#include #include "fsfw/globalfunctions/CRC.h" #include "fsfw/globalfunctions/arrayprinter.h" #include "fsfw/tmtcpacket/pus/tm.h" #include "mock/CdsShortTimestamperMock.h" #include "mock/SimpleSerializable.h" TEST_CASE("PUS TM Creator", "[pus-tm-creator]") { auto packetId = PacketId(ccsds::PacketType::TC, true, 0xef); auto spParams = SpacePacketParams(packetId, PacketSeqCtrl(ccsds::SequenceFlags::UNSEGMENTED, 22), 0x00); auto timeStamper = CdsShortTimestamperMock(); auto pusTmParams = PusTmParams(17, 2, &timeStamper); timeStamper.valueToStamp = {1, 2, 3, 4, 5, 6, 7}; PusTmCreator creator(spParams, pusTmParams); std::array buf{}; uint8_t* dataPtr = buf.data(); size_t serLen = 0; SECTION("State") { CHECK(creator.isTm()); CHECK(creator.hasSecHeader()); CHECK(creator.getApid() == 0xef); CHECK(creator.getPusVersion() == 2); CHECK(creator.getScTimeRefStatus() == 0); CHECK(creator.getService() == 17); CHECK(creator.getSubService() == 2); CHECK(creator.getTimestamper() == &timeStamper); CHECK(creator.getSequenceFlags() == ccsds::SequenceFlags::UNSEGMENTED); CHECK(creator.getSequenceCount() == 22); // 6 bytes CCSDS header, 7 bytes secondary header, 7 bytes CDS short timestamp, // 0 bytes application data, 2 bytes CRC CHECK(creator.getFullPacketLen() == 22); // As specified in standard, the data length fields is the total size of the packet without // the primary header minus 1 CHECK(creator.getPacketDataLen() == 15); CHECK(timeStamper.getSizeCallCount == 1); } SECTION("SP Params") { auto& spParamsRef = creator.getSpParams(); REQUIRE(spParamsRef.dataLen == 15); REQUIRE(spParamsRef.packetId.apid == 0xef); } SECTION("Serialization") { REQUIRE(creator.SerializeIF::serializeBe(&dataPtr, &serLen, buf.size()) == returnvalue::OK); REQUIRE(buf[0] == 0x08); REQUIRE(buf[1] == 0xef); // Unsegmented is the default REQUIRE(buf[2] == 0xc0); REQUIRE(buf[3] == 22); REQUIRE(buf[4] == 0); REQUIRE(buf[5] == 15); REQUIRE(((buf[6] >> 4) & 0b1111) == ecss::PusVersion::PUS_C); // SC time reference field REQUIRE((buf[6] & 0b1111) == 0); // Service and subservice field REQUIRE(buf[7] == 17); REQUIRE(buf[8] == 2); // Message Sequence Count REQUIRE(((buf[9] << 8) | buf[10]) == 0); // Destination ID REQUIRE(((buf[11] << 8) | buf[12]) == 0); // Custom timestamp for (size_t i = 1; i < 8; i++) { REQUIRE(buf[12 + i] == i); } REQUIRE(serLen == 22); REQUIRE(CRC::crc16ccitt(buf.data(), serLen) == 0); REQUIRE(buf[20] == 0x03); REQUIRE(buf[21] == 0x79); REQUIRE(timeStamper.serializeCallCount == 1); } SECTION("Custom Fields") { creator.setApid(0x3ff); SECTION("Using Params") { auto& pusParams = creator.getParams(); pusParams.secHeader.destId = 0xfff; pusParams.secHeader.messageTypeCounter = 0x313; } SECTION("Using Setters") { auto& pusParams = creator.getParams(); creator.setDestId(0xfff); creator.setMessageTypeCounter(0x313); } REQUIRE(creator.getApid() == 0x3ff); REQUIRE(creator.getDestId() == 0xfff); REQUIRE(creator.getMessageTypeCounter() == 0x313); REQUIRE(creator.serializeBe(&dataPtr, &serLen, buf.size()) == returnvalue::OK); // Message Sequence Count REQUIRE(((buf[9] << 8) | buf[10]) == 0x313); // Destination ID REQUIRE(((buf[11] << 8) | buf[12]) == 0xfff); } SECTION("Deserialization fails") { SerializeIF& deser = creator; const uint8_t* roDataPtr = nullptr; REQUIRE(deser.deSerialize(&roDataPtr, &serLen, SerializeIF::Endianness::NETWORK) == returnvalue::FAILED); } SECTION("Serialize with Raw Data") { std::array data{1, 2, 3}; creator.setRawUserData(data.data(), data.size()); REQUIRE(creator.getFullPacketLen() == 25); REQUIRE(creator.serializeBe(&dataPtr, &serLen, buf.size()) == returnvalue::OK); REQUIRE(buf[20] == 1); REQUIRE(buf[21] == 2); REQUIRE(buf[22] == 3); } SECTION("Serialize with Serializable") { auto simpleSer = SimpleSerializable(); creator.setSerializableUserData(simpleSer); REQUIRE(creator.getFullPacketLen() == 25); REQUIRE(creator.serialize(&dataPtr, &serLen, buf.size(), SerializeIF::Endianness::NETWORK) == returnvalue::OK); REQUIRE(buf[20] == 1); REQUIRE(buf[21] == 2); REQUIRE(buf[22] == 3); } SECTION("Empty Ctor") { PusTmCreator creatorFromEmptyCtor; // 6 bytes CCSDS header, 7 bytes secondary header, no timestamp (IF is null), // 0 bytes application data, 2 bytes CRC REQUIRE(creatorFromEmptyCtor.getFullPacketLen() == 15); // As specified in standard, the data length fields is the total size of the packet without // the primary header minus 1 REQUIRE(creatorFromEmptyCtor.getPacketDataLen() == 8); creatorFromEmptyCtor.setTimeStamper(timeStamper); REQUIRE(creatorFromEmptyCtor.getFullPacketLen() == 22); REQUIRE(creatorFromEmptyCtor.getPacketDataLen() == 15); } SECTION("Invalid Buffer Sizes") { size_t reqSize = creator.getSerializedSize(); for (size_t maxSize = 0; maxSize < reqSize; maxSize++) { dataPtr = buf.data(); serLen = 0; REQUIRE(creator.serialize(&dataPtr, &serLen, maxSize, SerializeIF::Endianness::NETWORK) == SerializeIF::BUFFER_TOO_SHORT); } } SECTION("No CRC Generation") { creator.disableCrcCalculation(); REQUIRE(not creator.crcCalculationEnabled()); REQUIRE(creator.serializeBe(dataPtr, serLen, buf.size()) == returnvalue::OK); REQUIRE(serLen == 22); REQUIRE(buf[20] == 0x00); REQUIRE(buf[21] == 0x00); } }