/* * dpkg-deb - construction and deconstruction of *.deb archives * build.c - building archives * * Copyright © 1994,1995 Ian Jackson * Copyright © 2000,2001 Wichert Akkerman * Copyright © 2007-2015 Guillem Jover * * This 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 of the License, or * (at your option) any later version. * * This 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. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "dpkg-deb.h" static void control_treewalk_feed(const char *dir, int fd_out) { struct treeroot *tree; struct treenode *node; tree = treewalk_open(dir, TREEWALK_NONE, NULL); for (node = treewalk_node(tree); node; node = treewalk_next(tree)) { char *nodename; nodename = str_fmt("./%s", treenode_get_virtname(node)); if (fd_write(fd_out, nodename, strlen(nodename) + 1) < 0) ohshite(_("failed to write filename to tar pipe (%s)"), _("control member")); free(nodename); } treewalk_close(tree); } /** * Simple structure to store information about a file. */ struct file_info { struct file_info *next; char *fn; }; static struct file_info * file_info_new(const char *filename) { struct file_info *fi; fi = m_malloc(sizeof(*fi)); fi->fn = m_strdup(filename); fi->next = NULL; return fi; } static void file_info_free(struct file_info *fi) { free(fi->fn); free(fi); } static struct file_info * file_info_find_name(struct file_info *list, const char *filename) { struct file_info *node; for (node = list; node; node = node->next) if (strcmp(node->fn, filename) == 0) return node; return NULL; } /** * Add a new file_info struct to a single linked list of file_info structs. * * We perform a slight optimization to work around a ‘feature’ in tar: tar * always recurses into subdirectories if you list a subdirectory. So if an * entry is added and the previous entry in the list is its subdirectory we * remove the subdirectory. * * After a file_info struct is added to a list it may no longer be freed, we * assume full responsibility for its memory. */ static void file_info_list_append(struct file_info **head, struct file_info **tail, struct file_info *fi) { if (*head == NULL) *head = *tail = fi; else *tail = (*tail)->next =fi; } /** * Free the memory for all entries in a list of file_info structs. */ static void file_info_list_free(struct file_info *fi) { while (fi) { struct file_info *fl; fl=fi; fi=fi->next; file_info_free(fl); } } static void file_treewalk_feed(const char *dir, int fd_out) { struct treeroot *tree; struct treenode *node; struct file_info *fi; struct file_info *symlist = NULL; struct file_info *symlist_end = NULL; tree = treewalk_open(dir, TREEWALK_NONE, NULL); for (node = treewalk_node(tree); node ; node = treewalk_next(tree)) { const char *virtname = treenode_get_virtname(node); char *nodename; if (strncmp(virtname, BUILDCONTROLDIR, strlen(BUILDCONTROLDIR)) == 0) continue; nodename = str_fmt("./%s", virtname); if (strchr(nodename, '\n')) ohshit(_("newline not allowed in pathname '%s'"), nodename); /* We need to reorder the files so we can make sure that symlinks * will not appear before their target. */ if (S_ISLNK(treenode_get_mode(node))) { fi = file_info_new(nodename); file_info_list_append(&symlist, &symlist_end, fi); } else { if (fd_write(fd_out, nodename, strlen(nodename) + 1) < 0) ohshite(_("failed to write filename to tar pipe (%s)"), _("data member")); } free(nodename); } treewalk_close(tree); for (fi = symlist; fi; fi = fi->next) if (fd_write(fd_out, fi->fn, strlen(fi->fn) + 1) < 0) ohshite(_("failed to write filename to tar pipe (%s)"), _("data member")); file_info_list_free(symlist); } static const char *const maintainerscripts[] = { PREINSTFILE, POSTINSTFILE, PRERMFILE, POSTRMFILE, MAINTSCRIPT_FILE_CONFIG, NULL, }; /** * Check control directory and file permissions. */ static void check_file_perms(const char *ctrldir) { struct varbuf path = VARBUF_INIT; const char *const *mscriptp; struct stat mscriptstab; varbuf_printf(&path, "%s/", ctrldir); if (lstat(path.buf, &mscriptstab)) ohshite(_("unable to stat control directory")); if (!S_ISDIR(mscriptstab.st_mode)) ohshit(_("control directory is not a directory")); if ((mscriptstab.st_mode & 07757) != 0755) ohshit(_("control directory has bad permissions %03lo " "(must be >=0755 and <=0775)"), (unsigned long)(mscriptstab.st_mode & 07777)); for (mscriptp = maintainerscripts; *mscriptp; mscriptp++) { varbuf_reset(&path); varbuf_printf(&path, "%s/%s", ctrldir, *mscriptp); if (!lstat(path.buf, &mscriptstab)) { if (S_ISLNK(mscriptstab.st_mode)) continue; if (!S_ISREG(mscriptstab.st_mode)) ohshit(_("maintainer script '%.50s' is not a plain file or symlink"), *mscriptp); if ((mscriptstab.st_mode & 07557) != 0555) ohshit(_("maintainer script '%.50s' has bad permissions %03lo " "(must be >=0555 and <=0775)"), *mscriptp, (unsigned long)(mscriptstab.st_mode & 07777)); } else if (errno != ENOENT) { ohshite(_("maintainer script '%.50s' is not stattable"), *mscriptp); } } varbuf_destroy(&path); } /** * Check if conffiles contains sane information. */ static void check_conffiles(const char *ctrldir, const char *rootdir) { FILE *cf; struct varbuf controlfile = VARBUF_INIT; char conffilename[MAXCONFFILENAME + 1]; struct file_info *conffiles_head = NULL; struct file_info *conffiles_tail = NULL; varbuf_printf(&controlfile, "%s/%s", ctrldir, CONFFILESFILE); cf = fopen(controlfile.buf, "r"); if (cf == NULL) { if (errno == ENOENT) return; ohshite(_("error opening conffiles file")); } while (fgets(conffilename, MAXCONFFILENAME + 1, cf)) { struct stat controlstab; int n; n = strlen(conffilename); if (!n) ohshite(_("empty string from fgets reading conffiles")); if (conffilename[n - 1] != '\n') ohshit(_("conffile name '%s' is too long, or missing final newline"), conffilename); conffilename[n - 1] = '\0'; varbuf_reset(&controlfile); varbuf_printf(&controlfile, "%s/%s", rootdir, conffilename); if (lstat(controlfile.buf, &controlstab)) { if (errno == ENOENT) { if ((n > 1) && c_isspace(conffilename[n - 2])) warning(_("conffile filename '%s' contains trailing white spaces"), conffilename); ohshit(_("conffile '%.250s' does not appear in package"), conffilename); } else ohshite(_("conffile '%.250s' is not stattable"), conffilename); } else if (!S_ISREG(controlstab.st_mode)) { warning(_("conffile '%s' is not a plain file"), conffilename); } if (file_info_find_name(conffiles_head, conffilename)) { warning(_("conffile name '%s' is duplicated"), conffilename); } else { struct file_info *conffile; conffile = file_info_new(conffilename); file_info_list_append(&conffiles_head, &conffiles_tail, conffile); } } file_info_list_free(conffiles_head); varbuf_destroy(&controlfile); if (ferror(cf)) ohshite(_("error reading conffiles file")); fclose(cf); } /** * Check the control file. * * @param dir The directory from where to build the binary package. * @return The pkginfo struct from the parsed control file. */ static struct pkginfo * check_control_file(const char *ctrldir) { struct pkginfo *pkg; char *controlfile; controlfile = str_fmt("%s/%s", ctrldir, CONTROLFILE); parsedb(controlfile, pdb_parse_binary, &pkg); if (strspn(pkg->set->name, "abcdefghijklmnopqrstuvwxyz0123456789+-.") != strlen(pkg->set->name)) ohshit(_("package name has characters that aren't lowercase alphanums or '-+.'")); if (pkg->available.arch->type == DPKG_ARCH_NONE || pkg->available.arch->type == DPKG_ARCH_EMPTY) ohshit(_("package architecture is missing or empty")); if (pkg->priority == PKG_PRIO_OTHER) warning(_("'%s' contains user-defined Priority value '%s'"), controlfile, pkg->otherpriority); free(controlfile); return pkg; } /** * Perform some sanity checks on the to-be-built package control area. * * @param dir The directory from where to build the binary package. * @return The pkginfo struct from the parsed control file. */ static struct pkginfo * check_control_area(const char *ctrldir, const char *rootdir) { struct pkginfo *pkg; int warns; /* Start by reading in the control file so we can check its contents. */ pkg = check_control_file(ctrldir); check_file_perms(ctrldir); check_conffiles(ctrldir, rootdir); warns = warning_get_count(); if (warns) warning(P_("ignoring %d warning about the control file(s)", "ignoring %d warnings about the control file(s)", warns), warns); return pkg; } /** * Generate the pathname for the destination binary package. * * If the pathname cannot be computed, because the destination is a directory, * then NULL will be returned. * * @param dir The directory from where to build the binary package. * @param dest The destination name, either a file or directory name. * @return The pathname for the package being built. */ static char * gen_dest_pathname(const char *dir, const char *dest) { if (dest) { struct stat dest_stab; if (stat(dest, &dest_stab)) { if (errno != ENOENT) ohshite(_("unable to check for existence of archive '%.250s'"), dest); } else if (S_ISDIR(dest_stab.st_mode)) { /* Need to compute the destination name from the package control file. */ return NULL; } return m_strdup(dest); } else { char *pathname; pathname = m_malloc(strlen(dir) + sizeof(DEBEXT)); strcpy(pathname, dir); path_trim_slash_slashdot(pathname); strcat(pathname, DEBEXT); return pathname; } } /** * Generate the pathname for the destination binary package from control file. * * @return The pathname for the package being built. */ static char * gen_dest_pathname_from_pkg(const char *dir, struct pkginfo *pkg) { return str_fmt("%s/%s_%s_%s%s", dir, pkg->set->name, versiondescribe(&pkg->available.version, vdew_never), pkg->available.arch->name, DEBEXT); } typedef void filenames_feed_func(const char *dir, int fd_out); struct tar_pack_options { time_t timestamp; const char *mode; bool root_owner_group; }; /** * Pack the contents of a directory into a tarball. */ static void tarball_pack(const char *dir, filenames_feed_func *tar_filenames_feeder, struct tar_pack_options *options, struct compress_params *tar_compress_params, int fd_out) { int pipe_filenames[2], pipe_tarball[2]; pid_t pid_tar, pid_comp; /* Fork off a tar. We will feed it a list of filenames on stdin later. */ m_pipe(pipe_filenames); m_pipe(pipe_tarball); pid_tar = subproc_fork(); if (pid_tar == 0) { struct command cmd; char mtime[50]; m_dup2(pipe_filenames[0], 0); close(pipe_filenames[0]); close(pipe_filenames[1]); m_dup2(pipe_tarball[1], 1); close(pipe_tarball[0]); close(pipe_tarball[1]); if (chdir(dir)) ohshite(_("failed to chdir to '%.255s'"), dir); snprintf(mtime, sizeof(mtime), "@%ld", options->timestamp); command_init(&cmd, TAR, "tar -cf"); command_add_args(&cmd, "tar", "-cf", "-", "--format=gnu", "--mtime", mtime, "--clamp-mtime", NULL); /* Mode might become a positional argument, pass it before -T. */ if (options->mode) command_add_args(&cmd, "--mode", options->mode, NULL); if (options->root_owner_group) command_add_args(&cmd, "--owner", "root:0", "--group", "root:0", NULL); command_add_args(&cmd, "--null", "--no-unquote", "--no-recursion", "-T", "-", NULL); command_exec(&cmd); } close(pipe_filenames[0]); close(pipe_tarball[1]); /* Of course we should not forget to compress the archive as well. */ pid_comp = subproc_fork(); if (pid_comp == 0) { close(pipe_filenames[1]); compress_filter(tar_compress_params, pipe_tarball[0], fd_out, _("compressing tar member")); exit(0); } close(pipe_tarball[0]); /* All the pipes are set, now lets start feeding filenames to tar. */ tar_filenames_feeder(dir, pipe_filenames[1]); /* All done, clean up wait for tar and to finish their job. */ close(pipe_filenames[1]); subproc_reap(pid_comp, _(" from tar -cf"), 0); subproc_reap(pid_tar, "tar -cf", 0); } static time_t parse_timestamp(const char *value) { time_t timestamp; char *end; errno = 0; timestamp = strtol(value, &end, 10); if (value == end || *end || errno != 0) ohshite(_("unable to parse timestamp '%.255s'"), value); return timestamp; } /** * Overly complex function that builds a .deb file. */ int do_build(const char *const *argv) { struct compress_params control_compress_params; struct tar_pack_options tar_options; struct dpkg_error err; struct dpkg_ar *ar; time_t timestamp; const char *timestamp_str; const char *dir, *dest; char *ctrldir; char *debar; char *tfbuf; int gzfd; /* Decode our arguments. */ dir = *argv++; if (!dir) badusage(_("--%s needs a argument"), cipaction->olong); dest = *argv++; if (dest && *argv) badusage(_("--%s takes at most two arguments"), cipaction->olong); debar = gen_dest_pathname(dir, dest); ctrldir = str_fmt("%s/%s", dir, BUILDCONTROLDIR); /* Perform some sanity checks on the to-be-build package. */ if (nocheckflag) { if (debar == NULL) ohshit(_("target is directory - cannot skip control file check")); warning(_("not checking contents of control area")); info(_("building an unknown package in '%s'."), debar); } else { struct pkginfo *pkg; pkg = check_control_area(ctrldir, dir); if (debar == NULL) debar = gen_dest_pathname_from_pkg(dest, pkg); info(_("building package '%s' in '%s'."), pkg->set->name, debar); } m_output(stdout, _("")); timestamp_str = getenv("SOURCE_DATE_EPOCH"); if (timestamp_str) timestamp = parse_timestamp(timestamp_str); else timestamp = time(NULL); /* Now that we have verified everything it is time to actually * build something. Let's start by making the ar-wrapper. */ ar = dpkg_ar_create(debar, 0644); dpkg_ar_set_mtime(ar, timestamp); unsetenv("TAR_OPTIONS"); /* Create a temporary file to store the control data in. Immediately * unlink our temporary file so others can't mess with it. */ tfbuf = path_make_temp_template("dpkg-deb"); gzfd = mkstemp(tfbuf); if (gzfd == -1) ohshite(_("failed to make temporary file (%s)"), _("control member")); /* Make sure it's gone, the fd will remain until we close it. */ if (unlink(tfbuf)) ohshit(_("failed to unlink temporary file (%s), %s"), _("control member"), tfbuf); free(tfbuf); /* Select the compressor to use for our control archive. */ if (opt_uniform_compression) { control_compress_params = compress_params; } else { control_compress_params.type = COMPRESSOR_TYPE_GZIP; control_compress_params.strategy = COMPRESSOR_STRATEGY_NONE; control_compress_params.level = -1; if (!compressor_check_params(&control_compress_params, &err)) internerr("invalid control member compressor params: %s", err.str); } /* Fork a tar to package the control-section of the package. */ tar_options.mode = "u+rw,go=rX"; tar_options.timestamp = timestamp; tar_options.root_owner_group = true; tarball_pack(ctrldir, control_treewalk_feed, &tar_options, &control_compress_params, gzfd); free(ctrldir); if (lseek(gzfd, 0, SEEK_SET)) ohshite(_("failed to rewind temporary file (%s)"), _("control member")); /* We have our first file for the ar-archive. Write a header for it * to the package and insert it. */ if (deb_format.major == 0) { struct stat controlstab; char versionbuf[40]; if (fstat(gzfd, &controlstab)) ohshite(_("failed to stat temporary file (%s)"), _("control member")); sprintf(versionbuf, "%-8s\n%jd\n", OLDARCHIVEVERSION, (intmax_t)controlstab.st_size); if (fd_write(ar->fd, versionbuf, strlen(versionbuf)) < 0) ohshite(_("error writing '%s'"), debar); if (fd_fd_copy(gzfd, ar->fd, -1, &err) < 0) ohshit(_("cannot copy '%s' into archive '%s': %s"), _("control member"), ar->name, err.str); } else if (deb_format.major == 2) { const char deb_magic[] = ARCHIVEVERSION "\n"; char adminmember[16 + 1]; sprintf(adminmember, "%s%s", ADMINMEMBER, compressor_get_extension(control_compress_params.type)); dpkg_ar_put_magic(ar); dpkg_ar_member_put_mem(ar, DEBMAGIC, deb_magic, strlen(deb_magic)); dpkg_ar_member_put_file(ar, adminmember, gzfd, -1); } else { internerr("unknown deb format version %d.%d", deb_format.major, deb_format.minor); } close(gzfd); /* Control is done, now we need to archive the data. */ if (deb_format.major == 0) { /* In old format, the data member is just concatenated after the * control member, so we do not need a temporary file and can use * the compression file descriptor. */ gzfd = ar->fd; } else if (deb_format.major == 2) { /* Start by creating a new temporary file. Immediately unlink the * temporary file so others can't mess with it. */ tfbuf = path_make_temp_template("dpkg-deb"); gzfd = mkstemp(tfbuf); if (gzfd == -1) ohshite(_("failed to make temporary file (%s)"), _("data member")); /* Make sure it's gone, the fd will remain until we close it. */ if (unlink(tfbuf)) ohshit(_("failed to unlink temporary file (%s), %s"), _("data member"), tfbuf); free(tfbuf); } else { internerr("unknown deb format version %d.%d", deb_format.major, deb_format.minor); } /* Pack the directory into a tarball, feeding files from the callback. */ tar_options.mode = NULL; tar_options.timestamp = timestamp; tar_options.root_owner_group = opt_root_owner_group; tarball_pack(dir, file_treewalk_feed, &tar_options, &compress_params, gzfd); /* Okay, we have data.tar as well now, add it to the ar wrapper. */ if (deb_format.major == 2) { char datamember[16 + 1]; sprintf(datamember, "%s%s", DATAMEMBER, compressor_get_extension(compress_params.type)); if (lseek(gzfd, 0, SEEK_SET)) ohshite(_("failed to rewind temporary file (%s)"), _("data member")); dpkg_ar_member_put_file(ar, datamember, gzfd, -1); close(gzfd); } if (fsync(ar->fd)) ohshite(_("unable to sync file '%s'"), ar->name); dpkg_ar_close(ar); free(debar); return 0; }