/* * Copyright (C) 2009-2014,2016,2018,2020 by Jonathan Naylor G4KLX * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "KenwoodNetwork.h" #include "NXDNCRC.h" #include "Utils.h" #include "Log.h" #include #include #include #include const unsigned char BIT_MASK_TABLE[] = { 0x80U, 0x40U, 0x20U, 0x10U, 0x08U, 0x04U, 0x02U, 0x01U }; #define WRITE_BIT(p,i,b) p[(i)>>3] = (b) ? (p[(i)>>3] | BIT_MASK_TABLE[(i)&7]) : (p[(i)>>3] & ~BIT_MASK_TABLE[(i)&7]) #define READ_BIT(p,i) (p[(i)>>3] & BIT_MASK_TABLE[(i)&7]) const unsigned int BUFFER_LENGTH = 200U; CKenwoodNetwork::CKenwoodNetwork(unsigned int localPort, const std::string& rptAddress, unsigned int rptPort, bool debug) : m_rtcpSocket(localPort + 1U), m_rtpSocket(localPort + 0U), m_stopWatch(), m_address(), m_rtcpPort(rptPort + 1U), m_rtpPort(rptPort + 0U), m_sessionId(0U), m_seqNo(0U), m_timeStamp(0U), m_ssrc(0U), m_debug(debug), m_startSecs(0U), m_startMSecs(0U), m_rtcpTimer(1000U, 0U, 200U), m_hangTimer(1000U, 5U), m_hangType(0U), m_hangSrc(0U), m_hangDst(0U) { assert(localPort > 0U); assert(!rptAddress.empty()); assert(rptPort > 0U); m_address = CUDPSocket::lookup(rptAddress); } CKenwoodNetwork::~CKenwoodNetwork() { } bool CKenwoodNetwork::open() { LogMessage("Opening Kenwood connection"); if (m_address.s_addr == INADDR_NONE) return false; if (!m_rtcpSocket.open()) return false; if (!m_rtpSocket.open()) { m_rtcpSocket.close(); return false; } m_ssrc = m_rtpSocket.getLocalAddress(); return true; } bool CKenwoodNetwork::write(const unsigned char* data, unsigned int length) { assert(data != NULL); switch (data[0U]) { case 0x81U: // Voice header or trailer case 0x83U: return processIcomVoiceHeader(data); case 0xACU: // Voice data case 0xAEU: return processIcomVoiceData(data); default: return false; } } bool CKenwoodNetwork::processIcomVoiceHeader(const unsigned char* inData) { assert(inData != NULL); unsigned char outData[30U]; ::memset(outData, 0x00U, 30U); // SACCH outData[0U] = inData[2U]; outData[1U] = inData[1U]; outData[2U] = inData[4U] & 0xC0U; outData[3U] = inData[3U]; // FACCH 1+2 outData[4U] = outData[14U] = inData[6U]; outData[5U] = outData[15U] = inData[5U]; outData[6U] = outData[16U] = inData[8U]; outData[7U] = outData[17U] = inData[7U]; outData[8U] = outData[18U] = inData[10U]; outData[9U] = outData[19U] = inData[9U]; outData[10U] = outData[20U] = inData[12U]; outData[11U] = outData[21U] = inData[11U]; unsigned short src = (inData[8U] << 8) + (inData[9U] << 0); unsigned short dst = (inData[10U] << 8) + (inData[11U] << 0); unsigned char type = (inData[7U] >> 5) & 0x07U; switch (inData[5U] & 0x3FU) { case 0x01U: m_hangTimer.stop(); m_rtcpTimer.start(); writeRTCPStart(); return writeRTPVoiceHeader(outData); case 0x08U: m_hangTimer.start(); writeRTCPHang(type, src, dst); return writeRTPVoiceTrailer(outData); default: return false; } } bool CKenwoodNetwork::processIcomVoiceData(const unsigned char* inData) { assert(inData != NULL); unsigned char outData[40U], temp[10U]; ::memset(outData, 0x00U, 40U); // SACCH outData[0U] = inData[2U]; outData[1U] = inData[1U]; outData[2U] = inData[4U] & 0xC0U; outData[3U] = inData[3U]; CUtils::dump(4U, "Icom Audio 1 + 2 + 3 + 4", inData + 5U, 28U); CUtils::dump(4U, "Icom Audio 1 + 2", inData + 5U, 14U); // Audio 1 ::memset(temp, 0x00U, 10U); for (unsigned int i = 0U; i < 49U; i++) { unsigned int offset = (5U * 8U) + i; bool b = READ_BIT(inData, offset); WRITE_BIT(temp, i, b); } outData[4U] = temp[1U]; outData[5U] = temp[0U]; outData[6U] = temp[3U]; outData[7U] = temp[2U]; outData[8U] = temp[5U]; outData[9U] = temp[4U]; outData[10U] = temp[7U]; outData[11U] = temp[6U]; CUtils::dump(4U, "Kenwood unswapped Audio 1", temp, 8U); // Audio 2 ::memset(temp, 0x00U, 10U); for (unsigned int i = 0U; i < 49U; i++) { unsigned int offset = (5U * 8U) + 49U + i; bool b = READ_BIT(inData, offset); WRITE_BIT(temp, i, b); } outData[12U] = temp[1U]; outData[13U] = temp[0U]; outData[14U] = temp[3U]; outData[15U] = temp[2U]; outData[16U] = temp[5U]; outData[17U] = temp[4U]; outData[18U] = temp[7U]; outData[19U] = temp[6U]; CUtils::dump(4U, "Kenwood unswapped Audio 2", temp, 8U); CUtils::dump(4U, "Icom Audio 3 + 4", inData + 19U, 14U); // Audio 3 ::memset(temp, 0x00U, 10U); for (unsigned int i = 0U; i < 49U; i++) { unsigned int offset = (19U * 8U) + i; bool b = READ_BIT(inData, offset); WRITE_BIT(temp, i, b); } outData[20U] = temp[1U]; outData[21U] = temp[0U]; outData[22U] = temp[3U]; outData[23U] = temp[2U]; outData[24U] = temp[5U]; outData[25U] = temp[4U]; outData[26U] = temp[7U]; outData[27U] = temp[6U]; CUtils::dump(4U, "Kenwood unswapped Audio 3", temp, 8U); // Audio 4 ::memset(temp, 0x00U, 10U); for (unsigned int i = 0U; i < 49U; i++) { unsigned int offset = (19U * 8U) + 49U + i; bool b = READ_BIT(inData, offset); WRITE_BIT(temp, i, b); } outData[28U] = temp[1U]; outData[29U] = temp[0U]; outData[30U] = temp[3U]; outData[31U] = temp[2U]; outData[32U] = temp[5U]; outData[33U] = temp[4U]; outData[34U] = temp[7U]; outData[35U] = temp[6U]; CUtils::dump(4U, "Kenwood unswapped Audio 4", temp, 8U); return writeRTPVoiceData(outData); } bool CKenwoodNetwork::writeRTPVoiceHeader(const unsigned char* data) { assert(data != NULL); unsigned char buffer[50U]; ::memset(buffer, 0x00U, 50U); buffer[0U] = 0x80U; buffer[1U] = 0x66U; m_seqNo++; buffer[2U] = (m_seqNo >> 8) & 0xFFU; buffer[3U] = (m_seqNo >> 0) & 0xFFU; m_timeStamp = (unsigned long)m_stopWatch.time(); buffer[4U] = (m_timeStamp >> 24) & 0xFFU; buffer[5U] = (m_timeStamp >> 16) & 0xFFU; buffer[6U] = (m_timeStamp >> 8) & 0xFFU; buffer[7U] = (m_timeStamp >> 0) & 0xFFU; buffer[8U] = (m_ssrc >> 24) & 0xFFU; buffer[9U] = (m_ssrc >> 16) & 0xFFU; buffer[10U] = (m_ssrc >> 8) & 0xFFU; buffer[11U] = (m_ssrc >> 0) & 0xFFU; m_sessionId++; buffer[12U] = m_sessionId; buffer[13U] = 0x00U; buffer[14U] = 0x00U; buffer[15U] = 0x00U; buffer[16U] = 0x03U; buffer[17U] = 0x03U; buffer[18U] = 0x04U; buffer[19U] = 0x04U; buffer[20U] = 0x0AU; buffer[21U] = 0x05U; buffer[22U] = 0x0AU; ::memcpy(buffer + 23U, data, 24U); if (m_debug) CUtils::dump(1U, "Kenwood Network RTP Data Sent", buffer, 47U); return m_rtpSocket.write(buffer, 47U, m_address, m_rtpPort); } bool CKenwoodNetwork::writeRTPVoiceTrailer(const unsigned char* data) { assert(data != NULL); unsigned char buffer[50U]; ::memset(buffer, 0x00U, 50U); buffer[0U] = 0x80U; buffer[1U] = 0x66U; m_seqNo++; buffer[2U] = (m_seqNo >> 8) & 0xFFU; buffer[3U] = (m_seqNo >> 0) & 0xFFU; m_timeStamp += 640U; buffer[4U] = (m_timeStamp >> 24) & 0xFFU; buffer[5U] = (m_timeStamp >> 16) & 0xFFU; buffer[6U] = (m_timeStamp >> 8) & 0xFFU; buffer[7U] = (m_timeStamp >> 0) & 0xFFU; buffer[8U] = (m_ssrc >> 24) & 0xFFU; buffer[9U] = (m_ssrc >> 16) & 0xFFU; buffer[10U] = (m_ssrc >> 8) & 0xFFU; buffer[11U] = (m_ssrc >> 0) & 0xFFU; buffer[12U] = m_sessionId; buffer[13U] = 0x00U; buffer[14U] = 0x00U; buffer[15U] = 0x00U; buffer[16U] = 0x03U; buffer[17U] = 0x03U; buffer[18U] = 0x04U; buffer[19U] = 0x04U; buffer[20U] = 0x0AU; buffer[21U] = 0x05U; buffer[22U] = 0x0AU; ::memcpy(buffer + 23U, data, 24U); if (m_debug) CUtils::dump(1U, "Kenwood Network RTP Data Sent", buffer, 47U); return m_rtpSocket.write(buffer, 47U, m_address, m_rtpPort); } bool CKenwoodNetwork::writeRTPVoiceData(const unsigned char* data) { assert(data != NULL); unsigned char buffer[60U]; ::memset(buffer, 0x00U, 60U); buffer[0U] = 0x80U; buffer[1U] = 0x66U; m_seqNo++; buffer[2U] = (m_seqNo >> 8) & 0xFFU; buffer[3U] = (m_seqNo >> 0) & 0xFFU; m_timeStamp += 640U; buffer[4U] = (m_timeStamp >> 24) & 0xFFU; buffer[5U] = (m_timeStamp >> 16) & 0xFFU; buffer[6U] = (m_timeStamp >> 8) & 0xFFU; buffer[7U] = (m_timeStamp >> 0) & 0xFFU; buffer[8U] = (m_ssrc >> 24) & 0xFFU; buffer[9U] = (m_ssrc >> 16) & 0xFFU; buffer[10U] = (m_ssrc >> 8) & 0xFFU; buffer[11U] = (m_ssrc >> 0) & 0xFFU; buffer[12U] = m_sessionId; buffer[13U] = 0x00U; buffer[14U] = 0x00U; buffer[15U] = 0x00U; buffer[16U] = 0x03U; buffer[17U] = 0x02U; buffer[18U] = 0x04U; buffer[19U] = 0x07U; buffer[20U] = 0x10U; buffer[21U] = 0x08U; buffer[22U] = 0x10U; ::memcpy(buffer + 23U, data, 36U); if (m_debug) CUtils::dump(1U, "Kenwood Network RTP Data Sent", buffer, 59U); return m_rtpSocket.write(buffer, 59U, m_address, m_rtpPort); } bool CKenwoodNetwork::writeRTCPStart() { time_t now; ::time(&now); m_startSecs = uint32_t(now); #if defined(_WIN32) || defined(_WIN64) SYSTEMTIME st; ::GetSystemTime(&st); m_startMSecs = st.wMilliseconds; #else struct timeval tod; ::gettimeofday(&tod, NULL); m_startMSecs = tod.tv_usec / 1000U; #endif unsigned char buffer[30U]; ::memset(buffer, 0x00U, 30U); buffer[0U] = 0x8AU; buffer[1U] = 0xCCU; buffer[2U] = 0x00U; buffer[3U] = 0x06U; buffer[4U] = (m_ssrc >> 24) & 0xFFU; buffer[5U] = (m_ssrc >> 16) & 0xFFU; buffer[6U] = (m_ssrc >> 8) & 0xFFU; buffer[7U] = (m_ssrc >> 0) & 0xFFU; buffer[8U] = 'K'; buffer[9U] = 'W'; buffer[10U] = 'N'; buffer[11U] = 'E'; buffer[12U] = (m_startSecs >> 24) & 0xFFU; buffer[13U] = (m_startSecs >> 16) & 0xFFU; buffer[14U] = (m_startSecs >> 8) & 0xFFU; buffer[15U] = (m_startSecs >> 0) & 0xFFU; buffer[16U] = (m_startMSecs >> 24) & 0xFFU; buffer[17U] = (m_startMSecs >> 16) & 0xFFU; buffer[18U] = (m_startMSecs >> 8) & 0xFFU; buffer[19U] = (m_startMSecs >> 0) & 0xFFU; buffer[22U] = 0x02U; buffer[24U] = 0x01U; buffer[27U] = 0x0AU; if (m_debug) CUtils::dump(1U, "Kenwood Network RTCP Data Sent", buffer, 28U); return m_rtcpSocket.write(buffer, 28U, m_address, m_rtcpPort); } bool CKenwoodNetwork::writeRTCPPing() { unsigned char buffer[30U]; ::memset(buffer, 0x00U, 30U); buffer[0U] = 0x8AU; buffer[1U] = 0xCCU; buffer[2U] = 0x00U; buffer[3U] = 0x06U; buffer[4U] = (m_ssrc >> 24) & 0xFFU; buffer[5U] = (m_ssrc >> 16) & 0xFFU; buffer[6U] = (m_ssrc >> 8) & 0xFFU; buffer[7U] = (m_ssrc >> 0) & 0xFFU; buffer[8U] = 'K'; buffer[9U] = 'W'; buffer[10U] = 'N'; buffer[11U] = 'E'; buffer[12U] = (m_startSecs >> 24) & 0xFFU; buffer[13U] = (m_startSecs >> 16) & 0xFFU; buffer[14U] = (m_startSecs >> 8) & 0xFFU; buffer[15U] = (m_startSecs >> 0) & 0xFFU; buffer[16U] = (m_startMSecs >> 24) & 0xFFU; buffer[17U] = (m_startMSecs >> 16) & 0xFFU; buffer[18U] = (m_startMSecs >> 8) & 0xFFU; buffer[19U] = (m_startMSecs >> 0) & 0xFFU; buffer[22U] = 0x02U; buffer[24U] = 0x01U; buffer[27U] = 0x7BU; if (m_debug) CUtils::dump(1U, "Kenwood Network RTCP Data Sent", buffer, 28U); return m_rtcpSocket.write(buffer, 28U, m_address, m_rtcpPort); } bool CKenwoodNetwork::writeRTCPHang(unsigned char type, unsigned short src, unsigned short dst) { m_hangType = type; m_hangSrc = src; m_hangDst = dst; return writeRTCPHang(); } bool CKenwoodNetwork::writeRTCPHang() { unsigned char buffer[30U]; ::memset(buffer, 0x00U, 30U); buffer[0U] = 0x8BU; buffer[1U] = 0xCCU; buffer[2U] = 0x00U; buffer[3U] = 0x04U; buffer[4U] = (m_ssrc >> 24) & 0xFFU; buffer[5U] = (m_ssrc >> 16) & 0xFFU; buffer[6U] = (m_ssrc >> 8) & 0xFFU; buffer[7U] = (m_ssrc >> 0) & 0xFFU; buffer[8U] = 'K'; buffer[9U] = 'W'; buffer[10U] = 'N'; buffer[11U] = 'E'; buffer[12U] = (m_hangSrc >> 8) & 0xFFU; buffer[13U] = (m_hangSrc >> 0) & 0xFFU; buffer[14U] = (m_hangDst >> 8) & 0xFFU; buffer[15U] = (m_hangDst >> 0) & 0xFFU; buffer[16U] = m_hangType; buffer[17U] = 0x00U; buffer[18U] = 0x00U; buffer[19U] = 0x00U; if (m_debug) CUtils::dump(1U, "Kenwood Network RTCP Data Sent", buffer, 20U); return m_rtcpSocket.write(buffer, 20U, m_address, m_rtcpPort); } bool CKenwoodNetwork::read(unsigned char* data) { assert(data != NULL); unsigned char dummy[BUFFER_LENGTH]; readRTCP(dummy); unsigned int len = readRTP(data); switch (len) { case 0U: // Nothing received return false; case 35U: // Voice header or trailer return processKenwoodVoiceHeader(data); case 47U: // Voice data processKenwoodVoiceData(data); return true; case 31U: // Data processKenwoodData(data); return true; default: CUtils::dump(5U, "Unknown data received from the Kenwood network", data, len); return false; } } unsigned int CKenwoodNetwork::readRTP(unsigned char* data) { assert(data != NULL); unsigned char buffer[BUFFER_LENGTH]; in_addr address; unsigned int port; int length = m_rtpSocket.read(buffer, BUFFER_LENGTH, address, port); if (length <= 0) return 0U; // Check if the data is for us if (m_address.s_addr != address.s_addr) { LogMessage("Kenwood RTP packet received from an invalid source, %08X != %08X", m_address.s_addr, address.s_addr); return 0U; } if (m_debug) CUtils::dump(1U, "Kenwood Network RTP Data Received", buffer, length); ::memcpy(data, buffer + 12U, length - 12U); return length - 12U; } unsigned int CKenwoodNetwork::readRTCP(unsigned char* data) { assert(data != NULL); unsigned char buffer[BUFFER_LENGTH]; in_addr address; unsigned int port; int length = m_rtcpSocket.read(buffer, BUFFER_LENGTH, address, port); if (length <= 0) return 0U; // Check if the data is for us if (m_address.s_addr != address.s_addr) { LogMessage("Kenwood RTCP packet received from an invalid source, %08X != %08X", m_address.s_addr, address.s_addr); return 0U; } if (m_debug) CUtils::dump(1U, "Kenwood Network RTCP Data Received", buffer, length); if (::memcmp(buffer + 8U, "KWNE", 4U) != 0) { LogError("Missing RTCP KWNE signature"); return 0U; } ::memcpy(data, buffer + 12U, length - 12U); return length - 12U; } void CKenwoodNetwork::close() { m_rtcpSocket.close(); m_rtpSocket.close(); LogMessage("Closing Kenwood connection"); } void CKenwoodNetwork::clock(unsigned int ms) { m_rtcpTimer.clock(ms); if (m_rtcpTimer.isRunning() && m_rtcpTimer.hasExpired()) { if (m_hangTimer.isRunning()) writeRTCPHang(); else writeRTCPPing(); m_rtcpTimer.start(); } m_hangTimer.clock(ms); if (m_hangTimer.isRunning() && m_hangTimer.hasExpired()) { m_rtcpTimer.stop(); m_hangTimer.stop(); } } bool CKenwoodNetwork::processKenwoodVoiceHeader(unsigned char* inData) { assert(inData != NULL); unsigned char outData[50U], temp[20U]; ::memset(outData, 0x00U, 50U); // LICH outData[0U] = 0x83U; // SACCH ::memset(temp, 0x00U, 20U); temp[0U] = inData[12U]; temp[1U] = inData[11U]; temp[2U] = inData[14U]; temp[3U] = inData[13U]; CNXDNCRC::encodeCRC6(temp, 26U); ::memcpy(outData + 1U, temp, 4U); // FACCH 1+2 ::memset(temp, 0x00U, 20U); temp[0U] = inData[16U]; temp[1U] = inData[15U]; temp[2U] = inData[18U]; temp[3U] = inData[17U]; temp[4U] = inData[20U]; temp[5U] = inData[19U]; temp[6U] = inData[22U]; temp[7U] = inData[21U]; temp[8U] = inData[24U]; temp[9U] = inData[23U]; CNXDNCRC::encodeCRC12(temp, 80U); ::memcpy(outData + 5U, temp, 12U); ::memcpy(outData + 19U, temp, 12U); switch (outData[5U] & 0x3FU) { case 0x01U: ::memcpy(inData, outData, 33U); return true; case 0x08U: ::memcpy(inData, outData, 33U); return true; default: return false; } } void CKenwoodNetwork::processKenwoodVoiceData(unsigned char* inData) { assert(inData != NULL); unsigned char outData[50U], temp[20U]; ::memset(outData, 0x00U, 50U); // LICH outData[0U] = 0xAEU; // SACCH ::memset(temp, 0x00U, 20U); temp[0U] = inData[12U]; temp[1U] = inData[11U]; temp[2U] = inData[14U]; temp[3U] = inData[13U]; CNXDNCRC::encodeCRC6(temp, 26U); ::memcpy(outData + 1U, temp, 4U); // AMBE 1+2 unsigned int n = 5U * 8U; temp[0U] = inData[16U]; temp[1U] = inData[15U]; temp[2U] = inData[18U]; temp[3U] = inData[17U]; temp[4U] = inData[20U]; temp[5U] = inData[19U]; temp[6U] = inData[22U]; temp[7U] = inData[21U]; CUtils::dump(4U, "Kenwood unswapped Audio 1", temp, 8U); for (unsigned int i = 0U; i < 49U; i++, n++) { bool b = READ_BIT(temp, i); WRITE_BIT(outData, n, b); } temp[0U] = inData[24U]; temp[1U] = inData[23U]; temp[2U] = inData[26U]; temp[3U] = inData[25U]; temp[4U] = inData[28U]; temp[5U] = inData[27U]; temp[6U] = inData[30U]; temp[7U] = inData[29U]; CUtils::dump(4U, "Kenwood unswapped Audio 2", temp, 8U); for (unsigned int i = 0U; i < 49U; i++, n++) { bool b = READ_BIT(temp, i); WRITE_BIT(outData, n, b); } CUtils::dump(4U, "Icom Audio 1 + 2", outData + 5U, 14U); // AMBE 3+4 n = 19U * 8U; temp[0U] = inData[32U]; temp[1U] = inData[31U]; temp[2U] = inData[34U]; temp[3U] = inData[33U]; temp[4U] = inData[36U]; temp[5U] = inData[35U]; temp[6U] = inData[38U]; temp[7U] = inData[37U]; CUtils::dump(4U, "Kenwood unswapped Audio 3", temp, 8U); for (unsigned int i = 0U; i < 49U; i++, n++) { bool b = READ_BIT(temp, i); WRITE_BIT(outData, n, b); } temp[0U] = inData[40U]; temp[1U] = inData[39U]; temp[2U] = inData[42U]; temp[3U] = inData[41U]; temp[4U] = inData[44U]; temp[5U] = inData[43U]; temp[6U] = inData[46U]; temp[7U] = inData[45U]; CUtils::dump(4U, "Kenwood unswapped Audio 4", temp, 8U); for (unsigned int i = 0U; i < 49U; i++, n++) { bool b = READ_BIT(temp, i); WRITE_BIT(outData, n, b); } CUtils::dump(4U, "Icom Audio 3 + 4", outData + 19U, 14U); CUtils::dump(4U, "Icom Audio 1 + 2 + 3 + 4", outData + 5U, 28U); ::memcpy(inData, outData, 33U); } void CKenwoodNetwork::processKenwoodData(unsigned char* inData) { if (inData[7U] != 0x09U && inData[7U] != 0x0BU && inData[7U] != 0x08U) return; unsigned char outData[50U]; if (inData[7U] == 0x09U || inData[7U] == 0x08U) { outData[0U] = 0x90U; outData[1U] = inData[8U]; outData[2U] = inData[7U]; outData[3U] = inData[10U]; outData[4U] = inData[9U]; outData[5U] = inData[12U]; outData[6U] = inData[11U]; ::memcpy(inData, outData, 7U); } else { outData[0U] = 0x90U; outData[1U] = inData[8U]; outData[2U] = inData[7U]; outData[3U] = inData[10U]; outData[4U] = inData[9U]; outData[5U] = inData[12U]; outData[6U] = inData[11U]; outData[7U] = inData[14U]; outData[8U] = inData[13U]; outData[9U] = inData[16U]; outData[10U] = inData[15U]; outData[11U] = inData[18U]; outData[12U] = inData[17U]; outData[13U] = inData[20U]; outData[14U] = inData[19U]; outData[15U] = inData[22U]; outData[16U] = inData[21U]; outData[17U] = inData[24U]; outData[18U] = inData[23U]; outData[19U] = inData[26U]; outData[20U] = inData[25U]; outData[21U] = inData[28U]; outData[22U] = inData[27U]; outData[23U] = inData[29U]; ::memcpy(inData, outData, 24U); } }