#ifndef lint static const char rcsid[] = "$FreeBSD$"; #endif /* * FreeBSD install - a package for the installation and maintainance * of non-core utilities. * * 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. * * Jordan K. Hubbard * 23 Aug 1993 * * This is the main body of the info module. * */ #include "lib.h" #include "info.h" #include #include static int pkg_do(char *); static int find_pkg(char *, struct which_head *); static int cmp_path(const char *, const char *, const char *); int pkg_perform(char **pkgs) { char **matched; char *tmp; int err_cnt = 0; int i, errcode; signal(SIGINT, cleanup); tmp = getenv(PKG_DBDIR); if (!tmp) tmp = DEF_LOG_DIR; /* Overriding action? */ if (CheckPkg) { char buf[FILENAME_MAX]; snprintf(buf, FILENAME_MAX, "%s/%s", tmp, CheckPkg); return abs(access(buf, R_OK)); /* Not reached */ } else if (!TAILQ_EMPTY(whead)) { return find_pkg(tmp, whead); } if (MatchType != MATCH_EXACT) { matched = matchinstalled(MatchType, pkgs, &errcode); if (errcode != 0) return 1; /* Not reached */ if (matched != NULL) pkgs = matched; else switch (MatchType) { case MATCH_GLOB: break; case MATCH_ALL: warnx("no packages installed"); return 0; /* Not reached */ case MATCH_REGEX: warnx("no packages match pattern(s)"); return 1; /* Not reached */ default: break; } } for (i = 0; pkgs[i]; i++) err_cnt += pkg_do(pkgs[i]); return err_cnt; } static char *Home; static int pkg_do(char *pkg) { Boolean installed = FALSE, isTMP = FALSE; char log_dir[FILENAME_MAX]; char fname[FILENAME_MAX]; Package plist; FILE *fp; struct stat sb; char *cp = NULL; int code = 0; if (isURL(pkg)) { if ((cp = fileGetURL(NULL, pkg)) != NULL) { strcpy(fname, cp); isTMP = TRUE; } } else if (fexists(pkg) && isfile(pkg)) { int len; if (*pkg != '/') { if (!getcwd(fname, FILENAME_MAX)) upchuck("getcwd"); len = strlen(fname); snprintf(&fname[len], FILENAME_MAX - len, "/%s", pkg); } else strcpy(fname, pkg); cp = fname; } else { if ((cp = fileFindByPath(NULL, pkg)) != NULL) strncpy(fname, cp, FILENAME_MAX); } if (cp) { /* * Apply a crude heuristic to see how much space the package will * take up once it's unpacked. I've noticed that most packages * compress an average of 75%, but we're only unpacking the + files so * be very optimistic. */ if (stat(fname, &sb) == FAIL) { warnx("can't stat package file '%s'", fname); code = 1; goto bail; } Home = make_playpen(PlayPen, sb.st_size / 2); if (unpack(fname, "+*")) { warnx("error during unpacking, no info for '%s' available", pkg); code = 1; goto bail; } } /* It's not an ininstalled package, try and find it among the installed */ else { char *tmp; sprintf(log_dir, "%s/%s", (tmp = getenv(PKG_DBDIR)) ? tmp : DEF_LOG_DIR, pkg); if (!fexists(log_dir)) { warnx("can't find package `%s' installed or in a file!", pkg); return 1; } if (chdir(log_dir) == FAIL) { warnx("can't change directory to '%s'!", log_dir); return 1; } installed = TRUE; } /* Suck in the contents list */ plist.head = plist.tail = NULL; fp = fopen(CONTENTS_FNAME, "r"); if (!fp) { warnx("unable to open %s file", CONTENTS_FNAME); code = 1; goto bail; } /* If we have a prefix, add it now */ read_plist(&plist, fp); fclose(fp); /* * Index is special info type that has to override all others to make * any sense. */ if (Flags & SHOW_INDEX) { char tmp[FILENAME_MAX]; snprintf(tmp, FILENAME_MAX, "%-19s ", pkg); show_index(tmp, COMMENT_FNAME); } else { /* Start showing the package contents */ if (!Quiet) printf("%sInformation for %s:\n\n", InfoPrefix, pkg); if (Flags & SHOW_COMMENT) show_file("Comment:\n", COMMENT_FNAME); if (Flags & SHOW_REQUIRE) show_plist("Depends on:\n", &plist, PLIST_PKGDEP); if ((Flags & SHOW_REQBY) && !isemptyfile(REQUIRED_BY_FNAME)) show_file("Required by:\n", REQUIRED_BY_FNAME); if (Flags & SHOW_DESC) show_file("Description:\n", DESC_FNAME); if ((Flags & SHOW_DISPLAY) && fexists(DISPLAY_FNAME)) show_file("Install notice:\n", DISPLAY_FNAME); if (Flags & SHOW_PLIST) show_plist("Packing list:\n", &plist, (plist_t)-1); if ((Flags & SHOW_INSTALL) && fexists(INSTALL_FNAME)) show_file("Install script:\n", INSTALL_FNAME); if ((Flags & SHOW_INSTALL) && fexists(POST_INSTALL_FNAME)) show_file("Post-Install script:\n", POST_INSTALL_FNAME); if ((Flags & SHOW_DEINSTALL) && fexists(DEINSTALL_FNAME)) show_file("De-Install script:\n", DEINSTALL_FNAME); if ((Flags & SHOW_DEINSTALL) && fexists(POST_DEINSTALL_FNAME)) show_file("Post-DeInstall script:\n", POST_DEINSTALL_FNAME); if ((Flags & SHOW_MTREE) && fexists(MTREE_FNAME)) show_file("mtree file:\n", MTREE_FNAME); if (Flags & SHOW_PREFIX) show_plist("Prefix(s):\n", &plist, PLIST_CWD); if (Flags & SHOW_FILES) show_files("Files:\n", &plist); if ((Flags & SHOW_SIZE) && installed) show_size("Package Size:\n", &plist); if ((Flags & SHOW_CKSUM) && installed) show_cksum("Mismatched Checksums:\n", &plist); if (Flags & SHOW_ORIGIN) show_origin("Origin:\n", &plist); if (!Quiet) puts(InfoPrefix); } free_plist(&plist); bail: leave_playpen(); if (isTMP) unlink(fname); return code; } void cleanup(int sig) { static int in_cleanup = 0; if (!in_cleanup) { in_cleanup = 1; leave_playpen(); } if (sig) exit(1); } /* * Return an absolute path, additionally removing all .'s, ..'s, and extraneous * /'s, as realpath() would, but without resolving symlinks, because that can * potentially screw up our comparisons later. */ char * abspath(const char *pathname) { char *tmp, *tmp1, *resolved_path; char *cwd = NULL; int len; if (pathname[0] != '/') { cwd = getcwd(NULL, MAXPATHLEN); asprintf(&resolved_path, "%s/%s/", cwd, pathname); } else asprintf(&resolved_path, "%s/", pathname); if (resolved_path == NULL) errx(2, NULL); if (cwd != NULL) free(cwd); while ((tmp = strstr(resolved_path, "//")) != NULL) strcpy(tmp, tmp + 1); while ((tmp = strstr(resolved_path, "/./")) != NULL) strcpy(tmp, tmp + 2); while ((tmp = strstr(resolved_path, "/../")) != NULL) { *tmp = '\0'; if ((tmp1 = strrchr(resolved_path, '/')) == NULL) tmp1 = resolved_path; strcpy(tmp1, tmp + 3); } len = strlen(resolved_path); if (len > 1 && resolved_path[len - 1] == '/') resolved_path[len - 1] = '\0'; return resolved_path; } /* * Comparison to see if the path we're on matches the * one we are looking for. */ static int cmp_path(const char *target, const char *current, const char *cwd) { char *resolved, *temp; int rval; asprintf(&temp, "%s/%s", cwd, current); if (temp == NULL) errx(2, NULL); /* * Make sure there's no multiple /'s or other weird things in the PLIST, * since some plists seem to have them and it could screw up our strncmp. */ resolved = abspath(temp); if (strcmp(target, resolved) == 0) rval = 1; else rval = 0; free(temp); free(resolved); return rval; } /* * Look through package dbs in db_dir and find which * packages installed the files in which_list. */ static int find_pkg(char *db_dir, struct which_head *which_list) { char **installed; int errcode, i; struct which_entry *wp; TAILQ_FOREACH(wp, which_list, next) { char *msg = "file cannot be found"; char *tmp; wp->skip = TRUE; /* If it's not a file, we'll see if it's an executable. */ if (isfile(wp->file) == FALSE) { if (strchr(wp->file, '/') == NULL) { tmp = vpipe("/usr/bin/which %s", wp->file); if (tmp != NULL) { strlcpy(wp->file, tmp, PATH_MAX); wp->skip = FALSE; free(tmp); } else msg = "file is not in PATH"; } } else { tmp = abspath(wp->file); if (isfile(tmp)) { strlcpy(wp->file, tmp, PATH_MAX); wp->skip = FALSE; } free(tmp); } if (wp->skip == TRUE) warnx("%s: %s", wp->file, msg); } installed = matchinstalled(MATCH_ALL, NULL, &errcode); if (installed == NULL) return errcode; for (i = 0; installed[i] != NULL; i++) { FILE *fp; Package pkg; PackingList itr; char *cwd = NULL; char tmp[PATH_MAX]; snprintf(tmp, PATH_MAX, "%s/%s/%s", db_dir, installed[i], CONTENTS_FNAME); fp = fopen(tmp, "r"); if (fp == NULL) { warn("%s", tmp); return 1; } pkg.head = pkg.tail = NULL; read_plist(&pkg, fp); fclose(fp); for (itr = pkg.head; itr != pkg.tail; itr = itr->next) { if (itr->type == PLIST_CWD) { cwd = itr->name; } else if (itr->type == PLIST_FILE) { TAILQ_FOREACH(wp, which_list, next) { if (wp->skip == TRUE) continue; if (!cmp_path(wp->file, itr->name, cwd)) continue; if (wp->package[0] != '\0') { warnx("both %s and %s claim to have installed %s\n", wp->package, installed[i], wp->file); } else { strlcpy(wp->package, installed[i], PATH_MAX); } } } } free_plist(&pkg); } TAILQ_FOREACH(wp, which_list, next) { if (wp->package[0] != '\0') { if (Quiet) puts(wp->package); else printf("%s was installed by package %s\n", \ wp->file, wp->package); } } while (!TAILQ_EMPTY(which_list)) { wp = TAILQ_FIRST(which_list); TAILQ_REMOVE(which_list, wp, next); free(wp); } free(which_list); return 0; }