// SPDX-License-Identifier: BSD-2-Clause /* * Copyright (c) 2016, Linaro Limited */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include struct tee_fs_dir { int nw_dir; struct tee_fs_dirent d; }; static TEE_Result operation_commit(struct tee_fs_rpc_operation *op) { return thread_rpc_cmd(op->id, op->num_params, op->params); } static TEE_Result operation_open(uint32_t id, unsigned int cmd, struct tee_pobj *po, int *fd) { struct mobj *mobj; TEE_Result res; void *va; va = tee_fs_rpc_cache_alloc(TEE_FS_NAME_MAX, &mobj); if (!va) return TEE_ERROR_OUT_OF_MEMORY; res = tee_svc_storage_create_filename(va, TEE_FS_NAME_MAX, po, po->temporary); if (res != TEE_SUCCESS) return res; struct tee_fs_rpc_operation op = { .id = id, .num_params = 3, .params = { [0] = THREAD_PARAM_VALUE(IN, cmd, 0, 0), [1] = THREAD_PARAM_MEMREF(IN, mobj, 0, TEE_FS_NAME_MAX), [2] = THREAD_PARAM_VALUE(OUT, 0, 0, 0), } }; res = operation_commit(&op); if (res == TEE_SUCCESS) *fd = op.params[2].u.value.a; return res; } TEE_Result tee_fs_rpc_open(uint32_t id, struct tee_pobj *po, int *fd) { return operation_open(id, OPTEE_RPC_FS_OPEN, po, fd); } TEE_Result tee_fs_rpc_create(uint32_t id, struct tee_pobj *po, int *fd) { return operation_open(id, OPTEE_RPC_FS_CREATE, po, fd); } static TEE_Result operation_open_dfh(uint32_t id, unsigned int cmd, const struct tee_fs_dirfile_fileh *dfh, int *fd) { struct mobj *mobj; TEE_Result res; void *va; va = tee_fs_rpc_cache_alloc(TEE_FS_NAME_MAX, &mobj); if (!va) return TEE_ERROR_OUT_OF_MEMORY; res = tee_svc_storage_create_filename_dfh(va, TEE_FS_NAME_MAX, dfh); if (res != TEE_SUCCESS) return res; struct tee_fs_rpc_operation op = { .id = id, .num_params = 3, .params = { [0] = THREAD_PARAM_VALUE(IN, cmd, 0, 0), [1] = THREAD_PARAM_MEMREF(IN, mobj, 0, TEE_FS_NAME_MAX), [2] = THREAD_PARAM_VALUE(OUT, 0, 0, 0), } }; res = operation_commit(&op); if (res == TEE_SUCCESS) *fd = op.params[2].u.value.a; return res; } TEE_Result tee_fs_rpc_open_dfh(uint32_t id, const struct tee_fs_dirfile_fileh *dfh, int *fd) { return operation_open_dfh(id, OPTEE_RPC_FS_OPEN, dfh, fd); } TEE_Result tee_fs_rpc_create_dfh(uint32_t id, const struct tee_fs_dirfile_fileh *dfh, int *fd) { return operation_open_dfh(id, OPTEE_RPC_FS_CREATE, dfh, fd); } TEE_Result tee_fs_rpc_close(uint32_t id, int fd) { struct tee_fs_rpc_operation op = { .id = id, .num_params = 1, .params = { [0] = THREAD_PARAM_VALUE(IN, OPTEE_RPC_FS_CLOSE, fd, 0), }, }; return operation_commit(&op); } TEE_Result tee_fs_rpc_read_init(struct tee_fs_rpc_operation *op, uint32_t id, int fd, tee_fs_off_t offset, size_t data_len, void **out_data) { struct mobj *mobj; uint8_t *va; if (offset < 0) return TEE_ERROR_BAD_PARAMETERS; va = tee_fs_rpc_cache_alloc(data_len, &mobj); if (!va) return TEE_ERROR_OUT_OF_MEMORY; *op = (struct tee_fs_rpc_operation){ .id = id, .num_params = 2, .params = { [0] = THREAD_PARAM_VALUE(IN, OPTEE_RPC_FS_READ, fd, offset), [1] = THREAD_PARAM_MEMREF(OUT, mobj, 0, data_len), }, }; *out_data = va; return TEE_SUCCESS; } TEE_Result tee_fs_rpc_read_final(struct tee_fs_rpc_operation *op, size_t *data_len) { TEE_Result res = operation_commit(op); if (res == TEE_SUCCESS) *data_len = op->params[1].u.memref.size; return res; } TEE_Result tee_fs_rpc_write_init(struct tee_fs_rpc_operation *op, uint32_t id, int fd, tee_fs_off_t offset, size_t data_len, void **data) { struct mobj *mobj; uint8_t *va; if (offset < 0) return TEE_ERROR_BAD_PARAMETERS; va = tee_fs_rpc_cache_alloc(data_len, &mobj); if (!va) return TEE_ERROR_OUT_OF_MEMORY; *op = (struct tee_fs_rpc_operation){ .id = id, .num_params = 2, .params = { [0] = THREAD_PARAM_VALUE(IN, OPTEE_RPC_FS_WRITE, fd, offset), [1] = THREAD_PARAM_MEMREF(IN, mobj, 0, data_len), }, }; *data = va; return TEE_SUCCESS; } TEE_Result tee_fs_rpc_write_final(struct tee_fs_rpc_operation *op) { return operation_commit(op); } TEE_Result tee_fs_rpc_truncate(uint32_t id, int fd, size_t len) { struct tee_fs_rpc_operation op = { .id = id, .num_params = 1, .params = { [0] = THREAD_PARAM_VALUE(IN, OPTEE_RPC_FS_TRUNCATE, fd, len), } }; return operation_commit(&op); } TEE_Result tee_fs_rpc_remove(uint32_t id, struct tee_pobj *po) { TEE_Result res; struct mobj *mobj; void *va; va = tee_fs_rpc_cache_alloc(TEE_FS_NAME_MAX, &mobj); if (!va) return TEE_ERROR_OUT_OF_MEMORY; res = tee_svc_storage_create_filename(va, TEE_FS_NAME_MAX, po, po->temporary); if (res != TEE_SUCCESS) return res; struct tee_fs_rpc_operation op = { .id = id, .num_params = 2, .params = { [0] = THREAD_PARAM_VALUE(IN, OPTEE_RPC_FS_REMOVE, 0, 0), [1] = THREAD_PARAM_MEMREF(IN, mobj, 0, TEE_FS_NAME_MAX), }, }; return operation_commit(&op); } TEE_Result tee_fs_rpc_remove_dfh(uint32_t id, const struct tee_fs_dirfile_fileh *dfh) { TEE_Result res; struct mobj *mobj; void *va; va = tee_fs_rpc_cache_alloc(TEE_FS_NAME_MAX, &mobj); if (!va) return TEE_ERROR_OUT_OF_MEMORY; res = tee_svc_storage_create_filename_dfh(va, TEE_FS_NAME_MAX, dfh); if (res != TEE_SUCCESS) return res; struct tee_fs_rpc_operation op = { .id = id, .num_params = 2, .params = { [0] = THREAD_PARAM_VALUE(IN, OPTEE_RPC_FS_REMOVE, 0, 0), [1] = THREAD_PARAM_MEMREF(IN, mobj, 0, TEE_FS_NAME_MAX), } }; return operation_commit(&op); } TEE_Result tee_fs_rpc_rename(uint32_t id, struct tee_pobj *old, struct tee_pobj *new, bool overwrite) { TEE_Result res; struct mobj *mobj; char *va; bool temp; va = tee_fs_rpc_cache_alloc(TEE_FS_NAME_MAX * 2, &mobj); if (!va) return TEE_ERROR_OUT_OF_MEMORY; if (new) temp = old->temporary; else temp = true; res = tee_svc_storage_create_filename(va, TEE_FS_NAME_MAX, old, temp); if (res != TEE_SUCCESS) return res; if (new) { res = tee_svc_storage_create_filename(va + TEE_FS_NAME_MAX, TEE_FS_NAME_MAX, new, new->temporary); } else { res = tee_svc_storage_create_filename(va + TEE_FS_NAME_MAX, TEE_FS_NAME_MAX, old, false); } if (res != TEE_SUCCESS) return res; struct tee_fs_rpc_operation op = { .id = id, .num_params = 3, .params = { [0] = THREAD_PARAM_VALUE(IN, OPTEE_RPC_FS_RENAME, overwrite, 0), [1] = THREAD_PARAM_MEMREF(IN, mobj, 0, TEE_FS_NAME_MAX), [2] = THREAD_PARAM_MEMREF(IN, mobj, TEE_FS_NAME_MAX, TEE_FS_NAME_MAX), } }; return operation_commit(&op); } TEE_Result tee_fs_rpc_opendir(uint32_t id, const TEE_UUID *uuid, struct tee_fs_dir **d) { TEE_Result res; struct mobj *mobj; void *va; struct tee_fs_dir *dir = calloc(1, sizeof(*dir)); if (!dir) return TEE_ERROR_OUT_OF_MEMORY; va = tee_fs_rpc_cache_alloc(TEE_FS_NAME_MAX, &mobj); if (!va) { res = TEE_ERROR_OUT_OF_MEMORY; goto err_exit; } res = tee_svc_storage_create_dirname(va, TEE_FS_NAME_MAX, uuid); if (res != TEE_SUCCESS) goto err_exit; struct tee_fs_rpc_operation op = { .id = id, .num_params = 3, .params = { [0] = THREAD_PARAM_VALUE(IN, OPTEE_RPC_FS_OPENDIR, 0, 0), [1] = THREAD_PARAM_MEMREF(IN, mobj, 0, TEE_FS_NAME_MAX), [2] = THREAD_PARAM_VALUE(OUT, 0, 0, 0), } }; res = operation_commit(&op); if (res != TEE_SUCCESS) goto err_exit; dir->nw_dir = op.params[2].u.value.a; *d = dir; return TEE_SUCCESS; err_exit: free(dir); return res; } TEE_Result tee_fs_rpc_closedir(uint32_t id, struct tee_fs_dir *d) { struct tee_fs_rpc_operation op = { .id = id, .num_params = 1, .params = { [0] = THREAD_PARAM_VALUE(IN, OPTEE_RPC_FS_CLOSEDIR, d->nw_dir, 0), } }; free(d); return operation_commit(&op); } TEE_Result tee_fs_rpc_readdir(uint32_t id, struct tee_fs_dir *d, struct tee_fs_dirent **ent) { TEE_Result res; struct mobj *mobj; void *va; const size_t max_name_len = TEE_FS_NAME_MAX + 1; if (!d) return TEE_ERROR_ITEM_NOT_FOUND; va = tee_fs_rpc_cache_alloc(max_name_len, &mobj); if (!va) return TEE_ERROR_OUT_OF_MEMORY; struct tee_fs_rpc_operation op = { .id = id, .num_params = 2, .params = { [0] = THREAD_PARAM_VALUE(IN, OPTEE_RPC_FS_READDIR, d->nw_dir, 0), [1] = THREAD_PARAM_MEMREF(IN, mobj, 0, max_name_len), } }; res = operation_commit(&op); if (res != TEE_SUCCESS) return res; d->d.oidlen = tee_hs2b(va, d->d.oid, strnlen(va, max_name_len), sizeof(d->d.oid)); if (!d->d.oidlen) return TEE_ERROR_OUT_OF_MEMORY; *ent = &d->d; return TEE_SUCCESS; }