1# Copyright (C) 2007 The Android Open Source Project 2# 3# Licensed under the Apache License, Version 2.0 (the "License"); 4# you may not use this file except in compliance with the License. 5# You may obtain a copy of the License at 6# 7# http://www.apache.org/licenses/LICENSE-2.0 8# 9# Unless required by applicable law or agreed to in writing, software 10# distributed under the License is distributed on an "AS IS" BASIS, 11# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 12# See the License for the specific language governing permissions and 13# limitations under the License. 14 15# 16# Awk helper script for opcode-gen. 17# 18 19# 20# Initialization. 21# 22 23BEGIN { 24 MAX_OPCODE = 65535; 25 MAX_PACKED_OPCODE = 511; 26 MAX_PACKED_OPCODE = 255; # TODO: Not for long! 27 initIndexTypes(); 28 initFlags(); 29 if (readBytecodes()) exit 1; 30 deriveOpcodeChains(); 31 createPackedTables(); 32 consumeUntil = ""; 33 emission = ""; 34} 35 36# 37# General control (must appear above directive handlers). 38# 39 40# Clear out the preexisting output within a directive section. 41consumeUntil != "" { 42 if (index($0, consumeUntil) != 0) { 43 consumeUntil = ""; 44 print; 45 } 46 47 next; 48} 49 50# Detect directives. 51/BEGIN\([a-z-]*\)/ { 52 i = match($0, /BEGIN\([a-z-]*\)/); 53 emission = substr($0, i + 6, RLENGTH - 7); 54 consumeUntil = "END(" emission ")"; 55 emissionHandled = 0; 56} 57 58# Most lines just get copied from the source as-is, including the start 59# comment for directives. 60{ 61 print; 62} 63 64# 65# Handlers for all of the directives. 66# 67 68emission == "opcodes" { 69 emissionHandled = 1; 70 71 for (i = 0; i <= MAX_OPCODE; i++) { 72 if (isUnused(i) || isOptimized(i)) continue; 73 printf(" public static final int %s = 0x%s;\n", 74 constName[i], hex[i]); 75 } 76} 77 78emission == "first-opcodes" { 79 emissionHandled = 1; 80 81 for (i = 0; i <= MAX_OPCODE; i++) { 82 if (isUnused(i) || isOptimized(i)) continue; 83 if (isFirst[i] == "true") { 84 printf(" // Opcodes.%s\n", constName[i]); 85 } 86 } 87} 88 89emission == "dops" { 90 emissionHandled = 1; 91 92 for (i = 0; i <= MAX_OPCODE; i++) { 93 if (isUnused(i) || isOptimized(i)) continue; 94 95 nextOp = nextOpcode[i]; 96 nextOp = (nextOp == -1) ? "NO_NEXT" : constName[nextOp]; 97 98 printf(" public static final Dop %s =\n" \ 99 " new Dop(Opcodes.%s, Opcodes.%s,\n" \ 100 " Opcodes.%s, Form%s.THE_ONE, %s);\n\n", 101 constName[i], constName[i], family[i], nextOp, format[i], 102 hasResult[i]); 103 } 104} 105 106emission == "opcode-info-defs" { 107 emissionHandled = 1; 108 109 for (i = 0; i <= MAX_OPCODE; i++) { 110 if (isUnused(i) || isOptimized(i)) continue; 111 112 itype = toupper(indexType[i]); 113 gsub(/-/, "_", itype); 114 115 printf(" public static final Info %s =\n" \ 116 " new Info(Opcodes.%s, \"%s\",\n" \ 117 " InstructionCodec.FORMAT_%s, IndexType.%s);\n\n", \ 118 constName[i], constName[i], name[i], toupper(format[i]), itype); 119 } 120} 121 122emission == "dops-init" || emission == "opcode-info-init" { 123 emissionHandled = 1; 124 125 for (i = 0; i <= MAX_OPCODE; i++) { 126 if (isUnused(i) || isOptimized(i)) continue; 127 printf(" set(%s);\n", constName[i]); 128 } 129} 130 131emission == "libcore-opcodes" { 132 emissionHandled = 1; 133 134 for (i = 0; i <= MAX_OPCODE; i++) { 135 if (isUnused(i) || isOptimized(i)) continue; 136 printf(" int OP_%-28s = 0x%04x;\n", constName[i], i); 137 } 138} 139 140emission == "libcore-maximum-values" { 141 emissionHandled = 1; 142 143 printf(" MAXIMUM_VALUE = %d;\n", MAX_OPCODE); 144 printf(" MAXIMUM_PACKED_VALUE = %d;\n", MAX_PACKED_OPCODE); 145} 146 147emission == "libdex-maximum-values" { 148 emissionHandled = 1; 149 150 printf("#define kMaxOpcodeValue 0x%x\n", MAX_OPCODE); 151 printf("#define kNumPackedOpcodes 0x%x\n", MAX_PACKED_OPCODE + 1); 152} 153 154emission == "libdex-opcode-enum" { 155 emissionHandled = 1; 156 157 for (i = 0; i <= MAX_PACKED_OPCODE; i++) { 158 printf(" OP_%-28s = 0x%02x,\n", packedConstName[i], i); 159 } 160} 161 162emission == "libdex-goto-table" { 163 emissionHandled = 1; 164 165 for (i = 0; i <= MAX_PACKED_OPCODE; i++) { 166 content = sprintf(" H(OP_%s),", packedConstName[i]); 167 printf("%-78s\\\n", content); 168 } 169} 170 171emission == "libdex-opcode-names" { 172 emissionHandled = 1; 173 174 for (i = 0; i <= MAX_PACKED_OPCODE; i++) { 175 printf(" \"%s\",\n", packedName[i]); 176 } 177} 178 179emission == "libdex-widths" { 180 emissionHandled = 1; 181 182 col = 1; 183 for (i = 0; i <= MAX_PACKED_OPCODE; i++) { 184 value = sprintf("%d,", packedWidth[i]); 185 col = colPrint(value, (i == MAX_PACKED_OPCODE), col, 16, 2, " "); 186 } 187} 188 189emission == "libdex-flags" { 190 emissionHandled = 1; 191 192 for (i = 0; i <= MAX_PACKED_OPCODE; i++) { 193 value = flagsToC(packedFlags[i]); 194 printf(" %s,\n", value); 195 } 196} 197 198emission == "libdex-formats" { 199 emissionHandled = 1; 200 201 col = 1; 202 for (i = 0; i <= MAX_PACKED_OPCODE; i++) { 203 value = sprintf("kFmt%s,", packedFormat[i]); 204 col = colPrint(value, (i == MAX_PACKED_OPCODE), col, 7, 9, " "); 205 } 206} 207 208emission == "libdex-index-types" { 209 emissionHandled = 1; 210 211 col = 1; 212 for (i = 0; i <= MAX_PACKED_OPCODE; i++) { 213 value = sprintf("%s,", indexTypeValues[packedIndexType[i]]); 214 col = colPrint(value, (i == MAX_PACKED_OPCODE), col, 3, 19, " "); 215 } 216} 217 218# Handle the end of directive processing (must appear after the directive 219# clauses). 220emission != "" { 221 if (!emissionHandled) { 222 printf("WARNING: unknown tag \"%s\"\n", emission) >"/dev/stderr"; 223 consumeUntil = ""; 224 } 225 226 emission = ""; 227} 228 229# 230# Helper functions. 231# 232 233# Helper to print out an element in a multi-column fashion. It returns 234# the (one-based) column number that the next element will be printed 235# in. 236function colPrint(value, isLast, col, numCols, colWidth, linePrefix) { 237 isLast = (isLast || (col == numCols)); 238 printf("%s%-*s%s", 239 (col == 1) ? linePrefix : " ", 240 isLast ? 1 : colWidth, value, 241 isLast ? "\n" : ""); 242 243 return (col % numCols) + 1; 244} 245 246# Read the bytecode description file. 247function readBytecodes(i, parts, line, cmd, status, count) { 248 # locals: parts, line, cmd, status, count 249 for (;;) { 250 # Read a line. 251 status = getline line <bytecodeFile; 252 if (status == 0) break; 253 if (status < 0) { 254 print "trouble reading bytecode file"; 255 exit 1; 256 } 257 258 # Clean up the line and extract the command. 259 gsub(/ */, " ", line); 260 sub(/ *#.*$/, "", line); 261 sub(/ $/, "", line); 262 sub(/^ /, "", line); 263 count = split(line, parts); 264 if (count == 0) continue; # Blank or comment line. 265 cmd = parts[1]; 266 sub(/^[a-z][a-z]* */, "", line); # Remove the command from line. 267 268 if (cmd == "op") { 269 status = defineOpcode(line); 270 } else if (cmd == "format") { 271 status = defineFormat(line); 272 } else { 273 status = -1; 274 } 275 276 if (status != 0) { 277 printf("syntax error on line: %s\n", line) >"/dev/stderr"; 278 return 1; 279 } 280 } 281 282 return 0; 283} 284 285# Define an opcode. 286function defineOpcode(line, count, parts, idx) { 287 # locals: count, parts, idx 288 count = split(line, parts); 289 if (count != 6) return -1; 290 idx = parseHex(parts[1]); 291 if (idx < 0) return -1; 292 293 # Extract directly specified values from the line. 294 hex[idx] = parts[1]; 295 name[idx] = parts[2]; 296 format[idx] = parts[3]; 297 hasResult[idx] = (parts[4] == "n") ? "false" : "true"; 298 indexType[idx] = parts[5]; 299 flags[idx] = parts[6]; 300 301 # Calculate derived values. 302 303 constName[idx] = toupper(name[idx]); 304 gsub("[/-]", "_", constName[idx]); # Dash and slash become underscore. 305 gsub("[+^]", "", constName[idx]); # Plus and caret are removed. 306 split(name[idx], parts, "/"); 307 308 family[idx] = toupper(parts[1]); 309 gsub("-", "_", family[idx]); # Dash becomes underscore. 310 gsub("[+^]", "", family[idx]); # Plus and caret are removed. 311 312 split(format[idx], parts, ""); # Width is the first format char. 313 width[idx] = parts[1]; 314 315 # This association is used when computing "next" opcodes. 316 familyFormat[family[idx],format[idx]] = idx; 317 318 # Verify values. 319 320 if (nextFormat[format[idx]] == "") { 321 printf("unknown format: %s\n", format[idx]) >"/dev/stderr"; 322 return 1; 323 } 324 325 if (indexTypeValues[indexType[idx]] == "") { 326 printf("unknown index type: %s\n", indexType[idx]) >"/dev/stderr"; 327 return 1; 328 } 329 330 if (flagsToC(flags[idx]) == "") { 331 printf("bogus flags: %s\n", flags[idx]) >"/dev/stderr"; 332 return 1; 333 } 334 335 return 0; 336} 337 338# Define a format family. 339function defineFormat(line, count, parts, i) { 340 # locals: count, parts, i 341 count = split(line, parts); 342 if (count < 1) return -1; 343 formats[parts[1]] = line; 344 345 parts[count + 1] = "none"; 346 for (i = 1; i <= count; i++) { 347 nextFormat[parts[i]] = parts[i + 1]; 348 } 349 350 return 0; 351} 352 353# Produce the nextOpcode and isFirst arrays. The former indicates, for 354# each opcode, which one should be tried next when doing instruction 355# fitting. The latter indicates which opcodes are at the head of an 356# instruction fitting chain. 357function deriveOpcodeChains(i, op) { 358 # locals: i, op 359 360 for (i = 0; i <= MAX_OPCODE; i++) { 361 if (isUnused(i)) continue; 362 isFirst[i] = "true"; 363 } 364 365 for (i = 0; i <= MAX_OPCODE; i++) { 366 if (isUnused(i)) continue; 367 op = findNextOpcode(i); 368 nextOpcode[i] = op; 369 if (op != -1) { 370 isFirst[op] = "false"; 371 } 372 } 373} 374 375# Given an opcode by index, find the next opcode in the same family 376# (that is, with the same base name) to try when matching instructions 377# to opcodes. This simply walks the nextFormat chain looking for a 378# match. This returns the index of the matching opcode or -1 if there 379# is none. 380function findNextOpcode(idx, fam, fmt, result) { 381 # locals: fam, fmt, result 382 fam = family[idx]; 383 fmt = format[idx]; 384 385 # Not every opcode has a version with every possible format, so 386 # we have to iterate down the chain until we find one or run out of 387 # formats to try. 388 for (fmt = nextFormat[format[idx]]; fmt != "none"; fmt = nextFormat[fmt]) { 389 result = familyFormat[fam,fmt]; 390 if (result != "") { 391 return result; 392 } 393 } 394 395 return -1; 396} 397 398# Construct the tables of info indexed by packed opcode. The packed opcode 399# values are in the range 0-0x1ff, whereas the unpacked opcodes sparsely 400# span the range 0-0xffff. 401function createPackedTables(i, op) { 402 # locals: i, op 403 for (i = 0; i <= MAX_PACKED_OPCODE; i++) { 404 op = unpackOpcode(i); 405 if (isUnused(op)) { 406 packedName[i] = unusedName(op); 407 packedConstName[i] = unusedConstName(op); 408 packedFormat[i] = "00x"; 409 packedFlags[i] = 0; 410 packedWidth[i] = 0; 411 packedIndexType[i] = "unknown"; 412 } else { 413 packedName[i] = name[op]; 414 packedConstName[i] = constName[op]; 415 packedFormat[i] = format[op]; 416 packedFlags[i] = flags[op]; 417 packedWidth[i] = width[op]; 418 packedIndexType[i] = indexType[op]; 419 } 420 } 421} 422 423# Given a packed opcode, returns the raw (unpacked) opcode value. 424function unpackOpcode(idx) { 425 # Note: This must be the inverse of the corresponding code in 426 # libdex/DexOpcodes.h. 427 if (idx <= 255) { 428 return idx; 429 } else { 430 idx -= 256; 431 return (idx * 256) + 255; 432 } 433} 434 435# Returns the "unused" name of the given opcode (by index). 436# That is, this is the human-oriented name to use for an opcode 437# definition in cases 438# where the opcode isn't used. 439function unusedName(idx) { 440 if (idx <= 255) { 441 return sprintf("unused-%02x", idx); 442 } else { 443 return sprintf("unused-%04x", idx); 444 } 445} 446 447# Returns the "unused" constant name of the given opcode (by index). 448# That is, this is the name to use for a constant definition in cases 449# where the opcode isn't used. 450function unusedConstName(idx) { 451 if (idx <= 255) { 452 return toupper(sprintf("UNUSED_%02x", idx)); 453 } else { 454 return toupper(sprintf("UNUSED_%04x", idx)); 455 } 456} 457 458# Convert a hex value to an int. 459function parseHex(hex, result, chars, count, c, i) { 460 # locals: result, chars, count, c, i 461 hex = tolower(hex); 462 count = split(hex, chars, ""); 463 result = 0; 464 for (i = 1; i <= count; i++) { 465 c = index("0123456789abcdef", chars[i]); 466 if (c == 0) { 467 printf("bogus hex value: %s\n", hex) >"/dev/stderr"; 468 return -1; 469 } 470 result = (result * 16) + c - 1; 471 } 472 return result; 473} 474 475# Initialize the indexTypes data. 476function initIndexTypes() { 477 indexTypeValues["unknown"] = "kIndexUnknown"; 478 indexTypeValues["none"] = "kIndexNone"; 479 indexTypeValues["varies"] = "kIndexVaries"; 480 indexTypeValues["type-ref"] = "kIndexTypeRef"; 481 indexTypeValues["string-ref"] = "kIndexStringRef"; 482 indexTypeValues["method-ref"] = "kIndexMethodRef"; 483 indexTypeValues["field-ref"] = "kIndexFieldRef"; 484 indexTypeValues["inline-method"] = "kIndexInlineMethod"; 485 indexTypeValues["vtable-offset"] = "kIndexVtableOffset"; 486 indexTypeValues["field-offset"] = "kIndexFieldOffset"; 487} 488 489# Initialize the flags data. 490function initFlags() { 491 flagValues["branch"] = "kInstrCanBranch"; 492 flagValues["continue"] = "kInstrCanContinue"; 493 flagValues["switch"] = "kInstrCanSwitch"; 494 flagValues["throw"] = "kInstrCanThrow"; 495 flagValues["return"] = "kInstrCanReturn"; 496 flagValues["invoke"] = "kInstrInvoke"; 497 flagValues["optimized"] = "0"; # Not represented in C output 498 flagValues["0"] = "0"; 499} 500 501# Translate the given flags into the equivalent C expression. Returns 502# "" on error. 503function flagsToC(f, parts, result, i) { 504 # locals: parts, result, i 505 count = split(f, parts, /\|/); # Split input at pipe characters. 506 result = "0"; 507 508 for (i = 1; i <= count; i++) { 509 f = flagValues[parts[i]]; 510 if (f == "") { 511 printf("bogus flag: %s\n", f) >"/dev/stderr"; 512 return ""; # Bogus flag name. 513 } else if (f == "0") { 514 # Nothing to append for this case. 515 } else if (result == "0") { 516 result = f; 517 } else { 518 result = result "|" f; 519 } 520 } 521 522 return result; 523} 524 525# Returns true if the given opcode (by index) is an "optimized" opcode. 526function isOptimized(idx, parts, f) { 527 # locals: parts, f 528 split(flags[idx], parts, /\|/); # Split flags[idx] at pipes. 529 for (f in parts) { 530 if (parts[f] == "optimized") return 1; 531 } 532 return 0; 533} 534 535# Returns true if there is no definition for the given opcode (by index). 536function isUnused(idx) { 537 return (name[idx] == ""); 538} 539