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dg-100.cc
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dg-100.cc
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/*
GlobalSat DG-100/DG-200 GPS data logger download.
Copyright (C) 2007 Mirko Parthey, mirko.parthey@informatik.tu-chemnitz.de
Copyright (C) 2005-2008 Robert Lipe, robertlipe+source@gpsbabel.org
Copyright (C) 2012 Nicolas Boullis, nboullis@debian.org
Copyright (C) 2014 Jean-Claude Repetto, gpsbabel@repetto.org
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
/*
DG-100 / DG-200 communication protocol specification:
http://www.usglobalsat.com/s-176-developer-information.aspx
*/
#include <cassert> // for assert
#include <cstdarg> // for va_end, va_list, va_start
#include <cstdint> // for uint8_t, uint16_t, int16_t
#include <cstdio> // for fprintf, stderr, size_t, vfprintf
#include <cstdlib> // for abs
#include <cstring> // for memcpy, memcmp, strcmp
#include <QByteArray> // for QByteArray
#include <QDate> // for QDate
#include <QDateTime> // for QDateTime
#include <QList> // for QList
#include <QScopedArrayPointer> // for QScopedArrayPointer
#include <QString> // for QString
#include <QTime> // for QTime
#include <Qt> // for TextDate, UTC
#include <QtGlobal> // for qPrintable
#include "defs.h"
#include "dg-100.h"
#include "gbfile.h" // for gbfread, gbfclose, gbfgetc, gbfopen, gbfile
#include "gbser.h" // for gbser_deinit, gbser_flush, gbser_init, gbser_read_wait, gbser_readc_wait, gbser_set_speed, gbser_write, gbser_ERROR, gbser_OK, gbser_NOTHING
#define MYNAME "DG-100"
const Dg100Format::dg100_command Dg100Format::dg100_commands[] = {
{ dg100cmd_getfile, 2, 1024, 2, "getfile" },
/* the getfileheader answer has variable length, -1 is a dummy value */
{ dg100cmd_getfileheader, 2, -1, 2, "getfileheader" },
{ dg100cmd_erase, 2, 4, 2, "erase" },
{ dg100cmd_getconfig, 0, 44, 2, "getconfig" },
{ dg100cmd_setconfig, 41, 4, 2, "setconfig" },
{ dg100cmd_getid, 0, 8, 2, "getid" },
{ dg100cmd_setid, 8, 4, 2, "setid" },
{ dg100cmd_gpsmouse, 1, 0, 0, "gpsmouse" }
};
const Dg100Format::dg100_command Dg100Format::dg200_commands[] = {
{ dg100cmd_getfile, 2, 1024, 2, "getfile" },
/* the getfileheader answer has variable length, -1 is a dummy value */
{ dg100cmd_getfileheader, 2, -1, 2, "getfileheader" },
{ dg100cmd_erase, 2, 4, 2, "erase" },
{ dg100cmd_getconfig, 0, 45, 2, "getconfig" },
{ dg100cmd_setconfig, 42, 4, 2, "setconfig" },
{ dg100cmd_getid, 0, 8, 2, "getid" },
{ dg100cmd_setid, 8, 4, 2, "setid" },
{ dg100cmd_gpsmouse, 1, 0, 0, "gpsmouse" },
{ dg200cmd_reset , 24, 0, 0, "reset" }
};
/* helper functions */
const Dg100Format::dg100_command*
Dg100Format::dg100_findcmd(int id) const
{
/* linear search should be OK as long as dg100_numcommands is small */
for (unsigned int i = 0; i < model->numcommands; i++) {
if (model->commands[i].id == id) {
return(&model->commands[i]);
}
}
return nullptr;
}
QDateTime
Dg100Format::bintime2utc(int date, int time)
{
int sec = time % 100;
time /= 100;
int min = time % 100;
time /= 100;
int hour = time;
/* GPS year: 2000+ */
int year = date % 100 + 2000;
date /= 100;
int mon = date % 100;
date /= 100;
int day = date;
return QDateTime(QDate(year, mon, day), QTime(hour, min, sec), Qt::UTC);
}
void
Dg100Format::dg100_debug(const char* hdr, int include_nl, size_t sz, unsigned char* buf)
{
/* Only give byte dumps for higher debug levels */
if (global_opts.debug_level < 5) {
return;
}
fprintf(stderr, "%s", hdr);
for (unsigned int i = 0; i < sz; i++) {
fprintf(stderr, "%02x ", buf[i]);
}
if (include_nl) {
fprintf(stderr, "\n");
}
}
void
Dg100Format::dg100_log(const char* fmt, ...)
{
va_list ap;
va_start(ap, fmt);
if (global_opts.debug_level > 0) {
vfprintf(stderr, fmt, ap);
}
va_end(ap);
}
/* TODO: check whether negative lat/lon (West/South) are handled correctly */
float
Dg100Format::bin2deg(int val)
{
/* Assume that val prints in decimal digits as [-]dddmmffff
* ddd: degrees
* mm: the integer part of minutes
* ffff: the fractional part of minutes (decimal fraction 0.ffff)
*/
/* avoid division of negative integers,
* which has platform-dependent results */
unsigned absval = abs(val);
bool isneg = (val < 0);
int deg_int = absval / 1000000; /* extract ddd */
int min_scaled = absval % 1000000; /* extract mmffff (minutes * 10^4) */
float deg = deg_int + (double) min_scaled / (10000 * 60);
/* restore the sign */
deg = isneg ? -deg : deg;
return(deg);
}
void
Dg100Format::process_gpsfile(uint8_t data[], route_head** track) const
{
const int recordsizes[3] = {8, 20, 32};
/* the first record of each file is always full-sized; its style field
* determines the format of all subsequent records in the file */
int style = be_read32(data + 28);
if (style > 2) {
fprintf(stderr, "unknown GPS record style %d", style);
return;
}
int recsize = recordsizes[style];
for (int i = 0; i <= 2048 - recsize; i += (i == 0) ? 32 : recsize) {
int manual_point = 0;
int lat = be_read32(data + i + 0);
int lon = be_read32(data + i + 4);
/* skip invalid trackpoints (blank records) */
if (lat == -1 && lon == -1) {
continue;
}
if ((i == 0) && (be_read32(data + i + 8) & 0x80000000)) {
/* This is the first point recorded after power-on; start a new track */
*track = nullptr;
}
if (*track == nullptr) {
int bintime = be_read32(data + i + 8) & 0x7FFFFFFF;
int bindate = be_read32(data + i + 12);
QDateTime creation_time = bintime2utc(bindate, bintime);
QString datetime = creation_time.toString(u"yyyy/MM/dd hh:mm:ss");
*track = new route_head;
(*track)->rte_name = QStringLiteral("%1 tracklog (%2)").arg(model->name, datetime);
(*track)->rte_desc = "GPS tracklog data";
track_add_head(*track);
}
auto* wpt = new Waypoint;
float latitude = bin2deg(lat);
if (latitude >= 100) {
manual_point = 1;
latitude -= 100;
} else if (latitude <= -100) {
manual_point = 1;
latitude += 100;
}
wpt->latitude = latitude;
wpt->longitude = bin2deg(lon);
if (style >= 1) {
int bintime = be_read32(data + i + 8) & 0x7FFFFFFF;
int bindate = be_read32(data + i + 12);
wpt->SetCreationTime(bintime2utc(bindate, bintime));
/* The device presents the speed as a fixed-point number
* with a scaling factor of 100, in km/h.
* The waypoint struct wants the speed as a
* floating-point number, in m/s. */
wpt->set_speed(KPH_TO_MPS(be_read32(data + i + 16) / 100.0));
}
if (style >= 2) {
wpt->altitude = be_read32(data + i + 20) / 10000.0;
}
if (manual_point) {
waypt_add(wpt);
} else {
track_add_wpt(*track, wpt);
}
}
}
uint16_t
Dg100Format::dg100_checksum(const uint8_t buf[], int count)
{
uint16_t sum = 0;
for (int i = 0; i < count; i++) {
sum += buf[i];
}
sum &= (1<<15) - 1;
return(sum);
}
/* communication functions */
size_t
Dg100Format::dg100_send(uint8_t cmd, const void* payload, size_t param_len) const
{
uint8_t frame[FRAME_MAXLEN];
uint16_t payload_len = 1 + param_len;
/* Frame length calculation:
* frame start sequence(2), payload length field(2), command id(1),
* param(variable length),
* checksum(2), frame end sequence(2) */
size_t framelen = 2 + 2 + 1 + param_len + 2 + 2;
assert(framelen <= FRAME_MAXLEN);
/* create frame head + command */
be_write16(frame + 0, 0xA0A2);
be_write16(frame + 2, payload_len);
frame[4] = cmd;
/*
* The behavior of memcpy is undefined if dest or src is nullptr,
* even with count zero!
* Note the dg100cmd_getconfig will have src == nullptr and count == 0!
*/
if (param_len > 0) {
assert(payload != nullptr);
/* copy payload */
memcpy(frame + 5, payload, param_len);
}
/* create frame tail */
uint16_t checksum = dg100_checksum(frame + 4, framelen - 8);
be_write16(frame + framelen - 4, checksum);
be_write16(frame + framelen - 2, 0xB0B3);
int n;
if (isfile) {
QScopedArrayPointer<uint8_t> buf(new uint8_t[framelen]);
if (gbfread(buf.data(), 1, framelen, fin) != framelen) {
fatal("failed to get data to compare to sent data.\n");
}
if (memcmp(frame, buf.data(), framelen) != 0) {
fatal("sent data does not match expected value.\n");
}
n = gbser_OK;
} else {
n = gbser_write(serial_handle, frame, framelen);
}
if (global_opts.debug_level) {
const dg100_command* cmdp = dg100_findcmd(cmd);
dg100_debug(n == 0 ? "Sent: " : "Error Sending:",
1, framelen, frame);
dg100_log("TX: Frame Start %02x %02x Payload_Len %04x Cmd: %s\n",
frame[0], frame[1], payload_len, cmdp->text);
}
if (n == gbser_ERROR) {
fatal("dg_100_send: write failed\n");
}
return (n);
}
int
Dg100Format::dg100_recv_byte() const
{
int result;
if (isfile) {
result = gbfgetc(fin);
if (result < 0) {
fatal("dg100_recv_byte(): read error\n");
}
} else {
/* allow for a delay of 40s;
* erasing the whole DG-100 memory takes about 21s */
result = gbser_readc_wait(serial_handle, 40000);
switch (result) {
case gbser_ERROR:
fatal("dg100_recv_byte(): error reading one byte\n");
case gbser_NOTHING:
fatal("dg100_recv_byte(): read timeout\n");
}
}
return result;
}
int
Dg100Format::dg100_read_wait(void* handle, void* buf, unsigned len, unsigned ms) const
{
if (isfile) {
return gbfread(buf, 1, len, fin);
} else {
return gbser_read_wait(handle, buf, len, ms);
}
}
/* payload returns a pointer into a static buffer (which also contains the
* framing around the data), so the caller must copy the data before calling
* this function again */
int
Dg100Format::dg100_recv_frame(const dg100_command** cmdinfo_result, uint8_t** payload) const
{
static uint8_t buf[FRAME_MAXLEN];
uint16_t payload_end_seq;
uint8_t c;
/* consume input until frame head sequence 0xA0A2 was received */
uint16_t frame_head = 0;
dg100_debug("Receiving ", 0, 0, nullptr);
do {
c = dg100_recv_byte();
dg100_debug("", 0, 1, &c);
frame_head <<= 8;
frame_head |= c;
} while (frame_head != 0xA0A2);
be_write16(buf + 0, frame_head);
/* To read the remaining data, we need to know how long the frame is.
*
* The obvious source of this information would be the payload length
* field, but the spec says that this field should be ignored in answers.
* Indeed, its value differs from the actual payload length.
*
* We could scan for the frame end sequences,
* but there is no guarantee that they do not appear within valid data.
*
* This means we can only calculate the length using information from
* the beginning of the frame, other than the payload length.
*
* The solution implemented here is to derive the frame length from the
* Command ID field, which is more of an answer ID. This is possible
* since for each answer ID, the frame length is either constant or it
* can be derived from the first two bytes of payload data.
*/
/* read Payload Length, Command ID, and two further bytes */
int i = dg100_read_wait(serial_handle, &buf[2], 5, 1000);
if (i < 5) {
fatal("Expected to read 5 bytes, but got %d\n", i);
}
dg100_debug("", 0, 5, &buf[2]);
uint16_t payload_len_field = be_read16(buf + 2);
uint8_t cmd = buf[4];
/*
* getconfig/setconfig have the same answer ID -
* this seems to be a firmware bug we must work around.
* Distinguish them by the (otherwise ignored) Payload Len field,
* which was observed as 53 for getconfig and 5 for setconfig.
*/
if (cmd == dg100cmd_getconfig && payload_len_field <= 20) {
cmd = dg100cmd_setconfig;
}
const dg100_command* cmdinfo = dg100_findcmd(cmd);
if (!cmdinfo) {
/* TODO: consume data until frame end signature,
* then report failure to the caller? */
fatal("unknown answer ID %02x\n", cmd);
}
int param_len = cmdinfo->recvsize;
/*
* the getfileheader answer has a varying param_len,
* we need to calculate it
*/
if (cmd == dg100cmd_getfileheader) {
uint16_t numheaders = be_read16(buf + 5);
param_len = 2 + 2 + 12 * numheaders;
}
if (model->has_trailing_bytes) {
param_len += cmdinfo->trailing_bytes;
}
/* Frame length calculation:
* frame start sequence(2), payload length field(2), command id(1),
* param(variable length),
* payload end sequence(2 or 0), checksum(2), frame end sequence(2) */
int frame_len = 2 + 2 + 1 + param_len + ((model->has_payload_end_seq) ? 2 : 0) + 2 + 2;
if (frame_len > FRAME_MAXLEN) {
fatal("frame too large (frame_len=%d, FRAME_MAXLEN=%d)\n",
frame_len, FRAME_MAXLEN);
}
i = dg100_read_wait(serial_handle, &buf[7], frame_len - 7, 1000);
if (i < frame_len - 7) {
fatal("Expected to read %d bytes, but got %d\n",
frame_len - 7, i);
}
dg100_debug("", 0, frame_len - 7, &buf[7]);
uint16_t frame_start_seq = be_read16(buf + 0);
payload_len_field = be_read16(buf + 2);
if (model->has_payload_end_seq) {
payload_end_seq = be_read16(buf + frame_len - 6);
}
uint16_t payload_checksum = be_read16(buf + frame_len - 4);
uint16_t frame_end_seq = be_read16(buf + frame_len - 2);
(void) payload_end_seq;
(void) frame_end_seq;
dg100_log("RX: Start %04x Len %04x Cmd: %s\n",
frame_start_seq, payload_len_field, cmdinfo->text);
/* calculate checksum */
uint16_t sum = dg100_checksum(buf + 4, frame_len - 8);
if (sum != payload_checksum) {
fatal("checksum mismatch: data sum is 0x%04x, checksum received is 0x%04x\n",
sum, payload_checksum);
}
/*
* TODO: check signatures;
* on failure, flush input or scan for end sequence
*/
*cmdinfo_result = cmdinfo;
*payload = buf + 5;
dg100_debug("\n", 0, 0, &buf[i]);
return(param_len);
}
/* return value: number of bytes copied into buf, -1 on error */
int
Dg100Format::dg100_recv(uint8_t expected_id, void* buf, unsigned int len) const
{
const dg100_command* cmdinfo;
uint8_t* data;
int n = dg100_recv_frame(&cmdinfo, &data);
/* check whether the received frame matches the expected answer type */
if (cmdinfo->id != expected_id) {
fprintf(stderr, "ERROR: answer type %02x, expecting %02x", cmdinfo->id, expected_id);
return -1;
}
unsigned int trailing_bytes = (model->has_trailing_bytes) ? (cmdinfo->trailing_bytes) : 0;
unsigned int copysize = n - trailing_bytes;
/* check for buffer overflow */
if (len < copysize) {
fprintf(stderr, "ERROR: buffer too small, size=%u, need=%u", len, copysize);
return -1;
}
memcpy(buf, data, copysize);
return(copysize);
}
/* the number of bytes to be sent is determined by cmd,
* count is the size of recvbuf */
int
Dg100Format::dg100_request(uint8_t cmd, const void* sendbuf, void* recvbuf, size_t count) const
{
const dg100_command* cmdinfo = dg100_findcmd(cmd);
assert(cmdinfo != nullptr);
dg100_send(cmd, sendbuf, cmdinfo->sendsize);
/* the number of frames the answer will comprise */
int frames = (cmd == dg100cmd_getfile) ? 2 : 1;
/* alias pointer for easy typecasting */
auto* buf = (uint8_t*) recvbuf;
int fill = 0;
for (int i = 0; i < frames; i++) {
int n = dg100_recv(cmd, buf + fill, count - fill);
if (n < 0) {
return(-1);
}
fill += n;
}
return(fill);
}
/* higher level communication functions */
QList<int>
Dg100Format::dg100_getfileheaders() const
{
QList<int> headers;
uint8_t request[2];
uint8_t answer[FRAME_MAXLEN];
int16_t nextheader = 0;
do {
/* request the next batch of headers */
be_write16(request, nextheader);
dg100_request(dg100cmd_getfileheader, request, answer, sizeof(answer));
/* process the answer */
int16_t numheaders = be_read16(answer);
nextheader = be_read16(answer + 2);
dg100_log("found %d headers, nextheader=%d\n",
numheaders, nextheader);
if (numheaders <= 0) {
dg100_log("no further headers, aborting the loop\n");
break;
}
for (int i = 0; i < numheaders; i++) {
int offset = 4 + i * 12;
int seqnum = be_read32(answer + offset + 8);
headers.append(seqnum);
if (global_opts.debug_level) {
int time = be_read32(answer + offset) & 0x7FFFFFFF;
int date = be_read32(answer + offset + 4);
QDateTime ti = bintime2utc(date, time);
QByteArray datetime = ti.toLocalTime().toString(Qt::TextDate).toUtf8();
dg100_log("Header #%d: Seq: %d Time: %s\n",
i, seqnum, datetime.constData());
}
}
} while (nextheader != 0);
return headers;
}
void
Dg100Format::dg100_getconfig() const
{
uint8_t answer[45];
dg100_request(dg100cmd_getconfig, nullptr, answer, sizeof(answer));
}
void
Dg100Format::dg100_getfile(int16_t num, route_head** track) const
{
uint8_t request[2];
uint8_t answer[2048];
be_write16(request, num);
dg100_request(dg100cmd_getfile, request, answer, sizeof(answer));
process_gpsfile(answer, track);
}
void
Dg100Format::dg100_getfiles() const
{
route_head* track = nullptr;
const QList<int> headers = dg100_getfileheaders();
for (int filenum : headers) {
dg100_getfile(filenum, &track);
if (global_opts.verbose_status) {
waypt_status_disp(headers.size(), filenum);
}
}
/* Different DG-100 devices seem to return different numbers of bytes
* from the getconfig command. This can result in a mismatched checksum,
* which we treat as a fatal error. Avoid this mess by not issuing the
* getconfig command on DG-100 devices.
*/
if (strcmp(model->name, "DG-100") != 0) {
dg100_getconfig(); // To light on the green LED on the DG-200
}
}
int
Dg100Format::dg100_erase() const
{
uint8_t request[2] = { 0xFF, 0xFF };
uint8_t answer[4];
dg100_request(dg100cmd_erase, request, answer, sizeof(answer));
if (be_read32(answer) != 1) {
fprintf(stderr, "dg100_erase() FAILED\n");
return(-1);
}
return(0);
}
/*******************************************************************************
* %%% global callbacks called by gpsbabel main process %%% *
*******************************************************************************/
void
Dg100Format::common_rd_init(const QString& fname)
{
if (isfile) {
fin = gbfopen(fname, "rb", MYNAME);
} else {
if (serial_handle = gbser_init(qPrintable(fname)), nullptr == serial_handle) {
fatal(MYNAME ": Can't open port '%s'\n", qPrintable(fname));
}
if (gbser_set_speed(serial_handle, model->speed) != gbser_OK) {
fatal(MYNAME ": Can't configure port '%s'\n", qPrintable(fname));
}
// Toss anything that came in before our speed was set, particularly
// for the bluetooth BT-335 product.
gbser_flush(serial_handle);
}
}
void
Dg100Format::dg100_rd_init(const QString& fname, bool is_file)
{
static const model_t dg100_model = { "DG-100", 115200, true, true, dg100_commands, sizeof(dg100_commands) / sizeof(dg100_command) };
model = &dg100_model;
this->isfile = is_file;
common_rd_init(fname);
}
void
Dg100Format::dg200_rd_init(const QString& fname, bool is_file)
{
static const model_t dg200_model = { "DG-200", 230400, false, false, dg200_commands, sizeof(dg200_commands) / sizeof(dg100_command) };
model = &dg200_model;
this->isfile = is_file;
common_rd_init(fname);
}
void
Dg100Format::rd_deinit()
{
if (isfile) {
gbfclose(fin);
fin = nullptr;
} else {
gbser_deinit(serial_handle);
serial_handle = nullptr;
}
}
void
Dg100Format::read()
{
if (*erase_only == '1') {
dg100_erase();
return;
}
dg100_getfiles();
if (*erase == '1') {
dg100_erase();
}
}