/* * Copyright (C) 2009-2017 by Jonathan Naylor G4KLX * Copyright (C) 2017 by Andy Uribe CA6JAU * * 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 "Config.h" #include "Globals.h" #include "YSFTX.h" #include "YSFDefines.h" // Generated using rcosdesign(0.2, 8, 5, 'sqrt') in MATLAB static q15_t RRC_0_2_FILTER[] = {0, 0, 0, 0, 850, 219, -720, -1548, -1795, -1172, 237, 1927, 3120, 3073, 1447, -1431, -4544, -6442, -5735, -1633, 5651, 14822, 23810, 30367, 32767, 30367, 23810, 14822, 5651, -1633, -5735, -6442, -4544, -1431, 1447, 3073, 3120, 1927, 237, -1172, -1795, -1548, -720, 219, 850}; // numTaps = 45, L = 5 const uint16_t RRC_0_2_FILTER_PHASE_LEN = 9U; // phaseLength = numTaps/L const q15_t YSF_LEVELA_HI = 1893; const q15_t YSF_LEVELB_HI = 631; const q15_t YSF_LEVELC_HI = -631; const q15_t YSF_LEVELD_HI = -1893; const q15_t YSF_LEVELA_LO = 948; const q15_t YSF_LEVELB_LO = 316; const q15_t YSF_LEVELC_LO = -316; const q15_t YSF_LEVELD_LO = -948; const uint8_t YSF_START_SYNC = 0x77U; const uint8_t YSF_END_SYNC = 0xFFU; CYSFTX::CYSFTX() : m_buffer(1500U), m_modFilter(), m_modState(), m_poBuffer(), m_poLen(0U), m_poPtr(0U), m_txDelay(240U), // 200ms m_loDev(false) { ::memset(m_modState, 0x00U, 16U * sizeof(q15_t)); m_modFilter.L = YSF_RADIO_SYMBOL_LENGTH; m_modFilter.phaseLength = RRC_0_2_FILTER_PHASE_LEN; m_modFilter.pCoeffs = RRC_0_2_FILTER; m_modFilter.pState = m_modState; } void CYSFTX::process() { if (m_buffer.getData() == 0U && m_poLen == 0U) return; if (m_poLen == 0U) { if (!m_tx) { for (uint16_t i = 0U; i < m_txDelay; i++) m_poBuffer[m_poLen++] = YSF_START_SYNC; } else { for (uint8_t i = 0U; i < YSF_FRAME_LENGTH_BYTES; i++) { uint8_t c = m_buffer.get(); m_poBuffer[m_poLen++] = c; } } m_poPtr = 0U; } if (m_poLen > 0U) { uint16_t space = io.getSpace(); while (space > (4U * YSF_RADIO_SYMBOL_LENGTH)) { uint8_t c = m_poBuffer[m_poPtr++]; writeByte(c); space -= 4U * YSF_RADIO_SYMBOL_LENGTH; if (m_poPtr >= m_poLen) { m_poPtr = 0U; m_poLen = 0U; return; } } } } uint8_t CYSFTX::writeData(const uint8_t* data, uint8_t length) { if (length != (YSF_FRAME_LENGTH_BYTES + 1U)) return 4U; uint16_t space = m_buffer.getSpace(); if (space < YSF_FRAME_LENGTH_BYTES) return 5U; for (uint8_t i = 0U; i < YSF_FRAME_LENGTH_BYTES; i++) m_buffer.put(data[i + 1U]); return 0U; } void CYSFTX::writeByte(uint8_t c) { q15_t inBuffer[4U]; q15_t outBuffer[YSF_RADIO_SYMBOL_LENGTH * 4U]; const uint8_t MASK = 0xC0U; for (uint8_t i = 0U; i < 4U; i++, c <<= 2) { switch (c & MASK) { case 0xC0U: inBuffer[i] = m_loDev ? YSF_LEVELA_LO : YSF_LEVELA_HI; break; case 0x80U: inBuffer[i] = m_loDev ? YSF_LEVELB_LO : YSF_LEVELB_HI; break; case 0x00U: inBuffer[i] = m_loDev ? YSF_LEVELC_LO : YSF_LEVELC_HI; break; default: inBuffer[i] = m_loDev ? YSF_LEVELD_LO : YSF_LEVELD_HI; break; } } ::arm_fir_interpolate_q15(&m_modFilter, inBuffer, outBuffer, 4U); io.write(STATE_YSF, outBuffer, YSF_RADIO_SYMBOL_LENGTH * 4U); } void CYSFTX::setTXDelay(uint8_t delay) { m_txDelay = 600U + uint16_t(delay) * 12U; // 500ms + tx delay if (m_txDelay > 1200U) m_txDelay = 1200U; } uint8_t CYSFTX::getSpace() const { return m_buffer.getSpace() / YSF_FRAME_LENGTH_BYTES; } void CYSFTX::setLoDev(bool on) { m_loDev = on; }