/* * Copyright 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * 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. */ /* Copyright (c) 1996, 1997 PDC, Network Appliance. All Rights Reserved */ #include #include #include #include #include #include #include #include #include #include #include #include "bitmap.h" #include "ndmpd.h" #include "tlm_buffers.h" typedef struct ndmp_run_args { char *nr_chkp_nm; char *nr_unchkp_nm; char **nr_excls; } ndmp_run_args_t; /* * backup_create_structs * * Allocate the structures before performing backup * * Parameters: * sesison (input) - session handle * jname (input) - backup job name * * Returns: * 0: on success * -1: otherwise */ static int backup_create_structs(ndmpd_session_t *session, char *jname) { int n; long xfer_size; ndmp_lbr_params_t *nlp; tlm_commands_t *cmds; if ((nlp = ndmp_get_nlp(session)) == NULL) { NDMP_LOG(LOG_DEBUG, "nlp == NULL"); return (-1); } if ((nlp->nlp_jstat = tlm_new_job_stats(jname)) == NULL) { NDMP_LOG(LOG_DEBUG, "Creating job stats"); return (-1); } cmds = &nlp->nlp_cmds; (void) memset(cmds, 0, sizeof (*cmds)); xfer_size = ndmp_buffer_get_size(session); if (xfer_size < 512*KILOBYTE) { /* * Read multiple of mover_record_size near to 512K. This * will prevent the data being copied in the mover buffer * when we write the data. */ if ((n = (512 * KILOBYTE/xfer_size)) <= 0) n = 1; xfer_size *= n; NDMP_LOG(LOG_DEBUG, "Adjusted read size: %d", xfer_size); } cmds->tcs_command = tlm_create_reader_writer_ipc(TRUE, xfer_size); if (cmds->tcs_command == NULL) { NDMP_LOG(LOG_DEBUG, "Error creating ipc buffers"); tlm_un_ref_job_stats(jname); return (-1); } nlp->nlp_logcallbacks = lbrlog_callbacks_init(session, ndmpd_file_history_path, ndmpd_file_history_dir, ndmpd_file_history_node); if (nlp->nlp_logcallbacks == NULL) { tlm_release_reader_writer_ipc(cmds->tcs_command); tlm_un_ref_job_stats(jname); return (-1); } nlp->nlp_jstat->js_callbacks = (void *)(nlp->nlp_logcallbacks); return (0); } /* * restore_create_structs * * Allocate structures for performing a restore * * Parameters: * sesison (input) - session handle * jname (input) - backup job name * * Returns: * 0: on success * -1: otherwise */ static int restore_create_structs(ndmpd_session_t *session, char *jname) { int i; long xfer_size; ndmp_lbr_params_t *nlp; tlm_commands_t *cmds; if ((nlp = ndmp_get_nlp(session)) == NULL) { NDMP_LOG(LOG_DEBUG, "nlp == NULL"); return (-1); } if ((nlp->nlp_jstat = tlm_new_job_stats(jname)) == NULL) { NDMP_LOG(LOG_DEBUG, "Creating job stats"); return (-1); } cmds = &nlp->nlp_cmds; (void) memset(cmds, 0, sizeof (*cmds)); xfer_size = ndmp_buffer_get_size(session); cmds->tcs_command = tlm_create_reader_writer_ipc(FALSE, xfer_size); if (cmds->tcs_command == NULL) { NDMP_LOG(LOG_DEBUG, "Error creating ipc buffers"); tlm_un_ref_job_stats(jname); return (-1); } nlp->nlp_logcallbacks = lbrlog_callbacks_init(session, ndmpd_path_restored, NULL, NULL); if (nlp->nlp_logcallbacks == NULL) { tlm_release_reader_writer_ipc(cmds->tcs_command); tlm_un_ref_job_stats(jname); return (-1); } nlp->nlp_jstat->js_callbacks = (void *)(nlp->nlp_logcallbacks); nlp->nlp_restored = ndmp_malloc(sizeof (boolean_t) * nlp->nlp_nfiles); if (nlp->nlp_restored == NULL) { lbrlog_callbacks_done(nlp->nlp_logcallbacks); tlm_release_reader_writer_ipc(cmds->tcs_command); tlm_un_ref_job_stats(jname); return (-1); } for (i = 0; i < (int)nlp->nlp_nfiles; i++) nlp->nlp_restored[i] = FALSE; return (0); } /* * send_unrecovered_list * * Creates a list of restored files * * Parameters: * params (input) - NDMP parameters * nlp (input) - NDMP/LBR parameters * * Returns: * 0: on success * -1: otherwise */ static int send_unrecovered_list(ndmpd_module_params_t *params, ndmp_lbr_params_t *nlp) { int i, rv; ndmp_name *ent; if (params == NULL) { NDMP_LOG(LOG_DEBUG, "params == NULL"); return (-1); } if (nlp == NULL) { NDMP_LOG(LOG_DEBUG, "nlp == NULL"); return (-1); } rv = 0; for (i = 0; i < (int)nlp->nlp_nfiles; i++) { NDMP_LOG(LOG_DEBUG, "nlp->nlp_restored[%d]: %s", i, nlp->nlp_restored[i] ? "TRUE" : "FALSE"); if (!nlp->nlp_restored[i]) { ent = (ndmp_name *)MOD_GETNAME(params, i); if (ent == NULL) { NDMP_LOG(LOG_DEBUG, "ent == NULL"); rv = -1; break; } if (ent->name == NULL) { NDMP_LOG(LOG_DEBUG, "ent->name == NULL"); rv = -1; break; } NDMP_LOG(LOG_DEBUG, "ent.name: \"%s\"", ent->name); rv = MOD_FILERECOVERD(params, ent->name, ENOENT); if (rv < 0) break; } } return (rv); } /* * backup_release_structs * * Deallocated the NDMP/LBR specific parameters * * Parameters: * session (input) - session handle * * Returns: * void */ /*ARGSUSED*/ static void backup_release_structs(ndmpd_session_t *session) { ndmp_lbr_params_t *nlp; tlm_commands_t *cmds; if ((nlp = ndmp_get_nlp(session)) == NULL) { NDMP_LOG(LOG_DEBUG, "nlp == NULL"); return; } cmds = &nlp->nlp_cmds; if (cmds == NULL) { NDMP_LOG(LOG_DEBUG, "cmds == NULL"); return; } if (nlp->nlp_logcallbacks != NULL) { lbrlog_callbacks_done(nlp->nlp_logcallbacks); nlp->nlp_logcallbacks = NULL; } else { NDMP_LOG(LOG_DEBUG, "FH CALLBACKS == NULL"); } if (cmds->tcs_command != NULL) { if (cmds->tcs_command->tc_buffers != NULL) tlm_release_reader_writer_ipc(cmds->tcs_command); else NDMP_LOG(LOG_DEBUG, "BUFFERS == NULL"); cmds->tcs_command = NULL; } else { NDMP_LOG(LOG_DEBUG, "COMMAND == NULL"); } if (nlp->nlp_bkmap >= 0) { (void) dbm_free(nlp->nlp_bkmap); nlp->nlp_bkmap = -1; } if (session->ns_data.dd_operation == NDMP_DATA_OP_RECOVER && nlp->nlp_restored != NULL) { free(nlp->nlp_restored); nlp->nlp_restored = NULL; } else { NDMP_LOG(LOG_DEBUG, "nlp_restored == NULL"); } } /* * ndmp_write_utf8magic * * Write a magic pattern to the tar header. This is used * as a crest to indicate that tape belongs to us. */ int ndmp_write_utf8magic(tlm_cmd_t *cmd) { char *cp; long actual_size; if (cmd->tc_buffers == NULL) { NDMP_LOG(LOG_DEBUG, "cmd->tc_buffers == NULL"); return (-1); } cp = tlm_get_write_buffer(RECORDSIZE, &actual_size, cmd->tc_buffers, TRUE); if (actual_size < RECORDSIZE) { NDMP_LOG(LOG_DEBUG, "Couldn't get enough buffer"); return (-1); } (void) strlcpy(cp, NDMPUTF8MAGIC, RECORDSIZE); return (0); } /* * timecmp * * This callback function is used during backup. It checks * if the object specified by the 'attr' should be backed * up or not. * * Directories are backed up anyways for dump format. * If this function is called, then the directory is * marked in the bitmap vector, it shows that either the * directory itself is modified or there is something below * it that will be backed up. * * Directories for tar format are backed up if and only if * they are modified. * * By setting ndmp_force_bk_dirs global variable to a non-zero * value, directories are backed up anyways. * * Backing up the directories unconditionally, helps * restoring the metadata of directories as well, when one * of the objects below them are being restored. * * For non-directory objects, if the modification or change * time of the object is after the date specified by the * bk_selector_t, the the object must be backed up. * */ static boolean_t timecmp(bk_selector_t *bksp, struct stat64 *attr) { ndmp_lbr_params_t *nlp; nlp = (ndmp_lbr_params_t *)bksp->bs_cookie; if (S_ISDIR(attr->st_mode) && ndmp_force_bk_dirs) { NDMP_LOG(LOG_DEBUG, "d(%lu)", (uint_t)attr->st_ino); return (TRUE); } if (S_ISDIR(attr->st_mode) && dbm_getone(nlp->nlp_bkmap, (u_longlong_t)attr->st_ino) && ((NLP_ISDUMP(nlp) && ndmp_dump_path_node) || (NLP_ISTAR(nlp) && ndmp_tar_path_node))) { /* * If the object is a directory and it leads to a modified * object (that should be backed up) and for that type of * backup the path nodes should be backed up, then return * TRUE. * * This is required by some DMAs like Backup Express, which * needs to receive ADD_NODE (for dump) or ADD_PATH (for tar) * for the intermediate directories of a modified object. * Other DMAs, like net_backup and net_worker, do not have such * requirement. This requirement makes sense for dump format * but for 'tar' format, it does not. In provision to the * NDMP-v4 spec, for 'tar' format the intermediate directories * need not to be reported. */ NDMP_LOG(LOG_DEBUG, "p(%lu)", (u_longlong_t)attr->st_ino); return (TRUE); } if (attr->st_mtime > bksp->bs_ldate) { NDMP_LOG(LOG_DEBUG, "m(%lu): %lu > %lu", (uint_t)attr->st_ino, (uint_t)attr->st_mtime, (uint_t)bksp->bs_ldate); return (TRUE); } if (attr->st_ctime > bksp->bs_ldate) { if (NLP_IGNCTIME(nlp)) { NDMP_LOG(LOG_DEBUG, "ign c(%lu): %lu > %lu", (uint_t)attr->st_ino, (uint_t)attr->st_ctime, (uint_t)bksp->bs_ldate); return (FALSE); } NDMP_LOG(LOG_DEBUG, "c(%lu): %lu > %lu", (uint_t)attr->st_ino, (uint_t)attr->st_ctime, (uint_t)bksp->bs_ldate); return (TRUE); } NDMP_LOG(LOG_DEBUG, "mc(%lu): (%lu,%lu) < %lu", (uint_t)attr->st_ino, (uint_t)attr->st_mtime, (uint_t)attr->st_ctime, (uint_t)bksp->bs_ldate); return (FALSE); } /* * get_acl_info * * load up all the access and attribute info */ static int get_acl_info(char *name, tlm_acls_t *tlm_acls) { int erc; acl_t *aclp = NULL; char *acltp; erc = lstat64(name, &tlm_acls->acl_attr); if (erc != 0) { NDMP_LOG(LOG_ERR, "Could not find file %s.", name); erc = TLM_NO_SOURCE_FILE; return (erc); } erc = acl_get(name, ACL_NO_TRIVIAL, &aclp); if (erc != 0) { NDMP_LOG(LOG_DEBUG, "Could not read ACL for file [%s]", name); erc = TLM_NO_SOURCE_FILE; return (erc); } if (aclp && (acltp = acl_totext(aclp, ACL_APPEND_ID | ACL_SID_FMT | ACL_COMPACT_FMT)) != NULL) { (void) strlcpy(tlm_acls->acl_info.attr_info, acltp, TLM_MAX_ACL_TXT); acl_free(aclp); free(acltp); } return (erc); } /* * get_dir_acl_info * * load up all ACL and attr info about a directory */ static int get_dir_acl_info(char *dir, tlm_acls_t *tlm_acls, tlm_job_stats_t *js) { int erc; char *checkpointed_dir; char root_dir[TLM_VOLNAME_MAX_LENGTH]; char *spot; char *fil; acl_t *aclp = NULL; char *acltp; checkpointed_dir = ndmp_malloc(TLM_MAX_PATH_NAME); if (checkpointed_dir == NULL) return (-1); if (tlm_acls->acl_checkpointed) fil = tlm_build_snapshot_name(dir, checkpointed_dir, js->js_job_name); else fil = dir; erc = lstat64(fil, &tlm_acls->acl_attr); if (erc != 0) { NDMP_LOG(LOG_ERR, "Could not find directory %s.", dir); free(checkpointed_dir); return (-1); } spot = strchr(&fil[1], '/'); if (spot == NULL) { (void) strlcpy(root_dir, fil, TLM_VOLNAME_MAX_LENGTH); } else { *spot = 0; (void) strlcpy(root_dir, fil, TLM_VOLNAME_MAX_LENGTH); *spot = '/'; } if (strcmp(root_dir, tlm_acls->acl_root_dir) != 0) { struct stat64 attr; erc = lstat64(root_dir, &attr); if (erc != 0) { NDMP_LOG(LOG_ERR, "Cannot find root directory %s.", root_dir); free(checkpointed_dir); return (-1); } (void) strlcpy(tlm_acls->acl_root_dir, root_dir, TLM_VOLNAME_MAX_LENGTH); } erc = acl_get(fil, ACL_NO_TRIVIAL, &aclp); if (erc != 0) { NDMP_LOG(LOG_DEBUG, "Could not read metadata for directory [%s]", dir); free(checkpointed_dir); return (-1); } if (aclp && (acltp = acl_totext(aclp, ACL_APPEND_ID | ACL_SID_FMT | ACL_COMPACT_FMT)) != NULL) { (void) strlcpy(tlm_acls->acl_info.attr_info, acltp, TLM_MAX_ACL_TXT); acl_free(aclp); free(acltp); } free(checkpointed_dir); return (0); } /* * backup_dir * * Create a TAR entry record for a directory */ static int backup_dir(char *dir, tlm_acls_t *tlm_acls, tlm_cmd_t *local_commands, tlm_job_stats_t *job_stats, bk_selector_t *bksp) { int erc; NDMP_LOG(LOG_DEBUG, "\"%s\"", dir); erc = get_dir_acl_info(dir, tlm_acls, job_stats); if (erc != 0) { NDMP_LOG(LOG_DEBUG, "Could not read directory info for %s", dir); job_stats->js_errors++; } else { /* * See if the directory must be backed up. */ if (bksp && !(*bksp->bs_fn)(bksp, &tlm_acls->acl_attr)) { NDMP_LOG(LOG_DEBUG, "[%s] dir skipped", dir); return (erc); } if (tm_tar_ops.tm_putdir != NULL) (void) (tm_tar_ops.tm_putdir)(dir, tlm_acls, local_commands, job_stats); } return (erc); } /* * backup_file * * Create a TAR record entry for a file */ static longlong_t backup_file(char *dir, char *name, tlm_acls_t *tlm_acls, tlm_commands_t *commands, tlm_cmd_t *local_commands, tlm_job_stats_t *job_stats, bk_selector_t *bksp) { int erc; char buf[TLM_MAX_PATH_NAME]; longlong_t rv; NDMP_LOG(LOG_DEBUG, "\"%s/%s\"", dir, name); (void) strlcpy(buf, dir, sizeof (buf)); (void) strlcat(buf, "/", sizeof (buf)); (void) strlcat(buf, name, sizeof (buf)); /* * get_acl_info extracts file handle, attributes and ACLs of the file. * This is not efficient when the attributes and file handle of * the file is already known. */ erc = get_acl_info(buf, tlm_acls); if (erc != TLM_NO_ERRORS) { NDMP_LOG(LOG_ERR, "Could not open file %s/%s.", dir, name); return (-ENOENT); } /* Should the file be backed up? */ if (!bksp) { NDMP_LOG(LOG_DEBUG, "[%s/%s] has no selection criteria", dir, name); } else if (!((*bksp->bs_fn)(bksp, &tlm_acls->acl_attr))) { NDMP_LOG(LOG_DEBUG, "[%s/%s] file skipped", dir, name); return (0); } /* Only the regular files and symbolic links can be backed up. */ if (!S_ISLNK(tlm_acls->acl_attr.st_mode) && !S_ISREG(tlm_acls->acl_attr.st_mode)) { NDMP_LOG(LOG_DEBUG, "Warning: skip backing up [%s][%s]", dir, name); return (-EINVAL); } if (tm_tar_ops.tm_putfile != NULL) rv = (tm_tar_ops.tm_putfile)(dir, name, tlm_acls, commands, local_commands, job_stats); return (rv); } /* * backup_work * * Start the NDMP backup (V2 only). */ int backup_work(char *bk_path, tlm_job_stats_t *job_stats, ndmp_run_args_t *np, tlm_commands_t *commands, ndmp_lbr_params_t *nlp) { struct full_dir_info dir_info; /* the blob to push/pop with cstack_t */ struct full_dir_info *t_dir_info, *p_dir_info; struct stat64 ret_attr; /* attributes of current file name */ fs_fhandle_t ret_fh; char *first_name; /* where the first name is located */ char *dname; int erc; int retval; cstack_t *stk; unsigned long fileid; tlm_acls_t tlm_acls; int dname_size; longlong_t fsize; bk_selector_t bks; tlm_cmd_t *local_commands; long dpos; NDMP_LOG(LOG_DEBUG, "nr_chkpnted %d nr_ldate: %u bk_path: \"%s\"", NLP_ISCHKPNTED(nlp), nlp->nlp_ldate, bk_path); /* Get every name in this directory */ dname = ndmp_malloc(TLM_MAX_PATH_NAME); if (dname == NULL) return (-ENOMEM); local_commands = commands->tcs_command; retval = 0; (void) memset(&bks, 0, sizeof (bks)); bks.bs_cookie = (void *)nlp; bks.bs_level = nlp->nlp_clevel; bks.bs_ldate = nlp->nlp_ldate; bks.bs_fn = timecmp; /* * should we skip the whole thing? */ if (tlm_is_excluded("", bk_path, np->nr_excls)) { NDMP_LOG(LOG_DEBUG, "%s excluded", bk_path); free(dname); return (0); } /* * Search for the top-level file-directory */ if (NLP_ISCHKPNTED(nlp)) { first_name = np->nr_chkp_nm; (void) strlcpy(first_name, bk_path, TLM_MAX_PATH_NAME); } else { first_name = tlm_build_snapshot_name(bk_path, np->nr_chkp_nm, nlp->nlp_jstat->js_job_name); } (void) memset(&ret_fh, 0, sizeof (ret_fh)); erc = fs_getstat(first_name, &ret_fh, &ret_attr); if (erc != 0) { NDMP_LOG(LOG_ERR, "Path %s not found.", first_name); free(dname); return (-EINVAL); } if ((stk = cstack_new()) == NULL) { free(dname); NDMP_LOG(LOG_DEBUG, "cstack_new failed"); return (-ENOMEM); } (void) strlcpy(dir_info.fd_dir_name, first_name, TLM_MAX_PATH_NAME); (void) memcpy(&dir_info.fd_dir_fh, &ret_fh, sizeof (fs_fhandle_t)); p_dir_info = dup_dir_info(&dir_info); /* * Push the first name onto the stack so that we can pop it back * off as part of the normal cycle */ if (cstack_push(stk, p_dir_info, 0)) { free(dname); free(p_dir_info); cstack_delete(stk); NDMP_LOG(LOG_DEBUG, "cstack_push failed"); return (-ENOMEM); } (void) memset(&tlm_acls, 0, sizeof (tlm_acls)); /* * Did NDMP create a checkpoint? */ if (NLP_ISCHKPNTED(nlp) || fs_is_rdonly(bk_path)) { tlm_acls.acl_checkpointed = FALSE; } else { /* Use the checkpoint created by NDMP */ tlm_acls.acl_checkpointed = TRUE; } /* * This is level-backup. It never resets the archive bit. */ tlm_acls.acl_clear_archive = FALSE; NDMP_LOG(LOG_DEBUG, "acls.chkpnt: %c acls.clear_arcbit: %c", NDMP_YORN(tlm_acls.acl_checkpointed), NDMP_YORN(tlm_acls.acl_clear_archive)); while (commands->tcs_reader == TLM_BACKUP_RUN && local_commands->tc_reader == TLM_BACKUP_RUN && cstack_pop(stk, (void **)&p_dir_info, 0) == 0) { if (NLP_ISCHKPNTED(nlp)) (void) strlcpy(np->nr_unchkp_nm, p_dir_info->fd_dir_name, TLM_MAX_PATH_NAME); else (void) tlm_remove_checkpoint(p_dir_info->fd_dir_name, np->nr_unchkp_nm); (void) backup_dir(np->nr_unchkp_nm, &tlm_acls, local_commands, job_stats, &bks); while (commands->tcs_reader == TLM_BACKUP_RUN && local_commands->tc_reader == TLM_BACKUP_RUN) { dname_size = TLM_MAX_PATH_NAME - 1; NDMP_LOG(LOG_DEBUG, "dir_name: %s", p_dir_info->fd_dir_name); (void) memset(&ret_fh, 0, sizeof (ret_fh)); erc = fs_readdir(&p_dir_info->fd_dir_fh, p_dir_info->fd_dir_name, &dpos, dname, &dname_size, &ret_fh, &ret_attr); if (erc == 0) { fileid = ret_fh.fh_fid; } else { NDMP_LOG(LOG_DEBUG, "Filesystem readdir in [%s]", p_dir_info->fd_dir_name); retval = -ENOENT; break; } /* an empty name size marks the end of the list */ if (dname_size == 0) break; dname[dname_size] = '\0'; NDMP_LOG(LOG_DEBUG, "dname: \"%s\"", dname); /* * If name refers to a directory, push its file * handle onto the stack (skip "." and ".."). */ if (rootfs_dot_or_dotdot(dname)) { fileid = 0; continue; } /* * Skip the: * non-dir entries which should not be backed up * Or * dir-type entries which have have nothing under * their hierarchy to be backed up. */ if (!dbm_getone(nlp->nlp_bkmap, (u_longlong_t)fileid)) { NDMP_LOG(LOG_DEBUG, "Skipping %s/%s", p_dir_info->fd_dir_name, dname); fileid = 0; continue; } if (tlm_is_excluded(np->nr_unchkp_nm, dname, np->nr_excls)) { fileid = 0; continue; } if (S_ISDIR(ret_attr.st_mode)) { /* * only directories get pushed onto this stack, * so we do not have to test for regular files. */ t_dir_info = tlm_new_dir_info(&ret_fh, p_dir_info->fd_dir_name, dname); if (t_dir_info == NULL) { NDMP_LOG(LOG_DEBUG, "While backing up [%s][%s]", p_dir_info->fd_dir_name, dname); } else if (cstack_push(stk, t_dir_info, 0) != 0) { NDMP_LOG(LOG_DEBUG, "No enough memory stack_push"); retval = -ENOMEM; break; } } else if (S_ISREG(ret_attr.st_mode) || S_ISLNK(ret_attr.st_mode)) { fsize = backup_file(np->nr_unchkp_nm, dname, &tlm_acls, commands, local_commands, job_stats, &bks); if (fsize >= 0) { job_stats->js_files_so_far++; job_stats->js_bytes_total += fsize; } else job_stats->js_errors++; fileid = 0; } } fileid = 0; free(p_dir_info); if (retval != 0) break; } free(dname); while (cstack_pop(stk, (void **)&p_dir_info, 0) == 0) { free(p_dir_info); } cstack_delete(stk); return (retval); } /* * free_paths * * Free the path names */ static void free_paths(ndmp_run_args_t *np) { free(np->nr_chkp_nm); free(np->nr_unchkp_nm); free(np->nr_excls); } /* * malloc_paths * * Allocate the path names (direct and checkpointed paths) */ static boolean_t malloc_paths(ndmp_run_args_t *np) { boolean_t rv; rv = TRUE; np->nr_chkp_nm = ndmp_malloc(TLM_MAX_PATH_NAME); np->nr_unchkp_nm = ndmp_malloc(TLM_MAX_PATH_NAME); if (!np->nr_chkp_nm || !np->nr_unchkp_nm) { free_paths(np); rv = FALSE; } else if ((np->nr_excls = ndmpd_make_exc_list()) == NULL) { free_paths(np); rv = FALSE; } return (rv); } /* * ndmp_backup_reader * * Backup reader thread which uses backup_work to read and TAR * the files/dirs to be backed up (V2 only) */ static int ndmp_backup_reader(tlm_commands_t *commands, ndmp_lbr_params_t *nlp, char *job_name) { int retval; ndmp_run_args_t np; tlm_job_stats_t *job_stats; tlm_cmd_t *local_commands; NDMP_LOG(LOG_DEBUG, "bk_path: \"%s\"", nlp->nlp_backup_path); local_commands = commands->tcs_command; (void) memset(&np, 0, sizeof (np)); if (!malloc_paths(&np)) return (-1); local_commands->tc_ref++; commands->tcs_reader_count++; job_stats = tlm_ref_job_stats(job_name); retval = backup_work(nlp->nlp_backup_path, job_stats, &np, commands, nlp); write_tar_eof(local_commands); commands->tcs_reader_count--; local_commands->tc_writer = TLM_STOP; tlm_release_reader_writer_ipc(local_commands); tlm_un_ref_job_stats(job_name); free_paths(&np); return (retval); } /* * ndmp_tar_writer * * The backup writer thread that writes the TAR records to the * tape media (V2 only) */ int ndmp_tar_writer(ndmpd_session_t *session, ndmpd_module_params_t *mod_params, tlm_commands_t *cmds) { int bidx, nw; int err; tlm_buffer_t *buf; tlm_buffers_t *bufs; tlm_cmd_t *lcmd; /* Local command */ err = 0; if (session == NULL) { NDMP_LOG(LOG_DEBUG, "session == NULL"); err = -1; } else if (mod_params == NULL) { NDMP_LOG(LOG_DEBUG, "mod_params == NULL"); err = -1; } else if (cmds == NULL) { NDMP_LOG(LOG_DEBUG, "cmds == NULL"); err = -1; } if (err != 0) return (err); lcmd = cmds->tcs_command; bufs = lcmd->tc_buffers; lcmd->tc_ref++; cmds->tcs_writer_count++; nw = 0; buf = tlm_buffer_out_buf(bufs, &bidx); while (cmds->tcs_writer != (int)TLM_ABORT && lcmd->tc_writer != (int)TLM_ABORT) { if (buf->tb_full) { NDMP_LOG(LOG_DEBUG, "w%d", bidx); if (MOD_WRITE(mod_params, buf->tb_buffer_data, buf->tb_buffer_size) != 0) { NDMP_LOG(LOG_DEBUG, "Writing buffer %d, pos: %lld", bidx, session->ns_mover.md_position); err = -1; break; } tlm_buffer_mark_empty(buf); (void) tlm_buffer_advance_out_idx(bufs); buf = tlm_buffer_out_buf(bufs, &bidx); tlm_buffer_release_out_buf(bufs); nw++; } else { if (lcmd->tc_writer != TLM_BACKUP_RUN) { /* No more data is comming; time to exit. */ NDMP_LOG(LOG_DEBUG, "tc_writer!=TLM_BACKUP_RUN; time to exit"); break; } else { NDMP_LOG(LOG_DEBUG, "W%d", bidx); tlm_buffer_in_buf_timed_wait(bufs, 100); } } } NDMP_LOG(LOG_DEBUG, "nw: %d", nw); if (cmds->tcs_writer != (int)TLM_ABORT) { NDMP_LOG(LOG_DEBUG, "tcs_writer != TLM_ABORT"); } else { NDMP_LOG(LOG_DEBUG, "tcs_writer == TLM_ABORT"); } if (lcmd->tc_writer != (int)TLM_ABORT) { NDMP_LOG(LOG_DEBUG, "tc_writer != TLM_ABORT"); } else { NDMP_LOG(LOG_DEBUG, "tc_writer == TLM_ABORT"); } cmds->tcs_writer_count--; lcmd->tc_reader = TLM_STOP; lcmd->tc_ref--; return (err); } /* * read_one_buf * * Read one buffer from the tape */ static int read_one_buf(ndmpd_module_params_t *mod_params, tlm_buffers_t *bufs, tlm_buffer_t *buf) { int rv; if ((rv = MOD_READ(mod_params, buf->tb_buffer_data, bufs->tbs_data_transfer_size)) == 0) { buf->tb_eof = buf->tb_eot = FALSE; buf->tb_errno = 0; buf->tb_buffer_size = bufs->tbs_data_transfer_size; buf->tb_buffer_spot = 0; buf->tb_full = TRUE; (void) tlm_buffer_advance_in_idx(bufs); } return (rv); } /* * ndmp_tar_reader * * NDMP Tar reader thread. This threads keep reading the tar * file from the tape and wakes up the consumer thread to extract * it on the disk */ int ndmp_tar_reader(ndmp_tar_reader_arg_t *argp) { int bidx; int err; tlm_buffer_t *buf; tlm_buffers_t *bufs; tlm_cmd_t *lcmd; /* Local command */ ndmpd_session_t *session; ndmpd_module_params_t *mod_params; tlm_commands_t *cmds; if (!argp) return (-1); session = argp->tr_session; mod_params = argp->tr_mod_params; cmds = argp->tr_cmds; err = 0; if (session == NULL) { NDMP_LOG(LOG_DEBUG, "session == NULL"); err = -1; } else if (cmds == NULL) { NDMP_LOG(LOG_DEBUG, "cmds == NULL"); err = -1; } if (err != 0) { tlm_cmd_signal(cmds->tcs_command, TLM_TAR_READER); return (err); } lcmd = cmds->tcs_command; bufs = lcmd->tc_buffers; lcmd->tc_ref++; cmds->tcs_reader_count++; /* * Synchronize with our parent thread. */ tlm_cmd_signal(cmds->tcs_command, TLM_TAR_READER); buf = tlm_buffer_in_buf(bufs, &bidx); while (cmds->tcs_reader == TLM_RESTORE_RUN && lcmd->tc_reader == TLM_RESTORE_RUN) { if (buf->tb_full) { NDMP_LOG(LOG_DEBUG, "R%d", bidx); /* * The buffer is still full, wait for the consumer * thread to use it. */ tlm_buffer_out_buf_timed_wait(bufs, 100); buf = tlm_buffer_in_buf(bufs, NULL); } else { NDMP_LOG(LOG_DEBUG, "r%d", bidx); err = read_one_buf(mod_params, bufs, buf); if (err < 0) { NDMP_LOG(LOG_DEBUG, "Reading buffer %d, pos: %lld", bidx, session->ns_mover.md_position); /* Force the writer to stop. */ buf->tb_eot = buf->tb_eof = TRUE; break; } else if (err == 1) { NDMP_LOG(LOG_DEBUG, "operation aborted or session terminated"); err = 0; break; } buf = tlm_buffer_in_buf(bufs, &bidx); tlm_buffer_release_in_buf(bufs); } } /* * If the consumer is waiting for us, wake it up so that it detects * we're quiting. */ lcmd->tc_writer = TLM_STOP; tlm_buffer_release_in_buf(bufs); (void) usleep(1000); /* * Clean up. */ cmds->tcs_reader_count--; lcmd->tc_ref--; return (err); } /* * ndmpd_tar_backup * * Check must have been done that backup work directory exists, before * calling this function. */ static int ndmpd_tar_backup(ndmpd_session_t *session, ndmpd_module_params_t *mod_params, ndmp_lbr_params_t *nlp) { char jname[TLM_MAX_BACKUP_JOB_NAME]; int err; tlm_commands_t *cmds; if (mod_params->mp_operation != NDMP_DATA_OP_BACKUP) { NDMP_LOG(LOG_DEBUG, "mod_params->mp_operation != NDMP_DATA_OP_BACKUP"); err = -1; } else { if (ndmpd_mark_inodes_v2(session, nlp) != 0) err = -1; else if (ndmp_get_bk_dir_ino(nlp)) err = -1; else err = 0; } if (err != 0) return (err); (void) ndmp_new_job_name(jname); if (backup_create_structs(session, jname) < 0) return (-1); nlp->nlp_jstat->js_start_ltime = time(NULL); nlp->nlp_jstat->js_start_time = nlp->nlp_jstat->js_start_ltime; nlp->nlp_jstat->js_chkpnt_time = nlp->nlp_cdate; if (!session->ns_data.dd_abort) { cmds = &nlp->nlp_cmds; cmds->tcs_reader = cmds->tcs_writer = TLM_BACKUP_RUN; cmds->tcs_command->tc_reader = TLM_BACKUP_RUN; cmds->tcs_command->tc_writer = TLM_BACKUP_RUN; if (ndmp_write_utf8magic(cmds->tcs_command) < 0) { backup_release_structs(session); return (-1); } NDMP_LOG(LOG_DEBUG, "Backing up \"%s\" started.", nlp->nlp_backup_path); err = ndmp_backup_reader(cmds, nlp, jname); if (err != 0) { backup_release_structs(session); NDMP_LOG(LOG_DEBUG, "Launch ndmp_backup_reader: %s", strerror(err)); return (-1); } /* Act as the writer thread. */ err = ndmp_tar_writer(session, mod_params, cmds); nlp->nlp_jstat->js_stop_time = time(NULL); NDMP_LOG(LOG_DEBUG, "Runtime [%s] %llu bytes (%llu): %d seconds", nlp->nlp_backup_path, session->ns_mover.md_data_written, session->ns_mover.md_data_written, nlp->nlp_jstat->js_stop_time - nlp->nlp_jstat->js_start_ltime); MOD_LOG(mod_params, "Runtime [%s] %llu bytes (%llu): %d seconds", nlp->nlp_backup_path, session->ns_mover.md_data_written, session->ns_mover.md_data_written, nlp->nlp_jstat->js_stop_time - nlp->nlp_jstat->js_start_ltime); if (session->ns_data.dd_abort) err = -1; NDMP_LOG(LOG_DEBUG, "Backing up \"%s\" finished. (%d)", nlp->nlp_backup_path, err); } else { nlp->nlp_jstat->js_stop_time = time(NULL); NDMP_LOG(LOG_DEBUG, "Backing up \"%s\" aborted.", nlp->nlp_backup_path); err = 0; } backup_release_structs(session); return (err); } /* * ndmpd_tar_restore * * Restore function that launches TAR reader thread to read from the * tape and writes the extracted files/dirs to the filesystem */ static int ndmpd_tar_restore(ndmpd_session_t *session, ndmpd_module_params_t *mod_params, ndmp_lbr_params_t *nlp) { char jname[TLM_MAX_BACKUP_JOB_NAME]; char *rspath; int err; tlm_commands_t *cmds; ndmp_tar_reader_arg_t arg; tlm_backup_restore_arg_t tlm_arg; ndmp_name *ent; pthread_t rdtp, wrtp; int i; if (mod_params->mp_operation != NDMP_DATA_OP_RECOVER) { NDMP_LOG(LOG_DEBUG, "mod_params->mp_operation != NDMP_DATA_OP_RECOVER"); return (-1); } if (nlp->nlp_restore_path[0] != '\0') rspath = nlp->nlp_restore_path; else if (nlp->nlp_restore_bk_path[0] != '\0') rspath = nlp->nlp_restore_bk_path; else rspath = ""; (void) ndmp_new_job_name(jname); if (restore_create_structs(session, jname) < 0) return (-1); nlp->nlp_jstat->js_start_ltime = time(NULL); nlp->nlp_jstat->js_start_time = time(NULL); if (!session->ns_data.dd_abort) { cmds = &nlp->nlp_cmds; cmds->tcs_reader = cmds->tcs_writer = TLM_RESTORE_RUN; cmds->tcs_command->tc_reader = TLM_RESTORE_RUN; cmds->tcs_command->tc_writer = TLM_RESTORE_RUN; NDMP_LOG(LOG_DEBUG, "Restoring to \"%s\" started.", rspath); NDMP_LOG(LOG_DEBUG, "Restoring from %s tape(s).", ndmp_data_get_mover_mode(session)); arg.tr_session = session; arg.tr_mod_params = mod_params; arg.tr_cmds = cmds; err = pthread_create(&rdtp, NULL, (funct_t)ndmp_tar_reader, (void *)&arg); if (err == 0) { tlm_cmd_wait(cmds->tcs_command, TLM_TAR_READER); } else { NDMP_LOG(LOG_DEBUG, "Launch ndmp_tar_reader: %m"); return (-1); } if (!ndmp_check_utf8magic(cmds->tcs_command)) { NDMP_LOG(LOG_DEBUG, "UTF8Magic not found!"); } else { NDMP_LOG(LOG_DEBUG, "UTF8Magic found"); } (void) memset(&tlm_arg, 0, sizeof (tlm_backup_restore_arg_t)); (void) pthread_barrier_init(&tlm_arg.ba_barrier, 0, 2); /* * Set up restore parameters */ tlm_arg.ba_commands = cmds; tlm_arg.ba_cmd = cmds->tcs_command; tlm_arg.ba_job = nlp->nlp_jstat->js_job_name; tlm_arg.ba_dir = nlp->nlp_restore_path; for (i = 0; i < nlp->nlp_nfiles; i++) { ent = (ndmp_name *)MOD_GETNAME(mod_params, i); tlm_arg.ba_sels[i] = ent->name; } if (tm_tar_ops.tm_getfile != NULL) { err = pthread_create(&wrtp, NULL, (funct_t)tm_tar_ops.tm_getfile, (void *)&tlm_arg); } else { (void) pthread_barrier_destroy(&tlm_arg.ba_barrier); NDMP_LOG(LOG_DEBUG, "Thread create tm_getfile: ops NULL"); return (-1); } if (err == 0) { (void) pthread_barrier_wait(&tlm_arg.ba_barrier); } else { (void) pthread_barrier_destroy(&tlm_arg.ba_barrier); NDMP_LOG(LOG_DEBUG, "thread create tm_getfile: %m"); return (-1); } (void) pthread_join(rdtp, NULL); (void) pthread_join(wrtp, NULL); (void) pthread_barrier_destroy(&tlm_arg.ba_barrier); nlp->nlp_jstat->js_stop_time = time(NULL); /* Send the list of un-recovered files/dirs to the client. */ (void) send_unrecovered_list(mod_params, nlp); ndmp_stop_local_reader(session, cmds); ndmp_wait_for_reader(cmds); ndmp_stop_remote_reader(session); NDMP_LOG(LOG_DEBUG, "Restoring to \"%s\" finished. (%d)", rspath, err); } else { nlp->nlp_jstat->js_stop_time = time(NULL); /* nothing restored. */ (void) send_unrecovered_list(mod_params, nlp); NDMP_LOG(LOG_DEBUG, "Restoring to \"%s\" aborted.", rspath); err = -1; } NDMP_FREE(nlp->nlp_restore_path); backup_release_structs(session); return (err); } /* * prefixdir * * Extract the path for a given full path entry */ static char * prefixdir(char *dir, char *suffix) { static char tmp[TLM_MAX_PATH_NAME]; char *tend, *send; /* tmp and suffix end */ if (dir == NULL || suffix == NULL) return (NULL); if (*suffix == '\0') return (dir); if (*dir == '\0') return (NULL); (void) strlcpy(tmp, dir, TLM_MAX_PATH_NAME); tend = &tmp[strlen(tmp)]; send = &suffix[strlen(suffix)]; /* * Move backward as far as the last part of the dir and * the suffix match. */ while (tend >= tmp && send >= suffix) if (*tend == *send) tend--, send--; else break; *++tend = '\0'; return (tmp); } /* * get_backup_path * * Find the backup path from the environment variables */ static char * get_backup_path(ndmpd_module_params_t *params) { char *bkpath; bkpath = MOD_GETENV(params, "PREFIX"); if (bkpath == NULL) bkpath = MOD_GETENV(params, "FILESYSTEM"); if (bkpath == NULL) { MOD_LOG(params, "Error: restore path not specified.\n"); return (NULL); } if (*bkpath != '/') { MOD_LOG(params, "Error: relative backup path not allowed.\n"); return (NULL); } return (bkpath); } /* * get_nfiles * * Get the count of files to be restored */ static int get_nfiles(ndmpd_session_t *session, ndmpd_module_params_t *params) { if (session->ns_data.dd_nlist_len == 0) { MOD_LOG(params, "Error: nothing specified to be restored.\n"); return (-1); } return (session->ns_data.dd_nlist_len); } /* * get_restore_dest * * Get the full pathname of where the entries should be restored to. */ static char * get_restore_dest(ndmpd_module_params_t *params) { ndmp_name *ent; char *cp; /* * Destination of restore: * NetBackup of Veritas(C) sends the entries like this: * * ent[i].name: is the relative pathname of what is selected in * the GUI. * ent[i].dest: is the full pathname of where the dir/file must * be restored to. * ent[i].ssi: 0 * ent[i].fh_info: 0 * */ ent = (ndmp_name *)MOD_GETNAME(params, 0); cp = prefixdir(ent->dest, ent->name); if (cp == NULL) { MOD_LOG(params, "Error: empty restore path.\n"); return (NULL); } return (cp); } /* * correct_ents * * Correct the entries in the restore list by appending the appropriate * path to them */ static int correct_ents(ndmpd_module_params_t *params, int n, char *bkpath) { char *cp, *pathname; int i, len, rv; ndmp_name *ent; if ((pathname = ndmp_malloc(TLM_MAX_PATH_NAME)) == NULL) { MOD_LOG(params, "Error: insufficient memory.\n"); return (-1); } rv = 0; /* Append the backup path to all the "ent[].name"s. */ for (i = 0; i < n; i++) { ent = (ndmp_name *)MOD_GETNAME(params, i); NDMP_LOG(LOG_DEBUG, "Old: ent[%d].name: \"%s\"", i, ent->name); NDMP_LOG(LOG_DEBUG, "Old: ent[%d].dest: \"%s\"", i, ent->dest); /* remove trailing slash */ len = strlen(ent->name); if (ent->name[len - 1] == '/') ent->name[len - 1] = '\0'; if (!tlm_cat_path(pathname, bkpath, ent->name)) { MOD_LOG(params, "Error: path too long.\n"); rv = -1; break; } /* Make a copy of the new string and save it in ent->name. */ cp = strdup(pathname); if (cp == NULL) { MOD_LOG(params, "Error: insufficient memory.\n"); rv = -1; break; } free(ent->name); ent->name = cp; NDMP_LOG(LOG_DEBUG, "New: ent[%d].name: \"%s\"", i, ent->name); } free(pathname); return (rv); } /* * check_restore_paths * * Go through the restore list and check the validity of the * restore path. */ static int check_restore_paths(ndmpd_module_params_t *params, int n, char *rspath) { int i, rv; ndmp_name *ent; rv = 0; if (rspath != NULL && *rspath != '\0') { NDMP_LOG(LOG_DEBUG, "rspath: \"%s\"", rspath); if (!fs_volexist(rspath)) { MOD_LOG(params, "Error: Invalid volume name for restore."); rv = -1; } } else { for (i = 0; i < n; i++) { ent = (ndmp_name *)MOD_GETNAME(params, i); NDMP_LOG(LOG_DEBUG, "ent[%d].name: \"%s\"", i, ent->name); if (!fs_volexist(ent->name)) { MOD_LOG(params, "Error: Invalid volume name for restore.", ent->name); rv = -1; break; } } } return (rv); } /* * check_backup_dir_validity * * Check if the backup directory is valid. Make sure it exists and * is writable. Check for snapshot and readonly cases. */ static int check_backup_dir_validity(ndmpd_module_params_t *params, char *bkpath) { char *msg; int rv; struct stat64 st; rv = NDMP_NO_ERR; if (stat64(bkpath, &st) < 0) { msg = strerror(errno); MOD_LOG(params, "Error: stat(%s): %s.\n", bkpath, msg); rv = NDMP_ILLEGAL_ARGS_ERR; } else if (!S_ISDIR(st.st_mode)) { MOD_LOG(params, "Error: %s is not a directory.\n", bkpath); rv = NDMP_ILLEGAL_ARGS_ERR; } else if (ndmp_is_chkpnt_root(bkpath)) { /* It's a .chkpnt directory */ MOD_LOG(params, "Error: %s is a checkpoint root directory.\n", bkpath); rv = NDMP_BAD_FILE_ERR; } else if (fs_is_rdonly(bkpath) && !fs_is_chkpntvol(bkpath) && fs_is_chkpnt_enabled(bkpath)) { MOD_LOG(params, "Error: %s is not a checkpointed path.\n", bkpath); rv = NDMP_BAD_FILE_ERR; } return (rv); } /* * ndmp_backup_extract_params * * Go through the backup parameters and check the validity * for each one. Then set the NLP flags according to the parameters. */ int ndmp_backup_extract_params(ndmpd_session_t *session, ndmpd_module_params_t *params) { char *cp; int rv; ndmp_lbr_params_t *nlp; /* Extract directory to be backed up from env variables */ if ((nlp = ndmp_get_nlp(session)) == NULL) { MOD_LOG(params, "Error: Internal error: nlp == NULL.\n"); return (NDMP_ILLEGAL_ARGS_ERR); } if ((nlp->nlp_backup_path = get_backup_path(params)) == NULL) return (NDMP_FILE_NOT_FOUND_ERR); if ((rv = check_backup_dir_validity(params, nlp->nlp_backup_path)) != NDMP_NO_ERR) return (rv); /* Should the st_ctime be ignored when backing up? */ if (ndmp_ignore_ctime) { NDMP_LOG(LOG_DEBUG, "ignoring st_ctime"); NLP_SET(nlp, NLPF_IGNCTIME); } else NLP_UNSET(nlp, NLPF_IGNCTIME); /* Should the st_lmtime be ignored when backing up? */ if (ndmp_include_lmtime) { NDMP_LOG(LOG_DEBUG, "including st_lmtime"); NLP_SET(nlp, NLPF_INCLMTIME); } else NLP_UNSET(nlp, NLPF_INCLMTIME); NDMP_LOG(LOG_DEBUG, "flags %x", nlp->nlp_flags); /* Is backup history requested? */ cp = MOD_GETENV(params, "HIST"); if (cp == NULL) { NDMP_LOG(LOG_DEBUG, "env(HIST) not specified"); NLP_UNSET(nlp, NLPF_FH); } else { NDMP_LOG(LOG_DEBUG, "env(HIST): \"%s\"", cp); if (strchr("t_ty_y", *cp)) NLP_SET(nlp, NLPF_FH); else NLP_UNSET(nlp, NLPF_FH); } nlp->nlp_clevel = 0; /* Is it an incremental backup? */ cp = MOD_GETENV(params, "LEVEL"); if (cp == NULL) { NDMP_LOG(LOG_DEBUG, "env(LEVEL) not specified, default to 0"); } else if (*cp < '0' || *cp > '9' || *(cp+1) != '\0') { NDMP_LOG(LOG_DEBUG, "Invalid backup level '%s'", cp); return (NDMP_ILLEGAL_ARGS_ERR); } else nlp->nlp_clevel = *cp - '0'; /* Extract last backup time from the dumpdates file */ nlp->nlp_llevel = nlp->nlp_clevel; nlp->nlp_ldate = 0; if (ndmpd_get_dumptime(nlp->nlp_backup_path, &nlp->nlp_llevel, &nlp->nlp_ldate) < 0) { MOD_LOG(params, "Error: getting dumpdate for %s level %d\n", nlp->nlp_backup_path, nlp->nlp_clevel); return (NDMP_NO_MEM_ERR); } NDMP_LOG(LOG_DEBUG, "Date of this level %d on \"%s\": %s", nlp->nlp_clevel, nlp->nlp_backup_path, cctime(&nlp->nlp_cdate)); NDMP_LOG(LOG_DEBUG, "Date of last level %d on \"%s\": %s", nlp->nlp_llevel, nlp->nlp_backup_path, cctime(&nlp->nlp_ldate)); /* Should the dumpdate file be updated? */ cp = MOD_GETENV(params, "UPDATE"); if (cp == NULL) { NDMP_LOG(LOG_DEBUG, "env(UPDATE) not specified, default to TRUE"); NLP_SET(nlp, NLPF_UPDATE); } else { NDMP_LOG(LOG_DEBUG, "env(UPDATE): \"%s\"", cp); if (strchr("t_ty_y", *cp) != NULL) NLP_SET(nlp, NLPF_UPDATE); else NLP_UNSET(nlp, NLPF_UPDATE); } return (NDMP_NO_ERR); } /* * log_bk_params_v2 * * Dump the value of the parameters in the log file for debugging. */ void log_bk_params_v2(ndmpd_session_t *session, ndmpd_module_params_t *params, ndmp_lbr_params_t *nlp) { MOD_LOG(params, "Date of this level %d on \"%s\": %s\n", nlp->nlp_clevel, nlp->nlp_backup_path, cctime(&nlp->nlp_cdate)); MOD_LOG(params, "Date of last level %d on \"%s\": %s\n", nlp->nlp_llevel, nlp->nlp_backup_path, cctime(&nlp->nlp_ldate)); MOD_LOG(params, "Backing up: \"%s\".\n", nlp->nlp_backup_path); MOD_LOG(params, "Record size: %d\n", session->ns_mover.md_record_size); MOD_LOG(params, "File history: %c.\n", NDMP_YORN(NLP_ISSET(nlp, NLPF_FH))); MOD_LOG(params, "Update: %s\n", NLP_ISSET(nlp, NLPF_UPDATE) ? "TRUE" : "FALSE"); } /* * same_path * * Find out if the paths are the same regardless of the ending slash * * Examples : * /a/b/c == /a/b/c * /a/b/c/ == /a/b/c * /a/b/c == /a/b/c/ */ static boolean_t same_path(char *s, char *t) { boolean_t rv; int slen, tlen; rv = FALSE; slen = strlen(s); tlen = strlen(t); if (slen == tlen && strcmp(s, t) == 0) { rv = TRUE; } else { if (slen == tlen - 1) { if (strncmp(s, t, slen) == 0 && t[tlen - 1] == '/') rv = TRUE; } else if (tlen == slen -1) { if (strncmp(s, t, tlen) == 0 && s[slen - 1] == '/') rv = TRUE; } } NDMP_LOG(LOG_DEBUG, "rv: %d", rv); return (rv); } /* * ndmp_restore_extract_params * * Go through the restore parameters and check them and extract them * by setting NLP flags and other values. * * Parameters: * * Returns: * 0: on success * -1: otherwise */ int ndmp_restore_extract_params(ndmpd_session_t *session, ndmpd_module_params_t *params) { char *bkpath, *rspath; ndmp_lbr_params_t *nlp; if ((nlp = ndmp_get_nlp(session)) == NULL) { NDMP_LOG(LOG_DEBUG, "nlp == NULL"); return (-1); } /* Extract directory from where the backup was made. */ if ((bkpath = get_backup_path(params)) == NULL) return (NDMP_ILLEGAL_ARGS_ERR); nlp->nlp_restore_bk_path = bkpath; /* The number of the selections. */ if ((nlp->nlp_nfiles = get_nfiles(session, params)) == 0) return (NDMP_ILLEGAL_ARGS_ERR); NDMP_LOG(LOG_DEBUG, "nfiles: %d", nlp->nlp_nfiles); if ((rspath = get_restore_dest(params)) == NULL) return (NDMP_ILLEGAL_ARGS_ERR); if (fs_is_rdonly(rspath)) { MOD_LOG(params, "Error: Can't restore to a read-only volume: \"%s\"\n", rspath); return (NDMP_ILLEGAL_ARGS_ERR); } if (fs_is_chkpntvol(rspath)) { MOD_LOG(params, "Error: Can't restore to a checkpoint: \"%s\"\n", rspath); return (NDMP_ILLEGAL_ARGS_ERR); } if (same_path(bkpath, rspath)) rspath = ""; if ((nlp->nlp_restore_path = strdup(rspath)) == NULL) return (NDMP_NO_MEM_ERR); bkpath = trim_name(bkpath); if (correct_ents(params, nlp->nlp_nfiles, bkpath) < 0) { free(nlp->nlp_restore_path); return (NDMP_ILLEGAL_ARGS_ERR); } if (check_restore_paths(params, nlp->nlp_nfiles, rspath) < 0) { free(nlp->nlp_restore_path); return (NDMP_ILLEGAL_ARGS_ERR); } MOD_LOG(params, "Restoring %d files.\n", nlp->nlp_nfiles); MOD_LOG(params, "Restoring to: \"%s\".\n", nlp->nlp_restore_path); MOD_LOG(params, "Record size: %d\n", session->ns_mover.md_record_size); return (NDMP_NO_ERR); } /* * ndmpd_tar_backup_starter (V2 only) * * The main backup starter function. It creates a snapshot if necessary * and calls ndmp_tar_backup to perform the actual backup. It does the cleanup * and release the snapshot at the end. */ int ndmpd_tar_backup_starter(ndmpd_module_params_t *mod_params) { int err; ndmpd_session_t *session; ndmp_lbr_params_t *nlp; session = (ndmpd_session_t *)(mod_params->mp_daemon_cookie); *(mod_params->mp_module_cookie) = nlp = ndmp_get_nlp(session); ndmp_session_ref(session); err = 0; if (fs_is_chkpntvol(nlp->nlp_backup_path) || fs_is_rdonly(nlp->nlp_backup_path) || !fs_is_chkpnt_enabled(nlp->nlp_backup_path)) NLP_SET(nlp, NLPF_CHKPNTED_PATH); else { NLP_UNSET(nlp, NLPF_CHKPNTED_PATH); if (ndmp_start_check_point(nlp->nlp_backup_path, nlp->nlp_jstat->js_job_name) < 0) { MOD_LOG(mod_params, "Error: creating checkpoint on %s\n", nlp->nlp_backup_path); /* -1 causes halt reason to become internal error. */ err = -1; } } NDMP_LOG(LOG_DEBUG, "NLPF_CHKPNTED_PATH: %c", NDMP_YORN(NLP_ISCHKPNTED(nlp))); NDMP_LOG(LOG_DEBUG, "err: %d, update %c", err, NDMP_YORN(NLP_SHOULD_UPDATE(nlp))); if (err == 0) { err = ndmp_get_cur_bk_time(nlp, &nlp->nlp_cdate, nlp->nlp_jstat->js_job_name); if (err != 0) { NDMP_LOG(LOG_DEBUG, "err %d", err); } else { log_bk_params_v2(session, mod_params, nlp); err = ndmpd_tar_backup(session, mod_params, nlp); } } if (nlp->nlp_bkmap >= 0) { (void) dbm_free(nlp->nlp_bkmap); nlp->nlp_bkmap = -1; } if (!NLP_ISCHKPNTED(nlp)) (void) ndmp_release_check_point(nlp->nlp_backup_path, nlp->nlp_jstat->js_job_name); NDMP_LOG(LOG_DEBUG, "err %d, update %c", err, NDMP_YORN(NLP_SHOULD_UPDATE(nlp))); if (err == 0 && NLP_SHOULD_UPDATE(nlp)) { if (ndmpd_put_dumptime(nlp->nlp_backup_path, nlp->nlp_clevel, nlp->nlp_cdate) < 0) { err = EPERM; MOD_LOG(mod_params, "Error: updating the dumpdates file on %s\n", nlp->nlp_backup_path); } } MOD_DONE(mod_params, err); /* nlp_params is allocated in start_backup() */ NDMP_FREE(nlp->nlp_params); NS_DEC(nbk); ndmp_session_unref(session); return (err); } /* * ndmpd_tar_backup_abort * * Abort the running backup by stopping the reader thread (V2 only) */ int ndmpd_tar_backup_abort(void *module_cookie) { ndmp_lbr_params_t *nlp; nlp = (ndmp_lbr_params_t *)module_cookie; if (nlp != NULL && nlp->nlp_session != NULL) { if (nlp->nlp_session->ns_data.dd_mover.addr_type == NDMP_ADDR_TCP && nlp->nlp_session->ns_data.dd_sock != -1) { (void) close(nlp->nlp_session->ns_data.dd_sock); nlp->nlp_session->ns_data.dd_sock = -1; } ndmp_stop_reader_thread(nlp->nlp_session); } return (0); } /* * ndmpd_tar_restore_starter * * Starts the restore by running ndmpd_tar_restore function (V2 only) */ int ndmpd_tar_restore_starter(ndmpd_module_params_t *mod_params) { int err; ndmpd_session_t *session; ndmp_lbr_params_t *nlp; session = (ndmpd_session_t *)(mod_params->mp_daemon_cookie); *(mod_params->mp_module_cookie) = nlp = ndmp_get_nlp(session); ndmp_session_ref(session); err = ndmpd_tar_restore(session, mod_params, nlp); MOD_DONE(mod_params, err); /* nlp_params is allocated in start_recover() */ NDMP_FREE(nlp->nlp_params); NS_DEC(nrs); ndmp_session_unref(session); return (err); } /* * ndmpd_tar_restore_abort * * Aborts the restore operation by stopping the writer thread (V2 only) */ int ndmpd_tar_restore_abort(void *module_cookie) { ndmp_lbr_params_t *nlp; nlp = (ndmp_lbr_params_t *)module_cookie; if (nlp != NULL && nlp->nlp_session != NULL) { if (nlp->nlp_session->ns_data.dd_mover.addr_type == NDMP_ADDR_TCP && nlp->nlp_session->ns_data.dd_sock != -1) { (void) close(nlp->nlp_session->ns_data.dd_sock); nlp->nlp_session->ns_data.dd_sock = -1; } nlp_event_nw(nlp->nlp_session); ndmp_stop_writer_thread(nlp->nlp_session); } return (0); }