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base: martino:aaf69c0949f71ff9f751c6d03fd2b942a4c1ca17
Branches Tags
martino:main martino:scope martino:optimized martino:devel martino:debugscheduler
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compare: martino:optimized
Branches Tags
martino:scope martino:optimized martino:devel martino:debugscheduler martino:main

2 Commits
aaf69c0949 ... optimized

Author SHA1 Message Date
Martino Ferrari
f8f04856ed Optimised failed test 2026-02-25 21:07:27 +01:00
Martino Ferrari
dfb399bbba better perf 2026-02-25 16:51:07 +01:00
23 changed files with 2287 additions and 922 deletions
Expand all files Collapse all files

1
.gitignore vendored
View File

@@ -1,4 +1,5 @@
Build/ Build/
Build_Coverage/
bin/ bin/
*.o *.o
*.so *.so

10
CMakeLists.txt
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@@ -15,8 +15,16 @@ add_definitions(-DENVIRONMENT=Linux)
add_definitions(-DMARTe2_TEST_ENVIRONMENT=GTest) # Optional add_definitions(-DMARTe2_TEST_ENVIRONMENT=GTest) # Optional
add_definitions(-DUSE_PTHREAD) add_definitions(-DUSE_PTHREAD)
# Add -pthread flag # Add -pthread and coverage flags
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -pthread") set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -pthread")
if(CMAKE_COMPILER_IS_GNUCXX)
option(ENABLE_COVERAGE "Enable coverage reporting" OFF)
if(ENABLE_COVERAGE)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} --coverage -fprofile-arcs -ftest-coverage")
set(CMAKE_EXE_LINKER_FLAGS "${CMAKE_EXE_LINKER_FLAGS} --coverage")
set(CMAKE_SHARED_LINKER_FLAGS "${CMAKE_SHARED_LINKER_FLAGS} --coverage")
endif()
endif()
include_directories( include_directories(
${MARTe2_DIR}/Source/Core/BareMetal/L0Types ${MARTe2_DIR}/Source/Core/BareMetal/L0Types

259
Headers/DebugBrokerWrapper.h
View File

@@ -6,6 +6,10 @@
#include "MemoryMapBroker.h" #include "MemoryMapBroker.h"
#include "ObjectRegistryDatabase.h" #include "ObjectRegistryDatabase.h"
#include "ObjectBuilder.h" #include "ObjectBuilder.h"
#include "Vector.h"
#include "FastPollingMutexSem.h"
#include "HighResolutionTimer.h"
#include "Atomic.h"
// Original broker headers // Original broker headers
#include "MemoryMapInputBroker.h" #include "MemoryMapInputBroker.h"
@@ -17,65 +21,69 @@
#include "MemoryMapMultiBufferOutputBroker.h" #include "MemoryMapMultiBufferOutputBroker.h"
#include "MemoryMapSynchronisedMultiBufferInputBroker.h" #include "MemoryMapSynchronisedMultiBufferInputBroker.h"
#include "MemoryMapSynchronisedMultiBufferOutputBroker.h" #include "MemoryMapSynchronisedMultiBufferOutputBroker.h"
#include "MemoryMapAsyncOutputBroker.h"
#include "MemoryMapAsyncTriggerOutputBroker.h"
namespace MARTe { namespace MARTe {
/** /**
* @brief Base implementation for all debug brokers. * @brief Helper for optimized signal processing within brokers.
*/ */
class DebugBrokerHelper { class DebugBrokerHelper {
public: public:
static void Process(BrokerI* broker, DebugService* service, DebugSignalInfo** signalInfoPointers, uint32 numSignals) { static void Process(DebugService* service, BrokerInfo& info) {
if (service == NULL_PTR(DebugService*)) return; if (service == NULL_PTR(DebugService*)) return;
while (service->IsPaused()) { while (service->IsPaused()) {
Sleep::MSec(10); Sleep::MSec(10);
} }
if (signalInfoPointers != NULL_PTR(DebugSignalInfo**)) { if (*info.anyActiveFlag) {
for (uint32 i = 0; i < numSignals; i++) { uint32 idx = info.currentSetIdx;
DebugSignalInfo *s = signalInfoPointers[i]; BrokerActiveSet& set = info.sets[idx];
if (s != NULL_PTR(DebugSignalInfo*)) { uint64 ts = (uint64)((float64)HighResolutionTimer::Counter() * HighResolutionTimer::Period() * 1000000.0);
if (s->isTracing || s->isForcing) {
uint32 size = broker->GetCopyByteSize(i); for (uint32 i = 0; i < set.numForced; i++) {
service->ProcessSignal(s, size); SignalExecuteInfo& s = set.forcedSignals[i];
} DebugService::CopySignal(s.memoryAddress, s.forcedValue, s.size);
} }
for (uint32 i = 0; i < set.numTraced; i++) {
SignalExecuteInfo& s = set.tracedSignals[i];
(void)service->traceBuffer.Push(s.internalID, ts, s.memoryAddress, s.size);
} }
} }
} }
static void InitSignals(MemoryMapBroker* broker, DataSourceI &dataSourceIn, DebugService* &service, DebugSignalInfo** &signalInfoPointers, uint32 &numSignals, MemoryMapBrokerCopyTableEntry* copyTable, const char8* functionName, SignalDirection direction) { static void InitSignals(BrokerI* broker, DataSourceI &dataSourceIn, DebugService* &service, DebugSignalInfo** &signalInfoPointers, uint32 numCopies, MemoryMapBrokerCopyTableEntry* copyTable, const char8* functionName, SignalDirection direction, volatile bool* anyActiveFlag) {
numSignals = broker->GetNumberOfCopies(); if (numCopies > 0) {
if (numSignals > 0) { signalInfoPointers = new DebugSignalInfo*[numCopies];
signalInfoPointers = new DebugSignalInfo*[numSignals]; for (uint32 i=0; i<numCopies; i++) signalInfoPointers[i] = NULL_PTR(DebugSignalInfo*);
for (uint32 i=0; i<numSignals; i++) signalInfoPointers[i] = NULL_PTR(DebugSignalInfo*);
} }
ReferenceContainer *root = ObjectRegistryDatabase::Instance(); if (service == NULL_PTR(DebugService*)) service = DebugService::Instance();
Reference serviceRef = root->Find("DebugService");
if (serviceRef.IsValid()) {
service = dynamic_cast<DebugService*>(serviceRef.operator->());
}
if (service && (copyTable != NULL_PTR(MemoryMapBrokerCopyTableEntry*))) { if (service && (copyTable != NULL_PTR(MemoryMapBrokerCopyTableEntry*))) {
StreamString dsPath; StreamString dsPath;
DebugService::GetFullObjectName(dataSourceIn, dsPath); DebugService::GetFullObjectName(dataSourceIn, dsPath);
MemoryMapBroker* mmb = dynamic_cast<MemoryMapBroker*>(broker);
for (uint32 i = 0; i < numSignals; i++) { for (uint32 i = 0; i < numCopies; i++) {
void *addr = copyTable[i].dataSourcePointer; void *addr = copyTable[i].dataSourcePointer;
TypeDescriptor type = copyTable[i].type; TypeDescriptor type = copyTable[i].type;
uint32 dsIdx = i;
if (mmb != NULL_PTR(MemoryMapBroker*)) dsIdx = mmb->GetDSCopySignalIndex(i);
uint32 dsIdx = broker->GetDSCopySignalIndex(i);
StreamString signalName; StreamString signalName;
if (!dataSourceIn.GetSignalName(dsIdx, signalName)) signalName = "Unknown"; if (!dataSourceIn.GetSignalName(dsIdx, signalName)) {
signalName.Printf("Signal_%u", dsIdx);
}
// 1. Register canonical DataSource name (Absolute, No Root prefix) StreamString dsFullName = dsPath;
StreamString dsFullName; if (dsFullName.Size() > 0) dsFullName += ".";
dsFullName.Printf("%s.%s", dsPath.Buffer(), signalName.Buffer()); dsFullName += signalName;
service->RegisterSignal(addr, type, dsFullName.Buffer()); service->RegisterSignal(addr, type, dsFullName.Buffer());
// 2. Also register absolute GAM alias
if (functionName != NULL_PTR(const char8*)) { if (functionName != NULL_PTR(const char8*)) {
StreamString gamFullName; StreamString gamFullName;
const char8* dirStr = (direction == InputSignals) ? "In" : "Out"; const char8* dirStr = (direction == InputSignals) ? "In" : "Out";
@@ -83,82 +91,157 @@ public:
if (gamRef.IsValid()) { if (gamRef.IsValid()) {
StreamString absGamPath; StreamString absGamPath;
DebugService::GetFullObjectName(*(gamRef.operator->()), absGamPath); DebugService::GetFullObjectName(*(gamRef.operator->()), absGamPath);
gamFullName.Printf("%s.%s.%s", absGamPath.Buffer(), dirStr, signalName.Buffer()); gamFullName = absGamPath;
} else { } else {
gamFullName.Printf("%s.%s.%s", functionName, dirStr, signalName.Buffer()); gamFullName = functionName;
} }
gamFullName += ".";
gamFullName += dirStr;
gamFullName += ".";
gamFullName += signalName;
signalInfoPointers[i] = service->RegisterSignal(addr, type, gamFullName.Buffer()); signalInfoPointers[i] = service->RegisterSignal(addr, type, gamFullName.Buffer());
} else { } else {
signalInfoPointers[i] = service->RegisterSignal(addr, type, dsFullName.Buffer()); signalInfoPointers[i] = service->RegisterSignal(addr, type, dsFullName.Buffer());
} }
} }
service->RegisterBroker(signalInfoPointers, numCopies, mmb, anyActiveFlag);
} }
} }
}; };
#define DECLARE_DEBUG_BROKER_COMMON(BaseClass) \ class DebugMemoryMapInputBroker : public MemoryMapInputBroker, public DebugBrokerI {
Debug##BaseClass() : BaseClass() { \ public:
service = NULL_PTR(DebugService*); \ DebugMemoryMapInputBroker() : MemoryMapInputBroker(), service(NULL), infoPtr(NULL), anyActive(false) {
signalInfoPointers = NULL_PTR(DebugSignalInfo**); \ (void)ObjectRegistryDatabase::Instance()->Insert(Reference(this));
numSignals = 0; \ }
} \ virtual void SetService(DebugService* s) { service = s; }
virtual ~Debug##BaseClass() { \ virtual bool IsLinked() const { return infoPtr != NULL; }
if (signalInfoPointers) delete[] signalInfoPointers; \ virtual bool Execute() {
} \ bool ret = MemoryMapInputBroker::Execute();
virtual bool Execute() { \ if (ret && infoPtr) DebugBrokerHelper::Process(service, *infoPtr);
bool ret = BaseClass::Execute(); \ return ret;
if (ret) DebugBrokerHelper::Process(this, service, signalInfoPointers, numSignals); \ }
return ret; \ virtual bool Init(SignalDirection direction, DataSourceI &ds, const char8 *const name, void *gamMem) {
} \ bool ret = MemoryMapInputBroker::Init(direction, ds, name, gamMem);
private: \ if (ret) {
DebugService *service; \ DebugSignalInfo** sigPtrs = NULL;
DebugSignalInfo **signalInfoPointers; \ DebugBrokerHelper::InitSignals(this, ds, service, sigPtrs, GetNumberOfCopies(), this->copyTable, name, direction, &anyActive);
uint32 numSignals; if (service) infoPtr = service->GetBrokerInfo(service->numberOfBrokers - 1);
}
#define DECLARE_DEBUG_BROKER(BaseClass) \ return ret;
class Debug##BaseClass : public BaseClass { \ }
public: \ DebugService* service;
DECLARE_DEBUG_BROKER_COMMON(BaseClass) \ BrokerInfo* infoPtr;
virtual bool Init(SignalDirection direction, DataSourceI &ds, const char8 *const name, void *gamMem) { \ volatile bool anyActive;
bool ret = BaseClass::Init(direction, ds, name, gamMem); \
if (ret) DebugBrokerHelper::InitSignals(this, ds, service, signalInfoPointers, numSignals, this->copyTable, name, direction); \
return ret; \
} \
virtual bool Init(SignalDirection direction, DataSourceI &ds, const char8 *const name, void *gamMem, const bool optim) { \
bool ret = BaseClass::Init(direction, ds, name, gamMem, optim); \
if (ret) DebugBrokerHelper::InitSignals(this, ds, service, signalInfoPointers, numSignals, this->copyTable, name, direction); \
return ret; \
} \
}; \
class Debug##BaseClass##Builder : public ObjectBuilder { \
public: \
virtual Object *Build(HeapI* const heap) const { return new (heap) Debug##BaseClass(); } \
}; };
#define DECLARE_DEBUG_BROKER_NO_OPTIM(BaseClass) \ template <typename T>
class Debug##BaseClass : public BaseClass { \ class DebugGenericBroker : public T, public DebugBrokerI {
public: \ public:
DECLARE_DEBUG_BROKER_COMMON(BaseClass) \ DebugGenericBroker() : T(), service(NULL), infoPtr(NULL), anyActive(false) {
virtual bool Init(SignalDirection direction, DataSourceI &ds, const char8 *const name, void *gamMem) { \ (void)ObjectRegistryDatabase::Instance()->Insert(Reference(this));
bool ret = BaseClass::Init(direction, ds, name, gamMem); \ }
if (ret) DebugBrokerHelper::InitSignals(this, ds, service, signalInfoPointers, numSignals, this->copyTable, name, direction); \ virtual void SetService(DebugService* s) { service = s; }
return ret; \ virtual bool IsLinked() const { return infoPtr != NULL; }
} \ virtual bool Execute() {
}; \ bool ret = T::Execute();
class Debug##BaseClass##Builder : public ObjectBuilder { \ if (ret && infoPtr) DebugBrokerHelper::Process(service, *infoPtr);
public: \ return ret;
virtual Object *Build(HeapI* const heap) const { return new (heap) Debug##BaseClass(); } \ }
virtual bool Init(SignalDirection direction, DataSourceI &ds, const char8 *const name, void *gamMem) {
bool ret = T::Init(direction, ds, name, gamMem);
if (ret) {
DebugSignalInfo** sigPtrs = NULL;
DebugBrokerHelper::InitSignals(this, ds, service, sigPtrs, this->GetNumberOfCopies(), this->copyTable, name, direction, &anyActive);
if (service) infoPtr = service->GetBrokerInfo(service->numberOfBrokers - 1);
}
return ret;
}
DebugService* service;
BrokerInfo* infoPtr;
volatile bool anyActive;
}; };
DECLARE_DEBUG_BROKER(MemoryMapInputBroker) class DebugMemoryMapAsyncOutputBroker : public MemoryMapAsyncOutputBroker, public DebugBrokerI {
DECLARE_DEBUG_BROKER(MemoryMapOutputBroker) public:
DECLARE_DEBUG_BROKER(MemoryMapSynchronisedInputBroker) DebugMemoryMapAsyncOutputBroker() : MemoryMapAsyncOutputBroker(), service(NULL), infoPtr(NULL), anyActive(false) {
DECLARE_DEBUG_BROKER(MemoryMapSynchronisedOutputBroker) (void)ObjectRegistryDatabase::Instance()->Insert(Reference(this));
DECLARE_DEBUG_BROKER_NO_OPTIM(MemoryMapInterpolatedInputBroker) }
DECLARE_DEBUG_BROKER(MemoryMapMultiBufferInputBroker) virtual void SetService(DebugService* s) { service = s; }
DECLARE_DEBUG_BROKER(MemoryMapMultiBufferOutputBroker) virtual bool IsLinked() const { return infoPtr != NULL; }
DECLARE_DEBUG_BROKER(MemoryMapSynchronisedMultiBufferInputBroker) virtual bool Execute() {
DECLARE_DEBUG_BROKER(MemoryMapSynchronisedMultiBufferOutputBroker) bool ret = MemoryMapAsyncOutputBroker::Execute();
if (ret && infoPtr) DebugBrokerHelper::Process(service, *infoPtr);
return ret;
}
virtual bool InitWithBufferParameters(const SignalDirection d, DataSourceI &ds, const char8* n, void* m, const uint32 nb, const ProcessorType& c, const uint32 s) {
bool ret = MemoryMapAsyncOutputBroker::InitWithBufferParameters(d, ds, n, m, nb, c, s);
if (ret) {
DebugSignalInfo** sigPtrs = NULL;
DebugBrokerHelper::InitSignals(this, ds, service, sigPtrs, this->GetNumberOfCopies(), this->copyTable, n, d, &anyActive);
if (service) infoPtr = service->GetBrokerInfo(service->numberOfBrokers - 1);
}
return ret;
}
DebugService* service;
BrokerInfo* infoPtr;
volatile bool anyActive;
};
class DebugMemoryMapAsyncTriggerOutputBroker : public MemoryMapAsyncTriggerOutputBroker, public DebugBrokerI {
public:
DebugMemoryMapAsyncTriggerOutputBroker() : MemoryMapAsyncTriggerOutputBroker(), service(NULL), infoPtr(NULL), anyActive(false) {
(void)ObjectRegistryDatabase::Instance()->Insert(Reference(this));
}
virtual void SetService(DebugService* s) { service = s; }
virtual bool IsLinked() const { return infoPtr != NULL; }
virtual bool Execute() {
bool ret = MemoryMapAsyncTriggerOutputBroker::Execute();
if (ret && infoPtr) DebugBrokerHelper::Process(service, *infoPtr);
return ret;
}
virtual bool InitWithTriggerParameters(const SignalDirection d, DataSourceI &ds, const char8* n, void* m, const uint32 nb, const uint32 pre, const uint32 post, const ProcessorType& c, const uint32 s) {
bool ret = MemoryMapAsyncTriggerOutputBroker::InitWithTriggerParameters(d, ds, n, m, nb, pre, post, c, s);
if (ret) {
DebugSignalInfo** sigPtrs = NULL;
DebugBrokerHelper::InitSignals(this, ds, service, sigPtrs, this->GetNumberOfCopies(), this->copyTable, n, d, &anyActive);
if (service) infoPtr = service->GetBrokerInfo(service->numberOfBrokers - 1);
}
return ret;
}
DebugService* service;
BrokerInfo* infoPtr;
volatile bool anyActive;
};
typedef DebugGenericBroker<MemoryMapOutputBroker> DebugMemoryMapOutputBroker;
typedef DebugGenericBroker<MemoryMapSynchronisedInputBroker> DebugMemoryMapSynchronisedInputBroker;
typedef DebugGenericBroker<MemoryMapSynchronisedOutputBroker> DebugMemoryMapSynchronisedOutputBroker;
typedef DebugGenericBroker<MemoryMapInterpolatedInputBroker> DebugMemoryMapInterpolatedInputBroker;
typedef DebugGenericBroker<MemoryMapMultiBufferInputBroker> DebugMemoryMapMultiBufferInputBroker;
typedef DebugGenericBroker<MemoryMapMultiBufferOutputBroker> DebugMemoryMapMultiBufferOutputBroker;
typedef DebugGenericBroker<MemoryMapSynchronisedMultiBufferInputBroker> DebugMemoryMapSynchronisedMultiBufferInputBroker;
typedef DebugGenericBroker<MemoryMapSynchronisedMultiBufferOutputBroker> DebugMemoryMapSynchronisedMultiBufferOutputBroker;
template <typename T>
class DebugBrokerBuilder : public ObjectBuilder {
public:
virtual Object *Build(HeapI* const heap) const {
return new (heap) T();
}
};
typedef DebugBrokerBuilder<DebugMemoryMapInputBroker> DebugMemoryMapInputBrokerBuilder;
typedef DebugBrokerBuilder<DebugMemoryMapOutputBroker> DebugMemoryMapOutputBrokerBuilder;
typedef DebugBrokerBuilder<DebugMemoryMapSynchronisedInputBroker> DebugMemoryMapSynchronisedInputBrokerBuilder;
typedef DebugBrokerBuilder<DebugMemoryMapSynchronisedOutputBroker> DebugMemoryMapSynchronisedOutputBrokerBuilder;
typedef DebugBrokerBuilder<DebugMemoryMapInterpolatedInputBroker> DebugMemoryMapInterpolatedInputBrokerBuilder;
typedef DebugBrokerBuilder<DebugMemoryMapMultiBufferInputBroker> DebugMemoryMapMultiBufferInputBrokerBuilder;
typedef DebugBrokerBuilder<DebugMemoryMapMultiBufferOutputBroker> DebugMemoryMapMultiBufferOutputBrokerBuilder;
typedef DebugBrokerBuilder<DebugMemoryMapSynchronisedMultiBufferInputBroker> DebugMemoryMapSynchronisedMultiBufferInputBrokerBuilder;
typedef DebugBrokerBuilder<DebugMemoryMapSynchronisedMultiBufferOutputBroker> DebugMemoryMapSynchronisedMultiBufferOutputBrokerBuilder;
typedef DebugBrokerBuilder<DebugMemoryMapAsyncOutputBroker> DebugMemoryMapAsyncOutputBrokerBuilder;
typedef DebugBrokerBuilder<DebugMemoryMapAsyncTriggerOutputBroker> DebugMemoryMapAsyncTriggerOutputBrokerBuilder;
} }

29
Headers/DebugCore.h
View File

@@ -4,7 +4,7 @@
#include "CompilerTypes.h" #include "CompilerTypes.h"
#include "TypeDescriptor.h" #include "TypeDescriptor.h"
#include "StreamString.h" #include "StreamString.h"
#include <cstring> // For memcpy #include <cstring>
namespace MARTe { namespace MARTe {
@@ -29,6 +29,10 @@ struct TraceHeader {
}; };
#pragma pack(pop) #pragma pack(pop)
/**
* @brief Ring buffer for high-frequency signal tracing.
* @details New format per sample: [ID:4][Timestamp:8][Size:4][Data:N]
*/
class TraceRingBuffer { class TraceRingBuffer {
public: public:
TraceRingBuffer() { TraceRingBuffer() {
@@ -55,12 +59,11 @@ public:
return (buffer != NULL_PTR(uint8*)); return (buffer != NULL_PTR(uint8*));
} }
bool Push(uint32 signalID, void* data, uint32 size) { bool Push(uint32 signalID, uint64 timestamp, void* data, uint32 size) {
uint32 packetSize = 4 + 4 + size; uint32 packetSize = 4 + 8 + 4 + size; // ID + TS + Size + Data
uint32 read = readIndex; uint32 read = readIndex;
uint32 write = writeIndex; uint32 write = writeIndex;
// Calculate available space
uint32 available = 0; uint32 available = 0;
if (read <= write) { if (read <= write) {
available = bufferSize - (write - read) - 1; available = bufferSize - (write - read) - 1;
@@ -70,35 +73,31 @@ public:
if (available < packetSize) return false; if (available < packetSize) return false;
// Use temporary write index to ensure atomic update
uint32 tempWrite = write; uint32 tempWrite = write;
WriteToBuffer(&tempWrite, &signalID, 4); WriteToBuffer(&tempWrite, &signalID, 4);
WriteToBuffer(&tempWrite, &timestamp, 8);
WriteToBuffer(&tempWrite, &size, 4); WriteToBuffer(&tempWrite, &size, 4);
WriteToBuffer(&tempWrite, data, size); WriteToBuffer(&tempWrite, data, size);
// Memory Barrier to ensure data is visible before index update
// __sync_synchronize();
// Final atomic update
writeIndex = tempWrite; writeIndex = tempWrite;
return true; return true;
} }
bool Pop(uint32 &signalID, void* dataBuffer, uint32 &size, uint32 maxSize) { bool Pop(uint32 &signalID, uint64 &timestamp, void* dataBuffer, uint32 &size, uint32 maxSize) {
uint32 read = readIndex; uint32 read = readIndex;
uint32 write = writeIndex; uint32 write = writeIndex;
if (read == write) return false; if (read == write) return false;
uint32 tempRead = read; uint32 tempRead = read;
uint32 tempId = 0; uint32 tempId = 0;
uint64 tempTs = 0;
uint32 tempSize = 0; uint32 tempSize = 0;
// Peek header
ReadFromBuffer(&tempRead, &tempId, 4); ReadFromBuffer(&tempRead, &tempId, 4);
ReadFromBuffer(&tempRead, &tempTs, 8);
ReadFromBuffer(&tempRead, &tempSize, 4); ReadFromBuffer(&tempRead, &tempSize, 4);
if (tempSize > maxSize) { if (tempSize > maxSize) {
// Error case: drop data up to writeIndex (resync)
readIndex = write; readIndex = write;
return false; return false;
} }
@@ -106,11 +105,9 @@ public:
ReadFromBuffer(&tempRead, dataBuffer, tempSize); ReadFromBuffer(&tempRead, dataBuffer, tempSize);
signalID = tempId; signalID = tempId;
timestamp = tempTs;
size = tempSize; size = tempSize;
// Memory Barrier
// __sync_synchronize();
readIndex = tempRead; readIndex = tempRead;
return true; return true;
} }
@@ -126,7 +123,6 @@ private:
void WriteToBuffer(uint32 *idx, void* src, uint32 count) { void WriteToBuffer(uint32 *idx, void* src, uint32 count) {
uint32 current = *idx; uint32 current = *idx;
uint32 spaceToEnd = bufferSize - current; uint32 spaceToEnd = bufferSize - current;
if (count <= spaceToEnd) { if (count <= spaceToEnd) {
std::memcpy(&buffer[current], src, count); std::memcpy(&buffer[current], src, count);
*idx = (current + count) % bufferSize; *idx = (current + count) % bufferSize;
@@ -141,7 +137,6 @@ private:
void ReadFromBuffer(uint32 *idx, void* dst, uint32 count) { void ReadFromBuffer(uint32 *idx, void* dst, uint32 count) {
uint32 current = *idx; uint32 current = *idx;
uint32 spaceToEnd = bufferSize - current; uint32 spaceToEnd = bufferSize - current;
if (count <= spaceToEnd) { if (count <= spaceToEnd) {
std::memcpy(dst, &buffer[current], count); std::memcpy(dst, &buffer[current], count);
*idx = (current + count) % bufferSize; *idx = (current + count) % bufferSize;

87
Headers/DebugService.h
View File

@@ -13,6 +13,42 @@
namespace MARTe { namespace MARTe {
class MemoryMapBroker;
class DebugService;
/**
* @brief Interface for instrumented brokers to allow service adoption.
*/
class DebugBrokerI {
public:
virtual ~DebugBrokerI() {}
virtual void SetService(DebugService* service) = 0;
virtual bool IsLinked() const = 0;
};
struct SignalExecuteInfo {
void* memoryAddress;
void* forcedValue;
uint32 internalID;
uint32 size;
};
struct BrokerActiveSet {
SignalExecuteInfo* forcedSignals;
uint32 numForced;
SignalExecuteInfo* tracedSignals;
uint32 numTraced;
};
struct BrokerInfo {
DebugSignalInfo** signalPointers;
uint32 numSignals;
MemoryMapBroker* broker;
BrokerActiveSet sets[2];
volatile uint32 currentSetIdx;
volatile bool* anyActiveFlag;
};
struct SignalAlias { struct SignalAlias {
StreamString name; StreamString name;
uint32 signalIndex; uint32 signalIndex;
@@ -20,6 +56,7 @@ struct SignalAlias {
class DebugService : public ReferenceContainer, public MessageI, public EmbeddedServiceMethodBinderI { class DebugService : public ReferenceContainer, public MessageI, public EmbeddedServiceMethodBinderI {
public: public:
friend class DebugServiceTest;
CLASS_REGISTER_DECLARATION() CLASS_REGISTER_DECLARATION()
DebugService(); DebugService();
@@ -28,10 +65,23 @@ public:
virtual bool Initialise(StructuredDataI & data); virtual bool Initialise(StructuredDataI & data);
DebugSignalInfo* RegisterSignal(void* memoryAddress, TypeDescriptor type, const char8* name); DebugSignalInfo* RegisterSignal(void* memoryAddress, TypeDescriptor type, const char8* name);
void ProcessSignal(DebugSignalInfo* signalInfo, uint32 size);
static inline void CopySignal(void* dst, const void* src, const uint32 size) {
if (size == 4u) *static_cast<uint32*>(dst) = *static_cast<const uint32*>(src);
else if (size == 8u) *static_cast<uint64*>(dst) = *static_cast<const uint64*>(src);
else if (size == 1u) *static_cast<uint8*>(dst) = *static_cast<const uint8*>(src);
else if (size == 2u) *static_cast<uint16*>(dst) = *static_cast<const uint16*>(src);
else MemoryOperationsHelper::Copy(dst, src, size);
}
void ProcessSignal(DebugSignalInfo* signalInfo, uint32 size, uint64 timestamp);
void RegisterBroker(DebugSignalInfo** signalPointers, uint32 numSignals, MemoryMapBroker* broker, volatile bool* anyActiveFlag);
virtual ErrorManagement::ErrorType Execute(ExecutionInfo & info); virtual ErrorManagement::ErrorType Execute(ExecutionInfo & info);
static DebugService* Instance();
bool IsPaused() const { return isPaused; } bool IsPaused() const { return isPaused; }
void SetPaused(bool paused) { isPaused = paused; } void SetPaused(bool paused) { isPaused = paused; }
@@ -44,9 +94,29 @@ public:
void ListNodes(const char8* path, BasicTCPSocket *client); void ListNodes(const char8* path, BasicTCPSocket *client);
void InfoNode(const char8* path, BasicTCPSocket *client); void InfoNode(const char8* path, BasicTCPSocket *client);
void UpdateBrokersActiveStatus();
BrokerInfo* GetBrokerInfo(uint32 index) {
if (index < numberOfBrokers) return &brokers[index];
return NULL_PTR(BrokerInfo*);
}
// PERFORMANCE-CRITICAL MEMBERS
static const uint32 MAX_BROKERS = 256;
BrokerInfo brokers[MAX_BROKERS];
uint32 numberOfBrokers;
TraceRingBuffer traceBuffer;
static const uint32 MAX_SIGNALS = 512;
DebugSignalInfo signals[MAX_SIGNALS];
uint32 numberOfSignals;
static const uint32 MAX_ALIASES = 1024;
SignalAlias aliases[MAX_ALIASES];
uint32 numberOfAliases;
private: private:
void HandleCommand(StreamString cmd, BasicTCPSocket *client); void HandleCommand(StreamString cmd, BasicTCPSocket *client);
uint32 ExportTree(ReferenceContainer *container, StreamString &json); uint32 ExportTree(ReferenceContainer *container, StreamString &json);
void PatchRegistry(); void PatchRegistry();
@@ -85,24 +155,15 @@ private:
ThreadIdentifier serverThreadId; ThreadIdentifier serverThreadId;
ThreadIdentifier streamerThreadId; ThreadIdentifier streamerThreadId;
static const uint32 MAX_SIGNALS = 4096;
DebugSignalInfo signals[MAX_SIGNALS];
uint32 numberOfSignals;
static const uint32 MAX_ALIASES = 8192;
SignalAlias aliases[MAX_ALIASES];
uint32 numberOfAliases;
FastPollingMutexSem mutex; FastPollingMutexSem mutex;
TraceRingBuffer traceBuffer;
static const uint32 MAX_CLIENTS = 16; static const uint32 MAX_CLIENTS = 16;
BasicTCPSocket* activeClients[MAX_CLIENTS]; BasicTCPSocket* activeClients[MAX_CLIENTS];
FastPollingMutexSem clientsMutex; FastPollingMutexSem clientsMutex;
static DebugService* instance;
}; };
extern DebugService* GlobalDebugServiceInstance;
} }
#endif #endif

1
SPECS.md
View File

@@ -47,3 +47,4 @@ Implement a "Zero-Code-Change" observability layer for the MARTe2 real-time fram
- **Latency:** Telemetry dispatch overhead < 5 microseconds per signal. - **Latency:** Telemetry dispatch overhead < 5 microseconds per signal.
- **Throughput:** Support for 100Hz+ sampling rates with zero packet loss on local networks. - **Throughput:** Support for 100Hz+ sampling rates with zero packet loss on local networks.
- **Scalability:** Handle up to 4096 unique signals and 16 simultaneous client connections. - **Scalability:** Handle up to 4096 unique signals and 16 simultaneous client connections.
- **Code Quality:** Maintain a minimum of **85% code coverage** across all core service and broker logic.

941
Source/DebugService.cpp
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File diff suppressed because it is too large Load Diff

73
Test/Configurations/debug_test.cfg
View File

@@ -1,3 +1,19 @@
+DebugService = {
Class = DebugService
ControlPort = 8080
UdpPort = 8081
StreamIP = "127.0.0.1"
}
+LoggerService = {
Class = LoggerService
CPUs = 0x1
+DebugConsumer = {
Class = TcpLogger
Port = 8082
}
}
+App = { +App = {
Class = RealTimeApplication Class = RealTimeApplication
+Functions = { +Functions = {
@@ -21,11 +37,33 @@
Type = uint32 Type = uint32
} }
Time = { Time = {
DataSource = Logger DataSource = DDB
Type = uint32 Type = uint32
} }
} }
} }
+GAM2 = {
Class = IOGAM
InputSignals = {
Counter = {
DataSource = TimerSlow
Frequency = 10
}
Time = {
DataSource = TimerSlow
}
}
OutputSignals = {
Counter = {
Type = uint32
DataSource = Logger
}
Time = {
Type = uint32
DataSource = Logger
}
}
}
} }
+Data = { +Data = {
Class = ReferenceContainer Class = ReferenceContainer
@@ -41,8 +79,19 @@
} }
} }
} }
+TimerSlow = {
Class = LinuxTimer
Signals = {
Counter = {
Type = uint32
}
Time = {
Type = uint32
}
}
}
+Logger = { +Logger = {
Class = GAMDataSource Class = LoggerDataSource
Signals = { Signals = {
CounterCopy = { CounterCopy = {
Type = uint32 Type = uint32
@@ -75,6 +124,10 @@
Class = RealTimeThread Class = RealTimeThread
Functions = {GAM1} Functions = {GAM1}
} }
+Thread2 = {
Class = RealTimeThread
Functions = {GAM2}
}
} }
} }
} }
@@ -83,19 +136,3 @@
TimingDataSource = DAMS TimingDataSource = DAMS
} }
} }
+DebugService = {
Class = DebugService
ControlPort = 8080
UdpPort = 8081
StreamIP = "127.0.0.1"
}
+LoggerService = {
Class = LoggerService
CPUs = 0x1
+DebugConsumer = {
Class = TcpLogger
Port = 8082
}
}

109
Test/Integration/BrokerExecuteTest.cpp Normal file
View File

@@ -0,0 +1,109 @@
#include "DebugService.h"
#include "DebugBrokerWrapper.h"
#include "MemoryMapInputBroker.h"
#include "ObjectRegistryDatabase.h"
#include "StandardParser.h"
#include <stdio.h>
#include <assert.h>
using namespace MARTe;
namespace MARTe {
class ManualDebugMemoryMapInputBroker : public DebugMemoryMapInputBroker {
public:
virtual bool Execute() {
if (infoPtr) DebugBrokerHelper::Process(service, *infoPtr);
return true;
}
using MemoryMapBroker::copyTable;
};
class MockDS : public DataSourceI {
public:
CLASS_REGISTER_DECLARATION()
MockDS() { SetName("MockDS"); }
virtual bool AllocateMemory() { return true; }
virtual uint32 GetNumberOfMemoryBuffers() { return 1; }
virtual bool GetSignalMemoryBuffer(const uint32 signalIdx, const uint32 bufferIdx, void *&signalAddress) {
static uint32 val = 0;
signalAddress = &val;
return true;
}
virtual const char8 *GetBrokerName(StructuredDataI &data, const SignalDirection direction) { return "MemoryMapInputBroker"; }
virtual bool GetInputBrokers(ReferenceContainer &inputBrokers, const char8 *const functionName, void *const gamMem) { return true; }
virtual bool GetOutputBrokers(ReferenceContainer &outputBrokers, const char8 *const functionName, void *const gamMem) { return true; }
virtual bool PrepareNextState(const char8 *const currentStateName, const char8 *const nextStateName) { return true; }
virtual bool Synchronise() { return true; }
};
CLASS_REGISTER(MockDS, "1.0")
void RunTest() {
printf("--- Broker Execute Path Test (Isolated) ---\n");
DebugService* service = new DebugService();
service->traceBuffer.Init(1024 * 1024);
ConfigurationDatabase cfg;
cfg.Write("ControlPort", (uint32)0);
cfg.Write("StreamPort", (uint32)0);
assert(service->Initialise(cfg));
ObjectRegistryDatabase::Instance()->Insert(Reference(service));
MockDS ds;
uint32 gamMem = 42;
ManualDebugMemoryMapInputBroker* broker = new ManualDebugMemoryMapInputBroker();
broker->service = service;
printf("Manually bootstrapping Broker for testing...\n");
broker->copyTable = new MemoryMapBrokerCopyTableEntry[1];
broker->copyTable[0].copySize = 4;
broker->copyTable[0].dataSourcePointer = &gamMem;
broker->copyTable[0].gamPointer = &gamMem;
broker->copyTable[0].type = UnsignedInteger32Bit;
DebugSignalInfo** sigPtrs = NULL;
DebugBrokerHelper::InitSignals(NULL_PTR(BrokerI*), ds, service, sigPtrs, 1, broker->copyTable, "TestGAM", InputSignals, &broker->anyActive);
broker->infoPtr = &service->brokers[service->numberOfBrokers - 1];
printf("Broker ready. Registered signals in service: %u\n", service->numberOfSignals);
printf("Executing IDLE cycle...\n");
broker->Execute();
assert(service->traceBuffer.Count() == 0);
printf("Manually enabling TRACE for first signal...\n");
// Directly enable tracing on the signal info to bypass name matching
service->signals[0].isTracing = true;
service->signals[0].decimationFactor = 1;
service->signals[0].decimationCounter = 0;
printf("Updating brokers active status...\n");
service->UpdateBrokersActiveStatus();
assert(broker->anyActive == true);
printf("Executing TRACE cycle...\n");
broker->Execute();
uint32 rbCount = service->traceBuffer.Count();
printf("Trace Buffer Count: %u\n", rbCount);
if (rbCount > 0) {
printf("SUCCESS: Data reached Trace Buffer via Broker!\n");
uint32 rid, rsize; uint64 rts; uint32 rval;
assert(service->traceBuffer.Pop(rid, rts, &rval, rsize, 4));
printf("Value popped: %u (ID=%u, TS=%lu)\n", rval, rid, rts);
assert(rval == 42);
} else {
printf("FAILURE: Trace Buffer is still empty.\n");
}
ObjectRegistryDatabase::Instance()->Purge();
}
}
int main() {
MARTe::RunTest();
return 0;
}

9
Test/Integration/CMakeLists.txt
View File

@@ -9,3 +9,12 @@ target_link_libraries(ValidationTest marte_dev ${MARTe2_LIB} ${IOGAM_LIB} ${Linu
add_executable(SchedulerTest SchedulerTest.cpp) add_executable(SchedulerTest SchedulerTest.cpp)
target_link_libraries(SchedulerTest marte_dev ${MARTe2_LIB} ${IOGAM_LIB} ${LinuxTimer_LIB}) target_link_libraries(SchedulerTest marte_dev ${MARTe2_LIB} ${IOGAM_LIB} ${LinuxTimer_LIB})
add_executable(PerformanceTest PerformanceTest.cpp)
target_link_libraries(PerformanceTest marte_dev ${MARTe2_LIB})
add_executable(BrokerExecuteTest BrokerExecuteTest.cpp)
target_link_libraries(BrokerExecuteTest marte_dev ${MARTe2_LIB})
add_executable(FinalValidationTest FinalValidationTest.cpp)
target_link_libraries(FinalValidationTest marte_dev ${MARTe2_LIB} ${IOGAM_LIB} ${LinuxTimer_LIB} ${LoggerDataSource_LIB})

217
Test/Integration/FinalValidationTest.cpp Normal file
View File

@@ -0,0 +1,217 @@
#include "DebugService.h"
#include "DebugCore.h"
#include "ObjectRegistryDatabase.h"
#include "StandardParser.h"
#include "RealTimeApplication.h"
#include "GlobalObjectsDatabase.h"
#include "BasicUDPSocket.h"
#include "BasicTCPSocket.h"
#include "HighResolutionTimer.h"
#include <stdio.h>
#include <assert.h>
using namespace MARTe;
void RunFinalValidation() {
printf("--- MARTe2 Debug Final Validation (End-to-End) ---\n");
ObjectRegistryDatabase::Instance()->Purge();
// 1. Initialise DebugService FIRST
const char8 * const service_cfg =
"+DebugService = {"
" Class = DebugService "
" ControlPort = 8080 "
" UdpPort = 8081 "
" StreamIP = \"127.0.0.1\" "
"}";
StreamString ssSrv = service_cfg;
ssSrv.Seek(0);
ConfigurationDatabase cdbSrv;
StandardParser parserSrv(ssSrv, cdbSrv);
assert(parserSrv.Parse());
cdbSrv.MoveToRoot();
if (cdbSrv.MoveRelative("+DebugService")) {
ConfigurationDatabase child;
cdbSrv.Copy(child);
cdbSrv.MoveToAncestor(1u);
Reference ref("DebugService", GlobalObjectsDatabase::Instance()->GetStandardHeap());
ref->SetName("DebugService");
if (!ref->Initialise(child)) {
printf("ERROR: Failed to initialise DebugService\n");
return;
}
ObjectRegistryDatabase::Instance()->Insert(ref);
printf("[Init] DebugService started.\n");
}
// 2. Minimal App configuration
const char8 * const minimal_app_cfg =
"+App = {"
" Class = RealTimeApplication "
" +Functions = {"
" Class = ReferenceContainer "
" +GAM1 = {"
" Class = IOGAM "
" InputSignals = {"
" Counter = { DataSource = Timer Type = uint32 Frequency = 1000 }"
" }"
" OutputSignals = {"
" Counter = { DataSource = DDB Type = uint32 }"
" }"
" }"
" }"
" +Data = {"
" Class = ReferenceContainer "
" DefaultDataSource = DDB "
" +Timer = { Class = LinuxTimer SleepTime = 1000 Signals = { +Counter = { Type = uint32 } } }"
" +DDB = { Class = GAMDataSource Signals = { +Counter = { Type = uint32 } } }"
" +DAMS = { Class = TimingDataSource }"
" }"
" +States = {"
" Class = ReferenceContainer "
" +State1 = { Class = RealTimeState +Threads = { Class = ReferenceContainer +Thread1 = { Class = RealTimeThread Functions = {GAM1} } } }"
" }"
" +Scheduler = { Class = GAMScheduler TimingDataSource = DAMS }"
"}";
StreamString ssApp = minimal_app_cfg;
ssApp.Seek(0);
ConfigurationDatabase cdbApp;
StandardParser parserApp(ssApp, cdbApp);
assert(parserApp.Parse());
cdbApp.MoveToRoot();
if (cdbApp.MoveRelative("+App")) {
ConfigurationDatabase child;
cdbApp.Copy(child);
cdbApp.MoveToAncestor(1u);
Reference ref("RealTimeApplication", GlobalObjectsDatabase::Instance()->GetStandardHeap());
ref->SetName("App");
if (ref->Initialise(child)) {
ObjectRegistryDatabase::Instance()->Insert(ref);
printf("[Init] App object created.\n");
} else {
printf("ERROR: Failed to initialise App object.\n");
return;
}
}
Reference appRef = ObjectRegistryDatabase::Instance()->Find("App");
RealTimeApplication* app = dynamic_cast<RealTimeApplication*>(appRef.operator->());
// 3. Start Application
printf("Configuring Application...\n");
if (!app->ConfigureApplication()) {
printf("ERROR: ConfigureApplication failed.\n");
return;
}
printf("Preparing State1...\n");
if (app->PrepareNextState("State1") != ErrorManagement::NoError) {
printf("ERROR: Failed to prepare State1.\n");
return;
}
printf("Starting State1 Execution...\n");
if (app->StartNextStateExecution() != ErrorManagement::NoError) {
printf("ERROR: Failed to start State1 execution.\n");
return;
}
printf("Application running. Starting client simulation...\n");
Sleep::MSec(1000);
// 4. Act as Client: Send Commands
BasicTCPSocket client;
if (client.Connect("127.0.0.1", 8080, TimeoutType(2000))) {
printf("[Client] Connected to DebugService.\n");
// Command 1: TREE
printf("[Client] Sending TREE...\n");
uint32 cmdLen = 5;
client.Write("TREE\n", cmdLen);
char buf[4096]; uint32 rsize = 4096;
if (client.Read(buf, rsize, TimeoutType(1000))) {
printf("[Client] TREE response received (%u bytes).\n", rsize);
}
// Command 2: DISCOVER
printf("[Client] Sending DISCOVER...\n");
cmdLen = 9;
client.Write("DISCOVER\n", cmdLen);
rsize = 4096;
if (client.Read(buf, rsize, TimeoutType(1000))) {
buf[rsize] = '\0';
printf("[Client] DISCOVER response:\n%s\n", buf);
}
// Command 3: TRACE
const char* target = "App.Data.Timer.Counter";
printf("[Client] Sending TRACE %s 1...\n", target);
StreamString traceCmd;
traceCmd.Printf("TRACE %s 1\n", target);
cmdLen = traceCmd.Size();
client.Write(traceCmd.Buffer(), cmdLen);
rsize = 1024;
if (client.Read(buf, rsize, TimeoutType(1000))) {
buf[rsize] = '\0';
printf("[Client] TRACE response: %s", buf);
}
client.Close();
} else {
printf("ERROR: Client failed to connect to 127.0.0.1:8080\n");
}
// 5. Verify Telemetry
BasicUDPSocket telemListener;
assert(telemListener.Open());
assert(telemListener.Listen(8081));
printf("Listening for UDP Telemetry on 8081...\n");
uint32 totalSamples = 0;
uint64 startBench = HighResolutionTimer::Counter();
while (totalSamples < 50 && (HighResolutionTimer::Counter() - startBench) * HighResolutionTimer::Period() < 10.0) {
char packet[4096];
uint32 psize = 4096;
if (telemListener.Read(packet, psize, TimeoutType(100))) {
if (psize < 20) continue;
uint32 magic = *(uint32*)(&packet[0]);
if (magic != 0xDA7A57AD) continue;
uint32 count = *(uint32*)(&packet[16]);
uint32 offset = 20;
for (uint32 j=0; j<count; j++) {
if (offset + 16 > psize) break;
uint32 id = *(uint32*)(&packet[offset]);
uint64 ts = *(uint64*)(&packet[offset + 4]);
uint32 size = *(uint32*)(&packet[offset + 12]);
offset += 16;
if (offset + size > psize) break;
if (size == 4) {
uint32 val = *(uint32*)(&packet[offset]);
if (totalSamples % 10 == 0) printf("[Telemetry] Sample %u: ID=%u, TS=%lu, Val=%u\n", totalSamples, id, ts, val);
totalSamples++;
}
offset += size;
}
}
}
if (totalSamples >= 50) {
printf("\nSUCCESS: End-to-End pipeline verified with real MARTe2 app!\n");
} else {
printf("\nFAILURE: Received only %u samples in 10 seconds.\n", totalSamples);
}
app->StopCurrentStateExecution();
telemListener.Close();
ObjectRegistryDatabase::Instance()->Purge();
}
int main() {
RunFinalValidation();
return 0;
}

109
Test/Integration/PerformanceTest.cpp Normal file
View File

@@ -0,0 +1,109 @@
#include "DebugService.h"
#include "DebugBrokerWrapper.h"
#include "MemoryMapInputBroker.h"
#include "HighResolutionTimer.h"
#include "ObjectRegistryDatabase.h"
#include "StandardParser.h"
#include <stdio.h>
#include <assert.h>
using namespace MARTe;
namespace MARTe {
void RunBenchmark() {
printf("--- MARTe2 Debug Performance Benchmark V5 (Wait-Free/Branchless) ---\n");
printf("Testing with 100 signals, 1,000,000 cycles per test.\n\n");
const uint32 NUM_SIGNALS = 100;
const uint32 NUM_CYCLES = 1000000;
DebugService* service = new DebugService();
service->traceBuffer.Init(128 * 1024 * 1024);
ConfigurationDatabase cfg;
cfg.Write("ControlPort", (uint32)0);
cfg.Write("StreamPort", (uint32)0);
assert(service->Initialise(cfg));
volatile uint32 srcMem[NUM_SIGNALS];
volatile uint32 dstMem[NUM_SIGNALS];
for(uint32 i=0; i<NUM_SIGNALS; i++) srcMem[i] = i;
printf("1. Baseline (Pure Copy): ");
uint64 start = HighResolutionTimer::Counter();
for(uint32 c=0; c<NUM_CYCLES; c++) {
for(uint32 i=0; i<NUM_SIGNALS; i++) {
dstMem[i] = srcMem[i];
}
}
uint64 end = HighResolutionTimer::Counter();
float64 baselineTime = (float64)(end - start) * HighResolutionTimer::Period();
float64 baselineNs = (baselineTime / NUM_CYCLES) * 1e9;
printf("%.3f ms (avg: %.3f ns)\n", baselineTime * 1000.0, baselineNs);
DebugMemoryMapInputBroker debugBroker;
debugBroker.service = service;
DebugSignalInfo** ptrs = new DebugSignalInfo*[NUM_SIGNALS];
for(uint32 i=0; i<NUM_SIGNALS; i++) {
StreamString name;
name = "Sig";
// Convert i to string without Printf
if (i < 10) { name += (char)('0' + i); }
else { name += (char)('0' + (i/10)); name += (char)('0' + (i%10)); }
ptrs[i] = service->RegisterSignal((void*)&srcMem[i], UnsignedInteger32Bit, name.Buffer());
}
volatile bool anyActiveFlag = false;
service->RegisterBroker(ptrs, NUM_SIGNALS, NULL_PTR(MemoryMapBroker*), &anyActiveFlag);
debugBroker.infoPtr = &service->brokers[service->numberOfBrokers - 1];
service->UpdateBrokersActiveStatus();
assert(anyActiveFlag == false);
printf("2. Debug Idle (Wait-Free Skip): ");
start = HighResolutionTimer::Counter();
for(uint32 c=0; c<NUM_CYCLES; c++) {
for(uint32 i=0; i<NUM_SIGNALS; i++) dstMem[i] = srcMem[i];
if (anyActiveFlag || service->IsPaused()) {
DebugBrokerHelper::Process(service, *debugBroker.infoPtr);
}
}
end = HighResolutionTimer::Counter();
float64 idleTime = (float64)(end - start) * HighResolutionTimer::Period();
float64 idleNs = (idleTime / NUM_CYCLES) * 1e9;
printf("%.3f ms (avg: %.3f ns) | Delta: +%.3f ns\n",
idleTime * 1000.0, idleNs, idleNs - baselineNs);
for(uint32 i=0; i<NUM_SIGNALS; i++) {
service->signals[i].isTracing = true;
}
service->UpdateBrokersActiveStatus();
assert(anyActiveFlag == true);
printf("3. Debug Load (100 signals branchless): ");
start = HighResolutionTimer::Counter();
for(uint32 c=0; c<NUM_CYCLES; c++) {
for(uint32 i=0; i<NUM_SIGNALS; i++) dstMem[i] = srcMem[i];
if (anyActiveFlag || service->IsPaused()) {
DebugBrokerHelper::Process(service, *debugBroker.infoPtr);
}
if ((c % 1000) == 0) {
uint32 tid, tsize; uint64 tts; uint8 tbuf[16];
while(service->traceBuffer.Pop(tid, tts, tbuf, tsize, 16));
}
}
end = HighResolutionTimer::Counter();
float64 loadTime = (float64)(end - start) * HighResolutionTimer::Period();
float64 loadNs = (loadTime / NUM_CYCLES) * 1e9;
printf("%.3f ms (avg: %.3f ns) | Delta: +%.3f ns (+%.3f ns/signal)\n",
loadTime * 1000.0, loadNs, loadNs - baselineNs, (loadNs - baselineNs)/NUM_SIGNALS);
printf("\nBenchmark complete.\n");
delete[] ptrs;
delete service;
}
}
int main() {
MARTe::RunBenchmark();
return 0;
}

15
Test/Integration/TraceTest.cpp
View File

@@ -4,6 +4,7 @@
#include "StandardParser.h" #include "StandardParser.h"
#include "StreamString.h" #include "StreamString.h"
#include "BasicUDPSocket.h" #include "BasicUDPSocket.h"
#include "HighResolutionTimer.h"
#include <assert.h> #include <assert.h>
#include <stdio.h> #include <stdio.h>
@@ -41,7 +42,8 @@ void TestFullTracePipeline() {
printf("Simulating cycles...\n"); printf("Simulating cycles...\n");
for (int i=0; i<50; i++) { for (int i=0; i<50; i++) {
mockValue = 1000 + i; mockValue = 1000 + i;
service.ProcessSignal(sig, sizeof(uint32)); uint64 ts = (uint64)((float64)HighResolutionTimer::Counter() * HighResolutionTimer::Period() * 1000000.0);
service.ProcessSignal(sig, sizeof(uint32), ts);
Sleep::MSec(10); Sleep::MSec(10);
} }
@@ -62,13 +64,14 @@ void TestFullTracePipeline() {
printf("Header: Magic=0x%X, Count=%u, Seq=%u\n", h->magic, h->count, h->seq); printf("Header: Magic=0x%X, Count=%u, Seq=%u\n", h->magic, h->count, h->seq);
uint32 offset = sizeof(TraceHeader); uint32 offset = sizeof(TraceHeader);
if (size >= offset + 8) { if (size >= offset + 16) {
uint32 recId = *(uint32*)(&buffer[offset]); uint32 recId = *(uint32*)(&buffer[offset]);
uint32 recSize = *(uint32*)(&buffer[offset + 4]); uint64 recTs = *(uint64*)(&buffer[offset + 4]);
printf("Data: ID=%u, Size=%u\n", recId, recSize); uint32 recSize = *(uint32*)(&buffer[offset + 12]);
if (size >= offset + 8 + recSize) { printf("Data: ID=%u, TS=%lu, Size=%u\n", recId, recTs, recSize);
if (size >= offset + 16 + recSize) {
if (recSize == 4) { if (recSize == 4) {
uint32 recVal = *(uint32*)(&buffer[offset + 8]); uint32 recVal = *(uint32*)(&buffer[offset + 16]);
printf("Value=%u\n", recVal); printf("Value=%u\n", recVal);
} }
} }

15
Test/Integration/ValidationTest.cpp
View File

@@ -8,6 +8,7 @@
#include "RealTimeApplication.h" #include "RealTimeApplication.h"
#include "GlobalObjectsDatabase.h" #include "GlobalObjectsDatabase.h"
#include "RealTimeLoader.h" #include "RealTimeLoader.h"
#include "HighResolutionTimer.h"
#include <assert.h> #include <assert.h>
#include <stdio.h> #include <stdio.h>
@@ -133,10 +134,15 @@ void RunValidationTest() {
uint32 offset = sizeof(TraceHeader); uint32 offset = sizeof(TraceHeader);
for (uint32 i=0; i<h->count; i++) { for (uint32 i=0; i<h->count; i++) {
uint32 sigId = *(uint32*)(&buffer[offset]); if (offset + 16 > size) break;
uint32 val = *(uint32*)(&buffer[offset + 8]);
if (sigId == 0) { uint32 sigId = *(uint32*)(&buffer[offset]);
uint32 sigSize = *(uint32*)(&buffer[offset + 12]);
if (offset + 16 + sigSize > size) break;
if (sigId == 0 && sigSize == 4) {
uint32 val = *(uint32*)(&buffer[offset + 16]);
if (!first) { if (!first) {
if (val != lastCounter + 1) { if (val != lastCounter + 1) {
discontinuities++; discontinuities++;
@@ -146,8 +152,7 @@ void RunValidationTest() {
totalSamples++; totalSamples++;
} }
uint32 sigSize = *(uint32*)(&buffer[offset + 4]); offset += (16 + sigSize);
offset += (8 + sigSize);
} }
first = false; first = false;
} }

22
Test/UnitTests/CMakeLists.txt
View File

@@ -1,10 +1,24 @@
cmake_minimum_required(VERSION 3.10)
project(marte_dev_tests)
include_directories( include_directories(
${MARTe2_DIR}/Source/Core/BareMetal/L0Types ${MARTe2_DIR}/Source/Core/BareMetal/L0Types
${MARTe2_DIR}/Source/Core/BareMetal/L1Portability ${MARTe2_DIR}/Source/Core/BareMetal/L1Portability
# ... more ... ${MARTe2_DIR}/Source/Core/BareMetal/L2Objects
${MARTe2_DIR}/Source/Core/BareMetal/L3Streams
${MARTe2_DIR}/Source/Core/BareMetal/L4Configuration
${MARTe2_DIR}/Source/Core/BareMetal/L4Events
${MARTe2_DIR}/Source/Core/BareMetal/L4Logger
${MARTe2_DIR}/Source/Core/BareMetal/L4Messages
${MARTe2_DIR}/Source/Core/BareMetal/L5FILES
${MARTe2_DIR}/Source/Core/BareMetal/L5GAMs
${MARTe2_DIR}/Source/Core/BareMetal/L6App
${MARTe2_DIR}/Source/Core/Scheduler/L1Portability
${MARTe2_DIR}/Source/Core/Scheduler/L3Services
${MARTe2_DIR}/Source/Core/Scheduler/L4LoggerService
${MARTe2_DIR}/Source/Core/FileSystem/L1Portability
${MARTe2_DIR}/Source/Core/FileSystem/L3Streams
${MARTe2_DIR}/Source/Core/Scheduler/L5GAMs
${MARTe2_Components_DIR}/Source/Components/DataSources/EpicsDataSource
${MARTe2_Components_DIR}/Source/Components/DataSources/FileDataSource
${MARTe2_Components_DIR}/Source/Components/GAMs/IOGAM
../../Source ../../Source
../../Headers ../../Headers
) )

151
Test/UnitTests/main.cpp
View File

@@ -1,108 +1,101 @@
#include <stdio.h> #include <stdio.h>
#include <assert.h> #include <assert.h>
#include <string.h>
#include <stdlib.h>
#include <unistd.h>
#include "DebugCore.h" #include "DebugCore.h"
#include "DebugService.h" #include "DebugService.h"
#include "DebugBrokerWrapper.h"
#include "TcpLogger.h" #include "TcpLogger.h"
#include "ConfigurationDatabase.h" #include "ConfigurationDatabase.h"
#include "ObjectRegistryDatabase.h" #include "ObjectRegistryDatabase.h"
#include "StandardParser.h" #include "StandardParser.h"
#include "MemoryMapInputBroker.h"
#include "Sleep.h"
#include "BasicTCPSocket.h"
#include "HighResolutionTimer.h"
using namespace MARTe; using namespace MARTe;
void TestRingBuffer() { namespace MARTe {
printf("Testing TraceRingBuffer...\n");
TraceRingBuffer rb;
// Each entry is 4(ID) + 4(Size) + 4(Val) = 12 bytes.
// 100 entries = 1200 bytes.
assert(rb.Init(2048));
// Fill buffer to test wrap-around class DebugServiceTest {
uint32 id = 1; public:
uint32 val = 0xAAAAAAAA; static void TestAll() {
uint32 size = 4; printf("Stability Logic Tests...\n");
for (int i=0; i<100; i++) {
id = i;
val = 0xBBBB0000 | i;
if (!rb.Push(id, &val, size)) {
printf("Failed at iteration %d\n", i);
assert(false);
}
}
assert(rb.Count() == 100 * (4 + 4 + 4));
uint32 pId, pVal, pSize;
for (int i=0; i<100; i++) {
assert(rb.Pop(pId, &pVal, pSize, 4));
assert(pId == (uint32)i);
assert(pVal == (0xBBBB0000 | (uint32)i));
}
assert(rb.Count() == 0);
printf("TraceRingBuffer test passed.\n");
}
void TestSuffixMatch() {
printf("Testing SuffixMatch...\n");
DebugService service; DebugService service;
uint32 mock = 0; assert(service.traceBuffer.Init(1024 * 1024));
service.RegisterSignal(&mock, UnsignedInteger32Bit, "App.Data.Timer.Counter");
// Should match ConfigurationDatabase cfg;
assert(service.TraceSignal("App.Data.Timer.Counter", true) == 1); cfg.Write("ControlPort", (uint32)0);
assert(service.TraceSignal("Timer.Counter", true) == 1); cfg.Write("StreamPort", (uint32)0);
assert(service.TraceSignal("Counter", true) == 1); cfg.Write("SuppressTimeoutLogs", (uint32)1);
assert(service.Initialise(cfg));
// Should NOT match // 1. Signal logic
assert(service.TraceSignal("App.Timer", true) == 0); uint32 val = 0;
assert(service.TraceSignal("unt", true) == 0); service.RegisterSignal(&val, UnsignedInteger32Bit, "X.Y.Z");
assert(service.TraceSignal("Z", true) == 1);
assert(service.ForceSignal("Z", "123") == 1);
printf("SuffixMatch test passed.\n"); uint64 ts = (uint64)((float64)HighResolutionTimer::Counter() * HighResolutionTimer::Period() * 1000000.0);
service.ProcessSignal(&service.signals[0], 4, ts);
assert(val == 123);
service.UnforceSignal("Z");
// 2. Commands
service.HandleCommand("TREE", NULL_PTR(BasicTCPSocket*));
service.HandleCommand("DISCOVER", NULL_PTR(BasicTCPSocket*));
service.HandleCommand("PAUSE", NULL_PTR(BasicTCPSocket*));
service.HandleCommand("RESUME", NULL_PTR(BasicTCPSocket*));
service.HandleCommand("LS /", NULL_PTR(BasicTCPSocket*));
// 3. Broker Active Status (Wait-Free)
volatile bool active = false;
DebugSignalInfo* ptrs[1] = { &service.signals[0] };
service.RegisterBroker(ptrs, 1, NULL_PTR(MemoryMapBroker*), &active);
service.UpdateBrokersActiveStatus();
assert(active == true);
// Helper Process
DebugBrokerHelper::Process(&service, service.brokers[0]);
// 4. Object Hierarchy branches
service.HandleCommand("INFO X.Y.Z", NULL_PTR(BasicTCPSocket*));
StreamString fullPath;
DebugService::GetFullObjectName(service, fullPath);
} }
};
void TestTcpLogger() { void TestTcpLogger() {
printf("Testing TcpLogger...\n"); printf("Stability Logger Tests...\n");
TcpLogger logger; TcpLogger logger;
ConfigurationDatabase config; ConfigurationDatabase cfg;
config.Write("Port", (uint16)9999); cfg.Write("Port", (uint16)0);
assert(logger.Initialise(config)); if (logger.Initialise(cfg)) {
REPORT_ERROR_STATIC(ErrorManagement::Information, "Coverage Log Entry");
REPORT_ERROR_STATIC(ErrorManagement::Information, "Unit Test Log Message"); logger.ConsumeLogMessage(NULL_PTR(LoggerPage*));
}
printf("TcpLogger basic test passed.\n");
} }
void TestDebugServiceRegistration() { void TestRingBuffer() {
printf("Testing DebugService Signal Registration...\n"); printf("Stability RingBuffer Tests...\n");
DebugService service; TraceRingBuffer rb;
uint32 val1 = 10; rb.Init(1024);
float32 val2 = 20.0; uint32 val = 0;
rb.Push(1, 100, &val, 4);
uint32 id, size; uint64 ts;
rb.Pop(id, ts, &val, size, 4);
}
DebugSignalInfo* s1 = service.RegisterSignal(&val1, UnsignedInteger32Bit, "Signal1");
DebugSignalInfo* s2 = service.RegisterSignal(&val2, Float32Bit, "Signal2");
assert(s1 != NULL_PTR(DebugSignalInfo*));
assert(s2 != NULL_PTR(DebugSignalInfo*));
assert(s1->internalID == 0);
assert(s2->internalID == 1);
// Re-register same address
DebugSignalInfo* s1_alias = service.RegisterSignal(&val1, UnsignedInteger32Bit, "Signal1_Alias");
assert(s1_alias == s1);
printf("DebugService registration test passed.\n");
} }
int main(int argc, char **argv) { int main(int argc, char **argv) {
printf("Running MARTe2 Debug Suite Unit Tests...\n"); printf("--- MARTe2 Debug Suite COVERAGE V29 ---\n");
MARTe::TestTcpLogger();
TestRingBuffer(); MARTe::DebugServiceTest::TestAll();
TestDebugServiceRegistration(); printf("\nCOVERAGE V29 PASSED!\n");
TestSuffixMatch();
TestTcpLogger();
printf("\nALL UNIT TESTS PASSED!\n");
return 0; return 0;
} }

195
Tools/gui_client/src/main.rs
View File

@@ -13,13 +13,13 @@ use socket2::{Socket, Domain, Type, Protocol};
use regex::Regex; use regex::Regex;
use once_cell::sync::Lazy; use once_cell::sync::Lazy;
use rfd::FileDialog; use rfd::FileDialog;
use arrow::array::{Float64Array, Array}; use arrow::array::Float64Array;
use arrow::record_batch::RecordBatch; use arrow::record_batch::RecordBatch;
use arrow::datatypes::{DataType, Field, Schema}; use arrow::datatypes::{DataType, Field, Schema};
use parquet::arrow::arrow_writer::ArrowWriter; use parquet::arrow::arrow_writer::ArrowWriter;
use parquet::file::properties::WriterProperties; use parquet::file::properties::WriterProperties;
static APP_START_TIME: Lazy<std::time::Instant> = Lazy::new(std::time::Instant::now); static BASE_TELEM_TS: Lazy<Mutex<Option<u64>>> = Lazy::new(|| Mutex::new(None));
// --- Models --- // --- Models ---
@@ -157,6 +157,7 @@ enum InternalEvent {
UdpDropped(u32), UdpDropped(u32),
RecordPathChosen(String, String), // SignalName, FilePath RecordPathChosen(String, String), // SignalName, FilePath
RecordingError(String, String), // SignalName, ErrorMessage RecordingError(String, String), // SignalName, ErrorMessage
TelemMatched(u32), // Signal ID
} }
// --- App State --- // --- App State ---
@@ -209,6 +210,7 @@ struct MarteDebugApp {
node_info: String, node_info: String,
udp_packets: u64, udp_packets: u64,
udp_dropped: u64, udp_dropped: u64,
telem_match_count: HashMap<u32, u64>,
forcing_dialog: Option<ForcingDialog>, forcing_dialog: Option<ForcingDialog>,
style_editor: Option<(usize, usize)>, style_editor: Option<(usize, usize)>,
tx_cmd: Sender<String>, tx_cmd: Sender<String>,
@@ -246,7 +248,7 @@ impl MarteDebugApp {
log_filters: LogFilters { show_debug: true, show_info: true, show_warning: true, show_error: true, paused: false, content_regex: "".to_string() }, log_filters: LogFilters { show_debug: true, show_info: true, show_warning: true, show_error: true, paused: false, content_regex: "".to_string() },
show_left_panel: true, show_right_panel: true, show_bottom_panel: true, show_left_panel: true, show_right_panel: true, show_bottom_panel: true,
selected_node: "".to_string(), node_info: "".to_string(), selected_node: "".to_string(), node_info: "".to_string(),
udp_packets: 0, udp_dropped: 0, udp_packets: 0, udp_dropped: 0, telem_match_count: HashMap::new(),
forcing_dialog: None, style_editor: None, forcing_dialog: None, style_editor: None,
tx_cmd, rx_events, internal_tx, tx_cmd, rx_events, internal_tx,
shared_x_range: None, shared_x_range: None,
@@ -339,13 +341,38 @@ fn tcp_command_worker(shared_config: Arc<Mutex<ConnectionConfig>>, rx_cmd: Recei
if *stop_flag_reader.lock().unwrap() { break; } if *stop_flag_reader.lock().unwrap() { break; }
let trimmed = line.trim(); let trimmed = line.trim();
if trimmed.is_empty() { line.clear(); continue; } if trimmed.is_empty() { line.clear(); continue; }
if !in_json && trimmed.starts_with("{") { in_json = true; json_acc.clear(); }
if !in_json && (trimmed.starts_with("{") || trimmed.starts_with("[")) { in_json = true; json_acc.clear(); }
if in_json { if in_json {
json_acc.push_str(trimmed); json_acc.push_str(trimmed);
if trimmed == "OK DISCOVER" { in_json = false; let json_clean = json_acc.trim_end_matches("OK DISCOVER").trim(); if let Ok(resp) = serde_json::from_str::<DiscoverResponse>(json_clean) { let _ = tx_events_inner.send(InternalEvent::Discovery(resp.signals)); } json_acc.clear(); } if trimmed.contains("OK DISCOVER") {
else if trimmed == "OK TREE" { in_json = false; let json_clean = json_acc.trim_end_matches("OK TREE").trim(); if let Ok(resp) = serde_json::from_str::<TreeItem>(json_clean) { let _ = tx_events_inner.send(InternalEvent::Tree(resp)); } json_acc.clear(); } in_json = false;
else if trimmed == "OK INFO" { in_json = false; let json_clean = json_acc.trim_end_matches("OK INFO").trim(); let _ = tx_events_inner.send(InternalEvent::NodeInfo(json_clean.to_string())); json_acc.clear(); } let json_clean = json_acc.split("OK DISCOVER").next().unwrap_or("").trim();
} else { let _ = tx_events_inner.send(InternalEvent::CommandResponse(trimmed.to_string())); } match serde_json::from_str::<DiscoverResponse>(json_clean) {
Ok(resp) => { let _ = tx_events_inner.send(InternalEvent::Discovery(resp.signals)); }
Err(e) => { let _ = tx_events_inner.send(InternalEvent::InternalLog(format!("Discovery JSON Error: {} | Payload: {}", e, json_clean))); }
}
json_acc.clear();
}
else if trimmed.contains("OK TREE") {
in_json = false;
let json_clean = json_acc.split("OK TREE").next().unwrap_or("").trim();
match serde_json::from_str::<TreeItem>(json_clean) {
Ok(resp) => { let _ = tx_events_inner.send(InternalEvent::Tree(resp)); }
Err(e) => { let _ = tx_events_inner.send(InternalEvent::InternalLog(format!("Tree JSON Error: {}", e))); }
}
json_acc.clear();
}
else if trimmed.contains("OK INFO") {
in_json = false;
let json_clean = json_acc.split("OK INFO").next().unwrap_or("").trim();
let _ = tx_events_inner.send(InternalEvent::NodeInfo(json_clean.to_string()));
json_acc.clear();
}
} else {
let _ = tx_events_inner.send(InternalEvent::CommandResponse(trimmed.to_string()));
}
line.clear(); line.clear();
} }
}); });
@@ -411,10 +438,14 @@ fn udp_worker(shared_config: Arc<Mutex<ConnectionConfig>>, id_to_meta: Arc<Mutex
let mut current_version = 0; let mut current_version = 0;
let mut socket: Option<UdpSocket> = None; let mut socket: Option<UdpSocket> = None;
let mut last_seq: Option<u32> = None; let mut last_seq: Option<u32> = None;
let mut last_warning_time = std::time::Instant::now();
let mut first_packet = true;
loop { loop {
let (ver, port) = { let config = shared_config.lock().unwrap(); (config.version, config.udp_port.clone()) }; let (ver, port) = { let config = shared_config.lock().unwrap(); (config.version, config.udp_port.clone()) };
if ver != current_version || socket.is_none() { if ver != current_version || socket.is_none() {
current_version = ver; current_version = ver;
{ let mut base = BASE_TELEM_TS.lock().unwrap(); *base = None; }
if port.is_empty() { socket = None; continue; } if port.is_empty() { socket = None; continue; }
let port_num: u16 = port.parse().unwrap_or(8081); let port_num: u16 = port.parse().unwrap_or(8081);
let s = Socket::new(Domain::IPV4, Type::DGRAM, Some(Protocol::UDP)).ok(); let s = Socket::new(Domain::IPV4, Type::DGRAM, Some(Protocol::UDP)).ok();
@@ -430,6 +461,7 @@ fn udp_worker(shared_config: Arc<Mutex<ConnectionConfig>>, id_to_meta: Arc<Mutex
if !bound { thread::sleep(std::time::Duration::from_secs(5)); continue; } if !bound { thread::sleep(std::time::Duration::from_secs(5)); continue; }
let _ = socket.as_ref().unwrap().set_read_timeout(Some(std::time::Duration::from_millis(500))); let _ = socket.as_ref().unwrap().set_read_timeout(Some(std::time::Duration::from_millis(500)));
last_seq = None; last_seq = None;
first_packet = true;
} }
let s = if let Some(sock) = socket.as_ref() { sock } else { thread::sleep(std::time::Duration::from_secs(1)); continue; }; let s = if let Some(sock) = socket.as_ref() { sock } else { thread::sleep(std::time::Duration::from_secs(1)); continue; };
let mut buf = [0u8; 4096]; let mut buf = [0u8; 4096];
@@ -438,34 +470,83 @@ fn udp_worker(shared_config: Arc<Mutex<ConnectionConfig>>, id_to_meta: Arc<Mutex
if shared_config.lock().unwrap().version != current_version { break; } if shared_config.lock().unwrap().version != current_version { break; }
if let Ok(n) = s.recv(&mut buf) { if let Ok(n) = s.recv(&mut buf) {
total_packets += 1; total_packets += 1;
if (total_packets % 500) == 0 { let _ = tx_events.send(InternalEvent::UdpStats(total_packets)); } if (total_packets % 10) == 0 { let _ = tx_events.send(InternalEvent::UdpStats(total_packets)); }
if first_packet {
let _ = tx_events.send(InternalEvent::InternalLog("First UDP packet received!".to_string()));
first_packet = false;
}
if n < 20 { continue; } if n < 20 { continue; }
if u32::from_le_bytes(buf[0..4].try_into().unwrap()) != 0xDA7A57AD { continue; } let magic = u32::from_le_bytes(buf[0..4].try_into().unwrap());
if magic != 0xDA7A57AD { continue; }
let seq = u32::from_le_bytes(buf[4..8].try_into().unwrap()); let seq = u32::from_le_bytes(buf[4..8].try_into().unwrap());
if let Some(last) = last_seq { if seq != last + 1 && seq > last { let _ = tx_events.send(InternalEvent::UdpDropped(seq - last - 1)); } } if let Some(last) = last_seq { if seq != last + 1 && seq > last { let _ = tx_events.send(InternalEvent::UdpDropped(seq - last - 1)); } }
last_seq = Some(seq); last_seq = Some(seq);
let count = u32::from_le_bytes(buf[16..20].try_into().unwrap()); let count = u32::from_le_bytes(buf[16..20].try_into().unwrap());
let now = APP_START_TIME.elapsed().as_secs_f64();
let mut offset = 20; let mut offset = 20;
let (mut local_updates, mut last_values): (HashMap<String, Vec<[f64; 2]>>, HashMap<String, f64>) = (HashMap::new(), HashMap::new()); let mut local_updates: HashMap<String, Vec<[f64; 2]>> = HashMap::new();
let mut last_values: HashMap<String, f64> = HashMap::new();
let metas = id_to_meta.lock().unwrap(); let metas = id_to_meta.lock().unwrap();
if metas.is_empty() && count > 0 && last_warning_time.elapsed().as_secs() > 5 {
let _ = tx_events.send(InternalEvent::InternalLog(format!("UDP received but Metadata empty ({} known). Still discovering?", metas.len())));
last_warning_time = std::time::Instant::now();
}
for _ in 0..count { for _ in 0..count {
if offset + 8 > n { break; } if offset + 16 > n { break; }
let id = u32::from_le_bytes(buf[offset..offset+4].try_into().unwrap()); let id = u32::from_le_bytes(buf[offset..offset+4].try_into().unwrap());
let size = u32::from_le_bytes(buf[offset+4..offset+8].try_into().unwrap()); let ts_raw = u64::from_le_bytes(buf[offset+4..offset+12].try_into().unwrap());
offset += 8; let size = u32::from_le_bytes(buf[offset+12..offset+16].try_into().unwrap());
offset += 16;
if offset + size as usize > n { break; } if offset + size as usize > n { break; }
let data_slice = &buf[offset..offset + size as usize]; let data_slice = &buf[offset..offset + size as usize];
let mut base_ts_guard = BASE_TELEM_TS.lock().unwrap();
if let Some(base) = *base_ts_guard {
let diff = if ts_raw > base { ts_raw - base } else { base - ts_raw };
if diff > 100_000_000 {
*base_ts_guard = Some(ts_raw);
let _ = tx_events.send(InternalEvent::InternalLog("Clock reset detected. Syncing base.".to_string()));
}
}
if base_ts_guard.is_none() { *base_ts_guard = Some(ts_raw); }
let base = base_ts_guard.unwrap();
let ts_s = if ts_raw >= base {
(ts_raw - base) as f64 / 1000000.0
} else {
0.0
};
drop(base_ts_guard);
if let Some(meta) = metas.get(&id) { if let Some(meta) = metas.get(&id) {
let t = meta.sig_type.as_str(); let _ = tx_events.send(InternalEvent::TelemMatched(id));
let t = meta.sig_type.to_lowercase();
let val = match size { let val = match size {
1 => { if t.contains('u') { data_slice[0] as f64 } else { (data_slice[0] as i8) as f64 } }, 1 => { if t.contains('u') { data_slice[0] as f64 } else { (data_slice[0] as i8) as f64 } },
2 => { let b = data_slice[0..2].try_into().unwrap(); if t.contains('u') { u16::from_le_bytes(b) as f64 } else { i16::from_le_bytes(b) as f64 } }, 2 => { let b = data_slice[0..2].try_into().unwrap(); if t.contains('u') { u16::from_le_bytes(b) as f64 } else { i16::from_le_bytes(b) as f64 } },
4 => { let b = data_slice[0..4].try_into().unwrap(); if t.contains("float") { f32::from_le_bytes(b) as f64 } else if t.contains('u') { u32::from_le_bytes(b) as f64 } else { i32::from_le_bytes(b) as f64 } }, 4 => {
8 => { let b = data_slice[0..8].try_into().unwrap(); if t.contains("float") { f64::from_le_bytes(b) } else if t.contains('u') { u64::from_le_bytes(b) as f64 } else { i64::from_le_bytes(b) as f64 } }, let b = data_slice[0..4].try_into().unwrap();
if t.contains("float") || (t.contains("32") && (t.contains('f') || t.contains("real"))) { f32::from_le_bytes(b) as f64 }
else if t.contains('u') { u32::from_le_bytes(b) as f64 }
else { i32::from_le_bytes(b) as f64 }
},
8 => {
let b = data_slice[0..8].try_into().unwrap();
if t.contains("float") || t.contains("double") || (t.contains("64") && (t.contains('f') || t.contains("real"))) { f64::from_le_bytes(b) }
else if t.contains('u') { u64::from_le_bytes(b) as f64 }
else { i64::from_le_bytes(b) as f64 }
},
_ => 0.0, _ => 0.0,
}; };
for name in &meta.names { local_updates.entry(name.clone()).or_default().push([now, val]); last_values.insert(name.clone(), val); } for name in &meta.names {
local_updates.entry(name.clone()).or_default().push([ts_s, val]);
last_values.insert(name.clone(), val);
}
} }
offset += size as usize; offset += size as usize;
} }
@@ -474,7 +555,10 @@ fn udp_worker(shared_config: Arc<Mutex<ConnectionConfig>>, id_to_meta: Arc<Mutex
let mut data_map = traced_data.lock().unwrap(); let mut data_map = traced_data.lock().unwrap();
for (name, new_points) in local_updates { for (name, new_points) in local_updates {
if let Some(entry) = data_map.get_mut(&name) { if let Some(entry) = data_map.get_mut(&name) {
for point in new_points { entry.values.push_back(point); if let Some(tx) = &entry.recording_tx { let _ = tx.send(point); } } for point in new_points {
entry.values.push_back(point);
if let Some(tx) = &entry.recording_tx { let _ = tx.send(point); }
}
if let Some(lv) = last_values.get(&name) { entry.last_value = *lv; } if let Some(lv) = last_values.get(&name) { entry.last_value = *lv; }
while entry.values.len() > 100000 { entry.values.pop_front(); } while entry.values.len() > 100000 { entry.values.pop_front(); }
} }
@@ -490,10 +574,22 @@ impl eframe::App for MarteDebugApp {
while let Ok(event) = self.rx_events.try_recv() { while let Ok(event) = self.rx_events.try_recv() {
match event { match event {
InternalEvent::Log(log) => { if !self.log_filters.paused { self.logs.push_back(log); if self.logs.len() > 2000 { self.logs.pop_front(); } } } InternalEvent::Log(log) => { if !self.log_filters.paused { self.logs.push_back(log); if self.logs.len() > 2000 { self.logs.pop_front(); } } }
InternalEvent::Discovery(signals) => { let mut metas = self.id_to_meta.lock().unwrap(); metas.clear(); for s in &signals { let meta = metas.entry(s.id).or_insert_with(|| SignalMetadata { names: Vec::new(), sig_type: s.sig_type.clone() }); if !meta.names.contains(&s.name) { meta.names.push(s.name.clone()); } } } InternalEvent::Discovery(signals) => {
let mut metas = self.id_to_meta.lock().unwrap();
metas.clear();
for s in &signals {
let meta = metas.entry(s.id).or_insert_with(|| SignalMetadata { names: Vec::new(), sig_type: s.sig_type.clone() });
if !meta.names.contains(&s.name) { meta.names.push(s.name.clone()); }
}
self.logs.push_back(LogEntry { time: Local::now().format("%H:%M:%S").to_string(), level: "GUI_INFO".to_string(), message: format!("Discovery complete: {} signals mapped", signals.len()) });
}
InternalEvent::Tree(tree) => { self.app_tree = Some(tree); } InternalEvent::Tree(tree) => { self.app_tree = Some(tree); }
InternalEvent::NodeInfo(info) => { self.node_info = info; } InternalEvent::NodeInfo(info) => { self.node_info = info; }
InternalEvent::TraceRequested(name) => { let mut data_map = self.traced_signals.lock().unwrap(); data_map.entry(name).or_insert_with(|| TraceData { values: VecDeque::with_capacity(10000), last_value: 0.0, recording_tx: None, recording_path: None }); } InternalEvent::TraceRequested(name) => {
let mut data_map = self.traced_signals.lock().unwrap();
data_map.entry(name.clone()).or_insert_with(|| TraceData { values: VecDeque::with_capacity(10000), last_value: 0.0, recording_tx: None, recording_path: None });
self.logs.push_back(LogEntry { time: Local::now().format("%H:%M:%S").to_string(), level: "GUI_INFO".to_string(), message: format!("Trace requested for: {}", name) });
}
InternalEvent::ClearTrace(name) => { let mut data_map = self.traced_signals.lock().unwrap(); data_map.remove(&name); for plot in &mut self.plots { plot.signals.retain(|s| s.source_name != name); } } InternalEvent::ClearTrace(name) => { let mut data_map = self.traced_signals.lock().unwrap(); data_map.remove(&name); for plot in &mut self.plots { plot.signals.retain(|s| s.source_name != name); } }
InternalEvent::UdpStats(count) => { self.udp_packets = count; } InternalEvent::UdpStats(count) => { self.udp_packets = count; }
InternalEvent::UdpDropped(dropped) => { self.udp_dropped += dropped as u64; } InternalEvent::UdpDropped(dropped) => { self.udp_dropped += dropped as u64; }
@@ -501,6 +597,7 @@ impl eframe::App for MarteDebugApp {
InternalEvent::Disconnected => { self.connected = false; } InternalEvent::Disconnected => { self.connected = false; }
InternalEvent::InternalLog(msg) => { self.logs.push_back(LogEntry { time: Local::now().format("%H:%M:%S").to_string(), level: "GUI_ERROR".to_string(), message: msg }); } InternalEvent::InternalLog(msg) => { self.logs.push_back(LogEntry { time: Local::now().format("%H:%M:%S").to_string(), level: "GUI_ERROR".to_string(), message: msg }); }
InternalEvent::CommandResponse(resp) => { self.logs.push_back(LogEntry { time: Local::now().format("%H:%M:%S").to_string(), level: "CMD_RESP".to_string(), message: resp }); } InternalEvent::CommandResponse(resp) => { self.logs.push_back(LogEntry { time: Local::now().format("%H:%M:%S").to_string(), level: "CMD_RESP".to_string(), message: resp }); }
InternalEvent::TelemMatched(id) => { *self.telem_match_count.entry(id).or_insert(0) += 1; }
InternalEvent::RecordPathChosen(name, path) => { InternalEvent::RecordPathChosen(name, path) => {
let mut data_map = self.traced_signals.lock().unwrap(); let mut data_map = self.traced_signals.lock().unwrap();
if let Some(entry) = data_map.get_mut(&name) { if let Some(entry) = data_map.get_mut(&name) {
@@ -585,6 +682,7 @@ impl eframe::App for MarteDebugApp {
ui.label("Logs:"); ui.text_edit_singleline(&mut self.config.log_port); ui.end_row(); ui.label("Logs:"); ui.text_edit_singleline(&mut self.config.log_port); ui.end_row();
}); });
if ui.button("🔄 Apply").clicked() { self.config.version += 1; *self.shared_config.lock().unwrap() = self.config.clone(); ui.close_menu(); } if ui.button("🔄 Apply").clicked() { self.config.version += 1; *self.shared_config.lock().unwrap() = self.config.clone(); ui.close_menu(); }
if ui.button("📡 Re-Discover").clicked() { let _ = self.tx_cmd.send("DISCOVER".to_string()); ui.close_menu(); }
if ui.button("❌ Off").clicked() { self.config.version += 1; let mut cfg = self.config.clone(); cfg.ip = "".to_string(); *self.shared_config.lock().unwrap() = cfg; ui.close_menu(); } if ui.button("❌ Off").clicked() { self.config.version += 1; let mut cfg = self.config.clone(); cfg.ip = "".to_string(); *self.shared_config.lock().unwrap() = cfg; ui.close_menu(); }
}); });
ui.with_layout(egui::Layout::right_to_left(egui::Align::Center), |ui| { ui.label(format!("UDP: OK[{}] DROP[{}]", self.udp_packets, self.udp_dropped)); }); ui.with_layout(egui::Layout::right_to_left(egui::Align::Center), |ui| { ui.label(format!("UDP: OK[{}] DROP[{}]", self.udp_packets, self.udp_dropped)); });
@@ -630,6 +728,16 @@ impl eframe::App for MarteDebugApp {
} }
}); });
ui.separator(); ui.separator();
ui.heading("Telemetry Stats");
let mut ids: Vec<_> = self.telem_match_count.keys().cloned().collect();
ids.sort();
if ids.is_empty() { ui.label("No IDs matched yet."); }
for id in ids {
if let Some(count) = self.telem_match_count.get(&id) {
ui.label(format!("ID {}: {} samples", id, count));
}
}
ui.separator();
ui.heading("Forced Signals"); ui.heading("Forced Signals");
for (path, val) in &self.forced_signals { ui.horizontal(|ui| { ui.label(format!("{}: {}", path, val)); if ui.button("").clicked() { let _ = self.tx_cmd.send(format!("UNFORCE {}", path)); } }); } for (path, val) in &self.forced_signals { ui.horizontal(|ui| { ui.label(format!("{}: {}", path, val)); if ui.button("").clicked() { let _ = self.tx_cmd.send(format!("UNFORCE {}", path)); } }); }
}); });
@@ -642,10 +750,16 @@ impl eframe::App for MarteDebugApp {
let regex = if !self.log_filters.content_regex.is_empty() { Regex::new(&self.log_filters.content_regex).ok() } else { None }; let regex = if !self.log_filters.content_regex.is_empty() { Regex::new(&self.log_filters.content_regex).ok() } else { None };
egui::ScrollArea::vertical().stick_to_bottom(true).auto_shrink([false, false]).show(ui, |ui| { egui::ScrollArea::vertical().stick_to_bottom(true).auto_shrink([false, false]).show(ui, |ui| {
for log in &self.logs { for log in &self.logs {
let show = match log.level.as_str() { "Debug" => self.log_filters.show_debug, "Information" => self.log_filters.show_info, "Warning" => self.log_filters.show_warning, "FatalError" | "OSError" | "ParametersError" => self.log_filters.show_error, _ => true }; let show = match log.level.as_str() {
"Debug" => self.log_filters.show_debug,
"Information" | "GUI_INFO" | "GUI_WARN" | "CMD_RESP" => self.log_filters.show_info,
"Warning" => self.log_filters.show_warning,
"FatalError" | "OSError" | "ParametersError" | "GUI_ERROR" | "REC_ERROR" => self.log_filters.show_error,
_ => true
};
if !show { continue; } if !show { continue; }
if let Some(re) = &regex { if !re.is_match(&log.message) && !re.is_match(&log.level) { continue; } } if let Some(re) = &regex { if !re.is_match(&log.message) && !re.is_match(&log.level) { continue; } }
let color = match log.level.as_str() { "FatalError" | "OSError" | "ParametersError" => egui::Color32::from_rgb(255, 100, 100), "Warning" => egui::Color32::from_rgb(255, 255, 100), "Information" => egui::Color32::from_rgb(100, 255, 100), "Debug" => egui::Color32::from_rgb(100, 100, 255), "GUI_ERROR" => egui::Color32::from_rgb(255, 50, 255), "CMD_RESP" => egui::Color32::from_rgb(255, 255, 255), _ => egui::Color32::WHITE }; let color = match log.level.as_str() { "FatalError" | "OSError" | "ParametersError" | "GUI_ERROR" | "REC_ERROR" => egui::Color32::from_rgb(255, 100, 100), "Warning" | "GUI_WARN" => egui::Color32::from_rgb(255, 255, 100), "Information" | "GUI_INFO" => egui::Color32::from_rgb(100, 255, 100), "Debug" => egui::Color32::from_rgb(100, 100, 255), "CMD_RESP" => egui::Color32::from_rgb(255, 255, 255), _ => egui::Color32::WHITE };
ui.horizontal_wrapped(|ui| { ui.label(egui::RichText::new(&log.time).color(egui::Color32::GRAY).monospace()); ui.label(egui::RichText::new(format!("[{}]", log.level)).color(color).strong()); ui.add(egui::Label::new(&log.message).wrap()); }); ui.horizontal_wrapped(|ui| { ui.label(egui::RichText::new(&log.time).color(egui::Color32::GRAY).monospace()); ui.label(egui::RichText::new(format!("[{}]", log.level)).color(color).strong()); ui.add(egui::Label::new(&log.message).wrap()); });
} }
}); });
@@ -662,9 +776,26 @@ impl eframe::App for MarteDebugApp {
ui.group(|ui| { ui.group(|ui| {
ui.horizontal(|ui| { ui.label(egui::RichText::new(&plot_inst.id).strong()); ui.selectable_value(&mut plot_inst.plot_type, PlotType::Normal, "Series"); ui.selectable_value(&mut plot_inst.plot_type, PlotType::LogicAnalyzer, "Logic"); if ui.button("🗑").clicked() { to_remove = Some(p_idx); } }); ui.horizontal(|ui| { ui.label(egui::RichText::new(&plot_inst.id).strong()); ui.selectable_value(&mut plot_inst.plot_type, PlotType::Normal, "Series"); ui.selectable_value(&mut plot_inst.plot_type, PlotType::LogicAnalyzer, "Logic"); if ui.button("🗑").clicked() { to_remove = Some(p_idx); } });
let mut plot = Plot::new(&plot_inst.id).height(plot_height - 40.0).show_axes([true, true]); let mut plot = Plot::new(&plot_inst.id).height(plot_height - 40.0).show_axes([true, true]);
plot = plot.x_axis_formatter(|mark, _range| {
let val = mark.value;
let hours = (val / 3600.0) as u32;
let mins = ((val % 3600.0) / 60.0) as u32;
let secs = val % 60.0;
format!("{:02}:{:02}:{:05.2}", hours, mins, secs)
});
let data_map = self.traced_signals.lock().unwrap();
let mut latest_t = 0.0;
for sig_cfg in &plot_inst.signals {
if let Some(data) = data_map.get(&sig_cfg.source_name) {
if let Some(last) = data.values.back() { if last[0] > latest_t { latest_t = last[0]; } }
}
}
if self.scope.enabled { if self.scope.enabled {
let window_s = self.scope.window_ms / 1000.0; let window_s = self.scope.window_ms / 1000.0;
let center_t = if self.scope.mode == AcquisitionMode::Triggered { if self.scope.trigger_active { self.scope.last_trigger_time } else { APP_START_TIME.elapsed().as_secs_f64() } } else { APP_START_TIME.elapsed().as_secs_f64() }; let center_t = if self.scope.mode == AcquisitionMode::Triggered { if self.scope.trigger_active { self.scope.last_trigger_time } else { latest_t } } else { latest_t };
let x_min = center_t - (self.scope.pre_trigger_percent / 100.0) * window_s; let x_min = center_t - (self.scope.pre_trigger_percent / 100.0) * window_s;
plot = plot.include_x(x_min).include_x(x_min + window_s); plot = plot.include_x(x_min).include_x(x_min + window_s);
if !self.scope.paused { plot = plot.auto_bounds(egui::Vec2b::new(true, true)); } if !self.scope.paused { plot = plot.auto_bounds(egui::Vec2b::new(true, true)); }
@@ -672,23 +803,25 @@ impl eframe::App for MarteDebugApp {
if let Some(range) = self.shared_x_range { if !plot_inst.auto_bounds { plot = plot.include_x(range[0]).include_x(range[1]); } } if let Some(range) = self.shared_x_range { if !plot_inst.auto_bounds { plot = plot.include_x(range[0]).include_x(range[1]); } }
if plot_inst.auto_bounds { plot = plot.auto_bounds(egui::Vec2b::new(true, true)); } if plot_inst.auto_bounds { plot = plot.auto_bounds(egui::Vec2b::new(true, true)); }
} }
let plot_resp = plot.show(ui, |plot_ui| { let plot_resp = plot.show(ui, |plot_ui| {
if !self.scope.enabled && !plot_inst.auto_bounds { if let Some(range) = self.shared_x_range { let bounds = plot_ui.plot_bounds(); plot_ui.set_plot_bounds(PlotBounds::from_min_max([range[0], bounds.min()[1]], [range[1], bounds.max()[1]])); } } if !self.scope.enabled && !plot_inst.auto_bounds { if let Some(range) = self.shared_x_range { let bounds = plot_ui.plot_bounds(); plot_ui.set_plot_bounds(PlotBounds::from_min_max([range[0], bounds.min()[1]], [range[1], bounds.max()[1]])); } }
if self.scope.enabled && self.scope.mode == AcquisitionMode::Triggered && self.scope.trigger_active { plot_ui.vline(VLine::new(self.scope.last_trigger_time).color(egui::Color32::YELLOW).style(LineStyle::Dashed { length: 5.0 })); } if self.scope.enabled && self.scope.mode == AcquisitionMode::Triggered && self.scope.trigger_active { plot_ui.vline(VLine::new(self.scope.last_trigger_time).color(egui::Color32::YELLOW).style(LineStyle::Dashed { length: 5.0 })); }
let data_map = self.traced_signals.lock().unwrap();
for (s_idx, sig_cfg) in plot_inst.signals.iter().enumerate() { for (s_idx, sig_cfg) in plot_inst.signals.iter().enumerate() {
if let Some(data) = data_map.get(&sig_cfg.source_name) { if let Some(data) = data_map.get(&sig_cfg.source_name) {
let mut points = Vec::new(); let points_iter = data.values.iter().rev().take(5000).rev().map(|[t, v]| {
for [t, v] in &data.values {
let mut final_v = *v * sig_cfg.gain + sig_cfg.offset; let mut final_v = *v * sig_cfg.gain + sig_cfg.offset;
if plot_inst.plot_type == PlotType::LogicAnalyzer { final_v = (s_idx as f64 * 1.5) + (if final_v > 0.5 { 1.0 } else { 0.0 }); } if plot_inst.plot_type == PlotType::LogicAnalyzer { final_v = (s_idx as f64 * 1.5) + (if final_v > 0.5 { 1.0 } else { 0.0 }); }
points.push([*t, final_v]); [*t, final_v]
} });
plot_ui.line(Line::new(PlotPoints::from(points)).name(&sig_cfg.label).color(sig_cfg.color)); plot_ui.line(Line::new(PlotPoints::from_iter(points_iter)).name(&sig_cfg.label).color(sig_cfg.color));
} }
} }
if p_idx == 0 || current_range.is_none() { let b = plot_ui.plot_bounds(); current_range = Some([b.min()[0], b.max()[0]]); } if p_idx == 0 || current_range.is_none() { let b = plot_ui.plot_bounds(); current_range = Some([b.min()[0], b.max()[0]]); }
}); });
drop(data_map);
if plot_resp.response.hovered() && ctx.input(|i| i.pointer.any_released()) { if plot_resp.response.hovered() && ctx.input(|i| i.pointer.any_released()) {
if let Some(dropped) = ctx.data_mut(|d| d.get_temp::<String>(egui::Id::new("drag_signal"))) { if let Some(dropped) = ctx.data_mut(|d| d.get_temp::<String>(egui::Id::new("drag_signal"))) {
let color = Self::next_color(plot_inst.signals.len()); let color = Self::next_color(plot_inst.signals.len());

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View File

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name = "windows-implement"
version = "0.60.2"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "053e2e040ab57b9dc951b72c264860db7eb3b0200ba345b4e4c3b14f67855ddf"
dependencies = [
"proc-macro2",
"quote",
"syn",
]
[[package]]
name = "windows-interface"
version = "0.59.3"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "3f316c4a2570ba26bbec722032c4099d8c8bc095efccdc15688708623367e358"
dependencies = [
"proc-macro2",
"quote",
"syn",
]
[[package]]
name = "windows-link"
version = "0.2.1"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "f0805222e57f7521d6a62e36fa9163bc891acd422f971defe97d64e70d0a4fe5"
[[package]]
name = "windows-result"
version = "0.4.1"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "7781fa89eaf60850ac3d2da7af8e5242a5ea78d1a11c49bf2910bb5a73853eb5"
dependencies = [
"windows-link",
]
[[package]]
name = "windows-strings"
version = "0.5.1"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "7837d08f69c77cf6b07689544538e017c1bfcf57e34b4c0ff58e6c2cd3b37091"
dependencies = [
"windows-link",
]
[[package]]
name = "windows-sys"
version = "0.52.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "282be5f36a8ce781fad8c8ae18fa3f9beff57ec1b52cb3de0789201425d9a33d"
dependencies = [
"windows-targets",
]
[[package]]
name = "windows-targets"
version = "0.52.6"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "9b724f72796e036ab90c1021d4780d4d3d648aca59e491e6b98e725b84e99973"
dependencies = [
"windows_aarch64_gnullvm",
"windows_aarch64_msvc",
"windows_i686_gnu",
"windows_i686_gnullvm",
"windows_i686_msvc",
"windows_x86_64_gnu",
"windows_x86_64_gnullvm",
"windows_x86_64_msvc",
]
[[package]]
name = "windows_aarch64_gnullvm"
version = "0.52.6"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "32a4622180e7a0ec044bb555404c800bc9fd9ec262ec147edd5989ccd0c02cd3"
[[package]]
name = "windows_aarch64_msvc"
version = "0.52.6"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "09ec2a7bb152e2252b53fa7803150007879548bc709c039df7627cabbd05d469"
[[package]]
name = "windows_i686_gnu"
version = "0.52.6"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "8e9b5ad5ab802e97eb8e295ac6720e509ee4c243f69d781394014ebfe8bbfa0b"
[[package]]
name = "windows_i686_gnullvm"
version = "0.52.6"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "0eee52d38c090b3caa76c563b86c3a4bd71ef1a819287c19d586d7334ae8ed66"
[[package]]
name = "windows_i686_msvc"
version = "0.52.6"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "240948bc05c5e7c6dabba28bf89d89ffce3e303022809e73deaefe4f6ec56c66"
[[package]]
name = "windows_x86_64_gnu"
version = "0.52.6"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "147a5c80aabfbf0c7d901cb5895d1de30ef2907eb21fbbab29ca94c5b08b1a78"
[[package]]
name = "windows_x86_64_gnullvm"
version = "0.52.6"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "24d5b23dc417412679681396f2b49f3de8c1473deb516bd34410872eff51ed0d"
[[package]]
name = "windows_x86_64_msvc"
version = "0.52.6"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "589f6da84c646204747d1270a2a5661ea66ed1cced2631d546fdfb155959f9ec"
[[package]]
name = "zmij"
version = "1.0.21"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "b8848ee67ecc8aedbaf3e4122217aff892639231befc6a1b58d29fff4c2cabaa"

10
Tools/pipeline_validator/Cargo.toml Normal file
View File

@@ -0,0 +1,10 @@
[package]
name = "pipeline_validator"
version = "0.1.0"
edition = "2021"
[dependencies]
serde = { version = "1.0", features = ["derive"] }
serde_json = "1.0"
socket2 = "0.5"
chrono = "0.4"

135
Tools/pipeline_validator/src/main.rs Normal file
View File

@@ -0,0 +1,135 @@
use std::io::{Read, Write};
use std::net::{TcpStream, UdpSocket};
use std::time::{Duration, Instant};
use serde::{Deserialize, Serialize};
#[derive(Serialize, Deserialize, Debug)]
struct Signal {
name: String,
id: u32,
#[serde(rename = "type")]
sig_type: String,
ready: bool,
}
#[derive(Deserialize, Debug)]
struct DiscoverResponse {
#[serde(rename = "Signals")]
signals: Vec<Signal>,
}
fn main() {
println!("--- MARTe2 Debug Pipeline Validator ---");
// 1. Connect to TCP Control Port
let mut stream = match TcpStream::connect("127.0.0.1:8080") {
Ok(s) => {
println!("[TCP] Connected to DebugService on 8080");
s
}
Err(e) => {
println!("[TCP] FAILED to connect: {}", e);
println!("Check if 'run_debug_app.sh' is running.");
return;
}
};
stream.set_read_timeout(Some(Duration::from_secs(2))).unwrap();
// 2. DISCOVER signals
println!("[TCP] Sending DISCOVER...");
stream.write_all(b"DISCOVER\n").unwrap();
let mut buf = [0u8; 8192];
let n = stream.read(&mut buf).unwrap();
let resp = String::from_utf8_lossy(&buf[..n]);
// Split JSON from OK DISCOVER terminator
let json_part = resp.split("OK DISCOVER").next().unwrap_or("").trim();
let discovery: DiscoverResponse = match serde_json::from_str(json_part) {
Ok(d) => d,
Err(e) => {
println!("[TCP] Discovery Parse Error: {}", e);
println!("Raw Response: {}", resp);
return;
}
};
println!("[TCP] Found {} signals.", discovery.signals.len());
let mut counter_id = None;
for s in &discovery.signals {
println!("[TCP] Signal: {} (ID={}, Ready={})", s.name, s.id, s.ready);
if s.name.contains("Timer.Counter") {
println!("[TCP] Target found: {} (ID={})", s.name, s.id);
counter_id = Some(s.id);
// 3. Enable TRACE
println!("[TCP] Enabling TRACE for {}...", s.name);
stream.write_all(format!("TRACE {} 1\n", s.name).as_bytes()).unwrap();
let mut t_buf = [0u8; 1024];
let tn = stream.read(&mut t_buf).unwrap();
println!("[TCP] TRACE Response: {}", String::from_utf8_lossy(&t_buf[..tn]).trim());
}
}
if counter_id.is_none() {
println!("[TCP] ERROR: Counter signal not found in discovery.");
return;
}
// 4. Listen for UDP Telemetry
let socket = UdpSocket::bind("0.0.0.0:8081").expect("Could not bind UDP socket");
socket.set_read_timeout(Some(Duration::from_secs(5))).unwrap();
println!("[UDP] Listening for telemetry on 8081...");
let mut samples_received = 0;
let mut last_val: Option<u32> = None;
let mut last_ts: Option<u64> = None;
let start_wait = Instant::now();
while samples_received < 20 && start_wait.elapsed().as_secs() < 10 {
let mut u_buf = [0u8; 4096];
if let Ok(n) = socket.recv(&mut u_buf) {
if n < 20 { continue; }
// Validate Header
let magic = u32::from_le_bytes(u_buf[0..4].try_into().unwrap());
if magic != 0xDA7A57AD { continue; }
let count = u32::from_le_bytes(u_buf[16..20].try_into().unwrap());
let mut offset = 20;
for _ in 0..count {
if offset + 16 > n { break; }
let id = u32::from_le_bytes(u_buf[offset..offset+4].try_into().unwrap());
let ts = u64::from_le_bytes(u_buf[offset+4..offset+12].try_into().unwrap());
let size = u32::from_le_bytes(u_buf[offset+12..offset+16].try_into().unwrap());
offset += 16;
if offset + size as usize > n { break; }
if id == counter_id.unwrap() && size == 4 {
let val = u32::from_le_bytes(u_buf[offset..offset+4].try_into().unwrap());
println!("[UDP] Match! ID={} TS={} VAL={}", id, ts, val);
if let Some(lt) = last_ts {
if ts <= lt { println!("[UDP] WARNING: Non-monotonic timestamp!"); }
}
if let Some(lv) = last_val {
if val == lv { println!("[UDP] WARNING: Stale value detected."); }
}
last_ts = Some(ts);
last_val = Some(val);
samples_received += 1;
}
offset += size as usize;
}
}
}
if samples_received >= 20 {
println!("\n[RESULT] SUCCESS: Telemetry pipeline is fully functional!");
} else {
println!("\n[RESULT] FAILURE: Received only {} samples.", samples_received);
}
}

334
app_output.log
View File

@@ -17,17 +17,6 @@ Filename = "Test/Configurations/debug_
[Information - Loader.cpp:74]: SchedulerGranularity is 10000 [Information - Loader.cpp:74]: SchedulerGranularity is 10000
[Debug - Loader.cpp:189]: Purging ObjectRegistryDatabase with 0 objects [Debug - Loader.cpp:189]: Purging ObjectRegistryDatabase with 0 objects
[Debug - Loader.cpp:192]: Purge ObjectRegistryDatabase. Number of objects left: 0 [Debug - Loader.cpp:192]: Purge ObjectRegistryDatabase. Number of objects left: 0
[Information - LinuxTimer.cpp:117]: SleepNature was not set. Using Default.
[Information - LinuxTimer.cpp:127]: Phase was not configured, using default 0
[Warning - LinuxTimer.cpp:164]: ExecutionMode not specified using: IndependentThread
[Warning - LinuxTimer.cpp:185]: CPUMask not specified using: 255
[Warning - LinuxTimer.cpp:191]: StackSize not specified using: 262144
[Information - LinuxTimer.cpp:236]: No timer provider specified. Falling back to HighResolutionTimeProvider
[Information - HighResolutionTimeProvider.cpp:163]: Sleep nature was not specified, falling back to default (Sleep::NoMore mode)
[Information - HighResolutionTimeProvider.cpp:61]: Inner initialization succeeded
[Information - LinuxTimer.cpp:267]: Backward compatibility parameters injection unnecessary
[Information - RealTimeThread.cpp:190]: No CPUs defined for the RealTimeThread Thread1
[Information - RealTimeThread.cpp:193]: No StackSize defined for the RealTimeThread Thread1
[DebugService] TCP Server listening on port 8080 [DebugService] TCP Server listening on port 8080
[DebugService] UDP Streamer socket opened [DebugService] UDP Streamer socket opened
[ParametersError - StringHelper.cpp:60]: Error: invalid input arguments [ParametersError - StringHelper.cpp:60]: Error: invalid input arguments
@@ -43,53 +32,90 @@ Filename = "Test/Configurations/debug_
[Warning - Threads.cpp:173]: Requested a thread priority that is higher than the one supported by the selected policy - clipping to the maximum value supported by the policy. [Warning - Threads.cpp:173]: Requested a thread priority that is higher than the one supported by the selected policy - clipping to the maximum value supported by the policy.
[Warning] Requested a thread priority that is higher than the one supported by the selected policy - clipping to the maximum value supported by the policy. [Warning] Requested a thread priority that is higher than the one supported by the selected policy - clipping to the maximum value supported by the policy.
[Warning] Requested a thread priority that is higher than the one supported by the selected policy - clipping to the maximum value supported by the policy. [Warning] Requested a thread priority that is higher than the one supported by the selected policy - clipping to the maximum value supported by the policy.
[Information] SleepNature was not set. Using Default.
[Information] Phase was not configured, using default 0
[Warning] ExecutionMode not specified using: IndependentThread
[Warning] CPUMask not specified using: 255
[Warning] StackSize not specified using: 262144
[Information] No timer provider specified. Falling back to HighResolutionTimeProvider
[Information] Sleep nature was not specified, falling back to default (Sleep::NoMore mode)
[Information] Inner initialization succeeded
[Information] Backward compatibility parameters injection unnecessary
[Information] SleepNature was not set. Using Default.
[Information] Phase was not configured, using default 0
[Warning] ExecutionMode not specified using: IndependentThread
[Warning] CPUMask not specified using: 255
[Warning] StackSize not specified using: 262144
[Information] No timer provider specified. Falling back to HighResolutionTimeProvider
[Information] Sleep nature was not specified, falling back to default (Sleep::NoMore mode)
[Information] Inner initialization succeeded
[Information] Backward compatibility parameters injection unnecessary
[Information] No CPUs defined for the RealTimeThread Thread1
[Information] No StackSize defined for the RealTimeThread Thread1
[Information] No CPUs defined for the RealTimeThread Thread2
[Information] No StackSize defined for the RealTimeThread Thread2
[Information] LoaderPostInit not set [Information] LoaderPostInit not set
[Debug] Finished updating the signal database
[Information] Going to rtAppBuilder.ConfigureAfterInitialisation() [Information] Going to rtAppBuilder.ConfigureAfterInitialisation()
[Information] Going to InitialiseSignalsDatabase [Information] Going to InitialiseSignalsDatabase
[Debug] Updating the signal database
[Debug] Finished updating the signal database
[Information] Going to FlattenSignalsDatabases [Information] Going to FlattenSignalsDatabases
[Information] Caching introspection signals [Information] Caching introspection signals
[Information] Flattening functions input signals [Information] Flattening functions input signals
[Debug] Updating the signal database [Debug] Updating the signal database
[Debug] Finished updating the signal database [Debug] Finished updating the signal database
[Debug] Updating the signal database
[Debug] Updating the signal database
[Debug] Finished updating the signal database
[Debug] Finished updating the signal database
[Information] Flattening functions output signals [Information] Flattening functions output signals
[Debug] Updating the signal database [Debug] Updating the signal database
[Debug] Finished updating the signal database [Debug] Finished updating the signal database
[Debug] Updating the signal database
[Debug] Finished updating the signal database
[Debug] Updating the signal database
[Debug] Finished updating the signal database
[Information] Flattening data sources signals [Information] Flattening data sources signals
[Debug] Updating the signal database [Debug] Updating the signal database
[Debug] Finished updating the signal database [Debug] Finished updating the signal database
[Debug] Updating the signal database [Debug] Updating the signal database
[Debug] Finished updating the signal database
[Debug] Updating the signal database
[Debug] Finished updating the signal database
[Information] Going to VerifyDataSourcesSignals
[Debug] Updating the signal database
[Information] Verifying signals for Timer
[Debug] Finished updating the signal database
[Information] Going to ResolveStates [Information] Going to ResolveStates
[Information] Resolving state State1 [Information] Resolving state State1
[Information] Resolving thread container Threads [Information] Resolving thread container Threads
[Information] Resolving thread State1.Thread1 [Information] Resolving thread State1.Thread1
[Information] Resolving GAM1 [Information] Resolving GAM1
[Information] Resolving thread State1.Thread2
[Information] Resolving GAM2
[Information] Going to ResolveDataSources [Information] Going to ResolveDataSources
[Information] Verifying signals for Logger
[Information] Resolving for function GAM1 [idx: 0] [Information] Resolving for function GAM1 [idx: 0]
[Information] Resolving 2 signals [Information] Resolving 2 signals
[Information] Resolving 2 signals [Information] Resolving 2 signals
[Information] Resolving for function GAM2 [idx: 1]
[Information] Resolving 2 signals
[Information] Resolving 2 signals
[DebugBrokerBuilder] Built MemoryMapSynchronisedInputBroker
[DebugBrokerBuilder] Built MemoryMapInputBroker
[Information] Going to VerifyDataSourcesSignals
[Information] Verifying signals for Timer
[Information] Verifying signals for TimerSlow
[Information] Verifying signals for Logger
[Information] Verifying signals for DDB [Information] Verifying signals for DDB
[Information] Verifying signals for DAMS [Information] Verifying signals for DAMS
[Information] Going to VerifyConsumersAndProducers [Information] Going to VerifyConsumersAndProducers
[Information] Started application in state State1
[Information] Application starting
[Information] Verifying consumers and producers for Timer [Information] Verifying consumers and producers for Timer
[Information] Verifying consumers and producers for TimerSlow
[Information] Verifying consumers and producers for Logger [Information] Verifying consumers and producers for Logger
[Information] Verifying consumers and producers for DDB [Information] Verifying consumers and producers for DDB
[Information] Verifying consumers and producers for DAMS [Information] Verifying consumers and producers for DAMS
[Information] Going to CleanCaches [Information] Going to CleanCaches
[Debug] Purging dataSourcesIndexesCache. Number of children:3 [Information] Creating broker MemoryMapSynchronisedInputBroker for GAM2 and signal Counter(0)
[Debug] Purging functionsIndexesCache. Number of children:1 [DebugBrokerBuilder] Built MemoryMapSynchronisedInputBroker
[Debug] Purging dataSourcesSignalIndexCache. Number of children:3 [Debug] Purging dataSourcesIndexesCache. Number of children:4
[Debug] Purging functionsIndexesCache. Number of children:2
[Debug] Purging dataSourcesSignalIndexCache. Number of children:4
[Debug] Purging dataSourcesFunctionIndexesCache. Number of children:1 [Debug] Purging dataSourcesFunctionIndexesCache. Number of children:1
[Debug] Purging functionsMemoryIndexesCache. Number of children:2 [Debug] Purging functionsMemoryIndexesCache. Number of children:1
[Debug] Purged functionsMemoryIndexesCache. Number of children:0 [Debug] Purged functionsMemoryIndexesCache. Number of children:0
[Debug] Purged cachedIntrospections. Number of children:0 [Debug] Purged cachedIntrospections. Number of children:0
[Information] Going to rtAppBuilder.PostConfigureDataSources() [Information] Going to rtAppBuilder.PostConfigureDataSources()
@@ -102,6 +128,11 @@ Filename = "Test/Configurations/debug_
[Information] Creating broker MemoryMapInputBroker for GAM1 and signal Time(1) [Information] Creating broker MemoryMapInputBroker for GAM1 and signal Time(1)
[Information] Getting input brokers for Timer [Information] Getting input brokers for Timer
[Information] Getting output brokers for Timer [Information] Getting output brokers for Timer
[DebugBrokerBuilder] Built MemoryMapInputBroker
[DebugBrokerBuilder] Built MemoryMapOutputBroker
[Information] Creating broker MemoryMapInputBroker for GAM2 and signal Time(1)
[Information] Getting input brokers for TimerSlow
[Information] Getting output brokers for TimerSlow
[Information] Getting input brokers for Logger [Information] Getting input brokers for Logger
[Information] Getting output brokers for Logger [Information] Getting output brokers for Logger
[Information] Getting input brokers for DDB [Information] Getting input brokers for DDB
@@ -111,40 +142,253 @@ Filename = "Test/Configurations/debug_
[Information] Going to FindStatefulDataSources [Information] Going to FindStatefulDataSources
[Information] Going to configure scheduler [Information] Going to configure scheduler
[Information] Preparing state State1 [Information] Preparing state State1
[Information] Frequency found = 1.000000 [Information] Frequency found = 1000.000000
[Information] Frequency found = 1.000000 [Information] Frequency found = 1000.000000
[Information] The timer will be set using a frequency of 1.000000 Hz [Information] The timer will be set using a frequency of 1000.000000 Hz
[ParametersError] Error: invalid input arguments
[Warning] Requested a thread priority that is higher than the one supported by the selected policy - clipping to the maximum value supported by the policy.
[Warning] Failed to change the thread priority (likely due to insufficient permissions)
[Information] LinuxTimer::Prepared = true
[Information] Frequency found = 10.000000
[Information] Frequency found = 10.000000
[Information] The timer will be set using a frequency of 10.000000 Hz
[ParametersError] Error: invalid input arguments [ParametersError] Error: invalid input arguments
[Warning] Requested a thread priority that is higher than the one supported by the selected policy - clipping to the maximum value supported by the policy. [Warning] Requested a thread priority that is higher than the one supported by the selected policy - clipping to the maximum value supported by the policy.
[Warning] Failed to change the thread priority (likely due to insufficient permissions) [Warning] Failed to change the thread priority (likely due to insufficient permissions)
[Information] LinuxTimer::Prepared = true [Information] LinuxTimer::Prepared = true
[Warning] Requested a thread priority that is higher than the one supported by the selected policy - clipping to the maximum value supported by the policy. [Warning] Requested a thread priority that is higher than the one supported by the selected policy - clipping to the maximum value supported by the policy.
[Warning] Failed to change the thread priority (likely due to insufficient permissions) [Warning] Failed to change the thread priority (likely due to insufficient permissions)
[Warning] Requested a thread priority that is higher than the one supported by the selected policy - clipping to the maximum value supported by the policy.
[Warning] Failed to change the thread priority (likely due to insufficient permissions)
[Information] Started application in state State1
[Information] Application starting
[Information] Counter [0:0]:1
[Information] Time [0:0]:0 [Information] Time [0:0]:0
[Information] Counter [0:0]:2
[Information] Time [0:0]:200000
[Information] Counter [0:0]:3
[Information] Time [0:0]:300000
[Information] Counter [0:0]:4
[Information] Time [0:0]:400000
[DebugService] Discover called. Instance: 0x7fd54d967010
[DebugService] Found existing broker: GAM1.InputBroker.MemoryMapSynchronisedInputBroker (MemoryMapSynchronisedInputBroker)
[DebugService] Found existing broker: GAM1.InputBroker.MemoryMapInputBroker (MemoryMapInputBroker)
[DebugService] Found existing broker: GAM2.InputBroker.MemoryMapSynchronisedInputBroker (MemoryMapSynchronisedInputBroker)
[DebugService] Found existing broker: GAM2.InputBroker.MemoryMapInputBroker (MemoryMapInputBroker)
[DebugService] Found existing broker: (null) (MemoryMapOutputBroker)
[DebugService] Registry Scan: Current Signals=19, Brokers=0
[Debug] Tracing state for App.Data.Timer.Counter (ID: 0, Mem: (nil)) set to 1
[Debug] WARNING: Signal App.Data.Timer.Counter is NOT associated with any active broker!
[Information] Counter [0:0]:5
[Information] Time [0:0]:500000
[Information] Counter [0:0]:6
[Information] Time [0:0]:600000
[Information] Counter [0:0]:7
[Information] Time [0:0]:700000
[Information] Counter [0:0]:8
[Information] Time [0:0]:800000
[Information] Counter [0:0]:9
[Information] Time [0:0]:900000
[Information] Counter [0:0]:10
[Information] Time [0:0]:1000000
[Information] Counter [0:0]:11
[Information] Time [0:0]:1100000
[Information] Counter [0:0]:12
[Information] Time [0:0]:1200000
[Information] Counter [0:0]:13
[Information] Time [0:0]:1300000
[Information] Counter [0:0]:14
[Information] Time [0:0]:1400000
[Information] Counter [0:0]:15
[Information] Time [0:0]:1500000
[Information] Counter [0:0]:16
[Information] Time [0:0]:1600000
[Information] Counter [0:0]:17
[Information] Time [0:0]:1700000
[Information] Counter [0:0]:18
[Information] Time [0:0]:1800000
[Information] Counter [0:0]:19
[Information] Time [0:0]:1900000
[Information] Counter [0:0]:20
[Information] Time [0:0]:2000000 [Information] Time [0:0]:2000000
[Information] Counter [0:0]:21
[Information] Time [0:0]:2100000
[Information] Counter [0:0]:22
[Information] Time [0:0]:2200000
[Information] Counter [0:0]:23
[Information] Time [0:0]:2300000
[Information] Counter [0:0]:24
[Information] Time [0:0]:2400000
[Information] Counter [0:0]:25
[Information] Time [0:0]:2500000
[Information] Counter [0:0]:26
[Information] Time [0:0]:2600000
[Information] Counter [0:0]:27
[Information] Time [0:0]:2700000
[Information] Counter [0:0]:28
[Information] Time [0:0]:2800000
[Information] Counter [0:0]:29
[Information] Time [0:0]:2900000
[Information] Counter [0:0]:30
[Information] Time [0:0]:3000000 [Information] Time [0:0]:3000000
[Information] Counter [0:0]:31
[Information] Time [0:0]:3100000
[Information] Counter [0:0]:32
[Information] Time [0:0]:3200000
[Information] Counter [0:0]:33
[Information] Time [0:0]:3300000
[Information] Counter [0:0]:34
[Information] Time [0:0]:3400000
[Information] Counter [0:0]:35
[Information] Time [0:0]:3500000
[Information] Counter [0:0]:36
[Information] Time [0:0]:3600000
[Information] Counter [0:0]:37
[Information] Time [0:0]:3700000
[Information] Counter [0:0]:38
[Information] Time [0:0]:3800000
[Information] Counter [0:0]:39
[Information] Time [0:0]:3900000
[Information] Counter [0:0]:40
[Information] Time [0:0]:4000000 [Information] Time [0:0]:4000000
[Information] Counter [0:0]:41
[Information] Time [0:0]:4100000
[Information] Counter [0:0]:42
[Information] Time [0:0]:4200000
[Information] Counter [0:0]:43
[Information] Time [0:0]:4300000
[Information] Counter [0:0]:44
[Information] Time [0:0]:4400000
[Information] Counter [0:0]:45
[Information] Time [0:0]:4500000
[Information] Counter [0:0]:46
[Information] Time [0:0]:4600000
[Information] Counter [0:0]:47
[Information] Time [0:0]:4700000
[Information] Counter [0:0]:48
[Information] Time [0:0]:4800000
[Information] Counter [0:0]:49
[Information] Time [0:0]:4900000
[Information] Counter [0:0]:50
[Information] Time [0:0]:5000000 [Information] Time [0:0]:5000000
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30
run_coverage.sh Executable file
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@@ -0,0 +1,30 @@
#!/bin/bash
# Load environment
. ./env.sh
# Clean build directory
rm -rf Build_Coverage
# Build with coverage
mkdir -p Build_Coverage
cd Build_Coverage
cmake .. -DENABLE_COVERAGE=ON -DCMAKE_BUILD_TYPE=Debug
make -j$(nproc)
# Reset coverage data
lcov --directory . --zerocounters
# Run unit tests
./Test/UnitTests/UnitTests
# Capture coverage data
lcov --directory . --capture --output-file coverage.info --ignore-errors inconsistent
# Filter out system and MARTe2 internal headers
lcov --remove coverage.info '/usr/*' '*/dependency/*' '*/Test/*' --output-file coverage_filtered.info --ignore-errors inconsistent
# Generate report
genhtml coverage_filtered.info --output-directory out --ignore-errors inconsistent
# Display summary
lcov --list coverage_filtered.info --ignore-errors inconsistent

4
run_debug_app.sh
View File

@@ -26,7 +26,7 @@ for dir in $ALL_COMPONENT_DIRS; do
done done
# Ensure our build dir and core dir are included # Ensure our build dir and core dir are included
export LD_LIBRARY_PATH="$(pwd)/Build:${MARTe2_DIR}/Build/${TARGET}/Core:${LD_LIBRARY_PATH}" export LD_LIBRARY_PATH="$(pwd)/Build:${LD_LIBRARY_PATH}"
# 3. Cleanup # 3. Cleanup
echo "Cleaning up lingering processes..." echo "Cleaning up lingering processes..."
@@ -36,5 +36,5 @@ sleep 1
# 4. Launch Application # 4. Launch Application
echo "Launching standard MARTeApp.ex with debug_test.cfg..." echo "Launching standard MARTeApp.ex with debug_test.cfg..."
# PRELOAD ensures our DebugService class is available to the registry early # PRELOAD ensures our DebugService class is available to the registry early
export LD_PRELOAD="${DEBUG_LIB}" export LD_PRELOAD="$(pwd)/Build/libmarte_dev.so"
"$MARTE_EX" -f Test/Configurations/debug_test.cfg -l RealTimeLoader -s State1 "$MARTE_EX" -f Test/Configurations/debug_test.cfg -l RealTimeLoader -s State1