kfdtest: Add basic tests for XGMI SDMA queues

After XGMI SDMA queues were separated from regular SDMA queues, they
were not covered in the current tests. Add tests for them now.

Change-Id: I036e3ca5d583ab7f022a9dc6cda3ef867f4773a0
Signed-off-by: Yong Zhao <Yong.Zhao@amd.com>


[ROCm/ROCR-Runtime commit: fe97612800]
Este commit está contenido en:
Yong Zhao
2020-01-10 15:26:35 -05:00
padre e003ef836a
commit 3712ff7ddb
Se han modificado 2 ficheros con 81 adiciones y 1 borrados
@@ -18,6 +18,7 @@ FILTER[core_sws]=\
"KFDQMTest.SubmitNopSdmaQueue:"\
"KFDQMTest.SubmitPacketSdmaQueue:"\
"KFDQMTest.AllSdmaQueues:"\
"KFDQMTest.AllXgmiSdmaQueues:"\
"KFDQMTest.AllQueues:"\
"KFDEventTest.SignalEvent"
@@ -28,7 +28,7 @@
#include "PM4Queue.hpp"
#include "PM4Packet.hpp"
#include "SDMAPacket.hpp"
#include "SDMAQueue.hpp"
#include "XgmiOptimizedSDMAQueue.hpp"
#include "AqlQueue.hpp"
#include <algorithm>
@@ -212,6 +212,9 @@ TEST_F(KFDQMTest, AllSdmaQueues) {
const unsigned int numSdmaQueues = m_numSdmaEngines * m_numSdmaQueuesPerEngine;
LOG() << "Regular SDMA engines number: " << m_numSdmaEngines
<< " SDMA queues per engine: " << m_numSdmaQueuesPerEngine << std::endl;
HsaMemoryBuffer destBuf(bufSize << 1 , defaultGPUNode, false);
HsaMemoryBuffer srcBuf(bufSize, defaultGPUNode, false);
destBuf.Fill(0xFF);
@@ -243,6 +246,53 @@ TEST_F(KFDQMTest, AllSdmaQueues) {
TEST_END
}
TEST_F(KFDQMTest, AllXgmiSdmaQueues) {
TEST_START(TESTPROFILE_RUNALL)
int defaultGPUNode = m_NodeInfo.HsaDefaultGPUNode();
int bufSize = PAGE_SIZE;
int j;
ASSERT_GE(defaultGPUNode, 0) << "failed to get default GPU Node";
const unsigned int numXgmiSdmaQueues =
m_numSdmaXgmiEngines * m_numSdmaQueuesPerEngine;
LOG() << "XGMI SDMA engines number: " << m_numSdmaXgmiEngines
<< " SDMA queues per engine: " << m_numSdmaQueuesPerEngine << std::endl;
HsaMemoryBuffer destBuf(bufSize << 1 , defaultGPUNode, false);
HsaMemoryBuffer srcBuf(bufSize, defaultGPUNode, false);
destBuf.Fill(0xFF);
std::vector<XgmiOptimizedSDMAQueue> xgmiSdmaQueues(numXgmiSdmaQueues);
for (j = 0; j < numXgmiSdmaQueues; ++j)
ASSERT_SUCCESS(xgmiSdmaQueues[j].Create(defaultGPUNode));
for (j = 0; j < numXgmiSdmaQueues; ++j) {
destBuf.Fill(0x0);
srcBuf.Fill(j + 0xa0);
xgmiSdmaQueues[j].PlaceAndSubmitPacket(
SDMACopyDataPacket(xgmiSdmaQueues[j].GetFamilyId(),
destBuf.As<unsigned int*>(), srcBuf.As<unsigned int*>(), bufSize));
xgmiSdmaQueues[j].PlaceAndSubmitPacket(
SDMAWriteDataPacket(xgmiSdmaQueues[j].GetFamilyId(),
destBuf.As<unsigned int*>() + bufSize/4, 0x02020202));
xgmiSdmaQueues[j].Wait4PacketConsumption();
EXPECT_TRUE(WaitOnValue(destBuf.As<unsigned int*>() + bufSize/4, 0x02020202));
EXPECT_SUCCESS(memcmp(
destBuf.As<unsigned int*>(), srcBuf.As<unsigned int*>(), bufSize));
}
for (j = 0; j < numXgmiSdmaQueues; ++j)
EXPECT_SUCCESS(xgmiSdmaQueues[j].Destroy());
TEST_END
}
TEST_F(KFDQMTest, AllQueues) {
TEST_START(TESTPROFILE_RUNALL)
@@ -254,6 +304,8 @@ TEST_F(KFDQMTest, AllQueues) {
const unsigned int numCpQueues = m_numCpQueues;
const unsigned int numSdmaQueues = m_numSdmaEngines * m_numSdmaQueuesPerEngine;
const unsigned int numXgmiSdmaQueues =
m_numSdmaXgmiEngines * m_numSdmaQueuesPerEngine;
HsaMemoryBuffer destBufCp(PAGE_SIZE, defaultGPUNode, false);
destBufCp.Fill(0xFF);
@@ -264,6 +316,7 @@ TEST_F(KFDQMTest, AllQueues) {
std::vector<PM4Queue> cpQueues(numCpQueues);
std::vector<SDMAQueue> sdmaQueues(numSdmaQueues);
std::vector<XgmiOptimizedSDMAQueue> xgmiSdmaQueues(numXgmiSdmaQueues);
for (i = 0; i < numCpQueues; ++i)
ASSERT_SUCCESS(cpQueues[i].Create(defaultGPUNode)) << " QueueId=" << i;
@@ -271,6 +324,10 @@ TEST_F(KFDQMTest, AllQueues) {
for (j = 0; j < numSdmaQueues; ++j)
ASSERT_SUCCESS(sdmaQueues[j].Create(defaultGPUNode));
for (j = 0; j < numXgmiSdmaQueues; ++j)
ASSERT_SUCCESS(xgmiSdmaQueues[j].Create(defaultGPUNode));
for (i = 0; i < numCpQueues; ++i) {
cpQueues[i].PlaceAndSubmitPacket(PM4WriteDataPacket(destBufCp.As<unsigned int*>()+i*2, i, i));
@@ -295,12 +352,34 @@ TEST_F(KFDQMTest, AllQueues) {
destBuf.As<unsigned int*>(), srcBuf.As<unsigned int*>(), bufSize));
}
for (j = 0; j < numXgmiSdmaQueues; ++j) {
destBuf.Fill(0x0);
srcBuf.Fill(j + 0xa0);
xgmiSdmaQueues[j].PlaceAndSubmitPacket(
SDMACopyDataPacket(xgmiSdmaQueues[j].GetFamilyId(),
destBuf.As<unsigned int*>(), srcBuf.As<unsigned int*>(), bufSize));
xgmiSdmaQueues[j].PlaceAndSubmitPacket(
SDMAWriteDataPacket(xgmiSdmaQueues[j].GetFamilyId(),
destBuf.As<unsigned int*>() + bufSize/4, 0x02020202));
xgmiSdmaQueues[j].Wait4PacketConsumption();
EXPECT_TRUE(WaitOnValue(destBuf.As<unsigned int*>() + bufSize/4, 0x02020202));
EXPECT_SUCCESS(memcmp(
destBuf.As<unsigned int*>(), srcBuf.As<unsigned int*>(), bufSize));
}
for (i = 0; i < numCpQueues; ++i)
EXPECT_SUCCESS(cpQueues[i].Destroy());
for (j = 0; j < numSdmaQueues; ++j)
EXPECT_SUCCESS(sdmaQueues[j].Destroy());
for (j = 0; j < numXgmiSdmaQueues; ++j)
EXPECT_SUCCESS(xgmiSdmaQueues[j].Destroy());
TEST_END
}