/* * Copyright (c) 2007, 2010, Oracle and/or its affiliates. All rights reserved. */ /* * BSD 3 Clause License * * Copyright (c) 2007, The Storage Networking Industry Association. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * - 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. * * - Neither the name of The Storage Networking Industry Association (SNIA) * 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 COPYRIGHT HOLDERS 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 COPYRIGHT OWNER 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include "tlm_proto.h" #define PM_EXACT_OR_CHILD(m) ((m) == PM_EXACT || (m) == PM_CHILD) typedef boolean_t name_match_fp_t(char *s, char *t); static void set_acl(char *name, tlm_acls_t *acls); static long restore_file(int *fp, char *real_name, long size, longlong_t huge_size, tlm_acls_t *, boolean_t want_this_file, tlm_cmd_t *, tlm_job_stats_t *); static long restore_xattr_hdr(int *fp, char *name, char *fname, long size, tlm_acls_t *acls, tlm_cmd_t *local_commands, tlm_job_stats_t *job_stats); static int get_long_name(int lib, int drv, long recsize, char *name, long *buf_spot, tlm_cmd_t *local_commands); static int get_humongus_file_header(int lib, int drv, long recsize, longlong_t *size, char *name, tlm_cmd_t *); static int create_directory(char *dir, tlm_job_stats_t *); static int create_hard_link(char *name, char *link, tlm_acls_t *, tlm_job_stats_t *); static int create_sym_link(char *dst, char *target, tlm_acls_t *, tlm_job_stats_t *); static int create_special(char, char *name, tlm_acls_t *, int, int, tlm_job_stats_t *); static long load_acl_info(int lib, int drv, long size, tlm_acls_t *, long *acl_spot, tlm_cmd_t *); static char *get_read_buffer(int want, int *error, int *actual_size, tlm_cmd_t *); static boolean_t wildcard_enabled(void); static boolean_t is_file_wanted(char *name, char **sels, char **exls, int flags, int *mchtype, int *pos); static char *catnames(struct rs_name_maker *rnp, char *buf, int pos, char *path); static char *rs_new_name(struct rs_name_maker *rnp, char *real_name, int pos, char *path); static void rs_create_new_bkpath(char *bk_path, char *path, char *pbuf); typedef struct stack_ent { char *se_name; tlm_acls_t se_acls; } stack_ent_t; /* * dtree_push */ int dtree_push(cstack_t *stp, char *nmp, tlm_acls_t *acls) { int len; stack_ent_t *sp; sp = ndmp_malloc(sizeof (stack_ent_t)); if (!sp || !nmp || !acls) { free(sp); return (-1); } len = strlen(nmp) + 1; sp->se_name = ndmp_malloc(len); if (!sp->se_name) { free(sp); return (-1); } (void) strlcpy(sp->se_name, nmp, len); (void) memcpy(&sp->se_acls, acls, sizeof (*acls)); (void) memset(acls, 0, sizeof (tlm_acls_t)); return (cstack_push(stp, (void *)sp, sizeof (*sp))); } /* * dtree_pop */ int dtree_pop(cstack_t *stp) { int err; stack_ent_t *sp; err = cstack_pop(stp, (void **)&sp, (void *)NULL); if (err) return (-1); set_acl(sp->se_name, &sp->se_acls); free(sp->se_name); free(sp); return (err); } /* * dtree_peek */ char * dtree_peek(cstack_t *stp) { int err; stack_ent_t *sp; err = cstack_top(stp, (void **)&sp, (void *)NULL); if (err) return (NULL); return (sp->se_name); } /* * NBU and EBS may not send us the correct file list containing hardlinks * during a DAR restore, e.g. they appear always send the first name * associated with an inode, even if other link names were * selected for the restore. As a workaround, we use the file name entry * in sels[] (ignore the name in the tar header) as restore target. */ static char * rs_darhl_new_name(struct rs_name_maker *rnp, char *name, char **sels, int *pos, char *longname) { int x; for (x = 0; sels[x] != NULL; x++) { if (strcmp(sels[x], " ")) { *pos = x; (void) strlcpy(longname, sels[x], TLM_MAX_PATH_NAME); NDMP_LOG(LOG_DEBUG, "to replace hardlink name [%s], pos [%d]", longname, *pos); return (rs_new_name(rnp, name, *pos, longname)); } } return (NULL); } /* * Main dir restore function for tar */ int tar_getdir(tlm_commands_t *commands, tlm_cmd_t *local_commands, tlm_job_stats_t *job_stats, struct rs_name_maker *rnp, int lib, int drv, char **sels, /* what to get off the tape */ char **exls, /* what to leave behind */ int flags, int DAR, char *bk_path, struct hardlink_q *hardlink_q) { int fp = 0; /* file being restored ... */ /* ...need to preserve across volume changes */ tlm_acls_t *acls; /* file access info */ char *longname; boolean_t is_long_name = FALSE; char *longlink; char *hugename; longlong_t huge_size = 0; /* size of a HUGE file */ long acl_spot; /* any ACL info on the next volume */ long file_size; /* size of file to restore */ long size_left = 0; /* need this after volume change */ int last_action = 0; /* what we are doing at EOT */ boolean_t multi_volume = FALSE; /* is this a multi-volume switch ? */ int chk_rv; /* scratch area */ int mchtype, pos; /* * if an exact match is found for * restore and its position in the * selections list */ int nzerohdr; /* the number of empty tar headers */ boolean_t break_flg; /* exit the while loop */ int rv; long nm_end, lnk_end; char *name, *nmp; cstack_t *stp; char *bkpath; char *parentlnk; int dir_dar = 0; /* * The directory where temporary files may be created during a partial * non-DAR restore of hardlinks. It is intended to be initialized by * an environment variable that can be set by user. * * It is not initialized for now. We keep it here for future use. */ char *tmplink_dir = NULL; int dar_recovered = 0; char *thname_buf; /* * startup */ longname = ndmp_malloc(TLM_MAX_PATH_NAME); longlink = ndmp_malloc(TLM_MAX_PATH_NAME); hugename = ndmp_malloc(TLM_MAX_PATH_NAME); parentlnk = ndmp_malloc(TLM_MAX_PATH_NAME); thname_buf = ndmp_malloc(TLM_MAX_PATH_NAME); name = ndmp_malloc(TLM_MAX_PATH_NAME); acls = ndmp_malloc(sizeof (tlm_acls_t)); stp = cstack_new(); if (longname == NULL || longlink == NULL || hugename == NULL || name == NULL || acls == NULL || stp == NULL || parentlnk == NULL || thname_buf == NULL) { cstack_delete(stp); free(longname); free(longlink); free(hugename); free(parentlnk); free(name); free(acls); free(thname_buf); return (-TLM_NO_SCRATCH_SPACE); } acl_spot = 0; *hugename = '\0'; *parentlnk = '\0'; nm_end = 0; *longname = '\0'; lnk_end = 0; *longlink = '\0'; (void) memset(acls, 0, sizeof (tlm_acls_t)); if (IS_SET(flags, RSFLG_OVR_ALWAYS)) { acls->acl_overwrite = TRUE; NDMP_LOG(LOG_DEBUG, "RSFLG_OVR_ALWAYS"); } else if (IS_SET(flags, RSFLG_OVR_UPDATE)) { acls->acl_update = TRUE; NDMP_LOG(LOG_DEBUG, "RSFLG_OVR_UPDATE"); } /* * work */ rv = 0; nzerohdr = 0; break_flg = FALSE; while (commands->tcs_writer != TLM_ABORT && local_commands->tc_writer != TLM_STOP) { tlm_tar_hdr_t fake_tar_hdr; char *file_name; char *link_name; int erc; int actual_size; boolean_t want_this_file; int want = sizeof (tlm_tar_hdr_t); tlm_tar_hdr_t *tar_hdr; /* The inode of an LF_LINK type. */ unsigned long hardlink_inode = 0; /* * Indicate whether a file with the same inode has been * restored. */ int hardlink_done = 0; /* The path of the restored hardlink file */ char *hardlink_target = NULL; int is_hardlink = 0; /* * Whether a temporary file should be created for restoring * hardlink. */ int hardlink_tmp_file = 0; char *hardlink_tmp_name = ".tmphlrsnondar"; /* used to make up hardlink_tmp_name */ static int hardlink_tmp_idx = 0; if (break_flg) { NDMP_LOG(LOG_DEBUG, "Exiting writer thread drive %d", drv); break; } if (multi_volume) { NDMP_LOG(LOG_DEBUG, "multi_volume %c %d", last_action, size_left); /* * the previous volume is out of data * and is back in the rack, a new tape * is loaded and ready to read. * * We need to pick up where we left off. */ (void) memset(&fake_tar_hdr, 0, sizeof (fake_tar_hdr)); file_size = size_left; tar_hdr = &fake_tar_hdr; tar_hdr->th_linkflag = last_action; multi_volume = FALSE; last_action = 0; } else { tar_hdr = (tlm_tar_hdr_t *)get_read_buffer(want, &erc, &actual_size, local_commands); if (tar_hdr == NULL) { rv = -1; continue; } /* * we can ignore read errors here because * 1) they are logged by Restore Reader * 2) we are not doing anything important here * just looking for the next work record. */ if (actual_size < want) { /* * EOF hits here * * wait for another buffer to come along * or until the Reader thread tells us * that no more tapes will be loaded ... * time to stop. */ continue; } /* * check for "we are lost" */ chk_rv = tlm_vfy_tar_checksum(tar_hdr); if (chk_rv == 0) { /* one of the end of tar file marks */ if (++nzerohdr >= 2) { NDMP_LOG(LOG_DEBUG, "nzerohdr %d, breaking", nzerohdr); /* end of tar file */ break; } NDMP_LOG(LOG_DEBUG, "nzerohdr %d, continuing", nzerohdr); continue; } else if (chk_rv < 0) { nzerohdr = 0; /* skip this record */ continue; } nzerohdr = 0; /* * When files are spanned to the next tape, the * information of the acls must not be over-written * by the information of the LF_MULTIVOL and LF_VOLHDR * header, whose information is irrelevant to the file. * The information of the original header must be * kept in the 'acl'. */ if (tar_hdr->th_linkflag != LF_MULTIVOL && tar_hdr->th_linkflag != LF_VOLHDR) { if (tar_hdr->th_linkflag != LF_HUMONGUS) { acls->acl_attr.st_mode = oct_atoi(tar_hdr->th_mode); acls->acl_attr.st_size = oct_atoi(tar_hdr->th_size); acls->acl_attr.st_uid = oct_atoi(tar_hdr->th_uid); acls->acl_attr.st_gid = oct_atoi(tar_hdr->th_gid); acls->acl_attr.st_mtime = oct_atoi(tar_hdr->th_mtime); (void) strlcpy(acls->uname, tar_hdr->th_uname, sizeof (acls->uname)); (void) strlcpy(acls->gname, tar_hdr->th_gname, sizeof (acls->gname)); } file_size = oct_atoi(tar_hdr->th_size); acl_spot = 0; last_action = tar_hdr->th_linkflag; } } NDMP_LOG(LOG_DEBUG, "n [%s] f [%c] s %lld m %o u %d g %d t %d", tar_hdr->th_name, tar_hdr->th_linkflag, acls->acl_attr.st_size, acls->acl_attr.st_mode, acls->acl_attr.st_uid, acls->acl_attr.st_gid, acls->acl_attr.st_mtime); /* * If the restore is running using DAR we should check for * extended attribute entries */ if (dar_recovered && tar_hdr->th_linkflag != LF_XATTR) break; rs_create_new_bkpath(bk_path, tar_hdr->th_name, thname_buf); switch (tar_hdr->th_linkflag) { case LF_MULTIVOL: multi_volume = TRUE; break; case LF_LINK: is_hardlink = 1; hardlink_inode = oct_atoi(tar_hdr->th_shared.th_hlink_ino); /* * Check if we have restored a link with the same inode * If the inode is 0, we have to restore it as a * regular file. */ if (hardlink_inode) { hardlink_done = !hardlink_q_get(hardlink_q, hardlink_inode, 0, &hardlink_target); } if (hardlink_done) { NDMP_LOG(LOG_DEBUG, "found hardlink, inode = %u, target = [%s]", hardlink_inode, hardlink_target? hardlink_target : "--"); /* create a hardlink to hardlink_target */ file_name = (*longname == 0) ? thname_buf : longname; if (!is_file_wanted(file_name, sels, exls, flags, &mchtype, &pos)) { nmp = NULL; /* * This means that DMA did not send us * the correct fh_info for the file * in restore list. We use the file * name entry in sels[] (ignore the * name in the tar header) as restore * target. */ if (DAR) { nmp = rs_darhl_new_name(rnp, name, sels, &pos, file_name); } } else { nmp = rs_new_name(rnp, name, pos, file_name); if (!nmp) { NDMP_LOG(LOG_DEBUG, "can't make name for %s", longname); } } if (nmp) { if (hardlink_target) { erc = create_hard_link( hardlink_target, nmp, acls, job_stats); if (erc == 0) { (void) tlm_entry_restored( job_stats, file_name, pos); NDMP_LOG(LOG_DEBUG, "restored %s -> %s", nmp, hardlink_target); } } else { NDMP_LOG(LOG_DEBUG, "no target for hardlink %s", nmp); } name[0] = 0; is_long_name = FALSE; } nm_end = 0; longname[0] = 0; lnk_end = 0; longlink[0] = 0; break; } /* otherwise fall through, restore like a normal file */ /*FALLTHROUGH*/ case LF_OLDNORMAL: /* * check for TAR's end-of-tape method * of zero filled records. */ if (tar_hdr->th_name[0] == 0) { break; } /* * otherwise fall through, * this is an old style normal file header */ /*FALLTHROUGH*/ case LF_NORMAL: case LF_CONTIG: job_stats->js_files_so_far++; if (*hugename != 0) { (void) strlcpy(longname, hugename, TLM_MAX_PATH_NAME); } else if (*longname == 0) { if (tar_hdr->th_name[0] != '/') { /* * check for old tar format, it * does not have a leading "/" */ longname[0] = '/'; longname[1] = 0; (void) strlcat(longname, tar_hdr->th_name, TLM_MAX_PATH_NAME); } else { (void) strlcpy(longname, thname_buf, TLM_MAX_PATH_NAME); } } want_this_file = is_file_wanted(longname, sels, exls, flags, &mchtype, &pos); if (!want_this_file) { nmp = NULL; /* * This means that DMA did not send us valid * fh_info for the file in restore list. We * use the file name entry in sels[] (ignore * the name in the tar header) as restore * target. */ if (DAR && (tar_hdr->th_linkflag == LF_LINK)) { nmp = rs_darhl_new_name(rnp, name, sels, &pos, longname); if (nmp) { want_this_file = TRUE; mchtype = PM_EXACT; } else { break_flg = TRUE; break; } } } else { nmp = rs_new_name(rnp, name, pos, longname); if (!nmp) want_this_file = FALSE; } if (nmp) (void) strlcpy(parentlnk, nmp, strlen(nmp) + 1); /* * For a hardlink, even if it's not asked to be * restored, we restore it to a temporary location, * in case other links to the same file need to be * restored later. * * The temp files are created in tmplink_dir, with * names like ".tmphlrsnondar*". They are cleaned up * at the completion of a restore. However, if a * restore were interrupted, e.g. by a system reboot, * they would have to be cleaned up manually in order * for the disk space to be freed. * * If tmplink_dir is NULL, no temperorary files are * created during a restore. This may result in some * hardlinks not being restored during a partial * restore. */ if (is_hardlink && !DAR && !want_this_file && !nmp) { if (tmplink_dir) { (void) snprintf(name, TLM_MAX_PATH_NAME, "%s/%s_%d", tmplink_dir, hardlink_tmp_name, hardlink_tmp_idx); nmp = name; hardlink_tmp_idx++; hardlink_tmp_file = 1; want_this_file = TRUE; NDMP_LOG(LOG_DEBUG, "To restore temp hardlink file %s.", nmp); } else { NDMP_LOG(LOG_DEBUG, "No tmplink_dir specified."); } } size_left = restore_file(&fp, nmp, file_size, huge_size, acls, want_this_file, local_commands, job_stats); /* * In the case of non-DAR, we have to record the first * link for an inode that has multiple links. That's * the only link with data records actually backed up. * In this way, when we run into the other links, they * will be treated as links, and we won't go to look * for the data records to restore. This is not a * problem for DAR, where DMA tells the tape where * to locate the data records. */ if (is_hardlink && !DAR) { if (hardlink_q_add(hardlink_q, hardlink_inode, 0, nmp, hardlink_tmp_file)) NDMP_LOG(LOG_DEBUG, "failed to add (%u, %s) to HL q", hardlink_inode, nmp); } /* remove / reverse the temporary stuff */ if (hardlink_tmp_file) { nmp = NULL; want_this_file = FALSE; hardlink_tmp_file = 0; } /* * Check if it is time to set the attribute * of the restored directory */ while (nmp && ((bkpath = dtree_peek(stp)) != NULL)) { if (strstr(nmp, bkpath)) break; (void) dtree_pop(stp); } NDMP_LOG(LOG_DEBUG, "sizeleft %s %d, %lld", longname, size_left, huge_size); if (size_left == -TLM_STOP) { break_flg = TRUE; rv = -1; commands->tcs_reader = TLM_ABORT; NDMP_LOG(LOG_DEBUG, "restoring [%s] failed", longname); break; } if (want_this_file) { job_stats->js_bytes_total += file_size; job_stats->js_files_total++; } huge_size -= file_size; if (huge_size < 0) { huge_size = 0; } if (size_left == 0 && huge_size == 0) { if (PM_EXACT_OR_CHILD(mchtype)) { (void) tlm_entry_restored(job_stats, longname, pos); /* * Add an entry to hardlink_q to record * this hardlink. */ if (is_hardlink) { NDMP_LOG(LOG_DEBUG, "Restored hardlink file %s", nmp); if (DAR) { (void) hardlink_q_add( hardlink_q, hardlink_inode, 0, nmp, 0); } } } nm_end = 0; longname[0] = 0; lnk_end = 0; longlink[0] = 0; hugename[0] = 0; name[0] = 0; is_long_name = FALSE; } break; case LF_XATTR: file_name = (*longname == 0) ? thname_buf : longname; size_left = restore_xattr_hdr(&fp, parentlnk, file_name, file_size, acls, local_commands, job_stats); break; case LF_SYMLINK: file_name = (*longname == 0) ? thname_buf : longname; link_name = (*longlink == 0) ? tar_hdr->th_linkname : longlink; NDMP_LOG(LOG_DEBUG, "file_name[%s]", file_name); NDMP_LOG(LOG_DEBUG, "link_name[%s]", link_name); if (is_file_wanted(file_name, sels, exls, flags, &mchtype, &pos)) { nmp = rs_new_name(rnp, name, pos, file_name); if (nmp) { erc = create_sym_link(nmp, link_name, acls, job_stats); if (erc == 0 && PM_EXACT_OR_CHILD(mchtype)) (void) tlm_entry_restored( job_stats, file_name, pos); name[0] = 0; } } nm_end = 0; longname[0] = 0; lnk_end = 0; longlink[0] = 0; break; case LF_DIR: file_name = *longname == 0 ? thname_buf : longname; if (is_file_wanted(file_name, sels, exls, flags, &mchtype, &pos)) { dir_dar = DAR; nmp = rs_new_name(rnp, name, pos, file_name); if (nmp && mchtype != PM_PARENT) { (void) strlcpy(parentlnk, nmp, strlen(nmp)); erc = create_directory(nmp, job_stats); if (erc == 0 && PM_EXACT_OR_CHILD(mchtype)) (void) tlm_entry_restored( job_stats, file_name, pos); /* * Check if it is time to set * the attribute of the restored * directory */ while ((bkpath = dtree_peek(stp)) != NULL) { if (strstr(nmp, bkpath)) break; (void) dtree_pop(stp); } (void) dtree_push(stp, nmp, acls); name[0] = 0; } } else { dir_dar = 0; } nm_end = 0; longname[0] = 0; lnk_end = 0; longlink[0] = 0; break; case LF_FIFO: case LF_BLK: case LF_CHR: file_name = *longname == 0 ? thname_buf : longname; if (is_file_wanted(file_name, sels, exls, flags, &mchtype, &pos)) { nmp = rs_new_name(rnp, name, pos, file_name); if (nmp) { erc = create_special( tar_hdr->th_linkflag, nmp, acls, oct_atoi(tar_hdr->th_shared. th_dev.th_devmajor), oct_atoi(tar_hdr->th_shared. th_dev.th_devminor), job_stats); if (erc == 0 && PM_EXACT_OR_CHILD(mchtype)) (void) tlm_entry_restored( job_stats, file_name, pos); name[0] = 0; } } nm_end = 0; longname[0] = 0; lnk_end = 0; longlink[0] = 0; break; case LF_LONGLINK: file_size = min(file_size, TLM_MAX_PATH_NAME - lnk_end - 1); file_size = max(0, file_size); size_left = get_long_name(lib, drv, file_size, longlink, &lnk_end, local_commands); if (size_left != 0) NDMP_LOG(LOG_DEBUG, "fsize %d sleft %d lnkend %d", file_size, size_left, lnk_end); break; case LF_LONGNAME: file_size = min(file_size, TLM_MAX_PATH_NAME - nm_end - 1); file_size = max(0, file_size); size_left = get_long_name(lib, drv, file_size, longname, &nm_end, local_commands); if (size_left != 0) NDMP_LOG(LOG_DEBUG, "fsize %d sleft %d nmend %d", file_size, size_left, nm_end); is_long_name = TRUE; break; case LF_ACL: size_left = load_acl_info(lib, drv, file_size, acls, &acl_spot, local_commands); break; case LF_VOLHDR: break; case LF_HUMONGUS: (void) memset(hugename, 0, TLM_MAX_PATH_NAME); (void) get_humongus_file_header(lib, drv, file_size, &huge_size, hugename, local_commands); break; default: break; } /* * If the restore is running using DAR we should check for * long file names and HUGE file sizes. */ if (DAR && tar_hdr->th_linkflag != LF_ACL && tar_hdr->th_linkflag != LF_XATTR && !huge_size && !is_long_name && !dir_dar) dar_recovered = 1; } /* * tear down */ if (fp != 0) { (void) close(fp); } while (dtree_pop(stp) != -1) ; cstack_delete(stp); free(acls); free(longname); free(parentlnk); free(longlink); free(hugename); free(name); free(thname_buf); return (rv); } /* * Main file restore function for tar (should run as a thread) */ int tar_getfile(tlm_backup_restore_arg_t *argp) { tlm_job_stats_t *job_stats; char **sels; /* list of files desired */ char **exls; /* list of files not wanted */ char *dir; /* where to restore the files */ char job[TLM_MAX_BACKUP_JOB_NAME+1]; /* the restore job name */ int erc; /* error return codes */ int flags; struct rs_name_maker rn; tlm_commands_t *commands; tlm_cmd_t *local_commands; char *list = NULL; commands = argp->ba_commands; local_commands = argp->ba_cmd; flags = 0; dir = ndmp_malloc(TLM_MAX_PATH_NAME); if (dir == NULL) { local_commands->tc_reader = TLM_STOP; (void) pthread_barrier_wait(&argp->ba_barrier); return (-1); } (void) strlcpy(job, argp->ba_job, TLM_MAX_BACKUP_JOB_NAME+1); (void) strlcpy(dir, argp->ba_dir, TLM_MAX_PATH_NAME); flags |= RSFLG_OVR_ALWAYS; flags |= RSFLG_IGNORE_CASE; /* * do not test for "dir" having no string, since that * is a legal condition. Restore to origional location * will not have a restore directory. */ if (*job == '\0') { NDMP_LOG(LOG_DEBUG, "No job defined"); local_commands->tc_reader = TLM_STOP; free(dir); (void) pthread_barrier_wait(&argp->ba_barrier); return (-1); } sels = argp->ba_sels; if (sels == NULL) { local_commands->tc_reader = TLM_STOP; free(dir); (void) pthread_barrier_wait(&argp->ba_barrier); return (-1); } exls = &list; tlm_log_list("selections", sels); tlm_log_list("exclusions", exls); if (wildcard_enabled()) flags |= RSFLG_MATCH_WCARD; local_commands->tc_ref++; commands->tcs_writer_count++; /* * let the launcher continue */ (void) pthread_barrier_wait(&argp->ba_barrier); job_stats = tlm_ref_job_stats(job); rn.rn_fp = catnames; rn.rn_nlp = dir; /* * work */ NDMP_LOG(LOG_DEBUG, "start restore job %s", job); erc = tar_getdir(commands, local_commands, job_stats, &rn, 1, 1, sels, exls, flags, 0, NULL, NULL); /* * teardown */ NDMP_LOG(LOG_DEBUG, "end restore job %s", job); tlm_un_ref_job_stats(job); tlm_release_list(sels); tlm_release_list(exls); commands->tcs_writer_count--; local_commands->tc_reader = TLM_STOP; tlm_release_reader_writer_ipc(local_commands); free(dir); return (erc); } /* * Creates the directories all the way down to the * end if they dont exist */ int make_dirs(char *dir) { char c; char *cp, *end; struct stat64 st; cp = dir; cp += strspn(cp, "/"); end = dir + strlen(dir); do { if (*cp == '\0' || *cp == '/') { c = *cp; *cp = '\0'; if (lstat64(dir, &st) < 0) if (mkdir(dir, 0777) < 0) { NDMP_LOG(LOG_DEBUG, "Error %d" " creating directory %s", errno, dir); *cp = c; return (-1); } *cp = c; } } while (++cp <= end); return (0); } /* * Creates the directories leading to the given path */ int mkbasedir(char *path) { int rv; char *cp; struct stat64 st; if (!path || !*path) { NDMP_LOG(LOG_DEBUG, "Invalid argument"); return (-1); } cp = strrchr(path, '/'); if (cp) *cp = '\0'; rv = lstat64(path, &st); if (rv < 0) /* need new directories */ rv = make_dirs(path); if (cp) *cp = '/'; return (rv); } /* * read the file off the tape back onto disk */ static long restore_file(int *fp, char *real_name, long size, longlong_t huge_size, tlm_acls_t *acls, boolean_t want_this_file, tlm_cmd_t *local_commands, tlm_job_stats_t *job_stats) { struct stat64 attr; if (!real_name) { if (want_this_file) { NDMP_LOG(LOG_DEBUG, "No file name but wanted!"); want_this_file = FALSE; } } else NDMP_LOG(LOG_DEBUG, "new file[%s]", real_name); /* * OK, some FM is creeping in here ... * int *fp is used to keep the * backup file channel open through * the interruption of EOT and * processing the headers of the * next tape. So, if *fp is zero * then no file is open yet and all * is normal. If *fp has a number * then we are returning after an * EOT break. * * *fp is now also open for HUGE files * that are put back in sections. */ if (*fp == 0 && want_this_file) { int erc_stat; if (mkbasedir(real_name) < 0) job_stats->js_errors++; erc_stat = stat64(real_name, (struct stat64 *)&attr); if (erc_stat < 0) { /*EMPTY*/ /* new file */ } else if (acls->acl_overwrite) { /*EMPTY*/ /* take this file no matter what */ } else if (acls->acl_update) { if (attr.st_mtime < acls->acl_attr.st_mtime) { /*EMPTY*/ /* tape is newer */ } else { /* disk file is newer */ want_this_file = FALSE; } } else { /* * no overwrite, no update, * do not ever replace old files. */ want_this_file = TRUE; } if (want_this_file) { *fp = open(real_name, O_CREAT | O_TRUNC | O_WRONLY, S_IRUSR | S_IWUSR); if (*fp == -1) { NDMP_LOG(LOG_ERR, "Could not open %s for restore.", real_name); NDMP_LOG(LOG_DEBUG, "fp=%d err=%d ", *fp, errno); job_stats->js_errors++; want_this_file = FALSE; /* * we cannot return here, * the file is still on * the tape and must be * skipped over. */ } } (void) strlcpy(local_commands->tc_file_name, real_name, TLM_MAX_PATH_NAME); } /* * this is the size left in the next segment */ huge_size -= size; /* * work */ while (size > 0 && local_commands->tc_writer == TLM_RESTORE_RUN) { int actual_size; int error; char *rec; int write_size; /* * Use bytes_in_file field to tell reader the amount * of data still need to be read for this file. */ job_stats->js_bytes_in_file = size; error = 0; rec = get_read_buffer(size, &error, &actual_size, local_commands); if (actual_size <= 0) { NDMP_LOG(LOG_DEBUG, "RESTORE WRITER> error %d, actual_size %d", error, actual_size); /* no more data for this file for now */ job_stats->js_bytes_in_file = 0; return (size); } else if (error) { NDMP_LOG(LOG_DEBUG, "Error %d in file [%s]", error, local_commands->tc_file_name); break; } else { write_size = min(size, actual_size); if (want_this_file) { write_size = write(*fp, rec, write_size); NS_ADD(wdisk, write_size); NS_INC(wfile); } size -= write_size; } } /* no more data for this file for now */ job_stats->js_bytes_in_file = 0; /* * teardown */ if (*fp != 0 && huge_size <= 0) { (void) close(*fp); *fp = 0; set_acl(real_name, acls); } return (0); } /* * Set the extended attributes file attribute */ static void set_xattr(int fd, struct stat64 st) { struct timeval times[2]; times[0].tv_sec = st.st_atime; times[1].tv_sec = st.st_mtime; (void) fchmod(fd, st.st_mode); (void) fchown(fd, st.st_uid, st.st_gid); (void) futimesat(fd, ".", times); } /* * Read the system attribute file in a single buffer to write * it as a single write. A partial write to system attribute would * cause an EINVAL on write. */ static char * get_read_one_buf(char *rec, int actual_size, int size, int *error, tlm_cmd_t *lc) { char *buf, *p; int read_size; int len; if (actual_size > size) return (rec); buf = ndmp_malloc(size); if (buf == NULL) { *error = ENOMEM; return (NULL); } (void) memcpy(buf, rec, actual_size); rec = buf; buf += actual_size; while (actual_size < size) { p = get_read_buffer(size - actual_size, error, &read_size, lc); len = min(size - actual_size, read_size); (void) memcpy(buf, p, len); actual_size += len; buf += len; } return (rec); } /* * read the extended attribute header and write * it to the file */ static long restore_xattr_hdr(int *fp, char *name, char *fname, long size, tlm_acls_t *acls, tlm_cmd_t *local_commands, tlm_job_stats_t *job_stats) { tlm_tar_hdr_t *tar_hdr; struct xattr_hdr *xhdr; struct xattr_buf *xbuf; int namelen; char *xattrname; int actual_size; int error; if (!fname) { NDMP_LOG(LOG_DEBUG, "No file name but wanted!"); } else { NDMP_LOG(LOG_DEBUG, "new xattr[%s]", fname); } error = 0; xhdr = (struct xattr_hdr *)get_read_buffer(size, &error, &actual_size, local_commands); if (xhdr == NULL || error != 0) { NDMP_LOG(LOG_DEBUG, "Could not read xattr [%s:%s] for restore. ", name, fname); job_stats->js_errors++; return (0); } /* Check extended attribute header */ if (strcmp(xhdr->h_version, XATTR_ARCH_VERS) != 0) { NDMP_LOG(LOG_DEBUG, "Unrecognized header format [%s]", xhdr->h_version); return (0); } xbuf = (struct xattr_buf *)(((char *)xhdr) + sizeof (struct xattr_hdr)); (void) sscanf(xbuf->h_namesz, "%7d", &namelen); xattrname = xbuf->h_names + strlen(xbuf->h_names) + 1; if (*fp == 0) { int fd; fd = attropen(name, xattrname, O_CREAT | O_RDWR, 0755); if (fd == -1) { NDMP_LOG(LOG_DEBUG, "Could not open xattr [%s:%s] for restore err=%d.", name, xattrname, errno); job_stats->js_errors++; return (0); } (void) strlcpy(local_commands->tc_file_name, xattrname, TLM_MAX_PATH_NAME); *fp = fd; } /* Get the actual extended attribute file */ tar_hdr = (tlm_tar_hdr_t *)get_read_buffer(sizeof (*tar_hdr), &error, &actual_size, local_commands); if (tar_hdr == NULL || error != 0) { NDMP_LOG(LOG_DEBUG, "Could not read xattr data [%s:%s] for restore. ", fname, xattrname); job_stats->js_errors++; return (0); } acls->acl_attr.st_mode = oct_atoi(tar_hdr->th_mode); acls->acl_attr.st_size = oct_atoi(tar_hdr->th_size); acls->acl_attr.st_uid = oct_atoi(tar_hdr->th_uid); acls->acl_attr.st_gid = oct_atoi(tar_hdr->th_gid); acls->acl_attr.st_mtime = oct_atoi(tar_hdr->th_mtime); NDMP_LOG(LOG_DEBUG, "xattr_hdr: %s size %d mode %06o uid %d gid %d", xattrname, acls->acl_attr.st_size, acls->acl_attr.st_mode, acls->acl_attr.st_uid, acls->acl_attr.st_gid); size = acls->acl_attr.st_size; while (size > 0 && local_commands->tc_writer == TLM_RESTORE_RUN) { char *rec; int write_size; int sysattr_write = 0; error = 0; rec = get_read_buffer(size, &error, &actual_size, local_commands); if ((actual_size < size) && sysattr_rw(xattrname)) { rec = get_read_one_buf(rec, actual_size, size, &error, local_commands); if (rec == NULL) { NDMP_LOG(LOG_DEBUG, "Error %d in file [%s]", error, xattrname); return (size); } actual_size = size; sysattr_write = 1; } if (actual_size <= 0) { NDMP_LOG(LOG_DEBUG, "RESTORE WRITER> error %d, actual_size %d", error, actual_size); return (size); } else if (error) { NDMP_LOG(LOG_DEBUG, "Error %d in file [%s]", error, local_commands->tc_file_name); break; } else { write_size = min(size, actual_size); if ((write_size = write(*fp, rec, write_size)) < 0) { if (sysattr_write) free(rec); break; } NS_ADD(wdisk, write_size); NS_INC(wfile); size -= write_size; } if (sysattr_write) free(rec); } if (*fp != 0) { set_xattr(*fp, acls->acl_attr); (void) close(*fp); *fp = 0; } return (0); } /* * Match the name with the list */ static int exact_find(char *name, char **list) { boolean_t found; int i; char *cp; found = FALSE; for (i = 0; *list != NULL; list++, i++) { cp = *list + strspn(*list, "/"); if (match(cp, name)) { found = TRUE; NDMP_LOG(LOG_DEBUG, "exact_find> found[%s]", cp); break; } } return (found); } /* * On error, return FALSE and prevent restoring(probably) unwanted data. */ static int is_parent(char *parent, char *child, int flags) { char tmp[TLM_MAX_PATH_NAME]; boolean_t rv; if (IS_SET(flags, RSFLG_MATCH_WCARD)) { if (!tlm_cat_path(tmp, parent, "*")) { NDMP_LOG(LOG_DEBUG, "is_parent> path too long [%s]", parent); rv = FALSE; } else rv = (match(tmp, child) != 0) ? TRUE : FALSE; } else { if (!tlm_cat_path(tmp, parent, "/")) { NDMP_LOG(LOG_DEBUG, "is_parent> path too long [%s]", parent); rv = FALSE; } else rv = (strncmp(tmp, child, strlen(tmp)) == 0) ? TRUE : FALSE; } return (rv); } /* * Used to match the filename inside the list */ static boolean_t strexactcmp(char *s, char *t) { return ((strcmp(s, t) == 0) ? TRUE : FALSE); } /* * Check if the file is needed to be restored */ static boolean_t is_file_wanted(char *name, char **sels, char **exls, int flags, int *mchtype, int *pos) { char *p_sel; char *uc_name, *retry, *namep; boolean_t found; int i; name_match_fp_t *cmp_fp; if (name == NULL || sels == NULL || exls == NULL) return (FALSE); found = FALSE; if (mchtype != NULL) *mchtype = PM_NONE; if (pos != NULL) *pos = 0; /* * For empty selection, restore everything */ if (*sels == NULL || **sels == '\0') { NDMP_LOG(LOG_DEBUG, "is_file_wanted: Restore all"); return (TRUE); } retry = ndmp_malloc(TLM_MAX_PATH_NAME); if (retry == NULL) return (FALSE); if (IS_SET(flags, RSFLG_MATCH_WCARD)) cmp_fp = match; else cmp_fp = strexactcmp; namep = name + strspn(name, "/"); if (IS_SET(flags, RSFLG_IGNORE_CASE)) { uc_name = ndmp_malloc(TLM_MAX_PATH_NAME); if (uc_name == NULL) { free(retry); return (FALSE); } (void) strlcpy(uc_name, namep, TLM_MAX_PATH_NAME); (void) strupr(uc_name); namep = uc_name; } NDMP_LOG(LOG_DEBUG, "is_file_wanted> flg: 0x%x name: [%s]", flags, name); for (i = 0; *sels != NULL; sels++, i++) { p_sel = *sels + strspn(*sels, "/"); /* * Try exact match. */ if ((*cmp_fp)(p_sel, namep)) { NDMP_LOG(LOG_DEBUG, "match1> pos: %d [%s][%s]", i, p_sel, name); found = TRUE; if (mchtype != NULL) *mchtype = PM_EXACT; break; } /* * Try "entry/" and the current selection. The * current selection may be something like "/". */ (void) tlm_cat_path(retry, namep, "/"); if ((*cmp_fp)(p_sel, retry)) { NDMP_LOG(LOG_DEBUG, "match2> pos %d [%s][%s]", i, p_sel, name); found = TRUE; if (mchtype != NULL) *mchtype = PM_EXACT; break; } /* * If the following check returns true it means that the * 'name' is an entry below the 'p_sel' hierarchy. */ if (is_parent(p_sel, namep, flags)) { NDMP_LOG(LOG_DEBUG, "parent1> pos %d [%s][%s]", i, p_sel, name); found = TRUE; if (mchtype != NULL) *mchtype = PM_CHILD; break; } /* * There is a special case for parent directories of a * selection. If 'p_sel' is something like "*d1", the * middle directories of the final entry can't be determined * until the final entry matches with 'p_sel'. At that * time the middle directories of the entry have been passed * and they can't be restored. */ if (is_parent(namep, p_sel, flags)) { NDMP_LOG(LOG_DEBUG, "parent2> pos %d [%s][%s]", i, p_sel, name); found = TRUE; if (mchtype != NULL) *mchtype = PM_PARENT; break; } } /* Check for exclusions. */ if (found && exact_find(namep, exls)) { if (mchtype != NULL) *mchtype = PM_NONE; found = FALSE; } if (found && pos != NULL) *pos = i; if (IS_SET(flags, RSFLG_IGNORE_CASE)) free(uc_name); free(retry); return (found); } /* * Read the specified amount data into the buffer. Detects EOT or EOF * during read. * * Returns the number of bytes actually read. On error returns -1. */ static int input_mem(int l, int d, tlm_cmd_t *lcmds, char *mem, int len) { int err; int toread, actual_size, rec_size; char *rec; if (l <= 0 || d <= 0 || !lcmds || !mem) { NDMP_LOG(LOG_DEBUG, "Invalid argument"); return (-1); } toread = len; while (toread > 0) { rec = get_read_buffer(toread, &err, &actual_size, lcmds); if (actual_size <= 0) { NDMP_LOG(LOG_DEBUG, "err %d act_size %d detected", err, actual_size); break; } else if (err) { NDMP_LOG(LOG_DEBUG, "error %d reading data", err); return (-1); } rec_size = min(actual_size, toread); (void) memcpy(mem, rec, rec_size); mem += rec_size; toread -= rec_size; } return (len - toread); } /* * pick up the name and size of a HUGE file */ static int get_humongus_file_header(int lib, int drv, long recsize, longlong_t *size, char *name, tlm_cmd_t *local_commands) { char *p_record, *value; int rv; NDMP_LOG(LOG_DEBUG, "HUGE Record found: %d", recsize); rv = 0; if (recsize == 0) { /* * The humongus_file_header was written in a * RECORDSIZE block and the header.size field of this * record was 0 before this fix. For backward compatiblity * read only one RECORDSIZE-size block if the header.size * field is 0. Otherwise the header.size field should show * the length of the data of this header. */ NDMP_LOG(LOG_DEBUG, "Old HUGE record found"); recsize = RECORDSIZE; } if (input_mem(lib, drv, local_commands, name, recsize) != recsize) { rv = -1; *size = 0; *name = '\0'; NDMP_LOG(LOG_DEBUG, "Error reading a HUGE file name"); } else { NDMP_LOG(LOG_DEBUG, "HUGE [%s]", name); p_record = name; value = parse(&p_record, " "); *size = atoll(value); /* * Note: Since the backed up names are not longer than * NAME_MAX and the buffer passed to us is * TLM_MAX_PATH_NAME, it should be safe to use strlcpy * without check on the buffer size. */ (void) strlcpy(name, p_record, TLM_MAX_PATH_NAME); } NDMP_LOG(LOG_DEBUG, "HUGE Record %lld [%s]", *size, name); return (rv); } /* * pick up the long name from the special tape file */ static int get_long_name(int lib, int drv, long recsize, char *name, long *buf_spot, tlm_cmd_t *local_commands) { int nread; NDMP_LOG(LOG_DEBUG, "LONGNAME Record found rs %d bs %d", recsize, *buf_spot); if (*buf_spot < 0) *buf_spot = 0; nread = input_mem(lib, drv, local_commands, name + *buf_spot, recsize); if (nread < 0) { nread = recsize; /* return 0 as size left */ name[*buf_spot] = '\0'; NDMP_LOG(LOG_ERR, "Error %d reading a long file name %s.", nread, name); } else { *buf_spot += nread; name[*buf_spot] = '\0'; NDMP_LOG(LOG_DEBUG, "LONGNAME [%s]", name); } return (recsize - nread); } /* * create a new directory */ static int create_directory(char *dir, tlm_job_stats_t *job_stats) { struct stat64 attr; char *p; char temp; int erc; /* * Make sure all directories in this path exist, create them if * needed. */ NDMP_LOG(LOG_DEBUG, "new dir[%s]", dir); erc = 0; p = &dir[1]; do { temp = *p; if (temp == '/' || temp == 0) { *p = 0; if (stat64(dir, &attr) < 0) { erc = mkdir(dir, 0777); if (erc < 0) { job_stats->js_errors++; NDMP_LOG(LOG_DEBUG, "Could not create directory %s", dir); break; } } *p = temp; } p++; } while (temp != 0); return (erc); } /* * create a new hardlink */ static int create_hard_link(char *name_old, char *name_new, tlm_acls_t *acls, tlm_job_stats_t *job_stats) { int erc; if (mkbasedir(name_new)) { NDMP_LOG(LOG_DEBUG, "faile to make base dir for [%s]", name_new); return (-1); } erc = link(name_old, name_new); /* Nothing to do if the destination already exists */ if (erc && (errno == EEXIST)) return (0); if (erc) { job_stats->js_errors++; NDMP_LOG(LOG_DEBUG, "error %d (errno %d) hardlink [%s] to [%s]", erc, errno, name_new, name_old); } else { set_acl(name_new, acls); } return (erc); } /* * create a new symlink */ /*ARGSUSED*/ static int create_sym_link(char *dst, char *target, tlm_acls_t *acls, tlm_job_stats_t *job_stats) { int erc; struct stat64 *st; if (mkbasedir(dst) < 0) return (-1); st = &acls->acl_attr; erc = symlink(target, dst); if (erc) { job_stats->js_errors++; NDMP_LOG(LOG_DEBUG, "error %d (errno %d) softlink [%s] to [%s]", erc, errno, dst, target); } else { st->st_mode |= S_IFLNK; set_acl(dst, acls); } return (erc); } /* * create a new FIFO, char/block device special files */ static int create_special(char flag, char *name, tlm_acls_t *acls, int major, int minor, tlm_job_stats_t *job_stats) { dev_t dev; mode_t mode; int erc; switch (flag) { case LF_CHR: mode = S_IFCHR; dev = makedev(major, minor); break; case LF_BLK: mode = S_IFBLK; dev = makedev(major, minor); break; case LF_FIFO: mode = S_IFIFO; dev = 0; break; default: NDMP_LOG(LOG_ERR, "unsupported flag %d", flag); return (-1); } /* Remove the old entry first */ if (rmdir(name) < 0) { if (errno == ENOTDIR) (void) unlink(name); } erc = mknod(name, 0777 | mode, dev); if (erc) { job_stats->js_errors++; NDMP_LOG(LOG_DEBUG, "error %d (errno %d) mknod [%s] major" " %d minor %d", erc, errno, name, major, minor); } else { set_acl(name, acls); } return (erc); } /* * read in the ACLs for the next file */ static long load_acl_info(int lib, int drv, long file_size, tlm_acls_t *acls, long *acl_spot, tlm_cmd_t *local_commands) { char *bp; int nread; /* * If the ACL is spanned on tapes, then the acl_spot should NOT be * 0 on next calls to this function to read the rest of the ACL * on next tapes. */ if (*acl_spot == 0) { (void) memset(acls, 0, sizeof (tlm_acls_t)); } bp = ((char *)&acls->acl_info) + *acl_spot; nread = input_mem(lib, drv, local_commands, (void *)bp, file_size); if (nread < 0) { *acl_spot = 0; (void) memset(acls, 0, sizeof (tlm_acls_t)); NDMP_LOG(LOG_DEBUG, "Error reading ACL data"); return (0); } *acl_spot += nread; acls->acl_non_trivial = TRUE; return (file_size - nread); } static int ndmp_set_eprivs_least(void) { priv_set_t *priv_set; if ((priv_set = priv_allocset()) == NULL) { NDMP_LOG(LOG_ERR, "Out of memory."); return (-1); } priv_basicset(priv_set); (void) priv_addset(priv_set, PRIV_PROC_AUDIT); (void) priv_addset(priv_set, PRIV_PROC_SETID); (void) priv_addset(priv_set, PRIV_PROC_OWNER); (void) priv_addset(priv_set, PRIV_FILE_CHOWN); (void) priv_addset(priv_set, PRIV_FILE_CHOWN_SELF); (void) priv_addset(priv_set, PRIV_FILE_DAC_READ); (void) priv_addset(priv_set, PRIV_FILE_DAC_SEARCH); (void) priv_addset(priv_set, PRIV_FILE_DAC_WRITE); (void) priv_addset(priv_set, PRIV_FILE_OWNER); (void) priv_addset(priv_set, PRIV_FILE_SETID); (void) priv_addset(priv_set, PRIV_SYS_LINKDIR); (void) priv_addset(priv_set, PRIV_SYS_DEVICES); (void) priv_addset(priv_set, PRIV_SYS_MOUNT); (void) priv_addset(priv_set, PRIV_SYS_CONFIG); if (setppriv(PRIV_SET, PRIV_EFFECTIVE, priv_set) == -1) { NDMP_LOG(LOG_ERR, "Additional privileges required."); priv_freeset(priv_set); return (-1); } priv_freeset(priv_set); return (0); } static int ndmp_set_eprivs_all(void) { priv_set_t *priv_set; if ((priv_set = priv_allocset()) == NULL) { NDMP_LOG(LOG_ERR, "Out of memory."); return (-1); } priv_fillset(priv_set); if (setppriv(PRIV_SET, PRIV_EFFECTIVE, priv_set) != 0) { NDMP_LOG(LOG_ERR, "Additional privileges required."); return (-1); } priv_freeset(priv_set); return (0); } /* * Set the standard attributes of the file */ static void set_attr(char *name, tlm_acls_t *acls) { struct utimbuf tbuf; boolean_t priv_all = FALSE; struct stat64 *st; uid_t uid; gid_t gid; struct passwd *pwd; struct group *grp; if (!name || !acls) return; st = &acls->acl_attr; NDMP_LOG(LOG_DEBUG, "set_attr: %s uid %d gid %d uname %s gname %s " "mode %o", name, st->st_uid, st->st_gid, acls->uname, acls->gname, st->st_mode); uid = st->st_uid; if ((pwd = getpwnam(acls->uname)) != NULL) { NDMP_LOG(LOG_DEBUG, "set_attr: new uid %d old %d", pwd->pw_uid, uid); uid = pwd->pw_uid; } gid = st->st_gid; if ((grp = getgrnam(acls->gname)) != NULL) { NDMP_LOG(LOG_DEBUG, "set_attr: new gid %d old %d", grp->gr_gid, gid); gid = grp->gr_gid; } if (lchown(name, uid, gid)) NDMP_LOG(LOG_ERR, "Could not set uid or/and gid for file %s.", name); if ((st->st_mode & (S_ISUID | S_ISGID)) != 0) { /* * Change effective privileges to 'all' which is required to * change setuid bit for 'root' owned files. If fails, just * send error to log file and proceed. */ if (ndmp_set_eprivs_all()) { NDMP_LOG(LOG_ERR, "Could not set effective privileges to 'all'."); } else { priv_all = TRUE; } } if (!S_ISLNK(st->st_mode)) { if (chmod(name, st->st_mode)) NDMP_LOG(LOG_ERR, "Could not set correct file" " permission for file %s.", name); tbuf.modtime = st->st_mtime; tbuf.actime = st->st_atime; (void) utime(name, &tbuf); } if (priv_all == TRUE) { /* * Give up the 'all' privileges for effective sets and go back * to least required privileges. If fails, just send error to * log file and proceed. */ if (ndmp_set_eprivs_least()) NDMP_LOG(LOG_ERR, "Could not set least required privileges."); } } /* * Set the ACL info for the file */ static void set_acl(char *name, tlm_acls_t *acls) { int erc; acl_t *aclp = NULL; if (name) NDMP_LOG(LOG_DEBUG, "set_acl: %s", name); if (acls != 0) { /* Need a place to save real modification time */ set_attr(name, acls); if (!acls->acl_non_trivial) { (void) memset(acls, 0, sizeof (tlm_acls_t)); NDMP_LOG(LOG_DEBUG, "set_acl: skipping trivial"); return; } erc = acl_fromtext(acls->acl_info.attr_info, &aclp); if (erc != 0) { NDMP_LOG(LOG_DEBUG, "TAPE RESTORE> acl_fromtext errno %d", erc); } if (aclp) { erc = acl_set(name, aclp); if (erc < 0) { NDMP_LOG(LOG_DEBUG, "TAPE RESTORE> acl_set errno %d", errno); } acl_free(aclp); } (void) memset(acls, 0, sizeof (tlm_acls_t)); } } /* * a wrapper to tlm_get_read_buffer so that * we can cleanly detect ABORT commands * without involving the TLM library with * our problems. */ static char * get_read_buffer(int want, int *error, int *actual_size, tlm_cmd_t *local_commands) { while (local_commands->tc_writer == TLM_RESTORE_RUN) { char *rec; rec = tlm_get_read_buffer(want, error, local_commands->tc_buffers, actual_size); if (rec != 0) { return (rec); } } /* * the job is ending, give Writer a buffer that will never be read ... * it does not matter anyhow, we are aborting. */ *actual_size = RECORDSIZE; return (NULL); } /* * Enable wildcard for restore options */ static boolean_t wildcard_enabled(void) { char *cp; cp = ndmpd_get_prop_default(NDMP_RESTORE_WILDCARD_ENABLE, "n"); return ((toupper(*cp) == 'Y') ? TRUE : FALSE); } /* * Concatenate two names */ /*ARGSUSED*/ static char * catnames(struct rs_name_maker *rnp, char *buf, int pos, char *path) { char *rv; rv = NULL; if (!buf) { NDMP_LOG(LOG_DEBUG, "buf is NULL"); } else if (!path) { NDMP_LOG(LOG_DEBUG, "path is NULL"); } else if (!rnp->rn_nlp) { NDMP_LOG(LOG_DEBUG, "rn_nlp is NULL [%s]", path); } else if (!tlm_cat_path(buf, rnp->rn_nlp, path)) { NDMP_LOG(LOG_DEBUG, "Path too long [%s][%s]", rnp->rn_nlp, path); } else rv = buf; return (rv); } /* * Create a new name path for restore */ static char * rs_new_name(struct rs_name_maker *rnp, char *buf, int pos, char *path) { if (!rnp || !rnp->rn_fp) return (NULL); return (*rnp->rn_fp)(rnp, buf, pos, path); } /* * Clear the extra "/" in the tar header if exists */ static void rs_create_new_bkpath(char *bk_path, char *path, char *pbuf) { char *p, *slashp; if ((p = strstr(path, bk_path)) == NULL) { (void) strlcpy(pbuf, path, TLM_MAX_PATH_NAME); return; } if (*(p += strlen(bk_path)) == '/') p++; slashp = bk_path + strlen(bk_path) - 1; if (*slashp == '/') (void) snprintf(pbuf, TLM_MAX_PATH_NAME, "%s%s", bk_path, p); else (void) snprintf(pbuf, TLM_MAX_PATH_NAME, "%s/%s", bk_path, p); NDMP_LOG(LOG_DEBUG, "old path [%s] new path [%s]", path, pbuf); } /* * Iterate over ZFS metadata stored in the backup stream and use the callback * to restore it. */ int ndmp_iter_zfs(ndmp_context_t *nctx, int (*np_restore_property)(nvlist_t *, void *), void *ptr) { tlm_commands_t *cmds; ndmp_metadata_header_t *mhp; ndmp_metadata_header_ext_t *mhpx; ndmp_metadata_property_t *mpp; ndmp_metadata_property_ext_t *mppx; tlm_cmd_t *lcmd; int actual_size; nvlist_t *nvl; nvlist_t *valp; nvpair_t *nvp = NULL; char plname[100]; char *mhbuf, *pp, *tp; int rv, i; int size, lsize, sz; int align = RECORDSIZE - 1; if (nctx == NULL || (cmds = (tlm_commands_t *)nctx->nc_cmds) == NULL) return (-1); nctx->nc_plname = plname; if ((lcmd = cmds->tcs_command) == NULL || lcmd->tc_buffers == NULL) return (-1); /* Default minimum bytes needed */ size = sizeof (ndmp_metadata_header_t) + ZFS_MAX_PROPS * sizeof (ndmp_metadata_property_t); size += align; size &= ~align; if ((mhbuf = malloc(size)) == NULL) return (-1); /* LINTED improper alignment */ while ((mhp = (ndmp_metadata_header_t *)get_read_buffer(size, &rv, &actual_size, lcmd)) != NULL) { pp = mhbuf; if (strncmp(mhp->nh_magic, ZFS_META_MAGIC, sizeof (mhp->nh_magic)) != 0 && strncmp(mhp->nh_magic, ZFS_META_MAGIC_EXT, sizeof (mhp->nh_magic)) != 0) { /* No more metadata */ tlm_unget_read_buffer(lcmd->tc_buffers, actual_size); free(mhbuf); return (0); } if (strncmp(mhp->nh_magic, ZFS_META_MAGIC_EXT, sizeof (mhp->nh_magic)) == 0) { mhpx = (ndmp_metadata_header_ext_t *)mhp; if (mhpx->nh_total_bytes > size) { if ((pp = realloc(mhbuf, mhpx->nh_total_bytes)) == NULL) { free(mhbuf); return (-1); } mhbuf = pp; } size = mhpx->nh_total_bytes; } (void) memcpy(pp, (char *)mhp, (actual_size < size) ? actual_size : size); pp += (actual_size < size) ? actual_size : size; sz = actual_size; while (sz < size && ((tp = get_read_buffer(size - sz, &rv, &lsize, lcmd))) != NULL) { (void) memcpy(pp, tp, lsize); sz += lsize; pp += lsize; } if (sz > size) { tlm_unget_read_buffer(lcmd->tc_buffers, sz - size); } /* LINTED improper alignment */ mhp = (ndmp_metadata_header_t *)mhbuf; nvl = NULL; if (strncmp(mhp->nh_magic, ZFS_META_MAGIC_EXT, sizeof (mhp->nh_magic)) == 0) { /* New metadata format */ /* LINTED improper alignment */ mhpx = (ndmp_metadata_header_ext_t *)mhbuf; if (mhpx->nh_major > META_HDR_MAJOR_VERSION) { /* Major header mismatch */ NDMP_LOG(LOG_ERR, "metadata header mismatch", "M%d != M%d", mhpx->nh_major, META_HDR_MAJOR_VERSION); free(mhbuf); return (-1); } if (mhpx->nh_major == META_HDR_MAJOR_VERSION && mhpx->nh_minor > META_HDR_MINOR_VERSION) { /* Minor header mismatch */ NDMP_LOG(LOG_ERR, "Warning:" "metadata header mismatch m%d != m%d", mhpx->nh_minor, META_HDR_MINOR_VERSION); continue; } nctx->nc_plversion = mhpx->nh_plversion; (void) strlcpy(plname, mhpx->nh_plname, sizeof (plname)); if (nvlist_alloc(&nvl, NV_UNIQUE_NAME, 0) != 0) goto nvlist_err; mppx = &mhpx->nh_property[0]; for (i = 0; i < mhpx->nh_count && mppx; i++, mppx++) { if (!*mppx->mp_name) continue; valp = NULL; if (nvlist_alloc(&valp, NV_UNIQUE_NAME, 0) != 0 || nvlist_add_string(valp, "value", mppx->mp_value) != 0 || nvlist_add_string(valp, "source", mppx->mp_source) != 0 || nvlist_add_nvlist(nvl, mppx->mp_name, valp) != 0) { nvlist_free(valp); goto nvlist_err; } nvlist_free(valp); } } else { nctx->nc_plversion = mhp->nh_plversion; (void) strlcpy(plname, mhp->nh_plname, sizeof (plname)); if (nvlist_alloc(&nvl, NV_UNIQUE_NAME, 0) != 0) goto nvlist_err; mpp = &mhp->nh_property[0]; for (i = 0; i < mhp->nh_count && mpp; i++, mpp++) { if (!*mpp->mp_name) continue; valp = NULL; if (nvlist_alloc(&valp, NV_UNIQUE_NAME, 0) != 0 || nvlist_add_string(valp, "value", mpp->mp_value) != 0 || nvlist_add_string(valp, "source", mpp->mp_source) != 0 || nvlist_add_nvlist(nvl, mpp->mp_name, valp) != 0) { nvlist_free(valp); goto nvlist_err; } nvlist_free(valp); } } if (np_restore_property(nvl, ptr) != 0) goto nvlist_err; while ((nvp = nvlist_next_nvpair(nvl, nvp)) != NULL && nvpair_value_nvlist(nvp, &valp) == 0) { nvlist_free(valp); } nvlist_free(nvl); } free(mhbuf); return (0); nvlist_err: free(mhbuf); while ((nvp = nvlist_next_nvpair(nvl, nvp)) != NULL && nvpair_value_nvlist(nvp, &valp) == 0) { nvlist_free(valp); } nvlist_free(nvl); return (-1); } /* * Returns the version number of the plugin which created the metadata */ uint_t ndmp_context_get_version(ndmp_context_t *nctx) { tlm_commands_t *cmds; ndmp_metadata_header_t *mhp; tlm_cmd_t *lcmd; int actual_size; int rv; int size; int align = RECORDSIZE - 1; if (nctx == NULL || (cmds = (tlm_commands_t *)nctx->nc_cmds) == NULL) return (0); if ((lcmd = cmds->tcs_command) == NULL || lcmd->tc_buffers == NULL) return (0); size = sizeof (ndmp_metadata_header_t); size += align; size &= ~align; /* LINTED improper alignment */ if ((mhp = (ndmp_metadata_header_t *)get_read_buffer(size, &rv, &actual_size, lcmd)) != NULL) { if (strncmp(mhp->nh_magic, ZFS_META_MAGIC, sizeof (mhp->nh_magic)) != 0) { /* No more metadata */ tlm_unget_read_buffer(lcmd->tc_buffers, actual_size); return (0); } nctx->nc_plversion = mhp->nh_plversion; tlm_unget_read_buffer(lcmd->tc_buffers, actual_size); } return (nctx->nc_plversion); }