405 lines
9.6 KiB
C++
405 lines
9.6 KiB
C++
/*
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* Copyright 2008, 2009 Free Software Foundation, Inc.
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*
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* This software is distributed under the terms of the GNU Affero Public License.
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* See the COPYING file in the main directory for details.
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*
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* This use of this software may be subject to additional restrictions.
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* See the LEGAL file in the main directory for details.
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU Affero General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU Affero General Public License for more details.
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You should have received a copy of the GNU Affero General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "radioInterface.h"
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#include "Resampler.h"
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#include <Logger.h>
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extern "C" {
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#include "convert.h"
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}
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#define CHUNK 625
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#define NUMCHUNKS 4
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RadioInterface::RadioInterface(RadioDevice *wRadio,
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size_t sps, size_t chans, size_t diversity,
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int wReceiveOffset, GSM::Time wStartTime)
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: mRadio(wRadio), mSPSTx(sps), mSPSRx(1), mChans(chans), mMIMO(diversity),
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sendCursor(0), recvCursor(0), underrun(false), overrun(false),
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receiveOffset(wReceiveOffset), mOn(false)
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{
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mClock.set(wStartTime);
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}
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RadioInterface::~RadioInterface(void)
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{
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close();
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}
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bool RadioInterface::init(int type)
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{
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if ((type != RadioDevice::NORMAL) || (mMIMO > 1) || !mChans) {
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LOG(ALERT) << "Invalid configuration";
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return false;
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}
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close();
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sendBuffer.resize(mChans);
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recvBuffer.resize(mChans);
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convertSendBuffer.resize(mChans);
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convertRecvBuffer.resize(mChans);
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mReceiveFIFO.resize(mChans);
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powerScaling.resize(mChans);
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for (size_t i = 0; i < mChans; i++) {
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sendBuffer[i] = new signalVector(CHUNK * mSPSTx);
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recvBuffer[i] = new signalVector(NUMCHUNKS * CHUNK * mSPSRx);
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convertSendBuffer[i] = new short[sendBuffer[i]->size() * 2];
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convertRecvBuffer[i] = new short[recvBuffer[i]->size() * 2];
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}
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sendCursor = 0;
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recvCursor = 0;
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return true;
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}
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void RadioInterface::close()
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{
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for (size_t i = 0; i < sendBuffer.size(); i++)
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delete sendBuffer[i];
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for (size_t i = 0; i < recvBuffer.size(); i++)
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delete recvBuffer[i];
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for (size_t i = 0; i < convertSendBuffer.size(); i++)
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delete convertSendBuffer[i];
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for (size_t i = 0; i < convertRecvBuffer.size(); i++)
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delete convertRecvBuffer[i];
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sendBuffer.resize(0);
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recvBuffer.resize(0);
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convertSendBuffer.resize(0);
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convertRecvBuffer.resize(0);
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}
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double RadioInterface::fullScaleInputValue(void) {
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return mRadio->fullScaleInputValue();
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}
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double RadioInterface::fullScaleOutputValue(void) {
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return mRadio->fullScaleOutputValue();
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}
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int RadioInterface::setPowerAttenuation(int atten, size_t chan)
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{
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double rfGain, digAtten;
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if (chan >= mChans) {
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LOG(ALERT) << "Invalid channel requested";
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return -1;
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}
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if (atten < 0.0)
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atten = 0.0;
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rfGain = mRadio->setTxGain(mRadio->maxTxGain() - (double) atten, chan);
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digAtten = (double) atten - mRadio->maxTxGain() + rfGain;
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if (digAtten < 1.0)
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powerScaling[chan] = 1.0;
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else
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powerScaling[chan] = 1.0 / sqrt(pow(10, digAtten / 10.0));
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return atten;
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}
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int RadioInterface::radioifyVector(signalVector &wVector,
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float *retVector,
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bool zero)
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{
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if (zero) {
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memset(retVector, 0, wVector.size() * 2 * sizeof(float));
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return wVector.size();
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}
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memcpy(retVector, wVector.begin(), wVector.size() * 2 * sizeof(float));
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return wVector.size();
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}
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int RadioInterface::unRadioifyVector(float *floatVector,
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signalVector& newVector)
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{
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signalVector::iterator itr = newVector.begin();
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if (newVector.size() > recvCursor) {
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LOG(ALERT) << "Insufficient number of samples in receive buffer";
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return -1;
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}
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for (size_t i = 0; i < newVector.size(); i++) {
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*itr++ = Complex<float>(floatVector[2 * i + 0],
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floatVector[2 * i + 1]);
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}
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return newVector.size();
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}
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bool RadioInterface::tuneTx(double freq, size_t chan)
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{
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return mRadio->setTxFreq(freq, chan);
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}
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bool RadioInterface::tuneRx(double freq, size_t chan)
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{
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return mRadio->setRxFreq(freq, chan);
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}
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bool RadioInterface::start()
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{
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if (mOn)
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return true;
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LOG(INFO) << "Starting radio device";
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#ifdef USRP1
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mAlignRadioServiceLoopThread.start((void * (*)(void*))AlignRadioServiceLoopAdapter,
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(void*)this);
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#endif
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if (!mRadio->start())
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return false;
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recvCursor = 0;
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sendCursor = 0;
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writeTimestamp = mRadio->initialWriteTimestamp();
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readTimestamp = mRadio->initialReadTimestamp();
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mRadio->updateAlignment(writeTimestamp-10000);
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mRadio->updateAlignment(writeTimestamp-10000);
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mOn = true;
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LOG(INFO) << "Radio started";
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return true;
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}
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/*
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* Stop the radio device
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*
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* This is a pass-through call to the device interface. Because the underlying
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* stop command issuance generally doesn't return confirmation on device status,
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* this call will only return false if the device is already stopped.
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*/
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bool RadioInterface::stop()
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{
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if (!mOn || !mRadio->stop())
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return false;
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mOn = false;
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return true;
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}
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#ifdef USRP1
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void *AlignRadioServiceLoopAdapter(RadioInterface *radioInterface)
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{
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while (1) {
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radioInterface->alignRadio();
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pthread_testcancel();
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}
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return NULL;
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}
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void RadioInterface::alignRadio() {
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sleep(60);
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mRadio->updateAlignment(writeTimestamp+ (TIMESTAMP) 10000);
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}
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#endif
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void RadioInterface::driveTransmitRadio(std::vector<signalVector *> &bursts,
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std::vector<bool> &zeros)
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{
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if (!mOn)
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return;
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for (size_t i = 0; i < mChans; i++) {
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radioifyVector(*bursts[i],
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(float *) (sendBuffer[i]->begin() + sendCursor), zeros[i]);
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}
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sendCursor += bursts[0]->size();
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pushBuffer();
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}
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bool RadioInterface::driveReceiveRadio()
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{
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radioVector *burst = NULL;
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if (!mOn)
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return false;
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pullBuffer();
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GSM::Time rcvClock = mClock.get();
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rcvClock.decTN(receiveOffset);
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unsigned tN = rcvClock.TN();
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int recvSz = recvCursor;
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int readSz = 0;
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const int symbolsPerSlot = gSlotLen + 8;
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int burstSize = (symbolsPerSlot + (tN % 4 == 0)) * mSPSRx;
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/*
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* Pre-allocate head room for the largest correlation size
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* so we can later avoid a re-allocation and copy
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* */
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size_t head = GSM::gRACHSynchSequence.size();
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/*
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* Form receive bursts and pass up to transceiver. Use repeating
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* pattern of 157-156-156-156 symbols per timeslot
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*/
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while (recvSz > burstSize) {
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for (size_t i = 0; i < mChans; i++) {
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burst = new radioVector(rcvClock, burstSize, head, mMIMO);
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for (size_t n = 0; n < mMIMO; n++) {
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unRadioifyVector((float *)
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(recvBuffer[mMIMO * i + n]->begin() + readSz),
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*burst->getVector(n));
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}
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if (mReceiveFIFO[i].size() < 32)
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mReceiveFIFO[i].write(burst);
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else
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delete burst;
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}
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mClock.incTN();
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rcvClock.incTN();
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readSz += burstSize;
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recvSz -= burstSize;
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tN = rcvClock.TN();
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burstSize = (symbolsPerSlot + (tN % 4 == 0)) * mSPSRx;
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}
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if (readSz > 0) {
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for (size_t i = 0; i < recvBuffer.size(); i++) {
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memmove(recvBuffer[i]->begin(),
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recvBuffer[i]->begin() + readSz,
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(recvCursor - readSz) * 2 * sizeof(float));
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}
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recvCursor -= readSz;
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}
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return true;
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}
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bool RadioInterface::isUnderrun()
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{
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bool retVal = underrun;
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underrun = false;
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return retVal;
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}
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VectorFIFO* RadioInterface::receiveFIFO(size_t chan)
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{
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if (chan >= mReceiveFIFO.size())
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return NULL;
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return &mReceiveFIFO[chan];
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}
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double RadioInterface::setRxGain(double dB, size_t chan)
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{
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if (mRadio)
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return mRadio->setRxGain(dB, chan);
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else
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return -1;
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}
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double RadioInterface::getRxGain(size_t chan)
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{
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if (mRadio)
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return mRadio->getRxGain(chan);
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else
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return -1;
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}
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/* Receive a timestamped chunk from the device */
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void RadioInterface::pullBuffer()
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{
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bool local_underrun;
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int num_recv;
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float *output;
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if (recvCursor > recvBuffer[0]->size() - CHUNK)
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return;
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/* Outer buffer access size is fixed */
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num_recv = mRadio->readSamples(convertRecvBuffer,
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CHUNK,
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&overrun,
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readTimestamp,
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&local_underrun);
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if (num_recv != CHUNK) {
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LOG(ALERT) << "Receive error " << num_recv;
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return;
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}
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for (size_t i = 0; i < mChans; i++) {
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output = (float *) (recvBuffer[i]->begin() + recvCursor);
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convert_short_float(output, convertRecvBuffer[i], 2 * num_recv);
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}
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underrun |= local_underrun;
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readTimestamp += num_recv;
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recvCursor += num_recv;
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}
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/* Send timestamped chunk to the device with arbitrary size */
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void RadioInterface::pushBuffer()
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{
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int num_sent;
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if (sendCursor < CHUNK)
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return;
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if (sendCursor > sendBuffer[0]->size())
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LOG(ALERT) << "Send buffer overflow";
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for (size_t i = 0; i < mChans; i++) {
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convert_float_short(convertSendBuffer[i],
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(float *) sendBuffer[i]->begin(),
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powerScaling[i], 2 * sendCursor);
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}
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/* Send the all samples in the send buffer */
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num_sent = mRadio->writeSamples(convertSendBuffer,
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sendCursor,
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&underrun,
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writeTimestamp);
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writeTimestamp += num_sent;
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sendCursor = 0;
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}
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