/* * 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 "mapper_service.h" #include #include #include #include "display_log.h" #include "hdf_trace.h" #undef LOG_TAG #define LOG_TAG "MAPPER_SRV" #undef LOG_DOMAIN #define LOG_DOMAIN 0xD002515 #undef DISPLAY_TRACE #define DISPLAY_TRACE HdfTrace trace(__func__, "HDI:DISP:") namespace OHOS { namespace HDI { namespace Display { namespace Buffer { namespace V1_0 { extern "C" Buffer::V1_2::IMapper* MapperImplGetInstance(void) { return new (std::nothrow) MapperService(); } MapperService::MapperService() : libHandle_(nullptr), vdiImpl_(nullptr), createVdi_(nullptr), destroyVdi_(nullptr) { int32_t ret = LoadVdi(); if (ret == HDF_SUCCESS) { vdiImpl_ = createVdi_(); CHECK_NULLPOINTER_RETURN(vdiImpl_); } else { HDF_LOGE("%{public}s: Load buffer VDI failed", __func__); } } MapperService::~MapperService() { std::lock_guard lck(mutex_); if (destroyVdi_ != nullptr && vdiImpl_ != nullptr) { destroyVdi_(vdiImpl_); vdiImpl_ = nullptr; destroyVdi_ = nullptr; } if (libHandle_ != nullptr) { dlclose(libHandle_); libHandle_ = nullptr; } } int32_t MapperService::LoadVdi() { const char* errStr = dlerror(); if (errStr != nullptr) { HDF_LOGD("%{public}s: mapper load vdi, clear earlier dlerror: %{public}s", __func__, errStr); } #ifdef BUFFER_VDI_DEFAULT_LIBRARY_ENABLE libHandle_ = dlopen(DISPLAY_BUFFER_VDI_DEFAULT_LIBRARY, RTLD_LAZY); if (libHandle_ == nullptr) { DISPLAY_LOGE("display buffer load vendor vdi default library failed: %{public}s", DISPLAY_BUFFER_VDI_LIBRARY); #endif // BUFFER_VDI_DEFAULT_LIBRARY_ENABLE libHandle_ = dlopen(DISPLAY_BUFFER_VDI_LIBRARY, RTLD_LAZY); DISPLAY_LOGD("display buffer load vendor vdi library: %{public}s", DISPLAY_BUFFER_VDI_LIBRARY); #ifdef BUFFER_VDI_DEFAULT_LIBRARY_ENABLE } else { DISPLAY_LOGD("display buffer load vendor vdi default library: %{public}s", DISPLAY_BUFFER_VDI_LIBRARY); } #endif // BUFFER_VDI_DEFAULT_LIBRARY_ENABLE CHECK_NULLPOINTER_RETURN_VALUE(libHandle_, HDF_FAILURE); createVdi_ = reinterpret_cast(dlsym(libHandle_, "CreateDisplayBufferVdi")); if (createVdi_ == nullptr) { errStr = dlerror(); if (errStr != nullptr) { HDF_LOGE("%{public}s: mapper CreateDisplayBufferVdi dlsym error: %{public}s", __func__, errStr); } dlclose(libHandle_); return HDF_FAILURE; } destroyVdi_ = reinterpret_cast(dlsym(libHandle_, "DestroyDisplayBufferVdi")); if (destroyVdi_ == nullptr) { errStr = dlerror(); if (errStr != nullptr) { HDF_LOGE("%{public}s: mapper DestroyDisplayBufferVdi dlsym error: %{public}s", __func__, errStr); } dlclose(libHandle_); return HDF_FAILURE; } return HDF_SUCCESS; } int32_t MapperService::FreeMem(const sptr& handle) { DISPLAY_TRACE; CHECK_NULLPOINTER_RETURN_VALUE(handle, HDF_FAILURE); CHECK_NULLPOINTER_RETURN_VALUE(vdiImpl_, HDF_FAILURE); BufferHandle* buffer = handle->Move(); CHECK_NULLPOINTER_RETURN_VALUE(buffer, HDF_FAILURE); vdiImpl_->FreeMem(*buffer); return HDF_SUCCESS; } int32_t MapperService::Mmap(const sptr& handle) { DISPLAY_TRACE; CHECK_NULLPOINTER_RETURN_VALUE(handle, HDF_FAILURE); CHECK_NULLPOINTER_RETURN_VALUE(vdiImpl_, HDF_FAILURE); BufferHandle* buffer = handle->GetBufferHandle(); CHECK_NULLPOINTER_RETURN_VALUE(buffer, HDF_FAILURE); void* retPtr = vdiImpl_->Mmap(*buffer); CHECK_NULLPOINTER_RETURN_VALUE(retPtr, HDF_FAILURE); return HDF_SUCCESS; } int32_t MapperService::Unmap(const sptr& handle) { DISPLAY_TRACE; CHECK_NULLPOINTER_RETURN_VALUE(handle, HDF_FAILURE); CHECK_NULLPOINTER_RETURN_VALUE(vdiImpl_, HDF_FAILURE); BufferHandle* buffer = handle->GetBufferHandle(); CHECK_NULLPOINTER_RETURN_VALUE(buffer, HDF_FAILURE); int32_t ret = vdiImpl_->Unmap(*buffer); DISPLAY_CHK_RETURN(ret != HDF_SUCCESS, HDF_FAILURE, DISPLAY_LOGE(" fail")); return ret; } int32_t MapperService::FlushCache(const sptr& handle) { DISPLAY_TRACE; CHECK_NULLPOINTER_RETURN_VALUE(handle, HDF_FAILURE); CHECK_NULLPOINTER_RETURN_VALUE(vdiImpl_, HDF_FAILURE); BufferHandle* buffer = handle->GetBufferHandle(); CHECK_NULLPOINTER_RETURN_VALUE(buffer, HDF_FAILURE); int32_t ret = vdiImpl_->FlushCache(*buffer); DISPLAY_CHK_RETURN(ret != HDF_SUCCESS, HDF_FAILURE, DISPLAY_LOGE(" fail")); return ret; } int32_t MapperService::InvalidateCache(const sptr& handle) { DISPLAY_TRACE; CHECK_NULLPOINTER_RETURN_VALUE(handle, HDF_FAILURE); CHECK_NULLPOINTER_RETURN_VALUE(vdiImpl_, HDF_FAILURE); BufferHandle* buffer = handle->GetBufferHandle(); CHECK_NULLPOINTER_RETURN_VALUE(buffer, HDF_FAILURE); int32_t ret = vdiImpl_->InvalidateCache(*buffer); DISPLAY_CHK_RETURN(ret != HDF_SUCCESS, HDF_FAILURE, DISPLAY_LOGE(" fail")); return ret; } int32_t MapperService::GetImageLayout(const sptr& handle, V1_2::ImageLayout& layout) { CHECK_NULLPOINTER_RETURN_VALUE(handle, HDF_FAILURE); CHECK_NULLPOINTER_RETURN_VALUE(vdiImpl_, HDF_FAILURE); BufferHandle* buffer = handle->GetBufferHandle(); CHECK_NULLPOINTER_RETURN_VALUE(buffer, HDF_FAILURE); int32_t ret = vdiImpl_->GetImageLayout(*buffer, layout); DISPLAY_CHK_RETURN(ret != HDF_SUCCESS, HDF_FAILURE, DISPLAY_LOGE(" fail")); return ret; } } // namespace V1_2 } // namespace Buffer } // namespace Display } // namespace HDI } // namespace OHOS