AM |
3087 | } |
3088 | } | |
3089 | else /* !i.base_reg && i.index_reg */ | |
3090 | { | |
3091 | i.sib.index = i.index_reg->reg_num; | |
3092 | i.sib.base = NO_BASE_REGISTER; | |
3093 | i.sib.scale = i.log2_scale_factor; | |
3094 | i.rm.regmem = ESCAPE_TO_TWO_BYTE_ADDRESSING; | |
3095 | i.types[op] &= ~Disp; | |
3096 | if (flag_code != CODE_64BIT) | |
3097 | i.types[op] |= Disp32; /* Must be 32 bit */ | |
3098 | else | |
3099 | i.types[op] |= Disp32S; | |
3100 | if ((i.index_reg->reg_flags & RegRex) != 0) | |
3101 | i.rex |= REX_EXTY; | |
3102 | } | |
3103 | } | |
3104 | /* RIP addressing for 64bit mode. */ | |
3105 | else if (i.base_reg->reg_type == BaseIndex) | |
3106 | { | |
3107 | i.rm.regmem = NO_BASE_REGISTER; | |
20f0a1fc | 3108 | i.types[op] &= ~ Disp; |
29b0f896 AM |
3109 | i.types[op] |= Disp32S; |
3110 | i.flags[op] = Operand_PCrel; | |
20f0a1fc NC |
3111 | if (! i.disp_operands) |
3112 | fake_zero_displacement = 1; | |
29b0f896 AM |
3113 | } |
3114 | else if (i.base_reg->reg_type & Reg16) | |
3115 | { | |
3116 | switch (i.base_reg->reg_num) | |
3117 | { | |
3118 | case 3: /* (%bx) */ | |
3119 | if (i.index_reg == 0) | |
3120 | i.rm.regmem = 7; | |
3121 | else /* (%bx,%si) -> 0, or (%bx,%di) -> 1 */ | |
3122 | i.rm.regmem = i.index_reg->reg_num - 6; | |
3123 | break; | |
3124 | case 5: /* (%bp) */ | |
3125 | default_seg = &ss; | |
3126 | if (i.index_reg == 0) | |
3127 | { | |
3128 | i.rm.regmem = 6; | |
3129 | if ((i.types[op] & Disp) == 0) | |
3130 | { | |
3131 | /* fake (%bp) into 0(%bp) */ | |
3132 | i.types[op] |= Disp8; | |
252b5132 | 3133 | fake_zero_displacement = 1; |
29b0f896 AM |
3134 | } |
3135 | } | |
3136 | else /* (%bp,%si) -> 2, or (%bp,%di) -> 3 */ | |
3137 | i.rm.regmem = i.index_reg->reg_num - 6 + 2; | |
3138 | break; | |
3139 | default: /* (%si) -> 4 or (%di) -> 5 */ | |
3140 | i.rm.regmem = i.base_reg->reg_num - 6 + 4; | |
3141 | } | |
3142 | i.rm.mode = mode_from_disp_size (i.types[op]); | |
3143 | } | |
3144 | else /* i.base_reg and 32/64 bit mode */ | |
3145 | { | |
3146 | if (flag_code == CODE_64BIT | |
3147 | && (i.types[op] & Disp)) | |
20f0a1fc NC |
3148 | i.types[op] = (i.types[op] & Disp8) | (i.prefix[ADDR_PREFIX] == 0 ? Disp32S : Disp32); |
3149 | ||
29b0f896 AM |
3150 | i.rm.regmem = i.base_reg->reg_num; |
3151 | if ((i.base_reg->reg_flags & RegRex) != 0) | |
3152 | i.rex |= REX_EXTZ; | |
3153 | i.sib.base = i.base_reg->reg_num; | |
3154 | /* x86-64 ignores REX prefix bit here to avoid decoder | |
3155 | complications. */ | |
3156 | if ((i.base_reg->reg_num & 7) == EBP_REG_NUM) | |
3157 | { | |
3158 | default_seg = &ss; | |
3159 | if (i.disp_operands == 0) | |
3160 | { | |
3161 | fake_zero_displacement = 1; | |
3162 | i.types[op] |= Disp8; | |
3163 | } | |
3164 | } | |
3165 | else if (i.base_reg->reg_num == ESP_REG_NUM) | |
3166 | { | |
3167 | default_seg = &ss; | |
3168 | } | |
3169 | i.sib.scale = i.log2_scale_factor; | |
3170 | if (i.index_reg == 0) | |
3171 | { | |
3172 | /* <disp>(%esp) becomes two byte modrm with no index | |
3173 | register. We've already stored the code for esp | |
3174 | in i.rm.regmem ie. ESCAPE_TO_TWO_BYTE_ADDRESSING. | |
3175 | Any base register besides %esp will not use the | |
3176 | extra modrm byte. */ | |
3177 | i.sib.index = NO_INDEX_REGISTER; | |
3178 | #if !SCALE1_WHEN_NO_INDEX | |
3179 | /* Another case where we force the second modrm byte. */ | |
3180 | if (i.log2_scale_factor) | |
3181 | i.rm.regmem = ESCAPE_TO_TWO_BYTE_ADDRESSING; | |
252b5132 | 3182 | #endif |
29b0f896 AM |
3183 | } |
3184 | else | |
3185 | { | |
3186 | i.sib.index = i.index_reg->reg_num; | |
3187 | i.rm.regmem = ESCAPE_TO_TWO_BYTE_ADDRESSING; | |
3188 | if ((i.index_reg->reg_flags & RegRex) != 0) | |
3189 | i.rex |= REX_EXTY; | |
3190 | } | |
67a4f2b7 AO |
3191 | |
3192 | if (i.disp_operands | |
3193 | && (i.reloc[op] == BFD_RELOC_386_TLS_DESC_CALL | |
3194 | || i.reloc[op] == BFD_RELOC_X86_64_TLSDESC_CALL)) | |
3195 | i.rm.mode = 0; | |
3196 | else | |
3197 | i.rm.mode = mode_from_disp_size (i.types[op]); | |
29b0f896 | 3198 | } |
252b5132 | 3199 | |
29b0f896 AM |
3200 | if (fake_zero_displacement) |
3201 | { | |
3202 | /* Fakes a zero displacement assuming that i.types[op] | |
3203 | holds the correct displacement size. */ | |
3204 | expressionS *exp; | |
3205 | ||
3206 | assert (i.op[op].disps == 0); | |
3207 | exp = &disp_expressions[i.disp_operands++]; | |
3208 | i.op[op].disps = exp; | |
3209 | exp->X_op = O_constant; | |
3210 | exp->X_add_number = 0; | |
3211 | exp->X_add_symbol = (symbolS *) 0; | |
3212 | exp->X_op_symbol = (symbolS *) 0; | |
3213 | } | |
3214 | } | |
252b5132 | 3215 | |
29b0f896 AM |
3216 | /* Fill in i.rm.reg or i.rm.regmem field with register operand |
3217 | (if any) based on i.tm.extension_opcode. Again, we must be | |
3218 | careful to make sure that segment/control/debug/test/MMX | |
3219 | registers are coded into the i.rm.reg field. */ | |
3220 | if (i.reg_operands) | |
3221 | { | |
3222 | unsigned int op = | |
3223 | ((i.types[0] | |
3224 | & (Reg | RegMMX | RegXMM | |
3225 | | SReg2 | SReg3 | |
3226 | | Control | Debug | Test)) | |
3227 | ? 0 | |
3228 | : ((i.types[1] | |
3229 | & (Reg | RegMMX | RegXMM | |
3230 | | SReg2 | SReg3 | |
3231 | | Control | Debug | Test)) | |
3232 | ? 1 | |
3233 | : 2)); | |
3234 | /* If there is an extension opcode to put here, the register | |
3235 | number must be put into the regmem field. */ | |
3236 | if (i.tm.extension_opcode != None) | |
3237 | { | |
3238 | i.rm.regmem = i.op[op].regs->reg_num; | |
3239 | if ((i.op[op].regs->reg_flags & RegRex) != 0) | |
3240 | i.rex |= REX_EXTZ; | |
3241 | } | |
3242 | else | |
3243 | { | |
3244 | i.rm.reg = i.op[op].regs->reg_num; | |
3245 | if ((i.op[op].regs->reg_flags & RegRex) != 0) | |
3246 | i.rex |= REX_EXTX; | |
3247 | } | |
252b5132 | 3248 | |
29b0f896 AM |
3249 | /* Now, if no memory operand has set i.rm.mode = 0, 1, 2 we |
3250 | must set it to 3 to indicate this is a register operand | |
3251 | in the regmem field. */ | |
3252 | if (!i.mem_operands) | |
3253 | i.rm.mode = 3; | |
3254 | } | |
252b5132 | 3255 | |
29b0f896 AM |
3256 | /* Fill in i.rm.reg field with extension opcode (if any). */ |
3257 | if (i.tm.extension_opcode != None) | |
3258 | i.rm.reg = i.tm.extension_opcode; | |
3259 | } | |
3260 | return default_seg; | |
3261 | } | |
252b5132 | 3262 | |
29b0f896 AM |
3263 | static void |
3264 | output_branch () | |
3265 | { | |
3266 | char *p; | |
3267 | int code16; | |
3268 | int prefix; | |
3269 | relax_substateT subtype; | |
3270 | symbolS *sym; | |
3271 | offsetT off; | |
3272 | ||
3273 | code16 = 0; | |
3274 | if (flag_code == CODE_16BIT) | |
3275 | code16 = CODE16; | |
3276 | ||
3277 | prefix = 0; | |
3278 | if (i.prefix[DATA_PREFIX] != 0) | |
252b5132 | 3279 | { |
29b0f896 AM |
3280 | prefix = 1; |
3281 | i.prefixes -= 1; | |
3282 | code16 ^= CODE16; | |
252b5132 | 3283 | } |
29b0f896 AM |
3284 | /* Pentium4 branch hints. */ |
3285 | if (i.prefix[SEG_PREFIX] == CS_PREFIX_OPCODE /* not taken */ | |
3286 | || i.prefix[SEG_PREFIX] == DS_PREFIX_OPCODE /* taken */) | |
2f66722d | 3287 | { |
29b0f896 AM |
3288 | prefix++; |
3289 | i.prefixes--; | |
3290 | } | |
3291 | if (i.prefix[REX_PREFIX] != 0) | |
3292 | { | |
3293 | prefix++; | |
3294 | i.prefixes--; | |
2f66722d AM |
3295 | } |
3296 | ||
29b0f896 AM |
3297 | if (i.prefixes != 0 && !intel_syntax) |
3298 | as_warn (_("skipping prefixes on this instruction")); | |
3299 | ||
3300 | /* It's always a symbol; End frag & setup for relax. | |
3301 | Make sure there is enough room in this frag for the largest | |
3302 | instruction we may generate in md_convert_frag. This is 2 | |
3303 | bytes for the opcode and room for the prefix and largest | |
3304 | displacement. */ | |
3305 | frag_grow (prefix + 2 + 4); | |
3306 | /* Prefix and 1 opcode byte go in fr_fix. */ | |
3307 | p = frag_more (prefix + 1); | |
3308 | if (i.prefix[DATA_PREFIX] != 0) | |
3309 | *p++ = DATA_PREFIX_OPCODE; | |
3310 | if (i.prefix[SEG_PREFIX] == CS_PREFIX_OPCODE | |
3311 | || i.prefix[SEG_PREFIX] == DS_PREFIX_OPCODE) | |
3312 | *p++ = i.prefix[SEG_PREFIX]; | |
3313 | if (i.prefix[REX_PREFIX] != 0) | |
3314 | *p++ = i.prefix[REX_PREFIX]; | |
3315 | *p = i.tm.base_opcode; | |
3316 | ||
3317 | if ((unsigned char) *p == JUMP_PC_RELATIVE) | |
3318 | subtype = ENCODE_RELAX_STATE (UNCOND_JUMP, SMALL); | |
3319 | else if ((cpu_arch_flags & Cpu386) != 0) | |
3320 | subtype = ENCODE_RELAX_STATE (COND_JUMP, SMALL); | |
3321 | else | |
3322 | subtype = ENCODE_RELAX_STATE (COND_JUMP86, SMALL); | |
3323 | subtype |= code16; | |
3e73aa7c | 3324 | |
29b0f896 AM |
3325 | sym = i.op[0].disps->X_add_symbol; |
3326 | off = i.op[0].disps->X_add_number; | |
3e73aa7c | 3327 | |
29b0f896 AM |
3328 | if (i.op[0].disps->X_op != O_constant |
3329 | && i.op[0].disps->X_op != O_symbol) | |
3e73aa7c | 3330 | { |
29b0f896 AM |
3331 | /* Handle complex expressions. */ |
3332 | sym = make_expr_symbol (i.op[0].disps); | |
3333 | off = 0; | |
3334 | } | |
3e73aa7c | 3335 | |
29b0f896 AM |
3336 | /* 1 possible extra opcode + 4 byte displacement go in var part. |
3337 | Pass reloc in fr_var. */ | |
3338 | frag_var (rs_machine_dependent, 5, i.reloc[0], subtype, sym, off, p); | |
3339 | } | |
3e73aa7c | 3340 | |
29b0f896 AM |
3341 | static void |
3342 | output_jump () | |
3343 | { | |
3344 | char *p; | |
3345 | int size; | |
3e02c1cc | 3346 | fixS *fixP; |
29b0f896 AM |
3347 | |
3348 | if (i.tm.opcode_modifier & JumpByte) | |
3349 | { | |
3350 | /* This is a loop or jecxz type instruction. */ | |
3351 | size = 1; | |
3352 | if (i.prefix[ADDR_PREFIX] != 0) | |
3353 | { | |
3354 | FRAG_APPEND_1_CHAR (ADDR_PREFIX_OPCODE); | |
3355 | i.prefixes -= 1; | |
3356 | } | |
3357 | /* Pentium4 branch hints. */ | |
3358 | if (i.prefix[SEG_PREFIX] == CS_PREFIX_OPCODE /* not taken */ | |
3359 | || i.prefix[SEG_PREFIX] == DS_PREFIX_OPCODE /* taken */) | |
3360 | { | |
3361 | FRAG_APPEND_1_CHAR (i.prefix[SEG_PREFIX]); | |
3362 | i.prefixes--; | |
3e73aa7c JH |
3363 | } |
3364 | } | |
29b0f896 AM |
3365 | else |
3366 | { | |
3367 | int code16; | |
3e73aa7c | 3368 | |
29b0f896 AM |
3369 | code16 = 0; |
3370 | if (flag_code == CODE_16BIT) | |
3371 | code16 = CODE16; | |
3e73aa7c | 3372 | |
29b0f896 AM |
3373 | if (i.prefix[DATA_PREFIX] != 0) |
3374 | { | |
3375 | FRAG_APPEND_1_CHAR (DATA_PREFIX_OPCODE); | |
3376 | i.prefixes -= 1; | |
3377 | code16 ^= CODE16; | |
3378 | } | |
252b5132 | 3379 | |
29b0f896 AM |
3380 | size = 4; |
3381 | if (code16) | |
3382 | size = 2; | |
3383 | } | |
9fcc94b6 | 3384 | |
29b0f896 AM |
3385 | if (i.prefix[REX_PREFIX] != 0) |
3386 | { | |
3387 | FRAG_APPEND_1_CHAR (i.prefix[REX_PREFIX]); | |
3388 | i.prefixes -= 1; | |
3389 | } | |
252b5132 | 3390 | |
29b0f896 AM |
3391 | if (i.prefixes != 0 && !intel_syntax) |
3392 | as_warn (_("skipping prefixes on this instruction")); | |
e0890092 | 3393 | |
29b0f896 AM |
3394 | p = frag_more (1 + size); |
3395 | *p++ = i.tm.base_opcode; | |
e0890092 | 3396 | |
3e02c1cc AM |
3397 | fixP = fix_new_exp (frag_now, p - frag_now->fr_literal, size, |
3398 | i.op[0].disps, 1, reloc (size, 1, 1, i.reloc[0])); | |
3399 | ||
3400 | /* All jumps handled here are signed, but don't use a signed limit | |
3401 | check for 32 and 16 bit jumps as we want to allow wrap around at | |
3402 | 4G and 64k respectively. */ | |
3403 | if (size == 1) | |
3404 | fixP->fx_signed = 1; | |
29b0f896 | 3405 | } |
e0890092 | 3406 | |
29b0f896 AM |
3407 | static void |
3408 | output_interseg_jump () | |
3409 | { | |
3410 | char *p; | |
3411 | int size; | |
3412 | int prefix; | |
3413 | int code16; | |
252b5132 | 3414 | |
29b0f896 AM |
3415 | code16 = 0; |
3416 | if (flag_code == CODE_16BIT) | |
3417 | code16 = CODE16; | |
a217f122 | 3418 | |
29b0f896 AM |
3419 | prefix = 0; |
3420 | if (i.prefix[DATA_PREFIX] != 0) | |
3421 | { | |
3422 | prefix = 1; | |
3423 | i.prefixes -= 1; | |
3424 | code16 ^= CODE16; | |
3425 | } | |
3426 | if (i.prefix[REX_PREFIX] != 0) | |
3427 | { | |
3428 | prefix++; | |
3429 | i.prefixes -= 1; | |
3430 | } | |
252b5132 | 3431 | |
29b0f896 AM |
3432 | size = 4; |
3433 | if (code16) | |
3434 | size = 2; | |
252b5132 | 3435 | |
29b0f896 AM |
3436 | if (i.prefixes != 0 && !intel_syntax) |
3437 | as_warn (_("skipping prefixes on this instruction")); | |
252b5132 | 3438 | |
29b0f896 AM |
3439 | /* 1 opcode; 2 segment; offset */ |
3440 | p = frag_more (prefix + 1 + 2 + size); | |
3e73aa7c | 3441 | |
29b0f896 AM |
3442 | if (i.prefix[DATA_PREFIX] != 0) |
3443 | *p++ = DATA_PREFIX_OPCODE; | |
252b5132 | 3444 | |
29b0f896 AM |
3445 | if (i.prefix[REX_PREFIX] != 0) |
3446 | *p++ = i.prefix[REX_PREFIX]; | |
252b5132 | 3447 | |
29b0f896 AM |
3448 | *p++ = i.tm.base_opcode; |
3449 | if (i.op[1].imms->X_op == O_constant) | |
3450 | { | |
3451 | offsetT n = i.op[1].imms->X_add_number; | |
252b5132 | 3452 | |
29b0f896 AM |
3453 | if (size == 2 |
3454 | && !fits_in_unsigned_word (n) | |
3455 | && !fits_in_signed_word (n)) | |
3456 | { | |
3457 | as_bad (_("16-bit jump out of range")); | |
3458 | return; | |
3459 | } | |
3460 | md_number_to_chars (p, n, size); | |
3461 | } | |
3462 | else | |
3463 | fix_new_exp (frag_now, p - frag_now->fr_literal, size, | |
3464 | i.op[1].imms, 0, reloc (size, 0, 0, i.reloc[1])); | |
3465 | if (i.op[0].imms->X_op != O_constant) | |
3466 | as_bad (_("can't handle non absolute segment in `%s'"), | |
3467 | i.tm.name); | |
3468 | md_number_to_chars (p + size, (valueT) i.op[0].imms->X_add_number, 2); | |
3469 | } | |
a217f122 | 3470 | |
29b0f896 AM |
3471 | static void |
3472 | output_insn () | |
3473 | { | |
2bbd9c25 JJ |
3474 | fragS *insn_start_frag; |
3475 | offsetT insn_start_off; | |
3476 | ||
29b0f896 AM |
3477 | /* Tie dwarf2 debug info to the address at the start of the insn. |
3478 | We can't do this after the insn has been output as the current | |
3479 | frag may have been closed off. eg. by frag_var. */ | |
3480 | dwarf2_emit_insn (0); | |
3481 | ||
2bbd9c25 JJ |
3482 | insn_start_frag = frag_now; |
3483 | insn_start_off = frag_now_fix (); | |
3484 | ||
29b0f896 AM |
3485 | /* Output jumps. */ |
3486 | if (i.tm.opcode_modifier & Jump) | |
3487 | output_branch (); | |
3488 | else if (i.tm.opcode_modifier & (JumpByte | JumpDword)) | |
3489 | output_jump (); | |
3490 | else if (i.tm.opcode_modifier & JumpInterSegment) | |
3491 | output_interseg_jump (); | |
3492 | else | |
3493 | { | |
3494 | /* Output normal instructions here. */ | |
3495 | char *p; | |
3496 | unsigned char *q; | |
331d2d0d | 3497 | unsigned int prefix; |
252b5132 | 3498 | |
331d2d0d L |
3499 | /* All opcodes on i386 have either 1 or 2 bytes. Merom New |
3500 | Instructions have 3 bytes. We may use one more higher byte | |
3501 | to specify a prefix the instruction requires. */ | |
3502 | if ((i.tm.cpu_flags & CpuMNI) != 0) | |
bc4bd9ab | 3503 | { |
331d2d0d L |
3504 | if (i.tm.base_opcode & 0xff000000) |
3505 | { | |
3506 | prefix = (i.tm.base_opcode >> 24) & 0xff; | |
3507 | goto check_prefix; | |
3508 | } | |
3509 | } | |
3510 | else if ((i.tm.base_opcode & 0xff0000) != 0) | |
3511 | { | |
3512 | prefix = (i.tm.base_opcode >> 16) & 0xff; | |
bc4bd9ab MK |
3513 | if ((i.tm.cpu_flags & CpuPadLock) != 0) |
3514 | { | |
64e74474 | 3515 | check_prefix: |
bc4bd9ab MK |
3516 | if (prefix != REPE_PREFIX_OPCODE |
3517 | || i.prefix[LOCKREP_PREFIX] != REPE_PREFIX_OPCODE) | |
3518 | add_prefix (prefix); | |
3519 | } | |
3520 | else | |
331d2d0d | 3521 | add_prefix (prefix); |
0f10071e | 3522 | } |
252b5132 | 3523 | |
29b0f896 AM |
3524 | /* The prefix bytes. */ |
3525 | for (q = i.prefix; | |
3526 | q < i.prefix + sizeof (i.prefix) / sizeof (i.prefix[0]); | |
3527 | q++) | |
3528 | { | |
3529 | if (*q) | |
3530 | { | |
3531 | p = frag_more (1); | |
3532 | md_number_to_chars (p, (valueT) *q, 1); | |
3533 | } | |
3534 | } | |
252b5132 | 3535 | |
29b0f896 AM |
3536 | /* Now the opcode; be careful about word order here! */ |
3537 | if (fits_in_unsigned_byte (i.tm.base_opcode)) | |
3538 | { | |
3539 | FRAG_APPEND_1_CHAR (i.tm.base_opcode); | |
3540 | } | |
3541 | else | |
3542 | { | |
331d2d0d L |
3543 | if ((i.tm.cpu_flags & CpuMNI) != 0) |
3544 | { | |
3545 | p = frag_more (3); | |
3546 | *p++ = (i.tm.base_opcode >> 16) & 0xff; | |
3547 | } | |
3548 | else | |
3549 | p = frag_more (2); | |
0f10071e | 3550 | |
29b0f896 AM |
3551 | /* Put out high byte first: can't use md_number_to_chars! */ |
3552 | *p++ = (i.tm.base_opcode >> 8) & 0xff; | |
3553 | *p = i.tm.base_opcode & 0xff; | |
3554 | } | |
3e73aa7c | 3555 | |
29b0f896 AM |
3556 | /* Now the modrm byte and sib byte (if present). */ |
3557 | if (i.tm.opcode_modifier & Modrm) | |
3558 | { | |
3559 | p = frag_more (1); | |
3560 | md_number_to_chars (p, | |
3561 | (valueT) (i.rm.regmem << 0 | |
3562 | | i.rm.reg << 3 | |
3563 | | i.rm.mode << 6), | |
3564 | 1); | |
3565 | /* If i.rm.regmem == ESP (4) | |
3566 | && i.rm.mode != (Register mode) | |
3567 | && not 16 bit | |
3568 | ==> need second modrm byte. */ | |
3569 | if (i.rm.regmem == ESCAPE_TO_TWO_BYTE_ADDRESSING | |
3570 | && i.rm.mode != 3 | |
3571 | && !(i.base_reg && (i.base_reg->reg_type & Reg16) != 0)) | |
3572 | { | |
3573 | p = frag_more (1); | |
3574 | md_number_to_chars (p, | |
3575 | (valueT) (i.sib.base << 0 | |
3576 | | i.sib.index << 3 | |
3577 | | i.sib.scale << 6), | |
3578 | 1); | |
3579 | } | |
3580 | } | |
3e73aa7c | 3581 | |
29b0f896 | 3582 | if (i.disp_operands) |
2bbd9c25 | 3583 | output_disp (insn_start_frag, insn_start_off); |
3e73aa7c | 3584 | |
29b0f896 | 3585 | if (i.imm_operands) |
2bbd9c25 | 3586 | output_imm (insn_start_frag, insn_start_off); |
29b0f896 | 3587 | } |
252b5132 | 3588 | |
29b0f896 AM |
3589 | #ifdef DEBUG386 |
3590 | if (flag_debug) | |
3591 | { | |
7b81dfbb | 3592 | pi ("" /*line*/, &i); |
29b0f896 AM |
3593 | } |
3594 | #endif /* DEBUG386 */ | |
3595 | } | |
252b5132 | 3596 | |
29b0f896 | 3597 | static void |
64e74474 | 3598 | output_disp (fragS *insn_start_frag, offsetT insn_start_off) |
29b0f896 AM |
3599 | { |
3600 | char *p; | |
3601 | unsigned int n; | |
252b5132 | 3602 | |
29b0f896 AM |
3603 | for (n = 0; n < i.operands; n++) |
3604 | { | |
3605 | if (i.types[n] & Disp) | |
3606 | { | |
3607 | if (i.op[n].disps->X_op == O_constant) | |
3608 | { | |
3609 | int size; | |
3610 | offsetT val; | |
252b5132 | 3611 | |
29b0f896 AM |
3612 | size = 4; |
3613 | if (i.types[n] & (Disp8 | Disp16 | Disp64)) | |
3614 | { | |
3615 | size = 2; | |
3616 | if (i.types[n] & Disp8) | |
3617 | size = 1; | |
3618 | if (i.types[n] & Disp64) | |
3619 | size = 8; | |
3620 | } | |
3621 | val = offset_in_range (i.op[n].disps->X_add_number, | |
3622 | size); | |
3623 | p = frag_more (size); | |
3624 | md_number_to_chars (p, val, size); | |
3625 | } | |
3626 | else | |
3627 | { | |
f86103b7 | 3628 | enum bfd_reloc_code_real reloc_type; |
29b0f896 AM |
3629 | int size = 4; |
3630 | int sign = 0; | |
3631 | int pcrel = (i.flags[n] & Operand_PCrel) != 0; | |
3632 | ||
3633 | /* The PC relative address is computed relative | |
3634 | to the instruction boundary, so in case immediate | |
3635 | fields follows, we need to adjust the value. */ | |
3636 | if (pcrel && i.imm_operands) | |
3637 | { | |
3638 | int imm_size = 4; | |
3639 | unsigned int n1; | |
252b5132 | 3640 | |
29b0f896 AM |
3641 | for (n1 = 0; n1 < i.operands; n1++) |
3642 | if (i.types[n1] & Imm) | |
252b5132 | 3643 | { |
29b0f896 | 3644 | if (i.types[n1] & (Imm8 | Imm8S | Imm16 | Imm64)) |
252b5132 | 3645 | { |
29b0f896 AM |
3646 | imm_size = 2; |
3647 | if (i.types[n1] & (Imm8 | Imm8S)) | |
3648 | imm_size = 1; | |
3649 | if (i.types[n1] & Imm64) | |
3650 | imm_size = 8; | |
252b5132 | 3651 | } |
29b0f896 | 3652 | break; |
252b5132 | 3653 | } |
29b0f896 AM |
3654 | /* We should find the immediate. */ |
3655 | if (n1 == i.operands) | |
3656 | abort (); | |
3657 | i.op[n].disps->X_add_number -= imm_size; | |
3658 | } | |
520dc8e8 | 3659 | |
29b0f896 AM |
3660 | if (i.types[n] & Disp32S) |
3661 | sign = 1; | |
3e73aa7c | 3662 | |
29b0f896 AM |
3663 | if (i.types[n] & (Disp16 | Disp64)) |
3664 | { | |
3665 | size = 2; | |
3666 | if (i.types[n] & Disp64) | |
3667 | size = 8; | |
3668 | } | |
520dc8e8 | 3669 | |
29b0f896 | 3670 | p = frag_more (size); |
2bbd9c25 | 3671 | reloc_type = reloc (size, pcrel, sign, i.reloc[n]); |
d6ab8113 | 3672 | if (GOT_symbol |
2bbd9c25 | 3673 | && GOT_symbol == i.op[n].disps->X_add_symbol |
d6ab8113 | 3674 | && (((reloc_type == BFD_RELOC_32 |
7b81dfbb AJ |
3675 | || reloc_type == BFD_RELOC_X86_64_32S |
3676 | || (reloc_type == BFD_RELOC_64 | |
3677 | && object_64bit)) | |
d6ab8113 JB |
3678 | && (i.op[n].disps->X_op == O_symbol |
3679 | || (i.op[n].disps->X_op == O_add | |
3680 | && ((symbol_get_value_expression | |
3681 | (i.op[n].disps->X_op_symbol)->X_op) | |
3682 | == O_subtract)))) | |
3683 | || reloc_type == BFD_RELOC_32_PCREL)) | |
2bbd9c25 JJ |
3684 | { |
3685 | offsetT add; | |
3686 | ||
3687 | if (insn_start_frag == frag_now) | |
3688 | add = (p - frag_now->fr_literal) - insn_start_off; | |
3689 | else | |
3690 | { | |
3691 | fragS *fr; | |
3692 | ||
3693 | add = insn_start_frag->fr_fix - insn_start_off; | |
3694 | for (fr = insn_start_frag->fr_next; | |
3695 | fr && fr != frag_now; fr = fr->fr_next) | |
3696 | add += fr->fr_fix; | |
3697 | add += p - frag_now->fr_literal; | |
3698 | } | |
3699 | ||
4fa24527 | 3700 | if (!object_64bit) |
7b81dfbb AJ |
3701 | { |
3702 | reloc_type = BFD_RELOC_386_GOTPC; | |
3703 | i.op[n].imms->X_add_number += add; | |
3704 | } | |
3705 | else if (reloc_type == BFD_RELOC_64) | |
3706 | reloc_type = BFD_RELOC_X86_64_GOTPC64; | |
d6ab8113 | 3707 | else |
7b81dfbb AJ |
3708 | /* Don't do the adjustment for x86-64, as there |
3709 | the pcrel addressing is relative to the _next_ | |
3710 | insn, and that is taken care of in other code. */ | |
d6ab8113 | 3711 | reloc_type = BFD_RELOC_X86_64_GOTPC32; |
2bbd9c25 | 3712 | } |
062cd5e7 | 3713 | fix_new_exp (frag_now, p - frag_now->fr_literal, size, |
2bbd9c25 | 3714 | i.op[n].disps, pcrel, reloc_type); |
29b0f896 AM |
3715 | } |
3716 | } | |
3717 | } | |
3718 | } | |
252b5132 | 3719 | |
29b0f896 | 3720 | static void |
64e74474 | 3721 | output_imm (fragS *insn_start_frag, offsetT insn_start_off) |
29b0f896 AM |
3722 | { |
3723 | char *p; | |
3724 | unsigned int n; | |
252b5132 | 3725 | |
29b0f896 AM |
3726 | for (n = 0; n < i.operands; n++) |
3727 | { | |
3728 | if (i.types[n] & Imm) | |
3729 | { | |
3730 | if (i.op[n].imms->X_op == O_constant) | |
3731 | { | |
3732 | int size; | |
3733 | offsetT val; | |
b4cac588 | 3734 | |
29b0f896 AM |
3735 | size = 4; |
3736 | if (i.types[n] & (Imm8 | Imm8S | Imm16 | Imm64)) | |
3737 | { | |
3738 | size = 2; | |
3739 | if (i.types[n] & (Imm8 | Imm8S)) | |
3740 | size = 1; | |
3741 | else if (i.types[n] & Imm64) | |
3742 | size = 8; | |
3743 | } | |
3744 | val = offset_in_range (i.op[n].imms->X_add_number, | |
3745 | size); | |
3746 | p = frag_more (size); | |
3747 | md_number_to_chars (p, val, size); | |
3748 | } | |
3749 | else | |
3750 | { | |
3751 | /* Not absolute_section. | |
3752 | Need a 32-bit fixup (don't support 8bit | |
3753 | non-absolute imms). Try to support other | |
3754 | sizes ... */ | |
f86103b7 | 3755 | enum bfd_reloc_code_real reloc_type; |
29b0f896 AM |
3756 | int size = 4; |
3757 | int sign = 0; | |
3758 | ||
3759 | if ((i.types[n] & (Imm32S)) | |
a7d61044 JB |
3760 | && (i.suffix == QWORD_MNEM_SUFFIX |
3761 | || (!i.suffix && (i.tm.opcode_modifier & No_lSuf)))) | |
29b0f896 AM |
3762 | sign = 1; |
3763 | if (i.types[n] & (Imm8 | Imm8S | Imm16 | Imm64)) | |
3764 | { | |
3765 | size = 2; | |
3766 | if (i.types[n] & (Imm8 | Imm8S)) | |
3767 | size = 1; | |
3768 | if (i.types[n] & Imm64) | |
3769 | size = 8; | |
3770 | } | |
520dc8e8 | 3771 | |
29b0f896 AM |
3772 | p = frag_more (size); |
3773 | reloc_type = reloc (size, 0, sign, i.reloc[n]); | |
f86103b7 | 3774 | |
2bbd9c25 JJ |
3775 | /* This is tough to explain. We end up with this one if we |
3776 | * have operands that look like | |
3777 | * "_GLOBAL_OFFSET_TABLE_+[.-.L284]". The goal here is to | |
3778 | * obtain the absolute address of the GOT, and it is strongly | |
3779 | * preferable from a performance point of view to avoid using | |
3780 | * a runtime relocation for this. The actual sequence of | |
3781 | * instructions often look something like: | |
3782 | * | |
3783 | * call .L66 | |
3784 | * .L66: | |
3785 | * popl %ebx | |
3786 | * addl $_GLOBAL_OFFSET_TABLE_+[.-.L66],%ebx | |
3787 | * | |
3788 | * The call and pop essentially return the absolute address | |
3789 | * of the label .L66 and store it in %ebx. The linker itself | |
3790 | * will ultimately change the first operand of the addl so | |
3791 | * that %ebx points to the GOT, but to keep things simple, the | |
3792 | * .o file must have this operand set so that it generates not | |
3793 | * the absolute address of .L66, but the absolute address of | |
3794 | * itself. This allows the linker itself simply treat a GOTPC | |
3795 | * relocation as asking for a pcrel offset to the GOT to be | |
3796 | * added in, and the addend of the relocation is stored in the | |
3797 | * operand field for the instruction itself. | |
3798 | * | |
3799 | * Our job here is to fix the operand so that it would add | |
3800 | * the correct offset so that %ebx would point to itself. The | |
3801 | * thing that is tricky is that .-.L66 will point to the | |
3802 | * beginning of the instruction, so we need to further modify | |
3803 | * the operand so that it will point to itself. There are | |
3804 | * other cases where you have something like: | |
3805 | * | |
3806 | * .long $_GLOBAL_OFFSET_TABLE_+[.-.L66] | |
3807 | * | |
3808 | * and here no correction would be required. Internally in | |
3809 | * the assembler we treat operands of this form as not being | |
3810 | * pcrel since the '.' is explicitly mentioned, and I wonder | |
3811 | * whether it would simplify matters to do it this way. Who | |
3812 | * knows. In earlier versions of the PIC patches, the | |
3813 | * pcrel_adjust field was used to store the correction, but | |
3814 | * since the expression is not pcrel, I felt it would be | |
3815 | * confusing to do it this way. */ | |
3816 | ||
d6ab8113 | 3817 | if ((reloc_type == BFD_RELOC_32 |
7b81dfbb AJ |
3818 | || reloc_type == BFD_RELOC_X86_64_32S |
3819 | || reloc_type == BFD_RELOC_64) | |
29b0f896 AM |
3820 | && GOT_symbol |
3821 | && GOT_symbol == i.op[n].imms->X_add_symbol | |
3822 | && (i.op[n].imms->X_op == O_symbol | |
3823 | || (i.op[n].imms->X_op == O_add | |
3824 | && ((symbol_get_value_expression | |
3825 | (i.op[n].imms->X_op_symbol)->X_op) | |
3826 | == O_subtract)))) | |
3827 | { | |
2bbd9c25 JJ |
3828 | offsetT add; |
3829 | ||
3830 | if (insn_start_frag == frag_now) | |
3831 | add = (p - frag_now->fr_literal) - insn_start_off; | |
3832 | else | |
3833 | { | |
3834 | fragS *fr; | |
3835 | ||
3836 | add = insn_start_frag->fr_fix - insn_start_off; | |
3837 | for (fr = insn_start_frag->fr_next; | |
3838 | fr && fr != frag_now; fr = fr->fr_next) | |
3839 | add += fr->fr_fix; | |
3840 | add += p - frag_now->fr_literal; | |
3841 | } | |
3842 | ||
4fa24527 | 3843 | if (!object_64bit) |
d6ab8113 | 3844 | reloc_type = BFD_RELOC_386_GOTPC; |
7b81dfbb | 3845 | else if (size == 4) |
d6ab8113 | 3846 | reloc_type = BFD_RELOC_X86_64_GOTPC32; |
7b81dfbb AJ |
3847 | else if (size == 8) |
3848 | reloc_type = BFD_RELOC_X86_64_GOTPC64; | |
2bbd9c25 | 3849 | i.op[n].imms->X_add_number += add; |
29b0f896 | 3850 | } |
29b0f896 AM |
3851 | fix_new_exp (frag_now, p - frag_now->fr_literal, size, |
3852 | i.op[n].imms, 0, reloc_type); | |
3853 | } | |
3854 | } | |
3855 | } | |
252b5132 RH |
3856 | } |
3857 | \f | |
d182319b JB |
3858 | /* x86_cons_fix_new is called via the expression parsing code when a |
3859 | reloc is needed. We use this hook to get the correct .got reloc. */ | |
3860 | static enum bfd_reloc_code_real got_reloc = NO_RELOC; | |
3861 | static int cons_sign = -1; | |
3862 | ||
3863 | void | |
3864 | x86_cons_fix_new (fragS *frag, | |
64e74474 AM |
3865 | unsigned int off, |
3866 | unsigned int len, | |
3867 | expressionS *exp) | |
d182319b JB |
3868 | { |
3869 | enum bfd_reloc_code_real r = reloc (len, 0, cons_sign, got_reloc); | |
3870 | ||
3871 | got_reloc = NO_RELOC; | |
3872 | ||
3873 | #ifdef TE_PE | |
3874 | if (exp->X_op == O_secrel) | |
3875 | { | |
3876 | exp->X_op = O_symbol; | |
3877 | r = BFD_RELOC_32_SECREL; | |
3878 | } | |
3879 | #endif | |
3880 | ||
3881 | fix_new_exp (frag, off, len, exp, 0, r); | |
3882 | } | |
3883 | ||
718ddfc0 JB |
3884 | #if (!defined (OBJ_ELF) && !defined (OBJ_MAYBE_ELF)) || defined (LEX_AT) |
3885 | # define lex_got(reloc, adjust, types) NULL | |
3886 | #else | |
f3c180ae AM |
3887 | /* Parse operands of the form |
3888 | <symbol>@GOTOFF+<nnn> | |
3889 | and similar .plt or .got references. | |
3890 | ||
3891 | If we find one, set up the correct relocation in RELOC and copy the | |
3892 | input string, minus the `@GOTOFF' into a malloc'd buffer for | |
3893 | parsing by the calling routine. Return this buffer, and if ADJUST | |
3894 | is non-null set it to the length of the string we removed from the | |
3895 | input line. Otherwise return NULL. */ | |
3896 | static char * | |
3956db08 | 3897 | lex_got (enum bfd_reloc_code_real *reloc, |
64e74474 AM |
3898 | int *adjust, |
3899 | unsigned int *types) | |
f3c180ae | 3900 | { |
7b81dfbb AJ |
3901 | /* Some of the relocations depend on the size of what field is to |
3902 | be relocated. But in our callers i386_immediate and i386_displacement | |
3903 | we don't yet know the operand size (this will be set by insn | |
3904 | matching). Hence we record the word32 relocation here, | |
3905 | and adjust the reloc according to the real size in reloc(). */ | |
f3c180ae AM |
3906 | static const struct { |
3907 | const char *str; | |
4fa24527 | 3908 | const enum bfd_reloc_code_real rel[2]; |
3956db08 | 3909 | const unsigned int types64; |
f3c180ae | 3910 | } gotrel[] = { |
7b81dfbb | 3911 | { "PLTOFF", { 0, BFD_RELOC_X86_64_PLTOFF64 }, Imm64 }, |
4fa24527 | 3912 | { "PLT", { BFD_RELOC_386_PLT32, BFD_RELOC_X86_64_PLT32 }, Imm32|Imm32S|Disp32 }, |
7b81dfbb | 3913 | { "GOTPLT", { 0, BFD_RELOC_X86_64_GOTPLT64 }, Imm64|Disp64 }, |
4fa24527 JB |
3914 | { "GOTOFF", { BFD_RELOC_386_GOTOFF, BFD_RELOC_X86_64_GOTOFF64 }, Imm64|Disp64 }, |
3915 | { "GOTPCREL", { 0, BFD_RELOC_X86_64_GOTPCREL }, Imm32|Imm32S|Disp32 }, | |
3916 | { "TLSGD", { BFD_RELOC_386_TLS_GD, BFD_RELOC_X86_64_TLSGD }, Imm32|Imm32S|Disp32 }, | |
3917 | { "TLSLDM", { BFD_RELOC_386_TLS_LDM, 0 }, 0 }, | |
3918 | { "TLSLD", { 0, BFD_RELOC_X86_64_TLSLD }, Imm32|Imm32S|Disp32 }, | |
3919 | { "GOTTPOFF", { BFD_RELOC_386_TLS_IE_32, BFD_RELOC_X86_64_GOTTPOFF }, Imm32|Imm32S|Disp32 }, | |
3920 | { "TPOFF", { BFD_RELOC_386_TLS_LE_32, BFD_RELOC_X86_64_TPOFF32 }, Imm32|Imm32S|Imm64|Disp32|Disp64 }, | |
3921 | { "NTPOFF", { BFD_RELOC_386_TLS_LE, 0 }, 0 }, | |
3922 | { "DTPOFF", { BFD_RELOC_386_TLS_LDO_32, BFD_RELOC_X86_64_DTPOFF32 }, Imm32|Imm32S|Imm64|Disp32|Disp64 }, | |
3923 | { "GOTNTPOFF",{ BFD_RELOC_386_TLS_GOTIE, 0 }, 0 }, | |
3924 | { "INDNTPOFF",{ BFD_RELOC_386_TLS_IE, 0 }, 0 }, | |
7b81dfbb | 3925 | { "GOT", { BFD_RELOC_386_GOT32, BFD_RELOC_X86_64_GOT32 }, Imm32|Imm32S|Disp32|Imm64 }, |
67a4f2b7 AO |
3926 | { "TLSDESC", { BFD_RELOC_386_TLS_GOTDESC, BFD_RELOC_X86_64_GOTPC32_TLSDESC }, Imm32|Imm32S|Disp32 }, |
3927 | { "TLSCALL", { BFD_RELOC_386_TLS_DESC_CALL, BFD_RELOC_X86_64_TLSDESC_CALL }, Imm32|Imm32S|Disp32 } | |
f3c180ae AM |
3928 | }; |
3929 | char *cp; | |
3930 | unsigned int j; | |
3931 | ||
718ddfc0 JB |
3932 | if (!IS_ELF) |
3933 | return NULL; | |
3934 | ||
f3c180ae AM |
3935 | for (cp = input_line_pointer; *cp != '@'; cp++) |
3936 | if (is_end_of_line[(unsigned char) *cp]) | |
3937 | return NULL; | |
3938 | ||
3939 | for (j = 0; j < sizeof (gotrel) / sizeof (gotrel[0]); j++) | |
3940 | { | |
3941 | int len; | |
3942 | ||
3943 | len = strlen (gotrel[j].str); | |
28f81592 | 3944 | if (strncasecmp (cp + 1, gotrel[j].str, len) == 0) |
f3c180ae | 3945 | { |
4fa24527 | 3946 | if (gotrel[j].rel[object_64bit] != 0) |
f3c180ae | 3947 | { |
28f81592 AM |
3948 | int first, second; |
3949 | char *tmpbuf, *past_reloc; | |
f3c180ae | 3950 | |
4fa24527 | 3951 | *reloc = gotrel[j].rel[object_64bit]; |
28f81592 AM |
3952 | if (adjust) |
3953 | *adjust = len; | |
f3c180ae | 3954 | |
3956db08 JB |
3955 | if (types) |
3956 | { | |
3957 | if (flag_code != CODE_64BIT) | |
3958 | *types = Imm32|Disp32; | |
3959 | else | |
3960 | *types = gotrel[j].types64; | |
3961 | } | |
3962 | ||
f3c180ae AM |
3963 | if (GOT_symbol == NULL) |
3964 | GOT_symbol = symbol_find_or_make (GLOBAL_OFFSET_TABLE_NAME); | |
3965 | ||
3966 | /* Replace the relocation token with ' ', so that | |
3967 | errors like foo@GOTOFF1 will be detected. */ | |
28f81592 AM |
3968 | |
3969 | /* The length of the first part of our input line. */ | |
f3c180ae | 3970 | first = cp - input_line_pointer; |
28f81592 AM |
3971 | |
3972 | /* The second part goes from after the reloc token until | |
3973 | (and including) an end_of_line char. Don't use strlen | |
3974 | here as the end_of_line char may not be a NUL. */ | |
3975 | past_reloc = cp + 1 + len; | |
3976 | for (cp = past_reloc; !is_end_of_line[(unsigned char) *cp++]; ) | |
3977 | ; | |
3978 | second = cp - past_reloc; | |
3979 | ||
3980 | /* Allocate and copy string. The trailing NUL shouldn't | |
3981 | be necessary, but be safe. */ | |
3982 | tmpbuf = xmalloc (first + second + 2); | |
f3c180ae AM |
3983 | memcpy (tmpbuf, input_line_pointer, first); |
3984 | tmpbuf[first] = ' '; | |
28f81592 AM |
3985 | memcpy (tmpbuf + first + 1, past_reloc, second); |
3986 | tmpbuf[first + second + 1] = '\0'; | |
f3c180ae AM |
3987 | return tmpbuf; |
3988 | } | |
3989 | ||
4fa24527 JB |
3990 | as_bad (_("@%s reloc is not supported with %d-bit output format"), |
3991 | gotrel[j].str, 1 << (5 + object_64bit)); | |
f3c180ae AM |
3992 | return NULL; |
3993 | } | |
3994 | } | |
3995 | ||
3996 | /* Might be a symbol version string. Don't as_bad here. */ | |
3997 | return NULL; | |
3998 | } | |
3999 | ||
f3c180ae AM |
4000 | void |
4001 | x86_cons (exp, size) | |
4002 | expressionS *exp; | |
4003 | int size; | |
4004 | { | |
4fa24527 | 4005 | if (size == 4 || (object_64bit && size == 8)) |
f3c180ae AM |
4006 | { |
4007 | /* Handle @GOTOFF and the like in an expression. */ | |
4008 | char *save; | |
4009 | char *gotfree_input_line; | |
4010 | int adjust; | |
4011 | ||
4012 | save = input_line_pointer; | |
3956db08 | 4013 | gotfree_input_line = lex_got (&got_reloc, &adjust, NULL); |
f3c180ae AM |
4014 | if (gotfree_input_line) |
4015 | input_line_pointer = gotfree_input_line; | |
4016 | ||
4017 | expression (exp); | |
4018 | ||
4019 | if (gotfree_input_line) | |
4020 | { | |
4021 | /* expression () has merrily parsed up to the end of line, | |
4022 | or a comma - in the wrong buffer. Transfer how far | |
4023 | input_line_pointer has moved to the right buffer. */ | |
4024 | input_line_pointer = (save | |
4025 | + (input_line_pointer - gotfree_input_line) | |
4026 | + adjust); | |
4027 | free (gotfree_input_line); | |
4028 | } | |
4029 | } | |
4030 | else | |
4031 | expression (exp); | |
4032 | } | |
4033 | #endif | |
4034 | ||
d182319b | 4035 | static void signed_cons (int size) |
6482c264 | 4036 | { |
d182319b JB |
4037 | if (flag_code == CODE_64BIT) |
4038 | cons_sign = 1; | |
4039 | cons (size); | |
4040 | cons_sign = -1; | |
6482c264 NC |
4041 | } |
4042 | ||
d182319b | 4043 | #ifdef TE_PE |
6482c264 NC |
4044 | static void |
4045 | pe_directive_secrel (dummy) | |
4046 | int dummy ATTRIBUTE_UNUSED; | |
4047 | { | |
4048 | expressionS exp; | |
4049 | ||
4050 | do | |
4051 | { | |
4052 | expression (&exp); | |
4053 | if (exp.X_op == O_symbol) | |
4054 | exp.X_op = O_secrel; | |
4055 | ||
4056 | emit_expr (&exp, 4); | |
4057 | } | |
4058 | while (*input_line_pointer++ == ','); | |
4059 | ||
4060 | input_line_pointer--; | |
4061 | demand_empty_rest_of_line (); | |
4062 | } | |
6482c264 NC |
4063 | #endif |
4064 | ||
252b5132 RH |
4065 | static int i386_immediate PARAMS ((char *)); |
4066 | ||
4067 | static int | |
4068 | i386_immediate (imm_start) | |
4069 | char *imm_start; | |
4070 | { | |
4071 | char *save_input_line_pointer; | |
f3c180ae | 4072 | char *gotfree_input_line; |
252b5132 | 4073 | segT exp_seg = 0; |
47926f60 | 4074 | expressionS *exp; |
3956db08 | 4075 | unsigned int types = ~0U; |
252b5132 RH |
4076 | |
4077 | if (i.imm_operands == MAX_IMMEDIATE_OPERANDS) | |
4078 | { | |
d0b47220 | 4079 | as_bad (_("only 1 or 2 immediate operands are allowed")); |
252b5132 RH |
4080 | return 0; |
4081 | } | |
4082 | ||
4083 | exp = &im_expressions[i.imm_operands++]; | |
520dc8e8 | 4084 | i.op[this_operand].imms = exp; |
252b5132 RH |
4085 | |
4086 | if (is_space_char (*imm_start)) | |
4087 | ++imm_start; | |
4088 | ||
4089 | save_input_line_pointer = input_line_pointer; | |
4090 | input_line_pointer = imm_start; | |
4091 | ||
3956db08 | 4092 | gotfree_input_line = lex_got (&i.reloc[this_operand], NULL, &types); |
f3c180ae AM |
4093 | if (gotfree_input_line) |
4094 | input_line_pointer = gotfree_input_line; | |
252b5132 RH |
4095 | |
4096 | exp_seg = expression (exp); | |
4097 | ||
83183c0c | 4098 | SKIP_WHITESPACE (); |
252b5132 | 4099 | if (*input_line_pointer) |
f3c180ae | 4100 | as_bad (_("junk `%s' after expression"), input_line_pointer); |
252b5132 RH |
4101 | |
4102 | input_line_pointer = save_input_line_pointer; | |
f3c180ae AM |
4103 | if (gotfree_input_line) |
4104 | free (gotfree_input_line); | |
252b5132 | 4105 | |
2daf4fd8 | 4106 | if (exp->X_op == O_absent || exp->X_op == O_big) |
252b5132 | 4107 | { |
47926f60 | 4108 | /* Missing or bad expr becomes absolute 0. */ |
d0b47220 | 4109 | as_bad (_("missing or invalid immediate expression `%s' taken as 0"), |
24eab124 | 4110 | imm_start); |
252b5132 RH |
4111 | exp->X_op = O_constant; |
4112 | exp->X_add_number = 0; | |
4113 | exp->X_add_symbol = (symbolS *) 0; | |
4114 | exp->X_op_symbol = (symbolS *) 0; | |
252b5132 | 4115 | } |
3e73aa7c | 4116 | else if (exp->X_op == O_constant) |
252b5132 | 4117 | { |
47926f60 | 4118 | /* Size it properly later. */ |
3e73aa7c JH |
4119 | i.types[this_operand] |= Imm64; |
4120 | /* If BFD64, sign extend val. */ | |
4121 | if (!use_rela_relocations) | |
4122 | if ((exp->X_add_number & ~(((addressT) 2 << 31) - 1)) == 0) | |
4123 | exp->X_add_number = (exp->X_add_number ^ ((addressT) 1 << 31)) - ((addressT) 1 << 31); | |
252b5132 | 4124 | } |
4c63da97 | 4125 | #if (defined (OBJ_AOUT) || defined (OBJ_MAYBE_AOUT)) |
f86103b7 | 4126 | else if (OUTPUT_FLAVOR == bfd_target_aout_flavour |
31312f95 | 4127 | && exp_seg != absolute_section |
47926f60 | 4128 | && exp_seg != text_section |
24eab124 AM |
4129 | && exp_seg != data_section |
4130 | && exp_seg != bss_section | |
4131 | && exp_seg != undefined_section | |
f86103b7 | 4132 | && !bfd_is_com_section (exp_seg)) |
252b5132 | 4133 | { |
d0b47220 | 4134 | as_bad (_("unimplemented segment %s in operand"), exp_seg->name); |
252b5132 RH |
4135 | return 0; |
4136 | } | |
4137 | #endif | |
bb8f5920 L |
4138 | else if (!intel_syntax && exp->X_op == O_register) |
4139 | { | |
4140 | as_bad (_("illegal immediate register operand %s"), imm_start); | |
4141 | return 0; | |
4142 | } | |
252b5132 RH |
4143 | else |
4144 | { | |
4145 | /* This is an address. The size of the address will be | |
24eab124 | 4146 | determined later, depending on destination register, |
3e73aa7c JH |
4147 | suffix, or the default for the section. */ |
4148 | i.types[this_operand] |= Imm8 | Imm16 | Imm32 | Imm32S | Imm64; | |
3956db08 | 4149 | i.types[this_operand] &= types; |
252b5132 RH |
4150 | } |
4151 | ||
4152 | return 1; | |
4153 | } | |
4154 | ||
551c1ca1 | 4155 | static char *i386_scale PARAMS ((char *)); |
252b5132 | 4156 | |
551c1ca1 | 4157 | static char * |
252b5132 RH |
4158 | i386_scale (scale) |
4159 | char *scale; | |
4160 | { | |
551c1ca1 AM |
4161 | offsetT val; |
4162 | char *save = input_line_pointer; | |
252b5132 | 4163 | |
551c1ca1 AM |
4164 | input_line_pointer = scale; |
4165 | val = get_absolute_expression (); | |
4166 | ||
4167 | switch (val) | |
252b5132 | 4168 | { |
551c1ca1 | 4169 | case 1: |
252b5132 RH |
4170 | i.log2_scale_factor = 0; |
4171 | break; | |
551c1ca1 | 4172 | case 2: |
252b5132 RH |
4173 | i.log2_scale_factor = 1; |
4174 | break; | |
551c1ca1 | 4175 | case 4: |
252b5132 RH |
4176 | i.log2_scale_factor = 2; |
4177 | break; | |
551c1ca1 | 4178 | case 8: |
252b5132 RH |
4179 | i.log2_scale_factor = 3; |
4180 | break; | |
4181 | default: | |
a724f0f4 JB |
4182 | { |
4183 | char sep = *input_line_pointer; | |
4184 | ||
4185 | *input_line_pointer = '\0'; | |
4186 | as_bad (_("expecting scale factor of 1, 2, 4, or 8: got `%s'"), | |
4187 | scale); | |
4188 | *input_line_pointer = sep; | |
4189 | input_line_pointer = save; | |
4190 | return NULL; | |
4191 | } | |
252b5132 | 4192 | } |
29b0f896 | 4193 | if (i.log2_scale_factor != 0 && i.index_reg == 0) |
252b5132 RH |
4194 | { |
4195 | as_warn (_("scale factor of %d without an index register"), | |
24eab124 | 4196 | 1 << i.log2_scale_factor); |
252b5132 RH |
4197 | #if SCALE1_WHEN_NO_INDEX |
4198 | i.log2_scale_factor = 0; | |
4199 | #endif | |
4200 | } | |
551c1ca1 AM |
4201 | scale = input_line_pointer; |
4202 | input_line_pointer = save; | |
4203 | return scale; | |
252b5132 RH |
4204 | } |
4205 | ||
4206 | static int i386_displacement PARAMS ((char *, char *)); | |
4207 | ||
4208 | static int | |
4209 | i386_displacement (disp_start, disp_end) | |
4210 | char *disp_start; | |
4211 | char *disp_end; | |
4212 | { | |
29b0f896 | 4213 | expressionS *exp; |
252b5132 RH |
4214 | segT exp_seg = 0; |
4215 | char *save_input_line_pointer; | |
f3c180ae | 4216 | char *gotfree_input_line; |
e05278af | 4217 | int bigdisp, override; |
3956db08 | 4218 | unsigned int types = Disp; |
252b5132 | 4219 | |
e05278af JB |
4220 | if ((i.types[this_operand] & JumpAbsolute) |
4221 | || !(current_templates->start->opcode_modifier & (Jump | JumpDword))) | |
4222 | { | |
4223 | bigdisp = Disp32; | |
4224 | override = (i.prefix[ADDR_PREFIX] != 0); | |
4225 | } | |
4226 | else | |
4227 | { | |
4228 | /* For PC-relative branches, the width of the displacement | |
4229 | is dependent upon data size, not address size. */ | |
4230 | bigdisp = 0; | |
4231 | override = (i.prefix[DATA_PREFIX] != 0); | |
4232 | } | |
3e73aa7c | 4233 | if (flag_code == CODE_64BIT) |
7ecd2f8b | 4234 | { |
e05278af | 4235 | if (!bigdisp) |
64e74474 AM |
4236 | bigdisp = ((override || i.suffix == WORD_MNEM_SUFFIX) |
4237 | ? Disp16 | |
4238 | : Disp32S | Disp32); | |
e05278af | 4239 | else if (!override) |
3956db08 | 4240 | bigdisp = Disp64 | Disp32S | Disp32; |
7ecd2f8b | 4241 | } |
e05278af JB |
4242 | else |
4243 | { | |
4244 | if (!bigdisp) | |
4245 | { | |
4246 | if (!override) | |
4247 | override = (i.suffix == (flag_code != CODE_16BIT | |
4248 | ? WORD_MNEM_SUFFIX | |
4249 | : LONG_MNEM_SUFFIX)); | |
4250 | bigdisp = Disp32; | |
4251 | } | |
4252 | if ((flag_code == CODE_16BIT) ^ override) | |
4253 | bigdisp = Disp16; | |
4254 | } | |
252b5132 RH |
4255 | i.types[this_operand] |= bigdisp; |
4256 | ||
4257 | exp = &disp_expressions[i.disp_operands]; | |
520dc8e8 | 4258 | i.op[this_operand].disps = exp; |
252b5132 RH |
4259 | i.disp_operands++; |
4260 | save_input_line_pointer = input_line_pointer; | |
4261 | input_line_pointer = disp_start; | |
4262 | END_STRING_AND_SAVE (disp_end); | |
4263 | ||
4264 | #ifndef GCC_ASM_O_HACK | |
4265 | #define GCC_ASM_O_HACK 0 | |
4266 | #endif | |
4267 | #if GCC_ASM_O_HACK | |
4268 | END_STRING_AND_SAVE (disp_end + 1); | |
4269 | if ((i.types[this_operand] & BaseIndex) != 0 | |
24eab124 | 4270 | && displacement_string_end[-1] == '+') |
252b5132 RH |
4271 | { |
4272 | /* This hack is to avoid a warning when using the "o" | |
24eab124 AM |
4273 | constraint within gcc asm statements. |
4274 | For instance: | |
4275 | ||
4276 | #define _set_tssldt_desc(n,addr,limit,type) \ | |
4277 | __asm__ __volatile__ ( \ | |
4278 | "movw %w2,%0\n\t" \ | |
4279 | "movw %w1,2+%0\n\t" \ | |
4280 | "rorl $16,%1\n\t" \ | |
4281 | "movb %b1,4+%0\n\t" \ | |
4282 | "movb %4,5+%0\n\t" \ | |
4283 | "movb $0,6+%0\n\t" \ | |
4284 | "movb %h1,7+%0\n\t" \ | |
4285 | "rorl $16,%1" \ | |
4286 | : "=o"(*(n)) : "q" (addr), "ri"(limit), "i"(type)) | |
4287 | ||
4288 | This works great except that the output assembler ends | |
4289 | up looking a bit weird if it turns out that there is | |
4290 | no offset. You end up producing code that looks like: | |
4291 | ||
4292 | #APP | |
4293 | movw $235,(%eax) | |
4294 | movw %dx,2+(%eax) | |
4295 | rorl $16,%edx | |
4296 | movb %dl,4+(%eax) | |
4297 | movb $137,5+(%eax) | |
4298 | movb $0,6+(%eax) | |
4299 | movb %dh,7+(%eax) | |
4300 | rorl $16,%edx | |
4301 | #NO_APP | |
4302 | ||
47926f60 | 4303 | So here we provide the missing zero. */ |
24eab124 AM |
4304 | |
4305 | *displacement_string_end = '0'; | |
252b5132 RH |
4306 | } |
4307 | #endif | |
3956db08 | 4308 | gotfree_input_line = lex_got (&i.reloc[this_operand], NULL, &types); |
f3c180ae AM |
4309 | if (gotfree_input_line) |
4310 | input_line_pointer = gotfree_input_line; | |
252b5132 | 4311 | |
24eab124 | 4312 | exp_seg = expression (exp); |
252b5132 | 4313 | |
636c26b0 AM |
4314 | SKIP_WHITESPACE (); |
4315 | if (*input_line_pointer) | |
4316 | as_bad (_("junk `%s' after expression"), input_line_pointer); | |
4317 | #if GCC_ASM_O_HACK | |
4318 | RESTORE_END_STRING (disp_end + 1); | |
4319 | #endif | |
4320 | RESTORE_END_STRING (disp_end); | |
4321 | input_line_pointer = save_input_line_pointer; | |
636c26b0 AM |
4322 | if (gotfree_input_line) |
4323 | free (gotfree_input_line); | |
636c26b0 | 4324 | |
24eab124 AM |
4325 | /* We do this to make sure that the section symbol is in |
4326 | the symbol table. We will ultimately change the relocation | |
47926f60 | 4327 | to be relative to the beginning of the section. */ |
1ae12ab7 | 4328 | if (i.reloc[this_operand] == BFD_RELOC_386_GOTOFF |
d6ab8113 JB |
4329 | || i.reloc[this_operand] == BFD_RELOC_X86_64_GOTPCREL |
4330 | || i.reloc[this_operand] == BFD_RELOC_X86_64_GOTOFF64) | |
24eab124 | 4331 | { |
636c26b0 AM |
4332 | if (exp->X_op != O_symbol) |
4333 | { | |
4334 | as_bad (_("bad expression used with @%s"), | |
4335 | (i.reloc[this_operand] == BFD_RELOC_X86_64_GOTPCREL | |
4336 | ? "GOTPCREL" | |
4337 | : "GOTOFF")); | |
4338 | return 0; | |
4339 | } | |
4340 | ||
e5cb08ac | 4341 | if (S_IS_LOCAL (exp->X_add_symbol) |
24eab124 AM |
4342 | && S_GET_SEGMENT (exp->X_add_symbol) != undefined_section) |
4343 | section_symbol (S_GET_SEGMENT (exp->X_add_symbol)); | |
24eab124 AM |
4344 | exp->X_op = O_subtract; |
4345 | exp->X_op_symbol = GOT_symbol; | |
1ae12ab7 | 4346 | if (i.reloc[this_operand] == BFD_RELOC_X86_64_GOTPCREL) |
29b0f896 | 4347 | i.reloc[this_operand] = BFD_RELOC_32_PCREL; |
d6ab8113 JB |
4348 | else if (i.reloc[this_operand] == BFD_RELOC_X86_64_GOTOFF64) |
4349 | i.reloc[this_operand] = BFD_RELOC_64; | |
23df1078 | 4350 | else |
29b0f896 | 4351 | i.reloc[this_operand] = BFD_RELOC_32; |
24eab124 | 4352 | } |
252b5132 | 4353 | |
2daf4fd8 AM |
4354 | if (exp->X_op == O_absent || exp->X_op == O_big) |
4355 | { | |
47926f60 | 4356 | /* Missing or bad expr becomes absolute 0. */ |
d0b47220 | 4357 | as_bad (_("missing or invalid displacement expression `%s' taken as 0"), |
2daf4fd8 AM |
4358 | disp_start); |
4359 | exp->X_op = O_constant; | |
4360 | exp->X_add_number = 0; | |
4361 | exp->X_add_symbol = (symbolS *) 0; | |
4362 | exp->X_op_symbol = (symbolS *) 0; | |
4363 | } | |
4364 | ||
4c63da97 | 4365 | #if (defined (OBJ_AOUT) || defined (OBJ_MAYBE_AOUT)) |
45288df1 | 4366 | if (exp->X_op != O_constant |
45288df1 | 4367 | && OUTPUT_FLAVOR == bfd_target_aout_flavour |
31312f95 | 4368 | && exp_seg != absolute_section |
45288df1 AM |
4369 | && exp_seg != text_section |
4370 | && exp_seg != data_section | |
4371 | && exp_seg != bss_section | |
31312f95 | 4372 | && exp_seg != undefined_section |
f86103b7 | 4373 | && !bfd_is_com_section (exp_seg)) |
24eab124 | 4374 | { |
d0b47220 | 4375 | as_bad (_("unimplemented segment %s in operand"), exp_seg->name); |
24eab124 AM |
4376 | return 0; |
4377 | } | |
252b5132 | 4378 | #endif |
3956db08 JB |
4379 | |
4380 | if (!(i.types[this_operand] & ~Disp)) | |
4381 | i.types[this_operand] &= types; | |
4382 | ||
252b5132 RH |
4383 | return 1; |
4384 | } | |
4385 | ||
e5cb08ac | 4386 | static int i386_index_check PARAMS ((const char *)); |
252b5132 | 4387 | |
eecb386c | 4388 | /* Make sure the memory operand we've been dealt is valid. |
47926f60 KH |
4389 | Return 1 on success, 0 on a failure. */ |
4390 | ||
252b5132 | 4391 | static int |
eecb386c AM |
4392 | i386_index_check (operand_string) |
4393 | const char *operand_string; | |
252b5132 | 4394 | { |
3e73aa7c | 4395 | int ok; |
24eab124 | 4396 | #if INFER_ADDR_PREFIX |
eecb386c AM |
4397 | int fudged = 0; |
4398 | ||
24eab124 AM |
4399 | tryprefix: |
4400 | #endif | |
3e73aa7c | 4401 | ok = 1; |
30123838 JB |
4402 | if ((current_templates->start->cpu_flags & CpuSVME) |
4403 | && current_templates->end[-1].operand_types[0] == AnyMem) | |
4404 | { | |
4405 | /* Memory operands of SVME insns are special in that they only allow | |
4406 | rAX as their memory address and ignore any segment override. */ | |
4407 | unsigned RegXX; | |
4408 | ||
4409 | /* SKINIT is even more restrictive: it always requires EAX. */ | |
4410 | if (strcmp (current_templates->start->name, "skinit") == 0) | |
4411 | RegXX = Reg32; | |
4412 | else if (flag_code == CODE_64BIT) | |
4413 | RegXX = i.prefix[ADDR_PREFIX] == 0 ? Reg64 : Reg32; | |
4414 | else | |
64e74474 AM |
4415 | RegXX = ((flag_code == CODE_16BIT) ^ (i.prefix[ADDR_PREFIX] != 0) |
4416 | ? Reg16 | |
4417 | : Reg32); | |
30123838 JB |
4418 | if (!i.base_reg |
4419 | || !(i.base_reg->reg_type & Acc) | |
4420 | || !(i.base_reg->reg_type & RegXX) | |
4421 | || i.index_reg | |
4422 | || (i.types[0] & Disp)) | |
4423 | ok = 0; | |
4424 | } | |
4425 | else if (flag_code == CODE_64BIT) | |
64e74474 AM |
4426 | { |
4427 | unsigned RegXX = (i.prefix[ADDR_PREFIX] == 0 ? Reg64 : Reg32); | |
4428 | ||
4429 | if ((i.base_reg | |
4430 | && ((i.base_reg->reg_type & RegXX) == 0) | |
4431 | && (i.base_reg->reg_type != BaseIndex | |
4432 | || i.index_reg)) | |
4433 | || (i.index_reg | |
4434 | && ((i.index_reg->reg_type & (RegXX | BaseIndex)) | |
4435 | != (RegXX | BaseIndex)))) | |
4436 | ok = 0; | |
3e73aa7c JH |
4437 | } |
4438 | else | |
4439 | { | |
4440 | if ((flag_code == CODE_16BIT) ^ (i.prefix[ADDR_PREFIX] != 0)) | |
4441 | { | |
4442 | /* 16bit checks. */ | |
4443 | if ((i.base_reg | |
29b0f896 AM |
4444 | && ((i.base_reg->reg_type & (Reg16 | BaseIndex | RegRex)) |
4445 | != (Reg16 | BaseIndex))) | |
3e73aa7c | 4446 | || (i.index_reg |
29b0f896 AM |
4447 | && (((i.index_reg->reg_type & (Reg16 | BaseIndex)) |
4448 | != (Reg16 | BaseIndex)) | |
4449 | || !(i.base_reg | |
4450 | && i.base_reg->reg_num < 6 | |
4451 | && i.index_reg->reg_num >= 6 | |
4452 | && i.log2_scale_factor == 0)))) | |
3e73aa7c JH |
4453 | ok = 0; |
4454 | } | |
4455 | else | |
e5cb08ac | 4456 | { |
3e73aa7c JH |
4457 | /* 32bit checks. */ |
4458 | if ((i.base_reg | |
4459 | && (i.base_reg->reg_type & (Reg32 | RegRex)) != Reg32) | |
4460 | || (i.index_reg | |
29b0f896 AM |
4461 | && ((i.index_reg->reg_type & (Reg32 | BaseIndex | RegRex)) |
4462 | != (Reg32 | BaseIndex)))) | |
e5cb08ac | 4463 | ok = 0; |
3e73aa7c JH |
4464 | } |
4465 | } | |
4466 | if (!ok) | |
24eab124 AM |
4467 | { |
4468 | #if INFER_ADDR_PREFIX | |
20f0a1fc | 4469 | if (i.prefix[ADDR_PREFIX] == 0) |
24eab124 AM |
4470 | { |
4471 | i.prefix[ADDR_PREFIX] = ADDR_PREFIX_OPCODE; | |
4472 | i.prefixes += 1; | |
b23bac36 AM |
4473 | /* Change the size of any displacement too. At most one of |
4474 | Disp16 or Disp32 is set. | |
4475 | FIXME. There doesn't seem to be any real need for separate | |
4476 | Disp16 and Disp32 flags. The same goes for Imm16 and Imm32. | |
47926f60 | 4477 | Removing them would probably clean up the code quite a lot. */ |
20f0a1fc | 4478 | if (flag_code != CODE_64BIT && (i.types[this_operand] & (Disp16 | Disp32))) |
64e74474 | 4479 | i.types[this_operand] ^= (Disp16 | Disp32); |
eecb386c | 4480 | fudged = 1; |
24eab124 AM |
4481 | goto tryprefix; |
4482 | } | |
eecb386c AM |
4483 | if (fudged) |
4484 | as_bad (_("`%s' is not a valid base/index expression"), | |
4485 | operand_string); | |
4486 | else | |
c388dee8 | 4487 | #endif |
eecb386c AM |
4488 | as_bad (_("`%s' is not a valid %s bit base/index expression"), |
4489 | operand_string, | |
3e73aa7c | 4490 | flag_code_names[flag_code]); |
24eab124 | 4491 | } |
20f0a1fc | 4492 | return ok; |
24eab124 | 4493 | } |
252b5132 | 4494 | |
252b5132 | 4495 | /* Parse OPERAND_STRING into the i386_insn structure I. Returns non-zero |
47926f60 | 4496 | on error. */ |
252b5132 | 4497 | |
252b5132 RH |
4498 | static int |
4499 | i386_operand (operand_string) | |
4500 | char *operand_string; | |
4501 | { | |
af6bdddf AM |
4502 | const reg_entry *r; |
4503 | char *end_op; | |
24eab124 | 4504 | char *op_string = operand_string; |
252b5132 | 4505 | |
24eab124 | 4506 | if (is_space_char (*op_string)) |
252b5132 RH |
4507 | ++op_string; |
4508 | ||
24eab124 | 4509 | /* We check for an absolute prefix (differentiating, |
47926f60 | 4510 | for example, 'jmp pc_relative_label' from 'jmp *absolute_label'. */ |
24eab124 AM |
4511 | if (*op_string == ABSOLUTE_PREFIX) |
4512 | { | |
4513 | ++op_string; | |
4514 | if (is_space_char (*op_string)) | |
4515 | ++op_string; | |
4516 | i.types[this_operand] |= JumpAbsolute; | |
4517 | } | |
252b5132 | 4518 | |
47926f60 | 4519 | /* Check if operand is a register. */ |
4d1bb795 | 4520 | if ((r = parse_register (op_string, &end_op)) != NULL) |
24eab124 | 4521 | { |
24eab124 AM |
4522 | /* Check for a segment override by searching for ':' after a |
4523 | segment register. */ | |
4524 | op_string = end_op; | |
4525 | if (is_space_char (*op_string)) | |
4526 | ++op_string; | |
4527 | if (*op_string == ':' && (r->reg_type & (SReg2 | SReg3))) | |
4528 | { | |
4529 | switch (r->reg_num) | |
4530 | { | |
4531 | case 0: | |
4532 | i.seg[i.mem_operands] = &es; | |
4533 | break; | |
4534 | case 1: | |
4535 | i.seg[i.mem_operands] = &cs; | |
4536 | break; | |
4537 | case 2: | |
4538 | i.seg[i.mem_operands] = &ss; | |
4539 | break; | |
4540 | case 3: | |
4541 | i.seg[i.mem_operands] = &ds; | |
4542 | break; | |
4543 | case 4: | |
4544 | i.seg[i.mem_operands] = &fs; | |
4545 | break; | |
4546 | case 5: | |
4547 | i.seg[i.mem_operands] = &gs; | |
4548 | break; | |
4549 | } | |
252b5132 | 4550 | |
24eab124 | 4551 | /* Skip the ':' and whitespace. */ |
252b5132 RH |
4552 | ++op_string; |
4553 | if (is_space_char (*op_string)) | |
24eab124 | 4554 | ++op_string; |
252b5132 | 4555 | |
24eab124 AM |
4556 | if (!is_digit_char (*op_string) |
4557 | && !is_identifier_char (*op_string) | |
4558 | && *op_string != '(' | |
4559 | && *op_string != ABSOLUTE_PREFIX) | |
4560 | { | |
4561 | as_bad (_("bad memory operand `%s'"), op_string); | |
4562 | return 0; | |
4563 | } | |
47926f60 | 4564 | /* Handle case of %es:*foo. */ |
24eab124 AM |
4565 | if (*op_string == ABSOLUTE_PREFIX) |
4566 | { | |
4567 | ++op_string; | |
4568 | if (is_space_char (*op_string)) | |
4569 | ++op_string; | |
4570 | i.types[this_operand] |= JumpAbsolute; | |
4571 | } | |
4572 | goto do_memory_reference; | |
4573 | } | |
4574 | if (*op_string) | |
4575 | { | |
d0b47220 | 4576 | as_bad (_("junk `%s' after register"), op_string); |
24eab124 AM |
4577 | return 0; |
4578 | } | |
4579 | i.types[this_operand] |= r->reg_type & ~BaseIndex; | |
520dc8e8 | 4580 | i.op[this_operand].regs = r; |
24eab124 AM |
4581 | i.reg_operands++; |
4582 | } | |
af6bdddf AM |
4583 | else if (*op_string == REGISTER_PREFIX) |
4584 | { | |
4585 | as_bad (_("bad register name `%s'"), op_string); | |
4586 | return 0; | |
4587 | } | |
24eab124 | 4588 | else if (*op_string == IMMEDIATE_PREFIX) |
ce8a8b2f | 4589 | { |
24eab124 AM |
4590 | ++op_string; |
4591 | if (i.types[this_operand] & JumpAbsolute) | |
4592 | { | |
d0b47220 | 4593 | as_bad (_("immediate operand illegal with absolute jump")); |
24eab124 AM |
4594 | return 0; |
4595 | } | |
4596 | if (!i386_immediate (op_string)) | |
4597 | return 0; | |
4598 | } | |
4599 | else if (is_digit_char (*op_string) | |
4600 | || is_identifier_char (*op_string) | |
e5cb08ac | 4601 | || *op_string == '(') |
24eab124 | 4602 | { |
47926f60 | 4603 | /* This is a memory reference of some sort. */ |
af6bdddf | 4604 | char *base_string; |
252b5132 | 4605 | |
47926f60 | 4606 | /* Start and end of displacement string expression (if found). */ |
eecb386c AM |
4607 | char *displacement_string_start; |
4608 | char *displacement_string_end; | |
252b5132 | 4609 | |
24eab124 | 4610 | do_memory_reference: |
24eab124 AM |
4611 | if ((i.mem_operands == 1 |
4612 | && (current_templates->start->opcode_modifier & IsString) == 0) | |
4613 | || i.mem_operands == 2) | |
4614 | { | |
4615 | as_bad (_("too many memory references for `%s'"), | |
4616 | current_templates->start->name); | |
4617 | return 0; | |
4618 | } | |
252b5132 | 4619 | |
24eab124 AM |
4620 | /* Check for base index form. We detect the base index form by |
4621 | looking for an ')' at the end of the operand, searching | |
4622 | for the '(' matching it, and finding a REGISTER_PREFIX or ',' | |
4623 | after the '('. */ | |
af6bdddf | 4624 | base_string = op_string + strlen (op_string); |
c3332e24 | 4625 | |
af6bdddf AM |
4626 | --base_string; |
4627 | if (is_space_char (*base_string)) | |
4628 | --base_string; | |
252b5132 | 4629 | |
47926f60 | 4630 | /* If we only have a displacement, set-up for it to be parsed later. */ |
af6bdddf AM |
4631 | displacement_string_start = op_string; |
4632 | displacement_string_end = base_string + 1; | |
252b5132 | 4633 | |
24eab124 AM |
4634 | if (*base_string == ')') |
4635 | { | |
af6bdddf | 4636 | char *temp_string; |
24eab124 AM |
4637 | unsigned int parens_balanced = 1; |
4638 | /* We've already checked that the number of left & right ()'s are | |
47926f60 | 4639 | equal, so this loop will not be infinite. */ |
24eab124 AM |
4640 | do |
4641 | { | |
4642 | base_string--; | |
4643 | if (*base_string == ')') | |
4644 | parens_balanced++; | |
4645 | if (*base_string == '(') | |
4646 | parens_balanced--; | |
4647 | } | |
4648 | while (parens_balanced); | |
c3332e24 | 4649 | |
af6bdddf | 4650 | temp_string = base_string; |
c3332e24 | 4651 | |
24eab124 | 4652 | /* Skip past '(' and whitespace. */ |
252b5132 RH |
4653 | ++base_string; |
4654 | if (is_space_char (*base_string)) | |
24eab124 | 4655 | ++base_string; |
252b5132 | 4656 | |
af6bdddf | 4657 | if (*base_string == ',' |
4d1bb795 | 4658 | || ((i.base_reg = parse_register (base_string, &end_op)) != NULL)) |
252b5132 | 4659 | { |
af6bdddf | 4660 | displacement_string_end = temp_string; |
252b5132 | 4661 | |
af6bdddf | 4662 | i.types[this_operand] |= BaseIndex; |
252b5132 | 4663 | |
af6bdddf | 4664 | if (i.base_reg) |
24eab124 | 4665 | { |
24eab124 AM |
4666 | base_string = end_op; |
4667 | if (is_space_char (*base_string)) | |
4668 | ++base_string; | |
af6bdddf AM |
4669 | } |
4670 | ||
4671 | /* There may be an index reg or scale factor here. */ | |
4672 | if (*base_string == ',') | |
4673 | { | |
4674 | ++base_string; | |
4675 | if (is_space_char (*base_string)) | |
4676 | ++base_string; | |
4677 | ||
4d1bb795 | 4678 | if ((i.index_reg = parse_register (base_string, &end_op)) != NULL) |
24eab124 | 4679 | { |
af6bdddf | 4680 | base_string = end_op; |
24eab124 AM |
4681 | if (is_space_char (*base_string)) |
4682 | ++base_string; | |
af6bdddf AM |
4683 | if (*base_string == ',') |
4684 | { | |
4685 | ++base_string; | |
4686 | if (is_space_char (*base_string)) | |
4687 | ++base_string; | |
4688 | } | |
e5cb08ac | 4689 | else if (*base_string != ')') |
af6bdddf AM |
4690 | { |
4691 | as_bad (_("expecting `,' or `)' after index register in `%s'"), | |
4692 | operand_string); | |
4693 | return 0; | |
4694 | } | |
24eab124 | 4695 | } |
af6bdddf | 4696 | else if (*base_string == REGISTER_PREFIX) |
24eab124 | 4697 | { |
af6bdddf | 4698 | as_bad (_("bad register name `%s'"), base_string); |
24eab124 AM |
4699 | return 0; |
4700 | } | |
252b5132 | 4701 | |
47926f60 | 4702 | /* Check for scale factor. */ |
551c1ca1 | 4703 | if (*base_string != ')') |
af6bdddf | 4704 | { |
551c1ca1 AM |
4705 | char *end_scale = i386_scale (base_string); |
4706 | ||
4707 | if (!end_scale) | |
af6bdddf | 4708 | return 0; |
24eab124 | 4709 | |
551c1ca1 | 4710 | base_string = end_scale; |
af6bdddf AM |
4711 | if (is_space_char (*base_string)) |
4712 | ++base_string; | |
4713 | if (*base_string != ')') | |
4714 | { | |
4715 | as_bad (_("expecting `)' after scale factor in `%s'"), | |
4716 | operand_string); | |
4717 | return 0; | |
4718 | } | |
4719 | } | |
4720 | else if (!i.index_reg) | |
24eab124 | 4721 | { |
af6bdddf AM |
4722 | as_bad (_("expecting index register or scale factor after `,'; got '%c'"), |
4723 | *base_string); | |
24eab124 AM |
4724 | return 0; |
4725 | } | |
4726 | } | |
af6bdddf | 4727 | else if (*base_string != ')') |
24eab124 | 4728 | { |
af6bdddf AM |
4729 | as_bad (_("expecting `,' or `)' after base register in `%s'"), |
4730 | operand_string); | |
24eab124 AM |
4731 | return 0; |
4732 | } | |
c3332e24 | 4733 | } |
af6bdddf | 4734 | else if (*base_string == REGISTER_PREFIX) |
c3332e24 | 4735 | { |
af6bdddf | 4736 | as_bad (_("bad register name `%s'"), base_string); |
24eab124 | 4737 | return 0; |
c3332e24 | 4738 | } |
24eab124 AM |
4739 | } |
4740 | ||
4741 | /* If there's an expression beginning the operand, parse it, | |
4742 | assuming displacement_string_start and | |
4743 | displacement_string_end are meaningful. */ | |
4744 | if (displacement_string_start != displacement_string_end) | |
4745 | { | |
4746 | if (!i386_displacement (displacement_string_start, | |
4747 | displacement_string_end)) | |
4748 | return 0; | |
4749 | } | |
4750 | ||
4751 | /* Special case for (%dx) while doing input/output op. */ | |
4752 | if (i.base_reg | |
4753 | && i.base_reg->reg_type == (Reg16 | InOutPortReg) | |
4754 | && i.index_reg == 0 | |
4755 | && i.log2_scale_factor == 0 | |
4756 | && i.seg[i.mem_operands] == 0 | |
4757 | && (i.types[this_operand] & Disp) == 0) | |
4758 | { | |
4759 | i.types[this_operand] = InOutPortReg; | |
4760 | return 1; | |
4761 | } | |
4762 | ||
eecb386c AM |
4763 | if (i386_index_check (operand_string) == 0) |
4764 | return 0; | |
24eab124 AM |
4765 | i.mem_operands++; |
4766 | } | |
4767 | else | |
ce8a8b2f AM |
4768 | { |
4769 | /* It's not a memory operand; argh! */ | |
24eab124 AM |
4770 | as_bad (_("invalid char %s beginning operand %d `%s'"), |
4771 | output_invalid (*op_string), | |
4772 | this_operand + 1, | |
4773 | op_string); | |
4774 | return 0; | |
4775 | } | |
47926f60 | 4776 | return 1; /* Normal return. */ |
252b5132 RH |
4777 | } |
4778 | \f | |
ee7fcc42 AM |
4779 | /* md_estimate_size_before_relax() |
4780 | ||
4781 | Called just before relax() for rs_machine_dependent frags. The x86 | |
4782 | assembler uses these frags to handle variable size jump | |
4783 | instructions. | |
4784 | ||
4785 | Any symbol that is now undefined will not become defined. | |
4786 | Return the correct fr_subtype in the frag. | |
4787 | Return the initial "guess for variable size of frag" to caller. | |
4788 | The guess is actually the growth beyond the fixed part. Whatever | |
4789 | we do to grow the fixed or variable part contributes to our | |
4790 | returned value. */ | |
4791 | ||
252b5132 RH |
4792 | int |
4793 | md_estimate_size_before_relax (fragP, segment) | |
29b0f896 AM |
4794 | fragS *fragP; |
4795 | segT segment; | |
252b5132 | 4796 | { |
252b5132 | 4797 | /* We've already got fragP->fr_subtype right; all we have to do is |
b98ef147 AM |
4798 | check for un-relaxable symbols. On an ELF system, we can't relax |
4799 | an externally visible symbol, because it may be overridden by a | |
4800 | shared library. */ | |
4801 | if (S_GET_SEGMENT (fragP->fr_symbol) != segment | |
6d249963 | 4802 | #if defined (OBJ_ELF) || defined (OBJ_MAYBE_ELF) |
718ddfc0 | 4803 | || (IS_ELF |
31312f95 AM |
4804 | && (S_IS_EXTERNAL (fragP->fr_symbol) |
4805 | || S_IS_WEAK (fragP->fr_symbol))) | |
b98ef147 AM |
4806 | #endif |
4807 | ) | |
252b5132 | 4808 | { |
b98ef147 AM |
4809 | /* Symbol is undefined in this segment, or we need to keep a |
4810 | reloc so that weak symbols can be overridden. */ | |
4811 | int size = (fragP->fr_subtype & CODE16) ? 2 : 4; | |
f86103b7 | 4812 | enum bfd_reloc_code_real reloc_type; |
ee7fcc42 AM |
4813 | unsigned char *opcode; |
4814 | int old_fr_fix; | |
f6af82bd | 4815 | |
ee7fcc42 AM |
4816 | if (fragP->fr_var != NO_RELOC) |
4817 | reloc_type = fragP->fr_var; | |
b98ef147 | 4818 | else if (size == 2) |
f6af82bd AM |
4819 | reloc_type = BFD_RELOC_16_PCREL; |
4820 | else | |
4821 | reloc_type = BFD_RELOC_32_PCREL; | |
252b5132 | 4822 | |
ee7fcc42 AM |
4823 | old_fr_fix = fragP->fr_fix; |
4824 | opcode = (unsigned char *) fragP->fr_opcode; | |
4825 | ||
fddf5b5b | 4826 | switch (TYPE_FROM_RELAX_STATE (fragP->fr_subtype)) |
252b5132 | 4827 | { |
fddf5b5b AM |
4828 | case UNCOND_JUMP: |
4829 | /* Make jmp (0xeb) a (d)word displacement jump. */ | |
47926f60 | 4830 | opcode[0] = 0xe9; |
252b5132 | 4831 | fragP->fr_fix += size; |
062cd5e7 AS |
4832 | fix_new (fragP, old_fr_fix, size, |
4833 | fragP->fr_symbol, | |
4834 | fragP->fr_offset, 1, | |
4835 | reloc_type); | |
252b5132 RH |
4836 | break; |
4837 | ||
fddf5b5b | 4838 | case COND_JUMP86: |
412167cb AM |
4839 | if (size == 2 |
4840 | && (!no_cond_jump_promotion || fragP->fr_var != NO_RELOC)) | |
fddf5b5b AM |
4841 | { |
4842 | /* Negate the condition, and branch past an | |
4843 | unconditional jump. */ | |
4844 | opcode[0] ^= 1; | |
4845 | opcode[1] = 3; | |
4846 | /* Insert an unconditional jump. */ | |
4847 | opcode[2] = 0xe9; | |
4848 | /* We added two extra opcode bytes, and have a two byte | |
4849 | offset. */ | |
4850 | fragP->fr_fix += 2 + 2; | |
062cd5e7 AS |
4851 | fix_new (fragP, old_fr_fix + 2, 2, |
4852 | fragP->fr_symbol, | |
4853 | fragP->fr_offset, 1, | |
4854 | reloc_type); | |
fddf5b5b AM |
4855 | break; |
4856 | } | |
4857 | /* Fall through. */ | |
4858 | ||
4859 | case COND_JUMP: | |
412167cb AM |
4860 | if (no_cond_jump_promotion && fragP->fr_var == NO_RELOC) |
4861 | { | |
3e02c1cc AM |
4862 | fixS *fixP; |
4863 | ||
412167cb | 4864 | fragP->fr_fix += 1; |
3e02c1cc AM |
4865 | fixP = fix_new (fragP, old_fr_fix, 1, |
4866 | fragP->fr_symbol, | |
4867 | fragP->fr_offset, 1, | |
4868 | BFD_RELOC_8_PCREL); | |
4869 | fixP->fx_signed = 1; | |
412167cb AM |
4870 | break; |
4871 | } | |
93c2a809 | 4872 | |
24eab124 | 4873 | /* This changes the byte-displacement jump 0x7N |
fddf5b5b | 4874 | to the (d)word-displacement jump 0x0f,0x8N. */ |
252b5132 | 4875 | opcode[1] = opcode[0] + 0x10; |
f6af82bd | 4876 | opcode[0] = TWO_BYTE_OPCODE_ESCAPE; |
47926f60 KH |
4877 | /* We've added an opcode byte. */ |
4878 | fragP->fr_fix += 1 + size; | |
062cd5e7 AS |
4879 | fix_new (fragP, old_fr_fix + 1, size, |
4880 | fragP->fr_symbol, | |
4881 | fragP->fr_offset, 1, | |
4882 | reloc_type); | |
252b5132 | 4883 | break; |
fddf5b5b AM |
4884 | |
4885 | default: | |
4886 | BAD_CASE (fragP->fr_subtype); | |
4887 | break; | |
252b5132 RH |
4888 | } |
4889 | frag_wane (fragP); | |
ee7fcc42 | 4890 | return fragP->fr_fix - old_fr_fix; |
252b5132 | 4891 | } |
93c2a809 | 4892 | |
93c2a809 AM |
4893 | /* Guess size depending on current relax state. Initially the relax |
4894 | state will correspond to a short jump and we return 1, because | |
4895 | the variable part of the frag (the branch offset) is one byte | |
4896 | long. However, we can relax a section more than once and in that | |
4897 | case we must either set fr_subtype back to the unrelaxed state, | |
4898 | or return the value for the appropriate branch. */ | |
4899 | return md_relax_table[fragP->fr_subtype].rlx_length; | |
ee7fcc42 AM |
4900 | } |
4901 | ||
47926f60 KH |
4902 | /* Called after relax() is finished. |
4903 | ||
4904 | In: Address of frag. | |
4905 | fr_type == rs_machine_dependent. | |
4906 | fr_subtype is what the address relaxed to. | |
4907 | ||
4908 | Out: Any fixSs and constants are set up. | |
4909 | Caller will turn frag into a ".space 0". */ | |
4910 | ||
252b5132 RH |
4911 | void |
4912 | md_convert_frag (abfd, sec, fragP) | |
ab9da554 ILT |
4913 | bfd *abfd ATTRIBUTE_UNUSED; |
4914 | segT sec ATTRIBUTE_UNUSED; | |
29b0f896 | 4915 | fragS *fragP; |
252b5132 | 4916 | { |
29b0f896 | 4917 | unsigned char *opcode; |
252b5132 | 4918 | unsigned char *where_to_put_displacement = NULL; |
847f7ad4 AM |
4919 | offsetT target_address; |
4920 | offsetT opcode_address; | |
252b5132 | 4921 | unsigned int extension = 0; |
847f7ad4 | 4922 | offsetT displacement_from_opcode_start; |
252b5132 RH |
4923 | |
4924 | opcode = (unsigned char *) fragP->fr_opcode; | |
4925 | ||
47926f60 | 4926 | /* Address we want to reach in file space. */ |
252b5132 | 4927 | target_address = S_GET_VALUE (fragP->fr_symbol) + fragP->fr_offset; |
252b5132 | 4928 | |
47926f60 | 4929 | /* Address opcode resides at in file space. */ |
252b5132 RH |
4930 | opcode_address = fragP->fr_address + fragP->fr_fix; |
4931 | ||
47926f60 | 4932 | /* Displacement from opcode start to fill into instruction. */ |
252b5132 RH |
4933 | displacement_from_opcode_start = target_address - opcode_address; |
4934 | ||
fddf5b5b | 4935 | if ((fragP->fr_subtype & BIG) == 0) |
252b5132 | 4936 | { |
47926f60 KH |
4937 | /* Don't have to change opcode. */ |
4938 | extension = 1; /* 1 opcode + 1 displacement */ | |
252b5132 | 4939 | where_to_put_displacement = &opcode[1]; |
fddf5b5b AM |
4940 | } |
4941 | else | |
4942 | { | |
4943 | if (no_cond_jump_promotion | |
4944 | && TYPE_FROM_RELAX_STATE (fragP->fr_subtype) != UNCOND_JUMP) | |
4945 | as_warn_where (fragP->fr_file, fragP->fr_line, _("long jump required")); | |
252b5132 | 4946 | |
fddf5b5b AM |
4947 | switch (fragP->fr_subtype) |
4948 | { | |
4949 | case ENCODE_RELAX_STATE (UNCOND_JUMP, BIG): | |
4950 | extension = 4; /* 1 opcode + 4 displacement */ | |
4951 | opcode[0] = 0xe9; | |
4952 | where_to_put_displacement = &opcode[1]; | |
4953 | break; | |
252b5132 | 4954 | |
fddf5b5b AM |
4955 | case ENCODE_RELAX_STATE (UNCOND_JUMP, BIG16): |
4956 | extension = 2; /* 1 opcode + 2 displacement */ | |
4957 | opcode[0] = 0xe9; | |
4958 | where_to_put_displacement = &opcode[1]; | |
4959 | break; | |
252b5132 | 4960 | |
fddf5b5b AM |
4961 | case ENCODE_RELAX_STATE (COND_JUMP, BIG): |
4962 | case ENCODE_RELAX_STATE (COND_JUMP86, BIG): | |
4963 | extension = 5; /* 2 opcode + 4 displacement */ | |
4964 | opcode[1] = opcode[0] + 0x10; | |
4965 | opcode[0] = TWO_BYTE_OPCODE_ESCAPE; | |
4966 | where_to_put_displacement = &opcode[2]; | |
4967 | break; | |
252b5132 | 4968 | |
fddf5b5b AM |
4969 | case ENCODE_RELAX_STATE (COND_JUMP, BIG16): |
4970 | extension = 3; /* 2 opcode + 2 displacement */ | |
4971 | opcode[1] = opcode[0] + 0x10; | |
4972 | opcode[0] = TWO_BYTE_OPCODE_ESCAPE; | |
4973 | where_to_put_displacement = &opcode[2]; | |
4974 | break; | |
252b5132 | 4975 | |
fddf5b5b AM |
4976 | case ENCODE_RELAX_STATE (COND_JUMP86, BIG16): |
4977 | extension = 4; | |
4978 | opcode[0] ^= 1; | |
4979 | opcode[1] = 3; | |
4980 | opcode[2] = 0xe9; | |
4981 | where_to_put_displacement = &opcode[3]; | |
4982 | break; | |
4983 | ||
4984 | default: | |
4985 | BAD_CASE (fragP->fr_subtype); | |
4986 | break; | |
4987 | } | |
252b5132 | 4988 | } |
fddf5b5b | 4989 | |
7b81dfbb AJ |
4990 | /* If size if less then four we are sure that the operand fits, |
4991 | but if it's 4, then it could be that the displacement is larger | |
4992 | then -/+ 2GB. */ | |
4993 | if (DISP_SIZE_FROM_RELAX_STATE (fragP->fr_subtype) == 4 | |
4994 | && object_64bit | |
4995 | && ((addressT) (displacement_from_opcode_start - extension | |
4996 | + ((addressT) 1 << 31)) | |
4997 | > (((addressT) 2 << 31) - 1))) | |
4998 | { | |
4999 | as_bad_where (fragP->fr_file, fragP->fr_line, | |
5000 | _("jump target out of range")); | |
5001 | /* Make us emit 0. */ | |
5002 | displacement_from_opcode_start = extension; | |
5003 | } | |
47926f60 | 5004 | /* Now put displacement after opcode. */ |
252b5132 RH |
5005 | md_number_to_chars ((char *) where_to_put_displacement, |
5006 | (valueT) (displacement_from_opcode_start - extension), | |
fddf5b5b | 5007 | DISP_SIZE_FROM_RELAX_STATE (fragP->fr_subtype)); |
252b5132 RH |
5008 | fragP->fr_fix += extension; |
5009 | } | |
5010 | \f | |
47926f60 KH |
5011 | /* Size of byte displacement jmp. */ |
5012 | int md_short_jump_size = 2; | |
5013 | ||
5014 | /* Size of dword displacement jmp. */ | |
5015 | int md_long_jump_size = 5; | |
252b5132 | 5016 | |
252b5132 RH |
5017 | void |
5018 | md_create_short_jump (ptr, from_addr, to_addr, frag, to_symbol) | |
5019 | char *ptr; | |
5020 | addressT from_addr, to_addr; | |
ab9da554 ILT |
5021 | fragS *frag ATTRIBUTE_UNUSED; |
5022 | symbolS *to_symbol ATTRIBUTE_UNUSED; | |
252b5132 | 5023 | { |
847f7ad4 | 5024 | offsetT offset; |
252b5132 RH |
5025 | |
5026 | offset = to_addr - (from_addr + 2); | |
47926f60 KH |
5027 | /* Opcode for byte-disp jump. */ |
5028 | md_number_to_chars (ptr, (valueT) 0xeb, 1); | |
252b5132 RH |
5029 | md_number_to_chars (ptr + 1, (valueT) offset, 1); |
5030 | } | |
5031 | ||
5032 | void | |
5033 | md_create_long_jump (ptr, from_addr, to_addr, frag, to_symbol) | |
5034 | char *ptr; | |
5035 | addressT from_addr, to_addr; | |
a38cf1db AM |
5036 | fragS *frag ATTRIBUTE_UNUSED; |
5037 | symbolS *to_symbol ATTRIBUTE_UNUSED; | |
252b5132 | 5038 | { |
847f7ad4 | 5039 | offsetT offset; |
252b5132 | 5040 | |
a38cf1db AM |
5041 | offset = to_addr - (from_addr + 5); |
5042 | md_number_to_chars (ptr, (valueT) 0xe9, 1); | |
5043 | md_number_to_chars (ptr + 1, (valueT) offset, 4); | |
252b5132 RH |
5044 | } |
5045 | \f | |
5046 | /* Apply a fixup (fixS) to segment data, once it has been determined | |
5047 | by our caller that we have all the info we need to fix it up. | |
5048 | ||
5049 | On the 386, immediates, displacements, and data pointers are all in | |
5050 | the same (little-endian) format, so we don't need to care about which | |
5051 | we are handling. */ | |
5052 | ||
94f592af | 5053 | void |
55cf6793 | 5054 | md_apply_fix (fixP, valP, seg) |
47926f60 KH |
5055 | /* The fix we're to put in. */ |
5056 | fixS *fixP; | |
47926f60 | 5057 | /* Pointer to the value of the bits. */ |
c6682705 | 5058 | valueT *valP; |
47926f60 KH |
5059 | /* Segment fix is from. */ |
5060 | segT seg ATTRIBUTE_UNUSED; | |
252b5132 | 5061 | { |
94f592af | 5062 | char *p = fixP->fx_where + fixP->fx_frag->fr_literal; |
c6682705 | 5063 | valueT value = *valP; |
252b5132 | 5064 | |
f86103b7 | 5065 | #if !defined (TE_Mach) |
93382f6d AM |
5066 | if (fixP->fx_pcrel) |
5067 | { | |
5068 | switch (fixP->fx_r_type) | |
5069 | { | |
5865bb77 ILT |
5070 | default: |
5071 | break; | |
5072 | ||
d6ab8113 JB |
5073 | case BFD_RELOC_64: |
5074 | fixP->fx_r_type = BFD_RELOC_64_PCREL; | |
5075 | break; | |
93382f6d | 5076 | case BFD_RELOC_32: |
ae8887b5 | 5077 | case BFD_RELOC_X86_64_32S: |
93382f6d AM |
5078 | fixP->fx_r_type = BFD_RELOC_32_PCREL; |
5079 | break; | |
5080 | case BFD_RELOC_16: | |
5081 | fixP->fx_r_type = BFD_RELOC_16_PCREL; | |
5082 | break; | |
5083 | case BFD_RELOC_8: | |
5084 | fixP->fx_r_type = BFD_RELOC_8_PCREL; | |
5085 | break; | |
5086 | } | |
5087 | } | |
252b5132 | 5088 | |
a161fe53 | 5089 | if (fixP->fx_addsy != NULL |
31312f95 | 5090 | && (fixP->fx_r_type == BFD_RELOC_32_PCREL |
d6ab8113 | 5091 | || fixP->fx_r_type == BFD_RELOC_64_PCREL |
31312f95 AM |
5092 | || fixP->fx_r_type == BFD_RELOC_16_PCREL |
5093 | || fixP->fx_r_type == BFD_RELOC_8_PCREL) | |
5094 | && !use_rela_relocations) | |
252b5132 | 5095 | { |
31312f95 AM |
5096 | /* This is a hack. There should be a better way to handle this. |
5097 | This covers for the fact that bfd_install_relocation will | |
5098 | subtract the current location (for partial_inplace, PC relative | |
5099 | relocations); see more below. */ | |
252b5132 | 5100 | #ifndef OBJ_AOUT |
718ddfc0 | 5101 | if (IS_ELF |
252b5132 RH |
5102 | #ifdef TE_PE |
5103 | || OUTPUT_FLAVOR == bfd_target_coff_flavour | |
5104 | #endif | |
5105 | ) | |
5106 | value += fixP->fx_where + fixP->fx_frag->fr_address; | |
5107 | #endif | |
5108 | #if defined (OBJ_ELF) || defined (OBJ_MAYBE_ELF) | |
718ddfc0 | 5109 | if (IS_ELF) |
252b5132 | 5110 | { |
6539b54b | 5111 | segT sym_seg = S_GET_SEGMENT (fixP->fx_addsy); |
2f66722d | 5112 | |
6539b54b | 5113 | if ((sym_seg == seg |
2f66722d | 5114 | || (symbol_section_p (fixP->fx_addsy) |
6539b54b | 5115 | && sym_seg != absolute_section)) |
ae6063d4 | 5116 | && !generic_force_reloc (fixP)) |
2f66722d AM |
5117 | { |
5118 | /* Yes, we add the values in twice. This is because | |
6539b54b AM |
5119 | bfd_install_relocation subtracts them out again. I think |
5120 | bfd_install_relocation is broken, but I don't dare change | |
2f66722d AM |
5121 | it. FIXME. */ |
5122 | value += fixP->fx_where + fixP->fx_frag->fr_address; | |
5123 | } | |
252b5132 RH |
5124 | } |
5125 | #endif | |
5126 | #if defined (OBJ_COFF) && defined (TE_PE) | |
977cdf5a NC |
5127 | /* For some reason, the PE format does not store a |
5128 | section address offset for a PC relative symbol. */ | |
5129 | if (S_GET_SEGMENT (fixP->fx_addsy) != seg | |
7be1c489 | 5130 | || S_IS_WEAK (fixP->fx_addsy)) |
252b5132 RH |
5131 | value += md_pcrel_from (fixP); |
5132 | #endif | |
5133 | } | |
5134 | ||
5135 | /* Fix a few things - the dynamic linker expects certain values here, | |
0234cb7c | 5136 | and we must not disappoint it. */ |
252b5132 | 5137 | #if defined (OBJ_ELF) || defined (OBJ_MAYBE_ELF) |
718ddfc0 | 5138 | if (IS_ELF && fixP->fx_addsy) |
47926f60 KH |
5139 | switch (fixP->fx_r_type) |
5140 | { | |
5141 | case BFD_RELOC_386_PLT32: | |
3e73aa7c | 5142 | case BFD_RELOC_X86_64_PLT32: |
47926f60 KH |
5143 | /* Make the jump instruction point to the address of the operand. At |
5144 | runtime we merely add the offset to the actual PLT entry. */ | |
5145 | value = -4; | |
5146 | break; | |
31312f95 | 5147 | |
13ae64f3 JJ |
5148 | case BFD_RELOC_386_TLS_GD: |
5149 | case BFD_RELOC_386_TLS_LDM: | |
13ae64f3 | 5150 | case BFD_RELOC_386_TLS_IE_32: |
37e55690 JJ |
5151 | case BFD_RELOC_386_TLS_IE: |
5152 | case BFD_RELOC_386_TLS_GOTIE: | |
67a4f2b7 | 5153 | case BFD_RELOC_386_TLS_GOTDESC: |
bffbf940 JJ |
5154 | case BFD_RELOC_X86_64_TLSGD: |
5155 | case BFD_RELOC_X86_64_TLSLD: | |
5156 | case BFD_RELOC_X86_64_GOTTPOFF: | |
67a4f2b7 | 5157 | case BFD_RELOC_X86_64_GOTPC32_TLSDESC: |
00f7efb6 JJ |
5158 | value = 0; /* Fully resolved at runtime. No addend. */ |
5159 | /* Fallthrough */ | |
5160 | case BFD_RELOC_386_TLS_LE: | |
5161 | case BFD_RELOC_386_TLS_LDO_32: | |
5162 | case BFD_RELOC_386_TLS_LE_32: | |
5163 | case BFD_RELOC_X86_64_DTPOFF32: | |
d6ab8113 | 5164 | case BFD_RELOC_X86_64_DTPOFF64: |
00f7efb6 | 5165 | case BFD_RELOC_X86_64_TPOFF32: |
d6ab8113 | 5166 | case BFD_RELOC_X86_64_TPOFF64: |
00f7efb6 JJ |
5167 | S_SET_THREAD_LOCAL (fixP->fx_addsy); |
5168 | break; | |
5169 | ||
67a4f2b7 AO |
5170 | case BFD_RELOC_386_TLS_DESC_CALL: |
5171 | case BFD_RELOC_X86_64_TLSDESC_CALL: | |
5172 | value = 0; /* Fully resolved at runtime. No addend. */ | |
5173 | S_SET_THREAD_LOCAL (fixP->fx_addsy); | |
5174 | fixP->fx_done = 0; | |
5175 | return; | |
5176 | ||
00f7efb6 JJ |
5177 | case BFD_RELOC_386_GOT32: |
5178 | case BFD_RELOC_X86_64_GOT32: | |
47926f60 KH |
5179 | value = 0; /* Fully resolved at runtime. No addend. */ |
5180 | break; | |
47926f60 KH |
5181 | |
5182 | case BFD_RELOC_VTABLE_INHERIT: | |
5183 | case BFD_RELOC_VTABLE_ENTRY: | |
5184 | fixP->fx_done = 0; | |
94f592af | 5185 | return; |
47926f60 KH |
5186 | |
5187 | default: | |
5188 | break; | |
5189 | } | |
5190 | #endif /* defined (OBJ_ELF) || defined (OBJ_MAYBE_ELF) */ | |
c6682705 | 5191 | *valP = value; |
f86103b7 | 5192 | #endif /* !defined (TE_Mach) */ |
3e73aa7c | 5193 | |
3e73aa7c | 5194 | /* Are we finished with this relocation now? */ |
c6682705 | 5195 | if (fixP->fx_addsy == NULL) |
3e73aa7c JH |
5196 | fixP->fx_done = 1; |
5197 | else if (use_rela_relocations) | |
5198 | { | |
5199 | fixP->fx_no_overflow = 1; | |
062cd5e7 AS |
5200 | /* Remember value for tc_gen_reloc. */ |
5201 | fixP->fx_addnumber = value; | |
3e73aa7c JH |
5202 | value = 0; |
5203 | } | |
f86103b7 | 5204 | |
94f592af | 5205 | md_number_to_chars (p, value, fixP->fx_size); |
252b5132 | 5206 | } |
252b5132 | 5207 | \f |
252b5132 RH |
5208 | #define MAX_LITTLENUMS 6 |
5209 | ||
47926f60 KH |
5210 | /* Turn the string pointed to by litP into a floating point constant |
5211 | of type TYPE, and emit the appropriate bytes. The number of | |
5212 | LITTLENUMS emitted is stored in *SIZEP. An error message is | |
5213 | returned, or NULL on OK. */ | |
5214 | ||
252b5132 RH |
5215 | char * |
5216 | md_atof (type, litP, sizeP) | |
2ab9b79e | 5217 | int type; |
252b5132 RH |
5218 | char *litP; |
5219 | int *sizeP; | |
5220 | { | |
5221 | int prec; | |
5222 | LITTLENUM_TYPE words[MAX_LITTLENUMS]; | |
5223 | LITTLENUM_TYPE *wordP; | |
5224 | char *t; | |
5225 | ||
5226 | switch (type) | |
5227 | { | |
5228 | case 'f': | |
5229 | case 'F': | |
5230 | prec = 2; | |
5231 | break; | |
5232 | ||
5233 | case 'd': | |
5234 | case 'D': | |
5235 | prec = 4; | |
5236 | break; | |
5237 | ||
5238 | case 'x': | |
5239 | case 'X': | |
5240 | prec = 5; | |
5241 | break; | |
5242 | ||
5243 | default: | |
5244 | *sizeP = 0; | |
5245 | return _("Bad call to md_atof ()"); | |
5246 | } | |
5247 | t = atof_ieee (input_line_pointer, type, words); | |
5248 | if (t) | |
5249 | input_line_pointer = t; | |
5250 | ||
5251 | *sizeP = prec * sizeof (LITTLENUM_TYPE); | |
5252 | /* This loops outputs the LITTLENUMs in REVERSE order; in accord with | |
5253 | the bigendian 386. */ | |
5254 | for (wordP = words + prec - 1; prec--;) | |
5255 | { | |
5256 | md_number_to_chars (litP, (valueT) (*wordP--), sizeof (LITTLENUM_TYPE)); | |
5257 | litP += sizeof (LITTLENUM_TYPE); | |
5258 | } | |
5259 | return 0; | |
5260 | } | |
5261 | \f | |
2d545b82 | 5262 | static char output_invalid_buf[sizeof (unsigned char) * 2 + 6]; |
252b5132 | 5263 | |
252b5132 RH |
5264 | static char * |
5265 | output_invalid (c) | |
5266 | int c; | |
5267 | { | |
3882b010 | 5268 | if (ISPRINT (c)) |
f9f21a03 L |
5269 | snprintf (output_invalid_buf, sizeof (output_invalid_buf), |
5270 | "'%c'", c); | |
252b5132 | 5271 | else |
f9f21a03 | 5272 | snprintf (output_invalid_buf, sizeof (output_invalid_buf), |
2d545b82 | 5273 | "(0x%x)", (unsigned char) c); |
252b5132 RH |
5274 | return output_invalid_buf; |
5275 | } | |
5276 | ||
af6bdddf | 5277 | /* REG_STRING starts *before* REGISTER_PREFIX. */ |
252b5132 RH |
5278 | |
5279 | static const reg_entry * | |
4d1bb795 | 5280 | parse_real_register (char *reg_string, char **end_op) |
252b5132 | 5281 | { |
af6bdddf AM |
5282 | char *s = reg_string; |
5283 | char *p; | |
252b5132 RH |
5284 | char reg_name_given[MAX_REG_NAME_SIZE + 1]; |
5285 | const reg_entry *r; | |
5286 | ||
5287 | /* Skip possible REGISTER_PREFIX and possible whitespace. */ | |
5288 | if (*s == REGISTER_PREFIX) | |
5289 | ++s; | |
5290 | ||
5291 | if (is_space_char (*s)) | |
5292 | ++s; | |
5293 | ||
5294 | p = reg_name_given; | |
af6bdddf | 5295 | while ((*p++ = register_chars[(unsigned char) *s]) != '\0') |
252b5132 RH |
5296 | { |
5297 | if (p >= reg_name_given + MAX_REG_NAME_SIZE) | |
af6bdddf AM |
5298 | return (const reg_entry *) NULL; |
5299 | s++; | |
252b5132 RH |
5300 | } |
5301 | ||
6588847e DN |
5302 | /* For naked regs, make sure that we are not dealing with an identifier. |
5303 | This prevents confusing an identifier like `eax_var' with register | |
5304 | `eax'. */ | |
5305 | if (allow_naked_reg && identifier_chars[(unsigned char) *s]) | |
5306 | return (const reg_entry *) NULL; | |
5307 | ||
af6bdddf | 5308 | *end_op = s; |
252b5132 RH |
5309 | |
5310 | r = (const reg_entry *) hash_find (reg_hash, reg_name_given); | |
5311 | ||
5f47d35b | 5312 | /* Handle floating point regs, allowing spaces in the (i) part. */ |
47926f60 | 5313 | if (r == i386_regtab /* %st is first entry of table */) |
5f47d35b | 5314 | { |
5f47d35b AM |
5315 | if (is_space_char (*s)) |
5316 | ++s; | |
5317 | if (*s == '(') | |
5318 | { | |
af6bdddf | 5319 | ++s; |
5f47d35b AM |
5320 | if (is_space_char (*s)) |
5321 | ++s; | |
5322 | if (*s >= '0' && *s <= '7') | |
5323 | { | |
5324 | r = &i386_float_regtab[*s - '0']; | |
af6bdddf | 5325 | ++s; |
5f47d35b AM |
5326 | if (is_space_char (*s)) |
5327 | ++s; | |
5328 | if (*s == ')') | |
5329 | { | |
5330 | *end_op = s + 1; | |
5331 | return r; | |
5332 | } | |
5f47d35b | 5333 | } |
47926f60 | 5334 | /* We have "%st(" then garbage. */ |
5f47d35b AM |
5335 | return (const reg_entry *) NULL; |
5336 | } | |
5337 | } | |
5338 | ||
1ae00879 | 5339 | if (r != NULL |
20f0a1fc | 5340 | && ((r->reg_flags & (RegRex64 | RegRex)) | (r->reg_type & Reg64)) != 0 |
c4a530c5 | 5341 | && (r->reg_type != Control || !(cpu_arch_flags & CpuSledgehammer)) |
1ae00879 | 5342 | && flag_code != CODE_64BIT) |
20f0a1fc | 5343 | return (const reg_entry *) NULL; |
1ae00879 | 5344 | |
252b5132 RH |
5345 | return r; |
5346 | } | |
4d1bb795 JB |
5347 | |
5348 | /* REG_STRING starts *before* REGISTER_PREFIX. */ | |
5349 | ||
5350 | static const reg_entry * | |
5351 | parse_register (char *reg_string, char **end_op) | |
5352 | { | |
5353 | const reg_entry *r; | |
5354 | ||
5355 | if (*reg_string == REGISTER_PREFIX || allow_naked_reg) | |
5356 | r = parse_real_register (reg_string, end_op); | |
5357 | else | |
5358 | r = NULL; | |
5359 | if (!r) | |
5360 | { | |
5361 | char *save = input_line_pointer; | |
5362 | char c; | |
5363 | symbolS *symbolP; | |
5364 | ||
5365 | input_line_pointer = reg_string; | |
5366 | c = get_symbol_end (); | |
5367 | symbolP = symbol_find (reg_string); | |
5368 | if (symbolP && S_GET_SEGMENT (symbolP) == reg_section) | |
5369 | { | |
5370 | const expressionS *e = symbol_get_value_expression (symbolP); | |
5371 | ||
5372 | know (e->X_op == O_register); | |
5373 | know (e->X_add_number >= 0 && (valueT) e->X_add_number < ARRAY_SIZE (i386_regtab)); | |
5374 | r = i386_regtab + e->X_add_number; | |
5375 | *end_op = input_line_pointer; | |
5376 | } | |
5377 | *input_line_pointer = c; | |
5378 | input_line_pointer = save; | |
5379 | } | |
5380 | return r; | |
5381 | } | |
5382 | ||
5383 | int | |
5384 | i386_parse_name (char *name, expressionS *e, char *nextcharP) | |
5385 | { | |
5386 | const reg_entry *r; | |
5387 | char *end = input_line_pointer; | |
5388 | ||
5389 | *end = *nextcharP; | |
5390 | r = parse_register (name, &input_line_pointer); | |
5391 | if (r && end <= input_line_pointer) | |
5392 | { | |
5393 | *nextcharP = *input_line_pointer; | |
5394 | *input_line_pointer = 0; | |
5395 | e->X_op = O_register; | |
5396 | e->X_add_number = r - i386_regtab; | |
5397 | return 1; | |
5398 | } | |
5399 | input_line_pointer = end; | |
5400 | *end = 0; | |
5401 | return 0; | |
5402 | } | |
5403 | ||
5404 | void | |
5405 | md_operand (expressionS *e) | |
5406 | { | |
5407 | if (*input_line_pointer == REGISTER_PREFIX) | |
5408 | { | |
5409 | char *end; | |
5410 | const reg_entry *r = parse_real_register (input_line_pointer, &end); | |
5411 | ||
5412 | if (r) | |
5413 | { | |
5414 | e->X_op = O_register; | |
5415 | e->X_add_number = r - i386_regtab; | |
5416 | input_line_pointer = end; | |
5417 | } | |
5418 | } | |
5419 | } | |
5420 | ||
252b5132 | 5421 | \f |
4cc782b5 | 5422 | #if defined (OBJ_ELF) || defined (OBJ_MAYBE_ELF) |
12b55ccc | 5423 | const char *md_shortopts = "kVQ:sqn"; |
252b5132 | 5424 | #else |
12b55ccc | 5425 | const char *md_shortopts = "qn"; |
252b5132 | 5426 | #endif |
6e0b89ee | 5427 | |
3e73aa7c | 5428 | #define OPTION_32 (OPTION_MD_BASE + 0) |
b3b91714 AM |
5429 | #define OPTION_64 (OPTION_MD_BASE + 1) |
5430 | #define OPTION_DIVIDE (OPTION_MD_BASE + 2) | |
5431 | ||
5432 | struct option md_longopts[] = { | |
3e73aa7c | 5433 | {"32", no_argument, NULL, OPTION_32}, |
6e0b89ee | 5434 | #if defined (OBJ_ELF) || defined (OBJ_MAYBE_ELF) |
3e73aa7c | 5435 | {"64", no_argument, NULL, OPTION_64}, |
6e0b89ee | 5436 | #endif |
b3b91714 | 5437 | {"divide", no_argument, NULL, OPTION_DIVIDE}, |
252b5132 RH |
5438 | {NULL, no_argument, NULL, 0} |
5439 | }; | |
5440 | size_t md_longopts_size = sizeof (md_longopts); | |
5441 | ||
5442 | int | |
5443 | md_parse_option (c, arg) | |
5444 | int c; | |
ab9da554 | 5445 | char *arg ATTRIBUTE_UNUSED; |
252b5132 RH |
5446 | { |
5447 | switch (c) | |
5448 | { | |
12b55ccc L |
5449 | case 'n': |
5450 | optimize_align_code = 0; | |
5451 | break; | |
5452 | ||
a38cf1db AM |
5453 | case 'q': |
5454 | quiet_warnings = 1; | |
252b5132 RH |
5455 | break; |
5456 | ||
5457 | #if defined (OBJ_ELF) || defined (OBJ_MAYBE_ELF) | |
a38cf1db AM |
5458 | /* -Qy, -Qn: SVR4 arguments controlling whether a .comment section |
5459 | should be emitted or not. FIXME: Not implemented. */ | |
5460 | case 'Q': | |
252b5132 RH |
5461 | break; |
5462 | ||
5463 | /* -V: SVR4 argument to print version ID. */ | |
5464 | case 'V': | |
5465 | print_version_id (); | |
5466 | break; | |
5467 | ||
a38cf1db AM |
5468 | /* -k: Ignore for FreeBSD compatibility. */ |
5469 | case 'k': | |
252b5132 | 5470 | break; |
4cc782b5 ILT |
5471 | |
5472 | case 's': | |
5473 | /* -s: On i386 Solaris, this tells the native assembler to use | |
29b0f896 | 5474 | .stab instead of .stab.excl. We always use .stab anyhow. */ |
4cc782b5 | 5475 | break; |
6e0b89ee | 5476 | |
3e73aa7c JH |
5477 | case OPTION_64: |
5478 | { | |
5479 | const char **list, **l; | |
5480 | ||
3e73aa7c JH |
5481 | list = bfd_target_list (); |
5482 | for (l = list; *l != NULL; l++) | |
6e0b89ee AM |
5483 | if (strcmp (*l, "elf64-x86-64") == 0) |
5484 | { | |
5485 | default_arch = "x86_64"; | |
5486 | break; | |
5487 | } | |
3e73aa7c | 5488 | if (*l == NULL) |
6e0b89ee | 5489 | as_fatal (_("No compiled in support for x86_64")); |
3e73aa7c JH |
5490 | free (list); |
5491 | } | |
5492 | break; | |
5493 | #endif | |
252b5132 | 5494 | |
6e0b89ee AM |
5495 | case OPTION_32: |
5496 | default_arch = "i386"; | |
5497 | break; | |
5498 | ||
b3b91714 AM |
5499 | case OPTION_DIVIDE: |
5500 | #ifdef SVR4_COMMENT_CHARS | |
5501 | { | |
5502 | char *n, *t; | |
5503 | const char *s; | |
5504 | ||
5505 | n = (char *) xmalloc (strlen (i386_comment_chars) + 1); | |
5506 | t = n; | |
5507 | for (s = i386_comment_chars; *s != '\0'; s++) | |
5508 | if (*s != '/') | |
5509 | *t++ = *s; | |
5510 | *t = '\0'; | |
5511 | i386_comment_chars = n; | |
5512 | } | |
5513 | #endif | |
5514 | break; | |
5515 | ||
252b5132 RH |
5516 | default: |
5517 | return 0; | |
5518 | } | |
5519 | return 1; | |
5520 | } | |
5521 | ||
5522 | void | |
5523 | md_show_usage (stream) | |
5524 | FILE *stream; | |
5525 | { | |
4cc782b5 ILT |
5526 | #if defined (OBJ_ELF) || defined (OBJ_MAYBE_ELF) |
5527 | fprintf (stream, _("\ | |
a38cf1db AM |
5528 | -Q ignored\n\ |
5529 | -V print assembler version number\n\ | |
b3b91714 AM |
5530 | -k ignored\n")); |
5531 | #endif | |
5532 | fprintf (stream, _("\ | |
12b55ccc | 5533 | -n Do not optimize code alignment\n\ |
b3b91714 AM |
5534 | -q quieten some warnings\n")); |
5535 | #if defined (OBJ_ELF) || defined (OBJ_MAYBE_ELF) | |
5536 | fprintf (stream, _("\ | |
a38cf1db | 5537 | -s ignored\n")); |
b3b91714 AM |
5538 | #endif |
5539 | #ifdef SVR4_COMMENT_CHARS | |
5540 | fprintf (stream, _("\ | |
5541 | --divide do not treat `/' as a comment character\n")); | |
a38cf1db AM |
5542 | #else |
5543 | fprintf (stream, _("\ | |
b3b91714 | 5544 | --divide ignored\n")); |
4cc782b5 | 5545 | #endif |
252b5132 RH |
5546 | } |
5547 | ||
3e73aa7c JH |
5548 | #if ((defined (OBJ_MAYBE_COFF) && defined (OBJ_MAYBE_AOUT)) \ |
5549 | || defined (OBJ_ELF) || defined (OBJ_MAYBE_ELF)) | |
252b5132 RH |
5550 | |
5551 | /* Pick the target format to use. */ | |
5552 | ||
47926f60 | 5553 | const char * |
252b5132 RH |
5554 | i386_target_format () |
5555 | { | |
3e73aa7c JH |
5556 | if (!strcmp (default_arch, "x86_64")) |
5557 | set_code_flag (CODE_64BIT); | |
5558 | else if (!strcmp (default_arch, "i386")) | |
5559 | set_code_flag (CODE_32BIT); | |
5560 | else | |
5561 | as_fatal (_("Unknown architecture")); | |
252b5132 RH |
5562 | switch (OUTPUT_FLAVOR) |
5563 | { | |
4c63da97 AM |
5564 | #ifdef OBJ_MAYBE_AOUT |
5565 | case bfd_target_aout_flavour: | |
47926f60 | 5566 | return AOUT_TARGET_FORMAT; |
4c63da97 AM |
5567 | #endif |
5568 | #ifdef OBJ_MAYBE_COFF | |
252b5132 RH |
5569 | case bfd_target_coff_flavour: |
5570 | return "coff-i386"; | |
4c63da97 | 5571 | #endif |
3e73aa7c | 5572 | #if defined (OBJ_MAYBE_ELF) || defined (OBJ_ELF) |
252b5132 | 5573 | case bfd_target_elf_flavour: |
3e73aa7c | 5574 | { |
e5cb08ac | 5575 | if (flag_code == CODE_64BIT) |
4fa24527 JB |
5576 | { |
5577 | object_64bit = 1; | |
5578 | use_rela_relocations = 1; | |
5579 | } | |
4ada7262 | 5580 | return flag_code == CODE_64BIT ? "elf64-x86-64" : ELF_TARGET_FORMAT; |
3e73aa7c | 5581 | } |
4c63da97 | 5582 | #endif |
252b5132 RH |
5583 | default: |
5584 | abort (); | |
5585 | return NULL; | |
5586 | } | |
5587 | } | |
5588 | ||
47926f60 | 5589 | #endif /* OBJ_MAYBE_ more than one */ |
a847613f AM |
5590 | |
5591 | #if (defined (OBJ_ELF) || defined (OBJ_MAYBE_ELF)) | |
5592 | void i386_elf_emit_arch_note () | |
5593 | { | |
718ddfc0 | 5594 | if (IS_ELF && cpu_arch_name != NULL) |
a847613f AM |
5595 | { |
5596 | char *p; | |
5597 | asection *seg = now_seg; | |
5598 | subsegT subseg = now_subseg; | |
5599 | Elf_Internal_Note i_note; | |
5600 | Elf_External_Note e_note; | |
5601 | asection *note_secp; | |
5602 | int len; | |
5603 | ||
5604 | /* Create the .note section. */ | |
5605 | note_secp = subseg_new (".note", 0); | |
5606 | bfd_set_section_flags (stdoutput, | |
5607 | note_secp, | |
5608 | SEC_HAS_CONTENTS | SEC_READONLY); | |
5609 | ||
5610 | /* Process the arch string. */ | |
5611 | len = strlen (cpu_arch_name); | |
5612 | ||
5613 | i_note.namesz = len + 1; | |
5614 | i_note.descsz = 0; | |
5615 | i_note.type = NT_ARCH; | |
5616 | p = frag_more (sizeof (e_note.namesz)); | |
5617 | md_number_to_chars (p, (valueT) i_note.namesz, sizeof (e_note.namesz)); | |
5618 | p = frag_more (sizeof (e_note.descsz)); | |
5619 | md_number_to_chars (p, (valueT) i_note.descsz, sizeof (e_note.descsz)); | |
5620 | p = frag_more (sizeof (e_note.type)); | |
5621 | md_number_to_chars (p, (valueT) i_note.type, sizeof (e_note.type)); | |
5622 | p = frag_more (len + 1); | |
5623 | strcpy (p, cpu_arch_name); | |
5624 | ||
5625 | frag_align (2, 0, 0); | |
5626 | ||
5627 | subseg_set (seg, subseg); | |
5628 | } | |
5629 | } | |
5630 | #endif | |
252b5132 | 5631 | \f |
252b5132 RH |
5632 | symbolS * |
5633 | md_undefined_symbol (name) | |
5634 | char *name; | |
5635 | { | |
18dc2407 ILT |
5636 | if (name[0] == GLOBAL_OFFSET_TABLE_NAME[0] |
5637 | && name[1] == GLOBAL_OFFSET_TABLE_NAME[1] | |
5638 | && name[2] == GLOBAL_OFFSET_TABLE_NAME[2] | |
5639 | && strcmp (name, GLOBAL_OFFSET_TABLE_NAME) == 0) | |
24eab124 AM |
5640 | { |
5641 | if (!GOT_symbol) | |
5642 | { | |
5643 | if (symbol_find (name)) | |
5644 | as_bad (_("GOT already in symbol table")); | |
5645 | GOT_symbol = symbol_new (name, undefined_section, | |
5646 | (valueT) 0, &zero_address_frag); | |
5647 | }; | |
5648 | return GOT_symbol; | |
5649 | } | |
252b5132 RH |
5650 | return 0; |
5651 | } | |
5652 | ||
5653 | /* Round up a section size to the appropriate boundary. */ | |
47926f60 | 5654 | |
252b5132 RH |
5655 | valueT |
5656 | md_section_align (segment, size) | |
ab9da554 | 5657 | segT segment ATTRIBUTE_UNUSED; |
252b5132 RH |
5658 | valueT size; |
5659 | { | |
4c63da97 AM |
5660 | #if (defined (OBJ_AOUT) || defined (OBJ_MAYBE_AOUT)) |
5661 | if (OUTPUT_FLAVOR == bfd_target_aout_flavour) | |
5662 | { | |
5663 | /* For a.out, force the section size to be aligned. If we don't do | |
5664 | this, BFD will align it for us, but it will not write out the | |
5665 | final bytes of the section. This may be a bug in BFD, but it is | |
5666 | easier to fix it here since that is how the other a.out targets | |
5667 | work. */ | |
5668 | int align; | |
5669 | ||
5670 | align = bfd_get_section_alignment (stdoutput, segment); | |
5671 | size = ((size + (1 << align) - 1) & ((valueT) -1 << align)); | |
5672 | } | |
252b5132 RH |
5673 | #endif |
5674 | ||
5675 | return size; | |
5676 | } | |
5677 | ||
5678 | /* On the i386, PC-relative offsets are relative to the start of the | |
5679 | next instruction. That is, the address of the offset, plus its | |
5680 | size, since the offset is always the last part of the insn. */ | |
5681 | ||
5682 | long | |
5683 | md_pcrel_from (fixP) | |
5684 | fixS *fixP; | |
5685 | { | |
5686 | return fixP->fx_size + fixP->fx_where + fixP->fx_frag->fr_address; | |
5687 | } | |
5688 | ||
5689 | #ifndef I386COFF | |
5690 | ||
5691 | static void | |
5692 | s_bss (ignore) | |
ab9da554 | 5693 | int ignore ATTRIBUTE_UNUSED; |
252b5132 | 5694 | { |
29b0f896 | 5695 | int temp; |
252b5132 | 5696 | |
8a75718c JB |
5697 | #if defined (OBJ_ELF) || defined (OBJ_MAYBE_ELF) |
5698 | if (IS_ELF) | |
5699 | obj_elf_section_change_hook (); | |
5700 | #endif | |
252b5132 RH |
5701 | temp = get_absolute_expression (); |
5702 | subseg_set (bss_section, (subsegT) temp); | |
5703 | demand_empty_rest_of_line (); | |
5704 | } | |
5705 | ||
5706 | #endif | |
5707 | ||
252b5132 RH |
5708 | void |
5709 | i386_validate_fix (fixp) | |
5710 | fixS *fixp; | |
5711 | { | |
5712 | if (fixp->fx_subsy && fixp->fx_subsy == GOT_symbol) | |
5713 | { | |
23df1078 JH |
5714 | if (fixp->fx_r_type == BFD_RELOC_32_PCREL) |
5715 | { | |
4fa24527 | 5716 | if (!object_64bit) |
23df1078 JH |
5717 | abort (); |
5718 | fixp->fx_r_type = BFD_RELOC_X86_64_GOTPCREL; | |
5719 | } | |
5720 | else | |
5721 | { | |
4fa24527 | 5722 | if (!object_64bit) |
d6ab8113 JB |
5723 | fixp->fx_r_type = BFD_RELOC_386_GOTOFF; |
5724 | else | |
5725 | fixp->fx_r_type = BFD_RELOC_X86_64_GOTOFF64; | |
23df1078 | 5726 | } |
252b5132 RH |
5727 | fixp->fx_subsy = 0; |
5728 | } | |
5729 | } | |
5730 | ||
252b5132 RH |
5731 | arelent * |
5732 | tc_gen_reloc (section, fixp) | |
ab9da554 | 5733 | asection *section ATTRIBUTE_UNUSED; |
252b5132 RH |
5734 | fixS *fixp; |
5735 | { | |
5736 | arelent *rel; | |
5737 | bfd_reloc_code_real_type code; | |
5738 | ||
5739 | switch (fixp->fx_r_type) | |
5740 | { | |
3e73aa7c JH |
5741 | case BFD_RELOC_X86_64_PLT32: |
5742 | case BFD_RELOC_X86_64_GOT32: | |
5743 | case BFD_RELOC_X86_64_GOTPCREL: | |
252b5132 RH |
5744 | case BFD_RELOC_386_PLT32: |
5745 | case BFD_RELOC_386_GOT32: | |
5746 | case BFD_RELOC_386_GOTOFF: | |
5747 | case BFD_RELOC_386_GOTPC: | |
13ae64f3 JJ |
5748 | case BFD_RELOC_386_TLS_GD: |
5749 | case BFD_RELOC_386_TLS_LDM: | |
5750 | case BFD_RELOC_386_TLS_LDO_32: | |
5751 | case BFD_RELOC_386_TLS_IE_32: | |
37e55690 JJ |
5752 | case BFD_RELOC_386_TLS_IE: |
5753 | case BFD_RELOC_386_TLS_GOTIE: | |
13ae64f3 JJ |
5754 | case BFD_RELOC_386_TLS_LE_32: |
5755 | case BFD_RELOC_386_TLS_LE: | |
67a4f2b7 AO |
5756 | case BFD_RELOC_386_TLS_GOTDESC: |
5757 | case BFD_RELOC_386_TLS_DESC_CALL: | |
bffbf940 JJ |
5758 | case BFD_RELOC_X86_64_TLSGD: |
5759 | case BFD_RELOC_X86_64_TLSLD: | |
5760 | case BFD_RELOC_X86_64_DTPOFF32: | |
d6ab8113 | 5761 | case BFD_RELOC_X86_64_DTPOFF64: |
bffbf940 JJ |
5762 | case BFD_RELOC_X86_64_GOTTPOFF: |
5763 | case BFD_RELOC_X86_64_TPOFF32: | |
d6ab8113 JB |
5764 | case BFD_RELOC_X86_64_TPOFF64: |
5765 | case BFD_RELOC_X86_64_GOTOFF64: | |
5766 | case BFD_RELOC_X86_64_GOTPC32: | |
7b81dfbb AJ |
5767 | case BFD_RELOC_X86_64_GOT64: |
5768 | case BFD_RELOC_X86_64_GOTPCREL64: | |
5769 | case BFD_RELOC_X86_64_GOTPC64: | |
5770 | case BFD_RELOC_X86_64_GOTPLT64: | |
5771 | case BFD_RELOC_X86_64_PLTOFF64: | |
67a4f2b7 AO |
5772 | case BFD_RELOC_X86_64_GOTPC32_TLSDESC: |
5773 | case BFD_RELOC_X86_64_TLSDESC_CALL: | |
252b5132 RH |
5774 | case BFD_RELOC_RVA: |
5775 | case BFD_RELOC_VTABLE_ENTRY: | |
5776 | case BFD_RELOC_VTABLE_INHERIT: | |
6482c264 NC |
5777 | #ifdef TE_PE |
5778 | case BFD_RELOC_32_SECREL: | |
5779 | #endif | |
252b5132 RH |
5780 | code = fixp->fx_r_type; |
5781 | break; | |
dbbaec26 L |
5782 | case BFD_RELOC_X86_64_32S: |
5783 | if (!fixp->fx_pcrel) | |
5784 | { | |
5785 | /* Don't turn BFD_RELOC_X86_64_32S into BFD_RELOC_32. */ | |
5786 | code = fixp->fx_r_type; | |
5787 | break; | |
5788 | } | |
252b5132 | 5789 | default: |
93382f6d | 5790 | if (fixp->fx_pcrel) |
252b5132 | 5791 | { |
93382f6d AM |
5792 | switch (fixp->fx_size) |
5793 | { | |
5794 | default: | |
b091f402 AM |
5795 | as_bad_where (fixp->fx_file, fixp->fx_line, |
5796 | _("can not do %d byte pc-relative relocation"), | |
5797 | fixp->fx_size); | |
93382f6d AM |
5798 | code = BFD_RELOC_32_PCREL; |
5799 | break; | |
5800 | case 1: code = BFD_RELOC_8_PCREL; break; | |
5801 | case 2: code = BFD_RELOC_16_PCREL; break; | |
5802 | case 4: code = BFD_RELOC_32_PCREL; break; | |
d6ab8113 JB |
5803 | #ifdef BFD64 |
5804 | case 8: code = BFD_RELOC_64_PCREL; break; | |
5805 | #endif | |
93382f6d AM |
5806 | } |
5807 | } | |
5808 | else | |
5809 | { | |
5810 | switch (fixp->fx_size) | |
5811 | { | |
5812 | default: | |
b091f402 AM |
5813 | as_bad_where (fixp->fx_file, fixp->fx_line, |
5814 | _("can not do %d byte relocation"), | |
5815 | fixp->fx_size); | |
93382f6d AM |
5816 | code = BFD_RELOC_32; |
5817 | break; | |
5818 | case 1: code = BFD_RELOC_8; break; | |
5819 | case 2: code = BFD_RELOC_16; break; | |
5820 | case 4: code = BFD_RELOC_32; break; | |
937149dd | 5821 | #ifdef BFD64 |
3e73aa7c | 5822 | case 8: code = BFD_RELOC_64; break; |
937149dd | 5823 | #endif |
93382f6d | 5824 | } |
252b5132 RH |
5825 | } |
5826 | break; | |
5827 | } | |
252b5132 | 5828 | |
d182319b JB |
5829 | if ((code == BFD_RELOC_32 |
5830 | || code == BFD_RELOC_32_PCREL | |
5831 | || code == BFD_RELOC_X86_64_32S) | |
252b5132 RH |
5832 | && GOT_symbol |
5833 | && fixp->fx_addsy == GOT_symbol) | |
3e73aa7c | 5834 | { |
4fa24527 | 5835 | if (!object_64bit) |
d6ab8113 JB |
5836 | code = BFD_RELOC_386_GOTPC; |
5837 | else | |
5838 | code = BFD_RELOC_X86_64_GOTPC32; | |
3e73aa7c | 5839 | } |
7b81dfbb AJ |
5840 | if ((code == BFD_RELOC_64 || code == BFD_RELOC_64_PCREL) |
5841 | && GOT_symbol | |
5842 | && fixp->fx_addsy == GOT_symbol) | |
5843 | { | |
5844 | code = BFD_RELOC_X86_64_GOTPC64; | |
5845 | } | |
252b5132 RH |
5846 | |
5847 | rel = (arelent *) xmalloc (sizeof (arelent)); | |
49309057 ILT |
5848 | rel->sym_ptr_ptr = (asymbol **) xmalloc (sizeof (asymbol *)); |
5849 | *rel->sym_ptr_ptr = symbol_get_bfdsym (fixp->fx_addsy); | |
252b5132 RH |
5850 | |
5851 | rel->address = fixp->fx_frag->fr_address + fixp->fx_where; | |
c87db184 | 5852 | |
3e73aa7c JH |
5853 | if (!use_rela_relocations) |
5854 | { | |
5855 | /* HACK: Since i386 ELF uses Rel instead of Rela, encode the | |
5856 | vtable entry to be used in the relocation's section offset. */ | |
5857 | if (fixp->fx_r_type == BFD_RELOC_VTABLE_ENTRY) | |
5858 | rel->address = fixp->fx_offset; | |
252b5132 | 5859 | |
c6682705 | 5860 | rel->addend = 0; |
3e73aa7c JH |
5861 | } |
5862 | /* Use the rela in 64bit mode. */ | |
252b5132 | 5863 | else |
3e73aa7c | 5864 | { |
062cd5e7 AS |
5865 | if (!fixp->fx_pcrel) |
5866 | rel->addend = fixp->fx_offset; | |
5867 | else | |
5868 | switch (code) | |
5869 | { | |
5870 | case BFD_RELOC_X86_64_PLT32: | |
5871 | case BFD_RELOC_X86_64_GOT32: | |
5872 | case BFD_RELOC_X86_64_GOTPCREL: | |
bffbf940 JJ |
5873 | case BFD_RELOC_X86_64_TLSGD: |
5874 | case BFD_RELOC_X86_64_TLSLD: | |
5875 | case BFD_RELOC_X86_64_GOTTPOFF: | |
67a4f2b7 AO |
5876 | case BFD_RELOC_X86_64_GOTPC32_TLSDESC: |
5877 | case BFD_RELOC_X86_64_TLSDESC_CALL: | |
062cd5e7 AS |
5878 | rel->addend = fixp->fx_offset - fixp->fx_size; |
5879 | break; | |
5880 | default: | |
5881 | rel->addend = (section->vma | |
5882 | - fixp->fx_size | |
5883 | + fixp->fx_addnumber | |
5884 | + md_pcrel_from (fixp)); | |
5885 | break; | |
5886 | } | |
3e73aa7c JH |
5887 | } |
5888 | ||
252b5132 RH |
5889 | rel->howto = bfd_reloc_type_lookup (stdoutput, code); |
5890 | if (rel->howto == NULL) | |
5891 | { | |
5892 | as_bad_where (fixp->fx_file, fixp->fx_line, | |
d0b47220 | 5893 | _("cannot represent relocation type %s"), |
252b5132 RH |
5894 | bfd_get_reloc_code_name (code)); |
5895 | /* Set howto to a garbage value so that we can keep going. */ | |
5896 | rel->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_32); | |
5897 | assert (rel->howto != NULL); | |
5898 | } | |
5899 | ||
5900 | return rel; | |
5901 | } | |
5902 | ||
64a0c779 DN |
5903 | \f |
5904 | /* Parse operands using Intel syntax. This implements a recursive descent | |
5905 | parser based on the BNF grammar published in Appendix B of the MASM 6.1 | |
5906 | Programmer's Guide. | |
5907 | ||
5908 | FIXME: We do not recognize the full operand grammar defined in the MASM | |
5909 | documentation. In particular, all the structure/union and | |
5910 | high-level macro operands are missing. | |
5911 | ||
5912 | Uppercase words are terminals, lower case words are non-terminals. | |
5913 | Objects surrounded by double brackets '[[' ']]' are optional. Vertical | |
5914 | bars '|' denote choices. Most grammar productions are implemented in | |
5915 | functions called 'intel_<production>'. | |
5916 | ||
5917 | Initial production is 'expr'. | |
5918 | ||
9306ca4a | 5919 | addOp + | - |
64a0c779 DN |
5920 | |
5921 | alpha [a-zA-Z] | |
5922 | ||
9306ca4a JB |
5923 | binOp & | AND | \| | OR | ^ | XOR |
5924 | ||
64a0c779 DN |
5925 | byteRegister AL | AH | BL | BH | CL | CH | DL | DH |
5926 | ||
5927 | constant digits [[ radixOverride ]] | |
5928 | ||
9306ca4a | 5929 | dataType BYTE | WORD | DWORD | FWORD | QWORD | TBYTE | OWORD | XMMWORD |
64a0c779 DN |
5930 | |
5931 | digits decdigit | |
b77a7acd AJ |
5932 | | digits decdigit |
5933 | | digits hexdigit | |
64a0c779 DN |
5934 | |
5935 | decdigit [0-9] | |
5936 | ||
9306ca4a JB |
5937 | e04 e04 addOp e05 |
5938 | | e05 | |
5939 | ||
5940 | e05 e05 binOp e06 | |
b77a7acd | 5941 | | e06 |
64a0c779 DN |
5942 | |
5943 | e06 e06 mulOp e09 | |
b77a7acd | 5944 | | e09 |
64a0c779 DN |
5945 | |
5946 | e09 OFFSET e10 | |
a724f0f4 JB |
5947 | | SHORT e10 |
5948 | | + e10 | |
5949 | | - e10 | |
9306ca4a JB |
5950 | | ~ e10 |
5951 | | NOT e10 | |
64a0c779 DN |
5952 | | e09 PTR e10 |
5953 | | e09 : e10 | |
5954 | | e10 | |
5955 | ||
5956 | e10 e10 [ expr ] | |
b77a7acd | 5957 | | e11 |
64a0c779 DN |
5958 | |
5959 | e11 ( expr ) | |
b77a7acd | 5960 | | [ expr ] |
64a0c779 DN |
5961 | | constant |
5962 | | dataType | |
5963 | | id | |
5964 | | $ | |
5965 | | register | |
5966 | ||
a724f0f4 | 5967 | => expr expr cmpOp e04 |
9306ca4a | 5968 | | e04 |
64a0c779 DN |
5969 | |
5970 | gpRegister AX | EAX | BX | EBX | CX | ECX | DX | EDX | |
b77a7acd | 5971 | | BP | EBP | SP | ESP | DI | EDI | SI | ESI |
64a0c779 DN |
5972 | |
5973 | hexdigit a | b | c | d | e | f | |
b77a7acd | 5974 | | A | B | C | D | E | F |
64a0c779 DN |
5975 | |
5976 | id alpha | |
b77a7acd | 5977 | | id alpha |
64a0c779 DN |
5978 | | id decdigit |
5979 | ||
9306ca4a | 5980 | mulOp * | / | % | MOD | << | SHL | >> | SHR |
64a0c779 DN |
5981 | |
5982 | quote " | ' | |
5983 | ||
5984 | register specialRegister | |
b77a7acd | 5985 | | gpRegister |
64a0c779 DN |
5986 | | byteRegister |
5987 | ||
5988 | segmentRegister CS | DS | ES | FS | GS | SS | |
5989 | ||
9306ca4a | 5990 | specialRegister CR0 | CR2 | CR3 | CR4 |
b77a7acd | 5991 | | DR0 | DR1 | DR2 | DR3 | DR6 | DR7 |
64a0c779 DN |
5992 | | TR3 | TR4 | TR5 | TR6 | TR7 |
5993 | ||
64a0c779 DN |
5994 | We simplify the grammar in obvious places (e.g., register parsing is |
5995 | done by calling parse_register) and eliminate immediate left recursion | |
5996 | to implement a recursive-descent parser. | |
5997 | ||
a724f0f4 JB |
5998 | expr e04 expr' |
5999 | ||
6000 | expr' cmpOp e04 expr' | |
6001 | | Empty | |
9306ca4a JB |
6002 | |
6003 | e04 e05 e04' | |
6004 | ||
6005 | e04' addOp e05 e04' | |
6006 | | Empty | |
64a0c779 DN |
6007 | |
6008 | e05 e06 e05' | |
6009 | ||
9306ca4a | 6010 | e05' binOp e06 e05' |
b77a7acd | 6011 | | Empty |
64a0c779 DN |
6012 | |
6013 | e06 e09 e06' | |
6014 | ||
6015 | e06' mulOp e09 e06' | |
b77a7acd | 6016 | | Empty |
64a0c779 DN |
6017 | |
6018 | e09 OFFSET e10 e09' | |
a724f0f4 JB |
6019 | | SHORT e10' |
6020 | | + e10' | |
6021 | | - e10' | |
6022 | | ~ e10' | |
6023 | | NOT e10' | |
b77a7acd | 6024 | | e10 e09' |
64a0c779 DN |
6025 | |
6026 | e09' PTR e10 e09' | |
b77a7acd | 6027 | | : e10 e09' |
64a0c779 DN |
6028 | | Empty |
6029 | ||
6030 | e10 e11 e10' | |
6031 | ||
6032 | e10' [ expr ] e10' | |
b77a7acd | 6033 | | Empty |
64a0c779 DN |
6034 | |
6035 | e11 ( expr ) | |
b77a7acd | 6036 | | [ expr ] |
64a0c779 DN |
6037 | | BYTE |
6038 | | WORD | |
6039 | | DWORD | |
9306ca4a | 6040 | | FWORD |
64a0c779 | 6041 | | QWORD |
9306ca4a JB |
6042 | | TBYTE |
6043 | | OWORD | |
6044 | | XMMWORD | |
64a0c779 DN |
6045 | | . |
6046 | | $ | |
6047 | | register | |
6048 | | id | |
6049 | | constant */ | |
6050 | ||
6051 | /* Parsing structure for the intel syntax parser. Used to implement the | |
6052 | semantic actions for the operand grammar. */ | |
6053 | struct intel_parser_s | |
6054 | { | |
6055 | char *op_string; /* The string being parsed. */ | |
6056 | int got_a_float; /* Whether the operand is a float. */ | |
4a1805b1 | 6057 | int op_modifier; /* Operand modifier. */ |
64a0c779 | 6058 | int is_mem; /* 1 if operand is memory reference. */ |
a724f0f4 JB |
6059 | int in_offset; /* >=1 if parsing operand of offset. */ |
6060 | int in_bracket; /* >=1 if parsing operand in brackets. */ | |
64a0c779 DN |
6061 | const reg_entry *reg; /* Last register reference found. */ |
6062 | char *disp; /* Displacement string being built. */ | |
a724f0f4 | 6063 | char *next_operand; /* Resume point when splitting operands. */ |
64a0c779 DN |
6064 | }; |
6065 | ||
6066 | static struct intel_parser_s intel_parser; | |
6067 | ||
6068 | /* Token structure for parsing intel syntax. */ | |
6069 | struct intel_token | |
6070 | { | |
6071 | int code; /* Token code. */ | |
6072 | const reg_entry *reg; /* Register entry for register tokens. */ | |
6073 | char *str; /* String representation. */ | |
6074 | }; | |
6075 | ||
6076 | static struct intel_token cur_token, prev_token; | |
6077 | ||
50705ef4 AM |
6078 | /* Token codes for the intel parser. Since T_SHORT is already used |
6079 | by COFF, undefine it first to prevent a warning. */ | |
64a0c779 DN |
6080 | #define T_NIL -1 |
6081 | #define T_CONST 1 | |
6082 | #define T_REG 2 | |
6083 | #define T_BYTE 3 | |
6084 | #define T_WORD 4 | |
9306ca4a JB |
6085 | #define T_DWORD 5 |
6086 | #define T_FWORD 6 | |
6087 | #define T_QWORD 7 | |
6088 | #define T_TBYTE 8 | |
6089 | #define T_XMMWORD 9 | |
50705ef4 | 6090 | #undef T_SHORT |
9306ca4a JB |
6091 | #define T_SHORT 10 |
6092 | #define T_OFFSET 11 | |
6093 | #define T_PTR 12 | |
6094 | #define T_ID 13 | |
6095 | #define T_SHL 14 | |
6096 | #define T_SHR 15 | |
64a0c779 DN |
6097 | |
6098 | /* Prototypes for intel parser functions. */ | |
6099 | static int intel_match_token PARAMS ((int code)); | |
cce0cbdc DN |
6100 | static void intel_get_token PARAMS ((void)); |
6101 | static void intel_putback_token PARAMS ((void)); | |
6102 | static int intel_expr PARAMS ((void)); | |
9306ca4a | 6103 | static int intel_e04 PARAMS ((void)); |
cce0cbdc | 6104 | static int intel_e05 PARAMS ((void)); |
cce0cbdc | 6105 | static int intel_e06 PARAMS ((void)); |
cce0cbdc | 6106 | static int intel_e09 PARAMS ((void)); |
a724f0f4 | 6107 | static int intel_bracket_expr PARAMS ((void)); |
cce0cbdc | 6108 | static int intel_e10 PARAMS ((void)); |
cce0cbdc | 6109 | static int intel_e11 PARAMS ((void)); |
64a0c779 | 6110 | |
64a0c779 DN |
6111 | static int |
6112 | i386_intel_operand (operand_string, got_a_float) | |
6113 | char *operand_string; | |
6114 | int got_a_float; | |
6115 | { | |
6116 | int ret; | |
6117 | char *p; | |
6118 | ||
a724f0f4 JB |
6119 | p = intel_parser.op_string = xstrdup (operand_string); |
6120 | intel_parser.disp = (char *) xmalloc (strlen (operand_string) + 1); | |
6121 | ||
6122 | for (;;) | |
64a0c779 | 6123 | { |
a724f0f4 JB |
6124 | /* Initialize token holders. */ |
6125 | cur_token.code = prev_token.code = T_NIL; | |
6126 | cur_token.reg = prev_token.reg = NULL; | |
6127 | cur_token.str = prev_token.str = NULL; | |
6128 | ||
6129 | /* Initialize parser structure. */ | |
6130 | intel_parser.got_a_float = got_a_float; | |
6131 | intel_parser.op_modifier = 0; | |
6132 | intel_parser.is_mem = 0; | |
6133 | intel_parser.in_offset = 0; | |
6134 | intel_parser.in_bracket = 0; | |
6135 | intel_parser.reg = NULL; | |
6136 | intel_parser.disp[0] = '\0'; | |
6137 | intel_parser.next_operand = NULL; | |
6138 | ||
6139 | /* Read the first token and start the parser. */ | |
6140 | intel_get_token (); | |
6141 | ret = intel_expr (); | |
6142 | ||
6143 | if (!ret) | |
6144 | break; | |
6145 | ||
9306ca4a JB |
6146 | if (cur_token.code != T_NIL) |
6147 | { | |
6148 | as_bad (_("invalid operand for '%s' ('%s' unexpected)"), | |
6149 | current_templates->start->name, cur_token.str); | |
6150 | ret = 0; | |
6151 | } | |
64a0c779 DN |
6152 | /* If we found a memory reference, hand it over to i386_displacement |
6153 | to fill in the rest of the operand fields. */ | |
9306ca4a | 6154 | else if (intel_parser.is_mem) |
64a0c779 DN |
6155 | { |
6156 | if ((i.mem_operands == 1 | |
6157 | && (current_templates->start->opcode_modifier & IsString) == 0) | |
6158 | || i.mem_operands == 2) | |
6159 | { | |
6160 | as_bad (_("too many memory references for '%s'"), | |
6161 | current_templates->start->name); | |
6162 | ret = 0; | |
6163 | } | |
6164 | else | |
6165 | { | |
6166 | char *s = intel_parser.disp; | |
6167 | i.mem_operands++; | |
6168 | ||
a724f0f4 JB |
6169 | if (!quiet_warnings && intel_parser.is_mem < 0) |
6170 | /* See the comments in intel_bracket_expr. */ | |
6171 | as_warn (_("Treating `%s' as memory reference"), operand_string); | |
6172 | ||
64a0c779 DN |
6173 | /* Add the displacement expression. */ |
6174 | if (*s != '\0') | |
a4622f40 AM |
6175 | ret = i386_displacement (s, s + strlen (s)); |
6176 | if (ret) | |
a724f0f4 JB |
6177 | { |
6178 | /* Swap base and index in 16-bit memory operands like | |
6179 | [si+bx]. Since i386_index_check is also used in AT&T | |
6180 | mode we have to do that here. */ | |
6181 | if (i.base_reg | |
6182 | && i.index_reg | |
6183 | && (i.base_reg->reg_type & Reg16) | |
6184 | && (i.index_reg->reg_type & Reg16) | |
6185 | && i.base_reg->reg_num >= 6 | |
6186 | && i.index_reg->reg_num < 6) | |
6187 | { | |
6188 | const reg_entry *base = i.index_reg; | |
6189 | ||
6190 | i.index_reg = i.base_reg; | |
6191 | i.base_reg = base; | |
6192 | } | |
6193 | ret = i386_index_check (operand_string); | |
6194 | } | |
64a0c779 DN |
6195 | } |
6196 | } | |
6197 | ||
6198 | /* Constant and OFFSET expressions are handled by i386_immediate. */ | |
a724f0f4 | 6199 | else if ((intel_parser.op_modifier & (1 << T_OFFSET)) |
64a0c779 DN |
6200 | || intel_parser.reg == NULL) |
6201 | ret = i386_immediate (intel_parser.disp); | |
a724f0f4 JB |
6202 | |
6203 | if (intel_parser.next_operand && this_operand >= MAX_OPERANDS - 1) | |
6204 | ret = 0; | |
6205 | if (!ret || !intel_parser.next_operand) | |
6206 | break; | |
6207 | intel_parser.op_string = intel_parser.next_operand; | |
6208 | this_operand = i.operands++; | |
64a0c779 DN |
6209 | } |
6210 | ||
6211 | free (p); | |
6212 | free (intel_parser.disp); | |
6213 | ||
6214 | return ret; | |
6215 | } | |
6216 | ||
a724f0f4 JB |
6217 | #define NUM_ADDRESS_REGS (!!i.base_reg + !!i.index_reg) |
6218 | ||
6219 | /* expr e04 expr' | |
6220 | ||
6221 | expr' cmpOp e04 expr' | |
6222 | | Empty */ | |
64a0c779 DN |
6223 | static int |
6224 | intel_expr () | |
6225 | { | |
a724f0f4 JB |
6226 | /* XXX Implement the comparison operators. */ |
6227 | return intel_e04 (); | |
9306ca4a JB |
6228 | } |
6229 | ||
a724f0f4 | 6230 | /* e04 e05 e04' |
9306ca4a | 6231 | |
a724f0f4 | 6232 | e04' addOp e05 e04' |
9306ca4a JB |
6233 | | Empty */ |
6234 | static int | |
6235 | intel_e04 () | |
6236 | { | |
a724f0f4 | 6237 | int nregs = -1; |
9306ca4a | 6238 | |
a724f0f4 | 6239 | for (;;) |
9306ca4a | 6240 | { |
a724f0f4 JB |
6241 | if (!intel_e05()) |
6242 | return 0; | |
9306ca4a | 6243 | |
a724f0f4 JB |
6244 | if (nregs >= 0 && NUM_ADDRESS_REGS > nregs) |
6245 | i.base_reg = i386_regtab + REGNAM_AL; /* al is invalid as base */ | |
9306ca4a | 6246 | |
a724f0f4 JB |
6247 | if (cur_token.code == '+') |
6248 | nregs = -1; | |
6249 | else if (cur_token.code == '-') | |
6250 | nregs = NUM_ADDRESS_REGS; | |
6251 | else | |
6252 | return 1; | |
64a0c779 | 6253 | |
a724f0f4 JB |
6254 | strcat (intel_parser.disp, cur_token.str); |
6255 | intel_match_token (cur_token.code); | |
6256 | } | |
64a0c779 DN |
6257 | } |
6258 | ||
64a0c779 DN |
6259 | /* e05 e06 e05' |
6260 | ||
9306ca4a | 6261 | e05' binOp e06 e05' |
64a0c779 DN |
6262 | | Empty */ |
6263 | static int | |
6264 | intel_e05 () | |
6265 | { | |
a724f0f4 | 6266 | int nregs = ~NUM_ADDRESS_REGS; |
64a0c779 | 6267 | |
a724f0f4 | 6268 | for (;;) |
64a0c779 | 6269 | { |
a724f0f4 JB |
6270 | if (!intel_e06()) |
6271 | return 0; | |
6272 | ||
6273 | if (cur_token.code == '&' || cur_token.code == '|' || cur_token.code == '^') | |
6274 | { | |
6275 | char str[2]; | |
6276 | ||
6277 | str[0] = cur_token.code; | |
6278 | str[1] = 0; | |
6279 | strcat (intel_parser.disp, str); | |
6280 | } | |
6281 | else | |
6282 | break; | |
9306ca4a | 6283 | |
64a0c779 DN |
6284 | intel_match_token (cur_token.code); |
6285 | ||
a724f0f4 JB |
6286 | if (nregs < 0) |
6287 | nregs = ~nregs; | |
64a0c779 | 6288 | } |
a724f0f4 JB |
6289 | if (nregs >= 0 && NUM_ADDRESS_REGS > nregs) |
6290 | i.base_reg = i386_regtab + REGNAM_AL + 1; /* cl is invalid as base */ | |
6291 | return 1; | |
4a1805b1 | 6292 | } |
64a0c779 DN |
6293 | |
6294 | /* e06 e09 e06' | |
6295 | ||
6296 | e06' mulOp e09 e06' | |
b77a7acd | 6297 | | Empty */ |
64a0c779 DN |
6298 | static int |
6299 | intel_e06 () | |
6300 | { | |
a724f0f4 | 6301 | int nregs = ~NUM_ADDRESS_REGS; |
64a0c779 | 6302 | |
a724f0f4 | 6303 | for (;;) |
64a0c779 | 6304 | { |
a724f0f4 JB |
6305 | if (!intel_e09()) |
6306 | return 0; | |
9306ca4a | 6307 | |
a724f0f4 JB |
6308 | if (cur_token.code == '*' || cur_token.code == '/' || cur_token.code == '%') |
6309 | { | |
6310 | char str[2]; | |
9306ca4a | 6311 | |
a724f0f4 JB |
6312 | str[0] = cur_token.code; |
6313 | str[1] = 0; | |
6314 | strcat (intel_parser.disp, str); | |
6315 | } | |
6316 | else if (cur_token.code == T_SHL) | |
6317 | strcat (intel_parser.disp, "<<"); | |
6318 | else if (cur_token.code == T_SHR) | |
6319 | strcat (intel_parser.disp, ">>"); | |
6320 | else | |
6321 | break; | |
9306ca4a | 6322 | |
64e74474 | 6323 | intel_match_token (cur_token.code); |
64a0c779 | 6324 | |
a724f0f4 JB |
6325 | if (nregs < 0) |
6326 | nregs = ~nregs; | |
64a0c779 | 6327 | } |
a724f0f4 JB |
6328 | if (nregs >= 0 && NUM_ADDRESS_REGS > nregs) |
6329 | i.base_reg = i386_regtab + REGNAM_AL + 2; /* dl is invalid as base */ | |
6330 | return 1; | |
64a0c779 DN |
6331 | } |
6332 | ||
a724f0f4 JB |
6333 | /* e09 OFFSET e09 |
6334 | | SHORT e09 | |
6335 | | + e09 | |
6336 | | - e09 | |
6337 | | ~ e09 | |
6338 | | NOT e09 | |
9306ca4a JB |
6339 | | e10 e09' |
6340 | ||
64a0c779 | 6341 | e09' PTR e10 e09' |
b77a7acd | 6342 | | : e10 e09' |
64a0c779 DN |
6343 | | Empty */ |
6344 | static int | |
6345 | intel_e09 () | |
6346 | { | |
a724f0f4 JB |
6347 | int nregs = ~NUM_ADDRESS_REGS; |
6348 | int in_offset = 0; | |
6349 | ||
6350 | for (;;) | |
64a0c779 | 6351 | { |
a724f0f4 JB |
6352 | /* Don't consume constants here. */ |
6353 | if (cur_token.code == '+' || cur_token.code == '-') | |
6354 | { | |
6355 | /* Need to look one token ahead - if the next token | |
6356 | is a constant, the current token is its sign. */ | |
6357 | int next_code; | |
6358 | ||
6359 | intel_match_token (cur_token.code); | |
6360 | next_code = cur_token.code; | |
6361 | intel_putback_token (); | |
6362 | if (next_code == T_CONST) | |
6363 | break; | |
6364 | } | |
6365 | ||
6366 | /* e09 OFFSET e09 */ | |
6367 | if (cur_token.code == T_OFFSET) | |
6368 | { | |
6369 | if (!in_offset++) | |
6370 | ++intel_parser.in_offset; | |
6371 | } | |
6372 | ||
6373 | /* e09 SHORT e09 */ | |
6374 | else if (cur_token.code == T_SHORT) | |
6375 | intel_parser.op_modifier |= 1 << T_SHORT; | |
6376 | ||
6377 | /* e09 + e09 */ | |
6378 | else if (cur_token.code == '+') | |
6379 | strcat (intel_parser.disp, "+"); | |
6380 | ||
6381 | /* e09 - e09 | |
6382 | | ~ e09 | |
6383 | | NOT e09 */ | |
6384 | else if (cur_token.code == '-' || cur_token.code == '~') | |
6385 | { | |
6386 | char str[2]; | |
64a0c779 | 6387 | |
a724f0f4 JB |
6388 | if (nregs < 0) |
6389 | nregs = ~nregs; | |
6390 | str[0] = cur_token.code; | |
6391 | str[1] = 0; | |
6392 | strcat (intel_parser.disp, str); | |
6393 | } | |
6394 | ||
6395 | /* e09 e10 e09' */ | |
6396 | else | |
6397 | break; | |
6398 | ||
6399 | intel_match_token (cur_token.code); | |
64a0c779 DN |
6400 | } |
6401 | ||
a724f0f4 | 6402 | for (;;) |
9306ca4a | 6403 | { |
a724f0f4 JB |
6404 | if (!intel_e10 ()) |
6405 | return 0; | |
9306ca4a | 6406 | |
a724f0f4 JB |
6407 | /* e09' PTR e10 e09' */ |
6408 | if (cur_token.code == T_PTR) | |
6409 | { | |
6410 | char suffix; | |
9306ca4a | 6411 | |
a724f0f4 JB |
6412 | if (prev_token.code == T_BYTE) |
6413 | suffix = BYTE_MNEM_SUFFIX; | |
9306ca4a | 6414 | |
a724f0f4 JB |
6415 | else if (prev_token.code == T_WORD) |
6416 | { | |
6417 | if (current_templates->start->name[0] == 'l' | |
6418 | && current_templates->start->name[2] == 's' | |
6419 | && current_templates->start->name[3] == 0) | |
6420 | suffix = BYTE_MNEM_SUFFIX; /* so it will cause an error */ | |
6421 | else if (intel_parser.got_a_float == 2) /* "fi..." */ | |
6422 | suffix = SHORT_MNEM_SUFFIX; | |
6423 | else | |
6424 | suffix = WORD_MNEM_SUFFIX; | |
6425 | } | |
64a0c779 | 6426 | |
a724f0f4 JB |
6427 | else if (prev_token.code == T_DWORD) |
6428 | { | |
6429 | if (current_templates->start->name[0] == 'l' | |
6430 | && current_templates->start->name[2] == 's' | |
6431 | && current_templates->start->name[3] == 0) | |
6432 | suffix = WORD_MNEM_SUFFIX; | |
6433 | else if (flag_code == CODE_16BIT | |
6434 | && (current_templates->start->opcode_modifier | |
435acd52 | 6435 | & (Jump | JumpDword))) |
a724f0f4 JB |
6436 | suffix = LONG_DOUBLE_MNEM_SUFFIX; |
6437 | else if (intel_parser.got_a_float == 1) /* "f..." */ | |
6438 | suffix = SHORT_MNEM_SUFFIX; | |
6439 | else | |
6440 | suffix = LONG_MNEM_SUFFIX; | |
6441 | } | |
9306ca4a | 6442 | |
a724f0f4 JB |
6443 | else if (prev_token.code == T_FWORD) |
6444 | { | |
6445 | if (current_templates->start->name[0] == 'l' | |
6446 | && current_templates->start->name[2] == 's' | |
6447 | && current_templates->start->name[3] == 0) | |
6448 | suffix = LONG_MNEM_SUFFIX; | |
6449 | else if (!intel_parser.got_a_float) | |
6450 | { | |
6451 | if (flag_code == CODE_16BIT) | |
6452 | add_prefix (DATA_PREFIX_OPCODE); | |
6453 | suffix = LONG_DOUBLE_MNEM_SUFFIX; | |
6454 | } | |
6455 | else | |
6456 | suffix = BYTE_MNEM_SUFFIX; /* so it will cause an error */ | |
6457 | } | |
64a0c779 | 6458 | |
a724f0f4 JB |
6459 | else if (prev_token.code == T_QWORD) |
6460 | { | |
6461 | if (intel_parser.got_a_float == 1) /* "f..." */ | |
6462 | suffix = LONG_MNEM_SUFFIX; | |
6463 | else | |
6464 | suffix = QWORD_MNEM_SUFFIX; | |
6465 | } | |
64a0c779 | 6466 | |
a724f0f4 JB |
6467 | else if (prev_token.code == T_TBYTE) |
6468 | { | |
6469 | if (intel_parser.got_a_float == 1) | |
6470 | suffix = LONG_DOUBLE_MNEM_SUFFIX; | |
6471 | else | |
6472 | suffix = BYTE_MNEM_SUFFIX; /* so it will cause an error */ | |
6473 | } | |
9306ca4a | 6474 | |
a724f0f4 | 6475 | else if (prev_token.code == T_XMMWORD) |
9306ca4a | 6476 | { |
a724f0f4 JB |
6477 | /* XXX ignored for now, but accepted since gcc uses it */ |
6478 | suffix = 0; | |
9306ca4a | 6479 | } |
64a0c779 | 6480 | |
f16b83df | 6481 | else |
a724f0f4 JB |
6482 | { |
6483 | as_bad (_("Unknown operand modifier `%s'"), prev_token.str); | |
6484 | return 0; | |
6485 | } | |
6486 | ||
435acd52 JB |
6487 | /* Operands for jump/call using 'ptr' notation denote absolute |
6488 | addresses. */ | |
6489 | if (current_templates->start->opcode_modifier & (Jump | JumpDword)) | |
6490 | i.types[this_operand] |= JumpAbsolute; | |
6491 | ||
a724f0f4 JB |
6492 | if (current_templates->start->base_opcode == 0x8d /* lea */) |
6493 | ; | |
6494 | else if (!i.suffix) | |
6495 | i.suffix = suffix; | |
6496 | else if (i.suffix != suffix) | |
6497 | { | |
6498 | as_bad (_("Conflicting operand modifiers")); | |
6499 | return 0; | |
6500 | } | |
64a0c779 | 6501 | |
9306ca4a JB |
6502 | } |
6503 | ||
a724f0f4 JB |
6504 | /* e09' : e10 e09' */ |
6505 | else if (cur_token.code == ':') | |
9306ca4a | 6506 | { |
a724f0f4 JB |
6507 | if (prev_token.code != T_REG) |
6508 | { | |
6509 | /* While {call,jmp} SSSS:OOOO is MASM syntax only when SSSS is a | |
6510 | segment/group identifier (which we don't have), using comma | |
6511 | as the operand separator there is even less consistent, since | |
6512 | there all branches only have a single operand. */ | |
6513 | if (this_operand != 0 | |
6514 | || intel_parser.in_offset | |
6515 | || intel_parser.in_bracket | |
6516 | || (!(current_templates->start->opcode_modifier | |
6517 | & (Jump|JumpDword|JumpInterSegment)) | |
6518 | && !(current_templates->start->operand_types[0] | |
6519 | & JumpAbsolute))) | |
6520 | return intel_match_token (T_NIL); | |
6521 | /* Remember the start of the 2nd operand and terminate 1st | |
6522 | operand here. | |
6523 | XXX This isn't right, yet (when SSSS:OOOO is right operand of | |
6524 | another expression), but it gets at least the simplest case | |
6525 | (a plain number or symbol on the left side) right. */ | |
6526 | intel_parser.next_operand = intel_parser.op_string; | |
6527 | *--intel_parser.op_string = '\0'; | |
6528 | return intel_match_token (':'); | |
6529 | } | |
9306ca4a | 6530 | } |
64a0c779 | 6531 | |
a724f0f4 | 6532 | /* e09' Empty */ |
64a0c779 | 6533 | else |
a724f0f4 | 6534 | break; |
64a0c779 | 6535 | |
a724f0f4 JB |
6536 | intel_match_token (cur_token.code); |
6537 | ||
6538 | } | |
6539 | ||
6540 | if (in_offset) | |
6541 | { | |
6542 | --intel_parser.in_offset; | |
6543 | if (nregs < 0) | |
6544 | nregs = ~nregs; | |
6545 | if (NUM_ADDRESS_REGS > nregs) | |
9306ca4a | 6546 | { |
a724f0f4 | 6547 | as_bad (_("Invalid operand to `OFFSET'")); |
9306ca4a JB |
6548 | return 0; |
6549 | } | |
a724f0f4 JB |
6550 | intel_parser.op_modifier |= 1 << T_OFFSET; |
6551 | } | |
9306ca4a | 6552 | |
a724f0f4 JB |
6553 | if (nregs >= 0 && NUM_ADDRESS_REGS > nregs) |
6554 | i.base_reg = i386_regtab + REGNAM_AL + 3; /* bl is invalid as base */ | |
6555 | return 1; | |
6556 | } | |
64a0c779 | 6557 | |
a724f0f4 JB |
6558 | static int |
6559 | intel_bracket_expr () | |
6560 | { | |
6561 | int was_offset = intel_parser.op_modifier & (1 << T_OFFSET); | |
6562 | const char *start = intel_parser.op_string; | |
6563 | int len; | |
6564 | ||
6565 | if (i.op[this_operand].regs) | |
6566 | return intel_match_token (T_NIL); | |
6567 | ||
6568 | intel_match_token ('['); | |
6569 | ||
6570 | /* Mark as a memory operand only if it's not already known to be an | |
6571 | offset expression. If it's an offset expression, we need to keep | |
6572 | the brace in. */ | |
6573 | if (!intel_parser.in_offset) | |
6574 | { | |
6575 | ++intel_parser.in_bracket; | |
435acd52 JB |
6576 | |
6577 | /* Operands for jump/call inside brackets denote absolute addresses. */ | |
6578 | if (current_templates->start->opcode_modifier & (Jump | JumpDword)) | |
6579 | i.types[this_operand] |= JumpAbsolute; | |
6580 | ||
a724f0f4 JB |
6581 | /* Unfortunately gas always diverged from MASM in a respect that can't |
6582 | be easily fixed without risking to break code sequences likely to be | |
6583 | encountered (the testsuite even check for this): MASM doesn't consider | |
6584 | an expression inside brackets unconditionally as a memory reference. | |
6585 | When that is e.g. a constant, an offset expression, or the sum of the | |
6586 | two, this is still taken as a constant load. gas, however, always | |
6587 | treated these as memory references. As a compromise, we'll try to make | |
6588 | offset expressions inside brackets work the MASM way (since that's | |
6589 | less likely to be found in real world code), but make constants alone | |
6590 | continue to work the traditional gas way. In either case, issue a | |
6591 | warning. */ | |
6592 | intel_parser.op_modifier &= ~was_offset; | |
64a0c779 | 6593 | } |
a724f0f4 | 6594 | else |
64e74474 | 6595 | strcat (intel_parser.disp, "["); |
a724f0f4 JB |
6596 | |
6597 | /* Add a '+' to the displacement string if necessary. */ | |
6598 | if (*intel_parser.disp != '\0' | |
6599 | && *(intel_parser.disp + strlen (intel_parser.disp) - 1) != '+') | |
6600 | strcat (intel_parser.disp, "+"); | |
64a0c779 | 6601 | |
a724f0f4 JB |
6602 | if (intel_expr () |
6603 | && (len = intel_parser.op_string - start - 1, | |
6604 | intel_match_token (']'))) | |
64a0c779 | 6605 | { |
a724f0f4 JB |
6606 | /* Preserve brackets when the operand is an offset expression. */ |
6607 | if (intel_parser.in_offset) | |
6608 | strcat (intel_parser.disp, "]"); | |
6609 | else | |
6610 | { | |
6611 | --intel_parser.in_bracket; | |
6612 | if (i.base_reg || i.index_reg) | |
6613 | intel_parser.is_mem = 1; | |
6614 | if (!intel_parser.is_mem) | |
6615 | { | |
6616 | if (!(intel_parser.op_modifier & (1 << T_OFFSET))) | |
6617 | /* Defer the warning until all of the operand was parsed. */ | |
6618 | intel_parser.is_mem = -1; | |
6619 | else if (!quiet_warnings) | |
6620 | as_warn (_("`[%.*s]' taken to mean just `%.*s'"), len, start, len, start); | |
6621 | } | |
6622 | } | |
6623 | intel_parser.op_modifier |= was_offset; | |
64a0c779 | 6624 | |
a724f0f4 | 6625 | return 1; |
64a0c779 | 6626 | } |
a724f0f4 | 6627 | return 0; |
64a0c779 DN |
6628 | } |
6629 | ||
6630 | /* e10 e11 e10' | |
6631 | ||
6632 | e10' [ expr ] e10' | |
b77a7acd | 6633 | | Empty */ |
64a0c779 DN |
6634 | static int |
6635 | intel_e10 () | |
6636 | { | |
a724f0f4 JB |
6637 | if (!intel_e11 ()) |
6638 | return 0; | |
64a0c779 | 6639 | |
a724f0f4 | 6640 | while (cur_token.code == '[') |
64a0c779 | 6641 | { |
a724f0f4 | 6642 | if (!intel_bracket_expr ()) |
21d6c4af | 6643 | return 0; |
64a0c779 DN |
6644 | } |
6645 | ||
a724f0f4 | 6646 | return 1; |
64a0c779 DN |
6647 | } |
6648 | ||
64a0c779 | 6649 | /* e11 ( expr ) |
b77a7acd | 6650 | | [ expr ] |
64a0c779 DN |
6651 | | BYTE |
6652 | | WORD | |
6653 | | DWORD | |
9306ca4a | 6654 | | FWORD |
64a0c779 | 6655 | | QWORD |
9306ca4a JB |
6656 | | TBYTE |
6657 | | OWORD | |
6658 | | XMMWORD | |
4a1805b1 | 6659 | | $ |
64a0c779 DN |
6660 | | . |
6661 | | register | |
6662 | | id | |
6663 | | constant */ | |
6664 | static int | |
6665 | intel_e11 () | |
6666 | { | |
a724f0f4 | 6667 | switch (cur_token.code) |
64a0c779 | 6668 | { |
a724f0f4 JB |
6669 | /* e11 ( expr ) */ |
6670 | case '(': | |
64a0c779 DN |
6671 | intel_match_token ('('); |
6672 | strcat (intel_parser.disp, "("); | |
6673 | ||
6674 | if (intel_expr () && intel_match_token (')')) | |
e5cb08ac KH |
6675 | { |
6676 | strcat (intel_parser.disp, ")"); | |
6677 | return 1; | |
6678 | } | |
a724f0f4 | 6679 | return 0; |
4a1805b1 | 6680 | |
a724f0f4 JB |
6681 | /* e11 [ expr ] */ |
6682 | case '[': | |
a724f0f4 | 6683 | return intel_bracket_expr (); |
64a0c779 | 6684 | |
a724f0f4 JB |
6685 | /* e11 $ |
6686 | | . */ | |
6687 | case '.': | |
64a0c779 DN |
6688 | strcat (intel_parser.disp, cur_token.str); |
6689 | intel_match_token (cur_token.code); | |
21d6c4af DN |
6690 | |
6691 | /* Mark as a memory operand only if it's not already known to be an | |
6692 | offset expression. */ | |
a724f0f4 | 6693 | if (!intel_parser.in_offset) |
21d6c4af | 6694 | intel_parser.is_mem = 1; |
64a0c779 DN |
6695 | |
6696 | return 1; | |
64a0c779 | 6697 | |
a724f0f4 JB |
6698 | /* e11 register */ |
6699 | case T_REG: | |
6700 | { | |
6701 | const reg_entry *reg = intel_parser.reg = cur_token.reg; | |
64a0c779 | 6702 | |
a724f0f4 | 6703 | intel_match_token (T_REG); |
64a0c779 | 6704 | |
a724f0f4 JB |
6705 | /* Check for segment change. */ |
6706 | if (cur_token.code == ':') | |
6707 | { | |
6708 | if (!(reg->reg_type & (SReg2 | SReg3))) | |
6709 | { | |
6710 | as_bad (_("`%s' is not a valid segment register"), reg->reg_name); | |
6711 | return 0; | |
6712 | } | |
6713 | else if (i.seg[i.mem_operands]) | |
6714 | as_warn (_("Extra segment override ignored")); | |
6715 | else | |
6716 | { | |
6717 | if (!intel_parser.in_offset) | |
6718 | intel_parser.is_mem = 1; | |
6719 | switch (reg->reg_num) | |
6720 | { | |
6721 | case 0: | |
6722 | i.seg[i.mem_operands] = &es; | |
6723 | break; | |
6724 | case 1: | |
6725 | i.seg[i.mem_operands] = &cs; | |
6726 | break; | |
6727 | case 2: | |
6728 | i.seg[i.mem_operands] = &ss; | |
6729 | break; | |
6730 | case 3: | |
6731 | i.seg[i.mem_operands] = &ds; | |
6732 | break; | |
6733 | case 4: | |
6734 | i.seg[i.mem_operands] = &fs; | |
6735 | break; | |
6736 | case 5: | |
6737 | i.seg[i.mem_operands] = &gs; | |
6738 | break; | |
6739 | } | |
6740 | } | |
6741 | } | |
64a0c779 | 6742 | |
a724f0f4 JB |
6743 | /* Not a segment register. Check for register scaling. */ |
6744 | else if (cur_token.code == '*') | |
6745 | { | |
6746 | if (!intel_parser.in_bracket) | |
6747 | { | |
6748 | as_bad (_("Register scaling only allowed in memory operands")); | |
6749 | return 0; | |
6750 | } | |
64a0c779 | 6751 | |
a724f0f4 JB |
6752 | if (reg->reg_type & Reg16) /* Disallow things like [si*1]. */ |
6753 | reg = i386_regtab + REGNAM_AX + 4; /* sp is invalid as index */ | |
6754 | else if (i.index_reg) | |
6755 | reg = i386_regtab + REGNAM_EAX + 4; /* esp is invalid as index */ | |
64a0c779 | 6756 | |
a724f0f4 JB |
6757 | /* What follows must be a valid scale. */ |
6758 | intel_match_token ('*'); | |
6759 | i.index_reg = reg; | |
6760 | i.types[this_operand] |= BaseIndex; | |
64a0c779 | 6761 | |
a724f0f4 JB |
6762 | /* Set the scale after setting the register (otherwise, |
6763 | i386_scale will complain) */ | |
6764 | if (cur_token.code == '+' || cur_token.code == '-') | |
6765 | { | |
6766 | char *str, sign = cur_token.code; | |
6767 | intel_match_token (cur_token.code); | |
6768 | if (cur_token.code != T_CONST) | |
6769 | { | |
6770 | as_bad (_("Syntax error: Expecting a constant, got `%s'"), | |
6771 | cur_token.str); | |
6772 | return 0; | |
6773 | } | |
6774 | str = (char *) xmalloc (strlen (cur_token.str) + 2); | |
6775 | strcpy (str + 1, cur_token.str); | |
6776 | *str = sign; | |
6777 | if (!i386_scale (str)) | |
6778 | return 0; | |
6779 | free (str); | |
6780 | } | |
6781 | else if (!i386_scale (cur_token.str)) | |
64a0c779 | 6782 | return 0; |
a724f0f4 JB |
6783 | intel_match_token (cur_token.code); |
6784 | } | |
64a0c779 | 6785 | |
a724f0f4 JB |
6786 | /* No scaling. If this is a memory operand, the register is either a |
6787 | base register (first occurrence) or an index register (second | |
6788 | occurrence). */ | |
7b0441f6 | 6789 | else if (intel_parser.in_bracket) |
a724f0f4 | 6790 | { |
64a0c779 | 6791 | |
a724f0f4 JB |
6792 | if (!i.base_reg) |
6793 | i.base_reg = reg; | |
6794 | else if (!i.index_reg) | |
6795 | i.index_reg = reg; | |
6796 | else | |
6797 | { | |
6798 | as_bad (_("Too many register references in memory operand")); | |
6799 | return 0; | |
6800 | } | |
64a0c779 | 6801 | |
a724f0f4 JB |
6802 | i.types[this_operand] |= BaseIndex; |
6803 | } | |
4a1805b1 | 6804 | |
4d1bb795 JB |
6805 | /* It's neither base nor index. */ |
6806 | else if (!intel_parser.in_offset && !intel_parser.is_mem) | |
a724f0f4 JB |
6807 | { |
6808 | i.types[this_operand] |= reg->reg_type & ~BaseIndex; | |
6809 | i.op[this_operand].regs = reg; | |
6810 | i.reg_operands++; | |
6811 | } | |
6812 | else | |
6813 | { | |
6814 | as_bad (_("Invalid use of register")); | |
6815 | return 0; | |
6816 | } | |
64a0c779 | 6817 | |
a724f0f4 JB |
6818 | /* Since registers are not part of the displacement string (except |
6819 | when we're parsing offset operands), we may need to remove any | |
6820 | preceding '+' from the displacement string. */ | |
6821 | if (*intel_parser.disp != '\0' | |
6822 | && !intel_parser.in_offset) | |
6823 | { | |
6824 | char *s = intel_parser.disp; | |
6825 | s += strlen (s) - 1; | |
6826 | if (*s == '+') | |
6827 | *s = '\0'; | |
6828 | } | |
4a1805b1 | 6829 | |
a724f0f4 JB |
6830 | return 1; |
6831 | } | |
6832 | ||
6833 | /* e11 BYTE | |
6834 | | WORD | |
6835 | | DWORD | |
6836 | | FWORD | |
6837 | | QWORD | |
6838 | | TBYTE | |
6839 | | OWORD | |
6840 | | XMMWORD */ | |
6841 | case T_BYTE: | |
6842 | case T_WORD: | |
6843 | case T_DWORD: | |
6844 | case T_FWORD: | |
6845 | case T_QWORD: | |
6846 | case T_TBYTE: | |
6847 | case T_XMMWORD: | |
6848 | intel_match_token (cur_token.code); | |
64a0c779 | 6849 | |
a724f0f4 JB |
6850 | if (cur_token.code == T_PTR) |
6851 | return 1; | |
6852 | ||
6853 | /* It must have been an identifier. */ | |
6854 | intel_putback_token (); | |
6855 | cur_token.code = T_ID; | |
6856 | /* FALLTHRU */ | |
6857 | ||
6858 | /* e11 id | |
6859 | | constant */ | |
6860 | case T_ID: | |
6861 | if (!intel_parser.in_offset && intel_parser.is_mem <= 0) | |
9306ca4a JB |
6862 | { |
6863 | symbolS *symbolP; | |
6864 | ||
a724f0f4 JB |
6865 | /* The identifier represents a memory reference only if it's not |
6866 | preceded by an offset modifier and if it's not an equate. */ | |
9306ca4a JB |
6867 | symbolP = symbol_find(cur_token.str); |
6868 | if (!symbolP || S_GET_SEGMENT(symbolP) != absolute_section) | |
6869 | intel_parser.is_mem = 1; | |
6870 | } | |
a724f0f4 | 6871 | /* FALLTHRU */ |
64a0c779 | 6872 | |
a724f0f4 JB |
6873 | case T_CONST: |
6874 | case '-': | |
6875 | case '+': | |
6876 | { | |
6877 | char *save_str, sign = 0; | |
64a0c779 | 6878 | |
a724f0f4 JB |
6879 | /* Allow constants that start with `+' or `-'. */ |
6880 | if (cur_token.code == '-' || cur_token.code == '+') | |
6881 | { | |
6882 | sign = cur_token.code; | |
6883 | intel_match_token (cur_token.code); | |
6884 | if (cur_token.code != T_CONST) | |
6885 | { | |
6886 | as_bad (_("Syntax error: Expecting a constant, got `%s'"), | |
6887 | cur_token.str); | |
6888 | return 0; | |
6889 | } | |
6890 | } | |
64a0c779 | 6891 | |
a724f0f4 JB |
6892 | save_str = (char *) xmalloc (strlen (cur_token.str) + 2); |
6893 | strcpy (save_str + !!sign, cur_token.str); | |
6894 | if (sign) | |
6895 | *save_str = sign; | |
64a0c779 | 6896 | |
a724f0f4 JB |
6897 | /* Get the next token to check for register scaling. */ |
6898 | intel_match_token (cur_token.code); | |
64a0c779 | 6899 | |
a724f0f4 JB |
6900 | /* Check if this constant is a scaling factor for an index register. */ |
6901 | if (cur_token.code == '*') | |
6902 | { | |
6903 | if (intel_match_token ('*') && cur_token.code == T_REG) | |
6904 | { | |
6905 | const reg_entry *reg = cur_token.reg; | |
6906 | ||
6907 | if (!intel_parser.in_bracket) | |
6908 | { | |
6909 | as_bad (_("Register scaling only allowed in memory operands")); | |
6910 | return 0; | |
6911 | } | |
6912 | ||
6913 | if (reg->reg_type & Reg16) /* Disallow things like [1*si]. */ | |
6914 | reg = i386_regtab + REGNAM_AX + 4; /* sp is invalid as index */ | |
6915 | else if (i.index_reg) | |
6916 | reg = i386_regtab + REGNAM_EAX + 4; /* esp is invalid as index */ | |
6917 | ||
6918 | /* The constant is followed by `* reg', so it must be | |
6919 | a valid scale. */ | |
6920 | i.index_reg = reg; | |
6921 | i.types[this_operand] |= BaseIndex; | |
6922 | ||
6923 | /* Set the scale after setting the register (otherwise, | |
6924 | i386_scale will complain) */ | |
6925 | if (!i386_scale (save_str)) | |
64a0c779 | 6926 | return 0; |
a724f0f4 JB |
6927 | intel_match_token (T_REG); |
6928 | ||
6929 | /* Since registers are not part of the displacement | |
6930 | string, we may need to remove any preceding '+' from | |
6931 | the displacement string. */ | |
6932 | if (*intel_parser.disp != '\0') | |
6933 | { | |
6934 | char *s = intel_parser.disp; | |
6935 | s += strlen (s) - 1; | |
6936 | if (*s == '+') | |
6937 | *s = '\0'; | |
6938 | } | |
6939 | ||
6940 | free (save_str); | |
6941 | ||
6942 | return 1; | |
6943 | } | |
64a0c779 | 6944 | |
a724f0f4 JB |
6945 | /* The constant was not used for register scaling. Since we have |
6946 | already consumed the token following `*' we now need to put it | |
6947 | back in the stream. */ | |
64a0c779 | 6948 | intel_putback_token (); |
a724f0f4 | 6949 | } |
64a0c779 | 6950 | |
a724f0f4 JB |
6951 | /* Add the constant to the displacement string. */ |
6952 | strcat (intel_parser.disp, save_str); | |
6953 | free (save_str); | |
64a0c779 | 6954 | |
a724f0f4 JB |
6955 | return 1; |
6956 | } | |
64a0c779 DN |
6957 | } |
6958 | ||
64a0c779 DN |
6959 | as_bad (_("Unrecognized token '%s'"), cur_token.str); |
6960 | return 0; | |
6961 | } | |
6962 | ||
64a0c779 DN |
6963 | /* Match the given token against cur_token. If they match, read the next |
6964 | token from the operand string. */ | |
6965 | static int | |
6966 | intel_match_token (code) | |
e5cb08ac | 6967 | int code; |
64a0c779 DN |
6968 | { |
6969 | if (cur_token.code == code) | |
6970 | { | |
6971 | intel_get_token (); | |
6972 | return 1; | |
6973 | } | |
6974 | else | |
6975 | { | |
0477af35 | 6976 | as_bad (_("Unexpected token `%s'"), cur_token.str); |
64a0c779 DN |
6977 | return 0; |
6978 | } | |
6979 | } | |
6980 | ||
64a0c779 DN |
6981 | /* Read a new token from intel_parser.op_string and store it in cur_token. */ |
6982 | static void | |
6983 | intel_get_token () | |
6984 | { | |
6985 | char *end_op; | |
6986 | const reg_entry *reg; | |
6987 | struct intel_token new_token; | |
6988 | ||
6989 | new_token.code = T_NIL; | |
6990 | new_token.reg = NULL; | |
6991 | new_token.str = NULL; | |
6992 | ||
4a1805b1 | 6993 | /* Free the memory allocated to the previous token and move |
64a0c779 DN |
6994 | cur_token to prev_token. */ |
6995 | if (prev_token.str) | |
6996 | free (prev_token.str); | |
6997 | ||
6998 | prev_token = cur_token; | |
6999 | ||
7000 | /* Skip whitespace. */ | |
7001 | while (is_space_char (*intel_parser.op_string)) | |
7002 | intel_parser.op_string++; | |
7003 | ||
7004 | /* Return an empty token if we find nothing else on the line. */ | |
7005 | if (*intel_parser.op_string == '\0') | |
7006 | { | |
7007 | cur_token = new_token; | |
7008 | return; | |
7009 | } | |
7010 | ||
7011 | /* The new token cannot be larger than the remainder of the operand | |
7012 | string. */ | |
a724f0f4 | 7013 | new_token.str = (char *) xmalloc (strlen (intel_parser.op_string) + 1); |
64a0c779 DN |
7014 | new_token.str[0] = '\0'; |
7015 | ||
7016 | if (strchr ("0123456789", *intel_parser.op_string)) | |
7017 | { | |
7018 | char *p = new_token.str; | |
7019 | char *q = intel_parser.op_string; | |
7020 | new_token.code = T_CONST; | |
7021 | ||
7022 | /* Allow any kind of identifier char to encompass floating point and | |
7023 | hexadecimal numbers. */ | |
7024 | while (is_identifier_char (*q)) | |
7025 | *p++ = *q++; | |
7026 | *p = '\0'; | |
7027 | ||
7028 | /* Recognize special symbol names [0-9][bf]. */ | |
7029 | if (strlen (intel_parser.op_string) == 2 | |
4a1805b1 | 7030 | && (intel_parser.op_string[1] == 'b' |
64a0c779 DN |
7031 | || intel_parser.op_string[1] == 'f')) |
7032 | new_token.code = T_ID; | |
7033 | } | |
7034 | ||
4d1bb795 | 7035 | else if ((reg = parse_register (intel_parser.op_string, &end_op)) != NULL) |
64a0c779 | 7036 | { |
4d1bb795 JB |
7037 | size_t len = end_op - intel_parser.op_string; |
7038 | ||
64a0c779 DN |
7039 | new_token.code = T_REG; |
7040 | new_token.reg = reg; | |
7041 | ||
4d1bb795 JB |
7042 | memcpy (new_token.str, intel_parser.op_string, len); |
7043 | new_token.str[len] = '\0'; | |
64a0c779 DN |
7044 | } |
7045 | ||
7046 | else if (is_identifier_char (*intel_parser.op_string)) | |
7047 | { | |
7048 | char *p = new_token.str; | |
7049 | char *q = intel_parser.op_string; | |
7050 | ||
7051 | /* A '.' or '$' followed by an identifier char is an identifier. | |
7052 | Otherwise, it's operator '.' followed by an expression. */ | |
7053 | if ((*q == '.' || *q == '$') && !is_identifier_char (*(q + 1))) | |
7054 | { | |
9306ca4a JB |
7055 | new_token.code = '.'; |
7056 | new_token.str[0] = '.'; | |
64a0c779 DN |
7057 | new_token.str[1] = '\0'; |
7058 | } | |
7059 | else | |
7060 | { | |
7061 | while (is_identifier_char (*q) || *q == '@') | |
7062 | *p++ = *q++; | |
7063 | *p = '\0'; | |
7064 | ||
9306ca4a JB |
7065 | if (strcasecmp (new_token.str, "NOT") == 0) |
7066 | new_token.code = '~'; | |
7067 | ||
7068 | else if (strcasecmp (new_token.str, "MOD") == 0) | |
7069 | new_token.code = '%'; | |
7070 | ||
7071 | else if (strcasecmp (new_token.str, "AND") == 0) | |
7072 | new_token.code = '&'; | |
7073 | ||
7074 | else if (strcasecmp (new_token.str, "OR") == 0) | |
7075 | new_token.code = '|'; | |
7076 | ||
7077 | else if (strcasecmp (new_token.str, "XOR") == 0) | |
7078 | new_token.code = '^'; | |
7079 | ||
7080 | else if (strcasecmp (new_token.str, "SHL") == 0) | |
7081 | new_token.code = T_SHL; | |
7082 | ||
7083 | else if (strcasecmp (new_token.str, "SHR") == 0) | |
7084 | new_token.code = T_SHR; | |
7085 | ||
7086 | else if (strcasecmp (new_token.str, "BYTE") == 0) | |
64a0c779 DN |
7087 | new_token.code = T_BYTE; |
7088 | ||
7089 | else if (strcasecmp (new_token.str, "WORD") == 0) | |
7090 | new_token.code = T_WORD; | |
7091 | ||
7092 | else if (strcasecmp (new_token.str, "DWORD") == 0) | |
7093 | new_token.code = T_DWORD; | |
7094 | ||
9306ca4a JB |
7095 | else if (strcasecmp (new_token.str, "FWORD") == 0) |
7096 | new_token.code = T_FWORD; | |
7097 | ||
64a0c779 DN |
7098 | else if (strcasecmp (new_token.str, "QWORD") == 0) |
7099 | new_token.code = T_QWORD; | |
7100 | ||
9306ca4a JB |
7101 | else if (strcasecmp (new_token.str, "TBYTE") == 0 |
7102 | /* XXX remove (gcc still uses it) */ | |
7103 | || strcasecmp (new_token.str, "XWORD") == 0) | |
7104 | new_token.code = T_TBYTE; | |
7105 | ||
7106 | else if (strcasecmp (new_token.str, "XMMWORD") == 0 | |
7107 | || strcasecmp (new_token.str, "OWORD") == 0) | |
7108 | new_token.code = T_XMMWORD; | |
64a0c779 DN |
7109 | |
7110 | else if (strcasecmp (new_token.str, "PTR") == 0) | |
7111 | new_token.code = T_PTR; | |
7112 | ||
7113 | else if (strcasecmp (new_token.str, "SHORT") == 0) | |
7114 | new_token.code = T_SHORT; | |
7115 | ||
7116 | else if (strcasecmp (new_token.str, "OFFSET") == 0) | |
7117 | { | |
7118 | new_token.code = T_OFFSET; | |
7119 | ||
7120 | /* ??? This is not mentioned in the MASM grammar but gcc | |
7121 | makes use of it with -mintel-syntax. OFFSET may be | |
7122 | followed by FLAT: */ | |
7123 | if (strncasecmp (q, " FLAT:", 6) == 0) | |
7124 | strcat (new_token.str, " FLAT:"); | |
7125 | } | |
7126 | ||
7127 | /* ??? This is not mentioned in the MASM grammar. */ | |
7128 | else if (strcasecmp (new_token.str, "FLAT") == 0) | |
a724f0f4 JB |
7129 | { |
7130 | new_token.code = T_OFFSET; | |
7131 | if (*q == ':') | |
7132 | strcat (new_token.str, ":"); | |
7133 | else | |
7134 | as_bad (_("`:' expected")); | |
7135 | } | |
64a0c779 DN |
7136 | |
7137 | else | |
7138 | new_token.code = T_ID; | |
7139 | } | |
7140 | } | |
7141 | ||
9306ca4a JB |
7142 | else if (strchr ("+-/*%|&^:[]()~", *intel_parser.op_string)) |
7143 | { | |
7144 | new_token.code = *intel_parser.op_string; | |
7145 | new_token.str[0] = *intel_parser.op_string; | |
7146 | new_token.str[1] = '\0'; | |
7147 | } | |
7148 | ||
7149 | else if (strchr ("<>", *intel_parser.op_string) | |
7150 | && *intel_parser.op_string == *(intel_parser.op_string + 1)) | |
7151 | { | |
7152 | new_token.code = *intel_parser.op_string == '<' ? T_SHL : T_SHR; | |
7153 | new_token.str[0] = *intel_parser.op_string; | |
7154 | new_token.str[1] = *intel_parser.op_string; | |
7155 | new_token.str[2] = '\0'; | |
7156 | } | |
7157 | ||
64a0c779 | 7158 | else |
0477af35 | 7159 | as_bad (_("Unrecognized token `%s'"), intel_parser.op_string); |
64a0c779 DN |
7160 | |
7161 | intel_parser.op_string += strlen (new_token.str); | |
7162 | cur_token = new_token; | |
7163 | } | |
7164 | ||
64a0c779 DN |
7165 | /* Put cur_token back into the token stream and make cur_token point to |
7166 | prev_token. */ | |
7167 | static void | |
7168 | intel_putback_token () | |
7169 | { | |
a724f0f4 JB |
7170 | if (cur_token.code != T_NIL) |
7171 | { | |
7172 | intel_parser.op_string -= strlen (cur_token.str); | |
7173 | free (cur_token.str); | |
7174 | } | |
64a0c779 | 7175 | cur_token = prev_token; |
4a1805b1 | 7176 | |
64a0c779 DN |
7177 | /* Forget prev_token. */ |
7178 | prev_token.code = T_NIL; | |
7179 | prev_token.reg = NULL; | |
7180 | prev_token.str = NULL; | |
7181 | } | |
54cfded0 | 7182 | |
a4447b93 | 7183 | int |
1df69f4f | 7184 | tc_x86_regname_to_dw2regnum (char *regname) |
54cfded0 AM |
7185 | { |
7186 | unsigned int regnum; | |
7187 | unsigned int regnames_count; | |
089dfecd | 7188 | static const char *const regnames_32[] = |
54cfded0 | 7189 | { |
a4447b93 RH |
7190 | "eax", "ecx", "edx", "ebx", |
7191 | "esp", "ebp", "esi", "edi", | |
089dfecd JB |
7192 | "eip", "eflags", NULL, |
7193 | "st0", "st1", "st2", "st3", | |
7194 | "st4", "st5", "st6", "st7", | |
7195 | NULL, NULL, | |
7196 | "xmm0", "xmm1", "xmm2", "xmm3", | |
7197 | "xmm4", "xmm5", "xmm6", "xmm7", | |
7198 | "mm0", "mm1", "mm2", "mm3", | |
43fd16e4 JB |
7199 | "mm4", "mm5", "mm6", "mm7", |
7200 | "fcw", "fsw", "mxcsr", | |
7201 | "es", "cs", "ss", "ds", "fs", "gs", NULL, NULL, | |
7202 | "tr", "ldtr" | |
54cfded0 | 7203 | }; |
089dfecd | 7204 | static const char *const regnames_64[] = |
54cfded0 | 7205 | { |
089dfecd JB |
7206 | "rax", "rdx", "rcx", "rbx", |
7207 | "rsi", "rdi", "rbp", "rsp", | |
7208 | "r8", "r9", "r10", "r11", | |
54cfded0 | 7209 | "r12", "r13", "r14", "r15", |
089dfecd JB |
7210 | "rip", |
7211 | "xmm0", "xmm1", "xmm2", "xmm3", | |
7212 | "xmm4", "xmm5", "xmm6", "xmm7", | |
7213 | "xmm8", "xmm9", "xmm10", "xmm11", | |
7214 | "xmm12", "xmm13", "xmm14", "xmm15", | |
7215 | "st0", "st1", "st2", "st3", | |
7216 | "st4", "st5", "st6", "st7", | |
7217 | "mm0", "mm1", "mm2", "mm3", | |
43fd16e4 JB |
7218 | "mm4", "mm5", "mm6", "mm7", |
7219 | "rflags", | |
7220 | "es", "cs", "ss", "ds", "fs", "gs", NULL, NULL, | |
7221 | "fs.base", "gs.base", NULL, NULL, | |
7222 | "tr", "ldtr", | |
7223 | "mxcsr", "fcw", "fsw" | |
54cfded0 | 7224 | }; |
089dfecd | 7225 | const char *const *regnames; |
54cfded0 AM |
7226 | |
7227 | if (flag_code == CODE_64BIT) | |
7228 | { | |
7229 | regnames = regnames_64; | |
0cea6190 | 7230 | regnames_count = ARRAY_SIZE (regnames_64); |
54cfded0 AM |
7231 | } |
7232 | else | |
7233 | { | |
7234 | regnames = regnames_32; | |
0cea6190 | 7235 | regnames_count = ARRAY_SIZE (regnames_32); |
54cfded0 AM |
7236 | } |
7237 | ||
7238 | for (regnum = 0; regnum < regnames_count; regnum++) | |
089dfecd JB |
7239 | if (regnames[regnum] != NULL |
7240 | && strcmp (regname, regnames[regnum]) == 0) | |
54cfded0 AM |
7241 | return regnum; |
7242 | ||
54cfded0 AM |
7243 | return -1; |
7244 | } | |
7245 | ||
7246 | void | |
7247 | tc_x86_frame_initial_instructions (void) | |
7248 | { | |
a4447b93 RH |
7249 | static unsigned int sp_regno; |
7250 | ||
7251 | if (!sp_regno) | |
7252 | sp_regno = tc_x86_regname_to_dw2regnum (flag_code == CODE_64BIT | |
7253 | ? "rsp" : "esp"); | |
7254 | ||
7255 | cfi_add_CFA_def_cfa (sp_regno, -x86_cie_data_alignment); | |
7256 | cfi_add_CFA_offset (x86_dwarf2_return_column, x86_cie_data_alignment); | |
54cfded0 | 7257 | } |
d2b2c203 DJ |
7258 | |
7259 | int | |
7260 | i386_elf_section_type (const char *str, size_t len) | |
7261 | { | |
7262 | if (flag_code == CODE_64BIT | |
7263 | && len == sizeof ("unwind") - 1 | |
7264 | && strncmp (str, "unwind", 6) == 0) | |
7265 | return SHT_X86_64_UNWIND; | |
7266 | ||
7267 | return -1; | |
7268 | } | |
bb41ade5 AM |
7269 | |
7270 | #ifdef TE_PE | |
7271 | void | |
7272 | tc_pe_dwarf2_emit_offset (symbolS *symbol, unsigned int size) | |
7273 | { | |
7274 | expressionS expr; | |
7275 | ||
7276 | expr.X_op = O_secrel; | |
7277 | expr.X_add_symbol = symbol; | |
7278 | expr.X_add_number = 0; | |
7279 | emit_expr (&expr, size); | |
7280 | } | |
7281 | #endif | |
3b22753a L |
7282 | |
7283 | #if defined (OBJ_ELF) || defined (OBJ_MAYBE_ELF) | |
7284 | /* For ELF on x86-64, add support for SHF_X86_64_LARGE. */ | |
7285 | ||
7286 | int | |
7287 | x86_64_section_letter (int letter, char **ptr_msg) | |
7288 | { | |
7289 | if (flag_code == CODE_64BIT) | |
7290 | { | |
7291 | if (letter == 'l') | |
7292 | return SHF_X86_64_LARGE; | |
7293 | ||
7294 | *ptr_msg = _("Bad .section directive: want a,l,w,x,M,S,G,T in string"); | |
64e74474 | 7295 | } |
3b22753a | 7296 | else |
64e74474 | 7297 | *ptr_msg = _("Bad .section directive: want a,w,x,M,S,G,T in string"); |
3b22753a L |
7298 | return -1; |
7299 | } | |
7300 | ||
7301 | int | |
7302 | x86_64_section_word (char *str, size_t len) | |
7303 | { | |
7304 | if (len == 5 && flag_code == CODE_64BIT && strncmp (str, "large", 5) == 0) | |
7305 | return SHF_X86_64_LARGE; | |
7306 | ||
7307 | return -1; | |
7308 | } | |
7309 | ||
7310 | static void | |
7311 | handle_large_common (int small ATTRIBUTE_UNUSED) | |
7312 | { | |
7313 | if (flag_code != CODE_64BIT) | |
7314 | { | |
7315 | s_comm_internal (0, elf_common_parse); | |
7316 | as_warn (_(".largecomm supported only in 64bit mode, producing .comm")); | |
7317 | } | |
7318 | else | |
7319 | { | |
7320 | static segT lbss_section; | |
7321 | asection *saved_com_section_ptr = elf_com_section_ptr; | |
7322 | asection *saved_bss_section = bss_section; | |
7323 | ||
7324 | if (lbss_section == NULL) | |
7325 | { | |
7326 | flagword applicable; | |
7327 | segT seg = now_seg; | |
7328 | subsegT subseg = now_subseg; | |
7329 | ||
7330 | /* The .lbss section is for local .largecomm symbols. */ | |
7331 | lbss_section = subseg_new (".lbss", 0); | |
7332 | applicable = bfd_applicable_section_flags (stdoutput); | |
7333 | bfd_set_section_flags (stdoutput, lbss_section, | |
7334 | applicable & SEC_ALLOC); | |
7335 | seg_info (lbss_section)->bss = 1; | |
7336 | ||
7337 | subseg_set (seg, subseg); | |
7338 | } | |
7339 | ||
7340 | elf_com_section_ptr = &_bfd_elf_large_com_section; | |
7341 | bss_section = lbss_section; | |
7342 | ||
7343 | s_comm_internal (0, elf_common_parse); | |
7344 | ||
7345 | elf_com_section_ptr = saved_com_section_ptr; | |
7346 | bss_section = saved_bss_section; | |
7347 | } | |
7348 | } | |
7349 | #endif /* OBJ_ELF || OBJ_MAYBE_ELF */ |