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548 lines
18 KiB
C
548 lines
18 KiB
C
// -*- Mode: C; c-basic-offset: 2; -*-
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//
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// Copyright (c) 2012 Andrew Tridgell, All Rights Reserved
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//
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions
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// are met:
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//
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// o Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// o Redistributions in binary form must reproduce the above copyright
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// notice, this list of conditions and the following disclaimer in
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// the documentation and/or other materials provided with the distribution.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
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// FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
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// COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
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// INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
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// SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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// HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
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// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
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// OF THE POSSIBILITY OF SUCH DAMAGE.
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//
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/*
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Portions Copyright (C) 2013 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 "overlay_buffer.h"
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#include "overlay_interface.h"
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#include "golay.h"
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#include "radio_link.h"
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#define MAVLINK_MSG_ID_RADIO 166
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#define MAVLINK_MSG_ID_DATASTREAM 67
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// use '3D' for 3DRadio
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#define RADIO_SOURCE_SYSTEM '3'
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#define RADIO_SOURCE_COMPONENT 'D'
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/*
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we use a hand-crafted MAVLink packet based on the following
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message definition
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struct mavlink_RADIO_v10 {
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uint16_t rxerrors; // receive errors
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uint16_t fixed; // count of error corrected packets
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uint8_t rssi; // local signal strength
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uint8_t remrssi; // remote signal strength
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uint8_t txbuf; // percentage free space in transmit buffer
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uint8_t noise; // background noise level
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uint8_t remnoise; // remote background noise level
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};
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*/
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#define FEC_LENGTH 32
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#define FEC_MAX_BYTES 223
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#define RADIO_HEADER_LENGTH 6
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#define RADIO_USED_HEADER_LENGTH 4
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#define RADIO_CRC_LENGTH 2
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#define LINK_PAYLOAD_MTU (LINK_MTU - FEC_LENGTH - RADIO_HEADER_LENGTH - RADIO_CRC_LENGTH)
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struct radio_link_state{
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// next seq for transmission
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int tx_seq;
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// small buffer for parsing incoming bytes from the serial interface,
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// looking for recoverable link layer packets
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// should be large enough to hold at least one packet from the remote end
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// plus one heartbeat packet from the local firmware
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uint8_t payload[LINK_MTU*3];
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// decoded length of next link layer packet
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// including all header and footer bytes
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size_t payload_length;
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// last rx seq for reassembly
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int seq;
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// offset within payload that we have found a valid looking header
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unsigned payload_start;
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// offset after payload_start for incoming bytes
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unsigned payload_offset;
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// small buffer for assembling mdp payloads.
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uint8_t dst[MDP_MTU];
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// length of recovered packet
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size_t packet_length;
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// next firmware heartbeat
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time_ms_t next_heartbeat;
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time_ms_t last_packet;
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// parsed rssi
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int radio_rssi;
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int remote_rssi;
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// estimated firmware buffer space
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int32_t remaining_space;
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// next serial write
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time_ms_t next_tx_allowed;
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// partially sent packet
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struct overlay_buffer *tx_packet;
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// serial write buffer
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uint8_t txbuffer[LINK_MTU];
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int tx_bytes;
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int tx_pos;
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};
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/*
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Each mavlink frame consists of 0xfe followed by a standard 6 byte header.
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Normally the payload plus a 2-byte CRC follows.
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We are replacing the CRC check with a Reed-Solomon code to correct as well
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as detect upto 16 bytes with errors, in return for a 32-byte overhead.
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The nature of the particular library we are using is that the overhead is
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basically fixed, but we can shorten the data section.
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Note that the mavlink headers are not protected against errors. This is a
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limitation of the radio firmware at present. One day we will re-write the
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radio firmware so that we can send and receive raw radio frames, and get
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rid of the mavlink framing altogether, and just send R-S protected payloads.
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Not ideal, but will be fine for now.
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*/
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#include "fec-3.0.1/fixed.h"
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void encode_rs_8(data_t *data, data_t *parity,int pad);
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int decode_rs_8(data_t *data, int *eras_pos, int no_eras, int pad);
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int radio_link_free(struct overlay_interface *interface)
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{
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if (interface->radio_link_state){
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free(interface->radio_link_state);
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interface->radio_link_state=NULL;
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}
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return 0;
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}
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int radio_link_init(struct overlay_interface *interface)
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{
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interface->radio_link_state = emalloc_zero(sizeof(struct radio_link_state));
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return 0;
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}
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void radio_link_state_html(struct strbuf *b, struct overlay_interface *interface)
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{
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struct radio_link_state *state = interface->radio_link_state;
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strbuf_sprintf(b, "RSSI: %ddB<br>", state->radio_rssi);
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strbuf_sprintf(b, "Remote RSSI: %ddB<br>", state->remote_rssi);
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}
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// write a new link layer packet to interface->txbuffer
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// consuming more bytes from the next interface->tx_packet if required
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static int radio_link_encode_packet(struct radio_link_state *link_state)
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{
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// if we have nothing interesting left to send, don't create a packet at all
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if (!link_state->tx_packet)
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return 0;
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int count = ob_remaining(link_state->tx_packet);
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int startP = (ob_position(link_state->tx_packet) == 0);
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int endP = 1;
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if (count > LINK_PAYLOAD_MTU){
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count = LINK_PAYLOAD_MTU;
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endP = 0;
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}
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link_state->txbuffer[0]=0xfe; // mavlink v1.0 magic header
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// we need to add FEC_LENGTH for FEC, but the length field doesn't include the expected headers or CRC
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int len = count + FEC_LENGTH - RADIO_CRC_LENGTH;
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link_state->txbuffer[1]=len; // mavlink payload length
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link_state->txbuffer[2]=(len & 0xF);
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link_state->txbuffer[3]=0;
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// add golay encoding so that decoding the actual length is more reliable
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golay_encode(&link_state->txbuffer[1]);
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link_state->txbuffer[4]=(link_state->tx_seq++) & 0x3f;
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if (startP) link_state->txbuffer[4]|=0x40;
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if (endP) link_state->txbuffer[4]|=0x80;
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link_state->txbuffer[5]=MAVLINK_MSG_ID_DATASTREAM;
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ob_get_bytes(link_state->tx_packet, &link_state->txbuffer[6], count);
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encode_rs_8(&link_state->txbuffer[4], &link_state->txbuffer[6+count], FEC_MAX_BYTES - (count+2));
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link_state->tx_bytes=len + RADIO_CRC_LENGTH + RADIO_HEADER_LENGTH;
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if (endP){
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ob_free(link_state->tx_packet);
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link_state->tx_packet=NULL;
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overlay_queue_schedule_next(gettime_ms());
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}
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return 0;
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}
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int radio_link_is_busy(struct overlay_interface *interface)
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{
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if (interface->radio_link_state && interface->radio_link_state->tx_packet)
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return 1;
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return 0;
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}
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int radio_link_queue_packet(struct overlay_interface *interface, struct overlay_buffer *buffer)
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{
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struct radio_link_state *link_state = interface->radio_link_state;
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if (link_state->tx_packet){
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ob_free(buffer);
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return WHYF("Cannot send two packets to a stream at the same time");
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}
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// prepare the buffer for reading
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ob_flip(buffer);
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link_state->tx_packet = buffer;
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radio_link_tx(interface);
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return 0;
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}
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static int build_heartbeat(struct radio_link_state *link_state)
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{
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int count=9;
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bzero(link_state->txbuffer, count + RADIO_CRC_LENGTH + RADIO_HEADER_LENGTH);
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link_state->txbuffer[0]=0xfe; // mavlink v1.0 link_state->txbuffer
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// Must be 9 to indicate heartbeat
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link_state->txbuffer[1]=count; // payload len, excluding 6 byte header and 2 byte CRC
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link_state->txbuffer[2]=(count & 0xF); // packet sequence
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link_state->txbuffer[3]=0x00; // system ID of sender (MAV_TYPE_GENERIC)
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// we're golay encoding the length to improve the probability of skipping it correctly
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golay_encode(&link_state->txbuffer[1]);
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link_state->txbuffer[4]=0xf1; // component ID of sender (MAV_COMP_ID_UART_BRIDGE)
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// Must be zero to indicate heartbeat
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link_state->txbuffer[5]=0; // message ID type of this link_state->txbuffer: DATA_STREAM
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// extra magic number to help correctly detect remote heartbeat requests
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link_state->txbuffer[14]=0x55;
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link_state->txbuffer[15]=0x05;
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golay_encode(&link_state->txbuffer[14]);
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link_state->tx_bytes = count + RADIO_CRC_LENGTH + RADIO_HEADER_LENGTH;
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if (config.debug.radio_link)
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DEBUGF("Produced heartbeat");
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return 0;
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}
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// write a new link layer packet to interface->txbuffer
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// consuming more bytes from the next interface->tx_packet if required
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int radio_link_tx(struct overlay_interface *interface)
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{
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struct radio_link_state *link_state = interface->radio_link_state;
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unschedule(&interface->alarm);
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interface->alarm.alarm = 0;
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time_ms_t next_tick = interface->destination->last_tx+interface->destination->ifconfig.tick_ms;
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time_ms_t now = gettime_ms();
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while(1){
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if (link_state->tx_bytes){
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if (link_state->next_tx_allowed > now){
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interface->alarm.alarm = link_state->next_tx_allowed;
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break;
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}
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int written=write(interface->alarm.poll.fd, &link_state->txbuffer[link_state->tx_pos], link_state->tx_bytes);
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if (written<=0){
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interface->alarm.poll.events|=POLLOUT;
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break;
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}
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link_state->remaining_space-=written;
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link_state->tx_bytes-=written;
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if (link_state->tx_bytes)
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link_state->tx_pos+=written;
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else
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link_state->tx_pos=0;
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continue;
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}
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interface->alarm.poll.events&=~POLLOUT;
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if (link_state->next_heartbeat<=now){
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build_heartbeat(link_state);
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link_state->next_heartbeat = now + 1000;
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continue;
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}
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// out of space? Don't bother to send anything interesting
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// until we hear the next heartbeat response
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if (link_state->remaining_space < LINK_MTU + HEARTBEAT_SIZE){
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interface->alarm.alarm = link_state->next_heartbeat;
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break;
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}
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if (link_state->remaining_space < LINK_MTU + HEARTBEAT_SIZE)
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link_state->next_heartbeat = now;
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if (!link_state->tx_packet){
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// finished current packet, wait for more.
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interface->alarm.alarm = next_tick;
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break;
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}
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// encode another packet fragment
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radio_link_encode_packet(link_state);
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link_state->last_packet = now;
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}
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watch(&interface->alarm);
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if (interface->alarm.alarm<now)
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interface->alarm.alarm=now;
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if (interface->alarm.alarm){
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interface->alarm.deadline = interface->alarm.alarm+100;
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schedule(&interface->alarm);
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}
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return 0;
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}
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static int parse_heartbeat(struct radio_link_state *state, const unsigned char *payload)
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{
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if (payload[0]==0xFE
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&& payload[1]==9
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&& payload[3]==RADIO_SOURCE_SYSTEM
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&& payload[4]==RADIO_SOURCE_COMPONENT
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&& payload[5]==MAVLINK_MSG_ID_RADIO){
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// we can assume that radio status packets arrive without corruption
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state->radio_rssi=(1.0*payload[10]-payload[13])/1.9;
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state->remote_rssi=(1.0*payload[11] - payload[14])/1.9;
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int free_space = payload[12];
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int free_bytes = (free_space * 1280) / 100 - 30;
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state->remaining_space = free_bytes;
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if (free_bytes>0)
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state->next_tx_allowed = gettime_ms();
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if (free_bytes>720)
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state->next_heartbeat=gettime_ms()+1000;
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if (config.debug.packetradio)
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INFOF("Link budget = %+ddB, remote link budget = %+ddB, buffer space = %d%% (approx %d)",
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state->radio_rssi,
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state->remote_rssi,
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free_space, free_bytes);
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return 1;
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}
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return 0;
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}
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static int radio_link_parse(struct overlay_interface *interface, struct radio_link_state *state,
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size_t packet_length, uint8_t *payload, int *backtrack)
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{
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*backtrack=0;
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if (packet_length==17){
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// if we've heard the start and end of a remote heartbeat request
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// we can skip it without checking anything else
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int errs=0;
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int tail = golay_decode(&errs, &payload[14]);
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if (tail == 0x555){
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if (config.debug.radio_link)
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DEBUGF("Decoded remote heartbeat request");
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return 1;
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}
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return 0;
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}
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size_t data_bytes = packet_length - (RADIO_USED_HEADER_LENGTH + FEC_LENGTH);
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int errors=decode_rs_8(&payload[4], NULL, 0, FEC_MAX_BYTES - data_bytes);
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if (errors==-1){
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if (config.debug.radio_link)
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DEBUGF("Reed-Solomon error correction failed");
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return 0;
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}
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*backtrack=errors;
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data_bytes -= 2;
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int seq=payload[4]&0x3f;
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if (config.debug.radio_link){
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DEBUGF("Received RS protected message, len: %zd, errors: %d, seq: %d, flags:%s%s",
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data_bytes,
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errors,
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seq,
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payload[4]&0x40?" start":"",
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payload[4]&0x80?" end":"");
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}
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if (seq != ((state->seq+1)&0x3f)){
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// reject partial packet if we missed a sequence number
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if (config.debug.radio_link)
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DEBUGF("Rejecting packet, sequence jumped from %d to %d", state->seq, seq);
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state->packet_length=sizeof(state->dst)+1;
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}
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if (payload[4]&0x40){
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// start a new packet
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state->packet_length=0;
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}
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state->seq=payload[4]&0x3f;
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if (state->packet_length + data_bytes > sizeof(state->dst)){
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if (config.debug.radio_link)
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DEBUG("Fragmented packet is too long or a previous piece was missed - discarding");
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state->packet_length=sizeof(state->dst)+1;
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return 1;
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}
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bcopy(&payload[RADIO_HEADER_LENGTH], &state->dst[state->packet_length], data_bytes);
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state->packet_length+=data_bytes;
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if (payload[4]&0x80) {
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if (config.debug.radio_link)
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DEBUGF("PDU Complete (length=%zd)",state->packet_length);
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packetOkOverlay(interface, state->dst, state->packet_length, NULL);
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state->packet_length=sizeof(state->dst)+1;
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}
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return 1;
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}
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static int decode_length(struct radio_link_state *state, unsigned char *p)
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{
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// look for a valid golay encoded length
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int errs=0;
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int gd = golay_decode(&errs, p);
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if (gd<0 || ((gd >>8) & 0xF) != (gd&0xF))
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return -1;
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size_t length = gd&0xFF;
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length += RADIO_HEADER_LENGTH + RADIO_CRC_LENGTH;
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if (length!=17 && (length <= FEC_LENGTH || length > LINK_MTU))
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return -1;
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if (config.debug.radio_link && (errs || state->payload_length!=*p))
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DEBUGF("Decoded length %u to %zu with %d errs", *p, length, errs);
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state->payload_length=length;
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return 0;
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}
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// add one byte at a time from the serial link, and attempt to decode packets
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int radio_link_decode(struct overlay_interface *interface, uint8_t c)
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{
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IN();
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struct radio_link_state *state=interface->radio_link_state;
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if (state->payload_start + state->payload_offset >= sizeof state->payload){
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// drop one byte if we run out of space
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if (config.debug.radio_link)
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DEBUGF("Dropped %02x, buffer full", state->payload[0]);
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bcopy(state->payload+1, state->payload, sizeof(state->payload) -1);
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state->payload_start--;
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}
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unsigned char *p = &state->payload[state->payload_start];
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p[state->payload_offset++]=c;
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while(1){
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// look for packet length headers
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p = &state->payload[state->payload_start];
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while(state->payload_length==0 && state->payload_offset>=6){
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if (p[0]==0xFE
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&& p[1]==9
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&& p[3]==RADIO_SOURCE_SYSTEM
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&& p[4]==RADIO_SOURCE_COMPONENT
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&& p[5]==MAVLINK_MSG_ID_RADIO){
|
|
//looks like a valid heartbeat response header, read the rest and process it
|
|
state->payload_length=17;
|
|
break;
|
|
}
|
|
|
|
if (decode_length(state, &p[1])==0)
|
|
break;
|
|
|
|
state->payload_start++;
|
|
state->payload_offset--;
|
|
p++;
|
|
}
|
|
|
|
// wait for a whole packet
|
|
if (!state->payload_length || state->payload_offset < state->payload_length)
|
|
RETURN(0);
|
|
|
|
if (parse_heartbeat(state, p)){
|
|
// cut the bytes of the heartbeat out of the buffer
|
|
state->payload_offset -= state->payload_length;
|
|
if (state->payload_offset){
|
|
// shuffle bytes backwards
|
|
bcopy(&p[state->payload_length], p, state->payload_offset);
|
|
}
|
|
// restart parsing for a valid header from the beginning of out buffer
|
|
state->payload_offset+=state->payload_start;
|
|
state->payload_start=0;
|
|
state->payload_length=0;
|
|
continue;
|
|
}
|
|
|
|
// is this a well formed packet?
|
|
int backtrack=0;
|
|
if (radio_link_parse(interface, state, state->payload_length, p, &backtrack)==1){
|
|
// Since we know we've synced with the remote party,
|
|
// and there's nothing we can do about any earlier data
|
|
// throw away everything before the end of this packet
|
|
if (state->payload_start && config.debug.radio_link)
|
|
dump("Skipped", state->payload, state->payload_start);
|
|
|
|
// If the packet is truncated by less than 16 bytes, RS protection should be enough to recover the packet,
|
|
// but we may need to examine the last few bytes to find the start of the next packet.
|
|
state->payload_offset -= state->payload_length - backtrack;
|
|
if (state->payload_offset){
|
|
// shuffle all remaining bytes back to the start of the buffer
|
|
bcopy(&state->payload[state->payload_start + state->payload_length - backtrack],
|
|
state->payload, state->payload_offset);
|
|
}
|
|
state->payload_start=0;
|
|
}else{
|
|
// ignore the first byte for now and start looking for another packet header
|
|
// we may find a heartbeat in the middle that we need to cut out first
|
|
state->payload_start++;
|
|
state->payload_offset--;
|
|
}
|
|
state->payload_length=0;
|
|
};
|
|
RETURN(0);
|
|
}
|