This patch allows us to configure the port count to what the specific card would desire for parallelism. For AMDGPU we need to use the maximum number of hardware parallelism to avoid deadlocks. For NVPTX we don't have this problem due to the friendlier scheduler, so we use the number of warps active on an SM times the number of SMs as a good guess. Note that the max ports currently is going to be smaller than these numbers. That will be improved in the future. Reviewed By: jdoerfert Differential Revision: https://reviews.llvm.org/D155903
156 lines
5.5 KiB
C++
156 lines
5.5 KiB
C++
//===- RPC.h - Interface for remote procedure calls from the GPU ----------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "RPC.h"
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#include "Debug.h"
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#include "PluginInterface.h"
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// This header file may be present in-tree or from an LLVM installation. The
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// installed version lives alongside the GPU headers so we do not want to
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// include it directly.
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#if __has_include(<gpu-none-llvm/rpc_server.h>)
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#include <gpu-none-llvm/rpc_server.h>
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#elif defined(LIBOMPTARGET_RPC_SUPPORT)
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#include <rpc_server.h>
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#endif
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using namespace llvm;
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using namespace omp;
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using namespace target;
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RPCServerTy::RPCServerTy(uint32_t NumDevices) {
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#ifdef LIBOMPTARGET_RPC_SUPPORT
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// If this fails then something is catastrophically wrong, just exit.
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if (rpc_status_t Err = rpc_init(NumDevices))
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FATAL_MESSAGE(1, "Error initializing the RPC server: %d\n", Err);
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#endif
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}
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llvm::Expected<bool>
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RPCServerTy::isDeviceUsingRPC(plugin::GenericDeviceTy &Device,
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plugin::GenericGlobalHandlerTy &Handler,
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plugin::DeviceImageTy &Image) {
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#ifdef LIBOMPTARGET_RPC_SUPPORT
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void *ClientPtr;
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plugin::GlobalTy Global(rpc_client_symbol_name, sizeof(void *), &ClientPtr);
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if (auto Err = Handler.readGlobalFromImage(Device, Image, Global)) {
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llvm::consumeError(std::move(Err));
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return false;
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}
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return true;
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#else
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return false;
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#endif
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}
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Error RPCServerTy::initDevice(plugin::GenericDeviceTy &Device,
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plugin::GenericGlobalHandlerTy &Handler,
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plugin::DeviceImageTy &Image) {
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#ifdef LIBOMPTARGET_RPC_SUPPORT
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uint32_t DeviceId = Device.getDeviceId();
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auto Alloc = [](uint64_t Size, void *Data) {
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plugin::GenericDeviceTy &Device =
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*reinterpret_cast<plugin::GenericDeviceTy *>(Data);
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return Device.allocate(Size, nullptr, TARGET_ALLOC_HOST);
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};
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uint64_t NumPorts =
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std::min(Device.requestedRPCPortCount(), RPC_MAXIMUM_PORT_COUNT);
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if (rpc_status_t Err = rpc_server_init(DeviceId, NumPorts,
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Device.getWarpSize(), Alloc, &Device))
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return plugin::Plugin::error(
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"Failed to initialize RPC server for device %d: %d", DeviceId, Err);
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// Register a custom opcode handler to perform plugin specific allocation.
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// FIXME: We need to make sure this uses asynchronous allocations on CUDA.
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auto MallocHandler = [](rpc_port_t Port, void *Data) {
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rpc_recv_and_send(
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Port,
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[](rpc_buffer_t *Buffer, void *Data) {
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plugin::GenericDeviceTy &Device =
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*reinterpret_cast<plugin::GenericDeviceTy *>(Data);
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Buffer->data[0] = reinterpret_cast<uintptr_t>(
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Device.allocate(Buffer->data[0], nullptr, TARGET_ALLOC_DEVICE));
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},
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Data);
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};
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if (rpc_status_t Err =
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rpc_register_callback(DeviceId, RPC_MALLOC, MallocHandler, &Device))
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return plugin::Plugin::error(
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"Failed to register RPC malloc handler for device %d: %d\n", DeviceId,
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Err);
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// Register a custom opcode handler to perform plugin specific deallocation.
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auto FreeHandler = [](rpc_port_t Port, void *Data) {
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rpc_recv(
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Port,
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[](rpc_buffer_t *Buffer, void *Data) {
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plugin::GenericDeviceTy &Device =
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*reinterpret_cast<plugin::GenericDeviceTy *>(Data);
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Device.free(reinterpret_cast<void *>(Buffer->data[0]),
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TARGET_ALLOC_DEVICE);
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},
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Data);
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};
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if (rpc_status_t Err =
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rpc_register_callback(DeviceId, RPC_FREE, FreeHandler, &Device))
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return plugin::Plugin::error(
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"Failed to register RPC free handler for device %d: %d\n", DeviceId,
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Err);
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// Get the address of the RPC client from the device.
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void *ClientPtr;
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plugin::GlobalTy ClientGlobal(rpc_client_symbol_name, sizeof(void *));
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if (auto Err =
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Handler.getGlobalMetadataFromDevice(Device, Image, ClientGlobal))
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return Err;
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if (auto Err = Device.dataRetrieve(&ClientPtr, ClientGlobal.getPtr(),
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sizeof(void *), nullptr))
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return Err;
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const void *ClientBuffer = rpc_get_client_buffer(DeviceId);
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if (auto Err = Device.dataSubmit(ClientPtr, ClientBuffer,
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rpc_get_client_size(), nullptr))
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return Err;
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#endif
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return Error::success();
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}
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Error RPCServerTy::runServer(plugin::GenericDeviceTy &Device) {
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#ifdef LIBOMPTARGET_RPC_SUPPORT
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if (rpc_status_t Err = rpc_handle_server(Device.getDeviceId()))
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return plugin::Plugin::error(
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"Error while running RPC server on device %d: %d", Device.getDeviceId(),
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Err);
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#endif
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return Error::success();
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}
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Error RPCServerTy::deinitDevice(plugin::GenericDeviceTy &Device) {
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#ifdef LIBOMPTARGET_RPC_SUPPORT
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auto Dealloc = [](void *Ptr, void *Data) {
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plugin::GenericDeviceTy &Device =
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*reinterpret_cast<plugin::GenericDeviceTy *>(Data);
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Device.free(Ptr, TARGET_ALLOC_HOST);
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};
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if (rpc_status_t Err =
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rpc_server_shutdown(Device.getDeviceId(), Dealloc, &Device))
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return plugin::Plugin::error(
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"Failed to shut down RPC server for device %d: %d",
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Device.getDeviceId(), Err);
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#endif
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return Error::success();
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}
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RPCServerTy::~RPCServerTy() {
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#ifdef LIBOMPTARGET_RPC_SUPPORT
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rpc_shutdown();
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#endif
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}
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