var.c revision 1.934
1 /* $NetBSD: var.c,v 1.934 2021/06/21 08:40:44 rillig Exp $ */ 2 3 /* 4 * Copyright (c) 1988, 1989, 1990, 1993 5 * The Regents of the University of California. All rights reserved. 6 * 7 * This code is derived from software contributed to Berkeley by 8 * Adam de Boor. 9 * 10 * Redistribution and use in source and binary forms, with or without 11 * modification, are permitted provided that the following conditions 12 * are met: 13 * 1. Redistributions of source code must retain the above copyright 14 * notice, this list of conditions and the following disclaimer. 15 * 2. Redistributions in binary form must reproduce the above copyright 16 * notice, this list of conditions and the following disclaimer in the 17 * documentation and/or other materials provided with the distribution. 18 * 3. Neither the name of the University nor the names of its contributors 19 * may be used to endorse or promote products derived from this software 20 * without specific prior written permission. 21 * 22 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 23 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 24 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 25 * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 26 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 27 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 28 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 29 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 30 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 31 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 32 * SUCH DAMAGE. 33 */ 34 35 /* 36 * Copyright (c) 1989 by Berkeley Softworks 37 * All rights reserved. 38 * 39 * This code is derived from software contributed to Berkeley by 40 * Adam de Boor. 41 * 42 * Redistribution and use in source and binary forms, with or without 43 * modification, are permitted provided that the following conditions 44 * are met: 45 * 1. Redistributions of source code must retain the above copyright 46 * notice, this list of conditions and the following disclaimer. 47 * 2. Redistributions in binary form must reproduce the above copyright 48 * notice, this list of conditions and the following disclaimer in the 49 * documentation and/or other materials provided with the distribution. 50 * 3. All advertising materials mentioning features or use of this software 51 * must display the following acknowledgement: 52 * This product includes software developed by the University of 53 * California, Berkeley and its contributors. 54 * 4. Neither the name of the University nor the names of its contributors 55 * may be used to endorse or promote products derived from this software 56 * without specific prior written permission. 57 * 58 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 59 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 60 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 61 * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 62 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 63 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 64 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 65 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 66 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 67 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 68 * SUCH DAMAGE. 69 */ 70 71 /* 72 * Handling of variables and the expressions formed from them. 73 * 74 * Variables are set using lines of the form VAR=value. Both the variable 75 * name and the value can contain references to other variables, by using 76 * expressions like ${VAR}, ${VAR:Modifiers}, ${${VARNAME}} or ${VAR:${MODS}}. 77 * 78 * Interface: 79 * Var_Init Initialize this module. 80 * 81 * Var_End Clean up the module. 82 * 83 * Var_Set 84 * Var_SetExpand 85 * Set the value of the variable, creating it if 86 * necessary. 87 * 88 * Var_Append 89 * Var_AppendExpand 90 * Append more characters to the variable, creating it if 91 * necessary. A space is placed between the old value and 92 * the new one. 93 * 94 * Var_Exists 95 * Var_ExistsExpand 96 * See if a variable exists. 97 * 98 * Var_Value Return the unexpanded value of a variable, or NULL if 99 * the variable is undefined. 100 * 101 * Var_Subst Substitute all variable expressions in a string. 102 * 103 * Var_Parse Parse a variable expression such as ${VAR:Mpattern}. 104 * 105 * Var_Delete 106 * Var_DeleteExpand 107 * Delete a variable. 108 * 109 * Var_ReexportVars 110 * Export some or even all variables to the environment 111 * of this process and its child processes. 112 * 113 * Var_Export Export the variable to the environment of this process 114 * and its child processes. 115 * 116 * Var_UnExport Don't export the variable anymore. 117 * 118 * Debugging: 119 * Var_Stats Print out hashing statistics if in -dh mode. 120 * 121 * Var_Dump Print out all variables defined in the given scope. 122 * 123 * XXX: There's a lot of almost duplicate code in these functions that only 124 * differs in subtle details that are not mentioned in the manual page. 125 */ 126 127 #include <sys/stat.h> 128 #ifndef NO_REGEX 129 #include <sys/types.h> 130 #include <regex.h> 131 #endif 132 #include <errno.h> 133 #include <inttypes.h> 134 #include <limits.h> 135 #include <time.h> 136 137 #include "make.h" 138 #include "dir.h" 139 #include "job.h" 140 #include "metachar.h" 141 142 /* "@(#)var.c 8.3 (Berkeley) 3/19/94" */ 143 MAKE_RCSID("$NetBSD: var.c,v 1.934 2021/06/21 08:40:44 rillig Exp $"); 144 145 /* 146 * Variables are defined using one of the VAR=value assignments. Their 147 * value can be queried by expressions such as $V, ${VAR}, or with modifiers 148 * such as ${VAR:S,from,to,g:Q}. 149 * 150 * There are 3 kinds of variables: scope variables, environment variables, 151 * undefined variables. 152 * 153 * Scope variables are stored in a GNode.scope. The only way to undefine 154 * a scope variable is using the .undef directive. In particular, it must 155 * not be possible to undefine a variable during the evaluation of an 156 * expression, or Var.name might point nowhere. 157 * 158 * Environment variables are temporary. They are returned by VarFind, and 159 * after using them, they must be freed using VarFreeEnv. 160 * 161 * Undefined variables occur during evaluation of variable expressions such 162 * as ${UNDEF:Ufallback} in Var_Parse and ApplyModifiers. 163 */ 164 typedef struct Var { 165 /* 166 * The name of the variable, once set, doesn't change anymore. 167 * For scope variables, it aliases the corresponding HashEntry name. 168 * For environment and undefined variables, it is allocated. 169 */ 170 FStr name; 171 172 /* The unexpanded value of the variable. */ 173 Buffer val; 174 175 /* The variable came from the command line. */ 176 bool fromCmd: 1; 177 178 /* 179 * The variable comes from the environment. 180 * These variables are not registered in any GNode, therefore they 181 * must be freed as soon as they are not used anymore. 182 */ 183 bool fromEnv: 1; 184 185 /* 186 * The variable value cannot be changed anymore, and the variable 187 * cannot be deleted. Any attempts to do so are silently ignored, 188 * they are logged with -dv though. 189 * 190 * See VAR_SET_READONLY. 191 */ 192 bool readOnly: 1; 193 194 /* 195 * The variable's value is currently being used by Var_Parse or 196 * Var_Subst. This marker is used to avoid endless recursion. 197 */ 198 bool inUse: 1; 199 200 /* 201 * The variable is exported to the environment, to be used by child 202 * processes. 203 */ 204 bool exported: 1; 205 206 /* 207 * At the point where this variable was exported, it contained an 208 * unresolved reference to another variable. Before any child 209 * process is started, it needs to be exported again, in the hope 210 * that the referenced variable can then be resolved. 211 */ 212 bool reexport: 1; 213 } Var; 214 215 /* 216 * Exporting variables is expensive and may leak memory, so skip it if we 217 * can. 218 * 219 * To avoid this, it might be worth encapsulating the environment variables 220 * in a separate data structure called EnvVars. 221 */ 222 typedef enum VarExportedMode { 223 VAR_EXPORTED_NONE, 224 VAR_EXPORTED_SOME, 225 VAR_EXPORTED_ALL 226 } VarExportedMode; 227 228 typedef enum UnexportWhat { 229 /* Unexport the variables given by name. */ 230 UNEXPORT_NAMED, 231 /* 232 * Unexport all globals previously exported, but keep the environment 233 * inherited from the parent. 234 */ 235 UNEXPORT_ALL, 236 /* 237 * Unexport all globals previously exported and clear the environment 238 * inherited from the parent. 239 */ 240 UNEXPORT_ENV 241 } UnexportWhat; 242 243 /* Flags for pattern matching in the :S and :C modifiers */ 244 typedef struct PatternFlags { 245 bool subGlobal: 1; /* 'g': replace as often as possible */ 246 bool subOnce: 1; /* '1': replace only once */ 247 bool anchorStart: 1; /* '^': match only at start of word */ 248 bool anchorEnd: 1; /* '$': match only at end of word */ 249 } PatternFlags; 250 251 /* SepBuf builds a string from words interleaved with separators. */ 252 typedef struct SepBuf { 253 Buffer buf; 254 bool needSep; 255 /* Usually ' ', but see the ':ts' modifier. */ 256 char sep; 257 } SepBuf; 258 259 260 /* 261 * This lets us tell if we have replaced the original environ 262 * (which we cannot free). 263 */ 264 char **savedEnv = NULL; 265 266 /* 267 * Special return value for Var_Parse, indicating a parse error. It may be 268 * caused by an undefined variable, a syntax error in a modifier or 269 * something entirely different. 270 */ 271 char var_Error[] = ""; 272 273 /* 274 * Special return value for Var_Parse, indicating an undefined variable in 275 * a case where VARE_UNDEFERR is not set. This undefined variable is 276 * typically a dynamic variable such as ${.TARGET}, whose expansion needs to 277 * be deferred until it is defined in an actual target. 278 * 279 * See VARE_EVAL_KEEP_UNDEF. 280 */ 281 static char varUndefined[] = ""; 282 283 /* 284 * Traditionally this make consumed $$ during := like any other expansion. 285 * Other make's do not, and this make follows straight since 2016-01-09. 286 * 287 * This knob allows controlling the behavior: 288 * false to consume $$ during := assignment. 289 * true to preserve $$ during := assignment. 290 */ 291 #define MAKE_SAVE_DOLLARS ".MAKE.SAVE_DOLLARS" 292 static bool save_dollars = true; 293 294 /* 295 * A scope collects variable names and their values. 296 * 297 * The main scope is SCOPE_GLOBAL, which contains the variables that are set 298 * in the makefiles. SCOPE_INTERNAL acts as a fallback for SCOPE_GLOBAL and 299 * contains some internal make variables. These internal variables can thus 300 * be overridden, they can also be restored by undefining the overriding 301 * variable. 302 * 303 * SCOPE_CMDLINE contains variables from the command line arguments. These 304 * override variables from SCOPE_GLOBAL. 305 * 306 * There is no scope for environment variables, these are generated on-the-fly 307 * whenever they are referenced. If there were such a scope, each change to 308 * environment variables would have to be reflected in that scope, which may 309 * be simpler or more complex than the current implementation. 310 * 311 * Each target has its own scope, containing the 7 target-local variables 312 * .TARGET, .ALLSRC, etc. No other variables are in these scopes. 313 */ 314 315 GNode *SCOPE_CMDLINE; 316 GNode *SCOPE_GLOBAL; 317 GNode *SCOPE_INTERNAL; 318 319 static VarExportedMode var_exportedVars = VAR_EXPORTED_NONE; 320 321 static const char *VarEvalMode_Name[] = { 322 "parse-only", 323 "eval", 324 "eval-defined", 325 "eval-keep-dollar", 326 "eval-keep-undefined", 327 "eval-keep-dollar-and-undefined", 328 }; 329 330 331 static Var * 332 VarNew(FStr name, const char *value, bool fromEnv, bool readOnly) 333 { 334 size_t value_len = strlen(value); 335 Var *var = bmake_malloc(sizeof *var); 336 var->name = name; 337 Buf_InitSize(&var->val, value_len + 1); 338 Buf_AddBytes(&var->val, value, value_len); 339 var->fromCmd = false; 340 var->fromEnv = fromEnv; 341 var->readOnly = readOnly; 342 var->inUse = false; 343 var->exported = false; 344 var->reexport = false; 345 return var; 346 } 347 348 static Substring 349 CanonicalVarname(Substring name) 350 { 351 352 if (!(Substring_Length(name) > 0 && name.start[0] == '.')) 353 return name; 354 355 if (Substring_Equals(name, ".ALLSRC")) 356 return Substring_InitStr(ALLSRC); 357 if (Substring_Equals(name, ".ARCHIVE")) 358 return Substring_InitStr(ARCHIVE); 359 if (Substring_Equals(name, ".IMPSRC")) 360 return Substring_InitStr(IMPSRC); 361 if (Substring_Equals(name, ".MEMBER")) 362 return Substring_InitStr(MEMBER); 363 if (Substring_Equals(name, ".OODATE")) 364 return Substring_InitStr(OODATE); 365 if (Substring_Equals(name, ".PREFIX")) 366 return Substring_InitStr(PREFIX); 367 if (Substring_Equals(name, ".TARGET")) 368 return Substring_InitStr(TARGET); 369 370 if (Substring_Equals(name, ".SHELL") && shellPath == NULL) 371 Shell_Init(); 372 373 /* GNU make has an additional alias $^ == ${.ALLSRC}. */ 374 375 return name; 376 } 377 378 static Var * 379 GNode_FindVar(GNode *scope, Substring varname, unsigned int hash) 380 { 381 return HashTable_FindValueBySubstringHash(&scope->vars, varname, hash); 382 } 383 384 /* 385 * Find the variable in the scope, and maybe in other scopes as well. 386 * 387 * Input: 388 * name name to find, is not expanded any further 389 * scope scope in which to look first 390 * elsewhere true to look in other scopes as well 391 * 392 * Results: 393 * The found variable, or NULL if the variable does not exist. 394 * If the variable is an environment variable, it must be freed using 395 * VarFreeEnv after use. 396 */ 397 static Var * 398 VarFindSubstring(Substring name, GNode *scope, bool elsewhere) 399 { 400 Var *var; 401 unsigned int nameHash; 402 403 /* Replace '.TARGET' with '@', likewise for other local variables. */ 404 name = CanonicalVarname(name); 405 nameHash = Hash_Substring(name); 406 407 var = GNode_FindVar(scope, name, nameHash); 408 if (!elsewhere) 409 return var; 410 411 if (var == NULL && scope != SCOPE_CMDLINE) 412 var = GNode_FindVar(SCOPE_CMDLINE, name, nameHash); 413 414 if (!opts.checkEnvFirst && var == NULL && scope != SCOPE_GLOBAL) { 415 var = GNode_FindVar(SCOPE_GLOBAL, name, nameHash); 416 if (var == NULL && scope != SCOPE_INTERNAL) { 417 /* SCOPE_INTERNAL is subordinate to SCOPE_GLOBAL */ 418 var = GNode_FindVar(SCOPE_INTERNAL, name, nameHash); 419 } 420 } 421 422 if (var == NULL) { 423 FStr envName; 424 const char *envValue; 425 426 /* 427 * TODO: try setting an environment variable with the empty 428 * name, which should be technically possible, just to see 429 * how make reacts. All .for loops should be broken then. 430 */ 431 envName = Substring_Str(name); 432 envValue = getenv(envName.str); 433 if (envValue != NULL) 434 return VarNew(envName, envValue, true, false); 435 FStr_Done(&envName); 436 437 if (opts.checkEnvFirst && scope != SCOPE_GLOBAL) { 438 var = GNode_FindVar(SCOPE_GLOBAL, name, nameHash); 439 if (var == NULL && scope != SCOPE_INTERNAL) 440 var = GNode_FindVar(SCOPE_INTERNAL, name, 441 nameHash); 442 return var; 443 } 444 445 return NULL; 446 } 447 448 return var; 449 } 450 451 /* TODO: Replace these calls with VarFindSubstring, as far as possible. */ 452 static Var * 453 VarFind(const char *name, GNode *scope, bool elsewhere) 454 { 455 return VarFindSubstring(Substring_InitStr(name), scope, elsewhere); 456 } 457 458 /* If the variable is an environment variable, free it, including its value. */ 459 static void 460 VarFreeEnv(Var *v) 461 { 462 if (!v->fromEnv) 463 return; 464 465 FStr_Done(&v->name); 466 Buf_Done(&v->val); 467 free(v); 468 } 469 470 /* Add a new variable of the given name and value to the given scope. */ 471 static Var * 472 VarAdd(const char *name, const char *value, GNode *scope, VarSetFlags flags) 473 { 474 HashEntry *he = HashTable_CreateEntry(&scope->vars, name, NULL); 475 Var *v = VarNew(FStr_InitRefer(/* aliased to */ he->key), value, 476 false, (flags & VAR_SET_READONLY) != 0); 477 HashEntry_Set(he, v); 478 DEBUG3(VAR, "%s: %s = %s\n", scope->name, name, value); 479 return v; 480 } 481 482 /* 483 * Remove a variable from a scope, freeing all related memory as well. 484 * The variable name is kept as-is, it is not expanded. 485 */ 486 void 487 Var_Delete(GNode *scope, const char *varname) 488 { 489 HashEntry *he = HashTable_FindEntry(&scope->vars, varname); 490 Var *v; 491 492 if (he == NULL) { 493 DEBUG2(VAR, "%s:delete %s (not found)\n", scope->name, varname); 494 return; 495 } 496 497 DEBUG2(VAR, "%s:delete %s\n", scope->name, varname); 498 v = he->value; 499 if (v->exported) 500 unsetenv(v->name.str); 501 if (strcmp(v->name.str, MAKE_EXPORTED) == 0) 502 var_exportedVars = VAR_EXPORTED_NONE; 503 assert(v->name.freeIt == NULL); 504 HashTable_DeleteEntry(&scope->vars, he); 505 Buf_Done(&v->val); 506 free(v); 507 } 508 509 /* 510 * Remove a variable from a scope, freeing all related memory as well. 511 * The variable name is expanded once. 512 */ 513 void 514 Var_DeleteExpand(GNode *scope, const char *name) 515 { 516 FStr varname = FStr_InitRefer(name); 517 518 if (strchr(varname.str, '$') != NULL) { 519 char *expanded; 520 (void)Var_Subst(varname.str, SCOPE_GLOBAL, VARE_WANTRES, 521 &expanded); 522 /* TODO: handle errors */ 523 varname = FStr_InitOwn(expanded); 524 } 525 526 Var_Delete(scope, varname.str); 527 FStr_Done(&varname); 528 } 529 530 /* 531 * Undefine one or more variables from the global scope. 532 * The argument is expanded exactly once and then split into words. 533 */ 534 void 535 Var_Undef(const char *arg) 536 { 537 VarParseResult vpr; 538 char *expanded; 539 Words varnames; 540 size_t i; 541 542 if (arg[0] == '\0') { 543 Parse_Error(PARSE_FATAL, 544 "The .undef directive requires an argument"); 545 return; 546 } 547 548 vpr = Var_Subst(arg, SCOPE_GLOBAL, VARE_WANTRES, &expanded); 549 if (vpr != VPR_OK) { 550 Parse_Error(PARSE_FATAL, 551 "Error in variable names to be undefined"); 552 return; 553 } 554 555 varnames = Str_Words(expanded, false); 556 if (varnames.len == 1 && varnames.words[0][0] == '\0') 557 varnames.len = 0; 558 559 for (i = 0; i < varnames.len; i++) { 560 const char *varname = varnames.words[i]; 561 Global_Delete(varname); 562 } 563 564 Words_Free(varnames); 565 free(expanded); 566 } 567 568 static bool 569 MayExport(const char *name) 570 { 571 if (name[0] == '.') 572 return false; /* skip internals */ 573 if (name[0] == '-') 574 return false; /* skip misnamed variables */ 575 if (name[1] == '\0') { 576 /* 577 * A single char. 578 * If it is one of the variables that should only appear in 579 * local scope, skip it, else we can get Var_Subst 580 * into a loop. 581 */ 582 switch (name[0]) { 583 case '@': 584 case '%': 585 case '*': 586 case '!': 587 return false; 588 } 589 } 590 return true; 591 } 592 593 static bool 594 ExportVarEnv(Var *v) 595 { 596 const char *name = v->name.str; 597 char *val = v->val.data; 598 char *expr; 599 600 if (v->exported && !v->reexport) 601 return false; /* nothing to do */ 602 603 if (strchr(val, '$') == NULL) { 604 if (!v->exported) 605 setenv(name, val, 1); 606 return true; 607 } 608 609 if (v->inUse) { 610 /* 611 * We recursed while exporting in a child. 612 * This isn't going to end well, just skip it. 613 */ 614 return false; 615 } 616 617 /* XXX: name is injected without escaping it */ 618 expr = str_concat3("${", name, "}"); 619 (void)Var_Subst(expr, SCOPE_GLOBAL, VARE_WANTRES, &val); 620 /* TODO: handle errors */ 621 setenv(name, val, 1); 622 free(val); 623 free(expr); 624 return true; 625 } 626 627 static bool 628 ExportVarPlain(Var *v) 629 { 630 if (strchr(v->val.data, '$') == NULL) { 631 setenv(v->name.str, v->val.data, 1); 632 v->exported = true; 633 v->reexport = false; 634 return true; 635 } 636 637 /* 638 * Flag the variable as something we need to re-export. 639 * No point actually exporting it now though, 640 * the child process can do it at the last minute. 641 * Avoid calling setenv more often than necessary since it can leak. 642 */ 643 v->exported = true; 644 v->reexport = true; 645 return true; 646 } 647 648 static bool 649 ExportVarLiteral(Var *v) 650 { 651 if (v->exported && !v->reexport) 652 return false; 653 654 if (!v->exported) 655 setenv(v->name.str, v->val.data, 1); 656 657 return true; 658 } 659 660 /* 661 * Mark a single variable to be exported later for subprocesses. 662 * 663 * Internal variables (those starting with '.') are not exported. 664 */ 665 static bool 666 ExportVar(const char *name, VarExportMode mode) 667 { 668 Var *v; 669 670 if (!MayExport(name)) 671 return false; 672 673 v = VarFind(name, SCOPE_GLOBAL, false); 674 if (v == NULL) 675 return false; 676 677 if (mode == VEM_ENV) 678 return ExportVarEnv(v); 679 else if (mode == VEM_PLAIN) 680 return ExportVarPlain(v); 681 else 682 return ExportVarLiteral(v); 683 } 684 685 /* 686 * Actually export the variables that have been marked as needing to be 687 * re-exported. 688 */ 689 void 690 Var_ReexportVars(void) 691 { 692 char *xvarnames; 693 694 /* 695 * Several make implementations support this sort of mechanism for 696 * tracking recursion - but each uses a different name. 697 * We allow the makefiles to update MAKELEVEL and ensure 698 * children see a correctly incremented value. 699 */ 700 char tmp[21]; 701 snprintf(tmp, sizeof tmp, "%d", makelevel + 1); 702 setenv(MAKE_LEVEL_ENV, tmp, 1); 703 704 if (var_exportedVars == VAR_EXPORTED_NONE) 705 return; 706 707 if (var_exportedVars == VAR_EXPORTED_ALL) { 708 HashIter hi; 709 710 /* Ouch! Exporting all variables at once is crazy. */ 711 HashIter_Init(&hi, &SCOPE_GLOBAL->vars); 712 while (HashIter_Next(&hi) != NULL) { 713 Var *var = hi.entry->value; 714 ExportVar(var->name.str, VEM_ENV); 715 } 716 return; 717 } 718 719 (void)Var_Subst("${" MAKE_EXPORTED ":O:u}", SCOPE_GLOBAL, VARE_WANTRES, 720 &xvarnames); 721 /* TODO: handle errors */ 722 if (xvarnames[0] != '\0') { 723 Words varnames = Str_Words(xvarnames, false); 724 size_t i; 725 726 for (i = 0; i < varnames.len; i++) 727 ExportVar(varnames.words[i], VEM_ENV); 728 Words_Free(varnames); 729 } 730 free(xvarnames); 731 } 732 733 static void 734 ExportVars(const char *varnames, bool isExport, VarExportMode mode) 735 /* TODO: try to combine the parameters 'isExport' and 'mode'. */ 736 { 737 Words words = Str_Words(varnames, false); 738 size_t i; 739 740 if (words.len == 1 && words.words[0][0] == '\0') 741 words.len = 0; 742 743 for (i = 0; i < words.len; i++) { 744 const char *varname = words.words[i]; 745 if (!ExportVar(varname, mode)) 746 continue; 747 748 if (var_exportedVars == VAR_EXPORTED_NONE) 749 var_exportedVars = VAR_EXPORTED_SOME; 750 751 if (isExport && mode == VEM_PLAIN) 752 Global_Append(MAKE_EXPORTED, varname); 753 } 754 Words_Free(words); 755 } 756 757 static void 758 ExportVarsExpand(const char *uvarnames, bool isExport, VarExportMode mode) 759 { 760 char *xvarnames; 761 762 (void)Var_Subst(uvarnames, SCOPE_GLOBAL, VARE_WANTRES, &xvarnames); 763 /* TODO: handle errors */ 764 ExportVars(xvarnames, isExport, mode); 765 free(xvarnames); 766 } 767 768 /* Export the named variables, or all variables. */ 769 void 770 Var_Export(VarExportMode mode, const char *varnames) 771 { 772 if (mode == VEM_PLAIN && varnames[0] == '\0') { 773 var_exportedVars = VAR_EXPORTED_ALL; /* use with caution! */ 774 return; 775 } 776 777 ExportVarsExpand(varnames, true, mode); 778 } 779 780 void 781 Var_ExportVars(const char *varnames) 782 { 783 ExportVarsExpand(varnames, false, VEM_PLAIN); 784 } 785 786 787 extern char **environ; 788 789 static void 790 ClearEnv(void) 791 { 792 const char *cp; 793 char **newenv; 794 795 cp = getenv(MAKE_LEVEL_ENV); /* we should preserve this */ 796 if (environ == savedEnv) { 797 /* we have been here before! */ 798 newenv = bmake_realloc(environ, 2 * sizeof(char *)); 799 } else { 800 if (savedEnv != NULL) { 801 free(savedEnv); 802 savedEnv = NULL; 803 } 804 newenv = bmake_malloc(2 * sizeof(char *)); 805 } 806 807 /* Note: we cannot safely free() the original environ. */ 808 environ = savedEnv = newenv; 809 newenv[0] = NULL; 810 newenv[1] = NULL; 811 if (cp != NULL && *cp != '\0') 812 setenv(MAKE_LEVEL_ENV, cp, 1); 813 } 814 815 static void 816 GetVarnamesToUnexport(bool isEnv, const char *arg, 817 FStr *out_varnames, UnexportWhat *out_what) 818 { 819 UnexportWhat what; 820 FStr varnames = FStr_InitRefer(""); 821 822 if (isEnv) { 823 if (arg[0] != '\0') { 824 Parse_Error(PARSE_FATAL, 825 "The directive .unexport-env does not take " 826 "arguments"); 827 /* continue anyway */ 828 } 829 what = UNEXPORT_ENV; 830 831 } else { 832 what = arg[0] != '\0' ? UNEXPORT_NAMED : UNEXPORT_ALL; 833 if (what == UNEXPORT_NAMED) 834 varnames = FStr_InitRefer(arg); 835 } 836 837 if (what != UNEXPORT_NAMED) { 838 char *expanded; 839 /* Using .MAKE.EXPORTED */ 840 (void)Var_Subst("${" MAKE_EXPORTED ":O:u}", SCOPE_GLOBAL, 841 VARE_WANTRES, &expanded); 842 /* TODO: handle errors */ 843 varnames = FStr_InitOwn(expanded); 844 } 845 846 *out_varnames = varnames; 847 *out_what = what; 848 } 849 850 static void 851 UnexportVar(const char *varname, UnexportWhat what) 852 { 853 Var *v = VarFind(varname, SCOPE_GLOBAL, false); 854 if (v == NULL) { 855 DEBUG1(VAR, "Not unexporting \"%s\" (not found)\n", varname); 856 return; 857 } 858 859 DEBUG1(VAR, "Unexporting \"%s\"\n", varname); 860 if (what != UNEXPORT_ENV && v->exported && !v->reexport) 861 unsetenv(v->name.str); 862 v->exported = false; 863 v->reexport = false; 864 865 if (what == UNEXPORT_NAMED) { 866 /* Remove the variable names from .MAKE.EXPORTED. */ 867 /* XXX: v->name is injected without escaping it */ 868 char *expr = str_concat3("${" MAKE_EXPORTED ":N", 869 v->name.str, "}"); 870 char *cp; 871 (void)Var_Subst(expr, SCOPE_GLOBAL, VARE_WANTRES, &cp); 872 /* TODO: handle errors */ 873 Global_Set(MAKE_EXPORTED, cp); 874 free(cp); 875 free(expr); 876 } 877 } 878 879 static void 880 UnexportVars(FStr *varnames, UnexportWhat what) 881 { 882 size_t i; 883 Words words; 884 885 if (what == UNEXPORT_ENV) 886 ClearEnv(); 887 888 words = Str_Words(varnames->str, false); 889 for (i = 0; i < words.len; i++) { 890 const char *varname = words.words[i]; 891 UnexportVar(varname, what); 892 } 893 Words_Free(words); 894 895 if (what != UNEXPORT_NAMED) 896 Global_Delete(MAKE_EXPORTED); 897 } 898 899 /* 900 * This is called when .unexport[-env] is seen. 901 * 902 * str must have the form "unexport[-env] varname...". 903 */ 904 void 905 Var_UnExport(bool isEnv, const char *arg) 906 { 907 UnexportWhat what; 908 FStr varnames; 909 910 GetVarnamesToUnexport(isEnv, arg, &varnames, &what); 911 UnexportVars(&varnames, what); 912 FStr_Done(&varnames); 913 } 914 915 /* 916 * When there is a variable of the same name in the command line scope, the 917 * global variable would not be visible anywhere. Therefore there is no 918 * point in setting it at all. 919 * 920 * See 'scope == SCOPE_CMDLINE' in Var_SetWithFlags. 921 */ 922 static bool 923 ExistsInCmdline(const char *name, const char *val) 924 { 925 Var *v; 926 927 v = VarFind(name, SCOPE_CMDLINE, false); 928 if (v == NULL) 929 return false; 930 931 if (v->fromCmd) { 932 DEBUG3(VAR, "%s: %s = %s ignored!\n", 933 SCOPE_GLOBAL->name, name, val); 934 return true; 935 } 936 937 VarFreeEnv(v); 938 return false; 939 } 940 941 /* Set the variable to the value; the name is not expanded. */ 942 void 943 Var_SetWithFlags(GNode *scope, const char *name, const char *val, 944 VarSetFlags flags) 945 { 946 Var *v; 947 948 assert(val != NULL); 949 if (name[0] == '\0') { 950 DEBUG0(VAR, "SetVar: variable name is empty - ignored\n"); 951 return; 952 } 953 954 if (scope == SCOPE_GLOBAL && ExistsInCmdline(name, val)) 955 return; 956 957 /* 958 * Only look for a variable in the given scope since anything set 959 * here will override anything in a lower scope, so there's not much 960 * point in searching them all. 961 */ 962 v = VarFind(name, scope, false); 963 if (v == NULL) { 964 if (scope == SCOPE_CMDLINE && !(flags & VAR_SET_NO_EXPORT)) { 965 /* 966 * This var would normally prevent the same name being 967 * added to SCOPE_GLOBAL, so delete it from there if 968 * needed. Otherwise -V name may show the wrong value. 969 * 970 * See ExistsInCmdline. 971 */ 972 Var_Delete(SCOPE_GLOBAL, name); 973 } 974 v = VarAdd(name, val, scope, flags); 975 } else { 976 if (v->readOnly && !(flags & VAR_SET_READONLY)) { 977 DEBUG3(VAR, "%s: %s = %s ignored (read-only)\n", 978 scope->name, name, val); 979 return; 980 } 981 Buf_Empty(&v->val); 982 Buf_AddStr(&v->val, val); 983 984 DEBUG3(VAR, "%s: %s = %s\n", scope->name, name, val); 985 if (v->exported) 986 ExportVar(name, VEM_PLAIN); 987 } 988 989 /* 990 * Any variables given on the command line are automatically exported 991 * to the environment (as per POSIX standard), except for internals. 992 */ 993 if (scope == SCOPE_CMDLINE && !(flags & VAR_SET_NO_EXPORT) && 994 name[0] != '.') { 995 v->fromCmd = true; 996 997 /* 998 * If requested, don't export these in the environment 999 * individually. We still put them in MAKEOVERRIDES so 1000 * that the command-line settings continue to override 1001 * Makefile settings. 1002 */ 1003 if (!opts.varNoExportEnv) 1004 setenv(name, val, 1); 1005 /* XXX: What about .MAKE.EXPORTED? */ 1006 /* XXX: Why not just mark the variable for needing export, 1007 * as in ExportVarPlain? */ 1008 1009 Global_Append(MAKEOVERRIDES, name); 1010 } 1011 1012 if (name[0] == '.' && strcmp(name, MAKE_SAVE_DOLLARS) == 0) 1013 save_dollars = ParseBoolean(val, save_dollars); 1014 1015 if (v != NULL) 1016 VarFreeEnv(v); 1017 } 1018 1019 /* See Var_Set for documentation. */ 1020 void 1021 Var_SetExpandWithFlags(GNode *scope, const char *name, const char *val, 1022 VarSetFlags flags) 1023 { 1024 const char *unexpanded_name = name; 1025 FStr varname = FStr_InitRefer(name); 1026 1027 assert(val != NULL); 1028 1029 if (strchr(varname.str, '$') != NULL) { 1030 char *expanded; 1031 (void)Var_Subst(varname.str, scope, VARE_WANTRES, &expanded); 1032 /* TODO: handle errors */ 1033 varname = FStr_InitOwn(expanded); 1034 } 1035 1036 if (varname.str[0] == '\0') { 1037 DEBUG2(VAR, 1038 "Var_SetExpand: variable name \"%s\" expands " 1039 "to empty string, with value \"%s\" - ignored\n", 1040 unexpanded_name, val); 1041 } else 1042 Var_SetWithFlags(scope, varname.str, val, flags); 1043 1044 FStr_Done(&varname); 1045 } 1046 1047 void 1048 Var_Set(GNode *scope, const char *name, const char *val) 1049 { 1050 Var_SetWithFlags(scope, name, val, VAR_SET_NONE); 1051 } 1052 1053 /* 1054 * Set the variable name to the value val in the given scope. 1055 * 1056 * If the variable doesn't yet exist, it is created. 1057 * Otherwise the new value overwrites and replaces the old value. 1058 * 1059 * Input: 1060 * name name of the variable to set, is expanded once 1061 * val value to give to the variable 1062 * scope scope in which to set it 1063 */ 1064 void 1065 Var_SetExpand(GNode *scope, const char *name, const char *val) 1066 { 1067 Var_SetExpandWithFlags(scope, name, val, VAR_SET_NONE); 1068 } 1069 1070 void 1071 Global_Set(const char *name, const char *value) 1072 { 1073 Var_Set(SCOPE_GLOBAL, name, value); 1074 } 1075 1076 void 1077 Global_SetExpand(const char *name, const char *value) 1078 { 1079 Var_SetExpand(SCOPE_GLOBAL, name, value); 1080 } 1081 1082 void 1083 Global_Delete(const char *name) 1084 { 1085 Var_Delete(SCOPE_GLOBAL, name); 1086 } 1087 1088 /* 1089 * Append the value to the named variable. 1090 * 1091 * If the variable doesn't exist, it is created. Otherwise a single space 1092 * and the given value are appended. 1093 */ 1094 void 1095 Var_Append(GNode *scope, const char *name, const char *val) 1096 { 1097 Var *v; 1098 1099 v = VarFind(name, scope, scope == SCOPE_GLOBAL); 1100 1101 if (v == NULL) { 1102 Var_SetWithFlags(scope, name, val, VAR_SET_NONE); 1103 } else if (v->readOnly) { 1104 DEBUG1(VAR, "Ignoring append to %s since it is read-only\n", 1105 name); 1106 } else if (scope == SCOPE_CMDLINE || !v->fromCmd) { 1107 Buf_AddByte(&v->val, ' '); 1108 Buf_AddStr(&v->val, val); 1109 1110 DEBUG3(VAR, "%s: %s = %s\n", scope->name, name, v->val.data); 1111 1112 if (v->fromEnv) { 1113 /* 1114 * If the original variable came from the environment, 1115 * we have to install it in the global scope (we 1116 * could place it in the environment, but then we 1117 * should provide a way to export other variables...) 1118 */ 1119 v->fromEnv = false; 1120 /* 1121 * This is the only place where a variable is 1122 * created whose v->name is not the same as 1123 * scope->vars->key. 1124 */ 1125 HashTable_Set(&scope->vars, name, v); 1126 } 1127 } 1128 } 1129 1130 /* 1131 * The variable of the given name has the given value appended to it in the 1132 * given scope. 1133 * 1134 * If the variable doesn't exist, it is created. Otherwise the strings are 1135 * concatenated, with a space in between. 1136 * 1137 * Input: 1138 * name name of the variable to modify, is expanded once 1139 * val string to append to it 1140 * scope scope in which this should occur 1141 * 1142 * Notes: 1143 * Only if the variable is being sought in the global scope is the 1144 * environment searched. 1145 * XXX: Knows its calling circumstances in that if called with scope 1146 * an actual target, it will only search that scope since only 1147 * a local variable could be being appended to. This is actually 1148 * a big win and must be tolerated. 1149 */ 1150 void 1151 Var_AppendExpand(GNode *scope, const char *name, const char *val) 1152 { 1153 FStr xname = FStr_InitRefer(name); 1154 1155 assert(val != NULL); 1156 1157 if (strchr(name, '$') != NULL) { 1158 char *expanded; 1159 (void)Var_Subst(name, scope, VARE_WANTRES, &expanded); 1160 /* TODO: handle errors */ 1161 xname = FStr_InitOwn(expanded); 1162 if (expanded[0] == '\0') { 1163 DEBUG2(VAR, 1164 "Var_AppendExpand: variable name \"%s\" expands " 1165 "to empty string, with value \"%s\" - ignored\n", 1166 name, val); 1167 FStr_Done(&xname); 1168 return; 1169 } 1170 } 1171 1172 Var_Append(scope, xname.str, val); 1173 1174 FStr_Done(&xname); 1175 } 1176 1177 void 1178 Global_Append(const char *name, const char *value) 1179 { 1180 Var_Append(SCOPE_GLOBAL, name, value); 1181 } 1182 1183 bool 1184 Var_Exists(GNode *scope, const char *name) 1185 { 1186 Var *v = VarFind(name, scope, true); 1187 if (v == NULL) 1188 return false; 1189 1190 VarFreeEnv(v); 1191 return true; 1192 } 1193 1194 /* 1195 * See if the given variable exists, in the given scope or in other 1196 * fallback scopes. 1197 * 1198 * Input: 1199 * name Variable to find, is expanded once 1200 * scope Scope in which to start search 1201 */ 1202 bool 1203 Var_ExistsExpand(GNode *scope, const char *name) 1204 { 1205 FStr varname = FStr_InitRefer(name); 1206 bool exists; 1207 1208 if (strchr(varname.str, '$') != NULL) { 1209 char *expanded; 1210 (void)Var_Subst(varname.str, scope, VARE_WANTRES, &expanded); 1211 /* TODO: handle errors */ 1212 varname = FStr_InitOwn(expanded); 1213 } 1214 1215 exists = Var_Exists(scope, varname.str); 1216 FStr_Done(&varname); 1217 return exists; 1218 } 1219 1220 /* 1221 * Return the unexpanded value of the given variable in the given scope, 1222 * or the usual scopes. 1223 * 1224 * Input: 1225 * name name to find, is not expanded any further 1226 * scope scope in which to search for it 1227 * 1228 * Results: 1229 * The value if the variable exists, NULL if it doesn't. 1230 * The value is valid until the next modification to any variable. 1231 */ 1232 FStr 1233 Var_Value(GNode *scope, const char *name) 1234 { 1235 Var *v = VarFind(name, scope, true); 1236 char *value; 1237 1238 if (v == NULL) 1239 return FStr_InitRefer(NULL); 1240 1241 if (!v->fromEnv) 1242 return FStr_InitRefer(v->val.data); 1243 1244 /* Since environment variables are short-lived, free it now. */ 1245 FStr_Done(&v->name); 1246 value = Buf_DoneData(&v->val); 1247 free(v); 1248 return FStr_InitOwn(value); 1249 } 1250 1251 /* 1252 * Return the unexpanded variable value from this node, without trying to look 1253 * up the variable in any other scope. 1254 */ 1255 const char * 1256 GNode_ValueDirect(GNode *gn, const char *name) 1257 { 1258 Var *v = VarFind(name, gn, false); 1259 return v != NULL ? v->val.data : NULL; 1260 } 1261 1262 static VarEvalMode 1263 VarEvalMode_WithoutKeepDollar(VarEvalMode emode) 1264 { 1265 if (emode == VARE_KEEP_DOLLAR_UNDEF) 1266 return VARE_EVAL_KEEP_UNDEF; 1267 if (emode == VARE_EVAL_KEEP_DOLLAR) 1268 return VARE_WANTRES; 1269 return emode; 1270 } 1271 1272 static VarEvalMode 1273 VarEvalMode_UndefOk(VarEvalMode emode) 1274 { 1275 return emode == VARE_UNDEFERR ? VARE_WANTRES : emode; 1276 } 1277 1278 static bool 1279 VarEvalMode_ShouldEval(VarEvalMode emode) 1280 { 1281 return emode != VARE_PARSE_ONLY; 1282 } 1283 1284 static bool 1285 VarEvalMode_ShouldKeepUndef(VarEvalMode emode) 1286 { 1287 return emode == VARE_EVAL_KEEP_UNDEF || 1288 emode == VARE_KEEP_DOLLAR_UNDEF; 1289 } 1290 1291 static bool 1292 VarEvalMode_ShouldKeepDollar(VarEvalMode emode) 1293 { 1294 return emode == VARE_EVAL_KEEP_DOLLAR || 1295 emode == VARE_KEEP_DOLLAR_UNDEF; 1296 } 1297 1298 1299 static void 1300 SepBuf_Init(SepBuf *buf, char sep) 1301 { 1302 Buf_InitSize(&buf->buf, 32); 1303 buf->needSep = false; 1304 buf->sep = sep; 1305 } 1306 1307 static void 1308 SepBuf_Sep(SepBuf *buf) 1309 { 1310 buf->needSep = true; 1311 } 1312 1313 static void 1314 SepBuf_AddBytes(SepBuf *buf, const char *mem, size_t mem_size) 1315 { 1316 if (mem_size == 0) 1317 return; 1318 if (buf->needSep && buf->sep != '\0') { 1319 Buf_AddByte(&buf->buf, buf->sep); 1320 buf->needSep = false; 1321 } 1322 Buf_AddBytes(&buf->buf, mem, mem_size); 1323 } 1324 1325 static void 1326 SepBuf_AddBytesBetween(SepBuf *buf, const char *start, const char *end) 1327 { 1328 SepBuf_AddBytes(buf, start, (size_t)(end - start)); 1329 } 1330 1331 static void 1332 SepBuf_AddStr(SepBuf *buf, const char *str) 1333 { 1334 SepBuf_AddBytes(buf, str, strlen(str)); 1335 } 1336 1337 static void 1338 SepBuf_AddSubstring(SepBuf *buf, Substring sub) 1339 { 1340 SepBuf_AddBytesBetween(buf, sub.start, sub.end); 1341 } 1342 1343 static char * 1344 SepBuf_DoneData(SepBuf *buf) 1345 { 1346 return Buf_DoneData(&buf->buf); 1347 } 1348 1349 1350 /* 1351 * This callback for ModifyWords gets a single word from a variable expression 1352 * and typically adds a modification of this word to the buffer. It may also 1353 * do nothing or add several words. 1354 * 1355 * For example, when evaluating the modifier ':M*b' in ${:Ua b c:M*b}, the 1356 * callback is called 3 times, once for "a", "b" and "c". 1357 * 1358 * Some ModifyWord functions assume that they are always passed a 1359 * null-terminated substring, which is currently guaranteed but may change in 1360 * the future. 1361 */ 1362 typedef void (*ModifyWordProc)(Substring word, SepBuf *buf, void *data); 1363 1364 1365 /* 1366 * Callback for ModifyWords to implement the :H modifier. 1367 * Add the dirname of the given word to the buffer. 1368 */ 1369 /*ARGSUSED*/ 1370 static void 1371 ModifyWord_Head(Substring word, SepBuf *buf, void *dummy MAKE_ATTR_UNUSED) 1372 { 1373 SepBuf_AddSubstring(buf, Substring_Dirname(word)); 1374 } 1375 1376 /* 1377 * Callback for ModifyWords to implement the :T modifier. 1378 * Add the basename of the given word to the buffer. 1379 */ 1380 /*ARGSUSED*/ 1381 static void 1382 ModifyWord_Tail(Substring word, SepBuf *buf, void *dummy MAKE_ATTR_UNUSED) 1383 { 1384 SepBuf_AddSubstring(buf, Substring_Basename(word)); 1385 } 1386 1387 /* 1388 * Callback for ModifyWords to implement the :E modifier. 1389 * Add the filename suffix of the given word to the buffer, if it exists. 1390 */ 1391 /*ARGSUSED*/ 1392 static void 1393 ModifyWord_Suffix(Substring word, SepBuf *buf, void *dummy MAKE_ATTR_UNUSED) 1394 { 1395 const char *lastDot = Substring_LastIndex(word, '.'); 1396 if (lastDot != NULL) 1397 SepBuf_AddBytesBetween(buf, lastDot + 1, word.end); 1398 } 1399 1400 /* 1401 * Callback for ModifyWords to implement the :R modifier. 1402 * Add the filename without extension of the given word to the buffer. 1403 */ 1404 /*ARGSUSED*/ 1405 static void 1406 ModifyWord_Root(Substring word, SepBuf *buf, void *dummy MAKE_ATTR_UNUSED) 1407 { 1408 const char *lastDot, *end; 1409 1410 lastDot = Substring_LastIndex(word, '.'); 1411 end = lastDot != NULL ? lastDot : word.end; 1412 SepBuf_AddBytesBetween(buf, word.start, end); 1413 } 1414 1415 /* 1416 * Callback for ModifyWords to implement the :M modifier. 1417 * Place the word in the buffer if it matches the given pattern. 1418 */ 1419 static void 1420 ModifyWord_Match(Substring word, SepBuf *buf, void *data) 1421 { 1422 const char *pattern = data; 1423 1424 assert(word.end[0] == '\0'); /* assume null-terminated word */ 1425 if (Str_Match(word.start, pattern)) 1426 SepBuf_AddSubstring(buf, word); 1427 } 1428 1429 /* 1430 * Callback for ModifyWords to implement the :N modifier. 1431 * Place the word in the buffer if it doesn't match the given pattern. 1432 */ 1433 static void 1434 ModifyWord_NoMatch(Substring word, SepBuf *buf, void *data) 1435 { 1436 const char *pattern = data; 1437 1438 assert(word.end[0] == '\0'); /* assume null-terminated word */ 1439 if (!Str_Match(word.start, pattern)) 1440 SepBuf_AddSubstring(buf, word); 1441 } 1442 1443 #ifdef SYSVVARSUB 1444 struct ModifyWord_SysVSubstArgs { 1445 GNode *scope; 1446 Substring lhsPrefix; 1447 bool lhsPercent; 1448 Substring lhsSuffix; 1449 const char *rhs; 1450 }; 1451 1452 /* Callback for ModifyWords to implement the :%.from=%.to modifier. */ 1453 static void 1454 ModifyWord_SysVSubst(Substring word, SepBuf *buf, void *data) 1455 { 1456 const struct ModifyWord_SysVSubstArgs *args = data; 1457 FStr rhs; 1458 char *rhsExp; 1459 const char *percent; 1460 1461 if (Substring_IsEmpty(word)) 1462 return; 1463 1464 if (!Substring_HasPrefix(word, args->lhsPrefix)) 1465 goto no_match; 1466 if (!Substring_HasSuffix(word, args->lhsSuffix)) 1467 goto no_match; 1468 1469 rhs = FStr_InitRefer(args->rhs); 1470 if (strchr(rhs.str, '$') != NULL) { 1471 (void)Var_Subst(args->rhs, args->scope, VARE_WANTRES, &rhsExp); 1472 /* TODO: handle errors */ 1473 rhs = FStr_InitOwn(rhsExp); 1474 } 1475 1476 percent = args->lhsPercent ? strchr(rhs.str, '%') : NULL; 1477 1478 if (percent != NULL) 1479 SepBuf_AddBytesBetween(buf, rhs.str, percent); 1480 if (percent != NULL || !args->lhsPercent) 1481 SepBuf_AddBytesBetween(buf, 1482 word.start + Substring_Length(args->lhsPrefix), 1483 word.end - Substring_Length(args->lhsSuffix)); 1484 SepBuf_AddStr(buf, percent != NULL ? percent + 1 : rhs.str); 1485 1486 FStr_Done(&rhs); 1487 return; 1488 1489 no_match: 1490 SepBuf_AddSubstring(buf, word); 1491 } 1492 #endif 1493 1494 1495 struct ModifyWord_SubstArgs { 1496 Substring lhs; 1497 Substring rhs; 1498 PatternFlags pflags; 1499 bool matched; 1500 }; 1501 1502 static const char * 1503 Substring_Find(Substring haystack, Substring needle) 1504 { 1505 size_t len, needleLen, i; 1506 1507 len = Substring_Length(haystack); 1508 needleLen = Substring_Length(needle); 1509 for (i = 0; i + needleLen <= len; i++) 1510 if (memcmp(haystack.start + i, needle.start, needleLen) == 0) 1511 return haystack.start + i; 1512 return NULL; 1513 } 1514 1515 /* 1516 * Callback for ModifyWords to implement the :S,from,to, modifier. 1517 * Perform a string substitution on the given word. 1518 */ 1519 static void 1520 ModifyWord_Subst(Substring word, SepBuf *buf, void *data) 1521 { 1522 struct ModifyWord_SubstArgs *args = data; 1523 size_t wordLen, lhsLen; 1524 const char *wordEnd, *match; 1525 1526 wordLen = Substring_Length(word); 1527 wordEnd = word.end; 1528 if (args->pflags.subOnce && args->matched) 1529 goto nosub; 1530 1531 lhsLen = Substring_Length(args->lhs); 1532 if (args->pflags.anchorStart) { 1533 if (wordLen < lhsLen || 1534 memcmp(word.start, args->lhs.start, lhsLen) != 0) 1535 goto nosub; 1536 1537 if (args->pflags.anchorEnd && wordLen != lhsLen) 1538 goto nosub; 1539 1540 /* :S,^prefix,replacement, or :S,^whole$,replacement, */ 1541 SepBuf_AddSubstring(buf, args->rhs); 1542 SepBuf_AddBytesBetween(buf, word.start + lhsLen, wordEnd); 1543 args->matched = true; 1544 return; 1545 } 1546 1547 if (args->pflags.anchorEnd) { 1548 if (wordLen < lhsLen) 1549 goto nosub; 1550 if (memcmp(wordEnd - lhsLen, args->lhs.start, lhsLen) != 0) 1551 goto nosub; 1552 1553 /* :S,suffix$,replacement, */ 1554 SepBuf_AddBytesBetween(buf, word.start, wordEnd - lhsLen); 1555 SepBuf_AddSubstring(buf, args->rhs); 1556 args->matched = true; 1557 return; 1558 } 1559 1560 if (Substring_IsEmpty(args->lhs)) 1561 goto nosub; 1562 1563 /* unanchored case, may match more than once */ 1564 while ((match = Substring_Find(word, args->lhs)) != NULL) { 1565 SepBuf_AddBytesBetween(buf, word.start, match); 1566 SepBuf_AddSubstring(buf, args->rhs); 1567 args->matched = true; 1568 word.start = match + lhsLen; 1569 if (Substring_IsEmpty(word) || !args->pflags.subGlobal) 1570 break; 1571 } 1572 nosub: 1573 SepBuf_AddSubstring(buf, word); 1574 } 1575 1576 #ifndef NO_REGEX 1577 /* Print the error caused by a regcomp or regexec call. */ 1578 static void 1579 VarREError(int reerr, const regex_t *pat, const char *str) 1580 { 1581 size_t errlen = regerror(reerr, pat, NULL, 0); 1582 char *errbuf = bmake_malloc(errlen); 1583 regerror(reerr, pat, errbuf, errlen); 1584 Error("%s: %s", str, errbuf); 1585 free(errbuf); 1586 } 1587 1588 struct ModifyWord_SubstRegexArgs { 1589 regex_t re; 1590 size_t nsub; 1591 const char *replace; 1592 PatternFlags pflags; 1593 bool matched; 1594 }; 1595 1596 /* 1597 * Callback for ModifyWords to implement the :C/from/to/ modifier. 1598 * Perform a regex substitution on the given word. 1599 */ 1600 static void 1601 ModifyWord_SubstRegex(Substring word, SepBuf *buf, void *data) 1602 { 1603 struct ModifyWord_SubstRegexArgs *args = data; 1604 int xrv; 1605 const char *wp; 1606 const char *rp; 1607 int flags = 0; 1608 regmatch_t m[10]; 1609 1610 assert(word.end[0] == '\0'); /* assume null-terminated word */ 1611 wp = word.start; 1612 if (args->pflags.subOnce && args->matched) 1613 goto nosub; 1614 1615 tryagain: 1616 xrv = regexec(&args->re, wp, args->nsub, m, flags); 1617 1618 switch (xrv) { 1619 case 0: 1620 args->matched = true; 1621 SepBuf_AddBytes(buf, wp, (size_t)m[0].rm_so); 1622 1623 /* 1624 * Replacement of regular expressions is not specified by 1625 * POSIX, therefore implement it here. 1626 */ 1627 1628 for (rp = args->replace; *rp != '\0'; rp++) { 1629 if (*rp == '\\' && (rp[1] == '&' || rp[1] == '\\')) { 1630 SepBuf_AddBytes(buf, rp + 1, 1); 1631 rp++; 1632 continue; 1633 } 1634 1635 if (*rp == '&') { 1636 SepBuf_AddBytesBetween(buf, 1637 wp + m[0].rm_so, wp + m[0].rm_eo); 1638 continue; 1639 } 1640 1641 if (*rp != '\\' || !ch_isdigit(rp[1])) { 1642 SepBuf_AddBytes(buf, rp, 1); 1643 continue; 1644 } 1645 1646 { /* \0 to \9 backreference */ 1647 size_t n = (size_t)(rp[1] - '0'); 1648 rp++; 1649 1650 if (n >= args->nsub) { 1651 Error("No subexpression \\%u", 1652 (unsigned)n); 1653 } else if (m[n].rm_so == -1) { 1654 if (opts.strict) { 1655 Error( 1656 "No match for subexpression \\%u", 1657 (unsigned)n); 1658 } 1659 } else { 1660 SepBuf_AddBytesBetween(buf, 1661 wp + m[n].rm_so, wp + m[n].rm_eo); 1662 } 1663 } 1664 } 1665 1666 wp += m[0].rm_eo; 1667 if (args->pflags.subGlobal) { 1668 flags |= REG_NOTBOL; 1669 if (m[0].rm_so == 0 && m[0].rm_eo == 0) { 1670 SepBuf_AddBytes(buf, wp, 1); 1671 wp++; 1672 } 1673 if (*wp != '\0') 1674 goto tryagain; 1675 } 1676 if (*wp != '\0') 1677 SepBuf_AddStr(buf, wp); 1678 break; 1679 default: 1680 VarREError(xrv, &args->re, "Unexpected regex error"); 1681 /* FALLTHROUGH */ 1682 case REG_NOMATCH: 1683 nosub: 1684 SepBuf_AddStr(buf, wp); 1685 break; 1686 } 1687 } 1688 #endif 1689 1690 1691 struct ModifyWord_LoopArgs { 1692 GNode *scope; 1693 const char *var; /* name of the temporary variable */ 1694 const char *body; /* string to expand */ 1695 VarEvalMode emode; 1696 }; 1697 1698 /* Callback for ModifyWords to implement the :@var (at) ...@ modifier of ODE make. */ 1699 static void 1700 ModifyWord_Loop(Substring word, SepBuf *buf, void *data) 1701 { 1702 const struct ModifyWord_LoopArgs *args; 1703 char *s; 1704 1705 if (Substring_IsEmpty(word)) 1706 return; 1707 1708 args = data; 1709 assert(word.end[0] == '\0'); /* assume null-terminated word */ 1710 Var_SetWithFlags(args->scope, args->var, word.start, 1711 VAR_SET_NO_EXPORT); 1712 (void)Var_Subst(args->body, args->scope, args->emode, &s); 1713 /* TODO: handle errors */ 1714 1715 assert(word.end[0] == '\0'); /* assume null-terminated word */ 1716 DEBUG4(VAR, "ModifyWord_Loop: " 1717 "in \"%s\", replace \"%s\" with \"%s\" to \"%s\"\n", 1718 word.start, args->var, args->body, s); 1719 1720 if (s[0] == '\n' || Buf_EndsWith(&buf->buf, '\n')) 1721 buf->needSep = false; 1722 SepBuf_AddStr(buf, s); 1723 free(s); 1724 } 1725 1726 1727 /* 1728 * The :[first..last] modifier selects words from the expression. 1729 * It can also reverse the words. 1730 */ 1731 static char * 1732 VarSelectWords(const char *str, int first, int last, 1733 char sep, bool oneBigWord) 1734 { 1735 Words words; 1736 int len, start, end, step; 1737 int i; 1738 1739 SepBuf buf; 1740 SepBuf_Init(&buf, sep); 1741 1742 if (oneBigWord) { 1743 /* fake what Str_Words() would do if there were only one word */ 1744 words.len = 1; 1745 words.words = bmake_malloc( 1746 (words.len + 1) * sizeof(words.words[0])); 1747 words.freeIt = bmake_strdup(str); 1748 words.words[0] = words.freeIt; 1749 words.words[1] = NULL; 1750 } else { 1751 words = Str_Words(str, false); 1752 } 1753 1754 /* 1755 * Now sanitize the given range. If first or last are negative, 1756 * convert them to the positive equivalents (-1 gets converted to len, 1757 * -2 gets converted to (len - 1), etc.). 1758 */ 1759 len = (int)words.len; 1760 if (first < 0) 1761 first += len + 1; 1762 if (last < 0) 1763 last += len + 1; 1764 1765 /* We avoid scanning more of the list than we need to. */ 1766 if (first > last) { 1767 start = (first > len ? len : first) - 1; 1768 end = last < 1 ? 0 : last - 1; 1769 step = -1; 1770 } else { 1771 start = first < 1 ? 0 : first - 1; 1772 end = last > len ? len : last; 1773 step = 1; 1774 } 1775 1776 for (i = start; (step < 0) == (i >= end); i += step) { 1777 SepBuf_AddStr(&buf, words.words[i]); 1778 SepBuf_Sep(&buf); 1779 } 1780 1781 Words_Free(words); 1782 1783 return SepBuf_DoneData(&buf); 1784 } 1785 1786 1787 /* 1788 * Callback for ModifyWords to implement the :tA modifier. 1789 * Replace each word with the result of realpath() if successful. 1790 */ 1791 /*ARGSUSED*/ 1792 static void 1793 ModifyWord_Realpath(Substring word, SepBuf *buf, void *data MAKE_ATTR_UNUSED) 1794 { 1795 struct stat st; 1796 char rbuf[MAXPATHLEN]; 1797 const char *rp; 1798 1799 assert(word.end[0] == '\0'); /* assume null-terminated word */ 1800 rp = cached_realpath(word.start, rbuf); 1801 if (rp != NULL && *rp == '/' && stat(rp, &st) == 0) 1802 SepBuf_AddStr(buf, rp); 1803 else 1804 SepBuf_AddSubstring(buf, word); 1805 } 1806 1807 1808 static char * 1809 Words_JoinFree(Words words) 1810 { 1811 Buffer buf; 1812 size_t i; 1813 1814 Buf_Init(&buf); 1815 1816 for (i = 0; i < words.len; i++) { 1817 if (i != 0) { 1818 /* XXX: Use ch->sep instead of ' ', for consistency. */ 1819 Buf_AddByte(&buf, ' '); 1820 } 1821 Buf_AddStr(&buf, words.words[i]); 1822 } 1823 1824 Words_Free(words); 1825 1826 return Buf_DoneData(&buf); 1827 } 1828 1829 1830 /* 1831 * Quote shell meta-characters and space characters in the string. 1832 * If quoteDollar is set, also quote and double any '$' characters. 1833 */ 1834 static void 1835 VarQuote(const char *str, bool quoteDollar, LazyBuf *buf) 1836 { 1837 const char *p; 1838 1839 LazyBuf_Init(buf, str); 1840 for (p = str; *p != '\0'; p++) { 1841 if (*p == '\n') { 1842 const char *newline = Shell_GetNewline(); 1843 if (newline == NULL) 1844 newline = "\\\n"; 1845 LazyBuf_AddStr(buf, newline); 1846 continue; 1847 } 1848 if (ch_isspace(*p) || is_shell_metachar((unsigned char)*p)) 1849 LazyBuf_Add(buf, '\\'); 1850 LazyBuf_Add(buf, *p); 1851 if (quoteDollar && *p == '$') 1852 LazyBuf_AddStr(buf, "\\$"); 1853 } 1854 } 1855 1856 /* 1857 * Compute the 32-bit hash of the given string, using the MurmurHash3 1858 * algorithm. Output is encoded as 8 hex digits, in Little Endian order. 1859 */ 1860 static char * 1861 VarHash(const char *str) 1862 { 1863 static const char hexdigits[16] = "0123456789abcdef"; 1864 const unsigned char *ustr = (const unsigned char *)str; 1865 1866 uint32_t h = 0x971e137bU; 1867 uint32_t c1 = 0x95543787U; 1868 uint32_t c2 = 0x2ad7eb25U; 1869 size_t len2 = strlen(str); 1870 1871 char *buf; 1872 size_t i; 1873 1874 size_t len; 1875 for (len = len2; len != 0;) { 1876 uint32_t k = 0; 1877 switch (len) { 1878 default: 1879 k = ((uint32_t)ustr[3] << 24) | 1880 ((uint32_t)ustr[2] << 16) | 1881 ((uint32_t)ustr[1] << 8) | 1882 (uint32_t)ustr[0]; 1883 len -= 4; 1884 ustr += 4; 1885 break; 1886 case 3: 1887 k |= (uint32_t)ustr[2] << 16; 1888 /* FALLTHROUGH */ 1889 case 2: 1890 k |= (uint32_t)ustr[1] << 8; 1891 /* FALLTHROUGH */ 1892 case 1: 1893 k |= (uint32_t)ustr[0]; 1894 len = 0; 1895 } 1896 c1 = c1 * 5 + 0x7b7d159cU; 1897 c2 = c2 * 5 + 0x6bce6396U; 1898 k *= c1; 1899 k = (k << 11) ^ (k >> 21); 1900 k *= c2; 1901 h = (h << 13) ^ (h >> 19); 1902 h = h * 5 + 0x52dce729U; 1903 h ^= k; 1904 } 1905 h ^= (uint32_t)len2; 1906 h *= 0x85ebca6b; 1907 h ^= h >> 13; 1908 h *= 0xc2b2ae35; 1909 h ^= h >> 16; 1910 1911 buf = bmake_malloc(9); 1912 for (i = 0; i < 8; i++) { 1913 buf[i] = hexdigits[h & 0x0f]; 1914 h >>= 4; 1915 } 1916 buf[8] = '\0'; 1917 return buf; 1918 } 1919 1920 static char * 1921 VarStrftime(const char *fmt, bool zulu, time_t tim) 1922 { 1923 char buf[BUFSIZ]; 1924 1925 if (tim == 0) 1926 time(&tim); 1927 if (*fmt == '\0') 1928 fmt = "%c"; 1929 strftime(buf, sizeof buf, fmt, zulu ? gmtime(&tim) : localtime(&tim)); 1930 1931 buf[sizeof buf - 1] = '\0'; 1932 return bmake_strdup(buf); 1933 } 1934 1935 /* 1936 * The ApplyModifier functions take an expression that is being evaluated. 1937 * Their task is to apply a single modifier to the expression. This involves 1938 * parsing the modifier, evaluating it and finally updating the value of the 1939 * expression. 1940 * 1941 * Parsing the modifier 1942 * 1943 * If parsing succeeds, the parsing position *pp is updated to point to the 1944 * first character following the modifier, which typically is either ':' or 1945 * ch->endc. The modifier doesn't have to check for this delimiter character, 1946 * this is done by ApplyModifiers. 1947 * 1948 * XXX: As of 2020-11-15, some modifiers such as :S, :C, :P, :L do not 1949 * need to be followed by a ':' or endc; this was an unintended mistake. 1950 * 1951 * If parsing fails because of a missing delimiter (as in the :S, :C or :@ 1952 * modifiers), return AMR_CLEANUP. 1953 * 1954 * If parsing fails because the modifier is unknown, return AMR_UNKNOWN to 1955 * try the SysV modifier ${VAR:from=to} as fallback. This should only be 1956 * done as long as there have been no side effects from evaluating nested 1957 * variables, to avoid evaluating them more than once. In this case, the 1958 * parsing position may or may not be updated. (XXX: Why not? The original 1959 * parsing position is well-known in ApplyModifiers.) 1960 * 1961 * If parsing fails and the SysV modifier ${VAR:from=to} should not be used 1962 * as a fallback, either issue an error message using Error or Parse_Error 1963 * and then return AMR_CLEANUP, or return AMR_BAD for the default error 1964 * message. Both of these return values will stop processing the variable 1965 * expression. (XXX: As of 2020-08-23, evaluation of the whole string 1966 * continues nevertheless after skipping a few bytes, which essentially is 1967 * undefined behavior. Not in the sense of C, but still the resulting string 1968 * is garbage.) 1969 * 1970 * Evaluating the modifier 1971 * 1972 * After parsing, the modifier is evaluated. The side effects from evaluating 1973 * nested variable expressions in the modifier text often already happen 1974 * during parsing though. For most modifiers this doesn't matter since their 1975 * only noticeable effect is that the update the value of the expression. 1976 * Some modifiers such as ':sh' or '::=' have noticeable side effects though. 1977 * 1978 * Evaluating the modifier usually takes the current value of the variable 1979 * expression from ch->expr->value, or the variable name from ch->var->name 1980 * and stores the result back in expr->value via Expr_SetValueOwn or 1981 * Expr_SetValueRefer. 1982 * 1983 * If evaluating fails (as of 2020-08-23), an error message is printed using 1984 * Error. This function has no side-effects, it really just prints the error 1985 * message. Processing the expression continues as if everything were ok. 1986 * XXX: This should be fixed by adding proper error handling to Var_Subst, 1987 * Var_Parse, ApplyModifiers and ModifyWords. 1988 * 1989 * Housekeeping 1990 * 1991 * Some modifiers such as :D and :U turn undefined expressions into defined 1992 * expressions (see Expr_Define). 1993 * 1994 * Some modifiers need to free some memory. 1995 */ 1996 1997 typedef enum ExprDefined { 1998 /* The variable expression is based on a regular, defined variable. */ 1999 DEF_REGULAR, 2000 /* The variable expression is based on an undefined variable. */ 2001 DEF_UNDEF, 2002 /* 2003 * The variable expression started as an undefined expression, but one 2004 * of the modifiers (such as ':D' or ':U') has turned the expression 2005 * from undefined to defined. 2006 */ 2007 DEF_DEFINED 2008 } ExprDefined; 2009 2010 static const char *const ExprDefined_Name[] = { 2011 "regular", 2012 "undefined", 2013 "defined" 2014 }; 2015 2016 #if __STDC_VERSION__ >= 199901L 2017 #define const_member const 2018 #else 2019 #define const_member /* no const possible */ 2020 #endif 2021 2022 /* A variable expression such as $@ or ${VAR:Mpattern:Q}. */ 2023 typedef struct Expr { 2024 const char *name; 2025 FStr value; 2026 VarEvalMode const_member emode; 2027 GNode *const_member scope; 2028 ExprDefined defined; 2029 } Expr; 2030 2031 /* 2032 * The status of applying a chain of modifiers to an expression. 2033 * 2034 * The modifiers of an expression are broken into chains of modifiers, 2035 * starting a new nested chain whenever an indirect modifier starts. There 2036 * are at most 2 nesting levels: the outer one for the direct modifiers, and 2037 * the inner one for the indirect modifiers. 2038 * 2039 * For example, the expression ${VAR:M*:${IND1}:${IND2}:O:u} has 3 chains of 2040 * modifiers: 2041 * 2042 * Chain 1 starts with the single modifier ':M*'. 2043 * Chain 2 starts with all modifiers from ${IND1}. 2044 * Chain 2 ends at the ':' between ${IND1} and ${IND2}. 2045 * Chain 3 starts with all modifiers from ${IND2}. 2046 * Chain 3 ends at the ':' after ${IND2}. 2047 * Chain 1 continues with the the 2 modifiers ':O' and ':u'. 2048 * Chain 1 ends at the final '}' of the expression. 2049 * 2050 * After such a chain ends, its properties no longer have any effect. 2051 * 2052 * It may or may not have been intended that 'defined' has scope Expr while 2053 * 'sep' and 'oneBigWord' have smaller scope. 2054 * 2055 * See varmod-indirect.mk. 2056 */ 2057 typedef struct ModChain { 2058 Expr *expr; 2059 /* '\0' or '{' or '(' */ 2060 char const_member startc; 2061 /* '\0' or '}' or ')' */ 2062 char const_member endc; 2063 /* Word separator in expansions (see the :ts modifier). */ 2064 char sep; 2065 /* 2066 * True if some modifiers that otherwise split the variable value 2067 * into words, like :S and :C, treat the variable value as a single 2068 * big word, possibly containing spaces. 2069 */ 2070 bool oneBigWord; 2071 } ModChain; 2072 2073 static void 2074 Expr_Define(Expr *expr) 2075 { 2076 if (expr->defined == DEF_UNDEF) 2077 expr->defined = DEF_DEFINED; 2078 } 2079 2080 static void 2081 Expr_SetValue(Expr *expr, FStr value) 2082 { 2083 FStr_Done(&expr->value); 2084 expr->value = value; 2085 } 2086 2087 static void 2088 Expr_SetValueOwn(Expr *expr, char *value) 2089 { 2090 Expr_SetValue(expr, FStr_InitOwn(value)); 2091 } 2092 2093 static void 2094 Expr_SetValueRefer(Expr *expr, const char *value) 2095 { 2096 Expr_SetValue(expr, FStr_InitRefer(value)); 2097 } 2098 2099 static bool 2100 Expr_ShouldEval(const Expr *expr) 2101 { 2102 return VarEvalMode_ShouldEval(expr->emode); 2103 } 2104 2105 static bool 2106 ModChain_ShouldEval(const ModChain *ch) 2107 { 2108 return Expr_ShouldEval(ch->expr); 2109 } 2110 2111 2112 typedef enum ApplyModifierResult { 2113 /* Continue parsing */ 2114 AMR_OK, 2115 /* Not a match, try other modifiers as well. */ 2116 AMR_UNKNOWN, 2117 /* Error out with "Bad modifier" message. */ 2118 AMR_BAD, 2119 /* Error out without the standard error message. */ 2120 AMR_CLEANUP 2121 } ApplyModifierResult; 2122 2123 /* 2124 * Allow backslashes to escape the delimiter, $, and \, but don't touch other 2125 * backslashes. 2126 */ 2127 static bool 2128 IsEscapedModifierPart(const char *p, char delim, 2129 struct ModifyWord_SubstArgs *subst) 2130 { 2131 if (p[0] != '\\') 2132 return false; 2133 if (p[1] == delim || p[1] == '\\' || p[1] == '$') 2134 return true; 2135 return p[1] == '&' && subst != NULL; 2136 } 2137 2138 /* See ParseModifierPart for the documentation. */ 2139 static VarParseResult 2140 ParseModifierPartSubst( 2141 const char **pp, 2142 char delim, 2143 VarEvalMode emode, 2144 ModChain *ch, 2145 LazyBuf *part, 2146 /* For the first part of the modifier ':S', set anchorEnd if the last 2147 * character of the pattern is a $. */ 2148 PatternFlags *out_pflags, 2149 /* For the second part of the :S modifier, allow ampersands to be 2150 * escaped and replace unescaped ampersands with subst->lhs. */ 2151 struct ModifyWord_SubstArgs *subst 2152 ) 2153 { 2154 const char *p; 2155 2156 p = *pp; 2157 LazyBuf_Init(part, p); 2158 2159 /* 2160 * Skim through until the matching delimiter is found; pick up 2161 * variable expressions on the way. 2162 */ 2163 while (*p != '\0' && *p != delim) { 2164 const char *varstart; 2165 2166 if (IsEscapedModifierPart(p, delim, subst)) { 2167 LazyBuf_Add(part, p[1]); 2168 p += 2; 2169 continue; 2170 } 2171 2172 if (*p != '$') { /* Unescaped, simple text */ 2173 if (subst != NULL && *p == '&') 2174 LazyBuf_AddSubstring(part, subst->lhs); 2175 else 2176 LazyBuf_Add(part, *p); 2177 p++; 2178 continue; 2179 } 2180 2181 if (p[1] == delim) { /* Unescaped $ at end of pattern */ 2182 if (out_pflags != NULL) 2183 out_pflags->anchorEnd = true; 2184 else 2185 LazyBuf_Add(part, *p); 2186 p++; 2187 continue; 2188 } 2189 2190 if (VarEvalMode_ShouldEval(emode)) { 2191 /* Nested variable, evaluated */ 2192 const char *nested_p = p; 2193 FStr nested_val; 2194 2195 (void)Var_Parse(&nested_p, ch->expr->scope, 2196 VarEvalMode_WithoutKeepDollar(emode), &nested_val); 2197 /* TODO: handle errors */ 2198 LazyBuf_AddStr(part, nested_val.str); 2199 FStr_Done(&nested_val); 2200 p += nested_p - p; 2201 continue; 2202 } 2203 2204 /* 2205 * XXX: This whole block is very similar to Var_Parse without 2206 * VARE_WANTRES. There may be subtle edge cases 2207 * though that are not yet covered in the unit tests and that 2208 * are parsed differently, depending on whether they are 2209 * evaluated or not. 2210 * 2211 * This subtle difference is not documented in the manual 2212 * page, neither is the difference between parsing :D and 2213 * :M documented. No code should ever depend on these 2214 * details, but who knows. 2215 */ 2216 2217 varstart = p; /* Nested variable, only parsed */ 2218 if (p[1] == '(' || p[1] == '{') { 2219 /* 2220 * Find the end of this variable reference 2221 * and suck it in without further ado. 2222 * It will be interpreted later. 2223 */ 2224 char startc = p[1]; 2225 int endc = startc == '(' ? ')' : '}'; 2226 int depth = 1; 2227 2228 for (p += 2; *p != '\0' && depth > 0; p++) { 2229 if (p[-1] != '\\') { 2230 if (*p == startc) 2231 depth++; 2232 if (*p == endc) 2233 depth--; 2234 } 2235 } 2236 LazyBuf_AddBytesBetween(part, varstart, p); 2237 } else { 2238 LazyBuf_Add(part, *varstart); 2239 p++; 2240 } 2241 } 2242 2243 if (*p != delim) { 2244 *pp = p; 2245 Error("Unfinished modifier for \"%s\" ('%c' missing)", 2246 ch->expr->name, delim); 2247 LazyBuf_Done(part); 2248 return VPR_ERR; 2249 } 2250 2251 *pp = p + 1; 2252 2253 { 2254 Substring sub = LazyBuf_Get(part); 2255 DEBUG2(VAR, "Modifier part: \"%.*s\"\n", 2256 (int)Substring_Length(sub), sub.start); 2257 } 2258 2259 return VPR_OK; 2260 } 2261 2262 /* 2263 * Parse a part of a modifier such as the "from" and "to" in :S/from/to/ or 2264 * the "var" or "replacement ${var}" in :@var@replacement ${var}@, up to and 2265 * including the next unescaped delimiter. The delimiter, as well as the 2266 * backslash or the dollar, can be escaped with a backslash. 2267 * 2268 * Return VPR_OK if parsing succeeded, together with the parsed (and possibly 2269 * expanded) part. In that case, pp points right after the delimiter. The 2270 * delimiter is not included in the part though. 2271 */ 2272 static VarParseResult 2273 ParseModifierPart( 2274 /* The parsing position, updated upon return */ 2275 const char **pp, 2276 /* Parsing stops at this delimiter */ 2277 char delim, 2278 /* Mode for evaluating nested variables. */ 2279 VarEvalMode emode, 2280 ModChain *ch, 2281 LazyBuf *part 2282 ) 2283 { 2284 return ParseModifierPartSubst(pp, delim, emode, ch, part, NULL, NULL); 2285 } 2286 2287 MAKE_INLINE bool 2288 IsDelimiter(char c, const ModChain *ch) 2289 { 2290 return c == ':' || c == ch->endc; 2291 } 2292 2293 /* Test whether mod starts with modname, followed by a delimiter. */ 2294 MAKE_INLINE bool 2295 ModMatch(const char *mod, const char *modname, const ModChain *ch) 2296 { 2297 size_t n = strlen(modname); 2298 return strncmp(mod, modname, n) == 0 && IsDelimiter(mod[n], ch); 2299 } 2300 2301 /* Test whether mod starts with modname, followed by a delimiter or '='. */ 2302 MAKE_INLINE bool 2303 ModMatchEq(const char *mod, const char *modname, const ModChain *ch) 2304 { 2305 size_t n = strlen(modname); 2306 return strncmp(mod, modname, n) == 0 && 2307 (IsDelimiter(mod[n], ch) || mod[n] == '='); 2308 } 2309 2310 static bool 2311 TryParseIntBase0(const char **pp, int *out_num) 2312 { 2313 char *end; 2314 long n; 2315 2316 errno = 0; 2317 n = strtol(*pp, &end, 0); 2318 2319 if (end == *pp) 2320 return false; 2321 if ((n == LONG_MIN || n == LONG_MAX) && errno == ERANGE) 2322 return false; 2323 if (n < INT_MIN || n > INT_MAX) 2324 return false; 2325 2326 *pp = end; 2327 *out_num = (int)n; 2328 return true; 2329 } 2330 2331 static bool 2332 TryParseSize(const char **pp, size_t *out_num) 2333 { 2334 char *end; 2335 unsigned long n; 2336 2337 if (!ch_isdigit(**pp)) 2338 return false; 2339 2340 errno = 0; 2341 n = strtoul(*pp, &end, 10); 2342 if (n == ULONG_MAX && errno == ERANGE) 2343 return false; 2344 if (n > SIZE_MAX) 2345 return false; 2346 2347 *pp = end; 2348 *out_num = (size_t)n; 2349 return true; 2350 } 2351 2352 static bool 2353 TryParseChar(const char **pp, int base, char *out_ch) 2354 { 2355 char *end; 2356 unsigned long n; 2357 2358 if (!ch_isalnum(**pp)) 2359 return false; 2360 2361 errno = 0; 2362 n = strtoul(*pp, &end, base); 2363 if (n == ULONG_MAX && errno == ERANGE) 2364 return false; 2365 if (n > UCHAR_MAX) 2366 return false; 2367 2368 *pp = end; 2369 *out_ch = (char)n; 2370 return true; 2371 } 2372 2373 /* 2374 * Modify each word of the expression using the given function and place the 2375 * result back in the expression. 2376 */ 2377 static void 2378 ModifyWords(ModChain *ch, 2379 ModifyWordProc modifyWord, void *modifyWord_args, 2380 bool oneBigWord) 2381 { 2382 Expr *expr = ch->expr; 2383 const char *val = expr->value.str; 2384 SepBuf result; 2385 SubstringWords words; 2386 size_t i; 2387 Substring word; 2388 2389 if (oneBigWord) { 2390 SepBuf_Init(&result, ch->sep); 2391 /* XXX: performance: Substring_InitStr calls strlen */ 2392 word = Substring_InitStr(val); 2393 modifyWord(word, &result, modifyWord_args); 2394 goto done; 2395 } 2396 2397 words = Substring_Words(val, false); 2398 2399 DEBUG2(VAR, "ModifyWords: split \"%s\" into %u words\n", 2400 val, (unsigned)words.len); 2401 2402 SepBuf_Init(&result, ch->sep); 2403 for (i = 0; i < words.len; i++) { 2404 modifyWord(words.words[i], &result, modifyWord_args); 2405 if (result.buf.len > 0) 2406 SepBuf_Sep(&result); 2407 } 2408 2409 SubstringWords_Free(words); 2410 2411 done: 2412 Expr_SetValueOwn(expr, SepBuf_DoneData(&result)); 2413 } 2414 2415 /* :@var (at) ...${var}...@ */ 2416 static ApplyModifierResult 2417 ApplyModifier_Loop(const char **pp, ModChain *ch) 2418 { 2419 Expr *expr = ch->expr; 2420 struct ModifyWord_LoopArgs args; 2421 char prev_sep; 2422 VarParseResult res; 2423 LazyBuf tvarBuf, strBuf; 2424 FStr tvar, str; 2425 2426 args.scope = expr->scope; 2427 2428 (*pp)++; /* Skip the first '@' */ 2429 res = ParseModifierPart(pp, '@', VARE_PARSE_ONLY, ch, &tvarBuf); 2430 if (res != VPR_OK) 2431 return AMR_CLEANUP; 2432 tvar = LazyBuf_DoneGet(&tvarBuf); 2433 args.var = tvar.str; 2434 if (strchr(args.var, '$') != NULL) { 2435 Parse_Error(PARSE_FATAL, 2436 "In the :@ modifier of \"%s\", the variable name \"%s\" " 2437 "must not contain a dollar.", 2438 expr->name, args.var); 2439 return AMR_CLEANUP; 2440 } 2441 2442 res = ParseModifierPart(pp, '@', VARE_PARSE_ONLY, ch, &strBuf); 2443 if (res != VPR_OK) 2444 return AMR_CLEANUP; 2445 str = LazyBuf_DoneGet(&strBuf); 2446 args.body = str.str; 2447 2448 if (!Expr_ShouldEval(expr)) 2449 goto done; 2450 2451 args.emode = VarEvalMode_WithoutKeepDollar(expr->emode); 2452 prev_sep = ch->sep; 2453 ch->sep = ' '; /* XXX: should be ch->sep for consistency */ 2454 ModifyWords(ch, ModifyWord_Loop, &args, ch->oneBigWord); 2455 ch->sep = prev_sep; 2456 /* XXX: Consider restoring the previous value instead of deleting. */ 2457 Var_Delete(expr->scope, args.var); 2458 2459 done: 2460 FStr_Done(&tvar); 2461 FStr_Done(&str); 2462 return AMR_OK; 2463 } 2464 2465 /* :Ddefined or :Uundefined */ 2466 static ApplyModifierResult 2467 ApplyModifier_Defined(const char **pp, ModChain *ch) 2468 { 2469 Expr *expr = ch->expr; 2470 LazyBuf buf; 2471 const char *p; 2472 2473 VarEvalMode emode = VARE_PARSE_ONLY; 2474 if (Expr_ShouldEval(expr)) 2475 if ((**pp == 'D') == (expr->defined == DEF_REGULAR)) 2476 emode = expr->emode; 2477 2478 p = *pp + 1; 2479 LazyBuf_Init(&buf, p); 2480 while (!IsDelimiter(*p, ch) && *p != '\0') { 2481 2482 /* XXX: This code is similar to the one in Var_Parse. 2483 * See if the code can be merged. 2484 * See also ApplyModifier_Match and ParseModifierPart. */ 2485 2486 /* Escaped delimiter or other special character */ 2487 /* See Buf_AddEscaped in for.c. */ 2488 if (*p == '\\') { 2489 char c = p[1]; 2490 if (IsDelimiter(c, ch) || c == '$' || c == '\\') { 2491 LazyBuf_Add(&buf, c); 2492 p += 2; 2493 continue; 2494 } 2495 } 2496 2497 /* Nested variable expression */ 2498 if (*p == '$') { 2499 FStr nested_val; 2500 2501 (void)Var_Parse(&p, expr->scope, emode, &nested_val); 2502 /* TODO: handle errors */ 2503 if (Expr_ShouldEval(expr)) 2504 LazyBuf_AddStr(&buf, nested_val.str); 2505 FStr_Done(&nested_val); 2506 continue; 2507 } 2508 2509 /* Ordinary text */ 2510 LazyBuf_Add(&buf, *p); 2511 p++; 2512 } 2513 *pp = p; 2514 2515 Expr_Define(expr); 2516 2517 if (VarEvalMode_ShouldEval(emode)) 2518 Expr_SetValue(expr, Substring_Str(LazyBuf_Get(&buf))); 2519 else 2520 LazyBuf_Done(&buf); 2521 2522 return AMR_OK; 2523 } 2524 2525 /* :L */ 2526 static ApplyModifierResult 2527 ApplyModifier_Literal(const char **pp, ModChain *ch) 2528 { 2529 Expr *expr = ch->expr; 2530 2531 (*pp)++; 2532 2533 if (Expr_ShouldEval(expr)) { 2534 Expr_Define(expr); 2535 Expr_SetValueOwn(expr, bmake_strdup(expr->name)); 2536 } 2537 2538 return AMR_OK; 2539 } 2540 2541 static bool 2542 TryParseTime(const char **pp, time_t *out_time) 2543 { 2544 char *end; 2545 unsigned long n; 2546 2547 if (!ch_isdigit(**pp)) 2548 return false; 2549 2550 errno = 0; 2551 n = strtoul(*pp, &end, 10); 2552 if (n == ULONG_MAX && errno == ERANGE) 2553 return false; 2554 2555 *pp = end; 2556 *out_time = (time_t)n; /* ignore possible truncation for now */ 2557 return true; 2558 } 2559 2560 /* :gmtime */ 2561 static ApplyModifierResult 2562 ApplyModifier_Gmtime(const char **pp, ModChain *ch) 2563 { 2564 time_t utc; 2565 2566 const char *mod = *pp; 2567 if (!ModMatchEq(mod, "gmtime", ch)) 2568 return AMR_UNKNOWN; 2569 2570 if (mod[6] == '=') { 2571 const char *p = mod + 7; 2572 if (!TryParseTime(&p, &utc)) { 2573 Parse_Error(PARSE_FATAL, 2574 "Invalid time value: %s", mod + 7); 2575 return AMR_CLEANUP; 2576 } 2577 *pp = p; 2578 } else { 2579 utc = 0; 2580 *pp = mod + 6; 2581 } 2582 2583 if (ModChain_ShouldEval(ch)) 2584 Expr_SetValueOwn(ch->expr, 2585 VarStrftime(ch->expr->value.str, true, utc)); 2586 2587 return AMR_OK; 2588 } 2589 2590 /* :localtime */ 2591 static ApplyModifierResult 2592 ApplyModifier_Localtime(const char **pp, ModChain *ch) 2593 { 2594 time_t utc; 2595 2596 const char *mod = *pp; 2597 if (!ModMatchEq(mod, "localtime", ch)) 2598 return AMR_UNKNOWN; 2599 2600 if (mod[9] == '=') { 2601 const char *p = mod + 10; 2602 if (!TryParseTime(&p, &utc)) { 2603 Parse_Error(PARSE_FATAL, 2604 "Invalid time value: %s", mod + 10); 2605 return AMR_CLEANUP; 2606 } 2607 *pp = p; 2608 } else { 2609 utc = 0; 2610 *pp = mod + 9; 2611 } 2612 2613 if (ModChain_ShouldEval(ch)) 2614 Expr_SetValueOwn(ch->expr, 2615 VarStrftime(ch->expr->value.str, false, utc)); 2616 2617 return AMR_OK; 2618 } 2619 2620 /* :hash */ 2621 static ApplyModifierResult 2622 ApplyModifier_Hash(const char **pp, ModChain *ch) 2623 { 2624 if (!ModMatch(*pp, "hash", ch)) 2625 return AMR_UNKNOWN; 2626 *pp += 4; 2627 2628 if (ModChain_ShouldEval(ch)) 2629 Expr_SetValueOwn(ch->expr, VarHash(ch->expr->value.str)); 2630 2631 return AMR_OK; 2632 } 2633 2634 /* :P */ 2635 static ApplyModifierResult 2636 ApplyModifier_Path(const char **pp, ModChain *ch) 2637 { 2638 Expr *expr = ch->expr; 2639 GNode *gn; 2640 char *path; 2641 2642 (*pp)++; 2643 2644 if (!ModChain_ShouldEval(ch)) 2645 return AMR_OK; 2646 2647 Expr_Define(expr); 2648 2649 gn = Targ_FindNode(expr->name); 2650 if (gn == NULL || gn->type & OP_NOPATH) { 2651 path = NULL; 2652 } else if (gn->path != NULL) { 2653 path = bmake_strdup(gn->path); 2654 } else { 2655 SearchPath *searchPath = Suff_FindPath(gn); 2656 path = Dir_FindFile(expr->name, searchPath); 2657 } 2658 if (path == NULL) 2659 path = bmake_strdup(expr->name); 2660 Expr_SetValueOwn(expr, path); 2661 2662 return AMR_OK; 2663 } 2664 2665 /* :!cmd! */ 2666 static ApplyModifierResult 2667 ApplyModifier_ShellCommand(const char **pp, ModChain *ch) 2668 { 2669 Expr *expr = ch->expr; 2670 const char *errfmt; 2671 VarParseResult res; 2672 LazyBuf cmdBuf; 2673 FStr cmd; 2674 2675 (*pp)++; 2676 res = ParseModifierPart(pp, '!', expr->emode, ch, &cmdBuf); 2677 if (res != VPR_OK) 2678 return AMR_CLEANUP; 2679 cmd = LazyBuf_DoneGet(&cmdBuf); 2680 2681 2682 errfmt = NULL; 2683 if (Expr_ShouldEval(expr)) 2684 Expr_SetValueOwn(expr, Cmd_Exec(cmd.str, &errfmt)); 2685 else 2686 Expr_SetValueRefer(expr, ""); 2687 if (errfmt != NULL) 2688 Error(errfmt, cmd.str); /* XXX: why still return AMR_OK? */ 2689 FStr_Done(&cmd); 2690 Expr_Define(expr); 2691 2692 return AMR_OK; 2693 } 2694 2695 /* 2696 * The :range modifier generates an integer sequence as long as the words. 2697 * The :range=7 modifier generates an integer sequence from 1 to 7. 2698 */ 2699 static ApplyModifierResult 2700 ApplyModifier_Range(const char **pp, ModChain *ch) 2701 { 2702 size_t n; 2703 Buffer buf; 2704 size_t i; 2705 2706 const char *mod = *pp; 2707 if (!ModMatchEq(mod, "range", ch)) 2708 return AMR_UNKNOWN; 2709 2710 if (mod[5] == '=') { 2711 const char *p = mod + 6; 2712 if (!TryParseSize(&p, &n)) { 2713 Parse_Error(PARSE_FATAL, 2714 "Invalid number \"%s\" for ':range' modifier", 2715 mod + 6); 2716 return AMR_CLEANUP; 2717 } 2718 *pp = p; 2719 } else { 2720 n = 0; 2721 *pp = mod + 5; 2722 } 2723 2724 if (!ModChain_ShouldEval(ch)) 2725 return AMR_OK; 2726 2727 if (n == 0) { 2728 Words words = Str_Words(ch->expr->value.str, false); 2729 n = words.len; 2730 Words_Free(words); 2731 } 2732 2733 Buf_Init(&buf); 2734 2735 for (i = 0; i < n; i++) { 2736 if (i != 0) { 2737 /* XXX: Use ch->sep instead of ' ', for consistency. */ 2738 Buf_AddByte(&buf, ' '); 2739 } 2740 Buf_AddInt(&buf, 1 + (int)i); 2741 } 2742 2743 Expr_SetValueOwn(ch->expr, Buf_DoneData(&buf)); 2744 return AMR_OK; 2745 } 2746 2747 /* Parse a ':M' or ':N' modifier. */ 2748 static void 2749 ParseModifier_Match(const char **pp, const ModChain *ch, 2750 char **out_pattern) 2751 { 2752 const char *mod = *pp; 2753 Expr *expr = ch->expr; 2754 bool copy = false; /* pattern should be, or has been, copied */ 2755 bool needSubst = false; 2756 const char *endpat; 2757 char *pattern; 2758 2759 /* 2760 * In the loop below, ignore ':' unless we are at (or back to) the 2761 * original brace level. 2762 * XXX: This will likely not work right if $() and ${} are intermixed. 2763 */ 2764 /* 2765 * XXX: This code is similar to the one in Var_Parse. 2766 * See if the code can be merged. 2767 * See also ApplyModifier_Defined. 2768 */ 2769 int nest = 0; 2770 const char *p; 2771 for (p = mod + 1; *p != '\0' && !(*p == ':' && nest == 0); p++) { 2772 if (*p == '\\' && 2773 (IsDelimiter(p[1], ch) || p[1] == ch->startc)) { 2774 if (!needSubst) 2775 copy = true; 2776 p++; 2777 continue; 2778 } 2779 if (*p == '$') 2780 needSubst = true; 2781 if (*p == '(' || *p == '{') 2782 nest++; 2783 if (*p == ')' || *p == '}') { 2784 nest--; 2785 if (nest < 0) 2786 break; 2787 } 2788 } 2789 *pp = p; 2790 endpat = p; 2791 2792 if (copy) { 2793 char *dst; 2794 const char *src; 2795 2796 /* Compress the \:'s out of the pattern. */ 2797 pattern = bmake_malloc((size_t)(endpat - (mod + 1)) + 1); 2798 dst = pattern; 2799 src = mod + 1; 2800 for (; src < endpat; src++, dst++) { 2801 if (src[0] == '\\' && src + 1 < endpat && 2802 /* XXX: ch->startc is missing here; see above */ 2803 IsDelimiter(src[1], ch)) 2804 src++; 2805 *dst = *src; 2806 } 2807 *dst = '\0'; 2808 } else { 2809 pattern = bmake_strsedup(mod + 1, endpat); 2810 } 2811 2812 if (needSubst) { 2813 char *old_pattern = pattern; 2814 (void)Var_Subst(pattern, expr->scope, expr->emode, &pattern); 2815 /* TODO: handle errors */ 2816 free(old_pattern); 2817 } 2818 2819 DEBUG2(VAR, "Pattern for ':%c' is \"%s\"\n", mod[0], pattern); 2820 2821 *out_pattern = pattern; 2822 } 2823 2824 /* :Mpattern or :Npattern */ 2825 static ApplyModifierResult 2826 ApplyModifier_Match(const char **pp, ModChain *ch) 2827 { 2828 const char mod = **pp; 2829 char *pattern; 2830 2831 ParseModifier_Match(pp, ch, &pattern); 2832 2833 if (ModChain_ShouldEval(ch)) { 2834 ModifyWordProc modifyWord = 2835 mod == 'M' ? ModifyWord_Match : ModifyWord_NoMatch; 2836 ModifyWords(ch, modifyWord, pattern, ch->oneBigWord); 2837 } 2838 2839 free(pattern); 2840 return AMR_OK; 2841 } 2842 2843 static void 2844 ParsePatternFlags(const char **pp, PatternFlags *pflags, bool *oneBigWord) 2845 { 2846 for (;; (*pp)++) { 2847 if (**pp == 'g') 2848 pflags->subGlobal = true; 2849 else if (**pp == '1') 2850 pflags->subOnce = true; 2851 else if (**pp == 'W') 2852 *oneBigWord = true; 2853 else 2854 break; 2855 } 2856 } 2857 2858 MAKE_INLINE PatternFlags 2859 PatternFlags_None(void) 2860 { 2861 PatternFlags pflags = { false, false, false, false }; 2862 return pflags; 2863 } 2864 2865 /* :S,from,to, */ 2866 static ApplyModifierResult 2867 ApplyModifier_Subst(const char **pp, ModChain *ch) 2868 { 2869 struct ModifyWord_SubstArgs args; 2870 bool oneBigWord; 2871 VarParseResult res; 2872 LazyBuf lhsBuf, rhsBuf; 2873 2874 char delim = (*pp)[1]; 2875 if (delim == '\0') { 2876 Error("Missing delimiter for modifier ':S'"); 2877 (*pp)++; 2878 return AMR_CLEANUP; 2879 } 2880 2881 *pp += 2; 2882 2883 args.pflags = PatternFlags_None(); 2884 args.matched = false; 2885 2886 if (**pp == '^') { 2887 args.pflags.anchorStart = true; 2888 (*pp)++; 2889 } 2890 2891 res = ParseModifierPartSubst(pp, delim, ch->expr->emode, ch, &lhsBuf, 2892 &args.pflags, NULL); 2893 if (res != VPR_OK) 2894 return AMR_CLEANUP; 2895 args.lhs = LazyBuf_Get(&lhsBuf); 2896 2897 res = ParseModifierPartSubst(pp, delim, ch->expr->emode, ch, &rhsBuf, 2898 NULL, &args); 2899 if (res != VPR_OK) { 2900 LazyBuf_Done(&lhsBuf); 2901 return AMR_CLEANUP; 2902 } 2903 args.rhs = LazyBuf_Get(&rhsBuf); 2904 2905 oneBigWord = ch->oneBigWord; 2906 ParsePatternFlags(pp, &args.pflags, &oneBigWord); 2907 2908 ModifyWords(ch, ModifyWord_Subst, &args, oneBigWord); 2909 2910 LazyBuf_Done(&lhsBuf); 2911 LazyBuf_Done(&rhsBuf); 2912 return AMR_OK; 2913 } 2914 2915 #ifndef NO_REGEX 2916 2917 /* :C,from,to, */ 2918 static ApplyModifierResult 2919 ApplyModifier_Regex(const char **pp, ModChain *ch) 2920 { 2921 struct ModifyWord_SubstRegexArgs args; 2922 bool oneBigWord; 2923 int error; 2924 VarParseResult res; 2925 LazyBuf reBuf, replaceBuf; 2926 FStr re, replace; 2927 2928 char delim = (*pp)[1]; 2929 if (delim == '\0') { 2930 Error("Missing delimiter for :C modifier"); 2931 (*pp)++; 2932 return AMR_CLEANUP; 2933 } 2934 2935 *pp += 2; 2936 2937 res = ParseModifierPart(pp, delim, ch->expr->emode, ch, &reBuf); 2938 if (res != VPR_OK) 2939 return AMR_CLEANUP; 2940 re = LazyBuf_DoneGet(&reBuf); 2941 2942 res = ParseModifierPart(pp, delim, ch->expr->emode, ch, &replaceBuf); 2943 if (res != VPR_OK) { 2944 FStr_Done(&re); 2945 return AMR_CLEANUP; 2946 } 2947 replace = LazyBuf_DoneGet(&replaceBuf); 2948 args.replace = replace.str; 2949 2950 args.pflags = PatternFlags_None(); 2951 args.matched = false; 2952 oneBigWord = ch->oneBigWord; 2953 ParsePatternFlags(pp, &args.pflags, &oneBigWord); 2954 2955 if (!ModChain_ShouldEval(ch)) { 2956 FStr_Done(&replace); 2957 FStr_Done(&re); 2958 return AMR_OK; 2959 } 2960 2961 error = regcomp(&args.re, re.str, REG_EXTENDED); 2962 if (error != 0) { 2963 VarREError(error, &args.re, "Regex compilation error"); 2964 FStr_Done(&replace); 2965 FStr_Done(&re); 2966 return AMR_CLEANUP; 2967 } 2968 2969 args.nsub = args.re.re_nsub + 1; 2970 if (args.nsub > 10) 2971 args.nsub = 10; 2972 2973 ModifyWords(ch, ModifyWord_SubstRegex, &args, oneBigWord); 2974 2975 regfree(&args.re); 2976 FStr_Done(&replace); 2977 FStr_Done(&re); 2978 return AMR_OK; 2979 } 2980 2981 #endif 2982 2983 /* :Q, :q */ 2984 static ApplyModifierResult 2985 ApplyModifier_Quote(const char **pp, ModChain *ch) 2986 { 2987 LazyBuf buf; 2988 bool quoteDollar; 2989 2990 quoteDollar = **pp == 'q'; 2991 if (!IsDelimiter((*pp)[1], ch)) 2992 return AMR_UNKNOWN; 2993 (*pp)++; 2994 2995 if (!ModChain_ShouldEval(ch)) 2996 return AMR_OK; 2997 2998 VarQuote(ch->expr->value.str, quoteDollar, &buf); 2999 if (buf.data != NULL) 3000 Expr_SetValue(ch->expr, LazyBuf_DoneGet(&buf)); 3001 else 3002 LazyBuf_Done(&buf); 3003 3004 return AMR_OK; 3005 } 3006 3007 /*ARGSUSED*/ 3008 static void 3009 ModifyWord_Copy(Substring word, SepBuf *buf, void *data MAKE_ATTR_UNUSED) 3010 { 3011 SepBuf_AddSubstring(buf, word); 3012 } 3013 3014 /* :ts<separator> */ 3015 static ApplyModifierResult 3016 ApplyModifier_ToSep(const char **pp, ModChain *ch) 3017 { 3018 const char *sep = *pp + 2; 3019 3020 /* 3021 * Even in parse-only mode, proceed as normal since there is 3022 * neither any observable side effect nor a performance penalty. 3023 * Checking for wantRes for every single piece of code in here 3024 * would make the code in this function too hard to read. 3025 */ 3026 3027 /* ":ts<any><endc>" or ":ts<any>:" */ 3028 if (sep[0] != ch->endc && IsDelimiter(sep[1], ch)) { 3029 *pp = sep + 1; 3030 ch->sep = sep[0]; 3031 goto ok; 3032 } 3033 3034 /* ":ts<endc>" or ":ts:" */ 3035 if (IsDelimiter(sep[0], ch)) { 3036 *pp = sep; 3037 ch->sep = '\0'; /* no separator */ 3038 goto ok; 3039 } 3040 3041 /* ":ts<unrecognised><unrecognised>". */ 3042 if (sep[0] != '\\') { 3043 (*pp)++; /* just for backwards compatibility */ 3044 return AMR_BAD; 3045 } 3046 3047 /* ":ts\n" */ 3048 if (sep[1] == 'n') { 3049 *pp = sep + 2; 3050 ch->sep = '\n'; 3051 goto ok; 3052 } 3053 3054 /* ":ts\t" */ 3055 if (sep[1] == 't') { 3056 *pp = sep + 2; 3057 ch->sep = '\t'; 3058 goto ok; 3059 } 3060 3061 /* ":ts\x40" or ":ts\100" */ 3062 { 3063 const char *p = sep + 1; 3064 int base = 8; /* assume octal */ 3065 3066 if (sep[1] == 'x') { 3067 base = 16; 3068 p++; 3069 } else if (!ch_isdigit(sep[1])) { 3070 (*pp)++; /* just for backwards compatibility */ 3071 return AMR_BAD; /* ":ts<backslash><unrecognised>". */ 3072 } 3073 3074 if (!TryParseChar(&p, base, &ch->sep)) { 3075 Parse_Error(PARSE_FATAL, 3076 "Invalid character number: %s", p); 3077 return AMR_CLEANUP; 3078 } 3079 if (!IsDelimiter(*p, ch)) { 3080 (*pp)++; /* just for backwards compatibility */ 3081 return AMR_BAD; 3082 } 3083 3084 *pp = p; 3085 } 3086 3087 ok: 3088 ModifyWords(ch, ModifyWord_Copy, NULL, ch->oneBigWord); 3089 return AMR_OK; 3090 } 3091 3092 static char * 3093 str_toupper(const char *str) 3094 { 3095 char *res; 3096 size_t i, len; 3097 3098 len = strlen(str); 3099 res = bmake_malloc(len + 1); 3100 for (i = 0; i < len + 1; i++) 3101 res[i] = ch_toupper(str[i]); 3102 3103 return res; 3104 } 3105 3106 static char * 3107 str_tolower(const char *str) 3108 { 3109 char *res; 3110 size_t i, len; 3111 3112 len = strlen(str); 3113 res = bmake_malloc(len + 1); 3114 for (i = 0; i < len + 1; i++) 3115 res[i] = ch_tolower(str[i]); 3116 3117 return res; 3118 } 3119 3120 /* :tA, :tu, :tl, :ts<separator>, etc. */ 3121 static ApplyModifierResult 3122 ApplyModifier_To(const char **pp, ModChain *ch) 3123 { 3124 Expr *expr = ch->expr; 3125 const char *mod = *pp; 3126 assert(mod[0] == 't'); 3127 3128 if (IsDelimiter(mod[1], ch) || mod[1] == '\0') { 3129 *pp = mod + 1; 3130 return AMR_BAD; /* Found ":t<endc>" or ":t:". */ 3131 } 3132 3133 if (mod[1] == 's') 3134 return ApplyModifier_ToSep(pp, ch); 3135 3136 if (!IsDelimiter(mod[2], ch)) { /* :t<unrecognized> */ 3137 *pp = mod + 1; 3138 return AMR_BAD; 3139 } 3140 3141 if (mod[1] == 'A') { /* :tA */ 3142 *pp = mod + 2; 3143 ModifyWords(ch, ModifyWord_Realpath, NULL, ch->oneBigWord); 3144 return AMR_OK; 3145 } 3146 3147 if (mod[1] == 'u') { /* :tu */ 3148 *pp = mod + 2; 3149 if (ModChain_ShouldEval(ch)) 3150 Expr_SetValueOwn(expr, str_toupper(expr->value.str)); 3151 return AMR_OK; 3152 } 3153 3154 if (mod[1] == 'l') { /* :tl */ 3155 *pp = mod + 2; 3156 if (ModChain_ShouldEval(ch)) 3157 Expr_SetValueOwn(expr, str_tolower(expr->value.str)); 3158 return AMR_OK; 3159 } 3160 3161 if (mod[1] == 'W' || mod[1] == 'w') { /* :tW, :tw */ 3162 *pp = mod + 2; 3163 ch->oneBigWord = mod[1] == 'W'; 3164 return AMR_OK; 3165 } 3166 3167 /* Found ":t<unrecognised>:" or ":t<unrecognised><endc>". */ 3168 *pp = mod + 1; /* XXX: unnecessary but observable */ 3169 return AMR_BAD; 3170 } 3171 3172 /* :[#], :[1], :[-1..1], etc. */ 3173 static ApplyModifierResult 3174 ApplyModifier_Words(const char **pp, ModChain *ch) 3175 { 3176 Expr *expr = ch->expr; 3177 const char *estr; 3178 int first, last; 3179 VarParseResult res; 3180 const char *p; 3181 LazyBuf estrBuf; 3182 FStr festr; 3183 3184 (*pp)++; /* skip the '[' */ 3185 res = ParseModifierPart(pp, ']', expr->emode, ch, &estrBuf); 3186 if (res != VPR_OK) 3187 return AMR_CLEANUP; 3188 festr = LazyBuf_DoneGet(&estrBuf); 3189 estr = festr.str; 3190 3191 if (!IsDelimiter(**pp, ch)) 3192 goto bad_modifier; /* Found junk after ']' */ 3193 3194 if (!ModChain_ShouldEval(ch)) 3195 goto ok; 3196 3197 if (estr[0] == '\0') 3198 goto bad_modifier; /* Found ":[]". */ 3199 3200 if (estr[0] == '#' && estr[1] == '\0') { /* Found ":[#]" */ 3201 if (ch->oneBigWord) { 3202 Expr_SetValueRefer(expr, "1"); 3203 } else { 3204 Buffer buf; 3205 3206 Words words = Str_Words(expr->value.str, false); 3207 size_t ac = words.len; 3208 Words_Free(words); 3209 3210 /* 3 digits + '\0' is usually enough */ 3211 Buf_InitSize(&buf, 4); 3212 Buf_AddInt(&buf, (int)ac); 3213 Expr_SetValueOwn(expr, Buf_DoneData(&buf)); 3214 } 3215 goto ok; 3216 } 3217 3218 if (estr[0] == '*' && estr[1] == '\0') { /* Found ":[*]" */ 3219 ch->oneBigWord = true; 3220 goto ok; 3221 } 3222 3223 if (estr[0] == '@' && estr[1] == '\0') { /* Found ":[@]" */ 3224 ch->oneBigWord = false; 3225 goto ok; 3226 } 3227 3228 /* 3229 * We expect estr to contain a single integer for :[N], or two 3230 * integers separated by ".." for :[start..end]. 3231 */ 3232 p = estr; 3233 if (!TryParseIntBase0(&p, &first)) 3234 goto bad_modifier; /* Found junk instead of a number */ 3235 3236 if (p[0] == '\0') { /* Found only one integer in :[N] */ 3237 last = first; 3238 } else if (p[0] == '.' && p[1] == '.' && p[2] != '\0') { 3239 /* Expecting another integer after ".." */ 3240 p += 2; 3241 if (!TryParseIntBase0(&p, &last) || *p != '\0') 3242 goto bad_modifier; /* Found junk after ".." */ 3243 } else 3244 goto bad_modifier; /* Found junk instead of ".." */ 3245 3246 /* 3247 * Now first and last are properly filled in, but we still have to 3248 * check for 0 as a special case. 3249 */ 3250 if (first == 0 && last == 0) { 3251 /* ":[0]" or perhaps ":[0..0]" */ 3252 ch->oneBigWord = true; 3253 goto ok; 3254 } 3255 3256 /* ":[0..N]" or ":[N..0]" */ 3257 if (first == 0 || last == 0) 3258 goto bad_modifier; 3259 3260 /* Normal case: select the words described by first and last. */ 3261 Expr_SetValueOwn(expr, 3262 VarSelectWords(expr->value.str, first, last, 3263 ch->sep, ch->oneBigWord)); 3264 3265 ok: 3266 FStr_Done(&festr); 3267 return AMR_OK; 3268 3269 bad_modifier: 3270 FStr_Done(&festr); 3271 return AMR_BAD; 3272 } 3273 3274 static int 3275 str_cmp_asc(const void *a, const void *b) 3276 { 3277 return strcmp(*(const char *const *)a, *(const char *const *)b); 3278 } 3279 3280 static int 3281 str_cmp_desc(const void *a, const void *b) 3282 { 3283 return strcmp(*(const char *const *)b, *(const char *const *)a); 3284 } 3285 3286 static void 3287 ShuffleStrings(char **strs, size_t n) 3288 { 3289 size_t i; 3290 3291 for (i = n - 1; i > 0; i--) { 3292 size_t rndidx = (size_t)random() % (i + 1); 3293 char *t = strs[i]; 3294 strs[i] = strs[rndidx]; 3295 strs[rndidx] = t; 3296 } 3297 } 3298 3299 /* :O (order ascending) or :Or (order descending) or :Ox (shuffle) */ 3300 static ApplyModifierResult 3301 ApplyModifier_Order(const char **pp, ModChain *ch) 3302 { 3303 const char *mod = (*pp)++; /* skip past the 'O' in any case */ 3304 Words words; 3305 enum SortMode { 3306 ASC, DESC, SHUFFLE 3307 } mode; 3308 3309 if (IsDelimiter(mod[1], ch)) { 3310 mode = ASC; 3311 } else if ((mod[1] == 'r' || mod[1] == 'x') && 3312 IsDelimiter(mod[2], ch)) { 3313 (*pp)++; 3314 mode = mod[1] == 'r' ? DESC : SHUFFLE; 3315 } else 3316 return AMR_BAD; 3317 3318 if (!ModChain_ShouldEval(ch)) 3319 return AMR_OK; 3320 3321 words = Str_Words(ch->expr->value.str, false); 3322 if (mode == SHUFFLE) 3323 ShuffleStrings(words.words, words.len); 3324 else 3325 qsort(words.words, words.len, sizeof words.words[0], 3326 mode == ASC ? str_cmp_asc : str_cmp_desc); 3327 Expr_SetValueOwn(ch->expr, Words_JoinFree(words)); 3328 3329 return AMR_OK; 3330 } 3331 3332 /* :? then : else */ 3333 static ApplyModifierResult 3334 ApplyModifier_IfElse(const char **pp, ModChain *ch) 3335 { 3336 Expr *expr = ch->expr; 3337 VarParseResult res; 3338 LazyBuf buf; 3339 FStr then_expr, else_expr; 3340 3341 bool value = false; 3342 VarEvalMode then_emode = VARE_PARSE_ONLY; 3343 VarEvalMode else_emode = VARE_PARSE_ONLY; 3344 3345 int cond_rc = COND_PARSE; /* anything other than COND_INVALID */ 3346 if (Expr_ShouldEval(expr)) { 3347 cond_rc = Cond_EvalCondition(expr->name, &value); 3348 if (cond_rc != COND_INVALID && value) 3349 then_emode = expr->emode; 3350 if (cond_rc != COND_INVALID && !value) 3351 else_emode = expr->emode; 3352 } 3353 3354 (*pp)++; /* skip past the '?' */ 3355 res = ParseModifierPart(pp, ':', then_emode, ch, &buf); 3356 if (res != VPR_OK) 3357 return AMR_CLEANUP; 3358 then_expr = LazyBuf_DoneGet(&buf); 3359 3360 res = ParseModifierPart(pp, ch->endc, else_emode, ch, &buf); 3361 if (res != VPR_OK) { 3362 FStr_Done(&then_expr); 3363 return AMR_CLEANUP; 3364 } 3365 else_expr = LazyBuf_DoneGet(&buf); 3366 3367 (*pp)--; /* Go back to the ch->endc. */ 3368 3369 if (cond_rc == COND_INVALID) { 3370 Error("Bad conditional expression '%s' in '%s?%s:%s'", 3371 expr->name, expr->name, then_expr.str, else_expr.str); 3372 return AMR_CLEANUP; 3373 } 3374 3375 if (!ModChain_ShouldEval(ch)) { 3376 FStr_Done(&then_expr); 3377 FStr_Done(&else_expr); 3378 } else if (value) { 3379 Expr_SetValue(expr, then_expr); 3380 FStr_Done(&else_expr); 3381 } else { 3382 FStr_Done(&then_expr); 3383 Expr_SetValue(expr, else_expr); 3384 } 3385 Expr_Define(expr); 3386 return AMR_OK; 3387 } 3388 3389 /* 3390 * The ::= modifiers are special in that they do not read the variable value 3391 * but instead assign to that variable. They always expand to an empty 3392 * string. 3393 * 3394 * Their main purpose is in supporting .for loops that generate shell commands 3395 * since an ordinary variable assignment at that point would terminate the 3396 * dependency group for these targets. For example: 3397 * 3398 * list-targets: .USE 3399 * .for i in ${.TARGET} ${.TARGET:R}.gz 3400 * @${t::=$i} 3401 * @echo 'The target is ${t:T}.' 3402 * .endfor 3403 * 3404 * ::=<str> Assigns <str> as the new value of variable. 3405 * ::?=<str> Assigns <str> as value of variable if 3406 * it was not already set. 3407 * ::+=<str> Appends <str> to variable. 3408 * ::!=<cmd> Assigns output of <cmd> as the new value of 3409 * variable. 3410 */ 3411 static ApplyModifierResult 3412 ApplyModifier_Assign(const char **pp, ModChain *ch) 3413 { 3414 Expr *expr = ch->expr; 3415 GNode *scope; 3416 FStr val; 3417 VarParseResult res; 3418 LazyBuf buf; 3419 3420 const char *mod = *pp; 3421 const char *op = mod + 1; 3422 3423 if (op[0] == '=') 3424 goto ok; 3425 if ((op[0] == '!' || op[0] == '+' || op[0] == '?') && op[1] == '=') 3426 goto ok; 3427 return AMR_UNKNOWN; /* "::<unrecognised>" */ 3428 3429 ok: 3430 if (expr->name[0] == '\0') { 3431 *pp = mod + 1; 3432 return AMR_BAD; 3433 } 3434 3435 switch (op[0]) { 3436 case '+': 3437 case '?': 3438 case '!': 3439 *pp = mod + 3; 3440 break; 3441 default: 3442 *pp = mod + 2; 3443 break; 3444 } 3445 3446 res = ParseModifierPart(pp, ch->endc, expr->emode, ch, &buf); 3447 if (res != VPR_OK) 3448 return AMR_CLEANUP; 3449 val = LazyBuf_DoneGet(&buf); 3450 3451 (*pp)--; /* Go back to the ch->endc. */ 3452 3453 if (!Expr_ShouldEval(expr)) 3454 goto done; 3455 3456 scope = expr->scope; /* scope where v belongs */ 3457 if (expr->defined == DEF_REGULAR && expr->scope != SCOPE_GLOBAL) { 3458 Var *gv = VarFind(expr->name, expr->scope, false); 3459 if (gv == NULL) 3460 scope = SCOPE_GLOBAL; 3461 else 3462 VarFreeEnv(gv); 3463 } 3464 3465 switch (op[0]) { 3466 case '+': 3467 Var_Append(scope, expr->name, val.str); 3468 break; 3469 case '!': { 3470 const char *errfmt; 3471 char *cmd_output = Cmd_Exec(val.str, &errfmt); 3472 if (errfmt != NULL) 3473 Error(errfmt, val.str); 3474 else 3475 Var_Set(scope, expr->name, cmd_output); 3476 free(cmd_output); 3477 break; 3478 } 3479 case '?': 3480 if (expr->defined == DEF_REGULAR) 3481 break; 3482 /* FALLTHROUGH */ 3483 default: 3484 Var_Set(scope, expr->name, val.str); 3485 break; 3486 } 3487 Expr_SetValueRefer(expr, ""); 3488 3489 done: 3490 FStr_Done(&val); 3491 return AMR_OK; 3492 } 3493 3494 /* 3495 * :_=... 3496 * remember current value 3497 */ 3498 static ApplyModifierResult 3499 ApplyModifier_Remember(const char **pp, ModChain *ch) 3500 { 3501 Expr *expr = ch->expr; 3502 const char *mod = *pp; 3503 FStr name; 3504 3505 if (!ModMatchEq(mod, "_", ch)) 3506 return AMR_UNKNOWN; 3507 3508 name = FStr_InitRefer("_"); 3509 if (mod[1] == '=') { 3510 /* 3511 * XXX: This ad-hoc call to strcspn deviates from the usual 3512 * behavior defined in ParseModifierPart. This creates an 3513 * unnecessary, undocumented inconsistency in make. 3514 */ 3515 const char *arg = mod + 2; 3516 size_t argLen = strcspn(arg, ":)}"); 3517 *pp = arg + argLen; 3518 name = FStr_InitOwn(bmake_strldup(arg, argLen)); 3519 } else 3520 *pp = mod + 1; 3521 3522 if (Expr_ShouldEval(expr)) 3523 Var_Set(expr->scope, name.str, expr->value.str); 3524 FStr_Done(&name); 3525 3526 return AMR_OK; 3527 } 3528 3529 /* 3530 * Apply the given function to each word of the variable value, 3531 * for a single-letter modifier such as :H, :T. 3532 */ 3533 static ApplyModifierResult 3534 ApplyModifier_WordFunc(const char **pp, ModChain *ch, 3535 ModifyWordProc modifyWord) 3536 { 3537 if (!IsDelimiter((*pp)[1], ch)) 3538 return AMR_UNKNOWN; 3539 (*pp)++; 3540 3541 if (ModChain_ShouldEval(ch)) 3542 ModifyWords(ch, modifyWord, NULL, ch->oneBigWord); 3543 3544 return AMR_OK; 3545 } 3546 3547 /* Remove adjacent duplicate words. */ 3548 static ApplyModifierResult 3549 ApplyModifier_Unique(const char **pp, ModChain *ch) 3550 { 3551 Words words; 3552 3553 if (!IsDelimiter((*pp)[1], ch)) 3554 return AMR_UNKNOWN; 3555 (*pp)++; 3556 3557 if (!ModChain_ShouldEval(ch)) 3558 return AMR_OK; 3559 3560 words = Str_Words(ch->expr->value.str, false); 3561 3562 if (words.len > 1) { 3563 size_t si, di; 3564 3565 di = 0; 3566 for (si = 1; si < words.len; si++) { 3567 if (strcmp(words.words[si], words.words[di]) != 0) { 3568 di++; 3569 if (di != si) 3570 words.words[di] = words.words[si]; 3571 } 3572 } 3573 words.len = di + 1; 3574 } 3575 3576 Expr_SetValueOwn(ch->expr, Words_JoinFree(words)); 3577 3578 return AMR_OK; 3579 } 3580 3581 #ifdef SYSVVARSUB 3582 /* :from=to */ 3583 static ApplyModifierResult 3584 ApplyModifier_SysV(const char **pp, ModChain *ch) 3585 { 3586 Expr *expr = ch->expr; 3587 VarParseResult res; 3588 LazyBuf lhsBuf, rhsBuf; 3589 FStr rhs; 3590 struct ModifyWord_SysVSubstArgs args; 3591 Substring lhs; 3592 const char *lhsSuffix; 3593 3594 const char *mod = *pp; 3595 bool eqFound = false; 3596 3597 /* 3598 * First we make a pass through the string trying to verify it is a 3599 * SysV-make-style translation. It must be: <lhs>=<rhs> 3600 */ 3601 int depth = 1; 3602 const char *p = mod; 3603 while (*p != '\0' && depth > 0) { 3604 if (*p == '=') { /* XXX: should also test depth == 1 */ 3605 eqFound = true; 3606 /* continue looking for ch->endc */ 3607 } else if (*p == ch->endc) 3608 depth--; 3609 else if (*p == ch->startc) 3610 depth++; 3611 if (depth > 0) 3612 p++; 3613 } 3614 if (*p != ch->endc || !eqFound) 3615 return AMR_UNKNOWN; 3616 3617 res = ParseModifierPart(pp, '=', expr->emode, ch, &lhsBuf); 3618 if (res != VPR_OK) 3619 return AMR_CLEANUP; 3620 3621 /* The SysV modifier lasts until the end of the variable expression. */ 3622 res = ParseModifierPart(pp, ch->endc, expr->emode, ch, &rhsBuf); 3623 if (res != VPR_OK) { 3624 LazyBuf_Done(&lhsBuf); 3625 return AMR_CLEANUP; 3626 } 3627 rhs = LazyBuf_DoneGet(&rhsBuf); 3628 3629 (*pp)--; /* Go back to the ch->endc. */ 3630 3631 /* Do not turn an empty expression into non-empty. */ 3632 if (lhsBuf.len == 0 && expr->value.str[0] == '\0') 3633 goto done; 3634 3635 lhs = LazyBuf_Get(&lhsBuf); 3636 lhsSuffix = Substring_SkipFirst(lhs, '%'); 3637 3638 args.scope = expr->scope; 3639 args.lhsPrefix = Substring_Init(lhs.start, 3640 lhsSuffix != lhs.start ? lhsSuffix - 1 : lhs.start); 3641 args.lhsPercent = lhsSuffix != lhs.start; 3642 args.lhsSuffix = Substring_Init(lhsSuffix, lhs.end); 3643 args.rhs = rhs.str; 3644 3645 ModifyWords(ch, ModifyWord_SysVSubst, &args, ch->oneBigWord); 3646 3647 done: 3648 LazyBuf_Done(&lhsBuf); 3649 return AMR_OK; 3650 } 3651 #endif 3652 3653 #ifdef SUNSHCMD 3654 /* :sh */ 3655 static ApplyModifierResult 3656 ApplyModifier_SunShell(const char **pp, ModChain *ch) 3657 { 3658 Expr *expr = ch->expr; 3659 const char *p = *pp; 3660 if (!(p[1] == 'h' && IsDelimiter(p[2], ch))) 3661 return AMR_UNKNOWN; 3662 *pp = p + 2; 3663 3664 if (Expr_ShouldEval(expr)) { 3665 const char *errfmt; 3666 char *output = Cmd_Exec(expr->value.str, &errfmt); 3667 if (errfmt != NULL) 3668 Error(errfmt, expr->value.str); 3669 Expr_SetValueOwn(expr, output); 3670 } 3671 3672 return AMR_OK; 3673 } 3674 #endif 3675 3676 static void 3677 LogBeforeApply(const ModChain *ch, const char *mod) 3678 { 3679 const Expr *expr = ch->expr; 3680 bool is_single_char = mod[0] != '\0' && IsDelimiter(mod[1], ch); 3681 3682 /* 3683 * At this point, only the first character of the modifier can 3684 * be used since the end of the modifier is not yet known. 3685 */ 3686 3687 if (!Expr_ShouldEval(expr)) { 3688 debug_printf("Parsing modifier ${%s:%c%s}\n", 3689 expr->name, mod[0], is_single_char ? "" : "..."); 3690 return; 3691 } 3692 3693 if ((expr->emode == VARE_WANTRES || expr->emode == VARE_UNDEFERR) && 3694 expr->defined == DEF_REGULAR) { 3695 debug_printf( 3696 "Evaluating modifier ${%s:%c%s} on value \"%s\"\n", 3697 expr->name, mod[0], is_single_char ? "" : "...", 3698 expr->value.str); 3699 return; 3700 } 3701 3702 debug_printf( 3703 "Evaluating modifier ${%s:%c%s} on value \"%s\" (%s, %s)\n", 3704 expr->name, mod[0], is_single_char ? "" : "...", expr->value.str, 3705 VarEvalMode_Name[expr->emode], ExprDefined_Name[expr->defined]); 3706 } 3707 3708 static void 3709 LogAfterApply(const ModChain *ch, const char *p, const char *mod) 3710 { 3711 const Expr *expr = ch->expr; 3712 const char *value = expr->value.str; 3713 const char *quot = value == var_Error ? "" : "\""; 3714 3715 if ((expr->emode == VARE_WANTRES || expr->emode == VARE_UNDEFERR) && 3716 expr->defined == DEF_REGULAR) { 3717 3718 debug_printf("Result of ${%s:%.*s} is %s%s%s\n", 3719 expr->name, (int)(p - mod), mod, 3720 quot, value == var_Error ? "error" : value, quot); 3721 return; 3722 } 3723 3724 debug_printf("Result of ${%s:%.*s} is %s%s%s (%s, %s)\n", 3725 expr->name, (int)(p - mod), mod, 3726 quot, value == var_Error ? "error" : value, quot, 3727 VarEvalMode_Name[expr->emode], 3728 ExprDefined_Name[expr->defined]); 3729 } 3730 3731 static ApplyModifierResult 3732 ApplyModifier(const char **pp, ModChain *ch) 3733 { 3734 switch (**pp) { 3735 case '!': 3736 return ApplyModifier_ShellCommand(pp, ch); 3737 case ':': 3738 return ApplyModifier_Assign(pp, ch); 3739 case '?': 3740 return ApplyModifier_IfElse(pp, ch); 3741 case '@': 3742 return ApplyModifier_Loop(pp, ch); 3743 case '[': 3744 return ApplyModifier_Words(pp, ch); 3745 case '_': 3746 return ApplyModifier_Remember(pp, ch); 3747 #ifndef NO_REGEX 3748 case 'C': 3749 return ApplyModifier_Regex(pp, ch); 3750 #endif 3751 case 'D': 3752 return ApplyModifier_Defined(pp, ch); 3753 case 'E': 3754 return ApplyModifier_WordFunc(pp, ch, ModifyWord_Suffix); 3755 case 'g': 3756 return ApplyModifier_Gmtime(pp, ch); 3757 case 'H': 3758 return ApplyModifier_WordFunc(pp, ch, ModifyWord_Head); 3759 case 'h': 3760 return ApplyModifier_Hash(pp, ch); 3761 case 'L': 3762 return ApplyModifier_Literal(pp, ch); 3763 case 'l': 3764 return ApplyModifier_Localtime(pp, ch); 3765 case 'M': 3766 case 'N': 3767 return ApplyModifier_Match(pp, ch); 3768 case 'O': 3769 return ApplyModifier_Order(pp, ch); 3770 case 'P': 3771 return ApplyModifier_Path(pp, ch); 3772 case 'Q': 3773 case 'q': 3774 return ApplyModifier_Quote(pp, ch); 3775 case 'R': 3776 return ApplyModifier_WordFunc(pp, ch, ModifyWord_Root); 3777 case 'r': 3778 return ApplyModifier_Range(pp, ch); 3779 case 'S': 3780 return ApplyModifier_Subst(pp, ch); 3781 #ifdef SUNSHCMD 3782 case 's': 3783 return ApplyModifier_SunShell(pp, ch); 3784 #endif 3785 case 'T': 3786 return ApplyModifier_WordFunc(pp, ch, ModifyWord_Tail); 3787 case 't': 3788 return ApplyModifier_To(pp, ch); 3789 case 'U': 3790 return ApplyModifier_Defined(pp, ch); 3791 case 'u': 3792 return ApplyModifier_Unique(pp, ch); 3793 default: 3794 return AMR_UNKNOWN; 3795 } 3796 } 3797 3798 static void ApplyModifiers(Expr *, const char **, char, char); 3799 3800 typedef enum ApplyModifiersIndirectResult { 3801 /* The indirect modifiers have been applied successfully. */ 3802 AMIR_CONTINUE, 3803 /* Fall back to the SysV modifier. */ 3804 AMIR_SYSV, 3805 /* Error out. */ 3806 AMIR_OUT 3807 } ApplyModifiersIndirectResult; 3808 3809 /* 3810 * While expanding a variable expression, expand and apply indirect modifiers, 3811 * such as in ${VAR:${M_indirect}}. 3812 * 3813 * All indirect modifiers of a group must come from a single variable 3814 * expression. ${VAR:${M1}} is valid but ${VAR:${M1}${M2}} is not. 3815 * 3816 * Multiple groups of indirect modifiers can be chained by separating them 3817 * with colons. ${VAR:${M1}:${M2}} contains 2 indirect modifiers. 3818 * 3819 * If the variable expression is not followed by ch->endc or ':', fall 3820 * back to trying the SysV modifier, such as in ${VAR:${FROM}=${TO}}. 3821 */ 3822 static ApplyModifiersIndirectResult 3823 ApplyModifiersIndirect(ModChain *ch, const char **pp) 3824 { 3825 Expr *expr = ch->expr; 3826 const char *p = *pp; 3827 FStr mods; 3828 3829 (void)Var_Parse(&p, expr->scope, expr->emode, &mods); 3830 /* TODO: handle errors */ 3831 3832 if (mods.str[0] != '\0' && *p != '\0' && !IsDelimiter(*p, ch)) { 3833 FStr_Done(&mods); 3834 return AMIR_SYSV; 3835 } 3836 3837 DEBUG3(VAR, "Indirect modifier \"%s\" from \"%.*s\"\n", 3838 mods.str, (int)(p - *pp), *pp); 3839 3840 if (mods.str[0] != '\0') { 3841 const char *modsp = mods.str; 3842 ApplyModifiers(expr, &modsp, '\0', '\0'); 3843 if (expr->value.str == var_Error || *modsp != '\0') { 3844 FStr_Done(&mods); 3845 *pp = p; 3846 return AMIR_OUT; /* error already reported */ 3847 } 3848 } 3849 FStr_Done(&mods); 3850 3851 if (*p == ':') 3852 p++; 3853 else if (*p == '\0' && ch->endc != '\0') { 3854 Error("Unclosed variable expression after indirect " 3855 "modifier, expecting '%c' for variable \"%s\"", 3856 ch->endc, expr->name); 3857 *pp = p; 3858 return AMIR_OUT; 3859 } 3860 3861 *pp = p; 3862 return AMIR_CONTINUE; 3863 } 3864 3865 static ApplyModifierResult 3866 ApplySingleModifier(const char **pp, ModChain *ch) 3867 { 3868 ApplyModifierResult res; 3869 const char *mod = *pp; 3870 const char *p = *pp; 3871 3872 if (DEBUG(VAR)) 3873 LogBeforeApply(ch, mod); 3874 3875 res = ApplyModifier(&p, ch); 3876 3877 #ifdef SYSVVARSUB 3878 if (res == AMR_UNKNOWN) { 3879 assert(p == mod); 3880 res = ApplyModifier_SysV(&p, ch); 3881 } 3882 #endif 3883 3884 if (res == AMR_UNKNOWN) { 3885 /* 3886 * Guess the end of the current modifier. 3887 * XXX: Skipping the rest of the modifier hides 3888 * errors and leads to wrong results. 3889 * Parsing should rather stop here. 3890 */ 3891 for (p++; !IsDelimiter(*p, ch) && *p != '\0'; p++) 3892 continue; 3893 Parse_Error(PARSE_FATAL, "Unknown modifier \"%.*s\"", 3894 (int)(p - mod), mod); 3895 Expr_SetValueRefer(ch->expr, var_Error); 3896 } 3897 if (res == AMR_CLEANUP || res == AMR_BAD) { 3898 *pp = p; 3899 return res; 3900 } 3901 3902 if (DEBUG(VAR)) 3903 LogAfterApply(ch, p, mod); 3904 3905 if (*p == '\0' && ch->endc != '\0') { 3906 Error( 3907 "Unclosed variable expression, expecting '%c' for " 3908 "modifier \"%.*s\" of variable \"%s\" with value \"%s\"", 3909 ch->endc, 3910 (int)(p - mod), mod, 3911 ch->expr->name, ch->expr->value.str); 3912 } else if (*p == ':') { 3913 p++; 3914 } else if (opts.strict && *p != '\0' && *p != ch->endc) { 3915 Parse_Error(PARSE_FATAL, 3916 "Missing delimiter ':' after modifier \"%.*s\"", 3917 (int)(p - mod), mod); 3918 /* 3919 * TODO: propagate parse error to the enclosing 3920 * expression 3921 */ 3922 } 3923 *pp = p; 3924 return AMR_OK; 3925 } 3926 3927 #if __STDC_VERSION__ >= 199901L 3928 #define ModChain_Literal(expr, startc, endc, sep, oneBigWord) \ 3929 (ModChain) { expr, startc, endc, sep, oneBigWord } 3930 #else 3931 MAKE_INLINE ModChain 3932 ModChain_Literal(Expr *expr, char startc, char endc, char sep, bool oneBigWord) 3933 { 3934 ModChain ch; 3935 ch.expr = expr; 3936 ch.startc = startc; 3937 ch.endc = endc; 3938 ch.sep = sep; 3939 ch.oneBigWord = oneBigWord; 3940 return ch; 3941 } 3942 #endif 3943 3944 /* Apply any modifiers (such as :Mpattern or :@var@loop@ or :Q or ::=value). */ 3945 static void 3946 ApplyModifiers( 3947 Expr *expr, 3948 const char **pp, /* the parsing position, updated upon return */ 3949 char startc, /* '(' or '{'; or '\0' for indirect modifiers */ 3950 char endc /* ')' or '}'; or '\0' for indirect modifiers */ 3951 ) 3952 { 3953 ModChain ch = ModChain_Literal(expr, startc, endc, ' ', false); 3954 const char *p; 3955 const char *mod; 3956 3957 assert(startc == '(' || startc == '{' || startc == '\0'); 3958 assert(endc == ')' || endc == '}' || endc == '\0'); 3959 assert(expr->value.str != NULL); 3960 3961 p = *pp; 3962 3963 if (*p == '\0' && endc != '\0') { 3964 Error( 3965 "Unclosed variable expression (expecting '%c') for \"%s\"", 3966 ch.endc, expr->name); 3967 goto cleanup; 3968 } 3969 3970 while (*p != '\0' && *p != endc) { 3971 ApplyModifierResult res; 3972 3973 if (*p == '$') { 3974 ApplyModifiersIndirectResult amir = 3975 ApplyModifiersIndirect(&ch, &p); 3976 if (amir == AMIR_CONTINUE) 3977 continue; 3978 if (amir == AMIR_OUT) 3979 break; 3980 /* 3981 * It's neither '${VAR}:' nor '${VAR}}'. Try to parse 3982 * it as a SysV modifier, as that is the only modifier 3983 * that can start with '$'. 3984 */ 3985 } 3986 3987 mod = p; 3988 3989 res = ApplySingleModifier(&p, &ch); 3990 if (res == AMR_CLEANUP) 3991 goto cleanup; 3992 if (res == AMR_BAD) 3993 goto bad_modifier; 3994 } 3995 3996 *pp = p; 3997 assert(expr->value.str != NULL); /* Use var_Error or varUndefined. */ 3998 return; 3999 4000 bad_modifier: 4001 /* XXX: The modifier end is only guessed. */ 4002 Error("Bad modifier \":%.*s\" for variable \"%s\"", 4003 (int)strcspn(mod, ":)}"), mod, expr->name); 4004 4005 cleanup: 4006 /* 4007 * TODO: Use p + strlen(p) instead, to stop parsing immediately. 4008 * 4009 * In the unit tests, this generates a few unterminated strings in the 4010 * shell commands though. Instead of producing these unfinished 4011 * strings, commands with evaluation errors should not be run at all. 4012 * 4013 * To make that happen, Var_Subst must report the actual errors 4014 * instead of returning VPR_OK unconditionally. 4015 */ 4016 *pp = p; 4017 Expr_SetValueRefer(expr, var_Error); 4018 } 4019 4020 /* 4021 * Only 4 of the 7 local variables are treated specially as they are the only 4022 * ones that will be set when dynamic sources are expanded. 4023 */ 4024 static bool 4025 VarnameIsDynamic(Substring varname) 4026 { 4027 const char *name; 4028 size_t len; 4029 4030 name = varname.start; 4031 len = Substring_Length(varname); 4032 if (len == 1 || (len == 2 && (name[1] == 'F' || name[1] == 'D'))) { 4033 switch (name[0]) { 4034 case '@': 4035 case '%': 4036 case '*': 4037 case '!': 4038 return true; 4039 } 4040 return false; 4041 } 4042 4043 if ((len == 7 || len == 8) && name[0] == '.' && ch_isupper(name[1])) { 4044 return Substring_Equals(varname, ".TARGET") || 4045 Substring_Equals(varname, ".ARCHIVE") || 4046 Substring_Equals(varname, ".PREFIX") || 4047 Substring_Equals(varname, ".MEMBER"); 4048 } 4049 4050 return false; 4051 } 4052 4053 static const char * 4054 UndefinedShortVarValue(char varname, const GNode *scope) 4055 { 4056 if (scope == SCOPE_CMDLINE || scope == SCOPE_GLOBAL) { 4057 /* 4058 * If substituting a local variable in a non-local scope, 4059 * assume it's for dynamic source stuff. We have to handle 4060 * this specially and return the longhand for the variable 4061 * with the dollar sign escaped so it makes it back to the 4062 * caller. Only four of the local variables are treated 4063 * specially as they are the only four that will be set 4064 * when dynamic sources are expanded. 4065 */ 4066 switch (varname) { 4067 case '@': 4068 return "$(.TARGET)"; 4069 case '%': 4070 return "$(.MEMBER)"; 4071 case '*': 4072 return "$(.PREFIX)"; 4073 case '!': 4074 return "$(.ARCHIVE)"; 4075 } 4076 } 4077 return NULL; 4078 } 4079 4080 /* 4081 * Parse a variable name, until the end character or a colon, whichever 4082 * comes first. 4083 */ 4084 static void 4085 ParseVarname(const char **pp, char startc, char endc, 4086 GNode *scope, VarEvalMode emode, 4087 LazyBuf *buf) 4088 { 4089 const char *p = *pp; 4090 int depth = 0; /* Track depth so we can spot parse errors. */ 4091 4092 LazyBuf_Init(buf, p); 4093 4094 while (*p != '\0') { 4095 if ((*p == endc || *p == ':') && depth == 0) 4096 break; 4097 if (*p == startc) 4098 depth++; 4099 if (*p == endc) 4100 depth--; 4101 4102 /* A variable inside a variable, expand. */ 4103 if (*p == '$') { 4104 FStr nested_val; 4105 (void)Var_Parse(&p, scope, emode, &nested_val); 4106 /* TODO: handle errors */ 4107 LazyBuf_AddStr(buf, nested_val.str); 4108 FStr_Done(&nested_val); 4109 } else { 4110 LazyBuf_Add(buf, *p); 4111 p++; 4112 } 4113 } 4114 *pp = p; 4115 } 4116 4117 static VarParseResult 4118 ValidShortVarname(char varname, const char *start) 4119 { 4120 if (varname != '$' && varname != ':' && varname != '}' && 4121 varname != ')' && varname != '\0') 4122 return VPR_OK; 4123 4124 if (!opts.strict) 4125 return VPR_ERR; /* XXX: Missing error message */ 4126 4127 if (varname == '$') 4128 Parse_Error(PARSE_FATAL, 4129 "To escape a dollar, use \\$, not $$, at \"%s\"", start); 4130 else if (varname == '\0') 4131 Parse_Error(PARSE_FATAL, "Dollar followed by nothing"); 4132 else 4133 Parse_Error(PARSE_FATAL, 4134 "Invalid variable name '%c', at \"%s\"", varname, start); 4135 4136 return VPR_ERR; 4137 } 4138 4139 /* 4140 * Parse a single-character variable name such as in $V or $@. 4141 * Return whether to continue parsing. 4142 */ 4143 static bool 4144 ParseVarnameShort(char varname, const char **pp, GNode *scope, 4145 VarEvalMode emode, 4146 VarParseResult *out_false_res, const char **out_false_val, 4147 Var **out_true_var) 4148 { 4149 char name[2]; 4150 Var *v; 4151 VarParseResult vpr; 4152 4153 vpr = ValidShortVarname(varname, *pp); 4154 if (vpr != VPR_OK) { 4155 (*pp)++; 4156 *out_false_res = vpr; 4157 *out_false_val = var_Error; 4158 return false; 4159 } 4160 4161 name[0] = varname; 4162 name[1] = '\0'; 4163 v = VarFind(name, scope, true); 4164 if (v == NULL) { 4165 const char *val; 4166 *pp += 2; 4167 4168 val = UndefinedShortVarValue(varname, scope); 4169 if (val == NULL) 4170 val = emode == VARE_UNDEFERR 4171 ? var_Error : varUndefined; 4172 4173 if (opts.strict && val == var_Error) { 4174 Parse_Error(PARSE_FATAL, 4175 "Variable \"%s\" is undefined", name); 4176 *out_false_res = VPR_ERR; 4177 *out_false_val = val; 4178 return false; 4179 } 4180 4181 /* 4182 * XXX: This looks completely wrong. 4183 * 4184 * If undefined expressions are not allowed, this should 4185 * rather be VPR_ERR instead of VPR_UNDEF, together with an 4186 * error message. 4187 * 4188 * If undefined expressions are allowed, this should rather 4189 * be VPR_UNDEF instead of VPR_OK. 4190 */ 4191 *out_false_res = emode == VARE_UNDEFERR 4192 ? VPR_UNDEF : VPR_OK; 4193 *out_false_val = val; 4194 return false; 4195 } 4196 4197 *out_true_var = v; 4198 return true; 4199 } 4200 4201 /* Find variables like @F or <D. */ 4202 static Var * 4203 FindLocalLegacyVar(Substring varname, GNode *scope, 4204 const char **out_extraModifiers) 4205 { 4206 Var *v; 4207 4208 /* Only resolve these variables if scope is a "real" target. */ 4209 if (scope == SCOPE_CMDLINE || scope == SCOPE_GLOBAL) 4210 return NULL; 4211 4212 if (Substring_Length(varname) != 2) 4213 return NULL; 4214 if (varname.start[1] != 'F' && varname.start[1] != 'D') 4215 return NULL; 4216 if (strchr("@%?*!<>", varname.start[0]) == NULL) 4217 return NULL; 4218 4219 v = VarFindSubstring(Substring_Sub(varname, 0, 1), scope, false); 4220 if (v == NULL) 4221 return NULL; 4222 4223 *out_extraModifiers = varname.start[1] == 'D' ? "H:" : "T:"; 4224 return v; 4225 } 4226 4227 static VarParseResult 4228 EvalUndefined(bool dynamic, const char *start, const char *p, 4229 Substring varname, VarEvalMode emode, FStr *out_val) 4230 { 4231 if (dynamic) { 4232 *out_val = FStr_InitOwn(bmake_strsedup(start, p)); 4233 return VPR_OK; 4234 } 4235 4236 if (emode == VARE_UNDEFERR && opts.strict) { 4237 Parse_Error(PARSE_FATAL, 4238 "Variable \"%.*s\" is undefined", 4239 (int)Substring_Length(varname), varname.start); 4240 *out_val = FStr_InitRefer(var_Error); 4241 return VPR_ERR; 4242 } 4243 4244 if (emode == VARE_UNDEFERR) { 4245 *out_val = FStr_InitRefer(var_Error); 4246 return VPR_UNDEF; /* XXX: Should be VPR_ERR instead. */ 4247 } 4248 4249 *out_val = FStr_InitRefer(varUndefined); 4250 return VPR_OK; 4251 } 4252 4253 /* 4254 * Parse a long variable name enclosed in braces or parentheses such as $(VAR) 4255 * or ${VAR}, up to the closing brace or parenthesis, or in the case of 4256 * ${VAR:Modifiers}, up to the ':' that starts the modifiers. 4257 * Return whether to continue parsing. 4258 */ 4259 static bool 4260 ParseVarnameLong( 4261 const char **pp, 4262 char startc, 4263 GNode *scope, 4264 VarEvalMode emode, 4265 4266 const char **out_false_pp, 4267 VarParseResult *out_false_res, 4268 FStr *out_false_val, 4269 4270 char *out_true_endc, 4271 Var **out_true_v, 4272 bool *out_true_haveModifier, 4273 const char **out_true_extraModifiers, 4274 bool *out_true_dynamic, 4275 ExprDefined *out_true_exprDefined 4276 ) 4277 { 4278 LazyBuf varname; 4279 Var *v; 4280 bool haveModifier; 4281 bool dynamic = false; 4282 4283 const char *p = *pp; 4284 const char *const start = p; 4285 char endc = startc == '(' ? ')' : '}'; 4286 4287 p += 2; /* skip "${" or "$(" or "y(" */ 4288 ParseVarname(&p, startc, endc, scope, emode, &varname); 4289 4290 if (*p == ':') { 4291 haveModifier = true; 4292 } else if (*p == endc) { 4293 haveModifier = false; 4294 } else { 4295 Substring name = LazyBuf_Get(&varname); 4296 Parse_Error(PARSE_FATAL, "Unclosed variable \"%.*s\"", 4297 (int)Substring_Length(name), name.start); 4298 LazyBuf_Done(&varname); 4299 *out_false_pp = p; 4300 *out_false_val = FStr_InitRefer(var_Error); 4301 *out_false_res = VPR_ERR; 4302 return false; 4303 } 4304 4305 v = VarFindSubstring(LazyBuf_Get(&varname), scope, true); 4306 4307 /* At this point, p points just after the variable name, 4308 * either at ':' or at endc. */ 4309 4310 if (v == NULL) { 4311 v = FindLocalLegacyVar(LazyBuf_Get(&varname), scope, 4312 out_true_extraModifiers); 4313 } 4314 4315 if (v == NULL) { 4316 /* 4317 * Defer expansion of dynamic variables if they appear in 4318 * non-local scope since they are not defined there. 4319 */ 4320 dynamic = VarnameIsDynamic(LazyBuf_Get(&varname)) && 4321 (scope == SCOPE_CMDLINE || scope == SCOPE_GLOBAL); 4322 4323 if (!haveModifier) { 4324 p++; /* skip endc */ 4325 *out_false_pp = p; 4326 *out_false_res = EvalUndefined(dynamic, start, p, 4327 LazyBuf_Get(&varname), emode, out_false_val); 4328 return false; 4329 } 4330 4331 /* 4332 * The variable expression is based on an undefined variable. 4333 * Nevertheless it needs a Var, for modifiers that access the 4334 * variable name, such as :L or :?. 4335 * 4336 * Most modifiers leave this expression in the "undefined" 4337 * state (VES_UNDEF), only a few modifiers like :D, :U, :L, 4338 * :P turn this undefined expression into a defined 4339 * expression (VES_DEF). 4340 * 4341 * In the end, after applying all modifiers, if the expression 4342 * is still undefined, Var_Parse will return an empty string 4343 * instead of the actually computed value. 4344 */ 4345 v = VarNew(LazyBuf_DoneGet(&varname), "", false, false); 4346 *out_true_exprDefined = DEF_UNDEF; 4347 } else 4348 LazyBuf_Done(&varname); 4349 4350 *pp = p; 4351 *out_true_endc = endc; 4352 *out_true_v = v; 4353 *out_true_haveModifier = haveModifier; 4354 *out_true_dynamic = dynamic; 4355 return true; 4356 } 4357 4358 /* Free the environment variable now since we own it. */ 4359 static void 4360 FreeEnvVar(Var *v, FStr *inout_val) 4361 { 4362 char *varValue = Buf_DoneData(&v->val); 4363 if (inout_val->str == varValue) 4364 inout_val->freeIt = varValue; 4365 else 4366 free(varValue); 4367 4368 FStr_Done(&v->name); 4369 free(v); 4370 } 4371 4372 #if __STDC_VERSION__ >= 199901L 4373 #define Expr_Literal(name, value, emode, scope, defined) \ 4374 { name, value, emode, scope, defined } 4375 #else 4376 MAKE_INLINE Expr 4377 Expr_Literal(const char *name, FStr value, 4378 VarEvalMode emode, GNode *scope, ExprDefined defined) 4379 { 4380 Expr expr; 4381 4382 expr.name = name; 4383 expr.value = value; 4384 expr.emode = emode; 4385 expr.scope = scope; 4386 expr.defined = defined; 4387 return expr; 4388 } 4389 #endif 4390 4391 /* 4392 * Expressions of the form ${:U...} with a trivial value are often generated 4393 * by .for loops and are boring, therefore parse and evaluate them in a fast 4394 * lane without debug logging. 4395 */ 4396 static bool 4397 Var_Parse_FastLane(const char **pp, VarEvalMode emode, FStr *out_value) 4398 { 4399 const char *p; 4400 4401 p = *pp; 4402 if (!(p[0] == '$' && p[1] == '{' && p[2] == ':' && p[3] == 'U')) 4403 return false; 4404 4405 p += 4; 4406 while (*p != '$' && *p != '{' && *p != ':' && *p != '\\' && 4407 *p != '}' && *p != '\0') 4408 p++; 4409 if (*p != '}') 4410 return false; 4411 4412 if (emode == VARE_PARSE_ONLY) 4413 *out_value = FStr_InitRefer(""); 4414 else 4415 *out_value = FStr_InitOwn(bmake_strsedup(*pp + 4, p)); 4416 *pp = p + 1; 4417 return true; 4418 } 4419 4420 /* 4421 * Given the start of a variable expression (such as $v, $(VAR), 4422 * ${VAR:Mpattern}), extract the variable name and value, and the modifiers, 4423 * if any. While doing that, apply the modifiers to the value of the 4424 * expression, forming its final value. A few of the modifiers such as :!cmd! 4425 * or ::= have side effects. 4426 * 4427 * Input: 4428 * *pp The string to parse. 4429 * When parsing a condition in ParseEmptyArg, it may also 4430 * point to the "y" of "empty(VARNAME:Modifiers)", which 4431 * is syntactically the same. 4432 * scope The scope for finding variables 4433 * emode Controls the exact details of parsing and evaluation 4434 * 4435 * Output: 4436 * *pp The position where to continue parsing. 4437 * TODO: After a parse error, the value of *pp is 4438 * unspecified. It may not have been updated at all, 4439 * point to some random character in the string, to the 4440 * location of the parse error, or at the end of the 4441 * string. 4442 * *out_val The value of the variable expression, never NULL. 4443 * *out_val var_Error if there was a parse error. 4444 * *out_val var_Error if the base variable of the expression was 4445 * undefined, emode is VARE_UNDEFERR, and none of 4446 * the modifiers turned the undefined expression into a 4447 * defined expression. 4448 * XXX: It is not guaranteed that an error message has 4449 * been printed. 4450 * *out_val varUndefined if the base variable of the expression 4451 * was undefined, emode was not VARE_UNDEFERR, 4452 * and none of the modifiers turned the undefined 4453 * expression into a defined expression. 4454 * XXX: It is not guaranteed that an error message has 4455 * been printed. 4456 */ 4457 VarParseResult 4458 Var_Parse(const char **pp, GNode *scope, VarEvalMode emode, FStr *out_val) 4459 { 4460 const char *p = *pp; 4461 const char *const start = p; 4462 /* true if have modifiers for the variable. */ 4463 bool haveModifier; 4464 /* Starting character if variable in parens or braces. */ 4465 char startc; 4466 /* Ending character if variable in parens or braces. */ 4467 char endc; 4468 /* 4469 * true if the variable is local and we're expanding it in a 4470 * non-local scope. This is done to support dynamic sources. 4471 * The result is just the expression, unaltered. 4472 */ 4473 bool dynamic; 4474 const char *extramodifiers; 4475 Var *v; 4476 Expr expr = Expr_Literal(NULL, FStr_InitRefer(NULL), emode, 4477 scope, DEF_REGULAR); 4478 4479 if (Var_Parse_FastLane(pp, emode, out_val)) 4480 return VPR_OK; 4481 4482 DEBUG2(VAR, "Var_Parse: %s (%s)\n", start, VarEvalMode_Name[emode]); 4483 4484 *out_val = FStr_InitRefer(NULL); 4485 extramodifiers = NULL; /* extra modifiers to apply first */ 4486 dynamic = false; 4487 4488 /* 4489 * Appease GCC, which thinks that the variable might not be 4490 * initialized. 4491 */ 4492 endc = '\0'; 4493 4494 startc = p[1]; 4495 if (startc != '(' && startc != '{') { 4496 VarParseResult res; 4497 if (!ParseVarnameShort(startc, pp, scope, emode, &res, 4498 &out_val->str, &v)) 4499 return res; 4500 haveModifier = false; 4501 p++; 4502 } else { 4503 VarParseResult res; 4504 if (!ParseVarnameLong(&p, startc, scope, emode, 4505 pp, &res, out_val, 4506 &endc, &v, &haveModifier, &extramodifiers, 4507 &dynamic, &expr.defined)) 4508 return res; 4509 } 4510 4511 expr.name = v->name.str; 4512 if (v->inUse) 4513 Fatal("Variable %s is recursive.", v->name.str); 4514 4515 /* 4516 * XXX: This assignment creates an alias to the current value of the 4517 * variable. This means that as long as the value of the expression 4518 * stays the same, the value of the variable must not change. 4519 * Using the '::=' modifier, it could be possible to do exactly this. 4520 * At the bottom of this function, the resulting value is compared to 4521 * the then-current value of the variable. This might also invoke 4522 * undefined behavior. 4523 */ 4524 expr.value = FStr_InitRefer(v->val.data); 4525 4526 /* 4527 * Before applying any modifiers, expand any nested expressions from 4528 * the variable value. 4529 */ 4530 if (strchr(expr.value.str, '$') != NULL && 4531 VarEvalMode_ShouldEval(emode)) { 4532 char *expanded; 4533 VarEvalMode nested_emode = emode; 4534 if (opts.strict) 4535 nested_emode = VarEvalMode_UndefOk(nested_emode); 4536 v->inUse = true; 4537 (void)Var_Subst(expr.value.str, scope, nested_emode, 4538 &expanded); 4539 v->inUse = false; 4540 /* TODO: handle errors */ 4541 Expr_SetValueOwn(&expr, expanded); 4542 } 4543 4544 if (extramodifiers != NULL) { 4545 const char *em = extramodifiers; 4546 ApplyModifiers(&expr, &em, '\0', '\0'); 4547 } 4548 4549 if (haveModifier) { 4550 p++; /* Skip initial colon. */ 4551 ApplyModifiers(&expr, &p, startc, endc); 4552 } 4553 4554 if (*p != '\0') /* Skip past endc if possible. */ 4555 p++; 4556 4557 *pp = p; 4558 4559 if (v->fromEnv) { 4560 FreeEnvVar(v, &expr.value); 4561 4562 } else if (expr.defined != DEF_REGULAR) { 4563 if (expr.defined == DEF_UNDEF) { 4564 if (dynamic) { 4565 Expr_SetValueOwn(&expr, 4566 bmake_strsedup(start, p)); 4567 } else { 4568 /* 4569 * The expression is still undefined, 4570 * therefore discard the actual value and 4571 * return an error marker instead. 4572 */ 4573 Expr_SetValueRefer(&expr, 4574 emode == VARE_UNDEFERR 4575 ? var_Error : varUndefined); 4576 } 4577 } 4578 /* XXX: This is not standard memory management. */ 4579 if (expr.value.str != v->val.data) 4580 Buf_Done(&v->val); 4581 FStr_Done(&v->name); 4582 free(v); 4583 } 4584 *out_val = expr.value; 4585 return VPR_OK; /* XXX: Is not correct in all cases */ 4586 } 4587 4588 static void 4589 VarSubstDollarDollar(const char **pp, Buffer *res, VarEvalMode emode) 4590 { 4591 /* A dollar sign may be escaped with another dollar sign. */ 4592 if (save_dollars && VarEvalMode_ShouldKeepDollar(emode)) 4593 Buf_AddByte(res, '$'); 4594 Buf_AddByte(res, '$'); 4595 *pp += 2; 4596 } 4597 4598 static void 4599 VarSubstExpr(const char **pp, Buffer *buf, GNode *scope, 4600 VarEvalMode emode, bool *inout_errorReported) 4601 { 4602 const char *p = *pp; 4603 const char *nested_p = p; 4604 FStr val; 4605 4606 (void)Var_Parse(&nested_p, scope, emode, &val); 4607 /* TODO: handle errors */ 4608 4609 if (val.str == var_Error || val.str == varUndefined) { 4610 if (!VarEvalMode_ShouldKeepUndef(emode)) { 4611 p = nested_p; 4612 } else if (emode == VARE_UNDEFERR || val.str == var_Error) { 4613 4614 /* 4615 * XXX: This condition is wrong. If val == var_Error, 4616 * this doesn't necessarily mean there was an undefined 4617 * variable. It could equally well be a parse error; 4618 * see unit-tests/varmod-order.exp. 4619 */ 4620 4621 /* 4622 * If variable is undefined, complain and skip the 4623 * variable. The complaint will stop us from doing 4624 * anything when the file is parsed. 4625 */ 4626 if (!*inout_errorReported) { 4627 Parse_Error(PARSE_FATAL, 4628 "Undefined variable \"%.*s\"", 4629 (int)(size_t)(nested_p - p), p); 4630 } 4631 p = nested_p; 4632 *inout_errorReported = true; 4633 } else { 4634 /* Copy the initial '$' of the undefined expression, 4635 * thereby deferring expansion of the expression, but 4636 * expand nested expressions if already possible. 4637 * See unit-tests/varparse-undef-partial.mk. */ 4638 Buf_AddByte(buf, *p); 4639 p++; 4640 } 4641 } else { 4642 p = nested_p; 4643 Buf_AddStr(buf, val.str); 4644 } 4645 4646 FStr_Done(&val); 4647 4648 *pp = p; 4649 } 4650 4651 /* 4652 * Skip as many characters as possible -- either to the end of the string 4653 * or to the next dollar sign (variable expression). 4654 */ 4655 static void 4656 VarSubstPlain(const char **pp, Buffer *res) 4657 { 4658 const char *p = *pp; 4659 const char *start = p; 4660 4661 for (p++; *p != '$' && *p != '\0'; p++) 4662 continue; 4663 Buf_AddBytesBetween(res, start, p); 4664 *pp = p; 4665 } 4666 4667 /* 4668 * Expand all variable expressions like $V, ${VAR}, $(VAR:Modifiers) in the 4669 * given string. 4670 * 4671 * Input: 4672 * str The string in which the variable expressions are 4673 * expanded. 4674 * scope The scope in which to start searching for 4675 * variables. The other scopes are searched as well. 4676 * emode The mode for parsing or evaluating subexpressions. 4677 */ 4678 VarParseResult 4679 Var_Subst(const char *str, GNode *scope, VarEvalMode emode, char **out_res) 4680 { 4681 const char *p = str; 4682 Buffer res; 4683 4684 /* Set true if an error has already been reported, 4685 * to prevent a plethora of messages when recursing */ 4686 /* XXX: Why is the 'static' necessary here? */ 4687 static bool errorReported; 4688 4689 Buf_Init(&res); 4690 errorReported = false; 4691 4692 while (*p != '\0') { 4693 if (p[0] == '$' && p[1] == '$') 4694 VarSubstDollarDollar(&p, &res, emode); 4695 else if (p[0] == '$') 4696 VarSubstExpr(&p, &res, scope, emode, &errorReported); 4697 else 4698 VarSubstPlain(&p, &res); 4699 } 4700 4701 *out_res = Buf_DoneDataCompact(&res); 4702 return VPR_OK; 4703 } 4704 4705 /* Initialize the variables module. */ 4706 void 4707 Var_Init(void) 4708 { 4709 SCOPE_INTERNAL = GNode_New("Internal"); 4710 SCOPE_GLOBAL = GNode_New("Global"); 4711 SCOPE_CMDLINE = GNode_New("Command"); 4712 } 4713 4714 /* Clean up the variables module. */ 4715 void 4716 Var_End(void) 4717 { 4718 Var_Stats(); 4719 } 4720 4721 void 4722 Var_Stats(void) 4723 { 4724 HashTable_DebugStats(&SCOPE_GLOBAL->vars, "Global variables"); 4725 } 4726 4727 /* Print all variables in a scope, sorted by name. */ 4728 void 4729 Var_Dump(GNode *scope) 4730 { 4731 Vector /* of const char * */ vec; 4732 HashIter hi; 4733 size_t i; 4734 const char **varnames; 4735 4736 Vector_Init(&vec, sizeof(const char *)); 4737 4738 HashIter_Init(&hi, &scope->vars); 4739 while (HashIter_Next(&hi) != NULL) 4740 *(const char **)Vector_Push(&vec) = hi.entry->key; 4741 varnames = vec.items; 4742 4743 qsort(varnames, vec.len, sizeof varnames[0], str_cmp_asc); 4744 4745 for (i = 0; i < vec.len; i++) { 4746 const char *varname = varnames[i]; 4747 Var *var = HashTable_FindValue(&scope->vars, varname); 4748 debug_printf("%-16s = %s\n", varname, var->val.data); 4749 } 4750 4751 Vector_Done(&vec); 4752 } 4753
Indexes created Mon Sep 22 21:09:42 GMT 2025