/* * Copyright (C) 2016-2017 ARM Limited. All rights reserved. * * Copyright (C) 2008 The Android Open Source Project * * 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 #include #include #include #include #include #include #include #include #include #if GRALLOC_USE_GRALLOC1_API == 1 #include #else #include #endif #include "mali_gralloc_module.h" #include "mali_gralloc_private_interface_types.h" #include "mali_gralloc_buffer.h" #include "gralloc_helper.h" #include "framebuffer_device.h" #include "mali_gralloc_formats.h" #include "mali_gralloc_usages.h" #include "mali_gralloc_bufferdescriptor.h" #include "ion_4.12.h" #define ION_SYSTEM (char*)"ion_system_heap" #define ION_CMA (char*)"linux,cma" static bool gralloc_legacy_ion; static int system_heap_id; static int cma_heap_id; static void mali_gralloc_ion_free_internal(buffer_handle_t *pHandle, uint32_t num_hnds); static void init_afbc(uint8_t *buf, uint64_t internal_format, int w, int h) { uint32_t n_headers = (w * h) / 256; uint32_t body_offset = n_headers * 16; uint32_t headers[][4] = { { body_offset, 0x1, 0x10000, 0x0 }, /* Layouts 0, 3, 4 */ { (body_offset + (1 << 28)), 0x80200040, 0x1004000, 0x20080 } /* Layouts 1, 5 */ }; uint32_t i, layout; /* For AFBC 1.2, header buffer can be initilized to 0 for Layouts 0, 3, 4 */ if (internal_format & MALI_GRALLOC_INTFMT_AFBC_TILED_HEADERS) { memset(headers[0], 0, sizeof(uint32_t) * 4); } /* map format if necessary (also removes internal extension bits) */ uint64_t base_format = internal_format & MALI_GRALLOC_INTFMT_FMT_MASK; switch (base_format) { case MALI_GRALLOC_FORMAT_INTERNAL_RGBA_8888: case MALI_GRALLOC_FORMAT_INTERNAL_RGBX_8888: case MALI_GRALLOC_FORMAT_INTERNAL_RGB_888: case MALI_GRALLOC_FORMAT_INTERNAL_RGB_565: case MALI_GRALLOC_FORMAT_INTERNAL_BGRA_8888: layout = 0; break; case MALI_GRALLOC_FORMAT_INTERNAL_YV12: case MALI_GRALLOC_FORMAT_INTERNAL_NV12: case MALI_GRALLOC_FORMAT_INTERNAL_NV21: layout = 1; break; default: layout = 0; } ALOGV("Writing AFBC header layout %d for format %" PRIu64, layout, base_format); for (i = 0; i < n_headers; i++) { memcpy(buf, headers[layout], sizeof(headers[layout])); buf += sizeof(headers[layout]); } } static int find_heap_id(int ion_client, char *name) { int i, ret, cnt, heap_id = -1; struct ion_heap_data *data; ret = ion_query_heap_cnt(ion_client, &cnt); if (ret) { AERR("ion count query failed with %s", strerror(errno)); return -1; } data = (struct ion_heap_data *)malloc(cnt * sizeof(*data)); if (!data) { AERR("Error allocating data %s\n", strerror(errno)); return -1; } ret = ion_query_get_heaps(ion_client, cnt, data); if (ret) { AERR("Error querying heaps from ion %s", strerror(errno)); } else { for (i = 0; i < cnt; i++) { if (strcmp(data[i].name, name) == 0) { heap_id = data[i].heap_id; break; } } if (i == cnt) { AERR("No %s Heap Found amongst %d heaps\n", name, cnt); heap_id = -1; } } free(data); return heap_id; } static int alloc_from_ion_heap(int ion_fd, size_t size, unsigned int heap_mask, unsigned int flags, int *min_pgsz) { ion_user_handle_t ion_hnd = -1; int shared_fd, ret; if ((ion_fd < 0) || (size <= 0) || (heap_mask == 0) || (min_pgsz == NULL)) { return -1; } /** * step 1: ion_alloc new ion_hnd * step 2: ion_share from ion_hnd and get shared_fd * step 3: ion free the given ion_hnd * step 4: when we need to free this ion buffer, just close the shared_fd, * kernel will count the reference of file struct, so it's safe to * be transfered between processes. */ ret = ion_alloc(ion_fd, size, 0, heap_mask, flags, &ion_hnd); if (ret < 0) { #if defined(ION_HEAP_SECURE_MASK) if (heap_mask == ION_HEAP_SECURE_MASK) { return -1; } else #endif { /* If everything else failed try system heap */ flags = 0; /* Fallback option flags are not longer valid */ heap_mask = ION_HEAP_SYSTEM_MASK; ret = ion_alloc(ion_fd, size, 0, heap_mask, flags, &ion_hnd); } } ret = ion_share(ion_fd, ion_hnd, &shared_fd); if (ret != 0) { AERR("ion_share( %d ) failed", ion_fd); shared_fd = -1; } ret = ion_free(ion_fd, ion_hnd); if (0 != ret) { AERR("ion_free( %d ) failed", ion_fd); close(shared_fd); shared_fd = -1; } if (ret >= 0) { switch (heap_mask) { case ION_HEAP_SYSTEM_MASK: *min_pgsz = SZ_4K; break; case ION_HEAP_SYSTEM_CONTIG_MASK: case ION_HEAP_CARVEOUT_MASK: #ifdef ION_HEAP_TYPE_DMA_MASK case ION_HEAP_TYPE_DMA_MASK: #endif *min_pgsz = size; break; #ifdef ION_HEAP_CHUNK_MASK /* NOTE: if have this heap make sure your ION chunk size is 2M*/ case ION_HEAP_CHUNK_MASK: *min_pgsz = SZ_2M; break; #endif #ifdef ION_HEAP_COMPOUND_PAGE_MASK case ION_HEAP_COMPOUND_PAGE_MASK: *min_pgsz = SZ_2M; break; #endif /* If have customized heap please set the suitable pg type according to * the customized ION implementation */ #ifdef ION_HEAP_CUSTOM_MASK case ION_HEAP_CUSTOM_MASK: *min_pgsz = SZ_4K; break; #endif default: *min_pgsz = SZ_4K; break; } } return shared_fd; } unsigned int pick_ion_heap(uint64_t usage) { unsigned int heap_mask; if (usage & GRALLOC_USAGE_PROTECTED) { #if defined(ION_HEAP_SECURE_MASK) heap_mask = ION_HEAP_SECURE_MASK; #else AERR("Protected ION memory is not supported on this platform."); return 0; #endif } #if defined(ION_HEAP_TYPE_COMPOUND_PAGE_MASK) && GRALLOC_USE_ION_COMPOUND_PAGE_HEAP else if (!(usage & GRALLOC_USAGE_HW_VIDEO_ENCODER) && (usage & (GRALLOC_USAGE_HW_FB | GRALLOC_USAGE_HW_COMPOSER))) { heap_mask = ION_HEAP_TYPE_COMPOUND_PAGE_MASK; } #elif defined(ION_HEAP_TYPE_DMA_MASK) && GRALLOC_USE_ION_DMA_HEAP else if (!(usage & GRALLOC_USAGE_HW_VIDEO_ENCODER) && (usage & (GRALLOC_USAGE_HW_FB))) { heap_mask = ION_HEAP_TYPE_DMA_MASK; } #endif else { heap_mask = ION_HEAP_SYSTEM_MASK; } return heap_mask; } void set_ion_flags(unsigned int heap_mask, uint64_t usage, unsigned int *priv_heap_flag, int *ion_flags) { #if !GRALLOC_USE_ION_DMA_HEAP GRALLOC_UNUSED(heap_mask); #endif if (priv_heap_flag) { #if defined(ION_HEAP_TYPE_DMA_MASK) && GRALLOC_USE_ION_DMA_HEAP if (heap_mask == ION_HEAP_TYPE_DMA_MASK) { *priv_heap_flag = private_handle_t::PRIV_FLAGS_USES_ION_DMA_HEAP; } #endif } if (ion_flags) { #if defined(ION_HEAP_TYPE_DMA_MASK) && GRALLOC_USE_ION_DMA_HEAP if (heap_mask != ION_HEAP_TYPE_DMA_MASK) { #endif if ((usage & GRALLOC_USAGE_SW_READ_MASK) == GRALLOC_USAGE_SW_READ_OFTEN) { *ion_flags = ION_FLAG_CACHED | ION_FLAG_CACHED_NEEDS_SYNC; } #if defined(ION_HEAP_TYPE_DMA_MASK) && GRALLOC_USE_ION_DMA_HEAP } #endif } } static bool check_buffers_sharable(const gralloc_buffer_descriptor_t *descriptors, uint32_t numDescriptors) { unsigned int shared_backend_heap_mask = 0; int shared_ion_flags = 0; uint64_t usage; uint32_t i; if (numDescriptors <= 1) { return false; } for (i = 0; i < numDescriptors; i++) { unsigned int heap_mask; int ion_flags; buffer_descriptor_t *bufDescriptor = (buffer_descriptor_t *)descriptors[i]; usage = bufDescriptor->consumer_usage | bufDescriptor->producer_usage; heap_mask = pick_ion_heap(usage); if (0 == heap_mask) { return false; } set_ion_flags(heap_mask, usage, NULL, &ion_flags); if (0 != shared_backend_heap_mask) { if (shared_backend_heap_mask != heap_mask || shared_ion_flags != ion_flags) { return false; } } else { shared_backend_heap_mask = heap_mask; shared_ion_flags = ion_flags; } } return true; } static int get_max_buffer_descriptor_index(const gralloc_buffer_descriptor_t *descriptors, uint32_t numDescriptors) { uint32_t i, max_buffer_index = 0; size_t max_buffer_size = 0; for (i = 0; i < numDescriptors; i++) { buffer_descriptor_t *bufDescriptor = (buffer_descriptor_t *)descriptors[i]; if (max_buffer_size < bufDescriptor->size) { max_buffer_index = i; max_buffer_size = bufDescriptor->size; } } return max_buffer_index; } int mali_gralloc_ion_allocate(mali_gralloc_module *m, const gralloc_buffer_descriptor_t *descriptors, uint32_t numDescriptors, buffer_handle_t *pHandle, bool *shared_backend) { static int support_protected = 1; /* initially, assume we support protected memory */ unsigned int heap_mask, priv_heap_flag = 0; unsigned char *cpu_ptr = NULL; uint64_t usage; uint32_t i, max_buffer_index = 0; int shared_fd, ret, ion_flags = 0; int min_pgsz = 0; if (m->ion_client < 0) { m->ion_client = ion_open(); if (m->ion_client < 0) { AERR("ion_open failed with %s", strerror(errno)); return -1; } gralloc_legacy_ion = ion_is_legacy(m->ion_client); if (!gralloc_legacy_ion) { system_heap_id = find_heap_id(m->ion_client, ION_SYSTEM); cma_heap_id = find_heap_id(m->ion_client, ION_CMA); if (system_heap_id < 0) { ion_close(m->ion_client); m->ion_client = -1; AERR( "ion_open failed: no system heap found" ); return -1; } if (cma_heap_id < 0) { AERR("No cma heap found, falling back to system"); cma_heap_id = system_heap_id; } } } *shared_backend = check_buffers_sharable(descriptors, numDescriptors); if (*shared_backend) { buffer_descriptor_t *max_bufDescriptor; max_buffer_index = get_max_buffer_descriptor_index(descriptors, numDescriptors); max_bufDescriptor = (buffer_descriptor_t *)(descriptors[max_buffer_index]); usage = max_bufDescriptor->consumer_usage | max_bufDescriptor->producer_usage; heap_mask = pick_ion_heap(usage); if (heap_mask == 0) { AERR("Failed to find an appropriate ion heap"); return -1; } set_ion_flags(heap_mask, usage, &priv_heap_flag, &ion_flags); if (gralloc_legacy_ion) { shared_fd = alloc_from_ion_heap(m->ion_client, max_bufDescriptor->size, heap_mask, ion_flags, &min_pgsz); } else { int heap = 1 << system_heap_id; if (heap_mask == ION_HEAP_TYPE_DMA_MASK) heap = 1 << cma_heap_id; ret = ion_alloc_fd(m->ion_client, max_bufDescriptor->size, 0, heap, 0, &(shared_fd)); if (ret != 0) { AERR("Failed to ion_alloc_fd from ion_client:%d", m->ion_client); return -1; } min_pgsz = SZ_4K; } if (shared_fd < 0) { AERR("ion_alloc failed form client: ( %d )", m->ion_client); return -1; } for (i = 0; i < numDescriptors; i++) { buffer_descriptor_t *bufDescriptor = (buffer_descriptor_t *)(descriptors[i]); int tmp_fd; if (i != max_buffer_index) { tmp_fd = dup(shared_fd); if (tmp_fd < 0) { /* need to free already allocated memory. */ mali_gralloc_ion_free_internal(pHandle, numDescriptors); return -1; } } else { tmp_fd = shared_fd; } private_handle_t *hnd = new private_handle_t( private_handle_t::PRIV_FLAGS_USES_ION | priv_heap_flag, bufDescriptor->size, min_pgsz, bufDescriptor->consumer_usage, bufDescriptor->producer_usage, tmp_fd, bufDescriptor->hal_format, bufDescriptor->internal_format, bufDescriptor->byte_stride, bufDescriptor->width, bufDescriptor->height, bufDescriptor->pixel_stride, bufDescriptor->internalWidth, bufDescriptor->internalHeight, max_bufDescriptor->size); if (NULL == hnd) { mali_gralloc_ion_free_internal(pHandle, numDescriptors); return -1; } pHandle[i] = hnd; } } else { for (i = 0; i < numDescriptors; i++) { buffer_descriptor_t *bufDescriptor = (buffer_descriptor_t *)(descriptors[i]); usage = bufDescriptor->consumer_usage | bufDescriptor->producer_usage; heap_mask = pick_ion_heap(usage); if (heap_mask == 0) { AERR("Failed to find an appropriate ion heap"); mali_gralloc_ion_free_internal(pHandle, numDescriptors); return -1; } set_ion_flags(heap_mask, usage, &priv_heap_flag, &ion_flags); if (gralloc_legacy_ion) { shared_fd = alloc_from_ion_heap(m->ion_client, bufDescriptor->size, heap_mask, ion_flags, &min_pgsz); } else { int heap = 1 << system_heap_id; if (heap_mask == ION_HEAP_TYPE_DMA_MASK) heap = 1 << cma_heap_id; ret = ion_alloc_fd(m->ion_client, bufDescriptor->size, 0, heap, 0, &(shared_fd)); if (ret != 0) { AERR("Failed to ion_alloc_fd from ion_client:%d", m->ion_client); mali_gralloc_ion_free_internal(pHandle, numDescriptors); return -1; } min_pgsz = SZ_4K; } if (shared_fd < 0) { AERR("ion_alloc failed from client ( %d )", m->ion_client); /* need to free already allocated memory. not just this one */ mali_gralloc_ion_free_internal(pHandle, numDescriptors); return -1; } private_handle_t *hnd = new private_handle_t( private_handle_t::PRIV_FLAGS_USES_ION | priv_heap_flag, bufDescriptor->size, min_pgsz, bufDescriptor->consumer_usage, bufDescriptor->producer_usage, shared_fd, bufDescriptor->hal_format, bufDescriptor->internal_format, bufDescriptor->byte_stride, bufDescriptor->width, bufDescriptor->height, bufDescriptor->pixel_stride, bufDescriptor->internalWidth, bufDescriptor->internalHeight, bufDescriptor->size); if (NULL == hnd) { mali_gralloc_ion_free_internal(pHandle, numDescriptors); return -1; } pHandle[i] = hnd; } } for (i = 0; i < numDescriptors; i++) { buffer_descriptor_t *bufDescriptor = (buffer_descriptor_t *)(descriptors[i]); private_handle_t *hnd = (private_handle_t *)(pHandle[i]); usage = bufDescriptor->consumer_usage | bufDescriptor->producer_usage; if (!(usage & GRALLOC_USAGE_PROTECTED)) { cpu_ptr = (unsigned char *)mmap(NULL, bufDescriptor->size, PROT_READ | PROT_WRITE, MAP_SHARED, hnd->share_fd, 0); if (MAP_FAILED == cpu_ptr) { AERR("mmap failed from client ( %d ), fd ( %d )", m->ion_client, hnd->share_fd); mali_gralloc_ion_free_internal(pHandle, numDescriptors); return -1; } #if GRALLOC_INIT_AFBC == 1 if ((bufDescriptor->internal_format & MALI_GRALLOC_INTFMT_AFBCENABLE_MASK) && (!(*shared_backend))) { init_afbc(cpu_ptr, bufDescriptor->internal_format, bufDescriptor->width, bufDescriptor->height); } #endif hnd->base = cpu_ptr; } } return 0; } void mali_gralloc_ion_free(private_handle_t const *hnd) { if (hnd->flags & private_handle_t::PRIV_FLAGS_FRAMEBUFFER) { return; } else if (hnd->flags & private_handle_t::PRIV_FLAGS_USES_ION) { /* Buffer might be unregistered already so we need to assure we have a valid handle*/ if (0 != hnd->base) { if (0 != munmap((void *)hnd->base, hnd->size)) { AERR("Failed to munmap handle %p", hnd); } } close(hnd->share_fd); memset((void *)hnd, 0, sizeof(*hnd)); } } static void mali_gralloc_ion_free_internal(buffer_handle_t *pHandle, uint32_t num_hnds) { uint32_t i = 0; for (i = 0; i < num_hnds; i++) { if (NULL != pHandle[i]) { mali_gralloc_ion_free((private_handle_t *)(pHandle[i])); } } return; } void mali_gralloc_ion_sync(const mali_gralloc_module *m, private_handle_t *hnd) { if (!gralloc_legacy_ion) return; if (m != NULL && hnd != NULL) { switch (hnd->flags & private_handle_t::PRIV_FLAGS_USES_ION) { case private_handle_t::PRIV_FLAGS_USES_ION: if (!(hnd->flags & private_handle_t::PRIV_FLAGS_USES_ION_DMA_HEAP)) { ion_sync_fd(m->ion_client, hnd->share_fd); } break; } } } int mali_gralloc_ion_map(private_handle_t *hnd) { int retval = -EINVAL; switch (hnd->flags & private_handle_t::PRIV_FLAGS_USES_ION) { case private_handle_t::PRIV_FLAGS_USES_ION: unsigned char *mappedAddress; size_t size = hnd->size; hw_module_t *pmodule = NULL; private_module_t *m = NULL; if (hw_get_module(GRALLOC_HARDWARE_MODULE_ID, (const hw_module_t **)&pmodule) == 0) { m = reinterpret_cast(pmodule); } else { AERR("Could not get gralloc module for handle: %p", hnd); retval = -errno; break; } /* the test condition is set to m->ion_client <= 0 here, because: * 1) module structure are initialized to 0 if no initial value is applied * 2) a second user process should get a ion fd greater than 0. */ if (m->ion_client <= 0) { /* a second user process must obtain a client handle first via ion_open before it can obtain the shared ion buffer*/ m->ion_client = ion_open(); if (m->ion_client < 0) { AERR("Could not open ion device for handle: %p", hnd); retval = -errno; break; } } mappedAddress = (unsigned char *)mmap(NULL, size, PROT_READ | PROT_WRITE, MAP_SHARED, hnd->share_fd, 0); if (MAP_FAILED == mappedAddress) { AERR("mmap( share_fd:%d ) failed with %s", hnd->share_fd, strerror(errno)); retval = -errno; break; } hnd->base = (void *)(uintptr_t(mappedAddress) + hnd->offset); retval = 0; break; } return retval; } void mali_gralloc_ion_unmap(private_handle_t *hnd) { switch (hnd->flags & private_handle_t::PRIV_FLAGS_USES_ION) { case private_handle_t::PRIV_FLAGS_USES_ION: void *base = (void *)hnd->base; size_t size = hnd->size; if (munmap(base, size) < 0) { AERR("Could not munmap base:%p size:%zd '%s'", base, size, strerror(errno)); } break; } } int mali_gralloc_ion_device_close(struct hw_device_t *device) { #if GRALLOC_USE_GRALLOC1_API == 1 gralloc1_device_t *dev = reinterpret_cast(device); #else alloc_device_t *dev = reinterpret_cast(device); #endif if (dev) { private_module_t *m = reinterpret_cast(dev->common.module); if (m->ion_client != -1) { if (0 != ion_close(m->ion_client)) { AERR("Failed to close ion_client: %d err=%s", m->ion_client, strerror(errno)); } m->ion_client = -1; } delete dev; } return 0; }