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9d80e7bfe4
This adds the new members to the sample structure and fills them from supported dive computers (Uemis SDA and OSTC / Shearwater Predator, assuming you have libdivecomputer 0.3). Save relvant values of this to the XML file and load it back. Handle the new fields when merging dives. At this stage we don't DO anything with this, all we do is extract them from the dive computer, save them to the XML file and load them back. Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
360 lines
11 KiB
C
360 lines
11 KiB
C
/*
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* uemis.c
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*
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* UEMIS SDA file importer
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* AUTHOR: Dirk Hohndel - Copyright 2011
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*
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* Licensed under the MIT license.
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*/
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#include <unistd.h>
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#include <stdio.h>
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#include <string.h>
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#include <stdint.h>
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#include <stdlib.h>
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#include <glib/gi18n.h>
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#define __USE_XOPEN
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#include <time.h>
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#include <math.h>
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#include "dive.h"
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#include "uemis.h"
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#include <libdivecomputer/parser.h>
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#include <libdivecomputer/version.h>
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/*
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* following code is based on code found in at base64.sourceforge.net/b64.c
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* AUTHOR: Bob Trower 08/04/01
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* COPYRIGHT: Copyright (c) Trantor Standard Systems Inc., 2001
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* NOTE: This source code may be used as you wish, subject to
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* the MIT license.
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*/
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/*
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* Translation Table to decode (created by Bob Trower)
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*/
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static const char cd64[]="|$$$}rstuvwxyz{$$$$$$$>?@ABCDEFGHIJKLMNOPQRSTUVW$$$$$$XYZ[\\]^_`abcdefghijklmnopq";
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/*
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* decodeblock -- decode 4 '6-bit' characters into 3 8-bit binary bytes
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*/
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static void decodeblock( unsigned char in[4], unsigned char out[3] ) {
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out[ 0 ] = (unsigned char ) (in[0] << 2 | in[1] >> 4);
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out[ 1 ] = (unsigned char ) (in[1] << 4 | in[2] >> 2);
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out[ 2 ] = (unsigned char ) (((in[2] << 6) & 0xc0) | in[3]);
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}
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/*
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* decode a base64 encoded stream discarding padding, line breaks and noise
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*/
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static void decode( uint8_t *inbuf, uint8_t *outbuf, int inbuf_len ) {
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uint8_t in[4], out[3], v;
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int i,len,indx_in=0,indx_out=0;
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while (indx_in < inbuf_len) {
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for (len = 0, i = 0; i < 4 && (indx_in < inbuf_len); i++ ) {
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v = 0;
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while ((indx_in < inbuf_len) && v == 0) {
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v = inbuf[indx_in++];
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v = ((v < 43 || v > 122) ? 0 : cd64[ v - 43 ]);
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if (v)
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v = ((v == '$') ? 0 : v - 61);
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}
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if (indx_in < inbuf_len) {
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len++;
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if (v)
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in[i] = (v - 1);
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}
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else
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in[i] = 0;
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}
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if( len ) {
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decodeblock( in, out );
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for( i = 0; i < len - 1; i++ )
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outbuf[indx_out++] = out[i];
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}
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}
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}
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/* end code from Bob Trower */
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/*
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* convert the base64 data blog
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*/
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static int uemis_convert_base64(char *base64, uint8_t **data) {
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int len,datalen;
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len = strlen(base64);
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datalen = (len/4 + 1)*3;
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if (datalen < 0x123+0x25) {
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/* less than header + 1 sample??? */
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fprintf(stderr,"suspiciously short data block\n");
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}
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*data = malloc(datalen);
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if (! *data) {
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datalen = 0;
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fprintf(stderr,"Out of memory\n");
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goto bail;
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}
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decode(base64, *data, len);
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if (memcmp(*data,"Dive\01\00\00",7))
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fprintf(stderr,"Missing Dive100 header\n");
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bail:
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return datalen;
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}
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struct uemis_helper {
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int diveid;
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int lbs;
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int divespot;
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char **location;
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degrees_t *latitude;
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degrees_t *longitude;
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struct uemis_helper *next;
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};
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static struct uemis_helper *uemis_helper = NULL;
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static struct uemis_helper *uemis_get_helper(int diveid)
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{
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struct uemis_helper **php = &uemis_helper;
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struct uemis_helper *hp = *php;
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while(hp) {
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if (hp->diveid == diveid)
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return hp;
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if (hp->next) {
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hp = hp->next;
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continue;
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}
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php = &hp->next;
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break;
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}
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hp = *php = calloc(1, sizeof(struct uemis_helper));
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hp->diveid = diveid;
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hp->next = NULL;
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return hp;
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}
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static void uemis_weight_unit(int diveid, int lbs)
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{
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struct uemis_helper *hp = uemis_get_helper(diveid);
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if (hp)
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hp->lbs = lbs;
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}
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int uemis_get_weight_unit(int diveid)
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{
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struct uemis_helper *hp = uemis_helper;
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while (hp) {
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if (hp->diveid == diveid)
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return hp->lbs;
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hp = hp->next;
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}
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/* odd - we should have found this; default to kg */
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return 0;
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}
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void uemis_mark_divelocation(int diveid, int divespot, char **location, degrees_t *longitude, degrees_t *latitude)
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{
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struct uemis_helper *hp = uemis_get_helper(diveid);
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hp->divespot = divespot;
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hp->location = location;
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hp->longitude = longitude;
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hp->latitude = latitude;
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}
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void uemis_set_divelocation(int divespot, char *text, double longitude, double latitude)
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{
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struct uemis_helper *hp = uemis_helper;
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while (hp) {
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if (hp->divespot == divespot && hp->location) {
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*hp->location = text;
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hp->longitude->udeg = round(longitude * 1000000);
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hp->latitude->udeg = round(latitude * 1000000);
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}
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hp = hp->next;
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}
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}
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/* Create events from the flag bits and other data in the sample;
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* These bits basically represent what is displayed on screen at sample time.
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* Many of these 'warnings' are way hyper-active and seriously clutter the
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* profile plot - so these are disabled by default
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*
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* we mark all the strings for translation, but we store the untranslated
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* strings and only convert them when displaying them on screen - this way
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* when we write them to the XML file we'll always have the English strings,
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* regardless of locale
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*/
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static void uemis_event(struct dive *dive, struct divecomputer *dc, struct sample *sample, uemis_sample_t *u_sample)
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{
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uint8_t *flags = u_sample->flags;
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int stopdepth;
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static int lastndl;
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if (flags[1] & 0x01)
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add_event(dc, sample->time.seconds, 0, 0, 0, N_("Safety Stop Violation"));
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if (flags[1] & 0x08)
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add_event(dc, sample->time.seconds, 0, 0, 0, N_("Speed Alarm"));
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#if WANT_CRAZY_WARNINGS
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if (flags[1] & 0x06) /* both bits 1 and 2 are a warning */
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add_event(dc, sample->time.seconds, 0, 0, 0, N_("Speed Warning"));
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if (flags[1] & 0x10)
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add_event(dc, sample->time.seconds, 0, 0, 0, N_("PO2 Green Warning"));
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#endif
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if (flags[1] & 0x20)
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add_event(dc, sample->time.seconds, 0, 0, 0, N_("PO2 Ascend Warning"));
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if (flags[1] & 0x40)
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add_event(dc, sample->time.seconds, 0, 0, 0, N_("PO2 Ascend Alarm"));
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/* flags[2] reflects the deco / time bar
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* flags[3] reflects more display details on deco and pO2 */
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if (flags[4] & 0x01)
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add_event(dc, sample->time.seconds, 0, 0, 0, N_("Tank Pressure Info"));
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if (flags[4] & 0x04)
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add_event(dc, sample->time.seconds, 0, 0, 0, N_("RGT Warning"));
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if (flags[4] & 0x08)
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add_event(dc, sample->time.seconds, 0, 0, 0, N_("RGT Alert"));
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if (flags[4] & 0x40)
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add_event(dc, sample->time.seconds, 0, 0, 0, N_("Tank Change Suggested"));
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if (flags[4] & 0x80)
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add_event(dc, sample->time.seconds, 0, 0, 0, N_("Depth Limit Exceeded"));
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if (flags[5] & 0x01)
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add_event(dc, sample->time.seconds, 0, 0, 0, N_("Max Deco Time Warning"));
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if (flags[5] & 0x04)
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add_event(dc, sample->time.seconds, 0, 0, 0, N_("Dive Time Info"));
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if (flags[5] & 0x08)
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add_event(dc, sample->time.seconds, 0, 0, 0, N_("Dive Time Alert"));
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if (flags[5] & 0x10)
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add_event(dc, sample->time.seconds, 0, 0, 0, N_("Marker"));
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if (flags[6] & 0x02)
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add_event(dc, sample->time.seconds, 0, 0, 0, N_("No Tank Data"));
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if (flags[6] & 0x04)
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add_event(dc, sample->time.seconds, 0, 0, 0, N_("Low Battery Warning"));
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if (flags[6] & 0x08)
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add_event(dc, sample->time.seconds, 0, 0, 0, N_("Low Battery Alert"));
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/* flags[7] reflects the little on screen icons that remind of previous
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* warnings / alerts - not useful for events */
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#if UEMIS_DEBUG & 32
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int i, j;
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for (i = 0; i < 8; i++) {
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printf(" %d: ", 29 + i);
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for (j = 7; j >= 0; j--)
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printf ("%c", flags[i] & 1 << j ? '1' : '0');
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}
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printf("\n");
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#endif
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/* now add deco / NDL
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* we don't use events but store this in the sample - that makes much more sense
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* for the way we display this information
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* What we know about the encoding so far:
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* flags[3].bit0 | flags[5].bit1 != 0 ==> in deco
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* flags[0].bit7 == 1 ==> Safety Stop
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* otherwise NDL */
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stopdepth = rel_mbar_to_depth(u_sample->hold_depth, dive);
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if ((flags[3] & 1) | (flags[5] & 2)) {
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/* deco */
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sample->stopdepth.mm = stopdepth;
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sample->stoptime.seconds = u_sample->hold_time *60;
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sample->ndl.seconds = 0;
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} else if (flags[0] & 128) {
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/* safety stop - distinguished from deco stop by having
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* both ndl and stop information */
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sample->stopdepth.mm = stopdepth;
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sample->stoptime.seconds = u_sample->hold_time *60;
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sample->ndl.seconds = lastndl;
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} else {
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/* NDL */
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lastndl = sample->ndl.seconds = u_sample->hold_time *60;
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sample->stopdepth.mm = 0;
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sample->stoptime.seconds = 0;
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}
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#if UEMIS_DEBUG & 32
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printf("%dm:%ds: p_amb_tol:%d surface:%d holdtime:%d holddepth:%d/%d ---> stopdepth:%d stoptime:%d ndl:%d\n",
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sample->time.seconds / 60, sample->time.seconds % 60, u_sample->p_amb_tol, dive->surface_pressure.mbar,
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u_sample->hold_time, u_sample->hold_depth, stopdepth, sample->stopdepth.mm, sample->stoptime.seconds, sample->ndl.seconds);
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#endif
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}
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/*
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* parse uemis base64 data blob into struct dive
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*/
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void uemis_parse_divelog_binary(char *base64, void *datap) {
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int datalen;
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int i;
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uint8_t *data;
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struct sample *sample;
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uemis_sample_t *u_sample;
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struct dive *dive = datap;
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struct divecomputer *dc = &dive->dc;
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int template, gasoffset;
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datalen = uemis_convert_base64(base64, &data);
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dive->airtemp.mkelvin = *(uint16_t *)(data + 45) * 100 + 273150;
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dive->surface_pressure.mbar = *(uint16_t *)(data + 43);
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if (*(uint8_t *)(data + 19))
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dive->salinity = 10300; /* avg grams per 10l sea water */
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else
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dive->salinity = 10000; /* grams per 10l fresh water */
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/* this will allow us to find the last dive read so far from this computer */
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dc->model = strdup("Uemis Zurich");
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dc->deviceid = *(uint32_t *)(data + 9);
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dc->diveid = *(uint16_t *)(data + 7);
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/* remember the weight units used in this dive - we may need this later when
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* parsing the weight */
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uemis_weight_unit(dc->diveid, *(uint8_t *)(data + 24));
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/* dive template in use:
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0 = air
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1 = nitrox (B)
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2 = nitrox (B+D)
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3 = nitrox (B+T+D)
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uemis cylinder data is insane - it stores seven tank settings in a block
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and the template tells us which of the four groups of tanks we need to look at
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*/
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gasoffset = template = *(uint8_t *)(data+115);
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if (template == 3)
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gasoffset = 4;
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if (template == 0)
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template = 1;
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for (i = 0; i < template; i++) {
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float volume = *(float *)(data+116+25*(gasoffset + i)) * 1000.0;
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/* uemis always assumes a working pressure of 202.6bar (!?!?) - I first thought
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* it was 3000psi, but testing against all my dives gets me that strange number.
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* Still, that's of course completely bogus and shows they don't get how
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* cylinders are named in non-metric parts of the world...
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* we store the incorrect working pressure to get the SAC calculations "close"
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* but the user will have to correct this manually
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*/
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dive->cylinder[i].type.size.mliter = volume;
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dive->cylinder[i].type.workingpressure.mbar = 202600;
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dive->cylinder[i].gasmix.o2.permille = *(uint8_t *)(data+120+25*(gasoffset + i)) * 10 + 0.5;
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dive->cylinder[i].gasmix.he.permille = 0;
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}
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/* first byte of divelog data is at offset 0x123 */
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i = 0x123;
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u_sample = (uemis_sample_t *)(data + i);
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while ((i < datalen) && (u_sample->dive_time)) {
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/* it seems that a dive_time of 0 indicates the end of the valid readings */
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/* the SDA usually records more samples after the end of the dive --
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* we want to discard those, but not cut the dive short; sadly the dive
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* duration in the header is a) in minutes and b) up to 3 minutes short */
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if (u_sample->dive_time > dive->duration.seconds + 180)
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break;
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sample = prepare_sample(dc);
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sample->time.seconds = u_sample->dive_time;
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sample->depth.mm = rel_mbar_to_depth(u_sample->water_pressure, dive);
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sample->temperature.mkelvin = (u_sample->dive_temperature * 100) + 273150;
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sample->cylinderindex = u_sample->active_tank;
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sample->cylinderpressure.mbar =
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(u_sample->tank_pressure_high * 256 + u_sample->tank_pressure_low) * 10;
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sample->cns = u_sample->cns;
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uemis_event(dive, dc, sample, u_sample);
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finish_sample(dc);
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i += 0x25;
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u_sample++;
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}
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dive->duration.seconds = sample->time.seconds - 1;
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return;
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}
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