/** * @file kernel/vfs/tmpfs.c * @brief In-memory read-write filesystem. * * Generally provides the filesystem for "migrated" live CDs, * as well as /tmp and /var. * * @copyright * This file is part of ToaruOS and is released under the terms * of the NCSA / University of Illinois License - see LICENSE.md * Copyright (C) 2014-2021 K. Lange */ #include #include #include #include #include #include #include #include #include #include #include #include #include /* 4KB */ #define BLOCKSIZE 0x1000 #define TMPFS_TYPE_FILE 1 #define TMPFS_TYPE_DIR 2 #define TMPFS_TYPE_LINK 3 static struct tmpfs_dir * tmpfs_root = NULL; static volatile intptr_t tmpfs_total_blocks = 0; static fs_node_t * tmpfs_from_dir(struct tmpfs_dir * d); static struct tmpfs_file * tmpfs_file_new(char * name) { struct tmpfs_file * t = malloc(sizeof(struct tmpfs_file)); spin_init(t->lock); t->name = strdup(name); t->type = TMPFS_TYPE_FILE; t->length = 0; t->pointers = 2; t->block_count = 0; t->mask = 0; t->uid = 0; t->gid = 0; t->atime = now(); t->mtime = t->atime; t->ctime = t->atime; t->blocks = malloc(t->pointers * sizeof(char *)); for (size_t i = 0; i < t->pointers; ++i) { t->blocks[i] = 0; } return t; } static int symlink_tmpfs(fs_node_t * parent, char * target, char * name) { struct tmpfs_dir * d = (struct tmpfs_dir *)parent->device; spin_lock(d->lock); foreach(f, d->files) { struct tmpfs_file * t = (struct tmpfs_file *)f->value; if (!strcmp(name, t->name)) { spin_unlock(d->lock); return -EEXIST; /* Already exists */ } } spin_unlock(d->lock); struct tmpfs_file * t = tmpfs_file_new(name); t->type = TMPFS_TYPE_LINK; t->target = strdup(target); t->mask = 0777; t->uid = this_core->current_process->user; t->gid = this_core->current_process->user; spin_lock(d->lock); list_insert(d->files, t); spin_unlock(d->lock); return 0; } static ssize_t readlink_tmpfs(fs_node_t * node, char * buf, size_t size) { struct tmpfs_file * t = (struct tmpfs_file *)(node->device); spin_lock(t->lock); if (t->type != TMPFS_TYPE_LINK) { spin_unlock(t->lock); printf("tmpfs: not a symlink?\n"); return -1; } if (size < strlen(t->target) + 1) { memcpy(buf, t->target, size-1); buf[size-1] = '\0'; spin_unlock(t->lock); return size-2; } else { size_t len = strlen(t->target); memcpy(buf, t->target, len + 1); spin_unlock(t->lock); return len; } } static struct tmpfs_dir * tmpfs_dir_new(char * name, struct tmpfs_dir * parent) { struct tmpfs_dir * d = malloc(sizeof(struct tmpfs_dir)); spin_init(d->lock); d->name = strdup(name); d->type = TMPFS_TYPE_DIR; d->mask = 0; d->uid = 0; d->gid = 0; d->atime = now(); d->mtime = d->atime; d->ctime = d->atime; d->files = list_create("tmpfs directory entries",d); return d; } static void tmpfs_file_free(struct tmpfs_file * t) { if (t->type == TMPFS_TYPE_LINK) { printf("tmpfs: bad link free?\n"); free(t->target); } spin_lock(t->lock); for (size_t i = 0; i < t->block_count; ++i) { mmu_frame_clear((uintptr_t)t->blocks[i] * 0x1000); tmpfs_total_blocks--; } spin_unlock(t->lock); } static void tmpfs_file_blocks_embiggen(struct tmpfs_file * t) { t->pointers *= 2; t->blocks = realloc(t->blocks, sizeof(char *) * t->pointers); } static char * tmpfs_file_getset_block(struct tmpfs_file * t, size_t blockid, int create) { if (create) { while (blockid >= t->pointers) { tmpfs_file_blocks_embiggen(t); } while (blockid >= t->block_count) { uintptr_t index = mmu_allocate_a_frame(); tmpfs_total_blocks++; t->blocks[t->block_count] = index; t->block_count += 1; } } else { if (blockid >= t->block_count) { printf("tmpfs: not enough blocks?\n"); return NULL; } } return (char *)mmu_map_from_physical(t->blocks[blockid] << 12); } static ssize_t read_tmpfs(fs_node_t *node, off_t offset, size_t size, uint8_t *buffer) { struct tmpfs_file * t = (struct tmpfs_file *)(node->device); spin_lock(t->lock); t->atime = now(); uint64_t end; if ((size_t)offset + size > t->length) { end = t->length; } else { end = offset + size; } uint64_t start_block = offset / BLOCKSIZE; uint64_t end_block = end / BLOCKSIZE; uint64_t end_size = end - end_block * BLOCKSIZE; uint64_t size_to_read = end - offset; if (start_block == end_block && (size_t)offset == end) { spin_unlock(t->lock); return 0; } if (start_block == end_block) { void *buf = tmpfs_file_getset_block(t, start_block, 0); memcpy(buffer, (uint8_t *)(((uintptr_t)buf) + ((uintptr_t)offset % BLOCKSIZE)), size_to_read); spin_unlock(t->lock); return size_to_read; } else { uint64_t block_offset; uint64_t blocks_read = 0; for (block_offset = start_block; block_offset < end_block; block_offset++, blocks_read++) { if (block_offset == start_block) { void *buf = tmpfs_file_getset_block(t, block_offset, 0); memcpy(buffer, (uint8_t *)(((uint64_t)buf) + ((uintptr_t)offset % BLOCKSIZE)), BLOCKSIZE - (offset % BLOCKSIZE)); } else { void *buf = tmpfs_file_getset_block(t, block_offset, 0); memcpy(buffer + BLOCKSIZE * blocks_read - (offset % BLOCKSIZE), buf, BLOCKSIZE); } } if (end_size) { void *buf = tmpfs_file_getset_block(t, end_block, 0); memcpy(buffer + BLOCKSIZE * blocks_read - (offset % BLOCKSIZE), buf, end_size); } } spin_unlock(t->lock); return size_to_read; } static ssize_t write_tmpfs(fs_node_t *node, off_t offset, size_t size, uint8_t *buffer) { struct tmpfs_file * t = (struct tmpfs_file *)(node->device); spin_lock(t->lock); t->atime = now(); t->mtime = t->atime; uint64_t end; if ((size_t)offset + size > t->length) { t->length = offset + size; } end = offset + size; uint64_t start_block = offset / BLOCKSIZE; uint64_t end_block = end / BLOCKSIZE; uint64_t end_size = end - end_block * BLOCKSIZE; uint64_t size_to_read = end - offset; if (start_block == end_block) { void *buf = tmpfs_file_getset_block(t, start_block, 1); memcpy((uint8_t *)(((uint64_t)buf) + ((uintptr_t)offset % BLOCKSIZE)), buffer, size_to_read); spin_unlock(t->lock); return size_to_read; } else { uint64_t block_offset; uint64_t blocks_read = 0; for (block_offset = start_block; block_offset < end_block; block_offset++, blocks_read++) { if (block_offset == start_block) { void *buf = tmpfs_file_getset_block(t, block_offset, 1); memcpy((uint8_t *)(((uint64_t)buf) + ((uintptr_t)offset % BLOCKSIZE)), buffer, BLOCKSIZE - (offset % BLOCKSIZE)); } else { void *buf = tmpfs_file_getset_block(t, block_offset, 1); memcpy(buf, buffer + BLOCKSIZE * blocks_read - (offset % BLOCKSIZE), BLOCKSIZE); } } if (end_size) { void *buf = tmpfs_file_getset_block(t, end_block, 1); memcpy(buf, buffer + BLOCKSIZE * blocks_read - (offset % BLOCKSIZE), end_size); } } spin_unlock(t->lock); return size_to_read; } static int chmod_tmpfs(fs_node_t * node, int mode) { struct tmpfs_file * t = (struct tmpfs_file *)(node->device); /* XXX permissions */ t->mask = mode; return 0; } static int chown_tmpfs(fs_node_t * node, int uid, int gid) { struct tmpfs_file * t = (struct tmpfs_file *)(node->device); spin_lock(t->lock); if (uid != -1) t->uid = uid; if (gid != -1) t->gid = gid; spin_unlock(t->lock); return 0; } static int truncate_tmpfs(fs_node_t * node) { struct tmpfs_file * t = (struct tmpfs_file *)(node->device); spin_lock(t->lock); for (size_t i = 0; i < t->block_count; ++i) { mmu_frame_clear((uintptr_t)t->blocks[i] * 0x1000); tmpfs_total_blocks--; t->blocks[i] = 0; } t->block_count = 0; t->length = 0; t->mtime = node->atime; spin_unlock(t->lock); return 0; } static void open_tmpfs(fs_node_t * node, unsigned int flags) { struct tmpfs_file * t = (struct tmpfs_file *)(node->device); t->atime = now(); } static fs_node_t * tmpfs_from_file(struct tmpfs_file * t) { fs_node_t * fnode = malloc(sizeof(fs_node_t)); spin_lock(t->lock); memset(fnode, 0x00, sizeof(fs_node_t)); fnode->inode = 0; strcpy(fnode->name, t->name); fnode->device = t; fnode->mask = t->mask; fnode->uid = t->uid; fnode->gid = t->gid; fnode->atime = t->atime; fnode->ctime = t->ctime; fnode->mtime = t->mtime; fnode->flags = FS_FILE; fnode->read = read_tmpfs; fnode->write = write_tmpfs; fnode->open = open_tmpfs; fnode->close = NULL; fnode->readdir = NULL; fnode->finddir = NULL; fnode->chmod = chmod_tmpfs; fnode->chown = chown_tmpfs; fnode->length = t->length; fnode->truncate = truncate_tmpfs; fnode->nlink = 1; spin_unlock(t->lock); return fnode; } static fs_node_t * tmpfs_from_link(struct tmpfs_file * t) { fs_node_t * fnode = tmpfs_from_file(t); fnode->flags |= FS_SYMLINK; fnode->readlink = readlink_tmpfs; fnode->read = NULL; fnode->write = NULL; fnode->create = NULL; fnode->mkdir = NULL; fnode->readdir = NULL; fnode->finddir = NULL; return fnode; } static struct dirent * readdir_tmpfs(fs_node_t *node, uint64_t index) { struct tmpfs_dir * d = (struct tmpfs_dir *)node->device; uint64_t i = 0; if (index == 0) { struct dirent * out = malloc(sizeof(struct dirent)); memset(out, 0x00, sizeof(struct dirent)); out->d_ino = 0; strcpy(out->d_name, "."); return out; } if (index == 1) { struct dirent * out = malloc(sizeof(struct dirent)); memset(out, 0x00, sizeof(struct dirent)); out->d_ino = 0; strcpy(out->d_name, ".."); return out; } index -= 2; if (index >= d->files->length) return NULL; foreach(f, d->files) { if (i == index) { struct tmpfs_file * t = (struct tmpfs_file *)f->value; struct dirent * out = malloc(sizeof(struct dirent)); memset(out, 0x00, sizeof(struct dirent)); out->d_ino = (uint64_t)t; strcpy(out->d_name, t->name); return out; } else { ++i; } } return NULL; } static fs_node_t * finddir_tmpfs(fs_node_t * node, char * name) { if (!name) return NULL; struct tmpfs_dir * d = (struct tmpfs_dir *)node->device; spin_lock(d->lock); foreach(f, d->files) { struct tmpfs_file * t = (struct tmpfs_file *)f->value; if (!strcmp(name, t->name)) { fs_node_t * out = NULL; switch (t->type) { case TMPFS_TYPE_FILE: out = tmpfs_from_file(t); break; case TMPFS_TYPE_LINK: out = tmpfs_from_link(t); break; case TMPFS_TYPE_DIR: out = tmpfs_from_dir((struct tmpfs_dir *)t); break; } spin_unlock(d->lock); return out; } } spin_unlock(d->lock); return NULL; } static int unlink_tmpfs(fs_node_t * node, char * name) { struct tmpfs_dir * d = (struct tmpfs_dir *)node->device; int i = -1, j = 0; spin_lock(d->lock); foreach(f, d->files) { struct tmpfs_file * t = (struct tmpfs_file *)f->value; if (!strcmp(name, t->name)) { tmpfs_file_free(t); free(t); i = j; break; } j++; } if (i >= 0) { list_remove(d->files, i); } else { spin_unlock(d->lock); return -ENOENT; } spin_unlock(d->lock); return 0; } static int create_tmpfs(fs_node_t *parent, char *name, mode_t permission) { if (!name) return -EINVAL; struct tmpfs_dir * d = (struct tmpfs_dir *)parent->device; spin_lock(d->lock); foreach(f, d->files) { struct tmpfs_file * t = (struct tmpfs_file *)f->value; if (!strcmp(name, t->name)) { spin_unlock(d->lock); return -EEXIST; /* Already exists */ } } spin_unlock(d->lock); struct tmpfs_file * t = tmpfs_file_new(name); t->mask = permission; t->uid = this_core->current_process->user; t->gid = this_core->current_process->user_group; spin_lock(d->lock); list_insert(d->files, t); spin_unlock(d->lock); return 0; } static int mkdir_tmpfs(fs_node_t * parent, char * name, mode_t permission) { if (!name) return -EINVAL; if (!strlen(name)) return -EINVAL; struct tmpfs_dir * d = (struct tmpfs_dir *)parent->device; spin_lock(d->lock); foreach(f, d->files) { struct tmpfs_file * t = (struct tmpfs_file *)f->value; if (!strcmp(name, t->name)) { spin_unlock(d->lock); return -EEXIST; /* Already exists */ } } spin_unlock(d->lock); struct tmpfs_dir * out = tmpfs_dir_new(name, d); out->mask = permission; out->uid = this_core->current_process->user; out->gid = this_core->current_process->user; spin_lock(d->lock); list_insert(d->files, out); spin_unlock(d->lock); return 0; } static fs_node_t * tmpfs_from_dir(struct tmpfs_dir * d) { fs_node_t * fnode = malloc(sizeof(fs_node_t)); spin_lock(d->lock); memset(fnode, 0x00, sizeof(fs_node_t)); fnode->inode = 0; strcpy(fnode->name, "tmp"); fnode->mask = d->mask; fnode->uid = d->uid; fnode->gid = d->gid; fnode->device = d; fnode->atime = d->atime; fnode->mtime = d->mtime; fnode->ctime = d->ctime; fnode->flags = FS_DIRECTORY; fnode->read = NULL; fnode->write = NULL; fnode->open = NULL; fnode->close = NULL; fnode->readdir = readdir_tmpfs; fnode->finddir = finddir_tmpfs; fnode->create = create_tmpfs; fnode->unlink = unlink_tmpfs; fnode->mkdir = mkdir_tmpfs; fnode->nlink = 1; /* should be "number of children that are directories + 1" */ fnode->symlink = symlink_tmpfs; fnode->chown = chown_tmpfs; fnode->chmod = chmod_tmpfs; spin_unlock(d->lock); return fnode; } fs_node_t * tmpfs_create(char * name) { tmpfs_root = tmpfs_dir_new(name, NULL); tmpfs_root->mask = 0777; tmpfs_root->uid = 0; tmpfs_root->gid = 0; return tmpfs_from_dir(tmpfs_root); } fs_node_t * tmpfs_mount(const char * device, const char * mount_path) { char * arg = strdup(device); char * argv[10]; int argc = tokenize(arg, ",", argv); fs_node_t * fs = tmpfs_create(argv[0]); if (argc > 1) { if (strlen(argv[1]) < 3) { printf("tmpfs: ignoring bad permission option for tmpfs\n"); } else { int mode = ((argv[1][0] - '0') << 6) | ((argv[1][1] - '0') << 3) | ((argv[1][2] - '0') << 0); fs->mask = mode; } } //free(arg); return fs; } static ssize_t tmpfs_func(fs_node_t * node, off_t offset, size_t size, uint8_t * buffer) { char * buf = malloc(4096); snprintf(buf, 4095, "UsedBlocks:\t%zd\n", tmpfs_total_blocks); size_t _bsize = strlen(buf); if ((size_t)offset > _bsize) { free(buf); return 0; } if (size > _bsize - (size_t)offset) size = _bsize - offset; memcpy(buffer, buf + offset, size); free(buf); return size; } static struct procfs_entry tmpfs_entry = { 0, "tmpfs", tmpfs_func, }; void tmpfs_register_init(void) { vfs_register("tmpfs", tmpfs_mount); procfs_install(&tmpfs_entry); }