204 строки
7.2 KiB
C++
204 строки
7.2 KiB
C++
/*
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Copyright (c) 2015-2016 Advanced Micro Devices, Inc. All rights reserved.
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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 WARRANNTY OF ANY KIND, EXPRESS OR
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IMPLIED, INNCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANNY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER INN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR INN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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THE SOFTWARE.
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*/
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#include <hc_am.hpp>
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#include "hip_runtime.h"
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#include "hcc_detail/hip_hcc.h"
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#include "hcc_detail/trace_helper.h"
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// Peer access functions.
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// There are two flavors:
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// - one where contexts are specified with hipCtx_t type.
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// - one where contexts are specified with integer deviceIds, that are mapped to the primary context for that device.
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// The implementation contains a set of internal ihip* functions which operate on contexts. Then the
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// public APIs are thin wrappers which call into this internal implementations.
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// TODO - actually not yet - currently the integer deviceId flavors just call the context APIs. need to fix.
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/**
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* HCC returns 0 in *canAccessPeer ; Need to update this function when RT supports P2P
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*/
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//---
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hipError_t hipDeviceCanAccessPeer (int* canAccessPeer, hipCtx_t thisCtx, hipCtx_t peerCtx)
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{
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HIP_INIT_API(canAccessPeer, thisCtx, peerCtx);
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hipError_t err = hipSuccess;
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if ((thisCtx != NULL) && (peerCtx != NULL)) {
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if (thisCtx == peerCtx) {
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*canAccessPeer = 0;
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} else {
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*canAccessPeer = peerCtx->getDevice()->_acc.get_is_peer(thisCtx->getDevice()->_acc);
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}
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} else {
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*canAccessPeer = 0;
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err = hipErrorInvalidDevice;
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}
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return ihipLogStatus(err);
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}
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//---
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// Disable visibility of this device into memory allocated on peer device.
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// Remove this device from peer device peerlist.
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hipError_t ihipDisablePeerAccess (hipCtx_t peerCtx)
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{
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hipError_t err = hipSuccess;
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auto thisCtx = ihipGetTlsDefaultCtx();
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if ((thisCtx != NULL) && (peerCtx != NULL)) {
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bool canAccessPeer = peerCtx->getDevice()->_acc.get_is_peer(thisCtx->getDevice()->_acc);
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if (! canAccessPeer) {
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err = hipErrorInvalidDevice; // P2P not allowed between these devices.
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} else if (thisCtx == peerCtx) {
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err = hipErrorInvalidDevice; // Can't disable peer access to self.
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} else {
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LockedAccessor_CtxCrit_t peerCrit(peerCtx->criticalData());
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bool changed = peerCrit->removePeer(thisCtx);
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if (changed) {
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// Update the peers for all memory already saved in the tracker:
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am_memtracker_update_peers(peerCtx->getDevice()->_acc, peerCrit->peerCnt(), peerCrit->peerAgents());
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} else {
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err = hipErrorPeerAccessNotEnabled; // never enabled P2P access.
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}
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}
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} else {
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err = hipErrorInvalidDevice;
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}
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return err;
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};
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//---
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// Allow the current device to see all memory allocated on peerCtx.
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// This should add this device to the peer-device peer list.
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hipError_t ihipEnablePeerAccess (hipCtx_t peerCtx, unsigned int flags)
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{
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hipError_t err = hipSuccess;
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if (flags != 0) {
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err = hipErrorInvalidValue;
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} else {
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auto thisCtx = ihipGetTlsDefaultCtx();
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if (thisCtx == peerCtx) {
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err = hipErrorInvalidDevice; // Can't enable peer access to self.
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} else if ((thisCtx != NULL) && (peerCtx != NULL)) {
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LockedAccessor_CtxCrit_t peerCrit(peerCtx->criticalData());
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// Add thisCtx to peerCtx's access list so that new allocations on peer will be made visible to this device:
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bool isNewPeer = peerCrit->addPeer(thisCtx);
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if (isNewPeer) {
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am_memtracker_update_peers(peerCtx->getDevice()->_acc, peerCrit->peerCnt(), peerCrit->peerAgents());
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} else {
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err = hipErrorPeerAccessAlreadyEnabled;
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}
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} else {
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err = hipErrorInvalidDevice;
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}
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}
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return err;
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}
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//---
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hipError_t hipMemcpyPeer (void* dst, hipCtx_t dstCtx, const void* src, hipCtx_t srcCtx, size_t sizeBytes)
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{
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HIP_INIT_API(dst, dstCtx, src, srcCtx, sizeBytes);
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// TODO - move to ihip memory copy implementaion.
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// HCC has a unified memory architecture so device specifiers are not required.
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return hipMemcpy(dst, src, sizeBytes, hipMemcpyDefault);
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};
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//---
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hipError_t hipMemcpyPeerAsync (void* dst, hipCtx_t dstDevice, const void* src, hipCtx_t srcDevice, size_t sizeBytes, hipStream_t stream)
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{
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HIP_INIT_API(dst, dstDevice, src, srcDevice, sizeBytes, stream);
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// TODO - move to ihip memory copy implementaion.
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// HCC has a unified memory architecture so device specifiers are not required.
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return hipMemcpyAsync(dst, src, sizeBytes, hipMemcpyDefault, stream);
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};
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//=============================================================================
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// These are the flavors that accept integer deviceIDs.
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// Implementations map these to primary contexts and call the internal functions above.
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//=============================================================================
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hipError_t hipDeviceCanAccessPeer (int* canAccessPeer, int deviceId, int peerDeviceId)
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{
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HIP_INIT_API(canAccessPeer, deviceId, peerDeviceId);
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return hipDeviceCanAccessPeer(canAccessPeer, ihipGetPrimaryCtx(deviceId), ihipGetPrimaryCtx(peerDeviceId));
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}
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hipError_t hipDeviceDisablePeerAccess (int peerDeviceId)
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{
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HIP_INIT_API(peerDeviceId);
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return ihipLogStatus(ihipDisablePeerAccess(ihipGetPrimaryCtx(peerDeviceId)));
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}
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hipError_t hipDeviceEnablePeerAccess (int peerDeviceId, unsigned int flags)
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{
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HIP_INIT_API(peerDeviceId, flags);
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return ihipLogStatus(ihipEnablePeerAccess(ihipGetPrimaryCtx(peerDeviceId), flags));
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}
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hipError_t hipMemcpyPeer (void* dst, int dstDevice, const void* src, int srcDevice, size_t sizeBytes)
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{
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HIP_INIT_API(dst, dstDevice, src, srcDevice, sizeBytes);
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return hipMemcpyPeer(dst, ihipGetPrimaryCtx(dstDevice), src, ihipGetPrimaryCtx(srcDevice), sizeBytes);
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}
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hipError_t hipMemcpyPeerAsync (void* dst, int dstDevice, const void* src, int srcDevice, size_t sizeBytes, hipStream_t stream)
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{
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HIP_INIT_API(dst, dstDevice, src, srcDevice, sizeBytes, stream);
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return hipMemcpyPeerAsync(dst, ihipGetPrimaryCtx(dstDevice), src, ihipGetPrimaryCtx(srcDevice), sizeBytes, stream);
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}
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hipError_t hipCtxEnablePeerAccess (hipCtx_t peerCtx, unsigned int flags)
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{
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HIP_INIT_API(peerCtx, flags);
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return ihipLogStatus(ihipEnablePeerAccess(peerCtx, flags));
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}
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hipError_t hipCtxDisablePeerAccess (hipCtx_t peerCtx)
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{
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HIP_INIT_API(peerCtx);
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return ihipLogStatus(ihipDisablePeerAccess(peerCtx));
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}
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