/* $OpenBSD: parse.c,v 1.110 2013/11/22 15:47:35 espie Exp $ */ /* $NetBSD: parse.c,v 1.29 1997/03/10 21:20:04 christos Exp $ */ /* * Copyright (c) 1999 Marc Espie. * * Extensive code changes for the OpenBSD project. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE OPENBSD PROJECT AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE OPENBSD * PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* * Copyright (c) 1988, 1989, 1990, 1993 * The Regents of the University of California. All rights reserved. * Copyright (c) 1989 by Berkeley Softworks * All rights reserved. * * This code is derived from software contributed to Berkeley by * Adam de Boor. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include #include #include #include #include #include "config.h" #include "defines.h" #include "dir.h" #include "direxpand.h" #include "job.h" #include "buf.h" #include "for.h" #include "lowparse.h" #include "arch.h" #include "cond.h" #include "suff.h" #include "parse.h" #include "var.h" #include "targ.h" #include "error.h" #include "str.h" #include "main.h" #include "gnode.h" #include "memory.h" #include "extern.h" #include "lst.h" #include "parsevar.h" #include "stats.h" #include "garray.h" #include "node_int.h" #include "nodehashconsts.h" /* gsources and gtargets should be local to some functions, but they're * set as persistent arrays for performance reasons. */ static struct growableArray gsources, gtargets; #define SOURCES_SIZE 128 #define TARGETS_SIZE 32 static LIST theUserIncPath;/* list of directories for "..." includes */ static LIST theSysIncPath; /* list of directories for <...> includes */ Lst systemIncludePath = &theSysIncPath; Lst userIncludePath = &theUserIncPath; static GNode *mainNode; /* The main target to create. This is the * first target on the first dependency * line in the first makefile */ /*- * specType contains the special TYPE of the current target. It is * SPECIAL_NONE if the target is unspecial. If it *is* special, however, * the children are linked as children of the parent but not vice versa. * This variable is set in ParseDoDependency */ static unsigned int specType; static int waiting; /* * Predecessor node for handling .ORDER. Initialized to NULL when .ORDER * seen, then set to each successive source on the line. */ static GNode *predecessor; static void ParseLinkSrc(GNode *, GNode *); static int ParseDoOp(GNode **, unsigned int); static int ParseAddDep(GNode *, GNode *); static void ParseDoSrc(struct growableArray *, struct growableArray *, int, const char *, const char *); static int ParseFindMain(void *, void *); static void ParseClearPath(void *); static void add_target_node(const char *, const char *); static void add_target_nodes(const char *, const char *); static void apply_op(struct growableArray *, unsigned int, GNode *); static void ParseDoDependency(const char *); static void ParseAddCmd(void *, void *); static void ParseHasCommands(void *); static bool handle_poison(const char *); static bool handle_for_loop(Buffer, const char *); static bool handle_undef(const char *); #define ParseReadLoopLine(linebuf) Parse_ReadUnparsedLine(linebuf, "for loop") static bool handle_bsd_command(Buffer, Buffer, const char *); static char *strip_comments(Buffer, const char *); static char *resolve_include_filename(const char *, bool); static void handle_include_file(const char *, const char *, bool, bool); static bool lookup_bsd_include(const char *); static void lookup_sysv_style_include(const char *, const char *, bool); static void lookup_sysv_include(const char *, const char *); static void lookup_conditional_include(const char *, const char *); static bool parse_as_special_line(Buffer, Buffer, const char *); static unsigned int parse_operator(const char **); static const char *parse_do_targets(Lst, unsigned int *, const char *); static void parse_target_line(struct growableArray *, const char *, const char *, bool *); static void finish_commands(struct growableArray *); static void parse_commands(struct growableArray *, const char *); static void create_special_nodes(void); static bool found_delimiter(const char *); static unsigned int handle_special_targets(Lst); static void dump_targets(void); #define P(k) k, sizeof(k), K_##k static struct { const char *keyword; size_t sz; uint32_t hv; unsigned int type; unsigned int special_op; } specials[] = { { P(NODE_EXEC), SPECIAL_EXEC | SPECIAL_TARGETSOURCE, OP_EXEC, }, { P(NODE_IGNORE), SPECIAL_IGNORE | SPECIAL_TARGETSOURCE, OP_IGNORE, }, { P(NODE_INCLUDES), SPECIAL_NOTHING | SPECIAL_TARGET, 0, }, { P(NODE_INVISIBLE),SPECIAL_INVISIBLE | SPECIAL_TARGETSOURCE,OP_INVISIBLE, }, { P(NODE_JOIN), SPECIAL_JOIN | SPECIAL_TARGETSOURCE, OP_JOIN, }, { P(NODE_LIBS), SPECIAL_NOTHING | SPECIAL_TARGET, 0, }, { P(NODE_MADE), SPECIAL_MADE | SPECIAL_TARGETSOURCE, OP_MADE, }, { P(NODE_MAIN), SPECIAL_MAIN | SPECIAL_TARGET, 0, }, { P(NODE_MAKE), SPECIAL_MAKE | SPECIAL_TARGETSOURCE, OP_MAKE, }, { P(NODE_MAKEFLAGS), SPECIAL_MFLAGS | SPECIAL_TARGET, 0, }, { P(NODE_MFLAGS), SPECIAL_MFLAGS | SPECIAL_TARGET, 0, }, { P(NODE_NOTMAIN), SPECIAL_NOTMAIN | SPECIAL_TARGETSOURCE, OP_NOTMAIN, }, { P(NODE_NOTPARALLEL),SPECIAL_NOTPARALLEL | SPECIAL_TARGET, 0, }, { P(NODE_NO_PARALLEL),SPECIAL_NOTPARALLEL | SPECIAL_TARGET, 0, }, { P(NODE_NULL), SPECIAL_NOTHING | SPECIAL_TARGET, 0, }, { P(NODE_OPTIONAL), SPECIAL_OPTIONAL | SPECIAL_TARGETSOURCE,OP_OPTIONAL, }, { P(NODE_ORDER), SPECIAL_ORDER | SPECIAL_TARGET, 0, }, { P(NODE_PARALLEL), SPECIAL_PARALLEL | SPECIAL_TARGET, 0, }, { P(NODE_PATH), SPECIAL_PATH | SPECIAL_TARGET, 0, }, { P(NODE_PHONY), SPECIAL_PHONY | SPECIAL_TARGETSOURCE, OP_PHONY, }, { P(NODE_PRECIOUS), SPECIAL_PRECIOUS | SPECIAL_TARGETSOURCE,OP_PRECIOUS, }, { P(NODE_RECURSIVE),SPECIAL_MAKE | SPECIAL_TARGETSOURCE, OP_MAKE, }, { P(NODE_SILENT), SPECIAL_SILENT | SPECIAL_TARGETSOURCE, OP_SILENT, }, { P(NODE_SINGLESHELL),SPECIAL_NOTHING | SPECIAL_TARGET, 0, }, { P(NODE_SUFFIXES), SPECIAL_SUFFIXES | SPECIAL_TARGET, 0, }, { P(NODE_USE), SPECIAL_USE | SPECIAL_TARGETSOURCE, OP_USE, }, { P(NODE_WAIT), SPECIAL_WAIT | SPECIAL_TARGETSOURCE, 0 }, { P(NODE_CHEAP), SPECIAL_CHEAP | SPECIAL_TARGETSOURCE, OP_CHEAP, }, { P(NODE_EXPENSIVE),SPECIAL_EXPENSIVE | SPECIAL_TARGETSOURCE,OP_EXPENSIVE, }, { P(NODE_POSIX), SPECIAL_NOTHING | SPECIAL_TARGET, 0 }, { P(NODE_SCCS_GET), SPECIAL_NOTHING | SPECIAL_TARGET, 0 }, }; #undef P static void create_special_nodes() { unsigned int i; for (i = 0; i < sizeof(specials)/sizeof(specials[0]); i++) { GNode *gn = Targ_FindNodeh(specials[i].keyword, specials[i].sz, specials[i].hv, TARG_CREATE); gn->special = specials[i].type; gn->special_op = specials[i].special_op; } } /*- *--------------------------------------------------------------------- * ParseLinkSrc -- * Link the parent node to its new child. Used by * ParseDoDependency. If the specType isn't 'Not', the parent * isn't linked as a parent of the child. * * Side Effects: * New elements are added to the parents list of cgn and the * children list of cgn. the unmade field of pgn is updated * to reflect the additional child. *--------------------------------------------------------------------- */ static void ParseLinkSrc(GNode *pgn, GNode *cgn) { if (Lst_AddNew(&pgn->children, cgn)) { if (specType == SPECIAL_NONE) Lst_AtEnd(&cgn->parents, pgn); pgn->unmade++; } } static char * operator_string(int op) { /* XXX we don't bother freeing this, it's used for a fatal error * anyways */ char *result = emalloc(5); char *t = result; if (op & OP_DEPENDS) { *t++ = ':'; } if (op & OP_FORCE) { *t++ = '!'; } if (op & OP_DOUBLEDEP) { *t++ = ':'; *t++ = ':'; } *t = 0; return result; } /*- *--------------------------------------------------------------------- * ParseDoOp -- * Apply the parsed operator to the given target node. Used in a * Array_Find call by ParseDoDependency once all targets have * been found and their operator parsed. If the previous and new * operators are incompatible, a major error is taken. * * Side Effects: * The type field of the node is altered to reflect any new bits in * the op. *--------------------------------------------------------------------- */ static int ParseDoOp(GNode **gnp, unsigned int op) { GNode *gn = *gnp; /* * If the dependency mask of the operator and the node don't match and * the node has actually had an operator applied to it before, and the * operator actually has some dependency information in it, complain. */ if (((op & OP_OPMASK) != (gn->type & OP_OPMASK)) && !OP_NOP(gn->type) && !OP_NOP(op)) { Parse_Error(PARSE_FATAL, "Inconsistent dependency operator for target %s\n" "\t(was %s%s, now %s%s)", gn->name, gn->name, operator_string(gn->type), gn->name, operator_string(op)); return 0; } if (op == OP_DOUBLEDEP && ((gn->type & OP_OPMASK) == OP_DOUBLEDEP)) { /* If the node was the object of a :: operator, we need to * create a new instance of it for the children and commands on * this dependency line. The new instance is placed on the * 'cohorts' list of the initial one (note the initial one is * not on its own cohorts list) and the new instance is linked * to all parents of the initial instance. */ GNode *cohort; LstNode ln; cohort = Targ_NewGN(gn->name); /* Duplicate links to parents so graph traversal is simple. * Perhaps some type bits should be duplicated? * * Make the cohort invisible as well to avoid duplicating it * into other variables. True, parents of this target won't * tend to do anything with their local variables, but better * safe than sorry. */ for (ln = Lst_First(&gn->parents); ln != NULL; ln = Lst_Adv(ln)) ParseLinkSrc((GNode *)Lst_Datum(ln), cohort); cohort->type = OP_DOUBLEDEP|OP_INVISIBLE; Lst_AtEnd(&gn->cohorts, cohort); /* Replace the node in the targets list with the new copy */ *gnp = cohort; gn = cohort; } /* We don't want to nuke any previous flags (whatever they were) so we * just OR the new operator into the old. */ gn->type |= op; return 1; } /*- *--------------------------------------------------------------------- * ParseAddDep -- * Check if the pair of GNodes given needs to be synchronized. * This has to be when two nodes are on different sides of a * .WAIT directive. * * Results: * Returns 0 if the two targets need to be ordered, 1 otherwise. * If it returns 0, the search can stop. * * Side Effects: * A dependency can be added between the two nodes. * *--------------------------------------------------------------------- */ static int ParseAddDep(GNode *p, GNode *s) { if (p->order < s->order) { /* XXX: This can cause loops, and loops can cause unmade * targets, but checking is tedious, and the debugging output * can show the problem. */ Lst_AtEnd(&p->successors, s); Lst_AtEnd(&s->preds, p); return 1; } else return 0; } static void apply_op(struct growableArray *targets, unsigned int op, GNode *gn) { if (op) gn->type |= op; else Array_ForEach(targets, ParseLinkSrc, gn); } /*- *--------------------------------------------------------------------- * ParseDoSrc -- * Given the name of a source, figure out if it is an attribute * and apply it to the targets if it is. Else decide if there is * some attribute which should be applied *to* the source because * of some special target and apply it if so. Otherwise, make the * source be a child of the targets in the list 'targets' * * Side Effects: * Operator bits may be added to the list of targets or to the source. * The targets may have a new source added to their lists of children. *--------------------------------------------------------------------- */ static void ParseDoSrc( struct growableArray *targets, struct growableArray *sources, int tOp, /* operator (if any) from special targets */ const char *src, /* name of the source to handle */ const char *esrc) { GNode *gn = Targ_FindNodei(src, esrc, TARG_CREATE); if ((gn->special & SPECIAL_SOURCE) != 0) { if (gn->special_op) { Array_FindP(targets, ParseDoOp, gn->special_op); return; } else { assert((gn->special & SPECIAL_MASK) == SPECIAL_WAIT); waiting++; return; } } switch (specType) { case SPECIAL_MAIN: /* * If we have noted the existence of a .MAIN, it means we need * to add the sources of said target to the list of things * to create. Note that this will only be invoked if the user * didn't specify a target on the command line. This is to * allow #ifmake's to succeed, or something... */ Lst_AtEnd(create, gn->name); /* * Add the name to the .TARGETS variable as well, so the user * can employ that, if desired. */ Var_Append(".TARGETS", gn->name); return; case SPECIAL_ORDER: /* * Create proper predecessor/successor links between the * previous source and the current one. */ if (predecessor != NULL) { Lst_AtEnd(&predecessor->successors, gn); Lst_AtEnd(&gn->preds, predecessor); } predecessor = gn; break; default: /* * In the case of a source that was the object of a :: operator, * the attribute is applied to all of its instances (as kept in * the 'cohorts' list of the node) or all the cohorts are linked * to all the targets. */ apply_op(targets, tOp, gn); if ((gn->type & OP_OPMASK) == OP_DOUBLEDEP) { LstNode ln; for (ln=Lst_First(&gn->cohorts); ln != NULL; ln = Lst_Adv(ln)){ apply_op(targets, tOp, (GNode *)Lst_Datum(ln)); } } break; } gn->order = waiting; Array_AtEnd(sources, gn); if (waiting) Array_Find(sources, ParseAddDep, gn); } /*- *----------------------------------------------------------------------- * ParseFindMain -- * Find a real target in the list and set it to be the main one. * Called by ParseDoDependency when a main target hasn't been found * yet. * * Results: * 1 if main not found yet, 0 if it is. * * Side Effects: * mainNode is changed and. *----------------------------------------------------------------------- */ static int ParseFindMain(void *gnp, void *dummy UNUSED) { GNode *gn = (GNode *)gnp; if ((gn->type & OP_NOTARGET) == 0 && gn->special == SPECIAL_NONE) { mainNode = gn; return 0; } else { return 1; } } /*- *----------------------------------------------------------------------- * ParseClearPath -- * Reinit path to an empty path *----------------------------------------------------------------------- */ static void ParseClearPath(void *p) { Lst path = (Lst)p; Lst_Destroy(path, Dir_Destroy); Lst_Init(path); } static void add_target_node(const char *line, const char *end) { GNode *gn; gn = Suff_ParseAsTransform(line, end); if (gn == NULL) { gn = Targ_FindNodei(line, end, TARG_CREATE); gn->type &= ~OP_DUMMY; } Array_AtEnd(>argets, gn); } static void add_target_nodes(const char *line, const char *end) { if (Dir_HasWildcardsi(line, end)) { /* * Targets are to be sought only in the current directory, * so create an empty path for the thing. Note we need to * use Dir_Destroy in the destruction of the path as the * Dir module could have added a directory to the path... */ char *targName; LIST emptyPath; LIST curTargs; Lst_Init(&emptyPath); Lst_Init(&curTargs); Dir_Expandi(line, end, &emptyPath, &curTargs); Lst_Destroy(&emptyPath, Dir_Destroy); while ((targName = (char *)Lst_DeQueue(&curTargs)) != NULL) { add_target_node(targName, targName + strlen(targName)); } Lst_Destroy(&curTargs, NOFREE); } else { add_target_node(line, end); } } /* special target line check: a proper delimiter is a ':' or '!', but * we don't want to end a target on such a character if there is a better * match later on. * By "better" I mean one that is followed by whitespace. This allows the * user to have targets like: * fie::fi:fo: fum * where "fie::fi:fo" is the target. In real life this is used for perl5 * library man pages where "::" separates an object from its class. Ie: * "File::Spec::Unix". * This behaviour is also consistent with other versions of make. */ static bool found_delimiter(const char *s) { if (*s == '!' || *s == ':') { const char *p = s + 1; if (*s == ':' && *p == ':') p++; /* Found the best match already. */ if (ISSPACE(*p) || *p == '\0') return true; do { p += strcspn(p, "!:"); if (*p == '\0') break; p++; } while (!ISSPACE(*p)); /* No better match later on... */ if (*p == '\0') return true; } return false; } static const char * parse_do_targets(Lst paths, unsigned int *op, const char *line) { const char *cp; do { for (cp = line; *cp && !ISSPACE(*cp) && *cp != '(';) { if (*cp == '$') /* Must be a dynamic source (would have been * expanded otherwise), so call the Var module * to parse the puppy so we can safely advance * beyond it...There should be no errors in * this, as they would have been discovered in * the initial Var_Subst and we wouldn't be * here. */ Var_ParseSkip(&cp, NULL); else { if (found_delimiter(cp)) break; cp++; } } if (*cp == '(') { LIST temp; Lst_Init(&temp); /* Archives must be handled specially to make sure the * OP_ARCHV flag is set in their 'type' field, for one * thing, and because things like "archive(file1.o * file2.o file3.o)" are permissible. * Arch_ParseArchive will set 'line' to be the first * non-blank after the archive-spec. It creates/finds * nodes for the members and places them on the given * list, returning true if all went well and false if * there was an error in the specification. On error, * line should remain untouched. */ if (!Arch_ParseArchive(&line, &temp, NULL)) { Parse_Error(PARSE_FATAL, "Error in archive specification: \"%s\"", line); return NULL; } else { AppendList2Array(&temp, >argets); Lst_Destroy(&temp, NOFREE); cp = line; continue; } } if (*cp == '\0') { /* Ending a dependency line without an operator is a * Bozo no-no */ /* Deeper check for cvs conflicts */ if (gtargets.n > 0 && (strcmp(gtargets.a[0]->name, "<<<<<<<") == 0 || strcmp(gtargets.a[0]->name, ">>>>>>>") == 0)) { Parse_Error(PARSE_FATAL, "Need an operator (likely from a cvs update conflict)"); } else { Parse_Error(PARSE_FATAL, "Need an operator in '%s'", line); } return NULL; } /* * Have word in line. Get or create its nodes and stick it at * the end of the targets list */ if (*line != '\0') add_target_nodes(line, cp); while (ISSPACE(*cp)) cp++; line = cp; } while (*line != '!' && *line != ':' && *line); *op = handle_special_targets(paths); return cp; } static void dump_targets() { size_t i; for (i = 0; i < gtargets.n; i++) fprintf(stderr, "%s", gtargets.a[i]->name); fprintf(stderr, "\n"); } static unsigned int handle_special_targets(Lst paths) { size_t i; int seen_path = 0; int seen_special = 0; int seen_normal = 0; int type; for (i = 0; i < gtargets.n; i++) { type = gtargets.a[i]->special; if ((type & SPECIAL_MASK) == SPECIAL_PATH) { seen_path++; Lst_AtEnd(paths, find_suffix_path(gtargets.a[i])); } else if ((type & SPECIAL_TARGET) != 0) seen_special++; else seen_normal++; } if ((seen_path != 0) + (seen_special != 0) + (seen_normal != 0) > 1) { Parse_Error(PARSE_FATAL, "Wrong mix of special targets"); dump_targets(); specType = SPECIAL_ERROR; return 0; } if (seen_normal != 0) { specType = SPECIAL_NONE; return 0; } else if (seen_path != 0) { specType = SPECIAL_PATH; return 0; } else if (seen_special == 0) { specType = SPECIAL_NONE; return 0; } else if (seen_special != 1) { Parse_Error(PARSE_FATAL, "Mixing special targets is not allowed"); dump_targets(); return 0; } else if (seen_special == 1) { specType = gtargets.a[0]->special & SPECIAL_MASK; switch (specType) { case SPECIAL_MAIN: if (!Lst_IsEmpty(create)) { specType = SPECIAL_NONE; } break; case SPECIAL_NOTPARALLEL: { extern int maxJobs; maxJobs = 1; compatMake = 1; break; } case SPECIAL_ORDER: predecessor = NULL; break; default: break; } return gtargets.a[0]->special_op; } else { /* we're allowed to have 0 target */ specType = SPECIAL_NONE; return 0; } } static unsigned int parse_operator(const char **pos) { const char *cp = *pos; unsigned int op = OP_ERROR; if (*cp == '!') { op = OP_FORCE; } else if (*cp == ':') { if (cp[1] == ':') { op = OP_DOUBLEDEP; cp++; } else { op = OP_DEPENDS; } } else { Parse_Error(PARSE_FATAL, "Missing dependency operator"); return OP_ERROR; } cp++; /* Advance beyond operator */ /* Get to the first source */ while (ISSPACE(*cp)) cp++; *pos = cp; return op; } /*- *--------------------------------------------------------------------- * ParseDoDependency -- * Parse the dependency line in line. * * Side Effects: * The nodes of the sources are linked as children to the nodes of the * targets. Some nodes may be created. * * We parse a dependency line by first extracting words from the line and * finding nodes in the list of all targets with that name. This is done * until a character is encountered which is an operator character. Currently * these are only ! and :. At this point the operator is parsed and the * pointer into the line advanced until the first source is encountered. * The parsed operator is applied to each node in the 'targets' list, * which is where the nodes found for the targets are kept, by means of * the ParseDoOp function. * The sources are read in much the same way as the targets were except * that now they are expanded using the wildcarding scheme of the C-Shell * and all instances of the resulting words in the list of all targets * are found. Each of the resulting nodes is then linked to each of the * targets as one of its children. * Certain targets are handled specially. These are the ones detailed * by the specType variable. * The storing of transformation rules is also taken care of here. * A target is recognized as a transformation rule by calling * Suff_IsTransform. If it is a transformation rule, its node is gotten * from the suffix module via Suff_AddTransform rather than the standard * Targ_FindNode in the target module. *--------------------------------------------------------------------- */ static void ParseDoDependency(const char *line) /* the line to parse */ { const char *cp; /* our current position */ unsigned int op; /* the operator on the line */ LIST paths; /* List of search paths to alter when parsing * a list of .PATH targets */ unsigned int tOp; /* operator from special target */ waiting = 0; Lst_Init(&paths); Array_Reset(&gsources); cp = parse_do_targets(&paths, &tOp, line); if (cp == NULL || specType == SPECIAL_ERROR) return; op = parse_operator(&cp); if (op == OP_ERROR) return; Array_FindP(>argets, ParseDoOp, op); line = cp; /* * Several special targets take different actions if present with no * sources: * a .SUFFIXES line with no sources clears out all old suffixes * a .PRECIOUS line makes all targets precious * a .IGNORE line ignores errors for all targets * a .SILENT line creates silence when making all targets * a .PATH removes all directories from the search path(s). */ if (!*line) { switch (specType) { case SPECIAL_SUFFIXES: Suff_ClearSuffixes(); break; case SPECIAL_PRECIOUS: allPrecious = true; break; case SPECIAL_IGNORE: ignoreErrors = true; break; case SPECIAL_SILENT: beSilent = true; break; case SPECIAL_PATH: Lst_Every(&paths, ParseClearPath); break; default: break; } } else if (specType == SPECIAL_MFLAGS) { /* Call on functions in main.c to deal with these arguments */ Main_ParseArgLine(line); return; } else if (specType == SPECIAL_NOTPARALLEL) { return; } /* * NOW GO FOR THE SOURCES */ if (specType == SPECIAL_SUFFIXES || specType == SPECIAL_PATH || specType == SPECIAL_NOTHING) { while (*line) { /* * If the target was one that doesn't take files as its * sources but takes something like suffixes, we take each * space-separated word on the line as a something and deal * with it accordingly. * * If the target was .SUFFIXES, we take each source as a * suffix and add it to the list of suffixes maintained by * the Suff module. * * If the target was a .PATH, we add the source as a * directory to search on the search path. * * If it was .INCLUDES, the source is taken to be the * suffix of files which will be #included and whose search * path should be present in the .INCLUDES variable. * * If it was .LIBS, the source is taken to be the suffix of * files which are considered libraries and whose search * path should be present in the .LIBS variable. * * If it was .NULL, the source is the suffix to use when a * file has no valid suffix. */ while (*cp && !ISSPACE(*cp)) cp++; switch (specType) { case SPECIAL_SUFFIXES: Suff_AddSuffixi(line, cp); break; case SPECIAL_PATH: { LstNode ln; for (ln = Lst_First(&paths); ln != NULL; ln = Lst_Adv(ln)) Dir_AddDiri((Lst)Lst_Datum(ln), line, cp); break; } default: break; } if (*cp != '\0') cp++; while (ISSPACE(*cp)) cp++; line = cp; } Lst_Destroy(&paths, NOFREE); } else { while (*line) { /* * The targets take real sources, so we must beware of * archive specifications (i.e. things with left * parentheses in them) and handle them accordingly. */ while (*cp && !ISSPACE(*cp)) { if (*cp == '(' && cp > line && cp[-1] != '$') { /* * Only stop for a left parenthesis if * it isn't at the start of a word * (that'll be for variable changes * later) and isn't preceded by a * dollar sign (a dynamic source). */ break; } else { cp++; } } if (*cp == '(') { GNode *gn; LIST sources; /* list of archive source * names after expansion */ Lst_Init(&sources); if (!Arch_ParseArchive(&line, &sources, NULL)) { Parse_Error(PARSE_FATAL, "Error in source archive spec \"%s\"", line); return; } while ((gn = (GNode *)Lst_DeQueue(&sources)) != NULL) ParseDoSrc(>argets, &gsources, tOp, gn->name, NULL); cp = line; } else { const char *endSrc = cp; ParseDoSrc(>argets, &gsources, tOp, line, endSrc); if (*cp) cp++; } while (ISSPACE(*cp)) cp++; line = cp; } } if (mainNode == NULL) { /* If we have yet to decide on a main target to make, in the * absence of any user input, we want the first target on * the first dependency line that is actually a real target * (i.e. isn't a .USE or .EXEC rule) to be made. */ Array_Find(>argets, ParseFindMain, NULL); } } /*- * ParseAddCmd -- * Lst_ForEach function to add a command line to all targets * * The new command may be added to the commands list of the node. * * If the target already had commands, we ignore the new ones, but * we note that we got double commands (in case we actually get to run * that ambiguous target). * * Note this does not apply to :: dependency lines, since those * will generate fresh cloned nodes and add them to the cohorts * field of the main node. */ static void ParseAddCmd(void *gnp, void *cmd) { GNode *gn = (GNode *)gnp; if (!(gn->type & OP_HAS_COMMANDS)) Lst_AtEnd(&gn->commands, cmd); else gn->type |= OP_DOUBLE; } /*- *----------------------------------------------------------------------- * ParseHasCommands -- * Record that the target gained commands through OP_HAS_COMMANDS, * so that double command lists may be ignored. *----------------------------------------------------------------------- */ static void ParseHasCommands(void *gnp) { GNode *gn = (GNode *)gnp; gn->type |= OP_HAS_COMMANDS; } /* Strip comments from line. Build a copy in buffer if necessary, */ static char * strip_comments(Buffer copy, const char *line) { const char *comment; const char *p; comment = strchr(line, '#'); assert(comment != line); if (comment == NULL) return (char *)line; else { Buf_Reset(copy); for (p = line; *p != '\0'; p++) { if (*p == '\\') { if (p[1] == '#') { Buf_Addi(copy, line, p); Buf_AddChar(copy, '#'); line = p+2; } if (p[1] != '\0') p++; } else if (*p == '#') break; } Buf_Addi(copy, line, p); return Buf_Retrieve(copy); } } /*** *** Support for various include constructs ***/ void Parse_AddIncludeDir(const char *dir) { Dir_AddDir(userIncludePath, dir); } static char * resolve_include_filename(const char *file, bool isSystem) { char *fullname; /* Look up system files on the system path first */ if (isSystem) { fullname = Dir_FindFileNoDot(file, systemIncludePath); if (fullname) return fullname; } /* Handle non-system non-absolute files... */ if (!isSystem && file[0] != '/') { /* ... by looking first under the same directory as the * current file */ char *slash = NULL; const char *fname; fname = Parse_Getfilename(); if (fname != NULL) slash = strrchr(fname, '/'); if (slash != NULL) { char *newName; newName = Str_concati(fname, slash, file, strchr(file, '\0'), '/'); fullname = Dir_FindFile(newName, userIncludePath); if (fullname == NULL) fullname = Dir_FindFile(newName, defaultPath); free(newName); if (fullname) return fullname; } } /* Now look first on the -I search path, then on the .PATH * search path, if not found in a -I directory. * XXX: Suffix specific? */ fullname = Dir_FindFile(file, userIncludePath); if (fullname) return fullname; fullname = Dir_FindFile(file, defaultPath); if (fullname) return fullname; /* Still haven't found the makefile. Look for it on the system * path as a last resort (if we haven't already). */ if (isSystem) return NULL; else return Dir_FindFile(file, systemIncludePath); } static void handle_include_file(const char *name, const char *ename, bool isSystem, bool errIfNotFound) { char *file; char *fullname; /* Substitute for any variables in the file name before trying to * find the thing. */ file = Var_Substi(name, ename, NULL, false); fullname = resolve_include_filename(file, isSystem); if (fullname == NULL && errIfNotFound) Parse_Error(PARSE_FATAL, "Could not find %s", file); free(file); if (fullname != NULL) { FILE *f; f = fopen(fullname, "r"); if (f == NULL && errIfNotFound) Parse_Error(PARSE_FATAL, "Cannot open %s", fullname); else Parse_FromFile(fullname, f); } } /* .include (system) or .include "file" (normal) */ static bool lookup_bsd_include(const char *file) { char endc; const char *efile; bool isSystem; /* find starting delimiter */ while (ISSPACE(*file)) file++; /* determine type of file */ if (*file == '<') { isSystem = true; endc = '>'; } else if (*file == '"') { isSystem = false; endc = '"'; } else { Parse_Error(PARSE_WARNING, ".include filename must be delimited by '\"' or '<'"); return false; } /* delimit file name between file and efile */ for (efile = ++file; *efile != endc; efile++) { if (*efile == '\0') { Parse_Error(PARSE_WARNING, "Unclosed .include filename. '%c' expected", endc); return false; } } handle_include_file(file, efile, isSystem, true); return true; } static void lookup_sysv_style_include(const char *file, const char *directive, bool errIfMissing) { const char *efile; /* find beginning of name */ while (ISSPACE(*file)) file++; if (*file == '\0') { Parse_Error(PARSE_FATAL, "Filename missing from \"%s\"", directive); return; } /* sys5 delimits file up to next blank character or end of line */ for (efile = file; *efile != '\0' && !ISSPACE(*efile);) efile++; handle_include_file(file, efile, true, errIfMissing); } /* system V construct: include file */ static void lookup_sysv_include(const char *file, const char *directive) { lookup_sysv_style_include(file, directive, true); } /* sinclude file and -include file */ static void lookup_conditional_include(const char *file, const char *directive) { lookup_sysv_style_include(file, directive, false); } /*** *** BSD-specific . constructs *** They all follow the same pattern: *** if the syntax matches BSD stuff, then we're committed to handle *** them and report fatal errors (like, include file not existing) *** otherwise, we return false, and hope somebody else will handle it. ***/ static bool handle_poison(const char *line) { const char *p = line; int type = POISON_NORMAL; bool not = false; bool paren_to_match = false; const char *name, *ename; while (ISSPACE(*p)) p++; if (*p == '!') { not = true; p++; } while (ISSPACE(*p)) p++; if (strncmp(p, "defined", 7) == 0) { type = POISON_DEFINED; p += 7; } else if (strncmp(p, "empty", 5) == 0) { type = POISON_EMPTY; p += 5; } while (ISSPACE(*p)) p++; if (*p == '(') { paren_to_match = true; p++; } while (ISSPACE(*p)) p++; name = ename = p; while (*p != '\0' && !ISSPACE(*p)) { if (*p == ')' && paren_to_match) { paren_to_match = false; p++; break; } p++; ename = p; } while (ISSPACE(*p)) p++; switch(type) { case POISON_NORMAL: case POISON_EMPTY: if (not) type = POISON_INVALID; break; case POISON_DEFINED: if (not) type = POISON_NOT_DEFINED; else type = POISON_INVALID; break; } if ((*p != '\0' && *p != '#') || type == POISON_INVALID) { Parse_Error(PARSE_WARNING, "Invalid syntax for .poison: %s", line); return false; } else { Var_MarkPoisoned(name, ename, type); return true; } } static bool handle_for_loop(Buffer linebuf, const char *line) { For *loop; loop = For_Eval(line); if (loop != NULL) { bool ok; do { /* Find the matching endfor. */ line = ParseReadLoopLine(linebuf); if (line == NULL) { Parse_Error(PARSE_FATAL, "Unexpected end of file in for loop.\n"); return false; } ok = For_Accumulate(loop, line); } while (ok); For_Run(loop); return true; } else return false; } static bool handle_undef(const char *line) { const char *eline; while (ISSPACE(*line)) line++; for (eline = line; !ISSPACE(*eline) && *eline != '\0';) eline++; Var_Deletei(line, eline); return true; } /* global hub for the construct */ static bool handle_bsd_command(Buffer linebuf, Buffer copy, const char *line) { char *stripped; while (ISSPACE(*line)) line++; /* delegate basic classification to the conditional module */ switch (Cond_Eval(line)) { case COND_SKIP: /* Skip to next conditional that evaluates to COND_PARSE. */ do { line = Parse_ReadNextConditionalLine(linebuf); if (line != NULL) { while (ISSPACE(*line)) line++; stripped = strip_comments(copy, line); } } while (line != NULL && Cond_Eval(stripped) != COND_PARSE); /* FALLTHROUGH */ case COND_PARSE: return true; case COND_ISFOR: return handle_for_loop(linebuf, line + 3); case COND_ISINCLUDE: return lookup_bsd_include(line + 7); case COND_ISPOISON: return handle_poison(line + 6); case COND_ISUNDEF: return handle_undef(line + 5); default: break; } return false; } /*** *** handle a group of commands ***/ static void build_target_group(struct growableArray *targets) { unsigned int i; LstNode ln; bool seen_target = false; if (targets->n == 1) return; if (targets->a[0]->groupling != NULL) return; /* XXX */ if (targets->a[0]->type & OP_TRANSFORM) return; for (ln = Lst_First(&targets->a[0]->commands); ln != NULL; ln = Lst_Adv(ln)) { struct command *cmd = Lst_Datum(ln); if (Var_Check_for_target(cmd->string)) { seen_target = true; break; } } if (DEBUG(TARGGROUP)) { fprintf(stderr, seen_target ? "No target group at %lu: ": "Target group at %lu:", Parse_Getlineno()); for (i = 0; i < targets->n; i++) fprintf(stderr, " %s", targets->a[i]->name); fprintf(stderr, "\n"); } if (seen_target) return; for (i = 0; i < targets->n; i++) { targets->a[i]->groupling = targets->a[(i+1)%targets->n]; } } static void finish_commands(struct growableArray *targets) { build_target_group(targets); Array_Every(targets, ParseHasCommands); } static void parse_commands(struct growableArray *targets, const char *line) { /* add the command to the list of * commands of all targets in the dependency spec */ struct command *cmd; size_t len = strlen(line); cmd = emalloc(sizeof(struct command) + len); memcpy(&cmd->string, line, len+1); Parse_FillLocation(&cmd->location); Array_ForEach(targets, ParseAddCmd, cmd); } static bool parse_as_special_line(Buffer buf, Buffer copy, const char *line) { if (*line == '.' && handle_bsd_command(buf, copy, line+1)) return true; if (FEATURES(FEATURE_SYSVINCLUDE) && strncmp(line, "include", 7) == 0 && ISSPACE(line[7]) && strchr(line, ':') == NULL) { /* It's an S3/S5-style "include". */ lookup_sysv_include(line + 7, "include"); return true; } if (FEATURES(FEATURE_CONDINCLUDE) && strncmp(line, "sinclude", 8) == 0 && ISSPACE(line[8]) && strchr(line, ':') == NULL) { lookup_conditional_include(line+8, "sinclude"); return true; } if (FEATURES(FEATURE_CONDINCLUDE) && strncmp(line, "-include", 8) == 0 && ISSPACE(line[8]) && strchr(line, ':') == NULL) { lookup_conditional_include(line+8, "-include"); return true; } return false; } static void parse_target_line(struct growableArray *targets, const char *line, const char *stripped, bool *pcommands_seen) { size_t pos; char *end; char *cp; char *cmd; /* let's start a new set of commands */ Array_Reset(targets); /* XXX this is a dirty heuristic to handle target: dep ; commands */ cmd = NULL; /* First we need to find eventual dependencies */ pos = strcspn(stripped, ":!"); /* go over :!, and find ; */ if (stripped[pos] != '\0' && (end = strchr(stripped+pos+1, ';')) != NULL) { if (line != stripped) /* find matching ; in original... The * original might be slightly longer. */ cmd = strchr(line+(end-stripped), ';'); else cmd = end; /* kill end of line. */ *end = '\0'; } /* We now know it's a dependency line so it needs to * have all variables expanded before being parsed. */ cp = Var_Subst(stripped, NULL, false); ParseDoDependency(cp); free(cp); /* Parse command if it's not empty. */ if (cmd != NULL) { do { cmd++; } while (ISSPACE(*cmd)); if (*cmd != '\0') { parse_commands(targets, cmd); *pcommands_seen = true; } } } void Parse_File(const char *filename, FILE *stream) { char *line; bool expectingCommands = false; bool commands_seen = false; /* somewhat permanent spaces to shave time */ BUFFER buf; BUFFER copy; Buf_Init(&buf, MAKE_BSIZE); Buf_Init(©, MAKE_BSIZE); Parse_FromFile(filename, stream); do { while ((line = Parse_ReadNormalLine(&buf)) != NULL) { if (*line == '\t') { if (expectingCommands) { commands_seen = true; parse_commands(>argets, line+1); } else Parse_Error(PARSE_FATAL, "Unassociated shell command \"%s\"", line); } else { const char *stripped = strip_comments(©, line); if (!parse_as_special_line(&buf, ©, stripped)) { if (commands_seen) finish_commands(>argets); commands_seen = false; Array_Reset(>argets); if (Parse_As_Var_Assignment(stripped)) expectingCommands = false; else { parse_target_line(>argets, line, stripped, &commands_seen); expectingCommands = true; } } } } } while (Parse_NextFile()); if (commands_seen) finish_commands(>argets); /* Make sure conditionals are clean. */ Cond_End(); Parse_ReportErrors(); Buf_Destroy(&buf); Buf_Destroy(©); } void Parse_Init(void) { mainNode = NULL; Static_Lst_Init(userIncludePath); Static_Lst_Init(systemIncludePath); Array_Init(>argets, TARGETS_SIZE); Array_Init(&gsources, SOURCES_SIZE); create_special_nodes(); } void Parse_MainName(Lst listmain) /* result list */ { if (mainNode == NULL) { Punt("no target to make."); /*NOTREACHED*/ } else if (mainNode->type & OP_DOUBLEDEP) { Lst_AtEnd(listmain, mainNode); Lst_Concat(listmain, &mainNode->cohorts); } else Lst_AtEnd(listmain, mainNode); }