Mark Santesson
f1308997d0
Device API (Experimental) * Introduces device-side APIs to integrate NCCL communication directly into application kernels. * Supports LSA (Load/Store Access) for CUDA P2P communication over NVLink and some PCIe platforms. * Supports Multimem for hardware multicast using NVLink SHARP. * Adds initial framework for GIN (GPU-Initiated Networking), currently under development. * Introduces device communicators created using ncclDevCommCreate. * Enables device-side communication operations with synchronization (ncclLsaBarrierSession) and memory accessors (ncclGetLsaPointer, ncclGetLsaMultimemPointer). * Experimental APIs - signatures and functionality may evolve in future releases. * No ABI compatibility is guaranteed — applications must be recompiled with each new NCCL release. Symmetric memory improvements * Support for aggregating symmetric operations using ncclGroupStart/End APIs. * Reimplement symmetric kernels using device API. New Host APIs * Introduce new host collective APIs: ncclAlltoAll, ncclScatter, ncclGather. CE (Copy Engine) Collectives * Reduce SM utilization for alltoall, scatter, gather, and allgather within a single (MN)NVL domain. * Free up SM capacity for the application to do computation at the same time. * To enable the feature for ncclAllGather, ncclAlltoAll, ncclGather, ncclScatter, register buffers into symmetric windows and use the NCCL_CTA_POLICY_ZERO flag in the communicator config_t. NCCL Inspector Plugin * Introduces an Inspector plugin for always-on performance monitoring. * Produces structured JSON output with metadata, execution time, bandwidth, and optional event traces for each NCCL operation. * Enables integration with analysis tools such as Performance Exporter to visualize NCCL performance bottlenecks. * Lightweight to enable via environment variables NCCL_PROFILER_PLUGIN and NCCL_INSPECTOR_ENABLE. CMake support (Experiemental) * Adds a CMake build system as an alternative to existing Makefiles. * Known issues: pkg.build and Device API currently do not work with CMake. * The known issues will be addressed in a future release. Decreased max CTA count from 32 to 16 on Blackwell * SM overhead is decreased by 50% with this improvement. * This may cause some perf drop on Blackwell because of the reduced SM usage. * If the extra SM capacity is not desired, two options are available to restore to previous behavior: 1) Setting NCCL_MIN_CTAS=32 NCCL_MAX_CTAS=32 environment variables; 2) setting communicator config to over-write max CTA count to 32. * Based on community feedback, future versions may consider different trade-offs between performance and SM overhead. Plugins * Network * App-aware Network plugin. NCCL passes information about communication operations to be executed on the network end point. This allows for better tuning of network end points and their use in the plugins. * Improve handling of physical and virtual network devices and load/unload. * Network plugin version 11 - add explicit context and communication ID support for per communicator init/finalize. * Add Multi-Request Net API. Using this will help NCCL to anticipate multiple send/recv requests and optimize for it. See maxMultiRequestSize field in ncclNetProperties_v11_t. * Profiler * Add support for API events (group, collective, and p2p) and for tracking kernel launches in the profiler plugin. * Add Inspector Profiler Plugin (see section above). * Add a hook to Google’s CoMMA profiler on github. * Tuner * Expose NCCL tuning constants at tuner initialization via ncclTunerConstants_v5_t. * Add NVL Domain Information API. * Support multiple plugin types from a single shared object. New Parameterization and ncclConfig changes: * Add new option NCCL_MNNVL_CLIQUE_ID=-2 which will use rack serial number to partition the MNNVL clique. This will limit NVLink domains to GPUs within a single rack. * Add NCCL_NETDEVS_POLICY to control how NET devices are assigned to GPUs. The default (AUTO) is the policy used in previous versions. * Add NCCL_SINGLE_PROC_MEM_REG_ENABLE control variable to enable NVLS UB registration in the “one process, multiple ranks” case as opt in. * Move nChannelsPerNetPeer into ncclConfig. NCCL_NCHANNELS_PER_NET_PEER can override the value in ncclConfig. * Enable PxN over C2C by default * PxN over C2C will improve performance for Grace-Blackwell platforms by allowing NCCL to leverage the NIC attached to a peer GPU over NVLINK, C2C, and PCIe. * This behavior can be overridden by setting NCCL_PXN_C2C=0. Other Improvements: * Allow FP8 support for non-reductive operations on pre sm90 devices. (See https://github.com/pytorch/pytorch/pull/151594#discussion_r2135777776) * Fix NVLS+CollNet and temporarily disables COLLNET_CHAIN for >8 GPUs. * Only consider running interfaces for socket traffic. NCCL will not attempt to use interfaces that do not have the IFF_RUNNING bit. (https://github.com/NVIDIA/nccl/issues/1798) * Modernize mutex management. Convert to std::mutex and std::lock_guard. * Remove sm35 and sm50 GENCODE targets which have long been deprecated and were causing issues with the latest NCCL release builds. * Improved NVLS/NVLSTree tuning prediction to improve algorithm and protocol selection. * NVLSTree Tuning Fixes. Update tuning data for H100, GB200-NV72. * Respond better to RoCE link flaps. Instead of reporting an “unknown event” it will now report “GID table changed”. * Move libvirt bridge interface to the end of possible interfaces so that they are considered last. These interfaces are usually virtual bridges to relay traffic to containers running on the host and cannot be used for traffic to a remote node and are therefore unsuitable.
486 行
19 KiB
C
486 行
19 KiB
C
/*************************************************************************
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* Copyright (c) 2015-2024, NVIDIA CORPORATION. All rights reserved.
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*
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* See LICENSE.txt for license information
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************************************************************************/
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#include "net.h"
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#define __hidden __attribute__ ((visibility("hidden")))
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#define NCCL_PLUGIN_MAX_RECVS 1
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int max_requests = NCCL_NET_MAX_REQUESTS;
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__hidden ncclResult_t pluginInit(void** ctx, uint64_t commId, ncclNetCommConfig_t* config, ncclDebugLogger_t logFunction, ncclProfilerCallback_t profFunction) { return ncclSuccess; }
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__hidden ncclResult_t pluginDevices(int* ndev) { *ndev = 0; return ncclSuccess; }
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__hidden ncclResult_t pluginPciPath(int dev, char** path) { return ncclInternalError; }
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__hidden ncclResult_t pluginPtrSupport(int dev, int* supportedTypes) { return ncclInternalError; }
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__hidden ncclResult_t pluginGetProperties(int dev, ncclNetProperties_t* props) {
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// Below are default values, if unsure don't change.
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props->name = "Example";
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// Fill for proper topology detection, e.g. /sys/devices/pci0000:00/0000:00:10.0/0000:0b:00.0
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props->pciPath = NULL;
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// Only used to detect NICs with multiple PCI attachments.
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props->guid = 0;
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// Add NCCL_PTR_CUDA if GPU Direct RDMA is supported and regMr can take CUDA pointers.
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props->ptrSupport = NCCL_PTR_HOST;
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// If you regMr has a fast registration cache, set to 1. If set to 0, user buffer registration may be disabled.
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props->regIsGlobal = 0;
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// Force flush after receive. Needed if the control path and data path use a different path to the GPU
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props->forceFlush = 0;
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// Speed in *Mbps*. 100000 means 100G
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props->speed = 100000;
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// Port number, used in conjunction with guid
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props->port = 0;
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// Custom latency (used to help tuning if latency is high. If set to 0, use default NCCL values.
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props->latency = 0;
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// Maximum number of comm objects we can create.
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props->maxComms = 1024*1024;
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// Maximum number of receive operations taken by irecv().
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props->maxRecvs = NCCL_PLUGIN_MAX_RECVS;
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// Coupling with NCCL network device-side code.
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props->netDeviceType = NCCL_NET_DEVICE_HOST;
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props->netDeviceVersion = NCCL_NET_DEVICE_INVALID_VERSION;
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// Used to tell NCCL core whether this is a virtual device fusing multiple physical devices.
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props->vProps.ndevs = 1;
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props->vProps.devs[0] = dev;
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// maximum transfer sizes the plugin can handle
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props->maxP2pBytes = NCCL_MAX_NET_SIZE_BYTES;
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props->maxCollBytes = NCCL_MAX_NET_SIZE_BYTES;
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return ncclSuccess;
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}
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__hidden ncclResult_t pluginListen(void* ctx, int dev, void* handle, void** listenComm) { return ncclInternalError; }
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__hidden ncclResult_t pluginConnect(void* ctx, int dev, void* handle, void** sendComm, ncclNetDeviceHandle_t** sendDevComm) { return ncclInternalError; }
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__hidden ncclResult_t pluginAccept(void* listenComm, void** recvComm, ncclNetDeviceHandle_t** recvDevComm) { return ncclInternalError; }
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__hidden ncclResult_t pluginRegMr(void* collComm, void* data, size_t size, int type, void** mhandle) { return ncclInternalError; }
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__hidden ncclResult_t pluginRegMrDmaBuf(void* collComm, void* data, size_t size, int type, uint64_t offset, int fd, void** mhandle) { return ncclInternalError; }
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__hidden ncclResult_t pluginDeregMr(void* collComm, void* mhandle) { return ncclInternalError;}
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__hidden ncclResult_t pluginIsend(void* sendComm, void* data, size_t size, int tag, void* mhandle, void* phandle, void** request) { return ncclInternalError; }
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__hidden ncclResult_t pluginIrecv(void* recvComm, int n, void** data, size_t* sizes, int* tags, void** mhandles, void** phandles, void** request) { return ncclInternalError; }
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__hidden ncclResult_t pluginIflush(void* recvComm, int n, void** data, int* sizes, void** mhandles, void** request) { return ncclInternalError; }
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__hidden ncclResult_t pluginTest(void* request, int* done, int* size) { return ncclInternalError; }
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__hidden ncclResult_t pluginCloseSend(void* sendComm) { return ncclInternalError; }
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__hidden ncclResult_t pluginCloseRecv(void* recvComm) { return ncclInternalError; }
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__hidden ncclResult_t pluginCloseListen(void* listenComm) { return ncclInternalError; }
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__hidden ncclResult_t pluginIrecvConsumed(void* recvComm, int n, void* request) { return ncclInternalError; }
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__hidden ncclResult_t pluginGetDeviceMr(void* comm, void* mhandle, void** dptr_mhandle) { return ncclInternalError; }
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__hidden ncclResult_t pluginMakeVDevice(int* d, ncclNetVDeviceProps_t* props) { return ncclInternalError; }
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__hidden ncclResult_t pluginFinalize(void* ctx) { return ncclSuccess; }
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#define PLUGIN_NAME "Plugin"
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const ncclNet_v11_t ncclNetPlugin_v11 = {
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.name = PLUGIN_NAME,
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.init = pluginInit,
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.devices = pluginDevices,
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.getProperties = pluginGetProperties,
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.listen = pluginListen,
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.connect = pluginConnect,
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.accept = pluginAccept,
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.regMr = pluginRegMr,
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.regMrDmaBuf = pluginRegMrDmaBuf,
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.deregMr = pluginDeregMr,
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.isend = pluginIsend,
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.irecv = pluginIrecv,
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.iflush = pluginIflush,
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.test = pluginTest,
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.closeSend = pluginCloseSend,
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.closeRecv = pluginCloseRecv,
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.closeListen = pluginCloseListen,
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.getDeviceMr = pluginGetDeviceMr,
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.irecvConsumed = pluginIrecvConsumed,
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.makeVDevice = pluginMakeVDevice,
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.finalize = pluginFinalize,
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};
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__hidden ncclResult_t pluginInit_v10(ncclDebugLogger_t logFunction, ncclProfilerCallback_t profFunction) { return ncclSuccess; }
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__hidden ncclResult_t pluginGetProperties_v10(int dev, ncclNetProperties_v10_t* props) {
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// Below are default values, if unsure don't change.
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props->name = "Example";
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// Fill for proper topology detection, e.g. /sys/devices/pci0000:00/0000:00:10.0/0000:0b:00.0
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props->pciPath = NULL;
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// Only used to detect NICs with multiple PCI attachments.
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props->guid = 0;
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// Add NCCL_PTR_CUDA if GPU Direct RDMA is supported and regMr can take CUDA pointers.
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props->ptrSupport = NCCL_PTR_HOST;
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// If you regMr has a fast registration cache, set to 1. If set to 0, user buffer registration may be disabled.
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props->regIsGlobal = 0;
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// Force flush after receive. Needed if the control path and data path use a different path to the GPU
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props->forceFlush = 0;
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// Speed in *Mbps*. 100000 means 100G
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props->speed = 100000;
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// Port number, used in conjunction with guid
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props->port = 0;
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// Custom latency (used to help tuning if latency is high. If set to 0, use default NCCL values.
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props->latency = 0;
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// Maximum number of comm objects we can create.
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props->maxComms = 1024*1024;
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// Maximum number of receive operations taken by irecv().
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props->maxRecvs = NCCL_PLUGIN_MAX_RECVS;
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// Coupling with NCCL network device-side code.
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props->netDeviceType = NCCL_NET_DEVICE_HOST;
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props->netDeviceVersion = NCCL_NET_DEVICE_INVALID_VERSION;
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// Used to tell NCCL core whether this is a virtual device fusing multiple physical devices.
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props->vProps.ndevs = 1;
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props->vProps.devs[0] = dev;
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// maximum transfer sizes the plugin can handle
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props->maxP2pBytes = NCCL_MAX_NET_SIZE_BYTES;
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props->maxCollBytes = NCCL_MAX_NET_SIZE_BYTES;
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return ncclSuccess;
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}
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__hidden ncclResult_t pluginListen_v10(int d, void* handle, void** listenComm) { return ncclInternalError; }
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__hidden ncclResult_t pluginConnect_v10(int dev, ncclNetCommConfig_v10_t* config, void* handle, void** sendComm, ncclNetDeviceHandle_v10_t** sendDevComm) { return ncclInternalError; }
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__hidden ncclResult_t pluginMakeVDevice_v10(int* d, ncclNetVDeviceProps_v10_t* props) { return ncclInternalError; }
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const ncclNet_v10_t ncclNetPlugin_v10 = {
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.name = PLUGIN_NAME,
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.init = pluginInit_v10,
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.devices = pluginDevices,
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.getProperties = pluginGetProperties_v10,
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.listen = pluginListen_v10,
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.connect = pluginConnect_v10,
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.accept = pluginAccept,
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.regMr = pluginRegMr,
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.regMrDmaBuf = pluginRegMrDmaBuf,
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.deregMr = pluginDeregMr,
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.isend = pluginIsend,
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.irecv = pluginIrecv,
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.iflush = pluginIflush,
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.test = pluginTest,
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.closeSend = pluginCloseSend,
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.closeRecv = pluginCloseRecv,
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.closeListen = pluginCloseListen,
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.getDeviceMr = pluginGetDeviceMr,
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.irecvConsumed = pluginIrecvConsumed,
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.makeVDevice = pluginMakeVDevice_v10,
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};
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__hidden ncclResult_t pluginInit_v9(ncclDebugLogger_t logFunction) {
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return pluginInit_v10(logFunction, NULL);
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}
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__hidden ncclResult_t pluginGetProperties_v9(int dev, ncclNetProperties_v9_t* props) {
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return pluginGetProperties_v10(dev, (ncclNetProperties_v10_t*)props);
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}
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__hidden ncclResult_t pluginConnect_v9(int dev, void* handle, void** sendComm, ncclNetDeviceHandle_t** sendDevComm){
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return pluginConnect_v10(dev, NULL, handle, sendComm, sendDevComm);
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}
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__hidden ncclResult_t pluginIsend_v9(void* sendComm, void* data, size_t size, int tag, void* mhandle, void** request) {
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return pluginIsend(sendComm, data, size, tag, mhandle, NULL, request);
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}
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__hidden ncclResult_t pluginIrecv_v9(void* recvComm, int n, void** data, size_t* sizes, int* tags, void** mhandles, void** request) {
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return pluginIrecv(recvComm, n, data, sizes, tags, mhandles, NULL, request);
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}
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__hidden ncclResult_t pluginMakeVDevice_v9(int* d, ncclNetVDeviceProps_v9_t* props) { return ncclInternalError; }
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const ncclNet_v9_t ncclNetPlugin_v9 = {
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.name = PLUGIN_NAME,
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.init = pluginInit_v9,
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.devices = pluginDevices,
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.getProperties = pluginGetProperties_v9,
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.listen = pluginListen_v10,
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.connect = pluginConnect_v9,
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.accept = pluginAccept,
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.regMr = pluginRegMr,
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.regMrDmaBuf = pluginRegMrDmaBuf,
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.deregMr = pluginDeregMr,
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.isend = pluginIsend_v9,
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.irecv = pluginIrecv_v9,
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.iflush = pluginIflush,
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.test = pluginTest,
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.closeSend = pluginCloseSend,
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.closeRecv = pluginCloseRecv,
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.closeListen = pluginCloseListen,
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.getDeviceMr = pluginGetDeviceMr,
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.irecvConsumed = pluginIrecvConsumed,
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.makeVDevice = pluginMakeVDevice_v9,
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};
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__hidden ncclResult_t pluginGetProperties_v8(int dev, ncclNetProperties_v8_t* props_v8) {
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ncclNetProperties_t props;
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ncclResult_t ret = pluginGetProperties(dev, &props);
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if (ret != ncclSuccess) return ret;
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props_v8->name = props.name;
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props_v8->pciPath = props.pciPath;
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props_v8->guid = props.guid;
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props_v8->ptrSupport = props.ptrSupport;
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props_v8->regIsGlobal = props.regIsGlobal;
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props_v8->speed = props.speed;
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props_v8->latency = props.latency;
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props_v8->port = props.port;
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props_v8->maxComms = props.maxComms;
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props_v8->maxRecvs = props.maxRecvs;
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props_v8->netDeviceType = props.netDeviceType;
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props_v8->netDeviceVersion = props.netDeviceVersion;
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return ncclSuccess;
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}
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__hidden ncclResult_t pluginIsend_v8(void* sendComm, void* data, int size, int tag, void* mhandle, void** request) {
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return pluginIsend(sendComm, data, (int)size, tag, mhandle, NULL, request);
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}
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__hidden ncclResult_t pluginIrecv_v8(void* recvComm, int n, void** data, int* sizes, int* tags, void** mhandles, void** request) {
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size_t sizesOut[NCCL_PLUGIN_MAX_RECVS];
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for (int i=0; i<n; i++) sizesOut[i] = sizes[i];
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return pluginIrecv(recvComm, 1, data, sizesOut, tags, mhandles, NULL, request);
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}
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const ncclNet_v8_t ncclNetPlugin_v8 = {
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.name = PLUGIN_NAME,
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.init = pluginInit_v9,
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.devices = pluginDevices,
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.getProperties = pluginGetProperties_v8,
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.listen = pluginListen_v10,
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.connect = pluginConnect_v9,
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.accept = pluginAccept,
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.regMr = pluginRegMr,
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.regMrDmaBuf = pluginRegMrDmaBuf,
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.deregMr = pluginDeregMr,
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.isend = pluginIsend_v8,
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.irecv = pluginIrecv_v8,
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.iflush = pluginIflush,
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.test = pluginTest,
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.closeSend = pluginCloseSend,
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.closeRecv = pluginCloseRecv,
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.closeListen = pluginCloseListen,
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.getDeviceMr = pluginGetDeviceMr,
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.irecvConsumed = pluginIrecvConsumed,
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};
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__hidden ncclResult_t pluginGetProperties_v7(int dev, ncclNetProperties_v7_t* props_v7) {
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ncclNetProperties_t props;
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ncclResult_t ret = pluginGetProperties(dev, &props);
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if (ret != ncclSuccess) return ret;
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props_v7->name = props.name;
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props_v7->pciPath = props.pciPath;
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props_v7->guid = props.guid;
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props_v7->ptrSupport = props.ptrSupport;
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props_v7->speed = props.speed;
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props_v7->latency = props.latency;
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props_v7->port = props.port;
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props_v7->maxComms = props.maxComms;
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props_v7->maxRecvs = props.maxRecvs;
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props_v7->netDeviceType = props.netDeviceType;
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props_v7->netDeviceVersion = props.netDeviceVersion;
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return ncclSuccess;
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}
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__hidden ncclResult_t pluginRegMr_v7(void* collComm, void* data, int size, int type, void** mhandle) {
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return pluginRegMr(collComm, data, size, type, mhandle);
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}
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const ncclNet_v7_t ncclNetPlugin_v7 = {
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.name = PLUGIN_NAME,
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.init = pluginInit_v9,
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.devices = pluginDevices,
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.getProperties = pluginGetProperties_v7,
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.listen = pluginListen_v10,
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.connect = pluginConnect_v9,
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.accept = pluginAccept,
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.regMr = pluginRegMr_v7,
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.regMrDmaBuf = pluginRegMrDmaBuf,
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.deregMr = pluginDeregMr,
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.isend = pluginIsend_v8,
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.irecv = pluginIrecv_v8,
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.iflush = pluginIflush,
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.test = pluginTest,
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.closeSend = pluginCloseSend,
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.closeRecv = pluginCloseRecv,
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.closeListen = pluginCloseListen,
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.getDeviceMr = pluginGetDeviceMr,
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.irecvConsumed = pluginIrecvConsumed,
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};
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__hidden ncclResult_t pluginGetProperties_v6(int dev, ncclNetProperties_v6_t* props_v6) {
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ncclNetProperties_t props;
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ncclResult_t ret = pluginGetProperties(dev, &props);
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if (ret != ncclSuccess) return ret;
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props_v6->name = props.name;
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props_v6->pciPath = props.pciPath;
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props_v6->guid = props.guid;
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props_v6->ptrSupport = props.ptrSupport;
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props_v6->speed = props.speed;
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props_v6->latency = props.latency;
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props_v6->port = props.port;
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props_v6->maxComms = props.maxComms;
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|
props_v6->maxRecvs = props.maxRecvs;
|
|
return ncclSuccess;
|
|
}
|
|
|
|
__hidden ncclResult_t pluginConnect_v6(int dev, void* handle, void** sendComm) { return ncclInternalError; }
|
|
__hidden ncclResult_t pluginAccept_v6(void* listenComm, void** recvComm) { return ncclInternalError; }
|
|
|
|
const ncclNet_v6_t ncclNetPlugin_v6 = {
|
|
.name = PLUGIN_NAME,
|
|
.init = pluginInit_v9,
|
|
.devices = pluginDevices,
|
|
.getProperties = pluginGetProperties_v6,
|
|
.listen = pluginListen_v10,
|
|
.connect = pluginConnect_v6,
|
|
.accept = pluginAccept_v6,
|
|
.regMr = pluginRegMr_v7,
|
|
.regMrDmaBuf = pluginRegMrDmaBuf,
|
|
.deregMr = pluginDeregMr,
|
|
.isend = pluginIsend_v8,
|
|
.irecv = pluginIrecv_v8,
|
|
.iflush = pluginIflush,
|
|
.test = pluginTest,
|
|
.closeSend = pluginCloseSend,
|
|
.closeRecv = pluginCloseRecv,
|
|
.closeListen = pluginCloseListen
|
|
};
|
|
|
|
/* v5 Compat */
|
|
const ncclNet_v5_t ncclNetPlugin_v5 = {
|
|
.name = PLUGIN_NAME,
|
|
.init = pluginInit_v9,
|
|
.devices = pluginDevices,
|
|
.getProperties = pluginGetProperties_v6,
|
|
.listen = pluginListen_v10,
|
|
.connect = pluginConnect_v6,
|
|
.accept = pluginAccept_v6,
|
|
.regMr = pluginRegMr_v7,
|
|
.deregMr = pluginDeregMr,
|
|
.isend = pluginIsend_v8,
|
|
.irecv = pluginIrecv_v8,
|
|
.iflush = pluginIflush,
|
|
.test = pluginTest,
|
|
.closeSend = pluginCloseSend,
|
|
.closeRecv = pluginCloseRecv,
|
|
.closeListen = pluginCloseListen,
|
|
};
|
|
|
|
/* v4 Compat */
|
|
static ncclResult_t pluginGetProperties_v4(int dev, ncclNetProperties_v4_t* props_v4) {
|
|
ncclNetProperties_t props;
|
|
ncclResult_t ret = pluginGetProperties(dev, &props);
|
|
if (ret != ncclSuccess) return ret;
|
|
props_v4->name = props.name;
|
|
props_v4->pciPath = props.pciPath;
|
|
props_v4->guid = props.guid;
|
|
props_v4->ptrSupport = props.ptrSupport;
|
|
props_v4->speed = props.speed;
|
|
props_v4->port = props.port;
|
|
props_v4->maxComms = props.maxComms;
|
|
return ncclSuccess;
|
|
}
|
|
static ncclResult_t pluginIsend_v4(void *sendComm, void* data, int size, void *mhandle, void** request) {
|
|
return pluginIsend_v8(sendComm, data, size, 0, mhandle, request);
|
|
}
|
|
static ncclResult_t pluginIrecv_v4(void* recvComm, void* data, int size, void* mhandle, void** request) {
|
|
int tag = 0;
|
|
return pluginIrecv_v8(recvComm, 1, &data, &size, &tag, &mhandle, request);
|
|
}
|
|
static ncclResult_t pluginIflush_v4(void* recvComm, void* data, int size, void* mhandle, void** request) {
|
|
return pluginIflush(recvComm, 1, &data, &size, &mhandle, request);
|
|
}
|
|
static ncclResult_t pluginConnect_v4(int dev, void* handle, void** sendComm) {
|
|
ncclResult_t ret;
|
|
do {
|
|
ncclNetDeviceHandle_v7_t* handle = NULL;
|
|
ret = pluginConnect_v10(dev, NULL, handle, sendComm, &handle);
|
|
} while (ret == ncclSuccess && *sendComm == NULL);
|
|
return ret;
|
|
}
|
|
static ncclResult_t pluginAccept_v4(void* listenComm, void** recvComm) {
|
|
ncclResult_t ret;
|
|
do {
|
|
ncclNetDeviceHandle_v7_t* handle = NULL;
|
|
ret = pluginAccept(listenComm, recvComm, &handle);
|
|
} while (ret == ncclSuccess && *recvComm == NULL);
|
|
return ret;
|
|
}
|
|
const ncclNet_v4_t ncclNetPlugin_v4 = {
|
|
.name = PLUGIN_NAME,
|
|
.init = pluginInit_v9,
|
|
.devices = pluginDevices,
|
|
.getProperties = pluginGetProperties_v4,
|
|
.listen = pluginListen_v10,
|
|
.connect = pluginConnect_v4,
|
|
.accept = pluginAccept_v4,
|
|
.regMr = pluginRegMr_v7,
|
|
.deregMr = pluginDeregMr,
|
|
.isend = pluginIsend_v4,
|
|
.irecv = pluginIrecv_v4,
|
|
.iflush = pluginIflush_v4,
|
|
.test = pluginTest,
|
|
.closeSend = pluginCloseSend,
|
|
.closeRecv = pluginCloseRecv,
|
|
.closeListen = pluginCloseListen,
|
|
};
|
|
|
|
/* v3 Compat */
|
|
static ncclResult_t pluginFlush(void* recvComm, void* data, int size, void* mhandle) {
|
|
void* req;
|
|
ncclResult_t ret = pluginIflush_v4(recvComm, data, size, mhandle, &req);
|
|
int done = 0;
|
|
while (ret == ncclSuccess && done == 0) {
|
|
ret = pluginTest(req, &done, NULL);
|
|
}
|
|
return ret;
|
|
}
|
|
static ncclResult_t pluginInit_v3(ncclDebugLogger_t logFunction) {
|
|
max_requests = NCCL_NET_MAX_REQUESTS_V3;
|
|
return pluginInit_v10(logFunction, NULL);
|
|
}
|
|
#include <string.h>
|
|
static ncclResult_t pluginListen_v3(int dev, void* handle, void** listenComm) {
|
|
char pluginHandle[NCCL_NET_HANDLE_MAXSIZE];
|
|
ncclResult_t ret = pluginListen_v10(dev, &pluginHandle, listenComm);
|
|
memcpy(handle, &pluginHandle, NCCL_NET_HANDLE_MAXSIZE_V4);
|
|
return ret;
|
|
}
|
|
static ncclResult_t pluginConnect_v3(int dev, void* handle, void** sendComm) {
|
|
char pluginHandle[NCCL_NET_HANDLE_MAXSIZE];
|
|
memcpy(&pluginHandle, handle, NCCL_NET_HANDLE_MAXSIZE_V4);
|
|
return pluginConnect_v4(dev, &pluginHandle, sendComm);
|
|
}
|
|
const ncclNet_v3_t ncclNetPlugin_v3 = {
|
|
.name = PLUGIN_NAME,
|
|
.init = pluginInit_v3,
|
|
.devices = pluginDevices,
|
|
.getProperties = pluginGetProperties_v4,
|
|
.listen = pluginListen_v3,
|
|
.connect = pluginConnect_v3,
|
|
.accept = pluginAccept_v4,
|
|
.regMr = pluginRegMr_v7,
|
|
.deregMr = pluginDeregMr,
|
|
.isend = pluginIsend_v4,
|
|
.irecv = pluginIrecv_v4,
|
|
.flush = pluginFlush,
|
|
.test = pluginTest,
|
|
.closeSend = pluginCloseSend,
|
|
.closeRecv = pluginCloseRecv,
|
|
.closeListen = pluginCloseListen,
|
|
};
|
|
|
|
/* v2 Compat */
|
|
const ncclNet_v2_t ncclNetPlugin_v2 = {
|
|
.name = PLUGIN_NAME,
|
|
.init = pluginInit_v3,
|
|
.devices = pluginDevices,
|
|
.pciPath = pluginPciPath,
|
|
.ptrSupport = pluginPtrSupport,
|
|
.listen = pluginListen_v3,
|
|
.connect = pluginConnect_v4,
|
|
.accept = pluginAccept_v4,
|
|
.regMr = pluginRegMr_v7,
|
|
.deregMr = pluginDeregMr,
|
|
.isend = pluginIsend_v4,
|
|
.irecv = pluginIrecv_v4,
|
|
.flush = pluginFlush,
|
|
.test = pluginTest,
|
|
.closeSend = pluginCloseSend,
|
|
.closeRecv = pluginCloseRecv,
|
|
.closeListen = pluginCloseListen,
|
|
};
|