Update for Assembly Base #38

Merged
meierj merged 13 commits from mueller/master into eive/develop 2022-03-08 07:53:07 +01:00
20 changed files with 174 additions and 123 deletions
Showing only changes of commit 7571987a1d - Show all commits

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@ -15,6 +15,7 @@ and this project adheres to [Semantic Versioning](http://semver.org/).
- GPIO HAL: Renamed entries of enumerations to avoid nameclashes with Windows defines.
`IN` and `OUT` in `Direction` changed to `DIR_IN` and `DIR_OUT`.
`CALLBACK` in `GpioTypes` changed to `TYPE_CALLBACK`
- HAL Devicehandlers: Periodic printout is run-time configurable now
- `oneShotAction` flag in the `TestTask` class is not static anymore
## Removed

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@ -281,6 +281,24 @@ if(CMAKE_CXX_COMPILER_ID STREQUAL "GNU")
-Wimplicit-fallthrough=1
-Wno-unused-parameter
-Wno-psabi
-Wduplicated-cond # check for duplicate conditions
-Wduplicated-branches # check for duplicate branches
-Wlogical-op # Search for bitwise operations instead of logical
-Wnull-dereference # Search for NULL dereference
-Wundef # Warn if undefind marcos are used
-Wformat=2 # Format string problem detection
-Wformat-overflow=2 # Formatting issues in printf
-Wformat-truncation=2 # Formatting issues in printf
-Wformat-security # Search for dangerous printf operations
-Wstrict-overflow=3 # Warn if integer overflows might happen
-Warray-bounds=2 # Some array bounds violations will be found
-Wshift-overflow=2 # Search for bit left shift overflows (<c++14)
-Wcast-qual # Warn if the constness is cast away
-Wstringop-overflow=4
# -Wstack-protector # Emits a few false positives for low level access
# -Wconversion # Creates many false positives
# -Warith-conversion # Use with Wconversion to find more implicit conversions
# -fanalyzer # Should be used to look through problems
)
endif()

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@ -21,14 +21,14 @@ pipeline {
stage('Build') {
steps {
dir(BUILDDIR) {
sh 'cmake --build . -j'
sh 'cmake --build . -j4'
}
}
}
stage('Unittests') {
steps {
dir(BUILDDIR) {
sh 'cmake --build . -- fsfw-tests_coverage -j'
sh 'cmake --build . -- fsfw-tests_coverage -j4'
}
}
}

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@ -471,7 +471,7 @@ ReturnValue_t UartComIF::handleNoncanonicalRead(UartCookie& uartCookie, UartDevi
auto bufferPtr = iter->second.replyBuffer.data();
// Size check to prevent buffer overflow
if (requestLen > uartCookie.getMaxReplyLen()) {
#if OBSW_VERBOSE_LEVEL >= 1
#if FSFW_VERBOSE_LEVEL >= 1
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::warning << "UartComIF::requestReceiveMessage: Next read would cause overflow!"
<< std::endl;

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@ -62,9 +62,4 @@
#define FSFW_HAL_I2C_WIRETAPPING 0
#endif
// Can be used for low-level debugging of the I2C bus
#ifndef FSFW_HAL_I2C_WIRETAPPING
#define FSFW_HAL_I2C_WIRETAPPING 0
#endif
#endif /* FSFW_FSFW_H_ */

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@ -6,10 +6,13 @@
#include <fsfw/cfdp/tlv/Tlv.h>
#include <fsfw/cfdp/tlv/TlvIF.h>
#include <fsfw/serialize/SerializeIF.h>
#include <fsfw/serviceinterface/ServiceInterface.h>
#include <cstddef>
#include <cstdint>
#include "fsfw/FSFW.h"
namespace cfdp {
enum FilestoreActionCode {

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@ -825,7 +825,7 @@ void DeviceHandlerBase::handleReply(const uint8_t* receivedData, DeviceCommandId
}
ReturnValue_t DeviceHandlerBase::getStorageData(store_address_t storageAddress, uint8_t** data,
uint32_t* len) {
size_t* len) {
size_t lenTmp;
if (IPCStore == nullptr) {

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@ -679,7 +679,7 @@ class DeviceHandlerBase : public DeviceHandlerIF,
//! Pointer to the raw packet that will be sent.
uint8_t *rawPacket = nullptr;
//! Size of the #rawPacket.
uint32_t rawPacketLen = 0;
size_t rawPacketLen = 0;
/**
* The mode the device handler is currently in.
@ -1256,7 +1256,7 @@ class DeviceHandlerBase : public DeviceHandlerIF,
* - @c RETURN_FAILED IPCStore is nullptr
* - the return value from the IPCStore if it was not @c RETURN_OK
*/
ReturnValue_t getStorageData(store_address_t storageAddress, uint8_t **data, uint32_t *len);
ReturnValue_t getStorageData(store_address_t storageAddress, uint8_t **data, size_t *len);
/**
* @param modeTo either @c MODE_ON, MODE_NORMAL or MODE_RAW, nothing else!

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@ -28,7 +28,7 @@ const uint16_t CRC::crc16ccitt_table[256] = {
// CRC implementation
uint16_t CRC::crc16ccitt(uint8_t const input[], uint32_t length, uint16_t startingCrc) {
uint8_t *data = (uint8_t *)input;
const uint8_t *data = static_cast<const uint8_t *>(input);
unsigned int tbl_idx;
while (length--) {
@ -39,88 +39,4 @@ uint16_t CRC::crc16ccitt(uint8_t const input[], uint32_t length, uint16_t starti
}
return startingCrc & 0xffff;
// The part below is not used!
// bool temr[16];
// bool xor_out[16];
// bool r[16];
// bool d[8];
// uint16_t crc_value = 0;
//
//
// for (int i=0; i<16 ;i++) {
// temr[i] = false;
// xor_out[i] = false;
// }
//
//
// for (int i=0; i<16 ;i++)
// r[i] = true; // initialize with 0xFFFF
//
//
//
// for (int j=0; j<length ;j++)
// {
//
// for (int i=0; i<8 ;i++)
// if ((input[j] & 1<<i) == 1<<i)
// d[7-i]=true; // reverse input data
// else
// d[7-i]=false; // reverse input data
//
//
//
// temr[0] = d[4] ^ d[0];
// temr[1] = d[5] ^ d[1];
// temr[2] = d[6] ^ d[2];
// temr[3] = d[7] ^ d[3];
// temr[4] = r[12] ^ r[8];
// temr[5] = r[13] ^ r[9];
// temr[6] = r[14] ^ r[10];
// temr[7] = r[15] ^ r[11];
// temr[8] = d[4] ^ r[12];
// temr[9] = d[5] ^ r[13];
// temr[10] = d[6] ^ r[14];
// temr[11] = d[7] ^ r[15];
// temr[12] = temr[0] ^ temr[4];
// temr[13] = temr[1] ^ temr[5];
// temr[14] = temr[2] ^ temr[6];
// temr[15] = temr[3] ^ temr[7];
//
//
// xor_out[0] = temr[12];
// xor_out[1] = temr[13];
// xor_out[2] = temr[14];
// xor_out[3] = temr[15];
// xor_out[4] = temr[8];
// xor_out[5] = temr[9] ^ temr[12];
// xor_out[6] = temr[10] ^ temr[13];
// xor_out[7] = temr[11] ^ temr[14];
// xor_out[8] = temr[15] ^ r[0];
// xor_out[9] = temr[8] ^ r[1];
// xor_out[10] = temr[9] ^ r[2];
// xor_out[11] = temr[10] ^ r[3];
// xor_out[12] = temr[11] ^ temr[12] ^ r[4];
// xor_out[13] = temr[13] ^ r[5];
// xor_out[14] = temr[14] ^ r[6];
// xor_out[15] = temr[15] ^ r[7];
//
// for (int i=0; i<16 ;i++)
// {
// r[i]= xor_out[i] ;
// }
//
// }
//
//
//
// for (int i=0; i<16 ;i++)
// {
// if (xor_out[i] == true)
// crc_value = crc_value + pow(2,(15 -i)); // reverse CrC result before
// Final XOR
// }
//
// crc_value = 0;// for debug mode
// return (crc_value);
} /* Calculate_CRC() */

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@ -1,6 +1,7 @@
#include "fsfw/globalfunctions/arrayprinter.h"
#include <bitset>
#include <cmath>
#include "fsfw/serviceinterface/ServiceInterface.h"
@ -68,7 +69,7 @@ void arrayprinter::printHex(const uint8_t *data, size_t size, size_t maxCharPerL
currentPos += snprintf(printBuffer + currentPos, 6, "%02x", data[i]);
if (i < size - 1) {
currentPos += sprintf(printBuffer + currentPos, ",");
if (i > 0 and (i + 1) % maxCharPerLine == 0) {
if ((i + 1) % maxCharPerLine == 0) {
currentPos += sprintf(printBuffer + currentPos, "\n");
}
}
@ -97,20 +98,21 @@ void arrayprinter::printDec(const uint8_t *data, size_t size, size_t maxCharPerL
}
std::cout << "]" << std::endl;
#else
// General format: 32, 243, -12 so it is number of chars times 5
// General format: 32,243,-12 so it is number of chars times 4
// plus line break plus small safety margin.
char printBuffer[(size + 1) * 5 + 1] = {};
uint16_t expectedLines = ceil((double)size / maxCharPerLine);
char printBuffer[size * 4 + 1 + expectedLines] = {};
size_t currentPos = 0;
for (size_t i = 0; i < size; i++) {
// To avoid buffer overflows.
if (sizeof(printBuffer) - currentPos <= 5) {
if (sizeof(printBuffer) - currentPos <= 4) {
break;
}
currentPos += snprintf(printBuffer + currentPos, 3, "%d", data[i]);
currentPos += snprintf(printBuffer + currentPos, 4, "%d", data[i]);
if (i < size - 1) {
currentPos += sprintf(printBuffer + currentPos, ",");
if (i > 0 and (i + 1) % maxCharPerLine == 0) {
if ((i + 1) % maxCharPerLine == 0) {
currentPos += sprintf(printBuffer + currentPos, "\n");
}
}

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@ -1,6 +1,7 @@
#include "fsfw/osal/linux/BinarySemaphore.h"
#include <errno.h>
#include <stdio.h>
#include <time.h>
#include <cstring>

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@ -1,6 +1,8 @@
#ifndef FSFW_SERVICEINTERFACE_SERVICEINTERFACEPRINTER
#define FSFW_SERVICEINTERFACE_SERVICEINTERFACEPRINTER
#include "fsfw/FSFW.h"
#if FSFW_DISABLE_PRINTOUT == 0
#include <cstdio>
#endif

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@ -110,7 +110,7 @@ ReturnValue_t LocalPool::modifyData(store_address_t storeId, uint8_t** packetPtr
}
ReturnValue_t LocalPool::deleteData(store_address_t storeId) {
#if FSFW_VERBOSE_PRINTOUT == 2
#if FSFW_VERBOSE_LEVEL >= 2
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::debug << "Delete: Pool: " << std::dec << storeId.poolIndex
<< " Index: " << storeId.packetIndex << std::endl;
@ -148,7 +148,7 @@ ReturnValue_t LocalPool::deleteData(uint8_t* ptr, size_t size, store_address_t*
// element of an object.
localId.packetIndex = deltaAddress / elementSizes[n];
result = deleteData(localId);
#if FSFW_VERBOSE_PRINTOUT == 2
#if FSFW_VERBOSE_LEVEL >= 2
if (deltaAddress % elementSizes[n] != 0) {
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::error << "LocalPool::deleteData: Address not aligned!" << std::endl;
@ -219,7 +219,7 @@ ReturnValue_t LocalPool::reserveSpace(const size_t size, store_address_t* storeI
status = findEmpty(storeId->poolIndex, &storeId->packetIndex);
}
if (status == RETURN_OK) {
#if FSFW_VERBOSE_PRINTOUT == 2
#if FSFW_VERBOSE_LEVEL >= 2
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::debug << "Reserve: Pool: " << std::dec << storeId->poolIndex
<< " Index: " << storeId->packetIndex << std::endl;
@ -257,7 +257,7 @@ void LocalPool::setToSpillToHigherPools(bool enable) { this->spillsToHigherPools
ReturnValue_t LocalPool::getSubPoolIndex(size_t packetSize, uint16_t* subpoolIndex,
uint16_t startAtIndex) {
for (uint16_t n = startAtIndex; n < NUMBER_OF_SUBPOOLS; n++) {
#if FSFW_VERBOSE_PRINTOUT == 2
#if FSFW_VERBOSE_LEVEL >= 2
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::debug << "LocalPool " << getObjectId() << "::getPoolIndex: Pool: " << n
<< ", Element Size: " << elementSizes[n] << std::endl;

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@ -17,7 +17,7 @@ ReturnValue_t PoolManager::reserveSpace(const size_t size, store_address_t* addr
}
ReturnValue_t PoolManager::deleteData(store_address_t storeId) {
#if FSFW_VERBOSE_PRINTOUT == 2
#if FSFW_VERBOSE_LEVEL >= 2
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::debug << "PoolManager( " << translateObject(getObjectId()) << " )::deleteData from store "
<< storeId.poolIndex << ". id is " << storeId.packetIndex << std::endl;

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@ -109,8 +109,8 @@ ReturnValue_t CCSDSTime::convertFromCCS(Clock::TimeOfDay_t* to, const uint8_t* f
if (result != RETURN_OK) {
return result;
}
Ccs_mseconds* temp = (Ccs_mseconds*)from;
// At this point we made sure that this is a valid ccs time
const Ccs_mseconds* temp = reinterpret_cast<const Ccs_mseconds*>(from);
to->year = (temp->yearMSB << 8) + temp->yearLSB;
to->hour = temp->hour;
@ -118,16 +118,19 @@ ReturnValue_t CCSDSTime::convertFromCCS(Clock::TimeOfDay_t* to, const uint8_t* f
to->second = temp->second;
if (temp->pField & (1 << 3)) { // day of year variation
uint16_t tempDay = (temp->month << 8) + temp->day;
result = convertDaysOfYear(tempDay, to->year, &(temp->month), &(temp->day));
uint16_t tempDayOfYear = (temp->month << 8) + temp->day;
uint8_t tempDay = 0;
uint8_t tempMonth = 0;
result = convertDaysOfYear(tempDayOfYear, to->year, &tempMonth, &tempDay);
if (result != RETURN_OK) {
return result;
}
to->month = tempMonth;
to->day = tempDay;
} else {
to->month = temp->month;
to->day = temp->day;
}
to->month = temp->month;
to->day = temp->day;
to->usecond = 0;
if (subsecondsLength > 0) {
*foundLength += 1;
@ -162,7 +165,7 @@ ReturnValue_t CCSDSTime::convertFromASCII(Clock::TimeOfDay_t* to, const uint8_t*
uint16_t hour;
uint16_t minute;
float second;
int count = sscanf((char*)from,
int count = sscanf((const char*)from,
"%4" SCNu16 "-%2" SCNu16 "-%2" SCNu16
"T%"
"2" SCNu16 ":%2" SCNu16 ":%fZ",
@ -179,7 +182,7 @@ ReturnValue_t CCSDSTime::convertFromASCII(Clock::TimeOfDay_t* to, const uint8_t*
}
// try Code B (yyyy-ddd)
count = sscanf((char*)from,
count = sscanf((const char*)from,
"%4" SCNu16 "-%3" SCNu16 "T%2" SCNu16
":%"
"2" SCNu16 ":%fZ",
@ -211,7 +214,7 @@ ReturnValue_t CCSDSTime::convertFromASCII(Clock::TimeOfDay_t* to, const uint8_t*
float second;
// try Code A (yyyy-mm-dd)
int count =
sscanf((char*)from, "%4" SCNu16 "-%2" SCNu8 "-%2" SCNu16 "T%2" SCNu8 ":%2" SCNu8 ":%fZ",
sscanf((const char*)from, "%4" SCNu16 "-%2" SCNu8 "-%2" SCNu16 "T%2" SCNu8 ":%2" SCNu8 ":%fZ",
&year, &month, &day, &hour, &minute, &second);
if (count == 6) {
to->year = year;
@ -225,8 +228,8 @@ ReturnValue_t CCSDSTime::convertFromASCII(Clock::TimeOfDay_t* to, const uint8_t*
}
// try Code B (yyyy-ddd)
count = sscanf((char*)from, "%4" SCNu16 "-%3" SCNu16 "T%2" SCNu8 ":%2" SCNu8 ":%fZ", &year, &day,
&hour, &minute, &second);
count = sscanf((const char*)from, "%4" SCNu16 "-%3" SCNu16 "T%2" SCNu8 ":%2" SCNu8 ":%fZ", &year,
&day, &hour, &minute, &second);
if (count == 5) {
uint8_t tempDay;
ReturnValue_t result = CCSDSTime::convertDaysOfYear(day, year, &month, &tempDay);
@ -248,7 +251,7 @@ ReturnValue_t CCSDSTime::convertFromASCII(Clock::TimeOfDay_t* to, const uint8_t*
}
ReturnValue_t CCSDSTime::checkCcs(const uint8_t* time, uint8_t length) {
Ccs_mseconds* time_struct = (Ccs_mseconds*)time;
const Ccs_mseconds* time_struct = reinterpret_cast<const Ccs_mseconds*>(time);
uint8_t additionalBytes = time_struct->pField & 0b111;
if ((additionalBytes == 0b111) || (length < (additionalBytes + 8))) {
@ -278,7 +281,7 @@ ReturnValue_t CCSDSTime::checkCcs(const uint8_t* time, uint8_t length) {
return INVALID_TIME_FORMAT;
}
uint8_t* additionalByte = &time_struct->secondEminus2;
const uint8_t* additionalByte = &time_struct->secondEminus2;
for (; additionalBytes != 0; additionalBytes--) {
if (*additionalByte++ > 99) {

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@ -2,4 +2,5 @@ target_sources(${FSFW_TEST_TGT} PRIVATE
testDleEncoder.cpp
testOpDivider.cpp
testBitutil.cpp
testCRC.cpp
)

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@ -0,0 +1,14 @@
#include <array>
#include "catch2/catch_test_macros.hpp"
#include "fsfw/globalfunctions/CRC.h"
#include "fsfw_tests/unit/CatchDefinitions.h"
TEST_CASE("CRC", "[CRC]") {
std::array<uint8_t, 10> testData = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9};
uint16_t crc = CRC::crc16ccitt(testData.data(), 10);
REQUIRE(crc == 49729);
for (uint8_t index = 0; index < testData.size(); index++) {
REQUIRE(testData[index] == index);
}
}

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@ -11,10 +11,12 @@
//! More FSFW related printouts depending on level. Useful for development.
#define FSFW_VERBOSE_LEVEL 0
//! Can be used to completely disable printouts, even the C stdio ones.
#if FSFW_CPP_OSTREAM_ENABLED == 0 && FSFW_VERBOSE_LEVEL == 0
#define FSFW_DISABLE_PRINTOUT 1
#else
#define FSFW_DISABLE_PRINTOUT 0
#endif
#define FSFW_USE_PUS_C_TELEMETRY 1

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@ -1,3 +1,4 @@
target_sources(${FSFW_TEST_TGT} PRIVATE
TestCountdown.cpp
TestCCSDSTime.cpp
)

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@ -0,0 +1,92 @@
#include <fsfw/timemanager/CCSDSTime.h>
#include <array>
#include <catch2/catch_approx.hpp>
#include <catch2/catch_test_macros.hpp>
#include "fsfw_tests/unit/CatchDefinitions.h"
TEST_CASE("CCSDSTime Tests", "[TestCCSDSTime]") {
INFO("CCSDSTime Tests");
CCSDSTime::Ccs_mseconds cssMilliSecconds;
Clock::TimeOfDay_t time;
time.year = 2020;
time.month = 2;
time.day = 29;
time.hour = 13;
time.minute = 24;
time.second = 45;
time.usecond = 123456;
SECTION("Test CCS Time") {
auto result = CCSDSTime::convertToCcsds(&cssMilliSecconds, &time);
REQUIRE(result == HasReturnvaluesIF::RETURN_OK);
REQUIRE(cssMilliSecconds.pField == 0x52); // 0b01010010
REQUIRE(cssMilliSecconds.yearMSB == 0x07);
REQUIRE(cssMilliSecconds.yearLSB == 0xe4);
REQUIRE(cssMilliSecconds.month == 2);
REQUIRE(cssMilliSecconds.day == 29);
REQUIRE(cssMilliSecconds.hour == 13);
REQUIRE(cssMilliSecconds.minute == 24);
REQUIRE(cssMilliSecconds.second == 45);
uint16_t secondsMinus4 = (static_cast<uint16_t>(cssMilliSecconds.secondEminus2) * 100) +
cssMilliSecconds.secondEminus4;
REQUIRE(secondsMinus4 == 1234);
Clock::TimeOfDay_t timeTo;
const uint8_t* dataPtr = reinterpret_cast<const uint8_t*>(&cssMilliSecconds);
size_t length = sizeof(CCSDSTime::Ccs_mseconds);
result = CCSDSTime::convertFromCCS(&timeTo, dataPtr, &length, sizeof(CCSDSTime::Ccs_mseconds));
REQUIRE(result == HasReturnvaluesIF::RETURN_OK);
REQUIRE(cssMilliSecconds.pField == 0x52); // 0b01010010
REQUIRE(cssMilliSecconds.yearMSB == 0x07);
REQUIRE(cssMilliSecconds.yearLSB == 0xe4);
REQUIRE(cssMilliSecconds.month == 2);
REQUIRE(cssMilliSecconds.day == 29);
REQUIRE(cssMilliSecconds.hour == 13);
REQUIRE(cssMilliSecconds.minute == 24);
REQUIRE(cssMilliSecconds.second == 45);
REQUIRE(timeTo.year == 2020);
REQUIRE(timeTo.month == 2);
REQUIRE(timeTo.day == 29);
REQUIRE(timeTo.hour == 13);
REQUIRE(timeTo.minute == 24);
REQUIRE(timeTo.second == 45);
REQUIRE(timeTo.usecond == 123400);
}
SECTION("CCS_Day of Year") {
Clock::TimeOfDay_t timeTo;
std::array<uint8_t, 8> ccsDayOfYear = {0b01011000, 0x07, 0xe4, 0, 60, 13, 24, 45};
size_t length = ccsDayOfYear.size();
auto result =
CCSDSTime::convertFromCCS(&timeTo, ccsDayOfYear.data(), &length, ccsDayOfYear.size());
REQUIRE(result == HasReturnvaluesIF::RETURN_OK);
// Check constness
REQUIRE(ccsDayOfYear[0] == 0b01011000);
REQUIRE(ccsDayOfYear[1] == 0x07);
REQUIRE(ccsDayOfYear[2] == 0xe4);
REQUIRE(ccsDayOfYear[3] == 0x0);
REQUIRE(ccsDayOfYear[4] == 60);
REQUIRE(ccsDayOfYear[5] == 13);
REQUIRE(ccsDayOfYear[6] == 24);
REQUIRE(ccsDayOfYear[7] == 45);
REQUIRE(timeTo.year == 2020);
REQUIRE(timeTo.month == 2);
REQUIRE(timeTo.day == 29);
REQUIRE(timeTo.hour == 13);
REQUIRE(timeTo.minute == 24);
REQUIRE(timeTo.second == 45);
REQUIRE(timeTo.usecond == 0);
}
SECTION("Test convertFromASCII") {
std::string timeAscii = "2022-12-31T23:59:59.123Z";
Clock::TimeOfDay_t timeTo;
const uint8_t* timeChar = reinterpret_cast<const uint8_t*>(timeAscii.c_str());
CCSDSTime::convertFromASCII(&timeTo, timeChar, timeAscii.length());
REQUIRE(timeTo.year == 2022);
REQUIRE(timeTo.month == 12);
REQUIRE(timeTo.day == 31);
REQUIRE(timeTo.hour == 23);
REQUIRE(timeTo.minute == 59);
REQUIRE(timeTo.second == 59);
REQUIRE(timeTo.usecond == Catch::Approx(123000));
}
}