!1373 add memory copy module

Merge pull request !1373 from zyli2020/add_mem_swap_module_header
This commit is contained in:
mindspore-ci-bot 2020-05-23 15:39:13 +08:00 committed by Gitee
commit e82088d175
8 changed files with 329 additions and 23 deletions

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@ -47,6 +47,8 @@ class GPUMemoryManager;
namespace mindspore { namespace mindspore {
namespace device { namespace device {
enum class DeviceAddressStatus { kInDevice, kInHost, kInDeviceToHost, kInHostToDevice };
class DeviceAddress { class DeviceAddress {
public: public:
explicit DeviceAddress(void *ptr, size_t size) : ptr_(ptr), size_(size) {} explicit DeviceAddress(void *ptr, size_t size) : ptr_(ptr), size_(size) {}
@ -60,6 +62,8 @@ class DeviceAddress {
size_t GetSize() const { return size_; } size_t GetSize() const { return size_; }
std::string format() const { return format_; } std::string format() const { return format_; }
TypeId type_id() const { return type_id_; } TypeId type_id() const { return type_id_; }
virtual void set_status(DeviceAddressStatus status) {}
virtual DeviceAddressStatus status() const { return DeviceAddressStatus::kInDevice; }
protected: protected:
const void *ptr() const { return ptr_; } const void *ptr() const { return ptr_; }

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@ -15,9 +15,7 @@
*/ */
#include "device/gpu/cuda_driver.h" #include "device/gpu/cuda_driver.h"
#include <iostream> #include <iostream>
#include "utils/log_adapter.h" #include "utils/log_adapter.h"
#include "utils/convert_utils.h" #include "utils/convert_utils.h"
@ -54,6 +52,27 @@ bool CudaDriver::FreeDeviceMem(const DeviceMemPtr &addr) {
return true; return true;
} }
size_t CudaDriver::AllocHostPinnedMem(size_t size, void **addr) {
if (size == 0) {
MS_LOG(EXCEPTION) << "The memory allocate size is 0";
}
auto ret = cudaHostAlloc(addr, size, cudaHostAllocDefault);
if (ret != cudaSuccess) {
MS_LOG(ERROR) << "cudaHostAlloc failed, ret[" << static_cast<int>(ret) << "], " << cudaGetErrorString(ret);
return 0;
}
return size;
}
void CudaDriver::FreeHostPinnedMem(void *addr) {
if (addr) {
auto ret = cudaFreeHost(addr);
if (ret != cudaSuccess) {
MS_LOG(EXCEPTION) << "cudaFreeHost failed, ret[" << static_cast<int>(ret) << "], " << cudaGetErrorString(ret);
}
}
}
bool CudaDriver::CopyHostMemToDevice(const DeviceMemPtr &dst, const void *src, size_t size) { bool CudaDriver::CopyHostMemToDevice(const DeviceMemPtr &dst, const void *src, size_t size) {
auto ret = cudaMemcpy(dst, src, size, cudaMemcpyHostToDevice); auto ret = cudaMemcpy(dst, src, size, cudaMemcpyHostToDevice);
if (ret != cudaSuccess) { if (ret != cudaSuccess) {
@ -72,6 +91,25 @@ bool CudaDriver::CopyDeviceMemToHost(const HostMemPtr &dst, const DeviceMemPtr &
return true; return true;
} }
bool CudaDriver::CopyHostMemToDeviceAsync(const DeviceMemPtr &dst, const void *src, size_t size, DeviceStream stream) {
auto ret = cudaMemcpyAsync(dst, src, size, cudaMemcpyHostToDevice, (cudaStream_t)stream);
if (ret != cudaSuccess) {
MS_LOG(ERROR) << "cudaMemcpyAsync failed, ret[" << static_cast<int>(ret) << "], " << cudaGetErrorString(ret);
return false;
}
return true;
}
bool CudaDriver::CopyDeviceMemToHostAsync(const HostMemPtr &dst, const DeviceMemPtr &src, size_t size,
DeviceStream stream) {
auto ret = cudaMemcpyAsync(dst, src, size, cudaMemcpyHostToDevice, (cudaStream_t)stream);
if (ret != cudaSuccess) {
MS_LOG(ERROR) << "cudaMemcpyAsync failed, ret[" << static_cast<int>(ret) << "], " << cudaGetErrorString(ret);
return false;
}
return true;
}
size_t CudaDriver::total_mem_size() { size_t CudaDriver::total_mem_size() {
size_t free; size_t free;
size_t total; size_t total;
@ -122,6 +160,55 @@ bool CudaDriver::SyncStream(const DeviceStream &stream) {
return true; return true;
} }
bool CudaDriver::CreateEvent(DeviceEvent *event, unsigned int flag) {
auto ret = cudaEventCreateWithFlags(reinterpret_cast<cudaEvent_t *>(event), flag);
if (ret != cudaSuccess) {
MS_LOG(ERROR) << "cudaEventCreateWithFlags failed, ret[" << static_cast<int>(ret) << "], "
<< cudaGetErrorString(ret);
return false;
}
return true;
}
bool CudaDriver::DestroyEvent(const DeviceEvent &event) {
auto ret = cudaEventDestroy((cudaEvent_t)event);
if (ret != cudaSuccess) {
MS_LOG(ERROR) << "cudaEventDestroy failed, ret[" << static_cast<int>(ret) << "], " << cudaGetErrorString(ret);
return false;
}
return true;
}
bool CudaDriver::RecordEvent(DeviceEvent event, DeviceStream stream) {
auto ret = cudaEventRecord((cudaEvent_t)event, (cudaStream_t)stream);
if (ret != cudaSuccess) {
MS_LOG(ERROR) << "cudaEventRecord failed, ret[" << static_cast<int>(ret) << "], " << cudaGetErrorString(ret);
return false;
}
return true;
}
bool CudaDriver::SyncEvent(const DeviceEvent &event) {
auto ret = cudaEventSynchronize((cudaEvent_t)event);
if (ret != cudaSuccess) {
MS_LOG(ERROR) << "cudaEventSynchronize failed, ret[" << static_cast<int>(ret) << "], " << cudaGetErrorString(ret);
return false;
}
return true;
}
bool CudaDriver::QueryEvent(const DeviceEvent &event) {
auto ret = cudaEventQuery((cudaEvent_t)event);
if (ret == cudaSuccess) {
return true;
} else if (ret == cudaErrorNotReady) {
return false;
} else {
MS_LOG(ERROR) << "cudaEventQuery failed, ret[" << static_cast<int>(ret) << "], " << cudaGetErrorString(ret);
return false;
}
}
int CudaDriver::device_count() { int CudaDriver::device_count() {
int dev_count; int dev_count;
auto ret = cudaGetDeviceCount(&dev_count); auto ret = cudaGetDeviceCount(&dev_count);

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@ -33,8 +33,16 @@ class CudaDriver {
// such as malloc/free and memory copy from host to device and reverse. // such as malloc/free and memory copy from host to device and reverse.
static size_t AllocDeviceMem(size_t size, DeviceMemPtr *addr); static size_t AllocDeviceMem(size_t size, DeviceMemPtr *addr);
static bool FreeDeviceMem(const DeviceMemPtr &addr); static bool FreeDeviceMem(const DeviceMemPtr &addr);
static size_t AllocHostPinnedMem(size_t size, void **addr);
static void FreeHostPinnedMem(void *addr);
static bool CopyHostMemToDevice(const DeviceMemPtr &dst, const void *src, size_t size); static bool CopyHostMemToDevice(const DeviceMemPtr &dst, const void *src, size_t size);
static bool CopyDeviceMemToHost(const HostMemPtr &dst, const DeviceMemPtr &src, size_t size); static bool CopyDeviceMemToHost(const HostMemPtr &dst, const DeviceMemPtr &src, size_t size);
static bool CopyHostMemToDeviceAsync(const DeviceMemPtr &dst, const void *src, size_t size, DeviceStream stream = 0);
static bool CopyDeviceMemToHostAsync(const HostMemPtr &dst, const DeviceMemPtr &src, size_t size,
DeviceStream stream = 0);
static size_t total_mem_size(); static size_t total_mem_size();
static size_t free_mem_size(); static size_t free_mem_size();
@ -44,6 +52,12 @@ class CudaDriver {
static bool DestroyStream(const DeviceStream &stream); static bool DestroyStream(const DeviceStream &stream);
static bool SyncStream(const DeviceStream &stream); static bool SyncStream(const DeviceStream &stream);
static bool CreateEvent(DeviceEvent *event, unsigned int flag = cudaEventDefault);
static bool DestroyEvent(const DeviceEvent &event);
static bool RecordEvent(DeviceEvent event, DeviceStream stream = 0);
static bool SyncEvent(const DeviceEvent &event);
static bool QueryEvent(const DeviceEvent &event);
// Encapsulate the cuda APIs associated with device management. // Encapsulate the cuda APIs associated with device management.
static int device_count(); static int device_count();
static bool set_current_device(int index); static bool set_current_device(int index);

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@ -33,6 +33,11 @@ class GPUDeviceAddress : public DeviceAddress {
bool SyncDeviceToHost(const std::vector<int> &shape, size_t size, TypeId type, void *host_ptr) const override; bool SyncDeviceToHost(const std::vector<int> &shape, size_t size, TypeId type, void *host_ptr) const override;
bool SyncHostToDevice(const std::vector<int> &shape, size_t size, TypeId type, const void *host_ptr) const override; bool SyncHostToDevice(const std::vector<int> &shape, size_t size, TypeId type, const void *host_ptr) const override;
void set_status(DeviceAddressStatus status) { status_ = status; }
DeviceAddressStatus status() const { return status_; }
private:
DeviceAddressStatus status_{DeviceAddressStatus::kInDevice};
}; };
} // namespace gpu } // namespace gpu
} // namespace device } // namespace device

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@ -0,0 +1,131 @@
/**
* Copyright 2020 Huawei Technologies Co., Ltd
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "device/gpu/gpu_memory_copy_manager.h"
#include "device/gpu/gpu_common.h"
#include "device/gpu/gpu_device_manager.h"
#include "session/anf_runtime_algorithm.h"
namespace mindspore {
namespace device {
namespace gpu {
void GPUMemCopyManager::Init() {
CHECK_OP_RET_WITH_EXCEPT(GPUDeviceManager::GetInstance().CreateStream(&swap_out_stream_),
"Failed to create CUDA stream of memory swap out.");
CHECK_OP_RET_WITH_EXCEPT(GPUDeviceManager::GetInstance().CreateStream(&swap_in_stream_),
"Failed to create CUDA stream of memory swap in.");
}
void GPUMemCopyManager::AddMemSwapOutTask(const DeviceAddressPtr &device_address, const HostAddress &host_addr) {
MS_EXCEPTION_IF_NULL(device_address);
MS_EXCEPTION_IF_NULL(host_addr.addr);
DeviceEvent event = nullptr;
CHECK_OP_RET_WITH_EXCEPT(CudaDriver::CreateEvent(&event, cudaEventDisableTiming), "Failed to create CUDA event.");
DeviceMemPtr device_ptr = const_cast<DeviceMemPtr>(device_address->GetPtr());
MS_EXCEPTION_IF_NULL(device_ptr);
device_address->set_status(DeviceAddressStatus::kInDeviceToHost);
CHECK_OP_RET_WITH_EXCEPT(
CudaDriver::CopyDeviceMemToHostAsync(host_addr.addr, device_ptr, host_addr.size, swap_out_stream_),
"Failed to copy device memory to host.");
CHECK_OP_RET_WITH_EXCEPT(CudaDriver::RecordEvent(event, swap_out_stream_),
"Failed to record CUDA event to swap out stream.");
swap_out_queue_.emplace(device_address, event);
}
void GPUMemCopyManager::AddMemSwapInTask(const DeviceAddressPtr &device_address, const HostAddress &host_addr) {
MS_EXCEPTION_IF_NULL(device_address);
MS_EXCEPTION_IF_NULL(host_addr.addr);
DeviceEvent event = nullptr;
CHECK_OP_RET_WITH_EXCEPT(CudaDriver::CreateEvent(&event, cudaEventDisableTiming), "Failed to create CUDA event.");
DeviceMemPtr device_ptr = const_cast<DeviceMemPtr>(device_address->GetPtr());
MS_EXCEPTION_IF_NULL(device_ptr);
device_address->set_status(DeviceAddressStatus::kInHostToDevice);
CHECK_OP_RET_WITH_EXCEPT(
CudaDriver::CopyHostMemToDeviceAsync(device_ptr, host_addr.addr, host_addr.size, swap_in_stream_),
"Failed to copy host memory to device.");
CHECK_OP_RET_WITH_EXCEPT(CudaDriver::RecordEvent(event, swap_in_stream_),
"Failed to record CUDA event to swap in stream.");
swap_in_queue_.emplace(device_address, event);
}
bool GPUMemCopyManager::SyncMemCopyStream(SwapKind swap_kind) {
if (swap_kind == SwapKind::kDeviceToHost) {
return GPUDeviceManager::GetInstance().SyncStream(swap_out_stream_);
} else {
return GPUDeviceManager::GetInstance().SyncStream(swap_in_stream_);
}
}
DeviceAddressPtr GPUMemCopyManager::UpdateSwapOutQueue() {
if (swap_out_queue_.empty()) {
return nullptr;
}
auto &task = swap_out_queue_.front();
auto device_address = task.first;
auto &event = task.second;
bool finish_swap = CudaDriver::QueryEvent(event);
if (!finish_swap) {
return nullptr;
}
CHECK_OP_RET_WITH_EXCEPT(CudaDriver::DestroyEvent(event), "Failed to destroy CUDA event of swap out.");
swap_out_queue_.pop();
return device_address;
}
DeviceAddressPtr GPUMemCopyManager::UpdateSwapInQueue() {
if (swap_in_queue_.empty()) {
return nullptr;
}
auto &task = swap_in_queue_.front();
auto device_address = task.first;
auto &event = task.second;
bool finish_swap = CudaDriver::QueryEvent(event);
if (!finish_swap) {
return nullptr;
}
CHECK_OP_RET_WITH_EXCEPT(CudaDriver::DestroyEvent(event), "Failed to destroy CUDA event of swap in.");
swap_in_queue_.pop();
return device_address;
}
bool GPUMemCopyManager::AllocHostPinnedMem(size_t size, void **addr) {
auto alloc_size = CudaDriver::AllocHostPinnedMem(size, addr);
return alloc_size == size;
}
void GPUMemCopyManager::FreeHostPinnedMem(void *addr) { CudaDriver::FreeHostPinnedMem(addr); }
void GPUMemCopyManager::ClearSwapQueue() {
CHECK_OP_RET_WITH_EXCEPT(SyncMemCopyStream(SwapKind::kDeviceToHost), "Failed to sync swap out stream");
CHECK_OP_RET_WITH_EXCEPT(SyncMemCopyStream(SwapKind::kHostToDevice), "Failed to sync swap in stream");
while (!swap_out_queue_.empty()) {
auto &event = swap_out_queue_.front().second;
CHECK_OP_RET_WITH_EXCEPT(CudaDriver::DestroyEvent(event), "Failed to destroy CUDA event of swap out.");
swap_out_queue_.pop();
}
while (!swap_in_queue_.empty()) {
auto &event = swap_in_queue_.front().second;
CHECK_OP_RET_WITH_EXCEPT(CudaDriver::DestroyEvent(event), "Failed to destroy CUDA event of swap in.");
swap_in_queue_.pop();
}
}
} // namespace gpu
} // namespace device
} // namespace mindspore

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@ -0,0 +1,69 @@
/**
* Copyright 2020 Huawei Technologies Co., Ltd
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef MINDSPORE_CCSRC_DEVICE_GPU_GPU_MEMORY_COPY_MANAGER_H_
#define MINDSPORE_CCSRC_DEVICE_GPU_GPU_MEMORY_COPY_MANAGER_H_
#include <memory>
#include <queue>
#include <utility>
#include "pre_activate/mem_reuse/mem_copy_manager.h"
#include "device/device_address.h"
#include "device/gpu/cuda_driver.h"
#include "kernel/kernel.h"
namespace mindspore {
namespace device {
namespace gpu {
using mindspore::device::memswap::MemCopyManager;
using mindspore::device::memswap::SwapKind;
class GPUMemCopyManager : public MemCopyManager {
public:
GPUMemCopyManager() = default;
~GPUMemCopyManager() override = default;
void Init() override;
void AddMemSwapOutTask(const DeviceAddressPtr &device_address, const HostAddress &host_addr) override;
void AddMemSwapInTask(const DeviceAddressPtr &device_address, const HostAddress &host_addr) override;
bool SyncMemCopyStream(SwapKind swap_kind) override;
DeviceAddressPtr UpdateSwapOutQueue() override;
DeviceAddressPtr UpdateSwapInQueue() override;
bool AllocHostPinnedMem(size_t size, void **addr) override;
void FreeHostPinnedMem(void *addr) override;
void ClearSwapQueue() override;
private:
DeviceStream swap_out_stream_{nullptr};
DeviceStream swap_in_stream_{nullptr};
std::queue<std::pair<DeviceAddressPtr, DeviceEvent>> swap_out_queue_;
std::queue<std::pair<DeviceAddressPtr, DeviceEvent>> swap_in_queue_;
};
using GPUMemCopyManagerPtr = std::shared_ptr<GPUMemCopyManager>;
} // namespace gpu
} // namespace device
} // namespace mindspore
#endif // MINDSPORE_CCSRC_DEVICE_GPU_GPU_MEMORY_COPY_MANAGER_H_

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@ -14,8 +14,8 @@
* limitations under the License. * limitations under the License.
*/ */
#ifndef MINDSPORE_CCSRC_PRE_ACTIVATE_MEM_REUSE_MEM_SWAP_UTIL_H_ #ifndef MINDSPORE_CCSRC_PRE_ACTIVATE_MEM_REUSE_MEM_COPY_MANAGER_H_
#define MINDSPORE_CCSRC_PRE_ACTIVATE_MEM_REUSE_MEM_SWAP_UTIL_H_ #define MINDSPORE_CCSRC_PRE_ACTIVATE_MEM_REUSE_MEM_COPY_MANAGER_H_
#include <vector> #include <vector>
#include <map> #include <map>
@ -26,10 +26,6 @@
#include "device/gpu/cuda_driver.h" #include "device/gpu/cuda_driver.h"
#include "kernel/kernel.h" #include "kernel/kernel.h"
using mindspore::device::gpu::DeviceEvent;
using mindspore::device::gpu::DeviceMemPtr;
using mindspore::device::gpu::DeviceStream;
using mindspore::device::gpu::HostMemPtr;
using HostAddress = mindspore::kernel::Address; using HostAddress = mindspore::kernel::Address;
namespace mindspore { namespace mindspore {
namespace device { namespace device {
@ -74,31 +70,29 @@ class MemCopyManager {
public: public:
MemCopyManager() = default; MemCopyManager() = default;
~MemCopyManager() = default; virtual ~MemCopyManager() = default;
void Init(); virtual void Init() {}
void AddMemSwapOutTask(const DeviceAddressPtr &device_address, const HostAddress &host_addr); virtual void AddMemSwapOutTask(const DeviceAddressPtr &device_address, const HostAddress &host_addr) {}
void AddMemSwapInTask(const DeviceAddressPtr &device_address, const HostAddress &host_addr); virtual void AddMemSwapInTask(const DeviceAddressPtr &device_address, const HostAddress &host_addr) {}
bool SyncMemCopyStream(SwapKind swap_kind); virtual bool SyncMemCopyStream(SwapKind swap_kind) { return true; }
DeviceAddressPtr UpdateSwapOutQueue(); virtual DeviceAddressPtr UpdateSwapOutQueue() { return nullptr; }
DeviceAddressPtr UpdateSwapInQueue(); virtual DeviceAddressPtr UpdateSwapInQueue() { return nullptr; }
void ClearSwapQueue(); virtual bool AllocHostPinnedMem(size_t size, void **addr) { return true; }
private: virtual void FreeHostPinnedMem(void *addr) {}
DeviceStream swap_out_stream_{nullptr};
DeviceStream swap_in_stream_{nullptr}; virtual void ClearSwapQueue() {}
std::queue<std::pair<DeviceAddressPtr, DeviceEvent>> swap_out_queue_;
std::queue<std::pair<DeviceAddressPtr, DeviceEvent>> swap_in_queue_;
}; };
using MemCopyManagerPtr = std::shared_ptr<MemCopyManager>; using MemCopyManagerPtr = std::shared_ptr<MemCopyManager>;
} // namespace memswap } // namespace memswap
} // namespace device } // namespace device
} // namespace mindspore } // namespace mindspore
#endif // MINDSPORE_CCSRC_PRE_ACTIVATE_MEM_REUSE_MEM_SWAP_UTIL_H_ #endif // MINDSPORE_CCSRC_PRE_ACTIVATE_MEM_REUSE_MEM_COPY_MANAGER_H_

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@ -17,7 +17,9 @@
#define TESTS_UT_STUB_RUNTIME_INCLUDE_CUDA_RUNTIME_API_H_ #define TESTS_UT_STUB_RUNTIME_INCLUDE_CUDA_RUNTIME_API_H_
#include <cstddef> #include <cstddef>
typedef enum { cudaSuccess = 0 } cudaError_t; typedef enum { cudaSuccess = 0, cudaErrorNotReady = 1 } cudaError_t;
unsigned int cudaEventDefault = 0;
enum cudaMemcpyKind { enum cudaMemcpyKind {
cudaMemcpyHostToHost = 0, cudaMemcpyHostToHost = 0,