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rocm-systems/include/hsakmt.h
T
Philip Cox dbbd189b33 Add functions to get the kfd debugger version info
To support adding new features to the kfd debugger, and not break
functionality, we need to be able to check the kfd debugger support
version info from the kernel.

Change-Id: Icd88e4edab8430c35eaed588e62d892c1b5c62ec
Signed-off-by: Philip Cox <Philip.Cox@amd.com>
2019-10-10 14:32:54 -04:00

1228 строки
33 KiB
C

/*
* Copyright © 2014 Advanced Micro Devices, Inc.
*
* Permission is hereby granted, free of charge, to any person
* obtaining a copy of this software and associated documentation
* files (the "Software"), to deal in the Software without
* restriction, including without limitation the rights to use, copy,
* modify, merge, publish, distribute, sublicense, and/or sell copies
* of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice (including
* the next paragraph) shall be included in all copies or substantial
* portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
* HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*/
#ifndef _HSAKMT_H_
#define _HSAKMT_H_
#include "hsakmttypes.h"
#ifdef __cplusplus
extern "C" {
#endif
/**
"Opens" the HSA kernel driver for user-kernel mode communication.
On Windows, this function gets a handle to the KFD's AMDKFDIO device object that
is responsible for user-kernel communication, this handle is used internally by
the thunk library to send device I/O control to the HSA kernel driver.
No other thunk library function may be called unless the user-kernel communication
channel is opened first.
On Linux this call opens the "/dev/kfd" device file to establish a communication
path to the kernel.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtOpenKFD( void );
/**
"Closes" the user-kernel communication path.
On Windows, the handle obtained by the hsaKmtOpenKFD() function is closed;
no other communication with the kernel driver is possible after the successful
execution of the saKmdCloseKFD() function. Depending on the failure reason,
the user-kernel communication path may or may not be still active.
On Linux the function closes the "dev/kfd" device file.
No further communication to the kernel driver is allowed until hsaKmtOpenKFD()
function is called again.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtCloseKFD( void );
/**
Returns the user-kernel interface version supported by KFD.
Higher major numbers usually add new features to KFD and may break user-kernel
compatibility; higher minor numbers define additional functionality associated
within a major number.
The calling software should validate that it meets the minimum interface version
as described in the API specification.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtGetVersion(
HsaVersionInfo* VersionInfo //OUT
);
/**
The function takes a "snapshot" of the topology information within the KFD
to avoid any changes during the enumeration process.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtAcquireSystemProperties(
HsaSystemProperties* SystemProperties //OUT
);
/**
Releases the topology "snapshot" taken by hsaKmtAcquireSystemProperties()
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtReleaseSystemProperties( void ) ;
/**
Retrieves the discoverable sub-properties for a given HSA
node. The parameters returned allow the application or runtime to size the
management structures necessary to store the information.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtGetNodeProperties(
HSAuint32 NodeId, //IN
HsaNodeProperties* NodeProperties //OUT
);
/**
Retrieves the memory properties of a specific HSA node.
the memory pointer passed as MemoryProperties is sized as
NumBanks * sizeof(HsaMemoryProperties). NumBanks is retrieved with the
hsaKmtGetNodeProperties() call.
Some of the data returned is optional. Not all implementations may return all
parameters in the hsaMemoryProperties.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtGetNodeMemoryProperties(
HSAuint32 NodeId, //IN
HSAuint32 NumBanks, //IN
HsaMemoryProperties* MemoryProperties //OUT
);
/**
Retrieves the cache properties of a specific HSA node and processor ID.
ProcessorID refers to either a CPU core or a SIMD unit as enumerated earlier
via the hsaKmtGetNodeProperties() call.
The memory pointer passed as CacheProperties is sized as
NumCaches * sizeof(HsaCacheProperties). NumCaches is retrieved with the
hsaKmtGetNodeProperties() call.
The data returned is optional. Not all implementations may return all
parameters in the CacheProperties.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtGetNodeCacheProperties(
HSAuint32 NodeId, //IN
HSAuint32 ProcessorId, //IN
HSAuint32 NumCaches, //IN
HsaCacheProperties* CacheProperties //OUT
);
/**
Retrieves the HSA IO affinity properties of a specific HSA node.
the memory pointer passed as Properties is sized as
NumIoLinks * sizeof(HsaIoLinkProperties). NumIoLinks is retrieved with the
hsaKmtGetNodeProperties() call.
The data returned is optional. Not all implementations may return all
parameters in the IoLinkProperties.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtGetNodeIoLinkProperties(
HSAuint32 NodeId, //IN
HSAuint32 NumIoLinks, //IN
HsaIoLinkProperties* IoLinkProperties //OUT
);
/**
Creates an operating system event associated with a HSA event ID
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtCreateEvent(
HsaEventDescriptor* EventDesc, //IN
bool ManualReset, //IN
bool IsSignaled, //IN
HsaEvent** Event //OUT
);
/**
Destroys an operating system event associated with a HSA event ID
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtDestroyEvent(
HsaEvent* Event //IN
);
/**
Sets the specified event object to the signaled state
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtSetEvent(
HsaEvent* Event //IN
);
/**
Sets the specified event object to the non-signaled state
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtResetEvent(
HsaEvent* Event //IN
);
/**
Queries the state of the specified event object
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtQueryEventState(
HsaEvent* Event //IN
);
/**
Checks the current state of the event object. If the object's state is
nonsignaled, the calling thread enters the wait state.
The function returns when one of the following occurs:
- The specified event object is in the signaled state.
- The time-out interval elapses.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtWaitOnEvent(
HsaEvent* Event, //IN
HSAuint32 Milliseconds //IN
);
/**
Checks the current state of multiple event objects.
The function returns when one of the following occurs:
- Either any one or all of the specified objects are in the signaled state
- if "WaitOnAll" is "true" the function returns when the state of all
objects in array is signaled
- if "WaitOnAll" is "false" the function returns when the state of any
one of the objects is set to signaled
- The time-out interval elapses.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtWaitOnMultipleEvents(
HsaEvent* Events[], //IN
HSAuint32 NumEvents, //IN
bool WaitOnAll, //IN
HSAuint32 Milliseconds //IN
);
/**
new TEMPORARY function definition - to be used only on "Triniti + Southern Islands" platform
If used on other platforms the function will return HSAKMT_STATUS_ERROR
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtReportQueue(
HSA_QUEUEID QueueId, //IN
HsaQueueReport* QueueReport //OUT
);
/**
Creates a GPU queue with user-mode access rights
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtCreateQueue(
HSAuint32 NodeId, //IN
HSA_QUEUE_TYPE Type, //IN
HSAuint32 QueuePercentage, //IN
HSA_QUEUE_PRIORITY Priority, //IN
void* QueueAddress, //IN
HSAuint64 QueueSizeInBytes, //IN
HsaEvent* Event, //IN
HsaQueueResource* QueueResource //OUT
);
/**
Updates a queue
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtUpdateQueue(
HSA_QUEUEID QueueId, //IN
HSAuint32 QueuePercentage,//IN
HSA_QUEUE_PRIORITY Priority, //IN
void* QueueAddress, //IN
HSAuint64 QueueSize, //IN
HsaEvent* Event //IN
);
/**
Destroys a queue
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtDestroyQueue(
HSA_QUEUEID QueueId //IN
);
/**
Set cu mask for a queue
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtSetQueueCUMask(
HSA_QUEUEID QueueId, //IN
HSAuint32 CUMaskCount, //IN
HSAuint32* QueueCUMask //IN
);
HSAKMT_STATUS
HSAKMTAPI
hsaKmtGetQueueInfo(
HSA_QUEUEID QueueId, //IN
HsaQueueInfo *QueueInfo //IN
);
/**
Allows an HSA process to set/change the default and alternate memory coherency, before starting to dispatch.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtSetMemoryPolicy(
HSAuint32 Node, //IN
HSAuint32 DefaultPolicy, //IN
HSAuint32 AlternatePolicy, //IN
void* MemoryAddressAlternate, //IN (page-aligned)
HSAuint64 MemorySizeInBytes //IN (page-aligned)
);
/**
Allocates a memory buffer that may be accessed by the GPU
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtAllocMemory(
HSAuint32 PreferredNode, //IN
HSAuint64 SizeInBytes, //IN (multiple of page size)
HsaMemFlags MemFlags, //IN
void** MemoryAddress //IN/OUT (page-aligned)
);
/**
Frees a memory buffer
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtFreeMemory(
void* MemoryAddress, //IN (page-aligned)
HSAuint64 SizeInBytes //IN
);
/**
Registers with KFD a memory buffer that may be accessed by the GPU
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtRegisterMemory(
void* MemoryAddress, //IN (cache-aligned)
HSAuint64 MemorySizeInBytes //IN (cache-aligned)
);
/**
Registers with KFD a memory buffer that may be accessed by specific GPUs
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtRegisterMemoryToNodes(
void *MemoryAddress, // IN (cache-aligned)
HSAuint64 MemorySizeInBytes, // IN (cache-aligned)
HSAuint64 NumberOfNodes, // IN
HSAuint32* NodeArray // IN
);
/**
Registers with KFD a memory buffer with memory attributes
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtRegisterMemoryWithFlags(
void *MemoryAddress, // IN (cache-aligned)
HSAuint64 MemorySizeInBytes, // IN (cache-aligned)
HsaMemFlags MemFlags // IN
);
/**
Registers with KFD a graphics buffer and returns graphics metadata
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtRegisterGraphicsHandleToNodes(
HSAuint64 GraphicsResourceHandle, //IN
HsaGraphicsResourceInfo *GraphicsResourceInfo, //OUT
HSAuint64 NumberOfNodes, //IN
HSAuint32* NodeArray //IN
);
/**
Export a memory buffer for sharing with other processes
NOTE: for the current revision of the thunk spec, SizeInBytes
must match whole allocation.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtShareMemory(
void *MemoryAddress, // IN
HSAuint64 SizeInBytes, // IN
HsaSharedMemoryHandle *SharedMemoryHandle // OUT
);
/**
Register shared memory handle
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtRegisterSharedHandle(
const HsaSharedMemoryHandle *SharedMemoryHandle, // IN
void **MemoryAddress, // OUT
HSAuint64 *SizeInBytes // OUT
);
/**
Register shared memory handle to specific nodes only
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtRegisterSharedHandleToNodes(
const HsaSharedMemoryHandle *SharedMemoryHandle, // IN
void **MemoryAddress, // OUT
HSAuint64 *SizeInBytes, // OUT
HSAuint64 NumberOfNodes, // OUT
HSAuint32* NodeArray // OUT
);
/**
Copy data from the GPU address space of the process identified
by Pid. Size Copied will return actual amount of data copied.
If return is not SUCCESS, partial copies could have happened.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtProcessVMRead(
HSAuint32 Pid, // IN
HsaMemoryRange *LocalMemoryArray, // IN
HSAuint64 LocalMemoryArrayCount, // IN
HsaMemoryRange *RemoteMemoryArray, // IN
HSAuint64 RemoteMemoryArrayCount, // IN
HSAuint64 *SizeCopied // OUT
);
/**
Write data to the GPU address space of the process identified
by Pid. See also hsaKmtProcessVMRead.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtProcessVMWrite(
HSAuint32 Pid, // IN
HsaMemoryRange *LocalMemoryArray, // IN
HSAuint64 LocalMemoryArrayCount, // IN
HsaMemoryRange *RemoteMemoryArray, // IN
HSAuint64 RemoteMemoryArrayCount, // IN
HSAuint64 *SizeCopied // OUT
);
/**
Unregisters with KFD a memory buffer
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtDeregisterMemory(
void* MemoryAddress //IN
);
/**
Ensures that the memory is resident and can be accessed by GPU
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtMapMemoryToGPU(
void* MemoryAddress, //IN (page-aligned)
HSAuint64 MemorySizeInBytes, //IN (page-aligned)
HSAuint64* AlternateVAGPU //OUT (page-aligned)
);
/**
Ensures that the memory is resident and can be accessed by GPUs
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtMapMemoryToGPUNodes(
void* MemoryAddress, //IN (page-aligned)
HSAuint64 MemorySizeInBytes, //IN (page-aligned)
HSAuint64* AlternateVAGPU, //OUT (page-aligned)
HsaMemMapFlags MemMapFlags, //IN
HSAuint64 NumberOfNodes, //IN
HSAuint32* NodeArray //IN
);
/**
Releases the residency of the memory
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtUnmapMemoryToGPU(
void* MemoryAddress //IN (page-aligned)
);
/**
Notifies the kernel driver that a process wants to use GPU debugging facilities
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtMapGraphicHandle(
HSAuint32 NodeId, //IN
HSAuint64 GraphicDeviceHandle, //IN
HSAuint64 GraphicResourceHandle, //IN
HSAuint64 GraphicResourceOffset, //IN
HSAuint64 GraphicResourceSize, //IN
HSAuint64* FlatMemoryAddress //OUT
);
/**
Stub for Unmap Graphic Handle
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtUnmapGraphicHandle(
HSAuint32 NodeId, //IN
HSAuint64 FlatMemoryAddress, //IN
HSAuint64 SizeInBytes //IN
);
/**
Allocate GWS resource for a queue
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtAllocQueueGWS(
HSA_QUEUEID QueueId, //IN
HSAuint32 nGWS, //IN
HSAuint32 *firstGWS //OUT
);
/**
Notifies the kernel driver that a process wants to use GPU debugging facilities
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtDbgRegister(
HSAuint32 NodeId //IN
);
/**
Detaches the debugger process from the HW debug established by hsaKmtDbgRegister() API
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtDbgUnregister(
HSAuint32 NodeId //IN
);
/**
Controls a wavefront
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtDbgWavefrontControl(
HSAuint32 NodeId, //IN
HSA_DBG_WAVEOP Operand, //IN
HSA_DBG_WAVEMODE Mode, //IN
HSAuint32 TrapId, //IN
HsaDbgWaveMessage* DbgWaveMsgRing //IN
);
/**
Sets watch points on memory address ranges to generate exception events when the
watched addresses are accessed
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtDbgAddressWatch(
HSAuint32 NodeId, //IN
HSAuint32 NumWatchPoints, //IN
HSA_DBG_WATCH_MODE WatchMode[], //IN
void* WatchAddress[], //IN
HSAuint64 WatchMask[], //IN, optional
HsaEvent* WatchEvent[] //IN, optional
);
/**
Suspend the execution of a set of queues. A queue that is suspended
allows the wave context save state to be inspected and modified. If a
queue is already suspended it remains suspended. A suspended queue
can be resumed by hsaKmtDbgQueueResume().
For each node that has a queue suspended, a sequentially consistent
system scope release will be performed that synchronizes with a
sequentially consistent system scope acquire performed by this
call. This ensures any memory updates performed by the suspended
queues are visible to the thread calling this operation.
Pid is the process that owns the queues that are to be supended or
resumed. If the value is -1 then the Pid of the process calling
hsaKmtQueueSuspend or hsaKmtQueueResume is used.
NumQueues is the number of queues that are being requested to
suspend or resume.
Queues is a pointer to an array with NumQueues entries of
HSA_QUEUEID. The queues in the list must be for queues that exist
for Pid, and can be a mixture of queues for different nodes.
GracePeriod to wait after initialiating context save before forcing
waves to context save. A value of 0 indicates no grace period.
It is ignored by hsaKmtQueueResume.
Flags is a bit set of the values defined by HSA_DBG_NODE_CONTROL.
Returns:
- HSAKMT_STATUS_SUCCESS if successful.
- HSAKMT_STATUS_INVALID_HANDLE if any QueueId is invalid for Pid.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtQueueSuspend(
HSAuint32 Pid, // IN
HSAuint32 NumQueues, // IN
HSA_QUEUEID *Queues, // IN
HSAuint32 GracePeriod, // IN
HSAuint32 Flags); // IN
/**
Resume the execution of a set of queues. If a queue is not
suspended by hsaKmtDbgQueueSuspend() then it remains executing. Any
changes to the wave state data will be used when the waves are
restored. Changes to the control stack data will have no effect.
For each node that has a queue resumed, a sequentially consistent
system scope release will be performed that synchronizes with a
sequentially consistent system scope acquire performed by all
queues being resumed. This ensures any memory updates performed by
the thread calling this operation are visible to the resumed
queues.
For each node that has a queue resumed, the instruction cache will
be invalidated. This ensures any instruction code updates performed
by the thread calling this operation are visible to the resumed
queues.
Pid is the process that owns the queues that are to be supended or
resumed. If the value is -1 then the Pid of the process calling
hsaKmtQueueSuspend or hsaKmtQueueResume is used.
NumQueues is the number of queues that are being requested to
suspend or resume.
Queues is a pointer to an array with NumQueues entries of
HSA_QUEUEID. The queues in the list must be for queues that exist
for Pid, and can be a mixture of queues for different nodes.
Flags is a bit set of the values defined by HSA_DBG_NODE_CONTROL.
Returns:
- HSAKMT_STATUS_SUCCESS if successful
- HSAKMT_STATUS_INVALID_HANDLE if any QueueId is invalid.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtQueueResume(
HSAuint32 Pid, // IN
HSAuint32 NumQueues, // IN
HSA_QUEUEID *Queues, // IN
HSAuint32 Flags); // IN
/**
Enable debug trap for NodeId. If QueueId is INVALID_QUEUEID then
enable for all queues on NodeId, otherwise enable only for QueueId.
Return file descriptor PollFd where on poll wake, fd has readable
FIFO data for pending debug events.
When debug trap is enabled the trap handler behavior changes
depending on architecture of the node and can include the following:
- Initialize Trap Temp Registers: All new waves are launched with
specific trap temp registers initialized with:
- HSA dispatch packet address of the wave.
- X, Y, Z grid and work-group position of the wave within the
dispatch.
- The value of TrapData registers. hsaKmtEnableDebugTrap() sets
these to 0 and they can be changed by hsaKmtSetDebugTrapData2().
- The scratch backing memory address.
- Enable wave launch trap override. hsaKmtEnableDebugTrap() sets the
TrapMask to 0 and the TrapOverride to HSA_DBG_TRAP_OVERRIDE_OR and
they can be changed by hsaKmtSetWaveLaunchTrapOverride().
If debug trap is already enabled for NodeId, any features controlled
by it are still reset to their default values as defined above.
Returns:
- HSAKMT_STATUS_SUCCESS if successful.
- HSAKMT_STATUS_INVALID_HANDLE if:
- NodeId is invalid
- QueueId is not INVALID_QUEUE, or is not a valid queue of
NodeId.
- HSAKMT_STATUS_UNAVAILABLE if debugging is not available to this
process. For example, there may be a limit on number of
processes that can perform debugging at the same time.
- HSAKMT_STATUS_NOT_SUPPORTED if debug trap is not supported by
NodeId, or if QueueId is not INVALID_QUEUEID and NodeId does not
support per queue enabling.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtEnableDebugTrap(
HSAuint32 NodeId, //IN
HSA_QUEUEID QueueId //IN
);
/* Similar to EnableDebugTrap with polling fd return*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtEnableDebugTrapWithPollFd(
HSAuint32 NodeId, //IN
HSA_QUEUEID QueueId, //IN
HSAint32 *PollFd //OUT
);
/**
Disable debug trap enabled by hsaKmtEnableDebugTrap(). If debug trap
is not currently enabled not action is taken.
Returns:
- HSAKMT_STATUS_SUCCESS if successful.
- HSAKMT_STATUS_INVALID_HANDLE if NodeId is invalid.
- HSAKMT_STATUS_NOT_SUPPORTED if debug trap not supported for NodeId.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtDisableDebugTrap(
HSAuint32 NodeId //IN
);
/**
Query pending debug event set by ptrace.
Can query by target QueueId. If QueueId is INVALID_QUEUEID, return the
first queue id that has a pending event. Option to clear pending event
after query is used by the ClearEvents parameter.
Pending debug event type will be returned in EventsReceived parameter and is
defined by HSA_DEBUG_EVENT_TYPE. Suspended state of queue is returned in
IsSuspended.
Returns:
- HSAKMT_STATUS_SUCCESS if successful
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtQueryDebugEvent(
HSAuint32 NodeId, // IN
HSAuint32 Pid, // IN
HSAuint32 *QueueId, // IN/OUT
bool ClearEvents, // IN
HSA_DEBUG_EVENT_TYPE *EventsReceived, // OUT
bool *IsSuspended, // OUT
bool *IsNew //OUT
);
/**
Set the value to use to initialize the TrapData used when
initializing trap temp registers for NodeId when debug trap is enabled.
An error is returned if debug trap is not currently enabled for
NodeId. Debug trap is enabled by hsaKmtEnableDebugTrap() which
initializes TrapData to 0.
Returns:
- HSAKMT_STATUS_SUCCESS if successful.
- HSAKMT_STATUS_NOT_SUPPORTED if debug trap data is not supported
by NodeId.
- HSAKMT_STATUS_INVALID_HANDLE if NodeId is invalid.
- HSAKMT_STATUS_INVALID_PARAMETER if TrapDataIndex is larger than
trap-data-count - 1.
- HSAKMT_STATUS_ERROR if debug trap is not currently enabled by
hsaKmtEnableDebugTrap() for NodeId.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtSetDebugTrapData2(
HSAuint32 NodeId, //IN
HSAuint32 TrapData0, //IN
HSAuint32 TrapData1 //IN
);
/**
Set the trap override mask. When debug trap is enabled by
hsaKmtEnableDebugTrap() each wave launched has its initial
MODE.excp_en register overriden by TrapMask as specified by
TrapOverride.
An error is returned if debug trap is not currently enabled for
NodeId. Debug trap is enabled by hsaKmtEnableDebugTrap() which
initializes TrapMask to 0 and TrapOverride to
HSA_DBG_TRAP_OVERRIDE_OR.
Returns:
- HSAKMT_STATUS_SUCCESS if successful.
- HSAKMT_STATUS_NOT_SUPPORTED if wave launch trap override is not
supported by NodeId.
- HSAKMT_STATUS_INVALID_HANDLE if NodeId is invalid.
- HSAKMT_STATUS_INVALID_PARAMETER if TrapOverride is invalid.
- HSAKMT_STATUS_ERROR if debug trap is not currently enabled by
hsaKmtEnableDebugTrap() for NodeId.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtSetWaveLaunchTrapOverride(
HSAuint32 NodeId, //IN
HSA_DBG_TRAP_OVERRIDE TrapOverride, //IN
HSA_DBG_TRAP_MASK TrapMask //IN
);
/**
Set the mode in which all future waves will be launched for
NodeId.
Returns:
- HSAKMT_STATUS_SUCCESS if successful.
- HSAKMT_STATUS_UNAVAILABLE if debugging is not available to this
process. For example, there may be a limit on number of
processes that can perform debugging at the same time.
- HSAKMT_STATUS_NOT_SUPPORTED if the WaveLaunchMode requested is
not supported by the NodeId. Different implementations and
different nodes within an implementation can support different
sets of launch modes. Only HSA_DBG_WAVE_LAUNCH_MODE_NORMAL mode
is supported by all.
- HSAKMT_STATUS_INVALID_HANDLE if NodeId is not a valid node.
- HSAKMT_STATUS_INVALID_PARAMETER if WaveLaunchMode is not a valid
value.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtSetWaveLaunchMode(
HSAuint32 NodeId, //IN
HSA_DBG_WAVE_LAUNCH_MODE WaveLaunchMode //IN
);
/**
* Get the major and minor version of the kernel debugger support.
*
* Returns:
* - HSAKMT_STATUS_SUCCESS if successful.
*
* - HSAKMT_STATUS_INVALID_HANDLE if NodeId is invalid.
*
* - HSAKMT_STATUS_NOT_SUPPORTED if debug trap not supported for NodeId.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtGetKernelDebugTrapVersionInfo(
HSAuint32 *Major, //Out
HSAuint32 *Minor //Out
);
/**
* Get the major and minor version of the thunk debugger support.
*/
void
HSAKMTAPI
hsaKmtGetThunkDebugTrapVersionInfo(
HSAuint32 *Major, //Out
HSAuint32 *Minor //Out
);
/**
Set a debug memory access watch point. A memory access of the kind
specified by WatchMode to an matching address will cause the trap
handler to be entered. An address matches if, after ANDing the
watch-addr-mask-lo..watch-addr-mask-hi bits of WatchAddrMask, it
equals the WatchAddress with the bottom watch-addr-mask-lo bits
cleared.
WatchId will be in the range 0 to watch-count - 1. The WatchId
value will match the address watch exception reported to the trap
handler.
hsaKmtGetNodeProperties() can be used to obtain HsaNodeProperties.
watch-addr-mask-lo and watch-addr-mask-hi can be obtained from
HsaNodeProperties.Capabilities.WatchAddrMaskLoBit and
HsaNodeProperties.Capabilities.WatchAddrMaskHiBit respectively.
watch-count can be obtained from
2^HsaNodeProperties.Capabilities.WatchPointsTotalBits.
To cause debug memory address watch points to be reported to the
trap handler the address watch exception must be enabled. This can
be accomplished by using hsaKmtSetWaveLaunchTrapOverride() with a
TrapMask that includes HSA_DBG_TRAP_MASK_DBG_ADDRESS_WATCH.
Returns:
- HSAKMT_STATUS_SUCCESS if successful.
- HSAKMT_STATUS_NOT_SUPPORTED if debug memory watch points are
not supported for NodeId.
- HSAKMT_STATUS_UNAVAILABLE if debugging is not available to this
process. For example, there may be a limit on number of
processes that can perform debugging at the same time.
- HSAKMT_STATUS_INVALID_HANDLE if NodeId or WatchId* is invalid.
- HSAKMT_STATUS_INVALID_PARAMETER if:
- WatchAddrMask contains non-0 bits outside the inclusive range
watch-addr-mask-lo to watch-addr-mask-hi.
- If WatchAddress contain non-0 bits in the inclusive range 0 to
watch-addr-mask-lo.
- If WatchMode is not one of the values of HSA_DBG_WATCH_MODE.
- WatchId is NULL.
- HSAKMT_STATUS_OUT_OF_RESOURCES if no more watch points are
available to set currently.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtSetAddressWatch(
HSAuint32 NodeId, //IN
HSA_DBG_WATCH_MODE WatchMode, //IN
void* WatchAddress, //IN
HSAuint64 WatchAddrMask, //IN
HSAuint32* WatchId //OUT
);
/**
Clear a debug memory access watch point set by
hsaKmtSetAddressWatch().
Returns:
- HSAKMT_STATUS_SUCCESS if successful.
- HSAKMT_STATUS_NOT_SUPPORTED if debug memory watch points are
not supported for NodeId.
- HSAKMT_STATUS_INVALID_HANDLE if NodeId is invalid or WatchId is not valid for this
NodeId.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtClearAddressWatch(
HSAuint32 NodeId, //IN
HSAuint32 WatchId //IN
);
/**
Enable precise memory operations.
When precise memory operations are enabled a wave waits for each
memory operation to complete before executing further
operations. This results in more precise reporting of memory related
events such as memory violation or address watch points.
Returns:
- HSAKMT_STATUS_SUCCESS if successful.
- HSAKMT_STATUS_UNAVAILABLE if precise memory operations is not
available to this process. For example, the feature may require
specific privileges.
- HSAKMT_STATUS_NOT_SUPPORTED if precise memory operations is not
supported by NodeId.
- HSAKMT_STATUS_INVALID_HANDLE if NodeId is invalid.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtEnablePreciseMemoryOperations(
HSAuint32 NodeId //IN
);
/**
Disable precise memory operations enabled by
hsaKmtEnablePreciseMemoryOperations(). If precise memory operations
are not currently enabled no action is taken.
Returns:
- HSAKMT_STATUS_SUCCESS if successful.
- HSAKMT_STATUS_INVALID_HANDLE if NodeId is invalid.
- HSAKMT_STATUS_NOT_SUPPORTED if precise memory operations is not
supported by NodeId.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtDisablePreciseMemoryOperations(
HSAuint32 NodeId //IN
);
/**
Gets GPU and CPU clock counters for particular Node
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtGetClockCounters(
HSAuint32 NodeId, //IN
HsaClockCounters* Counters //OUT
);
/**
Retrieves information on the available HSA counters
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtPmcGetCounterProperties(
HSAuint32 NodeId, //IN
HsaCounterProperties** CounterProperties //OUT
);
/**
Registers a set of (HW) counters to be used for tracing/profiling
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtPmcRegisterTrace(
HSAuint32 NodeId, //IN
HSAuint32 NumberOfCounters, //IN
HsaCounter* Counters, //IN
HsaPmcTraceRoot* TraceRoot //OUT
);
/**
Unregisters a set of (HW) counters used for tracing/profiling
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtPmcUnregisterTrace(
HSAuint32 NodeId, //IN
HSATraceId TraceId //IN
);
/**
Allows a user mode process to get exclusive access to the defined set of (HW) counters
used for tracing/profiling
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtPmcAcquireTraceAccess(
HSAuint32 NodeId, //IN
HSATraceId TraceId //IN
);
/**
Allows a user mode process to release exclusive access to the defined set of (HW) counters
used for tracing/profiling
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtPmcReleaseTraceAccess(
HSAuint32 NodeId, //IN
HSATraceId TraceId //IN
);
/**
Starts tracing operation on a previously established set of performance counters
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtPmcStartTrace(
HSATraceId TraceId, //IN
void* TraceBuffer, //IN (page aligned)
HSAuint64 TraceBufferSizeBytes //IN (page aligned)
);
/**
Forces an update of all the counters that a previously started trace operation has registered
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtPmcQueryTrace(
HSATraceId TraceId //IN
);
/**
Stops tracing operation on a previously established set of performance counters
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtPmcStopTrace(
HSATraceId TraceId //IN
);
/**
Sets trap handler and trap buffer to be used for all queues associated with the specified NodeId within this process context
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtSetTrapHandler(
HSAuint32 NodeId, //IN
void* TrapHandlerBaseAddress, //IN
HSAuint64 TrapHandlerSizeInBytes, //IN
void* TrapBufferBaseAddress, //IN
HSAuint64 TrapBufferSizeInBytes //IN
);
/**
Gets image tile configuration.
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtGetTileConfig(
HSAuint32 NodeId, // IN
HsaGpuTileConfig* config // IN & OUT
);
/**
Returns information about pointers
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtQueryPointerInfo(
const void * Pointer, //IN
HsaPointerInfo * PointerInfo //OUT
);
/**
Associates user data with a memory allocation
*/
HSAKMT_STATUS
HSAKMTAPI
hsaKmtSetMemoryUserData(
const void * Pointer, //IN
void * UserData //IN
);
#ifdef __cplusplus
} //extern "C"
#endif
#endif //_HSAKMT_H_