/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright (c) 2018, 2019 by Delphix. All rights reserved. */ #include #include #include #include #include #include #include #include #include "zfs_prop.h" #if !defined(_KERNEL) #error kernel builds only #endif /* * ZFS Module sysfs support * * This extends our sysfs '/sys/module/zfs' entry to include feature * and property attributes. The primary consumer of this information * is user processes, like the zfs CLI, that need to know what the * current loaded ZFS module supports. The libzfs binary will consult * this information when instantiating the zfs|zpool property tables * and the pool features table. * * The added top-level directories are: * /sys/module/zfs * ├── features.kernel * ├── features.pool * ├── properties.dataset * └── properties.pool * * The local interface for the zfs kobjects includes: * zfs_kobj_init() * zfs_kobj_add() * zfs_kobj_release() * zfs_kobj_add_attr() * zfs_kobj_fini() */ /* * A zfs_mod_kobj_t represents a zfs kobject under '/sys/module/zfs' */ struct zfs_mod_kobj; typedef struct zfs_mod_kobj zfs_mod_kobj_t; struct zfs_mod_kobj { struct kobject zko_kobj; struct kobj_type zko_kobj_type; struct sysfs_ops zko_sysfs_ops; size_t zko_attr_count; struct attribute *zko_attr_list; /* allocated */ struct attribute **zko_default_attrs; /* allocated */ size_t zko_child_count; zfs_mod_kobj_t *zko_children; /* allocated */ }; #define ATTR_TABLE_SIZE(cnt) (sizeof (struct attribute) * (cnt)) /* Note +1 for NULL terminator slot */ #define DEFAULT_ATTR_SIZE(cnt) (sizeof (struct attribute *) * (cnt + 1)) #define CHILD_TABLE_SIZE(cnt) (sizeof (zfs_mod_kobj_t) * (cnt)) /* * These are the top-level kobjects under '/sys/module/zfs/' */ static zfs_mod_kobj_t kernel_features_kobj; static zfs_mod_kobj_t pool_features_kobj; static zfs_mod_kobj_t dataset_props_kobj; static zfs_mod_kobj_t pool_props_kobj; /* * The show function is used to provide the content * of an attribute into a PAGE_SIZE buffer. */ typedef ssize_t (*sysfs_show_func)(struct kobject *, struct attribute *, char *); static void zfs_kobj_fini(zfs_mod_kobj_t *zkobj) { /* finalize any child kobjects */ if (zkobj->zko_child_count != 0) { ASSERT(zkobj->zko_children); for (int i = 0; i < zkobj->zko_child_count; i++) zfs_kobj_fini(&zkobj->zko_children[i]); } /* kobject_put() will call zfs_kobj_release() to release memory */ kobject_del(&zkobj->zko_kobj); kobject_put(&zkobj->zko_kobj); } static void zfs_kobj_release(struct kobject *kobj) { zfs_mod_kobj_t *zkobj = container_of(kobj, zfs_mod_kobj_t, zko_kobj); if (zkobj->zko_attr_list != NULL) { ASSERT3S(zkobj->zko_attr_count, !=, 0); kmem_free(zkobj->zko_attr_list, ATTR_TABLE_SIZE(zkobj->zko_attr_count)); zkobj->zko_attr_list = NULL; } if (zkobj->zko_default_attrs != NULL) { kmem_free(zkobj->zko_default_attrs, DEFAULT_ATTR_SIZE(zkobj->zko_attr_count)); zkobj->zko_default_attrs = NULL; } if (zkobj->zko_child_count != 0) { ASSERT(zkobj->zko_children); kmem_free(zkobj->zko_children, CHILD_TABLE_SIZE(zkobj->zko_child_count)); zkobj->zko_child_count = 0; zkobj->zko_children = NULL; } zkobj->zko_attr_count = 0; } #ifndef sysfs_attr_init #define sysfs_attr_init(attr) do {} while (0) #endif static void zfs_kobj_add_attr(zfs_mod_kobj_t *zkobj, int attr_num, const char *attr_name) { VERIFY3U(attr_num, <, zkobj->zko_attr_count); ASSERT(zkobj->zko_attr_list); ASSERT(zkobj->zko_default_attrs); zkobj->zko_attr_list[attr_num].name = attr_name; zkobj->zko_attr_list[attr_num].mode = 0444; zkobj->zko_default_attrs[attr_num] = &zkobj->zko_attr_list[attr_num]; sysfs_attr_init(&zkobj->zko_attr_list[attr_num]); } static int zfs_kobj_init(zfs_mod_kobj_t *zkobj, int attr_cnt, int child_cnt, sysfs_show_func show_func) { /* * Initialize object's attributes. Count can be zero. */ if (attr_cnt > 0) { zkobj->zko_attr_list = kmem_zalloc(ATTR_TABLE_SIZE(attr_cnt), KM_SLEEP); if (zkobj->zko_attr_list == NULL) return (ENOMEM); } /* this will always have at least one slot for NULL termination */ zkobj->zko_default_attrs = kmem_zalloc(DEFAULT_ATTR_SIZE(attr_cnt), KM_SLEEP); if (zkobj->zko_default_attrs == NULL) { if (zkobj->zko_attr_list != NULL) { kmem_free(zkobj->zko_attr_list, ATTR_TABLE_SIZE(attr_cnt)); } return (ENOMEM); } zkobj->zko_attr_count = attr_cnt; zkobj->zko_kobj_type.default_attrs = zkobj->zko_default_attrs; if (child_cnt > 0) { zkobj->zko_children = kmem_zalloc(CHILD_TABLE_SIZE(child_cnt), KM_SLEEP); if (zkobj->zko_children == NULL) { if (zkobj->zko_default_attrs != NULL) { kmem_free(zkobj->zko_default_attrs, DEFAULT_ATTR_SIZE(attr_cnt)); } if (zkobj->zko_attr_list != NULL) { kmem_free(zkobj->zko_attr_list, ATTR_TABLE_SIZE(attr_cnt)); } return (ENOMEM); } zkobj->zko_child_count = child_cnt; } zkobj->zko_sysfs_ops.show = show_func; zkobj->zko_kobj_type.sysfs_ops = &zkobj->zko_sysfs_ops; zkobj->zko_kobj_type.release = zfs_kobj_release; return (0); } static int zfs_kobj_add(zfs_mod_kobj_t *zkobj, struct kobject *parent, const char *name) { /* zko_default_attrs must be NULL terminated */ ASSERT(zkobj->zko_default_attrs != NULL); ASSERT(zkobj->zko_default_attrs[zkobj->zko_attr_count] == NULL); kobject_init(&zkobj->zko_kobj, &zkobj->zko_kobj_type); return (kobject_add(&zkobj->zko_kobj, parent, name)); } /* * Each zfs property has these common attributes */ static const char *zprop_attrs[] = { "type", "readonly", "setonce", "visible", "values", "default", "datasets" /* zfs properties only */ }; #define ZFS_PROP_ATTR_COUNT ARRAY_SIZE(zprop_attrs) #define ZPOOL_PROP_ATTR_COUNT (ZFS_PROP_ATTR_COUNT - 1) static const char *zprop_types[] = { "number", "string", "index", }; typedef struct zfs_type_map { zfs_type_t ztm_type; const char *ztm_name; } zfs_type_map_t; static zfs_type_map_t type_map[] = { {ZFS_TYPE_FILESYSTEM, "filesystem"}, {ZFS_TYPE_SNAPSHOT, "snapshot"}, {ZFS_TYPE_VOLUME, "volume"}, {ZFS_TYPE_BOOKMARK, "bookmark"} }; /* * Show the content for a zfs property attribute */ static ssize_t zprop_sysfs_show(const char *attr_name, const zprop_desc_t *property, char *buf, size_t buflen) { const char *show_str; /* For dataset properties list the dataset types that apply */ if (strcmp(attr_name, "datasets") == 0 && property->pd_types != ZFS_TYPE_POOL) { int len = 0; for (int i = 0; i < ARRAY_SIZE(type_map); i++) { if (type_map[i].ztm_type & property->pd_types) { len += snprintf(buf + len, buflen - len, "%s ", type_map[i].ztm_name); } } len += snprintf(buf + len, buflen - len, "\n"); return (len); } if (strcmp(attr_name, "type") == 0) { show_str = zprop_types[property->pd_proptype]; } else if (strcmp(attr_name, "readonly") == 0) { show_str = property->pd_attr == PROP_READONLY ? "1" : "0"; } else if (strcmp(attr_name, "setonce") == 0) { show_str = property->pd_attr == PROP_ONETIME ? "1" : "0"; } else if (strcmp(attr_name, "visible") == 0) { show_str = property->pd_visible ? "1" : "0"; } else if (strcmp(attr_name, "values") == 0) { show_str = property->pd_values ? property->pd_values : ""; } else if (strcmp(attr_name, "default") == 0) { char number[32]; switch (property->pd_proptype) { case PROP_TYPE_NUMBER: (void) snprintf(number, sizeof (number), "%llu", (u_longlong_t)property->pd_numdefault); show_str = number; break; case PROP_TYPE_STRING: show_str = property->pd_strdefault ? property->pd_strdefault : ""; break; case PROP_TYPE_INDEX: if (zprop_index_to_string(property->pd_propnum, property->pd_numdefault, &show_str, property->pd_types) != 0) { show_str = ""; } break; default: return (0); } } else { return (0); } return (snprintf(buf, buflen, "%s\n", show_str)); } static ssize_t dataset_property_show(struct kobject *kobj, struct attribute *attr, char *buf) { zfs_prop_t prop = zfs_name_to_prop(kobject_name(kobj)); zprop_desc_t *prop_tbl = zfs_prop_get_table(); ssize_t len; ASSERT3U(prop, <, ZFS_NUM_PROPS); len = zprop_sysfs_show(attr->name, &prop_tbl[prop], buf, PAGE_SIZE); return (len); } static ssize_t pool_property_show(struct kobject *kobj, struct attribute *attr, char *buf) { zpool_prop_t prop = zpool_name_to_prop(kobject_name(kobj)); zprop_desc_t *prop_tbl = zpool_prop_get_table(); ssize_t len; ASSERT3U(prop, <, ZPOOL_NUM_PROPS); len = zprop_sysfs_show(attr->name, &prop_tbl[prop], buf, PAGE_SIZE); return (len); } /* * ZFS kernel feature attributes for '/sys/module/zfs/features.kernel' * * This list is intended for kernel features that don't have a pool feature * association or that extend existing user kernel interfaces. * * A user processes can easily check if the running zfs kernel module * supports the new feature. */ static const char *zfs_kernel_features[] = { /* --> Add new kernel features here */ "com.delphix:vdev_initialize", "org.zfsonlinux:vdev_trim", }; #define KERNEL_FEATURE_COUNT ARRAY_SIZE(zfs_kernel_features) static ssize_t kernel_feature_show(struct kobject *kobj, struct attribute *attr, char *buf) { if (strcmp(attr->name, "supported") == 0) return (snprintf(buf, PAGE_SIZE, "yes\n")); return (0); } static void kernel_feature_to_kobj(zfs_mod_kobj_t *parent, int slot, const char *name) { zfs_mod_kobj_t *zfs_kobj = &parent->zko_children[slot]; ASSERT3U(slot, <, KERNEL_FEATURE_COUNT); ASSERT(name); int err = zfs_kobj_init(zfs_kobj, 1, 0, kernel_feature_show); if (err) return; zfs_kobj_add_attr(zfs_kobj, 0, "supported"); err = zfs_kobj_add(zfs_kobj, &parent->zko_kobj, name); if (err) zfs_kobj_release(&zfs_kobj->zko_kobj); } static int zfs_kernel_features_init(zfs_mod_kobj_t *zfs_kobj, struct kobject *parent) { /* * Create a parent kobject to host kernel features. * * '/sys/module/zfs/features.kernel' */ int err = zfs_kobj_init(zfs_kobj, 0, KERNEL_FEATURE_COUNT, kernel_feature_show); if (err) return (err); err = zfs_kobj_add(zfs_kobj, parent, ZFS_SYSFS_KERNEL_FEATURES); if (err) { zfs_kobj_release(&zfs_kobj->zko_kobj); return (err); } /* * Now create a kobject for each feature. * * '/sys/module/zfs/features.kernel/' */ for (int f = 0; f < KERNEL_FEATURE_COUNT; f++) kernel_feature_to_kobj(zfs_kobj, f, zfs_kernel_features[f]); return (0); } /* * Each pool feature has these common attributes */ static const char *pool_feature_attrs[] = { "description", "guid", "uname", "readonly_compatible", "required_for_mos", "activate_on_enable", "per_dataset" }; #define ZPOOL_FEATURE_ATTR_COUNT ARRAY_SIZE(pool_feature_attrs) /* * Show the content for the given zfs pool feature attribute */ static ssize_t pool_feature_show(struct kobject *kobj, struct attribute *attr, char *buf) { spa_feature_t fid; if (zfeature_lookup_guid(kobject_name(kobj), &fid) != 0) return (0); ASSERT3U(fid, <, SPA_FEATURES); zfeature_flags_t flags = spa_feature_table[fid].fi_flags; const char *show_str = NULL; if (strcmp(attr->name, "description") == 0) { show_str = spa_feature_table[fid].fi_desc; } else if (strcmp(attr->name, "guid") == 0) { show_str = spa_feature_table[fid].fi_guid; } else if (strcmp(attr->name, "uname") == 0) { show_str = spa_feature_table[fid].fi_uname; } else if (strcmp(attr->name, "readonly_compatible") == 0) { show_str = flags & ZFEATURE_FLAG_READONLY_COMPAT ? "1" : "0"; } else if (strcmp(attr->name, "required_for_mos") == 0) { show_str = flags & ZFEATURE_FLAG_MOS ? "1" : "0"; } else if (strcmp(attr->name, "activate_on_enable") == 0) { show_str = flags & ZFEATURE_FLAG_ACTIVATE_ON_ENABLE ? "1" : "0"; } else if (strcmp(attr->name, "per_dataset") == 0) { show_str = flags & ZFEATURE_FLAG_PER_DATASET ? "1" : "0"; } if (show_str == NULL) return (0); return (snprintf(buf, PAGE_SIZE, "%s\n", show_str)); } static void pool_feature_to_kobj(zfs_mod_kobj_t *parent, spa_feature_t fid, const char *name) { zfs_mod_kobj_t *zfs_kobj = &parent->zko_children[fid]; ASSERT3U(fid, <, SPA_FEATURES); ASSERT(name); int err = zfs_kobj_init(zfs_kobj, ZPOOL_FEATURE_ATTR_COUNT, 0, pool_feature_show); if (err) return; for (int i = 0; i < ZPOOL_FEATURE_ATTR_COUNT; i++) zfs_kobj_add_attr(zfs_kobj, i, pool_feature_attrs[i]); err = zfs_kobj_add(zfs_kobj, &parent->zko_kobj, name); if (err) zfs_kobj_release(&zfs_kobj->zko_kobj); } static int zfs_pool_features_init(zfs_mod_kobj_t *zfs_kobj, struct kobject *parent) { /* * Create a parent kobject to host pool features. * * '/sys/module/zfs/features.pool' */ int err = zfs_kobj_init(zfs_kobj, 0, SPA_FEATURES, pool_feature_show); if (err) return (err); err = zfs_kobj_add(zfs_kobj, parent, ZFS_SYSFS_POOL_FEATURES); if (err) { zfs_kobj_release(&zfs_kobj->zko_kobj); return (err); } /* * Now create a kobject for each feature. * * '/sys/module/zfs/features.pool/' */ for (spa_feature_t i = 0; i < SPA_FEATURES; i++) pool_feature_to_kobj(zfs_kobj, i, spa_feature_table[i].fi_guid); return (0); } typedef struct prop_to_kobj_arg { zprop_desc_t *p2k_table; zfs_mod_kobj_t *p2k_parent; sysfs_show_func p2k_show_func; int p2k_attr_count; } prop_to_kobj_arg_t; static int zprop_to_kobj(int prop, void *args) { prop_to_kobj_arg_t *data = args; zfs_mod_kobj_t *parent = data->p2k_parent; zfs_mod_kobj_t *zfs_kobj = &parent->zko_children[prop]; const char *name = data->p2k_table[prop].pd_name; int err; ASSERT(name); err = zfs_kobj_init(zfs_kobj, data->p2k_attr_count, 0, data->p2k_show_func); if (err) return (ZPROP_CONT); for (int i = 0; i < data->p2k_attr_count; i++) zfs_kobj_add_attr(zfs_kobj, i, zprop_attrs[i]); err = zfs_kobj_add(zfs_kobj, &parent->zko_kobj, name); if (err) zfs_kobj_release(&zfs_kobj->zko_kobj); return (ZPROP_CONT); } static int zfs_sysfs_properties_init(zfs_mod_kobj_t *zfs_kobj, struct kobject *parent, zfs_type_t type) { prop_to_kobj_arg_t context; const char *name; int err; /* * Create a parent kobject to host properties. * * '/sys/module/zfs/properties.' */ if (type == ZFS_TYPE_POOL) { name = ZFS_SYSFS_POOL_PROPERTIES; context.p2k_table = zpool_prop_get_table(); context.p2k_attr_count = ZPOOL_PROP_ATTR_COUNT; context.p2k_parent = zfs_kobj; context.p2k_show_func = pool_property_show; err = zfs_kobj_init(zfs_kobj, 0, ZPOOL_NUM_PROPS, pool_property_show); } else { name = ZFS_SYSFS_DATASET_PROPERTIES; context.p2k_table = zfs_prop_get_table(); context.p2k_attr_count = ZFS_PROP_ATTR_COUNT; context.p2k_parent = zfs_kobj; context.p2k_show_func = dataset_property_show; err = zfs_kobj_init(zfs_kobj, 0, ZFS_NUM_PROPS, dataset_property_show); } if (err) return (err); err = zfs_kobj_add(zfs_kobj, parent, name); if (err) { zfs_kobj_release(&zfs_kobj->zko_kobj); return (err); } /* * Create a kobject for each property. * * '/sys/module/zfs/properties./' */ (void) zprop_iter_common(zprop_to_kobj, &context, B_TRUE, B_FALSE, type); return (err); } void zfs_sysfs_init(void) { struct kobject *parent; #if defined(CONFIG_ZFS) && !defined(CONFIG_ZFS_MODULE) parent = kobject_create_and_add("zfs", fs_kobj); #else parent = &(((struct module *)(THIS_MODULE))->mkobj).kobj; #endif int err; if (parent == NULL) return; err = zfs_kernel_features_init(&kernel_features_kobj, parent); if (err) return; err = zfs_pool_features_init(&pool_features_kobj, parent); if (err) { zfs_kobj_fini(&kernel_features_kobj); return; } err = zfs_sysfs_properties_init(&pool_props_kobj, parent, ZFS_TYPE_POOL); if (err) { zfs_kobj_fini(&kernel_features_kobj); zfs_kobj_fini(&pool_features_kobj); return; } err = zfs_sysfs_properties_init(&dataset_props_kobj, parent, ZFS_TYPE_FILESYSTEM); if (err) { zfs_kobj_fini(&kernel_features_kobj); zfs_kobj_fini(&pool_features_kobj); zfs_kobj_fini(&pool_props_kobj); return; } } void zfs_sysfs_fini(void) { /* * Remove top-level kobjects; each will remove any children kobjects */ zfs_kobj_fini(&kernel_features_kobj); zfs_kobj_fini(&pool_features_kobj); zfs_kobj_fini(&dataset_props_kobj); zfs_kobj_fini(&pool_props_kobj); }