/* C wrappers around some zfs calls and C in general that should simplify * using libzfs from go language, make go code shorter and more readable. */ #include #include #include #include #include "common.h" #include "zpool.h" #include "zfs.h" dataset_list_t *create_dataset_list_item() { dataset_list_t *zlist = malloc(sizeof(dataset_list_t)); memset(zlist, 0, sizeof(dataset_list_t)); return zlist; } void dataset_list_close(dataset_list_t *list) { zfs_close(list->zh); free(list); // dataset_list_free(list); } void dataset_list_free(dataset_list_t *list) { dataset_list_t *next; while(list) { next = list->pnext; free(list); list = next; } } int dataset_list_callb(zfs_handle_t *dataset, void *data) { dataset_list_t **lroot = (dataset_list_t**)data; dataset_list_t *nroot = create_dataset_list_item(); if ( !((*lroot)->zh) ) { (*lroot)->zh = dataset; } else { nroot->zh = dataset; nroot->pnext = (void*)*lroot; *lroot = nroot; } return 0; } dataset_list_ptr dataset_list_root() { int err = 0; dataset_list_t *zlist = create_dataset_list_item(); err = zfs_iter_root(libzfsHandle, dataset_list_callb, &zlist); if ( err != 0 || zlist->zh == NULL) { dataset_list_free(zlist); return NULL; } return zlist; } dataset_list_ptr dataset_next(dataset_list_t *dataset) { return dataset->pnext; } int dataset_type(dataset_list_ptr dataset) { return zfs_get_type(dataset->zh); } dataset_list_ptr dataset_open(const char *path) { dataset_list_ptr list = create_dataset_list_item(); list->zh = zfs_open(libzfsHandle, path, 0xF); if (list->zh == NULL) { dataset_list_free(list); list = NULL; } return list; } int dataset_create(const char *path, zfs_type_t type, nvlist_ptr props) { return zfs_create(libzfsHandle, path, type, props); } int dataset_destroy(dataset_list_ptr dataset, boolean_t defer) { return zfs_destroy(dataset->zh, defer); } dataset_list_t *dataset_list_children(dataset_list_t *dataset) { int err = 0; dataset_list_t *zlist = create_dataset_list_item(); err = zfs_iter_children(dataset->zh, dataset_list_callb, &zlist); if ( err != 0 || zlist->zh == NULL) { dataset_list_free(zlist); return NULL; } return zlist; } zpool_list_ptr dataset_get_pool(dataset_list_ptr dataset) { zpool_list_ptr pool = create_zpool_list_item(); if(pool != NULL) { pool->zph = zfs_get_pool_handle(dataset->zh); } return pool; } int dataset_prop_set(dataset_list_ptr dataset, zfs_prop_t prop, const char *value) { return zfs_prop_set(dataset->zh, zfs_prop_to_name(prop), value); } int dataset_user_prop_set(dataset_list_ptr dataset, const char *prop, const char *value) { return zfs_prop_set(dataset->zh, prop, value); } int dataset_clone(dataset_list_ptr dataset, const char *target, nvlist_ptr props) { return zfs_clone(dataset->zh, target, props); } int dataset_snapshot(const char *path, boolean_t recur, nvlist_ptr props) { return zfs_snapshot(libzfsHandle, path, recur, props); } int dataset_rollback(dataset_list_ptr dataset, dataset_list_ptr snapshot, boolean_t force) { return zfs_rollback(dataset->zh, snapshot->zh, force); } int dataset_promote(dataset_list_ptr dataset) { return zfs_promote(dataset->zh); } int dataset_rename(dataset_list_ptr dataset, const char* new_name, boolean_t recur, boolean_t force_unm) { return zfs_rename(dataset->zh, new_name, recur, force_unm); } const char *dataset_is_mounted(dataset_list_ptr dataset){ char *mp; if (0 != zfs_is_mounted(dataset->zh, &mp)) { return NULL; } return mp; } int dataset_mount(dataset_list_ptr dataset, const char *options, int flags) { return zfs_mount(dataset->zh, options, flags); } int dataset_unmount(dataset_list_ptr dataset, int flags) { return zfs_unmount(dataset->zh, NULL, flags); } int dataset_unmountall(dataset_list_ptr dataset, int flags) { return zfs_unmountall(dataset->zh, flags); } const char *dataset_get_name(dataset_list_ptr ds) { return zfs_get_name(ds->zh); } //int read_dataset_property(zfs_handle_t *zh, property_list_t *list, int prop) { property_list_t *read_dataset_property(dataset_list_t *dataset, int prop) { int r = 0; zprop_source_t source; char statbuf[INT_MAX_VALUE]; property_list_ptr list; list = new_property_list(); r = zfs_prop_get(dataset->zh, prop, list->value, INT_MAX_VALUE, &source, statbuf, INT_MAX_VALUE, 1); if (r == 0) { // strcpy(list->name, zpool_prop_to_name(prop)); zprop_source_tostr(list->source, source); list->property = (int)prop; } else { free_properties(list); list = NULL; } return list; } // int read_user_property(zfs_handle_t *zh, property_list_t *list, const char *prop) { property_list_t *read_user_property(dataset_list_t *dataset, const char* prop) { nvlist_t *user_props = zfs_get_user_props(dataset->zh); nvlist_t *propval; zprop_source_t sourcetype; char *strval; char *sourceval; // char source[ZFS_MAX_DATASET_NAME_LEN]; property_list_ptr list = new_property_list(); if (nvlist_lookup_nvlist(user_props, prop, &propval) != 0) { sourcetype = ZPROP_SRC_NONE; (void) strncpy(list->source, "none", sizeof (list->source)); strval = "-"; } else { verify(nvlist_lookup_string(propval, ZPROP_VALUE, &strval) == 0); verify(nvlist_lookup_string(propval, ZPROP_SOURCE, &sourceval) == 0); if (strcmp(sourceval, zfs_get_name(dataset->zh)) == 0) { sourcetype = ZPROP_SRC_LOCAL; (void) strncpy(list->source, "local", sizeof (list->source)); } else if (strcmp(sourceval, ZPROP_SOURCE_VAL_RECVD) == 0) { sourcetype = ZPROP_SRC_RECEIVED; (void) strncpy(list->source, "received", sizeof (list->source)); } else { sourcetype = ZPROP_SRC_INHERITED; (void) strncpy(list->source, sourceval, sizeof (list->source)); } } (void) strncpy(list->value, strval, sizeof (list->value)); return list; } char** alloc_cstrings(int size) { return malloc(size*sizeof(char*)); } void strings_setat(char **a, int at, char *v) { a[at] = v; }