Gitiles
Code Review Sign In
review.mlplatform.org / ml / armnn / 5aa9fd7ac6bf8dad576fa4a0a32aa3dae98d11ab / . / src / profiling / test / TimelinePacketTests.cpp
blob: de791c1da019eda9b9bd6cc5f750955c66d19ac7 [file] [log] [blame]
//
// Copyright © 2019 Arm Ltd and Contributors. All rights reserved.
// SPDX-License-Identifier: MIT
//
#include <armnnUtils/Threads.hpp>
#include <ProfilingUtils.hpp>
#include <armnn/utility/NumericCast.hpp>
#include <common/include/SwTrace.hpp>
#include <doctest/doctest.h>
using namespace arm::pipe;
TEST_SUITE("TimelinePacketTests")
{
TEST_CASE("TimelineLabelPacketTestNoBuffer")
{
const uint64_t profilingGuid = 123456u;
const std::string label = "some label";
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineLabelBinaryPacket(profilingGuid,
label,
nullptr,
512u,
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::BufferExhaustion);
CHECK(numberOfBytesWritten == 0);
}
TEST_CASE("TimelineLabelPacketTestBufferExhaustionZeroValue")
{
std::vector<unsigned char> buffer(512, 0);
const uint64_t profilingGuid = 123456u;
const std::string label = "some label";
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineLabelBinaryPacket(profilingGuid,
label,
buffer.data(),
0,
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::BufferExhaustion);
CHECK(numberOfBytesWritten == 0);
}
TEST_CASE("TimelineLabelPacketTestBufferExhaustionFixedValue")
{
std::vector<unsigned char> buffer(10, 0);
const uint64_t profilingGuid = 123456u;
const std::string label = "some label";
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineLabelBinaryPacket(profilingGuid,
label,
buffer.data(),
armnn::numeric_cast<unsigned int>(buffer.size()),
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::BufferExhaustion);
CHECK(numberOfBytesWritten == 0);
}
TEST_CASE("TimelineLabelPacketTestInvalidLabel")
{
std::vector<unsigned char> buffer(512, 0);
const uint64_t profilingGuid = 123456u;
const std::string label = "s0m€ l@b€l";
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineLabelBinaryPacket(profilingGuid,
label,
buffer.data(),
armnn::numeric_cast<unsigned int>(buffer.size()),
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::Error);
CHECK(numberOfBytesWritten == 0);
}
TEST_CASE("TimelineLabelPacketTestSingleConstructionOfData")
{
std::vector<unsigned char> buffer(512, 0);
const uint64_t profilingGuid = 123456u;
const std::string label = "some label";
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineLabelBinaryPacket(profilingGuid,
label,
buffer.data(),
armnn::numeric_cast<unsigned int>(buffer.size()),
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::Ok);
CHECK(numberOfBytesWritten == 28);
unsigned int uint32_t_size = sizeof(uint32_t);
unsigned int uint64_t_size = sizeof(uint64_t);
// Check the packet header
unsigned int offset = 0;
uint32_t decl_Id = ReadUint32(buffer.data(), offset);
CHECK(decl_Id == uint32_t(0));
// Check the profiling GUID
offset += uint32_t_size;
uint64_t readProfilingGuid = ReadUint64(buffer.data(), offset);
CHECK(readProfilingGuid == profilingGuid);
// Check the SWTrace label
offset += uint64_t_size;
uint32_t swTraceLabelLength = ReadUint32(buffer.data(), offset);
CHECK(swTraceLabelLength == 11); // Label length including the null-terminator
offset += uint32_t_size;
CHECK(std::memcmp(buffer.data() + offset, // Offset to the label in the buffer
label.data(), // The original label
swTraceLabelLength - 1) == 0); // The length of the label
offset += swTraceLabelLength * uint32_t_size;
CHECK(buffer[offset] == '\0'); // The null-terminator at the end of the SWTrace label
}
TEST_CASE("TimelineRelationshipPacketNullBufferTest")
{
ProfilingRelationshipType relationshipType = ProfilingRelationshipType::DataLink;
const uint64_t relationshipGuid = 123456u;
const uint64_t headGuid = 234567u;
const uint64_t tailGuid = 345678u;
const uint64_t attributeGuid = 876345u;
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineRelationshipBinary(relationshipType,
relationshipGuid,
headGuid,
tailGuid,
attributeGuid,
nullptr,
512u,
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::BufferExhaustion);
CHECK(numberOfBytesWritten == 0);
}
TEST_CASE("TimelineRelationshipPacketZeroBufferSizeTest")
{
std::vector<unsigned char> buffer(512, 0);
ProfilingRelationshipType relationshipType = ProfilingRelationshipType::DataLink;
const uint64_t relationshipGuid = 123456u;
const uint64_t headGuid = 234567u;
const uint64_t tailGuid = 345678u;
const uint64_t attributeGuid = 876345u;
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineRelationshipBinary(relationshipType,
relationshipGuid,
headGuid,
tailGuid,
attributeGuid,
buffer.data(),
0,
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::BufferExhaustion);
CHECK(numberOfBytesWritten == 0);
}
TEST_CASE("TimelineRelationshipPacketSmallBufferSizeTest")
{
std::vector<unsigned char> buffer(10, 0);
ProfilingRelationshipType relationshipType = ProfilingRelationshipType::DataLink;
const uint64_t relationshipGuid = 123456u;
const uint64_t headGuid = 234567u;
const uint64_t tailGuid = 345678u;
const uint64_t attributeGuid = 876345u;
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result =
WriteTimelineRelationshipBinary(relationshipType,
relationshipGuid,
headGuid,
tailGuid,
attributeGuid,
buffer.data(),
armnn::numeric_cast<unsigned int>(buffer.size()),
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::BufferExhaustion);
CHECK(numberOfBytesWritten == 0);
}
TEST_CASE("TimelineRelationshipPacketInvalidRelationTest")
{
std::vector<unsigned char> buffer(512, 0);
ProfilingRelationshipType relationshipType = static_cast<ProfilingRelationshipType>(5);
const uint64_t relationshipGuid = 123456u;
const uint64_t headGuid = 234567u;
const uint64_t tailGuid = 345678u;
const uint64_t attributeGuid = 876345u;
unsigned int numberOfBytesWritten = 789u;
CHECK_THROWS_AS(WriteTimelineRelationshipBinary(relationshipType,
relationshipGuid,
headGuid,
tailGuid,
attributeGuid,
buffer.data(),
armnn::numeric_cast<unsigned int>(buffer.size()),
numberOfBytesWritten),
arm::pipe::InvalidArgumentException);
CHECK(numberOfBytesWritten == 0);
}
TEST_CASE("TimelineRelationshipPacketTestDataConstruction")
{
std::vector<unsigned char> buffer(512, 0);
ProfilingRelationshipType relationshipType = ProfilingRelationshipType::RetentionLink;
const uint64_t relationshipGuid = 123456u;
const uint64_t headGuid = 234567u;
const uint64_t tailGuid = 345678u;
const uint64_t attributeGuid = 876345u;
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result =
WriteTimelineRelationshipBinary(relationshipType,
relationshipGuid,
headGuid,
tailGuid,
attributeGuid,
buffer.data(),
armnn::numeric_cast<unsigned int>(buffer.size()),
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::Ok);
CHECK(numberOfBytesWritten == 40);
unsigned int uint32_t_size = sizeof(uint32_t);
unsigned int uint64_t_size = sizeof(uint64_t);
// Check the packet header
unsigned int offset = 0;
// Check the decl_id
uint32_t readDeclId = ReadUint32(buffer.data(), offset);
CHECK(readDeclId == 3);
// Check the relationship type
offset += uint32_t_size;
uint32_t readRelationshipType = ReadUint32(buffer.data(), offset);
CHECK(readRelationshipType == 0);
// Check the relationship GUID
offset += uint32_t_size;
uint64_t readRelationshipGuid = ReadUint64(buffer.data(), offset);
CHECK(readRelationshipGuid == relationshipGuid);
// Check the head GUID
offset += uint64_t_size;
uint64_t readHeadGuid = ReadUint64(buffer.data(), offset);
CHECK(readHeadGuid == headGuid);
// Check the tail GUID
offset += uint64_t_size;
uint64_t readTailGuid = ReadUint64(buffer.data(), offset);
CHECK(readTailGuid == tailGuid);
// Check the attribute GUID
offset += uint64_t_size;
uint64_t readAttributeGuid = ReadUint64(buffer.data(), offset);
CHECK(readAttributeGuid == attributeGuid);
}
TEST_CASE("TimelineRelationshipPacketExecutionLinkTestDataConstruction")
{
std::vector<unsigned char> buffer(512, 0);
ProfilingRelationshipType relationshipType = ProfilingRelationshipType::ExecutionLink;
const uint64_t relationshipGuid = 123456u;
const uint64_t headGuid = 234567u;
const uint64_t tailGuid = 345678u;
const uint64_t attributeGuid = 876345u;
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result =
WriteTimelineRelationshipBinary(relationshipType,
relationshipGuid,
headGuid,
tailGuid,
attributeGuid,
buffer.data(),
armnn::numeric_cast<unsigned int>(buffer.size()),
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::Ok);
CHECK(numberOfBytesWritten == 40);
unsigned int uint32_t_size = sizeof(uint32_t);
unsigned int uint64_t_size = sizeof(uint64_t);
unsigned int offset = 0;
uint32_t readDeclId = ReadUint32(buffer.data(), offset);
CHECK(readDeclId == 3);
// Check the relationship type
offset += uint32_t_size;
uint32_t readRelationshipType = ReadUint32(buffer.data(), offset);
CHECK(readRelationshipType == 1);
// Check the relationship GUID
offset += uint32_t_size;
uint64_t readRelationshipGuid = ReadUint64(buffer.data(), offset);
CHECK(readRelationshipGuid == relationshipGuid);
// Check the head GUID
offset += uint64_t_size;
uint64_t readHeadGuid = ReadUint64(buffer.data(), offset);
CHECK(readHeadGuid == headGuid);
// Check the tail GUID
offset += uint64_t_size;
uint64_t readTailGuid = ReadUint64(buffer.data(), offset);
CHECK(readTailGuid == tailGuid);
// Check the attribute GUID
offset += uint64_t_size;
uint64_t readAttributeGuid = ReadUint64(buffer.data(), offset);
CHECK(readAttributeGuid == attributeGuid);
}
TEST_CASE("TimelineRelationshipPacketDataLinkTestDataConstruction")
{
std::vector<unsigned char> buffer(512, 0);
ProfilingRelationshipType relationshipType = ProfilingRelationshipType::DataLink;
const uint64_t relationshipGuid = 123456u;
const uint64_t headGuid = 234567u;
const uint64_t tailGuid = 345678u;
const uint64_t attributeGuid = 876345u;
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result =
WriteTimelineRelationshipBinary(relationshipType,
relationshipGuid,
headGuid,
tailGuid,
attributeGuid,
buffer.data(),
armnn::numeric_cast<unsigned int>(buffer.size()),
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::Ok);
CHECK(numberOfBytesWritten == 40);
unsigned int uint32_t_size = sizeof(uint32_t);
unsigned int uint64_t_size = sizeof(uint64_t);
unsigned int offset = 0;
uint32_t readDeclId = ReadUint32(buffer.data(), offset);
CHECK(readDeclId == 3);
// Check the relationship type
offset += uint32_t_size;
uint32_t readRelationshipType = ReadUint32(buffer.data(), offset);
CHECK(readRelationshipType == 2);
// Check the relationship GUID
offset += uint32_t_size;
uint64_t readRelationshipGuid = ReadUint64(buffer.data(), offset);
CHECK(readRelationshipGuid == relationshipGuid);
// Check the head GUID
offset += uint64_t_size;
uint64_t readHeadGuid = ReadUint64(buffer.data(), offset);
CHECK(readHeadGuid == headGuid);
// Check the tail GUID
offset += uint64_t_size;
uint64_t readTailGuid = ReadUint64(buffer.data(), offset);
CHECK(readTailGuid == tailGuid);
// Check the attribute GUID
offset += uint64_t_size;
uint64_t readAttributeGuid = ReadUint64(buffer.data(), offset);
CHECK(readAttributeGuid == attributeGuid);
}
TEST_CASE("TimelineRelationshipPacketLabelLinkTestDataConstruction")
{
std::vector<unsigned char> buffer(512, 0);
ProfilingRelationshipType relationshipType = ProfilingRelationshipType::LabelLink;
const uint64_t relationshipGuid = 123456u;
const uint64_t headGuid = 234567u;
const uint64_t tailGuid = 345678u;
const uint64_t attributeGuid = 876345u;
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result =
WriteTimelineRelationshipBinary(relationshipType,
relationshipGuid,
headGuid,
tailGuid,
attributeGuid,
buffer.data(),
armnn::numeric_cast<unsigned int>(buffer.size()),
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::Ok);
CHECK(numberOfBytesWritten == 40);
unsigned int uint32_t_size = sizeof(uint32_t);
unsigned int uint64_t_size = sizeof(uint64_t);
// Check the packet header
unsigned int offset = 0;
uint32_t readDeclId = ReadUint32(buffer.data(), offset);
CHECK(readDeclId == 3);
// Check the relationship type
offset += uint32_t_size;
uint32_t readRelationshipType = ReadUint32(buffer.data(), offset);
CHECK(readRelationshipType == 3);
// Check the relationship GUID
offset += uint32_t_size;
uint64_t readRelationshipGuid = ReadUint64(buffer.data(), offset);
CHECK(readRelationshipGuid == relationshipGuid);
// Check the head GUID
offset += uint64_t_size;
uint64_t readHeadGuid = ReadUint64(buffer.data(), offset);
CHECK(readHeadGuid == headGuid);
// Check the tail GUID
offset += uint64_t_size;
uint64_t readTailGuid = ReadUint64(buffer.data(), offset);
CHECK(readTailGuid == tailGuid);
// Check the attribute GUID
offset += uint64_t_size;
uint64_t readAttributeGuid = ReadUint64(buffer.data(), offset);
CHECK(readAttributeGuid == attributeGuid);
}
TEST_CASE("TimelineMessageDirectoryPacketTestNoBuffer")
{
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineMessageDirectoryPackage(nullptr,
512u,
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::BufferExhaustion);
CHECK(numberOfBytesWritten == 0);
}
TEST_CASE("TimelineMessageDirectoryPacketTestBufferExhausted")
{
std::vector<unsigned char> buffer(512, 0);
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineMessageDirectoryPackage(buffer.data(),
0,
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::BufferExhaustion);
CHECK(numberOfBytesWritten == 0);
}
TEST_CASE("TimelineMessageDirectoryPacketTestFullConstruction")
{
std::vector<unsigned char> buffer(512, 0);
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineMessageDirectoryPackage(buffer.data(),
armnn::numeric_cast<unsigned int>(buffer.size()),
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::Ok);
CHECK(numberOfBytesWritten == 451);
unsigned int uint8_t_size = sizeof(uint8_t);
unsigned int uint32_t_size = sizeof(uint32_t);
unsigned int uint64_t_size = sizeof(uint64_t);
// Check the packet header
unsigned int offset = 0;
uint32_t packetHeaderWord0 = ReadUint32(buffer.data(), offset);
uint32_t packetFamily = (packetHeaderWord0 >> 26) & 0x0000003F;
uint32_t packetClass = (packetHeaderWord0 >> 19) & 0x0000007F;
uint32_t packetType = (packetHeaderWord0 >> 16) & 0x00000007;
uint32_t streamId = (packetHeaderWord0 >> 0) & 0x00000007;
CHECK(packetFamily == 1);
CHECK(packetClass == 0);
CHECK(packetType == 0);
CHECK(streamId == 0);
offset += uint32_t_size;
uint32_t packetHeaderWord1 = ReadUint32(buffer.data(), offset);
uint32_t sequenceNumbered = (packetHeaderWord1 >> 24) & 0x00000001;
uint32_t dataLength = (packetHeaderWord1 >> 0) & 0x00FFFFFF;
CHECK(sequenceNumbered == 0);
CHECK(dataLength == 443);
// Check the stream header
offset += uint32_t_size;
uint8_t readStreamVersion = ReadUint8(buffer.data(), offset);
CHECK(readStreamVersion == 4);
offset += uint8_t_size;
uint8_t readPointerBytes = ReadUint8(buffer.data(), offset);
CHECK(readPointerBytes == uint64_t_size);
offset += uint8_t_size;
uint8_t readThreadIdBytes = ReadUint8(buffer.data(), offset);
CHECK(readThreadIdBytes == ThreadIdSize);
// Check the number of declarations
offset += uint8_t_size;
uint32_t declCount = ReadUint32(buffer.data(), offset);
CHECK(declCount == 5);
// Check the decl_id
offset += uint32_t_size;
uint32_t readDeclId = ReadUint32(buffer.data(), offset);
CHECK(readDeclId == 0);
// SWTrace "namestring" format
// length of the string (first 4 bytes) + string + null terminator
// Check the decl_name
offset += uint32_t_size;
uint32_t swTraceDeclNameLength = ReadUint32(buffer.data(), offset);
CHECK(swTraceDeclNameLength == 13); // decl_name length including the null-terminator
std::string label = "declareLabel";
offset += uint32_t_size;
CHECK(std::memcmp(buffer.data() + offset, // Offset to the label in the buffer
label.data(), // The original label
swTraceDeclNameLength - 1) == 0); // The length of the label
// Check the ui_name
std::vector<uint32_t> swTraceString;
StringToSwTraceString<SwTraceCharPolicy>(label, swTraceString);
offset += (armnn::numeric_cast<unsigned int>(swTraceString.size()) - 1) * uint32_t_size;
uint32_t swTraceUINameLength = ReadUint32(buffer.data(), offset);
CHECK(swTraceUINameLength == 14); // ui_name length including the null-terminator
label = "declare label";
offset += uint32_t_size;
CHECK(std::memcmp(buffer.data() + offset, // Offset to the label in the buffer
label.data(), // The original label
swTraceUINameLength - 1) == 0); // The length of the label
// Check arg_types
StringToSwTraceString<SwTraceCharPolicy>(label, swTraceString);
offset += (armnn::numeric_cast<unsigned int>(swTraceString.size()) - 1) * uint32_t_size;
uint32_t swTraceArgTypesLength = ReadUint32(buffer.data(), offset);
CHECK(swTraceArgTypesLength == 3); // arg_types length including the null-terminator
label = "ps";
offset += uint32_t_size;
CHECK(std::memcmp(buffer.data() + offset, // Offset to the label in the buffer
label.data(), // The original label
swTraceArgTypesLength - 1) == 0); // The length of the label
// Check arg_names
StringToSwTraceString<SwTraceCharPolicy>(label, swTraceString);
offset += (armnn::numeric_cast<unsigned int>(swTraceString.size()) - 1) * uint32_t_size;
uint32_t swTraceArgNamesLength = ReadUint32(buffer.data(), offset);
CHECK(swTraceArgNamesLength == 11); // arg_names length including the null-terminator
label = "guid,value";
offset += uint32_t_size;
CHECK(std::memcmp(buffer.data() + offset, // Offset to the label in the buffer
label.data(), // The original label
swTraceArgNamesLength - 1) == 0); // The length of the label
// Check second message decl_id
StringToSwTraceString<SwTraceCharPolicy>(label, swTraceString);
offset += (armnn::numeric_cast<unsigned int>(swTraceString.size()) - 1) * uint32_t_size;
readDeclId = ReadUint32(buffer.data(), offset);
CHECK(readDeclId == 1);
// Check second decl_name
offset += uint32_t_size;
swTraceDeclNameLength = ReadUint32(buffer.data(), offset);
CHECK(swTraceDeclNameLength == 14); // decl_name length including the null-terminator
label = "declareEntity";
offset += uint32_t_size;
CHECK(std::memcmp(buffer.data() + offset, // Offset to the label in the buffer
label.data(), // The original label
swTraceDeclNameLength - 1) == 0); // The length of the label
}
TEST_CASE("TimelineEntityPacketTestNoBuffer")
{
const uint64_t profilingGuid = 123456u;
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineEntityBinary(profilingGuid,
nullptr,
512u,
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::BufferExhaustion);
CHECK(numberOfBytesWritten == 0);
}
TEST_CASE("TimelineEntityPacketTestBufferExhaustedWithZeroBufferSize")
{
std::vector<unsigned char> buffer(512, 0);
const uint64_t profilingGuid = 123456u;
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineEntityBinary(profilingGuid,
buffer.data(),
0,
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::BufferExhaustion);
CHECK(numberOfBytesWritten == 0);
}
TEST_CASE("TimelineEntityPacketTestBufferExhaustedWithFixedBufferSize")
{
std::vector<unsigned char> buffer(10, 0);
const uint64_t profilingGuid = 123456u;
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineEntityBinary(profilingGuid,
buffer.data(),
armnn::numeric_cast<unsigned int>(buffer.size()),
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::BufferExhaustion);
CHECK(numberOfBytesWritten == 0);
}
TEST_CASE("TimelineEntityPacketTestFullConstructionOfData")
{
std::vector<unsigned char> buffer(512, 0);
const uint64_t profilingGuid = 123456u;
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineEntityBinary(profilingGuid,
buffer.data(),
armnn::numeric_cast<unsigned int>(buffer.size()),
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::Ok);
CHECK(numberOfBytesWritten == 12);
unsigned int uint32_t_size = sizeof(uint32_t);
unsigned int offset = 0;
// Check decl_Id
uint32_t decl_Id = ReadUint32(buffer.data(), offset);
CHECK(decl_Id == uint32_t(1));
// Check the profiling GUID
offset += uint32_t_size;
uint64_t readProfilingGuid = ReadUint64(buffer.data(), offset);
CHECK(readProfilingGuid == profilingGuid);
}
TEST_CASE("TimelineEventClassTestNoBuffer")
{
const uint64_t profilingGuid = 123456u;
const uint64_t profilingNameGuid = 3345u;
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineEventClassBinary(profilingGuid,
profilingNameGuid,
nullptr,
512u,
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::BufferExhaustion);
CHECK(numberOfBytesWritten == 0);
}
TEST_CASE("TimelineEventClassTestBufferExhaustionZeroValue")
{
std::vector<unsigned char> buffer(512, 0);
const uint64_t profilingGuid = 123456u;
const uint64_t profilingNameGuid = 3345u;
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineEventClassBinary(profilingGuid,
profilingNameGuid,
buffer.data(),
0,
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::BufferExhaustion);
CHECK(numberOfBytesWritten == 0);
}
TEST_CASE("TimelineEventClassTestBufferExhaustionFixedValue")
{
std::vector<unsigned char> buffer(10, 0);
const uint64_t profilingGuid = 123456u;
const uint64_t profilingNameGuid = 5564u;
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineEventClassBinary(profilingGuid,
profilingNameGuid,
buffer.data(),
armnn::numeric_cast<unsigned int>(buffer.size()),
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::BufferExhaustion);
CHECK(numberOfBytesWritten == 0);
}
TEST_CASE("TimelineEventClassTestFullConstructionOfData")
{
std::vector<unsigned char> buffer(512, 0);
const uint64_t profilingGuid = 123456u;
const uint64_t profilingNameGuid = 654321u;
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineEventClassBinary(profilingGuid,
profilingNameGuid,
buffer.data(),
armnn::numeric_cast<unsigned int>(buffer.size()),
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::Ok);
CHECK(numberOfBytesWritten == 20);
unsigned int uint32_t_size = sizeof(uint32_t);
unsigned int uint64_t_size = sizeof(uint64_t);
unsigned int offset = 0;
// Check the decl_id
uint32_t declId = ReadUint32(buffer.data(), offset);
CHECK(declId == uint32_t(2));
// Check the profiling GUID
offset += uint32_t_size;
uint64_t readProfilingGuid = ReadUint64(buffer.data(), offset);
CHECK(readProfilingGuid == profilingGuid);
offset += uint64_t_size;
uint64_t readProfilingNameGuid = ReadUint64(buffer.data(), offset);
CHECK(readProfilingNameGuid == profilingNameGuid);
}
TEST_CASE("TimelineEventPacketTestNoBuffer")
{
const uint64_t timestamp = 456789u;
const int threadId = armnnUtils::Threads::GetCurrentThreadId();
const uint64_t profilingGuid = 123456u;
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineEventBinary(timestamp,
threadId,
profilingGuid,
nullptr,
512u,
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::BufferExhaustion);
CHECK(numberOfBytesWritten == 0);
}
TEST_CASE("TimelineEventPacketTestBufferExhaustionZeroValue")
{
std::vector<unsigned char> buffer(512, 0);
const uint64_t timestamp = 456789u;
const int threadId = armnnUtils::Threads::GetCurrentThreadId();
const uint64_t profilingGuid = 123456u;
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineEventBinary(timestamp,
threadId,
profilingGuid,
buffer.data(),
0,
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::BufferExhaustion);
CHECK(numberOfBytesWritten == 0);
}
TEST_CASE("TimelineEventPacketTestBufferExhaustionFixedValue")
{
std::vector<unsigned char> buffer(10, 0);
const uint64_t timestamp = 456789u;
const int threadId = armnnUtils::Threads::GetCurrentThreadId();
const uint64_t profilingGuid = 123456u;
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineEventBinary(timestamp,
threadId,
profilingGuid,
buffer.data(),
armnn::numeric_cast<unsigned int>(buffer.size()),
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::BufferExhaustion);
CHECK(numberOfBytesWritten == 0);
}
TEST_CASE("TimelineEventPacketTestFullConstructionOfData")
{
std::vector<unsigned char> buffer(512, 0);
const uint64_t timestamp = 456789u;
const int threadId = armnnUtils::Threads::GetCurrentThreadId();
const uint64_t profilingGuid = 123456u;
unsigned int numberOfBytesWritten = 789u;
TimelinePacketStatus result = WriteTimelineEventBinary(timestamp,
threadId,
profilingGuid,
buffer.data(),
armnn::numeric_cast<unsigned int>(buffer.size()),
numberOfBytesWritten);
CHECK(result == TimelinePacketStatus::Ok);
unsigned int uint32_t_size = sizeof(uint32_t);
unsigned int uint64_t_size = sizeof(uint64_t);
CHECK(numberOfBytesWritten == 20 + ThreadIdSize);
unsigned int offset = 0;
// Check the decl_id
uint32_t readDeclId = ReadUint32(buffer.data(), offset);
CHECK(readDeclId == 4);
// Check the timestamp
offset += uint32_t_size;
uint64_t readTimestamp = ReadUint64(buffer.data(), offset);
CHECK(readTimestamp == timestamp);
// Check the thread id
offset += uint64_t_size;
std::vector<uint8_t> readThreadId(ThreadIdSize, 0);
ReadBytes(buffer.data(), offset, ThreadIdSize, readThreadId.data());
CHECK(readThreadId == threadId);
// Check the profiling GUID
offset += ThreadIdSize;
uint64_t readProfilingGuid = ReadUint64(buffer.data(), offset);
CHECK(readProfilingGuid == profilingGuid);
}
}