/* * Copyright (C) 2008 The Android Open Source Project * Copyright (c) 2011-2017, The Linux Foundation. All rights reserved. * * 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. */ #define ATRACE_TAG (ATRACE_TAG_GRAPHICS | ATRACE_TAG_HAL) #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "gralloc_priv.h" #include "gr.h" #include "alloc_controller.h" #include "memalloc.h" #include using namespace gralloc; /*****************************************************************************/ // Return the type of allocator - // these are used for mapping/unmapping static IMemAlloc* getAllocator(int flags) { IMemAlloc* memalloc; IAllocController* alloc_ctrl = IAllocController::getInstance(); memalloc = alloc_ctrl->getAllocator(flags); return memalloc; } static int gralloc_map_metadata(buffer_handle_t handle) { private_handle_t* hnd = (private_handle_t*)handle; hnd->base_metadata = 0; IMemAlloc* memalloc = getAllocator(hnd->flags) ; void *mappedAddress = MAP_FAILED; unsigned int size = 0; if (!(hnd->flags & private_handle_t::PRIV_FLAGS_FRAMEBUFFER)) { mappedAddress = MAP_FAILED; size = ROUND_UP_PAGESIZE(sizeof(MetaData_t)); int ret = memalloc->map_buffer(&mappedAddress, size, hnd->offset_metadata, hnd->fd_metadata); if(ret || mappedAddress == MAP_FAILED) { ALOGE("Could not mmap metadata for handle %p, fd=%d (%s)", hnd, hnd->fd_metadata, strerror(errno)); return -errno; } hnd->base_metadata = uint64_t(mappedAddress); } return 0; } static int gralloc_map(gralloc_module_t const* module, buffer_handle_t handle) { ATRACE_CALL(); if(!module) return -EINVAL; private_handle_t* hnd = (private_handle_t*)handle; unsigned int size = 0; int err = 0; IMemAlloc* memalloc = getAllocator(hnd->flags) ; void *mappedAddress = MAP_FAILED; hnd->base = 0; // Dont map framebuffer and secure buffers if (!(hnd->flags & private_handle_t::PRIV_FLAGS_FRAMEBUFFER) && !(hnd->flags & private_handle_t::PRIV_FLAGS_SECURE_BUFFER)) { size = hnd->size; err = memalloc->map_buffer(&mappedAddress, size, hnd->offset, hnd->fd); if(err || mappedAddress == MAP_FAILED) { ALOGE("Could not mmap handle %p, fd=%d (%s)", handle, hnd->fd, strerror(errno)); return -errno; } hnd->base = uint64_t(mappedAddress); } else { // Cannot map secure buffers or framebuffers, but still need to map // metadata for secure buffers. // If mapping a secure buffers fails, the framework needs to get // an error code. err = -EACCES; } //Allow mapping of metadata for all buffers including secure ones, but not //of framebuffer int metadata_err = gralloc_map_metadata(handle); if (!err) { err = metadata_err; } return err; } static int gralloc_unmap(gralloc_module_t const* module, buffer_handle_t handle) { ATRACE_CALL(); int err = -EINVAL; if(!module) return err; private_handle_t* hnd = (private_handle_t*)handle; IMemAlloc* memalloc = getAllocator(hnd->flags) ; if(!memalloc) return err; if(hnd->base) { err = memalloc->unmap_buffer((void*)hnd->base, hnd->size, hnd->offset); if (err) { ALOGE("Could not unmap memory at address %p, %s", (void*) hnd->base, strerror(errno)); return -errno; } hnd->base = 0; } if(hnd->base_metadata) { unsigned int size = ROUND_UP_PAGESIZE(sizeof(MetaData_t)); err = memalloc->unmap_buffer((void*)hnd->base_metadata, size, hnd->offset_metadata); if (err) { ALOGE("Could not unmap memory at address %p, %s", (void*) hnd->base_metadata, strerror(errno)); return -errno; } hnd->base_metadata = 0; } return 0; } /*****************************************************************************/ static pthread_mutex_t sMapLock = PTHREAD_MUTEX_INITIALIZER; /*****************************************************************************/ int gralloc_register_buffer(gralloc_module_t const* module, buffer_handle_t handle) { ATRACE_CALL(); if (!module || private_handle_t::validate(handle) < 0) return -EINVAL; int err = gralloc_map(module, handle); /* Do not fail register_buffer for secure buffers*/ if (err == -EACCES) err = 0; return err; } int gralloc_unregister_buffer(gralloc_module_t const* module, buffer_handle_t handle) { ATRACE_CALL(); if (!module || private_handle_t::validate(handle) < 0) return -EINVAL; /* * If the buffer has been mapped during a lock operation, it's time * to un-map it. It's an error to be here with a locked buffer. * NOTE: the framebuffer is handled differently and is never unmapped. * Also base and base_metadata are reset. */ return gralloc_unmap(module, handle); } int terminateBuffer(gralloc_module_t const* module, private_handle_t* hnd) { ATRACE_CALL(); if(!module) return -EINVAL; /* * If the buffer has been mapped during a lock operation, it's time * to un-map it. It's an error to be here with a locked buffer. * NOTE: the framebuffer is handled differently and is never unmapped. * Also base and base_metadata are reset. */ return gralloc_unmap(module, hnd); } static int gralloc_map_and_invalidate (gralloc_module_t const* module, buffer_handle_t handle, int usage) { ATRACE_CALL(); if (!module || private_handle_t::validate(handle) < 0) return -EINVAL; int err = 0; private_handle_t* hnd = (private_handle_t*)handle; if (usage & (GRALLOC_USAGE_SW_READ_MASK | GRALLOC_USAGE_SW_WRITE_MASK)) { if (hnd->base == 0) { // we need to map for real pthread_mutex_t* const lock = &sMapLock; pthread_mutex_lock(lock); err = gralloc_map(module, handle); pthread_mutex_unlock(lock); } if (hnd->flags & private_handle_t::PRIV_FLAGS_USES_ION and hnd->flags & private_handle_t::PRIV_FLAGS_CACHED) { //Invalidate if CPU reads in software and there are non-CPU //writers. No need to do this for the metadata buffer as it is //only read/written in software. if ((usage & GRALLOC_USAGE_SW_READ_MASK) and (hnd->flags & private_handle_t::PRIV_FLAGS_NON_CPU_WRITER)) { IMemAlloc* memalloc = getAllocator(hnd->flags) ; err = memalloc->clean_buffer((void*)hnd->base, hnd->size, hnd->offset, hnd->fd, CACHE_INVALIDATE); } //Mark the buffer to be flushed after CPU write. if (usage & GRALLOC_USAGE_SW_WRITE_MASK) { hnd->flags |= private_handle_t::PRIV_FLAGS_NEEDS_FLUSH; } } } return err; } int gralloc_lock(gralloc_module_t const* module, buffer_handle_t handle, int usage, int /*l*/, int /*t*/, int /*w*/, int /*h*/, void** vaddr) { ATRACE_CALL(); private_handle_t* hnd = (private_handle_t*)handle; int err = gralloc_map_and_invalidate(module, handle, usage); if(!err) *vaddr = (void*)hnd->base; return err; } int gralloc_lock_ycbcr(gralloc_module_t const* module, buffer_handle_t handle, int usage, int /*l*/, int /*t*/, int /*w*/, int /*h*/, struct android_ycbcr *ycbcr) { ATRACE_CALL(); private_handle_t* hnd = (private_handle_t*)handle; int err = gralloc_map_and_invalidate(module, handle, usage); if(!err) err = getYUVPlaneInfo(hnd, ycbcr); return err; } int gralloc_unlock(gralloc_module_t const* module, buffer_handle_t handle) { ATRACE_CALL(); if (!module || private_handle_t::validate(handle) < 0) return -EINVAL; int err = 0; private_handle_t* hnd = (private_handle_t*)handle; IMemAlloc* memalloc = getAllocator(hnd->flags); if (hnd->flags & private_handle_t::PRIV_FLAGS_NEEDS_FLUSH) { err = memalloc->clean_buffer((void*)hnd->base, hnd->size, hnd->offset, hnd->fd, CACHE_CLEAN); hnd->flags &= ~private_handle_t::PRIV_FLAGS_NEEDS_FLUSH; } return err; } /*****************************************************************************/ int gralloc_perform(struct gralloc_module_t const* module, int operation, ... ) { int res = -EINVAL; va_list args; if(!module) return res; va_start(args, operation); switch (operation) { case GRALLOC_MODULE_PERFORM_CREATE_HANDLE_FROM_BUFFER: { int fd = va_arg(args, int); unsigned int size = va_arg(args, unsigned int); unsigned int offset = va_arg(args, unsigned int); void* base = va_arg(args, void*); int width = va_arg(args, int); int height = va_arg(args, int); int format = va_arg(args, int); int alignedw = 0, alignedh = 0; native_handle_t** handle = va_arg(args, native_handle_t**); private_handle_t* hnd = (private_handle_t*)native_handle_create( private_handle_t::sNumFds, private_handle_t::sNumInts()); if (hnd) { hnd->magic = private_handle_t::sMagic; hnd->fd = fd; hnd->flags = private_handle_t::PRIV_FLAGS_USES_ION; hnd->size = size; hnd->offset = offset; hnd->base = uint64_t(base) + offset; hnd->gpuaddr = 0; AdrenoMemInfo::getInstance().getAlignedWidthAndHeight(width, height, format, 0, alignedw, alignedh); hnd->width = alignedw; hnd->height = alignedh; hnd->unaligned_width = width; hnd->unaligned_height = height; hnd->format = format; *handle = (native_handle_t *)hnd; res = 0; } break; } case GRALLOC_MODULE_PERFORM_GET_STRIDE: { int width = va_arg(args, int); int format = va_arg(args, int); int *stride = va_arg(args, int *); int alignedw = 0, alignedh = 0; AdrenoMemInfo::getInstance().getAlignedWidthAndHeight(width, 0, format, 0, alignedw, alignedh); *stride = alignedw; res = 0; } break; case GRALLOC_MODULE_PERFORM_GET_CUSTOM_STRIDE_FROM_HANDLE: { const private_handle_t* hnd = va_arg(args, private_handle_t*); int *stride = va_arg(args, int *); if (private_handle_t::validate(hnd)) { return res; } int alignedw = 0, alignedh = 0; AdrenoMemInfo::getInstance().getAlignedWidthAndHeight(hnd, alignedw, alignedh); *stride = alignedw; res = 0; } break; case GRALLOC_MODULE_PERFORM_GET_CUSTOM_STRIDE_AND_HEIGHT_FROM_HANDLE: { const private_handle_t* hnd = va_arg(args, private_handle_t*); int *stride = va_arg(args, int *); int *height = va_arg(args, int *); if (private_handle_t::validate(hnd)) { return res; } int alignedw = 0, alignedh = 0; AdrenoMemInfo::getInstance().getAlignedWidthAndHeight(hnd, alignedw, alignedh); *stride = alignedw; *height = alignedh; res = 0; } break; case GRALLOC_MODULE_PERFORM_GET_ATTRIBUTES: { int width = va_arg(args, int); int height = va_arg(args, int); int format = va_arg(args, int); int usage = va_arg(args, int); int *alignedWidth = va_arg(args, int *); int *alignedHeight = va_arg(args, int *); int *tileEnabled = va_arg(args,int *); *tileEnabled = isUBwcEnabled(format, usage); AdrenoMemInfo::getInstance().getAlignedWidthAndHeight(width, height, format, usage, *alignedWidth, *alignedHeight); res = 0; } break; case GRALLOC_MODULE_PERFORM_GET_COLOR_SPACE_FROM_HANDLE: { private_handle_t* hnd = va_arg(args, private_handle_t*); int *color_space = va_arg(args, int *); if (private_handle_t::validate(hnd)) { return res; } MetaData_t *metadata = (MetaData_t *)hnd->base_metadata; if (!metadata) { break; #ifdef USE_COLOR_METADATA } else if (metadata->operation & COLOR_METADATA) { ColorMetaData *colorMetadata = &metadata->color; res = 0; switch (colorMetadata->colorPrimaries) { case ColorPrimaries_BT709_5: *color_space = HAL_CSC_ITU_R_709; break; case ColorPrimaries_BT601_6_525: *color_space = ((colorMetadata->range) ? HAL_CSC_ITU_R_601_FR : HAL_CSC_ITU_R_601); break; case ColorPrimaries_BT2020: *color_space = (colorMetadata->range) ? HAL_CSC_ITU_R_2020_FR : HAL_CSC_ITU_R_2020; break; default: res = -EINVAL; break; } #endif } else if(metadata->operation & UPDATE_COLOR_SPACE) { *color_space = metadata->colorSpace; res = 0; } } break; case GRALLOC_MODULE_PERFORM_GET_YUV_PLANE_INFO: { private_handle_t* hnd = va_arg(args, private_handle_t*); android_ycbcr* ycbcr = va_arg(args, struct android_ycbcr *); if (!private_handle_t::validate(hnd)) { res = getYUVPlaneInfo(hnd, ycbcr); } } break; case GRALLOC_MODULE_PERFORM_GET_MAP_SECURE_BUFFER_INFO: { private_handle_t* hnd = va_arg(args, private_handle_t*); int *map_secure_buffer = va_arg(args, int *); if (private_handle_t::validate(hnd)) { return res; } MetaData_t *metadata = (MetaData_t *)hnd->base_metadata; if(metadata && metadata->operation & MAP_SECURE_BUFFER) { *map_secure_buffer = metadata->mapSecureBuffer; res = 0; } else { *map_secure_buffer = 0; } } break; case GRALLOC_MODULE_PERFORM_GET_UBWC_FLAG: { private_handle_t* hnd = va_arg(args, private_handle_t*); int *flag = va_arg(args, int *); if (private_handle_t::validate(hnd)) { return res; } *flag = hnd->flags & private_handle_t::PRIV_FLAGS_UBWC_ALIGNED; MetaData_t *metadata = (MetaData_t *)hnd->base_metadata; if (metadata && (metadata->operation & LINEAR_FORMAT)) { *flag = 0; } res = 0; } break; case GRALLOC_MODULE_PERFORM_GET_RGB_DATA_ADDRESS: { private_handle_t* hnd = va_arg(args, private_handle_t*); void** rgb_data = va_arg(args, void**); if (!private_handle_t::validate(hnd)) { res = getRgbDataAddress(hnd, rgb_data); } } break; case GRALLOC_MODULE_PERFORM_GET_IGC: { private_handle_t* hnd = va_arg(args, private_handle_t*); uint32_t *igc = va_arg(args, uint32_t *); if (!private_handle_t::validate(hnd) && igc) { MetaData_t *metadata = (MetaData_t *)hnd->base_metadata; if (metadata && (metadata->operation & SET_IGC)) { *igc = metadata->igc; res = 0; } } } break; case GRALLOC_MODULE_PERFORM_SET_IGC: res = 0; break; case GRALLOC_MODULE_PERFORM_SET_SINGLE_BUFFER_MODE: { private_handle_t* hnd = va_arg(args, private_handle_t*); uint32_t *enable = va_arg(args, uint32_t*); if (!private_handle_t::validate(hnd)) { setMetaData(hnd, SET_SINGLE_BUFFER_MODE, enable); res = 0; } } break; default: break; } va_end(args); return res; }