0f523fbad1
* Update lib/rocprofiler/hsa/queue.* - split AQLPacket, QueueController into their own headers and impls - added some aliases to queue-related classes to get data on single line - added default initializers for class member variables * Update source/lib/rocprofiler includes after hsa queue reorg
352 строки
13 KiB
C++
352 строки
13 KiB
C++
/* Copyright (c) 2022 Advanced Micro Devices, Inc.
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Permission is hereby granted, free of charge, to any person obtaining a copy
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of this software and associated documentation files (the "Software"), to deal
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in the Software without restriction, including without limitation the rights
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to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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copies of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in
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all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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THE SOFTWARE. */
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#include "lib/rocprofiler/hsa/queue.hpp"
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#include <glog/logging.h>
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#include <atomic>
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#include <chrono>
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#include <thread>
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namespace rocprofiler
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{
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namespace hsa
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{
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namespace
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{
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bool
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AsyncSignalHandler(hsa_signal_value_t, void* data)
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{
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if(!data) return true;
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auto& queue_info_session = *static_cast<Queue::queue_info_session_t*>(data);
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// Calls our internal callbacks to callers who need to be notified post
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// kernel execution.
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queue_info_session.queue.signal_callback([&](const auto& map) {
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for(const auto& [client_id, cb_pair] : map)
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{
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// If this is the client that gave us the AQLPacket,
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// return it to that client otherwise notify.
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if(queue_info_session.inst_pkt_id == client_id)
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{
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cb_pair.second(queue_info_session.queue,
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client_id,
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queue_info_session.kernel_pkt,
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std::move(queue_info_session.inst_pkt));
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}
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else
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{
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cb_pair.second(
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queue_info_session.queue, client_id, queue_info_session.kernel_pkt, nullptr);
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}
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}
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});
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// Delete signals and packets, signal we have completed.
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if(queue_info_session.interrupt_signal.handle != 0u)
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queue_info_session.queue.core_api().hsa_signal_destroy_fn(
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queue_info_session.interrupt_signal);
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if(queue_info_session.kernel_pkt.completion_signal.handle != 0u)
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{
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queue_info_session.queue.core_api().hsa_signal_destroy_fn(
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queue_info_session.kernel_pkt.completion_signal);
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}
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queue_info_session.queue.async_complete();
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delete static_cast<Queue::queue_info_session_t*>(data);
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return false;
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}
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void
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CreateBarrierPacket(const hsa_signal_t& packet_completion_signal,
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std::vector<hsa_ext_amd_aql_pm4_packet_t>& transformed_packets)
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{
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hsa_barrier_and_packet_t barrier{};
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barrier.header = HSA_PACKET_TYPE_BARRIER_AND << HSA_PACKET_HEADER_TYPE;
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barrier.dep_signal[0] = packet_completion_signal;
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void* barrier_ptr = &barrier;
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transformed_packets.emplace_back(*reinterpret_cast<hsa_ext_amd_aql_pm4_packet_t*>(barrier_ptr));
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}
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void
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AddVendorSpecificPacket(const hsa_ext_amd_aql_pm4_packet_t& packet,
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std::vector<hsa_ext_amd_aql_pm4_packet_t>& transformed_packets,
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const hsa_signal_t& packet_completion_signal)
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{
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transformed_packets.emplace_back(packet).completion_signal = packet_completion_signal;
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}
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template <typename Integral = uint64_t>
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constexpr Integral
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bit_mask(int first, int last)
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{
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assert(last >= first && "Error: hsa_support::bit_mask -> invalid argument");
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size_t num_bits = last - first + 1;
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return ((num_bits >= sizeof(Integral) * 8) ? ~Integral{0}
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/* num_bits exceed the size of Integral */
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: ((Integral{1} << num_bits) - 1))
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<< first;
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}
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/* Extract bits [last:first] from t. */
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template <typename Integral>
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constexpr Integral
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bit_extract(Integral x, int first, int last)
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{
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return (x >> first) & bit_mask<Integral>(0, last - first);
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}
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/**
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* @brief This function is a queue write interceptor. It intercepts the
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* packet write function. Creates an instance of packet class with the raw
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* pointer. invoke the populate function of the packet class which returns a
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* pointer to the packet. This packet is written into the queue by this
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* interceptor by invoking the writer function.
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*/
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void
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WriteInterceptor(const void* packets,
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uint64_t pkt_count,
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uint64_t,
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void* data,
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hsa_amd_queue_intercept_packet_writer writer)
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{
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Queue& queue_info = *static_cast<Queue*>(data);
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// We have no packets or no one who needs to be notified, do nothing.
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if(pkt_count == 0 || queue_info.get_notifiers() == 0)
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{
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writer(packets, pkt_count);
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return;
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}
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// hsa_ext_amd_aql_pm4_packet_t
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const hsa_ext_amd_aql_pm4_packet_t* packets_arr =
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static_cast<const hsa_ext_amd_aql_pm4_packet_t*>(packets);
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std::vector<hsa_ext_amd_aql_pm4_packet_t> transformed_packets;
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// Searching accross all the packets given during this write
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for(size_t i = 0; i < pkt_count; ++i)
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{
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const auto& original_packet = static_cast<const hsa_barrier_and_packet_t*>(packets)[i];
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if(bit_extract(original_packet.header,
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HSA_PACKET_HEADER_TYPE,
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HSA_PACKET_HEADER_TYPE + HSA_PACKET_HEADER_WIDTH_TYPE - 1) !=
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HSA_PACKET_TYPE_KERNEL_DISPATCH)
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{
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transformed_packets.emplace_back(packets_arr[i]);
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continue;
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}
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// Copy kernel pkt, copy is to allow for signal to be modified
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hsa_ext_amd_aql_pm4_packet_t kernel_pkt = packets_arr[i];
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queue_info.create_signal(HSA_AMD_SIGNAL_AMD_GPU_ONLY, &kernel_pkt.completion_signal);
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// Stores the instrumentation pkt (i.e. AQL packets for counter collection)
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// along with an ID of the client we got the packet from (this will be returned via
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// CompletedCB)
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ClientID inst_pkt_id = -1;
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std::unique_ptr<AQLPacket> inst_pkt;
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// Signal callbacks that a kernel_pkt is being enqueued
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queue_info.signal_callback([&](const auto& map) {
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for(const auto& [client_id, cb_pair] : map)
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{
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if(auto maybe_pkt = cb_pair.first(queue_info, client_id, kernel_pkt))
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{
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LOG_IF(FATAL, inst_pkt)
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<< "We do not support two injections into the HSA queue";
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inst_pkt = std::move(maybe_pkt);
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inst_pkt_id = client_id;
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}
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}
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});
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// Write instrumentation start packet (if one exists)
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if(inst_pkt)
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{
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hsa_signal_t dummy_signal{};
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dummy_signal.handle = 0;
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inst_pkt->start.header = HSA_PACKET_TYPE_VENDOR_SPECIFIC << HSA_PACKET_HEADER_TYPE;
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AddVendorSpecificPacket(inst_pkt->start, transformed_packets, dummy_signal);
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CreateBarrierPacket(inst_pkt->start.completion_signal, transformed_packets);
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}
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transformed_packets.emplace_back(kernel_pkt);
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// Make a copy of the original packet, adding its signal to a barrier
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// packet and create a new signal for it to get timestamps
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if(original_packet.completion_signal.handle != 0u)
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{
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hsa_barrier_and_packet_t barrier{};
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barrier.header = HSA_PACKET_TYPE_BARRIER_AND << HSA_PACKET_HEADER_TYPE;
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hsa_ext_amd_aql_pm4_packet_t* __attribute__((__may_alias__)) pkt =
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(reinterpret_cast<hsa_ext_amd_aql_pm4_packet_t*>(&barrier));
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transformed_packets.emplace_back(*pkt).completion_signal =
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original_packet.completion_signal;
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}
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hsa_signal_t interrupt_signal{};
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// Adding a barrier packet with the original packet's completion signal.
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queue_info.create_signal(0, &interrupt_signal);
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if(inst_pkt)
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{
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hsa_signal_t dummy_signal{};
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dummy_signal.handle = 0;
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inst_pkt->stop.header = HSA_PACKET_TYPE_VENDOR_SPECIFIC << HSA_PACKET_HEADER_TYPE;
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AddVendorSpecificPacket(inst_pkt->stop, transformed_packets, dummy_signal);
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inst_pkt->read.header = HSA_PACKET_TYPE_VENDOR_SPECIFIC << HSA_PACKET_HEADER_TYPE;
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AddVendorSpecificPacket(inst_pkt->read, transformed_packets, interrupt_signal);
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// Added Interrupt Signal with barrier and provided handler for it
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CreateBarrierPacket(interrupt_signal, transformed_packets);
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}
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else
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{
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hsa_barrier_and_packet_t barrier{};
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barrier.header = HSA_PACKET_TYPE_BARRIER_AND << HSA_PACKET_HEADER_TYPE;
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barrier.completion_signal = interrupt_signal;
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hsa_ext_amd_aql_pm4_packet_t* __attribute__((__may_alias__)) pkt =
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(reinterpret_cast<hsa_ext_amd_aql_pm4_packet_t*>(&barrier));
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transformed_packets.emplace_back(*pkt);
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}
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// Enqueue the signal into the handler. Will call completed_cb when
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// signal completes.
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queue_info.async_started();
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queue_info.signal_async_handler(
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interrupt_signal,
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new Queue::queue_info_session_t{.queue = queue_info,
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.inst_pkt = std::move(inst_pkt),
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.inst_pkt_id = inst_pkt_id,
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.kernel_pkt = kernel_pkt,
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.interrupt_signal = interrupt_signal});
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}
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writer(transformed_packets.data(), transformed_packets.size());
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}
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} // namespace
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AQLPacket::~AQLPacket()
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{
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if(!command_buf_mallocd)
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{
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free_func(profile.command_buffer.ptr);
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}
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else
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{
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free(profile.command_buffer.ptr);
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}
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if(!output_buffer_malloced)
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{
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free_func(profile.output_buffer.ptr);
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}
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else
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{
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free(profile.output_buffer.ptr);
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}
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}
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Queue::~Queue()
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{
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// Potentially replace with condition variable at some point
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// but performance may not matter here.
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while(_active_async_packets.load(std::memory_order_relaxed) > 0)
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{
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std::this_thread::sleep_for(std::chrono::milliseconds{1});
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}
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}
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void
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Queue::signal_async_handler(const hsa_signal_t& signal, Queue::queue_info_session_t* data) const
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{
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hsa_status_t status = _ext_api.hsa_amd_signal_async_handler_fn(
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signal, HSA_SIGNAL_CONDITION_EQ, 0, AsyncSignalHandler, static_cast<void*>(data));
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LOG_IF(FATAL, status != HSA_STATUS_SUCCESS && status != HSA_STATUS_INFO_BREAK)
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<< "Error: hsa_amd_signal_async_handler failed";
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}
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void
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Queue::create_signal(uint32_t attribute, hsa_signal_t* signal) const
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{
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hsa_status_t status = _ext_api.hsa_amd_signal_create_fn(1, 0, nullptr, attribute, signal);
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LOG_IF(FATAL, status != HSA_STATUS_SUCCESS && status != HSA_STATUS_INFO_BREAK)
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<< "Error: hsa_amd_signal_create failed";
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}
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Queue::Queue(const AgentCache& agent,
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uint32_t size,
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hsa_queue_type32_t type,
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void (*callback)(hsa_status_t status, hsa_queue_t* source, void* data),
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void* data,
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uint32_t private_segment_size,
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uint32_t group_segment_size,
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CoreApiTable core_api,
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AmdExtTable ext_api,
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hsa_queue_t** queue)
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: _core_api(core_api)
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, _ext_api(ext_api)
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, _agent(agent)
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{
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LOG_IF(FATAL,
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_ext_api.hsa_amd_queue_intercept_create_fn(_agent.get_agent(),
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size,
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type,
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callback,
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data,
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private_segment_size,
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group_segment_size,
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&_intercept_queue) != HSA_STATUS_SUCCESS)
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<< "Could not create intercept queue";
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LOG_IF(FATAL,
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_ext_api.hsa_amd_profiling_set_profiler_enabled_fn(_intercept_queue, true) !=
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HSA_STATUS_SUCCESS)
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<< "Could not setup intercept profiler";
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LOG_IF(FATAL,
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_ext_api.hsa_amd_queue_intercept_register_fn(_intercept_queue, WriteInterceptor, this))
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<< "Could not register interceptor";
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*queue = _intercept_queue;
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}
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void
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Queue::register_callback(ClientID id, QueueCB enqueue_cb, CompletedCB complete_cb)
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{
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_callbacks.wlock([&](auto& map) {
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LOG_IF(FATAL, rocprofiler::common::get_val(map, id)) << "ID already exists!";
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_notifiers++;
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map[id] = std::make_pair(enqueue_cb, complete_cb);
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});
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}
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void
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Queue::remove_callback(ClientID id)
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{
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_callbacks.wlock([&](auto& map) {
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if(map.erase(id) == 1) _notifiers--;
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});
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}
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} // namespace hsa
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} // namespace rocprofiler
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