static int testrados(void) { char tmp[32]; int i, r; rados_t cl; if (rados_create(&cl, NULL) < 0) { printf("error initializing\n"); return 1; } if (rados_conf_read_file(cl, NULL)) { printf("error reading configuration file\n"); return 1; } // Try to set a configuration option that doesn't exist. // This should fail. if (!rados_conf_set(cl, "config option that doesn't exist", "some random value")) { printf("error: succeeded in setting nonexistent config option\n"); return 1; } if (rados_conf_get(cl, "log to stderr", tmp, sizeof(tmp))) { printf("error: failed to read log_to_stderr from config\n"); return 1; } // Can we change it? if (rados_conf_set(cl, "log to stderr", "2")) { printf("error: error setting log_to_stderr\n"); return 1; } if (rados_conf_get(cl, "log to stderr", tmp, sizeof(tmp))) { printf("error: failed to read log_to_stderr from config\n"); return 1; } if (tmp[0] != '2') { printf("error: new setting for log_to_stderr failed to take effect.\n"); return 1; } if (rados_connect(cl)) { printf("error connecting\n"); return 1; } if (rados_connect(cl) == 0) { printf("second connect attempt didn't return an error\n"); return 1; } /* create an io_ctx */ r = rados_pool_create(cl, "foo"); printf("rados_pool_create = %d\n", r); rados_ioctx_t io_ctx; r = rados_ioctx_create(cl, "foo", &io_ctx); printf("rados_ioctx_create = %d, io_ctx = %p\n", r, io_ctx); /* list all pools */ { int buf_sz = rados_pool_list(cl, NULL, 0); printf("need buffer size of %d\n", buf_sz); char buf[buf_sz]; int r = rados_pool_list(cl, buf, buf_sz); if (r != buf_sz) { printf("buffer size mismatch: got %d the first time, but %d " "the second.\n", buf_sz, r); return 1; } const char *b = buf; printf("begin pools.\n"); while (1) { if (b[0] == '\0') break; printf(" pool: '%s'\n", b); b += strlen(b) + 1; }; printf("end pools.\n"); } /* stat */ struct rados_pool_stat_t st; r = rados_ioctx_pool_stat(io_ctx, &st); printf("rados_ioctx_pool_stat = %d, %lld KB, %lld objects\n", r, (long long)st.num_kb, (long long)st.num_objects); /* snapshots */ r = rados_ioctx_snap_create(io_ctx, "snap1"); printf("rados_ioctx_snap_create snap1 = %d\n", r); rados_snap_t snaps[10]; r = rados_ioctx_snap_list(io_ctx, snaps, 10); for (i=0; i<r; i++) { char name[100]; rados_ioctx_snap_get_name(io_ctx, snaps[i], name, sizeof(name)); printf("rados_ioctx_snap_list got snap %lld %s\n", (long long)snaps[i], name); } rados_snap_t snapid; r = rados_ioctx_snap_lookup(io_ctx, "snap1", &snapid); printf("rados_ioctx_snap_lookup snap1 got %lld, result %d\n", (long long)snapid, r); r = rados_ioctx_snap_remove(io_ctx, "snap1"); printf("rados_ioctx_snap_remove snap1 = %d\n", r); /* sync io */ time_t tm; char buf[128], buf2[128]; time(&tm); snprintf(buf, 128, "%s", ctime(&tm)); const char *oid = "foo_object"; r = rados_write(io_ctx, oid, buf, strlen(buf) + 1, 0); printf("rados_write = %d\n", r); r = rados_read(io_ctx, oid, buf2, sizeof(buf2), 0); printf("rados_read = %d\n", r); if (memcmp(buf, buf2, r)) printf("*** content mismatch ***\n"); /* attrs */ if (do_rados_setxattr(io_ctx, oid, "b", "2")) return 1; if (do_rados_setxattr(io_ctx, oid, "a", "1")) return 1; if (do_rados_setxattr(io_ctx, oid, "c", "3")) return 1; if (do_rados_getxattr(io_ctx, oid, "a", "1")) return 1; if (do_rados_getxattr(io_ctx, oid, "b", "2")) return 1; if (do_rados_getxattr(io_ctx, oid, "c", "3")) return 1; const char *exkeys[] = { "a", "b", "c", NULL }; const char *exvals[] = { "1", "2", "3", NULL }; if (do_rados_getxattrs(io_ctx, oid, exkeys, exvals)) return 1; uint64_t size; time_t mtime; r = rados_stat(io_ctx, oid, &size, &mtime); printf("rados_stat size = %lld mtime = %d = %d\n", (long long)size, (int)mtime, r); r = rados_stat(io_ctx, "does_not_exist", NULL, NULL); printf("rados_stat(does_not_exist) = %d\n", r); /* exec */ rados_exec(io_ctx, oid, "crypto", "md5", buf, strlen(buf) + 1, buf, 128); printf("exec result=%s\n", buf); r = rados_read(io_ctx, oid, buf2, 128, 0); printf("read result=%s\n", buf2); printf("size=%d\n", r); /* aio */ rados_completion_t a, b; rados_aio_create_completion(0, 0, 0, &a); rados_aio_create_completion(0, 0, 0, &b); rados_aio_write(io_ctx, "a", a, buf, 100, 0); rados_aio_write(io_ctx, "../b/bb_bb_bb\\foo\\bar", b, buf, 100, 0); rados_aio_wait_for_safe(a); printf("a safe\n"); rados_aio_wait_for_safe(b); printf("b safe\n"); rados_aio_release(a); rados_aio_release(b); /* test flush */ printf("testing aio flush\n"); rados_completion_t c; rados_aio_create_completion(0, 0, 0, &c); rados_aio_write(io_ctx, "c", c, buf, 100, 0); int safe = rados_aio_is_safe(c); printf("a should not yet be safe and ... %s\n", safe ? "is":"is not"); assert(!safe); rados_aio_flush(io_ctx); safe = rados_aio_is_safe(c); printf("a should be safe and ... %s\n", safe ? "is":"is not"); assert(safe); rados_aio_release(c); rados_read(io_ctx, "../b/bb_bb_bb\\foo\\bar", buf2, 128, 0); /* list objects */ rados_list_ctx_t h; r = rados_objects_list_open(io_ctx, &h); printf("rados_list_objects_open = %d, h = %p\n", r, h); const char *poolname; while (rados_objects_list_next(h, &poolname) == 0) printf("rados_list_objects_next got object '%s'\n", poolname); rados_objects_list_close(h); /* stat */ r = rados_ioctx_pool_stat(io_ctx, &st); printf("rados_stat_pool = %d, %lld KB, %lld objects\n", r, (long long)st.num_kb, (long long)st.num_objects); /* delete a pool */ printf("rados_delete_pool = %d\n", r); rados_ioctx_destroy(io_ctx); r = rados_pool_delete(cl, "foo"); printf("rados_ioctx_pool_delete = %d\n", r); rados_shutdown(cl); return 0; }
/* * Generic setup for performing a backup. */ static bRC setup_backup(bpContext *ctx, void *value) { int status; plugin_ctx *p_ctx = (plugin_ctx *)ctx->pContext; if (!p_ctx || !value) { return bRC_Error; } if (connect_to_rados(ctx) != bRC_OK) { return bRC_Error; } /* * Create a snapshot and use it for consistent reading. */ if (!p_ctx->rados_snapshotname) { POOL_MEM snapshotname(PM_NAME); Mmsg(snapshotname, "bareos_backup_%ld", p_ctx->JobId); p_ctx->rados_snapshotname = bstrdup(snapshotname.c_str()); } status = rados_ioctx_snap_create(p_ctx->ioctx, p_ctx->rados_snapshotname); if (status < 0) { berrno be; Jmsg(ctx, M_ERROR, "rados_ioctx_snap_create(%s) failed: %s\n", p_ctx->rados_snapshotname, be.bstrerror(-status)); goto bail_out; } status = rados_ioctx_snap_lookup(p_ctx->ioctx, p_ctx->rados_snapshotname, &p_ctx->snap_id); if (status < 0) { berrno be; Jmsg(ctx, M_ERROR, "rados_ioctx_snap_lookup(%s) failed: %s\n", p_ctx->rados_snapshotname, be.bstrerror(-status)); goto bail_out; } rados_ioctx_snap_set_read(p_ctx->ioctx, p_ctx->snap_id); #if defined(HAVE_RADOS_NAMESPACES) && defined(LIBRADOS_ALL_NSPACES) if (!p_ctx->rados_namespace || bstrcasecmp(p_ctx->rados_namespace, "all")) { rados_ioctx_set_namespace(p_ctx->ioctx, LIBRADOS_ALL_NSPACES); } else { rados_ioctx_set_namespace(p_ctx->ioctx, p_ctx->rados_namespace); } #endif /* * See if we need to initialize an list iterator. */ if (!p_ctx->list_iterator) { #if defined(HAVE_RADOS_NAMESPACES) && defined(HAVE_RADOS_NOBJECTS_LIST) status = rados_nobjects_list_open(p_ctx->ioctx, &p_ctx->list_iterator); #else status = rados_objects_list_open(p_ctx->ioctx, &p_ctx->list_iterator); #endif if (status < 0) { berrno be; #if defined(HAVE_RADOS_NAMESPACES) && defined(HAVE_RADOS_NOBJECTS_LIST) Jmsg(ctx, M_ERROR, "rados_nobjects_list_open() failed: %s\n", be.bstrerror(-status)); #else Jmsg(ctx, M_ERROR, "rados_objects_list_open() failed: %s\n", be.bstrerror(-status)); #endif goto bail_out; } return get_next_object_to_backup(ctx); } return bRC_OK; bail_out: if (p_ctx->snap_id) { rados_ioctx_snap_remove(p_ctx->ioctx, p_ctx->rados_snapshotname); p_ctx->snap_id = 0; } if (p_ctx->cluster_initialized) { rados_shutdown(p_ctx->cluster); p_ctx->cluster_initialized = false; } return bRC_Error; }