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rocm-systems/rocclr/runtime/device/rocm/pro/prodevice.cpp
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//
// Copyright (c) 2017 Advanced Micro Devices, Inc. All rights reserved.
//
#ifndef WITHOUT_HSA_BACKEND
#include "hsa_ext_amd.h"
#include "lnxheaders.h"
#include "prodevice.hpp"
#include "amdgpu_drm.h"
namespace roc {
constexpr uint32_t kMaxDevices = 32;
constexpr uint32_t kAtiVendorId = 0x1002;
void* ProDevice::lib_drm_handle_ = nullptr;
bool ProDevice::initialized_ = false;
drm::Funcs ProDevice::funcs_;
IProDevice* IProDevice::Init(uint32_t bus, uint32_t dev, uint32_t func)
{
// Make sure DRM lib is initialized
if (!ProDevice::DrmInit()) {
return nullptr;
}
ProDevice* pro_device = new ProDevice();
if (pro_device == nullptr || !pro_device->Create(bus, dev, func)) {
delete pro_device;
return nullptr;
}
return pro_device;
}
ProDevice::~ProDevice() {
delete alloc_ops_;
if (dev_handle_ != nullptr) {
Funcs().AmdgpuDeviceDeinitialize(dev_handle_);
}
if (file_desc_ > 0) {
close(file_desc_);
}
}
bool ProDevice::DrmInit()
{
if (initialized_ == false) {
// Find symbols in libdrm_amdgpu.so.1
lib_drm_handle_ = dlopen("libdrm_amdgpu.so.1", RTLD_NOW);
if (lib_drm_handle_ == nullptr) {
return false;
} else {
funcs_.DrmGetDevices = reinterpret_cast<drm::DrmGetDevices>(dlsym(
lib_drm_handle_,
"drmGetDevices"));
if (funcs_.DrmGetDevices == nullptr) return false;
funcs_.AmdgpuDeviceInitialize = reinterpret_cast<drm::AmdgpuDeviceInitialize>(dlsym(
lib_drm_handle_,
"amdgpu_device_initialize"));
if (funcs_.AmdgpuDeviceInitialize == nullptr) return false;
funcs_.AmdgpuDeviceDeinitialize = reinterpret_cast<drm::AmdgpuDeviceDeinitialize>(dlsym(
lib_drm_handle_,
"amdgpu_device_deinitialize"));
if (funcs_.AmdgpuDeviceDeinitialize == nullptr) return false;
funcs_.AmdgpuQueryGpuInfo = reinterpret_cast<drm::AmdgpuQueryGpuInfo>(dlsym(
lib_drm_handle_,
"amdgpu_query_gpu_info"));
if (funcs_.AmdgpuQueryGpuInfo == nullptr) return false;
funcs_.AmdgpuQueryInfo = reinterpret_cast<drm::AmdgpuQueryInfo>(dlsym(
lib_drm_handle_,
"amdgpu_query_info"));
if (funcs_.AmdgpuQueryInfo == nullptr) return false;
funcs_.AmdgpuBoAlloc = reinterpret_cast<drm::AmdgpuBoAlloc>(dlsym(
lib_drm_handle_,
"amdgpu_bo_alloc"));
if (funcs_.AmdgpuBoAlloc == nullptr) return false;
funcs_.AmdgpuBoExport = reinterpret_cast<drm::AmdgpuBoExport>(dlsym(
lib_drm_handle_,
"amdgpu_bo_export"));
if (funcs_.AmdgpuBoExport == nullptr) return false;
funcs_.AmdgpuBoFree = reinterpret_cast<drm::AmdgpuBoFree>(dlsym(
lib_drm_handle_,
"amdgpu_bo_free"));
if (funcs_.AmdgpuBoFree == nullptr) return false;
funcs_.AmdgpuBoCpuMap = reinterpret_cast<drm::AmdgpuBoCpuMap>(dlsym(
lib_drm_handle_,
"amdgpu_bo_cpu_map"));
if (funcs_.AmdgpuBoCpuMap == nullptr) return false;
funcs_.AmdgpuBoCpuUnmap = reinterpret_cast<drm::AmdgpuBoCpuUnmap>(dlsym(
lib_drm_handle_,
"amdgpu_bo_cpu_unmap"));
if (funcs_.AmdgpuBoCpuUnmap == nullptr) return false;
}
}
initialized_ = true;
return true;
}
#ifndef AMDGPU_CAPABILITY_SSG_FLAG
#define AMDGPU_CAPABILITY_SSG_FLAG 4
#endif
// ================================================================================================
// Open drm device and initialize it. And also get the drm information.
bool ProDevice::Create(uint32_t bus, uint32_t device, uint32_t func) {
drmDevicePtr devices[kMaxDevices] = { };
int32_t device_count = Funcs().DrmGetDevices(devices, kMaxDevices);
bool result = false;
for (int32_t i = 0; i < device_count; i++) {
// Check if the device vendor is AMD
if (devices[i]->deviceinfo.pci->vendor_id != kAtiVendorId) {
continue;
}
if ((devices[i]->businfo.pci->bus == bus) &&
(devices[i]->businfo.pci->dev == device) &&
(devices[i]->businfo.pci->func == func)) {
// pDevices[i]->nodes[DRM_NODE_PRIMARY];
// Using render node here so that we can do the off-screen rendering without authentication
file_desc_ = open(devices[i]->nodes[DRM_NODE_RENDER], O_RDWR, 0);
if (file_desc_ > 0) {
void* data, *file, *cap;
// Initialize the admgpu device.
if (Funcs().AmdgpuDeviceInitialize(file_desc_, &major_ver_,
&minor_ver_, &dev_handle_) == 0) {
uint32_t version = 0;
// amdgpu_query_gpu_info will never fail only if it is initialized
Funcs().AmdgpuQueryGpuInfo(dev_handle_, &gpu_info_);
drm_amdgpu_capability cap = {};
Funcs().AmdgpuQueryInfo(dev_handle_, AMDGPU_INFO_CAPABILITY, sizeof(drm_amdgpu_capability), &cap);
// Check if DGMA and SSG are available
if ((cap.flag & (AMDGPU_CAPABILITY_DIRECT_GMA_FLAG | AMDGPU_CAPABILITY_SSG_FLAG)) ==
(AMDGPU_CAPABILITY_DIRECT_GMA_FLAG | AMDGPU_CAPABILITY_SSG_FLAG)) {
result = true;
break;
}
}
}
}
}
if (result) {
alloc_ops_ = new amd::Monitor("DGMA mem alloc lock", true);
if (nullptr == alloc_ops_) {
return true;
}
}
return result;
}
void* ProDevice::AllocDmaBuffer(hsa_agent_t agent, size_t size, void** host_ptr) const
{
amd::ScopedLock l(alloc_ops_);
void* ptr = nullptr;
amdgpu_bo_handle buf_handle = 0;
amdgpu_bo_alloc_request req = {0};
*host_ptr = nullptr;
req.alloc_size = size;
req.phys_alignment = 64 * Ki;
req.preferred_heap = AMDGPU_GEM_DOMAIN_DGMA;
// Allocate buffer in DGMA heap
if (0 == Funcs().AmdgpuBoAlloc(dev_handle_, &req, &buf_handle)) {
amdgpu_bo_handle_type type = amdgpu_bo_handle_type_dma_buf_fd;
uint32_t shared_handle = 0;
// Find the base driver handle
if (0 == Funcs().AmdgpuBoExport(buf_handle, type, &shared_handle)) {
uint32_t flags = 0;
size_t buf_size = 0;
// Map memory object to HSA device
if (0 == hsa_amd_interop_map_buffer(1, &agent, shared_handle,
flags, &buf_size, &ptr, nullptr, nullptr)) {
// Ask GPUPro driver to provide CPU access to allocation
if (0 == Funcs().AmdgpuBoCpuMap(buf_handle, host_ptr)) {
allocs_.insert({ptr, {buf_handle, shared_handle}});
}
else {
hsa_amd_interop_unmap_buffer(ptr);
close(shared_handle);
Funcs().AmdgpuBoFree(buf_handle);
}
}
else {
close(shared_handle);
Funcs().AmdgpuBoFree(buf_handle);
}
}
else {
Funcs().AmdgpuBoFree(buf_handle);
}
}
return ptr;
}
void ProDevice::FreeDmaBuffer(void* ptr) const
{
amd::ScopedLock l(alloc_ops_);
auto it = allocs_.find(ptr);
if (it != allocs_.end()) {
Funcs().AmdgpuBoCpuUnmap(it->second.first);
// Unmap memory from HSA device
hsa_amd_interop_unmap_buffer(ptr);
// Close shared handle
close(it->second.second);
int error = Funcs().AmdgpuBoFree(it->second.first);
allocs_.erase(it);
}
}
}
#endif // WITHOUT_HSA_BACKEND