/* Copyright (c) 2019 - present Advanced Micro Devices, Inc. All rights reserved. Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #ifndef HIP_SRC_HIP_PROF_API_H #define HIP_SRC_HIP_PROF_API_H #include #include #include #if USE_PROF_API #include "hip/hcc_detail/hip_prof_str.h" #include "platform/prof_protocol.h" // HIP API callbacks spawner object macro #define HIP_CB_SPAWNER_OBJECT(CB_ID) \ api_callbacks_spawner_t __api_tracer; \ { \ hip_api_data_t* api_data = __api_tracer.get_api_data_ptr(); \ if (api_data != NULL) { \ hip_api_data_t& api_data_ref = *api_data; \ INIT_CB_ARGS_DATA(CB_ID, api_data_ref); \ __api_tracer.call(); \ } \ } static const uint32_t HIP_DOMAIN_ID = ACTIVITY_DOMAIN_HIP_API; typedef activity_record_t hip_api_record_t; typedef activity_rtapi_callback_t hip_api_callback_t; typedef activity_sync_callback_t hip_act_callback_t; class api_callbacks_table_t { public: typedef std::mutex mutex_t; typedef hip_api_record_t record_t; typedef hip_api_callback_t fun_t; typedef hip_act_callback_t act_t; // HIP API callbacks table struct hip_cb_table_entry_t { volatile std::atomic sync; volatile std::atomic sem; act_t act; void* a_arg; fun_t fun; void* arg; }; struct hip_cb_table_t { hip_cb_table_entry_t arr[HIP_API_ID_NUMBER]; }; api_callbacks_table_t() { memset(&callbacks_table_, 0, sizeof(callbacks_table_)); } bool set_activity(uint32_t id, act_t fun, void* arg) { std::lock_guard lock(mutex_); bool ret = true; if (id < HIP_API_ID_NUMBER) { cb_sync(id); callbacks_table_.arr[id].act = fun; callbacks_table_.arr[id].a_arg = arg; enabled_ = true; cb_release(id); } else { ret = false; } return ret; } bool set_callback(uint32_t id, fun_t fun, void* arg) { std::lock_guard lock(mutex_); bool ret = true; if (id < HIP_API_ID_NUMBER) { cb_sync(id); callbacks_table_.arr[id].fun = fun; callbacks_table_.arr[id].arg = arg; enabled_ = true; cb_release(id); } else { ret = false; } return ret; } void set_enabled(const bool& enabled) { enabled_ = enabled; } inline hip_cb_table_entry_t& entry(const uint32_t& id) { return callbacks_table_.arr[id]; } inline void sem_sync(const uint32_t& id) { sem_increment(id); if (entry(id).sync.load() == true) sync_wait(id); } inline void sem_release(const uint32_t& id) { sem_decrement(id); } inline bool is_enabled() const { return enabled_; } private: inline void cb_sync(const uint32_t& id) { entry(id).sync.store(true); while (entry(id).sem.load() != 0) {} } inline void cb_release(const uint32_t& id) { entry(id).sync.store(false); } inline void sem_increment(const uint32_t& id) { const uint32_t prev = entry(id).sem.fetch_add(1); if (prev == UINT32_MAX) { std::cerr << "sem overflow id = " << id << std::endl << std::flush; abort(); } } inline void sem_decrement(const uint32_t& id) { const uint32_t prev = entry(id).sem.fetch_sub(1); if (prev == 0) { std::cerr << "sem corrupted id = " << id << std::endl << std::flush; abort(); } } void sync_wait(const uint32_t& id) { sem_decrement(id); while (entry(id).sync.load() == true) {} sem_increment(id); } mutex_t mutex_; hip_cb_table_t callbacks_table_; bool enabled_; }; extern api_callbacks_table_t callbacks_table; template class api_callbacks_spawner_t { public: api_callbacks_spawner_t() : api_data_(NULL) { if (!is_enabled()) return; if (cid_ >= HIP_API_ID_NUMBER) { fprintf(stderr, "HIP %s bad id %d\n", __FUNCTION__, cid_); abort(); } callbacks_table.sem_sync(cid_); hip_act_callback_t act = entry(cid_).act; if (act != NULL) api_data_ = (hip_api_data_t*) act(cid_, NULL, NULL, NULL); } void call() { hip_api_callback_t fun = entry(cid_).fun; void* arg = entry(cid_).arg; if (fun != NULL) { fun(HIP_DOMAIN_ID, cid_, api_data_, arg); api_data_->phase = ACTIVITY_API_PHASE_EXIT; } } ~api_callbacks_spawner_t() { if (!is_enabled()) return; if (api_data_ != NULL) { hip_api_callback_t fun = entry(cid_).fun; void* arg = entry(cid_).arg; hip_act_callback_t act = entry(cid_).act; void* a_arg = entry(cid_).a_arg; if (fun != NULL) fun(HIP_DOMAIN_ID, cid_, api_data_, arg); if (act != NULL) act(cid_, NULL, NULL, a_arg); } callbacks_table.sem_release(cid_); } hip_api_data_t* get_api_data_ptr() { return api_data_; } bool is_enabled() const { return callbacks_table.is_enabled(); } private: inline api_callbacks_table_t::hip_cb_table_entry_t& entry(const uint32_t& id) { return callbacks_table.entry(id); } hip_api_data_t* api_data_; }; template <> class api_callbacks_spawner_t { public: api_callbacks_spawner_t() {} void call() {} hip_api_data_t* get_api_data_ptr() { return NULL; } bool is_enabled() const { return false; } }; #else #define HIP_CB_SPAWNER_OBJECT(x) do {} while(0) class api_callbacks_table_t { public: typedef void* act_t; typedef void* fun_t; bool set_activity(uint32_t id, act_t fun, void* arg) { return false; } bool set_callback(uint32_t id, fun_t fun, void* arg) { return false; } }; #endif #endif // HIP_SRC_HIP_PROF_API_H