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484 lines
15 KiB
C
484 lines
15 KiB
C
/*
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Serval Distributed Numbering Architecture (DNA)
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Copyright (C) 2012 Paul Gardner-Stephen
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*/
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#include "serval.h"
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#include "conf.h"
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#include "log.h"
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#define DEBUG_packet_visualise(M,P,N) logServalPacket(LOG_LEVEL_DEBUG, __WHENCE__, (M), (P), (N))
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/* SLIP-style escape characters used for serial packet radio interfaces */
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#define SLIP_END 0xc0
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#define SLIP_ESC 0xdb
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#define SLIP_0a 0x0a
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#define SLIP_0d 0x0d
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#define SLIP_0f 0x0f
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#define SLIP_1b 0x1b
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#define SLIP_ESC_END 0xdc
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#define SLIP_ESC_ESC 0xdd
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#define SLIP_ESC_0a 0x7a
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#define SLIP_ESC_0d 0x7d
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#define SLIP_ESC_0f 0x7f
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#define SLIP_ESC_1b 0x6b
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/* interface decoder state bits */
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#define DC_VALID 1
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#define DC_ESC 2
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static int encode_slip(const unsigned char *src, int src_bytes, unsigned char *dst, int dst_len)
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{
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int i, offset=0;
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for (i=0;i<src_bytes;i++){
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if (offset+3>dst_len)
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return WHY("Dest buffer full");
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switch(src[i]) {
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case SLIP_END:
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dst[offset++]=SLIP_ESC;
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dst[offset++]=SLIP_ESC_END;
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break;
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case SLIP_ESC:
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dst[offset++]=SLIP_ESC;
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dst[offset++]=SLIP_ESC_ESC;
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break;
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case SLIP_0a:
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dst[offset++]=SLIP_ESC;
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dst[offset++]=SLIP_ESC_0a;
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break;
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case SLIP_0d:
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dst[offset++]=SLIP_ESC;
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dst[offset++]=SLIP_ESC_0d;
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break;
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case SLIP_0f:
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dst[offset++]=SLIP_ESC;
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dst[offset++]=SLIP_ESC_0f;
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break;
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case SLIP_1b:
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dst[offset++]=SLIP_ESC;
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dst[offset++]=SLIP_ESC_1b;
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break;
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default:
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dst[offset++]=src[i];
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}
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}
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return offset;
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}
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int slip_encode(int format,
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const unsigned char *src, int src_bytes, unsigned char *dst, int dst_len)
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{
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switch(format) {
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case SLIP_FORMAT_SLIP:
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{
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int offset=0;
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if (offset+2>dst_len)
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return WHY("Dest buffer full");
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dst[offset++]=SLIP_END;
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int ret=encode_slip(src, src_bytes, dst + offset, dst_len - offset);
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if (ret<0)
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return ret;
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offset+=ret;
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unsigned char crc[4];
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write_uint32(crc, Crc32_ComputeBuf( 0, src, src_bytes));
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ret=encode_slip(crc, 4, dst + offset, dst_len - offset);
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if (ret<0)
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return ret;
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offset+=ret;
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dst[offset++]=SLIP_END;
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return offset;
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}
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case SLIP_FORMAT_UPPER7:
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/*
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The purpose of this encoder is to work nicely with the RFD900 radios,
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including allowing the reception of RSSI information in the middle of
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packets.
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RSSI reports look like:
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L/R RSSI: 48/0 L/R noise: 62/0 pkts: 0 txe=0 rxe=0 stx=0 srx=0 ecc=0/0 temp=21 dco=0
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So we are using 0x80-0xff to hold data, and { and } to frame packets.
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*/
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if (config.debug.slip)
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dump("pre-slipped packet",src,src_bytes);
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{
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if (src_bytes<1) return 0;
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if (src_bytes>0x3fff)
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return WHYF("UPPER7 SLIP encoder packets must be <=0x3fff bytes");
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if (dst_len<(9+src_bytes+(src_bytes/7)+1))
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return WHYF("UPPER7 SLIP encoder requires 9+(8/7)*bytes to encode");
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int i,j;
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int out_len=0;
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// Start of packet marker
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dst[out_len++]='{';
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// Length of (unencoded) packet
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dst[out_len++]=0x80+((src_bytes>>7)&0x7f);
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dst[out_len++]=0x80+((src_bytes>>0)&0x7f);
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// Add 32-bit CRC
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// (putting the CRC at the front allows it to be calculated progressively
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// on the receiver side, if we decide to support that)
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uint32_t crc=Crc32_ComputeBuf( 0, src, src_bytes);
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dst[out_len++]=0x80|((crc>>25)&0x7f);
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dst[out_len++]=0x80|((crc>>(25-7))&0x7f);
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dst[out_len++]=0x80|((crc>>(25-7-7))&0x7f);
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dst[out_len++]=0x80|((crc>>(25-7-7-7))&0x7f);
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dst[out_len++]=0x80|((crc>>0)&0x7f);
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for(i=0;i<src_bytes;i+=7)
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{
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// Create 8 bytes of output consisting of 8x7 bits
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// Generate vector of 7 bytes to encode
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unsigned char v[7];
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for(j=0;j<7&&i+j<src_bytes;j++) v[j]=src[i+j];
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for(;j<7;j++) v[j]=0;
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if (out_len+8>dst_len)
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return WHYF("Ran out of space in UPPER7 SLIP encoder (used all %d bytes after encoding %d of %d bytes)",
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dst_len,i,src_bytes);
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// We could use a nice for loop to do this, but for 8 bytes, let's
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// just do it explicitly.
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dst[out_len++]=0x80| (v[0]>>1);
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dst[out_len++]=0x80|((v[0]&0x01)<<6)|(v[1]>>2);
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dst[out_len++]=0x80|((v[1]&0x03)<<5)|(v[2]>>3);
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dst[out_len++]=0x80|((v[2]&0x07)<<4)|(v[3]>>4);
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dst[out_len++]=0x80|((v[3]&0x0f)<<3)|(v[4]>>5);
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dst[out_len++]=0x80|((v[4]&0x1f)<<2)|(v[5]>>6);
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dst[out_len++]=0x80|((v[5]&0x3f)<<1)|(v[6]>>7);
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dst[out_len++]=0x80|((v[6]&0x7f)<<0);
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}
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// Mark end of packet
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dst[out_len++]='}';
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// Detect fatal miscalculations on byte counts
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if (out_len>dst_len) {
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FATALF("overran output buffer in SLIP UPPER7 encapsulation of packet (used %d of %d bytes)",out_len,dst_len);
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}
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return out_len;
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}
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default:
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return WHYF("Unsupported slip encoding #%d",format);
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}
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}
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time_ms_t last_rssi_time=0;
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int last_radio_rssi=-999;
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int last_radio_temperature=-999;
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int last_radio_rxpackets=0;
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int parse_rfd900_rssi(char *s)
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{
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int lrssi,rrssi,lnoise,rnoise,rxpackets,temp;
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// L/R RSSI: 48/0 L/R noise: 62/0 pkts: 0 txe=0 rxe=0 stx=0 srx=0 ecc=0/0 temp=21 dco=0
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if (sscanf(s,"L/R RSSI: %d/%d L/R noise: %d/%d pkts: %d txe=%*d rxe=%*d stx=%*d srx=%*d ecc=%*d/%*d temp=%d dco=%*d",
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&lrssi,&rrssi,&lnoise,&rnoise,&rxpackets, &temp)==6)
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{
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int lmargin=(lrssi-lnoise)/1.9;
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int rmargin=(rrssi-rnoise)/1.9;
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int maxmargin=lmargin; if (rmargin>maxmargin) maxmargin=rmargin;
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last_radio_rssi=maxmargin;
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last_radio_temperature=temp;
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last_radio_rxpackets=rxpackets;
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if (gettime_ms()-last_rssi_time>30000) {
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INFOF("Link budget = %+ddB, temperature=%dC",maxmargin,temp);
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last_rssi_time=gettime_ms();
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}
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}
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return 0;
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}
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#define UPPER7_STATE_NOTINPACKET 0
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#define UPPER7_STATE_L1 1
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#define UPPER7_STATE_L2 2
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#define UPPER7_STATE_C1 3
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#define UPPER7_STATE_C2 4
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#define UPPER7_STATE_C3 5
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#define UPPER7_STATE_C4 6
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#define UPPER7_STATE_C5 7
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#define UPPER7_STATE_D0 8
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#define UPPER7_STATE_D1 9
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#define UPPER7_STATE_D2 10
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#define UPPER7_STATE_D3 11
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#define UPPER7_STATE_D4 12
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#define UPPER7_STATE_D5 13
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#define UPPER7_STATE_D6 14
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#define UPPER7_STATE_D7 15
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int u7d_calls=0;
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int upper7_decode(struct slip_decode_state *state,unsigned char byte)
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{
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IN()
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u7d_calls++;
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if (config.debug.slipdecode)
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snprintf(crash_handler_clue,1024,
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"upper7_decode() call #%d: state=%d, byte=0x%02x, rssi_len=%d, dst_offset=%d",
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u7d_calls,state->state,byte,state->rssi_len,state->dst_offset);
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if (config.debug.slipbytestream)
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WHYF("call #%d: state=%d, byte=0x%02x, rssi_len=%d, dst_offset=%d",
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u7d_calls,state->state,byte,state->rssi_len,state->dst_offset);
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// Parse out inline RSSI reports
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if (byte=='{') {
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state->state=UPPER7_STATE_L1;
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state->packet_length=0;
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RETURN(0);
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} else if (byte=='}') {
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// End of packet marker -- report end of received packet to caller
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// for CRC verification etc.
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state->state=UPPER7_STATE_NOTINPACKET; RETURN(1);
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} else if (byte>=' '&&byte<=0x7f) {
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if (state->rssi_len<0) state->rssi_len=0;
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if (state->rssi_len<RSSI_TEXT_SIZE)
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state->rssi_text[state->rssi_len++]=byte;
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RETURN(0);
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} else if (byte=='\r'||byte=='\n') {
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if (state->rssi_len>=RSSI_TEXT_SIZE) state->rssi_len=RSSI_TEXT_SIZE-1;
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if (state->rssi_len<0) state->rssi_len=0;
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state->rssi_text[state->rssi_len]=0;
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parse_rfd900_rssi(state->rssi_text);
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state->rssi_len=0;
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}
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// Non-data bytes (none currently used, but we need to catch them before
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// moving onto processing data bytes)
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if (byte<0x80) {
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RETURN(0);
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}
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// Data bytes and packet fields
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byte&=0x7f;
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if (state->packet_length>=OVERLAY_INTERFACE_RX_BUFFER_SIZE
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||(state->dst_offset+7)>=OVERLAY_INTERFACE_RX_BUFFER_SIZE
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||state->dst_offset<0)
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{
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WARNF("state=%p, state->dst_offset=%d, ->packet_length=%d, ->state=%d. State reset.",
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state,state->dst_offset,state->packet_length,state->state);
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state->state=UPPER7_STATE_NOTINPACKET;
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state->dst_offset=0;
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state->packet_length=0;
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RETURN(0);
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}
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switch(state->state) {
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case UPPER7_STATE_NOTINPACKET: RETURN(0);
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case UPPER7_STATE_L1: state->packet_length=byte<<7; state->state++; RETURN(0);
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case UPPER7_STATE_L2: state->packet_length|=byte;
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// Make sure packet length can fit in RX buffer, including that we might
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// need upto 7 bytes extra temporary space due to blocking
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if ((state->packet_length+7)<OVERLAY_INTERFACE_RX_BUFFER_SIZE) {
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state->state++;
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state->dst_offset=0;
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} else {
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if (config.debug.packetradio)
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DEBUGF("Ignoring jumbo packet of %d bytes",state->packet_length);
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state->state=UPPER7_STATE_NOTINPACKET;
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}
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RETURN(0);
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case UPPER7_STATE_C1: state->crc=byte<<25; state->state++; RETURN(0);
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case UPPER7_STATE_C2: state->crc|=byte<<(25-7); state->state++; RETURN(0);
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case UPPER7_STATE_C3: state->crc|=byte<<(25-7-7); state->state++; RETURN(0);
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case UPPER7_STATE_C4: state->crc|=byte<<(25-7-7-7); state->state++; RETURN(0);
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case UPPER7_STATE_C5: state->crc|=byte<<0; state->state++; RETURN(0);
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case UPPER7_STATE_D0:
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if (state->packet_length>=OVERLAY_INTERFACE_RX_BUFFER_SIZE
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||(state->dst_offset+7)>=OVERLAY_INTERFACE_RX_BUFFER_SIZE
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||state->dst_offset<0)
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{
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WARNF("state->dst_offset=%d, ->packet_length=%d, ->state=%d. State reset (again).",
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state->dst_offset,state->packet_length,state->state);
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state->state=UPPER7_STATE_NOTINPACKET;
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state->dst_offset=0;
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state->packet_length=0;
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RETURN(0);
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}
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state->dst[state->dst_offset]=byte<<1;
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state->state++;
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RETURN(0);
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case UPPER7_STATE_D1:
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state->dst[state->dst_offset+0]|=(byte>>6)&0x01;
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state->dst[state->dst_offset+1]=(byte<<2);
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state->state++;
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RETURN(0);
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case UPPER7_STATE_D2:
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state->dst[state->dst_offset+1]|=(byte>>5)&0x03;
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state->dst[state->dst_offset+2]=(byte<<3);
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state->state++;
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RETURN(0);
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case UPPER7_STATE_D3:
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state->dst[state->dst_offset+2]|=(byte>>4)&0x07;
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state->dst[state->dst_offset+3]=(byte<<4);
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state->state++;
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RETURN(0);
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case UPPER7_STATE_D4:
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state->dst[state->dst_offset+3]|=(byte>>3)&0x0f;
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state->dst[state->dst_offset+4]=(byte<<5);
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state->state++;
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RETURN(0);
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case UPPER7_STATE_D5:
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state->dst[state->dst_offset+4]|=(byte>>2)&0x1f;
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state->dst[state->dst_offset+5]=(byte<<6);
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state->state++;
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RETURN(0);
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case UPPER7_STATE_D6:
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state->dst[state->dst_offset+5]|=(byte>>1)&0x3f;
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state->dst[state->dst_offset+6]=(byte<<7);
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state->state++;
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RETURN(0);
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case UPPER7_STATE_D7:
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state->dst[state->dst_offset+6]|=(byte>>0)&0x7f;
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state->dst_offset+=7;
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state->state=UPPER7_STATE_D0;
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RETURN(0);
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default:
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state->state=UPPER7_STATE_NOTINPACKET;
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RETURN(0);
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}
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OUT();
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}
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/* state->src and state->src_size contain the freshly read bytes
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we must accumulate any partial state between calls.
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*/
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int slip_decode(struct slip_decode_state *state)
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{
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switch(state->encapsulator) {
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case SLIP_FORMAT_SLIP:
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{
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/*
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Examine received bytes for end of packet marker.
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The challenge is that we need to make sure that the packet encapsulation
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is self-synchronising in the event that a data error occurs (including
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failure to receive an arbitrary number of bytes).
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*/
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while(state->src_offset < state->src_size){
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// clear the valid bit flag if we hit the end of the destination buffer
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if (state->dst_offset>=sizeof(state->dst))
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state->state&=~DC_VALID;
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if (state->state&DC_ESC){
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// clear escape bit
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state->state&=~DC_ESC;
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switch(state->src[state->src_offset]) {
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case SLIP_ESC_END: // escaped END byte
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state->dst[state->dst_offset++]=SLIP_END;
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break;
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case SLIP_ESC_ESC: // escaped escape character
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state->dst[state->dst_offset++]=SLIP_ESC;
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break;
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case SLIP_ESC_0a:
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state->dst[state->dst_offset++]=SLIP_0a;
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break;
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case SLIP_ESC_0d:
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state->dst[state->dst_offset++]=SLIP_0d;
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break;
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case SLIP_ESC_0f:
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state->dst[state->dst_offset++]=SLIP_0f;
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break;
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case SLIP_ESC_1b:
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state->dst[state->dst_offset++]=SLIP_1b;
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break;
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default: /* Unknown escape character. This is an error. */
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if (config.debug.packetradio)
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WARNF("Packet radio stream contained illegal escaped byte 0x%02x -- resetting parser.",state->src[state->src_offset]);
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state->dst_offset=0;
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// skip everything until the next SLIP_END
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state->state=0;
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}
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}else{
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// non-escape character
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switch(state->src[state->src_offset]) {
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case SLIP_ESC:
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// set escape bit
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state->state|=DC_ESC;
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break;
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case SLIP_END:
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if (state->dst_offset>4){
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uint32_t src_crc = read_uint32(state->dst + state->dst_offset -4);
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uint32_t crc=Crc32_ComputeBuf( 0, state->dst, state->dst_offset -4);
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if (src_crc != crc){
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DEBUGF("Dropping frame due to CRC failure (%08x vs %08x)", src_crc, crc);
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dump("frame", state->dst, state->dst_offset);
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state->dst_offset=0;
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state->state=0;
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break;
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}
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// return once we've successfully parsed a valid packet that isn't empty
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state->packet_length=state->dst_offset -4;
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return 1;
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|
}
|
|
// set the valid flag to begin parsing the next packet
|
|
state->state=DC_VALID;
|
|
break;
|
|
default:
|
|
if (state->state&DC_VALID)
|
|
state->dst[state->dst_offset++]=state->src[state->src_offset];
|
|
}
|
|
}
|
|
state->src_offset++;
|
|
}
|
|
return 0;
|
|
}
|
|
case SLIP_FORMAT_UPPER7:
|
|
{
|
|
if (config.debug.slip) {
|
|
if (state->rssi_len<0) state->rssi_len=0;
|
|
if (state->rssi_len>=RSSI_TEXT_SIZE) state->rssi_len=RSSI_TEXT_SIZE-1;
|
|
state->rssi_text[state->rssi_len]=0;
|
|
DEBUGF("RX state=%d, rssi_len=%d, rssi_text='%s',src=%p, src_size=%d",
|
|
state->state,state->rssi_len,state->rssi_text,
|
|
state->src,state->src_size);
|
|
}
|
|
while(state->src_offset<state->src_size) {
|
|
if (upper7_decode(state,state->src[state->src_offset++])==1) {
|
|
if (config.debug.slip) {
|
|
dump("de-slipped packet",state->dst,state->packet_length);
|
|
}
|
|
|
|
// Check that CRC matches
|
|
uint32_t crc=Crc32_ComputeBuf( 0, state->dst, state->packet_length);
|
|
if (crc!=state->crc) {
|
|
if (config.debug.packetradio||config.debug.rejecteddata)
|
|
DEBUGF("Rejected packet of %d bytes due to CRC mis-match (%08x vs %08x)",
|
|
state->packet_length,crc,state->crc);
|
|
if (config.debug.rejecteddata) {
|
|
dump("bad packet",state->dst,state->packet_length);
|
|
}
|
|
} else {
|
|
if (config.debug.packetradio)
|
|
DEBUGF("Accepted packet of %d bytes (CRC ok)",state->packet_length);
|
|
return 1;
|
|
}
|
|
}
|
|
}
|
|
}
|
|
return 0;
|
|
default:
|
|
return WHYF("Unknown SLIP encapsulation format #%d",state->encapsulator);
|
|
}
|
|
}
|