// Copyright (c) 2022 PaddlePaddle Authors. 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. #pragma once #if !defined(_WIN32) && !defined(__APPLE__) #include #include #ifdef __cplusplus extern "C" { #endif #define PADDLE_CUSTOM_RUNTIME_MAJOR_VERSION 0 #define PADDLE_CUSTOM_RUNTIME_MINOR_VERSION 1 #define PADDLE_CUSTOM_RUNTIME_PATCH_VERSION 1 typedef enum { UNDEFINED = 0, BOOL, UINT8, UINT16, UINT32, UINT64, INT8, INT16, INT32, INT64, FLOAT16, FLOAT32, FLOAT64, BFLOAT16, } C_DataType; typedef enum { ANY = 0, NHWC, NCHW, NCDHW, NDHWC, NUM_DATA_LAYOUTS, ALL_LAYOUT = ANY, } C_DataLayout; typedef enum { C_SUCCESS = 0, // success C_WARNING, // results may not meet expectation (such as an asynchronous // interface is actually synchronous) C_FAILED, // resource exhausted/query failed C_ERROR, // invalid argument/wrong usage/uninitialized C_INTERNAL_ERROR // plugin error } C_Status; typedef struct C_Device_st { int id; } * C_Device; typedef struct C_Stream_st* C_Stream; typedef struct C_Event_st* C_Event; typedef void (*C_Callback)(C_Device device, C_Stream stream, void* user_data, C_Status* status); typedef struct { size_t sz; void* data; } C_CCLRootId; typedef struct C_CCLComm_st* C_CCLComm; typedef enum { SUM = 0, AVG, MAX, MIN, PRODUCT } C_CCLReduceOp; struct C_DeviceInterface { // Core fill it and plugin must to check it size_t size; /////////////////////// // device manage api // /////////////////////// /** * @brief Initialize hardware * */ C_Status (*initialize)(); /** * @brief Deinitialize hardware * */ C_Status (*finalize)(); /** * @brief Initialize device * * @param[C_Device] device Core fill it with a logical id, and then plugin * must replace it with a physical id */ C_Status (*init_device)(const C_Device device); /** * @brief Set current device * * @param[C_Device] device Core fill it with a physical id */ C_Status (*set_device)(const C_Device device); /** * @brief Get current device * * @param[C_Device] device Plugin fill it with a physical id */ C_Status (*get_device)(const C_Device device); /** * @brief Deinitialize device * * @param[C_Device] device Core fill it with a physical id */ C_Status (*deinit_device)(const C_Device device); /** * @brief Create a stream * * @param[C_Device] device Core fill it with a physical id * @param[C_Stream*] stream Plugin create a stream and fill it */ C_Status (*create_stream)(const C_Device device, C_Stream* stream); /** * @brief Destroy a stream * * @param[C_Device] device Core fill it with a physical id * @param[C_Stream] stream */ C_Status (*destroy_stream)(const C_Device device, C_Stream stream); /** * @brief Query a stream * * @param[C_Device] device Core fill it with a physical id * @param[C_Stream] stream */ C_Status (*query_stream)(const C_Device device, C_Stream stream); /** * @brief Add a callback to stream * * @param[C_Device] device Core fill it with a physical id * @param[C_Stream] stream * @param[C_Callback] callback * @param[void*] user_data */ C_Status (*stream_add_callback)(const C_Device device, C_Stream stream, C_Callback callback, void* user_data); /** * @brief Create an event * * @param[C_Device] device Core fill it with a physical id * @param[C_Event*] event Plugin create an event and fill it */ C_Status (*create_event)(const C_Device device, C_Event* event); /** * @brief Record an event * * @param[C_Device] device Core fill it with a physical id * @param[C_Stream] stream * @param[C_Event] event */ C_Status (*record_event)(const C_Device device, C_Stream stream, C_Event event); /** * @brief Destroy an event * * @param[C_Device] device Core fill it with a physical id * @param[C_Event] event */ C_Status (*destroy_event)(const C_Device device, C_Event event); /** * @brief Query an event * * @param[C_Device] device Core fill it with a physical id * @param[C_Event] event */ C_Status (*query_event)(const C_Device device, C_Event event); /** * @brief Synchronize a device * * @param[C_Device] device Core fill it with a physical id */ C_Status (*synchronize_device)(const C_Device device); /** * @brief Synchronize a stream * * @param[C_Device] device Core fill it with a physical id * @param[C_Stream] stream */ C_Status (*synchronize_stream)(const C_Device device, C_Stream stream); /** * @brief Synchronize an event * * @param[C_Device] device Core fill it with a physical id * @param[C_Event] event */ C_Status (*synchronize_event)(const C_Device device, C_Event event); /** * @brief Make a stream wait on an event * * @param[C_Device] device Core fill it with a physical id * @param[C_Stream] stream * @param[C_Event] event */ C_Status (*stream_wait_event)(const C_Device device, C_Stream stream, C_Event event); void* reserved_dev_api[8]; /////////////////////// // memory manage api // /////////////////////// /** * @brief Device memory allocate * * @param[C_Device] device Core fill it with a physical id * @param[void**] ptr Plugin allocate an address and fill it * @param[size_t] size */ C_Status (*device_memory_allocate)(const C_Device device, void** ptr, size_t size); /** * @brief Device memory deallocate * * @param[C_Device] device Core fill it with a physical id * @param[void*] ptr * @param[size_t] size */ C_Status (*device_memory_deallocate)(const C_Device device, void* ptr, size_t size); /** * @brief Device memory set * * @param[C_Device] device Core fill it with a physical id * @param[void*] ptr * @param[unsigned char] value * @param[size_t] size */ C_Status (*device_memory_set)(const C_Device device, void* ptr, unsigned char value, size_t size); /** * @brief Host memory allocate * * @param[C_Device] device Core fill it with a physical id * @param[void**] ptr Plugin allocate an address and fill it * @param[size_t] size */ C_Status (*host_memory_allocate)(const C_Device device, void** ptr, size_t size); /** * @brief Host memory deallocate * * @param[C_Device] device Core fill it with a physical id * @param[void*] ptr * @param[size_t] size */ C_Status (*host_memory_deallocate)(const C_Device device, void* ptr, size_t size); /** * @brief Unified memory allocate * * @param[C_Device] device Core fill it with a physical id * @param[void**] ptr Plugin allocate an address and fill it * @param[size_t] size */ C_Status (*unified_memory_allocate)(const C_Device device, void** ptr, size_t size); /** * @brief Unified memory deallocate * * @param[C_Device] device Core fill it with a physical id * @param[void*] ptr * @param[size_t] size */ C_Status (*unified_memory_deallocate)(const C_Device device, void* ptr, size_t size); /** * @brief Memory copy from host to device * * @param[C_Device] device Core fill it with a physical id * @param[void*] dst * @param[void*] src * @param[size_t] size */ C_Status (*memory_copy_h2d)(const C_Device device, void* dst, const void* src, size_t size); /** * @brief Memory copy from device to host * * @param[C_Device] device Core fill it with a physical id * @param[void*] dst * @param[void*] src * @param[size_t] size */ C_Status (*memory_copy_d2h)(const C_Device device, void* dst, const void* src, size_t size); /** * @brief Memory copy from device to device * * @param[C_Device] device Core fill it with a physical id * @param[void*] dst * @param[void*] src * @param[size_t] size */ C_Status (*memory_copy_d2d)(const C_Device device, void* dst, const void* src, size_t size); /** * @brief Peer memory copy from device to device * * @param[C_Device] dst_device Core fill it with a physical id * @param[C_Device] src_device Core fill it with a physical id * @param[void*] dst * @param[void*] src * @param[size_t] size */ C_Status (*memory_copy_p2p)(const C_Device dst_device, const C_Device src_device, void* dst, const void* src, size_t size); /** * @brief Asynchonrize memory copy from host to device * * @param[C_Device] device Core fill it with a physical id * @param[C_Stream] stream * @param[void*] dst * @param[void*] src * @param[size_t] size */ C_Status (*async_memory_copy_h2d)(const C_Device device, C_Stream stream, void* dst, const void* src, size_t size); /** * @brief Asynchonrize memory copy from device to host * * @param[C_Device] device Core fill it with a physical id * @param[C_Stream] stream * @param[void*] dst * @param[void*] src * @param[size_t] size */ C_Status (*async_memory_copy_d2h)(const C_Device device, C_Stream stream, void* dst, const void* src, size_t size); /** * @brief Asynchonrize memory copy from device to device * * @param[C_Device] device Core fill it with a physical id * @param[C_Stream] stream * @param[void*] dst * @param[void*] src * @param[size_t] size */ C_Status (*async_memory_copy_d2d)(const C_Device device, C_Stream stream, void* dst, const void* src, size_t size); /** * @brief Peer asynchonrize memory copy from host to device * * @param[C_Device] device Core fill it with a physical id * @param[C_Stream] stream * @param[void*] dst * @param[void*] src * @param[size_t] size */ C_Status (*async_memory_copy_p2p)(const C_Device dst_device, const C_Device src_device, C_Stream stream, void* dst, const void* src, size_t size); void* reserved_mem_api[8]; ////////////// // info api // ////////////// /** * @brief Get visible device count * * @param[size_t*] count Plugin fill it */ C_Status (*get_device_count)(size_t* count); /** * @brief Get visible device list * * @param[size_t*] devices Plugin fill it */ C_Status (*get_device_list)(size_t* devices); /** * @brief Device memory statistic * * @param[C_Device] device Core fill it with a physical id * @param[size_t*] total_memory * @param[size_t*] free_memory * @param[size_t*] used_memory */ C_Status (*device_memory_stats)(const C_Device device, size_t* total_memory, size_t* free_memory); /** * @brief Device minimum chunk size * * @param[size_t*] count */ C_Status (*device_min_chunk_size)(const C_Device device, size_t* count); /** * @brief Device maximum chunk size * * @param[size_t*] count */ C_Status (*device_max_chunk_size)(const C_Device device, size_t* count); /** * @brief Device maximum alloc size * * @param[size_t*] count */ C_Status (*device_max_alloc_size)(const C_Device device, size_t* count); /** * @brief Device extra padding size * * @param[size_t*] size */ C_Status (*device_extra_padding_size)(const C_Device device, size_t* size); /** * @brief Device initial allocated size * * @param[size_t*] size */ C_Status (*device_init_alloc_size)(const C_Device device, size_t* size); /** * @brief Device reallocated size * * @param[size_t*] size */ C_Status (*device_realloc_size)(const C_Device device, size_t* size); /** * @brief Get compute capability * * @param[size_t*] compute_capability */ C_Status (*get_compute_capability)(size_t* compute_capability); /** * @brief Get runtime version * * @param[size_t*] version */ C_Status (*get_runtime_version)(size_t* version); /** * @brief Get driver version * * @param[size_t*] version */ C_Status (*get_driver_version)(size_t* version); void* reserved_info_api[8]; ////////////// // ccl api // ////////////// /** * @brief Get size of unique id * * @param[size_t*] size */ C_Status (*xccl_get_unique_id_size)(size_t* size); /** * @brief Get unique id * * @param[C_CCLRootId*] unique_id */ C_Status (*xccl_get_unique_id)(C_CCLRootId* unique_id); /** * @brief Initialize communicator * * @param[size_t] ranks * @param[C_CCLRootId*] unique_id * @param[size_t] rank * @param[C_CCLComm*] comm */ C_Status (*xccl_comm_init_rank)(size_t ranks, C_CCLRootId* unique_id, size_t rank, C_CCLComm* comm); /** * @brief Destroy communicator * * @param[C_CCLComm] comm */ C_Status (*xccl_destroy_comm)(C_CCLComm comm); C_Status (*xccl_all_reduce)(void* send_buf, void* recv_buf, size_t count, C_DataType data_type, C_CCLReduceOp op, C_CCLComm comm, C_Stream stream); C_Status (*xccl_broadcast)(void* buf, size_t count, C_DataType data_type, size_t root, C_CCLComm comm, C_Stream stream); C_Status (*xccl_reduce)(void* send_buf, void* recv_buf, size_t count, C_DataType data_type, C_CCLReduceOp op, C_CCLComm comm, C_Stream stream); C_Status (*xccl_all_gather)(void* send_buf, void* recv_buf, size_t count, C_DataType data_type, C_CCLComm comm, C_Stream stream); C_Status (*xccl_reduce_scatter)(void* send_buf, void* recv_buf, size_t count, C_DataType data_type, C_CCLReduceOp op, C_CCLComm comm, C_Stream stream); C_Status (*xccl_group_start)(); C_Status (*xccl_group_end)(); C_Status (*xccl_send)(void* send_buf, size_t count, C_DataType data_type, size_t dest_rank, C_CCLComm comm, C_Stream stream); C_Status (*xccl_recv)(void* recv_buf, size_t count, C_DataType data_type, size_t src_rank, C_CCLComm comm, C_Stream stream); void* reserved_ccl_api[8]; /////////////// // other api // /////////////// void* reserved_other_api[8]; }; struct CustomRuntimeVersion { size_t major, minor, patch; }; struct CustomRuntimeParams { // Core fill it and plugin must to check it size_t size; // Plugin fill it C_DeviceInterface* interface; // Plugin fill it and Core will to check it CustomRuntimeVersion version; // Plugin fill it char* device_type; // Plugin fill it char* sub_device_type; char reserved[32]; }; #define PADDLE_CUSTOM_RUNTIME_CHECK_VERSION(params) \ if ((params)->size != sizeof(CustomRuntimeParams) && \ (params)->interface->size != sizeof(C_DeviceInterface)) { \ return; \ } \ (params)->version.major = PADDLE_CUSTOM_RUNTIME_MAJOR_VERSION; \ (params)->version.minor = PADDLE_CUSTOM_RUNTIME_MINOR_VERSION; \ (params)->version.patch = PADDLE_CUSTOM_RUNTIME_PATCH_VERSION; // Plugin implement it and fill CustomRuntimeParams void InitPlugin(CustomRuntimeParams*); #ifdef __cplusplus } // extern "C" #endif #endif