added proper non-escaped variant
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ece7dce6f7
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@ -14,6 +14,10 @@ ReturnValue_t DleEncoder::encode(const uint8_t* sourceStream,
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size_t encodedIndex = 0, sourceIndex = 0;
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uint8_t nextByte;
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if (addStxEtx) {
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if(not escapeStxEtx) {
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destStream[0] = DLE_CHAR;
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++encodedIndex;
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}
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destStream[0] = STX_CHAR;
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++encodedIndex;
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}
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@ -61,6 +65,10 @@ ReturnValue_t DleEncoder::encode(const uint8_t* sourceStream,
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if (sourceIndex == sourceLen and encodedIndex < maxDestLen) {
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if (addStxEtx) {
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if(not escapeStxEtx) {
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destStream[encodedIndex] = DLE_CHAR;
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++encodedIndex;
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}
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destStream[encodedIndex] = ETX_CHAR;
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++encodedIndex;
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}
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@ -72,62 +80,121 @@ ReturnValue_t DleEncoder::encode(const uint8_t* sourceStream,
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}
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}
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ReturnValue_t DleEncoder::encodeEscaped(const uint8_t *sourceStream, size_t sourceLen,
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uint8_t *destStream, size_t maxDestLen, size_t *encodedLen, bool addStxEtx) {
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}
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ReturnValue_t DleEncoder::encodeNonEscaped(const uint8_t *sourceStream, size_t sourceLen,
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uint8_t *destStream, size_t maxDestLen, size_t *encodedLen, bool addStxEtx) {
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}
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ReturnValue_t DleEncoder::decode(const uint8_t *sourceStream,
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size_t sourceStreamLen, size_t *readLen, uint8_t *destStream,
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size_t maxDestStreamlen, size_t *decodedLen) {
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size_t encodedIndex = 0, decodedIndex = 0;
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uint8_t nextByte;
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if (*sourceStream != STX_CHAR) {
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return DECODING_ERROR;
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if(not escapeStxEtx) {
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if (*sourceStream != DLE_CHAR) {
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return DECODING_ERROR;
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}
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++encodedIndex;
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}
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if (sourceStream[encodedIndex] != STX_CHAR) {
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return DECODING_ERROR;
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}
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++encodedIndex;
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while ((encodedIndex < sourceStreamLen) && (decodedIndex < maxDestStreamlen)
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&& (sourceStream[encodedIndex] != ETX_CHAR)
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&& (sourceStream[encodedIndex] != STX_CHAR)) {
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if (sourceStream[encodedIndex] == DLE_CHAR) {
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nextByte = sourceStream[encodedIndex + 1];
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// The next byte is a DLE character that was escaped by another
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// DLE character, so we can write it to the destination stream.
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if (nextByte == DLE_CHAR) {
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destStream[decodedIndex] = nextByte;
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}
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else {
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if(this->escapeStxEtx) {
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/* The next byte is a STX, DTX or 0x0D character which
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* was escaped by a DLE character. The actual byte was
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* also encoded by adding + 0x40 to prevent having control chars,
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* in the stream at all, so we convert it back. */
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if ((nextByte == STX_CHAR + 0x40 or nextByte == ETX_CHAR + 0x40) or
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(this->escapeCr and nextByte == CARRIAGE_RETURN + 0x40)) {
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destStream[decodedIndex] = nextByte - 0x40;
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}
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else {
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return DECODING_ERROR;
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}
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}
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else {
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return DECODING_ERROR;
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}
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}
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++encodedIndex;
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}
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else {
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destStream[decodedIndex] = sourceStream[encodedIndex];
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}
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++encodedIndex;
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++decodedIndex;
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}
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if (sourceStream[encodedIndex] != ETX_CHAR) {
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*readLen = ++encodedIndex;
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return DECODING_ERROR;
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if(escapeStxEtx) {
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return decodeStreamEscaped(encodedIndex, decodedIndex, sourceStream, sourceStreamLen,
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readLen, destStream, maxDestStreamlen, decodedLen);
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}
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else {
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*readLen = ++encodedIndex;
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*decodedLen = decodedIndex;
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return RETURN_OK;
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return decodeStreamNonEscaped(encodedIndex, decodedIndex, sourceStream, sourceStreamLen,
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readLen, destStream, maxDestStreamlen, decodedLen);
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}
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}
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ReturnValue_t DleEncoder::decodeStreamEscaped(size_t encodedIndex, size_t decodedIndex,
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const uint8_t *sourceStream, size_t sourceStreamLen, size_t *readLen, uint8_t *destStream,
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size_t maxDestStreamlen, size_t *decodedLen) {
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uint8_t nextByte;
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while ((encodedIndex < sourceStreamLen) && (decodedIndex < maxDestStreamlen)
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&& (sourceStream[encodedIndex] != ETX_CHAR)
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&& (sourceStream[encodedIndex] != STX_CHAR)) {
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if (sourceStream[encodedIndex] == DLE_CHAR) {
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nextByte = sourceStream[encodedIndex + 1];
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// The next byte is a DLE character that was escaped by another
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// DLE character, so we can write it to the destination stream.
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if (nextByte == DLE_CHAR) {
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destStream[decodedIndex] = nextByte;
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}
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else {
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if(this->escapeStxEtx) {
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/* The next byte is a STX, DTX or 0x0D character which
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* was escaped by a DLE character. The actual byte was
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* also encoded by adding + 0x40 to prevent having control chars,
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* in the stream at all, so we convert it back. */
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if ((nextByte == STX_CHAR + 0x40 or nextByte == ETX_CHAR + 0x40) or
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(this->escapeCr and nextByte == CARRIAGE_RETURN + 0x40)) {
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destStream[decodedIndex] = nextByte - 0x40;
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}
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else {
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return DECODING_ERROR;
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}
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}
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else {
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return DECODING_ERROR;
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}
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}
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++encodedIndex;
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}
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else {
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destStream[decodedIndex] = sourceStream[encodedIndex];
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}
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++encodedIndex;
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++decodedIndex;
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}
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if (sourceStream[encodedIndex] != ETX_CHAR) {
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*readLen = ++encodedIndex;
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return DECODING_ERROR;
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}
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else {
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*readLen = ++encodedIndex;
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*decodedLen = decodedIndex;
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return RETURN_OK;
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}
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}
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ReturnValue_t DleEncoder::decodeStreamNonEscaped(size_t encodedIndex, size_t decodedIndex,
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const uint8_t *sourceStream, size_t sourceStreamLen, size_t *readLen, uint8_t *destStream,
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size_t maxDestStreamlen, size_t *decodedLen) {
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uint8_t nextByte;
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while ((encodedIndex < sourceStreamLen) && (decodedIndex < maxDestStreamlen)) {
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if (sourceStream[encodedIndex] == DLE_CHAR) {
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nextByte = sourceStream[encodedIndex + 1];
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if(nextByte == STX_CHAR) {
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*readLen = ++encodedIndex;
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return DECODING_ERROR;
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}
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else if(nextByte == DLE_CHAR) {
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// The next byte is a DLE character that was escaped by another
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// DLE character, so we can write it to the destination stream.
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destStream[decodedIndex] = nextByte;
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++encodedIndex;
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}
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else if(nextByte == ETX_CHAR) {
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// End of stream reached
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return RETURN_OK;
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}
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}
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else {
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destStream[decodedIndex] = sourceStream[encodedIndex];
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}
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++encodedIndex;
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++decodedIndex;
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}
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return DECODING_ERROR;
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}
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@ -90,6 +90,14 @@ public:
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size_t sourceStreamLen, size_t *readLen, uint8_t *destStream,
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size_t maxDestStreamlen, size_t *decodedLen);
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ReturnValue_t decodeStreamEscaped(size_t encodedIndex, size_t decodedIndex,
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const uint8_t *sourceStream, size_t sourceStreamLen, size_t *readLen,
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uint8_t *destStream, size_t maxDestStreamlen, size_t *decodedLen);
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ReturnValue_t decodeStreamNonEscaped(size_t encodedIndex, size_t decodedIndex,
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const uint8_t *sourceStream, size_t sourceStreamLen, size_t *readLen,
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uint8_t *destStream, size_t maxDestStreamlen, size_t *decodedLen);
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private:
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bool escapeStxEtx;
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