mirror of
https://github.com/subsurface/subsurface.git
synced 2024-12-01 06:30:26 +00:00
1e38d9239a
This is a very timid start at making us actually use multiple sensors without the magical special case for just CCR oxygen tracking. It mainly does: - turn the "sample->sensor" index into an array of two indexes, to match the pressures themselves. - get rid of dive->{oxygen_cylinder_index,diluent_cylinder_index}, since a CCR dive should now simply set the sample->sensor[] indices correctly instead. - in a couple of places, start actually looping over the sensors rather than special-case the O2 case (although often the small "loops" are just unrolled, since it's just two cases. but in many cases we still end up only covering the zero sensor case, because the CCR O2 sensor code coverage was fairly limited. It's entirely possible (even likely) that this migth break some existing case: it tries to be a fairly direct ("stupid") translation of the old code, but unlike the preparatory patch this does actually does change some semantics. For example, right now the git loader code assumes that if the git save data contains a o2pressure entry, it just hardcodes the O2 sensor index to 1. In fact, one issue is going to simply be that our file formats do not have that multiple sensor format, but instead had very clearly encoded things as being the CCR O2 pressure sensor. But this is hopefully close to usable, and I will need feedback (and maybe test cases) from people who have existing CCR dives with pressure data. Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org> Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
458 lines
11 KiB
C
458 lines
11 KiB
C
// SPDX-License-Identifier: GPL-2.0
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#include <string.h>
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#include "dive.h"
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#include "divelist.h"
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#include "file.h"
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#include "strndup.h"
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// Convert bytes into an INT
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#define array_uint16_le(p) ((unsigned int) (p)[0] \
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+ ((p)[1]<<8) )
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#define array_uint32_le(p) ((unsigned int) (p)[0] \
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+ ((p)[1]<<8) + ((p)[2]<<16) \
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+ ((p)[3]<<24))
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struct lv_event {
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time_t time;
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struct pressure {
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int sensor;
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int mbar;
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} pressure;
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};
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// Liquivision supports the following sensor configurations:
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// Primary sensor only
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// Primary + Buddy sensor
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// Primary + Up to 4 additional sensors
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// Primary + Up to 9 addiitonal sensors
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struct lv_sensor_ids {
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uint16_t primary;
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uint16_t buddy;
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uint16_t group[9];
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};
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struct lv_sensor_ids sensor_ids;
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static int handle_event_ver2(int code, const unsigned char *ps, unsigned int ps_ptr, struct lv_event *event)
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{
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(void) code;
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(void) ps;
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(void) ps_ptr;
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(void) event;
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// Skip 4 bytes
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return 4;
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}
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static int handle_event_ver3(int code, const unsigned char *ps, unsigned int ps_ptr, struct lv_event *event)
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{
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int skip = 4;
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uint16_t current_sensor;
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switch (code) {
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case 0x0002: // Unknown
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case 0x0004: // Unknown
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skip = 4;
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break;
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case 0x0005: // Unknown
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skip = 6;
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break;
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case 0x0007: // Gas
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// 4 byte time
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// 1 byte O2, 1 bye He
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skip = 6;
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break;
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case 0x0008:
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// 4 byte time
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// 2 byte gas setpoint 2
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skip = 6;
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break;
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case 0x000f:
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// Tank pressure
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event->time = array_uint32_le(ps + ps_ptr);
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current_sensor = array_uint16_le(ps + ps_ptr + 4);
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event->pressure.sensor = -1;
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event->pressure.mbar = array_uint16_le(ps + ps_ptr + 6) * 10; // cb->mb
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if (current_sensor == sensor_ids.primary) {
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event->pressure.sensor = 0;
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} else if (current_sensor == sensor_ids.buddy) {
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event->pressure.sensor = 1;
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} else {
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int i;
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for (i = 0; i < 9; ++i) {
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if (current_sensor == sensor_ids.group[i]) {
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event->pressure.sensor = i + 2;
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break;
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}
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}
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}
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// 1 byte PSR
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// 1 byte ST
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skip = 10;
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break;
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case 0x0010:
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// 4 byte time
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// 2 byte primary transmitter S/N
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// 2 byte buddy transmitter S/N
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// 2 byte group transmitter S/N (9x)
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// I don't think it's possible to change sensor IDs once a dive has started but disallow it here just in case
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if (sensor_ids.primary == 0) {
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sensor_ids.primary = array_uint16_le(ps + ps_ptr + 4);
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}
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if (sensor_ids.buddy == 0) {
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sensor_ids.buddy = array_uint16_le(ps + ps_ptr + 6);
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}
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int i;
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const unsigned char *group_ptr = ps + ps_ptr + 8;
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for (i = 0; i < 9; ++i, group_ptr += 2) {
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if (sensor_ids.group[i] == 0) {
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sensor_ids.group[i] = array_uint16_le(group_ptr);
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}
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}
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skip = 26;
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break;
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case 0x0015: // Unknown
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skip = 2;
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break;
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default:
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skip = 4;
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break;
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}
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return skip;
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}
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static void parse_dives (int log_version, const unsigned char *buf, unsigned int buf_size)
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{
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unsigned int ptr = 0;
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unsigned char model;
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struct dive *dive;
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struct divecomputer *dc;
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struct sample *sample;
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while (ptr < buf_size) {
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int i;
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bool found_divesite = false;
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dive = alloc_dive();
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memset(&sensor_ids, 0, sizeof(sensor_ids));
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dc = &dive->dc;
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/* Just the main cylinder until we can handle the buddy cylinder porperly */
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for (i = 0; i < 1; i++)
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fill_default_cylinder(&dive->cylinder[i]);
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// Model 0=Xen, 1,2=Xeo, 4=Lynx, other=Liquivision
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model = *(buf + ptr);
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switch (model) {
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case 0:
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dc->model = strdup("Xen");
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break;
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case 1:
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case 2:
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dc->model = strdup("Xeo");
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break;
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case 4:
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dc->model = strdup("Lynx");
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break;
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default:
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dc->model = strdup("Liquivision");
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break;
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}
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ptr++;
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// Dive location, assemble Location and Place
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unsigned int len, place_len;
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char *location;
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len = array_uint32_le(buf + ptr);
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ptr += 4;
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place_len = array_uint32_le(buf + ptr + len);
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if (len && place_len) {
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location = malloc(len + place_len + 4);
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memset(location, 0, len + place_len + 4);
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memcpy(location, buf + ptr, len);
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memcpy(location + len, ", ", 2);
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memcpy(location + len + 2, buf + ptr + len + 4, place_len);
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} else if (len) {
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location = strndup((char *)buf + ptr, len);
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} else if (place_len) {
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location = strndup((char *)buf + ptr + len + 4, place_len);
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}
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/* Store the location only if we have one */
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if (len || place_len)
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found_divesite = true;
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ptr += len + 4 + place_len;
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// Dive comment
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len = array_uint32_le(buf + ptr);
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ptr += 4;
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// Blank notes are better than the default text
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if (len && strncmp((char *)buf + ptr, "Comment ...", 11)) {
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dive->notes = strndup((char *)buf + ptr, len);
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}
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ptr += len;
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dive->id = array_uint32_le(buf + ptr);
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ptr += 4;
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dive->number = array_uint16_le(buf + ptr) + 1;
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ptr += 2;
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dive->duration.seconds = array_uint32_le(buf + ptr); // seconds
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ptr += 4;
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dive->maxdepth.mm = array_uint16_le(buf + ptr) * 10; // cm->mm
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ptr += 2;
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dive->meandepth.mm = array_uint16_le(buf + ptr) * 10; // cm->mm
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ptr += 2;
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dive->when = array_uint32_le(buf + ptr);
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ptr += 4;
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// now that we have the dive time we can store the divesite
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// (we need the dive time to create deterministic uuids)
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if (found_divesite) {
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dive->dive_site_uuid = find_or_create_dive_site_with_name(location, dive->when);
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free(location);
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}
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//unsigned int end_time = array_uint32_le(buf + ptr);
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ptr += 4;
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//unsigned int sit = array_uint32_le(buf + ptr);
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ptr += 4;
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//if (sit == 0xffffffff) {
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//}
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dive->surface_pressure.mbar = array_uint16_le(buf + ptr); // ???
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ptr += 2;
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//unsigned int rep_dive = array_uint16_le(buf + ptr);
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ptr += 2;
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dive->mintemp.mkelvin = C_to_mkelvin((float)array_uint16_le(buf + ptr)/10);// C->mK
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ptr += 2;
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dive->maxtemp.mkelvin = C_to_mkelvin((float)array_uint16_le(buf + ptr)/10);// C->mK
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ptr += 2;
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dive->salinity = *(buf + ptr); // ???
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ptr += 1;
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unsigned int sample_count = array_uint32_le(buf + ptr);
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ptr += 4;
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// Sample interval
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unsigned char sample_interval;
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sample_interval = 1;
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unsigned char intervals[6] = {1,2,5,10,30,60};
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if (*(buf + ptr) < 6)
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sample_interval = intervals[*(buf + ptr)];
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ptr += 1;
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float start_cns = 0;
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unsigned char dive_mode = 0, algorithm = 0;
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if (array_uint32_le(buf + ptr) != sample_count) {
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// Xeo, with CNS and OTU
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start_cns = *(float *) (buf + ptr);
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ptr += 4;
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dive->cns = lrintf(*(float *) (buf + ptr)); // end cns
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ptr += 4;
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dive->otu = lrintf(*(float *) (buf + ptr));
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ptr += 4;
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dive_mode = *(buf + ptr++); // 0=Deco, 1=Gauge, 2=None, 35=Rec
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algorithm = *(buf + ptr++); // 0=ZH-L16C+GF
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sample_count = array_uint32_le(buf + ptr);
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}
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// we aren't using the start_cns, dive_mode, and algorithm, yet
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(void)start_cns;
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(void)dive_mode;
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(void)algorithm;
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ptr += 4;
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// Parse dive samples
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const unsigned char *ds = buf + ptr;
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const unsigned char *ts = buf + ptr + sample_count * 2 + 4;
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const unsigned char *ps = buf + ptr + sample_count * 4 + 4;
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unsigned int ps_count = array_uint32_le(ps);
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ps += 4;
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// Bump ptr
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ptr += sample_count * 4 + 4;
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// Handle events
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unsigned int ps_ptr;
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ps_ptr = 0;
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unsigned int event_code, d = 0, e;
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struct lv_event event;
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// Loop through events
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for (e = 0; e < ps_count; e++) {
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// Get event
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event_code = array_uint16_le(ps + ps_ptr);
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ps_ptr += 2;
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if (log_version == 3) {
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ps_ptr += handle_event_ver3(event_code, ps, ps_ptr, &event);
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// Ignoring the buddy sensor for now as we cannot draw it on the profile.
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if ((event_code != 0xf) || (event.pressure.sensor != 0))
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continue; // ignore all but pressure sensor event
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} else { // version 2
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ps_ptr += handle_event_ver2(event_code, ps, ps_ptr, &event);
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continue; // ignore all events
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}
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int sample_time, last_time;
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int depth_mm, last_depth, temp_mk, last_temp;
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while (true) {
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sample = prepare_sample(dc);
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// Get sample times
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sample_time = d * sample_interval;
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depth_mm = array_uint16_le(ds + d * 2) * 10; // cm->mm
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temp_mk = C_to_mkelvin((float)array_uint16_le(ts + d * 2) / 10); // dC->mK
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last_time = (d ? (d - 1) * sample_interval : 0);
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if (d == sample_count) {
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// We still have events to record
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sample->time.seconds = event.time;
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sample->depth.mm = array_uint16_le(ds + (d - 1) * 2) * 10; // cm->mm
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sample->temperature.mkelvin = C_to_mkelvin((float) array_uint16_le(ts + (d - 1) * 2) / 10); // dC->mK
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sample->sensor[0] = event.pressure.sensor;
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sample->pressure[0].mbar = event.pressure.mbar;
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finish_sample(dc);
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break;
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} else if (event.time > sample_time) {
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// Record sample and loop
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sample->time.seconds = sample_time;
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sample->depth.mm = depth_mm;
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sample->temperature.mkelvin = temp_mk;
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finish_sample(dc);
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d++;
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continue;
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} else if (event.time == sample_time) {
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sample->time.seconds = sample_time;
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sample->depth.mm = depth_mm;
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sample->temperature.mkelvin = temp_mk;
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sample->sensor[0] = event.pressure.sensor;
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sample->pressure[0].mbar = event.pressure.mbar;
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finish_sample(dc);
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d++;
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break;
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} else { // Event is prior to sample
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sample->time.seconds = event.time;
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sample->sensor[0] = event.pressure.sensor;
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sample->pressure[0].mbar = event.pressure.mbar;
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if (last_time == sample_time) {
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sample->depth.mm = depth_mm;
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sample->temperature.mkelvin = temp_mk;
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} else {
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// Extrapolate
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last_depth = array_uint16_le(ds + (d - 1) * 2) * 10; // cm->mm
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last_temp = C_to_mkelvin((float) array_uint16_le(ts + (d - 1) * 2) / 10); // dC->mK
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sample->depth.mm = last_depth + (depth_mm - last_depth)
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* ((int)event.time - last_time) / sample_interval;
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sample->temperature.mkelvin = last_temp + (temp_mk - last_temp)
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* ((int)event.time - last_time) / sample_interval;
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}
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finish_sample(dc);
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break;
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}
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} // while (true);
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} // for each event sample
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// record trailing depth samples
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for ( ;d < sample_count; d++) {
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sample = prepare_sample(dc);
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sample->time.seconds = d * sample_interval;
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sample->depth.mm = array_uint16_le(ds + d * 2) * 10; // cm->mm
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sample->temperature.mkelvin =
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C_to_mkelvin((float)array_uint16_le(ts + d * 2) / 10);
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finish_sample(dc);
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}
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if (log_version == 3 && model == 4) {
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// Advance to begin of next dive
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switch (array_uint16_le(ps + ps_ptr)) {
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case 0x0000:
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ps_ptr += 5;
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break;
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case 0x0100:
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ps_ptr += 7;
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break;
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case 0x0200:
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ps_ptr += 9;
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break;
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case 0x0300:
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ps_ptr += 11;
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break;
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case 0x0b0b:
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ps_ptr += 27;
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break;
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}
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while (((ptr + ps_ptr + 4) < buf_size) && (*(ps + ps_ptr) != 0x04))
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ps_ptr++;
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}
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// End dive
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dive->downloaded = true;
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record_dive(dive);
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mark_divelist_changed(true);
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// Advance ptr for next dive
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ptr += ps_ptr + 4;
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} // while
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//DEBUG save_dives("/tmp/test.xml");
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}
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int try_to_open_liquivision(const char *filename, struct memblock *mem)
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{
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(void) filename;
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const unsigned char *buf = mem->buffer;
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unsigned int buf_size = mem->size;
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unsigned int ptr;
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int log_version;
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// Get name length
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unsigned int len = array_uint32_le(buf);
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// Ignore length field and the name
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ptr = 4 + len;
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unsigned int dive_count = array_uint32_le(buf + ptr);
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if (dive_count == 0xffffffff) {
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// File version 3.0
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log_version = 3;
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ptr += 6;
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dive_count = array_uint32_le(buf + ptr);
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} else {
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log_version = 2;
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}
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ptr += 4;
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parse_dives(log_version, buf + ptr, buf_size - ptr);
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return 1;
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}
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