/* opkg_cmd.c - the opkg package management system Carl D. Worth Copyright (C) 2001 University of Southern California This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. */ #include "config.h" #include #include #include #include #include #include #include "opkg_conf.h" #include "opkg_cmd.h" #include "opkg_message.h" #include "release.h" #include "pkg.h" #include "pkg_dest.h" #include "pkg_parse.h" #include "sprintf_alloc.h" #include "pkg.h" #include "file_util.h" #include "libbb/libbb.h" #include "opkg_utils.h" #include "opkg_defines.h" #include "opkg_download.h" #include "opkg_install.h" #include "opkg_upgrade.h" #include "opkg_remove.h" #include "opkg_configure.h" #include "xsystem.h" static void print_pkg(pkg_t *pkg) { char *version = pkg_version_str_alloc(pkg); if (pkg->description) printf("%s - %s - %s\n", pkg->name, version, pkg->description); else printf("%s - %s\n", pkg->name, version); free(version); } int opkg_state_changed; static void write_status_files_if_changed(void) { if (opkg_state_changed && !conf->noaction) { opkg_msg(INFO, "Writing status file.\n"); opkg_conf_write_status_files(); pkg_write_changed_filelists(); if (!conf->offline_root) sync(); } else { opkg_msg(DEBUG, "Nothing to be done.\n"); } } static void sigint_handler(int sig) { signal(sig, SIG_DFL); opkg_msg(NOTICE, "Interrupted. Writing out status database.\n"); write_status_files_if_changed(); exit(128 + sig); } static int opkg_update_cmd(int argc, char **argv) { char *tmp; int err; int failures; char *lists_dir; pkg_src_list_elt_t *iter; pkg_src_t *src; sprintf_alloc(&lists_dir, "%s", conf->restrict_to_default_dest ? conf->default_dest->lists_dir : conf->lists_dir); if (! file_is_dir(lists_dir)) { if (file_exists(lists_dir)) { opkg_msg(ERROR, "%s exists, but is not a directory.\n", lists_dir); free(lists_dir); return -1; } err = file_mkdir_hier(lists_dir, 0755); if (err) { free(lists_dir); return -1; } } failures = 0; sprintf_alloc(&tmp, "%s/update-XXXXXX", conf->tmp_dir); if (mkdtemp (tmp) == NULL) { opkg_perror(ERROR, "Failed to make temp dir %s", conf->tmp_dir); return -1; } for (iter = void_list_first(&conf->dist_src_list); iter; iter = void_list_next(&conf->dist_src_list, iter)) { char *url, *list_file_name; src = (pkg_src_t *)iter->data; sprintf_alloc(&url, "%s/dists/%s/Release", src->value, src->name); sprintf_alloc(&list_file_name, "%s/%s", lists_dir, src->name); err = opkg_download(url, list_file_name, NULL, NULL, 0); if (!err) { opkg_msg(NOTICE, "Downloaded release files for dist %s.\n", src->name); release_t *release = release_new(); err = release_init_from_file(release, list_file_name); if (!err) { if (!release_comps_supported(release, src->extra_data)) err = -1; } if (!err) { err = release_download(release, src, lists_dir, tmp); } release_deinit(release); if (err) unlink(list_file_name); } if (err) failures++; free(list_file_name); free(url); } for (iter = void_list_first(&conf->pkg_src_list); iter; iter = void_list_next(&conf->pkg_src_list, iter)) { char *url, *list_file_name; src = (pkg_src_t *)iter->data; if (src->extra_data && !strcmp(src->extra_data, "__dummy__ ")) continue; if (src->extra_data) /* debian style? */ sprintf_alloc(&url, "%s/%s/%s", src->value, src->extra_data, src->gzip ? "Packages.gz" : "Packages"); else sprintf_alloc(&url, "%s/%s", src->value, src->gzip ? "Packages.gz" : "Packages"); sprintf_alloc(&list_file_name, "%s/%s", lists_dir, src->name); if (src->gzip) { char *tmp_file_name; FILE *in, *out; sprintf_alloc (&tmp_file_name, "%s/%s.gz", tmp, src->name); err = opkg_download(url, tmp_file_name, NULL, NULL, 0); if (err == 0) { opkg_msg(NOTICE, "Inflating %s.\n", url); in = fopen (tmp_file_name, "r"); out = fopen (list_file_name, "w"); if (in && out) unzip (in, out); else err = 1; if (in) fclose (in); if (out) fclose (out); unlink (tmp_file_name); } free(tmp_file_name); } else err = opkg_download(url, list_file_name, NULL, NULL, 0); if (err) { failures++; } else { opkg_msg(NOTICE, "Updated list of available packages in %s.\n", list_file_name); } free(url); #if defined(HAVE_GPGME) || defined(HAVE_OPENSSL) if (conf->check_signature) { /* download detached signitures to verify the package lists */ /* get the url for the sig file */ if (src->extra_data) /* debian style? */ sprintf_alloc(&url, "%s/%s/%s", src->value, src->extra_data, "Packages.sig"); else sprintf_alloc(&url, "%s/%s", src->value, "Packages.sig"); /* create temporary file for it */ char *tmp_file_name; /* Put the signature in the right place */ sprintf_alloc (&tmp_file_name, "%s/%s.sig", lists_dir, src->name); err = opkg_download(url, tmp_file_name, NULL, NULL, 0); if (err) { failures++; opkg_msg(NOTICE, "Signature check failed.\n"); } else { err = opkg_verify_file (list_file_name, tmp_file_name); if (err == 0) opkg_msg(NOTICE, "Signature check passed.\n"); else opkg_msg(NOTICE, "Signature check failed.\n"); } if (err) { /* The signature was wrong so delete it */ opkg_msg(NOTICE, "Remove wrong Signature file.\n"); unlink (tmp_file_name); unlink (list_file_name); } /* We shouldn't unlink the signature ! */ // unlink (tmp_file_name); free (tmp_file_name); free (url); } #else // Do nothing #endif free(list_file_name); } rmdir (tmp); free (tmp); free(lists_dir); return failures; } struct opkg_intercept { char *oldpath; char *statedir; }; typedef struct opkg_intercept *opkg_intercept_t; static opkg_intercept_t opkg_prep_intercepts(void) { opkg_intercept_t ctx; char *newpath; ctx = xcalloc(1, sizeof (*ctx)); ctx->oldpath = xstrdup(getenv("PATH")); sprintf_alloc(&newpath, "%s/opkg/intercept:%s", DATADIR, ctx->oldpath); sprintf_alloc(&ctx->statedir, "%s/opkg-intercept-XXXXXX", conf->tmp_dir); if (mkdtemp(ctx->statedir) == NULL) { opkg_perror(ERROR,"Failed to make temp dir %s", ctx->statedir); free(ctx->oldpath); free(ctx->statedir); free(newpath); free(ctx); return NULL; } setenv("OPKG_INTERCEPT_DIR", ctx->statedir, 1); setenv("PATH", newpath, 1); free(newpath); return ctx; } static int opkg_finalize_intercepts(opkg_intercept_t ctx) { DIR *dir; int err = 0; setenv ("PATH", ctx->oldpath, 1); free (ctx->oldpath); dir = opendir (ctx->statedir); if (dir) { struct dirent *de; while (de = readdir (dir), de != NULL) { char *path; if (de->d_name[0] == '.') continue; sprintf_alloc (&path, "%s/%s", ctx->statedir, de->d_name); if (access (path, X_OK) == 0) { const char *argv[] = {"sh", "-c", path, NULL}; xsystem (argv); } free (path); } closedir(dir); } else opkg_perror(ERROR, "Failed to open dir %s", ctx->statedir); rm_r(ctx->statedir); free (ctx->statedir); free (ctx); return err; } /* For package pkg do the following: If it is already visited, return. If not, add it in visited list and recurse to its deps. Finally, add it to ordered list. pkg_vec all contains all available packages in repos. pkg_vec visited contains packages already visited by this function, and is used to end recursion and avoid an infinite loop on graph cycles. pkg_vec ordered will finally contain the ordered set of packages. */ static int opkg_recurse_pkgs_in_order(pkg_t *pkg, pkg_vec_t *all, pkg_vec_t *visited, pkg_vec_t *ordered) { int j,k,l,m; int count; pkg_t *dep; compound_depend_t * compound_depend; depend_t ** possible_satisfiers; abstract_pkg_t *abpkg; abstract_pkg_t **dependents; /* If it's just an available package, that is, not installed and not even unpacked, skip it */ /* XXX: This is probably an overkill, since a state_status != SS_UNPACKED would do here. However, if there is an intermediate node (pkg) that is configured and installed between two unpacked packages, the latter won't be properly reordered, unless all installed/unpacked pkgs are checked */ if (pkg->state_status == SS_NOT_INSTALLED) return 0; /* If the package has already been visited (by this function), skip it */ for(j = 0; j < visited->len; j++) if ( ! strcmp(visited->pkgs[j]->name, pkg->name)) { opkg_msg(DEBUG, "pkg %s already visited, skipping.\n", pkg->name); return 0; } pkg_vec_insert(visited, pkg); count = pkg->pre_depends_count + pkg->depends_count + \ pkg->recommends_count + pkg->suggests_count; opkg_msg(DEBUG, "pkg %s.\n", pkg->name); /* Iterate over all the dependencies of pkg. For each one, find a package that is either installed or unpacked and satisfies this dependency. (there should only be one such package per dependency installed or unpacked). Then recurse to the dependency package */ for (j=0; j < count ; j++) { compound_depend = &pkg->depends[j]; possible_satisfiers = compound_depend->possibilities; for (k=0; k < compound_depend->possibility_count ; k++) { abpkg = possible_satisfiers[k]->pkg; dependents = abpkg->provided_by->pkgs; l = 0; if (dependents != NULL) while (l < abpkg->provided_by->len && dependents[l] != NULL) { opkg_msg(DEBUG, "Descending on pkg %s.\n", dependents [l]->name); /* find whether dependent l is installed or unpacked, * and then find which package in the list satisfies it */ for(m = 0; m < all->len; m++) { dep = all->pkgs[m]; if ( dep->state_status != SS_NOT_INSTALLED) if ( ! strcmp(dep->name, dependents[l]->name)) { opkg_recurse_pkgs_in_order(dep, all, visited, ordered); /* Stop the outer loop */ l = abpkg->provided_by->len; /* break from the inner loop */ break; } } l++; } } } /* When all recursions from this node down, are over, and all dependencies have been added in proper order in the ordered array, add also the package pkg to ordered array */ pkg_vec_insert(ordered, pkg); return 0; } static int opkg_configure_packages(char *pkg_name) { pkg_vec_t *all, *ordered, *visited; int i; pkg_t *pkg; opkg_intercept_t ic; int r, err = 0; if (conf->offline_root && !conf->force_postinstall) { opkg_msg(INFO, "Offline root mode: not configuring unpacked packages.\n"); return 0; } opkg_msg(INFO, "Configuring unpacked packages.\n"); all = pkg_vec_alloc(); pkg_hash_fetch_available(all); /* Reorder pkgs in order to be configured according to the Depends: tag order */ opkg_msg(INFO, "Reordering packages before configuring them...\n"); ordered = pkg_vec_alloc(); visited = pkg_vec_alloc(); for(i = 0; i < all->len; i++) { pkg = all->pkgs[i]; opkg_recurse_pkgs_in_order(pkg, all, visited, ordered); } ic = opkg_prep_intercepts(); if (ic == NULL) { err = -1; goto error; } for(i = 0; i < ordered->len; i++) { pkg = ordered->pkgs[i]; if (pkg_name && fnmatch(pkg_name, pkg->name, 0)) continue; if (pkg->state_status == SS_UNPACKED) { opkg_msg(NOTICE, "Configuring %s.\n", pkg->name); r = opkg_configure(pkg); if (r == 0) { pkg->state_status = SS_INSTALLED; pkg->parent->state_status = SS_INSTALLED; pkg->state_flag &= ~SF_PREFER; opkg_state_changed++; } else { if (!conf->offline_root) err = -1; } } } if (opkg_finalize_intercepts (ic)) err = -1; error: pkg_vec_free(all); pkg_vec_free(ordered); pkg_vec_free(visited); return err; } static int opkg_remove_cmd(int argc, char **argv); static int opkg_install_cmd(int argc, char **argv) { int i; char *arg; int err = 0; if (conf->force_reinstall) { int saved_force_depends = conf->force_depends; conf->force_depends = 1; (void)opkg_remove_cmd(argc, argv); conf->force_depends = saved_force_depends; conf->force_reinstall = 0; } signal(SIGINT, sigint_handler); /* * Now scan through package names and install */ for (i=0; i < argc; i++) { arg = argv[i]; opkg_msg(DEBUG2, "%s\n", arg); if (opkg_prepare_url_for_install(arg, &argv[i])) return -1; } pkg_info_preinstall_check(); for (i=0; i < argc; i++) { arg = argv[i]; if (opkg_install_by_name(arg)) { opkg_msg(ERROR, "Cannot install package %s.\n", arg); err = -1; } } if (opkg_configure_packages(NULL)) err = -1; write_status_files_if_changed(); return err; } static int opkg_upgrade_cmd(int argc, char **argv) { int i; pkg_t *pkg; int err = 0; signal(SIGINT, sigint_handler); if (argc) { for (i=0; i < argc; i++) { char *arg = argv[i]; if (opkg_prepare_url_for_install(arg, &arg)) return -1; } pkg_info_preinstall_check(); for (i=0; i < argc; i++) { char *arg = argv[i]; if (conf->restrict_to_default_dest) { pkg = pkg_hash_fetch_installed_by_name_dest(argv[i], conf->default_dest); if (pkg == NULL) { opkg_msg(NOTICE, "Package %s not installed in %s.\n", argv[i], conf->default_dest->name); continue; } } else { pkg = pkg_hash_fetch_installed_by_name(argv[i]); } if (pkg) { if (opkg_upgrade_pkg(pkg)) err = -1; } else { if (opkg_install_by_name(arg)) err = -1; } } } else { pkg_vec_t *installed = pkg_vec_alloc(); pkg_info_preinstall_check(); pkg_hash_fetch_all_installed(installed); for (i = 0; i < installed->len; i++) { pkg = installed->pkgs[i]; if (opkg_upgrade_pkg(pkg)) err = -1; } pkg_vec_free(installed); } if (opkg_configure_packages(NULL)) err = -1; write_status_files_if_changed(); return err; } static int opkg_download_cmd(int argc, char **argv) { int i, err = 0; char *arg; pkg_t *pkg; pkg_info_preinstall_check(); for (i = 0; i < argc; i++) { arg = argv[i]; pkg = pkg_hash_fetch_best_installation_candidate_by_name(arg); if (pkg == NULL) { opkg_msg(ERROR, "Cannot find package %s.\n", arg); continue; } if (opkg_download_pkg(pkg, ".")) err = -1; if (err) { opkg_msg(ERROR, "Failed to download %s.\n", pkg->name); } else { opkg_msg(NOTICE, "Downloaded %s as %s.\n", pkg->name, pkg->local_filename); } } return err; } static int opkg_list_cmd(int argc, char **argv) { int i; pkg_vec_t *available; pkg_t *pkg; char *pkg_name = NULL; if (argc > 0) { pkg_name = argv[0]; } available = pkg_vec_alloc(); pkg_hash_fetch_available(available); pkg_vec_sort(available, pkg_compare_names); for (i=0; i < available->len; i++) { pkg = available->pkgs[i]; /* if we have package name or pattern and pkg does not match, then skip it */ if (pkg_name && fnmatch(pkg_name, pkg->name, 0)) continue; print_pkg(pkg); } pkg_vec_free(available); return 0; } static int opkg_list_installed_cmd(int argc, char **argv) { int i ; pkg_vec_t *available; pkg_t *pkg; char *pkg_name = NULL; if (argc > 0) { pkg_name = argv[0]; } available = pkg_vec_alloc(); pkg_hash_fetch_all_installed(available); pkg_vec_sort(available, pkg_compare_names); for (i=0; i < available->len; i++) { pkg = available->pkgs[i]; /* if we have package name or pattern and pkg does not match, then skip it */ if (pkg_name && fnmatch(pkg_name, pkg->name, 0)) continue; print_pkg(pkg); } pkg_vec_free(available); return 0; } static int opkg_list_changed_conffiles_cmd(int argc, char **argv) { int i ; pkg_vec_t *available; pkg_t *pkg; char *pkg_name = NULL; conffile_list_elt_t *iter; conffile_t *cf; if (argc > 0) { pkg_name = argv[0]; } available = pkg_vec_alloc(); pkg_hash_fetch_all_installed(available); pkg_vec_sort(available, pkg_compare_names); for (i=0; i < available->len; i++) { pkg = available->pkgs[i]; /* if we have package name or pattern and pkg does not match, then skip it */ if (pkg_name && fnmatch(pkg_name, pkg->name, 0)) continue; if (nv_pair_list_empty(&pkg->conffiles)) continue; for (iter = nv_pair_list_first(&pkg->conffiles); iter; iter = nv_pair_list_next(&pkg->conffiles, iter)) { cf = (conffile_t *)iter->data; if (cf->name && cf->value && conffile_has_been_modified(cf)) printf("%s\n", cf->name); } } pkg_vec_free(available); return 0; } static int opkg_list_upgradable_cmd(int argc, char **argv) { struct active_list *head = prepare_upgrade_list(); struct active_list *node=NULL; pkg_t *_old_pkg, *_new_pkg; char *old_v, *new_v; for (node = active_list_next(head, head); node;node = active_list_next(head,node)) { _old_pkg = list_entry(node, pkg_t, list); _new_pkg = pkg_hash_fetch_best_installation_candidate_by_name(_old_pkg->name); if (_new_pkg == NULL) continue; old_v = pkg_version_str_alloc(_old_pkg); new_v = pkg_version_str_alloc(_new_pkg); printf("%s - %s - %s\n", _old_pkg->name, old_v, new_v); free(old_v); free(new_v); } active_list_head_delete(head); return 0; } static int opkg_info_status_cmd(int argc, char **argv, int installed_only) { int i; pkg_vec_t *available; pkg_t *pkg; char *pkg_name = NULL; if (argc > 0) { pkg_name = argv[0]; } available = pkg_vec_alloc(); if (installed_only) pkg_hash_fetch_all_installed(available); else pkg_hash_fetch_available(available); for (i=0; i < available->len; i++) { pkg = available->pkgs[i]; if (pkg_name && fnmatch(pkg_name, pkg->name, 0)) { continue; } pkg_formatted_info(stdout, pkg); if (conf->verbosity >= NOTICE) { conffile_list_elt_t *iter; for (iter = nv_pair_list_first(&pkg->conffiles); iter; iter = nv_pair_list_next(&pkg->conffiles, iter)) { conffile_t *cf = (conffile_t *)iter->data; int modified = conffile_has_been_modified(cf); if (cf->value) opkg_msg(INFO, "conffile=%s md5sum=%s modified=%d.\n", cf->name, cf->value, modified); } } } pkg_vec_free(available); return 0; } static int opkg_info_cmd(int argc, char **argv) { return opkg_info_status_cmd(argc, argv, 0); } static int opkg_status_cmd(int argc, char **argv) { return opkg_info_status_cmd(argc, argv, 1); } static int opkg_configure_cmd(int argc, char **argv) { int err; char *pkg_name = NULL; if (argc > 0) pkg_name = argv[0]; err = opkg_configure_packages(pkg_name); write_status_files_if_changed(); return err; } static int opkg_remove_cmd(int argc, char **argv) { int i, a, done, err = 0; pkg_t *pkg; pkg_t *pkg_to_remove; pkg_vec_t *available; done = 0; signal(SIGINT, sigint_handler); pkg_info_preinstall_check(); available = pkg_vec_alloc(); pkg_hash_fetch_all_installed(available); for (i=0; ilen; a++) { pkg = available->pkgs[a]; if (fnmatch(argv[i], pkg->name, 0)) { continue; } if (conf->restrict_to_default_dest) { pkg_to_remove = pkg_hash_fetch_installed_by_name_dest( pkg->name, conf->default_dest); } else { pkg_to_remove = pkg_hash_fetch_installed_by_name(pkg->name); } if (pkg_to_remove == NULL) { opkg_msg(ERROR, "Package %s is not installed.\n", pkg->name); continue; } if (pkg->state_status == SS_NOT_INSTALLED) { opkg_msg(ERROR, "Package %s not installed.\n", pkg->name); continue; } if (opkg_remove_pkg(pkg_to_remove, 0)) err = -1; else done = 1; } } pkg_vec_free(available); if (done == 0) opkg_msg(NOTICE, "No packages removed.\n"); write_status_files_if_changed(); return err; } static int opkg_flag_cmd(int argc, char **argv) { int i; pkg_t *pkg; const char *flags = argv[0]; signal(SIGINT, sigint_handler); for (i=1; i < argc; i++) { if (conf->restrict_to_default_dest) { pkg = pkg_hash_fetch_installed_by_name_dest(argv[i], conf->default_dest); } else { pkg = pkg_hash_fetch_installed_by_name(argv[i]); } if (pkg == NULL) { opkg_msg(ERROR, "Package %s is not installed.\n", argv[i]); continue; } if (( strcmp(flags,"hold")==0)||( strcmp(flags,"noprune")==0)|| ( strcmp(flags,"user")==0)||( strcmp(flags,"ok")==0)) { pkg->state_flag = pkg_state_flag_from_str(flags); } /* * Useful if a package is installed in an offline_root, and * should be configured by opkg-cl configure at a later date. */ if (( strcmp(flags,"installed")==0)||( strcmp(flags,"unpacked")==0)){ pkg->state_status = pkg_state_status_from_str(flags); } opkg_state_changed++; opkg_msg(NOTICE, "Setting flags for package %s to %s.\n", pkg->name, flags); } write_status_files_if_changed(); return 0; } static int opkg_files_cmd(int argc, char **argv) { pkg_t *pkg; str_list_t *files; str_list_elt_t *iter; char *pkg_version; if (argc < 1) { return -1; } pkg = pkg_hash_fetch_installed_by_name(argv[0]); if (pkg == NULL) { opkg_msg(ERROR, "Package %s not installed.\n", argv[0]); return 0; } files = pkg_get_installed_files(pkg); pkg_version = pkg_version_str_alloc(pkg); printf("Package %s (%s) is installed on %s and has the following files:\n", pkg->name, pkg_version, pkg->dest->name); for (iter=str_list_first(files); iter; iter=str_list_next(files, iter)) printf("%s\n", (char *)iter->data); free(pkg_version); pkg_free_installed_files(pkg); return 0; } static int opkg_depends_cmd(int argc, char **argv) { int i, j, k; int depends_count; pkg_vec_t *available_pkgs; compound_depend_t *cdep; pkg_t *pkg; char *str; pkg_info_preinstall_check(); available_pkgs = pkg_vec_alloc(); if (conf->query_all) pkg_hash_fetch_available(available_pkgs); else pkg_hash_fetch_all_installed(available_pkgs); for (i=0; ilen; j++) { pkg = available_pkgs->pkgs[j]; if (fnmatch(argv[i], pkg->name, 0) != 0) continue; depends_count = pkg->depends_count + pkg->pre_depends_count + pkg->recommends_count + pkg->suggests_count; opkg_msg(NOTICE, "%s depends on:\n", pkg->name); for (k=0; kdepends[k]; if (cdep->type != DEPEND) continue; str = pkg_depend_str(pkg, k); opkg_msg(NOTICE, "\t%s\n", str); free(str); } } } pkg_vec_free(available_pkgs); return 0; } static int pkg_mark_provides(pkg_t *pkg) { int provides_count = pkg->provides_count; abstract_pkg_t **provides = pkg->provides; int i; pkg->parent->state_flag |= SF_MARKED; for (i = 0; i < provides_count; i++) { provides[i]->state_flag |= SF_MARKED; } return 0; } enum what_field_type { WHATDEPENDS, WHATCONFLICTS, WHATPROVIDES, WHATREPLACES, WHATRECOMMENDS, WHATSUGGESTS }; static int opkg_what_depends_conflicts_cmd(enum depend_type what_field_type, int recursive, int argc, char **argv) { depend_t *possibility; compound_depend_t *cdep; pkg_vec_t *available_pkgs; pkg_t *pkg; int i, j, k, l; int changed, count; const char *rel_str = NULL; char *ver; switch (what_field_type) { case DEPEND: rel_str = "depends on"; break; case CONFLICTS: rel_str = "conflicts with"; break; case SUGGEST: rel_str = "suggests"; break; case RECOMMEND: rel_str = "recommends"; break; default: return -1; } available_pkgs = pkg_vec_alloc(); if (conf->query_all) pkg_hash_fetch_available(available_pkgs); else pkg_hash_fetch_all_installed(available_pkgs); /* mark the root set */ pkg_vec_clear_marks(available_pkgs); opkg_msg(NOTICE, "Root set:\n"); for (i = 0; i < argc; i++) pkg_vec_mark_if_matches(available_pkgs, argv[i]); for (i = 0; i < available_pkgs->len; i++) { pkg = available_pkgs->pkgs[i]; if (pkg->state_flag & SF_MARKED) { /* mark the parent (abstract) package */ pkg_mark_provides(pkg); opkg_msg(NOTICE, " %s\n", pkg->name); } } opkg_msg(NOTICE, "What %s root set\n", rel_str); do { changed = 0; for (j=0; jlen; j++) { pkg = available_pkgs->pkgs[j]; count = ((what_field_type == CONFLICTS) ? pkg->conflicts_count : pkg->pre_depends_count + pkg->depends_count + pkg->recommends_count + pkg->suggests_count); /* skip this package if it is already marked */ if (pkg->parent->state_flag & SF_MARKED) continue; for (k=0; kconflicts[k] : &pkg->depends[k]; if (what_field_type != cdep->type) continue; for (l=0; lpossibility_count; l++) { possibility = cdep->possibilities[l]; if ((possibility->pkg->state_flag & SF_MARKED) != SF_MARKED) continue; /* mark the depending package so we * won't visit it again */ pkg->state_flag |= SF_MARKED; pkg_mark_provides(pkg); changed++; ver = pkg_version_str_alloc(pkg); opkg_msg(NOTICE, "\t%s %s\t%s %s", pkg->name, ver, rel_str, possibility->pkg->name); free(ver); if (possibility->version) { opkg_msg(NOTICE, " (%s%s)", constraint_to_str(possibility->constraint), possibility->version); } if (!pkg_dependence_satisfiable(possibility)) opkg_msg(NOTICE, " unsatisfiable"); opkg_message(NOTICE, "\n"); goto next_package; } } next_package: ; } } while (changed && recursive); pkg_vec_free(available_pkgs); return 0; } static int opkg_whatdepends_recursively_cmd(int argc, char **argv) { return opkg_what_depends_conflicts_cmd(DEPEND, 1, argc, argv); } static int opkg_whatdepends_cmd(int argc, char **argv) { return opkg_what_depends_conflicts_cmd(DEPEND, 0, argc, argv); } static int opkg_whatsuggests_cmd(int argc, char **argv) { return opkg_what_depends_conflicts_cmd(SUGGEST, 0, argc, argv); } static int opkg_whatrecommends_cmd(int argc, char **argv) { return opkg_what_depends_conflicts_cmd(RECOMMEND, 0, argc, argv); } static int opkg_whatconflicts_cmd(int argc, char **argv) { return opkg_what_depends_conflicts_cmd(CONFLICTS, 0, argc, argv); } static int opkg_what_provides_replaces_cmd(enum what_field_type what_field_type, int argc, char **argv) { if (argc > 0) { pkg_vec_t *available_pkgs = pkg_vec_alloc(); const char *rel_str = (what_field_type == WHATPROVIDES ? "provides" : "replaces"); int i; pkg_info_preinstall_check(); if (conf->query_all) pkg_hash_fetch_available(available_pkgs); else pkg_hash_fetch_all_installed(available_pkgs); for (i = 0; i < argc; i++) { const char *target = argv[i]; int j; opkg_msg(NOTICE, "What %s %s\n", rel_str, target); for (j = 0; j < available_pkgs->len; j++) { pkg_t *pkg = available_pkgs->pkgs[j]; int k; int count = (what_field_type == WHATPROVIDES) ? pkg->provides_count : pkg->replaces_count; for (k = 0; k < count; k++) { abstract_pkg_t *apkg = ((what_field_type == WHATPROVIDES) ? pkg->provides[k] : pkg->replaces[k]); if (fnmatch(target, apkg->name, 0) == 0) { opkg_msg(NOTICE, " %s", pkg->name); if (strcmp(target, apkg->name) != 0) opkg_msg(NOTICE, "\t%s %s\n", rel_str, apkg->name); opkg_message(NOTICE, "\n"); } } } } pkg_vec_free(available_pkgs); } return 0; } static int opkg_whatprovides_cmd(int argc, char **argv) { return opkg_what_provides_replaces_cmd(WHATPROVIDES, argc, argv); } static int opkg_whatreplaces_cmd(int argc, char **argv) { return opkg_what_provides_replaces_cmd(WHATREPLACES, argc, argv); } static int opkg_search_cmd(int argc, char **argv) { int i; pkg_vec_t *installed; pkg_t *pkg; str_list_t *installed_files; str_list_elt_t *iter; char *installed_file; if (argc < 1) { return -1; } installed = pkg_vec_alloc(); pkg_hash_fetch_all_installed(installed); pkg_vec_sort(installed, pkg_compare_names); for (i=0; i < installed->len; i++) { pkg = installed->pkgs[i]; installed_files = pkg_get_installed_files(pkg); for (iter = str_list_first(installed_files); iter; iter = str_list_next(installed_files, iter)) { installed_file = (char *)iter->data; if (fnmatch(argv[0], installed_file, 0)==0) print_pkg(pkg); } pkg_free_installed_files(pkg); } pkg_vec_free(installed); return 0; } static int opkg_compare_versions_cmd(int argc, char **argv) { if (argc == 3) { /* this is a bit gross */ struct pkg p1, p2; parse_version(&p1, argv[0]); parse_version(&p2, argv[2]); return pkg_version_satisfied(&p1, &p2, argv[1]); } else { opkg_msg(ERROR, "opkg compare_versions \n" " is one of <= >= << >> =\n"); return -1; } } static int opkg_print_architecture_cmd(int argc, char **argv) { nv_pair_list_elt_t *l; list_for_each_entry(l, &conf->arch_list.head, node) { nv_pair_t *nv = (nv_pair_t *)l->data; printf("arch %s %s\n", nv->name, nv->value); } return 0; } /* XXX: CLEANUP: The usage strings should be incorporated into this array for easier maintenance */ static opkg_cmd_t cmds[] = { {"update", 0, (opkg_cmd_fun_t)opkg_update_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"upgrade", 0, (opkg_cmd_fun_t)opkg_upgrade_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"list", 0, (opkg_cmd_fun_t)opkg_list_cmd, PFM_SOURCE}, {"list_installed", 0, (opkg_cmd_fun_t)opkg_list_installed_cmd, PFM_SOURCE}, {"list-installed", 0, (opkg_cmd_fun_t)opkg_list_installed_cmd, PFM_SOURCE}, {"list_upgradable", 0, (opkg_cmd_fun_t)opkg_list_upgradable_cmd, PFM_SOURCE}, {"list-upgradable", 0, (opkg_cmd_fun_t)opkg_list_upgradable_cmd, PFM_SOURCE}, {"list_changed_conffiles", 0, (opkg_cmd_fun_t)opkg_list_changed_conffiles_cmd, PFM_SOURCE}, {"list-changed-conffiles", 0, (opkg_cmd_fun_t)opkg_list_changed_conffiles_cmd, PFM_SOURCE}, {"info", 0, (opkg_cmd_fun_t)opkg_info_cmd, 0}, {"flag", 1, (opkg_cmd_fun_t)opkg_flag_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"status", 0, (opkg_cmd_fun_t)opkg_status_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"install", 1, (opkg_cmd_fun_t)opkg_install_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"remove", 1, (opkg_cmd_fun_t)opkg_remove_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"configure", 0, (opkg_cmd_fun_t)opkg_configure_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"files", 1, (opkg_cmd_fun_t)opkg_files_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"search", 1, (opkg_cmd_fun_t)opkg_search_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"download", 1, (opkg_cmd_fun_t)opkg_download_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"compare_versions", 1, (opkg_cmd_fun_t)opkg_compare_versions_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"compare-versions", 1, (opkg_cmd_fun_t)opkg_compare_versions_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"print-architecture", 0, (opkg_cmd_fun_t)opkg_print_architecture_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"print_architecture", 0, (opkg_cmd_fun_t)opkg_print_architecture_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"print-installation-architecture", 0, (opkg_cmd_fun_t)opkg_print_architecture_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"print_installation_architecture", 0, (opkg_cmd_fun_t)opkg_print_architecture_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"depends", 1, (opkg_cmd_fun_t)opkg_depends_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"whatdepends", 1, (opkg_cmd_fun_t)opkg_whatdepends_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"whatdependsrec", 1, (opkg_cmd_fun_t)opkg_whatdepends_recursively_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"whatrecommends", 1, (opkg_cmd_fun_t)opkg_whatrecommends_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"whatsuggests", 1, (opkg_cmd_fun_t)opkg_whatsuggests_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"whatprovides", 1, (opkg_cmd_fun_t)opkg_whatprovides_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"whatreplaces", 1, (opkg_cmd_fun_t)opkg_whatreplaces_cmd, PFM_DESCRIPTION|PFM_SOURCE}, {"whatconflicts", 1, (opkg_cmd_fun_t)opkg_whatconflicts_cmd, PFM_DESCRIPTION|PFM_SOURCE}, }; opkg_cmd_t * opkg_cmd_find(const char *name) { int i; opkg_cmd_t *cmd; int num_cmds = sizeof(cmds) / sizeof(opkg_cmd_t); for (i=0; i < num_cmds; i++) { cmd = &cmds[i]; if (strcmp(name, cmd->name) == 0) return cmd; } return NULL; } int opkg_cmd_exec(opkg_cmd_t *cmd, int argc, const char **argv) { return (cmd->fun)(argc, argv); }