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1 Commits
tnt/ci ... max/fix

Author SHA1 Message Date
Max
f38a0c06dc Add .gitignore 2016-06-15 16:53:49 +02:00
193 changed files with 154904 additions and 13554 deletions
Expand all files Collapse all files

95
.gitignore vendored
View File

@@ -1,65 +1,56 @@
# build results
*.o
*.lo
*.la
Transceiver52M/osmo-trx-uhd
Transceiver52M/osmo-trx-usrp1
Transceiver52M/osmo-trx-lms
# tests
tests/CommonLibs/BitVectorTest
tests/CommonLibs/F16Test
tests/CommonLibs/InterthreadTest
tests/CommonLibs/LogTest
tests/CommonLibs/RegexpTest
tests/CommonLibs/SocketsTest
tests/CommonLibs/TimevalTest
tests/CommonLibs/URLEncodeTest
tests/CommonLibs/VectorTest
tests/CommonLibs/PRBSTest
tests/Transceiver52M/convolve_test
tests/Transceiver52M/LMSDeviceTest
# automake/autoconf
*.in
.deps
.libs
.dirstamp
*~
*.o
*.lo
CommonLibs/BitVectorTest
CommonLibs/ConfigurationTest
CommonLibs/F16Test
CommonLibs/InterthreadTest
CommonLibs/LogTest
CommonLibs/Makefile
CommonLibs/Makefile.in
CommonLibs/RegexpTest
CommonLibs/SocketsTest
CommonLibs/TimevalTest
CommonLibs/URLEncodeTest
CommonLibs/VectorTest
CommonLibs/libcommon.la
GSM/Makefile
GSM/Makefile.in
GSM/libGSM.la
Makefile
Makefile.in
Transceiver52M/Makefile
Transceiver52M/Makefile.in
Transceiver52M/arm/Makefile
Transceiver52M/arm/Makefile.in
Transceiver52M/common/.dirstamp
Transceiver52M/libtransceiver.la
Transceiver52M/osmo-trx
Transceiver52M/x86/Makefile
Transceiver52M/x86/Makefile.in
Transceiver52M/x86/libarch.la
aclocal.m4
autom4te.cache/
compile
config.guess
config.h
config.h.in
config.log
config.status
config.h
config.guess
config.sub
config/*
config/libtool.m4
config/ltoptions.m4
config/ltsugar.m4
config/ltversion.m4
config/lt~obsolete.m4
configure
compile
aclocal.m4
autom4te.cache
depcomp
install-sh
libtool
ltmain.sh
missing
sqlite3/Makefile
sqlite3/Makefile.in
sqlite3/libsqlite.la
stamp-h1
INSTALL
tests/package.m4
tests/testsuite
tests/atconfig
tests/testsuite.dir
tests/testsuite.log
# vim
*.sw?
# manuals
doc/manuals/*.html
doc/manuals/*.svg
doc/manuals/*.pdf
doc/manuals/*__*.png
doc/manuals/*.check
doc/manuals/generated/
doc/manuals/osmomsc-usermanual.xml
doc/manuals/common
doc/manuals/build

3
.gitreview
View File

@@ -1,3 +0,0 @@
[gerrit]
host=gerrit.osmocom.org
project=osmo-trx

75
AUTHORS
View File

@@ -23,17 +23,34 @@ David A. Burgess, dburgess@kestrelsp.com:
CLI/CLI.h
CommonLibs/Assert.h
CommonLibs/BitVector.cpp
CommonLibs/BitVectorTest.cpp
CommonLibs/Configuration.cpp
CommonLibs/Configuration.h
CommonLibs/ConfigurationTest.cpp
CommonLibs/Interthread.h
CommonLibs/InterthreadTest.cpp
CommonLibs/LinkedLists.cpp
CommonLibs/LinkedLists.h
CommonLibs/Regexp.h
CommonLibs/RegexpTest.cpp
CommonLibs/Sockets.cpp
CommonLibs/Sockets.h
CommonLibs/SocketsTest.cpp
CommonLibs/Threads.cpp
CommonLibs/Threads.h
CommonLibs/Timeval.cpp
CommonLibs/Timeval.h
CommonLibs/TimevalTest.cpp
CommonLibs/Vector.h
CommonLibs/VectorTest.cpp
Control/CallControl.cpp
Control/ControlCommon.cpp
Control/ControlCommon.h
Control/FACCHDispatch.cpp
Control/MobilityManagement.cpp
Control/PagerTest.cpp
Control/RadioResource.cpp
Control/SDCCHDispatch.cpp
GSM/GSM610Tables.cpp
GSM/GSM610Tables.h
GSM/GSMCommon.cpp
@@ -65,15 +82,29 @@ David A. Burgess, dburgess@kestrelsp.com:
GSM/GSMTransfer.cpp
GSM/GSMTransfer.h
LICENSEBLOCK
SIP/SIPEngine.h
SIP/SIPInterface.h
SMS/SMSMessages.cpp
SMS/SMSMessages.h
SMS/SMSTransfer.cpp
SMS/SMSTransfer.h
TRXManager/TRXManager.cpp
Transceiver/Complex.h
tests/CommonLibs/BitVectorTest.cpp
tests/CommonLibs/InterthreadTest.cpp
tests/CommonLibs/SocketsTest.cpp
tests/CommonLibs/TimevalTest.cpp
tests/CommonLibs/VectorTest.cpp
apps/OpenBTS900.cpp
apps/OpenBTS850.cpp
apps/OpenBTS25c3.cpp
tests/AGCHTest.cpp
tests/BeaconTest.cpp
tests/CallTest.cpp
tests/CallTest2.cpp
tests/LAPDmTest.cpp
tests/LoopbackTest.cpp
tests/RegistrationTest.cpp
tests/TRXSimulator.cpp
Harvind S. Samra, hssamra@kestrelsp.com:
Control/PagerTest.cpp
Control/RadioResource.cpp
GSM/GSMConfig.h
GSM/GSMTransfer.h
LICENSEBLOCK
@@ -95,6 +126,13 @@ Harvind S. Samra, hssamra@kestrelsp.com:
Transceiver/testRadio.cpp
Raffi Sevlian, raffisev@gmail.com:
Control/CallControl.cpp
Control/ControlCommon.cpp
Control/ControlCommon.h
Control/FACCHDispatch.cpp
Control/MobilityManagement.cpp
Control/PagerTest.cpp
Control/RadioResource.cpp
GSM/GSMCommon.h
GSM/GSMConfig.h
GSM/GSML1FEC.h
@@ -119,9 +157,36 @@ Raffi Sevlian, raffisev@gmail.com:
GSM/GSMSAPMux.h
GSM/GSMTransfer.h
LICENSEBLOCK
SIP/SIPEngine.cpp
SIP/SIPInterface.cpp
SIP/SIPInterface.h
SIP/SIPMessage.cpp
SIP/SIPMessage.h
SIP/SIPUtility.cpp
SIP/SIPUtility.h
SMS/CMMessage.cpp
SMS/CMMessage.h
SMS/CMProcessor.cpp
SMS/CMProcessor.h
SMS/CMTest.cpp
SMS/RLMessage.cpp
SMS/RLMessage.h
SMS/RLProcessor.cpp
SMS/RLProcessor.h
SMS/SMSMessages.cpp
SMS/SMSMessages.h
SMS/SMSProcessors.cpp
SMS/SMSProcessors.h
SMS/SMSTransfer.cpp
SMS/SMSTransfer.h
SMS/TLMessage.cpp
SMS/TLMessage.h
SMS/TLProcessor.cpp
SMS/TLProcessor.h
TRXManager/TRXManager.h
Alon Levy, alonlevy1@gmail.com
RRLPMessages.cpp
RRLPMessages.h
RRLPTest.cpp

28
COPYING
View File

@@ -673,16 +673,16 @@ on the AGPLv3 text.
=========================================================================
ADDITIONAL TERMS TO THE AGPLv3 LICENSE FOR OsmoTRX
ADDITIONAL TERMS TO THE AGPLv3 LICENSE FOR OPENBTS
Permissive Terms Supplementing the License
1. Remote Interaction Through IP Networks.
OsmoTRX is an implementation of the GSM network cellular air interface,
OpenBTS includes an implementation of the GSM network cellular air interface,
as well as other interfaces to IP networks. The interaction of cellular
handsets with the OsmoTRX software is considered "remote network interaction"
handsets with the OpenBTS software is considered "remote network interaction"
for the purposes of the Affero General Public License and cellular users are
subject to the source code access requirements of Section 13 of AGPLv3 ("Remote
Network Interaction; Use with the GNU General Public License").
@@ -694,6 +694,17 @@ interfaces other than the GSM air interface from the requirements of Section 13
is an additional permission granted to you.
Non-Permissive Terms Supplementing The License
1. Trademarks.
"OpenBTS" is a trademark of Range Networks, Inc., registered with
the US Patent and Trademark Office. Your use of OpenBTS software under a GPL
license does not include the right to use the OpenBTS trademark in commerce.
This additional non-permissive term is consistent with Section 7 of the AGPLv3
license.
END OF ADDITIONAL TERMS
@@ -701,8 +712,13 @@ END OF ADDITIONAL TERMS
How to comply with Section 13 of the AGPLv3 license.
The recommended method for compliance with Section 13 of the AGPLv3 license is
to deliver a text message to each handset that attaches to the cellular
network which uses OsmoTRX. At a minimum, that text message should include the string
"OsmoTRX AGPLv3" and a URL that can be used to access the OsmoBTS source code. This
to deliver a text message to each handset that attaches to the OpenBTS cellular
network. At a minimum, that text message should include the string "OpenBTS
AGPLv3" and a URL that can be used to access the OpenBTS source code. This
message need not be delivered to handsets that are denied registration with the
network, since those handsets have been denied service.
In OpenBTS 2.6, such text messages can be delivered with the "Welcome Message"
feature. See the OpenBTS.config.example file for more information on the use of
this feature for AGPLv3 compliance.

276
CommonLibs/BitVector.cpp
View File

@@ -30,7 +30,6 @@
#include <iostream>
#include <stdio.h>
#include <sstream>
#include <math.h>
using namespace std;
@@ -200,6 +199,49 @@ void BitVector::LSB8MSB()
uint64_t BitVector::syndrome(Generator& gen) const
{
gen.clear();
const char *dp = mStart;
while (dp<mEnd) gen.syndromeShift(*dp++);
return gen.state();
}
uint64_t BitVector::parity(Generator& gen) const
{
gen.clear();
const char *dp = mStart;
while (dp<mEnd) gen.encoderShift(*dp++);
return gen.state();
}
void BitVector::encode(const ViterbiR2O4& coder, BitVector& target)
{
size_t sz = size();
assert(sz*coder.iRate() == target.size());
// Build a "history" array where each element contains the full history.
uint32_t history[sz];
uint32_t accum = 0;
for (size_t i=0; i<sz; i++) {
accum = (accum<<1) | bit(i);
history[i] = accum;
}
// Look up histories in the pre-generated state table.
char *op = target.begin();
for (size_t i=0; i<sz; i++) {
unsigned index = coder.cMask() & history[i];
for (unsigned g=0; g<coder.iRate(); g++) {
*op++ = coder.stateTable(g,index);
}
}
}
unsigned BitVector::sum() const
{
unsigned sum = 0;
@@ -245,12 +287,148 @@ ostream& operator<<(ostream& os, const BitVector& hv)
ViterbiR2O4::ViterbiR2O4()
{
assert(mDeferral < 32);
mCoeffs[0] = 0x019;
mCoeffs[1] = 0x01b;
computeStateTables(0);
computeStateTables(1);
computeGeneratorTable();
}
void ViterbiR2O4::initializeStates()
{
for (unsigned i=0; i<mIStates; i++) clear(mSurvivors[i]);
for (unsigned i=0; i<mNumCands; i++) clear(mCandidates[i]);
}
void ViterbiR2O4::computeStateTables(unsigned g)
{
assert(g<mIRate);
for (unsigned state=0; state<mIStates; state++) {
// 0 input
uint32_t inputVal = state<<1;
mStateTable[g][inputVal] = applyPoly(inputVal, mCoeffs[g], mOrder+1);
// 1 input
inputVal |= 1;
mStateTable[g][inputVal] = applyPoly(inputVal, mCoeffs[g], mOrder+1);
}
}
void ViterbiR2O4::computeGeneratorTable()
{
for (unsigned index=0; index<mIStates*2; index++) {
mGeneratorTable[index] = (mStateTable[0][index]<<1) | mStateTable[1][index];
}
}
void ViterbiR2O4::branchCandidates()
{
// Branch to generate new input states.
const vCand *sp = mSurvivors;
for (unsigned i=0; i<mNumCands; i+=2) {
// extend and suffix
const uint32_t iState0 = (sp->iState) << 1; // input state for 0
const uint32_t iState1 = iState0 | 0x01; // input state for 1
const uint32_t oStateShifted = (sp->oState) << mIRate; // shifted output
const float cost = sp->cost;
sp++;
// 0 input extension
mCandidates[i].cost = cost;
mCandidates[i].oState = oStateShifted | mGeneratorTable[iState0 & mCMask];
mCandidates[i].iState = iState0;
// 1 input extension
mCandidates[i+1].cost = cost;
mCandidates[i+1].oState = oStateShifted | mGeneratorTable[iState1 & mCMask];
mCandidates[i+1].iState = iState1;
}
}
void ViterbiR2O4::getSoftCostMetrics(const uint32_t inSample, const float *matchCost, const float *mismatchCost)
{
const float *cTab[2] = {matchCost,mismatchCost};
for (unsigned i=0; i<mNumCands; i++) {
vCand& thisCand = mCandidates[i];
// We examine input bits 2 at a time for a rate 1/2 coder.
const unsigned mismatched = inSample ^ (thisCand.oState);
thisCand.cost += cTab[mismatched&0x01][1] + cTab[(mismatched>>1)&0x01][0];
}
}
void ViterbiR2O4::pruneCandidates()
{
const vCand* c1 = mCandidates; // 0-prefix
const vCand* c2 = mCandidates + mIStates; // 1-prefix
for (unsigned i=0; i<mIStates; i++) {
if (c1[i].cost < c2[i].cost) mSurvivors[i] = c1[i];
else mSurvivors[i] = c2[i];
}
}
const ViterbiR2O4::vCand& ViterbiR2O4::minCost() const
{
int minIndex = 0;
float minCost = mSurvivors[0].cost;
for (unsigned i=1; i<mIStates; i++) {
const float thisCost = mSurvivors[i].cost;
if (thisCost>=minCost) continue;
minCost = thisCost;
minIndex=i;
}
return mSurvivors[minIndex];
}
const ViterbiR2O4::vCand& ViterbiR2O4::step(uint32_t inSample, const float *probs, const float *iprobs)
{
branchCandidates();
getSoftCostMetrics(inSample,probs,iprobs);
pruneCandidates();
return minCost();
}
uint64_t Parity::syndrome(const BitVector& receivedCodeword)
{
return receivedCodeword.syndrome(*this);
}
void Parity::writeParityWord(const BitVector& data, BitVector& parityTarget, bool invert)
{
uint64_t pWord = data.parity(*this);
if (invert) pWord = ~pWord;
parityTarget.fillField(0,pWord,size());
}
SoftVector::SoftVector(const BitVector& source)
{
resize(source.size());
for (size_t i=0; i<size(); i++) {
if (source.bit(i)) mStart[i]=1.0F;
else mStart[i]=-1.0F;
else mStart[i]=0.0F;
}
}
@@ -260,20 +438,102 @@ BitVector SoftVector::sliced() const
size_t sz = size();
BitVector newSig(sz);
for (size_t i=0; i<sz; i++) {
if (mStart[i]>0.0F) newSig[i]=1;
if (mStart[i]>0.5F) newSig[i]=1;
else newSig[i] = 0;
}
return newSig;
}
void SoftVector::decode(ViterbiR2O4 &decoder, BitVector& target) const
{
const size_t sz = size();
const unsigned deferral = decoder.deferral();
const size_t ctsz = sz + deferral*decoder.iRate();
assert(sz <= decoder.iRate()*target.size());
// Build a "history" array where each element contains the full history.
uint32_t history[ctsz];
{
BitVector bits = sliced();
uint32_t accum = 0;
for (size_t i=0; i<sz; i++) {
accum = (accum<<1) | bits.bit(i);
history[i] = accum;
}
// Repeat last bit at the end.
for (size_t i=sz; i<ctsz; i++) {
accum = (accum<<1) | (accum & 0x01);
history[i] = accum;
}
}
// Precompute metric tables.
float matchCostTable[ctsz];
float mismatchCostTable[ctsz];
{
const float *dp = mStart;
for (size_t i=0; i<sz; i++) {
// pVal is the probability that a bit is correct.
// ipVal is the probability that a bit is incorrect.
float pVal = dp[i];
if (pVal>0.5F) pVal = 1.0F-pVal;
float ipVal = 1.0F-pVal;
// This is a cheap approximation to an ideal cost function.
if (pVal<0.01F) pVal = 0.01;
if (ipVal<0.01F) ipVal = 0.01;
matchCostTable[i] = 0.25F/ipVal;
mismatchCostTable[i] = 0.25F/pVal;
}
// pad end of table with unknowns
for (size_t i=sz; i<ctsz; i++) {
matchCostTable[i] = 0.5F;
mismatchCostTable[i] = 0.5F;
}
}
{
decoder.initializeStates();
// Each sample of history[] carries its history.
// So we only have to process every iRate-th sample.
const unsigned step = decoder.iRate();
// input pointer
const uint32_t *ip = history + step - 1;
// output pointers
char *op = target.begin();
const char *const opt = target.end();
// table pointers
const float* match = matchCostTable;
const float* mismatch = mismatchCostTable;
size_t oCount = 0;
while (op<opt) {
// Viterbi algorithm
assert(match-matchCostTable<sizeof(matchCostTable)/sizeof(matchCostTable[0])-1);
assert(mismatch-mismatchCostTable<sizeof(mismatchCostTable)/sizeof(mismatchCostTable[0])-1);
const ViterbiR2O4::vCand &minCost = decoder.step(*ip, match, mismatch);
ip += step;
match += step;
mismatch += step;
// output
if (oCount>=deferral) *op++ = (minCost.iState >> deferral)&0x01;
oCount++;
}
}
}
// (pat) Added 6-22-2012
float SoftVector::getEnergy(float *plow) const
{
const SoftVector &vec = *this;
int len = vec.size();
float avg = 0; float low = 1;
for (int i = 0; i < len; i++) {
float energy = fabsf(vec[i]);
float bit = vec[i];
float energy = 2*((bit < 0.5) ? (0.5-bit) : (bit-0.5));
if (energy < low) low = energy;
avg += energy/len;
}
@@ -285,12 +545,8 @@ float SoftVector::getEnergy(float *plow) const
ostream& operator<<(ostream& os, const SoftVector& sv)
{
for (size_t i=0; i<sv.size(); i++) {
if (sv[i]<-0.5) os << "0";
else if (sv[i]<-0.25) os << "o";
else if (sv[i]<0.0) os << ".";
else if (sv[i]>0.5) os << "1";
else if (sv[i]>0.25) os << "|";
else if (sv[i]>0.0) os << "'";
if (sv[i]<0.25) os << "0";
else if (sv[i]>0.75) os << "1";
else os << "-";
}
return os;

216
CommonLibs/BitVector.h
View File

@@ -30,6 +30,201 @@
#include <stdint.h>
class BitVector;
class SoftVector;
/** Shift-register (LFSR) generator. */
class Generator {
private:
uint64_t mCoeff; ///< polynomial coefficients. LSB is zero exponent.
uint64_t mState; ///< shift register state. LSB is most recent.
uint64_t mMask; ///< mask for reading state
unsigned mLen; ///< number of bits used in shift register
unsigned mLen_1; ///< mLen - 1
public:
Generator(uint64_t wCoeff, unsigned wLen)
:mCoeff(wCoeff),mState(0),
mMask((1ULL<<wLen)-1),
mLen(wLen),mLen_1(wLen-1)
{ assert(wLen<64); }
void clear() { mState=0; }
/**@name Accessors */
//@{
uint64_t state() const { return mState & mMask; }
unsigned size() const { return mLen; }
//@}
/**
Calculate one bit of a syndrome.
This is in the .h for inlining.
*/
void syndromeShift(unsigned inBit)
{
const unsigned fb = (mState>>(mLen_1)) & 0x01;
mState = (mState<<1) ^ (inBit & 0x01);
if (fb) mState ^= mCoeff;
}
/**
Update the generator state by one cycle.
This is in the .h for inlining.
*/
void encoderShift(unsigned inBit)
{
const unsigned fb = ((mState>>(mLen_1)) ^ inBit) & 0x01;
mState <<= 1;
if (fb) mState ^= mCoeff;
}
};
/** Parity (CRC-type) generator and checker based on a Generator. */
class Parity : public Generator {
protected:
unsigned mCodewordSize;
public:
Parity(uint64_t wCoefficients, unsigned wParitySize, unsigned wCodewordSize)
:Generator(wCoefficients, wParitySize),
mCodewordSize(wCodewordSize)
{ }
/** Compute the parity word and write it into the target segment. */
void writeParityWord(const BitVector& data, BitVector& parityWordTarget, bool invert=true);
/** Compute the syndrome of a received sequence. */
uint64_t syndrome(const BitVector& receivedCodeword);
};
/**
Class to represent convolutional coders/decoders of rate 1/2, memory length 4.
This is the "workhorse" coder for most GSM channels.
*/
class ViterbiR2O4 {
private:
/**name Lots of precomputed elements so the compiler can optimize like hell. */
//@{
/**@name Core values. */
//@{
static const unsigned mIRate = 2; ///< reciprocal of rate
static const unsigned mOrder = 4; ///< memory length of generators
//@}
/**@name Derived values. */
//@{
static const unsigned mIStates = 0x01 << mOrder; ///< number of states, number of survivors
static const uint32_t mSMask = mIStates-1; ///< survivor mask
static const uint32_t mCMask = (mSMask<<1) | 0x01; ///< candidate mask
static const uint32_t mOMask = (0x01<<mIRate)-1; ///< ouput mask, all iRate low bits set
static const unsigned mNumCands = mIStates*2; ///< number of candidates to generate during branching
static const unsigned mDeferral = 6*mOrder; ///< deferral to be used
//@}
//@}
/** Precomputed tables. */
//@{
uint32_t mCoeffs[mIRate]; ///< polynomial for each generator
uint32_t mStateTable[mIRate][2*mIStates]; ///< precomputed generator output tables
uint32_t mGeneratorTable[2*mIStates]; ///< precomputed coder output table
//@}
public:
/**
A candidate sequence in a Viterbi decoder.
The 32-bit state register can support a deferral of 6 with a 4th-order coder.
*/
typedef struct candStruct {
uint32_t iState; ///< encoder input associated with this candidate
uint32_t oState; ///< encoder output associated with this candidate
float cost; ///< cost (metric value), float to support soft inputs
} vCand;
/** Clear a structure. */
void clear(vCand& v)
{
v.iState=0;
v.oState=0;
v.cost=0;
}
private:
/**@name Survivors and candidates. */
//@{
vCand mSurvivors[mIStates]; ///< current survivor pool
vCand mCandidates[2*mIStates]; ///< current candidate pool
//@}
public:
unsigned iRate() const { return mIRate; }
uint32_t cMask() const { return mCMask; }
uint32_t stateTable(unsigned g, unsigned i) const { return mStateTable[g][i]; }
unsigned deferral() const { return mDeferral; }
ViterbiR2O4();
/** Set all cost metrics to zero. */
void initializeStates();
/**
Full cycle of the Viterbi algorithm: branch, metrics, prune, select.
@return reference to minimum-cost candidate.
*/
const vCand& step(uint32_t inSample, const float *probs, const float *iprobs);
private:
/** Branch survivors into new candidates. */
void branchCandidates();
/** Compute cost metrics for soft-inputs. */
void getSoftCostMetrics(uint32_t inSample, const float *probs, const float *iprobs);
/** Select survivors from the candidate set. */
void pruneCandidates();
/** Find the minimum cost survivor. */
const vCand& minCost() const;
/**
Precompute the state tables.
@param g Generator index 0..((1/rate)-1)
*/
void computeStateTables(unsigned g);
/**
Precompute the generator outputs.
mCoeffs must be defined first.
*/
void computeGeneratorTable();
};
class BitVector : public Vector<char> {
@@ -87,6 +282,16 @@ class BitVector : public Vector<char> {
void zero() { fill(0); }
/**@name FEC operations. */
//@{
/** Calculate the syndrome of the vector with the given Generator. */
uint64_t syndrome(Generator& gen) const;
/** Calculate the parity word for the vector with the given Generator. */
uint64_t parity(Generator& gen) const;
/** Encode the signal with the GSM rate 1/2 convolutional encoder. */
void encode(const ViterbiR2O4& encoder, BitVector& target);
//@}
/** Invert 0<->1. */
void invert();
@@ -222,20 +427,23 @@ class SoftVector: public Vector<float> {
const SoftVector tail(size_t start) const { return segment(start,size()-start); }
//@}
// How good is the SoftVector in the sense of the bits being solid?
// Result of 1 is perfect and 0 means all the bits were 0.0
/** Decode soft symbols with the GSM rate-1/2 Viterbi decoder. */
void decode(ViterbiR2O4 &decoder, BitVector& target) const;
// (pat) How good is the SoftVector in the sense of the bits being solid?
// Result of 1 is perfect and 0 means all the bits were 0.5
// If plow is non-NULL, also return the lowest energy bit.
float getEnergy(float *low=0) const;
/** Fill with "unknown" values. */
void unknown() { fill(0.0F); }
void unknown() { fill(0.5F); }
/** Return a hard bit value from a given index by slicing. */
bool bit(size_t index) const
{
const float *dp = mStart+index;
assert(dp<mEnd);
return (*dp)>0.0F;
return (*dp)>0.5F;
}
/** Slice the whole signal into bits. */

88
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@@ -0,0 +1,88 @@
/*
* Copyright 2008 Free Software Foundation, Inc.
*
*
* This software is distributed under the terms of the GNU Affero Public License.
* See the COPYING file in the main directory for details.
*
* This use of this software may be subject to additional restrictions.
* See the LEGAL file in the main directory for details.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 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 Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "BitVector.h"
#include <iostream>
#include <cstdlib>
using namespace std;
int main(int argc, char *argv[])
{
BitVector v1("0000111100111100101011110000");
cout << v1 << endl;
v1.LSB8MSB();
cout << v1 << endl;
ViterbiR2O4 vCoder;
BitVector v2(v1.size()*2);
v1.encode(vCoder,v2);
cout << v2 << endl;
SoftVector sv2(v2);
cout << sv2 << endl;
for (unsigned i=0; i<sv2.size()/4; i++) sv2[random()%sv2.size()]=0.5;
cout << sv2 << endl;
BitVector v3(v1.size());
sv2.decode(vCoder,v3);
cout << v3 << endl;
cout << v3.segment(3,4) << endl;
BitVector v4(v3.segment(0,4),v3.segment(8,4));
cout << v4 << endl;
BitVector v5("000011110000");
int r1 = v5.peekField(0,8);
int r2 = v5.peekField(4,4);
int r3 = v5.peekField(4,8);
cout << r1 << ' ' << r2 << ' ' << r3 << endl;
cout << v5 << endl;
v5.fillField(0,0xa,4);
int r4 = v5.peekField(0,8);
cout << v5 << endl;
cout << r4 << endl;
v5.reverse8();
cout << v5 << endl;
BitVector mC = "000000000000111100000000000001110000011100001101000011000000000000000111000011110000100100001010000010100000101000001010000010100000010000000000000000000000000000000000000000000000001100001111000000000000000000000000000000000000000000000000000010010000101000001010000010100000101000001010000001000000000000000000000000110000111100000000000001110000101000001100000001000000000000";
SoftVector mCS(mC);
BitVector mU(mC.size()/2);
mCS.decode(vCoder,mU);
cout << "c=" << mCS << endl;
cout << "u=" << mU << endl;
unsigned char ts[9] = "abcdefgh";
BitVector tp(70);
cout << "ts=" << ts << endl;
tp.unpack(ts);
cout << "tp=" << tp << endl;
tp.pack(ts);
cout << "ts=" << ts << endl;
}

1154
CommonLibs/Configuration.cpp Normal file
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CommonLibs/Configuration.h Normal file
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@@ -0,0 +1,422 @@
/*
* Copyright 2009, 2010 Free Software Foundation, Inc.
* Copyright 2010 Kestrel Signal Processing, Inc.
* Copyright 2011, 2012 Range Networks, Inc.
*
* This software is distributed under the terms of the GNU Affero Public License.
* See the COPYING file in the main directory for details.
*
* This use of this software may be subject to additional restrictions.
* See the LEGAL file in the main directory for details.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 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 Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef CONFIGURATION_H
#define CONFIGURATION_H
#include "sqlite3util.h"
#include <assert.h>
#include <stdlib.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <regex.h>
#include <map>
#include <vector>
#include <string>
#include <sstream>
#include <iostream>
#include <Threads.h>
#include <stdint.h>
/** A class for configuration file errors. */
class ConfigurationTableError {};
extern char gCmdName[]; // Gotta be global, gotta be char*, gotta love it.
/** An exception thrown when a given config key isn't found. */
class ConfigurationTableKeyNotFound : public ConfigurationTableError {
private:
std::string mKey;
public:
ConfigurationTableKeyNotFound(const std::string& wKey)
:mKey(wKey)
{ }
const std::string& key() const { return mKey; }
};
class ConfigurationRecord {
private:
std::string mValue;
long mNumber;
bool mDefined;
public:
ConfigurationRecord(bool wDefined=true):
mDefined(wDefined)
{ }
ConfigurationRecord(const std::string& wValue):
mValue(wValue),
mNumber(strtol(wValue.c_str(),NULL,0)),
mDefined(true)
{ }
ConfigurationRecord(const char* wValue):
mValue(std::string(wValue)),
mNumber(strtol(wValue,NULL,0)),
mDefined(true)
{ }
const std::string& value() const { return mValue; }
long number() const { return mNumber; }
bool defined() const { return mDefined; }
float floatNumber() const;
};
/** A string class that uses a hash function for comparison. */
class HashString : public std::string {
protected:
uint64_t mHash;
void computeHash();
public:
HashString(const char* src)
:std::string(src)
{
computeHash();
}
HashString(const std::string& src)
:std::string(src)
{
computeHash();
}
HashString()
{
mHash=0;
}
HashString& operator=(std::string& src)
{
std::string::operator=(src);
computeHash();
return *this;
}
HashString& operator=(const char* src)
{
std::string::operator=(src);
computeHash();
return *this;
}
bool operator==(const HashString& other)
{
return mHash==other.mHash;
}
bool operator<(const HashString& other)
{
return mHash<other.mHash;
}
bool operator>(const HashString& other)
{
return mHash<other.mHash;
}
uint64_t hash() const { return mHash; }
};
typedef std::map<std::string, ConfigurationRecord> ConfigurationRecordMap;
typedef std::map<HashString, ConfigurationRecord> ConfigurationMap;
class ConfigurationKey;
typedef std::map<std::string, ConfigurationKey> ConfigurationKeyMap;
/**
A class for maintaining a configuration key-value table,
based on sqlite3 and a local map-based cache.
Thread-safe, too.
*/
class ConfigurationTable {
private:
sqlite3* mDB; ///< database connection
ConfigurationMap mCache; ///< cache of recently access configuration values
mutable Mutex mLock; ///< control for multithreaded access to the cache
std::vector<std::string> (*mCrossCheck)(const std::string&); ///< cross check callback pointer
public:
ConfigurationKeyMap mSchema;///< definition of configuration default values and validation logic
ConfigurationTable(const char* filename = ":memory:", const char *wCmdName = 0, ConfigurationKeyMap wSchema = ConfigurationKeyMap());
/** Generate an up-to-date example sql file for new installs. */
std::string getDefaultSQL(const std::string& program, const std::string& version);
/** Generate an up-to-date TeX snippet. */
std::string getTeX(const std::string& program, const std::string& version);
/** Return true if the key is used in the table. */
bool defines(const std::string& key);
/** Return true if the application's schema knows about this key. */
bool keyDefinedInSchema(const std::string& name);
/** Return true if the provided value validates correctly against the defined schema. */
bool isValidValue(const std::string& name, const std::string& val);
/** Return true if the provided value validates correctly against the defined schema. */
bool isValidValue(const std::string& name, const int val) { std::stringstream ss; ss << val; return isValidValue(name, ss.str()); }
/** Return a map of all similar keys in the defined schema. */
ConfigurationKeyMap getSimilarKeys(const std::string& snippet);
/** Return true if this key is identified as static. */
bool isStatic(const std::string& key);
/**
Get a string parameter from the table.
Throw ConfigurationTableKeyNotFound if not found.
*/
std::string getStr(const std::string& key);
/**
Get a boolean from the table.
Return false if NULL or 0, true otherwise.
*/
bool getBool(const std::string& key);
/**
Get a numeric parameter from the table.
Throw ConfigurationTableKeyNotFound if not found.
*/
long getNum(const std::string& key);
/**
Get a vector of strings from the table.
*/
std::vector<std::string> getVectorOfStrings(const std::string& key);
/**
Get a float from the table.
Throw ConfigurationTableKeyNotFound if not found.
*/
float getFloat(const std::string& key);
/**
Get a numeric vector from the table.
*/
std::vector<unsigned> getVector(const std::string& key);
/** Get length of a vector */
unsigned getVectorLength(const std::string &key)
{ return getVector(key).size(); }
/** Set or change a value in the table. */
bool set(const std::string& key, const std::string& value);
/** Set or change a value in the table. */
bool set(const std::string& key, long value);
/** Create an entry in the table, no value though. */
bool set(const std::string& key);
/**
Remove an entry from the table.
Will not alter required values.
@param key The key of the item to be removed.
@return true if anything was actually removed.
*/
bool remove(const std::string& key);
/** Search the table, dumping to a stream. */
void find(const std::string& pattern, std::ostream&) const;
/** Return all key/value pairs stored in the ConfigurationTable */
ConfigurationRecordMap getAllPairs() const;
/** Define the callback to purge the cache whenever the database changes. */
void setUpdateHook(void(*)(void *,int ,char const *,char const *,sqlite3_int64));
/** Define the callback for cross checking. */
void setCrossCheckHook(std::vector<std::string> (*wCrossCheck)(const std::string&));
/** Execute the application specific value cross checking logic. */
std::vector<std::string> crossCheck(const std::string& key);
/** purege cache if it exceeds a certain age */
void checkCacheAge();
/** Delete all records from the cache. */
void purge();
private:
/**
Attempt to lookup a record, cache if needed.
Throw ConfigurationTableKeyNotFound if not found.
Caller should hold mLock because the returned reference points into the cache.
*/
const ConfigurationRecord& lookup(const std::string& key);
};
typedef std::map<HashString, std::string> HashStringMap;
class SimpleKeyValue {
protected:
HashStringMap mMap;
public:
/** Take a C string "A=B" and set map["A"]="B". */
void addItem(const char*);
/** Take a C string "A=B C=D E=F ..." and add all of the pairs to the map. */
void addItems(const char*s);
/** Return a reference to the string at map["key"]. */
const char* get(const char*) const;
};
class ConfigurationKey {
public:
enum VisibilityLevel
{
CUSTOMER,
CUSTOMERSITE,
CUSTOMERTUNE,
CUSTOMERWARN,
DEVELOPER,
FACTORY
};
enum Type
{
BOOLEAN,
CHOICE_OPT,
CHOICE,
CIDR_OPT,
CIDR,
FILEPATH_OPT,
FILEPATH,
IPADDRESS_OPT,
IPADDRESS,
IPANDPORT,
MIPADDRESS_OPT,
MIPADDRESS,
PORT_OPT,
PORT,
REGEX_OPT,
REGEX,
STRING_OPT,
STRING,
VALRANGE
};
private:
std::string mName;
std::string mDefaultValue;
std::string mUnits;
VisibilityLevel mVisibility;
Type mType;
std::string mValidValues;
bool mIsStatic;
std::string mDescription;
public:
ConfigurationKey(const std::string& wName, const std::string& wDefaultValue, const std::string& wUnits, const VisibilityLevel wVisibility, const Type wType, const std::string& wValidValues, bool wIsStatic, const std::string& wDescription):
mName(wName),
mDefaultValue(wDefaultValue),
mUnits(wUnits),
mVisibility(wVisibility),
mType(wType),
mValidValues(wValidValues),
mIsStatic(wIsStatic),
mDescription(wDescription)
{ }
ConfigurationKey()
{ }
const std::string& getName() const { return mName; }
const std::string& getDefaultValue() const { return mDefaultValue; }
void updateDefaultValue(const std::string& newValue) { mDefaultValue = newValue; }
void updateDefaultValue(const int newValue) { std::stringstream ss; ss << newValue; updateDefaultValue(ss.str()); }
const std::string& getUnits() const { return mUnits; }
const VisibilityLevel& getVisibility() const { return mVisibility; }
const Type& getType() const { return mType; }
const std::string& getValidValues() const { return mValidValues; }
bool isStatic() const { return mIsStatic; }
const std::string& getDescription() const { return mDescription; }
static bool isValidIP(const std::string& ip);
static void getMinMaxStepping(const ConfigurationKey &key, std::string &min, std::string &max, std::string &stepping);
template<class T> static bool isInValRange(const ConfigurationKey &key, const std::string& val, const bool isInteger);
static const std::string visibilityLevelToString(const VisibilityLevel& visibility);
static const std::string typeToString(const ConfigurationKey::Type& type);
static void printKey(const ConfigurationKey &key, const std::string& currentValue, std::ostream& os);
static void printDescription(const ConfigurationKey &key, std::ostream& os);
static const std::string getARFCNsString();
};
#endif
// vim: ts=4 sw=4

149
CommonLibs/ConfigurationTest.cpp Normal file
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@@ -0,0 +1,149 @@
/*
* Copyright 2009, 2010 Free Software Foundation, Inc.
* Copyright 2010 Kestrel Signal Processing, Inc.
*
*
* This software is distributed under the terms of the GNU Affero Public License.
* See the COPYING file in the main directory for details.
*
* This use of this software may be subject to additional restrictions.
* See the LEGAL file in the main directory for details.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 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 Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "Configuration.h"
#include <iostream>
#include <string>
using namespace std;
ConfigurationKeyMap getConfigurationKeys();
ConfigurationTable gConfig("exampleconfig.db","test", getConfigurationKeys());
void purgeConfig(void*,int,char const*, char const*, sqlite3_int64)
{
//cout << "update hook" << endl;
gConfig.purge();
}
int main(int argc, char *argv[])
{
gConfig.setUpdateHook(purgeConfig);
char *keys[5] = {"key1", "key2", "key3", "key4", "key5"};
for (int i=0; i<5; i++) {
gConfig.set(keys[i],i);
}
for (int i=0; i<5; i++) {
cout << "table[" << keys[i] << "]=" << gConfig.getStr(keys[i]) << endl;
cout << "table[" << keys[i] << "]=" << gConfig.getNum(keys[i]) << endl;
}
for (int i=0; i<5; i++) {
cout << "defined table[" << keys[i] << "]=" << gConfig.defines(keys[i]) << endl;
}
gConfig.set("key5","100 200 300 400 ");
std::vector<unsigned> vect = gConfig.getVector("key5");
cout << "vect length " << vect.size() << ": ";
for (unsigned i=0; i<vect.size(); i++) cout << " " << vect[i];
cout << endl;
std::vector<string> svect = gConfig.getVectorOfStrings("key5");
cout << "vect length " << svect.size() << ": ";
for (unsigned i=0; i<svect.size(); i++) cout << " " << svect[i] << ":";
cout << endl;
cout << "bool " << gConfig.getBool("booltest") << endl;
gConfig.set("booltest",1);
cout << "bool " << gConfig.getBool("booltest") << endl;
gConfig.set("booltest",0);
cout << "bool " << gConfig.getBool("booltest") << endl;
gConfig.getStr("newstring");
gConfig.getNum("numnumber");
SimpleKeyValue pairs;
pairs.addItems(" a=1 b=34 dd=143 ");
cout<< pairs.get("a") << endl;
cout<< pairs.get("b") << endl;
cout<< pairs.get("dd") << endl;
gConfig.set("fkey","123.456");
float fval = gConfig.getFloat("fkey");
cout << "fkey " << fval << endl;
cout << "search fkey:" << endl;
gConfig.find("fkey",cout);
cout << "search fkey:" << endl;
gConfig.find("fkey",cout);
gConfig.remove("fkey");
cout << "search fkey:" << endl;
gConfig.find("fkey",cout);
try {
gConfig.getNum("supposedtoabort");
} catch (ConfigurationTableKeyNotFound) {
cout << "ConfigurationTableKeyNotFound exception successfully caught." << endl;
}
}
ConfigurationKeyMap getConfigurationKeys()
{
ConfigurationKeyMap map;
ConfigurationKey *tmp;
tmp = new ConfigurationKey("booltest","0",
"",
ConfigurationKey::DEVELOPER,
ConfigurationKey::BOOLEAN,
"",
false,
""
);
map[tmp->getName()] = *tmp;
free(tmp);
tmp = new ConfigurationKey("numnumber","42",
"",
ConfigurationKey::DEVELOPER,
ConfigurationKey::VALRANGE,
"0-100",
false,
""
);
map[tmp->getName()] = *tmp;
free(tmp);
tmp = new ConfigurationKey("newstring","new string value",
"",
ConfigurationKey::DEVELOPER,
ConfigurationKey::STRING,
"",
false,
""
);
map[tmp->getName()] = *tmp;
free(tmp);
return map;
}

210
CommonLibs/F16.h Normal file
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/*
* Copyright 2009 Free Software Foundation, Inc.
*
* This software is distributed under the terms of the GNU Affero Public License.
* See the COPYING file in the main directory for details.
*
* This use of this software may be subject to additional restrictions.
* See the LEGAL file in the main directory for details.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 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 Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef F16_H
#define F16_H
#include <stdint.h>
#include <ostream>
/** Round a float to the appropriate F16 value. */
inline int32_t _f16_round(float f)
{
if (f>0.0F) return (int32_t)(f+0.5F);
if (f<0.0F) return (int32_t)(f-0.5F);
return 0;
}
/** A class for F15.16 fixed point arithmetic with saturation. */
class F16 {
private:
int32_t mV;
public:
F16() {}
F16(int i) { mV = i<<16; }
F16(float f) { mV = _f16_round(f*65536.0F); }
F16(double f) { mV = _f16_round((float)f*65536.0F); }
int32_t& raw() { return mV; }
const int32_t& raw() const { return mV; }
float f() const { return mV/65536.0F; }
//operator float() const { return mV/65536.0F; }
//operator int() const { return mV>>16; }
F16 operator=(float f)
{
mV = _f16_round(f*65536.0F);
return *this;
}
F16 operator=(int i)
{
mV = i<<16;
return *this;
}
F16 operator=(const F16& other)
{
mV = other.mV;
return mV;
}
F16 operator+(const F16& other) const
{
F16 retVal;
retVal.mV = mV + other.mV;
return retVal;
}
F16& operator+=(const F16& other)
{
mV += other.mV;
return *this;
}
F16 operator-(const F16& other) const
{
F16 retVal;
retVal.mV = mV - other.mV;
return retVal;
}
F16& operator-=(const F16& other)
{
mV -= other.mV;
return *this;
}
F16 operator*(const F16& other) const
{
F16 retVal;
int64_t p = (int64_t)mV * (int64_t)other.mV;
retVal.mV = p>>16;
return retVal;
}
F16& operator*=(const F16& other)
{
int64_t p = (int64_t)mV * (int64_t)other.mV;
mV = p>>16;
return *this;
}
F16 operator*(float f) const
{
F16 retVal;
retVal.mV = mV * f;
return retVal;
}
F16& operator*=(float f)
{
mV *= f;
return *this;
}
F16 operator/(const F16& other) const
{
F16 retVal;
int64_t pV = (int64_t)mV << 16;
retVal.mV = pV / other.mV;
return retVal;
}
F16& operator/=(const F16& other)
{
int64_t pV = (int64_t)mV << 16;
mV = pV / other.mV;
return *this;
}
F16 operator/(float f) const
{
F16 retVal;
retVal.mV = mV / f;
return retVal;
}
F16& operator/=(float f)
{
mV /= f;
return *this;
}
bool operator>(const F16& other) const
{
return mV>other.mV;
}
bool operator<(const F16& other) const
{
return mV<other.mV;
}
bool operator==(const F16& other) const
{
return mV==other.mV;
}
bool operator>(float f) const
{
return (mV/65536.0F) > f;
}
bool operator<(float f) const
{
return (mV/65536.0F) < f;
}
bool operator==(float f) const
{
return (mV/65536.0F) == f;
}
};
inline std::ostream& operator<<(std::ostream& os, const F16& v)
{
os << v.f();
return os;
}
#endif

55
CommonLibs/F16Test.cpp Normal file
View File

@@ -0,0 +1,55 @@
/*
* Copyright 2009 Free Software Foundation, Inc.
*
*
* This software is distributed under the terms of the GNU Affero Public License.
* See the COPYING file in the main directory for details.
*
* This use of this software may be subject to additional restrictions.
* See the LEGAL file in the main directory for details.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 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 Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "F16.h"
#include <iostream>
using namespace std;
int main(int argc, char **argv)
{
F16 a = 2.5;
F16 b = 1.5;
F16 c = 2.5 * 1.5;
F16 d = c + a;
F16 e = 10;
cout << a << ' ' << b << ' ' << c << ' ' << d << ' ' << e << endl;
a *= 3;
b *= 0.3;
c *= e;
cout << a << ' ' << b << ' ' << c << ' ' << d << endl;
a /= 3;
b /= 0.3;
c = d * 0.05;
cout << a << ' ' << b << ' ' << c << ' ' << d << endl;
F16 f = a/d;
cout << f << ' ' << f+0.5 << endl;
}

32
tests/CommonLibs/InterthreadTest.cpp → CommonLibs/InterthreadTest.cpp
View File

@@ -35,20 +35,14 @@ using namespace std;
InterthreadQueue<int> gQ;
InterthreadMap<int,int> gMap;
int q_last_read_val = -1;
int q_last_write_val;
int m_last_read_val;
int m_last_write_val;
void* qWriter(void*)
{
int *p;
for (int i=0; i<20; i++) {
p = new int;
*p = i;
CERR("queue write " << *p);
COUT("queue write " << *p);
gQ.write(p);
q_last_write_val = i;
if (random()%2) sleep(1);
}
p = new int;
@@ -62,14 +56,8 @@ void* qReader(void*)
bool done = false;
while (!done) {
int *p = gQ.read();
CERR("queue read " << *p);
if (*p<0) {
assert(q_last_read_val == 19 && *p == -1);
done = true;
} else {
assert(q_last_read_val == *p - 1);
q_last_read_val = *p;
}
COUT("queue read " << *p);
if (*p<0) done=true;
delete p;
}
return NULL;
@@ -82,9 +70,8 @@ void* mapWriter(void*)
for (int i=0; i<20; i++) {
p = new int;
*p = i;
CERR("map write " << *p);
COUT("map write " << *p);
gMap.write(i,p);
m_last_write_val = i;
if (random()%2) sleep(1);
}
return NULL;
@@ -94,9 +81,7 @@ void* mapReader(void*)
{
for (int i=0; i<20; i++) {
int *p = gMap.read(i);
CERR("map read " << *p);
assert(*p == i);
m_last_read_val = *p;
COUT("map read " << *p);
// InterthreadMap will delete the pointers
// delete p;
}
@@ -124,13 +109,6 @@ int main(int argc, char *argv[])
qWriterThread.join();
mapReaderThread.join();
mapWriterThread.join();
assert(q_last_write_val == 19);
assert(q_last_read_val == 19);
assert(m_last_write_val == 19);
assert(m_last_read_val == 19);
printf("Done\n");
}

19
CommonLibs/LinkedLists.cpp
View File

@@ -29,25 +29,6 @@
#include "LinkedLists.h"
PointerFIFO::~PointerFIFO()
{
ListNode *node, *next;
node = mHead;
while (node != NULL) {
next = node->next();
delete node;
node = next;
}
node = mFreeList;
while (node != NULL) {
next = node->next();
delete node;
node = next;
}
}
void PointerFIFO::push_front(void* val) // by pat
{
// Pat added this routine for completeness, but never used or tested.

1
CommonLibs/LinkedLists.h
View File

@@ -70,7 +70,6 @@ class PointerFIFO {
:mHead(NULL),mTail(NULL),mFreeList(NULL),
mSize(0)
{}
~PointerFIFO();
unsigned size() const { return mSize; }
unsigned totalSize() const { return 0; } // Not used in this version.

66
tests/CommonLibs/LogTest.cpp → CommonLibs/LogTest.cpp
View File

@@ -28,42 +28,42 @@
#include <iterator>
#include "Logger.h"
extern "C" {
#include <osmocom/core/msgb.h>
#include <osmocom/core/talloc.h>
#include <osmocom/core/application.h>
#include <osmocom/core/utils.h>
#include "debug.h"
}
#include "Configuration.h"
#define MYCAT 0
ConfigurationTable gConfig;
//ConfigurationTable gConfig("example.config");
void printAlarms()
{
std::ostream_iterator<std::string> output( std::cout, "\n" );
std::list<std::string> alarms = gGetLoggerAlarms();
std::cout << "# alarms = " << alarms.size() << std::endl;
std::copy( alarms.begin(), alarms.end(), output );
}
int main(int argc, char *argv[])
{
struct log_info_cat categories[1];
struct log_info linfo;
categories[MYCAT] = {
"MYCAT",
NULL,
"Whatever",
LOGL_NOTICE,
1,
};
linfo.cat = categories;
linfo.num_cat = ARRAY_SIZE(categories);
gLogInit("LogTest","NOTICE",LOG_LOCAL7);
void *tall_ctx = talloc_named_const(NULL, 1, "OsmoTRX context");
msgb_talloc_ctx_init(tall_ctx, 0);
osmo_init_logging2(tall_ctx, &linfo);
log_set_use_color(osmo_stderr_target, 0);
log_set_print_filename(osmo_stderr_target, 0);
log_set_print_level(osmo_stderr_target, 1);
Log(MYCAT, LOGL_FATAL, __BASE_FILE__, __LINE__).get() << "testing the logger.";
Log(MYCAT, LOGL_ERROR, __BASE_FILE__, __LINE__).get() << "testing the logger.";
Log(MYCAT, LOGL_NOTICE, __BASE_FILE__, __LINE__).get() << "testing the logger.";
Log(MYCAT, LOGL_INFO, __BASE_FILE__, __LINE__).get() << "testing the logger.";
Log(MYCAT, LOGL_DEBUG, __BASE_FILE__, __LINE__).get() << "testing the logger.";
LOG(EMERG) << " testing the logger.";
LOG(ALERT) << " testing the logger.";
LOG(CRIT) << " testing the logger.";
LOG(ERR) << " testing the logger.";
LOG(WARNING) << " testing the logger.";
LOG(NOTICE) << " testing the logger.";
LOG(INFO) << " testing the logger.";
LOG(DEBUG) << " testing the logger.";
std::cout << "\n\n\n";
std::cout << "testing Alarms\n";
std::cout << "you should see three lines:" << std::endl;
printAlarms();
std::cout << "----------- generating 20 alarms ----------" << std::endl;
for (int i = 0 ; i < 20 ; ++i) {
LOG(ALERT) << i;
}
std::cout << "you should see ten lines with the numbers 10..19:" << std::endl;
printAlarms();
}

269
CommonLibs/Logger.cpp
View File

@@ -1,5 +1,7 @@
/*
* Copyright (C) 2018 sysmocom - s.f.m.c. GmbH
* Copyright 2009, 2010 Free Software Foundation, Inc.
* Copyright 2010 Kestrel Signal Processing, Inc.
* Copyright 2011, 2012 Range Networks, Inc.
*
*
* This software is distributed under the terms of the GNU Affero Public License.
@@ -28,37 +30,276 @@
#include <fstream>
#include <string>
#include <stdarg.h>
#include <sys/time.h> // For gettimeofday
#include "Configuration.h"
#include "Logger.h"
#include "Threads.h" // pat added
using namespace std;
// Switches to enable/disable logging targets
// MUST BE DEFINED BEFORE gConfig FOR gLogEarly() TO WORK CORRECTLY
bool gLogToConsole = true;
bool gLogToSyslog = false;
FILE *gLogToFile = NULL;
Mutex gLogToLock;
std::ostream& operator<<(std::ostream& os, std::ostringstream& ss)
// Reference to a global config table, used all over the system.
extern ConfigurationTable gConfig;
/**@ The global alarms table. */
//@{
Mutex alarmsLock;
list<string> alarmsList;
void addAlarm(const string&);
//@}
// (pat) If Log messages are printed before the classes in this module are inited
// (which happens when static classes have constructors that do work)
// the OpenBTS just crashes.
// Prevent that by setting sLoggerInited to true when this module is inited.
static bool sLoggerInited = 0;
static struct CheckLoggerInitStatus {
CheckLoggerInitStatus() { sLoggerInited = 1; }
} sCheckloggerInitStatus;
/** Names of the logging levels. */
const char *levelNames[] = {
"EMERG", "ALERT", "CRIT", "ERR", "WARNING", "NOTICE", "INFO", "DEBUG"
};
int numLevels = 8;
int levelStringToInt(const string& name)
{
return os << ss.str();
// Reverse search, since the numerically larger levels are more common.
for (int i=numLevels-1; i>=0; i--) {
if (name == levelNames[i]) return i;
}
// Common substitutions.
if (name=="INFORMATION") return 6;
if (name=="WARN") return 4;
if (name=="ERROR") return 3;
if (name=="CRITICAL") return 2;
if (name=="EMERGENCY") return 0;
// Unknown level.
return -1;
}
/** Given a string, return the corresponding level name. */
int lookupLevel(const string& key)
{
string val = gConfig.getStr(key);
int level = levelStringToInt(val);
if (level == -1) {
string defaultLevel = gConfig.mSchema["Log.Level"].getDefaultValue();
level = levelStringToInt(defaultLevel);
_LOG(CRIT) << "undefined logging level (" << key << " = \"" << val << "\") defaulting to \"" << defaultLevel << ".\" Valid levels are: EMERG, ALERT, CRIT, ERR, WARNING, NOTICE, INFO or DEBUG";
gConfig.set(key, defaultLevel);
}
return level;
}
int getLoggingLevel(const char* filename)
{
// Default level?
if (!filename) return lookupLevel("Log.Level");
// This can afford to be inefficient since it is not called that often.
const string keyName = string("Log.Level.") + string(filename);
if (gConfig.defines(keyName)) return lookupLevel(keyName);
return lookupLevel("Log.Level");
}
int gGetLoggingLevel(const char* filename)
{
// This is called a lot and needs to be efficient.
static Mutex sLogCacheLock;
static map<uint64_t,int> sLogCache;
static unsigned sCacheCount;
static const unsigned sCacheRefreshCount = 1000;
if (filename==NULL) return gGetLoggingLevel("");
HashString hs(filename);
uint64_t key = hs.hash();
sLogCacheLock.lock();
// Time for a cache flush?
if (sCacheCount>sCacheRefreshCount) {
sLogCache.clear();
sCacheCount=0;
}
// Is it cached already?
map<uint64_t,int>::const_iterator where = sLogCache.find(key);
sCacheCount++;
if (where!=sLogCache.end()) {
int retVal = where->second;
sLogCacheLock.unlock();
return retVal;
}
// Look it up in the config table and cache it.
// FIXME: Figure out why unlock and lock below fix the config table deadlock.
// (pat) Probably because getLoggingLevel may call LOG recursively via lookupLevel().
sLogCacheLock.unlock();
int level = getLoggingLevel(filename);
sLogCacheLock.lock();
sLogCache.insert(pair<uint64_t,int>(key,level));
sLogCacheLock.unlock();
return level;
}
// copies the alarm list and returns it. list supposed to be small.
list<string> gGetLoggerAlarms()
{
alarmsLock.lock();
list<string> ret;
// excuse the "complexity", but to use std::copy with a list you need
// an insert_iterator - copy technically overwrites, doesn't insert.
insert_iterator< list<string> > ii(ret, ret.begin());
copy(alarmsList.begin(), alarmsList.end(), ii);
alarmsLock.unlock();
return ret;
}
/** Add an alarm to the alarm list. */
void addAlarm(const string& s)
{
alarmsLock.lock();
alarmsList.push_back(s);
unsigned maxAlarms = gConfig.getNum("Log.Alarms.Max");
while (alarmsList.size() > maxAlarms) alarmsList.pop_front();
alarmsLock.unlock();
}
Log::~Log()
{
int old_state;
pthread_setcancelstate(PTHREAD_CANCEL_DISABLE, &old_state);
int mlen = mStream.str().size();
int neednl = (mlen==0 || mStream.str()[mlen-1] != '\n');
const char *fmt = neednl ? "%s\n" : "%s";
ScopedLock lock(gLogToLock);
// The COUT() macro prevents messages from stomping each other but adds uninteresting thread numbers,
// so just use std::cout.
LOGPSRC(mCategory, mPriority, filename, line, fmt, mStream.str().c_str());
pthread_setcancelstate(old_state, NULL);
if (mDummyInit) return;
// Anything at or above LOG_CRIT is an "alarm".
// Save alarms in the local list and echo them to stderr.
if (mPriority <= LOG_ERR) {
if (sLoggerInited) addAlarm(mStream.str().c_str());
cerr << mStream.str() << endl;
}
// Current logging level was already checked by the macro. So just log.
// Log to syslog
if (gLogToSyslog) {
syslog(mPriority, "%s", mStream.str().c_str());
}
// Log to file and console
if (gLogToConsole||gLogToFile) {
int mlen = mStream.str().size();
int neednl = (mlen==0 || mStream.str()[mlen-1] != '\n');
ScopedLock lock(gLogToLock);
if (gLogToConsole) {
// The COUT() macro prevents messages from stomping each other but adds uninteresting thread numbers,
// so just use std::cout.
std::cout << mStream.str();
if (neednl) std::cout<<"\n";
}
if (gLogToFile) {
fputs(mStream.str().c_str(),gLogToFile);
if (neednl) {fputc('\n',gLogToFile);}
fflush(gLogToFile);
}
}
}
Log::Log(const char* name, const char* level, int facility)
{
mDummyInit = true;
gLogInit(name, level, facility);
}
ostringstream& Log::get()
{
assert(mPriority<numLevels);
mStream << levelNames[mPriority] << ' ';
return mStream;
}
void gLogInit(const char* name, const char* level, int facility)
{
// Set the level if one has been specified.
if (level) {
gConfig.set("Log.Level",level);
}
// Both the transceiver and OpenBTS use this same facility, but only OpenBTS/OpenNodeB may use this log file:
string str = gConfig.getStr("Log.File");
if (gLogToFile==NULL && str.length() && 0==strncmp(gCmdName,"Open",4)) {
const char *fn = str.c_str();
if (fn && *fn && strlen(fn)>3) { // strlen because a garbage char is getting in sometimes.
gLogToFile = fopen(fn,"w"); // New log file each time we start.
if (gLogToFile) {
time_t now;
time(&now);
fprintf(gLogToFile,"Starting at %s",ctime(&now));
fflush(gLogToFile);
std::cout << "Logging to file: " << fn << "\n";
}
}
}
// Open the log connection.
openlog(name,0,facility);
}
void gLogEarly(int level, const char *fmt, ...)
{
va_list args;
va_start(args, fmt);
if (gLogToSyslog) {
va_list args_copy;
va_copy(args_copy, args);
vsyslog(level | LOG_USER, fmt, args_copy);
va_end(args_copy);
}
if (gLogToConsole) {
va_list args_copy;
va_copy(args_copy, args);
vprintf(fmt, args_copy);
printf("\n");
va_end(args_copy);
}
if (gLogToFile) {
va_list args_copy;
va_copy(args_copy, args);
vfprintf(gLogToFile, fmt, args_copy);
fprintf(gLogToFile, "\n");
va_end(args_copy);
}
va_end(args);
}
// vim: ts=4 sw=4

103
CommonLibs/Logger.h
View File

@@ -23,44 +23,72 @@
*/
// (pat) WARNING is stupidly defined in /usr/local/include/osipparser2/osip_const.h.
// This must be outside the #ifndef LOGGER_H to fix it as long as Logger.h included after the above file.
#ifdef WARNING
#undef WARNING
#endif
#ifndef LOGGER_H
#define LOGGER_H
#include <syslog.h>
#include <stdint.h>
#include <stdio.h>
#include <sstream>
#include <list>
#include <map>
#include <string>
extern "C" {
#include <osmocom/core/logging.h>
#include "debug.h"
}
#define _LOG(level) \
Log(LOG_##level).get() << pthread_self() \
<< timestr() << " " __FILE__ ":" << __LINE__ << ":" << __FUNCTION__ << ": "
/* Translation for old log statements */
#ifndef LOGL_ALERT
#define LOGL_ALERT LOGL_FATAL
#endif
#ifndef LOGL_ERR
#define LOGL_ERR LOGL_ERROR
#endif
#ifndef LOGL_WARNING
#define LOGL_WARNING LOGL_NOTICE
#define IS_LOG_LEVEL(wLevel) (gGetLoggingLevel(__FILE__)>=LOG_##wLevel)
#ifdef NDEBUG
#define LOG(wLevel) \
if (LOG_##wLevel!=LOG_DEBUG && IS_LOG_LEVEL(wLevel)) _LOG(wLevel)
#else
#define LOG(wLevel) \
if (IS_LOG_LEVEL(wLevel)) _LOG(wLevel)
#endif
#define LOG(level) \
Log(DMAIN, LOGL_##level, __BASE_FILE__, __LINE__).get() << "[tid=" << pthread_self() << "] "
// pat: And for your edification here are the 'levels' as defined in syslog.h:
// LOG_EMERG 0 system is unusable
// LOG_ALERT 1 action must be taken immediately
// LOG_CRIT 2 critical conditions
// LOG_ERR 3 error conditions
// LOG_WARNING 4 warning conditions
// LOG_NOTICE 5 normal, but significant, condition
// LOG_INFO 6 informational message
// LOG_DEBUG 7 debug-level message
#define LOGC(category, level) \
Log(category, LOGL_##level, __BASE_FILE__, __LINE__).get() << "[tid=" << pthread_self() << "] "
// (pat) added - print out a var and its name.
// Use like this: int descriptive_name; LOG(INFO)<<LOGVAR(descriptive_name);
#define LOGVAR2(name,val) " " << name << "=" << (val)
#define LOGVAR(var) (" " #var "=") << var
#define LOGHEX(var) (" " #var "=0x") << hex << ((unsigned)var) << dec
#define LOGHEX2(name,val) " " << name << "=0x" << hex << ((unsigned)(val)) << dec
// These are kind of cheesy, but you can use for bitvector
#define LOGBV2(name,val) " " << name << "=(" << val<<" size:"<<val.size()<<")"
#define LOGBV(bv) LOGBV2(#bv,bv)
#define LOGVARRANGE(name,cur,lo,hi) " "<<name <<"=("<<(cur) << " range:"<<(lo) << " to "<<(hi) <<")"
#define LOGLV(category, level) \
Log(category, level, __BASE_FILE__, __LINE__).get() << "[tid=" << pthread_self() << "] "
#define LOGCHAN(chan, category, level) \
Log(category, LOGL_##level, __BASE_FILE__, __LINE__).get() << "[tid=" << pthread_self() << "][chan=" << chan << "] "
#define OBJLOG(wLevel) \
LOG(wLevel) << "obj: " << this << ' '
#define LOG_ASSERT(x) { if (!(x)) LOG(EMERG) << "assertion " #x " failed"; } assert(x);
#include "Threads.h" // must be after defines above, if these files are to be allowed to use LOG()
#include "Utils.h"
/**
A C++ stream-based thread-safe logger.
Derived from Dr. Dobb's Sept. 2007 issue.
Updated to use syslog.
This object is NOT the global logger;
every log record is an object of this class.
*/
@@ -70,27 +98,42 @@ class Log {
protected:
std::ostringstream mStream; ///< This is where we buffer up the log entry.
int mCategory; ///< Priority of current report.
int mPriority; ///< Category of current report.
const char *filename; ///< Source File Name of current report.
int line; ///< Line number in source file of current report.
std::ostringstream mStream; ///< This is where we buffer up the log entry.
int mPriority; ///< Priority of current report.
bool mDummyInit;
public:
Log(int wCategory, int wPriority, const char* filename, int line)
: mCategory(wCategory), mPriority(wPriority),
filename(filename), line(line)
Log(int wPriority)
:mPriority(wPriority), mDummyInit(false)
{ }
Log(const char* name, const char* level=NULL, int facility=LOG_USER);
// Most of the work is in the destructor.
/** The destructor actually generates the log entry. */
~Log();
std::ostringstream& get();
};
extern bool gLogToConsole; // Output log messages to stdout
extern bool gLogToSyslog; // Output log messages to syslog
std::list<std::string> gGetLoggerAlarms(); ///< Get a copy of the recent alarm list.
/**@ Global control and initialization of the logging system. */
//@{
/** Initialize the global logging system. */
void gLogInit(const char* name, const char* level=NULL, int facility=LOG_USER);
/** Get the logging level associated with a given file. */
int gGetLoggingLevel(const char *filename=NULL);
/** Allow early logging when still in constructors */
void gLogEarly(int level, const char *fmt, ...) __attribute__((format(printf, 2, 3)));
//@}
std::ostream& operator<<(std::ostream& os, std::ostringstream& ss);
#endif

81
CommonLibs/Makefile.am
View File

@@ -22,8 +22,11 @@
include $(top_srcdir)/Makefile.common
AM_CPPFLAGS = $(STD_DEFINES_AND_INCLUDES)
AM_CXXFLAGS = -Wall -O3 -g -lpthread $(LIBOSMOCORE_CFLAGS) $(LIBOSMOCTRL_CFLAGS) $(LIBOSMOVTY_CFLAGS)
AM_CFLAGS = $(LIBOSMOCORE_CFLAGS) $(LIBOSMOCTRL_CFLAGS) $(LIBOSMOVTY_CFLAGS)
AM_CXXFLAGS = -Wall -O3 -g -ldl -lpthread
EXTRA_DIST = \
example.config \
README.common
noinst_LTLIBRARIES = libcommon.la
@@ -33,24 +36,78 @@ libcommon_la_SOURCES = \
Sockets.cpp \
Threads.cpp \
Timeval.cpp \
Reporting.cpp \
Logger.cpp \
Utils.cpp \
trx_vty.c \
debug.c
libcommon_la_LIBADD = $(LIBOSMOCORE_LIBS) $(LIBOSMOCTRL_LIBS) $(LIBOSMOVTY_LIBS)
Configuration.cpp \
sqlite3util.cpp \
URLEncode.cpp \
Utils.cpp
noinst_PROGRAMS = \
BitVectorTest \
InterthreadTest \
SocketsTest \
TimevalTest \
RegexpTest \
VectorTest \
ConfigurationTest \
LogTest \
URLEncodeTest \
F16Test
# ReportingTest
noinst_HEADERS = \
BitVector.h \
PRBS.h \
Interthread.h \
LinkedLists.h \
Sockets.h \
Threads.h \
Timeval.h \
Regexp.h \
Vector.h \
Logger.h \
Configuration.h \
Reporting.h \
F16.h \
URLEncode.h \
Utils.h \
trx_vty.h \
debug.h \
osmo_signal.h \
config_defs.h
Logger.h \
sqlite3util.h
URLEncodeTest_SOURCES = URLEncodeTest.cpp
URLEncodeTest_LDADD = libcommon.la
BitVectorTest_SOURCES = BitVectorTest.cpp
BitVectorTest_LDADD = libcommon.la $(SQLITE_LA)
InterthreadTest_SOURCES = InterthreadTest.cpp
InterthreadTest_LDADD = libcommon.la
InterthreadTest_LDFLAGS = -lpthread
SocketsTest_SOURCES = SocketsTest.cpp
SocketsTest_LDADD = libcommon.la
SocketsTest_LDFLAGS = -lpthread
TimevalTest_SOURCES = TimevalTest.cpp
TimevalTest_LDADD = libcommon.la
VectorTest_SOURCES = VectorTest.cpp
VectorTest_LDADD = libcommon.la $(SQLITE_LA)
RegexpTest_SOURCES = RegexpTest.cpp
RegexpTest_LDADD = libcommon.la
ConfigurationTest_SOURCES = ConfigurationTest.cpp
ConfigurationTest_LDADD = libcommon.la $(SQLITE_LA)
# ReportingTest_SOURCES = ReportingTest.cpp
# ReportingTest_LDADD = libcommon.la $(SQLITE_LA)
LogTest_SOURCES = LogTest.cpp
LogTest_LDADD = libcommon.la $(SQLITE_LA)
F16Test_SOURCES = F16Test.cpp
MOSTLYCLEANFILES += testSource testDestination

111
CommonLibs/MemoryLeak.h Normal file
View File

@@ -0,0 +1,111 @@
/*
* Copyright 2011 Range Networks, Inc.
* All Rights Reserved.
*
* This software is distributed under multiple licenses;
* see the COPYING file in the main directory for licensing
* information for this specific distribuion.
*
* This use of this software may be subject to additional restrictions.
* See the LEGAL file in the main directory for details.
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.
*/
#ifndef _MEMORYLEAK_
#define _MEMORYLEAK_ 1
#include <map>
#include "ScalarTypes.h"
#include "Logger.h"
namespace Utils {
struct MemStats {
// Enumerates the classes that are checked.
// Redundancies are ok, for example, we check BitVector and also
// several descendants of BitVector.
enum MemoryNames {
mZeroIsUnused,
mVector,
mVectorData,
mBitVector,
mByteVector,
mByteVectorData,
mRLCRawBlock,
mRLCUplinkDataBlock,
mRLCMessage,
mRLCMsgPacketDownlinkDummyControlBlock, // Redundant with RLCMessage
mTBF,
mLlcEngine,
mSgsnDownlinkMsg,
mRachInfo,
mPdpPdu,
mFECDispatchInfo,
mL3Frame,
msignalVector,
mSoftVector,
mScramblingCode,
mURlcDownSdu,
mURlcPdu,
// Must be last:
mMax,
};
int mMemTotal[mMax]; // In elements, not bytes.
int mMemNow[mMax];
const char *mMemName[mMax];
MemStats();
void memChkNew(MemoryNames memIndex, const char *id);
void memChkDel(MemoryNames memIndex, const char *id);
void text(std::ostream &os);
// We would prefer to use an unordered_map, but that requires special compile switches.
// What a super great language.
typedef std::map<std::string,Int_z> MemMapType;
MemMapType mMemMap;
};
extern struct MemStats gMemStats;
extern int gMemLeakDebug;
// This is a memory leak detector.
// Use by putting RN_MEMCHKNEW and RN_MEMCHKDEL in class constructors/destructors,
// or use the DEFINE_MEMORY_LEAK_DETECTOR class and add the defined class
// as an ancestor to the class to be memory leak checked.
struct MemLabel {
std::string mccKey;
virtual ~MemLabel() {
Int_z &tmp = Utils::gMemStats.mMemMap[mccKey]; tmp = tmp - 1;
}
};
#if RN_DISABLE_MEMORY_LEAK_TEST
#define RN_MEMCHKNEW(type)
#define RN_MEMCHKDEL(type)
#define RN_MEMLOG(type,ptr)
#define DEFINE_MEMORY_LEAK_DETECTOR_CLASS(subClass,checkerClass) \
struct checkerClass {};
#else
#define RN_MEMCHKNEW(type) { Utils::gMemStats.memChkNew(Utils::MemStats::m##type,#type); }
#define RN_MEMCHKDEL(type) { Utils::gMemStats.memChkDel(Utils::MemStats::m##type,#type); }
#define RN_MEMLOG(type,ptr) { \
static std::string key = format("%s_%s:%d",#type,__FILE__,__LINE__); \
(ptr)->/* MemCheck##type:: */ mccKey = key; \
Utils::gMemStats.mMemMap[key]++; \
}
// TODO: The above assumes that checkclass is MemCheck ## subClass
#define DEFINE_MEMORY_LEAK_DETECTOR_CLASS(subClass,checkerClass) \
struct checkerClass : public virtual Utils::MemLabel { \
checkerClass() { RN_MEMCHKNEW(subClass); } \
virtual ~checkerClass() { \
RN_MEMCHKDEL(subClass); \
} \
};
#endif
} // namespace Utils
#endif

110
CommonLibs/PRBS.h
View File

@@ -1,110 +0,0 @@
/*
* Copyright (C) 2017 Alexander Chemeris <Alexander.Chemeris@fairwaves.co>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#ifndef PRBS_H
#define PRBS_H
#include <stdint.h>
#include <assert.h>
/** Pseudo-random binary sequence (PRBS) generator (a Galois LFSR implementation). */
class PRBS {
public:
PRBS(unsigned wLen, uint64_t wCoeff, uint64_t wState = 0x01)
: mCoeff(wCoeff), mStartState(wState), mState(wState), mLen(wLen)
{ assert(wLen<=64); }
/**@name Accessors */
//@{
uint64_t coeff() const { return mCoeff; }
uint64_t state() const { return mState; }
void state(uint64_t state) { mState = state & mask(); }
unsigned size() const { return mLen; }
//@}
/**
Calculate one bit of a PRBS
*/
unsigned generateBit()
{
const unsigned result = mState & 0x01;
processBit(result);
return result;
}
/**
Update the generator state by one bit.
If you want to synchronize your PRBS to a known state, call this function
size() times passing your PRBS to it bit by bit.
*/
void processBit(unsigned inBit)
{
mState >>= 1;
if (inBit) mState ^= mCoeff;
}
/** Return true when PRBS is wrapping through initial state */
bool isFinished() const { return mStartState == mState; }
protected:
uint64_t mCoeff; ///< polynomial coefficients. LSB is zero exponent.
uint64_t mStartState; ///< initial shift register state.
uint64_t mState; ///< shift register state.
unsigned mLen; ///< number of bits used in shift register
/** Return mask for the state register */
uint64_t mask() const { return (mLen==64)?0xFFFFFFFFFFFFFFFFUL:((1<<mLen)-1); }
};
/**
A standard 9-bit based pseudorandom binary sequence (PRBS) generator.
Polynomial: x^9 + x^5 + 1
*/
class PRBS9 : public PRBS {
public:
PRBS9(uint64_t wState = 0x01)
: PRBS(9, 0x0110, wState)
{}
};
/**
A standard 15-bit based pseudorandom binary sequence (PRBS) generator.
Polynomial: x^15 + x^14 + 1
*/
class PRBS15 : public PRBS {
public:
PRBS15(uint64_t wState = 0x01)
: PRBS(15, 0x6000, wState)
{}
};
/**
A standard 64-bit based pseudorandom binary sequence (PRBS) generator.
Polynomial: x^64 + x^63 + x^61 + x^60 + 1
*/
class PRBS64 : public PRBS {
public:
PRBS64(uint64_t wState = 0x01)
: PRBS(64, 0xD800000000000000ULL, wState)
{}
};
#endif // PRBS_H

64
CommonLibs/Regexp.h Normal file
View File

@@ -0,0 +1,64 @@
/*
* Copyright 2008 Free Software Foundation, Inc.
*
* This software is distributed under the terms of the GNU Affero Public License.
* See the COPYING file in the main directory for details.
*
* This use of this software may be subject to additional restrictions.
* See the LEGAL file in the main directory for details.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 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 Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef REGEXPW_H
#define REGEXPW_H
#include <regex.h>
#include <iostream>
#include <stdlib.h>
class Regexp {
private:
regex_t mRegex;
public:
Regexp(const char* regexp, int flags=REG_EXTENDED)
{
int result = regcomp(&mRegex, regexp, flags);
if (result) {
char msg[256];
regerror(result,&mRegex,msg,255);
std::cerr << "Regexp compilation of " << regexp << " failed: " << msg << std::endl;
abort();
}
}
~Regexp()
{ regfree(&mRegex); }
bool match(const char *text, int flags=0) const
{ return regexec(&mRegex, text, 0, NULL, flags)==0; }
};
#endif

32
tests/CommonLibs/BitVectorTest.cpp → CommonLibs/RegexpTest.cpp
View File

@@ -25,36 +25,24 @@
#include "BitVector.h"
#include "Regexp.h"
#include <iostream>
#include <cstdlib>
using namespace std;
int main(int argc, char *argv[])
{
BitVector v5("000011110000");
int r1 = v5.peekField(0,8);
int r2 = v5.peekField(4,4);
int r3 = v5.peekField(4,8);
cout << r1 << ' ' << r2 << ' ' << r3 << endl;
cout << v5 << endl;
v5.fillField(0,0xa,4);
int r4 = v5.peekField(0,8);
cout << v5 << endl;
cout << r4 << endl;
v5.reverse8();
cout << v5 << endl;
Regexp email("^[[:graph:]]+@[[:graph:]]+ ");
Regexp simple("^dburgess@");
const char text1[] = "dburgess@jcis.net test message";
const char text2[] = "no address text message";
unsigned char ts[9] = "abcdefgh";
BitVector tp(70);
cout << "ts=" << ts << endl;
tp.unpack(ts);
cout << "tp=" << tp << endl;
tp.pack(ts);
cout << "ts=" << ts << endl;
cout << email.match(text1) << " " << text1 << endl;
cout << email.match(text2) << " " << text2 << endl;
cout << simple.match(text1) << " " << text1 << endl;
cout << simple.match(text2) << " " << text2 << endl;
}

145
CommonLibs/Reporting.cpp Normal file
View File

@@ -0,0 +1,145 @@
/**@file Module for performance-reporting mechanisms. */
/*
* Copyright 2012 Range Networks, Inc.
*
* This software is distributed under the terms of the GNU Affero Public License.
* See the COPYING file in the main directory for details.
*
* This use of this software may be subject to additional restrictions.
* See the LEGAL file in the main directory for details.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 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 Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "Reporting.h"
#include "Logger.h"
#include <stdio.h>
#include <string.h>
static const char* createReportingTable = {
"CREATE TABLE IF NOT EXISTS REPORTING ("
"NAME TEXT UNIQUE NOT NULL, "
"VALUE INTEGER DEFAULT 0, "
"CLEAREDTIME INTEGER NOT NULL, "
"UPDATETIME INTEGER DEFAULT 0 "
")"
};
ReportingTable::ReportingTable(const char* filename)
{
gLogEarly(LOG_INFO | mFacility, "opening reporting table from path %s", filename);
// Connect to the database.
int rc = sqlite3_open(filename,&mDB);
if (rc) {
gLogEarly(LOG_EMERG | mFacility, "cannot open reporting database at %s, error message: %s", filename, sqlite3_errmsg(mDB));
sqlite3_close(mDB);
mDB = NULL;
return;
}
// Create the table, if needed.
if (!sqlite3_command(mDB,createReportingTable)) {
gLogEarly(LOG_EMERG | mFacility, "cannot create reporting table in database at %s, error message: %s", filename, sqlite3_errmsg(mDB));
}
}
bool ReportingTable::create(const char* paramName)
{
char cmd[200];
sprintf(cmd,"INSERT OR IGNORE INTO REPORTING (NAME,CLEAREDTIME) VALUES (\"%s\",%ld)", paramName, time(NULL));
if (!sqlite3_command(mDB,cmd)) {
gLogEarly(LOG_CRIT|mFacility, "cannot create reporting parameter %s, error message: %s", paramName, sqlite3_errmsg(mDB));
return false;
}
return true;
}
bool ReportingTable::incr(const char* paramName)
{
char cmd[200];
sprintf(cmd,"UPDATE REPORTING SET VALUE=VALUE+1, UPDATETIME=%ld WHERE NAME=\"%s\"", time(NULL), paramName);
if (!sqlite3_command(mDB,cmd)) {
gLogEarly(LOG_CRIT|mFacility, "cannot increment reporting parameter %s, error message: %s", paramName, sqlite3_errmsg(mDB));
return false;
}
return true;
}
bool ReportingTable::max(const char* paramName, unsigned newVal)
{
char cmd[200];
sprintf(cmd,"UPDATE REPORTING SET VALUE=MAX(VALUE,%u), UPDATETIME=%ld WHERE NAME=\"%s\"", newVal, time(NULL), paramName);
if (!sqlite3_command(mDB,cmd)) {
gLogEarly(LOG_CRIT|mFacility, "cannot maximize reporting parameter %s, error message: %s", paramName, sqlite3_errmsg(mDB));
return false;
}
return true;
}
bool ReportingTable::clear(const char* paramName)
{
char cmd[200];
sprintf(cmd,"UPDATE REPORTING SET VALUE=0, UPDATETIME=0, CLEAREDTIME=%ld WHERE NAME=\"%s\"", time(NULL), paramName);
if (!sqlite3_command(mDB,cmd)) {
gLogEarly(LOG_CRIT|mFacility, "cannot clear reporting parameter %s, error message: %s", paramName, sqlite3_errmsg(mDB));
return false;
}
return true;
}
bool ReportingTable::create(const char* baseName, unsigned minIndex, unsigned maxIndex)
{
size_t sz = strlen(baseName);
for (unsigned i = minIndex; i<=maxIndex; i++) {
char name[sz+10];
sprintf(name,"%s.%u",baseName,i);
if (!create(name)) return false;
}
return true;
}
bool ReportingTable::incr(const char* baseName, unsigned index)
{
char name[strlen(baseName)+10];
sprintf(name,"%s.%u",baseName,index);
return incr(name);
}
bool ReportingTable::max(const char* baseName, unsigned index, unsigned newVal)
{
char name[strlen(baseName)+10];
sprintf(name,"%s.%u",baseName,index);
return max(name,newVal);
}
bool ReportingTable::clear(const char* baseName, unsigned index)
{
char name[strlen(baseName)+10];
sprintf(name,"%s.%u",baseName,index);
return clear(name);
}

86
CommonLibs/Reporting.h Normal file
View File

@@ -0,0 +1,86 @@
/**@file Module for performance-reporting mechanisms. */
/*
* Copyright 2012 Range Networks, Inc.
*
* This software is distributed under the terms of the GNU Affero Public License.
* See the COPYING file in the main directory for details.
*
* This use of this software may be subject to additional restrictions.
* See the LEGAL file in the main directory for details.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 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 Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef REPORTING_H
#define REPORTING_H
#include <sqlite3util.h>
#include <ostream>
/**
Collect performance statistics into a database.
Parameters are counters or max/min trackers, all integer.
*/
class ReportingTable {
private:
sqlite3* mDB; ///< database connection
int mFacility; ///< rsyslogd facility
public:
/**
Open the database connection;
create the table if it does not exist yet.
*/
ReportingTable(const char* filename);
/** Create a new parameter. */
bool create(const char* paramName);
/** Create an indexed parameter set. */
bool create(const char* baseBame, unsigned minIndex, unsigned maxIndex);
/** Increment a counter. */
bool incr(const char* paramName);
/** Increment an indexed counter. */
bool incr(const char* baseName, unsigned index);
/** Take a max of a parameter. */
bool max(const char* paramName, unsigned newVal);
/** Take a max of an indexed parameter. */
bool max(const char* paramName, unsigned index, unsigned newVal);
/** Clear a value. */
bool clear(const char* paramName);
/** Clear an indexed value. */
bool clear(const char* paramName, unsigned index);
/** Dump the database to a stream. */
void dump(std::ostream&) const;
};
#endif
// vim: ts=4 sw=4

136
CommonLibs/ScalarTypes.h Normal file
View File

@@ -0,0 +1,136 @@
/*
* Copyright 2011 Range Networks, Inc.
* All Rights Reserved.
*
* This software is distributed under multiple licenses;
* see the COPYING file in the main directory for licensing
* information for this specific distribuion.
*
* This use of this software may be subject to additional restrictions.
* See the LEGAL file in the main directory for details.
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.
*/
#ifndef SCALARTYPES_H
#define SCALARTYPES_H
#include <iostream> // For size_t
#include <stdint.h>
//#include "GSMCommon.h" // Was included for Z100Timer
// We dont bother to define *= /= etc.; you'll have to convert: a*=b; to: a=a*b;
#define _INITIALIZED_SCALAR_BASE_FUNCS(Classname,Basetype,Init) \
Classname() : value(Init) {} \
Classname(Basetype wvalue) { value = wvalue; } /* Can set from basetype. */ \
operator Basetype(void) const { return value; } /* Converts from basetype. */ \
Basetype operator=(Basetype wvalue) { return value = wvalue; } \
Basetype* operator&() { return &value; }
#define _INITIALIZED_SCALAR_ARITH_FUNCS(Basetype) \
Basetype operator++() { return ++value; } \
Basetype operator++(int) { return value++; } \
Basetype operator--() { return --value; } \
Basetype operator--(int) { return value--; } \
Basetype operator+=(Basetype wvalue) { return value = value + wvalue; } \
Basetype operator-=(Basetype wvalue) { return value = value - wvalue; }
#define _INITIALIZED_SCALAR_FUNCS(Classname,Basetype,Init) \
_INITIALIZED_SCALAR_BASE_FUNCS(Classname,Basetype,Init) \
_INITIALIZED_SCALAR_ARITH_FUNCS(Basetype)
#define _DECLARE_SCALAR_TYPE(Classname_i,Classname_z,Basetype) \
template <Basetype Init> \
struct Classname_i { \
Basetype value; \
_INITIALIZED_SCALAR_FUNCS(Classname_i,Basetype,Init) \
}; \
typedef Classname_i<0> Classname_z;
// Usage:
// Where 'classname' is one of the types listed below, then:
// classname_z specifies a zero initialized type;
// classname_i<value> initializes the type to the specified value.
// We also define Float_z.
_DECLARE_SCALAR_TYPE(Int_i, Int_z, int)
_DECLARE_SCALAR_TYPE(Char_i, Char_z, signed char)
_DECLARE_SCALAR_TYPE(Int16_i, Int16_z, int16_t)
_DECLARE_SCALAR_TYPE(Int32_i, Int32_z, int32_t)
_DECLARE_SCALAR_TYPE(UInt_i, UInt_z, unsigned)
_DECLARE_SCALAR_TYPE(UChar_i, UChar_z, unsigned char)
_DECLARE_SCALAR_TYPE(UInt16_i, UInt16_z, uint16_t)
_DECLARE_SCALAR_TYPE(UInt32_i, UInt32_z, uint32_t)
_DECLARE_SCALAR_TYPE(Size_t_i, Size_t_z, size_t)
// Bool is special because it cannot accept some arithmetic funcs
//_DECLARE_SCALAR_TYPE(Bool_i, Bool_z, bool)
template <bool Init>
struct Bool_i {
bool value;
_INITIALIZED_SCALAR_BASE_FUNCS(Bool_i,bool,Init)
};
typedef Bool_i<0> Bool_z;
// float is special, because C++ does not permit the template initalization:
struct Float_z {
float value;
_INITIALIZED_SCALAR_FUNCS(Float_z,float,0)
};
struct Double_z {
double value;
_INITIALIZED_SCALAR_FUNCS(Double_z,double,0)
};
class ItemWithValueAndWidth {
public:
virtual unsigned getValue() const = 0;
virtual unsigned getWidth() const = 0;
};
// A Range Networks Field with a specified width.
// See RLCMessages.h for examples.
template <int Width=32, unsigned Init=0>
class Field_i : public ItemWithValueAndWidth
{
public:
unsigned value;
_INITIALIZED_SCALAR_FUNCS(Field_i,unsigned,Init)
unsigned getWidth() const { return Width; }
unsigned getValue() const { return value; }
};
// Synonym for Field_i, but no way to do it.
template <int Width, unsigned Init=0>
class Field_z : public ItemWithValueAndWidth
{
public:
unsigned value;
_INITIALIZED_SCALAR_FUNCS(Field_z,unsigned,Init)
unsigned getWidth() const { return Width; }
unsigned getValue() const { return value; }
};
// This is an uninitialized field.
template <int Width=32, unsigned Init=0>
class Field : public ItemWithValueAndWidth
{
public:
unsigned value;
_INITIALIZED_SCALAR_FUNCS(Field,unsigned,Init)
unsigned getWidth() const { return Width; }
unsigned getValue() const { return value; }
};
// A Z100Timer with an initial value specified.
//template <int Init>
//class Z100Timer_i : public GSM::Z100Timer {
// public:
// Z100Timer_i() : GSM::Z100Timer(Init) {}
//};
#endif

60
CommonLibs/Sockets.cpp
View File

@@ -223,18 +223,18 @@ int DatagramSocket::read(char* buffer, size_t length, unsigned timeout)
UDPSocket::UDPSocket(const char *wSrcIP, unsigned short wSrcPort)
UDPSocket::UDPSocket(unsigned short wSrcPort)
:DatagramSocket()
{
open(wSrcPort, wSrcIP);
open(wSrcPort);
}
UDPSocket::UDPSocket(const char *wSrcIP, unsigned short wSrcPort,
const char *wDestIP, unsigned short wDestPort)
UDPSocket::UDPSocket(unsigned short wSrcPort,
const char * wDestIP, unsigned short wDestPort )
:DatagramSocket()
{
open(wSrcPort, wSrcIP);
open(wSrcPort);
destination(wDestPort, wDestIP);
}
@@ -246,7 +246,7 @@ void UDPSocket::destination( unsigned short wDestPort, const char * wDestIP )
}
void UDPSocket::open(unsigned short localPort, const char *wlocalIP)
void UDPSocket::open(unsigned short localPort)
{
// create
mSocketFD = socket(AF_INET,SOCK_DGRAM,0);
@@ -265,7 +265,7 @@ void UDPSocket::open(unsigned short localPort, const char *wlocalIP)
size_t length = sizeof(address);
bzero(&address,length);
address.sin_family = AF_INET;
address.sin_addr.s_addr = inet_addr(wlocalIP);
address.sin_addr.s_addr = htonl(INADDR_LOOPBACK);
address.sin_port = htons(localPort);
if (bind(mSocketFD,(struct sockaddr*)&address,length)<0) {
perror("bind() failed");
@@ -284,4 +284,50 @@ unsigned short UDPSocket::port() const
return ntohs(name.sin_port);
}
UDDSocket::UDDSocket(const char* localPath, const char* remotePath)
:DatagramSocket()
{
if (localPath!=NULL) open(localPath);
if (remotePath!=NULL) destination(remotePath);
}
void UDDSocket::open(const char* localPath)
{
// create
mSocketFD = socket(AF_UNIX,SOCK_DGRAM,0);
if (mSocketFD<0) {
perror("socket() failed");
throw SocketError();
}
// bind
struct sockaddr_un address;
size_t length = sizeof(address);
bzero(&address,length);
address.sun_family = AF_UNIX;
strcpy(address.sun_path,localPath);
unlink(localPath);
if (bind(mSocketFD,(struct sockaddr*)&address,length)<0) {
perror("bind() failed");
throw SocketError();
}
}
void UDDSocket::destination(const char* remotePath)
{
struct sockaddr_un* unAddr = (struct sockaddr_un*)mDestination;
strcpy(unAddr->sun_path,remotePath);
}
// vim:ts=4:sw=4

28
CommonLibs/Sockets.h
View File

@@ -144,11 +144,11 @@ class UDPSocket : public DatagramSocket {
public:
/** Open a USP socket with an OS-assigned port and no default destination. */
UDPSocket(const char *localIP, unsigned short localPort);
UDPSocket( unsigned short localPort=0);
/** Given a full specification, open the socket and set the dest address. */
UDPSocket(const char *localIP, unsigned short localPort,
const char *remoteIP, unsigned short remotePort);
UDPSocket( unsigned short localPort,
const char * remoteIP, unsigned short remotePort);
/** Set the destination port. */
void destination( unsigned short wDestPort, const char * wDestIP );
@@ -157,7 +157,7 @@ public:
unsigned short port() const;
/** Open and bind the UDP socket to a local port. */
void open(unsigned short localPort=0, const char *wlocalIP="127.0.0.1");
void open(unsigned short localPort=0);
/** Give the return address of the most recently received packet. */
const struct sockaddr_in* source() const { return (const struct sockaddr_in*)mSource; }
@@ -166,6 +166,26 @@ public:
};
/** Unix Domain Datagram Socket */
class UDDSocket : public DatagramSocket {
public:
UDDSocket(const char* localPath=NULL, const char* remotePath=NULL);
void destination(const char* remotePath);
void open(const char* localPath);
/** Give the return address of the most recently received packet. */
const struct sockaddr_un* source() const { return (const struct sockaddr_un*)mSource; }
size_t addressSize() const { return sizeof(struct sockaddr_un); }
};
#endif

78
tests/CommonLibs/SocketsTest.cpp → CommonLibs/SocketsTest.cpp
View File

@@ -30,28 +30,21 @@
#include "Threads.h"
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <signal.h>
static const int gNumToSend = 10;
static void sigalarm_handler(int foo)
{
printf("FAIL: test did not run successfully\n");
exit(EXIT_FAILURE);
}
void *testReaderIP(void *param)
void *testReaderIP(void *)
{
UDPSocket *readSocket = (UDPSocket *)param;
readSocket->nonblocking();
UDPSocket readSocket(5934, "localhost", 5061);
readSocket.nonblocking();
int rc = 0;
while (rc<gNumToSend) {
char buf[MAX_UDP_LENGTH+1] = { 0 };
int count = readSocket->read(buf, MAX_UDP_LENGTH);
char buf[MAX_UDP_LENGTH];
int count = readSocket.read(buf, MAX_UDP_LENGTH);
if (count>0) {
buf[count] = 0;
CERR("read: " << buf);
COUT("read: " << buf);
rc++;
} else {
sleep(2);
@@ -60,42 +53,51 @@ void *testReaderIP(void *param)
return NULL;
}
void *testReaderUnix(void *)
{
UDDSocket readSocket("testDestination");
readSocket.nonblocking();
int rc = 0;
while (rc<gNumToSend) {
char buf[MAX_UDP_LENGTH];
int count = readSocket.read(buf, MAX_UDP_LENGTH);
if (count>0) {
COUT("read: " << buf);
rc++;
} else {
sleep(2);
}
}
return NULL;
}
int main(int argc, char * argv[] )
{
int count;
if (signal(SIGALRM, sigalarm_handler) == SIG_ERR) {
perror("signal");
exit(EXIT_FAILURE);
}
/* If the test takes longer than 2*gNumToSend seconds, abort it */
alarm(2* gNumToSend);
UDPSocket readSocket("127.0.0.1", 0);
UDPSocket socket1("127.0.0.1", 0, "localhost", readSocket.port());
CERR("socket1: " << socket1.port() << ", readSocket: " << readSocket.port());
Thread readerThreadIP;
readerThreadIP.start(testReaderIP, &readSocket);
readerThreadIP.start(testReaderIP,NULL);
Thread readerThreadUnix;
readerThreadUnix.start(testReaderUnix,NULL);
UDPSocket socket1(5061, "127.0.0.1",5934);
UDDSocket socket1U("testSource","testDestination");
COUT("socket1: " << socket1.port());
// give the readers time to open
sleep(1);
for (int i=0; i<gNumToSend; i++) {
CERR("write");
count = socket1.write("Hello IP land");
if (count < 0) {
COUT("FAIL: write");
exit(EXIT_FAILURE);
}
sleep(1);
socket1.write("Hello IP land");
socket1U.write("Hello Unix domain");
sleep(1);
}
readerThreadIP.join();
printf("Done\n");
readerThreadUnix.join();
}
// vim: ts=4 sw=4

29
CommonLibs/Threads.cpp
View File

@@ -24,17 +24,11 @@
*/
#include <string.h>
#include <sys/types.h>
#include "Threads.h"
#include "Timeval.h"
#include "Logger.h"
#ifndef gettid
#include <sys/syscall.h>
#define gettid() syscall(SYS_gettid)
#endif
using namespace std;
@@ -108,25 +102,6 @@ void Signal::wait(Mutex& wMutex, unsigned timeout) const
pthread_cond_timedwait(&mSignal,&wMutex.mMutex,&waitTime);
}
void set_selfthread_name(const char *name)
{
pthread_t selfid = pthread_self();
pid_t tid = gettid();
if (pthread_setname_np(selfid, name) == 0) {
LOG(INFO) << "Thread "<< selfid << " (task " << tid << ") set name: " << name;
} else {
char buf[256];
int err = errno;
char* err_str = strerror_r(err, buf, sizeof(buf));
LOG(NOTICE) << "Thread "<< selfid << " (task " << tid << ") set name \"" << name << "\" failed: (" << err << ") " << err_str;
}
}
void thread_enable_cancel(bool cancel)
{
cancel ? pthread_setcancelstate(PTHREAD_CANCEL_ENABLE, NULL) :
pthread_setcancelstate(PTHREAD_CANCEL_DISABLE, NULL);
}
void Thread::start(void *(*task)(void*), void *arg)
{

3
CommonLibs/Threads.h
View File

@@ -141,9 +141,6 @@ class Signal {
#define START_THREAD(thread,function,argument) \
thread.start((void *(*)(void*))function, (void*)argument);
void set_selfthread_name(const char *name);
void thread_enable_cancel(bool cancel);
/** A C++ wrapper for pthread threads. */
class Thread {

38
CommonLibs/Timeval.cpp
View File

@@ -27,49 +27,43 @@
#include "Timeval.h"
extern "C" {
#include <osmocom/core/timer.h>
}
using namespace std;
void Timeval::now()
{
osmo_clock_gettime(CLOCK_REALTIME, &mTimespec);
}
void Timeval::future(unsigned offset)
{
now();
unsigned sec = offset/1000;
unsigned msec = offset%1000;
mTimespec.tv_nsec += msec*1000*1000;
mTimespec.tv_sec += sec;
if (mTimespec.tv_nsec > 1000*1000*1000) {
mTimespec.tv_nsec -= 1000*1000*1000;
mTimespec.tv_sec += 1;
mTimeval.tv_usec += msec*1000;
mTimeval.tv_sec += sec;
if (mTimeval.tv_usec>1000000) {
mTimeval.tv_usec -= 1000000;
mTimeval.tv_sec += 1;
}
}
struct timespec Timeval::timespec() const
{
return mTimespec;
struct timespec retVal;
retVal.tv_sec = mTimeval.tv_sec;
retVal.tv_nsec = 1000 * (long)mTimeval.tv_usec;
return retVal;
}
bool Timeval::passed() const
{
Timeval nowTime;
if (nowTime.mTimespec.tv_sec < mTimespec.tv_sec) return false;
if (nowTime.mTimespec.tv_sec > mTimespec.tv_sec) return true;
if (nowTime.mTimespec.tv_nsec >= mTimespec.tv_nsec) return true;
if (nowTime.mTimeval.tv_sec < mTimeval.tv_sec) return false;
if (nowTime.mTimeval.tv_sec > mTimeval.tv_sec) return true;
if (nowTime.mTimeval.tv_usec > mTimeval.tv_usec) return true;
return false;
}
double Timeval::seconds() const
{
return ((double)mTimespec.tv_sec) + 1e-9*((double)mTimespec.tv_nsec);
return ((double)mTimeval.tv_sec) + 1e-6*((double)mTimeval.tv_usec);
}
@@ -78,8 +72,8 @@ long Timeval::delta(const Timeval& other) const
{
// 2^31 milliseconds is just over 4 years.
int32_t deltaS = other.sec() - sec();
int32_t deltaNs = other.nsec() - nsec();
return 1000*deltaS + deltaNs/1000000;
int32_t deltaUs = other.usec() - usec();
return 1000*deltaS + deltaUs/1000;
}
@@ -95,7 +89,7 @@ ostream& operator<<(ostream& os, const Timeval& tv)
ostream& operator<<(ostream& os, const struct timespec& ts)
{
os << ts.tv_sec << "," << ts.tv_nsec/1000;
os << ts.tv_sec << "," << ts.tv_nsec;
return os;
}

27
CommonLibs/Timeval.h
View File

@@ -42,12 +42,12 @@ class Timeval {
private:
struct timespec mTimespec;
struct timeval mTimeval;
public:
/** Set the value to current time. */
void now();
/** Set the value to gettimeofday. */
void now() { gettimeofday(&mTimeval,NULL); }
/** Set the value to gettimeofday plus an offset. */
void future(unsigned ms);
@@ -55,18 +55,16 @@ class Timeval {
//@{
Timeval(unsigned sec, unsigned usec)
{
mTimespec.tv_sec = sec;
mTimespec.tv_nsec = usec*1000;
mTimeval.tv_sec = sec;
mTimeval.tv_usec = usec;
}
Timeval(const struct timeval& wTimeval)
{
mTimespec.tv_sec = wTimeval.tv_sec;
mTimespec.tv_nsec = wTimeval.tv_sec*1000;
}
:mTimeval(wTimeval)
{}
/**
Create a Timespec offset into the future.
Create a Timeval offset into the future.
@param offset milliseconds
*/
Timeval(unsigned offset=0) { future(offset); }
@@ -78,9 +76,8 @@ class Timeval {
/** Return total seconds. */
double seconds() const;
uint32_t sec() const { return mTimespec.tv_sec; }
uint32_t usec() const { return mTimespec.tv_nsec / 1000; }
uint32_t nsec() const { return mTimespec.tv_nsec; }
uint32_t sec() const { return mTimeval.tv_sec; }
uint32_t usec() const { return mTimeval.tv_usec; }
/** Return differnce from other (other-self), in ms. */
long delta(const Timeval& other) const;
@@ -91,11 +88,11 @@ class Timeval {
/** Remaining time in ms. */
long remaining() const { return -elapsed(); }
/** Return true if the time has passed, as per clock_gettime(CLOCK_REALTIME). */
/** Return true if the time has passed, as per gettimeofday. */
bool passed() const;
/** Add a given number of minutes to the time. */
void addMinutes(unsigned minutes) { mTimespec.tv_sec += minutes*60; }
void addMinutes(unsigned minutes) { mTimeval.tv_sec += minutes*60; }
};

45
CommonLibs/TimevalTest.cpp Normal file
View File

@@ -0,0 +1,45 @@
/*
* Copyright 2008 Free Software Foundation, Inc.
*
*
* This software is distributed under the terms of the GNU Affero Public License.
* See the COPYING file in the main directory for details.
*
* This use of this software may be subject to additional restrictions.
* See the LEGAL file in the main directory for details.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 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 Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "Timeval.h"
#include <iostream>
using namespace std;
int main(int argc, char *argv[])
{
Timeval then(10000);
cout << then.elapsed() << endl;
while (!then.passed()) {
cout << "now: " << Timeval() << " then: " << then << " remaining: " << then.remaining() << endl;
usleep(500000);
}
cout << "now: " << Timeval() << " then: " << then << " remaining: " << then.remaining() << endl;
}

28
CommonLibs/URLEncode.cpp Normal file
View File

@@ -0,0 +1,28 @@
/* Copyright 2011, Range Networks, Inc. */
#include <URLEncode.h>
#include <string>
#include <string.h>
#include <ctype.h>
using namespace std;
//based on javascript encodeURIComponent()
string URLEncode(const string &c)
{
static const char *digits = "01234567890ABCDEF";
string retVal="";
for (size_t i=0; i<c.length(); i++)
{
const char ch = c[i];
if (isalnum(ch) || strchr("-_.!~'()",ch)) {
retVal += ch;
} else {
retVal += '%';
retVal += digits[(ch>>4) & 0x0f];
retVal += digits[ch & 0x0f];
}
}
return retVal;
}

30
CommonLibs/URLEncode.h Normal file
View File

@@ -0,0 +1,30 @@
/*
* Copyright 2011 Free Software Foundation, Inc.
*
*
* This software is distributed under the terms of the GNU Affero Public License.
* See the COPYING file in the main directory for details.
*
* This use of this software may be subject to additional restrictions.
* See the LEGAL file in the main directory for details.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 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 Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
# include <string>
std::string URLEncode(const std::string&);

17
CommonLibs/URLEncodeTest.cpp Normal file
View File

@@ -0,0 +1,17 @@
#include "URLEncode.h"
#include <string>
#include <iostream>
using namespace std;
int main(int argc, char *argv[])
{
string test = string("Testing: !@#$%^&*() " __DATE__ " " __TIME__);
cout << test << endl;
cout << URLEncode(test) << endl;
}

237
CommonLibs/Utils.cpp
View File

@@ -1,36 +1,211 @@
/*
* Copyright 2018 sysmocom - s.f.m.c. GmbH
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
* Copyright 2011 Range Networks, Inc.
* All Rights Reserved.
*
* This software is distributed under multiple licenses;
* see the COPYING file in the main directory for licensing
* information for this specific distribuion.
*
* This use of this software may be subject to additional restrictions.
* See the LEGAL file in the main directory for details.
#include <vector>
#include <string>
#include <sstream>
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.
*/
std::vector<std::string> comma_delimited_to_vector(const char* opt)
#include <unistd.h> // For usleep
#include <sys/time.h> // For gettimeofday
#include <stdio.h> // For vsnprintf
#include <ostream> // For ostream
#include <sstream> // For ostringstream
#include <string.h> // For strcpy
//#include "GSMCommon.h"
#include "Utils.h"
#include "MemoryLeak.h"
namespace Utils {
MemStats gMemStats;
int gMemLeakDebug = 0;
MemStats::MemStats()
{
std::string str = std::string(opt);
std::vector<std::string> result;
std::stringstream ss(str);
while( ss.good() )
{
std::string substr;
getline(ss, substr, ',');
result.push_back(substr);
}
return result;
memset(mMemNow,0,sizeof(mMemNow));
memset(mMemTotal,0,sizeof(mMemTotal));
memset(mMemName,0,sizeof(mMemName));
}
void MemStats::text(std::ostream &os)
{
os << "Structs current total:\n";
for (int i = 0; i < mMax; i++) {
os << "\t" << (mMemName[i] ? mMemName[i] : "unknown") << " " << mMemNow[i] << " " << mMemTotal[i] << "\n";
}
}
void MemStats::memChkNew(MemoryNames memIndex, const char *id)
{
/*std::cout << "new " #type "\n";*/
mMemNow[memIndex]++;
mMemTotal[memIndex]++;
mMemName[memIndex] = id;
}
void MemStats::memChkDel(MemoryNames memIndex, const char *id)
{
/*std::cout << "del " #type "\n";*/
mMemNow[memIndex]--;
if (mMemNow[memIndex] < 0) {
LOG(ERR) << "Memory underflow on type "<<id;
if (gMemLeakDebug) assert(0);
mMemNow[memIndex] += 100; // Prevent another message for a while.
}
}
std::ostream& operator<<(std::ostream& os, std::ostringstream& ss)
{
return os << ss.str();
}
std::ostream &osprintf(std::ostream &os, const char *fmt, ...)
{
va_list ap;
char buf[300];
va_start(ap,fmt);
int n = vsnprintf(buf,300,fmt,ap);
va_end(ap);
if (n >= (300-4)) { strcpy(&buf[(300-4)],"..."); }
os << buf;
return os;
}
std::string format(const char *fmt, ...)
{
va_list ap;
char buf[300];
va_start(ap,fmt);
int n = vsnprintf(buf,300,fmt,ap);
va_end(ap);
if (n >= (300-4)) { strcpy(&buf[(300-4)],"..."); }
return std::string(buf);
}
// Return time in seconds with high resolution.
// Note: In the past I found this to be a surprisingly expensive system call in linux.
double timef()
{
struct timeval tv;
gettimeofday(&tv,NULL);
return tv.tv_usec / 1000000.0 + tv.tv_sec;
}
const std::string timestr()
{
struct timeval tv;
struct tm tm;
gettimeofday(&tv,NULL);
localtime_r(&tv.tv_sec,&tm);
unsigned tenths = tv.tv_usec / 100000; // Rounding down is ok.
return format(" %02d:%02d:%02d.%1d",tm.tm_hour,tm.tm_min,tm.tm_sec,tenths);
}
// High resolution sleep for the specified time.
// Return FALSE if time is already past.
void sleepf(double howlong)
{
if (howlong <= 0.00001) return; // Less than 10 usecs, forget it.
usleep((useconds_t) (1000000.0 * howlong));
}
//bool sleepuntil(double untilwhen)
//{
//double now = timef();
//double howlong = untilwhen - now; // Fractional time in seconds.
// We are not worrying about overflow because all times should be in the near future.
//if (howlong <= 0.00001) return false; // Less than 10 usecs, forget it.
//sleepf(sleeptime);
//}
std::string Text2Str::str() const
{
std::ostringstream ss;
text(ss);
return ss.str();
}
std::ostream& operator<<(std::ostream& os, const Text2Str *val)
{
std::ostringstream ss;
if (val) {
val->text(ss);
os << ss.str();
} else {
os << "(null)";
}
return os;
}
// Greatest Common Denominator.
// This is by Doug Brown.
int gcd(int x, int y)
{
if (x > y) {
return x % y == 0 ? y : gcd(y, x % y);
} else {
return y % x == 0 ? x : gcd(x, y % x);
}
}
// Split a C string into an argc,argv array in place; the input string is modified.
// Returns argc, and places results in argv, up to maxargc elements.
// The final argv receives the rest of the input string from maxargc on,
// even if it contains additional splitchars.
// The correct idiom for use is to make a copy of your string, like this:
// char *copy = strcpy((char*)alloca(the_string.length()+1),the_string.c_str());
// char *argv[2];
// int argc = cstrSplit(copy,argv,2,NULL);
// If you want to detect the error of too many arguments, add 1 to argv, like this:
// char *argv[3];
// int argc = cstrSplit(copy,argv,3,NULL);
// if (argc == 3) { error("too many arguments"; }
int cstrSplit(char *in, char **pargv,int maxargc, const char *splitchars)
{
if (splitchars == NULL) { splitchars = " \t\r\n"; } // Default is any space.
int argc = 0;
while (argc < maxargc) {
while (*in && strchr(splitchars,*in)) {in++;} // scan past any splitchars
if (! *in) return argc; // return if finished.
pargv[argc++] = in; // save ptr to start of arg.
in = strpbrk(in,splitchars); // go to end of arg.
if (!in) return argc; // return if finished.
*in++ = 0; // zero terminate this arg.
}
return argc;
}
std::ostream& operator<<(std::ostream& os, const Statistic<int> &stat) { stat.text(os); return os; }
std::ostream& operator<<(std::ostream& os, const Statistic<unsigned> &stat) { stat.text(os); return os; }
std::ostream& operator<<(std::ostream& os, const Statistic<float> &stat) { stat.text(os); return os; }
std::ostream& operator<<(std::ostream& os, const Statistic<double> &stat) { stat.text(os); return os; }
std::string replaceAll(const std::string input, const std::string search, const std::string replace)
{
std::string output = input;
int index = 0;
while (true) {
index = output.find(search, index);
if (index == std::string::npos) {
break;
}
output.replace(index, replace.length(), replace);
index += replace.length();
}
return output;
}
};

162
CommonLibs/Utils.h
View File

@@ -1,24 +1,148 @@
/*
* Copyright 2018 sysmocom - s.f.m.c. GmbH
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
* Copyright 2011 Range Networks, Inc.
* All Rights Reserved.
*
* This software is distributed under multiple licenses;
* see the COPYING file in the main directory for licensing
* information for this specific distribuion.
*
* This use of this software may be subject to additional restrictions.
* See the LEGAL file in the main directory for details.
#pragma once
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.
*/
#include <vector>
#ifndef GPRSUTILS_H
#define GPRSUTILS_H
#include <stdint.h>
#include <stdarg.h>
#include <string>
#include <string.h>
#include <math.h> // for sqrtf
#include "Logger.h"
std::vector<std::string> comma_delimited_to_vector(const char* opt);
namespace Utils {
extern double timef(); // high resolution time
extern const std::string timestr(); // A timestamp to print in messages.
extern void sleepf(double howlong); // high resolution sleep
extern int gcd(int x, int y);
// It is irritating to create a string just to interface to the brain-damaged
// C++ stream class, but this is only used for debug messages.
std::string format(const char *fmt, ...) __attribute__((format (printf,1,2)));
int cstrSplit(char *in, char **pargv,int maxargc, const char *splitchars=NULL);
// For classes with a text() function, provide a function to return a String,
// and also a standard << stream function that takes a pointer to the object.
// We dont provide the function that takes a reference to the object
// because it is too highly overloaded and generally doesnt work.
class Text2Str {
public:
virtual void text(std::ostream &os) const = 0;
std::string str() const;
};
std::ostream& operator<<(std::ostream& os, const Text2Str *val);
#if 0
// Generic Activity Timer. Lots of controls to make everybody happy.
class ATimer {
double mStart;
//bool mActive;
double mLimitTime;
public:
ATimer() : mStart(0), mLimitTime(0) { }
ATimer(double wLimitTime) : mStart(0), mLimitTime(wLimitTime) { }
void start() { mStart=timef(); }
void stop() { mStart=0; }
bool active() { return !!mStart; }
double elapsed() { return timef() - mStart; }
bool expired() { return elapsed() > mLimitTime; }
};
#endif
struct BitSet {
unsigned mBits;
void setBit(unsigned whichbit) { mBits |= 1<<whichbit; }
void clearBit(unsigned whichbit) { mBits &= ~(1<<whichbit); }
unsigned getBit(unsigned whichbit) const { return mBits & (1<<whichbit); }
bool isSet(unsigned whichbit) const { return mBits & (1<<whichbit); }
unsigned bits() const { return mBits; }
operator int(void) const { return mBits; }
BitSet() { mBits = 0; }
};
// Store current, min, max and compute running average and standard deviation.
template<class Type> struct Statistic {
Type mCurrent, mMin, mMax; // min,max optional initialization so you can print before adding any values.
unsigned mCnt;
double mSum;
//double mSum2; // sum of squares.
// (Type) cast needed in case Type is an enum, stupid language.
Statistic() : mCurrent((Type)0), mMin((Type)0), mMax((Type)0), mCnt(0), mSum(0) /*,mSum2(0)*/ {}
// Set the current value and add a statisical point.
void addPoint(Type val) {
mCurrent = val;
if (mCnt == 0 || val < mMin) {mMin = val;}
if (mCnt == 0 || val > mMax) {mMax = val;}
mCnt++;
mSum += val;
//mSum2 += val * val;
}
Type getCurrent() const { // Return current value.
return mCnt ? mCurrent : 0;
}
double getAvg() const { // Return average.
return mCnt==0 ? 0 : mSum/mCnt;
};
//float getSD() const { // Return standard deviation. Use low precision square root function.
// return mCnt==0 ? 0 : sqrtf(mCnt * mSum2 - mSum*mSum) / mCnt;
//}
void text(std::ostream &os) const { // Print everything in parens.
os << "("<<mCurrent;
if (mMin != mMax) { // Not point in printing all this stuff if min == max.
os <<LOGVAR2("min",mMin)<<LOGVAR2("max",mMax)<<LOGVAR2("avg",getAvg());
if (mCnt <= 999999) {
os <<LOGVAR2("N",mCnt);
} else { // Shorten this up:
char buf[10], *ep;
sprintf(buf,"%.3g",round(mCnt));
if ((ep = strchr(buf,'e')) && ep[1] == '+') { strcpy(ep+1,ep+2); }
os << LOGVAR2("N",buf);
}
// os<<LOGVAR2("sd",getSD()) standard deviation not interesting
}
os << ")";
// " min="<<mMin <<" max="<<mMax <<format(" avg=%4g sd=%3g)",getAvg(),getSD());
}
// Not sure if this works:
//std::string statStr() const {
// return (std::string)mCurrent + " min=" + (std::string) mMin +" max="+(string)mMax+ format(" avg=%4g sd=%3g",getAvg(),getSD());
//}
};
// This I/O mechanism is so dumb:
std::ostream& operator<<(std::ostream& os, const Statistic<int> &stat);
std::ostream& operator<<(std::ostream& os, const Statistic<unsigned> &stat);
std::ostream& operator<<(std::ostream& os, const Statistic<float> &stat);
std::ostream& operator<<(std::ostream& os, const Statistic<double> &stat);
// Yes, they botched and left this out:
std::ostream& operator<<(std::ostream& os, std::ostringstream& ss);
std::ostream &osprintf(std::ostream &os, const char *fmt, ...) __attribute__((format (printf,2,3)));
std::string replaceAll(const std::string input, const std::string search, const std::string replace);
}; // namespace
using namespace Utils;
#endif

82
CommonLibs/Vector.h
View File

@@ -32,14 +32,11 @@
#include <string.h>
#include <iostream>
#include <assert.h>
#include <stdlib.h>
// We cant use Logger.h in this file...
extern int gVectorDebug;
#define BVDEBUG(msg) if (gVectorDebug) {std::cout << msg;}
typedef void (*vector_free_func)(void* wData);
typedef void *(*vector_alloc_func)(size_t newSize);
/**
A simplified Vector template with aliases.
@@ -63,8 +60,6 @@ template <class T> class Vector {
T* mData; ///< allocated data block, if any
T* mStart; ///< start of useful data
T* mEnd; ///< end of useful data + 1
vector_alloc_func mAllocFunc; ///< function used to alloc new mData during resize.
vector_free_func mFreeFunc; ///< function used to free mData.
public:
@@ -90,30 +85,13 @@ template <class T> class Vector {
/** Change the size of the Vector, discarding content. */
void resize(size_t newSize)
{
if (mData!=NULL) {
if (mFreeFunc)
mFreeFunc(mData);
else
delete[] mData;
}
if (mData!=NULL) delete[] mData;
if (newSize==0) mData=NULL;
else {
if (mAllocFunc)
mData = (T*) mAllocFunc(newSize);
else
mData = new T[newSize];
}
else mData = new T[newSize];
mStart = mData;
mEnd = mStart + newSize;
}
/** Reduce addressable size of the Vector, keeping content. */
void shrink(size_t newSize)
{
assert(newSize <= mEnd - mStart);
mEnd = mStart + newSize;
}
/** Release memory and clear pointers. */
void clear() { resize(0); }
@@ -122,7 +100,7 @@ template <class T> class Vector {
void clone(const Vector<T>& other)
{
resize(other.size());
other.copyTo(*this);
memcpy(mData,other.mStart,other.bytes());
}
@@ -131,31 +109,29 @@ template <class T> class Vector {
//@{
/** Build an empty Vector of a given size. */
Vector(size_t wSize=0, vector_alloc_func wAllocFunc=NULL, vector_free_func wFreeFunc=NULL)
:mData(NULL), mAllocFunc(wAllocFunc), mFreeFunc(wFreeFunc)
{ resize(wSize); }
Vector(size_t wSize=0):mData(NULL) { resize(wSize); }
/** Build a Vector by moving another. */
Vector(Vector<T>&& other)
:mData(other.mData),mStart(other.mStart),mEnd(other.mEnd), mAllocFunc(other.mAllocFunc), mFreeFunc(other.mFreeFunc)
/** Build a Vector by shifting the data block. */
Vector(Vector<T>& other)
:mData(other.mData),mStart(other.mStart),mEnd(other.mEnd)
{ other.mData=NULL; }
/** Build a Vector by copying another. */
Vector(const Vector<T>& other):mData(NULL), mAllocFunc(other.mAllocFunc), mFreeFunc(other.mFreeFunc) { clone(other); }
Vector(const Vector<T>& other):mData(NULL) { clone(other); }
/** Build a Vector with explicit values. */
Vector(T* wData, T* wStart, T* wEnd, vector_alloc_func wAllocFunc=NULL, vector_free_func wFreeFunc=NULL)
:mData(wData),mStart(wStart),mEnd(wEnd), mAllocFunc(wAllocFunc), mFreeFunc(wFreeFunc)
Vector(T* wData, T* wStart, T* wEnd)
:mData(wData),mStart(wStart),mEnd(wEnd)
{ }
/** Build a vector from an existing block, NOT to be deleted upon destruction. */
Vector(T* wStart, size_t span, vector_alloc_func wAllocFunc=NULL, vector_free_func wFreeFunc=NULL)
:mData(NULL),mStart(wStart),mEnd(wStart+span),mAllocFunc(wAllocFunc), mFreeFunc(wFreeFunc)
Vector(T* wStart, size_t span)
:mData(NULL),mStart(wStart),mEnd(wStart+span)
{ }
/** Build a Vector by concatenation. */
Vector(const Vector<T>& other1, const Vector<T>& other2, vector_alloc_func wAllocFunc=NULL, vector_free_func wFreeFunc=NULL)
:mData(NULL), mAllocFunc(wAllocFunc), mFreeFunc(wFreeFunc)
Vector(const Vector<T>& other1, const Vector<T>& other2)
:mData(NULL)
{
resize(other1.size()+other2.size());
memcpy(mStart, other1.mStart, other1.bytes());
@@ -179,8 +155,6 @@ template <class T> class Vector {
mData=other.mData;
mStart=other.mStart;
mEnd=other.mEnd;
mAllocFunc=other.mAllocFunc;
mFreeFunc=other.mFreeFunc;
other.mData=NULL;
}
@@ -223,15 +197,10 @@ template <class T> class Vector {
*/
void copyToSegment(Vector<T>& other, size_t start, size_t span) const
{
unsigned int i;
T* dst = other.mStart + start;
T* src = mStart;
assert(dst+span<=other.mEnd);
T* base = other.mStart + start;
assert(base+span<=other.mEnd);
assert(mStart+span<=mEnd);
for (i = 0; i < span; i++, src++, dst++)
*dst = *src;
/*TODO if not non-trivially copyable type class, optimize:
memcpy(dst,mStart,span*sizeof(T)); */
memcpy(base,mStart,span*sizeof(T));
}
/** Copy all of this Vector to a segment of another Vector. */
@@ -253,21 +222,6 @@ template <class T> class Vector {
memcpy(other.mStart,base,span*sizeof(T));
}
/**
Move (copy) a segment of this vector into a different position in the vector
@param from Start point from which to copy.
@param to Start point to which to copy.
@param span The number of elements to copy.
*/
void segmentMove(size_t from, size_t to, size_t span)
{
const T* baseFrom = mStart + from;
T* baseTo = mStart + to;
assert(baseFrom+span<=mEnd);
assert(baseTo+span<=mEnd);
memmove(baseTo,baseFrom,span*sizeof(T));
}
void fill(const T& val)
{
T* dp=mStart;

4
tests/CommonLibs/VectorTest.cpp → CommonLibs/VectorTest.cpp
View File

@@ -28,6 +28,10 @@
#include "Vector.h"
#include <iostream>
// We must have a gConfig now to include Vector.
#include "Configuration.h"
ConfigurationTable gConfig;
using namespace std;
typedef Vector<int> TestVector;

20
CommonLibs/config_defs.h
View File

@@ -1,20 +0,0 @@
#pragma once
/*
* This file contains structures used by both VTY (C, dir CommonLibs) and
* osmo-trx (CXX, dir Transceiver52)
*/
enum FillerType {
FILLER_DUMMY,
FILLER_ZERO,
FILLER_NORM_RAND,
FILLER_EDGE_RAND,
FILLER_ACCESS_RAND,
};
enum ReferenceType {
REF_INTERNAL,
REF_EXTERNAL,
REF_GPS,
};

36
CommonLibs/debug.c
View File

@@ -1,36 +0,0 @@
#include <osmocom/core/logging.h>
#include <osmocom/core/utils.h>
#include "debug.h"
/* default categories */
static const struct log_info_cat default_categories[] = {
[DMAIN] = {
.name = "DMAIN",
.description = "Main generic category",
.color = NULL,
.enabled = 1, .loglevel = LOGL_NOTICE,
},
[DTRXCTRL] = {
.name = "DTRXCTRL",
.description = "TRX CTRL interface",
.color = "\033[1;33m",
.enabled = 1, .loglevel = LOGL_NOTICE,
},
[DDEV] = {
.name = "DDEV",
.description = "Device/Driver specific code",
.color = NULL,
.enabled = 1, .loglevel = LOGL_INFO,
},
[DLMS] = {
.name = "DLMS",
.description = "Logging from within LimeSuite itself",
.color = NULL,
.enabled = 1, .loglevel = LOGL_NOTICE,
},
};
const struct log_info log_info = {
.cat = default_categories,
.num_cat = ARRAY_SIZE(default_categories),
};

11
CommonLibs/debug.h
View File

@@ -1,11 +0,0 @@
#pragma once
extern const struct log_info log_info;
/* Debug Areas of the code */
enum {
DMAIN,
DTRXCTRL,
DDEV,
DLMS,
};

35
CommonLibs/osmo_signal.h
View File

@@ -1,35 +0,0 @@
/* Generic signalling/notification infrastructure */
/* (C) 2018 by sysmocom s.f.m.c. GmbH <info@sysmocom.de>
*
* Author: Pau Espin Pedrol <pespin@sysmocom.de>
*
* All Rights Reserved
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as published by
* the Free Software Foundation; either version 3 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 Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
#pragma once
#include <osmocom/core/signal.h>
/* Signalling subsystems */
enum signal_subsystems {
SS_TRANSC,
};
/* SS_TRANSC signals */
enum SS_TRANSC {
S_TRANSC_STOP_REQUIRED, /* Transceiver fatal error, it should be stopped */
};

154
CommonLibs/sqlite3util.cpp Normal file
View File

@@ -0,0 +1,154 @@
/*
* Copyright 2010 Kestrel Signal Processing, Inc.
* All rights reserved.
*/
#include "sqlite3.h"
#include "sqlite3util.h"
#include <string.h>
#include <unistd.h>
#include <stdio.h>
// Wrappers to sqlite operations.
// These will eventually get moved to commonlibs.
int sqlite3_prepare_statement(sqlite3* DB, sqlite3_stmt **stmt, const char* query)
{
int src = SQLITE_BUSY;
while (src==SQLITE_BUSY) {
src = sqlite3_prepare_v2(DB,query,strlen(query),stmt,NULL);
if (src==SQLITE_BUSY) {
usleep(100000);
}
}
if (src) {
fprintf(stderr,"sqlite3_prepare_v2 failed for \"%s\": %s\n",query,sqlite3_errmsg(DB));
sqlite3_finalize(*stmt);
}
return src;
}
int sqlite3_run_query(sqlite3* DB, sqlite3_stmt *stmt)
{
int src = SQLITE_BUSY;
while (src==SQLITE_BUSY) {
src = sqlite3_step(stmt);
if (src==SQLITE_BUSY) {
usleep(100000);
}
}
if ((src!=SQLITE_DONE) && (src!=SQLITE_ROW)) {
fprintf(stderr,"sqlite3_run_query failed: %s: %s\n", sqlite3_sql(stmt), sqlite3_errmsg(DB));
}
return src;
}
bool sqlite3_exists(sqlite3* DB, const char *tableName,
const char* keyName, const char* keyData)
{
size_t stringSize = 100 + strlen(tableName) + strlen(keyName) + strlen(keyData);
char query[stringSize];
sprintf(query,"SELECT * FROM %s WHERE %s == \"%s\"",tableName,keyName,keyData);
// Prepare the statement.
sqlite3_stmt *stmt;
if (sqlite3_prepare_statement(DB,&stmt,query)) return false;
// Read the result.
int src = sqlite3_run_query(DB,stmt);
sqlite3_finalize(stmt);
// Anything there?
return (src == SQLITE_ROW);
}
bool sqlite3_single_lookup(sqlite3* DB, const char *tableName,
const char* keyName, const char* keyData,
const char* valueName, unsigned &valueData)
{
size_t stringSize = 100 + strlen(valueName) + strlen(tableName) + strlen(keyName) + strlen(keyData);
char query[stringSize];
sprintf(query,"SELECT %s FROM %s WHERE %s == \"%s\"",valueName,tableName,keyName,keyData);
// Prepare the statement.
sqlite3_stmt *stmt;
if (sqlite3_prepare_statement(DB,&stmt,query)) return false;
// Read the result.
int src = sqlite3_run_query(DB,stmt);
bool retVal = false;
if (src == SQLITE_ROW) {
valueData = (unsigned)sqlite3_column_int64(stmt,0);
retVal = true;
}
sqlite3_finalize(stmt);
return retVal;
}
// This function returns an allocated string that must be free'd by the caller.
bool sqlite3_single_lookup(sqlite3* DB, const char* tableName,
const char* keyName, const char* keyData,
const char* valueName, char* &valueData)
{
valueData=NULL;
size_t stringSize = 100 + strlen(valueName) + strlen(tableName) + strlen(keyName) + strlen(keyData);
char query[stringSize];
sprintf(query,"SELECT %s FROM %s WHERE %s == \"%s\"",valueName,tableName,keyName,keyData);
// Prepare the statement.
sqlite3_stmt *stmt;
if (sqlite3_prepare_statement(DB,&stmt,query)) return false;
// Read the result.
int src = sqlite3_run_query(DB,stmt);
bool retVal = false;
if (src == SQLITE_ROW) {
const char* ptr = (const char*)sqlite3_column_text(stmt,0);
if (ptr) valueData = strdup(ptr);
retVal = true;
}
sqlite3_finalize(stmt);
return retVal;
}
// This function returns an allocated string that must be free'd by tha caller.
bool sqlite3_single_lookup(sqlite3* DB, const char* tableName,
const char* keyName, unsigned keyData,
const char* valueName, char* &valueData)
{
valueData=NULL;
size_t stringSize = 100 + strlen(valueName) + strlen(tableName) + strlen(keyName) + 20;
char query[stringSize];
sprintf(query,"SELECT %s FROM %s WHERE %s == %u",valueName,tableName,keyName,keyData);
// Prepare the statement.
sqlite3_stmt *stmt;
if (sqlite3_prepare_statement(DB,&stmt,query)) return false;
// Read the result.
int src = sqlite3_run_query(DB,stmt);
bool retVal = false;
if (src == SQLITE_ROW) {
const char* ptr = (const char*)sqlite3_column_text(stmt,0);
if (ptr) valueData = strdup(ptr);
retVal = true;
}
sqlite3_finalize(stmt);
return retVal;
}
bool sqlite3_command(sqlite3* DB, const char* query)
{
// Prepare the statement.
sqlite3_stmt *stmt;
if (sqlite3_prepare_statement(DB,&stmt,query)) return false;
// Run the query.
int src = sqlite3_run_query(DB,stmt);
sqlite3_finalize(stmt);
return src==SQLITE_DONE;
}

29
CommonLibs/sqlite3util.h Normal file
View File

@@ -0,0 +1,29 @@
#ifndef SQLITE3UTIL_H
#define SQLITE3UTIL_H
#include <sqlite3.h>
int sqlite3_prepare_statement(sqlite3* DB, sqlite3_stmt **stmt, const char* query);
int sqlite3_run_query(sqlite3* DB, sqlite3_stmt *stmt);
bool sqlite3_single_lookup(sqlite3* DB, const char *tableName,
const char* keyName, const char* keyData,
const char* valueName, unsigned &valueData);
bool sqlite3_single_lookup(sqlite3* DB, const char* tableName,
const char* keyName, const char* keyData,
const char* valueName, char* &valueData);
// This function returns an allocated string that must be free'd by the caller.
bool sqlite3_single_lookup(sqlite3* DB, const char* tableName,
const char* keyName, unsigned keyData,
const char* valueName, char* &valueData);
bool sqlite3_exists(sqlite3* DB, const char* tableName,
const char* keyName, const char* keyData);
/** Run a query, ignoring the result; return true on success. */
bool sqlite3_command(sqlite3* DB, const char* query);
#endif

603
CommonLibs/trx_vty.c
View File

@@ -1,603 +0,0 @@
/*
* Copyright (C) 2012-2017 sysmocom - s.f.m.c. GmbH
* All Rights Reserved
*
* 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, see <http://www.gnu.org/licenses/>.
*
*/
#include <string.h>
#include <stdint.h>
#include <inttypes.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <osmocom/core/talloc.h>
#include <osmocom/core/utils.h>
#include <osmocom/core/rate_ctr.h>
#include <osmocom/vty/command.h>
#include <osmocom/vty/vty.h>
#include <osmocom/vty/misc.h>
#include "trx_vty.h"
#include "../config.h"
static struct trx_ctx* g_trx_ctx;
static const struct value_string clock_ref_names[] = {
{ REF_INTERNAL, "internal" },
{ REF_EXTERNAL, "external" },
{ REF_GPS, "gpsdo" },
{ 0, NULL }
};
static const struct value_string filler_names[] = {
{ FILLER_DUMMY, "Dummy bursts" },
{ FILLER_ZERO, "Disabled" },
{ FILLER_NORM_RAND, "Normal bursts with random payload" },
{ FILLER_EDGE_RAND, "EDGE bursts with random payload" },
{ FILLER_ACCESS_RAND, "Access bursts with random payload" },
{ 0, NULL }
};
struct trx_ctx *trx_from_vty(struct vty *v)
{
/* It can't hurt to force callers to continue to pass the vty instance
* to this function, in case we'd like to retrieve the global
* trx instance from the vty at some point in the future. But
* until then, just return the global pointer, which should have been
* initialized by trx_vty_init().
*/
OSMO_ASSERT(g_trx_ctx);
return g_trx_ctx;
}
enum trx_vty_node {
TRX_NODE = _LAST_OSMOVTY_NODE + 1,
CHAN_NODE,
};
static struct cmd_node trx_node = {
TRX_NODE,
"%s(config-trx)# ",
1,
};
static struct cmd_node chan_node = {
CHAN_NODE,
"%s(config-trx-chan)# ",
1,
};
DEFUN(cfg_trx, cfg_trx_cmd,
"trx",
"Configure the TRX\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
if (!trx)
return CMD_WARNING;
vty->node = TRX_NODE;
return CMD_SUCCESS;
}
DEFUN(cfg_bind_ip, cfg_bind_ip_cmd,
"bind-ip A.B.C.D",
"Set the IP address for the local bind\n"
"IPv4 Address\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
osmo_talloc_replace_string(trx, &trx->cfg.bind_addr, argv[0]);
return CMD_SUCCESS;
}
DEFUN(cfg_remote_ip, cfg_remote_ip_cmd,
"remote-ip A.B.C.D",
"Set the IP address for the remote BTS\n"
"IPv4 Address\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
osmo_talloc_replace_string(trx, &trx->cfg.remote_addr, argv[0]);
return CMD_SUCCESS;
}
DEFUN(cfg_base_port, cfg_base_port_cmd,
"base-port <1-65535>",
"Set the TRX Base Port\n"
"TRX Base Port\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
trx->cfg.base_port = atoi(argv[0]);
return CMD_SUCCESS;
}
DEFUN(cfg_dev_args, cfg_dev_args_cmd,
"dev-args DESC",
"Set the device-specific arguments to pass to the device\n"
"Device-specific arguments\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
osmo_talloc_replace_string(trx, &trx->cfg.dev_args, argv[0]);
return CMD_SUCCESS;
}
DEFUN(cfg_tx_sps, cfg_tx_sps_cmd,
"tx-sps (1|4)",
"Set the Tx Samples-per-Symbol\n"
"Tx Samples-per-Symbol\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
trx->cfg.tx_sps = atoi(argv[0]);
return CMD_SUCCESS;
}
DEFUN(cfg_rx_sps, cfg_rx_sps_cmd,
"rx-sps (1|4)",
"Set the Rx Samples-per-Symbol\n"
"Rx Samples-per-Symbol\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
trx->cfg.rx_sps = atoi(argv[0]);
return CMD_SUCCESS;
}
DEFUN(cfg_test_rtsc, cfg_test_rtsc_cmd,
"test rtsc <0-7>",
"Set the Random Normal Burst test mode with TSC\n"
"TSC\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
if (trx->cfg.rach_delay_set) {
vty_out(vty, "rach-delay and rtsc options are mutual-exclusive%s",
VTY_NEWLINE);
return CMD_WARNING;
}
trx->cfg.rtsc_set = true;
trx->cfg.rtsc = atoi(argv[0]);
if (!trx->cfg.egprs) /* Don't override egprs which sets different filler */
trx->cfg.filler = FILLER_NORM_RAND;
return CMD_SUCCESS;
}
DEFUN(cfg_test_rach_delay, cfg_test_rach_delay_cmd,
"test rach-delay <0-68>",
"Set the Random Access Burst test mode with delay\n"
"RACH delay\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
if (trx->cfg.rtsc_set) {
vty_out(vty, "rach-delay and rtsc options are mutual-exclusive%s",
VTY_NEWLINE);
return CMD_WARNING;
}
if (trx->cfg.egprs) {
vty_out(vty, "rach-delay and egprs options are mutual-exclusive%s",
VTY_NEWLINE);
return CMD_WARNING;
}
trx->cfg.rach_delay_set = true;
trx->cfg.rach_delay = atoi(argv[0]);
trx->cfg.filler = FILLER_ACCESS_RAND;
return CMD_SUCCESS;
}
DEFUN(cfg_clock_ref, cfg_clock_ref_cmd,
"clock-ref (internal|external|gpsdo)",
"Set the Reference Clock\n"
"Enable internal referece (default)\n"
"Enable external 10 MHz reference\n"
"Enable GPSDO reference\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
trx->cfg.clock_ref = get_string_value(clock_ref_names, argv[0]);
return CMD_SUCCESS;
}
DEFUN(cfg_multi_arfcn, cfg_multi_arfcn_cmd,
"multi-arfcn (disable|enable)",
"Enable multi-ARFCN transceiver (default=disable)\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
if (strcmp("disable", argv[0]) == 0) {
trx->cfg.multi_arfcn = false;
return CMD_SUCCESS;
}
if (trx->cfg.num_chans > TRX_MCHAN_MAX) {
vty_out(vty, "Up to %i channels are supported for multi-TRX mode%s",
TRX_MCHAN_MAX, VTY_NEWLINE);
return CMD_WARNING;
}
trx->cfg.multi_arfcn = true;
return CMD_SUCCESS;
}
DEFUN(cfg_offset, cfg_offset_cmd,
"offset FLOAT",
"Set the baseband frequency offset (default=0, auto)\n"
"Baseband Frequency Offset\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
trx->cfg.offset = atof(argv[0]);
return CMD_SUCCESS;
}
DEFUN(cfg_rssi_offset, cfg_rssi_offset_cmd,
"rssi-offset FLOAT",
"Set the RSSI to dBm offset in dB (default=0)\n"
"RSSI to dBm offset in dB\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
trx->cfg.rssi_offset = atof(argv[0]);
return CMD_SUCCESS;
}
DEFUN(cfg_swap_channels, cfg_swap_channels_cmd,
"swap-channels (disable|enable)",
"Swap channels (default=disable)\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
if (strcmp("disable", argv[0]) == 0) {
trx->cfg.swap_channels = false;
} else if (strcmp("enable", argv[0]) == 0) {
trx->cfg.swap_channels = true;
} else {
return CMD_WARNING;
}
return CMD_SUCCESS;
}
DEFUN(cfg_egprs, cfg_egprs_cmd,
"egprs (disable|enable)",
"Enable EDGE receiver (default=disable)\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
if (strcmp("disable", argv[0]) == 0) {
trx->cfg.egprs = false;
} else if (strcmp("enable", argv[0]) == 0) {
trx->cfg.egprs = true;
trx->cfg.filler = FILLER_EDGE_RAND;
} else {
return CMD_WARNING;
}
return CMD_SUCCESS;
}
DEFUN(cfg_ext_rach, cfg_ext_rach_cmd,
"ext-rach (disable|enable)",
"Enable extended (11-bit) RACH (default=disable)\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
if (strcmp("disable", argv[0]) == 0)
trx->cfg.ext_rach = false;
if (strcmp("enable", argv[0]) == 0)
trx->cfg.ext_rach = true;
return CMD_SUCCESS;
}
DEFUN(cfg_rt_prio, cfg_rt_prio_cmd,
"rt-prio <1-32>",
"Set the SCHED_RR real-time priority\n"
"Real time priority\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
trx->cfg.sched_rr = atoi(argv[0]);
return CMD_SUCCESS;
}
DEFUN(cfg_filler, cfg_filler_cmd,
"filler dummy",
"Enable C0 filler table\n"
"Dummy method\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
trx->cfg.filler = FILLER_DUMMY;
return CMD_SUCCESS;
}
DEFUN(cfg_chan, cfg_chan_cmd,
"chan <0-100>",
"Select a channel to configure\n"
"Channel index\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
int idx = atoi(argv[0]);
if (idx >= TRX_CHAN_MAX) {
vty_out(vty, "Chan list full.%s", VTY_NEWLINE);
return CMD_WARNING;
} else if (trx->cfg.multi_arfcn && trx->cfg.num_chans >= TRX_MCHAN_MAX) {
vty_out(vty, "Up to %i channels are supported for multi-TRX mode%s",
TRX_MCHAN_MAX, VTY_NEWLINE);
return CMD_WARNING;
}
if (trx->cfg.num_chans < idx) { /* Unexisting or creating non-consecutive */
vty_out(vty, "Non-existent or non-consecutive chan %d.%s",
idx, VTY_NEWLINE);
return CMD_WARNING;
} else if (trx->cfg.num_chans == idx) { /* creating it */
trx->cfg.num_chans++;
trx->cfg.chans[idx].trx = trx;
trx->cfg.chans[idx].idx = idx;
}
vty->node = CHAN_NODE;
vty->index = &trx->cfg.chans[idx];
return CMD_SUCCESS;
}
DEFUN(cfg_chan_rx_path, cfg_chan_rx_path_cmd,
"rx-path NAME",
"Set the Rx Path\n"
"Rx Path name\n")
{
struct trx_chan *chan = vty->index;
osmo_talloc_replace_string(chan->trx, &chan->rx_path, argv[0]);
return CMD_SUCCESS;
}
DEFUN(cfg_chan_tx_path, cfg_chan_tx_path_cmd,
"tx-path NAME",
"Set the Tx Path\n"
"Tx Path name\n")
{
struct trx_chan *chan = vty->index;
osmo_talloc_replace_string(chan->trx, &chan->tx_path, argv[0]);
return CMD_SUCCESS;
}
static int dummy_config_write(struct vty *v)
{
return CMD_SUCCESS;
}
static int config_write_trx(struct vty *vty)
{
struct trx_chan *chan;
int i;
struct trx_ctx *trx = trx_from_vty(vty);
vty_out(vty, "trx%s", VTY_NEWLINE);
if (trx->cfg.bind_addr)
vty_out(vty, " bind-ip %s%s", trx->cfg.bind_addr, VTY_NEWLINE);
if (trx->cfg.remote_addr)
vty_out(vty, " remote-ip %s%s", trx->cfg.remote_addr, VTY_NEWLINE);
if (trx->cfg.base_port != DEFAULT_TRX_PORT)
vty_out(vty, " base-port %u%s", trx->cfg.base_port, VTY_NEWLINE);
if (trx->cfg.dev_args)
vty_out(vty, " dev-args %s%s", trx->cfg.dev_args, VTY_NEWLINE);
if (trx->cfg.tx_sps != DEFAULT_TX_SPS)
vty_out(vty, " tx-sps %u%s", trx->cfg.tx_sps, VTY_NEWLINE);
if (trx->cfg.rx_sps != DEFAULT_RX_SPS)
vty_out(vty, " rx-sps %u%s", trx->cfg.rx_sps, VTY_NEWLINE);
if (trx->cfg.rtsc_set)
vty_out(vty, " test rtsc %u%s", trx->cfg.rtsc, VTY_NEWLINE);
if (trx->cfg.rach_delay_set)
vty_out(vty, " test rach-delay %u%s", trx->cfg.rach_delay, VTY_NEWLINE);
if (trx->cfg.clock_ref != REF_INTERNAL)
vty_out(vty, " clock-ref %s%s", get_value_string(clock_ref_names, trx->cfg.clock_ref), VTY_NEWLINE);
vty_out(vty, " multi-arfcn %s%s", trx->cfg.multi_arfcn ? "enable" : "disable", VTY_NEWLINE);
if (trx->cfg.offset != 0)
vty_out(vty, " offset %f%s", trx->cfg.offset, VTY_NEWLINE);
if (trx->cfg.rssi_offset != 0)
vty_out(vty, " rssi-offset %f%s", trx->cfg.rssi_offset, VTY_NEWLINE);
vty_out(vty, " swap-channels %s%s", trx->cfg.swap_channels ? "enable" : "disable", VTY_NEWLINE);
vty_out(vty, " egprs %s%s", trx->cfg.egprs ? "enable" : "disable", VTY_NEWLINE);
vty_out(vty, " ext-rach %s%s", trx->cfg.ext_rach ? "enable" : "disable", VTY_NEWLINE);
if (trx->cfg.sched_rr != 0)
vty_out(vty, " rt-prio %u%s", trx->cfg.sched_rr, VTY_NEWLINE);
for (i = 0; i < trx->cfg.num_chans; i++) {
chan = &trx->cfg.chans[i];
vty_out(vty, " chan %u%s", chan->idx, VTY_NEWLINE);
if (chan->rx_path)
vty_out(vty, " rx-path %s%s", chan->rx_path, VTY_NEWLINE);
if (chan->tx_path)
vty_out(vty, " tx-path %s%s", chan->tx_path, VTY_NEWLINE);
}
return CMD_SUCCESS;
}
static void trx_dump_vty(struct vty *vty, struct trx_ctx *trx)
{
struct trx_chan *chan;
int i;
vty_out(vty, "TRX Config:%s", VTY_NEWLINE);
vty_out(vty, " Local IP: %s%s", trx->cfg.bind_addr, VTY_NEWLINE);
vty_out(vty, " Remote IP: %s%s", trx->cfg.remote_addr, VTY_NEWLINE);
vty_out(vty, " TRX Base Port: %u%s", trx->cfg.base_port, VTY_NEWLINE);
vty_out(vty, " Device args: %s%s", trx->cfg.dev_args, VTY_NEWLINE);
vty_out(vty, " Tx Samples-per-Symbol: %u%s", trx->cfg.tx_sps, VTY_NEWLINE);
vty_out(vty, " Rx Samples-per-Symbol: %u%s", trx->cfg.rx_sps, VTY_NEWLINE);
vty_out(vty, " Test Mode: TSC: %u (%s)%s", trx->cfg.rtsc,
trx->cfg.rtsc_set ? "Enabled" : "Disabled", VTY_NEWLINE);
vty_out(vty, " Test Mode: RACH Delay: %u (%s)%s", trx->cfg.rach_delay,
trx->cfg.rach_delay_set ? "Enabled" : "Disabled", VTY_NEWLINE);
vty_out(vty, " C0 Filler Table: %s%s", get_value_string(filler_names, trx->cfg.filler), VTY_NEWLINE);
vty_out(vty, " Clock Reference: %s%s", get_value_string(clock_ref_names, trx->cfg.clock_ref), VTY_NEWLINE);
vty_out(vty, " Multi-Carrier: %s%s", trx->cfg.multi_arfcn ? "Enabled" : "Disabled", VTY_NEWLINE);
vty_out(vty, " Tuning offset: %f%s", trx->cfg.offset, VTY_NEWLINE);
vty_out(vty, " RSSI to dBm offset: %f%s", trx->cfg.rssi_offset, VTY_NEWLINE);
vty_out(vty, " Swap channels: %s%s", trx->cfg.swap_channels ? "Enabled" : "Disabled", VTY_NEWLINE);
vty_out(vty, " EDGE support: %s%s", trx->cfg.egprs ? "Enabled" : "Disabled", VTY_NEWLINE);
vty_out(vty, " Extended RACH support: %s%s", trx->cfg.ext_rach ? "Enabled" : "Disabled", VTY_NEWLINE);
vty_out(vty, " Real Time Priority: %u (%s)%s", trx->cfg.sched_rr,
trx->cfg.sched_rr ? "Enabled" : "Disabled", VTY_NEWLINE);
vty_out(vty, " Channels: %u%s", trx->cfg.num_chans, VTY_NEWLINE);
for (i = 0; i < trx->cfg.num_chans; i++) {
chan = &trx->cfg.chans[i];
vty_out(vty, " Channel %u:%s", chan->idx, VTY_NEWLINE);
if (chan->rx_path)
vty_out(vty, " Rx Path: %s%s", chan->rx_path, VTY_NEWLINE);
if (chan->tx_path)
vty_out(vty, " Tx Path: %s%s", chan->tx_path, VTY_NEWLINE);
}
}
DEFUN(show_trx, show_trx_cmd,
"show trx",
SHOW_STR "Display information on the TRX\n")
{
struct trx_ctx *trx = trx_from_vty(vty);
trx_dump_vty(vty, trx);
return CMD_SUCCESS;
}
static int trx_vty_is_config_node(struct vty *vty, int node)
{
switch (node) {
case TRX_NODE:
case CHAN_NODE:
return 1;
default:
return 0;
}
}
static int trx_vty_go_parent(struct vty *vty)
{
switch (vty->node) {
case TRX_NODE:
vty->node = CONFIG_NODE;
vty->index = NULL;
vty->index_sub = NULL;
break;
case CHAN_NODE:
vty->node = TRX_NODE;
vty->index = NULL;
vty->index_sub = NULL;
break;
default:
vty->node = CONFIG_NODE;
vty->index = NULL;
vty->index_sub = NULL;
}
return vty->node;
}
static const char trx_copyright[] =
"Copyright (C) 2007-2014 Free Software Foundation, Inc.\r\n"
"Copyright (C) 2013 Thomas Tsou <tom@tsou.cc>\r\n"
"Copyright (C) 2015 Ettus Research LLC\r\n"
"Copyright (C) 2017-2018 by sysmocom s.f.m.c. GmbH <info@sysmocom.de>\r\n"
"License AGPLv3+: GNU AGPL version 3 or later <http://gnu.org/licenses/agpl-3.0.html>\r\n"
"This is free software: you are free to change and redistribute it.\r\n"
"There is NO WARRANTY, to the extent permitted by law.\r\n";
struct vty_app_info g_vty_info = {
.name = "OsmoTRX",
.version = PACKAGE_VERSION,
.copyright = trx_copyright,
.go_parent_cb = trx_vty_go_parent,
.is_config_node = trx_vty_is_config_node,
};
struct trx_ctx *vty_trx_ctx_alloc(void *talloc_ctx)
{
struct trx_ctx * trx = talloc_zero(talloc_ctx, struct trx_ctx);
trx->cfg.bind_addr = talloc_strdup(trx, DEFAULT_TRX_IP);
trx->cfg.remote_addr = talloc_strdup(trx, DEFAULT_TRX_IP);
trx->cfg.base_port = DEFAULT_TRX_PORT;
trx->cfg.tx_sps = DEFAULT_TX_SPS;
trx->cfg.rx_sps = DEFAULT_RX_SPS;
trx->cfg.filler = FILLER_ZERO;
return trx;
}
int trx_vty_init(struct trx_ctx* trx)
{
g_trx_ctx = trx;
install_element_ve(&show_trx_cmd);
install_element(CONFIG_NODE, &cfg_trx_cmd);
install_node(&trx_node, config_write_trx);
install_element(TRX_NODE, &cfg_bind_ip_cmd);
install_element(TRX_NODE, &cfg_remote_ip_cmd);
install_element(TRX_NODE, &cfg_base_port_cmd);
install_element(TRX_NODE, &cfg_dev_args_cmd);
install_element(TRX_NODE, &cfg_tx_sps_cmd);
install_element(TRX_NODE, &cfg_rx_sps_cmd);
install_element(TRX_NODE, &cfg_test_rtsc_cmd);
install_element(TRX_NODE, &cfg_test_rach_delay_cmd);
install_element(TRX_NODE, &cfg_clock_ref_cmd);
install_element(TRX_NODE, &cfg_multi_arfcn_cmd);
install_element(TRX_NODE, &cfg_offset_cmd);
install_element(TRX_NODE, &cfg_rssi_offset_cmd);
install_element(TRX_NODE, &cfg_swap_channels_cmd);
install_element(TRX_NODE, &cfg_egprs_cmd);
install_element(TRX_NODE, &cfg_ext_rach_cmd);
install_element(TRX_NODE, &cfg_rt_prio_cmd);
install_element(TRX_NODE, &cfg_filler_cmd);
install_element(TRX_NODE, &cfg_chan_cmd);
install_node(&chan_node, dummy_config_write);
install_element(CHAN_NODE, &cfg_chan_rx_path_cmd);
install_element(CHAN_NODE, &cfg_chan_tx_path_cmd);
return 0;
}

72
CommonLibs/trx_vty.h
View File

@@ -1,72 +0,0 @@
#pragma once
#include <osmocom/vty/command.h>
#include "config_defs.h"
extern struct vty_app_info g_vty_info;
/* Maximum number of physical RF channels */
#define TRX_CHAN_MAX 8
/* Maximum number of carriers in multi-ARFCN mode */
#define TRX_MCHAN_MAX 3
/* Samples-per-symbol for downlink path
* 4 - Uses precision modulator (more computation, less distortion)
* 1 - Uses minimized modulator (less computation, more distortion)
*
* Other values are invalid. Receive path (uplink) is always
* downsampled to 1 sps. Default to 4 sps for all cases.
*/
#define DEFAULT_TX_SPS 4
/*
* Samples-per-symbol for uplink (receiver) path
* Do not modify this value. EDGE configures 4 sps automatically on
* B200/B210 devices only. Use of 4 sps on the receive path for other
* configurations is not supported.
*/
#define DEFAULT_RX_SPS 1
/* Default configuration parameters */
#define DEFAULT_TRX_PORT 5700
#define DEFAULT_TRX_IP "127.0.0.1"
#define DEFAULT_CHANS 1
struct trx_ctx;
struct trx_chan {
struct trx_ctx *trx; /* backpointer */
unsigned int idx; /* channel index */
char *rx_path;
char *tx_path;
};
struct trx_ctx {
struct {
char *bind_addr;
char *remote_addr;
char *dev_args;
unsigned int base_port;
unsigned int tx_sps;
unsigned int rx_sps;
unsigned int rtsc;
bool rtsc_set;
unsigned int rach_delay;
bool rach_delay_set;
enum ReferenceType clock_ref;
enum FillerType filler;
bool multi_arfcn;
double offset;
double rssi_offset;
bool swap_channels;
bool ext_rach;
bool egprs;
unsigned int sched_rr;
unsigned int num_chans;
struct trx_chan chans[TRX_CHAN_MAX];
} cfg;
};
int trx_vty_init(struct trx_ctx* trx);
struct trx_ctx *vty_trx_ctx_alloc(void *talloc_ctx);

5
GSM/GSMCommon.cpp
View File

@@ -54,10 +54,7 @@ const BitVector GSM::gEdgeTrainingSequence[] = {
const BitVector GSM::gDummyBurst("0001111101101110110000010100100111000001001000100000001111100011100010111000101110001010111010010100011001100111001111010011111000100101111101010000");
/* 3GPP TS 05.02, section 5.2.7 "Access burst (AB)", synch. sequence bits */
const BitVector GSM::gRACHSynchSequenceTS0("01001011011111111001100110101010001111000"); /* GSM, GMSK (default) */
const BitVector GSM::gRACHSynchSequenceTS1("01010100111110001000011000101111001001101"); /* EGPRS, 8-PSK */
const BitVector GSM::gRACHSynchSequenceTS2("11101111001001110101011000001101101110111"); /* EGPRS, GMSK */
const BitVector GSM::gRACHSynchSequence("01001011011111111001100110101010001111000");
// |-head-||---------midamble----------------------||--------------data----------------||t|
const BitVector GSM::gRACHBurst("0011101001001011011111111001100110101010001111000110111101111110000111001001010110011000");

4
GSM/GSMCommon.h
View File

@@ -52,9 +52,7 @@ extern const BitVector gEdgeTrainingSequence[];
extern const BitVector gDummyBurst;
/** Random access burst synch. sequence */
extern const BitVector gRACHSynchSequenceTS0;
extern const BitVector gRACHSynchSequenceTS1;
extern const BitVector gRACHSynchSequenceTS2;
extern const BitVector gRACHSynchSequence;
/** Random access burst synch. sequence, GSM 05.02 5.2.7 */
extern const BitVector gRACHBurst;

0
tests/CommonLibs/LogTest.ok → INSTALL
View File

22
INSTALLATION
View File

@@ -2,18 +2,32 @@ Installation Requirements
osmo-trx compiles to a simple Unix binary and does not require special
OpenBTS compiles to a simple Unix binary and does not require special
installation.
One some systems (Ubuntu), you will need to define LIBS = -lpthread prior to
running configure.
To run osmo-trx, the following should be installed:
libuhd (https://gnuradio.org).
To run OpenBTS, the following should be installed:
Asterisk (http://www.asterisk.org), running SIP on port 5060.
libosip2 (http://www.gnu.org/software/osip/)
libortp (http://freshmeat.net/projects/ortp/)
libusrp (http://gnuradio.org).
This is part of the GNURadio installation.
It is the only part used by OpenBTS.
OpenBTS logs to syslogd as facility LOG_LOCAL7. Please set your /etc/syslog.conf
accordingly.
For information on specific executables, see tests/README.tests and
apps/README.apps.
See https://osmocom.org/projects/osmotrx/wiki/OsmoTRX for more
See http://gnuradio.org/redmine/wiki/gnuradio/OpenBTS/BuildingAndRunning for more
information.

20
LEGAL
View File

@@ -1,8 +1,5 @@
OpenBTS
The OsmoTRX project is direved from OpenBTS transceiver code. See http://openbts.org/ for details.
The related copyrights:
Most parts copyright 2008-2011 Free Software Foundation.
Some parts copyright 2010 Kestrel Signal Processing, Inc.
Some parts copyright 2011 Range Networks, Inc.
@@ -15,9 +12,17 @@ patented technologies. The user of this software is required to take whatever
actions are necessary to avoid patent infringement.
Trademark
"OpenBTS" is a registered trademark of Range Networks, Inc. (Range), a
California corporation. Range reserves the right to control the use of this
trademark. Do not use this trademark in commerce without permission and do not
rebrand OpenBTS under a different trademark.
Telecom and Radio Spectrum Laws
The primary function of OsmoTRX is the provision of telecommunications service
The primary function of OpenBTS is the provision of telecommunications service
over a radio link. This activity is heavily regulated nearly everywhere in
the world. Users of this software are expected to comply with local and national
regulations in the jurisdictions where this sortware is used with radio equipment.
@@ -34,7 +39,7 @@ The legal restrictions listed here are not necessarily exhaustive.
Note to US Government Users
The OsmoTRX software applications and associated documentation are "Commercial
The OpenBTS software applications and associated documentation are "Commercial
Item(s)," as that term is defined at 48 C.F.R. Section 2.101, consisting of
"Commercial Computer Software" and "Commercial Computer Software Documentation,"
as such terms are used in 48 C.F.R. 12.212 or 48 C.F.R. 227.7202, as
@@ -49,12 +54,13 @@ and AGPLv3.
Note to US Government Contractors
GPL is not compatible with "government purpose rights" (GPR). If you receive
OsmoTRX software under a GPL and deliver it under GPR, you will be in violation
OpenBTS software under a GPL and deliver it under GPR, you will be in violation
of GPL and possibly subject to enforcement actions by the original authors and
copyright holders, including the Free Software Foundation, Inc.
Software Licensing and Distribution
The OsmoTRX is distributed publicly under AGPLv3. See the COPYING file
A subset of OpenBTS is distributed publicly under AGPLv3. Range reserves the right to
distribute most of this source code other licenses as well. See the COPYING file
for more information on the license for this distribution.

18
Makefile.am
View File

@@ -22,18 +22,16 @@ include $(top_srcdir)/Makefile.common
ACLOCAL_AMFLAGS = -I config
AM_CPPFLAGS = $(STD_DEFINES_AND_INCLUDES) $(USB_INCLUDES) $(WITH_INCLUDES)
AM_CXXFLAGS = -Wall -pthread
#AM_CXXFLAGS = -Wall -O2 -NDEBUG -pthread
#AM_CFLAGS = -Wall -O2 -NDEBUG -pthread
AM_CXXFLAGS = -Wall -pthread -ldl
#AM_CXXFLAGS = -Wall -O2 -NDEBUG -pthread -ldl
#AM_CFLAGS = -Wall -O2 -NDEBUG -pthread -ldl
# Order must be preserved
SUBDIRS = \
doc \
sqlite3 \
CommonLibs \
GSM \
Transceiver52M \
contrib \
tests
Transceiver52M
EXTRA_DIST = \
autogen.sh \
@@ -42,12 +40,6 @@ EXTRA_DIST = \
COPYING \
README
AM_DISTCHECK_CONFIGURE_FLAGS = \
--with-systemdsystemunitdir=$$dc_install_base/$(systemdsystemunitdir)
.PHONY: release
@RELMAKE@
dox: FORCE
doxygen doxconfig

14
Makefile.common
View File

@@ -18,21 +18,21 @@
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
top_srcdir = $(abs_top_srcdir)
top_builddir = $(abs_top_builddir)
COMMON_INCLUDEDIR = $(top_srcdir)/CommonLibs
GSM_INCLUDEDIR = $(top_srcdir)/GSM
SQLITE_INCLUDEDIR = $(top_srcdir)/sqlite3
STD_DEFINES_AND_INCLUDES = \
$(SVNDEV) \
-I$(COMMON_INCLUDEDIR) \
-I$(GSM_INCLUDEDIR)
-I$(GSM_INCLUDEDIR) \
-I$(SQLITE_INCLUDEDIR)
COMMON_LA = $(top_builddir)/CommonLibs/libcommon.la
GSM_LA = $(top_builddir)/GSM/libGSM.la
if ARCH_ARM
ARCH_LA = $(top_builddir)/Transceiver52M/arch/arm/libarch.la
else
ARCH_LA = $(top_builddir)/Transceiver52M/arch/x86/libarch.la
endif
SQLITE_LA = $(top_builddir)/sqlite3/libsqlite.la -ldl
MOSTLYCLEANFILES = *~

107
Transceiver52M/Channelizer.cpp
View File

@@ -1,107 +0,0 @@
/*
* Polyphase channelizer
*
* Copyright (C) 2012-2014 Tom Tsou <tom@tsou.cc>
* Copyright (C) 2015 Ettus Research LLC
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as published by
* the Free Software Foundation, either version 3 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 Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
* See the COPYING file in the main directory for details.
*/
#include <stdlib.h>
#include <math.h>
#include <assert.h>
#include <string.h>
#include <cstdio>
#include "Channelizer.h"
extern "C" {
#include "fft.h"
#include "convolve.h"
}
static void deinterleave(const float *in, size_t ilen,
float **out, size_t olen, size_t m)
{
size_t i, n;
for (i = 0; i < olen; i++) {
for (n = 0; n < m; n++) {
out[m - 1 - n][2 * i + 0] = in[2 * (i * m + n) + 0];
out[m - 1 - n][2 * i + 1] = in[2 * (i * m + n) + 1];
}
}
}
size_t Channelizer::inputLen() const
{
return blockLen * m;
}
size_t Channelizer::outputLen() const
{
return blockLen;
}
float *Channelizer::outputBuffer(size_t chan) const
{
if (chan >= m)
return NULL;
return hInputs[chan];
}
/*
* Implementation based on material found in:
*
* "harris, fred, Multirate Signal Processing, Upper Saddle River, NJ,
* Prentice Hall, 2006."
*/
bool Channelizer::rotate(const float *in, size_t len)
{
size_t hSize = 2 * hLen * sizeof(float);
if (!checkLen(blockLen, len))
return false;
deinterleave(in, len, hInputs, blockLen, m);
/*
* Convolve through filterbank while applying and saving sample history
*/
for (size_t i = 0; i < m; i++) {
memcpy(&hInputs[i][2 * -hLen], hist[i], hSize);
memcpy(hist[i], &hInputs[i][2 * (blockLen - hLen)], hSize);
convolve_real(hInputs[i], blockLen,
subFilters[i], hLen,
hOutputs[i], blockLen,
0, blockLen);
}
cxvec_fft(fftHandle);
return true;
}
/* Setup channelizer paramaters */
Channelizer::Channelizer(size_t m, size_t blockLen, size_t hLen)
: ChannelizerBase(m, blockLen, hLen)
{
}
Channelizer::~Channelizer()
{
}

34
Transceiver52M/Channelizer.h
View File

@@ -1,34 +0,0 @@
#ifndef _CHANNELIZER_RX_H_
#define _CHANNELIZER_RX_H_
#include "ChannelizerBase.h"
class Channelizer : public ChannelizerBase {
public:
/** Constructor for channelizing filter bank
@param m number of physical channels
@param blockLen number of samples per output of each iteration
@param hLen number of taps in each constituent filter path
*/
Channelizer(size_t m, size_t blockLen, size_t hLen = 16);
~Channelizer();
/* Return required input and output buffer lengths */
size_t inputLen() const;
size_t outputLen() const;
/** Rotate "input commutator" and drive samples through filterbank
@param in complex input vector
@param iLen number of samples in buffer (must match block length)
@return false on error and true otherwise
*/
bool rotate(const float *in, size_t iLen);
/** Get buffer for an output path
@param chan channel number of filterbank
@return NULL on error and pointer to buffer otherwise
*/
float *outputBuffer(size_t chan) const;
};
#endif /* _CHANNELIZER_RX_H_ */

251
Transceiver52M/ChannelizerBase.cpp
View File

@@ -1,251 +0,0 @@
/*
* Polyphase channelizer
*
* Copyright (C) 2012-2014 Tom Tsou <tom@tsou.cc>
* Copyright (C) 2015 Ettus Research LLC
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as published by
* the Free Software Foundation, either version 3 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 Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
* See the COPYING file in the main directory for details.
*/
#include <malloc.h>
#include <math.h>
#include <assert.h>
#include <string.h>
#include <cstdio>
#include "Logger.h"
#include "ChannelizerBase.h"
extern "C" {
#include "fft.h"
}
static float sinc(float x)
{
if (x == 0.0f)
return 0.999999999999f;
return sin(M_PI * x) / (M_PI * x);
}
/*
* There are more efficient reversal algorithms, but we only reverse at
* initialization so we don't care.
*/
static void reverse(float *buf, size_t len)
{
float tmp[2 * len];
memcpy(tmp, buf, 2 * len * sizeof(float));
for (size_t i = 0; i < len; i++) {
buf[2 * i + 0] = tmp[2 * (len - 1 - i) + 0];
buf[2 * i + 1] = tmp[2 * (len - 1 - i) + 1];
}
}
/*
* Create polyphase filterbank
*
* Implementation based material found in,
*
* "harris, fred, Multirate Signal Processing, Upper Saddle River, NJ,
* Prentice Hall, 2006."
*/
bool ChannelizerBase::initFilters()
{
size_t protoLen = m * hLen;
float *proto;
float sum = 0.0f, scale = 0.0f;
float midpt = (float) (protoLen - 1.0) / 2.0;
/*
* Allocate 'M' partition filters and the temporary prototype
* filter. Coefficients are real only and must be 16-byte memory
* aligned for SSE usage.
*/
proto = new float[protoLen];
if (!proto)
return false;
subFilters = (float **) malloc(sizeof(float *) * m);
if (!subFilters) {
delete[] proto;
return false;
}
for (size_t i = 0; i < m; i++) {
subFilters[i] = (float *)
memalign(16, hLen * 2 * sizeof(float));
}
/*
* Generate the prototype filter with a Blackman-harris window.
* Scale coefficients with DC filter gain set to unity divided
* by the number of channels.
*/
float a0 = 0.35875;
float a1 = 0.48829;
float a2 = 0.14128;
float a3 = 0.01168;
for (size_t i = 0; i < protoLen; i++) {
proto[i] = sinc(((float) i - midpt) / (float) m);
proto[i] *= a0 -
a1 * cos(2 * M_PI * i / (protoLen - 1)) +
a2 * cos(4 * M_PI * i / (protoLen - 1)) -
a3 * cos(6 * M_PI * i / (protoLen - 1));
sum += proto[i];
}
scale = (float) m / sum;
/*
* Populate partition filters and reverse the coefficients per
* convolution requirements.
*/
for (size_t i = 0; i < hLen; i++) {
for (size_t n = 0; n < m; n++) {
subFilters[n][2 * i + 0] = proto[i * m + n] * scale;
subFilters[n][2 * i + 1] = 0.0f;
}
}
for (size_t i = 0; i < m; i++)
reverse(subFilters[i], hLen);
delete[] proto;
return true;
}
bool ChannelizerBase::initFFT()
{
size_t size;
if (fftInput || fftOutput || fftHandle)
return false;
size = blockLen * m * 2 * sizeof(float);
fftInput = (float *) fft_malloc(size);
memset(fftInput, 0, size);
size = (blockLen + hLen) * m * 2 * sizeof(float);
fftOutput = (float *) fft_malloc(size);
memset(fftOutput, 0, size);
if (!fftInput | !fftOutput) {
LOG(ALERT) << "Memory allocation error";
return false;
}
fftHandle = init_fft(0, m, blockLen, blockLen + hLen,
fftInput, fftOutput, hLen);
return true;
}
bool ChannelizerBase::mapBuffers()
{
if (!fftHandle) {
LOG(ALERT) << "FFT buffers not initialized";
return false;
}
hInputs = (float **) malloc(sizeof(float *) * m);
hOutputs = (float **) malloc(sizeof(float *) * m);
if (!hInputs | !hOutputs)
return false;
for (size_t i = 0; i < m; i++) {
hInputs[i] = &fftOutput[2 * (i * (blockLen + hLen) + hLen)];
hOutputs[i] = &fftInput[2 * (i * blockLen)];
}
return true;
}
/*
* Setup filterbank internals
*/
bool ChannelizerBase::init()
{
/*
* Filterbank coefficients, fft plan, history, and output sample
* rate conversion blocks
*/
if (!initFilters()) {
LOG(ALERT) << "Failed to initialize channelizing filter";
return false;
}
hist = (float **) malloc(sizeof(float *) * m);
for (size_t i = 0; i < m; i++) {
hist[i] = new float[2 * hLen];
memset(hist[i], 0, 2 * hLen * sizeof(float));
}
if (!initFFT()) {
LOG(ALERT) << "Failed to initialize FFT";
return false;
}
mapBuffers();
return true;
}
/* Check vector length validity */
bool ChannelizerBase::checkLen(size_t innerLen, size_t outerLen)
{
if (outerLen != innerLen * m) {
LOG(ALERT) << "Invalid outer length " << innerLen
<< " is not multiple of " << blockLen;
return false;
}
if (innerLen != blockLen) {
LOG(ALERT) << "Invalid inner length " << outerLen
<< " does not equal " << blockLen;
return false;
}
return true;
}
/*
* Setup channelizer paramaters
*/
ChannelizerBase::ChannelizerBase(size_t m, size_t blockLen, size_t hLen)
: fftInput(NULL), fftOutput(NULL), fftHandle(NULL)
{
this->m = m;
this->hLen = hLen;
this->blockLen = blockLen;
}
ChannelizerBase::~ChannelizerBase()
{
free_fft(fftHandle);
for (size_t i = 0; i < m; i++) {
free(subFilters[i]);
delete[] hist[i];
}
fft_free(fftInput);
fft_free(fftOutput);
free(hInputs);
free(hOutputs);
free(hist);
}

39
Transceiver52M/ChannelizerBase.h
View File

@@ -1,39 +0,0 @@
#ifndef _CHANNELIZER_BASE_H_
#define _CHANNELIZER_BASE_H_
class ChannelizerBase {
protected:
ChannelizerBase(size_t m, size_t blockLen, size_t hLen);
~ChannelizerBase();
/* Channelizer parameters */
size_t m;
size_t hLen;
size_t blockLen;
/* Channelizer filterbank sub-filters */
float **subFilters;
/* Input/Output buffers */
float **hInputs, **hOutputs, **hist;
float *fftInput, *fftOutput;
/* Pointer to opaque FFT instance */
struct fft_hdl *fftHandle;
/* Initializer internals */
bool initFilters();
bool initFFT();
void releaseFilters();
/* Map overlapped FFT and filter I/O buffers */
bool mapBuffers();
/* Buffer length validity checking */
bool checkLen(size_t innerLen, size_t outerLen);
public:
/* Initilize channelizer/synthesis filter internals */
bool init();
};
#endif /* _CHANNELIZER_BASE_H_ */

93
Transceiver52M/Makefile.am
View File

@@ -21,10 +21,22 @@
include $(top_srcdir)/Makefile.common
SUBDIRS = arch device
AM_CPPFLAGS = -Wall $(STD_DEFINES_AND_INCLUDES) -I./common
AM_CXXFLAGS = -ldl -lpthread
AM_CPPFLAGS = -Wall $(STD_DEFINES_AND_INCLUDES) -I${srcdir}/arch/common -I${srcdir}/device/common
AM_CXXFLAGS = -lpthread $(LIBOSMOCORE_CFLAGS) $(LIBOSMOCTRL_CFLAGS) $(LIBOSMOVTY_CFLAGS)
SUBDIRS = arm x86
if ARCH_ARM
ARCH_LA = arm/libarch.la
else
ARCH_LA = x86/libarch.la
endif
if USRP1
AM_CPPFLAGS += $(USRP_CFLAGS)
else
AM_CPPFLAGS += $(UHD_CFLAGS)
endif
rev2dir = $(datadir)/usrp/rev2
rev4dir = $(datadir)/usrp/rev4
@@ -32,80 +44,55 @@ rev4dir = $(datadir)/usrp/rev4
dist_rev2_DATA = std_inband.rbf
dist_rev4_DATA = std_inband.rbf
EXTRA_DIST = README
EXTRA_DIST = \
README \
README.Talgorithm
noinst_LTLIBRARIES = libtransceiver_common.la
noinst_LTLIBRARIES = libtransceiver.la
COMMON_SOURCES = \
radioInterface.cpp \
radioVector.cpp \
radioClock.cpp \
radioBuffer.cpp \
sigProcLib.cpp \
signalVector.cpp \
Transceiver.cpp \
ChannelizerBase.cpp \
Channelizer.cpp \
Synthesis.cpp
Transceiver.cpp
libtransceiver_common_la_SOURCES = \
libtransceiver_la_SOURCES = \
$(COMMON_SOURCES) \
Resampler.cpp \
radioInterfaceResamp.cpp \
radioInterfaceMulti.cpp
radioInterfaceDiversity.cpp
bin_PROGRAMS = osmo-trx
noinst_HEADERS = \
Complex.h \
radioInterface.h \
radioVector.h \
radioClock.h \
radioBuffer.h \
radioDevice.h \
sigProcLib.h \
signalVector.h \
Transceiver.h \
USRPDevice.h \
Resampler.h \
ChannelizerBase.h \
Channelizer.h \
Synthesis.h
common/convolve.h \
common/convert.h \
common/scale.h \
common/mult.h
COMMON_LDADD = \
libtransceiver_common.la \
osmo_trx_SOURCES = osmo-trx.cpp
osmo_trx_LDADD = \
libtransceiver.la \
$(ARCH_LA) \
$(GSM_LA) \
$(COMMON_LA) \
$(FFTWF_LIBS) \
$(LIBOSMOCORE_LIBS) \
$(LIBOSMOCTRL_LIBS) \
$(LIBOSMOVTY_LIBS)
$(COMMON_LA) $(SQLITE_LA)
bin_PROGRAMS =
if DEVICE_UHD
bin_PROGRAMS += osmo-trx-uhd
osmo_trx_uhd_SOURCES = osmo-trx.cpp
osmo_trx_uhd_LDADD = \
$(builddir)/device/uhd/libdevice.la \
$(COMMON_LDADD) \
$(UHD_LIBS)
osmo_trx_uhd_CPPFLAGS = $(AM_CPPFLAGS) $(UHD_CFLAGS)
endif
if DEVICE_USRP1
bin_PROGRAMS += osmo-trx-usrp1
osmo_trx_usrp1_SOURCES = osmo-trx.cpp
osmo_trx_usrp1_LDADD = \
$(builddir)/device/usrp1/libdevice.la \
$(COMMON_LDADD) \
$(USRP_LIBS)
osmo_trx_usrp1_CPPFLAGS = $(AM_CPPFLAGS) $(USRP_CFLAGS)
endif
if DEVICE_LMS
bin_PROGRAMS += osmo-trx-lms
osmo_trx_lms_SOURCES = osmo-trx.cpp
osmo_trx_lms_LDADD = \
$(builddir)/device/lms/libdevice.la \
$(COMMON_LDADD) \
$(LMS_LIBS)
osmo_trx_lms_CPPFLAGS = $(AM_CPPFLAGS) $(LMS_CFLAGS)
if USRP1
libtransceiver_la_SOURCES += USRPDevice.cpp
osmo_trx_LDADD += $(USRP_LIBS)
else
libtransceiver_la_SOURCES += UHDDevice.cpp
osmo_trx_LDADD += $(UHD_LIBS)
endif

131
Transceiver52M/Resampler.cpp
View File

@@ -22,7 +22,6 @@
#include <string.h>
#include <malloc.h>
#include <iostream>
#include <algorithm>
#include "Resampler.h"
@@ -36,8 +35,6 @@ extern "C" {
#define MAX_OUTPUT_LEN 4096
using namespace std;
static float sinc(float x)
{
if (x == 0.0)
@@ -46,19 +43,32 @@ static float sinc(float x)
return sin(M_PI * x) / (M_PI * x);
}
void Resampler::initFilters(float bw)
bool Resampler::initFilters(float bw)
{
float cutoff;
size_t proto_len = p * filt_len;
float *proto, val, cutoff;
float sum = 0.0f, scale = 0.0f;
float midpt = (float) (proto_len - 1.0) / 2.0;
/*
* Allocate partition filters and the temporary prototype filter
* according to numerator of the rational rate. Coefficients are
* real only and must be 16-byte memory aligned for SSE usage.
*/
auto proto = vector<float>(p * filt_len);
for (auto &part : partitions)
part = (complex<float> *) memalign(16, filt_len * sizeof(complex<float>));
proto = new float[proto_len];
if (!proto)
return false;
partitions = (float **) malloc(sizeof(float *) * p);
if (!partitions) {
free(proto);
return false;
}
for (size_t i = 0; i < p; i++) {
partitions[i] = (float *)
memalign(16, filt_len * 2 * sizeof(float));
}
/*
* Generate the prototype filter with a Blackman-harris window.
@@ -75,26 +85,47 @@ void Resampler::initFilters(float bw)
else
cutoff = (float) q;
float midpt = (proto.size() - 1) / 2.0;
for (size_t i = 0; i < proto.size(); i++) {
for (size_t i = 0; i < proto_len; i++) {
proto[i] = sinc(((float) i - midpt) / cutoff * bw);
proto[i] *= a0 -
a1 * cos(2 * M_PI * i / (proto.size() - 1)) +
a2 * cos(4 * M_PI * i / (proto.size() - 1)) -
a3 * cos(6 * M_PI * i / (proto.size() - 1));
a1 * cos(2 * M_PI * i / (proto_len - 1)) +
a2 * cos(4 * M_PI * i / (proto_len - 1)) -
a3 * cos(6 * M_PI * i / (proto_len - 1));
sum += proto[i];
}
scale = p / sum;
/* Populate filter partitions from the prototype filter */
for (size_t i = 0; i < filt_len; i++) {
for (size_t n = 0; n < p; n++)
partitions[n][i] = complex<float>(proto[i * p + n] * scale);
for (size_t n = 0; n < p; n++) {
partitions[n][2 * i + 0] = proto[i * p + n] * scale;
partitions[n][2 * i + 1] = 0.0f;
}
}
/* Store filter taps in reverse */
for (auto &part : partitions)
reverse(&part[0], &part[filt_len]);
/* For convolution, we store the filter taps in reverse */
for (size_t n = 0; n < p; n++) {
for (size_t i = 0; i < filt_len / 2; i++) {
val = partitions[n][2 * i];
partitions[n][2 * i] = partitions[n][2 * (filt_len - 1 - i)];
partitions[n][2 * (filt_len - 1 - i)] = val;
}
}
delete proto;
return true;
}
void Resampler::releaseFilters()
{
if (partitions) {
for (size_t i = 0; i < p; i++)
free(partitions[i]);
}
free(partitions);
partitions = NULL;
}
static bool check_vec_len(int in_len, int out_len, int p, int q)
@@ -128,22 +159,45 @@ static bool check_vec_len(int in_len, int out_len, int p, int q)
return true;
}
int Resampler::rotate(const float *in, size_t in_len, float *out, size_t out_len)
void Resampler::computePath()
{
for (int i = 0; i < MAX_OUTPUT_LEN; i++) {
in_index[i] = (q * i) / p;
out_path[i] = (q * i) % p;
}
}
int Resampler::rotate(float *in, size_t in_len, float *out, size_t out_len)
{
int n, path;
int hist_len = filt_len - 1;
if (!check_vec_len(in_len, out_len, p, q))
return -1;
if (history_on) {
memcpy(&in[-2 * hist_len],
history, hist_len * 2 * sizeof(float));
} else {
memset(&in[-2 * hist_len], 0,
hist_len * 2 * sizeof(float));
}
/* Generate output from precomputed input/output paths */
for (size_t i = 0; i < out_len; i++) {
n = in_index[i];
path = out_path[i];
convolve_real(in, in_len,
reinterpret_cast<float *>(partitions[path]),
filt_len, &out[2 * i], out_len - i,
n, 1);
partitions[path], filt_len,
&out[2 * i], out_len - i,
n, 1, 1, 0);
}
/* Save history */
if (history_on) {
memcpy(history, &in[2 * (in_len - hist_len)],
hist_len * 2 * sizeof(float));
}
return out_len;
@@ -151,18 +205,20 @@ int Resampler::rotate(const float *in, size_t in_len, float *out, size_t out_len
bool Resampler::init(float bw)
{
if (p == 0 || q == 0 || filt_len == 0) return false;
size_t hist_len = filt_len - 1;
/* Filterbank filter internals */
initFilters(bw);
if (initFilters(bw) < 0)
return false;
/* History buffer */
history = new float[2 * hist_len];
memset(history, 0, 2 * hist_len * sizeof(float));
/* Precompute filterbank paths */
int i = 0;
for (auto &index : in_index)
index = (q * i++) / p;
i = 0;
for (auto &path : out_path)
path = (q * i++) % p;
in_index = new size_t[MAX_OUTPUT_LEN];
out_path = new size_t[MAX_OUTPUT_LEN];
computePath();
return true;
}
@@ -172,8 +228,14 @@ size_t Resampler::len()
return filt_len;
}
void Resampler::enableHistory(bool on)
{
history_on = on;
}
Resampler::Resampler(size_t p, size_t q, size_t filt_len)
: in_index(MAX_OUTPUT_LEN), out_path(MAX_OUTPUT_LEN), partitions(p)
: in_index(NULL), out_path(NULL), partitions(NULL),
history(NULL), history_on(true)
{
this->p = p;
this->q = q;
@@ -182,6 +244,9 @@ Resampler::Resampler(size_t p, size_t q, size_t filt_len)
Resampler::~Resampler()
{
for (auto &part : partitions)
free(part);
releaseFilters();
delete history;
delete in_index;
delete out_path;
}

23
Transceiver52M/Resampler.h
View File

@@ -20,9 +20,6 @@
#ifndef _RESAMPLER_H_
#define _RESAMPLER_H_
#include <vector>
#include <complex>
class Resampler {
public:
/* Constructor for rational sample rate conversion
@@ -55,22 +52,32 @@ public:
* Input and output vector lengths must of be equal multiples of the
* rational conversion rate denominator and numerator respectively.
*/
int rotate(const float *in, size_t in_len, float *out, size_t out_len);
int rotate(float *in, size_t in_len, float *out, size_t out_len);
/* Get filter length
* @return number of taps in each filter partition
*/
size_t len();
/*
* Enable/disable history
*/
void enableHistory(bool on);
private:
size_t p;
size_t q;
size_t filt_len;
std::vector<size_t> in_index;
std::vector<size_t> out_path;
std::vector<std::complex<float> *> partitions;
size_t *in_index;
size_t *out_path;
void initFilters(float bw);
float **partitions;
float *history;
bool history_on;
bool initFilters(float bw);
void releaseFilters();
void computePath();
};
#endif /* _RESAMPLER_H_ */

121
Transceiver52M/Synthesis.cpp
View File

@@ -1,121 +0,0 @@
/*
* Polyphase synthesis filter
*
* Copyright (C) 2012-2014 Tom Tsou <tom@tsou.cc>
* Copyright (C) 2015 Ettus Research LLC
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as published by
* the Free Software Foundation, either version 3 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 Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
* See the COPYING file in the main directory for details.
*/
#include <stdlib.h>
#include <math.h>
#include <assert.h>
#include <string.h>
#include <cstdio>
#include <iostream>
#include "Synthesis.h"
extern "C" {
#include "fft.h"
#include "convolve.h"
}
static void interleave(float **in, size_t ilen,
float *out, size_t m)
{
size_t i, n;
for (i = 0; i < ilen; i++) {
for (n = 0; n < m; n++) {
out[2 * (i * m + n) + 0] = in[n][2 * i + 0];
out[2 * (i * m + n) + 1] = in[n][2 * i + 1];
}
}
}
size_t Synthesis::inputLen() const
{
return blockLen;
}
size_t Synthesis::outputLen() const
{
return blockLen * m;
}
float *Synthesis::inputBuffer(size_t chan) const
{
if (chan >= m)
return NULL;
return hOutputs[chan];
}
bool Synthesis::resetBuffer(size_t chan)
{
if (chan >= m)
return false;
memset(hOutputs[chan], 0, blockLen * 2 * sizeof(float));
return true;
}
/*
* Implementation based on material found in:
*
* "harris, fred, Multirate Signal Processing, Upper Saddle River, NJ,
* Prentice Hall, 2006."
*/
bool Synthesis::rotate(float *out, size_t len)
{
size_t hSize = 2 * hLen * sizeof(float);
if (!checkLen(blockLen, len)) {
std::cout << "Length fail" << std::endl;
exit(1);
return false;
}
cxvec_fft(fftHandle);
/*
* Convolve through filterbank while applying and saving sample history
*/
for (size_t i = 0; i < m; i++) {
memcpy(&hInputs[i][2 * -hLen], hist[i], hSize);
memcpy(hist[i], &hInputs[i][2 * (blockLen - hLen)], hSize);
convolve_real(hInputs[i], blockLen,
subFilters[i], hLen,
hOutputs[i], blockLen,
0, blockLen);
}
/* Interleave into output vector */
interleave(hOutputs, blockLen, out, m);
return true;
}
Synthesis::Synthesis(size_t m, size_t blockLen, size_t hLen)
: ChannelizerBase(m, blockLen, hLen)
{
}
Synthesis::~Synthesis()
{
}

35
Transceiver52M/Synthesis.h
View File

@@ -1,35 +0,0 @@
#ifndef _SYNTHESIS_H_
#define _SYNTHESIS_H_
#include "ChannelizerBase.h"
class Synthesis : public ChannelizerBase {
public:
/** Constructor for synthesis filterbank
@param m number of physical channels
@param blockLen number of samples per output of each iteration
@param hLen number of taps in each constituent filter path
*/
Synthesis(size_t m, size_t blockLen, size_t hLen = 16);
~Synthesis();
/* Return required input and output buffer lengths */
size_t inputLen() const;
size_t outputLen() const;
/** Rotate "output commutator" and drive samples through filterbank
@param out complex output vector
@param oLen number of samples in buffer (must match block length * m)
@return false on error and true otherwise
*/
bool rotate(float *out, size_t oLen);
/** Get buffer for an input path
@param chan channel number of filterbank
@return NULL on error and pointer to buffer otherwise
*/
float *inputBuffer(size_t chan) const;
bool resetBuffer(size_t chan);
};
#endif /* _SYNTHESIS_H_ */

392
Transceiver52M/Transceiver.cpp
View File

@@ -27,10 +27,6 @@
#include "Transceiver.h"
#include <Logger.h>
extern "C" {
#include "osmo_signal.h"
}
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
@@ -39,6 +35,12 @@ using namespace GSM;
#define USB_LATENCY_INTRVL 10,0
#if USE_UHD
# define USB_LATENCY_MIN 6,7
#else
# define USB_LATENCY_MIN 1,1
#endif
/* Number of running values use in noise average */
#define NOISE_CNT 20
@@ -69,7 +71,7 @@ TransceiverState::~TransceiverState()
}
}
bool TransceiverState::init(FillerType filler, size_t sps, float scale, size_t rtsc, unsigned rach_delay)
bool TransceiverState::init(int filler, size_t sps, float scale, size_t rtsc)
{
signalVector *burst;
@@ -79,19 +81,19 @@ bool TransceiverState::init(FillerType filler, size_t sps, float scale, size_t r
for (size_t n = 0; n < 8; n++) {
for (size_t i = 0; i < 102; i++) {
switch (filler) {
case FILLER_DUMMY:
case Transceiver::FILLER_DUMMY:
burst = generateDummyBurst(sps, n);
break;
case FILLER_NORM_RAND:
case Transceiver::FILLER_NORM_RAND:
burst = genRandNormalBurst(rtsc, sps, n);
break;
case FILLER_EDGE_RAND:
case Transceiver::FILLER_EDGE_RAND:
burst = generateEdgeBurst(rtsc);
break;
case FILLER_ACCESS_RAND:
burst = genRandAccessBurst(rach_delay, sps, n);
case Transceiver::FILLER_ACCESS_RAND:
burst = genRandAccessBurst(sps, n);
break;
case FILLER_ZERO:
case Transceiver::FILLER_ZERO:
default:
burst = generateEmptyBurst(sps, n);
}
@@ -100,9 +102,9 @@ bool TransceiverState::init(FillerType filler, size_t sps, float scale, size_t r
fillerTable[i][n] = burst;
}
if ((filler == FILLER_NORM_RAND) ||
(filler == FILLER_EDGE_RAND)) {
chanType[n] = TSC;
if ((filler == Transceiver::FILLER_NORM_RAND) ||
(filler == Transceiver::FILLER_EDGE_RAND)) {
chanType[n] = Transceiver::TSC;
}
}
@@ -110,17 +112,16 @@ bool TransceiverState::init(FillerType filler, size_t sps, float scale, size_t r
}
Transceiver::Transceiver(int wBasePort,
const char *TRXAddress,
const char *GSMcoreAddress,
const char *wTRXAddress,
size_t tx_sps, size_t rx_sps, size_t chans,
GSM::Time wTransmitLatency,
RadioInterface *wRadioInterface,
double wRssiOffset)
: mBasePort(wBasePort), mLocalAddr(TRXAddress), mRemoteAddr(GSMcoreAddress),
mClockSocket(TRXAddress, wBasePort, GSMcoreAddress, wBasePort + 100),
: mBasePort(wBasePort), mAddr(wTRXAddress),
mClockSocket(wBasePort, wTRXAddress, mBasePort + 100),
mTransmitLatency(wTransmitLatency), mRadioInterface(wRadioInterface),
rssiOffset(wRssiOffset), sig_cbfn(NULL),
mSPSTx(tx_sps), mSPSRx(rx_sps), mChans(chans), mEdge(false), mOn(false), mForceClockInterface(false),
rssiOffset(wRssiOffset),
mSPSTx(tx_sps), mSPSRx(rx_sps), mChans(chans), mOn(false),
mTxFreq(0.0), mRxFreq(0.0), mTSC(0), mMaxExpectedDelayAB(0), mMaxExpectedDelayNB(0),
mWriteBurstToDiskMask(0)
{
@@ -159,8 +160,7 @@ Transceiver::~Transceiver()
* are still expected to report clock indications through control channel
* activity.
*/
bool Transceiver::init(FillerType filler, size_t rtsc, unsigned rach_delay,
bool edge, bool ext_rach)
bool Transceiver::init(int filler, size_t rtsc)
{
int d_srcport, d_dstport, c_srcport, c_dstport;
@@ -174,9 +174,6 @@ bool Transceiver::init(FillerType filler, size_t rtsc, unsigned rach_delay,
return false;
}
mExtRACH = ext_rach;
mEdge = edge;
mDataSockets.resize(mChans);
mCtrlSockets.resize(mChans);
mControlServiceLoopThreads.resize(mChans);
@@ -198,8 +195,8 @@ bool Transceiver::init(FillerType filler, size_t rtsc, unsigned rach_delay,
d_srcport = mBasePort + 2 * i + 2;
d_dstport = mBasePort + 2 * i + 102;
mCtrlSockets[i] = new UDPSocket(mLocalAddr.c_str(), c_srcport, mRemoteAddr.c_str(), c_dstport);
mDataSockets[i] = new UDPSocket(mLocalAddr.c_str(), d_srcport, mRemoteAddr.c_str(), d_dstport);
mCtrlSockets[i] = new UDPSocket(c_srcport, mAddr.c_str(), c_dstport);
mDataSockets[i] = new UDPSocket(d_srcport, mAddr.c_str(), d_dstport);
}
/* Randomize the central clock */
@@ -219,23 +216,12 @@ bool Transceiver::init(FillerType filler, size_t rtsc, unsigned rach_delay,
if (i && filler == FILLER_DUMMY)
filler = FILLER_ZERO;
mStates[i].init(filler, mSPSTx, txFullScale, rtsc, rach_delay);
mStates[i].init(filler, mSPSTx, txFullScale, rtsc);
}
return true;
}
void Transceiver::setSignalHandler(osmo_signal_cbfn cbfn)
{
if (this->sig_cbfn)
osmo_signal_unregister_handler(SS_TRANSC, this->sig_cbfn, NULL);
if (cbfn) {
this->sig_cbfn = cbfn;
osmo_signal_register_handler(SS_TRANSC, this->sig_cbfn, NULL);
}
}
/*
* Start the transceiver
*
@@ -285,7 +271,7 @@ bool Transceiver::start()
TxUpperLoopAdapter, (void*) chan);
}
mForceClockInterface = true;
writeClockInterface();
mOn = true;
return true;
}
@@ -309,10 +295,6 @@ void Transceiver::stop()
LOG(NOTICE) << "Stopping the transceiver";
mTxLowerLoopThread->cancel();
mRxLowerLoopThread->cancel();
mTxLowerLoopThread->join();
mRxLowerLoopThread->join();
delete mTxLowerLoopThread;
delete mRxLowerLoopThread;
for (size_t i = 0; i < mChans; i++) {
mRxServiceLoopThreads[i]->cancel();
@@ -331,6 +313,11 @@ void Transceiver::stop()
mTxPriorityQueues[i].clear();
}
mTxLowerLoopThread->join();
mRxLowerLoopThread->join();
delete mTxLowerLoopThread;
delete mRxLowerLoopThread;
mOn = false;
LOG(NOTICE) << "Transceiver stopped";
}
@@ -390,8 +377,7 @@ void Transceiver::pushRadioVector(GSM::Time &nowTime)
state = &mStates[i];
while ((burst = mTxPriorityQueues[i].getStaleBurst(nowTime))) {
LOGCHAN(i, DMAIN, NOTICE) << "dumping STALE burst in TRX->SDR interface ("
<< burst->getTime() <<" vs " << nowTime << "), retrans=" << state->mRetrans;
LOG(NOTICE) << "dumping STALE burst in TRX->USRP interface";
if (state->mRetrans)
updateFillerTable(i, burst);
delete burst;
@@ -455,8 +441,8 @@ void Transceiver::setModulus(size_t timeslot, size_t chan)
}
CorrType Transceiver::expectedCorrType(GSM::Time currTime,
size_t chan)
Transceiver::CorrType Transceiver::expectedCorrType(GSM::Time currTime,
size_t chan)
{
static int tchh_subslot[26] = { 0,1,0,1,0,1,0,1,0,1,0,1,0,0,1,0,1,0,1,0,1,0,1,0,1,1 };
static int sdcch4_subslot[102] = { 3,3,3,3,0,0,2,2,2,2,3,3,3,3,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,1,1,1,0,0,2,2,2,2,
@@ -499,16 +485,16 @@ CorrType Transceiver::expectedCorrType(GSM::Time currTime,
break;
case IV:
case VI:
return mExtRACH ? EXT_RACH : RACH;
return RACH;
break;
case V: {
int mod51 = burstFN % 51;
if ((mod51 <= 36) && (mod51 >= 14))
return mExtRACH ? EXT_RACH : RACH;
return RACH;
else if ((mod51 == 4) || (mod51 == 5))
return mExtRACH ? EXT_RACH : RACH;
return RACH;
else if ((mod51 == 45) || (mod51 == 46))
return mExtRACH ? EXT_RACH : RACH;
return RACH;
else if (mHandover[burstTN][sdcch4_subslot[burstFN % 102]])
return RACH;
else
@@ -526,7 +512,7 @@ CorrType Transceiver::expectedCorrType(GSM::Time currTime,
case XIII: {
int mod52 = burstFN % 52;
if ((mod52 == 12) || (mod52 == 38))
return mExtRACH ? EXT_RACH : RACH;
return RACH;
else if ((mod52 == 25) || (mod52 == 51))
return IDLE;
else
@@ -545,6 +531,51 @@ CorrType Transceiver::expectedCorrType(GSM::Time currTime,
}
}
int Transceiver::detectBurst(signalVector &burst,
complex &amp, float &toa, CorrType type)
{
float threshold = 5.0, rc = 0;
switch (type) {
case EDGE:
rc = detectEdgeBurst(burst, mTSC, threshold, mSPSRx,
amp, toa, mMaxExpectedDelayNB);
if (rc > 0)
break;
else
type = TSC;
case TSC:
rc = analyzeTrafficBurst(burst, mTSC, threshold, mSPSRx,
amp, toa, mMaxExpectedDelayNB);
break;
case RACH:
threshold = 6.0;
rc = detectRACHBurst(burst, threshold, mSPSRx, amp, toa,
mMaxExpectedDelayAB);
break;
default:
LOG(ERR) << "Invalid correlation type";
}
if (rc > 0)
return type;
return rc;
}
/*
* Demodulate GMSK by direct rotation and soft slicing.
*/
SoftVector *Transceiver::demodulate(signalVector &burst, complex amp,
float toa, CorrType type)
{
if (type == EDGE)
return demodEdgeBurst(burst, mSPSRx, amp, toa);
return demodulateBurst(burst, mSPSRx, amp, toa);
}
void writeToFile(radioVector *radio_burst, size_t chan)
{
GSM::Time time = radio_burst->getTime();
@@ -565,7 +596,7 @@ SoftVector *Transceiver::pullRadioVector(GSM::Time &wTime, double &RSSI, bool &i
{
int rc;
complex amp;
float toa, max = -1.0, avg = 0.0;
float toa, pow, max = -1.0, avg = 0.0;
int max_i = -1;
signalVector *burst;
SoftVector *bits = NULL;
@@ -581,10 +612,6 @@ SoftVector *Transceiver::pullRadioVector(GSM::Time &wTime, double &RSSI, bool &i
GSM::Time time = radio_burst->getTime();
CorrType type = expectedCorrType(time, chan);
/* Enable 8-PSK burst detection if EDGE is enabled */
if (mEdge && (type == TSC))
type = EDGE;
/* Debug: dump bursts to disk */
/* bits 0-7 - chan 0 timeslots
* bits 8-15 - chan 1 timeslots */
@@ -600,7 +627,7 @@ SoftVector *Transceiver::pullRadioVector(GSM::Time &wTime, double &RSSI, bool &i
/* Select the diversity channel with highest energy */
for (size_t i = 0; i < radio_burst->chans(); i++) {
float pow = energyDetect(*radio_burst->getVector(i), 20 * mSPSRx);
energyDetect(*radio_burst->getVector(i), 20 * mSPSRx, 0.0, &pow);
if (pow > max) {
max = pow;
max_i = i;
@@ -637,11 +664,8 @@ SoftVector *Transceiver::pullRadioVector(GSM::Time &wTime, double &RSSI, bool &i
noise = 20.0 * log10(rxFullScale / state->mNoiseLev);
}
unsigned max_toa = (type == RACH || type == EXT_RACH) ?
mMaxExpectedDelayAB : mMaxExpectedDelayNB;
/* Detect normal or RACH bursts */
rc = detectAnyBurst(*burst, mTSC, BURST_THRESH, mSPSRx, type, amp, toa, max_toa);
rc = detectBurst(*burst, amp, toa, type);
if (rc > 0) {
type = (CorrType) rc;
@@ -656,9 +680,9 @@ SoftVector *Transceiver::pullRadioVector(GSM::Time &wTime, double &RSSI, bool &i
return NULL;
}
timingOffset = toa;
timingOffset = toa / mSPSRx;
bits = demodAnyBurst(*burst, mSPSRx, amp, toa, type);
bits = demodulate(*burst, amp, toa, type);
delete radio_burst;
return bits;
@@ -671,112 +695,86 @@ void Transceiver::reset()
}
#define MAX_PACKET_LENGTH 100
/**
* Matches a buffer with a command.
* @param buf a buffer to look command in
* @param cmd a command to look in buffer
* @param params pointer to arguments, or NULL
* @return true if command matches, otherwise false
*/
static bool match_cmd(char *buf,
const char *cmd, char **params)
{
size_t cmd_len = strlen(cmd);
/* Check a command itself */
if (strncmp(buf, cmd, cmd_len))
return false;
/* A command has arguments */
if (params != NULL) {
/* Make sure there is a space */
if (buf[cmd_len] != ' ')
return false;
/* Update external pointer */
*params = buf + cmd_len + 1;
}
return true;
}
void Transceiver::driveControl(size_t chan)
{
char buffer[MAX_PACKET_LENGTH + 1];
char response[MAX_PACKET_LENGTH + 1];
char *command, *params;
int msgLen;
int MAX_PACKET_LENGTH = 100;
/* Attempt to read from control socket */
msgLen = mCtrlSockets[chan]->read(buffer, MAX_PACKET_LENGTH);
if (msgLen < 1)
return;
// check control socket
char buffer[MAX_PACKET_LENGTH];
int msgLen = -1;
buffer[0] = '\0';
/* Zero-terminate received string */
buffer[msgLen] = '\0';
msgLen = mCtrlSockets[chan]->read(buffer, sizeof(buffer));
/* Verify a command signature */
if (strncmp(buffer, "CMD ", 4)) {
LOGC(DTRXCTRL, WARNING) << "bogus message on control interface";
if (msgLen < 1) {
return;
}
/* Set command pointer */
command = buffer + 4;
LOGCHAN(chan, DTRXCTRL, INFO) << "command is '" << command << "'";
char cmdcheck[4];
char command[MAX_PACKET_LENGTH];
char response[MAX_PACKET_LENGTH];
if (match_cmd(command, "POWEROFF", NULL)) {
sscanf(buffer,"%3s %s",cmdcheck,command);
if (!chan)
writeClockInterface();
if (strcmp(cmdcheck,"CMD")!=0) {
LOG(WARNING) << "bogus message on control interface";
return;
}
LOG(INFO) << "command is " << buffer;
if (strcmp(command,"POWEROFF")==0) {
stop();
sprintf(response,"RSP POWEROFF 0");
} else if (match_cmd(command, "POWERON", NULL)) {
if (!start()) {
}
else if (strcmp(command,"POWERON")==0) {
if (!start())
sprintf(response,"RSP POWERON 1");
} else {
else
sprintf(response,"RSP POWERON 0");
for (int i = 0; i < 8; i++) {
for (int j = 0; j < 8; j++)
mHandover[i][j] = false;
}
}
} else if (match_cmd(command, "HANDOVER", &params)) {
unsigned ts = 0, ss = 0;
sscanf(params, "%u %u", &ts, &ss);
if (ts > 7 || ss > 7) {
sprintf(response, "RSP NOHANDOVER 1 %u %u", ts, ss);
} else {
mHandover[ts][ss] = true;
sprintf(response, "RSP HANDOVER 0 %u %u", ts, ss);
}
} else if (match_cmd(command, "NOHANDOVER", &params)) {
unsigned ts = 0, ss = 0;
sscanf(params, "%u %u", &ts, &ss);
if (ts > 7 || ss > 7) {
sprintf(response, "RSP NOHANDOVER 1 %u %u", ts, ss);
} else {
mHandover[ts][ss] = false;
sprintf(response, "RSP NOHANDOVER 0 %u %u", ts, ss);
}
} else if (match_cmd(command, "SETMAXDLY", &params)) {
}
else if (strcmp(command,"HANDOVER")==0){
int ts=0,ss=0;
sscanf(buffer,"%3s %s %d %d",cmdcheck,command,&ts,&ss);
mHandover[ts][ss] = true;
LOG(WARNING) << "HANDOVER RACH at timeslot " << ts << " subslot " << ss;
sprintf(response,"RSP HANDOVER 0 %d %d",ts,ss);
}
else if (strcmp(command,"NOHANDOVER")==0){
int ts=0,ss=0;
sscanf(buffer,"%3s %s %d %d",cmdcheck,command,&ts,&ss);
mHandover[ts][ss] = false;
LOG(WARNING) << "NOHANDOVER at timeslot " << ts << " subslot " << ss;
sprintf(response,"RSP NOHANDOVER 0 %d %d",ts,ss);
}
else if (strcmp(command,"SETMAXDLY")==0) {
//set expected maximum time-of-arrival
int maxDelay;
sscanf(params, "%d", &maxDelay);
sscanf(buffer,"%3s %s %d",cmdcheck,command,&maxDelay);
mMaxExpectedDelayAB = maxDelay; // 1 GSM symbol is approx. 1 km
sprintf(response,"RSP SETMAXDLY 0 %d",maxDelay);
} else if (match_cmd(command, "SETMAXDLYNB", &params)) {
}
else if (strcmp(command,"SETMAXDLYNB")==0) {
//set expected maximum time-of-arrival
int maxDelay;
sscanf(params, "%d", &maxDelay);
sscanf(buffer,"%3s %s %d",cmdcheck,command,&maxDelay);
mMaxExpectedDelayNB = maxDelay; // 1 GSM symbol is approx. 1 km
sprintf(response,"RSP SETMAXDLYNB 0 %d",maxDelay);
} else if (match_cmd(command, "SETRXGAIN", &params)) {
}
else if (strcmp(command,"SETRXGAIN")==0) {
//set expected maximum time-of-arrival
int newGain;
sscanf(params, "%d", &newGain);
sscanf(buffer,"%3s %s %d",cmdcheck,command,&newGain);
newGain = mRadioInterface->setRxGain(newGain, chan);
sprintf(response,"RSP SETRXGAIN 0 %d",newGain);
} else if (match_cmd(command, "NOISELEV", NULL)) {
}
else if (strcmp(command,"NOISELEV")==0) {
if (mOn) {
float lev = mStates[chan].mNoiseLev;
sprintf(response,"RSP NOISELEV 0 %d",
@@ -785,97 +783,98 @@ void Transceiver::driveControl(size_t chan)
else {
sprintf(response,"RSP NOISELEV 1 0");
}
} else if (match_cmd(command, "SETPOWER", &params)) {
}
else if (!strcmp(command, "SETPOWER")) {
int power;
sscanf(params, "%d", &power);
sscanf(buffer, "%3s %s %d", cmdcheck, command, &power);
power = mRadioInterface->setPowerAttenuation(power, chan);
mStates[chan].mPower = power;
sprintf(response, "RSP SETPOWER 0 %d", power);
} else if (match_cmd(command, "ADJPOWER", &params)) {
}
else if (!strcmp(command,"ADJPOWER")) {
int power, step;
sscanf(params, "%d", &step);
sscanf(buffer, "%3s %s %d", cmdcheck, command, &step);
power = mStates[chan].mPower + step;
power = mRadioInterface->setPowerAttenuation(power, chan);
mStates[chan].mPower = power;
sprintf(response, "RSP ADJPOWER 0 %d", power);
} else if (match_cmd(command, "RXTUNE", &params)) {
}
else if (strcmp(command,"RXTUNE")==0) {
// tune receiver
int freqKhz;
sscanf(params, "%d", &freqKhz);
sscanf(buffer,"%3s %s %d",cmdcheck,command,&freqKhz);
mRxFreq = freqKhz * 1e3;
if (!mRadioInterface->tuneRx(mRxFreq, chan)) {
LOGC(DTRXCTRL, ALERT) << "RX failed to tune";
LOG(ALERT) << "RX failed to tune";
sprintf(response,"RSP RXTUNE 1 %d",freqKhz);
}
else
sprintf(response,"RSP RXTUNE 0 %d",freqKhz);
} else if (match_cmd(command, "TXTUNE", &params)) {
}
else if (strcmp(command,"TXTUNE")==0) {
// tune txmtr
int freqKhz;
sscanf(params, "%d", &freqKhz);
sscanf(buffer,"%3s %s %d",cmdcheck,command,&freqKhz);
mTxFreq = freqKhz * 1e3;
if (!mRadioInterface->tuneTx(mTxFreq, chan)) {
LOGC(DTRXCTRL, ALERT) << "TX failed to tune";
LOG(ALERT) << "TX failed to tune";
sprintf(response,"RSP TXTUNE 1 %d",freqKhz);
}
else
sprintf(response,"RSP TXTUNE 0 %d",freqKhz);
} else if (match_cmd(command, "SETTSC", &params)) {
}
else if (!strcmp(command,"SETTSC")) {
// set TSC
unsigned TSC;
sscanf(params, "%u", &TSC);
if (TSC > 7) {
sscanf(buffer, "%3s %s %d", cmdcheck, command, &TSC);
if (mOn || (TSC < 0) || (TSC > 7))
sprintf(response, "RSP SETTSC 1 %d", TSC);
} else {
LOGC(DTRXCTRL, NOTICE) << "Changing TSC from " << mTSC << " to " << TSC;
else if (chan && (TSC != mTSC))
sprintf(response, "RSP SETTSC 1 %d", TSC);
else {
mTSC = TSC;
sprintf(response,"RSP SETTSC 0 %d", TSC);
}
} else if (match_cmd(command, "SETSLOT", &params)) {
}
else if (strcmp(command,"SETSLOT")==0) {
// set slot type
int corrCode;
int timeslot;
sscanf(params, "%d %d", &timeslot, &corrCode);
sscanf(buffer,"%3s %s %d %d",cmdcheck,command,&timeslot,&corrCode);
if ((timeslot < 0) || (timeslot > 7)) {
LOGC(DTRXCTRL, WARNING) << "bogus message on control interface";
LOG(WARNING) << "bogus message on control interface";
sprintf(response,"RSP SETSLOT 1 %d %d",timeslot,corrCode);
return;
}
mStates[chan].chanType[timeslot] = (ChannelCombination) corrCode;
setModulus(timeslot, chan);
sprintf(response,"RSP SETSLOT 0 %d %d",timeslot,corrCode);
} else if (match_cmd(command, "_SETBURSTTODISKMASK", &params)) {
}
else if (strcmp(command,"_SETBURSTTODISKMASK")==0) {
// debug command! may change or disapear without notice
// set a mask which bursts to dump to disk
int mask;
sscanf(params, "%d", &mask);
sscanf(buffer,"%3s %s %d",cmdcheck,command,&mask);
mWriteBurstToDiskMask = mask;
sprintf(response,"RSP _SETBURSTTODISKMASK 0 %d",mask);
} else {
LOGC(DTRXCTRL, WARNING) << "bogus command " << command << " on control interface.";
}
else {
LOG(WARNING) << "bogus command " << command << " on control interface.";
sprintf(response,"RSP ERR 1");
}
LOGCHAN(chan, DTRXCTRL, INFO) << "response is '" << response << "'";
mCtrlSockets[chan]->write(response, strlen(response) + 1);
}
bool Transceiver::driveTxPriorityQueue(size_t chan)
{
int burstLen;
char buffer[EDGE_BURST_NBITS + 50];
char buffer[gSlotLen+50];
// check data socket
size_t msgLen = mDataSockets[chan]->read(buffer, sizeof(buffer));
if (msgLen == gSlotLen + 1 + 4 + 1) {
burstLen = gSlotLen;
} else if (msgLen == EDGE_BURST_NBITS + 1 + 4 + 1) {
if (mSPSTx != 4)
return false;
burstLen = EDGE_BURST_NBITS;
} else {
if (msgLen!=gSlotLen+1+4+1) {
LOG(ERR) << "badly formatted packet on GSM->TRX interface";
return false;
}
@@ -888,7 +887,7 @@ bool Transceiver::driveTxPriorityQueue(size_t chan)
LOG(DEBUG) << "rcvd. burst at: " << GSM::Time(frameNum,timeSlot);
int RSSI = (int) buffer[5];
BitVector newBurst(burstLen);
static BitVector newBurst(gSlotLen);
BitVector::iterator itr = newBurst.begin();
char *bufferItr = buffer+6;
while (itr < newBurst.end())
@@ -905,23 +904,18 @@ bool Transceiver::driveTxPriorityQueue(size_t chan)
void Transceiver::driveReceiveRadio()
{
int rc = mRadioInterface->driveReceiveRadio();
if (rc == 0) {
if (!mRadioInterface->driveReceiveRadio()) {
usleep(100000);
} else if (rc < 0) {
LOG(FATAL) << "radio Interface receive failed, requesting stop.";
osmo_signal_dispatch(SS_TRANSC, S_TRANSC_STOP_REQUIRED, this);
} else if (mForceClockInterface || mTransmitDeadlineClock > mLastClockUpdateTime + GSM::Time(216,0)) {
mForceClockInterface = false;
writeClockInterface();
} else {
if (mTransmitDeadlineClock > mLastClockUpdateTime + GSM::Time(216,0))
writeClockInterface();
}
}
void Transceiver::logRxBurst(size_t chan, SoftVector *burst, GSM::Time time, double dbm,
void Transceiver::logRxBurst(SoftVector *burst, GSM::Time time, double dbm,
double rssi, double noise, double toa)
{
LOG(DEBUG) << std::fixed << std::right
<< " chan: " << chan
<< " time: " << time
<< " RSSI: " << std::setw(5) << std::setprecision(1) << rssi
<< "dBFS/" << std::setw(6) << -dbm << "dBm"
@@ -947,9 +941,6 @@ void Transceiver::driveReceiveFIFO(size_t chan)
if (!rxBurst)
return;
// Convert -1..+1 soft bits to 0..1 soft bits
vectorSlicer(rxBurst);
/*
* EDGE demodulator returns 444 (148 * 3) bits
*/
@@ -957,7 +948,7 @@ void Transceiver::driveReceiveFIFO(size_t chan)
nbits = gSlotLen * 3;
dBm = RSSI + rssiOffset;
logRxBurst(chan, rxBurst, burstTime, dBm, RSSI, noise, TOA);
logRxBurst(rxBurst, burstTime, dBm, RSSI, noise, TOA);
TOAint = (int) (TOA * 256.0 + 0.5); // round to closest integer
@@ -1006,15 +997,14 @@ void Transceiver::driveTxFIFO()
// only update latency at the defined frame interval
if (radioClock->get() > mLatencyUpdateTime + GSM::Time(USB_LATENCY_INTRVL)) {
mTransmitLatency = mTransmitLatency + GSM::Time(1,0);
LOG(INFO) << "new latency: " << mTransmitLatency << " (underrun "
<< radioClock->get() << " vs " << mLatencyUpdateTime + GSM::Time(USB_LATENCY_INTRVL) << ")";
LOG(INFO) << "new latency: " << mTransmitLatency;
mLatencyUpdateTime = radioClock->get();
}
}
else {
// if underrun hasn't occurred in the last sec (216 frames) drop
// transmit latency by a timeslot
if (mTransmitLatency > mRadioInterface->minLatency()) {
if (mTransmitLatency > GSM::Time(USB_LATENCY_MIN)) {
if (radioClock->get() > mLatencyUpdateTime + GSM::Time(216,0)) {
mTransmitLatency.decTN();
LOG(INFO) << "reduced latency: " << mTransmitLatency;
@@ -1050,15 +1040,11 @@ void Transceiver::writeClockInterface()
void *RxUpperLoopAdapter(TransceiverChannel *chan)
{
char thread_name[16];
Transceiver *trx = chan->trx;
size_t num = chan->num;
delete chan;
snprintf(thread_name, 16, "RxUpper%zu", num);
set_selfthread_name(thread_name);
trx->setPriority(0.42);
while (1) {
@@ -1070,8 +1056,6 @@ void *RxUpperLoopAdapter(TransceiverChannel *chan)
void *RxLowerLoopAdapter(Transceiver *transceiver)
{
set_selfthread_name("RxLower");
transceiver->setPriority(0.45);
while (1) {
@@ -1083,8 +1067,6 @@ void *RxLowerLoopAdapter(Transceiver *transceiver)
void *TxLowerLoopAdapter(Transceiver *transceiver)
{
set_selfthread_name("TxLower");
transceiver->setPriority(0.44);
while (1) {
@@ -1096,15 +1078,11 @@ void *TxLowerLoopAdapter(Transceiver *transceiver)
void *ControlServiceLoopAdapter(TransceiverChannel *chan)
{
char thread_name[16];
Transceiver *trx = chan->trx;
size_t num = chan->num;
delete chan;
snprintf(thread_name, 16, "CtrlService%zu", num);
set_selfthread_name(thread_name);
while (1) {
trx->driveControl(num);
pthread_testcancel();
@@ -1114,15 +1092,11 @@ void *ControlServiceLoopAdapter(TransceiverChannel *chan)
void *TxUpperLoopAdapter(TransceiverChannel *chan)
{
char thread_name[16];
Transceiver *trx = chan->trx;
size_t num = chan->num;
delete chan;
snprintf(thread_name, 16, "TxUpper%zu", num);
set_selfthread_name(thread_name);
trx->setPriority(0.40);
while (1) {

52
Transceiver52M/Transceiver.h
View File

@@ -30,11 +30,6 @@
#include <sys/types.h>
#include <sys/socket.h>
extern "C" {
#include <osmocom/core/signal.h>
#include "config_defs.h"
}
class Transceiver;
/** Channel descriptor for transceiver object and channel number pair */
@@ -59,7 +54,7 @@ struct TransceiverState {
~TransceiverState();
/* Initialize a multiframe slot in the filler table */
bool init(FillerType filler, size_t sps, float scale, size_t rtsc, unsigned rach_delay);
bool init(int filler, size_t sps, float scale, size_t rtsc);
int chanType[8];
@@ -96,15 +91,13 @@ class Transceiver {
public:
/** Transceiver constructor
@param wBasePort base port number of UDP sockets
@param TRXAddress IP address of the TRX, as a string
@param GSMcoreAddress IP address of the GSM core, as a string
@param TRXAddress IP address of the TRX manager, as a string
@param wSPS number of samples per GSM symbol
@param wTransmitLatency initial setting of transmit latency
@param radioInterface associated radioInterface object
*/
Transceiver(int wBasePort,
const char *TRXAddress,
const char *GSMcoreAddress,
size_t tx_sps, size_t rx_sps, size_t chans,
GSM::Time wTransmitLatency,
RadioInterface *wRadioInterface,
@@ -114,8 +107,7 @@ public:
~Transceiver();
/** Start the control loop */
bool init(FillerType filler, size_t rtsc, unsigned rach_delay,
bool edge, bool ext_rach);
bool init(int filler, size_t rtsc);
/** attach the radioInterface receive FIFO */
bool receiveFIFO(VectorFIFO *wFIFO, size_t chan)
@@ -130,8 +122,6 @@ public:
/** accessor for number of channels */
size_t numChans() const { return mChans; };
void setSignalHandler(osmo_signal_cbfn cbfn);
/** Codes for channel combinations */
typedef enum {
FILL, ///< Channel is transmitted, but unused
@@ -152,10 +142,26 @@ public:
LOOPBACK ///< similar go VII, used in loopback testing
} ChannelCombination;
/** Codes for burst types of received bursts*/
typedef enum {
OFF, ///< timeslot is off
TSC, ///< timeslot should contain a normal burst
RACH, ///< timeslot should contain an access burst
EDGE, ///< timeslot should contain an EDGE burst
IDLE ///< timeslot is an idle (or dummy) burst
} CorrType;
enum FillerType {
FILLER_DUMMY,
FILLER_ZERO,
FILLER_NORM_RAND,
FILLER_EDGE_RAND,
FILLER_ACCESS_RAND,
};
private:
int mBasePort;
std::string mLocalAddr;
std::string mRemoteAddr;
std::string mAddr;
std::vector<UDPSocket *> mDataSockets; ///< socket for writing to/reading from GSM core
std::vector<UDPSocket *> mCtrlSockets; ///< socket for writing/reading control commands from GSM core
@@ -181,8 +187,6 @@ private:
double rssiOffset; ///< RSSI to dBm conversion offset
osmo_signal_cbfn *sig_cbfn; ///< Registered Signal Handler to announce events.
/** modulate and add a burst to the transmit queue */
void addRadioVector(size_t chan, BitVector &bits,
int RSSI, GSM::Time &wTime);
@@ -207,14 +211,19 @@ private:
/** send messages over the clock socket */
void writeClockInterface(void);
/** Detectbursts */
int detectBurst(signalVector &burst,
complex &amp, float &toa, CorrType type);
/** Demodulate burst and output soft bits */
SoftVector *demodulate(signalVector &burst,
complex amp, float toa, CorrType type);
int mSPSTx; ///< number of samples per Tx symbol
int mSPSRx; ///< number of samples per Rx symbol
size_t mChans;
bool mExtRACH;
bool mEdge;
bool mOn; ///< flag to indicate that transceiver is powered on
bool mForceClockInterface; ///< flag to indicate whether IND CLOCK shall be sent unconditionally after transceiver is started
bool mHandover[8][8]; ///< expect handover to the timeslot/subslot
double mTxFreq; ///< the transmit frequency
double mRxFreq; ///< the receive frequency
@@ -267,7 +276,7 @@ protected:
/** set priority on current thread */
void setPriority(float prio = 0.5) { mRadioInterface->setPriority(prio); }
void logRxBurst(size_t chan, SoftVector *burst, GSM::Time time, double dbm,
void logRxBurst(SoftVector *burst, GSM::Time time, double dbm,
double rssi, double noise, double toa);
};
@@ -282,3 +291,4 @@ void *ControlServiceLoopAdapter(TransceiverChannel *);
/** transmit queueing thread loop */
void *TxUpperLoopAdapter(TransceiverChannel *);

1586
Transceiver52M/UHDDevice.cpp Normal file
View File

File diff suppressed because it is too large Load Diff

160
Transceiver52M/device/usrp1/USRPDevice.cpp → Transceiver52M/USRPDevice.cpp
View File

@@ -33,10 +33,11 @@
#include <stdint.h>
#include <string.h>
#include <stdlib.h>
#include "Logger.h"
#include "Threads.h"
#include "USRPDevice.h"
#include <Logger.h>
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
@@ -58,15 +59,12 @@ const dboardConfigType dboardConfig = TXA_RXB;
const double USRPDevice::masterClockRate = 52.0e6;
USRPDevice::USRPDevice(size_t tx_sps, size_t rx_sps, InterfaceType iface,
size_t chans, double lo_offset,
const std::vector<std::string>& tx_paths,
const std::vector<std::string>& rx_paths):
RadioDevice(tx_sps, rx_sps, iface, chans, lo_offset, tx_paths, rx_paths)
USRPDevice::USRPDevice(size_t sps)
{
LOGC(DDEV, INFO) << "creating USRP device...";
LOG(INFO) << "creating USRP device...";
decimRate = (unsigned int) round(masterClockRate/((GSMRATE) * (double) tx_sps));
this->sps = sps;
decimRate = (unsigned int) round(masterClockRate/((GSMRATE) * (double) sps));
actualSampleRate = masterClockRate/decimRate;
rxGain = 0;
@@ -76,9 +74,9 @@ USRPDevice::USRPDevice(size_t tx_sps, size_t rx_sps, InterfaceType iface,
* split sample rate Tx/Rx - 4/1 sps we need to need to
* compensate for advance rather than delay.
*/
if (tx_sps == 1)
if (sps == 1)
pingOffset = 272;
else if (tx_sps == 4)
else if (sps == 4)
pingOffset = 269 - 7500;
else
pingOffset = 0;
@@ -91,36 +89,38 @@ USRPDevice::USRPDevice(size_t tx_sps, size_t rx_sps, InterfaceType iface,
#endif
}
int USRPDevice::open(const std::string &, int, bool)
int USRPDevice::open(const std::string &, bool, bool)
{
writeLock.unlock();
LOGC(DDEV, INFO) << "opening USRP device..";
LOG(INFO) << "opening USRP device..";
#ifndef SWLOOPBACK
string rbf = "std_inband.rbf";
//string rbf = "inband_1rxhb_1tx.rbf";
m_uRx.reset();
if (!skipRx) {
try {
m_uRx = usrp_standard_rx_sptr(usrp_standard_rx::make(
0, decimRate * tx_sps, 1, -1,
0, decimRate * sps, 1, -1,
usrp_standard_rx::FPGA_MODE_NORMAL,
1024, 16 * 8, rbf));
m_uRx->set_fpga_master_clock_freq(masterClockRate);
}
catch(...) {
LOGC(DDEV, ALERT) << "make failed on Rx";
LOG(ALERT) << "make failed on Rx";
m_uRx.reset();
return -1;
}
if (m_uRx->fpga_master_clock_freq() != masterClockRate)
{
LOGC(DDEV, ALERT) << "WRONG FPGA clock freq = " << m_uRx->fpga_master_clock_freq()
LOG(ALERT) << "WRONG FPGA clock freq = " << m_uRx->fpga_master_clock_freq()
<< ", desired clock freq = " << masterClockRate;
m_uRx.reset();
return -1;
}
}
try {
m_uTx = usrp_standard_tx_sptr(usrp_standard_tx::make(
@@ -130,20 +130,20 @@ int USRPDevice::open(const std::string &, int, bool)
}
catch(...) {
LOGC(DDEV, ALERT) << "make failed on Tx";
LOG(ALERT) << "make failed on Tx";
m_uTx.reset();
return -1;
}
if (m_uTx->fpga_master_clock_freq() != masterClockRate)
{
LOGC(DDEV, ALERT) << "WRONG FPGA clock freq = " << m_uTx->fpga_master_clock_freq()
LOG(ALERT) << "WRONG FPGA clock freq = " << m_uTx->fpga_master_clock_freq()
<< ", desired clock freq = " << masterClockRate;
m_uTx.reset();
return -1;
}
m_uRx->stop();
if (!skipRx) m_uRx->stop();
m_uTx->stop();
#endif
@@ -173,6 +173,8 @@ int USRPDevice::open(const std::string &, int, bool)
m_dbTx = m_uTx->selected_subdev(txSubdevSpec);
m_dbRx = m_uRx->selected_subdev(rxSubdevSpec);
samplesRead = 0;
samplesWritten = 0;
started = false;
return NORMAL;
@@ -182,12 +184,12 @@ int USRPDevice::open(const std::string &, int, bool)
bool USRPDevice::start()
{
LOGC(DDEV, INFO) << "starting USRP...";
LOG(INFO) << "starting USRP...";
#ifndef SWLOOPBACK
if (!m_uRx) return false;
if (!m_uRx && !skipRx) return false;
if (!m_uTx) return false;
m_uRx->stop();
if (!skipRx) m_uRx->stop();
m_uTx->stop();
writeLock.lock();
@@ -217,7 +219,10 @@ bool USRPDevice::start()
isAligned = false;
if (!skipRx)
started = (m_uRx->start() && m_uTx->start());
else
started = m_uTx->start();
return started;
#else
gettimeofday(&lastReadTime,NULL);
@@ -263,7 +268,7 @@ double USRPDevice::minRxGain()
double USRPDevice::setTxGain(double dB, size_t chan)
{
if (chan) {
LOGC(DDEV, ALERT) << "Invalid channel " << chan;
LOG(ALERT) << "Invalid channel " << chan;
return 0.0;
}
@@ -273,10 +278,10 @@ double USRPDevice::setTxGain(double dB, size_t chan)
if (dB < minTxGain())
dB = minTxGain();
LOGC(DDEV, NOTICE) << "Setting TX gain to " << dB << " dB.";
LOG(NOTICE) << "Setting TX gain to " << dB << " dB.";
if (!m_dbTx->set_gain(dB))
LOGC(DDEV, ERR) << "Error setting TX gain";
LOG(ERR) << "Error setting TX gain";
writeLock.unlock();
@@ -287,7 +292,7 @@ double USRPDevice::setTxGain(double dB, size_t chan)
double USRPDevice::setRxGain(double dB, size_t chan)
{
if (chan) {
LOGC(DDEV, ALERT) << "Invalid channel " << chan;
LOG(ALERT) << "Invalid channel " << chan;
return 0.0;
}
@@ -299,64 +304,16 @@ double USRPDevice::setRxGain(double dB, size_t chan)
if (dB < minRxGain())
dB = minRxGain();
LOGC(DDEV, NOTICE) << "Setting RX gain to " << dB << " dB.";
LOG(NOTICE) << "Setting RX gain to " << dB << " dB.";
if (!m_dbRx->set_gain(dB))
LOGC(DDEV, ERR) << "Error setting RX gain";
LOG(ERR) << "Error setting RX gain";
writeLock.unlock();
return dB;
}
bool USRPDevice::setRxAntenna(const std::string &ant, size_t chan)
{
if (chan >= rx_paths.size()) {
LOGC(DDEV, ALERT) << "Requested non-existent channel " << chan;
return false;
}
LOGC(DDEV, ALERT) << "Not implemented";
return true;
}
std::string USRPDevice::getRxAntenna(size_t chan)
{
if (chan >= rx_paths.size()) {
LOGC(DDEV, ALERT) << "Requested non-existent channel " << chan;
return "";
}
LOGC(DDEV, ALERT) << "Not implemented";
return "";
}
bool USRPDevice::setTxAntenna(const std::string &ant, size_t chan)
{
if (chan >= tx_paths.size()) {
LOGC(DDEV, ALERT) << "Requested non-existent channel " << chan;
return false;
}
LOGC(DDEV, ALERT) << "Not implemented";
return true;
}
std::string USRPDevice::getTxAntenna(size_t chan)
{
if (chan >= tx_paths.size()) {
LOGC(DDEV, ALERT) << "Requested non-existent channel " << chan;
return "";
}
LOGC(DDEV, ALERT) << "Not implemented";
return "";
}
bool USRPDevice::requiresRadioAlign()
{
return true;
}
GSM::Time USRPDevice::minLatency() {
return GSM::Time(1,1);
}
// NOTE: Assumes sequential reads
int USRPDevice::readSamples(std::vector<short *> &bufs, int len, bool *overrun,
@@ -391,18 +348,18 @@ int USRPDevice::readSamples(std::vector<short *> &bufs, int len, bool *overrun,
// read USRP packets, parse and save A/D data as needed
readLen = m_uRx->read((void *)readBuf,readLen,overrun);
for (int pktNum = 0; pktNum < (readLen/512); pktNum++) {
for(int pktNum = 0; pktNum < (readLen/512); pktNum++) {
// tmpBuf points to start of a USB packet
uint32_t* tmpBuf = (uint32_t *) (readBuf+pktNum*512/4);
TIMESTAMP pktTimestamp = usrp_to_host_u32(tmpBuf[1]);
uint32_t word0 = usrp_to_host_u32(tmpBuf[0]);
uint32_t chan = (word0 >> 16) & 0x1f;
unsigned payloadSz = word0 & 0x1ff;
LOGC(DDEV, DEBUG) << "first two bytes: " << hex << word0 << " " << dec << pktTimestamp;
LOG(DEBUG) << "first two bytes: " << hex << word0 << " " << dec << pktTimestamp;
bool incrementHi32 = ((lastPktTimestamp & 0x0ffffffffll) > pktTimestamp);
if (incrementHi32 && (timeStart!=0)) {
LOGC(DDEV, DEBUG) << "high 32 increment!!!";
LOG(DEBUG) << "high 32 increment!!!";
hi32Timestamp++;
}
pktTimestamp = (((TIMESTAMP) hi32Timestamp) << 32) | pktTimestamp;
@@ -414,19 +371,19 @@ int USRPDevice::readSamples(std::vector<short *> &bufs, int len, bool *overrun,
if ((word2 >> 16) == ((0x01 << 8) | 0x02)) {
timestamp -= timestampOffset;
timestampOffset = pktTimestamp - pingTimestamp + pingOffset;
LOGC(DDEV, DEBUG) << "updating timestamp offset to: " << timestampOffset;
LOG(DEBUG) << "updating timestamp offset to: " << timestampOffset;
timestamp += timestampOffset;
isAligned = true;
}
continue;
}
if (chan != 0) {
LOGC(DDEV, DEBUG) << "chan: " << chan << ", timestamp: " << pktTimestamp << ", sz:" << payloadSz;
LOG(DEBUG) << "chan: " << chan << ", timestamp: " << pktTimestamp << ", sz:" << payloadSz;
continue;
}
if ((word0 >> 28) & 0x04) {
if (underrun) *underrun = true;
LOGC(DDEV, DEBUG) << "UNDERRUN in TRX->USRP interface";
LOG(DEBUG) << "UNDERRUN in TRX->USRP interface";
}
if (RSSI) *RSSI = (word0 >> 21) & 0x3f;
@@ -447,7 +404,7 @@ int USRPDevice::readSamples(std::vector<short *> &bufs, int len, bool *overrun,
if (pktTimestamp + payloadSz/2/sizeof(short) > timeEnd)
timeEnd = pktTimestamp+payloadSz/2/sizeof(short);
LOGC(DDEV, DEBUG) << "timeStart: " << timeStart << ", timeEnd: " << timeEnd << ", pktTimestamp: " << pktTimestamp;
LOG(DEBUG) << "timeStart: " << timeStart << ", timeEnd: " << timeEnd << ", pktTimestamp: " << pktTimestamp;
}
}
@@ -455,14 +412,14 @@ int USRPDevice::readSamples(std::vector<short *> &bufs, int len, bool *overrun,
// copy desired data to buf
unsigned bufStart = dataStart+(timestamp-timeStart);
if (bufStart + len < currDataSize/2) {
LOGC(DDEV, DEBUG) << "bufStart: " << bufStart;
LOG(DEBUG) << "bufStart: " << bufStart;
memcpy(buf,data+bufStart*2,len*2*sizeof(short));
memset(data+bufStart*2,0,len*2*sizeof(short));
}
else {
LOGC(DDEV, DEBUG) << "len: " << len << ", currDataSize/2: " << currDataSize/2 << ", bufStart: " << bufStart;
LOG(DEBUG) << "len: " << len << ", currDataSize/2: " << currDataSize/2 << ", bufStart: " << bufStart;
unsigned firstLength = (currDataSize/2-bufStart);
LOGC(DDEV, DEBUG) << "firstLength: " << firstLength;
LOG(DEBUG) << "firstLength: " << firstLength;
memcpy(buf,data+bufStart*2,firstLength*2*sizeof(short));
memset(data+bufStart*2,0,firstLength*2*sizeof(short));
memcpy(buf+firstLength*2,data,(len-firstLength)*2*sizeof(short));
@@ -503,6 +460,7 @@ int USRPDevice::readSamples(std::vector<short *> &bufs, int len, bool *overrun,
gettimeofday(&lastReadTime,NULL);
firstRead = true;
}
samplesRead += numSamples;
return numSamples;
#endif
@@ -552,12 +510,14 @@ int USRPDevice::writeSamples(std::vector<short *> &bufs, int len,
}
m_uTx->write((const void*) outPkt,sizeof(uint32_t)*128*numPkts,NULL);
samplesWritten += len/2/sizeof(short);
writeLock.unlock();
return len/2/sizeof(short);
#else
int retVal = len;
memcpy(loopbackBuffer+loopbackBufferSize,buf,sizeof(short)*2*len);
samplesWritten += retVal;
loopbackBufferSize += retVal*2;
return retVal;
@@ -589,19 +549,19 @@ bool USRPDevice::setTxFreq(double wFreq, size_t chan)
usrp_tune_result result;
if (chan) {
LOGC(DDEV, ALERT) << "Invalid channel " << chan;
LOG(ALERT) << "Invalid channel " << chan;
return false;
}
if (m_uTx->tune(txSubdevSpec.side, m_dbTx, wFreq, &result)) {
LOGC(DDEV, INFO) << "set TX: " << wFreq << std::endl
LOG(INFO) << "set TX: " << wFreq << std::endl
<< " baseband freq: " << result.baseband_freq << std::endl
<< " DDC freq: " << result.dxc_freq << std::endl
<< " residual freq: " << result.residual_freq;
return true;
}
else {
LOGC(DDEV, ALERT) << "set TX: " << wFreq << " failed" << std::endl
LOG(ALERT) << "set TX: " << wFreq << "failed" << std::endl
<< " baseband freq: " << result.baseband_freq << std::endl
<< " DDC freq: " << result.dxc_freq << std::endl
<< " residual freq: " << result.residual_freq;
@@ -614,19 +574,19 @@ bool USRPDevice::setRxFreq(double wFreq, size_t chan)
usrp_tune_result result;
if (chan) {
LOGC(DDEV, ALERT) << "Invalid channel " << chan;
LOG(ALERT) << "Invalid channel " << chan;
return false;
}
if (m_uRx->tune(0, m_dbRx, wFreq, &result)) {
LOGC(DDEV, INFO) << "set RX: " << wFreq << std::endl
LOG(INFO) << "set RX: " << wFreq << std::endl
<< " baseband freq: " << result.baseband_freq << std::endl
<< " DDC freq: " << result.dxc_freq << std::endl
<< " residual freq: " << result.residual_freq;
return true;
}
else {
LOGC(DDEV, ALERT) << "set RX: " << wFreq << " failed" << std::endl
LOG(ALERT) << "set RX: " << wFreq << "failed" << std::endl
<< " baseband freq: " << result.baseband_freq << std::endl
<< " DDC freq: " << result.dxc_freq << std::endl
<< " residual freq: " << result.residual_freq;
@@ -641,21 +601,7 @@ bool USRPDevice::setRxFreq(double wFreq) { return true;};
#endif
RadioDevice *RadioDevice::make(size_t tx_sps, size_t rx_sps,
InterfaceType iface, size_t chans, double lo_offset,
const std::vector<std::string>& tx_paths,
const std::vector<std::string>& rx_paths)
size_t chans, bool diversity, double)
{
if (tx_sps != rx_sps) {
LOGC(DDEV, ERROR) << "USRP1 requires tx_sps == rx_sps";
return NULL;
}
if (chans != 1) {
LOGC(DDEV, ERROR) << "USRP1 supports only 1 channel";
return NULL;
}
if (lo_offset != 0.0) {
LOGC(DDEV, ERROR) << "USRP1 doesn't support lo_offset";
return NULL;
}
return new USRPDevice(tx_sps, rx_sps, iface, chans, lo_offset, tx_paths, rx_paths);
return new USRPDevice(tx_sps);
}

33
Transceiver52M/device/usrp1/USRPDevice.h → Transceiver52M/USRPDevice.h
View File

@@ -48,10 +48,15 @@ private:
usrp_subdev_spec rxSubdevSpec;
usrp_subdev_spec txSubdevSpec;
int sps;
double actualSampleRate; ///< the actual USRP sampling rate
unsigned int decimRate; ///< the USRP decimation rate
unsigned long long samplesRead; ///< number of samples read from USRP
unsigned long long samplesWritten; ///< number of samples sent to USRP
bool started; ///< flag indicates USRP has started
bool skipRx; ///< set if USRP is transmit-only.
static const unsigned int currDataSize_log2 = 21;
static const unsigned long currDataSize = (1 << currDataSize_log2);
@@ -91,12 +96,10 @@ private:
public:
/** Object constructor */
USRPDevice(size_t tx_sps, size_t rx_sps, InterfaceType iface, size_t chans, double lo_offset,
const std::vector<std::string>& tx_paths,
const std::vector<std::string>& rx_paths);
USRPDevice(size_t sps);
/** Instantiate the USRP */
int open(const std::string &, int, bool);
int open(const std::string &, bool, bool);
/** Start the USRP */
bool start();
@@ -176,28 +179,14 @@ private:
/** return minimum Rx Gain **/
double minTxGain(void);
/** sets the RX path to use, returns true if successful and false otherwise */
bool setRxAntenna(const std::string &ant, size_t chan = 0);
/* return the used RX path */
std::string getRxAntenna(size_t chan = 0);
/** sets the RX path to use, returns true if successful and false otherwise */
bool setTxAntenna(const std::string &ant, size_t chan = 0);
/* return the used RX path */
std::string getTxAntenna(size_t chan = 0);
/** return whether user drives synchronization of Tx/Rx of USRP */
bool requiresRadioAlign();
/** return whether user drives synchronization of Tx/Rx of USRP */
virtual GSM::Time minLatency();
/** Return internal status values */
inline double getTxFreq(size_t chan = 0) { return 0; }
inline double getRxFreq(size_t chan = 0) { return 0; }
inline double getSampleRate() { return actualSampleRate; }
inline double numberRead() { return samplesRead; }
inline double numberWritten() { return samplesWritten; }
};
#endif // _USRP_DEVICE_H_

8
Transceiver52M/arch/Makefile.am
View File

@@ -1,8 +0,0 @@
include $(top_srcdir)/Makefile.common
SUBDIRS = common
if ARCH_ARM
SUBDIRS += arm
else
SUBDIRS += x86
endif

15
Transceiver52M/arch/common/Makefile.am
View File

@@ -1,15 +0,0 @@
AM_CFLAGS = -Wall -std=gnu99
noinst_LTLIBRARIES = libarch_common.la
noinst_HEADERS = \
convolve.h \
convert.h \
scale.h \
mult.h \
fft.h
libarch_common_la_SOURCES = \
convolve_base.c \
convert_base.c \
fft.c

34
Transceiver52M/arch/common/convert_base.c
View File

@@ -1,34 +0,0 @@
/*
* Conversion
* Copyright (C) 2012, 2013 Thomas Tsou <tom@tsou.cc>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "convert.h"
void base_convert_float_short(short *out, const float *in,
float scale, int len)
{
for (int i = 0; i < len; i++)
out[i] = in[i] * scale;
}
void base_convert_short_float(float *out, const short *in, int len)
{
for (int i = 0; i < len; i++)
out[i] = in[i];
}

112
Transceiver52M/arch/common/fft.c
View File

@@ -1,112 +0,0 @@
/*
* Fast Fourier transform
*
* Copyright (C) 2012 Tom Tsou <tom@tsou.cc>
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as published by
* the Free Software Foundation, either version 3 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 Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program; if not, see <http://www.gnu.org/licenses/>.
* See the COPYING file in the main directory for details.
*/
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <fftw3.h>
#include "fft.h"
struct fft_hdl {
float *fft_in;
float *fft_out;
int len;
fftwf_plan fft_plan;
};
/*! \brief Initialize FFT backend
* \param[in] reverse FFT direction
* \param[in] m FFT length
* \param[in] istride input stride count
* \param[in] ostride output stride count
* \param[in] in input buffer (FFTW aligned)
* \param[in] out output buffer (FFTW aligned)
* \param[in] ooffset initial offset into output buffer
*
* If the reverse is non-NULL, then an inverse FFT will be used. This is a
* wrapper for advanced non-contiguous FFTW usage. See FFTW documentation for
* further details.
*
* http://www.fftw.org/doc/Advanced-Complex-DFTs.html
*
* It is currently unknown how the offset of the output buffer affects FFTW
* memory alignment.
*/
struct fft_hdl *init_fft(int reverse, int m, int istride, int ostride,
float *in, float *out, int ooffset)
{
int rank = 1;
int n[] = { m };
int howmany = istride;
int idist = 1;
int odist = 1;
int *inembed = n;
int *onembed = n;
fftwf_complex *obuffer, *ibuffer;
struct fft_hdl *hdl = (struct fft_hdl *) malloc(sizeof(struct fft_hdl));
if (!hdl)
return NULL;
int direction = FFTW_FORWARD;
if (reverse)
direction = FFTW_BACKWARD;
ibuffer = (fftwf_complex *) in;
obuffer = (fftwf_complex *) out + ooffset;
hdl->fft_in = in;
hdl->fft_out = out;
hdl->fft_plan = fftwf_plan_many_dft(rank, n, howmany,
ibuffer, inembed, istride, idist,
obuffer, onembed, ostride, odist,
direction, FFTW_MEASURE);
return hdl;
}
void *fft_malloc(size_t size)
{
return fftwf_malloc(size);
}
void fft_free(void *ptr)
{
free(ptr);
}
/*! \brief Free FFT backend resources
*/
void free_fft(struct fft_hdl *hdl)
{
fftwf_destroy_plan(hdl->fft_plan);
free(hdl);
}
/*! \brief Run multiple DFT operations with the initialized plan
* \param[in] hdl handle to an intitialized fft struct
*
* Input and output buffers are configured with init_fft().
*/
int cxvec_fft(struct fft_hdl *hdl)
{
fftwf_execute(hdl->fft_plan);
return 0;
}

13
Transceiver52M/arch/common/fft.h
View File

@@ -1,13 +0,0 @@
#ifndef _FFT_H_
#define _FFT_H_
struct fft_hdl;
struct fft_hdl *init_fft(int reverse, int m, int istride, int ostride,
float *in, float *out, int ooffset);
void *fft_malloc(size_t size);
void fft_free(void *ptr);
void free_fft(struct fft_hdl *hdl);
int cxvec_fft(struct fft_hdl *hdl);
#endif /* _FFT_H_ */

33
Transceiver52M/arch/x86/Makefile.am
View File

@@ -1,33 +0,0 @@
AM_CFLAGS = -Wall -std=gnu99 -I${srcdir}/../common
noinst_LTLIBRARIES = libarch.la
noinst_LTLIBRARIES += libarch_sse_3.la
noinst_LTLIBRARIES += libarch_sse_4_1.la
noinst_HEADERS = \
convert_sse_3.h \
convert_sse_4_1.h \
convolve_sse_3.h
libarch_la_LIBADD = $(top_builddir)/Transceiver52M/arch/common/libarch_common.la
# SSE 3 specific code
if HAVE_SSE3
libarch_sse_3_la_SOURCES = \
convert_sse_3.c \
convolve_sse_3.c
libarch_sse_3_la_CFLAGS = $(AM_CFLAGS) -msse3
libarch_la_LIBADD += libarch_sse_3.la
endif
# SSE 4.1 specific code
if HAVE_SSE4_1
libarch_sse_4_1_la_SOURCES = \
convert_sse_4_1.c
libarch_sse_4_1_la_CFLAGS = $(AM_CFLAGS) -msse4.1
libarch_la_LIBADD += libarch_sse_4_1.la
endif
libarch_la_SOURCES = \
convert.c \
convolve.c

83
Transceiver52M/arch/x86/convert.c
View File

@@ -1,83 +0,0 @@
/*
* SSE type conversions
* Copyright (C) 2013 Thomas Tsou <tom@tsou.cc>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <malloc.h>
#include <string.h>
#include "convert.h"
#include "convert_sse_3.h"
#include "convert_sse_4_1.h"
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
/* Architecture dependant function pointers */
struct convert_cpu_context {
void (*convert_si16_ps_16n) (float *, const short *, int);
void (*convert_si16_ps) (float *, const short *, int);
void (*convert_scale_ps_si16_16n)(short *, const float *, float, int);
void (*convert_scale_ps_si16_8n)(short *, const float *, float, int);
void (*convert_scale_ps_si16)(short *, const float *, float, int);
};
static struct convert_cpu_context c;
void convert_init(void)
{
c.convert_scale_ps_si16_16n = base_convert_float_short;
c.convert_scale_ps_si16_8n = base_convert_float_short;
c.convert_scale_ps_si16 = base_convert_float_short;
c.convert_si16_ps_16n = base_convert_short_float;
c.convert_si16_ps = base_convert_short_float;
#ifdef HAVE___BUILTIN_CPU_SUPPORTS
#ifdef HAVE_SSE4_1
if (__builtin_cpu_supports("sse4.1")) {
c.convert_si16_ps_16n = &_sse_convert_si16_ps_16n;
c.convert_si16_ps = &_sse_convert_si16_ps;
}
#endif
#ifdef HAVE_SSE3
if (__builtin_cpu_supports("sse3")) {
c.convert_scale_ps_si16_16n = _sse_convert_scale_ps_si16_16n;
c.convert_scale_ps_si16_8n = _sse_convert_scale_ps_si16_8n;
c.convert_scale_ps_si16 = _sse_convert_scale_ps_si16;
}
#endif
#endif
}
void convert_float_short(short *out, const float *in, float scale, int len)
{
if (!(len % 16))
c.convert_scale_ps_si16_16n(out, in, scale, len);
else if (!(len % 8))
c.convert_scale_ps_si16_8n(out, in, scale, len);
else
c.convert_scale_ps_si16(out, in, scale, len);
}
void convert_short_float(float *out, const short *in, int len)
{
if (!(len % 16))
c.convert_si16_ps_16n(out, in, len);
else
c.convert_si16_ps(out, in, len);
}

107
Transceiver52M/arch/x86/convert_sse_3.c
View File

@@ -1,107 +0,0 @@
/*
* SSE type conversions
* Copyright (C) 2013 Thomas Tsou <tom@tsou.cc>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <malloc.h>
#include <string.h>
#include "convert_sse_3.h"
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#ifdef HAVE_SSE3
#include <xmmintrin.h>
#include <emmintrin.h>
/* 8*N single precision floats scaled and converted to 16-bit signed integer */
void _sse_convert_scale_ps_si16_8n(short *restrict out,
const float *restrict in,
float scale, int len)
{
__m128 m0, m1, m2;
__m128i m4, m5;
for (int i = 0; i < len / 8; i++) {
/* Load (unaligned) packed floats */
m0 = _mm_loadu_ps(&in[8 * i + 0]);
m1 = _mm_loadu_ps(&in[8 * i + 4]);
m2 = _mm_load1_ps(&scale);
/* Scale */
m0 = _mm_mul_ps(m0, m2);
m1 = _mm_mul_ps(m1, m2);
/* Convert */
m4 = _mm_cvtps_epi32(m0);
m5 = _mm_cvtps_epi32(m1);
/* Pack and store */
m5 = _mm_packs_epi32(m4, m5);
_mm_storeu_si128((__m128i *) & out[8 * i], m5);
}
}
/* 8*N single precision floats scaled and converted with remainder */
void _sse_convert_scale_ps_si16(short *restrict out,
const float *restrict in, float scale, int len)
{
int start = len / 8 * 8;
_sse_convert_scale_ps_si16_8n(out, in, scale, len);
for (int i = 0; i < len % 8; i++)
out[start + i] = in[start + i] * scale;
}
/* 16*N single precision floats scaled and converted to 16-bit signed integer */
void _sse_convert_scale_ps_si16_16n(short *restrict out,
const float *restrict in,
float scale, int len)
{
__m128 m0, m1, m2, m3, m4;
__m128i m5, m6, m7, m8;
for (int i = 0; i < len / 16; i++) {
/* Load (unaligned) packed floats */
m0 = _mm_loadu_ps(&in[16 * i + 0]);
m1 = _mm_loadu_ps(&in[16 * i + 4]);
m2 = _mm_loadu_ps(&in[16 * i + 8]);
m3 = _mm_loadu_ps(&in[16 * i + 12]);
m4 = _mm_load1_ps(&scale);
/* Scale */
m0 = _mm_mul_ps(m0, m4);
m1 = _mm_mul_ps(m1, m4);
m2 = _mm_mul_ps(m2, m4);
m3 = _mm_mul_ps(m3, m4);
/* Convert */
m5 = _mm_cvtps_epi32(m0);
m6 = _mm_cvtps_epi32(m1);
m7 = _mm_cvtps_epi32(m2);
m8 = _mm_cvtps_epi32(m3);
/* Pack and store */
m5 = _mm_packs_epi32(m5, m6);
m7 = _mm_packs_epi32(m7, m8);
_mm_storeu_si128((__m128i *) & out[16 * i + 0], m5);
_mm_storeu_si128((__m128i *) & out[16 * i + 8], m7);
}
}
#endif

34
Transceiver52M/arch/x86/convert_sse_3.h
View File

@@ -1,34 +0,0 @@
/*
* SSE type conversions
* Copyright (C) 2013 Thomas Tsou <tom@tsou.cc>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#pragma once
/* 8*N single precision floats scaled and converted to 16-bit signed integer */
void _sse_convert_scale_ps_si16_8n(short *restrict out,
const float *restrict in,
float scale, int len);
/* 8*N single precision floats scaled and converted with remainder */
void _sse_convert_scale_ps_si16(short *restrict out,
const float *restrict in, float scale, int len);
/* 16*N single precision floats scaled and converted to 16-bit signed integer */
void _sse_convert_scale_ps_si16_16n(short *restrict out,
const float *restrict in,
float scale, int len);

77
Transceiver52M/arch/x86/convert_sse_4_1.c
View File

@@ -1,77 +0,0 @@
/*
* SSE type conversions
* Copyright (C) 2013 Thomas Tsou <tom@tsou.cc>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <malloc.h>
#include <string.h>
#include "convert_sse_4_1.h"
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#ifdef HAVE_SSE4_1
#include <smmintrin.h>
/* 16*N 16-bit signed integer converted to single precision floats */
void _sse_convert_si16_ps_16n(float *restrict out,
const short *restrict in, int len)
{
__m128i m0, m1, m2, m3, m4, m5;
__m128 m6, m7, m8, m9;
for (int i = 0; i < len / 16; i++) {
/* Load (unaligned) packed floats */
m0 = _mm_loadu_si128((__m128i *) & in[16 * i + 0]);
m1 = _mm_loadu_si128((__m128i *) & in[16 * i + 8]);
/* Unpack */
m2 = _mm_cvtepi16_epi32(m0);
m4 = _mm_cvtepi16_epi32(m1);
m0 = _mm_shuffle_epi32(m0, _MM_SHUFFLE(1, 0, 3, 2));
m1 = _mm_shuffle_epi32(m1, _MM_SHUFFLE(1, 0, 3, 2));
m3 = _mm_cvtepi16_epi32(m0);
m5 = _mm_cvtepi16_epi32(m1);
/* Convert */
m6 = _mm_cvtepi32_ps(m2);
m7 = _mm_cvtepi32_ps(m3);
m8 = _mm_cvtepi32_ps(m4);
m9 = _mm_cvtepi32_ps(m5);
/* Store */
_mm_storeu_ps(&out[16 * i + 0], m6);
_mm_storeu_ps(&out[16 * i + 4], m7);
_mm_storeu_ps(&out[16 * i + 8], m8);
_mm_storeu_ps(&out[16 * i + 12], m9);
}
}
/* 16*N 16-bit signed integer conversion with remainder */
void _sse_convert_si16_ps(float *restrict out,
const short *restrict in, int len)
{
int start = len / 16 * 16;
_sse_convert_si16_ps_16n(out, in, len);
for (int i = 0; i < len % 16; i++)
out[start + i] = in[start + i];
}
#endif

28
Transceiver52M/arch/x86/convert_sse_4_1.h
View File

@@ -1,28 +0,0 @@
/*
* SSE type conversions
* Copyright (C) 2013 Thomas Tsou <tom@tsou.cc>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#pragma once
/* 16*N 16-bit signed integer converted to single precision floats */
void _sse_convert_si16_ps_16n(float *restrict out,
const short *restrict in, int len);
/* 16*N 16-bit signed integer conversion with remainder */
void _sse_convert_si16_ps(float *restrict out,
const short *restrict in, int len);

154
Transceiver52M/arch/x86/convolve.c
View File

@@ -1,154 +0,0 @@
/*
* SSE Convolution
* Copyright (C) 2012, 2013 Thomas Tsou <tom@tsou.cc>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <malloc.h>
#include <string.h>
#include <stdio.h>
#include "convolve.h"
#include "convolve_sse_3.h"
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
/* Architecture dependant function pointers */
struct convolve_cpu_context {
void (*conv_cmplx_4n) (const float *, int, const float *, int, float *,
int, int, int);
void (*conv_cmplx_8n) (const float *, int, const float *, int, float *,
int, int, int);
void (*conv_cmplx) (const float *, int, const float *, int, float *,
int, int, int);
void (*conv_real4) (const float *, int, const float *, int, float *,
int, int, int);
void (*conv_real8) (const float *, int, const float *, int, float *,
int, int, int);
void (*conv_real12) (const float *, int, const float *, int, float *,
int, int, int);
void (*conv_real16) (const float *, int, const float *, int, float *,
int, int, int);
void (*conv_real20) (const float *, int, const float *, int, float *,
int, int, int);
void (*conv_real4n) (const float *, int, const float *, int, float *,
int, int, int);
void (*conv_real) (const float *, int, const float *, int, float *, int,
int, int);
};
static struct convolve_cpu_context c;
/* Forward declarations from base implementation */
int _base_convolve_real(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len,
int start, int len);
int _base_convolve_complex(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len,
int start, int len);
int bounds_check(int x_len, int h_len, int y_len,
int start, int len);
/* API: Initalize convolve module */
void convolve_init(void)
{
c.conv_cmplx_4n = (void *)_base_convolve_complex;
c.conv_cmplx_8n = (void *)_base_convolve_complex;
c.conv_cmplx = (void *)_base_convolve_complex;
c.conv_real4 = (void *)_base_convolve_real;
c.conv_real8 = (void *)_base_convolve_real;
c.conv_real12 = (void *)_base_convolve_real;
c.conv_real16 = (void *)_base_convolve_real;
c.conv_real20 = (void *)_base_convolve_real;
c.conv_real4n = (void *)_base_convolve_real;
c.conv_real = (void *)_base_convolve_real;
#if defined(HAVE_SSE3) && defined(HAVE___BUILTIN_CPU_SUPPORTS)
if (__builtin_cpu_supports("sse3")) {
c.conv_cmplx_4n = sse_conv_cmplx_4n;
c.conv_cmplx_8n = sse_conv_cmplx_8n;
c.conv_real4 = sse_conv_real4;
c.conv_real8 = sse_conv_real8;
c.conv_real12 = sse_conv_real12;
c.conv_real16 = sse_conv_real16;
c.conv_real20 = sse_conv_real20;
c.conv_real4n = sse_conv_real4n;
}
#endif
}
/* API: Aligned complex-real */
int convolve_real(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len, int start, int len)
{
if (bounds_check(x_len, h_len, y_len, start, len) < 0)
return -1;
memset(y, 0, len * 2 * sizeof(float));
switch (h_len) {
case 4:
c.conv_real4(x, x_len, h, h_len, y, y_len, start, len);
break;
case 8:
c.conv_real8(x, x_len, h, h_len, y, y_len, start, len);
break;
case 12:
c.conv_real12(x, x_len, h, h_len, y, y_len, start, len);
break;
case 16:
c.conv_real16(x, x_len, h, h_len, y, y_len, start, len);
break;
case 20:
c.conv_real20(x, x_len, h, h_len, y, y_len, start, len);
break;
default:
if (!(h_len % 4))
c.conv_real4n(x, x_len, h, h_len, y, y_len,
start, len);
else
c.conv_real(x, x_len, h, h_len, y, y_len, start,
len);
}
return len;
}
/* API: Aligned complex-complex */
int convolve_complex(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len,
int start, int len)
{
if (bounds_check(x_len, h_len, y_len, start, len) < 0)
return -1;
memset(y, 0, len * 2 * sizeof(float));
if (!(h_len % 8))
c.conv_cmplx_8n(x, x_len, h, h_len, y, y_len, start, len);
else if (!(h_len % 4))
c.conv_cmplx_4n(x, x_len, h, h_len, y, y_len, start, len);
else
c.conv_cmplx(x, x_len, h, h_len, y, y_len, start, len);
return len;
}

68
Transceiver52M/arch/x86/convolve_sse_3.h
View File

@@ -1,68 +0,0 @@
/*
* SSE Convolution
* Copyright (C) 2012, 2013 Thomas Tsou <tom@tsou.cc>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#pragma once
/* 4-tap SSE complex-real convolution */
void sse_conv_real4(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len,
int start, int len);
/* 8-tap SSE complex-real convolution */
void sse_conv_real8(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len,
int start, int len);
/* 12-tap SSE complex-real convolution */
void sse_conv_real12(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len,
int start, int len);
/* 16-tap SSE complex-real convolution */
void sse_conv_real16(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len,
int start, int len);
/* 20-tap SSE complex-real convolution */
void sse_conv_real20(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len,
int start, int len);
/* 4*N-tap SSE complex-real convolution */
void sse_conv_real4n(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len,
int start, int len);
/* 4*N-tap SSE complex-complex convolution */
void sse_conv_cmplx_4n(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len,
int start, int len);
/* 8*N-tap SSE complex-complex convolution */
void sse_conv_cmplx_8n(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len,
int start, int len);

7
Transceiver52M/arch/arm/Makefile.am → Transceiver52M/arm/Makefile.am
View File

@@ -1,17 +1,17 @@
if ARCH_ARM
if ARCH_ARM_A15
ARCH_FLAGS = -mfpu=neon-vfpv4
else
ARCH_FLAGS = -mfpu=neon
endif
AM_CFLAGS = -Wall $(ARCH_FLAGS) -std=gnu99 -I${srcdir}/../common
AM_CFLAGS = -Wall $(ARCH_FLAGS) -std=gnu99 -I../common
AM_CCASFLAGS = $(ARCH_FLAGS)
noinst_LTLIBRARIES = libarch.la
libarch_la_LIBADD = $(top_builddir)/Transceiver52M/arch/common/libarch_common.la
libarch_la_SOURCES = \
../common/convolve_base.c \
convert.c \
convert_neon.S \
convolve.c \
@@ -20,3 +20,4 @@ libarch_la_SOURCES = \
scale_neon.S \
mult.c \
mult_neon.S
endif

17
Transceiver52M/arch/arm/convert.c → Transceiver52M/arm/convert.c
View File

@@ -28,9 +28,19 @@
void neon_convert_ps_si16_4n(short *, const float *, const float *, int);
void neon_convert_si16_ps_4n(float *, const short *, int);
void convert_init(void) {
#ifndef HAVE_NEON
static void convert_si16_ps(float *out, const short *in, int len)
{
for (int i = 0; i < len; i++)
out[i] = in[i];
}
static void convert_ps_si16(short *out, const float *in, float scale, int len)
{
for (int i = 0; i < len; i++)
out[i] = in[i] * scale;
}
#else
/* 4*N 16-bit signed integer conversion with remainder */
static void neon_convert_si16_ps(float *out,
const short *in,
@@ -57,6 +67,7 @@ static void neon_convert_ps_si16(short *out,
for (int i = 0; i < len % 4; i++)
out[start + i] = (short) (in[start + i] * (*scale));
}
#endif
void convert_float_short(short *out, const float *in, float scale, int len)
{
@@ -68,7 +79,7 @@ void convert_float_short(short *out, const float *in, float scale, int len)
else
neon_convert_ps_si16_4n(out, in, q, len >> 2);
#else
base_convert_float_short(out, in, scale, len);
convert_ps_si16(out, in, scale, len);
#endif
}
@@ -80,6 +91,6 @@ void convert_short_float(float *out, const short *in, int len)
else
neon_convert_si16_ps_4n(out, in, len >> 2);
#else
base_convert_short_float(out, in, len);
convert_si16_ps(out, in, len);
#endif
}

0
Transceiver52M/arch/arm/convert_neon.S → Transceiver52M/arm/convert_neon.S
View File

65
Transceiver52M/arch/arm/convolve.c → Transceiver52M/arm/convolve.c
View File

@@ -29,15 +29,17 @@
int _base_convolve_real(float *x, int x_len,
float *h, int h_len,
float *y, int y_len,
int start, int len);
int start, int len,
int step, int offset);
int _base_convolve_complex(float *x, int x_len,
float *h, int h_len,
float *y, int y_len,
int start, int len);
int start, int len,
int step, int offset);
int bounds_check(int x_len, int h_len, int y_len,
int start, int len);
int start, int len, int step);
#ifdef HAVE_NEON
/* Calls into NEON assembler */
@@ -56,43 +58,39 @@ static void neon_conv_cmplx_4n(float *x, float *h, float *y, int h_len, int len)
}
#endif
/* API: Initalize convolve module */
void convolve_init(void)
{
/* Stub */
return;
}
/* API: Aligned complex-real */
int convolve_real(float *x, int x_len,
float *h, int h_len,
float *y, int y_len,
int start, int len)
int start, int len,
int step, int offset)
{
void (*conv_func)(float *, float *, float *, int) = NULL;
if (bounds_check(x_len, h_len, y_len, start, len) < 0)
if (bounds_check(x_len, h_len, y_len, start, len, step) < 0)
return -1;
memset(y, 0, len * 2 * sizeof(float));
#ifdef HAVE_NEON
switch (h_len) {
case 4:
conv_func = neon_conv_real4;
break;
case 8:
conv_func = neon_conv_real8;
break;
case 12:
conv_func = neon_conv_real12;
break;
case 16:
conv_func = neon_conv_real16;
break;
case 20:
conv_func = neon_conv_real20;
break;
if (step <= 4) {
switch (h_len) {
case 4:
conv_func = neon_conv_real4;
break;
case 8:
conv_func = neon_conv_real8;
break;
case 12:
conv_func = neon_conv_real12;
break;
case 16:
conv_func = neon_conv_real16;
break;
case 20:
conv_func = neon_conv_real20;
break;
}
}
#endif
if (conv_func) {
@@ -102,7 +100,7 @@ int convolve_real(float *x, int x_len,
_base_convolve_real(x, x_len,
h, h_len,
y, y_len,
start, len);
start, len, step, offset);
}
return len;
@@ -113,17 +111,18 @@ int convolve_real(float *x, int x_len,
int convolve_complex(float *x, int x_len,
float *h, int h_len,
float *y, int y_len,
int start, int len)
int start, int len,
int step, int offset)
{
void (*conv_func)(float *, float *, float *, int, int) = NULL;
if (bounds_check(x_len, h_len, y_len, start, len) < 0)
if (bounds_check(x_len, h_len, y_len, start, len, step) < 0)
return -1;
memset(y, 0, len * 2 * sizeof(float));
#ifdef HAVE_NEON
if (!(h_len % 4))
if (step <= 4 && !(h_len % 4))
conv_func = neon_conv_cmplx_4n;
#endif
if (conv_func) {
@@ -133,7 +132,7 @@ int convolve_complex(float *x, int x_len,
_base_convolve_complex(x, x_len,
h, h_len,
y, y_len,
start, len);
start, len, step, offset);
}
return len;

4
Transceiver52M/arch/arm/convolve_neon.S → Transceiver52M/arm/convolve_neon.S
View File

@@ -92,8 +92,8 @@ neon_conv_real12:
vld2.32 {q8-q9}, [r4], r6
vld2.32 {q10-q11}, [r5], r6
#ifdef HAVE_NEON_FMA
vmul.f32 q1, q6, q0
vmul.f32 q3, q7, q0
vfma.f32 q1, q6, q0
vfma.f32 q3, q7, q0
vfma.f32 q1, q8, q2
vfma.f32 q3, q9, q2
vfma.f32 q1, q10, q4

0
Transceiver52M/arch/arm/mult.c → Transceiver52M/arm/mult.c
View File

0
Transceiver52M/arch/arm/mult_neon.S → Transceiver52M/arm/mult_neon.S
View File

0
Transceiver52M/arch/arm/scale.c → Transceiver52M/arm/scale.c
View File

0
Transceiver52M/arch/arm/scale_neon.S → Transceiver52M/arm/scale_neon.S
View File

8
Transceiver52M/arch/common/convert.h → Transceiver52M/common/convert.h
View File

@@ -2,14 +2,6 @@
#define _CONVERT_H_
void convert_float_short(short *out, const float *in, float scale, int len);
void convert_short_float(float *out, const short *in, int len);
void base_convert_float_short(short *out, const float *in,
float scale, int len);
void base_convert_short_float(float *out, const short *in, int len);
void convert_init(void);
#endif /* _CONVERT_H_ */

16
Transceiver52M/arch/common/convolve.h → Transceiver52M/common/convolve.h
View File

@@ -1,28 +1,30 @@
#ifndef _CONVOLVE_H_
#define _CONVOLVE_H_
void *convolve_h_alloc(size_t num);
void *convolve_h_alloc(int num);
int convolve_real(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len,
int start, int len);
int start, int len,
int step, int offset);
int convolve_complex(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len,
int start, int len);
int start, int len,
int step, int offset);
int base_convolve_real(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len,
int start, int len);
int start, int len,
int step, int offset);
int base_convolve_complex(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len,
int start, int len);
void convolve_init(void);
int start, int len,
int step, int offset);
#endif /* _CONVOLVE_H_ */

39
Transceiver52M/arch/common/convolve_base.c → Transceiver52M/common/convolve_base.c
View File

@@ -41,17 +41,17 @@ static void mac_cmplx(const float *x, const float *h, float *y)
/* Base vector complex-complex multiply and accumulate */
static void mac_real_vec_n(const float *x, const float *h, float *y,
int len)
int len, int step, int offset)
{
for (int i=0; i<len; i++)
for (int i = offset; i < len; i += step)
mac_real(&x[2 * i], &h[2 * i], y);
}
/* Base vector complex-complex multiply and accumulate */
static void mac_cmplx_vec_n(const float *x, const float *h, float *y,
int len)
int len, int step, int offset)
{
for (int i=0; i<len; i++)
for (int i = offset; i < len; i += step)
mac_cmplx(&x[2 * i], &h[2 * i], y);
}
@@ -59,12 +59,14 @@ static void mac_cmplx_vec_n(const float *x, const float *h, float *y,
int _base_convolve_real(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len,
int start, int len)
int start, int len,
int step, int offset)
{
for (int i = 0; i < len; i++) {
mac_real_vec_n(&x[2 * (i - (h_len - 1) + start)],
h,
&y[2 * i], h_len);
&y[2 * i], h_len,
step, offset);
}
return len;
@@ -74,13 +76,14 @@ int _base_convolve_real(const float *x, int x_len,
int _base_convolve_complex(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len,
int start, int len)
int start, int len,
int step, int offset)
{
for (int i = 0; i < len; i++) {
mac_cmplx_vec_n(&x[2 * (i - (h_len - 1) + start)],
h,
&y[2 * i],
h_len);
h_len, step, offset);
}
return len;
@@ -88,10 +91,10 @@ int _base_convolve_complex(const float *x, int x_len,
/* Buffer validity checks */
int bounds_check(int x_len, int h_len, int y_len,
int start, int len)
int start, int len, int step)
{
if ((x_len < 1) || (h_len < 1) ||
(y_len < 1) || (len < 1)) {
(y_len < 1) || (len < 1) || (step < 1)) {
fprintf(stderr, "Convolve: Invalid input\n");
return -1;
}
@@ -110,9 +113,10 @@ int bounds_check(int x_len, int h_len, int y_len,
int base_convolve_real(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len,
int start, int len)
int start, int len,
int step, int offset)
{
if (bounds_check(x_len, h_len, y_len, start, len) < 0)
if (bounds_check(x_len, h_len, y_len, start, len, step) < 0)
return -1;
memset(y, 0, len * 2 * sizeof(float));
@@ -120,16 +124,17 @@ int base_convolve_real(const float *x, int x_len,
return _base_convolve_real(x, x_len,
h, h_len,
y, y_len,
start, len);
start, len, step, offset);
}
/* API: Non-aligned (no SSE) complex-complex */
int base_convolve_complex(const float *x, int x_len,
const float *h, int h_len,
float *y, int y_len,
int start, int len)
int start, int len,
int step, int offset)
{
if (bounds_check(x_len, h_len, y_len, start, len) < 0)
if (bounds_check(x_len, h_len, y_len, start, len, step) < 0)
return -1;
memset(y, 0, len * 2 * sizeof(float));
@@ -137,11 +142,11 @@ int base_convolve_complex(const float *x, int x_len,
return _base_convolve_complex(x, x_len,
h, h_len,
y, y_len,
start, len);
start, len, step, offset);
}
/* Aligned filter tap allocation */
void *convolve_h_alloc(size_t len)
void *convolve_h_alloc(int len)
{
#ifdef HAVE_SSE3
return memalign(16, len * 2 * sizeof(float));

0
Transceiver52M/arch/common/mult.h → Transceiver52M/common/mult.h
View File

0
Transceiver52M/arch/common/scale.h → Transceiver52M/common/scale.h
View File

15
Transceiver52M/device/Makefile.am
View File

@@ -1,15 +0,0 @@
include $(top_srcdir)/Makefile.common
SUBDIRS = common
if DEVICE_USRP1
SUBDIRS += usrp1
endif
if DEVICE_UHD
SUBDIRS += uhd
endif
if DEVICE_LMS
SUBDIRS += lms
endif

12
Transceiver52M/device/common/Makefile.am
View File

@@ -1,12 +0,0 @@
include $(top_srcdir)/Makefile.common
AM_CPPFLAGS = -Wall $(STD_DEFINES_AND_INCLUDES)
AM_CXXFLAGS = -lpthread $(LIBOSMOCORE_CFLAGS) $(LIBOSMOCTRL_CFLAGS) $(LIBOSMOVTY_CFLAGS) $(LMS_CFLAGS)
noinst_HEADERS = radioDevice.h smpl_buf.h
noinst_LTLIBRARIES = libdevice_common.la
libdevice_common_la_SOURCES = \
smpl_buf.cpp

169
Transceiver52M/device/common/smpl_buf.cpp
View File

@@ -1,169 +0,0 @@
/*
* Sample Buffer - Allows reading and writing of timed samples
*
* Copyright 2010,2011 Free Software Foundation, Inc.
* Copyright (C) 2015 Ettus Research LLC
* Copyright 2019 sysmocom - s.f.m.c. GmbH <info@sysmocom.de>
*
* Author: Tom Tsou <tom.tsou@ettus.com>
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as published by
* the Free Software Foundation, either version 3 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 Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
* See the COPYING file in the main directory for details.
*/
#include "smpl_buf.h"
#include <inttypes.h>
smpl_buf::smpl_buf(size_t len)
: buf_len(len), time_start(0), time_end(0),
data_start(0), data_end(0)
{
data = new uint32_t[len];
}
smpl_buf::~smpl_buf()
{
delete[] data;
}
ssize_t smpl_buf::avail_smpls(TIMESTAMP timestamp) const
{
if (timestamp < time_start)
return ERROR_TIMESTAMP;
else if (timestamp >= time_end)
return 0;
else
return time_end - timestamp;
}
ssize_t smpl_buf::read(void *buf, size_t len, TIMESTAMP timestamp)
{
int type_sz = 2 * sizeof(short);
// Check for valid read
if (timestamp < time_start)
return ERROR_TIMESTAMP;
if (timestamp >= time_end)
return 0;
if (len >= buf_len)
return ERROR_READ;
// How many samples should be copied
size_t num_smpls = time_end - timestamp;
if (num_smpls > len)
num_smpls = len;
// Starting index
size_t read_start = (data_start + (timestamp - time_start)) % buf_len;
// Read it
if (read_start + num_smpls < buf_len) {
size_t numBytes = len * type_sz;
memcpy(buf, data + read_start, numBytes);
} else {
size_t first_cp = (buf_len - read_start) * type_sz;
size_t second_cp = len * type_sz - first_cp;
memcpy(buf, data + read_start, first_cp);
memcpy((char*) buf + first_cp, data, second_cp);
}
data_start = (read_start + len) % buf_len;
time_start = timestamp + len;
if (time_start > time_end)
return ERROR_READ;
else
return num_smpls;
}
ssize_t smpl_buf::write(void *buf, size_t len, TIMESTAMP timestamp)
{
int type_sz = 2 * sizeof(short);
// Check for valid write
if ((len == 0) || (len >= buf_len))
return ERROR_WRITE;
if ((timestamp + len) <= time_end)
return ERROR_TIMESTAMP;
if (timestamp < time_end) {
LOGC(DDEV, ERR) << "Overwriting old buffer data: timestamp="
<< timestamp << " time_end=" << time_end;
// Do not return error here, because it's a rounding error and is not fatal
}
if (timestamp > time_end && time_end != 0) {
LOGC(DDEV, ERR) << "Skipping buffer data: timestamp="
<< timestamp << " time_end=" << time_end;
// Do not return error here, because it's a rounding error and is not fatal
}
// Starting index
size_t write_start = (data_start + (timestamp - time_start)) % buf_len;
// Write it
if ((write_start + len) < buf_len) {
size_t numBytes = len * type_sz;
memcpy(data + write_start, buf, numBytes);
} else {
size_t first_cp = (buf_len - write_start) * type_sz;
size_t second_cp = len * type_sz - first_cp;
memcpy(data + write_start, buf, first_cp);
memcpy(data, (char*) buf + first_cp, second_cp);
}
data_end = (write_start + len) % buf_len;
time_end = timestamp + len;
if (!data_start)
data_start = write_start;
if (((write_start + len) > buf_len) && (data_end > data_start))
return ERROR_OVERFLOW;
else if (time_end <= time_start)
return ERROR_WRITE;
else
return len;
}
std::string smpl_buf::str_status(TIMESTAMP timestamp) const
{
std::ostringstream ost("Sample buffer: ");
ost << "timestamp = " << timestamp;
ost << ", length = " << buf_len;
ost << ", time_start = " << time_start;
ost << ", time_end = " << time_end;
ost << ", data_start = " << data_start;
ost << ", data_end = " << data_end;
return ost.str();
}
std::string smpl_buf::str_code(ssize_t code)
{
switch (code) {
case ERROR_TIMESTAMP:
return "Sample buffer: Requested timestamp is not valid";
case ERROR_READ:
return "Sample buffer: Read error";
case ERROR_WRITE:
return "Sample buffer: Write error";
case ERROR_OVERFLOW:
return "Sample buffer: Overrun";
default:
return "Sample buffer: Unknown error";
}
}

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