/* * main.c * main() routine, printer functions * * Copyright (c) 2011, 2012, 2013 pkgconf authors (see AUTHORS). * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * This software is provided 'as is' and without any warranty, express or * implied. In no event shall the authors be liable for any damages arising * from the use of this software. */ #include "config.h" #include "pkg.h" #include "bsdstubs.h" #define PKG_CFLAGS (1<<1) #define PKG_CFLAGS_ONLY_I (1<<2) #define PKG_CFLAGS_ONLY_OTHER (1<<3) #define PKG_LIBS (1<<4) #define PKG_LIBS_ONLY_LDPATH (1<<5) #define PKG_LIBS_ONLY_LIBNAME (1<<6) #define PKG_LIBS_ONLY_OTHER (1<<7) #define PKG_MODVERSION (1<<8) #define PKG_REQUIRES (1<<9) #define PKG_REQUIRES_PRIVATE (1<<10) #define PKG_VARIABLES (1<<11) #define PKG_DIGRAPH (1<<12) #define PKG_KEEP_SYSTEM_CFLAGS (1<<13) #define PKG_KEEP_SYSTEM_LIBS (1<<14) #define PKG_VERSION (1<<15) #define PKG_ABOUT (1<<16) #define PKG_ENV_ONLY (1<<17) #define PKG_ERRORS_ON_STDOUT (1<<18) #define PKG_SILENCE_ERRORS (1<<19) #define PKG_IGNORE_CONFLICTS (1<<20) #define PKG_STATIC (1<<21) #define PKG_NO_UNINSTALLED (1<<22) #define PKG_UNINSTALLED (1<<23) #define PKG_LIST (1<<24) #define PKG_HELP (1<<25) #define PKG_PRINT_ERRORS (1<<26) #define PKG_SIMULATE (1<<27) #define PKG_NO_CACHE (1<<28) static unsigned int global_traverse_flags = PKGF_NONE; static int want_flags; static int maximum_traverse_depth = 2000; static char *want_variable = NULL; static char *sysroot_dir = NULL; FILE *error_msgout = NULL; static bool fragment_has_system_dir(pkg_fragment_t *frag) { int check_flags = 0; char *check_paths = NULL; char *save, *chunk; bool ret = false; switch (frag->type) { case 'L': check_flags = PKG_KEEP_SYSTEM_LIBS; check_paths = strdup(SYSTEM_LIBDIR); break; case 'I': check_flags = PKG_KEEP_SYSTEM_CFLAGS; check_paths = strdup(SYSTEM_INCLUDEDIR); break; default: return false; } for (chunk = strtok_r(check_paths, ":", &save); chunk != NULL; chunk = strtok_r(NULL, ":", &save)) { if ((want_flags & check_flags) == 0 && !strcmp(chunk, frag->data)) { ret = true; break; } } free(check_paths); return ret; } static void print_fragment(pkg_fragment_t *frag) { if (fragment_has_system_dir(frag)) return; if (frag->type) printf("-%c%s ", frag->type, frag->data); else printf("%s ", frag->data); } static void print_list_entry(const pkg_t *entry) { if (entry->flags & PKG_PROPF_UNINSTALLED) return; printf("%-30s %s - %s\n", entry->id, entry->realname, entry->description); } static void print_cflags(pkg_list_t *list) { pkg_node_t *node; PKG_FOREACH_LIST_ENTRY(list->head, node) { pkg_fragment_t *frag = node->data; if ((want_flags & PKG_CFLAGS_ONLY_I) == PKG_CFLAGS_ONLY_I && frag->type != 'I') continue; else if ((want_flags & PKG_CFLAGS_ONLY_OTHER) == PKG_CFLAGS_ONLY_OTHER && frag->type == 'I') continue; print_fragment(frag); } } static void print_libs(pkg_list_t *list) { pkg_node_t *node; PKG_FOREACH_LIST_ENTRY(list->head, node) { pkg_fragment_t *frag = node->data; if ((want_flags & PKG_LIBS_ONLY_LDPATH) == PKG_LIBS_ONLY_LDPATH && frag->type != 'L') continue; else if ((want_flags & PKG_LIBS_ONLY_LIBNAME) == PKG_LIBS_ONLY_LIBNAME && frag->type != 'l') continue; else if ((want_flags & PKG_LIBS_ONLY_OTHER) == PKG_LIBS_ONLY_OTHER && (frag->type == 'l' || frag->type == 'L')) continue; print_fragment(frag); } } static void print_modversion(pkg_t *pkg, void *unused, unsigned int flags) { (void) unused; (void) flags; if (pkg->version != NULL) printf("%s\n", pkg->version); } static void print_variables(pkg_t *pkg, void *unused, unsigned int flags) { pkg_node_t *node; (void) unused; (void) flags; PKG_FOREACH_LIST_ENTRY(pkg->vars.head, node) { pkg_tuple_t *tuple = node->data; printf("%s\n", tuple->key); } } static void print_requires(pkg_t *pkg) { pkg_node_t *node; PKG_FOREACH_LIST_ENTRY(pkg->requires.head, node) { pkg_dependency_t *dep = node->data; printf("%s", dep->package); if (dep->version != NULL) printf(" %s %s", pkg_get_comparator(dep), dep->version); printf("\n"); } } static void print_requires_private(pkg_t *pkg) { pkg_node_t *node; PKG_FOREACH_LIST_ENTRY(pkg->requires_private.head, node) { pkg_dependency_t *dep = node->data; printf("%s", dep->package); if (dep->version != NULL) printf(" %s %s", pkg_get_comparator(dep), dep->version); printf("\n"); } } static void print_digraph_node(pkg_t *pkg, void *unused, unsigned int flags) { pkg_node_t *node; (void) unused; (void) flags; printf("\"%s\" [fontname=Sans fontsize=8]\n", pkg->id); PKG_FOREACH_LIST_ENTRY(pkg->requires.head, node) { pkg_dependency_t *dep = node->data; printf("\"%s\" -- \"%s\" [fontname=Sans fontsize=8]\n", dep->package, pkg->id); } } static bool apply_digraph(pkg_t *world, void *unused, int maxdepth, unsigned int flags) { int eflag; printf("graph deptree {\n"); printf("edge [color=blue len=7.5 fontname=Sans fontsize=8]\n"); printf("node [fontname=Sans fontsize=8]\n"); eflag = pkg_traverse(world, print_digraph_node, unused, maxdepth, flags); if (eflag != PKG_ERRF_OK) return false; printf("}\n"); return true; } static bool apply_modversion(pkg_t *world, void *unused, int maxdepth, unsigned int flags) { int eflag; eflag = pkg_traverse(world, print_modversion, unused, maxdepth, flags); if (eflag != PKG_ERRF_OK) return false; return true; } static bool apply_variables(pkg_t *world, void *unused, int maxdepth, unsigned int flags) { int eflag; eflag = pkg_traverse(world, print_variables, unused, maxdepth, flags); if (eflag != PKG_ERRF_OK) return false; return true; } typedef struct { const char *variable; char buf[PKG_BUFSIZE]; } var_request_t; static void print_variable(pkg_t *pkg, void *data, unsigned int flags) { var_request_t *req = data; const char *var; (void) flags; var = pkg_tuple_find(&pkg->vars, req->variable); if (var != NULL) { if (*(req->buf) == '\0') { strlcpy(req->buf, var, sizeof(req->buf)); return; } strlcat(req->buf, " ", sizeof(req->buf)); strlcat(req->buf, var, sizeof(req->buf)); } } static bool apply_variable(pkg_t *world, void *variable, int maxdepth, unsigned int flags) { int eflag; var_request_t req = { .variable = variable, }; *req.buf = '\0'; eflag = pkg_traverse(world, print_variable, &req, maxdepth, flags); if (eflag != PKG_ERRF_OK) return false; printf("%s\n", req.buf); return true; } static bool apply_cflags(pkg_t *world, void *list_head, int maxdepth, unsigned int flags) { pkg_list_t *list = list_head; int eflag; eflag = pkg_cflags(world, list, maxdepth, flags | PKGF_SEARCH_PRIVATE); if (eflag != PKG_ERRF_OK) return false; if (list->head == NULL) return true; print_cflags(list); pkg_fragment_free(list); return true; } static bool apply_libs(pkg_t *world, void *list_head, int maxdepth, unsigned int flags) { pkg_list_t *list = list_head; int eflag; eflag = pkg_libs(world, list, maxdepth, flags); if (eflag != PKG_ERRF_OK) return false; if (list->head == NULL) return true; print_libs(list); pkg_fragment_free(list); return true; } static bool apply_requires(pkg_t *world, void *unused, int maxdepth, unsigned int flags) { pkg_node_t *iter; (void) unused; (void) maxdepth; PKG_FOREACH_LIST_ENTRY(world->requires.head, iter) { pkg_t *pkg; pkg_dependency_t *dep = iter->data; pkg = pkg_verify_dependency(dep, flags, NULL); print_requires(pkg); pkg_free(pkg); } return true; } static bool apply_requires_private(pkg_t *world, void *unused, int maxdepth, unsigned int flags) { pkg_node_t *iter; (void) unused; (void) maxdepth; PKG_FOREACH_LIST_ENTRY(world->requires.head, iter) { pkg_t *pkg; pkg_dependency_t *dep = iter->data; pkg = pkg_verify_dependency(dep, flags | PKGF_SEARCH_PRIVATE, NULL); print_requires_private(pkg); pkg_free(pkg); } return true; } static void check_uninstalled(pkg_t *pkg, void *data, unsigned int flags) { int *retval = data; (void) flags; if (pkg->flags & PKG_PROPF_UNINSTALLED) *retval = EXIT_SUCCESS; } static bool apply_uninstalled(pkg_t *world, void *data, int maxdepth, unsigned int flags) { int eflag; eflag = pkg_traverse(world, check_uninstalled, data, maxdepth, flags); if (eflag != PKG_ERRF_OK) return false; return true; } static void print_graph_node(pkg_t *pkg, void *data, unsigned int flags) { pkg_node_t *n; (void) data; (void) flags; printf("node '%s' {\n", pkg->id); if (pkg->version != NULL) printf(" version = '%s';\n", pkg->version); PKG_FOREACH_LIST_ENTRY(pkg->requires.head, n) { pkg_dependency_t *dep = n->data; printf(" dependency '%s'", dep->package); if (dep->compare != PKG_ANY) { printf(" {\n"); printf(" comparator = '%s';\n", pkg_get_comparator(dep)); printf(" version = '%s';\n", dep->version); printf(" };\n"); } else printf(";\n"); } printf("};\n"); } static bool apply_simulate(pkg_t *world, void *data, int maxdepth, unsigned int flags) { int eflag; eflag = pkg_traverse(world, print_graph_node, data, maxdepth, flags); if (eflag != PKG_ERRF_OK) return false; return true; } static void version(void) { printf("%s\n", PKG_PKGCONFIG_VERSION_EQUIV); } static void about(void) { printf("%s %s%s\n", PACKAGE_NAME, PACKAGE_VERSION, HAVE_STRICT_MODE ? " [strict]" : " [pkg-config " PKG_PKGCONFIG_VERSION_EQUIV " compatible]"); printf("Copyright (c) 2011, 2012, 2013 pkgconf authors (see AUTHORS in documentation directory).\n\n"); printf("Permission to use, copy, modify, and/or distribute this software for any\n"); printf("purpose with or without fee is hereby granted, provided that the above\n"); printf("copyright notice and this permission notice appear in all copies.\n\n"); printf("This software is provided 'as is' and without any warranty, express or\n"); printf("implied. In no event shall the authors be liable for any damages arising\n"); printf("from the use of this software.\n\n"); printf("Report bugs at <%s>.\n", PACKAGE_BUGREPORT); } static void usage(void) { printf("usage: %s [OPTIONS] [LIBRARIES]\n", PACKAGE_NAME); printf("\nbasic options:\n\n"); printf(" --help this message\n"); printf(" --about print pkgconf version and license to stdout\n"); printf(" --version print supported pkg-config version to stdout\n"); printf(" --atleast-pkgconfig-version check whether or not pkgconf is compatible\n"); printf(" with a specified pkg-config version\n"); printf(" --errors-to-stdout print all errors on stdout instead of stderr\n"); printf(" --silence-errors explicitly be silent about errors\n"); printf(" --list-all list all known packages\n"); printf(" --simulate simulate walking the calculated dependency graph\n"); printf(" --no-cache do not cache already seen packages when\n"); printf(" walking the dependency graph\n"); printf("\nchecking specific pkg-config database entries:\n\n"); printf(" --atleast-version require a specific version of a module\n"); printf(" --exact-version require an exact version of a module\n"); printf(" --max-version require a maximum version of a module\n"); printf(" --exists check whether or not a module exists\n"); printf(" --uninstalled check whether or not an uninstalled module will be used\n"); printf(" --no-uninstalled never use uninstalled modules when satisfying dependencies\n"); printf(" --maximum-traverse-depth maximum allowed depth for dependency graph\n"); printf(" --static be more aggressive when computing dependency graph\n"); printf(" (for static linking)\n"); printf(" --env-only look only for package entries in PKG_CONFIG_PATH\n"); printf(" --ignore-conflicts ignore 'conflicts' rules in modules\n"); printf("\nquerying specific pkg-config database fields:\n\n"); printf(" --define-variable=varname=value define variable 'varname' as 'value'\n"); printf(" --variable=varname print specified variable entry to stdout\n"); printf(" --cflags print required CFLAGS to stdout\n"); printf(" --cflags-only-I print required include-dir CFLAGS to stdout\n"); printf(" --cflags-only-other print required non-include-dir CFLAGS to stdout\n"); printf(" --libs print required linker flags to stdout\n"); printf(" --libs-only-L print required LDPATH linker flags to stdout\n"); printf(" --libs-only-l print required LIBNAME linker flags to stdout\n"); printf(" --libs-only-other print required other linker flags to stdout\n"); printf(" --print-requires print required dependency frameworks to stdout\n"); printf(" --print-requires-private print required dependency frameworks for static\n"); printf(" linking to stdout\n"); printf(" --print-variables print all known variables in module to stdout\n"); printf(" --digraph print entire dependency graph in graphviz 'dot' format\n"); printf(" --keep-system-cflags keep -I%s entries in cflags output\n", SYSTEM_INCLUDEDIR); printf(" --keep-system-libs keep -L%s entries in libs output\n", SYSTEM_LIBDIR); printf("\nreport bugs to <%s>.\n", PACKAGE_BUGREPORT); } int main(int argc, char *argv[]) { int ret; pkg_list_t pkgq = PKG_LIST_INITIALIZER; char *builddir; char *required_pkgconfig_version = NULL; char *required_exact_module_version = NULL; char *required_max_module_version = NULL; char *required_module_version = NULL; want_flags = 0; struct pkg_option options[] = { { "version", no_argument, &want_flags, PKG_VERSION|PKG_PRINT_ERRORS, }, { "about", no_argument, &want_flags, PKG_ABOUT|PKG_PRINT_ERRORS, }, { "atleast-version", required_argument, NULL, 2, }, { "atleast-pkgconfig-version", required_argument, NULL, 3, }, { "libs", no_argument, &want_flags, PKG_LIBS|PKG_PRINT_ERRORS, }, { "cflags", no_argument, &want_flags, PKG_CFLAGS|PKG_PRINT_ERRORS, }, { "modversion", no_argument, &want_flags, PKG_MODVERSION|PKG_PRINT_ERRORS, }, { "variable", required_argument, NULL, 7, }, { "exists", no_argument, NULL, 8, }, { "print-errors", no_argument, &want_flags, PKG_PRINT_ERRORS, }, { "short-errors", no_argument, NULL, 10, }, { "maximum-traverse-depth", required_argument, NULL, 11, }, { "static", no_argument, &want_flags, PKG_STATIC, }, { "print-requires", no_argument, &want_flags, PKG_REQUIRES, }, { "print-variables", no_argument, &want_flags, PKG_VARIABLES|PKG_PRINT_ERRORS, }, { "digraph", no_argument, &want_flags, PKG_DIGRAPH, }, { "help", no_argument, &want_flags, PKG_HELP, }, { "env-only", no_argument, &want_flags, PKG_ENV_ONLY, }, { "print-requires-private", no_argument, &want_flags, PKG_REQUIRES_PRIVATE, }, { "cflags-only-I", no_argument, &want_flags, PKG_CFLAGS|PKG_CFLAGS_ONLY_I|PKG_PRINT_ERRORS, }, { "cflags-only-other", no_argument, &want_flags, PKG_CFLAGS|PKG_CFLAGS_ONLY_OTHER|PKG_PRINT_ERRORS, }, { "libs-only-L", no_argument, &want_flags, PKG_LIBS|PKG_LIBS_ONLY_LDPATH|PKG_PRINT_ERRORS, }, { "libs-only-l", no_argument, &want_flags, PKG_LIBS|PKG_LIBS_ONLY_LIBNAME|PKG_PRINT_ERRORS, }, { "libs-only-other", no_argument, &want_flags, PKG_LIBS|PKG_LIBS_ONLY_OTHER|PKG_PRINT_ERRORS, }, { "uninstalled", no_argument, &want_flags, PKG_UNINSTALLED, }, { "no-uninstalled", no_argument, &want_flags, PKG_NO_UNINSTALLED, }, { "keep-system-cflags", no_argument, &want_flags, PKG_KEEP_SYSTEM_CFLAGS, }, { "keep-system-libs", no_argument, &want_flags, PKG_KEEP_SYSTEM_LIBS, }, { "define-variable", required_argument, NULL, 27, }, { "exact-version", required_argument, NULL, 28, }, { "max-version", required_argument, NULL, 29, }, { "ignore-conflicts", no_argument, &want_flags, PKG_IGNORE_CONFLICTS, }, { "errors-to-stdout", no_argument, &want_flags, PKG_ERRORS_ON_STDOUT, }, { "silence-errors", no_argument, &want_flags, PKG_SILENCE_ERRORS, }, { "list-all", no_argument, &want_flags, PKG_LIST|PKG_PRINT_ERRORS, }, { "simulate", no_argument, &want_flags, PKG_SIMULATE, }, { "no-cache", no_argument, &want_flags, PKG_NO_CACHE, }, { NULL, 0, NULL, 0 } }; while ((ret = pkg_getopt_long_only(argc, argv, "", options, NULL)) != -1) { switch (ret) { case 2: required_module_version = pkg_optarg; break; case 3: required_pkgconfig_version = pkg_optarg; break; case 7: want_variable = pkg_optarg; break; case 11: maximum_traverse_depth = atoi(pkg_optarg); break; case 27: pkg_tuple_define_global(pkg_optarg); break; case 28: required_exact_module_version = pkg_optarg; break; case 29: required_max_module_version = pkg_optarg; break; case '?': case ':': return EXIT_FAILURE; break; default: break; } } if ((want_flags & PKG_PRINT_ERRORS) != PKG_PRINT_ERRORS) want_flags |= (PKG_SILENCE_ERRORS); if ((want_flags & PKG_SILENCE_ERRORS) == PKG_SILENCE_ERRORS && !getenv("PKG_CONFIG_DEBUG_SPEW")) want_flags |= (PKG_SILENCE_ERRORS); else want_flags &= ~(PKG_SILENCE_ERRORS); if ((want_flags & PKG_LIBS_ONLY_LIBNAME) == PKG_LIBS_ONLY_LIBNAME) want_flags &= ~(PKG_LIBS_ONLY_OTHER|PKG_LIBS_ONLY_LDPATH); else if ((want_flags & PKG_LIBS_ONLY_LDPATH) == PKG_LIBS_ONLY_LDPATH) want_flags &= ~(PKG_LIBS_ONLY_OTHER); if ((want_flags & PKG_CFLAGS_ONLY_I) == PKG_CFLAGS_ONLY_I) want_flags &= ~(PKG_CFLAGS_ONLY_OTHER); if ((want_flags & PKG_ABOUT) == PKG_ABOUT) { about(); return EXIT_SUCCESS; } if ((want_flags & PKG_VERSION) == PKG_VERSION) { version(); return EXIT_SUCCESS; } if ((want_flags & PKG_HELP) == PKG_HELP) { usage(); return EXIT_SUCCESS; } error_msgout = stderr; if ((want_flags & PKG_ERRORS_ON_STDOUT) == PKG_ERRORS_ON_STDOUT) error_msgout = stdout; if ((want_flags & PKG_SILENCE_ERRORS) == PKG_SILENCE_ERRORS) error_msgout = fopen(PATH_DEV_NULL, "w"); if ((want_flags & PKG_IGNORE_CONFLICTS) == PKG_IGNORE_CONFLICTS || getenv("PKG_CONFIG_IGNORE_CONFLICTS") != NULL) global_traverse_flags |= PKGF_SKIP_CONFLICTS; if ((want_flags & PKG_STATIC) == PKG_STATIC) global_traverse_flags |= (PKGF_SEARCH_PRIVATE | PKGF_MERGE_PRIVATE_FRAGMENTS); if ((want_flags & PKG_ENV_ONLY) == PKG_ENV_ONLY) global_traverse_flags |= PKGF_ENV_ONLY; if ((want_flags & PKG_NO_CACHE) == PKG_NO_CACHE) global_traverse_flags |= PKGF_NO_CACHE; if ((want_flags & PKG_NO_UNINSTALLED) == PKG_NO_UNINSTALLED || getenv("PKG_CONFIG_DISABLE_UNINSTALLED") != NULL) global_traverse_flags |= PKGF_NO_UNINSTALLED; if (getenv("PKG_CONFIG_ALLOW_SYSTEM_CFLAGS") != NULL) want_flags |= PKG_KEEP_SYSTEM_CFLAGS; if (getenv("PKG_CONFIG_ALLOW_SYSTEM_LIBS") != NULL) want_flags |= PKG_KEEP_SYSTEM_LIBS; if ((builddir = getenv("PKG_CONFIG_TOP_BUILD_DIR")) != NULL) pkg_tuple_add_global("pc_top_builddir", builddir); else pkg_tuple_add_global("pc_top_builddir", "$(top_builddir)"); if ((sysroot_dir = getenv("PKG_CONFIG_SYSROOT_DIR")) != NULL) { pkg_tuple_add_global("pc_sysrootdir", sysroot_dir); global_traverse_flags |= PKGF_MUNGE_SYSROOT_PREFIX; } else pkg_tuple_add_global("pc_sysrootdir", "/"); if (required_pkgconfig_version != NULL) { if (pkg_compare_version(PKG_PKGCONFIG_VERSION_EQUIV, required_pkgconfig_version) >= 0) return EXIT_SUCCESS; return EXIT_FAILURE; } if ((want_flags & PKG_LIST) == PKG_LIST) { pkg_scan_all(print_list_entry); return EXIT_SUCCESS; } if (required_module_version != NULL) { pkg_t *pkg; pkg_node_t *node; pkg_list_t deplist = PKG_LIST_INITIALIZER; while (argv[pkg_optind]) { pkg_dependency_parse_str(&deplist, argv[pkg_optind]); pkg_optind++; } PKG_FOREACH_LIST_ENTRY(deplist.head, node) { pkg_dependency_t *pkgiter = node->data; pkg = pkg_find(pkgiter->package, global_traverse_flags); if (pkg == NULL) return EXIT_FAILURE; if (pkg_compare_version(pkg->version, required_module_version) >= 0) return EXIT_SUCCESS; } return EXIT_FAILURE; } if (required_exact_module_version != NULL) { pkg_t *pkg; pkg_node_t *node; pkg_list_t deplist = PKG_LIST_INITIALIZER; while (argv[pkg_optind]) { pkg_dependency_parse_str(&deplist, argv[pkg_optind]); pkg_optind++; } PKG_FOREACH_LIST_ENTRY(deplist.head, node) { pkg_dependency_t *pkgiter = node->data; pkg = pkg_find(pkgiter->package, global_traverse_flags); if (pkg == NULL) return EXIT_FAILURE; if (pkg_compare_version(pkg->version, required_exact_module_version) == 0) return EXIT_SUCCESS; } return EXIT_FAILURE; } if (required_max_module_version != NULL) { pkg_t *pkg; pkg_node_t *node; pkg_list_t deplist = PKG_LIST_INITIALIZER; while (argv[pkg_optind]) { pkg_dependency_parse_str(&deplist, argv[pkg_optind]); pkg_optind++; } PKG_FOREACH_LIST_ENTRY(deplist.head, node) { pkg_dependency_t *pkgiter = node->data; pkg = pkg_find(pkgiter->package, global_traverse_flags); if (pkg == NULL) return EXIT_FAILURE; if (pkg_compare_version(pkg->version, required_max_module_version) <= 0) return EXIT_SUCCESS; } return EXIT_FAILURE; } while (1) { const char *package = argv[pkg_optind]; if (package == NULL) break; while (isspace(package[0])) package++; /* skip empty packages */ if (package[0] == '\0') { pkg_optind++; continue; } if (argv[pkg_optind + 1] == NULL || !PKG_OPERATOR_CHAR(*(argv[pkg_optind + 1]))) { pkg_queue_push(&pkgq, package); pkg_optind++; } else { char packagebuf[PKG_BUFSIZE]; snprintf(packagebuf, sizeof packagebuf, "%s %s %s", package, argv[pkg_optind + 1], argv[pkg_optind + 2]); pkg_optind += 3; pkg_queue_push(&pkgq, packagebuf); } } if (pkgq.head == NULL) { fprintf(stderr, "Please specify at least one package name on the command line.\n"); return EXIT_FAILURE; } ret = EXIT_SUCCESS; if ((want_flags & PKG_SIMULATE) == PKG_SIMULATE) { want_flags &= ~(PKG_CFLAGS|PKG_LIBS); if (!pkg_queue_apply(&pkgq, apply_simulate, -1, global_traverse_flags | PKGF_SKIP_ERRORS, NULL)) { ret = EXIT_FAILURE; goto out; } } if (!pkg_queue_validate(&pkgq, maximum_traverse_depth, global_traverse_flags)) { ret = EXIT_FAILURE; goto out; } if ((want_flags & PKG_UNINSTALLED) == PKG_UNINSTALLED) { ret = EXIT_FAILURE; pkg_queue_apply(&pkgq, apply_uninstalled, maximum_traverse_depth, global_traverse_flags, &ret); goto out; } if ((want_flags & PKG_DIGRAPH) == PKG_DIGRAPH) { want_flags &= ~(PKG_CFLAGS|PKG_LIBS); if (!pkg_queue_apply(&pkgq, apply_digraph, maximum_traverse_depth, global_traverse_flags, NULL)) { ret = EXIT_FAILURE; goto out; } } if ((want_flags & PKG_MODVERSION) == PKG_MODVERSION) { want_flags &= ~(PKG_CFLAGS|PKG_LIBS); if (!pkg_queue_apply(&pkgq, apply_modversion, 2, global_traverse_flags, NULL)) { ret = EXIT_FAILURE; goto out; } } if ((want_flags & PKG_VARIABLES) == PKG_VARIABLES) { want_flags &= ~(PKG_CFLAGS|PKG_LIBS); if (!pkg_queue_apply(&pkgq, apply_variables, 2, global_traverse_flags, NULL)) { ret = EXIT_FAILURE; goto out; } } if (want_variable) { want_flags &= ~(PKG_CFLAGS|PKG_LIBS); if (!pkg_queue_apply(&pkgq, apply_variable, 2, global_traverse_flags | PKGF_SKIP_ROOT_VIRTUAL, want_variable)) { ret = EXIT_FAILURE; goto out; } } if ((want_flags & PKG_REQUIRES) == PKG_REQUIRES) { want_flags &= ~(PKG_CFLAGS|PKG_LIBS); if (!pkg_queue_apply(&pkgq, apply_requires, maximum_traverse_depth, global_traverse_flags, NULL)) { ret = EXIT_FAILURE; goto out; } } if ((want_flags & PKG_REQUIRES_PRIVATE) == PKG_REQUIRES_PRIVATE) { want_flags &= ~(PKG_CFLAGS|PKG_LIBS); if (!pkg_queue_apply(&pkgq, apply_requires_private, maximum_traverse_depth, global_traverse_flags, NULL)) { ret = EXIT_FAILURE; goto out; } } if ((want_flags & PKG_CFLAGS) == PKG_CFLAGS) { pkg_list_t frag_list = PKG_LIST_INITIALIZER; if (!pkg_queue_apply(&pkgq, apply_cflags, maximum_traverse_depth, global_traverse_flags, &frag_list)) { ret = EXIT_FAILURE; goto out_println; } } if ((want_flags & PKG_LIBS) == PKG_LIBS) { pkg_list_t frag_list = PKG_LIST_INITIALIZER; if (!pkg_queue_apply(&pkgq, apply_libs, maximum_traverse_depth, global_traverse_flags, &frag_list)) { ret = EXIT_FAILURE; goto out_println; } } pkg_queue_free(&pkgq); out_println: if (want_flags & (PKG_CFLAGS|PKG_LIBS)) printf(" \n"); out: pkg_tuple_free_global(); pkg_cache_free(); return ret; }