| 1 | /* tc-alpha.c - Processor-specific code for the DEC Alpha AXP CPU. |
| 2 | Copyright 1989, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, |
| 3 | 2001, 2002, 2003 Free Software Foundation, Inc. |
| 4 | Contributed by Carnegie Mellon University, 1993. |
| 5 | Written by Alessandro Forin, based on earlier gas-1.38 target CPU files. |
| 6 | Modified by Ken Raeburn for gas-2.x and ECOFF support. |
| 7 | Modified by Richard Henderson for ELF support. |
| 8 | Modified by Klaus K"ampf for EVAX (OpenVMS/Alpha) support. |
| 9 | |
| 10 | This file is part of GAS, the GNU Assembler. |
| 11 | |
| 12 | GAS is free software; you can redistribute it and/or modify |
| 13 | it under the terms of the GNU General Public License as published by |
| 14 | the Free Software Foundation; either version 2, or (at your option) |
| 15 | any later version. |
| 16 | |
| 17 | GAS is distributed in the hope that it will be useful, |
| 18 | but WITHOUT ANY WARRANTY; without even the implied warranty of |
| 19 | MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
| 20 | GNU General Public License for more details. |
| 21 | |
| 22 | You should have received a copy of the GNU General Public License |
| 23 | along with GAS; see the file COPYING. If not, write to the Free |
| 24 | Software Foundation, 59 Temple Place - Suite 330, Boston, MA |
| 25 | 02111-1307, USA. */ |
| 26 | |
| 27 | /* |
| 28 | * Mach Operating System |
| 29 | * Copyright (c) 1993 Carnegie Mellon University |
| 30 | * All Rights Reserved. |
| 31 | * |
| 32 | * Permission to use, copy, modify and distribute this software and its |
| 33 | * documentation is hereby granted, provided that both the copyright |
| 34 | * notice and this permission notice appear in all copies of the |
| 35 | * software, derivative works or modified versions, and any portions |
| 36 | * thereof, and that both notices appear in supporting documentation. |
| 37 | * |
| 38 | * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS |
| 39 | * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR |
| 40 | * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. |
| 41 | * |
| 42 | * Carnegie Mellon requests users of this software to return to |
| 43 | * |
| 44 | * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU |
| 45 | * School of Computer Science |
| 46 | * Carnegie Mellon University |
| 47 | * Pittsburgh PA 15213-3890 |
| 48 | * |
| 49 | * any improvements or extensions that they make and grant Carnegie the |
| 50 | * rights to redistribute these changes. |
| 51 | */ |
| 52 | |
| 53 | #include "as.h" |
| 54 | #include "subsegs.h" |
| 55 | #include "struc-symbol.h" |
| 56 | #include "ecoff.h" |
| 57 | |
| 58 | #include "opcode/alpha.h" |
| 59 | |
| 60 | #ifdef OBJ_ELF |
| 61 | #include "elf/alpha.h" |
| 62 | #include "dwarf2dbg.h" |
| 63 | #include "dw2gencfi.h" |
| 64 | #endif |
| 65 | |
| 66 | #include "safe-ctype.h" |
| 67 | \f |
| 68 | /* Local types. */ |
| 69 | |
| 70 | #define TOKENIZE_ERROR -1 |
| 71 | #define TOKENIZE_ERROR_REPORT -2 |
| 72 | |
| 73 | #define MAX_INSN_FIXUPS 2 |
| 74 | #define MAX_INSN_ARGS 5 |
| 75 | |
| 76 | struct alpha_fixup |
| 77 | { |
| 78 | expressionS exp; |
| 79 | bfd_reloc_code_real_type reloc; |
| 80 | }; |
| 81 | |
| 82 | struct alpha_insn |
| 83 | { |
| 84 | unsigned insn; |
| 85 | int nfixups; |
| 86 | struct alpha_fixup fixups[MAX_INSN_FIXUPS]; |
| 87 | long sequence; |
| 88 | }; |
| 89 | |
| 90 | enum alpha_macro_arg |
| 91 | { |
| 92 | MACRO_EOA = 1, |
| 93 | MACRO_IR, |
| 94 | MACRO_PIR, |
| 95 | MACRO_OPIR, |
| 96 | MACRO_CPIR, |
| 97 | MACRO_FPR, |
| 98 | MACRO_EXP, |
| 99 | }; |
| 100 | |
| 101 | struct alpha_macro |
| 102 | { |
| 103 | const char *name; |
| 104 | void (*emit) PARAMS ((const expressionS *, int, const PTR)); |
| 105 | const PTR arg; |
| 106 | enum alpha_macro_arg argsets[16]; |
| 107 | }; |
| 108 | |
| 109 | /* Extra expression types. */ |
| 110 | |
| 111 | #define O_pregister O_md1 /* O_register, in parentheses */ |
| 112 | #define O_cpregister O_md2 /* + a leading comma */ |
| 113 | |
| 114 | /* The alpha_reloc_op table below depends on the ordering of these. */ |
| 115 | #define O_literal O_md3 /* !literal relocation */ |
| 116 | #define O_lituse_addr O_md4 /* !lituse_addr relocation */ |
| 117 | #define O_lituse_base O_md5 /* !lituse_base relocation */ |
| 118 | #define O_lituse_bytoff O_md6 /* !lituse_bytoff relocation */ |
| 119 | #define O_lituse_jsr O_md7 /* !lituse_jsr relocation */ |
| 120 | #define O_lituse_tlsgd O_md8 /* !lituse_tlsgd relocation */ |
| 121 | #define O_lituse_tlsldm O_md9 /* !lituse_tlsldm relocation */ |
| 122 | #define O_gpdisp O_md10 /* !gpdisp relocation */ |
| 123 | #define O_gprelhigh O_md11 /* !gprelhigh relocation */ |
| 124 | #define O_gprellow O_md12 /* !gprellow relocation */ |
| 125 | #define O_gprel O_md13 /* !gprel relocation */ |
| 126 | #define O_samegp O_md14 /* !samegp relocation */ |
| 127 | #define O_tlsgd O_md15 /* !tlsgd relocation */ |
| 128 | #define O_tlsldm O_md16 /* !tlsldm relocation */ |
| 129 | #define O_gotdtprel O_md17 /* !gotdtprel relocation */ |
| 130 | #define O_dtprelhi O_md18 /* !dtprelhi relocation */ |
| 131 | #define O_dtprello O_md19 /* !dtprello relocation */ |
| 132 | #define O_dtprel O_md20 /* !dtprel relocation */ |
| 133 | #define O_gottprel O_md21 /* !gottprel relocation */ |
| 134 | #define O_tprelhi O_md22 /* !tprelhi relocation */ |
| 135 | #define O_tprello O_md23 /* !tprello relocation */ |
| 136 | #define O_tprel O_md24 /* !tprel relocation */ |
| 137 | |
| 138 | #define DUMMY_RELOC_LITUSE_ADDR (BFD_RELOC_UNUSED + 1) |
| 139 | #define DUMMY_RELOC_LITUSE_BASE (BFD_RELOC_UNUSED + 2) |
| 140 | #define DUMMY_RELOC_LITUSE_BYTOFF (BFD_RELOC_UNUSED + 3) |
| 141 | #define DUMMY_RELOC_LITUSE_JSR (BFD_RELOC_UNUSED + 4) |
| 142 | #define DUMMY_RELOC_LITUSE_TLSGD (BFD_RELOC_UNUSED + 5) |
| 143 | #define DUMMY_RELOC_LITUSE_TLSLDM (BFD_RELOC_UNUSED + 6) |
| 144 | |
| 145 | #define USER_RELOC_P(R) ((R) >= O_literal && (R) <= O_tprel) |
| 146 | |
| 147 | /* Macros for extracting the type and number of encoded register tokens. */ |
| 148 | |
| 149 | #define is_ir_num(x) (((x) & 32) == 0) |
| 150 | #define is_fpr_num(x) (((x) & 32) != 0) |
| 151 | #define regno(x) ((x) & 31) |
| 152 | |
| 153 | /* Something odd inherited from the old assembler. */ |
| 154 | |
| 155 | #define note_gpreg(R) (alpha_gprmask |= (1 << (R))) |
| 156 | #define note_fpreg(R) (alpha_fprmask |= (1 << (R))) |
| 157 | |
| 158 | /* Predicates for 16- and 32-bit ranges */ |
| 159 | /* XXX: The non-shift version appears to trigger a compiler bug when |
| 160 | cross-assembling from x86 w/ gcc 2.7.2. */ |
| 161 | |
| 162 | #if 1 |
| 163 | #define range_signed_16(x) \ |
| 164 | (((offsetT) (x) >> 15) == 0 || ((offsetT) (x) >> 15) == -1) |
| 165 | #define range_signed_32(x) \ |
| 166 | (((offsetT) (x) >> 31) == 0 || ((offsetT) (x) >> 31) == -1) |
| 167 | #else |
| 168 | #define range_signed_16(x) ((offsetT) (x) >= -(offsetT) 0x8000 && \ |
| 169 | (offsetT) (x) <= (offsetT) 0x7FFF) |
| 170 | #define range_signed_32(x) ((offsetT) (x) >= -(offsetT) 0x80000000 && \ |
| 171 | (offsetT) (x) <= (offsetT) 0x7FFFFFFF) |
| 172 | #endif |
| 173 | |
| 174 | /* Macros for sign extending from 16- and 32-bits. */ |
| 175 | /* XXX: The cast macros will work on all the systems that I care about, |
| 176 | but really a predicate should be found to use the non-cast forms. */ |
| 177 | |
| 178 | #if 1 |
| 179 | #define sign_extend_16(x) ((short) (x)) |
| 180 | #define sign_extend_32(x) ((int) (x)) |
| 181 | #else |
| 182 | #define sign_extend_16(x) ((offsetT) (((x) & 0xFFFF) ^ 0x8000) - 0x8000) |
| 183 | #define sign_extend_32(x) ((offsetT) (((x) & 0xFFFFFFFF) \ |
| 184 | ^ 0x80000000) - 0x80000000) |
| 185 | #endif |
| 186 | |
| 187 | /* Macros to build tokens. */ |
| 188 | |
| 189 | #define set_tok_reg(t, r) (memset (&(t), 0, sizeof (t)), \ |
| 190 | (t).X_op = O_register, \ |
| 191 | (t).X_add_number = (r)) |
| 192 | #define set_tok_preg(t, r) (memset (&(t), 0, sizeof (t)), \ |
| 193 | (t).X_op = O_pregister, \ |
| 194 | (t).X_add_number = (r)) |
| 195 | #define set_tok_cpreg(t, r) (memset (&(t), 0, sizeof (t)), \ |
| 196 | (t).X_op = O_cpregister, \ |
| 197 | (t).X_add_number = (r)) |
| 198 | #define set_tok_freg(t, r) (memset (&(t), 0, sizeof (t)), \ |
| 199 | (t).X_op = O_register, \ |
| 200 | (t).X_add_number = (r) + 32) |
| 201 | #define set_tok_sym(t, s, a) (memset (&(t), 0, sizeof (t)), \ |
| 202 | (t).X_op = O_symbol, \ |
| 203 | (t).X_add_symbol = (s), \ |
| 204 | (t).X_add_number = (a)) |
| 205 | #define set_tok_const(t, n) (memset (&(t), 0, sizeof (t)), \ |
| 206 | (t).X_op = O_constant, \ |
| 207 | (t).X_add_number = (n)) |
| 208 | \f |
| 209 | /* Prototypes for all local functions. */ |
| 210 | |
| 211 | static struct alpha_reloc_tag *get_alpha_reloc_tag PARAMS ((long)); |
| 212 | static void alpha_adjust_relocs PARAMS ((bfd *, asection *, PTR)); |
| 213 | |
| 214 | static int tokenize_arguments PARAMS ((char *, expressionS *, int)); |
| 215 | static const struct alpha_opcode *find_opcode_match |
| 216 | PARAMS ((const struct alpha_opcode *, const expressionS *, int *, int *)); |
| 217 | static const struct alpha_macro *find_macro_match |
| 218 | PARAMS ((const struct alpha_macro *, const expressionS *, int *)); |
| 219 | static unsigned insert_operand |
| 220 | PARAMS ((unsigned, const struct alpha_operand *, offsetT, char *, unsigned)); |
| 221 | static void assemble_insn |
| 222 | PARAMS ((const struct alpha_opcode *, const expressionS *, int, |
| 223 | struct alpha_insn *, bfd_reloc_code_real_type)); |
| 224 | static void emit_insn PARAMS ((struct alpha_insn *)); |
| 225 | static void assemble_tokens_to_insn |
| 226 | PARAMS ((const char *, const expressionS *, int, struct alpha_insn *)); |
| 227 | static void assemble_tokens |
| 228 | PARAMS ((const char *, const expressionS *, int, int)); |
| 229 | |
| 230 | static long load_expression |
| 231 | PARAMS ((int, const expressionS *, int *, expressionS *)); |
| 232 | |
| 233 | static void emit_ldgp PARAMS ((const expressionS *, int, const PTR)); |
| 234 | static void emit_division PARAMS ((const expressionS *, int, const PTR)); |
| 235 | static void emit_lda PARAMS ((const expressionS *, int, const PTR)); |
| 236 | static void emit_ldah PARAMS ((const expressionS *, int, const PTR)); |
| 237 | static void emit_ir_load PARAMS ((const expressionS *, int, const PTR)); |
| 238 | static void emit_loadstore PARAMS ((const expressionS *, int, const PTR)); |
| 239 | static void emit_jsrjmp PARAMS ((const expressionS *, int, const PTR)); |
| 240 | static void emit_ldX PARAMS ((const expressionS *, int, const PTR)); |
| 241 | static void emit_ldXu PARAMS ((const expressionS *, int, const PTR)); |
| 242 | static void emit_uldX PARAMS ((const expressionS *, int, const PTR)); |
| 243 | static void emit_uldXu PARAMS ((const expressionS *, int, const PTR)); |
| 244 | static void emit_ldil PARAMS ((const expressionS *, int, const PTR)); |
| 245 | static void emit_stX PARAMS ((const expressionS *, int, const PTR)); |
| 246 | static void emit_ustX PARAMS ((const expressionS *, int, const PTR)); |
| 247 | static void emit_sextX PARAMS ((const expressionS *, int, const PTR)); |
| 248 | static void emit_retjcr PARAMS ((const expressionS *, int, const PTR)); |
| 249 | |
| 250 | static void s_alpha_text PARAMS ((int)); |
| 251 | static void s_alpha_data PARAMS ((int)); |
| 252 | #ifndef OBJ_ELF |
| 253 | static void s_alpha_comm PARAMS ((int)); |
| 254 | static void s_alpha_rdata PARAMS ((int)); |
| 255 | #endif |
| 256 | #ifdef OBJ_ECOFF |
| 257 | static void s_alpha_sdata PARAMS ((int)); |
| 258 | #endif |
| 259 | #ifdef OBJ_ELF |
| 260 | static void s_alpha_section PARAMS ((int)); |
| 261 | static void s_alpha_ent PARAMS ((int)); |
| 262 | static void s_alpha_end PARAMS ((int)); |
| 263 | static void s_alpha_mask PARAMS ((int)); |
| 264 | static void s_alpha_frame PARAMS ((int)); |
| 265 | static void s_alpha_prologue PARAMS ((int)); |
| 266 | static void s_alpha_file PARAMS ((int)); |
| 267 | static void s_alpha_loc PARAMS ((int)); |
| 268 | static void s_alpha_stab PARAMS ((int)); |
| 269 | static void s_alpha_coff_wrapper PARAMS ((int)); |
| 270 | static void s_alpha_usepv PARAMS ((int)); |
| 271 | #endif |
| 272 | #ifdef OBJ_EVAX |
| 273 | static void s_alpha_section PARAMS ((int)); |
| 274 | #endif |
| 275 | static void s_alpha_gprel32 PARAMS ((int)); |
| 276 | static void s_alpha_float_cons PARAMS ((int)); |
| 277 | static void s_alpha_proc PARAMS ((int)); |
| 278 | static void s_alpha_set PARAMS ((int)); |
| 279 | static void s_alpha_base PARAMS ((int)); |
| 280 | static void s_alpha_align PARAMS ((int)); |
| 281 | static void s_alpha_stringer PARAMS ((int)); |
| 282 | static void s_alpha_space PARAMS ((int)); |
| 283 | static void s_alpha_ucons PARAMS ((int)); |
| 284 | static void s_alpha_arch PARAMS ((int)); |
| 285 | |
| 286 | static void create_literal_section PARAMS ((const char *, segT *, symbolS **)); |
| 287 | #ifndef OBJ_ELF |
| 288 | static void select_gp_value PARAMS ((void)); |
| 289 | #endif |
| 290 | static void alpha_align PARAMS ((int, char *, symbolS *, int)); |
| 291 | \f |
| 292 | /* Generic assembler global variables which must be defined by all |
| 293 | targets. */ |
| 294 | |
| 295 | /* Characters which always start a comment. */ |
| 296 | const char comment_chars[] = "#"; |
| 297 | |
| 298 | /* Characters which start a comment at the beginning of a line. */ |
| 299 | const char line_comment_chars[] = "#"; |
| 300 | |
| 301 | /* Characters which may be used to separate multiple commands on a |
| 302 | single line. */ |
| 303 | const char line_separator_chars[] = ";"; |
| 304 | |
| 305 | /* Characters which are used to indicate an exponent in a floating |
| 306 | point number. */ |
| 307 | const char EXP_CHARS[] = "eE"; |
| 308 | |
| 309 | /* Characters which mean that a number is a floating point constant, |
| 310 | as in 0d1.0. */ |
| 311 | #if 0 |
| 312 | const char FLT_CHARS[] = "dD"; |
| 313 | #else |
| 314 | /* XXX: Do all of these really get used on the alpha?? */ |
| 315 | char FLT_CHARS[] = "rRsSfFdDxXpP"; |
| 316 | #endif |
| 317 | |
| 318 | #ifdef OBJ_EVAX |
| 319 | const char *md_shortopts = "Fm:g+1h:HG:"; |
| 320 | #else |
| 321 | const char *md_shortopts = "Fm:gG:"; |
| 322 | #endif |
| 323 | |
| 324 | struct option md_longopts[] = |
| 325 | { |
| 326 | #define OPTION_32ADDR (OPTION_MD_BASE) |
| 327 | { "32addr", no_argument, NULL, OPTION_32ADDR }, |
| 328 | #define OPTION_RELAX (OPTION_32ADDR + 1) |
| 329 | { "relax", no_argument, NULL, OPTION_RELAX }, |
| 330 | #ifdef OBJ_ELF |
| 331 | #define OPTION_MDEBUG (OPTION_RELAX + 1) |
| 332 | #define OPTION_NO_MDEBUG (OPTION_MDEBUG + 1) |
| 333 | { "mdebug", no_argument, NULL, OPTION_MDEBUG }, |
| 334 | { "no-mdebug", no_argument, NULL, OPTION_NO_MDEBUG }, |
| 335 | #endif |
| 336 | { NULL, no_argument, NULL, 0 } |
| 337 | }; |
| 338 | |
| 339 | size_t md_longopts_size = sizeof (md_longopts); |
| 340 | \f |
| 341 | #ifdef OBJ_EVAX |
| 342 | #define AXP_REG_R0 0 |
| 343 | #define AXP_REG_R16 16 |
| 344 | #define AXP_REG_R17 17 |
| 345 | #undef AXP_REG_T9 |
| 346 | #define AXP_REG_T9 22 |
| 347 | #undef AXP_REG_T10 |
| 348 | #define AXP_REG_T10 23 |
| 349 | #undef AXP_REG_T11 |
| 350 | #define AXP_REG_T11 24 |
| 351 | #undef AXP_REG_T12 |
| 352 | #define AXP_REG_T12 25 |
| 353 | #define AXP_REG_AI 25 |
| 354 | #undef AXP_REG_FP |
| 355 | #define AXP_REG_FP 29 |
| 356 | |
| 357 | #undef AXP_REG_GP |
| 358 | #define AXP_REG_GP AXP_REG_PV |
| 359 | #endif /* OBJ_EVAX */ |
| 360 | |
| 361 | /* The cpu for which we are generating code. */ |
| 362 | static unsigned alpha_target = AXP_OPCODE_BASE; |
| 363 | static const char *alpha_target_name = "<all>"; |
| 364 | |
| 365 | /* The hash table of instruction opcodes. */ |
| 366 | static struct hash_control *alpha_opcode_hash; |
| 367 | |
| 368 | /* The hash table of macro opcodes. */ |
| 369 | static struct hash_control *alpha_macro_hash; |
| 370 | |
| 371 | #ifdef OBJ_ECOFF |
| 372 | /* The $gp relocation symbol. */ |
| 373 | static symbolS *alpha_gp_symbol; |
| 374 | |
| 375 | /* XXX: what is this, and why is it exported? */ |
| 376 | valueT alpha_gp_value; |
| 377 | #endif |
| 378 | |
| 379 | /* The current $gp register. */ |
| 380 | static int alpha_gp_register = AXP_REG_GP; |
| 381 | |
| 382 | /* A table of the register symbols. */ |
| 383 | static symbolS *alpha_register_table[64]; |
| 384 | |
| 385 | /* Constant sections, or sections of constants. */ |
| 386 | #ifdef OBJ_ECOFF |
| 387 | static segT alpha_lita_section; |
| 388 | #endif |
| 389 | #ifdef OBJ_EVAX |
| 390 | static segT alpha_link_section; |
| 391 | static segT alpha_ctors_section; |
| 392 | static segT alpha_dtors_section; |
| 393 | #endif |
| 394 | static segT alpha_lit8_section; |
| 395 | |
| 396 | /* Symbols referring to said sections. */ |
| 397 | #ifdef OBJ_ECOFF |
| 398 | static symbolS *alpha_lita_symbol; |
| 399 | #endif |
| 400 | #ifdef OBJ_EVAX |
| 401 | static symbolS *alpha_link_symbol; |
| 402 | static symbolS *alpha_ctors_symbol; |
| 403 | static symbolS *alpha_dtors_symbol; |
| 404 | #endif |
| 405 | static symbolS *alpha_lit8_symbol; |
| 406 | |
| 407 | /* Literal for .litX+0x8000 within .lita. */ |
| 408 | #ifdef OBJ_ECOFF |
| 409 | static offsetT alpha_lit8_literal; |
| 410 | #endif |
| 411 | |
| 412 | /* Is the assembler not allowed to use $at? */ |
| 413 | static int alpha_noat_on = 0; |
| 414 | |
| 415 | /* Are macros enabled? */ |
| 416 | static int alpha_macros_on = 1; |
| 417 | |
| 418 | /* Are floats disabled? */ |
| 419 | static int alpha_nofloats_on = 0; |
| 420 | |
| 421 | /* Are addresses 32 bit? */ |
| 422 | static int alpha_addr32_on = 0; |
| 423 | |
| 424 | /* Symbol labelling the current insn. When the Alpha gas sees |
| 425 | foo: |
| 426 | .quad 0 |
| 427 | and the section happens to not be on an eight byte boundary, it |
| 428 | will align both the symbol and the .quad to an eight byte boundary. */ |
| 429 | static symbolS *alpha_insn_label; |
| 430 | |
| 431 | /* Whether we should automatically align data generation pseudo-ops. |
| 432 | .align 0 will turn this off. */ |
| 433 | static int alpha_auto_align_on = 1; |
| 434 | |
| 435 | /* The known current alignment of the current section. */ |
| 436 | static int alpha_current_align; |
| 437 | |
| 438 | /* These are exported to ECOFF code. */ |
| 439 | unsigned long alpha_gprmask, alpha_fprmask; |
| 440 | |
| 441 | /* Whether the debugging option was seen. */ |
| 442 | static int alpha_debug; |
| 443 | |
| 444 | #ifdef OBJ_ELF |
| 445 | /* Whether we are emitting an mdebug section. */ |
| 446 | int alpha_flag_mdebug = -1; |
| 447 | #endif |
| 448 | |
| 449 | /* Don't fully resolve relocations, allowing code movement in the linker. */ |
| 450 | static int alpha_flag_relax; |
| 451 | |
| 452 | /* What value to give to bfd_set_gp_size. */ |
| 453 | static int g_switch_value = 8; |
| 454 | |
| 455 | #ifdef OBJ_EVAX |
| 456 | /* Collect information about current procedure here. */ |
| 457 | static struct { |
| 458 | symbolS *symbol; /* proc pdesc symbol */ |
| 459 | int pdsckind; |
| 460 | int framereg; /* register for frame pointer */ |
| 461 | int framesize; /* size of frame */ |
| 462 | int rsa_offset; |
| 463 | int ra_save; |
| 464 | int fp_save; |
| 465 | long imask; |
| 466 | long fmask; |
| 467 | int type; |
| 468 | int prologue; |
| 469 | } alpha_evax_proc; |
| 470 | |
| 471 | static int alpha_flag_hash_long_names = 0; /* -+ */ |
| 472 | static int alpha_flag_show_after_trunc = 0; /* -H */ |
| 473 | |
| 474 | /* If the -+ switch is given, then a hash is appended to any name that is |
| 475 | longer than 64 characters, else longer symbol names are truncated. */ |
| 476 | |
| 477 | #endif |
| 478 | \f |
| 479 | #ifdef RELOC_OP_P |
| 480 | /* A table to map the spelling of a relocation operand into an appropriate |
| 481 | bfd_reloc_code_real_type type. The table is assumed to be ordered such |
| 482 | that op-O_literal indexes into it. */ |
| 483 | |
| 484 | #define ALPHA_RELOC_TABLE(op) \ |
| 485 | (&alpha_reloc_op[ ((!USER_RELOC_P (op)) \ |
| 486 | ? (abort (), 0) \ |
| 487 | : (int) (op) - (int) O_literal) ]) |
| 488 | |
| 489 | #define DEF(NAME, RELOC, REQ, ALLOW) \ |
| 490 | { #NAME, sizeof(#NAME)-1, O_##NAME, RELOC, REQ, ALLOW} |
| 491 | |
| 492 | static const struct alpha_reloc_op_tag |
| 493 | { |
| 494 | const char *name; /* string to lookup */ |
| 495 | size_t length; /* size of the string */ |
| 496 | operatorT op; /* which operator to use */ |
| 497 | bfd_reloc_code_real_type reloc; /* relocation before frob */ |
| 498 | unsigned int require_seq : 1; /* require a sequence number */ |
| 499 | unsigned int allow_seq : 1; /* allow a sequence number */ |
| 500 | } |
| 501 | alpha_reloc_op[] = |
| 502 | { |
| 503 | DEF(literal, BFD_RELOC_ALPHA_ELF_LITERAL, 0, 1), |
| 504 | DEF(lituse_addr, DUMMY_RELOC_LITUSE_ADDR, 1, 1), |
| 505 | DEF(lituse_base, DUMMY_RELOC_LITUSE_BASE, 1, 1), |
| 506 | DEF(lituse_bytoff, DUMMY_RELOC_LITUSE_BYTOFF, 1, 1), |
| 507 | DEF(lituse_jsr, DUMMY_RELOC_LITUSE_JSR, 1, 1), |
| 508 | DEF(lituse_tlsgd, DUMMY_RELOC_LITUSE_TLSGD, 1, 1), |
| 509 | DEF(lituse_tlsldm, DUMMY_RELOC_LITUSE_TLSLDM, 1, 1), |
| 510 | DEF(gpdisp, BFD_RELOC_ALPHA_GPDISP, 1, 1), |
| 511 | DEF(gprelhigh, BFD_RELOC_ALPHA_GPREL_HI16, 0, 0), |
| 512 | DEF(gprellow, BFD_RELOC_ALPHA_GPREL_LO16, 0, 0), |
| 513 | DEF(gprel, BFD_RELOC_GPREL16, 0, 0), |
| 514 | DEF(samegp, BFD_RELOC_ALPHA_BRSGP, 0, 0), |
| 515 | DEF(tlsgd, BFD_RELOC_ALPHA_TLSGD, 0, 1), |
| 516 | DEF(tlsldm, BFD_RELOC_ALPHA_TLSLDM, 0, 1), |
| 517 | DEF(gotdtprel, BFD_RELOC_ALPHA_GOTDTPREL16, 0, 0), |
| 518 | DEF(dtprelhi, BFD_RELOC_ALPHA_DTPREL_HI16, 0, 0), |
| 519 | DEF(dtprello, BFD_RELOC_ALPHA_DTPREL_LO16, 0, 0), |
| 520 | DEF(dtprel, BFD_RELOC_ALPHA_DTPREL16, 0, 0), |
| 521 | DEF(gottprel, BFD_RELOC_ALPHA_GOTTPREL16, 0, 0), |
| 522 | DEF(tprelhi, BFD_RELOC_ALPHA_TPREL_HI16, 0, 0), |
| 523 | DEF(tprello, BFD_RELOC_ALPHA_TPREL_LO16, 0, 0), |
| 524 | DEF(tprel, BFD_RELOC_ALPHA_TPREL16, 0, 0), |
| 525 | }; |
| 526 | |
| 527 | #undef DEF |
| 528 | |
| 529 | static const int alpha_num_reloc_op |
| 530 | = sizeof (alpha_reloc_op) / sizeof (*alpha_reloc_op); |
| 531 | #endif /* RELOC_OP_P */ |
| 532 | |
| 533 | /* Maximum # digits needed to hold the largest sequence # */ |
| 534 | #define ALPHA_RELOC_DIGITS 25 |
| 535 | |
| 536 | /* Structure to hold explict sequence information. */ |
| 537 | struct alpha_reloc_tag |
| 538 | { |
| 539 | fixS *master; /* the literal reloc */ |
| 540 | fixS *slaves; /* head of linked list of lituses */ |
| 541 | segT segment; /* segment relocs are in or undefined_section*/ |
| 542 | long sequence; /* sequence # */ |
| 543 | unsigned n_master; /* # of literals */ |
| 544 | unsigned n_slaves; /* # of lituses */ |
| 545 | unsigned saw_tlsgd : 1; /* true if ... */ |
| 546 | unsigned saw_tlsldm : 1; |
| 547 | unsigned saw_lu_tlsgd : 1; |
| 548 | unsigned saw_lu_tlsldm : 1; |
| 549 | unsigned multi_section_p : 1; /* true if more than one section was used */ |
| 550 | char string[1]; /* printable form of sequence to hash with */ |
| 551 | }; |
| 552 | |
| 553 | /* Hash table to link up literals with the appropriate lituse */ |
| 554 | static struct hash_control *alpha_literal_hash; |
| 555 | |
| 556 | /* Sequence numbers for internal use by macros. */ |
| 557 | static long next_sequence_num = -1; |
| 558 | \f |
| 559 | /* A table of CPU names and opcode sets. */ |
| 560 | |
| 561 | static const struct cpu_type |
| 562 | { |
| 563 | const char *name; |
| 564 | unsigned flags; |
| 565 | } |
| 566 | cpu_types[] = |
| 567 | { |
| 568 | /* Ad hoc convention: cpu number gets palcode, process code doesn't. |
| 569 | This supports usage under DU 4.0b that does ".arch ev4", and |
| 570 | usage in MILO that does -m21064. Probably something more |
| 571 | specific like -m21064-pal should be used, but oh well. */ |
| 572 | |
| 573 | { "21064", AXP_OPCODE_BASE|AXP_OPCODE_EV4 }, |
| 574 | { "21064a", AXP_OPCODE_BASE|AXP_OPCODE_EV4 }, |
| 575 | { "21066", AXP_OPCODE_BASE|AXP_OPCODE_EV4 }, |
| 576 | { "21068", AXP_OPCODE_BASE|AXP_OPCODE_EV4 }, |
| 577 | { "21164", AXP_OPCODE_BASE|AXP_OPCODE_EV5 }, |
| 578 | { "21164a", AXP_OPCODE_BASE|AXP_OPCODE_EV5|AXP_OPCODE_BWX }, |
| 579 | { "21164pc", (AXP_OPCODE_BASE|AXP_OPCODE_EV5|AXP_OPCODE_BWX |
| 580 | |AXP_OPCODE_MAX) }, |
| 581 | { "21264", (AXP_OPCODE_BASE|AXP_OPCODE_EV6|AXP_OPCODE_BWX |
| 582 | |AXP_OPCODE_MAX|AXP_OPCODE_CIX) }, |
| 583 | { "21264a", (AXP_OPCODE_BASE|AXP_OPCODE_EV6|AXP_OPCODE_BWX |
| 584 | |AXP_OPCODE_MAX|AXP_OPCODE_CIX) }, |
| 585 | { "21264b", (AXP_OPCODE_BASE|AXP_OPCODE_EV6|AXP_OPCODE_BWX |
| 586 | |AXP_OPCODE_MAX|AXP_OPCODE_CIX) }, |
| 587 | |
| 588 | { "ev4", AXP_OPCODE_BASE }, |
| 589 | { "ev45", AXP_OPCODE_BASE }, |
| 590 | { "lca45", AXP_OPCODE_BASE }, |
| 591 | { "ev5", AXP_OPCODE_BASE }, |
| 592 | { "ev56", AXP_OPCODE_BASE|AXP_OPCODE_BWX }, |
| 593 | { "pca56", AXP_OPCODE_BASE|AXP_OPCODE_BWX|AXP_OPCODE_MAX }, |
| 594 | { "ev6", AXP_OPCODE_BASE|AXP_OPCODE_BWX|AXP_OPCODE_MAX|AXP_OPCODE_CIX }, |
| 595 | { "ev67", AXP_OPCODE_BASE|AXP_OPCODE_BWX|AXP_OPCODE_MAX|AXP_OPCODE_CIX }, |
| 596 | { "ev68", AXP_OPCODE_BASE|AXP_OPCODE_BWX|AXP_OPCODE_MAX|AXP_OPCODE_CIX }, |
| 597 | |
| 598 | { "all", AXP_OPCODE_BASE }, |
| 599 | { 0, 0 } |
| 600 | }; |
| 601 | |
| 602 | /* The macro table */ |
| 603 | |
| 604 | static const struct alpha_macro alpha_macros[] = |
| 605 | { |
| 606 | /* Load/Store macros */ |
| 607 | { "lda", emit_lda, NULL, |
| 608 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 609 | { "ldah", emit_ldah, NULL, |
| 610 | { MACRO_IR, MACRO_EXP, MACRO_EOA } }, |
| 611 | |
| 612 | { "ldl", emit_ir_load, "ldl", |
| 613 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 614 | { "ldl_l", emit_ir_load, "ldl_l", |
| 615 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 616 | { "ldq", emit_ir_load, "ldq", |
| 617 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 618 | { "ldq_l", emit_ir_load, "ldq_l", |
| 619 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 620 | { "ldq_u", emit_ir_load, "ldq_u", |
| 621 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 622 | { "ldf", emit_loadstore, "ldf", |
| 623 | { MACRO_FPR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 624 | { "ldg", emit_loadstore, "ldg", |
| 625 | { MACRO_FPR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 626 | { "lds", emit_loadstore, "lds", |
| 627 | { MACRO_FPR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 628 | { "ldt", emit_loadstore, "ldt", |
| 629 | { MACRO_FPR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 630 | |
| 631 | { "ldb", emit_ldX, (PTR) 0, |
| 632 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 633 | { "ldbu", emit_ldXu, (PTR) 0, |
| 634 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 635 | { "ldw", emit_ldX, (PTR) 1, |
| 636 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 637 | { "ldwu", emit_ldXu, (PTR) 1, |
| 638 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 639 | |
| 640 | { "uldw", emit_uldX, (PTR) 1, |
| 641 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 642 | { "uldwu", emit_uldXu, (PTR) 1, |
| 643 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 644 | { "uldl", emit_uldX, (PTR) 2, |
| 645 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 646 | { "uldlu", emit_uldXu, (PTR) 2, |
| 647 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 648 | { "uldq", emit_uldXu, (PTR) 3, |
| 649 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 650 | |
| 651 | { "ldgp", emit_ldgp, NULL, |
| 652 | { MACRO_IR, MACRO_EXP, MACRO_PIR, MACRO_EOA } }, |
| 653 | |
| 654 | { "ldi", emit_lda, NULL, |
| 655 | { MACRO_IR, MACRO_EXP, MACRO_EOA } }, |
| 656 | { "ldil", emit_ldil, NULL, |
| 657 | { MACRO_IR, MACRO_EXP, MACRO_EOA } }, |
| 658 | { "ldiq", emit_lda, NULL, |
| 659 | { MACRO_IR, MACRO_EXP, MACRO_EOA } }, |
| 660 | #if 0 |
| 661 | { "ldif" emit_ldiq, NULL, |
| 662 | { MACRO_FPR, MACRO_EXP, MACRO_EOA } }, |
| 663 | { "ldid" emit_ldiq, NULL, |
| 664 | { MACRO_FPR, MACRO_EXP, MACRO_EOA } }, |
| 665 | { "ldig" emit_ldiq, NULL, |
| 666 | { MACRO_FPR, MACRO_EXP, MACRO_EOA } }, |
| 667 | { "ldis" emit_ldiq, NULL, |
| 668 | { MACRO_FPR, MACRO_EXP, MACRO_EOA } }, |
| 669 | { "ldit" emit_ldiq, NULL, |
| 670 | { MACRO_FPR, MACRO_EXP, MACRO_EOA } }, |
| 671 | #endif |
| 672 | |
| 673 | { "stl", emit_loadstore, "stl", |
| 674 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 675 | { "stl_c", emit_loadstore, "stl_c", |
| 676 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 677 | { "stq", emit_loadstore, "stq", |
| 678 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 679 | { "stq_c", emit_loadstore, "stq_c", |
| 680 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 681 | { "stq_u", emit_loadstore, "stq_u", |
| 682 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 683 | { "stf", emit_loadstore, "stf", |
| 684 | { MACRO_FPR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 685 | { "stg", emit_loadstore, "stg", |
| 686 | { MACRO_FPR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 687 | { "sts", emit_loadstore, "sts", |
| 688 | { MACRO_FPR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 689 | { "stt", emit_loadstore, "stt", |
| 690 | { MACRO_FPR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 691 | |
| 692 | { "stb", emit_stX, (PTR) 0, |
| 693 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 694 | { "stw", emit_stX, (PTR) 1, |
| 695 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 696 | { "ustw", emit_ustX, (PTR) 1, |
| 697 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 698 | { "ustl", emit_ustX, (PTR) 2, |
| 699 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 700 | { "ustq", emit_ustX, (PTR) 3, |
| 701 | { MACRO_IR, MACRO_EXP, MACRO_OPIR, MACRO_EOA } }, |
| 702 | |
| 703 | /* Arithmetic macros */ |
| 704 | #if 0 |
| 705 | { "absl" emit_absl, 1, { IR } }, |
| 706 | { "absl" emit_absl, 2, { IR, IR } }, |
| 707 | { "absl" emit_absl, 2, { EXP, IR } }, |
| 708 | { "absq" emit_absq, 1, { IR } }, |
| 709 | { "absq" emit_absq, 2, { IR, IR } }, |
| 710 | { "absq" emit_absq, 2, { EXP, IR } }, |
| 711 | #endif |
| 712 | |
| 713 | { "sextb", emit_sextX, (PTR) 0, |
| 714 | { MACRO_IR, MACRO_IR, MACRO_EOA, |
| 715 | MACRO_IR, MACRO_EOA, |
| 716 | /* MACRO_EXP, MACRO_IR, MACRO_EOA */ } }, |
| 717 | { "sextw", emit_sextX, (PTR) 1, |
| 718 | { MACRO_IR, MACRO_IR, MACRO_EOA, |
| 719 | MACRO_IR, MACRO_EOA, |
| 720 | /* MACRO_EXP, MACRO_IR, MACRO_EOA */ } }, |
| 721 | |
| 722 | { "divl", emit_division, "__divl", |
| 723 | { MACRO_IR, MACRO_IR, MACRO_IR, MACRO_EOA, |
| 724 | MACRO_IR, MACRO_IR, MACRO_EOA, |
| 725 | /* MACRO_IR, MACRO_EXP, MACRO_IR, MACRO_EOA, |
| 726 | MACRO_IR, MACRO_EXP, MACRO_EOA */ } }, |
| 727 | { "divlu", emit_division, "__divlu", |
| 728 | { MACRO_IR, MACRO_IR, MACRO_IR, MACRO_EOA, |
| 729 | MACRO_IR, MACRO_IR, MACRO_EOA, |
| 730 | /* MACRO_IR, MACRO_EXP, MACRO_IR, MACRO_EOA, |
| 731 | MACRO_IR, MACRO_EXP, MACRO_EOA */ } }, |
| 732 | { "divq", emit_division, "__divq", |
| 733 | { MACRO_IR, MACRO_IR, MACRO_IR, MACRO_EOA, |
| 734 | MACRO_IR, MACRO_IR, MACRO_EOA, |
| 735 | /* MACRO_IR, MACRO_EXP, MACRO_IR, MACRO_EOA, |
| 736 | MACRO_IR, MACRO_EXP, MACRO_EOA */ } }, |
| 737 | { "divqu", emit_division, "__divqu", |
| 738 | { MACRO_IR, MACRO_IR, MACRO_IR, MACRO_EOA, |
| 739 | MACRO_IR, MACRO_IR, MACRO_EOA, |
| 740 | /* MACRO_IR, MACRO_EXP, MACRO_IR, MACRO_EOA, |
| 741 | MACRO_IR, MACRO_EXP, MACRO_EOA */ } }, |
| 742 | { "reml", emit_division, "__reml", |
| 743 | { MACRO_IR, MACRO_IR, MACRO_IR, MACRO_EOA, |
| 744 | MACRO_IR, MACRO_IR, MACRO_EOA, |
| 745 | /* MACRO_IR, MACRO_EXP, MACRO_IR, MACRO_EOA, |
| 746 | MACRO_IR, MACRO_EXP, MACRO_EOA */ } }, |
| 747 | { "remlu", emit_division, "__remlu", |
| 748 | { MACRO_IR, MACRO_IR, MACRO_IR, MACRO_EOA, |
| 749 | MACRO_IR, MACRO_IR, MACRO_EOA, |
| 750 | /* MACRO_IR, MACRO_EXP, MACRO_IR, MACRO_EOA, |
| 751 | MACRO_IR, MACRO_EXP, MACRO_EOA */ } }, |
| 752 | { "remq", emit_division, "__remq", |
| 753 | { MACRO_IR, MACRO_IR, MACRO_IR, MACRO_EOA, |
| 754 | MACRO_IR, MACRO_IR, MACRO_EOA, |
| 755 | /* MACRO_IR, MACRO_EXP, MACRO_IR, MACRO_EOA, |
| 756 | MACRO_IR, MACRO_EXP, MACRO_EOA */ } }, |
| 757 | { "remqu", emit_division, "__remqu", |
| 758 | { MACRO_IR, MACRO_IR, MACRO_IR, MACRO_EOA, |
| 759 | MACRO_IR, MACRO_IR, MACRO_EOA, |
| 760 | /* MACRO_IR, MACRO_EXP, MACRO_IR, MACRO_EOA, |
| 761 | MACRO_IR, MACRO_EXP, MACRO_EOA */ } }, |
| 762 | |
| 763 | { "jsr", emit_jsrjmp, "jsr", |
| 764 | { MACRO_PIR, MACRO_EXP, MACRO_EOA, |
| 765 | MACRO_PIR, MACRO_EOA, |
| 766 | MACRO_IR, MACRO_EXP, MACRO_EOA, |
| 767 | MACRO_EXP, MACRO_EOA } }, |
| 768 | { "jmp", emit_jsrjmp, "jmp", |
| 769 | { MACRO_PIR, MACRO_EXP, MACRO_EOA, |
| 770 | MACRO_PIR, MACRO_EOA, |
| 771 | MACRO_IR, MACRO_EXP, MACRO_EOA, |
| 772 | MACRO_EXP, MACRO_EOA } }, |
| 773 | { "ret", emit_retjcr, "ret", |
| 774 | { MACRO_IR, MACRO_EXP, MACRO_EOA, |
| 775 | MACRO_IR, MACRO_EOA, |
| 776 | MACRO_PIR, MACRO_EXP, MACRO_EOA, |
| 777 | MACRO_PIR, MACRO_EOA, |
| 778 | MACRO_EXP, MACRO_EOA, |
| 779 | MACRO_EOA } }, |
| 780 | { "jcr", emit_retjcr, "jcr", |
| 781 | { MACRO_IR, MACRO_EXP, MACRO_EOA, |
| 782 | MACRO_IR, MACRO_EOA, |
| 783 | MACRO_PIR, MACRO_EXP, MACRO_EOA, |
| 784 | MACRO_PIR, MACRO_EOA, |
| 785 | MACRO_EXP, MACRO_EOA, |
| 786 | MACRO_EOA } }, |
| 787 | { "jsr_coroutine", emit_retjcr, "jcr", |
| 788 | { MACRO_IR, MACRO_EXP, MACRO_EOA, |
| 789 | MACRO_IR, MACRO_EOA, |
| 790 | MACRO_PIR, MACRO_EXP, MACRO_EOA, |
| 791 | MACRO_PIR, MACRO_EOA, |
| 792 | MACRO_EXP, MACRO_EOA, |
| 793 | MACRO_EOA } }, |
| 794 | }; |
| 795 | |
| 796 | static const unsigned int alpha_num_macros |
| 797 | = sizeof (alpha_macros) / sizeof (*alpha_macros); |
| 798 | \f |
| 799 | /* Public interface functions */ |
| 800 | |
| 801 | /* This function is called once, at assembler startup time. It sets |
| 802 | up all the tables, etc. that the MD part of the assembler will |
| 803 | need, that can be determined before arguments are parsed. */ |
| 804 | |
| 805 | void |
| 806 | md_begin () |
| 807 | { |
| 808 | unsigned int i; |
| 809 | |
| 810 | /* Verify that X_op field is wide enough. */ |
| 811 | { |
| 812 | expressionS e; |
| 813 | e.X_op = O_max; |
| 814 | assert (e.X_op == O_max); |
| 815 | } |
| 816 | |
| 817 | /* Create the opcode hash table. */ |
| 818 | alpha_opcode_hash = hash_new (); |
| 819 | for (i = 0; i < alpha_num_opcodes;) |
| 820 | { |
| 821 | const char *name, *retval, *slash; |
| 822 | |
| 823 | name = alpha_opcodes[i].name; |
| 824 | retval = hash_insert (alpha_opcode_hash, name, (PTR) &alpha_opcodes[i]); |
| 825 | if (retval) |
| 826 | as_fatal (_("internal error: can't hash opcode `%s': %s"), |
| 827 | name, retval); |
| 828 | |
| 829 | /* Some opcodes include modifiers of various sorts with a "/mod" |
| 830 | syntax, like the architecture manual suggests. However, for |
| 831 | use with gcc at least, we also need access to those same opcodes |
| 832 | without the "/". */ |
| 833 | |
| 834 | if ((slash = strchr (name, '/')) != NULL) |
| 835 | { |
| 836 | char *p = xmalloc (strlen (name)); |
| 837 | memcpy (p, name, slash - name); |
| 838 | strcpy (p + (slash - name), slash + 1); |
| 839 | |
| 840 | (void) hash_insert (alpha_opcode_hash, p, (PTR) &alpha_opcodes[i]); |
| 841 | /* Ignore failures -- the opcode table does duplicate some |
| 842 | variants in different forms, like "hw_stq" and "hw_st/q". */ |
| 843 | } |
| 844 | |
| 845 | while (++i < alpha_num_opcodes |
| 846 | && (alpha_opcodes[i].name == name |
| 847 | || !strcmp (alpha_opcodes[i].name, name))) |
| 848 | continue; |
| 849 | } |
| 850 | |
| 851 | /* Create the macro hash table. */ |
| 852 | alpha_macro_hash = hash_new (); |
| 853 | for (i = 0; i < alpha_num_macros;) |
| 854 | { |
| 855 | const char *name, *retval; |
| 856 | |
| 857 | name = alpha_macros[i].name; |
| 858 | retval = hash_insert (alpha_macro_hash, name, (PTR) &alpha_macros[i]); |
| 859 | if (retval) |
| 860 | as_fatal (_("internal error: can't hash macro `%s': %s"), |
| 861 | name, retval); |
| 862 | |
| 863 | while (++i < alpha_num_macros |
| 864 | && (alpha_macros[i].name == name |
| 865 | || !strcmp (alpha_macros[i].name, name))) |
| 866 | continue; |
| 867 | } |
| 868 | |
| 869 | /* Construct symbols for each of the registers. */ |
| 870 | for (i = 0; i < 32; ++i) |
| 871 | { |
| 872 | char name[4]; |
| 873 | |
| 874 | sprintf (name, "$%d", i); |
| 875 | alpha_register_table[i] = symbol_create (name, reg_section, i, |
| 876 | &zero_address_frag); |
| 877 | } |
| 878 | for (; i < 64; ++i) |
| 879 | { |
| 880 | char name[5]; |
| 881 | |
| 882 | sprintf (name, "$f%d", i - 32); |
| 883 | alpha_register_table[i] = symbol_create (name, reg_section, i, |
| 884 | &zero_address_frag); |
| 885 | } |
| 886 | |
| 887 | /* Create the special symbols and sections we'll be using. */ |
| 888 | |
| 889 | /* So .sbss will get used for tiny objects. */ |
| 890 | bfd_set_gp_size (stdoutput, g_switch_value); |
| 891 | |
| 892 | #ifdef OBJ_ECOFF |
| 893 | create_literal_section (".lita", &alpha_lita_section, &alpha_lita_symbol); |
| 894 | |
| 895 | /* For handling the GP, create a symbol that won't be output in the |
| 896 | symbol table. We'll edit it out of relocs later. */ |
| 897 | alpha_gp_symbol = symbol_create ("<GP value>", alpha_lita_section, 0x8000, |
| 898 | &zero_address_frag); |
| 899 | #endif |
| 900 | |
| 901 | #ifdef OBJ_EVAX |
| 902 | create_literal_section (".link", &alpha_link_section, &alpha_link_symbol); |
| 903 | #endif |
| 904 | |
| 905 | #ifdef OBJ_ELF |
| 906 | if (ECOFF_DEBUGGING) |
| 907 | { |
| 908 | segT sec = subseg_new (".mdebug", (subsegT) 0); |
| 909 | bfd_set_section_flags (stdoutput, sec, SEC_HAS_CONTENTS | SEC_READONLY); |
| 910 | bfd_set_section_alignment (stdoutput, sec, 3); |
| 911 | } |
| 912 | #endif /* OBJ_ELF */ |
| 913 | |
| 914 | /* Create literal lookup hash table. */ |
| 915 | alpha_literal_hash = hash_new (); |
| 916 | |
| 917 | subseg_set (text_section, 0); |
| 918 | } |
| 919 | |
| 920 | /* The public interface to the instruction assembler. */ |
| 921 | |
| 922 | void |
| 923 | md_assemble (str) |
| 924 | char *str; |
| 925 | { |
| 926 | char opname[32]; /* Current maximum is 13. */ |
| 927 | expressionS tok[MAX_INSN_ARGS]; |
| 928 | int ntok, trunclen; |
| 929 | size_t opnamelen; |
| 930 | |
| 931 | /* Split off the opcode. */ |
| 932 | opnamelen = strspn (str, "abcdefghijklmnopqrstuvwxyz_/46819"); |
| 933 | trunclen = (opnamelen < sizeof (opname) - 1 |
| 934 | ? opnamelen |
| 935 | : sizeof (opname) - 1); |
| 936 | memcpy (opname, str, trunclen); |
| 937 | opname[trunclen] = '\0'; |
| 938 | |
| 939 | /* Tokenize the rest of the line. */ |
| 940 | if ((ntok = tokenize_arguments (str + opnamelen, tok, MAX_INSN_ARGS)) < 0) |
| 941 | { |
| 942 | if (ntok != TOKENIZE_ERROR_REPORT) |
| 943 | as_bad (_("syntax error")); |
| 944 | |
| 945 | return; |
| 946 | } |
| 947 | |
| 948 | /* Finish it off. */ |
| 949 | assemble_tokens (opname, tok, ntok, alpha_macros_on); |
| 950 | } |
| 951 | |
| 952 | /* Round up a section's size to the appropriate boundary. */ |
| 953 | |
| 954 | valueT |
| 955 | md_section_align (seg, size) |
| 956 | segT seg; |
| 957 | valueT size; |
| 958 | { |
| 959 | int align = bfd_get_section_alignment (stdoutput, seg); |
| 960 | valueT mask = ((valueT) 1 << align) - 1; |
| 961 | |
| 962 | return (size + mask) & ~mask; |
| 963 | } |
| 964 | |
| 965 | /* Turn a string in input_line_pointer into a floating point constant |
| 966 | of type TYPE, and store the appropriate bytes in *LITP. The number |
| 967 | of LITTLENUMS emitted is stored in *SIZEP. An error message is |
| 968 | returned, or NULL on OK. */ |
| 969 | |
| 970 | /* Equal to MAX_PRECISION in atof-ieee.c. */ |
| 971 | #define MAX_LITTLENUMS 6 |
| 972 | |
| 973 | extern char *vax_md_atof PARAMS ((int, char *, int *)); |
| 974 | |
| 975 | char * |
| 976 | md_atof (type, litP, sizeP) |
| 977 | char type; |
| 978 | char *litP; |
| 979 | int *sizeP; |
| 980 | { |
| 981 | int prec; |
| 982 | LITTLENUM_TYPE words[MAX_LITTLENUMS]; |
| 983 | LITTLENUM_TYPE *wordP; |
| 984 | char *t; |
| 985 | |
| 986 | switch (type) |
| 987 | { |
| 988 | /* VAX floats */ |
| 989 | case 'G': |
| 990 | /* VAX md_atof doesn't like "G" for some reason. */ |
| 991 | type = 'g'; |
| 992 | case 'F': |
| 993 | case 'D': |
| 994 | return vax_md_atof (type, litP, sizeP); |
| 995 | |
| 996 | /* IEEE floats */ |
| 997 | case 'f': |
| 998 | prec = 2; |
| 999 | break; |
| 1000 | |
| 1001 | case 'd': |
| 1002 | prec = 4; |
| 1003 | break; |
| 1004 | |
| 1005 | case 'x': |
| 1006 | case 'X': |
| 1007 | prec = 6; |
| 1008 | break; |
| 1009 | |
| 1010 | case 'p': |
| 1011 | case 'P': |
| 1012 | prec = 6; |
| 1013 | break; |
| 1014 | |
| 1015 | default: |
| 1016 | *sizeP = 0; |
| 1017 | return _("Bad call to MD_ATOF()"); |
| 1018 | } |
| 1019 | t = atof_ieee (input_line_pointer, type, words); |
| 1020 | if (t) |
| 1021 | input_line_pointer = t; |
| 1022 | *sizeP = prec * sizeof (LITTLENUM_TYPE); |
| 1023 | |
| 1024 | for (wordP = words + prec - 1; prec--;) |
| 1025 | { |
| 1026 | md_number_to_chars (litP, (long) (*wordP--), sizeof (LITTLENUM_TYPE)); |
| 1027 | litP += sizeof (LITTLENUM_TYPE); |
| 1028 | } |
| 1029 | |
| 1030 | return 0; |
| 1031 | } |
| 1032 | |
| 1033 | /* Take care of the target-specific command-line options. */ |
| 1034 | |
| 1035 | int |
| 1036 | md_parse_option (c, arg) |
| 1037 | int c; |
| 1038 | char *arg; |
| 1039 | { |
| 1040 | switch (c) |
| 1041 | { |
| 1042 | case 'F': |
| 1043 | alpha_nofloats_on = 1; |
| 1044 | break; |
| 1045 | |
| 1046 | case OPTION_32ADDR: |
| 1047 | alpha_addr32_on = 1; |
| 1048 | break; |
| 1049 | |
| 1050 | case 'g': |
| 1051 | alpha_debug = 1; |
| 1052 | break; |
| 1053 | |
| 1054 | case 'G': |
| 1055 | g_switch_value = atoi (arg); |
| 1056 | break; |
| 1057 | |
| 1058 | case 'm': |
| 1059 | { |
| 1060 | const struct cpu_type *p; |
| 1061 | for (p = cpu_types; p->name; ++p) |
| 1062 | if (strcmp (arg, p->name) == 0) |
| 1063 | { |
| 1064 | alpha_target_name = p->name, alpha_target = p->flags; |
| 1065 | goto found; |
| 1066 | } |
| 1067 | as_warn (_("Unknown CPU identifier `%s'"), arg); |
| 1068 | found:; |
| 1069 | } |
| 1070 | break; |
| 1071 | |
| 1072 | #ifdef OBJ_EVAX |
| 1073 | case '+': /* For g++. Hash any name > 63 chars long. */ |
| 1074 | alpha_flag_hash_long_names = 1; |
| 1075 | break; |
| 1076 | |
| 1077 | case 'H': /* Show new symbol after hash truncation */ |
| 1078 | alpha_flag_show_after_trunc = 1; |
| 1079 | break; |
| 1080 | |
| 1081 | case 'h': /* for gnu-c/vax compatibility. */ |
| 1082 | break; |
| 1083 | #endif |
| 1084 | |
| 1085 | case OPTION_RELAX: |
| 1086 | alpha_flag_relax = 1; |
| 1087 | break; |
| 1088 | |
| 1089 | #ifdef OBJ_ELF |
| 1090 | case OPTION_MDEBUG: |
| 1091 | alpha_flag_mdebug = 1; |
| 1092 | break; |
| 1093 | case OPTION_NO_MDEBUG: |
| 1094 | alpha_flag_mdebug = 0; |
| 1095 | break; |
| 1096 | #endif |
| 1097 | |
| 1098 | default: |
| 1099 | return 0; |
| 1100 | } |
| 1101 | |
| 1102 | return 1; |
| 1103 | } |
| 1104 | |
| 1105 | /* Print a description of the command-line options that we accept. */ |
| 1106 | |
| 1107 | void |
| 1108 | md_show_usage (stream) |
| 1109 | FILE *stream; |
| 1110 | { |
| 1111 | fputs (_("\ |
| 1112 | Alpha options:\n\ |
| 1113 | -32addr treat addresses as 32-bit values\n\ |
| 1114 | -F lack floating point instructions support\n\ |
| 1115 | -mev4 | -mev45 | -mev5 | -mev56 | -mpca56 | -mev6 | -mev67 | -mev68 | -mall\n\ |
| 1116 | specify variant of Alpha architecture\n\ |
| 1117 | -m21064 | -m21066 | -m21164 | -m21164a | -m21164pc | -m21264 | -m21264a | -m21264b\n\ |
| 1118 | these variants include PALcode opcodes\n"), |
| 1119 | stream); |
| 1120 | #ifdef OBJ_EVAX |
| 1121 | fputs (_("\ |
| 1122 | VMS options:\n\ |
| 1123 | -+ hash encode (don't truncate) names longer than 64 characters\n\ |
| 1124 | -H show new symbol after hash truncation\n"), |
| 1125 | stream); |
| 1126 | #endif |
| 1127 | } |
| 1128 | |
| 1129 | /* Decide from what point a pc-relative relocation is relative to, |
| 1130 | relative to the pc-relative fixup. Er, relatively speaking. */ |
| 1131 | |
| 1132 | long |
| 1133 | md_pcrel_from (fixP) |
| 1134 | fixS *fixP; |
| 1135 | { |
| 1136 | valueT addr = fixP->fx_where + fixP->fx_frag->fr_address; |
| 1137 | switch (fixP->fx_r_type) |
| 1138 | { |
| 1139 | case BFD_RELOC_23_PCREL_S2: |
| 1140 | case BFD_RELOC_ALPHA_HINT: |
| 1141 | case BFD_RELOC_ALPHA_BRSGP: |
| 1142 | return addr + 4; |
| 1143 | default: |
| 1144 | return addr; |
| 1145 | } |
| 1146 | } |
| 1147 | |
| 1148 | /* Attempt to simplify or even eliminate a fixup. The return value is |
| 1149 | ignored; perhaps it was once meaningful, but now it is historical. |
| 1150 | To indicate that a fixup has been eliminated, set fixP->fx_done. |
| 1151 | |
| 1152 | For ELF, here it is that we transform the GPDISP_HI16 reloc we used |
| 1153 | internally into the GPDISP reloc used externally. We had to do |
| 1154 | this so that we'd have the GPDISP_LO16 reloc as a tag to compute |
| 1155 | the distance to the "lda" instruction for setting the addend to |
| 1156 | GPDISP. */ |
| 1157 | |
| 1158 | void |
| 1159 | md_apply_fix3 (fixP, valP, seg) |
| 1160 | fixS *fixP; |
| 1161 | valueT * valP; |
| 1162 | segT seg; |
| 1163 | { |
| 1164 | char * const fixpos = fixP->fx_frag->fr_literal + fixP->fx_where; |
| 1165 | valueT value = * valP; |
| 1166 | unsigned image, size; |
| 1167 | |
| 1168 | switch (fixP->fx_r_type) |
| 1169 | { |
| 1170 | /* The GPDISP relocations are processed internally with a symbol |
| 1171 | referring to the current function's section; we need to drop |
| 1172 | in a value which, when added to the address of the start of |
| 1173 | the function, gives the desired GP. */ |
| 1174 | case BFD_RELOC_ALPHA_GPDISP_HI16: |
| 1175 | { |
| 1176 | fixS *next = fixP->fx_next; |
| 1177 | |
| 1178 | /* With user-specified !gpdisp relocations, we can be missing |
| 1179 | the matching LO16 reloc. We will have already issued an |
| 1180 | error message. */ |
| 1181 | if (next) |
| 1182 | fixP->fx_offset = (next->fx_frag->fr_address + next->fx_where |
| 1183 | - fixP->fx_frag->fr_address - fixP->fx_where); |
| 1184 | |
| 1185 | value = (value - sign_extend_16 (value)) >> 16; |
| 1186 | } |
| 1187 | #ifdef OBJ_ELF |
| 1188 | fixP->fx_r_type = BFD_RELOC_ALPHA_GPDISP; |
| 1189 | #endif |
| 1190 | goto do_reloc_gp; |
| 1191 | |
| 1192 | case BFD_RELOC_ALPHA_GPDISP_LO16: |
| 1193 | value = sign_extend_16 (value); |
| 1194 | fixP->fx_offset = 0; |
| 1195 | #ifdef OBJ_ELF |
| 1196 | fixP->fx_done = 1; |
| 1197 | #endif |
| 1198 | |
| 1199 | do_reloc_gp: |
| 1200 | fixP->fx_addsy = section_symbol (seg); |
| 1201 | md_number_to_chars (fixpos, value, 2); |
| 1202 | break; |
| 1203 | |
| 1204 | case BFD_RELOC_16: |
| 1205 | if (fixP->fx_pcrel) |
| 1206 | fixP->fx_r_type = BFD_RELOC_16_PCREL; |
| 1207 | size = 2; |
| 1208 | goto do_reloc_xx; |
| 1209 | case BFD_RELOC_32: |
| 1210 | if (fixP->fx_pcrel) |
| 1211 | fixP->fx_r_type = BFD_RELOC_32_PCREL; |
| 1212 | size = 4; |
| 1213 | goto do_reloc_xx; |
| 1214 | case BFD_RELOC_64: |
| 1215 | if (fixP->fx_pcrel) |
| 1216 | fixP->fx_r_type = BFD_RELOC_64_PCREL; |
| 1217 | size = 8; |
| 1218 | do_reloc_xx: |
| 1219 | if (fixP->fx_pcrel == 0 && fixP->fx_addsy == 0) |
| 1220 | { |
| 1221 | md_number_to_chars (fixpos, value, size); |
| 1222 | goto done; |
| 1223 | } |
| 1224 | return; |
| 1225 | |
| 1226 | #ifdef OBJ_ECOFF |
| 1227 | case BFD_RELOC_GPREL32: |
| 1228 | assert (fixP->fx_subsy == alpha_gp_symbol); |
| 1229 | fixP->fx_subsy = 0; |
| 1230 | /* FIXME: inherited this obliviousness of `value' -- why? */ |
| 1231 | md_number_to_chars (fixpos, -alpha_gp_value, 4); |
| 1232 | break; |
| 1233 | #else |
| 1234 | case BFD_RELOC_GPREL32: |
| 1235 | #endif |
| 1236 | case BFD_RELOC_GPREL16: |
| 1237 | case BFD_RELOC_ALPHA_GPREL_HI16: |
| 1238 | case BFD_RELOC_ALPHA_GPREL_LO16: |
| 1239 | return; |
| 1240 | |
| 1241 | case BFD_RELOC_23_PCREL_S2: |
| 1242 | if (fixP->fx_pcrel == 0 && fixP->fx_addsy == 0) |
| 1243 | { |
| 1244 | image = bfd_getl32 (fixpos); |
| 1245 | image = (image & ~0x1FFFFF) | ((value >> 2) & 0x1FFFFF); |
| 1246 | goto write_done; |
| 1247 | } |
| 1248 | return; |
| 1249 | |
| 1250 | case BFD_RELOC_ALPHA_HINT: |
| 1251 | if (fixP->fx_pcrel == 0 && fixP->fx_addsy == 0) |
| 1252 | { |
| 1253 | image = bfd_getl32 (fixpos); |
| 1254 | image = (image & ~0x3FFF) | ((value >> 2) & 0x3FFF); |
| 1255 | goto write_done; |
| 1256 | } |
| 1257 | return; |
| 1258 | |
| 1259 | #ifdef OBJ_ELF |
| 1260 | case BFD_RELOC_ALPHA_BRSGP: |
| 1261 | return; |
| 1262 | |
| 1263 | case BFD_RELOC_ALPHA_TLSGD: |
| 1264 | case BFD_RELOC_ALPHA_TLSLDM: |
| 1265 | case BFD_RELOC_ALPHA_GOTDTPREL16: |
| 1266 | case BFD_RELOC_ALPHA_DTPREL_HI16: |
| 1267 | case BFD_RELOC_ALPHA_DTPREL_LO16: |
| 1268 | case BFD_RELOC_ALPHA_DTPREL16: |
| 1269 | case BFD_RELOC_ALPHA_GOTTPREL16: |
| 1270 | case BFD_RELOC_ALPHA_TPREL_HI16: |
| 1271 | case BFD_RELOC_ALPHA_TPREL_LO16: |
| 1272 | case BFD_RELOC_ALPHA_TPREL16: |
| 1273 | if (fixP->fx_addsy) |
| 1274 | S_SET_THREAD_LOCAL (fixP->fx_addsy); |
| 1275 | return; |
| 1276 | #endif |
| 1277 | |
| 1278 | #ifdef OBJ_ECOFF |
| 1279 | case BFD_RELOC_ALPHA_LITERAL: |
| 1280 | md_number_to_chars (fixpos, value, 2); |
| 1281 | return; |
| 1282 | #endif |
| 1283 | case BFD_RELOC_ALPHA_ELF_LITERAL: |
| 1284 | case BFD_RELOC_ALPHA_LITUSE: |
| 1285 | case BFD_RELOC_ALPHA_LINKAGE: |
| 1286 | case BFD_RELOC_ALPHA_CODEADDR: |
| 1287 | return; |
| 1288 | |
| 1289 | case BFD_RELOC_VTABLE_INHERIT: |
| 1290 | case BFD_RELOC_VTABLE_ENTRY: |
| 1291 | return; |
| 1292 | |
| 1293 | default: |
| 1294 | { |
| 1295 | const struct alpha_operand *operand; |
| 1296 | |
| 1297 | if ((int) fixP->fx_r_type >= 0) |
| 1298 | as_fatal (_("unhandled relocation type %s"), |
| 1299 | bfd_get_reloc_code_name (fixP->fx_r_type)); |
| 1300 | |
| 1301 | assert (-(int) fixP->fx_r_type < (int) alpha_num_operands); |
| 1302 | operand = &alpha_operands[-(int) fixP->fx_r_type]; |
| 1303 | |
| 1304 | /* The rest of these fixups only exist internally during symbol |
| 1305 | resolution and have no representation in the object file. |
| 1306 | Therefore they must be completely resolved as constants. */ |
| 1307 | |
| 1308 | if (fixP->fx_addsy != 0 |
| 1309 | && S_GET_SEGMENT (fixP->fx_addsy) != absolute_section) |
| 1310 | as_bad_where (fixP->fx_file, fixP->fx_line, |
| 1311 | _("non-absolute expression in constant field")); |
| 1312 | |
| 1313 | image = bfd_getl32 (fixpos); |
| 1314 | image = insert_operand (image, operand, (offsetT) value, |
| 1315 | fixP->fx_file, fixP->fx_line); |
| 1316 | } |
| 1317 | goto write_done; |
| 1318 | } |
| 1319 | |
| 1320 | if (fixP->fx_addsy != 0 || fixP->fx_pcrel != 0) |
| 1321 | return; |
| 1322 | else |
| 1323 | { |
| 1324 | as_warn_where (fixP->fx_file, fixP->fx_line, |
| 1325 | _("type %d reloc done?\n"), (int) fixP->fx_r_type); |
| 1326 | goto done; |
| 1327 | } |
| 1328 | |
| 1329 | write_done: |
| 1330 | md_number_to_chars (fixpos, image, 4); |
| 1331 | |
| 1332 | done: |
| 1333 | fixP->fx_done = 1; |
| 1334 | } |
| 1335 | |
| 1336 | /* Look for a register name in the given symbol. */ |
| 1337 | |
| 1338 | symbolS * |
| 1339 | md_undefined_symbol (name) |
| 1340 | char *name; |
| 1341 | { |
| 1342 | if (*name == '$') |
| 1343 | { |
| 1344 | int is_float = 0, num; |
| 1345 | |
| 1346 | switch (*++name) |
| 1347 | { |
| 1348 | case 'f': |
| 1349 | if (name[1] == 'p' && name[2] == '\0') |
| 1350 | return alpha_register_table[AXP_REG_FP]; |
| 1351 | is_float = 32; |
| 1352 | /* FALLTHRU */ |
| 1353 | |
| 1354 | case 'r': |
| 1355 | if (!ISDIGIT (*++name)) |
| 1356 | break; |
| 1357 | /* FALLTHRU */ |
| 1358 | |
| 1359 | case '0': case '1': case '2': case '3': case '4': |
| 1360 | case '5': case '6': case '7': case '8': case '9': |
| 1361 | if (name[1] == '\0') |
| 1362 | num = name[0] - '0'; |
| 1363 | else if (name[0] != '0' && ISDIGIT (name[1]) && name[2] == '\0') |
| 1364 | { |
| 1365 | num = (name[0] - '0') * 10 + name[1] - '0'; |
| 1366 | if (num >= 32) |
| 1367 | break; |
| 1368 | } |
| 1369 | else |
| 1370 | break; |
| 1371 | |
| 1372 | if (!alpha_noat_on && (num + is_float) == AXP_REG_AT) |
| 1373 | as_warn (_("Used $at without \".set noat\"")); |
| 1374 | return alpha_register_table[num + is_float]; |
| 1375 | |
| 1376 | case 'a': |
| 1377 | if (name[1] == 't' && name[2] == '\0') |
| 1378 | { |
| 1379 | if (!alpha_noat_on) |
| 1380 | as_warn (_("Used $at without \".set noat\"")); |
| 1381 | return alpha_register_table[AXP_REG_AT]; |
| 1382 | } |
| 1383 | break; |
| 1384 | |
| 1385 | case 'g': |
| 1386 | if (name[1] == 'p' && name[2] == '\0') |
| 1387 | return alpha_register_table[alpha_gp_register]; |
| 1388 | break; |
| 1389 | |
| 1390 | case 's': |
| 1391 | if (name[1] == 'p' && name[2] == '\0') |
| 1392 | return alpha_register_table[AXP_REG_SP]; |
| 1393 | break; |
| 1394 | } |
| 1395 | } |
| 1396 | return NULL; |
| 1397 | } |
| 1398 | |
| 1399 | #ifdef OBJ_ECOFF |
| 1400 | /* @@@ Magic ECOFF bits. */ |
| 1401 | |
| 1402 | void |
| 1403 | alpha_frob_ecoff_data () |
| 1404 | { |
| 1405 | select_gp_value (); |
| 1406 | /* $zero and $f31 are read-only */ |
| 1407 | alpha_gprmask &= ~1; |
| 1408 | alpha_fprmask &= ~1; |
| 1409 | } |
| 1410 | #endif |
| 1411 | |
| 1412 | /* Hook to remember a recently defined label so that the auto-align |
| 1413 | code can adjust the symbol after we know what alignment will be |
| 1414 | required. */ |
| 1415 | |
| 1416 | void |
| 1417 | alpha_define_label (sym) |
| 1418 | symbolS *sym; |
| 1419 | { |
| 1420 | alpha_insn_label = sym; |
| 1421 | } |
| 1422 | |
| 1423 | /* Return true if we must always emit a reloc for a type and false if |
| 1424 | there is some hope of resolving it at assembly time. */ |
| 1425 | |
| 1426 | int |
| 1427 | alpha_force_relocation (f) |
| 1428 | fixS *f; |
| 1429 | { |
| 1430 | if (alpha_flag_relax) |
| 1431 | return 1; |
| 1432 | |
| 1433 | switch (f->fx_r_type) |
| 1434 | { |
| 1435 | case BFD_RELOC_ALPHA_GPDISP_HI16: |
| 1436 | case BFD_RELOC_ALPHA_GPDISP_LO16: |
| 1437 | case BFD_RELOC_ALPHA_GPDISP: |
| 1438 | case BFD_RELOC_ALPHA_LITERAL: |
| 1439 | case BFD_RELOC_ALPHA_ELF_LITERAL: |
| 1440 | case BFD_RELOC_ALPHA_LITUSE: |
| 1441 | case BFD_RELOC_GPREL16: |
| 1442 | case BFD_RELOC_GPREL32: |
| 1443 | case BFD_RELOC_ALPHA_GPREL_HI16: |
| 1444 | case BFD_RELOC_ALPHA_GPREL_LO16: |
| 1445 | case BFD_RELOC_ALPHA_LINKAGE: |
| 1446 | case BFD_RELOC_ALPHA_CODEADDR: |
| 1447 | case BFD_RELOC_ALPHA_BRSGP: |
| 1448 | case BFD_RELOC_ALPHA_TLSGD: |
| 1449 | case BFD_RELOC_ALPHA_TLSLDM: |
| 1450 | case BFD_RELOC_ALPHA_GOTDTPREL16: |
| 1451 | case BFD_RELOC_ALPHA_DTPREL_HI16: |
| 1452 | case BFD_RELOC_ALPHA_DTPREL_LO16: |
| 1453 | case BFD_RELOC_ALPHA_DTPREL16: |
| 1454 | case BFD_RELOC_ALPHA_GOTTPREL16: |
| 1455 | case BFD_RELOC_ALPHA_TPREL_HI16: |
| 1456 | case BFD_RELOC_ALPHA_TPREL_LO16: |
| 1457 | case BFD_RELOC_ALPHA_TPREL16: |
| 1458 | return 1; |
| 1459 | |
| 1460 | default: |
| 1461 | break; |
| 1462 | } |
| 1463 | |
| 1464 | return generic_force_reloc (f); |
| 1465 | } |
| 1466 | |
| 1467 | /* Return true if we can partially resolve a relocation now. */ |
| 1468 | |
| 1469 | int |
| 1470 | alpha_fix_adjustable (f) |
| 1471 | fixS *f; |
| 1472 | { |
| 1473 | /* Are there any relocation types for which we must generate a reloc |
| 1474 | but we can adjust the values contained within it? */ |
| 1475 | switch (f->fx_r_type) |
| 1476 | { |
| 1477 | case BFD_RELOC_ALPHA_GPDISP_HI16: |
| 1478 | case BFD_RELOC_ALPHA_GPDISP_LO16: |
| 1479 | case BFD_RELOC_ALPHA_GPDISP: |
| 1480 | return 0; |
| 1481 | |
| 1482 | case BFD_RELOC_ALPHA_LITERAL: |
| 1483 | case BFD_RELOC_ALPHA_ELF_LITERAL: |
| 1484 | case BFD_RELOC_ALPHA_LITUSE: |
| 1485 | case BFD_RELOC_ALPHA_LINKAGE: |
| 1486 | case BFD_RELOC_ALPHA_CODEADDR: |
| 1487 | return 1; |
| 1488 | |
| 1489 | case BFD_RELOC_VTABLE_ENTRY: |
| 1490 | case BFD_RELOC_VTABLE_INHERIT: |
| 1491 | return 0; |
| 1492 | |
| 1493 | case BFD_RELOC_GPREL16: |
| 1494 | case BFD_RELOC_GPREL32: |
| 1495 | case BFD_RELOC_ALPHA_GPREL_HI16: |
| 1496 | case BFD_RELOC_ALPHA_GPREL_LO16: |
| 1497 | case BFD_RELOC_23_PCREL_S2: |
| 1498 | case BFD_RELOC_32: |
| 1499 | case BFD_RELOC_64: |
| 1500 | case BFD_RELOC_ALPHA_HINT: |
| 1501 | return 1; |
| 1502 | |
| 1503 | case BFD_RELOC_ALPHA_TLSGD: |
| 1504 | case BFD_RELOC_ALPHA_TLSLDM: |
| 1505 | case BFD_RELOC_ALPHA_GOTDTPREL16: |
| 1506 | case BFD_RELOC_ALPHA_DTPREL_HI16: |
| 1507 | case BFD_RELOC_ALPHA_DTPREL_LO16: |
| 1508 | case BFD_RELOC_ALPHA_DTPREL16: |
| 1509 | case BFD_RELOC_ALPHA_GOTTPREL16: |
| 1510 | case BFD_RELOC_ALPHA_TPREL_HI16: |
| 1511 | case BFD_RELOC_ALPHA_TPREL_LO16: |
| 1512 | case BFD_RELOC_ALPHA_TPREL16: |
| 1513 | /* ??? No idea why we can't return a reference to .tbss+10, but |
| 1514 | we're preventing this in the other assemblers. Follow for now. */ |
| 1515 | return 0; |
| 1516 | |
| 1517 | #ifdef OBJ_ELF |
| 1518 | case BFD_RELOC_ALPHA_BRSGP: |
| 1519 | /* If we have a BRSGP reloc to a local symbol, adjust it to BRADDR and |
| 1520 | let it get resolved at assembly time. */ |
| 1521 | { |
| 1522 | symbolS *sym = f->fx_addsy; |
| 1523 | const char *name; |
| 1524 | int offset = 0; |
| 1525 | |
| 1526 | if (generic_force_reloc (f)) |
| 1527 | return 0; |
| 1528 | |
| 1529 | switch (S_GET_OTHER (sym) & STO_ALPHA_STD_GPLOAD) |
| 1530 | { |
| 1531 | case STO_ALPHA_NOPV: |
| 1532 | break; |
| 1533 | case STO_ALPHA_STD_GPLOAD: |
| 1534 | offset = 8; |
| 1535 | break; |
| 1536 | default: |
| 1537 | if (S_IS_LOCAL (sym)) |
| 1538 | name = "<local>"; |
| 1539 | else |
| 1540 | name = S_GET_NAME (sym); |
| 1541 | as_bad_where (f->fx_file, f->fx_line, |
| 1542 | _("!samegp reloc against symbol without .prologue: %s"), |
| 1543 | name); |
| 1544 | break; |
| 1545 | } |
| 1546 | f->fx_r_type = BFD_RELOC_23_PCREL_S2; |
| 1547 | f->fx_offset += offset; |
| 1548 | return 1; |
| 1549 | } |
| 1550 | #endif |
| 1551 | |
| 1552 | default: |
| 1553 | return 1; |
| 1554 | } |
| 1555 | /*NOTREACHED*/ |
| 1556 | } |
| 1557 | |
| 1558 | /* Generate the BFD reloc to be stuck in the object file from the |
| 1559 | fixup used internally in the assembler. */ |
| 1560 | |
| 1561 | arelent * |
| 1562 | tc_gen_reloc (sec, fixp) |
| 1563 | asection *sec ATTRIBUTE_UNUSED; |
| 1564 | fixS *fixp; |
| 1565 | { |
| 1566 | arelent *reloc; |
| 1567 | |
| 1568 | reloc = (arelent *) xmalloc (sizeof (arelent)); |
| 1569 | reloc->sym_ptr_ptr = (asymbol **) xmalloc (sizeof (asymbol *)); |
| 1570 | *reloc->sym_ptr_ptr = symbol_get_bfdsym (fixp->fx_addsy); |
| 1571 | reloc->address = fixp->fx_frag->fr_address + fixp->fx_where; |
| 1572 | |
| 1573 | /* Make sure none of our internal relocations make it this far. |
| 1574 | They'd better have been fully resolved by this point. */ |
| 1575 | assert ((int) fixp->fx_r_type > 0); |
| 1576 | |
| 1577 | reloc->howto = bfd_reloc_type_lookup (stdoutput, fixp->fx_r_type); |
| 1578 | if (reloc->howto == NULL) |
| 1579 | { |
| 1580 | as_bad_where (fixp->fx_file, fixp->fx_line, |
| 1581 | _("cannot represent `%s' relocation in object file"), |
| 1582 | bfd_get_reloc_code_name (fixp->fx_r_type)); |
| 1583 | return NULL; |
| 1584 | } |
| 1585 | |
| 1586 | if (!fixp->fx_pcrel != !reloc->howto->pc_relative) |
| 1587 | { |
| 1588 | as_fatal (_("internal error? cannot generate `%s' relocation"), |
| 1589 | bfd_get_reloc_code_name (fixp->fx_r_type)); |
| 1590 | } |
| 1591 | assert (!fixp->fx_pcrel == !reloc->howto->pc_relative); |
| 1592 | |
| 1593 | #ifdef OBJ_ECOFF |
| 1594 | if (fixp->fx_r_type == BFD_RELOC_ALPHA_LITERAL) |
| 1595 | { |
| 1596 | /* Fake out bfd_perform_relocation. sigh. */ |
| 1597 | reloc->addend = -alpha_gp_value; |
| 1598 | } |
| 1599 | else |
| 1600 | #endif |
| 1601 | { |
| 1602 | reloc->addend = fixp->fx_offset; |
| 1603 | #ifdef OBJ_ELF |
| 1604 | /* Ohhh, this is ugly. The problem is that if this is a local global |
| 1605 | symbol, the relocation will entirely be performed at link time, not |
| 1606 | at assembly time. bfd_perform_reloc doesn't know about this sort |
| 1607 | of thing, and as a result we need to fake it out here. */ |
| 1608 | if ((S_IS_EXTERN (fixp->fx_addsy) || S_IS_WEAK (fixp->fx_addsy) |
| 1609 | || (S_GET_SEGMENT (fixp->fx_addsy)->flags & SEC_MERGE) |
| 1610 | || (S_GET_SEGMENT (fixp->fx_addsy)->flags & SEC_THREAD_LOCAL)) |
| 1611 | && !S_IS_COMMON (fixp->fx_addsy)) |
| 1612 | reloc->addend -= symbol_get_bfdsym (fixp->fx_addsy)->value; |
| 1613 | #endif |
| 1614 | } |
| 1615 | |
| 1616 | return reloc; |
| 1617 | } |
| 1618 | |
| 1619 | /* Parse a register name off of the input_line and return a register |
| 1620 | number. Gets md_undefined_symbol above to do the register name |
| 1621 | matching for us. |
| 1622 | |
| 1623 | Only called as a part of processing the ECOFF .frame directive. */ |
| 1624 | |
| 1625 | int |
| 1626 | tc_get_register (frame) |
| 1627 | int frame ATTRIBUTE_UNUSED; |
| 1628 | { |
| 1629 | int framereg = AXP_REG_SP; |
| 1630 | |
| 1631 | SKIP_WHITESPACE (); |
| 1632 | if (*input_line_pointer == '$') |
| 1633 | { |
| 1634 | char *s = input_line_pointer; |
| 1635 | char c = get_symbol_end (); |
| 1636 | symbolS *sym = md_undefined_symbol (s); |
| 1637 | |
| 1638 | *strchr (s, '\0') = c; |
| 1639 | if (sym && (framereg = S_GET_VALUE (sym)) <= 31) |
| 1640 | goto found; |
| 1641 | } |
| 1642 | as_warn (_("frame reg expected, using $%d."), framereg); |
| 1643 | |
| 1644 | found: |
| 1645 | note_gpreg (framereg); |
| 1646 | return framereg; |
| 1647 | } |
| 1648 | |
| 1649 | /* This is called before the symbol table is processed. In order to |
| 1650 | work with gcc when using mips-tfile, we must keep all local labels. |
| 1651 | However, in other cases, we want to discard them. If we were |
| 1652 | called with -g, but we didn't see any debugging information, it may |
| 1653 | mean that gcc is smuggling debugging information through to |
| 1654 | mips-tfile, in which case we must generate all local labels. */ |
| 1655 | |
| 1656 | #ifdef OBJ_ECOFF |
| 1657 | |
| 1658 | void |
| 1659 | alpha_frob_file_before_adjust () |
| 1660 | { |
| 1661 | if (alpha_debug != 0 |
| 1662 | && ! ecoff_debugging_seen) |
| 1663 | flag_keep_locals = 1; |
| 1664 | } |
| 1665 | |
| 1666 | #endif /* OBJ_ECOFF */ |
| 1667 | \f |
| 1668 | static struct alpha_reloc_tag * |
| 1669 | get_alpha_reloc_tag (sequence) |
| 1670 | long sequence; |
| 1671 | { |
| 1672 | char buffer[ALPHA_RELOC_DIGITS]; |
| 1673 | struct alpha_reloc_tag *info; |
| 1674 | |
| 1675 | sprintf (buffer, "!%ld", sequence); |
| 1676 | |
| 1677 | info = (struct alpha_reloc_tag *) hash_find (alpha_literal_hash, buffer); |
| 1678 | if (! info) |
| 1679 | { |
| 1680 | size_t len = strlen (buffer); |
| 1681 | const char *errmsg; |
| 1682 | |
| 1683 | info = (struct alpha_reloc_tag *) |
| 1684 | xcalloc (sizeof (struct alpha_reloc_tag) + len, 1); |
| 1685 | |
| 1686 | info->segment = now_seg; |
| 1687 | info->sequence = sequence; |
| 1688 | strcpy (info->string, buffer); |
| 1689 | errmsg = hash_insert (alpha_literal_hash, info->string, (PTR) info); |
| 1690 | if (errmsg) |
| 1691 | as_fatal (errmsg); |
| 1692 | } |
| 1693 | |
| 1694 | return info; |
| 1695 | } |
| 1696 | |
| 1697 | /* Before the relocations are written, reorder them, so that user |
| 1698 | supplied !lituse relocations follow the appropriate !literal |
| 1699 | relocations, and similarly for !gpdisp relocations. */ |
| 1700 | |
| 1701 | void |
| 1702 | alpha_before_fix () |
| 1703 | { |
| 1704 | if (alpha_literal_hash) |
| 1705 | bfd_map_over_sections (stdoutput, alpha_adjust_relocs, NULL); |
| 1706 | } |
| 1707 | |
| 1708 | static void |
| 1709 | alpha_adjust_relocs (abfd, sec, ptr) |
| 1710 | bfd *abfd ATTRIBUTE_UNUSED; |
| 1711 | asection *sec; |
| 1712 | PTR ptr ATTRIBUTE_UNUSED; |
| 1713 | { |
| 1714 | segment_info_type *seginfo = seg_info (sec); |
| 1715 | fixS **prevP; |
| 1716 | fixS *fixp; |
| 1717 | fixS *next; |
| 1718 | fixS *slave; |
| 1719 | |
| 1720 | /* If seginfo is NULL, we did not create this section; don't do |
| 1721 | anything with it. By using a pointer to a pointer, we can update |
| 1722 | the links in place. */ |
| 1723 | if (seginfo == NULL) |
| 1724 | return; |
| 1725 | |
| 1726 | /* If there are no relocations, skip the section. */ |
| 1727 | if (! seginfo->fix_root) |
| 1728 | return; |
| 1729 | |
| 1730 | /* First rebuild the fixup chain without the expicit lituse and |
| 1731 | gpdisp_lo16 relocs. */ |
| 1732 | prevP = &seginfo->fix_root; |
| 1733 | for (fixp = seginfo->fix_root; fixp; fixp = next) |
| 1734 | { |
| 1735 | next = fixp->fx_next; |
| 1736 | fixp->fx_next = (fixS *) 0; |
| 1737 | |
| 1738 | switch (fixp->fx_r_type) |
| 1739 | { |
| 1740 | case BFD_RELOC_ALPHA_LITUSE: |
| 1741 | if (fixp->tc_fix_data.info->n_master == 0) |
| 1742 | as_bad_where (fixp->fx_file, fixp->fx_line, |
| 1743 | _("No !literal!%ld was found"), |
| 1744 | fixp->tc_fix_data.info->sequence); |
| 1745 | #ifdef RELOC_OP_P |
| 1746 | if (fixp->fx_offset == LITUSE_ALPHA_TLSGD) |
| 1747 | { |
| 1748 | if (! fixp->tc_fix_data.info->saw_tlsgd) |
| 1749 | as_bad_where (fixp->fx_file, fixp->fx_line, |
| 1750 | _("No !tlsgd!%ld was found"), |
| 1751 | fixp->tc_fix_data.info->sequence); |
| 1752 | } |
| 1753 | else if (fixp->fx_offset == LITUSE_ALPHA_TLSLDM) |
| 1754 | { |
| 1755 | if (! fixp->tc_fix_data.info->saw_tlsldm) |
| 1756 | as_bad_where (fixp->fx_file, fixp->fx_line, |
| 1757 | _("No !tlsldm!%ld was found"), |
| 1758 | fixp->tc_fix_data.info->sequence); |
| 1759 | } |
| 1760 | #endif |
| 1761 | break; |
| 1762 | |
| 1763 | case BFD_RELOC_ALPHA_GPDISP_LO16: |
| 1764 | if (fixp->tc_fix_data.info->n_master == 0) |
| 1765 | as_bad_where (fixp->fx_file, fixp->fx_line, |
| 1766 | _("No ldah !gpdisp!%ld was found"), |
| 1767 | fixp->tc_fix_data.info->sequence); |
| 1768 | break; |
| 1769 | |
| 1770 | case BFD_RELOC_ALPHA_ELF_LITERAL: |
| 1771 | if (fixp->tc_fix_data.info |
| 1772 | && (fixp->tc_fix_data.info->saw_tlsgd |
| 1773 | || fixp->tc_fix_data.info->saw_tlsldm)) |
| 1774 | break; |
| 1775 | /* FALLTHRU */ |
| 1776 | |
| 1777 | default: |
| 1778 | *prevP = fixp; |
| 1779 | prevP = &fixp->fx_next; |
| 1780 | break; |
| 1781 | } |
| 1782 | } |
| 1783 | |
| 1784 | /* Go back and re-chain dependent relocations. They are currently |
| 1785 | linked through the next_reloc field in reverse order, so as we |
| 1786 | go through the next_reloc chain, we effectively reverse the chain |
| 1787 | once again. |
| 1788 | |
| 1789 | Except if there is more than one !literal for a given sequence |
| 1790 | number. In that case, the programmer and/or compiler is not sure |
| 1791 | how control flows from literal to lituse, and we can't be sure to |
| 1792 | get the relaxation correct. |
| 1793 | |
| 1794 | ??? Well, actually we could, if there are enough lituses such that |
| 1795 | we can make each literal have at least one of each lituse type |
| 1796 | present. Not implemented. |
| 1797 | |
| 1798 | Also suppress the optimization if the !literals/!lituses are spread |
| 1799 | in different segments. This can happen with "intersting" uses of |
| 1800 | inline assembly; examples are present in the Linux kernel semaphores. */ |
| 1801 | |
| 1802 | for (fixp = seginfo->fix_root; fixp; fixp = next) |
| 1803 | { |
| 1804 | next = fixp->fx_next; |
| 1805 | switch (fixp->fx_r_type) |
| 1806 | { |
| 1807 | case BFD_RELOC_ALPHA_TLSGD: |
| 1808 | case BFD_RELOC_ALPHA_TLSLDM: |
| 1809 | if (!fixp->tc_fix_data.info) |
| 1810 | break; |
| 1811 | if (fixp->tc_fix_data.info->n_master == 0) |
| 1812 | break; |
| 1813 | else if (fixp->tc_fix_data.info->n_master > 1) |
| 1814 | { |
| 1815 | as_bad_where (fixp->fx_file, fixp->fx_line, |
| 1816 | _("too many !literal!%ld for %s"), |
| 1817 | fixp->tc_fix_data.info->sequence, |
| 1818 | (fixp->fx_r_type == BFD_RELOC_ALPHA_TLSGD |
| 1819 | ? "!tlsgd" : "!tlsldm")); |
| 1820 | break; |
| 1821 | } |
| 1822 | |
| 1823 | fixp->tc_fix_data.info->master->fx_next = fixp->fx_next; |
| 1824 | fixp->fx_next = fixp->tc_fix_data.info->master; |
| 1825 | fixp = fixp->fx_next; |
| 1826 | /* FALLTHRU */ |
| 1827 | |
| 1828 | case BFD_RELOC_ALPHA_ELF_LITERAL: |
| 1829 | if (fixp->tc_fix_data.info |
| 1830 | && fixp->tc_fix_data.info->n_master == 1 |
| 1831 | && ! fixp->tc_fix_data.info->multi_section_p) |
| 1832 | { |
| 1833 | for (slave = fixp->tc_fix_data.info->slaves; |
| 1834 | slave != (fixS *) 0; |
| 1835 | slave = slave->tc_fix_data.next_reloc) |
| 1836 | { |
| 1837 | slave->fx_next = fixp->fx_next; |
| 1838 | fixp->fx_next = slave; |
| 1839 | } |
| 1840 | } |
| 1841 | break; |
| 1842 | |
| 1843 | case BFD_RELOC_ALPHA_GPDISP_HI16: |
| 1844 | if (fixp->tc_fix_data.info->n_slaves == 0) |
| 1845 | as_bad_where (fixp->fx_file, fixp->fx_line, |
| 1846 | _("No lda !gpdisp!%ld was found"), |
| 1847 | fixp->tc_fix_data.info->sequence); |
| 1848 | else |
| 1849 | { |
| 1850 | slave = fixp->tc_fix_data.info->slaves; |
| 1851 | slave->fx_next = next; |
| 1852 | fixp->fx_next = slave; |
| 1853 | } |
| 1854 | break; |
| 1855 | |
| 1856 | default: |
| 1857 | break; |
| 1858 | } |
| 1859 | } |
| 1860 | } |
| 1861 | \f |
| 1862 | #ifdef DEBUG_ALPHA |
| 1863 | static void |
| 1864 | debug_exp (tok, ntok) |
| 1865 | expressionS tok[]; |
| 1866 | int ntok; |
| 1867 | { |
| 1868 | int i; |
| 1869 | |
| 1870 | fprintf (stderr, "debug_exp: %d tokens", ntok); |
| 1871 | for (i = 0; i < ntok; i++) |
| 1872 | { |
| 1873 | expressionS *t = &tok[i]; |
| 1874 | const char *name; |
| 1875 | |
| 1876 | switch (t->X_op) |
| 1877 | { |
| 1878 | default: name = "unknown"; break; |
| 1879 | case O_illegal: name = "O_illegal"; break; |
| 1880 | case O_absent: name = "O_absent"; break; |
| 1881 | case O_constant: name = "O_constant"; break; |
| 1882 | case O_symbol: name = "O_symbol"; break; |
| 1883 | case O_symbol_rva: name = "O_symbol_rva"; break; |
| 1884 | case O_register: name = "O_register"; break; |
| 1885 | case O_big: name = "O_big"; break; |
| 1886 | case O_uminus: name = "O_uminus"; break; |
| 1887 | case O_bit_not: name = "O_bit_not"; break; |
| 1888 | case O_logical_not: name = "O_logical_not"; break; |
| 1889 | case O_multiply: name = "O_multiply"; break; |
| 1890 | case O_divide: name = "O_divide"; break; |
| 1891 | case O_modulus: name = "O_modulus"; break; |
| 1892 | case O_left_shift: name = "O_left_shift"; break; |
| 1893 | case O_right_shift: name = "O_right_shift"; break; |
| 1894 | case O_bit_inclusive_or: name = "O_bit_inclusive_or"; break; |
| 1895 | case O_bit_or_not: name = "O_bit_or_not"; break; |
| 1896 | case O_bit_exclusive_or: name = "O_bit_exclusive_or"; break; |
| 1897 | case O_bit_and: name = "O_bit_and"; break; |
| 1898 | case O_add: name = "O_add"; break; |
| 1899 | case O_subtract: name = "O_subtract"; break; |
| 1900 | case O_eq: name = "O_eq"; break; |
| 1901 | case O_ne: name = "O_ne"; break; |
| 1902 | case O_lt: name = "O_lt"; break; |
| 1903 | case O_le: name = "O_le"; break; |
| 1904 | case O_ge: name = "O_ge"; break; |
| 1905 | case O_gt: name = "O_gt"; break; |
| 1906 | case O_logical_and: name = "O_logical_and"; break; |
| 1907 | case O_logical_or: name = "O_logical_or"; break; |
| 1908 | case O_index: name = "O_index"; break; |
| 1909 | case O_pregister: name = "O_pregister"; break; |
| 1910 | case O_cpregister: name = "O_cpregister"; break; |
| 1911 | case O_literal: name = "O_literal"; break; |
| 1912 | case O_lituse_addr: name = "O_lituse_addr"; break; |
| 1913 | case O_lituse_base: name = "O_lituse_base"; break; |
| 1914 | case O_lituse_bytoff: name = "O_lituse_bytoff"; break; |
| 1915 | case O_lituse_jsr: name = "O_lituse_jsr"; break; |
| 1916 | case O_lituse_tlsgd: name = "O_lituse_tlsgd"; break; |
| 1917 | case O_lituse_tlsldm: name = "O_lituse_tlsldm"; break; |
| 1918 | case O_gpdisp: name = "O_gpdisp"; break; |
| 1919 | case O_gprelhigh: name = "O_gprelhigh"; break; |
| 1920 | case O_gprellow: name = "O_gprellow"; break; |
| 1921 | case O_gprel: name = "O_gprel"; break; |
| 1922 | case O_samegp: name = "O_samegp"; break; |
| 1923 | case O_tlsgd: name = "O_tlsgd"; break; |
| 1924 | case O_tlsldm: name = "O_tlsldm"; break; |
| 1925 | case O_gotdtprel: name = "O_gotdtprel"; break; |
| 1926 | case O_dtprelhi: name = "O_dtprelhi"; break; |
| 1927 | case O_dtprello: name = "O_dtprello"; break; |
| 1928 | case O_dtprel: name = "O_dtprel"; break; |
| 1929 | case O_gottprel: name = "O_gottprel"; break; |
| 1930 | case O_tprelhi: name = "O_tprelhi"; break; |
| 1931 | case O_tprello: name = "O_tprello"; break; |
| 1932 | case O_tprel: name = "O_tprel"; break; |
| 1933 | } |
| 1934 | |
| 1935 | fprintf (stderr, ", %s(%s, %s, %d)", name, |
| 1936 | (t->X_add_symbol) ? S_GET_NAME (t->X_add_symbol) : "--", |
| 1937 | (t->X_op_symbol) ? S_GET_NAME (t->X_op_symbol) : "--", |
| 1938 | (int) t->X_add_number); |
| 1939 | } |
| 1940 | fprintf (stderr, "\n"); |
| 1941 | fflush (stderr); |
| 1942 | } |
| 1943 | #endif |
| 1944 | |
| 1945 | /* Parse the arguments to an opcode. */ |
| 1946 | |
| 1947 | static int |
| 1948 | tokenize_arguments (str, tok, ntok) |
| 1949 | char *str; |
| 1950 | expressionS tok[]; |
| 1951 | int ntok; |
| 1952 | { |
| 1953 | expressionS *end_tok = tok + ntok; |
| 1954 | char *old_input_line_pointer; |
| 1955 | int saw_comma = 0, saw_arg = 0; |
| 1956 | #ifdef DEBUG_ALPHA |
| 1957 | expressionS *orig_tok = tok; |
| 1958 | #endif |
| 1959 | #ifdef RELOC_OP_P |
| 1960 | char *p; |
| 1961 | const struct alpha_reloc_op_tag *r; |
| 1962 | int c, i; |
| 1963 | size_t len; |
| 1964 | int reloc_found_p = 0; |
| 1965 | #endif |
| 1966 | |
| 1967 | memset (tok, 0, sizeof (*tok) * ntok); |
| 1968 | |
| 1969 | /* Save and restore input_line_pointer around this function. */ |
| 1970 | old_input_line_pointer = input_line_pointer; |
| 1971 | input_line_pointer = str; |
| 1972 | |
| 1973 | #ifdef RELOC_OP_P |
| 1974 | /* ??? Wrest control of ! away from the regular expression parser. */ |
| 1975 | is_end_of_line[(unsigned char) '!'] = 1; |
| 1976 | #endif |
| 1977 | |
| 1978 | while (tok < end_tok && *input_line_pointer) |
| 1979 | { |
| 1980 | SKIP_WHITESPACE (); |
| 1981 | switch (*input_line_pointer) |
| 1982 | { |
| 1983 | case '\0': |
| 1984 | goto fini; |
| 1985 | |
| 1986 | #ifdef RELOC_OP_P |
| 1987 | case '!': |
| 1988 | /* A relocation operand can be placed after the normal operand on an |
| 1989 | assembly language statement, and has the following form: |
| 1990 | !relocation_type!sequence_number. */ |
| 1991 | if (reloc_found_p) |
| 1992 | { |
| 1993 | /* Only support one relocation op per insn. */ |
| 1994 | as_bad (_("More than one relocation op per insn")); |
| 1995 | goto err_report; |
| 1996 | } |
| 1997 | |
| 1998 | if (!saw_arg) |
| 1999 | goto err; |
| 2000 | |
| 2001 | ++input_line_pointer; |
| 2002 | SKIP_WHITESPACE (); |
| 2003 | p = input_line_pointer; |
| 2004 | c = get_symbol_end (); |
| 2005 | |
| 2006 | /* Parse !relocation_type. */ |
| 2007 | len = input_line_pointer - p; |
| 2008 | if (len == 0) |
| 2009 | { |
| 2010 | as_bad (_("No relocation operand")); |
| 2011 | goto err_report; |
| 2012 | } |
| 2013 | |
| 2014 | r = &alpha_reloc_op[0]; |
| 2015 | for (i = alpha_num_reloc_op - 1; i >= 0; i--, r++) |
| 2016 | if (len == r->length && memcmp (p, r->name, len) == 0) |
| 2017 | break; |
| 2018 | if (i < 0) |
| 2019 | { |
| 2020 | as_bad (_("Unknown relocation operand: !%s"), p); |
| 2021 | goto err_report; |
| 2022 | } |
| 2023 | |
| 2024 | *input_line_pointer = c; |
| 2025 | SKIP_WHITESPACE (); |
| 2026 | if (*input_line_pointer != '!') |
| 2027 | { |
| 2028 | if (r->require_seq) |
| 2029 | { |
| 2030 | as_bad (_("no sequence number after !%s"), p); |
| 2031 | goto err_report; |
| 2032 | } |
| 2033 | |
| 2034 | tok->X_add_number = 0; |
| 2035 | } |
| 2036 | else |
| 2037 | { |
| 2038 | if (! r->allow_seq) |
| 2039 | { |
| 2040 | as_bad (_("!%s does not use a sequence number"), p); |
| 2041 | goto err_report; |
| 2042 | } |
| 2043 | |
| 2044 | input_line_pointer++; |
| 2045 | |
| 2046 | /* Parse !sequence_number. */ |
| 2047 | expression (tok); |
| 2048 | if (tok->X_op != O_constant || tok->X_add_number <= 0) |
| 2049 | { |
| 2050 | as_bad (_("Bad sequence number: !%s!%s"), |
| 2051 | r->name, input_line_pointer); |
| 2052 | goto err_report; |
| 2053 | } |
| 2054 | } |
| 2055 | |
| 2056 | tok->X_op = r->op; |
| 2057 | reloc_found_p = 1; |
| 2058 | ++tok; |
| 2059 | break; |
| 2060 | #endif /* RELOC_OP_P */ |
| 2061 | |
| 2062 | case ',': |
| 2063 | ++input_line_pointer; |
| 2064 | if (saw_comma || !saw_arg) |
| 2065 | goto err; |
| 2066 | saw_comma = 1; |
| 2067 | break; |
| 2068 | |
| 2069 | case '(': |
| 2070 | { |
| 2071 | char *hold = input_line_pointer++; |
| 2072 | |
| 2073 | /* First try for parenthesized register ... */ |
| 2074 | expression (tok); |
| 2075 | if (*input_line_pointer == ')' && tok->X_op == O_register) |
| 2076 | { |
| 2077 | tok->X_op = (saw_comma ? O_cpregister : O_pregister); |
| 2078 | saw_comma = 0; |
| 2079 | saw_arg = 1; |
| 2080 | ++input_line_pointer; |
| 2081 | ++tok; |
| 2082 | break; |
| 2083 | } |
| 2084 | |
| 2085 | /* ... then fall through to plain expression. */ |
| 2086 | input_line_pointer = hold; |
| 2087 | } |
| 2088 | |
| 2089 | default: |
| 2090 | if (saw_arg && !saw_comma) |
| 2091 | goto err; |
| 2092 | |
| 2093 | expression (tok); |
| 2094 | if (tok->X_op == O_illegal || tok->X_op == O_absent) |
| 2095 | goto err; |
| 2096 | |
| 2097 | saw_comma = 0; |
| 2098 | saw_arg = 1; |
| 2099 | ++tok; |
| 2100 | break; |
| 2101 | } |
| 2102 | } |
| 2103 | |
| 2104 | fini: |
| 2105 | if (saw_comma) |
| 2106 | goto err; |
| 2107 | input_line_pointer = old_input_line_pointer; |
| 2108 | |
| 2109 | #ifdef DEBUG_ALPHA |
| 2110 | debug_exp (orig_tok, ntok - (end_tok - tok)); |
| 2111 | #endif |
| 2112 | #ifdef RELOC_OP_P |
| 2113 | is_end_of_line[(unsigned char) '!'] = 0; |
| 2114 | #endif |
| 2115 | |
| 2116 | return ntok - (end_tok - tok); |
| 2117 | |
| 2118 | err: |
| 2119 | #ifdef RELOC_OP_P |
| 2120 | is_end_of_line[(unsigned char) '!'] = 0; |
| 2121 | #endif |
| 2122 | input_line_pointer = old_input_line_pointer; |
| 2123 | return TOKENIZE_ERROR; |
| 2124 | |
| 2125 | #ifdef RELOC_OP_P |
| 2126 | err_report: |
| 2127 | is_end_of_line[(unsigned char) '!'] = 0; |
| 2128 | #endif |
| 2129 | input_line_pointer = old_input_line_pointer; |
| 2130 | return TOKENIZE_ERROR_REPORT; |
| 2131 | } |
| 2132 | |
| 2133 | /* Search forward through all variants of an opcode looking for a |
| 2134 | syntax match. */ |
| 2135 | |
| 2136 | static const struct alpha_opcode * |
| 2137 | find_opcode_match (first_opcode, tok, pntok, pcpumatch) |
| 2138 | const struct alpha_opcode *first_opcode; |
| 2139 | const expressionS *tok; |
| 2140 | int *pntok; |
| 2141 | int *pcpumatch; |
| 2142 | { |
| 2143 | const struct alpha_opcode *opcode = first_opcode; |
| 2144 | int ntok = *pntok; |
| 2145 | int got_cpu_match = 0; |
| 2146 | |
| 2147 | do |
| 2148 | { |
| 2149 | const unsigned char *opidx; |
| 2150 | int tokidx = 0; |
| 2151 | |
| 2152 | /* Don't match opcodes that don't exist on this architecture. */ |
| 2153 | if (!(opcode->flags & alpha_target)) |
| 2154 | goto match_failed; |
| 2155 | |
| 2156 | got_cpu_match = 1; |
| 2157 | |
| 2158 | for (opidx = opcode->operands; *opidx; ++opidx) |
| 2159 | { |
| 2160 | const struct alpha_operand *operand = &alpha_operands[*opidx]; |
| 2161 | |
| 2162 | /* Only take input from real operands. */ |
| 2163 | if (operand->flags & AXP_OPERAND_FAKE) |
| 2164 | continue; |
| 2165 | |
| 2166 | /* When we expect input, make sure we have it. */ |
| 2167 | if (tokidx >= ntok) |
| 2168 | { |
| 2169 | if ((operand->flags & AXP_OPERAND_OPTIONAL_MASK) == 0) |
| 2170 | goto match_failed; |
| 2171 | continue; |
| 2172 | } |
| 2173 | |
| 2174 | /* Match operand type with expression type. */ |
| 2175 | switch (operand->flags & AXP_OPERAND_TYPECHECK_MASK) |
| 2176 | { |
| 2177 | case AXP_OPERAND_IR: |
| 2178 | if (tok[tokidx].X_op != O_register |
| 2179 | || !is_ir_num (tok[tokidx].X_add_number)) |
| 2180 | goto match_failed; |
| 2181 | break; |
| 2182 | case AXP_OPERAND_FPR: |
| 2183 | if (tok[tokidx].X_op != O_register |
| 2184 | || !is_fpr_num (tok[tokidx].X_add_number)) |
| 2185 | goto match_failed; |
| 2186 | break; |
| 2187 | case AXP_OPERAND_IR | AXP_OPERAND_PARENS: |
| 2188 | if (tok[tokidx].X_op != O_pregister |
| 2189 | || !is_ir_num (tok[tokidx].X_add_number)) |
| 2190 | goto match_failed; |
| 2191 | break; |
| 2192 | case AXP_OPERAND_IR | AXP_OPERAND_PARENS | AXP_OPERAND_COMMA: |
| 2193 | if (tok[tokidx].X_op != O_cpregister |
| 2194 | || !is_ir_num (tok[tokidx].X_add_number)) |
| 2195 | goto match_failed; |
| 2196 | break; |
| 2197 | |
| 2198 | case AXP_OPERAND_RELATIVE: |
| 2199 | case AXP_OPERAND_SIGNED: |
| 2200 | case AXP_OPERAND_UNSIGNED: |
| 2201 | switch (tok[tokidx].X_op) |
| 2202 | { |
| 2203 | case O_illegal: |
| 2204 | case O_absent: |
| 2205 | case O_register: |
| 2206 | case O_pregister: |
| 2207 | case O_cpregister: |
| 2208 | goto match_failed; |
| 2209 | |
| 2210 | default: |
| 2211 | break; |
| 2212 | } |
| 2213 | break; |
| 2214 | |
| 2215 | default: |
| 2216 | /* Everything else should have been fake. */ |
| 2217 | abort (); |
| 2218 | } |
| 2219 | ++tokidx; |
| 2220 | } |
| 2221 | |
| 2222 | /* Possible match -- did we use all of our input? */ |
| 2223 | if (tokidx == ntok) |
| 2224 | { |
| 2225 | *pntok = ntok; |
| 2226 | return opcode; |
| 2227 | } |
| 2228 | |
| 2229 | match_failed:; |
| 2230 | } |
| 2231 | while (++opcode - alpha_opcodes < (int) alpha_num_opcodes |
| 2232 | && !strcmp (opcode->name, first_opcode->name)); |
| 2233 | |
| 2234 | if (*pcpumatch) |
| 2235 | *pcpumatch = got_cpu_match; |
| 2236 | |
| 2237 | return NULL; |
| 2238 | } |
| 2239 | |
| 2240 | /* Search forward through all variants of a macro looking for a syntax |
| 2241 | match. */ |
| 2242 | |
| 2243 | static const struct alpha_macro * |
| 2244 | find_macro_match (first_macro, tok, pntok) |
| 2245 | const struct alpha_macro *first_macro; |
| 2246 | const expressionS *tok; |
| 2247 | int *pntok; |
| 2248 | { |
| 2249 | const struct alpha_macro *macro = first_macro; |
| 2250 | int ntok = *pntok; |
| 2251 | |
| 2252 | do |
| 2253 | { |
| 2254 | const enum alpha_macro_arg *arg = macro->argsets; |
| 2255 | int tokidx = 0; |
| 2256 | |
| 2257 | while (*arg) |
| 2258 | { |
| 2259 | switch (*arg) |
| 2260 | { |
| 2261 | case MACRO_EOA: |
| 2262 | if (tokidx == ntok) |
| 2263 | return macro; |
| 2264 | else |
| 2265 | tokidx = 0; |
| 2266 | break; |
| 2267 | |
| 2268 | /* Index register. */ |
| 2269 | case MACRO_IR: |
| 2270 | if (tokidx >= ntok || tok[tokidx].X_op != O_register |
| 2271 | || !is_ir_num (tok[tokidx].X_add_number)) |
| 2272 | goto match_failed; |
| 2273 | ++tokidx; |
| 2274 | break; |
| 2275 | |
| 2276 | /* Parenthesized index register. */ |
| 2277 | case MACRO_PIR: |
| 2278 | if (tokidx >= ntok || tok[tokidx].X_op != O_pregister |
| 2279 | || !is_ir_num (tok[tokidx].X_add_number)) |
| 2280 | goto match_failed; |
| 2281 | ++tokidx; |
| 2282 | break; |
| 2283 | |
| 2284 | /* Optional parenthesized index register. */ |
| 2285 | case MACRO_OPIR: |
| 2286 | if (tokidx < ntok && tok[tokidx].X_op == O_pregister |
| 2287 | && is_ir_num (tok[tokidx].X_add_number)) |
| 2288 | ++tokidx; |
| 2289 | break; |
| 2290 | |
| 2291 | /* Leading comma with a parenthesized index register. */ |
| 2292 | case MACRO_CPIR: |
| 2293 | if (tokidx >= ntok || tok[tokidx].X_op != O_cpregister |
| 2294 | || !is_ir_num (tok[tokidx].X_add_number)) |
| 2295 | goto match_failed; |
| 2296 | ++tokidx; |
| 2297 | break; |
| 2298 | |
| 2299 | /* Floating point register. */ |
| 2300 | case MACRO_FPR: |
| 2301 | if (tokidx >= ntok || tok[tokidx].X_op != O_register |
| 2302 | || !is_fpr_num (tok[tokidx].X_add_number)) |
| 2303 | goto match_failed; |
| 2304 | ++tokidx; |
| 2305 | break; |
| 2306 | |
| 2307 | /* Normal expression. */ |
| 2308 | case MACRO_EXP: |
| 2309 | if (tokidx >= ntok) |
| 2310 | goto match_failed; |
| 2311 | switch (tok[tokidx].X_op) |
| 2312 | { |
| 2313 | case O_illegal: |
| 2314 | case O_absent: |
| 2315 | case O_register: |
| 2316 | case O_pregister: |
| 2317 | case O_cpregister: |
| 2318 | case O_literal: |
| 2319 | case O_lituse_base: |
| 2320 | case O_lituse_bytoff: |
| 2321 | case O_lituse_jsr: |
| 2322 | case O_gpdisp: |
| 2323 | case O_gprelhigh: |
| 2324 | case O_gprellow: |
| 2325 | case O_gprel: |
| 2326 | case O_samegp: |
| 2327 | goto match_failed; |
| 2328 | |
| 2329 | default: |
| 2330 | break; |
| 2331 | } |
| 2332 | ++tokidx; |
| 2333 | break; |
| 2334 | |
| 2335 | match_failed: |
| 2336 | while (*arg != MACRO_EOA) |
| 2337 | ++arg; |
| 2338 | tokidx = 0; |
| 2339 | break; |
| 2340 | } |
| 2341 | ++arg; |
| 2342 | } |
| 2343 | } |
| 2344 | while (++macro - alpha_macros < (int) alpha_num_macros |
| 2345 | && !strcmp (macro->name, first_macro->name)); |
| 2346 | |
| 2347 | return NULL; |
| 2348 | } |
| 2349 | |
| 2350 | /* Insert an operand value into an instruction. */ |
| 2351 | |
| 2352 | static unsigned |
| 2353 | insert_operand (insn, operand, val, file, line) |
| 2354 | unsigned insn; |
| 2355 | const struct alpha_operand *operand; |
| 2356 | offsetT val; |
| 2357 | char *file; |
| 2358 | unsigned line; |
| 2359 | { |
| 2360 | if (operand->bits != 32 && !(operand->flags & AXP_OPERAND_NOOVERFLOW)) |
| 2361 | { |
| 2362 | offsetT min, max; |
| 2363 | |
| 2364 | if (operand->flags & AXP_OPERAND_SIGNED) |
| 2365 | { |
| 2366 | max = (1 << (operand->bits - 1)) - 1; |
| 2367 | min = -(1 << (operand->bits - 1)); |
| 2368 | } |
| 2369 | else |
| 2370 | { |
| 2371 | max = (1 << operand->bits) - 1; |
| 2372 | min = 0; |
| 2373 | } |
| 2374 | |
| 2375 | if (val < min || val > max) |
| 2376 | { |
| 2377 | const char *err = |
| 2378 | _("operand out of range (%s not between %d and %d)"); |
| 2379 | char buf[sizeof (val) * 3 + 2]; |
| 2380 | |
| 2381 | sprint_value (buf, val); |
| 2382 | if (file) |
| 2383 | as_warn_where (file, line, err, buf, min, max); |
| 2384 | else |
| 2385 | as_warn (err, buf, min, max); |
| 2386 | } |
| 2387 | } |
| 2388 | |
| 2389 | if (operand->insert) |
| 2390 | { |
| 2391 | const char *errmsg = NULL; |
| 2392 | |
| 2393 | insn = (*operand->insert) (insn, val, &errmsg); |
| 2394 | if (errmsg) |
| 2395 | as_warn (errmsg); |
| 2396 | } |
| 2397 | else |
| 2398 | insn |= ((val & ((1 << operand->bits) - 1)) << operand->shift); |
| 2399 | |
| 2400 | return insn; |
| 2401 | } |
| 2402 | |
| 2403 | /* Turn an opcode description and a set of arguments into |
| 2404 | an instruction and a fixup. */ |
| 2405 | |
| 2406 | static void |
| 2407 | assemble_insn (opcode, tok, ntok, insn, reloc) |
| 2408 | const struct alpha_opcode *opcode; |
| 2409 | const expressionS *tok; |
| 2410 | int ntok; |
| 2411 | struct alpha_insn *insn; |
| 2412 | bfd_reloc_code_real_type reloc; |
| 2413 | { |
| 2414 | const struct alpha_operand *reloc_operand = NULL; |
| 2415 | const expressionS *reloc_exp = NULL; |
| 2416 | const unsigned char *argidx; |
| 2417 | unsigned image; |
| 2418 | int tokidx = 0; |
| 2419 | |
| 2420 | memset (insn, 0, sizeof (*insn)); |
| 2421 | image = opcode->opcode; |
| 2422 | |
| 2423 | for (argidx = opcode->operands; *argidx; ++argidx) |
| 2424 | { |
| 2425 | const struct alpha_operand *operand = &alpha_operands[*argidx]; |
| 2426 | const expressionS *t = (const expressionS *) 0; |
| 2427 | |
| 2428 | if (operand->flags & AXP_OPERAND_FAKE) |
| 2429 | { |
| 2430 | /* fake operands take no value and generate no fixup */ |
| 2431 | image = insert_operand (image, operand, 0, NULL, 0); |
| 2432 | continue; |
| 2433 | } |
| 2434 | |
| 2435 | if (tokidx >= ntok) |
| 2436 | { |
| 2437 | switch (operand->flags & AXP_OPERAND_OPTIONAL_MASK) |
| 2438 | { |
| 2439 | case AXP_OPERAND_DEFAULT_FIRST: |
| 2440 | t = &tok[0]; |
| 2441 | break; |
| 2442 | case AXP_OPERAND_DEFAULT_SECOND: |
| 2443 | t = &tok[1]; |
| 2444 | break; |
| 2445 | case AXP_OPERAND_DEFAULT_ZERO: |
| 2446 | { |
| 2447 | static expressionS zero_exp; |
| 2448 | t = &zero_exp; |
| 2449 | zero_exp.X_op = O_constant; |
| 2450 | zero_exp.X_unsigned = 1; |
| 2451 | } |
| 2452 | break; |
| 2453 | default: |
| 2454 | abort (); |
| 2455 | } |
| 2456 | } |
| 2457 | else |
| 2458 | t = &tok[tokidx++]; |
| 2459 | |
| 2460 | switch (t->X_op) |
| 2461 | { |
| 2462 | case O_register: |
| 2463 | case O_pregister: |
| 2464 | case O_cpregister: |
| 2465 | image = insert_operand (image, operand, regno (t->X_add_number), |
| 2466 | NULL, 0); |
| 2467 | break; |
| 2468 | |
| 2469 | case O_constant: |
| 2470 | image = insert_operand (image, operand, t->X_add_number, NULL, 0); |
| 2471 | assert (reloc_operand == NULL); |
| 2472 | reloc_operand = operand; |
| 2473 | reloc_exp = t; |
| 2474 | break; |
| 2475 | |
| 2476 | default: |
| 2477 | /* This is only 0 for fields that should contain registers, |
| 2478 | which means this pattern shouldn't have matched. */ |
| 2479 | if (operand->default_reloc == 0) |
| 2480 | abort (); |
| 2481 | |
| 2482 | /* There is one special case for which an insn receives two |
| 2483 | relocations, and thus the user-supplied reloc does not |
| 2484 | override the operand reloc. */ |
| 2485 | if (operand->default_reloc == BFD_RELOC_ALPHA_HINT) |
| 2486 | { |
| 2487 | struct alpha_fixup *fixup; |
| 2488 | |
| 2489 | if (insn->nfixups >= MAX_INSN_FIXUPS) |
| 2490 | as_fatal (_("too many fixups")); |
| 2491 | |
| 2492 | fixup = &insn->fixups[insn->nfixups++]; |
| 2493 | fixup->exp = *t; |
| 2494 | fixup->reloc = BFD_RELOC_ALPHA_HINT; |
| 2495 | } |
| 2496 | else |
| 2497 | { |
| 2498 | if (reloc == BFD_RELOC_UNUSED) |
| 2499 | reloc = operand->default_reloc; |
| 2500 | |
| 2501 | assert (reloc_operand == NULL); |
| 2502 | reloc_operand = operand; |
| 2503 | reloc_exp = t; |
| 2504 | } |
| 2505 | break; |
| 2506 | } |
| 2507 | } |
| 2508 | |
| 2509 | if (reloc != BFD_RELOC_UNUSED) |
| 2510 | { |
| 2511 | struct alpha_fixup *fixup; |
| 2512 | |
| 2513 | if (insn->nfixups >= MAX_INSN_FIXUPS) |
| 2514 | as_fatal (_("too many fixups")); |
| 2515 | |
| 2516 | /* ??? My but this is hacky. But the OSF/1 assembler uses the same |
| 2517 | relocation tag for both ldah and lda with gpdisp. Choose the |
| 2518 | correct internal relocation based on the opcode. */ |
| 2519 | if (reloc == BFD_RELOC_ALPHA_GPDISP) |
| 2520 | { |
| 2521 | if (strcmp (opcode->name, "ldah") == 0) |
| 2522 | reloc = BFD_RELOC_ALPHA_GPDISP_HI16; |
| 2523 | else if (strcmp (opcode->name, "lda") == 0) |
| 2524 | reloc = BFD_RELOC_ALPHA_GPDISP_LO16; |
| 2525 | else |
| 2526 | as_bad (_("invalid relocation for instruction")); |
| 2527 | } |
| 2528 | |
| 2529 | /* If this is a real relocation (as opposed to a lituse hint), then |
| 2530 | the relocation width should match the operand width. */ |
| 2531 | else if (reloc < BFD_RELOC_UNUSED) |
| 2532 | { |
| 2533 | reloc_howto_type *reloc_howto |
| 2534 | = bfd_reloc_type_lookup (stdoutput, reloc); |
| 2535 | if (reloc_howto->bitsize != reloc_operand->bits) |
| 2536 | { |
| 2537 | as_bad (_("invalid relocation for field")); |
| 2538 | return; |
| 2539 | } |
| 2540 | } |
| 2541 | |
| 2542 | fixup = &insn->fixups[insn->nfixups++]; |
| 2543 | if (reloc_exp) |
| 2544 | fixup->exp = *reloc_exp; |
| 2545 | else |
| 2546 | fixup->exp.X_op = O_absent; |
| 2547 | fixup->reloc = reloc; |
| 2548 | } |
| 2549 | |
| 2550 | insn->insn = image; |
| 2551 | } |
| 2552 | |
| 2553 | /* Actually output an instruction with its fixup. */ |
| 2554 | |
| 2555 | static void |
| 2556 | emit_insn (insn) |
| 2557 | struct alpha_insn *insn; |
| 2558 | { |
| 2559 | char *f; |
| 2560 | int i; |
| 2561 | |
| 2562 | /* Take care of alignment duties. */ |
| 2563 | if (alpha_auto_align_on && alpha_current_align < 2) |
| 2564 | alpha_align (2, (char *) NULL, alpha_insn_label, 0); |
| 2565 | if (alpha_current_align > 2) |
| 2566 | alpha_current_align = 2; |
| 2567 | alpha_insn_label = NULL; |
| 2568 | |
| 2569 | /* Write out the instruction. */ |
| 2570 | f = frag_more (4); |
| 2571 | md_number_to_chars (f, insn->insn, 4); |
| 2572 | |
| 2573 | #ifdef OBJ_ELF |
| 2574 | dwarf2_emit_insn (4); |
| 2575 | #endif |
| 2576 | |
| 2577 | /* Apply the fixups in order. */ |
| 2578 | for (i = 0; i < insn->nfixups; ++i) |
| 2579 | { |
| 2580 | const struct alpha_operand *operand = (const struct alpha_operand *) 0; |
| 2581 | struct alpha_fixup *fixup = &insn->fixups[i]; |
| 2582 | struct alpha_reloc_tag *info = NULL; |
| 2583 | int size, pcrel; |
| 2584 | fixS *fixP; |
| 2585 | |
| 2586 | /* Some fixups are only used internally and so have no howto. */ |
| 2587 | if ((int) fixup->reloc < 0) |
| 2588 | { |
| 2589 | operand = &alpha_operands[-(int) fixup->reloc]; |
| 2590 | size = 4; |
| 2591 | pcrel = ((operand->flags & AXP_OPERAND_RELATIVE) != 0); |
| 2592 | } |
| 2593 | else if (fixup->reloc > BFD_RELOC_UNUSED |
| 2594 | || fixup->reloc == BFD_RELOC_ALPHA_GPDISP_HI16 |
| 2595 | || fixup->reloc == BFD_RELOC_ALPHA_GPDISP_LO16) |
| 2596 | { |
| 2597 | size = 2; |
| 2598 | pcrel = 0; |
| 2599 | } |
| 2600 | else |
| 2601 | { |
| 2602 | reloc_howto_type *reloc_howto |
| 2603 | = bfd_reloc_type_lookup (stdoutput, fixup->reloc); |
| 2604 | assert (reloc_howto); |
| 2605 | |
| 2606 | size = bfd_get_reloc_size (reloc_howto); |
| 2607 | assert (size >= 1 && size <= 4); |
| 2608 | |
| 2609 | pcrel = reloc_howto->pc_relative; |
| 2610 | } |
| 2611 | |
| 2612 | fixP = fix_new_exp (frag_now, f - frag_now->fr_literal, size, |
| 2613 | &fixup->exp, pcrel, fixup->reloc); |
| 2614 | |
| 2615 | /* Turn off complaints that the addend is too large for some fixups, |
| 2616 | and copy in the sequence number for the explicit relocations. */ |
| 2617 | switch (fixup->reloc) |
| 2618 | { |
| 2619 | case BFD_RELOC_ALPHA_HINT: |
| 2620 | case BFD_RELOC_GPREL32: |
| 2621 | case BFD_RELOC_GPREL16: |
| 2622 | case BFD_RELOC_ALPHA_GPREL_HI16: |
| 2623 | case BFD_RELOC_ALPHA_GPREL_LO16: |
| 2624 | case BFD_RELOC_ALPHA_GOTDTPREL16: |
| 2625 | case BFD_RELOC_ALPHA_DTPREL_HI16: |
| 2626 | case BFD_RELOC_ALPHA_DTPREL_LO16: |
| 2627 | case BFD_RELOC_ALPHA_DTPREL16: |
| 2628 | case BFD_RELOC_ALPHA_GOTTPREL16: |
| 2629 | case BFD_RELOC_ALPHA_TPREL_HI16: |
| 2630 | case BFD_RELOC_ALPHA_TPREL_LO16: |
| 2631 | case BFD_RELOC_ALPHA_TPREL16: |
| 2632 | fixP->fx_no_overflow = 1; |
| 2633 | break; |
| 2634 | |
| 2635 | case BFD_RELOC_ALPHA_GPDISP_HI16: |
| 2636 | fixP->fx_no_overflow = 1; |
| 2637 | fixP->fx_addsy = section_symbol (now_seg); |
| 2638 | fixP->fx_offset = 0; |
| 2639 | |
| 2640 | info = get_alpha_reloc_tag (insn->sequence); |
| 2641 | if (++info->n_master > 1) |
| 2642 | as_bad (_("too many ldah insns for !gpdisp!%ld"), insn->sequence); |
| 2643 | if (info->segment != now_seg) |
| 2644 | as_bad (_("both insns for !gpdisp!%ld must be in the same section"), |
| 2645 | insn->sequence); |
| 2646 | fixP->tc_fix_data.info = info; |
| 2647 | break; |
| 2648 | |
| 2649 | case BFD_RELOC_ALPHA_GPDISP_LO16: |
| 2650 | fixP->fx_no_overflow = 1; |
| 2651 | |
| 2652 | info = get_alpha_reloc_tag (insn->sequence); |
| 2653 | if (++info->n_slaves > 1) |
| 2654 | as_bad (_("too many lda insns for !gpdisp!%ld"), insn->sequence); |
| 2655 | if (info->segment != now_seg) |
| 2656 | as_bad (_("both insns for !gpdisp!%ld must be in the same section"), |
| 2657 | insn->sequence); |
| 2658 | fixP->tc_fix_data.info = info; |
| 2659 | info->slaves = fixP; |
| 2660 | break; |
| 2661 | |
| 2662 | case BFD_RELOC_ALPHA_LITERAL: |
| 2663 | case BFD_RELOC_ALPHA_ELF_LITERAL: |
| 2664 | fixP->fx_no_overflow = 1; |
| 2665 | |
| 2666 | if (insn->sequence == 0) |
| 2667 | break; |
| 2668 | info = get_alpha_reloc_tag (insn->sequence); |
| 2669 | info->master = fixP; |
| 2670 | info->n_master++; |
| 2671 | if (info->segment != now_seg) |
| 2672 | info->multi_section_p = 1; |
| 2673 | fixP->tc_fix_data.info = info; |
| 2674 | break; |
| 2675 | |
| 2676 | #ifdef RELOC_OP_P |
| 2677 | case DUMMY_RELOC_LITUSE_ADDR: |
| 2678 | fixP->fx_offset = LITUSE_ALPHA_ADDR; |
| 2679 | goto do_lituse; |
| 2680 | case DUMMY_RELOC_LITUSE_BASE: |
| 2681 | fixP->fx_offset = LITUSE_ALPHA_BASE; |
| 2682 | goto do_lituse; |
| 2683 | case DUMMY_RELOC_LITUSE_BYTOFF: |
| 2684 | fixP->fx_offset = LITUSE_ALPHA_BYTOFF; |
| 2685 | goto do_lituse; |
| 2686 | case DUMMY_RELOC_LITUSE_JSR: |
| 2687 | fixP->fx_offset = LITUSE_ALPHA_JSR; |
| 2688 | goto do_lituse; |
| 2689 | case DUMMY_RELOC_LITUSE_TLSGD: |
| 2690 | fixP->fx_offset = LITUSE_ALPHA_TLSGD; |
| 2691 | goto do_lituse; |
| 2692 | case DUMMY_RELOC_LITUSE_TLSLDM: |
| 2693 | fixP->fx_offset = LITUSE_ALPHA_TLSLDM; |
| 2694 | goto do_lituse; |
| 2695 | do_lituse: |
| 2696 | fixP->fx_addsy = section_symbol (now_seg); |
| 2697 | fixP->fx_r_type = BFD_RELOC_ALPHA_LITUSE; |
| 2698 | |
| 2699 | info = get_alpha_reloc_tag (insn->sequence); |
| 2700 | if (fixup->reloc == DUMMY_RELOC_LITUSE_TLSGD) |
| 2701 | info->saw_lu_tlsgd = 1; |
| 2702 | else if (fixup->reloc == DUMMY_RELOC_LITUSE_TLSLDM) |
| 2703 | info->saw_lu_tlsldm = 1; |
| 2704 | if (++info->n_slaves > 1) |
| 2705 | { |
| 2706 | if (info->saw_lu_tlsgd) |
| 2707 | as_bad (_("too many lituse insns for !lituse_tlsgd!%ld"), |
| 2708 | insn->sequence); |
| 2709 | else if (info->saw_lu_tlsldm) |
| 2710 | as_bad (_("too many lituse insns for !lituse_tlsldm!%ld"), |
| 2711 | insn->sequence); |
| 2712 | } |
| 2713 | fixP->tc_fix_data.info = info; |
| 2714 | fixP->tc_fix_data.next_reloc = info->slaves; |
| 2715 | info->slaves = fixP; |
| 2716 | if (info->segment != now_seg) |
| 2717 | info->multi_section_p = 1; |
| 2718 | break; |
| 2719 | |
| 2720 | case BFD_RELOC_ALPHA_TLSGD: |
| 2721 | fixP->fx_no_overflow = 1; |
| 2722 | |
| 2723 | if (insn->sequence == 0) |
| 2724 | break; |
| 2725 | info = get_alpha_reloc_tag (insn->sequence); |
| 2726 | if (info->saw_tlsgd) |
| 2727 | as_bad (_("duplicate !tlsgd!%ld"), insn->sequence); |
| 2728 | else if (info->saw_tlsldm) |
| 2729 | as_bad (_("sequence number in use for !tlsldm!%ld"), |
| 2730 | insn->sequence); |
| 2731 | else |
| 2732 | info->saw_tlsgd = 1; |
| 2733 | fixP->tc_fix_data.info = info; |
| 2734 | break; |
| 2735 | |
| 2736 | case BFD_RELOC_ALPHA_TLSLDM: |
| 2737 | fixP->fx_no_overflow = 1; |
| 2738 | |
| 2739 | if (insn->sequence == 0) |
| 2740 | break; |
| 2741 | info = get_alpha_reloc_tag (insn->sequence); |
| 2742 | if (info->saw_tlsldm) |
| 2743 | as_bad (_("duplicate !tlsldm!%ld"), insn->sequence); |
| 2744 | else if (info->saw_tlsgd) |
| 2745 | as_bad (_("sequence number in use for !tlsgd!%ld"), |
| 2746 | insn->sequence); |
| 2747 | else |
| 2748 | info->saw_tlsldm = 1; |
| 2749 | fixP->tc_fix_data.info = info; |
| 2750 | break; |
| 2751 | #endif |
| 2752 | default: |
| 2753 | if ((int) fixup->reloc < 0) |
| 2754 | { |
| 2755 | if (operand->flags & AXP_OPERAND_NOOVERFLOW) |
| 2756 | fixP->fx_no_overflow = 1; |
| 2757 | } |
| 2758 | break; |
| 2759 | } |
| 2760 | } |
| 2761 | } |
| 2762 | |
| 2763 | /* Given an opcode name and a pre-tokenized set of arguments, assemble |
| 2764 | the insn, but do not emit it. |
| 2765 | |
| 2766 | Note that this implies no macros allowed, since we can't store more |
| 2767 | than one insn in an insn structure. */ |
| 2768 | |
| 2769 | static void |
| 2770 | assemble_tokens_to_insn (opname, tok, ntok, insn) |
| 2771 | const char *opname; |
| 2772 | const expressionS *tok; |
| 2773 | int ntok; |
| 2774 | struct alpha_insn *insn; |
| 2775 | { |
| 2776 | const struct alpha_opcode *opcode; |
| 2777 | |
| 2778 | /* search opcodes */ |
| 2779 | opcode = (const struct alpha_opcode *) hash_find (alpha_opcode_hash, opname); |
| 2780 | if (opcode) |
| 2781 | { |
| 2782 | int cpumatch; |
| 2783 | opcode = find_opcode_match (opcode, tok, &ntok, &cpumatch); |
| 2784 | if (opcode) |
| 2785 | { |
| 2786 | assemble_insn (opcode, tok, ntok, insn, BFD_RELOC_UNUSED); |
| 2787 | return; |
| 2788 | } |
| 2789 | else if (cpumatch) |
| 2790 | as_bad (_("inappropriate arguments for opcode `%s'"), opname); |
| 2791 | else |
| 2792 | as_bad (_("opcode `%s' not supported for target %s"), opname, |
| 2793 | alpha_target_name); |
| 2794 | } |
| 2795 | else |
| 2796 | as_bad (_("unknown opcode `%s'"), opname); |
| 2797 | } |
| 2798 | |
| 2799 | /* Given an opcode name and a pre-tokenized set of arguments, take the |
| 2800 | opcode all the way through emission. */ |
| 2801 | |
| 2802 | static void |
| 2803 | assemble_tokens (opname, tok, ntok, local_macros_on) |
| 2804 | const char *opname; |
| 2805 | const expressionS *tok; |
| 2806 | int ntok; |
| 2807 | int local_macros_on; |
| 2808 | { |
| 2809 | int found_something = 0; |
| 2810 | const struct alpha_opcode *opcode; |
| 2811 | const struct alpha_macro *macro; |
| 2812 | int cpumatch = 1; |
| 2813 | bfd_reloc_code_real_type reloc = BFD_RELOC_UNUSED; |
| 2814 | |
| 2815 | #ifdef RELOC_OP_P |
| 2816 | /* If a user-specified relocation is present, this is not a macro. */ |
| 2817 | if (ntok && USER_RELOC_P (tok[ntok - 1].X_op)) |
| 2818 | { |
| 2819 | reloc = ALPHA_RELOC_TABLE (tok[ntok - 1].X_op)->reloc; |
| 2820 | ntok--; |
| 2821 | } |
| 2822 | else |
| 2823 | #endif |
| 2824 | if (local_macros_on) |
| 2825 | { |
| 2826 | macro = ((const struct alpha_macro *) |
| 2827 | hash_find (alpha_macro_hash, opname)); |
| 2828 | if (macro) |
| 2829 | { |
| 2830 | found_something = 1; |
| 2831 | macro = find_macro_match (macro, tok, &ntok); |
| 2832 | if (macro) |
| 2833 | { |
| 2834 | (*macro->emit) (tok, ntok, macro->arg); |
| 2835 | return; |
| 2836 | } |
| 2837 | } |
| 2838 | } |
| 2839 | |
| 2840 | /* Search opcodes. */ |
| 2841 | opcode = (const struct alpha_opcode *) hash_find (alpha_opcode_hash, opname); |
| 2842 | if (opcode) |
| 2843 | { |
| 2844 | found_something = 1; |
| 2845 | opcode = find_opcode_match (opcode, tok, &ntok, &cpumatch); |
| 2846 | if (opcode) |
| 2847 | { |
| 2848 | struct alpha_insn insn; |
| 2849 | assemble_insn (opcode, tok, ntok, &insn, reloc); |
| 2850 | |
| 2851 | /* Copy the sequence number for the reloc from the reloc token. */ |
| 2852 | if (reloc != BFD_RELOC_UNUSED) |
| 2853 | insn.sequence = tok[ntok].X_add_number; |
| 2854 | |
| 2855 | emit_insn (&insn); |
| 2856 | return; |
| 2857 | } |
| 2858 | } |
| 2859 | |
| 2860 | if (found_something) |
| 2861 | { |
| 2862 | if (cpumatch) |
| 2863 | as_bad (_("inappropriate arguments for opcode `%s'"), opname); |
| 2864 | else |
| 2865 | as_bad (_("opcode `%s' not supported for target %s"), opname, |
| 2866 | alpha_target_name); |
| 2867 | } |
| 2868 | else |
| 2869 | as_bad (_("unknown opcode `%s'"), opname); |
| 2870 | } |
| 2871 | \f |
| 2872 | /* Some instruction sets indexed by lg(size). */ |
| 2873 | static const char * const sextX_op[] = { "sextb", "sextw", "sextl", NULL }; |
| 2874 | static const char * const insXl_op[] = { "insbl", "inswl", "insll", "insql" }; |
| 2875 | static const char * const insXh_op[] = { NULL, "inswh", "inslh", "insqh" }; |
| 2876 | static const char * const extXl_op[] = { "extbl", "extwl", "extll", "extql" }; |
| 2877 | static const char * const extXh_op[] = { NULL, "extwh", "extlh", "extqh" }; |
| 2878 | static const char * const mskXl_op[] = { "mskbl", "mskwl", "mskll", "mskql" }; |
| 2879 | static const char * const mskXh_op[] = { NULL, "mskwh", "msklh", "mskqh" }; |
| 2880 | static const char * const stX_op[] = { "stb", "stw", "stl", "stq" }; |
| 2881 | static const char * const ldXu_op[] = { "ldbu", "ldwu", NULL, NULL }; |
| 2882 | |
| 2883 | /* Implement the ldgp macro. */ |
| 2884 | |
| 2885 | static void |
| 2886 | emit_ldgp (tok, ntok, unused) |
| 2887 | const expressionS *tok; |
| 2888 | int ntok ATTRIBUTE_UNUSED; |
| 2889 | const PTR unused ATTRIBUTE_UNUSED; |
| 2890 | { |
| 2891 | #ifdef OBJ_AOUT |
| 2892 | FIXME |
| 2893 | #endif |
| 2894 | #if defined(OBJ_ECOFF) || defined(OBJ_ELF) |
| 2895 | /* from "ldgp r1,n(r2)", generate "ldah r1,X(R2); lda r1,Y(r1)" |
| 2896 | with appropriate constants and relocations. */ |
| 2897 | struct alpha_insn insn; |
| 2898 | expressionS newtok[3]; |
| 2899 | expressionS addend; |
| 2900 | |
| 2901 | #ifdef OBJ_ECOFF |
| 2902 | if (regno (tok[2].X_add_number) == AXP_REG_PV) |
| 2903 | ecoff_set_gp_prolog_size (0); |
| 2904 | #endif |
| 2905 | |
| 2906 | newtok[0] = tok[0]; |
| 2907 | set_tok_const (newtok[1], 0); |
| 2908 | newtok[2] = tok[2]; |
| 2909 | |
| 2910 | assemble_tokens_to_insn ("ldah", newtok, 3, &insn); |
| 2911 | |
| 2912 | addend = tok[1]; |
| 2913 | |
| 2914 | #ifdef OBJ_ECOFF |
| 2915 | if (addend.X_op != O_constant) |
| 2916 | as_bad (_("can not resolve expression")); |
| 2917 | addend.X_op = O_symbol; |
| 2918 | addend.X_add_symbol = alpha_gp_symbol; |
| 2919 | #endif |
| 2920 | |
| 2921 | insn.nfixups = 1; |
| 2922 | insn.fixups[0].exp = addend; |
| 2923 | insn.fixups[0].reloc = BFD_RELOC_ALPHA_GPDISP_HI16; |
| 2924 | insn.sequence = next_sequence_num; |
| 2925 | |
| 2926 | emit_insn (&insn); |
| 2927 | |
| 2928 | set_tok_preg (newtok[2], tok[0].X_add_number); |
| 2929 | |
| 2930 | assemble_tokens_to_insn ("lda", newtok, 3, &insn); |
| 2931 | |
| 2932 | #ifdef OBJ_ECOFF |
| 2933 | addend.X_add_number += 4; |
| 2934 | #endif |
| 2935 | |
| 2936 | insn.nfixups = 1; |
| 2937 | insn.fixups[0].exp = addend; |
| 2938 | insn.fixups[0].reloc = BFD_RELOC_ALPHA_GPDISP_LO16; |
| 2939 | insn.sequence = next_sequence_num--; |
| 2940 | |
| 2941 | emit_insn (&insn); |
| 2942 | #endif /* OBJ_ECOFF || OBJ_ELF */ |
| 2943 | } |
| 2944 | |
| 2945 | #ifdef OBJ_EVAX |
| 2946 | |
| 2947 | /* Add symbol+addend to link pool. |
| 2948 | Return offset from basesym to entry in link pool. |
| 2949 | |
| 2950 | Add new fixup only if offset isn't 16bit. */ |
| 2951 | |
| 2952 | valueT |
| 2953 | add_to_link_pool (basesym, sym, addend) |
| 2954 | symbolS *basesym; |
| 2955 | symbolS *sym; |
| 2956 | offsetT addend; |
| 2957 | { |
| 2958 | segT current_section = now_seg; |
| 2959 | int current_subsec = now_subseg; |
| 2960 | valueT offset; |
| 2961 | bfd_reloc_code_real_type reloc_type; |
| 2962 | char *p; |
| 2963 | segment_info_type *seginfo = seg_info (alpha_link_section); |
| 2964 | fixS *fixp; |
| 2965 | |
| 2966 | offset = - *symbol_get_obj (basesym); |
| 2967 | |
| 2968 | /* @@ This assumes all entries in a given section will be of the same |
| 2969 | size... Probably correct, but unwise to rely on. */ |
| 2970 | /* This must always be called with the same subsegment. */ |
| 2971 | |
| 2972 | if (seginfo->frchainP) |
| 2973 | for (fixp = seginfo->frchainP->fix_root; |
| 2974 | fixp != (fixS *) NULL; |
| 2975 | fixp = fixp->fx_next, offset += 8) |
| 2976 | { |
| 2977 | if (fixp->fx_addsy == sym && fixp->fx_offset == addend) |
| 2978 | { |
| 2979 | if (range_signed_16 (offset)) |
| 2980 | { |
| 2981 | return offset; |
| 2982 | } |
| 2983 | } |
| 2984 | } |
| 2985 | |
| 2986 | /* Not found in 16bit signed range. */ |
| 2987 | |
| 2988 | subseg_set (alpha_link_section, 0); |
| 2989 | p = frag_more (8); |
| 2990 | memset (p, 0, 8); |
| 2991 | |
| 2992 | fix_new (frag_now, p - frag_now->fr_literal, 8, sym, addend, 0, |
| 2993 | BFD_RELOC_64); |
| 2994 | |
| 2995 | subseg_set (current_section, current_subsec); |
| 2996 | seginfo->literal_pool_size += 8; |
| 2997 | return offset; |
| 2998 | } |
| 2999 | |
| 3000 | #endif /* OBJ_EVAX */ |
| 3001 | |
| 3002 | /* Load a (partial) expression into a target register. |
| 3003 | |
| 3004 | If poffset is not null, after the call it will either contain |
| 3005 | O_constant 0, or a 16-bit offset appropriate for any MEM format |
| 3006 | instruction. In addition, pbasereg will be modified to point to |
| 3007 | the base register to use in that MEM format instruction. |
| 3008 | |
| 3009 | In any case, *pbasereg should contain a base register to add to the |
| 3010 | expression. This will normally be either AXP_REG_ZERO or |
| 3011 | alpha_gp_register. Symbol addresses will always be loaded via $gp, |
| 3012 | so "foo($0)" is interpreted as adding the address of foo to $0; |
| 3013 | i.e. "ldq $targ, LIT($gp); addq $targ, $0, $targ". Odd, perhaps, |
| 3014 | but this is what OSF/1 does. |
| 3015 | |
| 3016 | If explicit relocations of the form !literal!<number> are allowed, |
| 3017 | and used, then explict_reloc with be an expression pointer. |
| 3018 | |
| 3019 | Finally, the return value is nonzero if the calling macro may emit |
| 3020 | a LITUSE reloc if otherwise appropriate; the return value is the |
| 3021 | sequence number to use. */ |
| 3022 | |
| 3023 | static long |
| 3024 | load_expression (targreg, exp, pbasereg, poffset) |
| 3025 | int targreg; |
| 3026 | const expressionS *exp; |
| 3027 | int *pbasereg; |
| 3028 | expressionS *poffset; |
| 3029 | { |
| 3030 | long emit_lituse = 0; |
| 3031 | offsetT addend = exp->X_add_number; |
| 3032 | int basereg = *pbasereg; |
| 3033 | struct alpha_insn insn; |
| 3034 | expressionS newtok[3]; |
| 3035 | |
| 3036 | switch (exp->X_op) |
| 3037 | { |
| 3038 | case O_symbol: |
| 3039 | { |
| 3040 | #ifdef OBJ_ECOFF |
| 3041 | offsetT lit; |
| 3042 | |
| 3043 | /* Attempt to reduce .lit load by splitting the offset from |
| 3044 | its symbol when possible, but don't create a situation in |
| 3045 | which we'd fail. */ |
| 3046 | if (!range_signed_32 (addend) && |
| 3047 | (alpha_noat_on || targreg == AXP_REG_AT)) |
| 3048 | { |
| 3049 | lit = add_to_literal_pool (exp->X_add_symbol, addend, |
| 3050 | alpha_lita_section, 8); |
| 3051 | addend = 0; |
| 3052 | } |
| 3053 | else |
| 3054 | { |
| 3055 | lit = add_to_literal_pool (exp->X_add_symbol, 0, |
| 3056 | alpha_lita_section, 8); |
| 3057 | } |
| 3058 | |
| 3059 | if (lit >= 0x8000) |
| 3060 | as_fatal (_("overflow in literal (.lita) table")); |
| 3061 | |
| 3062 | /* emit "ldq r, lit(gp)" */ |
| 3063 | |
| 3064 | if (basereg != alpha_gp_register && targreg == basereg) |
| 3065 | { |
| 3066 | if (alpha_noat_on) |
| 3067 | as_bad (_("macro requires $at register while noat in effect")); |
| 3068 | if (targreg == AXP_REG_AT) |
| 3069 | as_bad (_("macro requires $at while $at in use")); |
| 3070 | |
| 3071 | set_tok_reg (newtok[0], AXP_REG_AT); |
| 3072 | } |
| 3073 | else |
| 3074 | set_tok_reg (newtok[0], targreg); |
| 3075 | set_tok_sym (newtok[1], alpha_lita_symbol, lit); |
| 3076 | set_tok_preg (newtok[2], alpha_gp_register); |
| 3077 | |
| 3078 | assemble_tokens_to_insn ("ldq", newtok, 3, &insn); |
| 3079 | |
| 3080 | assert (insn.nfixups == 1); |
| 3081 | insn.fixups[0].reloc = BFD_RELOC_ALPHA_LITERAL; |
| 3082 | insn.sequence = emit_lituse = next_sequence_num--; |
| 3083 | #endif /* OBJ_ECOFF */ |
| 3084 | #ifdef OBJ_ELF |
| 3085 | /* emit "ldq r, gotoff(gp)" */ |
| 3086 | |
| 3087 | if (basereg != alpha_gp_register && targreg == basereg) |
| 3088 | { |
| 3089 | if (alpha_noat_on) |
| 3090 | as_bad (_("macro requires $at register while noat in effect")); |
| 3091 | if (targreg == AXP_REG_AT) |
| 3092 | as_bad (_("macro requires $at while $at in use")); |
| 3093 | |
| 3094 | set_tok_reg (newtok[0], AXP_REG_AT); |
| 3095 | } |
| 3096 | else |
| 3097 | set_tok_reg (newtok[0], targreg); |
| 3098 | |
| 3099 | /* XXX: Disable this .got minimizing optimization so that we can get |
| 3100 | better instruction offset knowledge in the compiler. This happens |
| 3101 | very infrequently anyway. */ |
| 3102 | if (1 |
| 3103 | || (!range_signed_32 (addend) |
| 3104 | && (alpha_noat_on || targreg == AXP_REG_AT))) |
| 3105 | { |
| 3106 | newtok[1] = *exp; |
| 3107 | addend = 0; |
| 3108 | } |
| 3109 | else |
| 3110 | { |
| 3111 | set_tok_sym (newtok[1], exp->X_add_symbol, 0); |
| 3112 | } |
| 3113 | |
| 3114 | set_tok_preg (newtok[2], alpha_gp_register); |
| 3115 | |
| 3116 | assemble_tokens_to_insn ("ldq", newtok, 3, &insn); |
| 3117 | |
| 3118 | assert (insn.nfixups == 1); |
| 3119 | insn.fixups[0].reloc = BFD_RELOC_ALPHA_ELF_LITERAL; |
| 3120 | insn.sequence = emit_lituse = next_sequence_num--; |
| 3121 | #endif /* OBJ_ELF */ |
| 3122 | #ifdef OBJ_EVAX |
| 3123 | offsetT link; |
| 3124 | |
| 3125 | /* Find symbol or symbol pointer in link section. */ |
| 3126 | |
| 3127 | if (exp->X_add_symbol == alpha_evax_proc.symbol) |
| 3128 | { |
| 3129 | if (range_signed_16 (addend)) |
| 3130 | { |
| 3131 | set_tok_reg (newtok[0], targreg); |
| 3132 | set_tok_const (newtok[1], addend); |
| 3133 | set_tok_preg (newtok[2], basereg); |
| 3134 | assemble_tokens_to_insn ("lda", newtok, 3, &insn); |
| 3135 | addend = 0; |
| 3136 | } |
| 3137 | else |
| 3138 | { |
| 3139 | set_tok_reg (newtok[0], targreg); |
| 3140 | set_tok_const (newtok[1], 0); |
| 3141 | set_tok_preg (newtok[2], basereg); |
| 3142 | assemble_tokens_to_insn ("lda", newtok, 3, &insn); |
| 3143 | } |
| 3144 | } |
| 3145 | else |
| 3146 | { |
| 3147 | if (!range_signed_32 (addend)) |
| 3148 | { |
| 3149 | link = add_to_link_pool (alpha_evax_proc.symbol, |
| 3150 | exp->X_add_symbol, addend); |
| 3151 | addend = 0; |
| 3152 | } |
| 3153 | else |
| 3154 | { |
| 3155 | link = add_to_link_pool (alpha_evax_proc.symbol, |
| 3156 | exp->X_add_symbol, 0); |
| 3157 | } |
| 3158 | set_tok_reg (newtok[0], targreg); |
| 3159 | set_tok_const (newtok[1], link); |
| 3160 | set_tok_preg (newtok[2], basereg); |
| 3161 | assemble_tokens_to_insn ("ldq", newtok, 3, &insn); |
| 3162 | } |
| 3163 | #endif /* OBJ_EVAX */ |
| 3164 | |
| 3165 | emit_insn (&insn); |
| 3166 | |
| 3167 | #ifndef OBJ_EVAX |
| 3168 | if (basereg != alpha_gp_register && basereg != AXP_REG_ZERO) |
| 3169 | { |
| 3170 | /* emit "addq r, base, r" */ |
| 3171 | |
| 3172 | set_tok_reg (newtok[1], basereg); |
| 3173 | set_tok_reg (newtok[2], targreg); |
| 3174 | assemble_tokens ("addq", newtok, 3, 0); |
| 3175 | } |
| 3176 | #endif |
| 3177 | |
| 3178 | basereg = targreg; |
| 3179 | } |
| 3180 | break; |
| 3181 | |
| 3182 | case O_constant: |
| 3183 | break; |
| 3184 | |
| 3185 | case O_subtract: |
| 3186 | /* Assume that this difference expression will be resolved to an |
| 3187 | absolute value and that that value will fit in 16 bits. */ |
| 3188 | |
| 3189 | set_tok_reg (newtok[0], targreg); |
| 3190 | newtok[1] = *exp; |
| 3191 | set_tok_preg (newtok[2], basereg); |
| 3192 | assemble_tokens ("lda", newtok, 3, 0); |
| 3193 | |
| 3194 | if (poffset) |
| 3195 | set_tok_const (*poffset, 0); |
| 3196 | return 0; |
| 3197 | |
| 3198 | case O_big: |
| 3199 | if (exp->X_add_number > 0) |
| 3200 | as_bad (_("bignum invalid; zero assumed")); |
| 3201 | else |
| 3202 | as_bad (_("floating point number invalid; zero assumed")); |
| 3203 | addend = 0; |
| 3204 | break; |
| 3205 | |
| 3206 | default: |
| 3207 | as_bad (_("can't handle expression")); |
| 3208 | addend = 0; |
| 3209 | break; |
| 3210 | } |
| 3211 | |
| 3212 | if (!range_signed_32 (addend)) |
| 3213 | { |
| 3214 | offsetT lit; |
| 3215 | long seq_num = next_sequence_num--; |
| 3216 | |
| 3217 | /* For 64-bit addends, just put it in the literal pool. */ |
| 3218 | |
| 3219 | #ifdef OBJ_EVAX |
| 3220 | /* emit "ldq targreg, lit(basereg)" */ |
| 3221 | lit = add_to_link_pool (alpha_evax_proc.symbol, |
| 3222 | section_symbol (absolute_section), addend); |
| 3223 | set_tok_reg (newtok[0], targreg); |
| 3224 | set_tok_const (newtok[1], lit); |
| 3225 | set_tok_preg (newtok[2], alpha_gp_register); |
| 3226 | assemble_tokens ("ldq", newtok, 3, 0); |
| 3227 | #else |
| 3228 | |
| 3229 | if (alpha_lit8_section == NULL) |
| 3230 | { |
| 3231 | create_literal_section (".lit8", |
| 3232 | &alpha_lit8_section, |
| 3233 | &alpha_lit8_symbol); |
| 3234 | |
| 3235 | #ifdef OBJ_ECOFF |
| 3236 | alpha_lit8_literal = add_to_literal_pool (alpha_lit8_symbol, 0x8000, |
| 3237 | alpha_lita_section, 8); |
| 3238 | if (alpha_lit8_literal >= 0x8000) |
| 3239 | as_fatal (_("overflow in literal (.lita) table")); |
| 3240 | #endif |
| 3241 | } |
| 3242 | |
| 3243 | lit = add_to_literal_pool (NULL, addend, alpha_lit8_section, 8) - 0x8000; |
| 3244 | if (lit >= 0x8000) |
| 3245 | as_fatal (_("overflow in literal (.lit8) table")); |
| 3246 | |
| 3247 | /* emit "lda litreg, .lit8+0x8000" */ |
| 3248 | |
| 3249 | if (targreg == basereg) |
| 3250 | { |
| 3251 | if (alpha_noat_on) |
| 3252 | as_bad (_("macro requires $at register while noat in effect")); |
| 3253 | if (targreg == AXP_REG_AT) |
| 3254 | as_bad (_("macro requires $at while $at in use")); |
| 3255 | |
| 3256 | set_tok_reg (newtok[0], AXP_REG_AT); |
| 3257 | } |
| 3258 | else |
| 3259 | set_tok_reg (newtok[0], targreg); |
| 3260 | #ifdef OBJ_ECOFF |
| 3261 | set_tok_sym (newtok[1], alpha_lita_symbol, alpha_lit8_literal); |
| 3262 | #endif |
| 3263 | #ifdef OBJ_ELF |
| 3264 | set_tok_sym (newtok[1], alpha_lit8_symbol, 0x8000); |
| 3265 | #endif |
| 3266 | set_tok_preg (newtok[2], alpha_gp_register); |
| 3267 | |
| 3268 | assemble_tokens_to_insn ("ldq", newtok, 3, &insn); |
| 3269 | |
| 3270 | assert (insn.nfixups == 1); |
| 3271 | #ifdef OBJ_ECOFF |
| 3272 | insn.fixups[0].reloc = BFD_RELOC_ALPHA_LITERAL; |
| 3273 | #endif |
| 3274 | #ifdef OBJ_ELF |
| 3275 | insn.fixups[0].reloc = BFD_RELOC_ALPHA_ELF_LITERAL; |
| 3276 | #endif |
| 3277 | insn.sequence = seq_num; |
| 3278 | |
| 3279 | emit_insn (&insn); |
| 3280 | |
| 3281 | /* emit "ldq litreg, lit(litreg)" */ |
| 3282 | |
| 3283 | set_tok_const (newtok[1], lit); |
| 3284 | set_tok_preg (newtok[2], newtok[0].X_add_number); |
| 3285 | |
| 3286 | assemble_tokens_to_insn ("ldq", newtok, 3, &insn); |
| 3287 | |
| 3288 | assert (insn.nfixups < MAX_INSN_FIXUPS); |
| 3289 | insn.fixups[insn.nfixups].reloc = DUMMY_RELOC_LITUSE_BASE; |
| 3290 | insn.fixups[insn.nfixups].exp.X_op = O_absent; |
| 3291 | insn.nfixups++; |
| 3292 | insn.sequence = seq_num; |
| 3293 | emit_lituse = 0; |
| 3294 | |
| 3295 | emit_insn (&insn); |
| 3296 | |
| 3297 | /* emit "addq litreg, base, target" */ |
| 3298 | |
| 3299 | if (basereg != AXP_REG_ZERO) |
| 3300 | { |
| 3301 | set_tok_reg (newtok[1], basereg); |
| 3302 | set_tok_reg (newtok[2], targreg); |
| 3303 | assemble_tokens ("addq", newtok, 3, 0); |
| 3304 | } |
| 3305 | #endif /* !OBJ_EVAX */ |
| 3306 | |
| 3307 | if (poffset) |
| 3308 | set_tok_const (*poffset, 0); |
| 3309 | *pbasereg = targreg; |
| 3310 | } |
| 3311 | else |
| 3312 | { |
| 3313 | offsetT low, high, extra, tmp; |
| 3314 | |
| 3315 | /* for 32-bit operands, break up the addend */ |
| 3316 | |
| 3317 | low = sign_extend_16 (addend); |
| 3318 | tmp = addend - low; |
| 3319 | high = sign_extend_16 (tmp >> 16); |
| 3320 | |
| 3321 | if (tmp - (high << 16)) |
| 3322 | { |
| 3323 | extra = 0x4000; |
| 3324 | tmp -= 0x40000000; |
| 3325 | high = sign_extend_16 (tmp >> 16); |
| 3326 | } |
| 3327 | else |
| 3328 | extra = 0; |
| 3329 | |
| 3330 | set_tok_reg (newtok[0], targreg); |
| 3331 | set_tok_preg (newtok[2], basereg); |
| 3332 | |
| 3333 | if (extra) |
| 3334 | { |
| 3335 | /* emit "ldah r, extra(r) */ |
| 3336 | set_tok_const (newtok[1], extra); |
| 3337 | assemble_tokens ("ldah", newtok, 3, 0); |
| 3338 | set_tok_preg (newtok[2], basereg = targreg); |
| 3339 | } |
| 3340 | |
| 3341 | if (high) |
| 3342 | { |
| 3343 | /* emit "ldah r, high(r) */ |
| 3344 | set_tok_const (newtok[1], high); |
| 3345 | assemble_tokens ("ldah", newtok, 3, 0); |
| 3346 | basereg = targreg; |
| 3347 | set_tok_preg (newtok[2], basereg); |
| 3348 | } |
| 3349 | |
| 3350 | if ((low && !poffset) || (!poffset && basereg != targreg)) |
| 3351 | { |
| 3352 | /* emit "lda r, low(base)" */ |
| 3353 | set_tok_const (newtok[1], low); |
| 3354 | assemble_tokens ("lda", newtok, 3, 0); |
| 3355 | basereg = targreg; |
| 3356 | low = 0; |
| 3357 | } |
| 3358 | |
| 3359 | if (poffset) |
| 3360 | set_tok_const (*poffset, low); |
| 3361 | *pbasereg = basereg; |
| 3362 | } |
| 3363 | |
| 3364 | return emit_lituse; |
| 3365 | } |
| 3366 | |
| 3367 | /* The lda macro differs from the lda instruction in that it handles |
| 3368 | most simple expressions, particualrly symbol address loads and |
| 3369 | large constants. */ |
| 3370 | |
| 3371 | static void |
| 3372 | emit_lda (tok, ntok, unused) |
| 3373 | const expressionS *tok; |
| 3374 | int ntok; |
| 3375 | const PTR unused ATTRIBUTE_UNUSED; |
| 3376 | { |
| 3377 | int basereg; |
| 3378 | |
| 3379 | if (ntok == 2) |
| 3380 | basereg = (tok[1].X_op == O_constant ? AXP_REG_ZERO : alpha_gp_register); |
| 3381 | else |
| 3382 | basereg = tok[2].X_add_number; |
| 3383 | |
| 3384 | (void) load_expression (tok[0].X_add_number, &tok[1], &basereg, NULL); |
| 3385 | } |
| 3386 | |
| 3387 | /* The ldah macro differs from the ldah instruction in that it has $31 |
| 3388 | as an implied base register. */ |
| 3389 | |
| 3390 | static void |
| 3391 | emit_ldah (tok, ntok, unused) |
| 3392 | const expressionS *tok; |
| 3393 | int ntok ATTRIBUTE_UNUSED; |
| 3394 | const PTR unused ATTRIBUTE_UNUSED; |
| 3395 | { |
| 3396 | expressionS newtok[3]; |
| 3397 | |
| 3398 | newtok[0] = tok[0]; |
| 3399 | newtok[1] = tok[1]; |
| 3400 | set_tok_preg (newtok[2], AXP_REG_ZERO); |
| 3401 | |
| 3402 | assemble_tokens ("ldah", newtok, 3, 0); |
| 3403 | } |
| 3404 | |
| 3405 | /* Handle all "simple" integer register loads -- ldq, ldq_l, ldq_u, |
| 3406 | etc. They differ from the real instructions in that they do simple |
| 3407 | expressions like the lda macro. */ |
| 3408 | |
| 3409 | static void |
| 3410 | emit_ir_load (tok, ntok, opname) |
| 3411 | const expressionS *tok; |
| 3412 | int ntok; |
| 3413 | const PTR opname; |
| 3414 | { |
| 3415 | int basereg; |
| 3416 | long lituse; |
| 3417 | expressionS newtok[3]; |
| 3418 | struct alpha_insn insn; |
| 3419 | |
| 3420 | if (ntok == 2) |
| 3421 | basereg = (tok[1].X_op == O_constant ? AXP_REG_ZERO : alpha_gp_register); |
| 3422 | else |
| 3423 | basereg = tok[2].X_add_number; |
| 3424 | |
| 3425 | lituse = load_expression (tok[0].X_add_number, &tok[1], &basereg, |
| 3426 | &newtok[1]); |
| 3427 | |
| 3428 | newtok[0] = tok[0]; |
| 3429 | set_tok_preg (newtok[2], basereg); |
| 3430 | |
| 3431 | assemble_tokens_to_insn ((const char *) opname, newtok, 3, &insn); |
| 3432 | |
| 3433 | if (lituse) |
| 3434 | { |
| 3435 | assert (insn.nfixups < MAX_INSN_FIXUPS); |
| 3436 | insn.fixups[insn.nfixups].reloc = DUMMY_RELOC_LITUSE_BASE; |
| 3437 | insn.fixups[insn.nfixups].exp.X_op = O_absent; |
| 3438 | insn.nfixups++; |
| 3439 | insn.sequence = lituse; |
| 3440 | } |
| 3441 | |
| 3442 | emit_insn (&insn); |
| 3443 | } |
| 3444 | |
| 3445 | /* Handle fp register loads, and both integer and fp register stores. |
| 3446 | Again, we handle simple expressions. */ |
| 3447 | |
| 3448 | static void |
| 3449 | emit_loadstore (tok, ntok, opname) |
| 3450 | const expressionS *tok; |
| 3451 | int ntok; |
| 3452 | const PTR opname; |
| 3453 | { |
| 3454 | int basereg; |
| 3455 | long lituse; |
| 3456 | expressionS newtok[3]; |
| 3457 | struct alpha_insn insn; |
| 3458 | |
| 3459 | if (ntok == 2) |
| 3460 | basereg = (tok[1].X_op == O_constant ? AXP_REG_ZERO : alpha_gp_register); |
| 3461 | else |
| 3462 | basereg = tok[2].X_add_number; |
| 3463 | |
| 3464 | if (tok[1].X_op != O_constant || !range_signed_16 (tok[1].X_add_number)) |
| 3465 | { |
| 3466 | if (alpha_noat_on) |
| 3467 | as_bad (_("macro requires $at register while noat in effect")); |
| 3468 | |
| 3469 | lituse = load_expression (AXP_REG_AT, &tok[1], &basereg, &newtok[1]); |
| 3470 | } |
| 3471 | else |
| 3472 | { |
| 3473 | newtok[1] = tok[1]; |
| 3474 | lituse = 0; |
| 3475 | } |
| 3476 | |
| 3477 | newtok[0] = tok[0]; |
| 3478 | set_tok_preg (newtok[2], basereg); |
| 3479 | |
| 3480 | assemble_tokens_to_insn ((const char *) opname, newtok, 3, &insn); |
| 3481 | |
| 3482 | if (lituse) |
| 3483 | { |
| 3484 | assert (insn.nfixups < MAX_INSN_FIXUPS); |
| 3485 | insn.fixups[insn.nfixups].reloc = DUMMY_RELOC_LITUSE_BASE; |
| 3486 | insn.fixups[insn.nfixups].exp.X_op = O_absent; |
| 3487 | insn.nfixups++; |
| 3488 | insn.sequence = lituse; |
| 3489 | } |
| 3490 | |
| 3491 | emit_insn (&insn); |
| 3492 | } |
| 3493 | |
| 3494 | /* Load a half-word or byte as an unsigned value. */ |
| 3495 | |
| 3496 | static void |
| 3497 | emit_ldXu (tok, ntok, vlgsize) |
| 3498 | const expressionS *tok; |
| 3499 | int ntok; |
| 3500 | const PTR vlgsize; |
| 3501 | { |
| 3502 | if (alpha_target & AXP_OPCODE_BWX) |
| 3503 | emit_ir_load (tok, ntok, ldXu_op[(long) vlgsize]); |
| 3504 | else |
| 3505 | { |
| 3506 | expressionS newtok[3]; |
| 3507 | struct alpha_insn insn; |
| 3508 | int basereg; |
| 3509 | long lituse; |
| 3510 | |
| 3511 | if (alpha_noat_on) |
| 3512 | as_bad (_("macro requires $at register while noat in effect")); |
| 3513 | |
| 3514 | if (ntok == 2) |
| 3515 | basereg = (tok[1].X_op == O_constant |
| 3516 | ? AXP_REG_ZERO : alpha_gp_register); |
| 3517 | else |
| 3518 | basereg = tok[2].X_add_number; |
| 3519 | |
| 3520 | /* emit "lda $at, exp" */ |
| 3521 | |
| 3522 | lituse = load_expression (AXP_REG_AT, &tok[1], &basereg, NULL); |
| 3523 | |
| 3524 | /* emit "ldq_u targ, 0($at)" */ |
| 3525 | |
| 3526 | newtok[0] = tok[0]; |
| 3527 | set_tok_const (newtok[1], 0); |
| 3528 | set_tok_preg (newtok[2], basereg); |
| 3529 | assemble_tokens_to_insn ("ldq_u", newtok, 3, &insn); |
| 3530 | |
| 3531 | if (lituse) |
| 3532 | { |
| 3533 | assert (insn.nfixups < MAX_INSN_FIXUPS); |
| 3534 | insn.fixups[insn.nfixups].reloc = DUMMY_RELOC_LITUSE_BASE; |
| 3535 | insn.fixups[insn.nfixups].exp.X_op = O_absent; |
| 3536 | insn.nfixups++; |
| 3537 | insn.sequence = lituse; |
| 3538 | } |
| 3539 | |
| 3540 | emit_insn (&insn); |
| 3541 | |
| 3542 | /* emit "extXl targ, $at, targ" */ |
| 3543 | |
| 3544 | set_tok_reg (newtok[1], basereg); |
| 3545 | newtok[2] = newtok[0]; |
| 3546 | assemble_tokens_to_insn (extXl_op[(long) vlgsize], newtok, 3, &insn); |
| 3547 | |
| 3548 | if (lituse) |
| 3549 | { |
| 3550 | assert (insn.nfixups < MAX_INSN_FIXUPS); |
| 3551 | insn.fixups[insn.nfixups].reloc = DUMMY_RELOC_LITUSE_BYTOFF; |
| 3552 | insn.fixups[insn.nfixups].exp.X_op = O_absent; |
| 3553 | insn.nfixups++; |
| 3554 | insn.sequence = lituse; |
| 3555 | } |
| 3556 | |
| 3557 | emit_insn (&insn); |
| 3558 | } |
| 3559 | } |
| 3560 | |
| 3561 | /* Load a half-word or byte as a signed value. */ |
| 3562 | |
| 3563 | static void |
| 3564 | emit_ldX (tok, ntok, vlgsize) |
| 3565 | const expressionS *tok; |
| 3566 | int ntok; |
| 3567 | const PTR vlgsize; |
| 3568 | { |
| 3569 | emit_ldXu (tok, ntok, vlgsize); |
| 3570 | assemble_tokens (sextX_op[(long) vlgsize], tok, 1, 1); |
| 3571 | } |
| 3572 | |
| 3573 | /* Load an integral value from an unaligned address as an unsigned |
| 3574 | value. */ |
| 3575 | |
| 3576 | static void |
| 3577 | emit_uldXu (tok, ntok, vlgsize) |
| 3578 | const expressionS *tok; |
| 3579 | int ntok; |
| 3580 | const PTR vlgsize; |
| 3581 | { |
| 3582 | long lgsize = (long) vlgsize; |
| 3583 | expressionS newtok[3]; |
| 3584 | |
| 3585 | if (alpha_noat_on) |
| 3586 | as_bad (_("macro requires $at register while noat in effect")); |
| 3587 | |
| 3588 | /* emit "lda $at, exp" */ |
| 3589 | |
| 3590 | memcpy (newtok, tok, sizeof (expressionS) * ntok); |
| 3591 | newtok[0].X_add_number = AXP_REG_AT; |
| 3592 | assemble_tokens ("lda", newtok, ntok, 1); |
| 3593 | |
| 3594 | /* emit "ldq_u $t9, 0($at)" */ |
| 3595 | |
| 3596 | set_tok_reg (newtok[0], AXP_REG_T9); |
| 3597 | set_tok_const (newtok[1], 0); |
| 3598 | set_tok_preg (newtok[2], AXP_REG_AT); |
| 3599 | assemble_tokens ("ldq_u", newtok, 3, 1); |
| 3600 | |
| 3601 | /* emit "ldq_u $t10, size-1($at)" */ |
| 3602 | |
| 3603 | set_tok_reg (newtok[0], AXP_REG_T10); |
| 3604 | set_tok_const (newtok[1], (1 << lgsize) - 1); |
| 3605 | assemble_tokens ("ldq_u", newtok, 3, 1); |
| 3606 | |
| 3607 | /* emit "extXl $t9, $at, $t9" */ |
| 3608 | |
| 3609 | set_tok_reg (newtok[0], AXP_REG_T9); |
| 3610 | set_tok_reg (newtok[1], AXP_REG_AT); |
| 3611 | set_tok_reg (newtok[2], AXP_REG_T9); |
| 3612 | assemble_tokens (extXl_op[lgsize], newtok, 3, 1); |
| 3613 | |
| 3614 | /* emit "extXh $t10, $at, $t10" */ |
| 3615 | |
| 3616 | set_tok_reg (newtok[0], AXP_REG_T10); |
| 3617 | set_tok_reg (newtok[2], AXP_REG_T10); |
| 3618 | assemble_tokens (extXh_op[lgsize], newtok, 3, 1); |
| 3619 | |
| 3620 | /* emit "or $t9, $t10, targ" */ |
| 3621 | |
| 3622 | set_tok_reg (newtok[0], AXP_REG_T9); |
| 3623 | set_tok_reg (newtok[1], AXP_REG_T10); |
| 3624 | newtok[2] = tok[0]; |
| 3625 | assemble_tokens ("or", newtok, 3, 1); |
| 3626 | } |
| 3627 | |
| 3628 | /* Load an integral value from an unaligned address as a signed value. |
| 3629 | Note that quads should get funneled to the unsigned load since we |
| 3630 | don't have to do the sign extension. */ |
| 3631 | |
| 3632 | static void |
| 3633 | emit_uldX (tok, ntok, vlgsize) |
| 3634 | const expressionS *tok; |
| 3635 | int ntok; |
| 3636 | const PTR vlgsize; |
| 3637 | { |
| 3638 | emit_uldXu (tok, ntok, vlgsize); |
| 3639 | assemble_tokens (sextX_op[(long) vlgsize], tok, 1, 1); |
| 3640 | } |
| 3641 | |
| 3642 | /* Implement the ldil macro. */ |
| 3643 | |
| 3644 | static void |
| 3645 | emit_ldil (tok, ntok, unused) |
| 3646 | const expressionS *tok; |
| 3647 | int ntok; |
| 3648 | const PTR unused ATTRIBUTE_UNUSED; |
| 3649 | { |
| 3650 | expressionS newtok[2]; |
| 3651 | |
| 3652 | memcpy (newtok, tok, sizeof (newtok)); |
| 3653 | newtok[1].X_add_number = sign_extend_32 (tok[1].X_add_number); |
| 3654 | |
| 3655 | assemble_tokens ("lda", newtok, ntok, 1); |
| 3656 | } |
| 3657 | |
| 3658 | /* Store a half-word or byte. */ |
| 3659 | |
| 3660 | static void |
| 3661 | emit_stX (tok, ntok, vlgsize) |
| 3662 | const expressionS *tok; |
| 3663 | int ntok; |
| 3664 | const PTR vlgsize; |
| 3665 | { |
| 3666 | int lgsize = (int) (long) vlgsize; |
| 3667 | |
| 3668 | if (alpha_target & AXP_OPCODE_BWX) |
| 3669 | emit_loadstore (tok, ntok, stX_op[lgsize]); |
| 3670 | else |
| 3671 | { |
| 3672 | expressionS newtok[3]; |
| 3673 | struct alpha_insn insn; |
| 3674 | int basereg; |
| 3675 | long lituse; |
| 3676 | |
| 3677 | if (alpha_noat_on) |
| 3678 | as_bad (_("macro requires $at register while noat in effect")); |
| 3679 | |
| 3680 | if (ntok == 2) |
| 3681 | basereg = (tok[1].X_op == O_constant |
| 3682 | ? AXP_REG_ZERO : alpha_gp_register); |
| 3683 | else |
| 3684 | basereg = tok[2].X_add_number; |
| 3685 | |
| 3686 | /* emit "lda $at, exp" */ |
| 3687 | |
| 3688 | lituse = load_expression (AXP_REG_AT, &tok[1], &basereg, NULL); |
| 3689 | |
| 3690 | /* emit "ldq_u $t9, 0($at)" */ |
| 3691 | |
| 3692 | set_tok_reg (newtok[0], AXP_REG_T9); |
| 3693 | set_tok_const (newtok[1], 0); |
| 3694 | set_tok_preg (newtok[2], basereg); |
| 3695 | assemble_tokens_to_insn ("ldq_u", newtok, 3, &insn); |
| 3696 | |
| 3697 | if (lituse) |
| 3698 | { |
| 3699 | assert (insn.nfixups < MAX_INSN_FIXUPS); |
| 3700 | insn.fixups[insn.nfixups].reloc = DUMMY_RELOC_LITUSE_BASE; |
| 3701 | insn.fixups[insn.nfixups].exp.X_op = O_absent; |
| 3702 | insn.nfixups++; |
| 3703 | insn.sequence = lituse; |
| 3704 | } |
| 3705 | |
| 3706 | emit_insn (&insn); |
| 3707 | |
| 3708 | /* emit "insXl src, $at, $t10" */ |
| 3709 | |
| 3710 | newtok[0] = tok[0]; |
| 3711 | set_tok_reg (newtok[1], basereg); |
| 3712 | set_tok_reg (newtok[2], AXP_REG_T10); |
| 3713 | assemble_tokens_to_insn (insXl_op[lgsize], newtok, 3, &insn); |
| 3714 | |
| 3715 | if (lituse) |
| 3716 | { |
| 3717 | assert (insn.nfixups < MAX_INSN_FIXUPS); |
| 3718 | insn.fixups[insn.nfixups].reloc = DUMMY_RELOC_LITUSE_BYTOFF; |
| 3719 | insn.fixups[insn.nfixups].exp.X_op = O_absent; |
| 3720 | insn.nfixups++; |
| 3721 | insn.sequence = lituse; |
| 3722 | } |
| 3723 | |
| 3724 | emit_insn (&insn); |
| 3725 | |
| 3726 | /* emit "mskXl $t9, $at, $t9" */ |
| 3727 | |
| 3728 | set_tok_reg (newtok[0], AXP_REG_T9); |
| 3729 | newtok[2] = newtok[0]; |
| 3730 | assemble_tokens_to_insn (mskXl_op[lgsize], newtok, 3, &insn); |
| 3731 | |
| 3732 | if (lituse) |
| 3733 | { |
| 3734 | assert (insn.nfixups < MAX_INSN_FIXUPS); |
| 3735 | insn.fixups[insn.nfixups].reloc = DUMMY_RELOC_LITUSE_BYTOFF; |
| 3736 | insn.fixups[insn.nfixups].exp.X_op = O_absent; |
| 3737 | insn.nfixups++; |
| 3738 | insn.sequence = lituse; |
| 3739 | } |
| 3740 | |
| 3741 | emit_insn (&insn); |
| 3742 | |
| 3743 | /* emit "or $t9, $t10, $t9" */ |
| 3744 | |
| 3745 | set_tok_reg (newtok[1], AXP_REG_T10); |
| 3746 | assemble_tokens ("or", newtok, 3, 1); |
| 3747 | |
| 3748 | /* emit "stq_u $t9, 0($at) */ |
| 3749 | |
| 3750 | set_tok_const(newtok[1], 0); |
| 3751 | set_tok_preg (newtok[2], AXP_REG_AT); |
| 3752 | assemble_tokens_to_insn ("stq_u", newtok, 3, &insn); |
| 3753 | |
| 3754 | if (lituse) |
| 3755 | { |
| 3756 | assert (insn.nfixups < MAX_INSN_FIXUPS); |
| 3757 | insn.fixups[insn.nfixups].reloc = DUMMY_RELOC_LITUSE_BASE; |
| 3758 | insn.fixups[insn.nfixups].exp.X_op = O_absent; |
| 3759 | insn.nfixups++; |
| 3760 | insn.sequence = lituse; |
| 3761 | } |
| 3762 | |
| 3763 | emit_insn (&insn); |
| 3764 | } |
| 3765 | } |
| 3766 | |
| 3767 | /* Store an integer to an unaligned address. */ |
| 3768 | |
| 3769 | static void |
| 3770 | emit_ustX (tok, ntok, vlgsize) |
| 3771 | const expressionS *tok; |
| 3772 | int ntok; |
| 3773 | const PTR vlgsize; |
| 3774 | { |
| 3775 | int lgsize = (int) (long) vlgsize; |
| 3776 | expressionS newtok[3]; |
| 3777 | |
| 3778 | /* emit "lda $at, exp" */ |
| 3779 | |
| 3780 | memcpy (newtok, tok, sizeof (expressionS) * ntok); |
| 3781 | newtok[0].X_add_number = AXP_REG_AT; |
| 3782 | assemble_tokens ("lda", newtok, ntok, 1); |
| 3783 | |
| 3784 | /* emit "ldq_u $9, 0($at)" */ |
| 3785 | |
| 3786 | set_tok_reg (newtok[0], AXP_REG_T9); |
| 3787 | set_tok_const (newtok[1], 0); |
| 3788 | set_tok_preg (newtok[2], AXP_REG_AT); |
| 3789 | assemble_tokens ("ldq_u", newtok, 3, 1); |
| 3790 | |
| 3791 | /* emit "ldq_u $10, size-1($at)" */ |
| 3792 | |
| 3793 | set_tok_reg (newtok[0], AXP_REG_T10); |
| 3794 | set_tok_const (newtok[1], (1 << lgsize) - 1); |
| 3795 | assemble_tokens ("ldq_u", newtok, 3, 1); |
| 3796 | |
| 3797 | /* emit "insXl src, $at, $t11" */ |
| 3798 | |
| 3799 | newtok[0] = tok[0]; |
| 3800 | set_tok_reg (newtok[1], AXP_REG_AT); |
| 3801 | set_tok_reg (newtok[2], AXP_REG_T11); |
| 3802 | assemble_tokens (insXl_op[lgsize], newtok, 3, 1); |
| 3803 | |
| 3804 | /* emit "insXh src, $at, $t12" */ |
| 3805 | |
| 3806 | set_tok_reg (newtok[2], AXP_REG_T12); |
| 3807 | assemble_tokens (insXh_op[lgsize], newtok, 3, 1); |
| 3808 | |
| 3809 | /* emit "mskXl $t9, $at, $t9" */ |
| 3810 | |
| 3811 | set_tok_reg (newtok[0], AXP_REG_T9); |
| 3812 | newtok[2] = newtok[0]; |
| 3813 | assemble_tokens (mskXl_op[lgsize], newtok, 3, 1); |
| 3814 | |
| 3815 | /* emit "mskXh $t10, $at, $t10" */ |
| 3816 | |
| 3817 | set_tok_reg (newtok[0], AXP_REG_T10); |
| 3818 | newtok[2] = newtok[0]; |
| 3819 | assemble_tokens (mskXh_op[lgsize], newtok, 3, 1); |
| 3820 | |
| 3821 | /* emit "or $t9, $t11, $t9" */ |
| 3822 | |
| 3823 | set_tok_reg (newtok[0], AXP_REG_T9); |
| 3824 | set_tok_reg (newtok[1], AXP_REG_T11); |
| 3825 | newtok[2] = newtok[0]; |
| 3826 | assemble_tokens ("or", newtok, 3, 1); |
| 3827 | |
| 3828 | /* emit "or $t10, $t12, $t10" */ |
| 3829 | |
| 3830 | set_tok_reg (newtok[0], AXP_REG_T10); |
| 3831 | set_tok_reg (newtok[1], AXP_REG_T12); |
| 3832 | newtok[2] = newtok[0]; |
| 3833 | assemble_tokens ("or", newtok, 3, 1); |
| 3834 | |
| 3835 | /* emit "stq_u $t9, 0($at)" */ |
| 3836 | |
| 3837 | set_tok_reg (newtok[0], AXP_REG_T9); |
| 3838 | set_tok_const (newtok[1], 0); |
| 3839 | set_tok_preg (newtok[2], AXP_REG_AT); |
| 3840 | assemble_tokens ("stq_u", newtok, 3, 1); |
| 3841 | |
| 3842 | /* emit "stq_u $t10, size-1($at)" */ |
| 3843 | |
| 3844 | set_tok_reg (newtok[0], AXP_REG_T10); |
| 3845 | set_tok_const (newtok[1], (1 << lgsize) - 1); |
| 3846 | assemble_tokens ("stq_u", newtok, 3, 1); |
| 3847 | } |
| 3848 | |
| 3849 | /* Sign extend a half-word or byte. The 32-bit sign extend is |
| 3850 | implemented as "addl $31, $r, $t" in the opcode table. */ |
| 3851 | |
| 3852 | static void |
| 3853 | emit_sextX (tok, ntok, vlgsize) |
| 3854 | const expressionS *tok; |
| 3855 | int ntok; |
| 3856 | const PTR vlgsize; |
| 3857 | { |
| 3858 | long lgsize = (long) vlgsize; |
| 3859 | |
| 3860 | if (alpha_target & AXP_OPCODE_BWX) |
| 3861 | assemble_tokens (sextX_op[lgsize], tok, ntok, 0); |
| 3862 | else |
| 3863 | { |
| 3864 | int bitshift = 64 - 8 * (1 << lgsize); |
| 3865 | expressionS newtok[3]; |
| 3866 | |
| 3867 | /* emit "sll src,bits,dst" */ |
| 3868 | |
| 3869 | newtok[0] = tok[0]; |
| 3870 | set_tok_const (newtok[1], bitshift); |
| 3871 | newtok[2] = tok[ntok - 1]; |
| 3872 | assemble_tokens ("sll", newtok, 3, 1); |
| 3873 | |
| 3874 | /* emit "sra dst,bits,dst" */ |
| 3875 | |
| 3876 | newtok[0] = newtok[2]; |
| 3877 | assemble_tokens ("sra", newtok, 3, 1); |
| 3878 | } |
| 3879 | } |
| 3880 | |
| 3881 | /* Implement the division and modulus macros. */ |
| 3882 | |
| 3883 | #ifdef OBJ_EVAX |
| 3884 | |
| 3885 | /* Make register usage like in normal procedure call. |
| 3886 | Don't clobber PV and RA. */ |
| 3887 | |
| 3888 | static void |
| 3889 | emit_division (tok, ntok, symname) |
| 3890 | const expressionS *tok; |
| 3891 | int ntok; |
| 3892 | const PTR symname; |
| 3893 | { |
| 3894 | /* DIVISION and MODULUS. Yech. |
| 3895 | |
| 3896 | Convert |
| 3897 | OP x,y,result |
| 3898 | to |
| 3899 | mov x,R16 # if x != R16 |
| 3900 | mov y,R17 # if y != R17 |
| 3901 | lda AT,__OP |
| 3902 | jsr AT,(AT),0 |
| 3903 | mov R0,result |
| 3904 | |
| 3905 | with appropriate optimizations if R0,R16,R17 are the registers |
| 3906 | specified by the compiler. */ |
| 3907 | |
| 3908 | int xr, yr, rr; |
| 3909 | symbolS *sym; |
| 3910 | expressionS newtok[3]; |
| 3911 | |
| 3912 | xr = regno (tok[0].X_add_number); |
| 3913 | yr = regno (tok[1].X_add_number); |
| 3914 | |
| 3915 | if (ntok < 3) |
| 3916 | rr = xr; |
| 3917 | else |
| 3918 | rr = regno (tok[2].X_add_number); |
| 3919 | |
| 3920 | /* Move the operands into the right place. */ |
| 3921 | if (yr == AXP_REG_R16 && xr == AXP_REG_R17) |
| 3922 | { |
| 3923 | /* They are in exactly the wrong order -- swap through AT. */ |
| 3924 | |
| 3925 | if (alpha_noat_on) |
| 3926 | as_bad (_("macro requires $at register while noat in effect")); |
| 3927 | |
| 3928 | set_tok_reg (newtok[0], AXP_REG_R16); |
| 3929 | set_tok_reg (newtok[1], AXP_REG_AT); |
| 3930 | assemble_tokens ("mov", newtok, 2, 1); |
| 3931 | |
| 3932 | set_tok_reg (newtok[0], AXP_REG_R17); |
| 3933 | set_tok_reg (newtok[1], AXP_REG_R16); |
| 3934 | assemble_tokens ("mov", newtok, 2, 1); |
| 3935 | |
| 3936 | set_tok_reg (newtok[0], AXP_REG_AT); |
| 3937 | set_tok_reg (newtok[1], AXP_REG_R17); |
| 3938 | assemble_tokens ("mov", newtok, 2, 1); |
| 3939 | } |
| 3940 | else |
| 3941 | { |
| 3942 | if (yr == AXP_REG_R16) |
| 3943 | { |
| 3944 | set_tok_reg (newtok[0], AXP_REG_R16); |
| 3945 | set_tok_reg (newtok[1], AXP_REG_R17); |
| 3946 | assemble_tokens ("mov", newtok, 2, 1); |
| 3947 | } |
| 3948 | |
| 3949 | if (xr != AXP_REG_R16) |
| 3950 | { |
| 3951 | set_tok_reg (newtok[0], xr); |
| 3952 | set_tok_reg (newtok[1], AXP_REG_R16); |
| 3953 | assemble_tokens ("mov", newtok, 2, 1); |
| 3954 | } |
| 3955 | |
| 3956 | if (yr != AXP_REG_R16 && yr != AXP_REG_R17) |
| 3957 | { |
| 3958 | set_tok_reg (newtok[0], yr); |
| 3959 | set_tok_reg (newtok[1], AXP_REG_R17); |
| 3960 | assemble_tokens ("mov", newtok, 2, 1); |
| 3961 | } |
| 3962 | } |
| 3963 | |
| 3964 | sym = symbol_find_or_make ((const char *) symname); |
| 3965 | |
| 3966 | set_tok_reg (newtok[0], AXP_REG_AT); |
| 3967 | set_tok_sym (newtok[1], sym, 0); |
| 3968 | assemble_tokens ("lda", newtok, 2, 1); |
| 3969 | |
| 3970 | /* Call the division routine. */ |
| 3971 | set_tok_reg (newtok[0], AXP_REG_AT); |
| 3972 | set_tok_cpreg (newtok[1], AXP_REG_AT); |
| 3973 | set_tok_const (newtok[2], 0); |
| 3974 | assemble_tokens ("jsr", newtok, 3, 1); |
| 3975 | |
| 3976 | /* Move the result to the right place. */ |
| 3977 | if (rr != AXP_REG_R0) |
| 3978 | { |
| 3979 | set_tok_reg (newtok[0], AXP_REG_R0); |
| 3980 | set_tok_reg (newtok[1], rr); |
| 3981 | assemble_tokens ("mov", newtok, 2, 1); |
| 3982 | } |
| 3983 | } |
| 3984 | |
| 3985 | #else /* !OBJ_EVAX */ |
| 3986 | |
| 3987 | static void |
| 3988 | emit_division (tok, ntok, symname) |
| 3989 | const expressionS *tok; |
| 3990 | int ntok; |
| 3991 | const PTR symname; |
| 3992 | { |
| 3993 | /* DIVISION and MODULUS. Yech. |
| 3994 | Convert |
| 3995 | OP x,y,result |
| 3996 | to |
| 3997 | lda pv,__OP |
| 3998 | mov x,t10 |
| 3999 | mov y,t11 |
| 4000 | jsr t9,(pv),__OP |
| 4001 | mov t12,result |
| 4002 | |
| 4003 | with appropriate optimizations if t10,t11,t12 are the registers |
| 4004 | specified by the compiler. */ |
| 4005 | |
| 4006 | int xr, yr, rr; |
| 4007 | symbolS *sym; |
| 4008 | expressionS newtok[3]; |
| 4009 | |
| 4010 | xr = regno (tok[0].X_add_number); |
| 4011 | yr = regno (tok[1].X_add_number); |
| 4012 | |
| 4013 | if (ntok < 3) |
| 4014 | rr = xr; |
| 4015 | else |
| 4016 | rr = regno (tok[2].X_add_number); |
| 4017 | |
| 4018 | sym = symbol_find_or_make ((const char *) symname); |
| 4019 | |
| 4020 | /* Move the operands into the right place. */ |
| 4021 | if (yr == AXP_REG_T10 && xr == AXP_REG_T11) |
| 4022 | { |
| 4023 | /* They are in exactly the wrong order -- swap through AT. */ |
| 4024 | if (alpha_noat_on) |
| 4025 | as_bad (_("macro requires $at register while noat in effect")); |
| 4026 | |
| 4027 | set_tok_reg (newtok[0], AXP_REG_T10); |
| 4028 | set_tok_reg (newtok[1], AXP_REG_AT); |
| 4029 | assemble_tokens ("mov", newtok, 2, 1); |
| 4030 | |
| 4031 | set_tok_reg (newtok[0], AXP_REG_T11); |
| 4032 | set_tok_reg (newtok[1], AXP_REG_T10); |
| 4033 | assemble_tokens ("mov", newtok, 2, 1); |
| 4034 | |
| 4035 | set_tok_reg (newtok[0], AXP_REG_AT); |
| 4036 | set_tok_reg (newtok[1], AXP_REG_T11); |
| 4037 | assemble_tokens ("mov", newtok, 2, 1); |
| 4038 | } |
| 4039 | else |
| 4040 | { |
| 4041 | if (yr == AXP_REG_T10) |
| 4042 | { |
| 4043 | set_tok_reg (newtok[0], AXP_REG_T10); |
| 4044 | set_tok_reg (newtok[1], AXP_REG_T11); |
| 4045 | assemble_tokens ("mov", newtok, 2, 1); |
| 4046 | } |
| 4047 | |
| 4048 | if (xr != AXP_REG_T10) |
| 4049 | { |
| 4050 | set_tok_reg (newtok[0], xr); |
| 4051 | set_tok_reg (newtok[1], AXP_REG_T10); |
| 4052 | assemble_tokens ("mov", newtok, 2, 1); |
| 4053 | } |
| 4054 | |
| 4055 | if (yr != AXP_REG_T10 && yr != AXP_REG_T11) |
| 4056 | { |
| 4057 | set_tok_reg (newtok[0], yr); |
| 4058 | set_tok_reg (newtok[1], AXP_REG_T11); |
| 4059 | assemble_tokens ("mov", newtok, 2, 1); |
| 4060 | } |
| 4061 | } |
| 4062 | |
| 4063 | /* Call the division routine. */ |
| 4064 | set_tok_reg (newtok[0], AXP_REG_T9); |
| 4065 | set_tok_sym (newtok[1], sym, 0); |
| 4066 | assemble_tokens ("jsr", newtok, 2, 1); |
| 4067 | |
| 4068 | /* Reload the GP register. */ |
| 4069 | #ifdef OBJ_AOUT |
| 4070 | FIXME |
| 4071 | #endif |
| 4072 | #if defined(OBJ_ECOFF) || defined(OBJ_ELF) |
| 4073 | set_tok_reg (newtok[0], alpha_gp_register); |
| 4074 | set_tok_const (newtok[1], 0); |
| 4075 | set_tok_preg (newtok[2], AXP_REG_T9); |
| 4076 | assemble_tokens ("ldgp", newtok, 3, 1); |
| 4077 | #endif |
| 4078 | |
| 4079 | /* Move the result to the right place. */ |
| 4080 | if (rr != AXP_REG_T12) |
| 4081 | { |
| 4082 | set_tok_reg (newtok[0], AXP_REG_T12); |
| 4083 | set_tok_reg (newtok[1], rr); |
| 4084 | assemble_tokens ("mov", newtok, 2, 1); |
| 4085 | } |
| 4086 | } |
| 4087 | |
| 4088 | #endif /* !OBJ_EVAX */ |
| 4089 | |
| 4090 | /* The jsr and jmp macros differ from their instruction counterparts |
| 4091 | in that they can load the target address and default most |
| 4092 | everything. */ |
| 4093 | |
| 4094 | static void |
| 4095 | emit_jsrjmp (tok, ntok, vopname) |
| 4096 | const expressionS *tok; |
| 4097 | int ntok; |
| 4098 | const PTR vopname; |
| 4099 | { |
| 4100 | const char *opname = (const char *) vopname; |
| 4101 | struct alpha_insn insn; |
| 4102 | expressionS newtok[3]; |
| 4103 | int r, tokidx = 0; |
| 4104 | long lituse = 0; |
| 4105 | |
| 4106 | if (tokidx < ntok && tok[tokidx].X_op == O_register) |
| 4107 | r = regno (tok[tokidx++].X_add_number); |
| 4108 | else |
| 4109 | r = strcmp (opname, "jmp") == 0 ? AXP_REG_ZERO : AXP_REG_RA; |
| 4110 | |
| 4111 | set_tok_reg (newtok[0], r); |
| 4112 | |
| 4113 | if (tokidx < ntok && |
| 4114 | (tok[tokidx].X_op == O_pregister || tok[tokidx].X_op == O_cpregister)) |
| 4115 | r = regno (tok[tokidx++].X_add_number); |
| 4116 | #ifdef OBJ_EVAX |
| 4117 | /* keep register if jsr $n.<sym> */ |
| 4118 | #else |
| 4119 | else |
| 4120 | { |
| 4121 | int basereg = alpha_gp_register; |
| 4122 | lituse = load_expression (r = AXP_REG_PV, &tok[tokidx], &basereg, NULL); |
| 4123 | } |
| 4124 | #endif |
| 4125 | |
| 4126 | set_tok_cpreg (newtok[1], r); |
| 4127 | |
| 4128 | #ifdef OBJ_EVAX |
| 4129 | /* FIXME: Add hint relocs to BFD for evax. */ |
| 4130 | #else |
| 4131 | if (tokidx < ntok) |
| 4132 | newtok[2] = tok[tokidx]; |
| 4133 | else |
| 4134 | #endif |
| 4135 | set_tok_const (newtok[2], 0); |
| 4136 | |
| 4137 | assemble_tokens_to_insn (opname, newtok, 3, &insn); |
| 4138 | |
| 4139 | if (lituse) |
| 4140 | { |
| 4141 | assert (insn.nfixups < MAX_INSN_FIXUPS); |
| 4142 | insn.fixups[insn.nfixups].reloc = DUMMY_RELOC_LITUSE_JSR; |
| 4143 | insn.fixups[insn.nfixups].exp.X_op = O_absent; |
| 4144 | insn.nfixups++; |
| 4145 | insn.sequence = lituse; |
| 4146 | } |
| 4147 | |
| 4148 | emit_insn (&insn); |
| 4149 | } |
| 4150 | |
| 4151 | /* The ret and jcr instructions differ from their instruction |
| 4152 | counterparts in that everything can be defaulted. */ |
| 4153 | |
| 4154 | static void |
| 4155 | emit_retjcr (tok, ntok, vopname) |
| 4156 | const expressionS *tok; |
| 4157 | int ntok; |
| 4158 | const PTR vopname; |
| 4159 | { |
| 4160 | const char *opname = (const char *) vopname; |
| 4161 | expressionS newtok[3]; |
| 4162 | int r, tokidx = 0; |
| 4163 | |
| 4164 | if (tokidx < ntok && tok[tokidx].X_op == O_register) |
| 4165 | r = regno (tok[tokidx++].X_add_number); |
| 4166 | else |
| 4167 | r = AXP_REG_ZERO; |
| 4168 | |
| 4169 | set_tok_reg (newtok[0], r); |
| 4170 | |
| 4171 | if (tokidx < ntok && |
| 4172 | (tok[tokidx].X_op == O_pregister || tok[tokidx].X_op == O_cpregister)) |
| 4173 | r = regno (tok[tokidx++].X_add_number); |
| 4174 | else |
| 4175 | r = AXP_REG_RA; |
| 4176 | |
| 4177 | set_tok_cpreg (newtok[1], r); |
| 4178 | |
| 4179 | if (tokidx < ntok) |
| 4180 | newtok[2] = tok[tokidx]; |
| 4181 | else |
| 4182 | set_tok_const (newtok[2], strcmp (opname, "ret") == 0); |
| 4183 | |
| 4184 | assemble_tokens (opname, newtok, 3, 0); |
| 4185 | } |
| 4186 | \f |
| 4187 | /* Assembler directives. */ |
| 4188 | |
| 4189 | /* Handle the .text pseudo-op. This is like the usual one, but it |
| 4190 | clears alpha_insn_label and restores auto alignment. */ |
| 4191 | |
| 4192 | static void |
| 4193 | s_alpha_text (i) |
| 4194 | int i; |
| 4195 | |
| 4196 | { |
| 4197 | #ifdef OBJ_ELF |
| 4198 | obj_elf_text (i); |
| 4199 | #else |
| 4200 | s_text (i); |
| 4201 | #endif |
| 4202 | alpha_insn_label = NULL; |
| 4203 | alpha_auto_align_on = 1; |
| 4204 | alpha_current_align = 0; |
| 4205 | } |
| 4206 | |
| 4207 | /* Handle the .data pseudo-op. This is like the usual one, but it |
| 4208 | clears alpha_insn_label and restores auto alignment. */ |
| 4209 | |
| 4210 | static void |
| 4211 | s_alpha_data (i) |
| 4212 | int i; |
| 4213 | { |
| 4214 | #ifdef OBJ_ELF |
| 4215 | obj_elf_data (i); |
| 4216 | #else |
| 4217 | s_data (i); |
| 4218 | #endif |
| 4219 | alpha_insn_label = NULL; |
| 4220 | alpha_auto_align_on = 1; |
| 4221 | alpha_current_align = 0; |
| 4222 | } |
| 4223 | |
| 4224 | #if defined (OBJ_ECOFF) || defined (OBJ_EVAX) |
| 4225 | |
| 4226 | /* Handle the OSF/1 and openVMS .comm pseudo quirks. |
| 4227 | openVMS constructs a section for every common symbol. */ |
| 4228 | |
| 4229 | static void |
| 4230 | s_alpha_comm (ignore) |
| 4231 | int ignore ATTRIBUTE_UNUSED; |
| 4232 | { |
| 4233 | register char *name; |
| 4234 | register char c; |
| 4235 | register char *p; |
| 4236 | offsetT temp; |
| 4237 | register symbolS *symbolP; |
| 4238 | |
| 4239 | #ifdef OBJ_EVAX |
| 4240 | segT current_section = now_seg; |
| 4241 | int current_subsec = now_subseg; |
| 4242 | segT new_seg; |
| 4243 | #endif |
| 4244 | |
| 4245 | name = input_line_pointer; |
| 4246 | c = get_symbol_end (); |
| 4247 | |
| 4248 | /* just after name is now '\0' */ |
| 4249 | p = input_line_pointer; |
| 4250 | *p = c; |
| 4251 | |
| 4252 | SKIP_WHITESPACE (); |
| 4253 | |
| 4254 | /* Alpha OSF/1 compiler doesn't provide the comma, gcc does. */ |
| 4255 | if (*input_line_pointer == ',') |
| 4256 | { |
| 4257 | input_line_pointer++; |
| 4258 | SKIP_WHITESPACE (); |
| 4259 | } |
| 4260 | if ((temp = get_absolute_expression ()) < 0) |
| 4261 | { |
| 4262 | as_warn (_(".COMMon length (%ld.) <0! Ignored."), (long) temp); |
| 4263 | ignore_rest_of_line (); |
| 4264 | return; |
| 4265 | } |
| 4266 | |
| 4267 | *p = 0; |
| 4268 | symbolP = symbol_find_or_make (name); |
| 4269 | |
| 4270 | #ifdef OBJ_EVAX |
| 4271 | /* Make a section for the common symbol. */ |
| 4272 | new_seg = subseg_new (xstrdup (name), 0); |
| 4273 | #endif |
| 4274 | |
| 4275 | *p = c; |
| 4276 | |
| 4277 | #ifdef OBJ_EVAX |
| 4278 | /* alignment might follow */ |
| 4279 | if (*input_line_pointer == ',') |
| 4280 | { |
| 4281 | offsetT align; |
| 4282 | |
| 4283 | input_line_pointer++; |
| 4284 | align = get_absolute_expression (); |
| 4285 | bfd_set_section_alignment (stdoutput, new_seg, align); |
| 4286 | } |
| 4287 | #endif |
| 4288 | |
| 4289 | if (S_IS_DEFINED (symbolP) && ! S_IS_COMMON (symbolP)) |
| 4290 | { |
| 4291 | as_bad (_("Ignoring attempt to re-define symbol")); |
| 4292 | ignore_rest_of_line (); |
| 4293 | return; |
| 4294 | } |
| 4295 | |
| 4296 | #ifdef OBJ_EVAX |
| 4297 | if (bfd_section_size (stdoutput, new_seg) > 0) |
| 4298 | { |
| 4299 | if (bfd_section_size (stdoutput, new_seg) != temp) |
| 4300 | as_bad (_("Length of .comm \"%s\" is already %ld. Not changed to %ld."), |
| 4301 | S_GET_NAME (symbolP), |
| 4302 | (long) bfd_section_size (stdoutput, new_seg), |
| 4303 | (long) temp); |
| 4304 | } |
| 4305 | #else |
| 4306 | if (S_GET_VALUE (symbolP)) |
| 4307 | { |
| 4308 | if (S_GET_VALUE (symbolP) != (valueT) temp) |
| 4309 | as_bad (_("Length of .comm \"%s\" is already %ld. Not changed to %ld."), |
| 4310 | S_GET_NAME (symbolP), |
| 4311 | (long) S_GET_VALUE (symbolP), |
| 4312 | (long) temp); |
| 4313 | } |
| 4314 | #endif |
| 4315 | else |
| 4316 | { |
| 4317 | #ifdef OBJ_EVAX |
| 4318 | subseg_set (new_seg, 0); |
| 4319 | p = frag_more (temp); |
| 4320 | new_seg->flags |= SEC_IS_COMMON; |
| 4321 | if (! S_IS_DEFINED (symbolP)) |
| 4322 | S_SET_SEGMENT (symbolP, new_seg); |
| 4323 | #else |
| 4324 | S_SET_VALUE (symbolP, (valueT) temp); |
| 4325 | #endif |
| 4326 | S_SET_EXTERNAL (symbolP); |
| 4327 | } |
| 4328 | |
| 4329 | #ifdef OBJ_EVAX |
| 4330 | subseg_set (current_section, current_subsec); |
| 4331 | #endif |
| 4332 | |
| 4333 | know (symbol_get_frag (symbolP) == &zero_address_frag); |
| 4334 | |
| 4335 | demand_empty_rest_of_line (); |
| 4336 | } |
| 4337 | |
| 4338 | #endif /* ! OBJ_ELF */ |
| 4339 | |
| 4340 | #ifdef OBJ_ECOFF |
| 4341 | |
| 4342 | /* Handle the .rdata pseudo-op. This is like the usual one, but it |
| 4343 | clears alpha_insn_label and restores auto alignment. */ |
| 4344 | |
| 4345 | static void |
| 4346 | s_alpha_rdata (ignore) |
| 4347 | int ignore ATTRIBUTE_UNUSED; |
| 4348 | { |
| 4349 | int temp; |
| 4350 | |
| 4351 | temp = get_absolute_expression (); |
| 4352 | subseg_new (".rdata", 0); |
| 4353 | demand_empty_rest_of_line (); |
| 4354 | alpha_insn_label = NULL; |
| 4355 | alpha_auto_align_on = 1; |
| 4356 | alpha_current_align = 0; |
| 4357 | } |
| 4358 | |
| 4359 | #endif |
| 4360 | |
| 4361 | #ifdef OBJ_ECOFF |
| 4362 | |
| 4363 | /* Handle the .sdata pseudo-op. This is like the usual one, but it |
| 4364 | clears alpha_insn_label and restores auto alignment. */ |
| 4365 | |
| 4366 | static void |
| 4367 | s_alpha_sdata (ignore) |
| 4368 | int ignore ATTRIBUTE_UNUSED; |
| 4369 | { |
| 4370 | int temp; |
| 4371 | |
| 4372 | temp = get_absolute_expression (); |
| 4373 | subseg_new (".sdata", 0); |
| 4374 | demand_empty_rest_of_line (); |
| 4375 | alpha_insn_label = NULL; |
| 4376 | alpha_auto_align_on = 1; |
| 4377 | alpha_current_align = 0; |
| 4378 | } |
| 4379 | #endif |
| 4380 | |
| 4381 | #ifdef OBJ_ELF |
| 4382 | struct alpha_elf_frame_data |
| 4383 | { |
| 4384 | symbolS *func_sym; |
| 4385 | symbolS *func_end_sym; |
| 4386 | symbolS *prologue_sym; |
| 4387 | unsigned int mask; |
| 4388 | unsigned int fmask; |
| 4389 | int fp_regno; |
| 4390 | int ra_regno; |
| 4391 | offsetT frame_size; |
| 4392 | offsetT mask_offset; |
| 4393 | offsetT fmask_offset; |
| 4394 | |
| 4395 | struct alpha_elf_frame_data *next; |
| 4396 | }; |
| 4397 | |
| 4398 | static struct alpha_elf_frame_data *all_frame_data; |
| 4399 | static struct alpha_elf_frame_data **plast_frame_data = &all_frame_data; |
| 4400 | static struct alpha_elf_frame_data *cur_frame_data; |
| 4401 | |
| 4402 | /* Handle the .section pseudo-op. This is like the usual one, but it |
| 4403 | clears alpha_insn_label and restores auto alignment. */ |
| 4404 | |
| 4405 | static void |
| 4406 | s_alpha_section (ignore) |
| 4407 | int ignore ATTRIBUTE_UNUSED; |
| 4408 | { |
| 4409 | obj_elf_section (ignore); |
| 4410 | |
| 4411 | alpha_insn_label = NULL; |
| 4412 | alpha_auto_align_on = 1; |
| 4413 | alpha_current_align = 0; |
| 4414 | } |
| 4415 | |
| 4416 | static void |
| 4417 | s_alpha_ent (dummy) |
| 4418 | int dummy ATTRIBUTE_UNUSED; |
| 4419 | { |
| 4420 | if (ECOFF_DEBUGGING) |
| 4421 | ecoff_directive_ent (0); |
| 4422 | else |
| 4423 | { |
| 4424 | char *name, name_end; |
| 4425 | name = input_line_pointer; |
| 4426 | name_end = get_symbol_end (); |
| 4427 | |
| 4428 | if (! is_name_beginner (*name)) |
| 4429 | { |
| 4430 | as_warn (_(".ent directive has no name")); |
| 4431 | *input_line_pointer = name_end; |
| 4432 | } |
| 4433 | else |
| 4434 | { |
| 4435 | symbolS *sym; |
| 4436 | |
| 4437 | if (cur_frame_data) |
| 4438 | as_warn (_("nested .ent directives")); |
| 4439 | |
| 4440 | sym = symbol_find_or_make (name); |
| 4441 | symbol_get_bfdsym (sym)->flags |= BSF_FUNCTION; |
| 4442 | |
| 4443 | cur_frame_data = calloc (1, sizeof (*cur_frame_data)); |
| 4444 | cur_frame_data->func_sym = sym; |
| 4445 | |
| 4446 | /* Provide sensible defaults. */ |
| 4447 | cur_frame_data->fp_regno = 30; /* sp */ |
| 4448 | cur_frame_data->ra_regno = 26; /* ra */ |
| 4449 | |
| 4450 | *plast_frame_data = cur_frame_data; |
| 4451 | plast_frame_data = &cur_frame_data->next; |
| 4452 | |
| 4453 | /* The .ent directive is sometimes followed by a number. Not sure |
| 4454 | what it really means, but ignore it. */ |
| 4455 | *input_line_pointer = name_end; |
| 4456 | SKIP_WHITESPACE (); |
| 4457 | if (*input_line_pointer == ',') |
| 4458 | { |
| 4459 | input_line_pointer++; |
| 4460 | SKIP_WHITESPACE (); |
| 4461 | } |
| 4462 | if (ISDIGIT (*input_line_pointer) || *input_line_pointer == '-') |
| 4463 | (void) get_absolute_expression (); |
| 4464 | } |
| 4465 | demand_empty_rest_of_line (); |
| 4466 | } |
| 4467 | } |
| 4468 | |
| 4469 | static void |
| 4470 | s_alpha_end (dummy) |
| 4471 | int dummy ATTRIBUTE_UNUSED; |
| 4472 | { |
| 4473 | if (ECOFF_DEBUGGING) |
| 4474 | ecoff_directive_end (0); |
| 4475 | else |
| 4476 | { |
| 4477 | char *name, name_end; |
| 4478 | name = input_line_pointer; |
| 4479 | name_end = get_symbol_end (); |
| 4480 | |
| 4481 | if (! is_name_beginner (*name)) |
| 4482 | { |
| 4483 | as_warn (_(".end directive has no name")); |
| 4484 | *input_line_pointer = name_end; |
| 4485 | } |
| 4486 | else |
| 4487 | { |
| 4488 | symbolS *sym; |
| 4489 | |
| 4490 | sym = symbol_find (name); |
| 4491 | if (!cur_frame_data) |
| 4492 | as_warn (_(".end directive without matching .ent")); |
| 4493 | else if (sym != cur_frame_data->func_sym) |
| 4494 | as_warn (_(".end directive names different symbol than .ent")); |
| 4495 | |
| 4496 | /* Create an expression to calculate the size of the function. */ |
| 4497 | if (sym) |
| 4498 | { |
| 4499 | OBJ_SYMFIELD_TYPE *obj = symbol_get_obj (sym); |
| 4500 | expressionS *exp = xmalloc (sizeof (expressionS)); |
| 4501 | |
| 4502 | obj->size = exp; |
| 4503 | exp->X_op = O_subtract; |
| 4504 | exp->X_add_symbol = symbol_temp_new_now (); |
| 4505 | exp->X_op_symbol = sym; |
| 4506 | exp->X_add_number = 0; |
| 4507 | |
| 4508 | cur_frame_data->func_end_sym = exp->X_add_symbol; |
| 4509 | } |
| 4510 | |
| 4511 | cur_frame_data = NULL; |
| 4512 | |
| 4513 | *input_line_pointer = name_end; |
| 4514 | } |
| 4515 | demand_empty_rest_of_line (); |
| 4516 | } |
| 4517 | } |
| 4518 | |
| 4519 | static void |
| 4520 | s_alpha_mask (fp) |
| 4521 | int fp; |
| 4522 | { |
| 4523 | if (ECOFF_DEBUGGING) |
| 4524 | { |
| 4525 | if (fp) |
| 4526 | ecoff_directive_fmask (0); |
| 4527 | else |
| 4528 | ecoff_directive_mask (0); |
| 4529 | } |
| 4530 | else |
| 4531 | { |
| 4532 | long val; |
| 4533 | offsetT offset; |
| 4534 | |
| 4535 | if (!cur_frame_data) |
| 4536 | { |
| 4537 | if (fp) |
| 4538 | as_warn (_(".fmask outside of .ent")); |
| 4539 | else |
| 4540 | as_warn (_(".mask outside of .ent")); |
| 4541 | discard_rest_of_line (); |
| 4542 | return; |
| 4543 | } |
| 4544 | |
| 4545 | if (get_absolute_expression_and_terminator (&val) != ',') |
| 4546 | { |
| 4547 | if (fp) |
| 4548 | as_warn (_("bad .fmask directive")); |
| 4549 | else |
| 4550 | as_warn (_("bad .mask directive")); |
| 4551 | --input_line_pointer; |
| 4552 | discard_rest_of_line (); |
| 4553 | return; |
| 4554 | } |
| 4555 | |
| 4556 | offset = get_absolute_expression (); |
| 4557 | demand_empty_rest_of_line (); |
| 4558 | |
| 4559 | if (fp) |
| 4560 | { |
| 4561 | cur_frame_data->fmask = val; |
| 4562 | cur_frame_data->fmask_offset = offset; |
| 4563 | } |
| 4564 | else |
| 4565 | { |
| 4566 | cur_frame_data->mask = val; |
| 4567 | cur_frame_data->mask_offset = offset; |
| 4568 | } |
| 4569 | } |
| 4570 | } |
| 4571 | |
| 4572 | static void |
| 4573 | s_alpha_frame (dummy) |
| 4574 | int dummy ATTRIBUTE_UNUSED; |
| 4575 | { |
| 4576 | if (ECOFF_DEBUGGING) |
| 4577 | ecoff_directive_frame (0); |
| 4578 | else |
| 4579 | { |
| 4580 | long val; |
| 4581 | |
| 4582 | if (!cur_frame_data) |
| 4583 | { |
| 4584 | as_warn (_(".frame outside of .ent")); |
| 4585 | discard_rest_of_line (); |
| 4586 | return; |
| 4587 | } |
| 4588 | |
| 4589 | cur_frame_data->fp_regno = tc_get_register (1); |
| 4590 | |
| 4591 | SKIP_WHITESPACE (); |
| 4592 | if (*input_line_pointer++ != ',' |
| 4593 | || get_absolute_expression_and_terminator (&val) != ',') |
| 4594 | { |
| 4595 | as_warn (_("bad .frame directive")); |
| 4596 | --input_line_pointer; |
| 4597 | discard_rest_of_line (); |
| 4598 | return; |
| 4599 | } |
| 4600 | cur_frame_data->frame_size = val; |
| 4601 | |
| 4602 | cur_frame_data->ra_regno = tc_get_register (0); |
| 4603 | |
| 4604 | /* Next comes the "offset of saved $a0 from $sp". In gcc terms |
| 4605 | this is current_function_pretend_args_size. There's no place |
| 4606 | to put this value, so ignore it. */ |
| 4607 | s_ignore (42); |
| 4608 | } |
| 4609 | } |
| 4610 | |
| 4611 | static void |
| 4612 | s_alpha_prologue (ignore) |
| 4613 | int ignore ATTRIBUTE_UNUSED; |
| 4614 | { |
| 4615 | symbolS *sym; |
| 4616 | int arg; |
| 4617 | |
| 4618 | arg = get_absolute_expression (); |
| 4619 | demand_empty_rest_of_line (); |
| 4620 | |
| 4621 | if (ECOFF_DEBUGGING) |
| 4622 | sym = ecoff_get_cur_proc_sym (); |
| 4623 | else |
| 4624 | sym = cur_frame_data ? cur_frame_data->func_sym : NULL; |
| 4625 | |
| 4626 | if (sym == NULL) |
| 4627 | { |
| 4628 | as_bad (_(".prologue directive without a preceding .ent directive")); |
| 4629 | return; |
| 4630 | } |
| 4631 | |
| 4632 | switch (arg) |
| 4633 | { |
| 4634 | case 0: /* No PV required. */ |
| 4635 | S_SET_OTHER (sym, STO_ALPHA_NOPV |
| 4636 | | (S_GET_OTHER (sym) & ~STO_ALPHA_STD_GPLOAD)); |
| 4637 | break; |
| 4638 | case 1: /* Std GP load. */ |
| 4639 | S_SET_OTHER (sym, STO_ALPHA_STD_GPLOAD |
| 4640 | | (S_GET_OTHER (sym) & ~STO_ALPHA_STD_GPLOAD)); |
| 4641 | break; |
| 4642 | case 2: /* Non-std use of PV. */ |
| 4643 | break; |
| 4644 | |
| 4645 | default: |
| 4646 | as_bad (_("Invalid argument %d to .prologue."), arg); |
| 4647 | break; |
| 4648 | } |
| 4649 | |
| 4650 | if (cur_frame_data) |
| 4651 | cur_frame_data->prologue_sym = symbol_temp_new_now (); |
| 4652 | } |
| 4653 | |
| 4654 | static char *first_file_directive; |
| 4655 | |
| 4656 | static void |
| 4657 | s_alpha_file (ignore) |
| 4658 | int ignore ATTRIBUTE_UNUSED; |
| 4659 | { |
| 4660 | /* Save the first .file directive we see, so that we can change our |
| 4661 | minds about whether ecoff debugging should or shouldn't be enabled. */ |
| 4662 | if (alpha_flag_mdebug < 0 && ! first_file_directive) |
| 4663 | { |
| 4664 | char *start = input_line_pointer; |
| 4665 | size_t len; |
| 4666 | |
| 4667 | discard_rest_of_line (); |
| 4668 | |
| 4669 | len = input_line_pointer - start; |
| 4670 | first_file_directive = xmalloc (len + 1); |
| 4671 | memcpy (first_file_directive, start, len); |
| 4672 | first_file_directive[len] = '\0'; |
| 4673 | |
| 4674 | input_line_pointer = start; |
| 4675 | } |
| 4676 | |
| 4677 | if (ECOFF_DEBUGGING) |
| 4678 | ecoff_directive_file (0); |
| 4679 | else |
| 4680 | dwarf2_directive_file (0); |
| 4681 | } |
| 4682 | |
| 4683 | static void |
| 4684 | s_alpha_loc (ignore) |
| 4685 | int ignore ATTRIBUTE_UNUSED; |
| 4686 | { |
| 4687 | if (ECOFF_DEBUGGING) |
| 4688 | ecoff_directive_loc (0); |
| 4689 | else |
| 4690 | dwarf2_directive_loc (0); |
| 4691 | } |
| 4692 | |
| 4693 | static void |
| 4694 | s_alpha_stab (n) |
| 4695 | int n; |
| 4696 | { |
| 4697 | /* If we've been undecided about mdebug, make up our minds in favour. */ |
| 4698 | if (alpha_flag_mdebug < 0) |
| 4699 | { |
| 4700 | segT sec = subseg_new (".mdebug", 0); |
| 4701 | bfd_set_section_flags (stdoutput, sec, SEC_HAS_CONTENTS | SEC_READONLY); |
| 4702 | bfd_set_section_alignment (stdoutput, sec, 3); |
| 4703 | |
| 4704 | ecoff_read_begin_hook (); |
| 4705 | |
| 4706 | if (first_file_directive) |
| 4707 | { |
| 4708 | char *save_ilp = input_line_pointer; |
| 4709 | input_line_pointer = first_file_directive; |
| 4710 | ecoff_directive_file (0); |
| 4711 | input_line_pointer = save_ilp; |
| 4712 | free (first_file_directive); |
| 4713 | } |
| 4714 | |
| 4715 | alpha_flag_mdebug = 1; |
| 4716 | } |
| 4717 | s_stab (n); |
| 4718 | } |
| 4719 | |
| 4720 | static void |
| 4721 | s_alpha_coff_wrapper (which) |
| 4722 | int which; |
| 4723 | { |
| 4724 | static void (* const fns[]) PARAMS ((int)) = { |
| 4725 | ecoff_directive_begin, |
| 4726 | ecoff_directive_bend, |
| 4727 | ecoff_directive_def, |
| 4728 | ecoff_directive_dim, |
| 4729 | ecoff_directive_endef, |
| 4730 | ecoff_directive_scl, |
| 4731 | ecoff_directive_tag, |
| 4732 | ecoff_directive_val, |
| 4733 | }; |
| 4734 | |
| 4735 | assert (which >= 0 && which < (int) (sizeof (fns)/sizeof (*fns))); |
| 4736 | |
| 4737 | if (ECOFF_DEBUGGING) |
| 4738 | (*fns[which]) (0); |
| 4739 | else |
| 4740 | { |
| 4741 | as_bad (_("ECOFF debugging is disabled.")); |
| 4742 | ignore_rest_of_line (); |
| 4743 | } |
| 4744 | } |
| 4745 | |
| 4746 | /* Called at the end of assembly. Here we emit unwind info for frames |
| 4747 | unless the compiler has done it for us. */ |
| 4748 | |
| 4749 | void |
| 4750 | alpha_elf_md_end (void) |
| 4751 | { |
| 4752 | struct alpha_elf_frame_data *p; |
| 4753 | |
| 4754 | if (cur_frame_data) |
| 4755 | as_warn (_(".ent directive without matching .end")); |
| 4756 | |
| 4757 | /* If someone has generated the unwind info themselves, great. */ |
| 4758 | if (bfd_get_section_by_name (stdoutput, ".eh_frame") != NULL) |
| 4759 | return; |
| 4760 | |
| 4761 | /* Generate .eh_frame data for the unwind directives specified. */ |
| 4762 | for (p = all_frame_data; p ; p = p->next) |
| 4763 | if (p->prologue_sym) |
| 4764 | { |
| 4765 | /* Create a temporary symbol at the same location as our |
| 4766 | function symbol. This prevents problems with globals. */ |
| 4767 | cfi_new_fde (symbol_temp_new (S_GET_SEGMENT (p->func_sym), |
| 4768 | S_GET_VALUE (p->func_sym), |
| 4769 | symbol_get_frag (p->func_sym))); |
| 4770 | |
| 4771 | cfi_set_return_column (p->ra_regno); |
| 4772 | cfi_add_CFA_def_cfa_register (30); |
| 4773 | if (p->fp_regno != 30 || p->mask || p->fmask || p->frame_size) |
| 4774 | { |
| 4775 | unsigned int mask; |
| 4776 | offsetT offset; |
| 4777 | |
| 4778 | cfi_add_advance_loc (p->prologue_sym); |
| 4779 | |
| 4780 | if (p->fp_regno != 30) |
| 4781 | if (p->frame_size != 0) |
| 4782 | cfi_add_CFA_def_cfa (p->fp_regno, p->frame_size); |
| 4783 | else |
| 4784 | cfi_add_CFA_def_cfa_register (p->fp_regno); |
| 4785 | else if (p->frame_size != 0) |
| 4786 | cfi_add_CFA_def_cfa_offset (p->frame_size); |
| 4787 | |
| 4788 | mask = p->mask; |
| 4789 | offset = p->mask_offset; |
| 4790 | |
| 4791 | /* Recall that $26 is special-cased and stored first. */ |
| 4792 | if ((mask >> 26) & 1) |
| 4793 | { |
| 4794 | cfi_add_CFA_offset (26, offset); |
| 4795 | offset += 8; |
| 4796 | mask &= ~(1 << 26); |
| 4797 | } |
| 4798 | while (mask) |
| 4799 | { |
| 4800 | unsigned int i; |
| 4801 | i = mask & -mask; |
| 4802 | mask ^= i; |
| 4803 | i = ffs (i) - 1; |
| 4804 | |
| 4805 | cfi_add_CFA_offset (i, offset); |
| 4806 | offset += 8; |
| 4807 | } |
| 4808 | |
| 4809 | mask = p->fmask; |
| 4810 | offset = p->fmask_offset; |
| 4811 | while (mask) |
| 4812 | { |
| 4813 | unsigned int i; |
| 4814 | i = mask & -mask; |
| 4815 | mask ^= i; |
| 4816 | i = ffs (i) - 1; |
| 4817 | |
| 4818 | cfi_add_CFA_offset (i + 32, offset); |
| 4819 | offset += 8; |
| 4820 | } |
| 4821 | } |
| 4822 | |
| 4823 | cfi_end_fde (p->func_end_sym); |
| 4824 | } |
| 4825 | } |
| 4826 | |
| 4827 | static void |
| 4828 | s_alpha_usepv (int unused ATTRIBUTE_UNUSED) |
| 4829 | { |
| 4830 | char *name, name_end; |
| 4831 | char *which, which_end; |
| 4832 | symbolS *sym; |
| 4833 | int other; |
| 4834 | |
| 4835 | name = input_line_pointer; |
| 4836 | name_end = get_symbol_end (); |
| 4837 | |
| 4838 | if (! is_name_beginner (*name)) |
| 4839 | { |
| 4840 | as_bad (_(".usepv directive has no name")); |
| 4841 | *input_line_pointer = name_end; |
| 4842 | ignore_rest_of_line (); |
| 4843 | return; |
| 4844 | } |
| 4845 | |
| 4846 | sym = symbol_find_or_make (name); |
| 4847 | *input_line_pointer++ = name_end; |
| 4848 | |
| 4849 | if (name_end != ',') |
| 4850 | { |
| 4851 | as_bad (_(".usepv directive has no type")); |
| 4852 | ignore_rest_of_line (); |
| 4853 | return; |
| 4854 | } |
| 4855 | |
| 4856 | SKIP_WHITESPACE (); |
| 4857 | which = input_line_pointer; |
| 4858 | which_end = get_symbol_end (); |
| 4859 | |
| 4860 | if (strcmp (which, "no") == 0) |
| 4861 | other = STO_ALPHA_NOPV; |
| 4862 | else if (strcmp (which, "std") == 0) |
| 4863 | other = STO_ALPHA_STD_GPLOAD; |
| 4864 | else |
| 4865 | { |
| 4866 | as_bad (_("unknown argument for .usepv")); |
| 4867 | other = 0; |
| 4868 | } |
| 4869 | |
| 4870 | *input_line_pointer = which_end; |
| 4871 | demand_empty_rest_of_line (); |
| 4872 | |
| 4873 | S_SET_OTHER (sym, other | (S_GET_OTHER (sym) & ~STO_ALPHA_STD_GPLOAD)); |
| 4874 | } |
| 4875 | #endif /* OBJ_ELF */ |
| 4876 | |
| 4877 | /* Standard calling conventions leaves the CFA at $30 on entry. */ |
| 4878 | |
| 4879 | void |
| 4880 | alpha_cfi_frame_initial_instructions () |
| 4881 | { |
| 4882 | cfi_add_CFA_def_cfa_register (30); |
| 4883 | } |
| 4884 | |
| 4885 | #ifdef OBJ_EVAX |
| 4886 | |
| 4887 | /* Handle the section specific pseudo-op. */ |
| 4888 | |
| 4889 | static void |
| 4890 | s_alpha_section (secid) |
| 4891 | int secid; |
| 4892 | { |
| 4893 | int temp; |
| 4894 | #define EVAX_SECTION_COUNT 5 |
| 4895 | static char *section_name[EVAX_SECTION_COUNT + 1] = |
| 4896 | { "NULL", ".rdata", ".comm", ".link", ".ctors", ".dtors" }; |
| 4897 | |
| 4898 | if ((secid <= 0) || (secid > EVAX_SECTION_COUNT)) |
| 4899 | { |
| 4900 | as_fatal (_("Unknown section directive")); |
| 4901 | demand_empty_rest_of_line (); |
| 4902 | return; |
| 4903 | } |
| 4904 | temp = get_absolute_expression (); |
| 4905 | subseg_new (section_name[secid], 0); |
| 4906 | demand_empty_rest_of_line (); |
| 4907 | alpha_insn_label = NULL; |
| 4908 | alpha_auto_align_on = 1; |
| 4909 | alpha_current_align = 0; |
| 4910 | } |
| 4911 | |
| 4912 | /* Parse .ent directives. */ |
| 4913 | |
| 4914 | static void |
| 4915 | s_alpha_ent (ignore) |
| 4916 | int ignore ATTRIBUTE_UNUSED; |
| 4917 | { |
| 4918 | symbolS *symbol; |
| 4919 | expressionS symexpr; |
| 4920 | |
| 4921 | alpha_evax_proc.pdsckind = 0; |
| 4922 | alpha_evax_proc.framereg = -1; |
| 4923 | alpha_evax_proc.framesize = 0; |
| 4924 | alpha_evax_proc.rsa_offset = 0; |
| 4925 | alpha_evax_proc.ra_save = AXP_REG_RA; |
| 4926 | alpha_evax_proc.fp_save = -1; |
| 4927 | alpha_evax_proc.imask = 0; |
| 4928 | alpha_evax_proc.fmask = 0; |
| 4929 | alpha_evax_proc.prologue = 0; |
| 4930 | alpha_evax_proc.type = 0; |
| 4931 | |
| 4932 | expression (&symexpr); |
| 4933 | |
| 4934 | if (symexpr.X_op != O_symbol) |
| 4935 | { |
| 4936 | as_fatal (_(".ent directive has no symbol")); |
| 4937 | demand_empty_rest_of_line (); |
| 4938 | return; |
| 4939 | } |
| 4940 | |
| 4941 | symbol = make_expr_symbol (&symexpr); |
| 4942 | symbol_get_bfdsym (symbol)->flags |= BSF_FUNCTION; |
| 4943 | alpha_evax_proc.symbol = symbol; |
| 4944 | |
| 4945 | demand_empty_rest_of_line (); |
| 4946 | return; |
| 4947 | } |
| 4948 | |
| 4949 | /* Parse .frame <framreg>,<framesize>,RA,<rsa_offset> directives. */ |
| 4950 | |
| 4951 | static void |
| 4952 | s_alpha_frame (ignore) |
| 4953 | int ignore ATTRIBUTE_UNUSED; |
| 4954 | { |
| 4955 | long val; |
| 4956 | |
| 4957 | alpha_evax_proc.framereg = tc_get_register (1); |
| 4958 | |
| 4959 | SKIP_WHITESPACE (); |
| 4960 | if (*input_line_pointer++ != ',' |
| 4961 | || get_absolute_expression_and_terminator (&val) != ',') |
| 4962 | { |
| 4963 | as_warn (_("Bad .frame directive 1./2. param")); |
| 4964 | --input_line_pointer; |
| 4965 | demand_empty_rest_of_line (); |
| 4966 | return; |
| 4967 | } |
| 4968 | |
| 4969 | alpha_evax_proc.framesize = val; |
| 4970 | |
| 4971 | (void) tc_get_register (1); |
| 4972 | SKIP_WHITESPACE (); |
| 4973 | if (*input_line_pointer++ != ',') |
| 4974 | { |
| 4975 | as_warn (_("Bad .frame directive 3./4. param")); |
| 4976 | --input_line_pointer; |
| 4977 | demand_empty_rest_of_line (); |
| 4978 | return; |
| 4979 | } |
| 4980 | alpha_evax_proc.rsa_offset = get_absolute_expression (); |
| 4981 | |
| 4982 | return; |
| 4983 | } |
| 4984 | |
| 4985 | static void |
| 4986 | s_alpha_pdesc (ignore) |
| 4987 | int ignore ATTRIBUTE_UNUSED; |
| 4988 | { |
| 4989 | char *name; |
| 4990 | char name_end; |
| 4991 | long val; |
| 4992 | register char *p; |
| 4993 | expressionS exp; |
| 4994 | symbolS *entry_sym; |
| 4995 | fixS *fixp; |
| 4996 | segment_info_type *seginfo = seg_info (alpha_link_section); |
| 4997 | |
| 4998 | if (now_seg != alpha_link_section) |
| 4999 | { |
| 5000 | as_bad (_(".pdesc directive not in link (.link) section")); |
| 5001 | demand_empty_rest_of_line (); |
| 5002 | return; |
| 5003 | } |
| 5004 | |
| 5005 | if ((alpha_evax_proc.symbol == 0) |
| 5006 | || (!S_IS_DEFINED (alpha_evax_proc.symbol))) |
| 5007 | { |
| 5008 | as_fatal (_(".pdesc has no matching .ent")); |
| 5009 | demand_empty_rest_of_line (); |
| 5010 | return; |
| 5011 | } |
| 5012 | |
| 5013 | *symbol_get_obj (alpha_evax_proc.symbol) = |
| 5014 | (valueT) seginfo->literal_pool_size; |
| 5015 | |
| 5016 | expression (&exp); |
| 5017 | if (exp.X_op != O_symbol) |
| 5018 | { |
| 5019 | as_warn (_(".pdesc directive has no entry symbol")); |
| 5020 | demand_empty_rest_of_line (); |
| 5021 | return; |
| 5022 | } |
| 5023 | |
| 5024 | entry_sym = make_expr_symbol (&exp); |
| 5025 | /* Save bfd symbol of proc desc in function symbol. */ |
| 5026 | symbol_get_bfdsym (alpha_evax_proc.symbol)->udata.p |
| 5027 | = symbol_get_bfdsym (entry_sym); |
| 5028 | |
| 5029 | SKIP_WHITESPACE (); |
| 5030 | if (*input_line_pointer++ != ',') |
| 5031 | { |
| 5032 | as_warn (_("No comma after .pdesc <entryname>")); |
| 5033 | demand_empty_rest_of_line (); |
| 5034 | return; |
| 5035 | } |
| 5036 | |
| 5037 | SKIP_WHITESPACE (); |
| 5038 | name = input_line_pointer; |
| 5039 | name_end = get_symbol_end (); |
| 5040 | |
| 5041 | if (strncmp (name, "stack", 5) == 0) |
| 5042 | { |
| 5043 | alpha_evax_proc.pdsckind = PDSC_S_K_KIND_FP_STACK; |
| 5044 | } |
| 5045 | else if (strncmp (name, "reg", 3) == 0) |
| 5046 | { |
| 5047 | alpha_evax_proc.pdsckind = PDSC_S_K_KIND_FP_REGISTER; |
| 5048 | } |
| 5049 | else if (strncmp (name, "null", 4) == 0) |
| 5050 | { |
| 5051 | alpha_evax_proc.pdsckind = PDSC_S_K_KIND_NULL; |
| 5052 | } |
| 5053 | else |
| 5054 | { |
| 5055 | as_fatal (_("unknown procedure kind")); |
| 5056 | demand_empty_rest_of_line (); |
| 5057 | return; |
| 5058 | } |
| 5059 | |
| 5060 | *input_line_pointer = name_end; |
| 5061 | demand_empty_rest_of_line (); |
| 5062 | |
| 5063 | #ifdef md_flush_pending_output |
| 5064 | md_flush_pending_output (); |
| 5065 | #endif |
| 5066 | |
| 5067 | frag_align (3, 0, 0); |
| 5068 | p = frag_more (16); |
| 5069 | fixp = fix_new (frag_now, p - frag_now->fr_literal, 8, 0, 0, 0, 0); |
| 5070 | fixp->fx_done = 1; |
| 5071 | seginfo->literal_pool_size += 16; |
| 5072 | |
| 5073 | *p = alpha_evax_proc.pdsckind |
| 5074 | | ((alpha_evax_proc.framereg == 29) ? PDSC_S_M_BASE_REG_IS_FP : 0); |
| 5075 | *(p + 1) = PDSC_S_M_NATIVE | PDSC_S_M_NO_JACKET; |
| 5076 | |
| 5077 | switch (alpha_evax_proc.pdsckind) |
| 5078 | { |
| 5079 | case PDSC_S_K_KIND_NULL: |
| 5080 | *(p + 2) = 0; |
| 5081 | *(p + 3) = 0; |
| 5082 | break; |
| 5083 | case PDSC_S_K_KIND_FP_REGISTER: |
| 5084 | *(p + 2) = alpha_evax_proc.fp_save; |
| 5085 | *(p + 3) = alpha_evax_proc.ra_save; |
| 5086 | break; |
| 5087 | case PDSC_S_K_KIND_FP_STACK: |
| 5088 | md_number_to_chars (p + 2, (valueT) alpha_evax_proc.rsa_offset, 2); |
| 5089 | break; |
| 5090 | default: /* impossible */ |
| 5091 | break; |
| 5092 | } |
| 5093 | |
| 5094 | *(p + 4) = 0; |
| 5095 | *(p + 5) = alpha_evax_proc.type & 0x0f; |
| 5096 | |
| 5097 | /* Signature offset. */ |
| 5098 | md_number_to_chars (p + 6, (valueT) 0, 2); |
| 5099 | |
| 5100 | fix_new_exp (frag_now, p - frag_now->fr_literal+8, 8, &exp, 0, BFD_RELOC_64); |
| 5101 | |
| 5102 | if (alpha_evax_proc.pdsckind == PDSC_S_K_KIND_NULL) |
| 5103 | return; |
| 5104 | |
| 5105 | /* Add dummy fix to make add_to_link_pool work. */ |
| 5106 | p = frag_more (8); |
| 5107 | fixp = fix_new (frag_now, p - frag_now->fr_literal, 8, 0, 0, 0, 0); |
| 5108 | fixp->fx_done = 1; |
| 5109 | seginfo->literal_pool_size += 8; |
| 5110 | |
| 5111 | /* pdesc+16: Size. */ |
| 5112 | md_number_to_chars (p, (valueT) alpha_evax_proc.framesize, 4); |
| 5113 | |
| 5114 | md_number_to_chars (p + 4, (valueT) 0, 2); |
| 5115 | |
| 5116 | /* Entry length. */ |
| 5117 | md_number_to_chars (p + 6, alpha_evax_proc.prologue, 2); |
| 5118 | |
| 5119 | if (alpha_evax_proc.pdsckind == PDSC_S_K_KIND_FP_REGISTER) |
| 5120 | return; |
| 5121 | |
| 5122 | /* Add dummy fix to make add_to_link_pool work. */ |
| 5123 | p = frag_more (8); |
| 5124 | fixp = fix_new (frag_now, p - frag_now->fr_literal, 8, 0, 0, 0, 0); |
| 5125 | fixp->fx_done = 1; |
| 5126 | seginfo->literal_pool_size += 8; |
| 5127 | |
| 5128 | /* pdesc+24: register masks. */ |
| 5129 | |
| 5130 | md_number_to_chars (p, alpha_evax_proc.imask, 4); |
| 5131 | md_number_to_chars (p + 4, alpha_evax_proc.fmask, 4); |
| 5132 | |
| 5133 | return; |
| 5134 | } |
| 5135 | |
| 5136 | /* Support for crash debug on vms. */ |
| 5137 | |
| 5138 | static void |
| 5139 | s_alpha_name (ignore) |
| 5140 | int ignore ATTRIBUTE_UNUSED; |
| 5141 | { |
| 5142 | register char *p; |
| 5143 | expressionS exp; |
| 5144 | segment_info_type *seginfo = seg_info (alpha_link_section); |
| 5145 | |
| 5146 | if (now_seg != alpha_link_section) |
| 5147 | { |
| 5148 | as_bad (_(".name directive not in link (.link) section")); |
| 5149 | demand_empty_rest_of_line (); |
| 5150 | return; |
| 5151 | } |
| 5152 | |
| 5153 | expression (&exp); |
| 5154 | if (exp.X_op != O_symbol) |
| 5155 | { |
| 5156 | as_warn (_(".name directive has no symbol")); |
| 5157 | demand_empty_rest_of_line (); |
| 5158 | return; |
| 5159 | } |
| 5160 | |
| 5161 | demand_empty_rest_of_line (); |
| 5162 | |
| 5163 | #ifdef md_flush_pending_output |
| 5164 | md_flush_pending_output (); |
| 5165 | #endif |
| 5166 | |
| 5167 | frag_align (3, 0, 0); |
| 5168 | p = frag_more (8); |
| 5169 | seginfo->literal_pool_size += 8; |
| 5170 | |
| 5171 | fix_new_exp (frag_now, p - frag_now->fr_literal, 8, &exp, 0, BFD_RELOC_64); |
| 5172 | |
| 5173 | return; |
| 5174 | } |
| 5175 | |
| 5176 | static void |
| 5177 | s_alpha_linkage (ignore) |
| 5178 | int ignore ATTRIBUTE_UNUSED; |
| 5179 | { |
| 5180 | expressionS exp; |
| 5181 | char *p; |
| 5182 | |
| 5183 | #ifdef md_flush_pending_output |
| 5184 | md_flush_pending_output (); |
| 5185 | #endif |
| 5186 | |
| 5187 | expression (&exp); |
| 5188 | if (exp.X_op != O_symbol) |
| 5189 | { |
| 5190 | as_fatal (_("No symbol after .linkage")); |
| 5191 | } |
| 5192 | else |
| 5193 | { |
| 5194 | p = frag_more (LKP_S_K_SIZE); |
| 5195 | memset (p, 0, LKP_S_K_SIZE); |
| 5196 | fix_new_exp (frag_now, p - frag_now->fr_literal, LKP_S_K_SIZE, &exp, 0,\ |
| 5197 | BFD_RELOC_ALPHA_LINKAGE); |
| 5198 | } |
| 5199 | demand_empty_rest_of_line (); |
| 5200 | |
| 5201 | return; |
| 5202 | } |
| 5203 | |
| 5204 | static void |
| 5205 | s_alpha_code_address (ignore) |
| 5206 | int ignore ATTRIBUTE_UNUSED; |
| 5207 | { |
| 5208 | expressionS exp; |
| 5209 | char *p; |
| 5210 | |
| 5211 | #ifdef md_flush_pending_output |
| 5212 | md_flush_pending_output (); |
| 5213 | #endif |
| 5214 | |
| 5215 | expression (&exp); |
| 5216 | if (exp.X_op != O_symbol) |
| 5217 | { |
| 5218 | as_fatal (_("No symbol after .code_address")); |
| 5219 | } |
| 5220 | else |
| 5221 | { |
| 5222 | p = frag_more (8); |
| 5223 | memset (p, 0, 8); |
| 5224 | fix_new_exp (frag_now, p - frag_now->fr_literal, 8, &exp, 0,\ |
| 5225 | BFD_RELOC_ALPHA_CODEADDR); |
| 5226 | } |
| 5227 | demand_empty_rest_of_line (); |
| 5228 | |
| 5229 | return; |
| 5230 | } |
| 5231 | |
| 5232 | static void |
| 5233 | s_alpha_fp_save (ignore) |
| 5234 | int ignore ATTRIBUTE_UNUSED; |
| 5235 | { |
| 5236 | |
| 5237 | alpha_evax_proc.fp_save = tc_get_register (1); |
| 5238 | |
| 5239 | demand_empty_rest_of_line (); |
| 5240 | return; |
| 5241 | } |
| 5242 | |
| 5243 | static void |
| 5244 | s_alpha_mask (ignore) |
| 5245 | int ignore ATTRIBUTE_UNUSED; |
| 5246 | { |
| 5247 | long val; |
| 5248 | |
| 5249 | if (get_absolute_expression_and_terminator (&val) != ',') |
| 5250 | { |
| 5251 | as_warn (_("Bad .mask directive")); |
| 5252 | --input_line_pointer; |
| 5253 | } |
| 5254 | else |
| 5255 | { |
| 5256 | alpha_evax_proc.imask = val; |
| 5257 | (void) get_absolute_expression (); |
| 5258 | } |
| 5259 | demand_empty_rest_of_line (); |
| 5260 | |
| 5261 | return; |
| 5262 | } |
| 5263 | |
| 5264 | static void |
| 5265 | s_alpha_fmask (ignore) |
| 5266 | int ignore ATTRIBUTE_UNUSED; |
| 5267 | { |
| 5268 | long val; |
| 5269 | |
| 5270 | if (get_absolute_expression_and_terminator (&val) != ',') |
| 5271 | { |
| 5272 | as_warn (_("Bad .fmask directive")); |
| 5273 | --input_line_pointer; |
| 5274 | } |
| 5275 | else |
| 5276 | { |
| 5277 | alpha_evax_proc.fmask = val; |
| 5278 | (void) get_absolute_expression (); |
| 5279 | } |
| 5280 | demand_empty_rest_of_line (); |
| 5281 | |
| 5282 | return; |
| 5283 | } |
| 5284 | |
| 5285 | static void |
| 5286 | s_alpha_end (ignore) |
| 5287 | int ignore ATTRIBUTE_UNUSED; |
| 5288 | { |
| 5289 | char c; |
| 5290 | |
| 5291 | c = get_symbol_end (); |
| 5292 | *input_line_pointer = c; |
| 5293 | demand_empty_rest_of_line (); |
| 5294 | alpha_evax_proc.symbol = 0; |
| 5295 | |
| 5296 | return; |
| 5297 | } |
| 5298 | |
| 5299 | static void |
| 5300 | s_alpha_file (ignore) |
| 5301 | int ignore ATTRIBUTE_UNUSED; |
| 5302 | { |
| 5303 | symbolS *s; |
| 5304 | int length; |
| 5305 | static char case_hack[32]; |
| 5306 | |
| 5307 | sprintf (case_hack, "<CASE:%01d%01d>", |
| 5308 | alpha_flag_hash_long_names, alpha_flag_show_after_trunc); |
| 5309 | |
| 5310 | s = symbol_find_or_make (case_hack); |
| 5311 | symbol_get_bfdsym (s)->flags |= BSF_FILE; |
| 5312 | |
| 5313 | get_absolute_expression (); |
| 5314 | s = symbol_find_or_make (demand_copy_string (&length)); |
| 5315 | symbol_get_bfdsym (s)->flags |= BSF_FILE; |
| 5316 | demand_empty_rest_of_line (); |
| 5317 | |
| 5318 | return; |
| 5319 | } |
| 5320 | #endif /* OBJ_EVAX */ |
| 5321 | |
| 5322 | /* Handle the .gprel32 pseudo op. */ |
| 5323 | |
| 5324 | static void |
| 5325 | s_alpha_gprel32 (ignore) |
| 5326 | int ignore ATTRIBUTE_UNUSED; |
| 5327 | { |
| 5328 | expressionS e; |
| 5329 | char *p; |
| 5330 | |
| 5331 | SKIP_WHITESPACE (); |
| 5332 | expression (&e); |
| 5333 | |
| 5334 | #ifdef OBJ_ELF |
| 5335 | switch (e.X_op) |
| 5336 | { |
| 5337 | case O_constant: |
| 5338 | e.X_add_symbol = section_symbol (absolute_section); |
| 5339 | e.X_op = O_symbol; |
| 5340 | /* FALLTHRU */ |
| 5341 | case O_symbol: |
| 5342 | break; |
| 5343 | default: |
| 5344 | abort (); |
| 5345 | } |
| 5346 | #else |
| 5347 | #ifdef OBJ_ECOFF |
| 5348 | switch (e.X_op) |
| 5349 | { |
| 5350 | case O_constant: |
| 5351 | e.X_add_symbol = section_symbol (absolute_section); |
| 5352 | /* fall through */ |
| 5353 | case O_symbol: |
| 5354 | e.X_op = O_subtract; |
| 5355 | e.X_op_symbol = alpha_gp_symbol; |
| 5356 | break; |
| 5357 | default: |
| 5358 | abort (); |
| 5359 | } |
| 5360 | #endif |
| 5361 | #endif |
| 5362 | |
| 5363 | if (alpha_auto_align_on && alpha_current_align < 2) |
| 5364 | alpha_align (2, (char *) NULL, alpha_insn_label, 0); |
| 5365 | if (alpha_current_align > 2) |
| 5366 | alpha_current_align = 2; |
| 5367 | alpha_insn_label = NULL; |
| 5368 | |
| 5369 | p = frag_more (4); |
| 5370 | memset (p, 0, 4); |
| 5371 | fix_new_exp (frag_now, p - frag_now->fr_literal, 4, |
| 5372 | &e, 0, BFD_RELOC_GPREL32); |
| 5373 | } |
| 5374 | |
| 5375 | /* Handle floating point allocation pseudo-ops. This is like the |
| 5376 | generic vresion, but it makes sure the current label, if any, is |
| 5377 | correctly aligned. */ |
| 5378 | |
| 5379 | static void |
| 5380 | s_alpha_float_cons (type) |
| 5381 | int type; |
| 5382 | { |
| 5383 | int log_size; |
| 5384 | |
| 5385 | switch (type) |
| 5386 | { |
| 5387 | default: |
| 5388 | case 'f': |
| 5389 | case 'F': |
| 5390 | log_size = 2; |
| 5391 | break; |
| 5392 | |
| 5393 | case 'd': |
| 5394 | case 'D': |
| 5395 | case 'G': |
| 5396 | log_size = 3; |
| 5397 | break; |
| 5398 | |
| 5399 | case 'x': |
| 5400 | case 'X': |
| 5401 | case 'p': |
| 5402 | case 'P': |
| 5403 | log_size = 4; |
| 5404 | break; |
| 5405 | } |
| 5406 | |
| 5407 | if (alpha_auto_align_on && alpha_current_align < log_size) |
| 5408 | alpha_align (log_size, (char *) NULL, alpha_insn_label, 0); |
| 5409 | if (alpha_current_align > log_size) |
| 5410 | alpha_current_align = log_size; |
| 5411 | alpha_insn_label = NULL; |
| 5412 | |
| 5413 | float_cons (type); |
| 5414 | } |
| 5415 | |
| 5416 | /* Handle the .proc pseudo op. We don't really do much with it except |
| 5417 | parse it. */ |
| 5418 | |
| 5419 | static void |
| 5420 | s_alpha_proc (is_static) |
| 5421 | int is_static ATTRIBUTE_UNUSED; |
| 5422 | { |
| 5423 | char *name; |
| 5424 | char c; |
| 5425 | char *p; |
| 5426 | symbolS *symbolP; |
| 5427 | int temp; |
| 5428 | |
| 5429 | /* Takes ".proc name,nargs" */ |
| 5430 | SKIP_WHITESPACE (); |
| 5431 | name = input_line_pointer; |
| 5432 | c = get_symbol_end (); |
| 5433 | p = input_line_pointer; |
| 5434 | symbolP = symbol_find_or_make (name); |
| 5435 | *p = c; |
| 5436 | SKIP_WHITESPACE (); |
| 5437 | if (*input_line_pointer != ',') |
| 5438 | { |
| 5439 | *p = 0; |
| 5440 | as_warn (_("Expected comma after name \"%s\""), name); |
| 5441 | *p = c; |
| 5442 | temp = 0; |
| 5443 | ignore_rest_of_line (); |
| 5444 | } |
| 5445 | else |
| 5446 | { |
| 5447 | input_line_pointer++; |
| 5448 | temp = get_absolute_expression (); |
| 5449 | } |
| 5450 | /* *symbol_get_obj (symbolP) = (signed char) temp; */ |
| 5451 | as_warn (_("unhandled: .proc %s,%d"), name, temp); |
| 5452 | demand_empty_rest_of_line (); |
| 5453 | } |
| 5454 | |
| 5455 | /* Handle the .set pseudo op. This is used to turn on and off most of |
| 5456 | the assembler features. */ |
| 5457 | |
| 5458 | static void |
| 5459 | s_alpha_set (x) |
| 5460 | int x ATTRIBUTE_UNUSED; |
| 5461 | { |
| 5462 | char *name, ch, *s; |
| 5463 | int yesno = 1; |
| 5464 | |
| 5465 | SKIP_WHITESPACE (); |
| 5466 | name = input_line_pointer; |
| 5467 | ch = get_symbol_end (); |
| 5468 | |
| 5469 | s = name; |
| 5470 | if (s[0] == 'n' && s[1] == 'o') |
| 5471 | { |
| 5472 | yesno = 0; |
| 5473 | s += 2; |
| 5474 | } |
| 5475 | if (!strcmp ("reorder", s)) |
| 5476 | /* ignore */ ; |
| 5477 | else if (!strcmp ("at", s)) |
| 5478 | alpha_noat_on = !yesno; |
| 5479 | else if (!strcmp ("macro", s)) |
| 5480 | alpha_macros_on = yesno; |
| 5481 | else if (!strcmp ("move", s)) |
| 5482 | /* ignore */ ; |
| 5483 | else if (!strcmp ("volatile", s)) |
| 5484 | /* ignore */ ; |
| 5485 | else |
| 5486 | as_warn (_("Tried to .set unrecognized mode `%s'"), name); |
| 5487 | |
| 5488 | *input_line_pointer = ch; |
| 5489 | demand_empty_rest_of_line (); |
| 5490 | } |
| 5491 | |
| 5492 | /* Handle the .base pseudo op. This changes the assembler's notion of |
| 5493 | the $gp register. */ |
| 5494 | |
| 5495 | static void |
| 5496 | s_alpha_base (ignore) |
| 5497 | int ignore ATTRIBUTE_UNUSED; |
| 5498 | { |
| 5499 | #if 0 |
| 5500 | if (first_32bit_quadrant) |
| 5501 | { |
| 5502 | /* not fatal, but it might not work in the end */ |
| 5503 | as_warn (_("File overrides no-base-register option.")); |
| 5504 | first_32bit_quadrant = 0; |
| 5505 | } |
| 5506 | #endif |
| 5507 | |
| 5508 | SKIP_WHITESPACE (); |
| 5509 | if (*input_line_pointer == '$') |
| 5510 | { /* $rNN form */ |
| 5511 | input_line_pointer++; |
| 5512 | if (*input_line_pointer == 'r') |
| 5513 | input_line_pointer++; |
| 5514 | } |
| 5515 | |
| 5516 | alpha_gp_register = get_absolute_expression (); |
| 5517 | if (alpha_gp_register < 0 || alpha_gp_register > 31) |
| 5518 | { |
| 5519 | alpha_gp_register = AXP_REG_GP; |
| 5520 | as_warn (_("Bad base register, using $%d."), alpha_gp_register); |
| 5521 | } |
| 5522 | |
| 5523 | demand_empty_rest_of_line (); |
| 5524 | } |
| 5525 | |
| 5526 | /* Handle the .align pseudo-op. This aligns to a power of two. It |
| 5527 | also adjusts any current instruction label. We treat this the same |
| 5528 | way the MIPS port does: .align 0 turns off auto alignment. */ |
| 5529 | |
| 5530 | static void |
| 5531 | s_alpha_align (ignore) |
| 5532 | int ignore ATTRIBUTE_UNUSED; |
| 5533 | { |
| 5534 | int align; |
| 5535 | char fill, *pfill; |
| 5536 | long max_alignment = 15; |
| 5537 | |
| 5538 | align = get_absolute_expression (); |
| 5539 | if (align > max_alignment) |
| 5540 | { |
| 5541 | align = max_alignment; |
| 5542 | as_bad (_("Alignment too large: %d. assumed"), align); |
| 5543 | } |
| 5544 | else if (align < 0) |
| 5545 | { |
| 5546 | as_warn (_("Alignment negative: 0 assumed")); |
| 5547 | align = 0; |
| 5548 | } |
| 5549 | |
| 5550 | if (*input_line_pointer == ',') |
| 5551 | { |
| 5552 | input_line_pointer++; |
| 5553 | fill = get_absolute_expression (); |
| 5554 | pfill = &fill; |
| 5555 | } |
| 5556 | else |
| 5557 | pfill = NULL; |
| 5558 | |
| 5559 | if (align != 0) |
| 5560 | { |
| 5561 | alpha_auto_align_on = 1; |
| 5562 | alpha_align (align, pfill, alpha_insn_label, 1); |
| 5563 | } |
| 5564 | else |
| 5565 | { |
| 5566 | alpha_auto_align_on = 0; |
| 5567 | } |
| 5568 | |
| 5569 | demand_empty_rest_of_line (); |
| 5570 | } |
| 5571 | |
| 5572 | /* Hook the normal string processor to reset known alignment. */ |
| 5573 | |
| 5574 | static void |
| 5575 | s_alpha_stringer (terminate) |
| 5576 | int terminate; |
| 5577 | { |
| 5578 | alpha_current_align = 0; |
| 5579 | alpha_insn_label = NULL; |
| 5580 | stringer (terminate); |
| 5581 | } |
| 5582 | |
| 5583 | /* Hook the normal space processing to reset known alignment. */ |
| 5584 | |
| 5585 | static void |
| 5586 | s_alpha_space (ignore) |
| 5587 | int ignore; |
| 5588 | { |
| 5589 | alpha_current_align = 0; |
| 5590 | alpha_insn_label = NULL; |
| 5591 | s_space (ignore); |
| 5592 | } |
| 5593 | |
| 5594 | /* Hook into cons for auto-alignment. */ |
| 5595 | |
| 5596 | void |
| 5597 | alpha_cons_align (size) |
| 5598 | int size; |
| 5599 | { |
| 5600 | int log_size; |
| 5601 | |
| 5602 | log_size = 0; |
| 5603 | while ((size >>= 1) != 0) |
| 5604 | ++log_size; |
| 5605 | |
| 5606 | if (alpha_auto_align_on && alpha_current_align < log_size) |
| 5607 | alpha_align (log_size, (char *) NULL, alpha_insn_label, 0); |
| 5608 | if (alpha_current_align > log_size) |
| 5609 | alpha_current_align = log_size; |
| 5610 | alpha_insn_label = NULL; |
| 5611 | } |
| 5612 | |
| 5613 | /* Here come the .uword, .ulong, and .uquad explicitly unaligned |
| 5614 | pseudos. We just turn off auto-alignment and call down to cons. */ |
| 5615 | |
| 5616 | static void |
| 5617 | s_alpha_ucons (bytes) |
| 5618 | int bytes; |
| 5619 | { |
| 5620 | int hold = alpha_auto_align_on; |
| 5621 | alpha_auto_align_on = 0; |
| 5622 | cons (bytes); |
| 5623 | alpha_auto_align_on = hold; |
| 5624 | } |
| 5625 | |
| 5626 | /* Switch the working cpu type. */ |
| 5627 | |
| 5628 | static void |
| 5629 | s_alpha_arch (ignored) |
| 5630 | int ignored ATTRIBUTE_UNUSED; |
| 5631 | { |
| 5632 | char *name, ch; |
| 5633 | const struct cpu_type *p; |
| 5634 | |
| 5635 | SKIP_WHITESPACE (); |
| 5636 | name = input_line_pointer; |
| 5637 | ch = get_symbol_end (); |
| 5638 | |
| 5639 | for (p = cpu_types; p->name; ++p) |
| 5640 | if (strcmp (name, p->name) == 0) |
| 5641 | { |
| 5642 | alpha_target_name = p->name, alpha_target = p->flags; |
| 5643 | goto found; |
| 5644 | } |
| 5645 | as_warn ("Unknown CPU identifier `%s'", name); |
| 5646 | |
| 5647 | found: |
| 5648 | *input_line_pointer = ch; |
| 5649 | demand_empty_rest_of_line (); |
| 5650 | } |
| 5651 | \f |
| 5652 | #ifdef DEBUG1 |
| 5653 | /* print token expression with alpha specific extension. */ |
| 5654 | |
| 5655 | static void |
| 5656 | alpha_print_token (f, exp) |
| 5657 | FILE *f; |
| 5658 | const expressionS *exp; |
| 5659 | { |
| 5660 | switch (exp->X_op) |
| 5661 | { |
| 5662 | case O_cpregister: |
| 5663 | putc (',', f); |
| 5664 | /* FALLTHRU */ |
| 5665 | case O_pregister: |
| 5666 | putc ('(', f); |
| 5667 | { |
| 5668 | expressionS nexp = *exp; |
| 5669 | nexp.X_op = O_register; |
| 5670 | print_expr (f, &nexp); |
| 5671 | } |
| 5672 | putc (')', f); |
| 5673 | break; |
| 5674 | default: |
| 5675 | print_expr (f, exp); |
| 5676 | break; |
| 5677 | } |
| 5678 | return; |
| 5679 | } |
| 5680 | #endif |
| 5681 | \f |
| 5682 | /* The target specific pseudo-ops which we support. */ |
| 5683 | |
| 5684 | const pseudo_typeS md_pseudo_table[] = { |
| 5685 | #ifdef OBJ_ECOFF |
| 5686 | {"comm", s_alpha_comm, 0}, /* osf1 compiler does this */ |
| 5687 | {"rdata", s_alpha_rdata, 0}, |
| 5688 | #endif |
| 5689 | {"text", s_alpha_text, 0}, |
| 5690 | {"data", s_alpha_data, 0}, |
| 5691 | #ifdef OBJ_ECOFF |
| 5692 | {"sdata", s_alpha_sdata, 0}, |
| 5693 | #endif |
| 5694 | #ifdef OBJ_ELF |
| 5695 | {"section", s_alpha_section, 0}, |
| 5696 | {"section.s", s_alpha_section, 0}, |
| 5697 | {"sect", s_alpha_section, 0}, |
| 5698 | {"sect.s", s_alpha_section, 0}, |
| 5699 | #endif |
| 5700 | #ifdef OBJ_EVAX |
| 5701 | { "pdesc", s_alpha_pdesc, 0}, |
| 5702 | { "name", s_alpha_name, 0}, |
| 5703 | { "linkage", s_alpha_linkage, 0}, |
| 5704 | { "code_address", s_alpha_code_address, 0}, |
| 5705 | { "ent", s_alpha_ent, 0}, |
| 5706 | { "frame", s_alpha_frame, 0}, |
| 5707 | { "fp_save", s_alpha_fp_save, 0}, |
| 5708 | { "mask", s_alpha_mask, 0}, |
| 5709 | { "fmask", s_alpha_fmask, 0}, |
| 5710 | { "end", s_alpha_end, 0}, |
| 5711 | { "file", s_alpha_file, 0}, |
| 5712 | { "rdata", s_alpha_section, 1}, |
| 5713 | { "comm", s_alpha_comm, 0}, |
| 5714 | { "link", s_alpha_section, 3}, |
| 5715 | { "ctors", s_alpha_section, 4}, |
| 5716 | { "dtors", s_alpha_section, 5}, |
| 5717 | #endif |
| 5718 | #ifdef OBJ_ELF |
| 5719 | /* Frame related pseudos. */ |
| 5720 | {"ent", s_alpha_ent, 0}, |
| 5721 | {"end", s_alpha_end, 0}, |
| 5722 | {"mask", s_alpha_mask, 0}, |
| 5723 | {"fmask", s_alpha_mask, 1}, |
| 5724 | {"frame", s_alpha_frame, 0}, |
| 5725 | {"prologue", s_alpha_prologue, 0}, |
| 5726 | {"file", s_alpha_file, 5}, |
| 5727 | {"loc", s_alpha_loc, 9}, |
| 5728 | {"stabs", s_alpha_stab, 's'}, |
| 5729 | {"stabn", s_alpha_stab, 'n'}, |
| 5730 | {"usepv", s_alpha_usepv, 0}, |
| 5731 | /* COFF debugging related pseudos. */ |
| 5732 | {"begin", s_alpha_coff_wrapper, 0}, |
| 5733 | {"bend", s_alpha_coff_wrapper, 1}, |
| 5734 | {"def", s_alpha_coff_wrapper, 2}, |
| 5735 | {"dim", s_alpha_coff_wrapper, 3}, |
| 5736 | {"endef", s_alpha_coff_wrapper, 4}, |
| 5737 | {"scl", s_alpha_coff_wrapper, 5}, |
| 5738 | {"tag", s_alpha_coff_wrapper, 6}, |
| 5739 | {"val", s_alpha_coff_wrapper, 7}, |
| 5740 | #else |
| 5741 | {"prologue", s_ignore, 0}, |
| 5742 | #endif |
| 5743 | {"gprel32", s_alpha_gprel32, 0}, |
| 5744 | {"t_floating", s_alpha_float_cons, 'd'}, |
| 5745 | {"s_floating", s_alpha_float_cons, 'f'}, |
| 5746 | {"f_floating", s_alpha_float_cons, 'F'}, |
| 5747 | {"g_floating", s_alpha_float_cons, 'G'}, |
| 5748 | {"d_floating", s_alpha_float_cons, 'D'}, |
| 5749 | |
| 5750 | {"proc", s_alpha_proc, 0}, |
| 5751 | {"aproc", s_alpha_proc, 1}, |
| 5752 | {"set", s_alpha_set, 0}, |
| 5753 | {"reguse", s_ignore, 0}, |
| 5754 | {"livereg", s_ignore, 0}, |
| 5755 | {"base", s_alpha_base, 0}, /*??*/ |
| 5756 | {"option", s_ignore, 0}, |
| 5757 | {"aent", s_ignore, 0}, |
| 5758 | {"ugen", s_ignore, 0}, |
| 5759 | {"eflag", s_ignore, 0}, |
| 5760 | |
| 5761 | {"align", s_alpha_align, 0}, |
| 5762 | {"double", s_alpha_float_cons, 'd'}, |
| 5763 | {"float", s_alpha_float_cons, 'f'}, |
| 5764 | {"single", s_alpha_float_cons, 'f'}, |
| 5765 | {"ascii", s_alpha_stringer, 0}, |
| 5766 | {"asciz", s_alpha_stringer, 1}, |
| 5767 | {"string", s_alpha_stringer, 1}, |
| 5768 | {"space", s_alpha_space, 0}, |
| 5769 | {"skip", s_alpha_space, 0}, |
| 5770 | {"zero", s_alpha_space, 0}, |
| 5771 | |
| 5772 | /* Unaligned data pseudos. */ |
| 5773 | {"uword", s_alpha_ucons, 2}, |
| 5774 | {"ulong", s_alpha_ucons, 4}, |
| 5775 | {"uquad", s_alpha_ucons, 8}, |
| 5776 | |
| 5777 | #ifdef OBJ_ELF |
| 5778 | /* Dwarf wants these versions of unaligned. */ |
| 5779 | {"2byte", s_alpha_ucons, 2}, |
| 5780 | {"4byte", s_alpha_ucons, 4}, |
| 5781 | {"8byte", s_alpha_ucons, 8}, |
| 5782 | #endif |
| 5783 | |
| 5784 | /* We don't do any optimizing, so we can safely ignore these. */ |
| 5785 | {"noalias", s_ignore, 0}, |
| 5786 | {"alias", s_ignore, 0}, |
| 5787 | |
| 5788 | {"arch", s_alpha_arch, 0}, |
| 5789 | |
| 5790 | {NULL, 0, 0}, |
| 5791 | }; |
| 5792 | \f |
| 5793 | /* Build a BFD section with its flags set appropriately for the .lita, |
| 5794 | .lit8, or .lit4 sections. */ |
| 5795 | |
| 5796 | static void |
| 5797 | create_literal_section (name, secp, symp) |
| 5798 | const char *name; |
| 5799 | segT *secp; |
| 5800 | symbolS **symp; |
| 5801 | { |
| 5802 | segT current_section = now_seg; |
| 5803 | int current_subsec = now_subseg; |
| 5804 | segT new_sec; |
| 5805 | |
| 5806 | *secp = new_sec = subseg_new (name, 0); |
| 5807 | subseg_set (current_section, current_subsec); |
| 5808 | bfd_set_section_alignment (stdoutput, new_sec, 4); |
| 5809 | bfd_set_section_flags (stdoutput, new_sec, |
| 5810 | SEC_RELOC | SEC_ALLOC | SEC_LOAD | SEC_READONLY |
| 5811 | | SEC_DATA); |
| 5812 | |
| 5813 | S_CLEAR_EXTERNAL (*symp = section_symbol (new_sec)); |
| 5814 | } |
| 5815 | |
| 5816 | #ifdef OBJ_ECOFF |
| 5817 | |
| 5818 | /* @@@ GP selection voodoo. All of this seems overly complicated and |
| 5819 | unnecessary; which is the primary reason it's for ECOFF only. */ |
| 5820 | static inline void maybe_set_gp PARAMS ((asection *)); |
| 5821 | |
| 5822 | static inline void |
| 5823 | maybe_set_gp (sec) |
| 5824 | asection *sec; |
| 5825 | { |
| 5826 | bfd_vma vma; |
| 5827 | if (!sec) |
| 5828 | return; |
| 5829 | vma = bfd_get_section_vma (foo, sec); |
| 5830 | if (vma && vma < alpha_gp_value) |
| 5831 | alpha_gp_value = vma; |
| 5832 | } |
| 5833 | |
| 5834 | static void |
| 5835 | select_gp_value () |
| 5836 | { |
| 5837 | assert (alpha_gp_value == 0); |
| 5838 | |
| 5839 | /* Get minus-one in whatever width... */ |
| 5840 | alpha_gp_value = 0; |
| 5841 | alpha_gp_value--; |
| 5842 | |
| 5843 | /* Select the smallest VMA of these existing sections. */ |
| 5844 | maybe_set_gp (alpha_lita_section); |
| 5845 | #if 0 |
| 5846 | /* These were disabled before -- should we use them? */ |
| 5847 | maybe_set_gp (sdata); |
| 5848 | maybe_set_gp (lit8_sec); |
| 5849 | maybe_set_gp (lit4_sec); |
| 5850 | #endif |
| 5851 | |
| 5852 | /* @@ Will a simple 0x8000 work here? If not, why not? */ |
| 5853 | #define GP_ADJUSTMENT (0x8000 - 0x10) |
| 5854 | |
| 5855 | alpha_gp_value += GP_ADJUSTMENT; |
| 5856 | |
| 5857 | S_SET_VALUE (alpha_gp_symbol, alpha_gp_value); |
| 5858 | |
| 5859 | #ifdef DEBUG1 |
| 5860 | printf (_("Chose GP value of %lx\n"), alpha_gp_value); |
| 5861 | #endif |
| 5862 | } |
| 5863 | #endif /* OBJ_ECOFF */ |
| 5864 | |
| 5865 | #ifdef OBJ_ELF |
| 5866 | /* Map 's' to SHF_ALPHA_GPREL. */ |
| 5867 | |
| 5868 | int |
| 5869 | alpha_elf_section_letter (letter, ptr_msg) |
| 5870 | int letter; |
| 5871 | char **ptr_msg; |
| 5872 | { |
| 5873 | if (letter == 's') |
| 5874 | return SHF_ALPHA_GPREL; |
| 5875 | |
| 5876 | *ptr_msg = _("Bad .section directive: want a,s,w,x,M,S,G,T in string"); |
| 5877 | return -1; |
| 5878 | } |
| 5879 | |
| 5880 | /* Map SHF_ALPHA_GPREL to SEC_SMALL_DATA. */ |
| 5881 | |
| 5882 | flagword |
| 5883 | alpha_elf_section_flags (flags, attr, type) |
| 5884 | flagword flags; |
| 5885 | int attr, type ATTRIBUTE_UNUSED; |
| 5886 | { |
| 5887 | if (attr & SHF_ALPHA_GPREL) |
| 5888 | flags |= SEC_SMALL_DATA; |
| 5889 | return flags; |
| 5890 | } |
| 5891 | #endif /* OBJ_ELF */ |
| 5892 | |
| 5893 | /* Called internally to handle all alignment needs. This takes care |
| 5894 | of eliding calls to frag_align if'n the cached current alignment |
| 5895 | says we've already got it, as well as taking care of the auto-align |
| 5896 | feature wrt labels. */ |
| 5897 | |
| 5898 | static void |
| 5899 | alpha_align (n, pfill, label, force) |
| 5900 | int n; |
| 5901 | char *pfill; |
| 5902 | symbolS *label; |
| 5903 | int force ATTRIBUTE_UNUSED; |
| 5904 | { |
| 5905 | if (alpha_current_align >= n) |
| 5906 | return; |
| 5907 | |
| 5908 | if (pfill == NULL) |
| 5909 | { |
| 5910 | if (subseg_text_p (now_seg)) |
| 5911 | frag_align_code (n, 0); |
| 5912 | else |
| 5913 | frag_align (n, 0, 0); |
| 5914 | } |
| 5915 | else |
| 5916 | frag_align (n, *pfill, 0); |
| 5917 | |
| 5918 | alpha_current_align = n; |
| 5919 | |
| 5920 | if (label != NULL && S_GET_SEGMENT (label) == now_seg) |
| 5921 | { |
| 5922 | symbol_set_frag (label, frag_now); |
| 5923 | S_SET_VALUE (label, (valueT) frag_now_fix ()); |
| 5924 | } |
| 5925 | |
| 5926 | record_alignment (now_seg, n); |
| 5927 | |
| 5928 | /* ??? If alpha_flag_relax && force && elf, record the requested alignment |
| 5929 | in a reloc for the linker to see. */ |
| 5930 | } |
| 5931 | |
| 5932 | /* This is called from HANDLE_ALIGN in write.c. Fill in the contents |
| 5933 | of an rs_align_code fragment. */ |
| 5934 | |
| 5935 | void |
| 5936 | alpha_handle_align (fragp) |
| 5937 | fragS *fragp; |
| 5938 | { |
| 5939 | static char const unop[4] = { 0x00, 0x00, 0xfe, 0x2f }; |
| 5940 | static char const nopunop[8] = { |
| 5941 | 0x1f, 0x04, 0xff, 0x47, |
| 5942 | 0x00, 0x00, 0xfe, 0x2f |
| 5943 | }; |
| 5944 | |
| 5945 | int bytes, fix; |
| 5946 | char *p; |
| 5947 | |
| 5948 | if (fragp->fr_type != rs_align_code) |
| 5949 | return; |
| 5950 | |
| 5951 | bytes = fragp->fr_next->fr_address - fragp->fr_address - fragp->fr_fix; |
| 5952 | p = fragp->fr_literal + fragp->fr_fix; |
| 5953 | fix = 0; |
| 5954 | |
| 5955 | if (bytes & 3) |
| 5956 | { |
| 5957 | fix = bytes & 3; |
| 5958 | memset (p, 0, fix); |
| 5959 | p += fix; |
| 5960 | bytes -= fix; |
| 5961 | } |
| 5962 | |
| 5963 | if (bytes & 4) |
| 5964 | { |
| 5965 | memcpy (p, unop, 4); |
| 5966 | p += 4; |
| 5967 | bytes -= 4; |
| 5968 | fix += 4; |
| 5969 | } |
| 5970 | |
| 5971 | memcpy (p, nopunop, 8); |
| 5972 | |
| 5973 | fragp->fr_fix += fix; |
| 5974 | fragp->fr_var = 8; |
| 5975 | } |
| 5976 | |
| 5977 | /* The Alpha has support for some VAX floating point types, as well as for |
| 5978 | IEEE floating point. We consider IEEE to be the primary floating point |
| 5979 | format, and sneak in the VAX floating point support here. */ |
| 5980 | #define md_atof vax_md_atof |
| 5981 | #include "config/atof-vax.c" |