/* * Copyright (c) 2011 Frantisek Princ * All rights reserved. * * 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. * - The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 AUTHOR 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. */ /** @addtogroup fs * @{ */ /** * @file ext4fs_ops.c * @brief VFS operations for EXT4 filesystem. */ #include #include #include #include #include #include #include #include #include #include "ext4fs.h" #include "../../vfs/vfs.h" #define EXT4FS_NODE(node) ((node) ? (ext4fs_node_t *) (node)->data : NULL) #define OPEN_NODES_KEYS 2 #define OPEN_NODES_DEV_HANDLE_KEY 0 #define OPEN_NODES_INODE_KEY 1 #define OPEN_NODES_BUCKETS 256 typedef struct ext4fs_instance { link_t link; service_id_t service_id; ext4_filesystem_t *filesystem; unsigned int open_nodes_count; } ext4fs_instance_t; typedef struct ext4fs_node { ext4fs_instance_t *instance; ext4_inode_ref_t *inode_ref; fs_node_t *fs_node; link_t link; unsigned int references; } ext4fs_node_t; /* * Forward declarations of auxiliary functions */ static int ext4fs_read_directory(ipc_callid_t, aoff64_t, size_t, ext4fs_instance_t *, ext4_inode_ref_t *, size_t *); static int ext4fs_read_file(ipc_callid_t, aoff64_t, size_t, ext4fs_instance_t *, ext4_inode_ref_t *, size_t *); static bool ext4fs_is_dots(const uint8_t *, size_t); static int ext4fs_instance_get(service_id_t, ext4fs_instance_t **); static int ext4fs_node_get_core(fs_node_t **, ext4fs_instance_t *, fs_index_t); static int ext4fs_node_put_core(ext4fs_node_t *); /* * Forward declarations of EXT4 libfs operations. */ static int ext4fs_root_get(fs_node_t **, service_id_t); static int ext4fs_match(fs_node_t **, fs_node_t *, const char *); static int ext4fs_node_get(fs_node_t **, service_id_t, fs_index_t); static int ext4fs_node_open(fs_node_t *); static int ext4fs_node_put(fs_node_t *); static int ext4fs_create_node(fs_node_t **, service_id_t, int); static int ext4fs_destroy_node(fs_node_t *); static int ext4fs_link(fs_node_t *, fs_node_t *, const char *); static int ext4fs_unlink(fs_node_t *, fs_node_t *, const char *); static int ext4fs_has_children(bool *, fs_node_t *); static fs_index_t ext4fs_index_get(fs_node_t *); static aoff64_t ext4fs_size_get(fs_node_t *); static unsigned ext4fs_lnkcnt_get(fs_node_t *); static bool ext4fs_is_directory(fs_node_t *); static bool ext4fs_is_file(fs_node_t *node); static service_id_t ext4fs_service_get(fs_node_t *node); /* * Static variables */ static LIST_INITIALIZE(instance_list); static FIBRIL_MUTEX_INITIALIZE(instance_list_mutex); static hash_table_t open_nodes; static FIBRIL_MUTEX_INITIALIZE(open_nodes_lock); /* Hash table interface for open nodes hash table */ static hash_index_t open_nodes_hash(unsigned long key[]) { /* TODO: This is very simple and probably can be improved */ return key[OPEN_NODES_INODE_KEY] % OPEN_NODES_BUCKETS; } static int open_nodes_compare(unsigned long key[], hash_count_t keys, link_t *item) { ext4fs_node_t *enode = hash_table_get_instance(item, ext4fs_node_t, link); assert(keys > 0); if (enode->instance->service_id != ((service_id_t) key[OPEN_NODES_DEV_HANDLE_KEY])) { return false; } if (keys == 1) { return true; } assert(keys == 2); return (enode->inode_ref->index == key[OPEN_NODES_INODE_KEY]); } static void open_nodes_remove_cb(link_t *link) { /* We don't use remove callback for this hash table */ } static hash_table_operations_t open_nodes_ops = { .hash = open_nodes_hash, .compare = open_nodes_compare, .remove_callback = open_nodes_remove_cb, }; int ext4fs_global_init(void) { if (!hash_table_create(&open_nodes, OPEN_NODES_BUCKETS, OPEN_NODES_KEYS, &open_nodes_ops)) { return ENOMEM; } return EOK; } int ext4fs_global_fini(void) { hash_table_destroy(&open_nodes); return EOK; } /* * EXT4 libfs operations. */ int ext4fs_instance_get(service_id_t service_id, ext4fs_instance_t **inst) { fibril_mutex_lock(&instance_list_mutex); if (list_empty(&instance_list)) { fibril_mutex_unlock(&instance_list_mutex); return EINVAL; } ext4fs_instance_t *tmp; list_foreach(instance_list, link) { tmp = list_get_instance(link, ext4fs_instance_t, link); if (tmp->service_id == service_id) { *inst = tmp; fibril_mutex_unlock(&instance_list_mutex); return EOK; } } fibril_mutex_unlock(&instance_list_mutex); return EINVAL; } int ext4fs_root_get(fs_node_t **rfn, service_id_t service_id) { return ext4fs_node_get(rfn, service_id, EXT4_INODE_ROOT_INDEX); } int ext4fs_match(fs_node_t **rfn, fs_node_t *pfn, const char *component) { int rc; ext4fs_node_t *eparent = EXT4FS_NODE(pfn); ext4_filesystem_t *fs = eparent->instance->filesystem; if (!ext4_inode_is_type(fs->superblock, eparent->inode_ref->inode, EXT4_INODE_MODE_DIRECTORY)) { return ENOTDIR; } ext4_directory_search_result_t result; rc = ext4_directory_find_entry(&result, eparent->inode_ref, component); if (rc != EOK) { if (rc == ENOENT) { *rfn = NULL; return EOK; } return rc; } uint32_t inode = ext4_directory_entry_ll_get_inode(result.dentry); rc = ext4fs_node_get_core(rfn, eparent->instance, inode); if (rc != EOK) { return rc; } rc = ext4_directory_destroy_result(&result); if (rc != EOK) { return rc; } return EOK; } int ext4fs_node_get(fs_node_t **rfn, service_id_t service_id, fs_index_t index) { int rc; ext4fs_instance_t *inst; rc = ext4fs_instance_get(service_id, &inst); if (rc != EOK) { return rc; } return ext4fs_node_get_core(rfn, inst, index); } int ext4fs_node_get_core(fs_node_t **rfn, ext4fs_instance_t *inst, fs_index_t index) { int rc; fibril_mutex_lock(&open_nodes_lock); /* Check if the node is not already open */ unsigned long key[] = { [OPEN_NODES_DEV_HANDLE_KEY] = inst->service_id, [OPEN_NODES_INODE_KEY] = index, }; link_t *already_open = hash_table_find(&open_nodes, key); ext4fs_node_t *enode = NULL; if (already_open) { enode = hash_table_get_instance(already_open, ext4fs_node_t, link); *rfn = enode->fs_node; enode->references++; fibril_mutex_unlock(&open_nodes_lock); return EOK; } enode = malloc(sizeof(ext4fs_node_t)); if (enode == NULL) { fibril_mutex_unlock(&open_nodes_lock); return ENOMEM; } fs_node_t *fs_node = malloc(sizeof(fs_node_t)); if (fs_node == NULL) { free(enode); fibril_mutex_unlock(&open_nodes_lock); return ENOMEM; } fs_node_initialize(fs_node); ext4_inode_ref_t *inode_ref; rc = ext4_filesystem_get_inode_ref(inst->filesystem, index, &inode_ref); if (rc != EOK) { free(enode); free(fs_node); fibril_mutex_unlock(&open_nodes_lock); return rc; } enode->inode_ref = inode_ref; enode->instance = inst; enode->references = 1; enode->fs_node = fs_node; link_initialize(&enode->link); fs_node->data = enode; *rfn = fs_node; hash_table_insert(&open_nodes, key, &enode->link); inst->open_nodes_count++; fibril_mutex_unlock(&open_nodes_lock); return EOK; } int ext4fs_node_put_core(ext4fs_node_t *enode) { int rc; unsigned long key[] = { [OPEN_NODES_DEV_HANDLE_KEY] = enode->instance->service_id, [OPEN_NODES_INODE_KEY] = enode->inode_ref->index, }; hash_table_remove(&open_nodes, key, OPEN_NODES_KEYS); assert(enode->instance->open_nodes_count > 0); enode->instance->open_nodes_count--; rc = ext4_filesystem_put_inode_ref(enode->inode_ref); if (rc != EOK) { return rc; } free(enode->fs_node); free(enode); return EOK; } int ext4fs_node_open(fs_node_t *fn) { // Stateless operation return EOK; } int ext4fs_node_put(fs_node_t *fn) { int rc; fibril_mutex_lock(&open_nodes_lock); ext4fs_node_t *enode = EXT4FS_NODE(fn); assert(enode->references > 0); enode->references--; if (enode->references == 0) { rc = ext4fs_node_put_core(enode); if (rc != EOK) { fibril_mutex_unlock(&open_nodes_lock); return rc; } } fibril_mutex_unlock(&open_nodes_lock); return EOK; } int ext4fs_create_node(fs_node_t **rfn, service_id_t service_id, int flags) { int rc; ext4fs_node_t *enode; enode = malloc(sizeof(ext4fs_node_t)); if (enode == NULL) { return ENOMEM; } fs_node_t *fs_node; fs_node = malloc(sizeof(fs_node_t)); if (fs_node == NULL) { free(enode); return ENOMEM; } ext4fs_instance_t *inst; rc = ext4fs_instance_get(service_id, &inst); if (rc != EOK) { free(enode); free(fs_node); return rc; } ext4_inode_ref_t *inode_ref; rc = ext4_filesystem_alloc_inode(inst->filesystem, &inode_ref, flags); if (rc != EOK) { free(enode); free(fs_node); return rc; } enode->inode_ref = inode_ref; enode->instance = inst; enode->references = 1; link_initialize(&enode->link); unsigned long key[] = { [OPEN_NODES_DEV_HANDLE_KEY] = inst->service_id, [OPEN_NODES_INODE_KEY] = inode_ref->index, }; fibril_mutex_lock(&open_nodes_lock); hash_table_insert(&open_nodes, key, &enode->link); fibril_mutex_unlock(&open_nodes_lock); inst->open_nodes_count++; enode->inode_ref->dirty = true; fs_node_initialize(fs_node); fs_node->data = enode; enode->fs_node = fs_node; *rfn = fs_node; return EOK; } int ext4fs_destroy_node(fs_node_t *fn) { int rc; bool has_children; rc = ext4fs_has_children(&has_children, fn); if (rc != EOK) { ext4fs_node_put(fn); return rc; } if (has_children) { ext4fs_node_put(fn); return EINVAL; } ext4fs_node_t *enode = EXT4FS_NODE(fn); ext4_filesystem_t *fs = enode->instance->filesystem; ext4_inode_ref_t *inode_ref = enode->inode_ref; rc = ext4_filesystem_truncate_inode(inode_ref, 0); if (rc != EOK) { ext4fs_node_put(fn); return rc; } uint32_t rev_level = ext4_superblock_get_rev_level(fs->superblock); if (rev_level > 0) { ext4_filesystem_delete_orphan(inode_ref); } // TODO set real deletion time // time_t now = time(NULL); time_t now = ext4_inode_get_change_inode_time(inode_ref->inode); ext4_inode_set_deletion_time(inode_ref->inode, (uint32_t)now); inode_ref->dirty = true; rc = ext4_filesystem_free_inode(inode_ref); if (rc != EOK) { ext4fs_node_put(fn); return rc; } ext4fs_node_put(fn); return EOK; } int ext4fs_link(fs_node_t *pfn, fs_node_t *cfn, const char *name) { int rc; // Check maximum name length if (strlen(name) > EXT4_DIRECTORY_FILENAME_LEN) { return ENAMETOOLONG; } ext4fs_node_t *parent = EXT4FS_NODE(pfn); ext4fs_node_t *child = EXT4FS_NODE(cfn); ext4_filesystem_t *fs = parent->instance->filesystem; // Add entry to parent directory rc = ext4_directory_add_entry(parent->inode_ref, name, child->inode_ref); if (rc != EOK) { return rc; } // Fill new dir -> add '.' and '..' entries if (ext4_inode_is_type(fs->superblock, child->inode_ref->inode, EXT4_INODE_MODE_DIRECTORY)) { rc = ext4_directory_add_entry(child->inode_ref, ".", child->inode_ref); if (rc != EOK) { ext4_directory_remove_entry(parent->inode_ref, name); return rc; } rc = ext4_directory_add_entry(child->inode_ref, "..", parent->inode_ref); if (rc != EOK) { ext4_directory_remove_entry(parent->inode_ref, name); ext4_directory_remove_entry(child->inode_ref, "."); return rc; } uint16_t parent_links = ext4_inode_get_links_count(parent->inode_ref->inode); parent_links++; ext4_inode_set_links_count(parent->inode_ref->inode, parent_links); parent->inode_ref->dirty = true; } uint16_t child_links = ext4_inode_get_links_count(child->inode_ref->inode); child_links++; ext4_inode_set_links_count(child->inode_ref->inode, child_links); child->inode_ref->dirty = true; return EOK; } int ext4fs_unlink(fs_node_t *pfn, fs_node_t *cfn, const char *name) { int rc; bool has_children; rc = ext4fs_has_children(&has_children, cfn); if (rc != EOK) { return rc; } // Cannot unlink non-empty node if (has_children) { return ENOTEMPTY; } // Remove entry from parent directory ext4_inode_ref_t *parent = EXT4FS_NODE(pfn)->inode_ref; ext4_filesystem_t *fs = EXT4FS_NODE(pfn)->instance->filesystem; rc = ext4_directory_remove_entry(parent, name); if (rc != EOK) { return rc; } // Decrement links count ext4_inode_ref_t * child_inode_ref = EXT4FS_NODE(cfn)->inode_ref; uint32_t lnk_count = ext4_inode_get_links_count(child_inode_ref->inode); lnk_count--; // If directory - handle links from parent if (lnk_count <= 1 && ext4fs_is_directory(cfn)) { assert(lnk_count == 1); lnk_count--; ext4_inode_ref_t *parent_inode_ref = EXT4FS_NODE(pfn)->inode_ref; uint32_t parent_lnk_count = ext4_inode_get_links_count( parent_inode_ref->inode); parent_lnk_count--; ext4_inode_set_links_count(parent_inode_ref->inode, parent_lnk_count); parent->dirty = true; } uint32_t rev_level = ext4_superblock_get_rev_level(fs->superblock); if ((rev_level > 0) && (lnk_count == 0)) { ext4_filesystem_add_orphan(child_inode_ref); } // TODO set timestamps for parent (when we have wall-clock time) // time_t now = time(NULL); // ext4_inode_set_change_inode_time(parent->inode, (uint32_t)now); // ext4_inode_set_modification_time(parent->inode, (uint32_t)now); // parent->dirty = true; // TODO set timestamp for inode // ext4_inode_set_change_inode_time(child_inode_ref->inode, (uint32_t)now); ext4_inode_set_links_count(child_inode_ref->inode, lnk_count); child_inode_ref->dirty = true; return EOK; } int ext4fs_has_children(bool *has_children, fs_node_t *fn) { int rc; ext4fs_node_t *enode = EXT4FS_NODE(fn); ext4_filesystem_t *fs = enode->instance->filesystem; if (!ext4_inode_is_type(fs->superblock, enode->inode_ref->inode, EXT4_INODE_MODE_DIRECTORY)) { *has_children = false; return EOK; } ext4_directory_iterator_t it; rc = ext4_directory_iterator_init(&it, fs, enode->inode_ref, 0); if (rc != EOK) { return rc; } /* Find a non-empty directory entry */ bool found = false; while (it.current != NULL) { if (it.current->inode != 0) { uint16_t name_size = ext4_directory_entry_ll_get_name_length(fs->superblock, it.current); if (!ext4fs_is_dots(it.current->name, name_size)) { found = true; break; } } rc = ext4_directory_iterator_next(&it); if (rc != EOK) { ext4_directory_iterator_fini(&it); return rc; } } rc = ext4_directory_iterator_fini(&it); if (rc != EOK) { return rc; } *has_children = found; return EOK; } fs_index_t ext4fs_index_get(fs_node_t *fn) { ext4fs_node_t *enode = EXT4FS_NODE(fn); return enode->inode_ref->index; } aoff64_t ext4fs_size_get(fs_node_t *fn) { ext4fs_node_t *enode = EXT4FS_NODE(fn); ext4_superblock_t *sb = enode->instance->filesystem->superblock; return ext4_inode_get_size(sb, enode->inode_ref->inode); } unsigned ext4fs_lnkcnt_get(fs_node_t *fn) { ext4fs_node_t *enode = EXT4FS_NODE(fn); uint32_t lnkcnt = ext4_inode_get_links_count(enode->inode_ref->inode); if (ext4fs_is_directory(fn)) { if (lnkcnt > 1) { return 1; } else { return 0; } } // For regular files return real links count return lnkcnt; } bool ext4fs_is_directory(fs_node_t *fn) { ext4fs_node_t *enode = EXT4FS_NODE(fn); ext4_superblock_t *sb = enode->instance->filesystem->superblock; return ext4_inode_is_type( sb, enode->inode_ref->inode, EXT4_INODE_MODE_DIRECTORY); } bool ext4fs_is_file(fs_node_t *fn) { ext4fs_node_t *enode = EXT4FS_NODE(fn); ext4_superblock_t *sb = enode->instance->filesystem->superblock; return ext4_inode_is_type( sb, enode->inode_ref->inode, EXT4_INODE_MODE_FILE); } service_id_t ext4fs_service_get(fs_node_t *fn) { ext4fs_node_t *enode = EXT4FS_NODE(fn); return enode->instance->service_id; } /* * libfs operations. */ libfs_ops_t ext4fs_libfs_ops = { .root_get = ext4fs_root_get, .match = ext4fs_match, .node_get = ext4fs_node_get, .node_open = ext4fs_node_open, .node_put = ext4fs_node_put, .create = ext4fs_create_node, .destroy = ext4fs_destroy_node, .link = ext4fs_link, .unlink = ext4fs_unlink, .has_children = ext4fs_has_children, .index_get = ext4fs_index_get, .size_get = ext4fs_size_get, .lnkcnt_get = ext4fs_lnkcnt_get, .is_directory = ext4fs_is_directory, .is_file = ext4fs_is_file, .service_get = ext4fs_service_get }; /* * VFS operations. */ static int ext4fs_mounted(service_id_t service_id, const char *opts, fs_index_t *index, aoff64_t *size, unsigned *lnkcnt) { int rc; /* Allocate libext4 filesystem structure */ ext4_filesystem_t *fs; fs = (ext4_filesystem_t *) malloc(sizeof(ext4_filesystem_t)); if (fs == NULL) { return ENOMEM; } /* Allocate instance structure */ ext4fs_instance_t *inst; inst = (ext4fs_instance_t *) malloc(sizeof(ext4fs_instance_t)); if (inst == NULL) { free(fs); return ENOMEM; } /* Initialize the filesystem */ rc = ext4_filesystem_init(fs, service_id); if (rc != EOK) { free(fs); free(inst); return rc; } /* Do some sanity checking */ rc = ext4_filesystem_check_sanity(fs); if (rc != EOK) { ext4_filesystem_fini(fs, false); free(fs); free(inst); return rc; } /* Check flags */ bool read_only; rc = ext4_filesystem_check_features(fs, &read_only); if (rc != EOK) { ext4_filesystem_fini(fs, false); free(fs); free(inst); return rc; } /* Initialize instance */ link_initialize(&inst->link); inst->service_id = service_id; inst->filesystem = fs; inst->open_nodes_count = 0; /* Read root node */ fs_node_t *root_node; rc = ext4fs_node_get_core(&root_node, inst, EXT4_INODE_ROOT_INDEX); if (rc != EOK) { ext4_filesystem_fini(fs, false); free(fs); free(inst); return rc; } /* Add instance to the list */ fibril_mutex_lock(&instance_list_mutex); list_append(&inst->link, &instance_list); fibril_mutex_unlock(&instance_list_mutex); *index = EXT4_INODE_ROOT_INDEX; *size = 0; *lnkcnt = 1; ext4fs_node_put(root_node); return EOK; } static int ext4fs_unmounted(service_id_t service_id) { int rc; ext4fs_instance_t *inst; rc = ext4fs_instance_get(service_id, &inst); if (rc != EOK) { return rc; } fibril_mutex_lock(&open_nodes_lock); if (inst->open_nodes_count != 0) { fibril_mutex_unlock(&open_nodes_lock); return EBUSY; } /* Remove the instance from the list */ fibril_mutex_lock(&instance_list_mutex); list_remove(&inst->link); fibril_mutex_unlock(&instance_list_mutex); fibril_mutex_unlock(&open_nodes_lock); return ext4_filesystem_fini(inst->filesystem, true); } static int ext4fs_read(service_id_t service_id, fs_index_t index, aoff64_t pos, size_t *rbytes) { int rc; /* * Receive the read request. */ ipc_callid_t callid; size_t size; if (!async_data_read_receive(&callid, &size)) { async_answer_0(callid, EINVAL); return EINVAL; } ext4fs_instance_t *inst; rc = ext4fs_instance_get(service_id, &inst); if (rc != EOK) { async_answer_0(callid, rc); return rc; } ext4_inode_ref_t *inode_ref; rc = ext4_filesystem_get_inode_ref(inst->filesystem, index, &inode_ref); if (rc != EOK) { async_answer_0(callid, rc); return rc; } if (ext4_inode_is_type(inst->filesystem->superblock, inode_ref->inode, EXT4_INODE_MODE_FILE)) { rc = ext4fs_read_file(callid, pos, size, inst, inode_ref, rbytes); } else if (ext4_inode_is_type(inst->filesystem->superblock, inode_ref->inode, EXT4_INODE_MODE_DIRECTORY)) { rc = ext4fs_read_directory(callid, pos, size, inst, inode_ref, rbytes); } else { /* Other inode types not supported */ async_answer_0(callid, ENOTSUP); rc = ENOTSUP; } ext4_filesystem_put_inode_ref(inode_ref); return rc; } bool ext4fs_is_dots(const uint8_t *name, size_t name_size) { if (name_size == 1 && name[0] == '.') { return true; } if (name_size == 2 && name[0] == '.' && name[1] == '.') { return true; } return false; } int ext4fs_read_directory(ipc_callid_t callid, aoff64_t pos, size_t size, ext4fs_instance_t *inst, ext4_inode_ref_t *inode_ref, size_t *rbytes) { int rc; ext4_directory_iterator_t it; rc = ext4_directory_iterator_init(&it, inst->filesystem, inode_ref, pos); if (rc != EOK) { async_answer_0(callid, rc); return rc; } /* Find next interesting directory entry. * We want to skip . and .. entries * as these are not used in HelenOS */ bool found = false; while (it.current != NULL) { if (it.current->inode == 0) { goto skip; } uint16_t name_size = ext4_directory_entry_ll_get_name_length( inst->filesystem->superblock, it.current); /* skip . and .. */ if (ext4fs_is_dots(it.current->name, name_size)) { goto skip; } /* The on-disk entry does not contain \0 at the end * end of entry name, so we copy it to new buffer * and add the \0 at the end */ uint8_t *buf = malloc(name_size+1); if (buf == NULL) { ext4_directory_iterator_fini(&it); async_answer_0(callid, ENOMEM); return ENOMEM; } memcpy(buf, &it.current->name, name_size); *(buf + name_size) = 0; found = true; (void) async_data_read_finalize(callid, buf, name_size + 1); free(buf); break; skip: rc = ext4_directory_iterator_next(&it); if (rc != EOK) { ext4_directory_iterator_fini(&it); async_answer_0(callid, rc); return rc; } } uint64_t next; if (found) { rc = ext4_directory_iterator_next(&it); if (rc != EOK) { return rc; } next = it.current_offset; } rc = ext4_directory_iterator_fini(&it); if (rc != EOK) { return rc; } if (found) { *rbytes = next - pos; return EOK; } else { async_answer_0(callid, ENOENT); return ENOENT; } } int ext4fs_read_file(ipc_callid_t callid, aoff64_t pos, size_t size, ext4fs_instance_t *inst, ext4_inode_ref_t *inode_ref, size_t *rbytes) { int rc; ext4_superblock_t *sb = inst->filesystem->superblock; uint64_t file_size = ext4_inode_get_size(sb, inode_ref->inode); if (pos >= file_size) { /* Read 0 bytes successfully */ async_data_read_finalize(callid, NULL, 0); *rbytes = 0; return EOK; } /* For now, we only read data from one block at a time */ uint32_t block_size = ext4_superblock_get_block_size(sb); aoff64_t file_block = pos / block_size; uint32_t offset_in_block = pos % block_size; uint32_t bytes = min(block_size - offset_in_block, size); /* Handle end of file */ if (pos + bytes > file_size) { bytes = file_size - pos; } /* Get the real block number */ uint32_t fs_block; rc = ext4_filesystem_get_inode_data_block_index(inode_ref, file_block, &fs_block); if (rc != EOK) { async_answer_0(callid, rc); return rc; } /* Check for sparse file * If ext4_filesystem_get_inode_data_block_index returned * fs_block == 0, it means that the given block is not allocated for the * file and we need to return a buffer of zeros */ uint8_t *buffer; if (fs_block == 0) { buffer = malloc(bytes); if (buffer == NULL) { async_answer_0(callid, ENOMEM); return ENOMEM; } memset(buffer, 0, bytes); async_data_read_finalize(callid, buffer, bytes); *rbytes = bytes; free(buffer); return EOK; } /* Usual case - we need to read a block from device */ block_t *block; rc = block_get(&block, inst->service_id, fs_block, BLOCK_FLAGS_NONE); if (rc != EOK) { async_answer_0(callid, rc); return rc; } assert(offset_in_block + bytes <= block_size); async_data_read_finalize(callid, block->data + offset_in_block, bytes); rc = block_put(block); if (rc != EOK) { return rc; } *rbytes = bytes; return EOK; } static int ext4fs_write(service_id_t service_id, fs_index_t index, aoff64_t pos, size_t *wbytes, aoff64_t *nsize) { int rc; fs_node_t *fn; rc = ext4fs_node_get(&fn, service_id, index); if (rc != EOK) { return rc; } ipc_callid_t callid; size_t len; if (!async_data_write_receive(&callid, &len)) { rc = EINVAL; ext4fs_node_put(fn); async_answer_0(callid, rc); return rc; } ext4fs_node_t *enode = EXT4FS_NODE(fn); ext4_filesystem_t *fs = enode->instance->filesystem; uint32_t block_size = ext4_superblock_get_block_size(fs->superblock); // Prevent writing to more than one block uint32_t bytes = min(len, block_size - (pos % block_size)); int flags = BLOCK_FLAGS_NONE; if (bytes == block_size) { flags = BLOCK_FLAGS_NOREAD; } uint32_t iblock = pos / block_size; uint32_t fblock; ext4_inode_ref_t *inode_ref = enode->inode_ref; rc = ext4_filesystem_get_inode_data_block_index(inode_ref, iblock, &fblock); if (rc != EOK) { ext4fs_node_put(fn); async_answer_0(callid, rc); return rc; } if (fblock == 0) { if (ext4_superblock_has_feature_incompatible( fs->superblock, EXT4_FEATURE_INCOMPAT_EXTENTS) && (ext4_inode_has_flag(inode_ref->inode, EXT4_INODE_FLAG_EXTENTS))) { uint32_t tmp_iblock = 0; do { rc = ext4_filesystem_append_inode_block(inode_ref, &fblock, &tmp_iblock); if (rc != EOK) { ext4fs_node_put(fn); async_answer_0(callid, rc); return rc; } } while (tmp_iblock < iblock); } else { rc = ext4_balloc_alloc_block(inode_ref, &fblock); if (rc != EOK) { ext4fs_node_put(fn); async_answer_0(callid, rc); return rc; } rc = ext4_filesystem_set_inode_data_block_index(inode_ref, iblock, fblock); if (rc != EOK) { ext4_balloc_free_block(inode_ref, fblock); ext4fs_node_put(fn); async_answer_0(callid, rc); return rc; } } flags = BLOCK_FLAGS_NOREAD; inode_ref->dirty = true; } block_t *write_block; rc = block_get(&write_block, service_id, fblock, flags); if (rc != EOK) { ext4fs_node_put(fn); async_answer_0(callid, rc); return rc; } if (flags == BLOCK_FLAGS_NOREAD) { memset(write_block->data, 0, block_size); } rc = async_data_write_finalize(callid, write_block->data + (pos % block_size), bytes); if (rc != EOK) { ext4fs_node_put(fn); return rc; } write_block->dirty = true; rc = block_put(write_block); if (rc != EOK) { ext4fs_node_put(fn); return rc; } uint32_t old_inode_size = ext4_inode_get_size(fs->superblock, inode_ref->inode); if (pos + bytes > old_inode_size) { ext4_inode_set_size(inode_ref->inode, pos + bytes); inode_ref->dirty = true; } *nsize = ext4_inode_get_size(fs->superblock, inode_ref->inode); *wbytes = bytes; return ext4fs_node_put(fn); } static int ext4fs_truncate(service_id_t service_id, fs_index_t index, aoff64_t new_size) { int rc; fs_node_t *fn; rc = ext4fs_node_get(&fn, service_id, index); if (rc != EOK) { return rc; } ext4fs_node_t *enode = EXT4FS_NODE(fn); ext4_inode_ref_t *inode_ref = enode->inode_ref; rc = ext4_filesystem_truncate_inode(inode_ref, new_size); ext4fs_node_put(fn); return rc; } static int ext4fs_close(service_id_t service_id, fs_index_t index) { return EOK; } static int ext4fs_destroy(service_id_t service_id, fs_index_t index) { int rc; fs_node_t *fn; rc = ext4fs_node_get(&fn, service_id, index); if (rc != EOK) { return rc; } /* Destroy the inode */ return ext4fs_destroy_node(fn); } static int ext4fs_sync(service_id_t service_id, fs_index_t index) { int rc; fs_node_t *fn; rc = ext4fs_node_get(&fn, service_id, index); if (rc != EOK) { return rc; } ext4fs_node_t *enode = EXT4FS_NODE(fn); enode->inode_ref->dirty = true; return ext4fs_node_put(fn); } vfs_out_ops_t ext4fs_ops = { .mounted = ext4fs_mounted, .unmounted = ext4fs_unmounted, .read = ext4fs_read, .write = ext4fs_write, .truncate = ext4fs_truncate, .close = ext4fs_close, .destroy = ext4fs_destroy, .sync = ext4fs_sync, }; /** * @} */