Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Namjae Jeon | 4409 | 97.96% | 22 | 73.33% |
Hyeoncheol Lee | 78 | 1.73% | 2 | 6.67% |
Jan Kara | 6 | 0.13% | 1 | 3.33% |
Jeff Layton | 3 | 0.07% | 1 | 3.33% |
Dan J Williams | 2 | 0.04% | 1 | 3.33% |
Muhammad Usama Anjum | 1 | 0.02% | 1 | 3.33% |
Hangyu Hua | 1 | 0.02% | 1 | 3.33% |
Christian Brauner | 1 | 0.02% | 1 | 3.33% |
Total | 4501 | 30 |
// SPDX-License-Identifier: GPL-2.0-or-later /* * Copyright (C) 2016 Namjae Jeon <linkinjeon@kernel.org> * Copyright (C) 2019 Samsung Electronics Co., Ltd. */ #include <linux/fs.h> #include <linux/filelock.h> #include <linux/slab.h> #include <linux/vmalloc.h> #include <linux/kthread.h> #include <linux/freezer.h> #include "glob.h" #include "vfs_cache.h" #include "oplock.h" #include "vfs.h" #include "connection.h" #include "mgmt/tree_connect.h" #include "mgmt/user_session.h" #include "smb_common.h" #include "server.h" #define S_DEL_PENDING 1 #define S_DEL_ON_CLS 2 #define S_DEL_ON_CLS_STREAM 8 static unsigned int inode_hash_mask __read_mostly; static unsigned int inode_hash_shift __read_mostly; static struct hlist_head *inode_hashtable __read_mostly; static DEFINE_RWLOCK(inode_hash_lock); static struct ksmbd_file_table global_ft; static atomic_long_t fd_limit; static struct kmem_cache *filp_cache; static bool durable_scavenger_running; static DEFINE_MUTEX(durable_scavenger_lock); static wait_queue_head_t dh_wq; void ksmbd_set_fd_limit(unsigned long limit) { limit = min(limit, get_max_files()); atomic_long_set(&fd_limit, limit); } static bool fd_limit_depleted(void) { long v = atomic_long_dec_return(&fd_limit); if (v >= 0) return false; atomic_long_inc(&fd_limit); return true; } static void fd_limit_close(void) { atomic_long_inc(&fd_limit); } /* * INODE hash */ static unsigned long inode_hash(struct super_block *sb, unsigned long hashval) { unsigned long tmp; tmp = (hashval * (unsigned long)sb) ^ (GOLDEN_RATIO_PRIME + hashval) / L1_CACHE_BYTES; tmp = tmp ^ ((tmp ^ GOLDEN_RATIO_PRIME) >> inode_hash_shift); return tmp & inode_hash_mask; } static struct ksmbd_inode *__ksmbd_inode_lookup(struct dentry *de) { struct hlist_head *head = inode_hashtable + inode_hash(d_inode(de)->i_sb, (unsigned long)de); struct ksmbd_inode *ci = NULL, *ret_ci = NULL; hlist_for_each_entry(ci, head, m_hash) { if (ci->m_de == de) { if (atomic_inc_not_zero(&ci->m_count)) ret_ci = ci; break; } } return ret_ci; } static struct ksmbd_inode *ksmbd_inode_lookup(struct ksmbd_file *fp) { return __ksmbd_inode_lookup(fp->filp->f_path.dentry); } struct ksmbd_inode *ksmbd_inode_lookup_lock(struct dentry *d) { struct ksmbd_inode *ci; read_lock(&inode_hash_lock); ci = __ksmbd_inode_lookup(d); read_unlock(&inode_hash_lock); return ci; } int ksmbd_query_inode_status(struct dentry *dentry) { struct ksmbd_inode *ci; int ret = KSMBD_INODE_STATUS_UNKNOWN; read_lock(&inode_hash_lock); ci = __ksmbd_inode_lookup(dentry); if (ci) { ret = KSMBD_INODE_STATUS_OK; if (ci->m_flags & (S_DEL_PENDING | S_DEL_ON_CLS)) ret = KSMBD_INODE_STATUS_PENDING_DELETE; atomic_dec(&ci->m_count); } read_unlock(&inode_hash_lock); return ret; } bool ksmbd_inode_pending_delete(struct ksmbd_file *fp) { return (fp->f_ci->m_flags & (S_DEL_PENDING | S_DEL_ON_CLS)); } void ksmbd_set_inode_pending_delete(struct ksmbd_file *fp) { fp->f_ci->m_flags |= S_DEL_PENDING; } void ksmbd_clear_inode_pending_delete(struct ksmbd_file *fp) { fp->f_ci->m_flags &= ~S_DEL_PENDING; } void ksmbd_fd_set_delete_on_close(struct ksmbd_file *fp, int file_info) { if (ksmbd_stream_fd(fp)) { fp->f_ci->m_flags |= S_DEL_ON_CLS_STREAM; return; } fp->f_ci->m_flags |= S_DEL_ON_CLS; } static void ksmbd_inode_hash(struct ksmbd_inode *ci) { struct hlist_head *b = inode_hashtable + inode_hash(d_inode(ci->m_de)->i_sb, (unsigned long)ci->m_de); hlist_add_head(&ci->m_hash, b); } static void ksmbd_inode_unhash(struct ksmbd_inode *ci) { write_lock(&inode_hash_lock); hlist_del_init(&ci->m_hash); write_unlock(&inode_hash_lock); } static int ksmbd_inode_init(struct ksmbd_inode *ci, struct ksmbd_file *fp) { atomic_set(&ci->m_count, 1); atomic_set(&ci->op_count, 0); atomic_set(&ci->sop_count, 0); ci->m_flags = 0; ci->m_fattr = 0; INIT_LIST_HEAD(&ci->m_fp_list); INIT_LIST_HEAD(&ci->m_op_list); init_rwsem(&ci->m_lock); ci->m_de = fp->filp->f_path.dentry; return 0; } static struct ksmbd_inode *ksmbd_inode_get(struct ksmbd_file *fp) { struct ksmbd_inode *ci, *tmpci; int rc; read_lock(&inode_hash_lock); ci = ksmbd_inode_lookup(fp); read_unlock(&inode_hash_lock); if (ci) return ci; ci = kmalloc(sizeof(struct ksmbd_inode), GFP_KERNEL); if (!ci) return NULL; rc = ksmbd_inode_init(ci, fp); if (rc) { pr_err("inode initialized failed\n"); kfree(ci); return NULL; } write_lock(&inode_hash_lock); tmpci = ksmbd_inode_lookup(fp); if (!tmpci) { ksmbd_inode_hash(ci); } else { kfree(ci); ci = tmpci; } write_unlock(&inode_hash_lock); return ci; } static void ksmbd_inode_free(struct ksmbd_inode *ci) { ksmbd_inode_unhash(ci); kfree(ci); } void ksmbd_inode_put(struct ksmbd_inode *ci) { if (atomic_dec_and_test(&ci->m_count)) ksmbd_inode_free(ci); } int __init ksmbd_inode_hash_init(void) { unsigned int loop; unsigned long numentries = 16384; unsigned long bucketsize = sizeof(struct hlist_head); unsigned long size; inode_hash_shift = ilog2(numentries); inode_hash_mask = (1 << inode_hash_shift) - 1; size = bucketsize << inode_hash_shift; /* init master fp hash table */ inode_hashtable = vmalloc(size); if (!inode_hashtable) return -ENOMEM; for (loop = 0; loop < (1U << inode_hash_shift); loop++) INIT_HLIST_HEAD(&inode_hashtable[loop]); return 0; } void ksmbd_release_inode_hash(void) { vfree(inode_hashtable); } static void __ksmbd_inode_close(struct ksmbd_file *fp) { struct ksmbd_inode *ci = fp->f_ci; int err; struct file *filp; filp = fp->filp; if (ksmbd_stream_fd(fp) && (ci->m_flags & S_DEL_ON_CLS_STREAM)) { ci->m_flags &= ~S_DEL_ON_CLS_STREAM; err = ksmbd_vfs_remove_xattr(file_mnt_idmap(filp), &filp->f_path, fp->stream.name, true); if (err) pr_err("remove xattr failed : %s\n", fp->stream.name); } if (atomic_dec_and_test(&ci->m_count)) { down_write(&ci->m_lock); if (ci->m_flags & (S_DEL_ON_CLS | S_DEL_PENDING)) { ci->m_flags &= ~(S_DEL_ON_CLS | S_DEL_PENDING); up_write(&ci->m_lock); ksmbd_vfs_unlink(filp); down_write(&ci->m_lock); } up_write(&ci->m_lock); ksmbd_inode_free(ci); } } static void __ksmbd_remove_durable_fd(struct ksmbd_file *fp) { if (!has_file_id(fp->persistent_id)) return; idr_remove(global_ft.idr, fp->persistent_id); } static void ksmbd_remove_durable_fd(struct ksmbd_file *fp) { write_lock(&global_ft.lock); __ksmbd_remove_durable_fd(fp); write_unlock(&global_ft.lock); if (waitqueue_active(&dh_wq)) wake_up(&dh_wq); } static void __ksmbd_remove_fd(struct ksmbd_file_table *ft, struct ksmbd_file *fp) { if (!has_file_id(fp->volatile_id)) return; down_write(&fp->f_ci->m_lock); list_del_init(&fp->node); up_write(&fp->f_ci->m_lock); write_lock(&ft->lock); idr_remove(ft->idr, fp->volatile_id); write_unlock(&ft->lock); } static void __ksmbd_close_fd(struct ksmbd_file_table *ft, struct ksmbd_file *fp) { struct file *filp; struct ksmbd_lock *smb_lock, *tmp_lock; fd_limit_close(); ksmbd_remove_durable_fd(fp); if (ft) __ksmbd_remove_fd(ft, fp); close_id_del_oplock(fp); filp = fp->filp; __ksmbd_inode_close(fp); if (!IS_ERR_OR_NULL(filp)) fput(filp); /* because the reference count of fp is 0, it is guaranteed that * there are not accesses to fp->lock_list. */ list_for_each_entry_safe(smb_lock, tmp_lock, &fp->lock_list, flist) { spin_lock(&fp->conn->llist_lock); list_del(&smb_lock->clist); spin_unlock(&fp->conn->llist_lock); list_del(&smb_lock->flist); locks_free_lock(smb_lock->fl); kfree(smb_lock); } if (ksmbd_stream_fd(fp)) kfree(fp->stream.name); kmem_cache_free(filp_cache, fp); } static struct ksmbd_file *ksmbd_fp_get(struct ksmbd_file *fp) { if (fp->f_state != FP_INITED) return NULL; if (!atomic_inc_not_zero(&fp->refcount)) return NULL; return fp; } static struct ksmbd_file *__ksmbd_lookup_fd(struct ksmbd_file_table *ft, u64 id) { struct ksmbd_file *fp; if (!has_file_id(id)) return NULL; read_lock(&ft->lock); fp = idr_find(ft->idr, id); if (fp) fp = ksmbd_fp_get(fp); read_unlock(&ft->lock); return fp; } static void __put_fd_final(struct ksmbd_work *work, struct ksmbd_file *fp) { __ksmbd_close_fd(&work->sess->file_table, fp); atomic_dec(&work->conn->stats.open_files_count); } static void set_close_state_blocked_works(struct ksmbd_file *fp) { struct ksmbd_work *cancel_work; spin_lock(&fp->f_lock); list_for_each_entry(cancel_work, &fp->blocked_works, fp_entry) { cancel_work->state = KSMBD_WORK_CLOSED; cancel_work->cancel_fn(cancel_work->cancel_argv); } spin_unlock(&fp->f_lock); } int ksmbd_close_fd(struct ksmbd_work *work, u64 id) { struct ksmbd_file *fp; struct ksmbd_file_table *ft; if (!has_file_id(id)) return 0; ft = &work->sess->file_table; write_lock(&ft->lock); fp = idr_find(ft->idr, id); if (fp) { set_close_state_blocked_works(fp); if (fp->f_state != FP_INITED) fp = NULL; else { fp->f_state = FP_CLOSED; if (!atomic_dec_and_test(&fp->refcount)) fp = NULL; } } write_unlock(&ft->lock); if (!fp) return -EINVAL; __put_fd_final(work, fp); return 0; } void ksmbd_fd_put(struct ksmbd_work *work, struct ksmbd_file *fp) { if (!fp) return; if (!atomic_dec_and_test(&fp->refcount)) return; __put_fd_final(work, fp); } static bool __sanity_check(struct ksmbd_tree_connect *tcon, struct ksmbd_file *fp) { if (!fp) return false; if (fp->tcon != tcon) return false; return true; } struct ksmbd_file *ksmbd_lookup_foreign_fd(struct ksmbd_work *work, u64 id) { return __ksmbd_lookup_fd(&work->sess->file_table, id); } struct ksmbd_file *ksmbd_lookup_fd_fast(struct ksmbd_work *work, u64 id) { struct ksmbd_file *fp = __ksmbd_lookup_fd(&work->sess->file_table, id); if (__sanity_check(work->tcon, fp)) return fp; ksmbd_fd_put(work, fp); return NULL; } struct ksmbd_file *ksmbd_lookup_fd_slow(struct ksmbd_work *work, u64 id, u64 pid) { struct ksmbd_file *fp; if (!has_file_id(id)) { id = work->compound_fid; pid = work->compound_pfid; } fp = __ksmbd_lookup_fd(&work->sess->file_table, id); if (!__sanity_check(work->tcon, fp)) { ksmbd_fd_put(work, fp); return NULL; } if (fp->persistent_id != pid) { ksmbd_fd_put(work, fp); return NULL; } return fp; } struct ksmbd_file *ksmbd_lookup_global_fd(unsigned long long id) { return __ksmbd_lookup_fd(&global_ft, id); } struct ksmbd_file *ksmbd_lookup_durable_fd(unsigned long long id) { struct ksmbd_file *fp; fp = __ksmbd_lookup_fd(&global_ft, id); if (fp && (fp->conn || (fp->durable_scavenger_timeout && (fp->durable_scavenger_timeout < jiffies_to_msecs(jiffies))))) { ksmbd_put_durable_fd(fp); fp = NULL; } return fp; } void ksmbd_put_durable_fd(struct ksmbd_file *fp) { if (!atomic_dec_and_test(&fp->refcount)) return; __ksmbd_close_fd(NULL, fp); } struct ksmbd_file *ksmbd_lookup_fd_cguid(char *cguid) { struct ksmbd_file *fp = NULL; unsigned int id; read_lock(&global_ft.lock); idr_for_each_entry(global_ft.idr, fp, id) { if (!memcmp(fp->create_guid, cguid, SMB2_CREATE_GUID_SIZE)) { fp = ksmbd_fp_get(fp); break; } } read_unlock(&global_ft.lock); return fp; } struct ksmbd_file *ksmbd_lookup_fd_inode(struct dentry *dentry) { struct ksmbd_file *lfp; struct ksmbd_inode *ci; struct inode *inode = d_inode(dentry); read_lock(&inode_hash_lock); ci = __ksmbd_inode_lookup(dentry); read_unlock(&inode_hash_lock); if (!ci) return NULL; down_read(&ci->m_lock); list_for_each_entry(lfp, &ci->m_fp_list, node) { if (inode == file_inode(lfp->filp)) { atomic_dec(&ci->m_count); lfp = ksmbd_fp_get(lfp); up_read(&ci->m_lock); return lfp; } } atomic_dec(&ci->m_count); up_read(&ci->m_lock); return NULL; } #define OPEN_ID_TYPE_VOLATILE_ID (0) #define OPEN_ID_TYPE_PERSISTENT_ID (1) static void __open_id_set(struct ksmbd_file *fp, u64 id, int type) { if (type == OPEN_ID_TYPE_VOLATILE_ID) fp->volatile_id = id; if (type == OPEN_ID_TYPE_PERSISTENT_ID) fp->persistent_id = id; } static int __open_id(struct ksmbd_file_table *ft, struct ksmbd_file *fp, int type) { u64 id = 0; int ret; if (type == OPEN_ID_TYPE_VOLATILE_ID && fd_limit_depleted()) { __open_id_set(fp, KSMBD_NO_FID, type); return -EMFILE; } idr_preload(GFP_KERNEL); write_lock(&ft->lock); ret = idr_alloc_cyclic(ft->idr, fp, 0, INT_MAX - 1, GFP_NOWAIT); if (ret >= 0) { id = ret; ret = 0; } else { id = KSMBD_NO_FID; fd_limit_close(); } __open_id_set(fp, id, type); write_unlock(&ft->lock); idr_preload_end(); return ret; } unsigned int ksmbd_open_durable_fd(struct ksmbd_file *fp) { __open_id(&global_ft, fp, OPEN_ID_TYPE_PERSISTENT_ID); return fp->persistent_id; } struct ksmbd_file *ksmbd_open_fd(struct ksmbd_work *work, struct file *filp) { struct ksmbd_file *fp; int ret; fp = kmem_cache_zalloc(filp_cache, GFP_KERNEL); if (!fp) { pr_err("Failed to allocate memory\n"); return ERR_PTR(-ENOMEM); } INIT_LIST_HEAD(&fp->blocked_works); INIT_LIST_HEAD(&fp->node); INIT_LIST_HEAD(&fp->lock_list); spin_lock_init(&fp->f_lock); atomic_set(&fp->refcount, 1); fp->filp = filp; fp->conn = work->conn; fp->tcon = work->tcon; fp->volatile_id = KSMBD_NO_FID; fp->persistent_id = KSMBD_NO_FID; fp->f_state = FP_NEW; fp->f_ci = ksmbd_inode_get(fp); if (!fp->f_ci) { ret = -ENOMEM; goto err_out; } ret = __open_id(&work->sess->file_table, fp, OPEN_ID_TYPE_VOLATILE_ID); if (ret) { ksmbd_inode_put(fp->f_ci); goto err_out; } atomic_inc(&work->conn->stats.open_files_count); return fp; err_out: kmem_cache_free(filp_cache, fp); return ERR_PTR(ret); } void ksmbd_update_fstate(struct ksmbd_file_table *ft, struct ksmbd_file *fp, unsigned int state) { if (!fp) return; write_lock(&ft->lock); fp->f_state = state; write_unlock(&ft->lock); } static int __close_file_table_ids(struct ksmbd_file_table *ft, struct ksmbd_tree_connect *tcon, bool (*skip)(struct ksmbd_tree_connect *tcon, struct ksmbd_file *fp)) { unsigned int id; struct ksmbd_file *fp; int num = 0; idr_for_each_entry(ft->idr, fp, id) { if (skip(tcon, fp)) continue; set_close_state_blocked_works(fp); if (!atomic_dec_and_test(&fp->refcount)) continue; __ksmbd_close_fd(ft, fp); num++; } return num; } static inline bool is_reconnectable(struct ksmbd_file *fp) { struct oplock_info *opinfo = opinfo_get(fp); bool reconn = false; if (!opinfo) return false; if (opinfo->op_state != OPLOCK_STATE_NONE) { opinfo_put(opinfo); return false; } if (fp->is_resilient || fp->is_persistent) reconn = true; else if (fp->is_durable && opinfo->is_lease && opinfo->o_lease->state & SMB2_LEASE_HANDLE_CACHING_LE) reconn = true; else if (fp->is_durable && opinfo->level == SMB2_OPLOCK_LEVEL_BATCH) reconn = true; opinfo_put(opinfo); return reconn; } static bool tree_conn_fd_check(struct ksmbd_tree_connect *tcon, struct ksmbd_file *fp) { return fp->tcon != tcon; } static bool ksmbd_durable_scavenger_alive(void) { mutex_lock(&durable_scavenger_lock); if (!durable_scavenger_running) { mutex_unlock(&durable_scavenger_lock); return false; } mutex_unlock(&durable_scavenger_lock); if (kthread_should_stop()) return false; if (idr_is_empty(global_ft.idr)) return false; return true; } static void ksmbd_scavenger_dispose_dh(struct list_head *head) { while (!list_empty(head)) { struct ksmbd_file *fp; fp = list_first_entry(head, struct ksmbd_file, node); list_del_init(&fp->node); __ksmbd_close_fd(NULL, fp); } } static int ksmbd_durable_scavenger(void *dummy) { struct ksmbd_file *fp = NULL; unsigned int id; unsigned int min_timeout = 1; bool found_fp_timeout; LIST_HEAD(scavenger_list); unsigned long remaining_jiffies; __module_get(THIS_MODULE); set_freezable(); while (ksmbd_durable_scavenger_alive()) { if (try_to_freeze()) continue; found_fp_timeout = false; remaining_jiffies = wait_event_timeout(dh_wq, ksmbd_durable_scavenger_alive() == false, __msecs_to_jiffies(min_timeout)); if (remaining_jiffies) min_timeout = jiffies_to_msecs(remaining_jiffies); else min_timeout = DURABLE_HANDLE_MAX_TIMEOUT; write_lock(&global_ft.lock); idr_for_each_entry(global_ft.idr, fp, id) { if (!fp->durable_timeout) continue; if (atomic_read(&fp->refcount) > 1 || fp->conn) continue; found_fp_timeout = true; if (fp->durable_scavenger_timeout <= jiffies_to_msecs(jiffies)) { __ksmbd_remove_durable_fd(fp); list_add(&fp->node, &scavenger_list); } else { unsigned long durable_timeout; durable_timeout = fp->durable_scavenger_timeout - jiffies_to_msecs(jiffies); if (min_timeout > durable_timeout) min_timeout = durable_timeout; } } write_unlock(&global_ft.lock); ksmbd_scavenger_dispose_dh(&scavenger_list); if (found_fp_timeout == false) break; } mutex_lock(&durable_scavenger_lock); durable_scavenger_running = false; mutex_unlock(&durable_scavenger_lock); module_put(THIS_MODULE); return 0; } void ksmbd_launch_ksmbd_durable_scavenger(void) { if (!(server_conf.flags & KSMBD_GLOBAL_FLAG_DURABLE_HANDLE)) return; mutex_lock(&durable_scavenger_lock); if (durable_scavenger_running == true) { mutex_unlock(&durable_scavenger_lock); return; } durable_scavenger_running = true; server_conf.dh_task = kthread_run(ksmbd_durable_scavenger, (void *)NULL, "ksmbd-durable-scavenger"); if (IS_ERR(server_conf.dh_task)) pr_err("cannot start conn thread, err : %ld\n", PTR_ERR(server_conf.dh_task)); mutex_unlock(&durable_scavenger_lock); } void ksmbd_stop_durable_scavenger(void) { if (!(server_conf.flags & KSMBD_GLOBAL_FLAG_DURABLE_HANDLE)) return; mutex_lock(&durable_scavenger_lock); if (!durable_scavenger_running) { mutex_unlock(&durable_scavenger_lock); return; } durable_scavenger_running = false; if (waitqueue_active(&dh_wq)) wake_up(&dh_wq); mutex_unlock(&durable_scavenger_lock); kthread_stop(server_conf.dh_task); } static bool session_fd_check(struct ksmbd_tree_connect *tcon, struct ksmbd_file *fp) { struct ksmbd_inode *ci; struct oplock_info *op; struct ksmbd_conn *conn; if (!is_reconnectable(fp)) return false; conn = fp->conn; ci = fp->f_ci; down_write(&ci->m_lock); list_for_each_entry_rcu(op, &ci->m_op_list, op_entry) { if (op->conn != conn) continue; op->conn = NULL; } up_write(&ci->m_lock); fp->conn = NULL; fp->tcon = NULL; fp->volatile_id = KSMBD_NO_FID; if (fp->durable_timeout) fp->durable_scavenger_timeout = jiffies_to_msecs(jiffies) + fp->durable_timeout; return true; } void ksmbd_close_tree_conn_fds(struct ksmbd_work *work) { int num = __close_file_table_ids(&work->sess->file_table, work->tcon, tree_conn_fd_check); atomic_sub(num, &work->conn->stats.open_files_count); } void ksmbd_close_session_fds(struct ksmbd_work *work) { int num = __close_file_table_ids(&work->sess->file_table, work->tcon, session_fd_check); atomic_sub(num, &work->conn->stats.open_files_count); } int ksmbd_init_global_file_table(void) { return ksmbd_init_file_table(&global_ft); } void ksmbd_free_global_file_table(void) { struct ksmbd_file *fp = NULL; unsigned int id; idr_for_each_entry(global_ft.idr, fp, id) { ksmbd_remove_durable_fd(fp); __ksmbd_close_fd(NULL, fp); } idr_destroy(global_ft.idr); kfree(global_ft.idr); } int ksmbd_validate_name_reconnect(struct ksmbd_share_config *share, struct ksmbd_file *fp, char *name) { char *pathname, *ab_pathname; int ret = 0; pathname = kmalloc(PATH_MAX, GFP_KERNEL); if (!pathname) return -EACCES; ab_pathname = d_path(&fp->filp->f_path, pathname, PATH_MAX); if (IS_ERR(ab_pathname)) { kfree(pathname); return -EACCES; } if (name && strcmp(&ab_pathname[share->path_sz + 1], name)) { ksmbd_debug(SMB, "invalid name reconnect %s\n", name); ret = -EINVAL; } kfree(pathname); return ret; } int ksmbd_reopen_durable_fd(struct ksmbd_work *work, struct ksmbd_file *fp) { struct ksmbd_inode *ci; struct oplock_info *op; if (!fp->is_durable || fp->conn || fp->tcon) { pr_err("Invalid durable fd [%p:%p]\n", fp->conn, fp->tcon); return -EBADF; } if (has_file_id(fp->volatile_id)) { pr_err("Still in use durable fd: %llu\n", fp->volatile_id); return -EBADF; } fp->conn = work->conn; fp->tcon = work->tcon; ci = fp->f_ci; down_write(&ci->m_lock); list_for_each_entry_rcu(op, &ci->m_op_list, op_entry) { if (op->conn) continue; op->conn = fp->conn; } up_write(&ci->m_lock); fp->f_state = FP_NEW; __open_id(&work->sess->file_table, fp, OPEN_ID_TYPE_VOLATILE_ID); if (!has_file_id(fp->volatile_id)) { fp->conn = NULL; fp->tcon = NULL; return -EBADF; } return 0; } int ksmbd_init_file_table(struct ksmbd_file_table *ft) { ft->idr = kzalloc(sizeof(struct idr), GFP_KERNEL); if (!ft->idr) return -ENOMEM; idr_init(ft->idr); rwlock_init(&ft->lock); return 0; } void ksmbd_destroy_file_table(struct ksmbd_file_table *ft) { if (!ft->idr) return; __close_file_table_ids(ft, NULL, session_fd_check); idr_destroy(ft->idr); kfree(ft->idr); ft->idr = NULL; } int ksmbd_init_file_cache(void) { filp_cache = kmem_cache_create("ksmbd_file_cache", sizeof(struct ksmbd_file), 0, SLAB_HWCACHE_ALIGN, NULL); if (!filp_cache) goto out; init_waitqueue_head(&dh_wq); return 0; out: pr_err("failed to allocate file cache\n"); return -ENOMEM; } void ksmbd_exit_file_cache(void) { kmem_cache_destroy(filp_cache); }
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