/** * Digital Voice Modem - Host Software * GPLv2 Open Source. Use is subject to license terms. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * @package DVM / Host Software * */ /* * Copyright (C) 2022 by Bryan Biedenkapp N2PLL * * 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 "Defines.h" #include "p25/lc/tsbk/OSP_IDEN_UP.h" #include "Log.h" #include "Utils.h" using namespace p25::lc::tsbk; using namespace p25::lc; using namespace p25; #include #include // --------------------------------------------------------------------------- // Public Class Members // --------------------------------------------------------------------------- ///

/// Initializes a new instance of the OSP_IDEN_UP class. ///

OSP_IDEN_UP::OSP_IDEN_UP() : TSBK() { m_lco = TSBK_OSP_IDEN_UP; } ///

/// Decode a trunking signalling block. ///

/// /// /// True, if TSBK was decoded, otherwise false. bool OSP_IDEN_UP::decode(const uint8_t* data, bool rawTSBK) { assert(data != NULL); /* stub */ return true; } ///

/// Encode a trunking signalling block. ///

/// /// /// void OSP_IDEN_UP::encode(uint8_t* data, bool rawTSBK, bool noTrellis) { assert(data != NULL); ulong64_t tsbkValue = 0U; if ((m_siteIdenEntry.chBandwidthKhz() != 0.0F) && (m_siteIdenEntry.chSpaceKhz() != 0.0F) && (m_siteIdenEntry.txOffsetMhz() != 0.0F) && (m_siteIdenEntry.baseFrequency() != 0U)) { if (m_siteIdenEntry.baseFrequency() < 762000000U) { LogError(LOG_P25, "TSBK::encode(), invalid values for TSBK_OSP_IDEN_UP, baseFrequency = %uHz", m_siteIdenEntry.baseFrequency()); return; // blatently ignore creating this TSBK } uint32_t calcSpace = (uint32_t)(m_siteIdenEntry.chSpaceKhz() / 0.125); float fCalcTxOffset = (fabs(m_siteIdenEntry.txOffsetMhz()) * 1000000.0F) / 250000.0F; uint32_t uCalcTxOffset = (uint32_t)fCalcTxOffset; if (m_siteIdenEntry.txOffsetMhz() > 0.0F) uCalcTxOffset |= 0x2000U; // this sets a positive offset ... uint32_t calcBaseFreq = (uint32_t)(m_siteIdenEntry.baseFrequency() / 5); uint16_t chanBw = (uint16_t)((m_siteIdenEntry.chBandwidthKhz() * 1000) / 125); tsbkValue = m_siteIdenEntry.channelId(); // Channel ID tsbkValue = (tsbkValue << 9) + chanBw; // Channel Bandwidth tsbkValue = (tsbkValue << 9) + uCalcTxOffset; // Transmit Offset tsbkValue = (tsbkValue << 10) + calcSpace; // Channel Spacing tsbkValue = (tsbkValue << 32) + calcBaseFreq; // Base Frequency } else { LogError(LOG_P25, "TSBK::encode(), invalid values for TSBK_OSP_IDEN_UP, baseFrequency = %uHz, txOffsetMhz = %fMHz, chBandwidthKhz = %fKHz, chSpaceKhz = %fKHz", m_siteIdenEntry.baseFrequency(), m_siteIdenEntry.txOffsetMhz(), m_siteIdenEntry.chBandwidthKhz(), m_siteIdenEntry.chSpaceKhz()); return; // blatently ignore creating this TSBK } std::unique_ptr tsbk = TSBK::fromValue(tsbkValue); TSBK::encode(data, tsbk.get(), rawTSBK, noTrellis); }