/* * Copyright (c) 2023 Huawei Device Co., Ltd. * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "rename.h" #include #include #include #include "common_func.h" #include "filemgmt_libhilog.h" namespace OHOS { namespace FileManagement { namespace ModuleFileIO { using namespace std; using namespace OHOS::FileManagement::LibN; napi_value Rename::Sync(napi_env env, napi_callback_info info) { NFuncArg funcArg(env, info); if (!funcArg.InitArgs(NARG_CNT::TWO)) { HILOGE("Number of arguments unmatched"); NError(EINVAL).ThrowErr(env); return nullptr; } auto [resGetFirstArg, src, unused] = NVal(env, funcArg[NARG_POS::FIRST]).ToUTF8StringPath(); if (!resGetFirstArg) { HILOGE("Invalid src"); NError(EINVAL).ThrowErr(env); return nullptr; } auto [resGetSecondArg, dest, useless] = NVal(env, funcArg[NARG_POS::SECOND]).ToUTF8StringPath(); if (!resGetSecondArg) { HILOGE("Invalid dest"); NError(EINVAL).ThrowErr(env); return nullptr; } std::unique_ptr rename_req = { new uv_fs_t, CommonFunc::fs_req_cleanup }; if (!rename_req) { HILOGE("Failed to request heap memory."); NError(ENOMEM).ThrowErr(env); return nullptr; } int ret = uv_fs_rename(nullptr, rename_req.get(), src.get(), dest.get(), nullptr); if (ret < 0) { HILOGE("Failed to rename file with path"); NError(ret).ThrowErr(env); return nullptr; } return NVal::CreateUndefined(env).val_; } napi_value Rename::Async(napi_env env, napi_callback_info info) { NFuncArg funcArg(env, info); if (!funcArg.InitArgs(NARG_CNT::TWO, NARG_CNT::THREE)) { HILOGE("Number of arguments unmatched"); NError(EINVAL).ThrowErr(env); return nullptr; } auto [resGetFirstArg, src, unused] = NVal(env, funcArg[NARG_POS::FIRST]).ToUTF8StringPath(); if (!resGetFirstArg) { HILOGE("Invalid src"); NError(EINVAL).ThrowErr(env); return nullptr; } auto [resGetSecondArg, dest, useless] = NVal(env, funcArg[NARG_POS::SECOND]).ToUTF8StringPath(); if (!resGetSecondArg) { HILOGE("Invalid dest"); NError(EINVAL).ThrowErr(env); return nullptr; } auto cbExec = [opath = string(src.get()), npath = string(dest.get())]() -> NError { std::unique_ptr rename_req = { new uv_fs_t, CommonFunc::fs_req_cleanup }; if (!rename_req) { HILOGE("Failed to request heap memory."); return NError(ENOMEM); } int ret = uv_fs_rename(nullptr, rename_req.get(), opath.c_str(), npath.c_str(), nullptr); if (ret < 0) { HILOGE("Failed to rename file with path"); return NError(ret); } return NError(ERRNO_NOERR); }; auto cbComplCallback = [](napi_env env, NError err) -> NVal { if (err) { return { env, err.GetNapiErr(env) }; } return { NVal::CreateUndefined(env) }; }; NVal thisVar(env, funcArg.GetThisVar()); size_t argc = funcArg.GetArgc(); if (argc == NARG_CNT::TWO) { return NAsyncWorkPromise(env, thisVar).Schedule(PROCEDURE_RENAME_NAME, cbExec, cbComplCallback).val_; } else { NVal cb(env, funcArg[NARG_POS::THIRD]); return NAsyncWorkCallback(env, thisVar, cb).Schedule(PROCEDURE_RENAME_NAME, cbExec, cbComplCallback).val_; } } } // namespace ModuleFileIO } // namespace FileManagement } // namespace OHOS