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rocm-systems/runtime/hsa-runtime/core/inc/driver.h
T
Tony Gutierrez 931733d51a rocr/aie: Add support for creating AIE queue context
Adds support for initialzing the XDNA driver so that
a hardware context can be created for an AIE queue.

Right now this initializes the device heap in the driver,
gets the relevant tile parameters for the AIE agent,
and creates a hardware context that backs the AIE queue.

Change-Id: Ib90e1bc67a8637f6db3ff2bebe34677843796417
2024-09-19 19:44:53 +00:00

145 라인
5.3 KiB
C++

////////////////////////////////////////////////////////////////////////////////
//
// The University of Illinois/NCSA
// Open Source License (NCSA)
//
// Copyright (c) 2023, Advanced Micro Devices, Inc. All rights reserved.
//
// Developed by:
//
// AMD Research and AMD HSA Software Development
//
// Advanced Micro Devices, Inc.
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////////////////////////////////////////////////////////////////////////////////
#ifndef HSA_RUNTME_CORE_INC_DRIVER_H_
#define HSA_RUNTME_CORE_INC_DRIVER_H_
#include <limits>
#include <string>
#include "core/inc/memory_region.h"
#include "inc/hsa.h"
namespace rocr {
namespace core {
class Queue;
struct DriverVersionInfo {
uint32_t major;
uint32_t minor;
};
enum class DriverQuery { GET_DRIVER_VERSION };
enum class DriverType { XDNA = 0, KFD, NUM_DRIVER_TYPES };
/// @brief Kernel driver interface.
///
/// @details A class used to provide an interface between the core runtime
/// and agent kernel drivers. It also maintains state associated with active
/// kernel drivers.
class Driver {
public:
Driver() = delete;
Driver(DriverType kernel_driver_type, std::string devnode_name);
virtual ~Driver() = default;
/// @brief Initialize the driver's state after opening.
virtual hsa_status_t Init() = 0;
/// @brief Query the kernel-model driver.
/// @retval HSA_STATUS_SUCCESS if the kernel-model driver query was
/// successful.
virtual hsa_status_t QueryKernelModeDriver(DriverQuery query) = 0;
/// @brief Open a connection to the driver using name_.
/// @retval HSA_STATUS_SUCCESS if the driver was opened successfully.
hsa_status_t Open();
/// @brief Close a connection to the open driver using fd_.
/// @retval HSA_STATUS_SUCCESS if the driver was opened successfully.
hsa_status_t Close();
/// @brief Get driver version information.
/// @retval DriverVersionInfo containing the driver's version information.
const DriverVersionInfo &Version() const { return version_; }
/// @brief Get the properties of a specific agent and initialize the agent
/// object.
/// @param agent Agent whose properties we're getting.
/// @retval HSA_STATUS_SUCCESS if the driver successfully returns the agent's
/// properties.
virtual hsa_status_t GetAgentProperties(Agent &agent) const = 0;
/// @brief Get the memory properties of a specific node.
/// @param node_id Node ID of the agent
/// @param[in, out] mem_region MemoryRegion object whose properties will be
/// retrieved.
/// @retval HSA_STATUS_SUCCESS if the driver sucessfully returns the node's
/// memory properties.
virtual hsa_status_t GetMemoryProperties(uint32_t node_id,
MemoryRegion &mem_region) const = 0;
/// @brief Allocate agent-accessible memory (system or agent-local memory).
///
/// @param[out] pointer to newly allocated memory.
///
/// @retval HSA_STATUS_SUCCESS if memory was successfully allocated or
/// hsa_status_t error code if the memory allocation failed.
virtual hsa_status_t AllocateMemory(const MemoryRegion &mem_region,
MemoryRegion::AllocateFlags alloc_flags,
void **mem, size_t size,
uint32_t node_id) = 0;
virtual hsa_status_t FreeMemory(void *mem, size_t size) = 0;
virtual hsa_status_t CreateQueue(Queue &queue) const = 0;
virtual hsa_status_t DestroyQueue(Queue &queue) const = 0;
/// Unique identifier for supported kernel-mode drivers.
const DriverType kernel_driver_type_;
protected:
DriverVersionInfo version_{std::numeric_limits<uint32_t>::max(),
std::numeric_limits<uint32_t>::max()};
const std::string devnode_name_;
int fd_ = -1;
};
} // namespace core
} // namespace rocr
#endif // header guard