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359 lines
12 KiB
C++
359 lines
12 KiB
C++
#ifndef LEANSDR_HDLC_H
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#define LEANSDR_HDLC_H
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#include "leansdr/framework.h"
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namespace leansdr
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{
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// HDLC deframer
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struct hdlc_dec
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{
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hdlc_dec(int _minframesize, // Including CRC, excluding HDLC flags.
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int _maxframesize, bool _invert) :
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minframesize(_minframesize),
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maxframesize(_maxframesize),
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invertmask(_invert ? 0xff : 0),
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framebuf(new u8[maxframesize]),
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debug(false)
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{
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byte_out = 0;
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nbits_out = 0;
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framesize = 0;
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crc16 = 0;
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reset();
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}
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void reset()
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{
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shiftreg = 0;
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inframe = false;
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}
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void begin_frame()
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{
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framesize = 0;
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crc16 = crc16_init;
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}
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// Decode (*ppin)[count] as MSB-packed HDLC bitstream.
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// Return pointer to buffer[*pdatasize], or NULL if no valid frame.
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// Return number of discarded bytes in *discarded.
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// Return number of checksum errors in *fcs_errors.
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// *ppin will have increased by at least 1 (unless count==0).
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u8 *decode(u8 **ppin, int count, int *pdatasize, int *hdlc_errors,
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int *fcs_errors)
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{
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*hdlc_errors = 0;
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*fcs_errors = 0;
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*pdatasize = -1;
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u8 *pin = *ppin, *pend = pin + count;
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for (; pin < pend; ++pin)
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{
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u8 byte_in = (*pin) ^ invertmask;
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for (int bits = 8; bits--; byte_in <<= 1)
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{
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u8 bit_in = byte_in & 128;
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shiftreg = (shiftreg >> 1) | bit_in;
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if (!inframe)
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{
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if (shiftreg == 0x7e)
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{ // HDLC flag 01111110
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inframe = true;
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nbits_out = 0;
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begin_frame();
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}
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}
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else
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{
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if ((shiftreg & 0xfe) == 0x7c)
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{ // 0111110x HDLC stuffing
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// Unstuff this 0
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}
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else if (shiftreg == 0x7e)
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{ // 01111110 HDLC flag
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if (nbits_out != 7)
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{
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// Not at byte boundary
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if (debug)
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fprintf(stderr, "^");
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++*hdlc_errors;
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}
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else
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{
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// Checksum
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crc16 ^= 0xffff;
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if (framesize < 2 || framesize < minframesize
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|| crc16 != crc16_check)
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{
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if (debug)
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fprintf(stderr, "!");
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++*hdlc_errors;
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// Do not report random noise as FCS errors
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if (framesize >= minframesize)
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++*fcs_errors;
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}
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else
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{
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if (debug)
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fprintf(stderr, "_");
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// This will trigger output, but we finish the byte first.
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*pdatasize = framesize - 2;
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}
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}
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nbits_out = 0;
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begin_frame();
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// Keep processing up to 7 remaining bits from byte_in.
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// Special cases 0111111 and 1111111 cannot affect *pdatasize.
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}
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else if (shiftreg == 0xfe)
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{ // 11111110 HDLC invalid
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if (framesize)
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{
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if (debug)
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fprintf(stderr, "^");
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++*hdlc_errors;
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}
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inframe = false;
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}
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else
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{ // Data bit
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byte_out = (byte_out >> 1) | bit_in; // HDLC is LSB first
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++nbits_out;
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if (nbits_out == 8)
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{
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if (framesize < maxframesize)
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{
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framebuf[framesize++] = byte_out;
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crc16_byte(byte_out);
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}
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nbits_out = 0;
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}
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}
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} // inframe
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} // bits
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if (*pdatasize != -1)
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{
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// Found a complete frame
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*ppin = pin + 1;
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return framebuf;
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}
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}
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*ppin = pin;
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return NULL;
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}
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private:
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// Config
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int minframesize, maxframesize;
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u8 invertmask;
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u8 *framebuf; // [maxframesize]
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// State
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u8 shiftreg; // Input bitstream
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bool inframe; // Currently receiving a frame ?
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u8 byte_out; // Accumulator for data bits
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int nbits_out; // Number of data bits in byte_out
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int framesize; // Number of bytes in framebuf, if inframe
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u16 crc16; // CRC of framebuf[framesize]
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// CRC
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static const u16 crc16_init = 0xffff;
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static const u16 crc16_poly = 0x8408; // 0x1021 MSB-first
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static const u16 crc16_check = 0x0f47;
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void crc16_byte(u8 data)
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{
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crc16 ^= data;
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for (int bit = 8; bit--;)
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crc16 = (crc16 & 1) ? (crc16 >> 1) ^ crc16_poly : (crc16 >> 1);
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}
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public:
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bool debug;
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};
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// hdlc_dec
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// HDLC synchronizer with polarity detection
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struct hdlc_sync: runnable
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{
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hdlc_sync(scheduler *sch,
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pipebuf<u8> &_in, // Packed bits
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pipebuf<u8> &_out, // Bytes
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int _minframesize, // Including CRC, excluding HDLC flags.
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int _maxframesize,
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// Status
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pipebuf<int> *_lock_out = NULL,
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pipebuf<int> *_framecount_out = NULL,
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pipebuf<int> *_fcserrcount_out = NULL,
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pipebuf<int> *_hdlcbytecount_out = NULL,
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pipebuf<int> *_databytecount_out = NULL) :
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runnable(sch, "hdlc_sync"), minframesize(_minframesize), maxframesize(
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_maxframesize), chunk_size(maxframesize + 2), in(_in), out(
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_out, _maxframesize + chunk_size), lock_out(
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opt_writer(_lock_out)), framecount_out(
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opt_writer(_framecount_out)), fcserrcount_out(
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opt_writer(_fcserrcount_out)), hdlcbytecount_out(
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opt_writer(_hdlcbytecount_out)), databytecount_out(
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opt_writer(_databytecount_out)), cur_sync(0), resync_phase(
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0), lock_state(false), resync_period(32), header16(false)
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{
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for (int s = 0; s < NSYNCS; ++s)
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{
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syncs[s].dec = new hdlc_dec(minframesize, maxframesize, s != 0);
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for (int h = 0; h < NERRHIST; ++h)
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syncs[s].errhist[h] = 0;
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}
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syncs[cur_sync].dec->debug = sch->debug;
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errslot = 0;
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}
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void run()
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{
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if (!opt_writable(lock_out) || !opt_writable(framecount_out)
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|| !opt_writable(fcserrcount_out)
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|| !opt_writable(hdlcbytecount_out)
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|| !opt_writable(databytecount_out))
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return;
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bool previous_lock_state = lock_state;
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int fcserrcount = 0, framecount = 0;
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int hdlcbytecount = 0, databytecount = 0;
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// Note: hdlc_dec may already hold one frame ready for output.
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while ((long) in.readable() >= chunk_size
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&& (long) out.writable() >= maxframesize + chunk_size)
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{
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if (!resync_phase)
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{
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// Once every resync_phase, try all decoders
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for (int s = 0; s < NSYNCS; ++s)
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{
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if (s != cur_sync)
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syncs[s].dec->reset();
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syncs[s].errhist[errslot] = 0;
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for (u8 *pin = in.rd(), *pend = pin + chunk_size;
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pin < pend;)
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{
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int datasize, hdlc_errors, fcs_errors;
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u8 *f = syncs[s].dec->decode(&pin, pend - pin,
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&datasize, &hdlc_errors, &fcs_errors);
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syncs[s].errhist[errslot] += hdlc_errors;
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if (s == cur_sync)
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{
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if (f)
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{
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lock_state = true;
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output_frame(f, datasize);
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databytecount += datasize;
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++framecount;
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}
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fcserrcount += fcs_errors;
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framecount += fcs_errors;
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}
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}
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}
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errslot = (errslot + 1) % NERRHIST;
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// Switch to another sync option ?
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// Compare total error counts over about NERRHIST frames.
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int total_errors[NSYNCS];
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for (int s = 0; s < NSYNCS; ++s)
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{
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total_errors[s] = 0;
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for (int h = 0; h < NERRHIST; ++h)
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total_errors[s] += syncs[s].errhist[h];
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}
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int best = cur_sync;
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for (int s = 0; s < NSYNCS; ++s)
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if (total_errors[s] < total_errors[best])
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best = s;
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if (best != cur_sync)
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{
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lock_state = false;
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if (sch->debug)
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fprintf(stderr, "[%d:%d->%d:%d]", cur_sync,
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total_errors[cur_sync], best,
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total_errors[best]);
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// No verbose messages on candidate syncs
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syncs[cur_sync].dec->debug = false;
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cur_sync = best;
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syncs[cur_sync].dec->debug = sch->debug;
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}
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}
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else
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{
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// Use only the currently selected decoder
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for (u8 *pin = in.rd(), *pend = pin + chunk_size; pin < pend;)
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{
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int datasize, hdlc_errors, fcs_errors;
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u8 *f = syncs[cur_sync].dec->decode(&pin, pend - pin,
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&datasize, &hdlc_errors, &fcs_errors);
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if (f)
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{
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lock_state = true;
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output_frame(f, datasize);
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databytecount += datasize;
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++framecount;
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}
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fcserrcount += fcs_errors;
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framecount += fcs_errors;
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}
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} // resync_phase
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in.read(chunk_size);
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hdlcbytecount += chunk_size;
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if (++resync_phase >= resync_period)
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resync_phase = 0;
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} // Work to do
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if (lock_state != previous_lock_state)
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opt_write(lock_out, lock_state ? 1 : 0);
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opt_write(framecount_out, framecount);
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opt_write(fcserrcount_out, fcserrcount);
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opt_write(hdlcbytecount_out, hdlcbytecount);
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opt_write(databytecount_out, databytecount);
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}
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private:
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void output_frame(u8 *f, int size)
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{
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if (header16)
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{
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// Removed 16-bit CRC, add 16-bit prefix -> Still <= maxframesize.
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out.write(size >> 8);
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out.write(size & 255);
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}
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memcpy(out.wr(), f, size);
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out.written(size);
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opt_write(framecount_out, 1);
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}
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int minframesize, maxframesize;
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int chunk_size;
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pipereader<u8> in;
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pipewriter<u8> out;
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pipewriter<int> *lock_out;
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pipewriter<int> *framecount_out, *fcserrcount_out;
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pipewriter<int> *hdlcbytecount_out, *databytecount_out;
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static const int NSYNCS = 2; // Two possible polarities
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static const int NERRHIST = 2; // Compare error counts over two frames
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struct
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{
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hdlc_dec *dec;
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int errhist[NERRHIST];
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} syncs[NSYNCS];
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int errslot;
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int cur_sync;
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int resync_phase;
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bool lock_state;
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public:
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int resync_period;
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bool header16; // Output length prefix
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};
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// hdlc_sync
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}// namespace
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#endif // LEANSDR_HDLC_H
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