/* * Copyright (C) 2024 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 "locator_callback_napi.h" #include "ipc_object_stub.h" #include "ipc_skeleton.h" #include "js_native_api.h" #include "message_option.h" #include "message_parcel.h" #include "napi/native_common.h" #include "uv.h" #include "common_utils.h" #include "constant_definition.h" #include "i_locator_callback.h" #include "location.h" #include "location_async_context.h" #include "location_log.h" #include "napi_util.h" namespace OHOS { namespace Location { static std::mutex g_regCallbackMutex; static std::vector g_registerCallbacks; LocatorCallbackNapi::LocatorCallbackNapi() { env_ = nullptr; handlerCb_ = nullptr; successHandlerCb_ = nullptr; failHandlerCb_ = nullptr; completeHandlerCb_ = nullptr; fixNumber_ = 0; inHdArea_ = true; singleLocation_ = nullptr; locationPriority_ = 0; InitLatch(); } void LocatorCallbackNapi::InitLatch() { latch_ = new CountDownLatch(); latch_->SetCount(1); } LocatorCallbackNapi::~LocatorCallbackNapi() { delete latch_; } int LocatorCallbackNapi::OnRemoteRequest(uint32_t code, MessageParcel& data, MessageParcel& reply, MessageOption& option) { if (data.ReadInterfaceToken() != GetDescriptor()) { LBSLOGE(LOCATOR_CALLBACK, "invalid token."); return -1; } switch (code) { case RECEIVE_LOCATION_INFO_EVENT: { std::unique_ptr location = Location::Unmarshalling(data); OnLocationReport(location); if (location->GetLocationSourceType() == LocationSourceType::NETWORK_TYPE && location->GetAdditionsMap()["inHdArea"] != "") { inHdArea_ = (location->GetAdditionsMap()["inHdArea"] == "true"); } if (NeedSetSingleLocation(location)) { SetSingleLocation(location); } if (IfReportAccuracyLocation()) { CountDown(); } break; } case RECEIVE_LOCATION_STATUS_EVENT: { int status = data.ReadInt32(); OnLocatingStatusChange(status); break; } case RECEIVE_ERROR_INFO_EVENT: { int errorCode = data.ReadInt32(); LBSLOGI(LOCATOR_STANDARD, "CallbackSutb receive ERROR_EVENT. errorCode:%{public}d", errorCode); if (errorCode == LOCATING_FAILED_INTERNET_ACCESS_FAILURE) { inHdArea_ = false; if (GetSingleLocation() != nullptr) { CountDown(); } } else { OnErrorReport(errorCode); } break; } default: { IPCObjectStub::OnRemoteRequest(code, data, reply, option); break; } } return 0; } napi_env LocatorCallbackNapi::GetEnv() { std::unique_lock guard(mutex_); return env_; } void LocatorCallbackNapi::SetEnv(const napi_env& env) { std::unique_lock guard(mutex_); env_ = env; } napi_ref LocatorCallbackNapi::GetHandleCb() { std::unique_lock guard(mutex_); return handlerCb_; } void LocatorCallbackNapi::SetHandleCb(const napi_ref& handlerCb) { { std::unique_lock guard(mutex_); handlerCb_ = handlerCb; } std::unique_lock guard(g_regCallbackMutex); g_registerCallbacks.emplace_back(handlerCb); } bool FindLocationCallback(napi_ref cb) { std::unique_lock guard(g_regCallbackMutex); auto iter = std::find(g_registerCallbacks.begin(), g_registerCallbacks.end(), cb); if (iter == g_registerCallbacks.end()) { return false; } return true; } void DeleteLocationCallback(napi_ref cb) { std::unique_lock guard(g_regCallbackMutex); for (auto iter = g_registerCallbacks.begin(); iter != g_registerCallbacks.end(); iter++) { if (*iter == cb) { iter = g_registerCallbacks.erase(iter); break; } } } void LocatorCallbackNapi::DoSendWork(uv_loop_s*& loop, uv_work_t*& work) { uv_queue_work(loop, work, [](uv_work_t* work) {}, [](uv_work_t* work, int status) { if (work == nullptr) { return; } napi_handle_scope scope = nullptr; auto context = static_cast(work->data); if (context == nullptr) { delete work; return; } if (context->env == nullptr || context->loc == nullptr) { delete context; delete work; return; } if (!FindLocationCallback(context->callback[0])) { LBSLOGE(LOCATOR_CALLBACK, "no valid callback"); delete context; delete work; return; } napi_open_handle_scope(context->env, &scope); if (scope == nullptr) { DELETE_SCOPE_CONTEXT_WORK(context->env, scope, context, work); return; } napi_value jsEvent = nullptr; CHK_NAPI_ERR_CLOSE_SCOPE(context->env, napi_create_object(context->env, &jsEvent), scope, context, work); if (context->callback[1]) { SystemLocationToJs(context->env, context->loc, jsEvent); } else { LocationToJs(context->env, context->loc, jsEvent); } if (context->callback[0] != nullptr) { napi_value undefine = nullptr; napi_value handler = nullptr; CHK_NAPI_ERR_CLOSE_SCOPE(context->env, napi_get_undefined(context->env, &undefine), scope, context, work); CHK_NAPI_ERR_CLOSE_SCOPE(context->env, napi_get_reference_value(context->env, context->callback[0], &handler), scope, context, work); if (napi_call_function(context->env, nullptr, handler, 1, &jsEvent, &undefine) != napi_ok) { LBSLOGE(LOCATOR_CALLBACK, "Report location failed"); } } NAPI_CALL_RETURN_VOID(context->env, napi_close_handle_scope(context->env, scope)); delete context; delete work; }); } void LocatorCallbackNapi::DoSendErrorCode(uv_loop_s *&loop, uv_work_t *&work) { uv_queue_work(loop, work, [](uv_work_t *work) {}, [](uv_work_t *work, int status) { AsyncContext *context = nullptr; napi_handle_scope scope = nullptr; if (work == nullptr) { LBSLOGE(LOCATOR_CALLBACK, "work is nullptr"); return; } context = static_cast(work->data); if (context == nullptr || context->env == nullptr) { LBSLOGE(LOCATOR_CALLBACK, "context is nullptr"); delete work; return; } NAPI_CALL_RETURN_VOID(context->env, napi_open_handle_scope(context->env, &scope)); if (scope == nullptr) { LBSLOGE(LOCATOR_CALLBACK, "scope is nullptr"); delete context; delete work; return; } if (context->callback[FAIL_CALLBACK] != nullptr) { napi_value undefine; napi_value handler = nullptr; CHK_NAPI_ERR_CLOSE_SCOPE(context->env, napi_get_undefined(context->env, &undefine), scope, context, work); CHK_NAPI_ERR_CLOSE_SCOPE(context->env, napi_get_reference_value(context->env, context->callback[FAIL_CALLBACK], &handler), scope, context, work); std::string msg = GetErrorMsgByCode(context->errCode); CreateFailCallBackParams(*context, msg, context->errCode); if (napi_call_function(context->env, nullptr, handler, RESULT_SIZE, context->result, &undefine) != napi_ok) { LBSLOGE(LOCATOR_CALLBACK, "Report system error failed"); } } NAPI_CALL_RETURN_VOID(context->env, napi_close_handle_scope(context->env, scope)); delete context; delete work; }); } bool LocatorCallbackNapi::SendErrorCode(const int& errorCode) { std::unique_lock guard(mutex_); if (!IsSystemGeoLocationApi() && !IsSingleLocationRequest()) { LBSLOGE(LOCATOR_CALLBACK, "this is Callback type,cant send error msg."); return false; } if (env_ == nullptr) { LBSLOGE(LOCATOR_CALLBACK, "env_ is nullptr."); return false; } if (handlerCb_ == nullptr) { LBSLOGE(LOCATOR_CALLBACK, "handler is nullptr."); return false; } uv_loop_s *loop = nullptr; NAPI_CALL_BASE(env_, napi_get_uv_event_loop(env_, &loop), false); if (loop == nullptr) { LBSLOGE(LOCATOR_CALLBACK, "loop == nullptr."); return false; } uv_work_t *work = new (std::nothrow) uv_work_t; if (work == nullptr) { LBSLOGE(LOCATOR_CALLBACK, "work == nullptr."); return false; } AsyncContext *context = new (std::nothrow) AsyncContext(env_); if (context == nullptr) { LBSLOGE(LOCATOR_CALLBACK, "context == nullptr."); delete work; return false; } if (!InitContext(context)) { LBSLOGE(LOCATOR_CALLBACK, "InitContext fail"); } context->errCode = errorCode; work->data = context; DoSendErrorCode(loop, work); return true; } void LocatorCallbackNapi::OnLocationReport(const std::unique_ptr& location) { std::unique_lock guard(mutex_); uv_loop_s *loop = nullptr; if (env_ == nullptr) { LBSLOGD(LOCATOR_CALLBACK, "env_ is nullptr."); return; } if (handlerCb_ == nullptr) { LBSLOGE(LOCATOR_CALLBACK, "handler is nullptr."); return; } NAPI_CALL_RETURN_VOID(env_, napi_get_uv_event_loop(env_, &loop)); if (loop == nullptr) { LBSLOGE(LOCATOR_CALLBACK, "loop == nullptr."); return; } uv_work_t *work = new (std::nothrow) uv_work_t; if (work == nullptr) { LBSLOGE(LOCATOR_CALLBACK, "work == nullptr."); return; } auto context = new (std::nothrow) LocationAsyncContext(env_); if (context == nullptr) { LBSLOGE(LOCATOR_CALLBACK, "context == nullptr."); delete work; return; } if (!InitContext(context)) { LBSLOGE(LOCATOR_CALLBACK, "InitContext fail"); } context->loc = std::make_unique(*location); work->data = context; DoSendWork(loop, work); } void LocatorCallbackNapi::OnLocatingStatusChange(const int status) { } void LocatorCallbackNapi::OnErrorReport(const int errorCode) { SendErrorCode(errorCode); } void LocatorCallbackNapi::DeleteAllCallbacks() { DeleteHandler(); } void LocatorCallbackNapi::DeleteHandler() { LBSLOGD(LOCATOR_CALLBACK, "before DeleteHandler"); std::unique_lock guard(mutex_); if (env_ == nullptr) { LBSLOGE(LOCATOR_CALLBACK, "env is nullptr."); return; } DeleteLocationCallback(handlerCb_); if (IsSystemGeoLocationApi()) { if (successHandlerCb_ != nullptr) { NAPI_CALL_RETURN_VOID(env_, napi_delete_reference(env_, successHandlerCb_)); successHandlerCb_ = nullptr; } if (failHandlerCb_ != nullptr) { NAPI_CALL_RETURN_VOID(env_, napi_delete_reference(env_, failHandlerCb_)); failHandlerCb_ = nullptr; } if (completeHandlerCb_ != nullptr) { NAPI_CALL_RETURN_VOID(env_, napi_delete_reference(env_, completeHandlerCb_)); completeHandlerCb_ = nullptr; } } else { if (handlerCb_ != nullptr) { NAPI_CALL_RETURN_VOID(env_, napi_delete_reference(env_, handlerCb_)); handlerCb_ = nullptr; } } } bool LocatorCallbackNapi::IsSystemGeoLocationApi() { return (successHandlerCb_ != nullptr) ? true : false; } bool LocatorCallbackNapi::IsSingleLocationRequest() { return (fixNumber_ == 1); } void LocatorCallbackNapi::CountDown() { if (IsSingleLocationRequest() && latch_ != nullptr) { latch_->CountDown(); } } void LocatorCallbackNapi::Wait(int time) { if (IsSingleLocationRequest() && latch_ != nullptr) { latch_->Wait(time); } } int LocatorCallbackNapi::GetCount() { if (IsSingleLocationRequest() && latch_ != nullptr) { return latch_->GetCount(); } return 0; } void LocatorCallbackNapi::SetCount(int count) { if (IsSingleLocationRequest() && latch_ != nullptr) { return latch_->SetCount(count); } } bool LocatorCallbackNapi::NeedSetSingleLocation(const std::unique_ptr& location) { if (locationPriority_ == LOCATION_PRIORITY_ACCURACY && singleLocation_ != nullptr && location->GetLocationSourceType() == LocationSourceType::NETWORK_TYPE) { return false; } else { return true; } } bool LocatorCallbackNapi::IfReportAccuracyLocation() { if (locationPriority_ == LOCATION_PRIORITY_ACCURACY && (((singleLocation_->GetLocationSourceType() == LocationSourceType::GNSS_TYPE || singleLocation_->GetLocationSourceType() == LocationSourceType::RTK_TYPE) && inHdArea_) || singleLocation_->GetLocationSourceType() == LocationSourceType::NETWORK_TYPE)) { return false; } else { return true; } } void LocatorCallbackNapi::SetSingleLocation(const std::unique_ptr& location) { std::unique_lock guard(mutex_); singleLocation_ = std::make_shared(*location); } } // namespace Location } // namespace OHOS