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|
// SPDX-License-Identifier: GPL-2.0
#ifdef __clang__
// Clang has a bug on zero-initialization of C structs.
#pragma clang diagnostic ignored "-Wmissing-field-initializers"
#endif
#include "dive.h"
#include "parse.h"
#include "divelist.h"
#include "device.h"
#include "membuffer.h"
#include "gettext.h"
extern int dm4_events(void *handle, int columns, char **data, char **column)
{
(void) handle;
(void) columns;
(void) column;
event_start();
if (data[1])
cur_event.time.seconds = atoi(data[1]);
if (data[2]) {
switch (atoi(data[2])) {
case 1:
/* 1 Mandatory Safety Stop */
strcpy(cur_event.name, "safety stop (mandatory)");
break;
case 3:
/* 3 Deco */
/* What is Subsurface's term for going to
* deco? */
strcpy(cur_event.name, "deco");
break;
case 4:
/* 4 Ascent warning */
strcpy(cur_event.name, "ascent");
break;
case 5:
/* 5 Ceiling broken */
strcpy(cur_event.name, "violation");
break;
case 6:
/* 6 Mandatory safety stop ceiling error */
strcpy(cur_event.name, "violation");
break;
case 7:
/* 7 Below deco floor */
strcpy(cur_event.name, "below floor");
break;
case 8:
/* 8 Dive time alarm */
strcpy(cur_event.name, "divetime");
break;
case 9:
/* 9 Depth alarm */
strcpy(cur_event.name, "maxdepth");
break;
case 10:
/* 10 OLF 80% */
case 11:
/* 11 OLF 100% */
strcpy(cur_event.name, "OLF");
break;
case 12:
/* 12 High pO₂ */
strcpy(cur_event.name, "PO2");
break;
case 13:
/* 13 Air time */
strcpy(cur_event.name, "airtime");
break;
case 17:
/* 17 Ascent warning */
strcpy(cur_event.name, "ascent");
break;
case 18:
/* 18 Ceiling error */
strcpy(cur_event.name, "ceiling");
break;
case 19:
/* 19 Surfaced */
strcpy(cur_event.name, "surface");
break;
case 20:
/* 20 Deco */
strcpy(cur_event.name, "deco");
break;
case 22:
case 32:
/* 22 Mandatory safety stop violation */
/* 32 Deep stop violation */
strcpy(cur_event.name, "violation");
break;
case 30:
/* Tissue level warning */
strcpy(cur_event.name, "tissue warning");
break;
case 37:
/* Tank pressure alarm */
strcpy(cur_event.name, "tank pressure");
break;
case 257:
/* 257 Dive active */
/* This seems to be given after surface when
* descending again. */
strcpy(cur_event.name, "surface");
break;
case 258:
/* 258 Bookmark */
if (data[3]) {
strcpy(cur_event.name, "heading");
cur_event.value = atoi(data[3]);
} else {
strcpy(cur_event.name, "bookmark");
}
break;
case 259:
/* Deep stop */
strcpy(cur_event.name, "Deep stop");
break;
case 260:
/* Deep stop */
strcpy(cur_event.name, "Deep stop cleared");
break;
case 266:
/* Mandatory safety stop activated */
strcpy(cur_event.name, "safety stop (mandatory)");
break;
case 267:
/* Mandatory safety stop deactivated */
/* DM5 shows this only on event list, not on the
* profile so skipping as well for now */
break;
default:
strcpy(cur_event.name, "unknown");
cur_event.value = atoi(data[2]);
break;
}
}
event_end();
return 0;
}
extern int dm5_cylinders(void *handle, int columns, char **data, char **column)
{
(void) handle;
(void) columns;
(void) column;
cylinder_start();
if (data[7] && atoi(data[7]) > 0 && atoi(data[7]) < 350000)
cur_dive->cylinder[cur_cylinder_index].start.mbar = atoi(data[7]);
if (data[8] && atoi(data[8]) > 0 && atoi(data[8]) < 350000)
cur_dive->cylinder[cur_cylinder_index].end.mbar = (atoi(data[8]));
if (data[6]) {
/* DM5 shows tank size of 12 liters when the actual
* value is 0 (and using metric units). So we just use
* the same 12 liters when size is not available */
if (strtod_flags(data[6], NULL, 0) == 0.0 && cur_dive->cylinder[cur_cylinder_index].start.mbar)
cur_dive->cylinder[cur_cylinder_index].type.size.mliter = 12000;
else
cur_dive->cylinder[cur_cylinder_index].type.size.mliter = lrint((strtod_flags(data[6], NULL, 0)) * 1000);
}
if (data[2])
cur_dive->cylinder[cur_cylinder_index].gasmix.o2.permille = atoi(data[2]) * 10;
if (data[3])
cur_dive->cylinder[cur_cylinder_index].gasmix.he.permille = atoi(data[3]) * 10;
cylinder_end();
return 0;
}
extern int dm5_gaschange(void *handle, int columns, char **data, char **column)
{
(void) handle;
(void) columns;
(void) column;
event_start();
if (data[0])
cur_event.time.seconds = atoi(data[0]);
if (data[1]) {
strcpy(cur_event.name, "gaschange");
cur_event.value = lrint(strtod_flags(data[1], NULL, 0));
}
/* He part of the mix */
if (data[2])
cur_event.value += lrint(strtod_flags(data[2], NULL, 0)) << 16;
event_end();
return 0;
}
extern int dm4_tags(void *handle, int columns, char **data, char **column)
{
(void) handle;
(void) columns;
(void) column;
if (data[0])
taglist_add_tag(&cur_dive->tag_list, data[0]);
return 0;
}
extern int dm4_dive(void *param, int columns, char **data, char **column)
{
(void) columns;
(void) column;
unsigned int i;
int interval, retval = 0;
sqlite3 *handle = (sqlite3 *)param;
float *profileBlob;
unsigned char *tempBlob;
int *pressureBlob;
char *err = NULL;
char get_events_template[] = "select * from Mark where DiveId = %d";
char get_tags_template[] = "select Text from DiveTag where DiveId = %d";
char get_events[64];
dive_start();
cur_dive->number = atoi(data[0]);
cur_dive->when = (time_t)(atol(data[1]));
if (data[2])
utf8_string(data[2], &cur_dive->notes);
/*
* DM4 stores Duration and DiveTime. It looks like DiveTime is
* 10 to 60 seconds shorter than Duration. However, I have no
* idea what is the difference and which one should be used.
* Duration = data[3]
* DiveTime = data[15]
*/
if (data[3])
cur_dive->duration.seconds = atoi(data[3]);
if (data[15])
cur_dive->dc.duration.seconds = atoi(data[15]);
/*
* TODO: the deviceid hash should be calculated here.
*/
settings_start();
dc_settings_start();
if (data[4])
utf8_string(data[4], &cur_settings.dc.serial_nr);
if (data[5])
utf8_string(data[5], &cur_settings.dc.model);
cur_settings.dc.deviceid = 0xffffffff;
dc_settings_end();
settings_end();
if (data[6])
cur_dive->dc.maxdepth.mm = lrint(strtod_flags(data[6], NULL, 0) * 1000);
if (data[8])
cur_dive->dc.airtemp.mkelvin = C_to_mkelvin(atoi(data[8]));
if (data[9])
cur_dive->dc.watertemp.mkelvin = C_to_mkelvin(atoi(data[9]));
/*
* TODO: handle multiple cylinders
*/
cylinder_start();
if (data[22] && atoi(data[22]) > 0)
cur_dive->cylinder[cur_cylinder_index].start.mbar = atoi(data[22]);
else if (data[10] && atoi(data[10]) > 0)
cur_dive->cylinder[cur_cylinder_index].start.mbar = atoi(data[10]);
if (data[23] && atoi(data[23]) > 0)
cur_dive->cylinder[cur_cylinder_index].end.mbar = (atoi(data[23]));
if (data[11] && atoi(data[11]) > 0)
cur_dive->cylinder[cur_cylinder_index].end.mbar = (atoi(data[11]));
if (data[12])
cur_dive->cylinder[cur_cylinder_index].type.size.mliter = lrint((strtod_flags(data[12], NULL, 0)) * 1000);
if (data[13])
cur_dive->cylinder[cur_cylinder_index].type.workingpressure.mbar = (atoi(data[13]));
if (data[20])
cur_dive->cylinder[cur_cylinder_index].gasmix.o2.permille = atoi(data[20]) * 10;
if (data[21])
cur_dive->cylinder[cur_cylinder_index].gasmix.he.permille = atoi(data[21]) * 10;
cylinder_end();
if (data[14])
cur_dive->dc.surface_pressure.mbar = (atoi(data[14]) * 1000);
interval = data[16] ? atoi(data[16]) : 0;
profileBlob = (float *)data[17];
tempBlob = (unsigned char *)data[18];
pressureBlob = (int *)data[19];
for (i = 0; interval && i * interval < cur_dive->duration.seconds; i++) {
sample_start();
cur_sample->time.seconds = i * interval;
if (profileBlob)
cur_sample->depth.mm = lrintf(profileBlob[i] * 1000.0f);
else
cur_sample->depth.mm = cur_dive->dc.maxdepth.mm;
if (data[18] && data[18][0])
cur_sample->temperature.mkelvin = C_to_mkelvin(tempBlob[i]);
if (data[19] && data[19][0])
cur_sample->pressure[0].mbar = pressureBlob[i];
sample_end();
}
snprintf(get_events, sizeof(get_events) - 1, get_events_template, cur_dive->number);
retval = sqlite3_exec(handle, get_events, &dm4_events, 0, &err);
if (retval != SQLITE_OK) {
fprintf(stderr, "%s", "Database query dm4_events failed.\n");
return 1;
}
snprintf(get_events, sizeof(get_events) - 1, get_tags_template, cur_dive->number);
retval = sqlite3_exec(handle, get_events, &dm4_tags, 0, &err);
if (retval != SQLITE_OK) {
fprintf(stderr, "%s", "Database query dm4_tags failed.\n");
return 1;
}
dive_end();
/*
for (i=0; i<columns;++i) {
fprintf(stderr, "%s\t", column[i]);
}
fprintf(stderr, "\n");
for (i=0; i<columns;++i) {
fprintf(stderr, "%s\t", data[i]);
}
fprintf(stderr, "\n");
//exit(0);
*/
return SQLITE_OK;
}
extern int dm5_dive(void *param, int columns, char **data, char **column)
{
(void) columns;
(void) column;
unsigned int i;
int interval, retval = 0, block_size;
sqlite3 *handle = (sqlite3 *)param;
unsigned const char *sampleBlob;
char *err = NULL;
char get_events_template[] = "select * from Mark where DiveId = %d";
char get_tags_template[] = "select Text from DiveTag where DiveId = %d";
char get_cylinders_template[] = "select * from DiveMixture where DiveId = %d";
char get_gaschange_template[] = "select GasChangeTime,Oxygen,Helium from DiveGasChange join DiveMixture on DiveGasChange.DiveMixtureId=DiveMixture.DiveMixtureId where DiveId = %d";
char get_events[512];
dive_start();
cur_dive->number = atoi(data[0]);
cur_dive->when = (time_t)(atol(data[1]));
if (data[2])
utf8_string(data[2], &cur_dive->notes);
if (data[3])
cur_dive->duration.seconds = atoi(data[3]);
if (data[15])
cur_dive->dc.duration.seconds = atoi(data[15]);
/*
* TODO: the deviceid hash should be calculated here.
*/
settings_start();
dc_settings_start();
if (data[4]) {
utf8_string(data[4], &cur_settings.dc.serial_nr);
cur_settings.dc.deviceid = atoi(data[4]);
}
if (data[5])
utf8_string(data[5], &cur_settings.dc.model);
dc_settings_end();
settings_end();
if (data[6])
cur_dive->dc.maxdepth.mm = lrint(strtod_flags(data[6], NULL, 0) * 1000);
if (data[8])
cur_dive->dc.airtemp.mkelvin = C_to_mkelvin(atoi(data[8]));
if (data[9])
cur_dive->dc.watertemp.mkelvin = C_to_mkelvin(atoi(data[9]));
if (data[4]) {
cur_dive->dc.deviceid = atoi(data[4]);
}
if (data[5])
utf8_string(data[5], &cur_dive->dc.model);
snprintf(get_events, sizeof(get_events) - 1, get_cylinders_template, cur_dive->number);
retval = sqlite3_exec(handle, get_events, &dm5_cylinders, 0, &err);
if (retval != SQLITE_OK) {
fprintf(stderr, "%s", "Database query dm5_cylinders failed.\n");
return 1;
}
if (data[14])
cur_dive->dc.surface_pressure.mbar = (atoi(data[14]) / 100);
interval = data[16] ? atoi(data[16]) : 0;
sampleBlob = (unsigned const char *)data[24];
if (sampleBlob) {
switch (sampleBlob[0]) {
case 2:
block_size = 19;
break;
case 3:
block_size = 23;
break;
case 4:
block_size = 26;
break;
default:
block_size = 16;
break;
}
}
for (i = 0; interval && sampleBlob && i * interval < cur_dive->duration.seconds; i++) {
float *depth = (float *)&sampleBlob[i * block_size + 3];
int32_t temp = (sampleBlob[i * block_size + 10] << 8) + sampleBlob[i * block_size + 11];
int32_t pressure = (sampleBlob[i * block_size + 9] << 16) + (sampleBlob[i * block_size + 8] << 8) + sampleBlob[i * block_size + 7];
sample_start();
cur_sample->time.seconds = i * interval;
cur_sample->depth.mm = lrintf(depth[0] * 1000.0f);
/*
* Limit temperatures and cylinder pressures to somewhat
* sensible values
*/
if (temp >= -10 && temp < 50)
cur_sample->temperature.mkelvin = C_to_mkelvin(temp);
if (pressure >= 0 && pressure < 350000)
cur_sample->pressure[0].mbar = pressure;
sample_end();
}
/*
* Log was converted from DM4, thus we need to parse the profile
* from DM4 format
*/
if (i == 0) {
float *profileBlob;
unsigned char *tempBlob;
int *pressureBlob;
profileBlob = (float *)data[17];
tempBlob = (unsigned char *)data[18];
pressureBlob = (int *)data[19];
for (i = 0; interval && i * interval < cur_dive->duration.seconds; i++) {
sample_start();
cur_sample->time.seconds = i * interval;
if (profileBlob)
cur_sample->depth.mm = lrintf(profileBlob[i] * 1000.0f);
else
cur_sample->depth.mm = cur_dive->dc.maxdepth.mm;
if (data[18] && data[18][0])
cur_sample->temperature.mkelvin = C_to_mkelvin(tempBlob[i]);
if (data[19] && data[19][0])
cur_sample->pressure[0].mbar = pressureBlob[i];
sample_end();
}
}
snprintf(get_events, sizeof(get_events) - 1, get_gaschange_template, cur_dive->number);
retval = sqlite3_exec(handle, get_events, &dm5_gaschange, 0, &err);
if (retval != SQLITE_OK) {
fprintf(stderr, "%s", "Database query dm5_gaschange failed.\n");
return 1;
}
snprintf(get_events, sizeof(get_events) - 1, get_events_template, cur_dive->number);
retval = sqlite3_exec(handle, get_events, &dm4_events, 0, &err);
if (retval != SQLITE_OK) {
fprintf(stderr, "%s", "Database query dm4_events failed.\n");
return 1;
}
snprintf(get_events, sizeof(get_events) - 1, get_tags_template, cur_dive->number);
retval = sqlite3_exec(handle, get_events, &dm4_tags, 0, &err);
if (retval != SQLITE_OK) {
fprintf(stderr, "%s", "Database query dm4_tags failed.\n");
return 1;
}
dive_end();
return SQLITE_OK;
}
int parse_dm4_buffer(sqlite3 *handle, const char *url, const char *buffer, int size,
struct dive_table *table)
{
(void) buffer;
(void) size;
int retval;
char *err = NULL;
target_table = table;
/* StartTime is converted from Suunto's nano seconds to standard
* time. We also need epoch, not seconds since year 1. */
char get_dives[] = "select D.DiveId,StartTime/10000000-62135596800,Note,Duration,SourceSerialNumber,Source,MaxDepth,SampleInterval,StartTemperature,BottomTemperature,D.StartPressure,D.EndPressure,Size,CylinderWorkPressure,SurfacePressure,DiveTime,SampleInterval,ProfileBlob,TemperatureBlob,PressureBlob,Oxygen,Helium,MIX.StartPressure,MIX.EndPressure FROM Dive AS D JOIN DiveMixture AS MIX ON D.DiveId=MIX.DiveId";
retval = sqlite3_exec(handle, get_dives, &dm4_dive, handle, &err);
if (retval != SQLITE_OK) {
fprintf(stderr, "Database query failed '%s'.\n", url);
return 1;
}
return 0;
}
int parse_dm5_buffer(sqlite3 *handle, const char *url, const char *buffer, int size,
struct dive_table *table)
{
(void) buffer;
(void) size;
int retval;
char *err = NULL;
target_table = table;
/* StartTime is converted from Suunto's nano seconds to standard
* time. We also need epoch, not seconds since year 1. */
char get_dives[] = "select DiveId,StartTime/10000000-62135596800,Note,Duration,coalesce(SourceSerialNumber,SerialNumber),Source,MaxDepth,SampleInterval,StartTemperature,BottomTemperature,StartPressure,EndPressure,'','',SurfacePressure,DiveTime,SampleInterval,ProfileBlob,TemperatureBlob,PressureBlob,'','','','',SampleBlob FROM Dive where Deleted is null";
retval = sqlite3_exec(handle, get_dives, &dm5_dive, handle, &err);
if (retval != SQLITE_OK) {
fprintf(stderr, "Database query failed '%s'.\n", url);
return 1;
}
return 0;
}
extern int shearwater_cylinders(void *handle, int columns, char **data, char **column)
{
(void) handle;
(void) columns;
(void) column;
int o2 = lrint(strtod_flags(data[0], NULL, 0) * 1000);
int he = lrint(strtod_flags(data[1], NULL, 0) * 1000);
/* Shearwater allows entering only 99%, not 100%
* so assume 99% to be pure oxygen */
if (o2 == 990 && he == 0)
o2 = 1000;
cylinder_start();
cur_dive->cylinder[cur_cylinder_index].gasmix.o2.permille = o2;
cur_dive->cylinder[cur_cylinder_index].gasmix.he.permille = he;
cylinder_end();
return 0;
}
extern int shearwater_changes(void *handle, int columns, char **data, char **column)
{
(void) handle;
(void) columns;
(void) column;
if (columns != 3) {
return 1;
}
if (!data[0] || !data[1] || !data[2]) {
return 2;
}
int o2 = lrint(strtod_flags(data[1], NULL, 0) * 1000);
int he = lrint(strtod_flags(data[2], NULL, 0) * 1000);
/* Shearwater allows entering only 99%, not 100%
* so assume 99% to be pure oxygen */
if (o2 == 990 && he == 0)
o2 = 1000;
// Find the cylinder index
int i;
bool found = false;
for (i = 0; i < cur_cylinder_index; ++i) {
if (cur_dive->cylinder[i].gasmix.o2.permille == o2 && cur_dive->cylinder[i].gasmix.he.permille == he) {
found = true;
break;
}
}
if (!found) {
// Cylinder not found, creating a new one
cylinder_start();
cur_dive->cylinder[cur_cylinder_index].gasmix.o2.permille = o2;
cur_dive->cylinder[cur_cylinder_index].gasmix.he.permille = he;
cylinder_end();
i = cur_cylinder_index;
}
add_gas_switch_event(cur_dive, get_dc(), atoi(data[0]), i);
return 0;
}
extern int shearwater_profile_sample(void *handle, int columns, char **data, char **column)
{
(void) handle;
(void) columns;
(void) column;
sample_start();
if (data[0])
cur_sample->time.seconds = atoi(data[0]);
if (data[1])
cur_sample->depth.mm = metric ? lrint(strtod_flags(data[1], NULL, 0) * 1000) : feet_to_mm(strtod_flags(data[1], NULL, 0));
if (data[2])
cur_sample->temperature.mkelvin = metric ? C_to_mkelvin(strtod_flags(data[2], NULL, 0)) : F_to_mkelvin(strtod_flags(data[2], NULL, 0));
if (data[3]) {
cur_sample->setpoint.mbar = lrint(strtod_flags(data[3], NULL, 0) * 1000);
}
if (data[4])
cur_sample->ndl.seconds = atoi(data[4]) * 60;
if (data[5])
cur_sample->cns = atoi(data[5]);
if (data[6])
cur_sample->stopdepth.mm = metric ? atoi(data[6]) * 1000 : feet_to_mm(atoi(data[6]));
/* We don't actually have data[3], but it should appear in the
* SQL query at some point.
if (data[3])
cur_sample->pressure[0].mbar = metric ? atoi(data[3]) * 1000 : psi_to_mbar(atoi(data[3]));
*/
sample_end();
return 0;
}
extern int shearwater_ai_profile_sample(void *handle, int columns, char **data, char **column)
{
(void) handle;
(void) columns;
(void) column;
sample_start();
if (data[0])
cur_sample->time.seconds = atoi(data[0]);
if (data[1])
cur_sample->depth.mm = metric ? lrint(strtod_flags(data[1], NULL, 0) * 1000) : feet_to_mm(strtod_flags(data[1], NULL, 0));
if (data[2])
cur_sample->temperature.mkelvin = metric ? C_to_mkelvin(strtod_flags(data[2], NULL, 0)) : F_to_mkelvin(strtod_flags(data[2], NULL, 0));
if (data[3]) {
cur_sample->setpoint.mbar = lrint(strtod_flags(data[3], NULL, 0) * 1000);
}
if (data[4])
cur_sample->ndl.seconds = atoi(data[4]) * 60;
if (data[5])
cur_sample->cns = atoi(data[5]);
if (data[6])
cur_sample->stopdepth.mm = metric ? atoi(data[6]) * 1000 : feet_to_mm(atoi(data[6]));
/* Weird unit conversion but seems to produce correct results.
* Also missing values seems to be reported as a 4092 (564 bar) */
if (data[7] && atoi(data[7]) != 4092) {
cur_sample->pressure[0].mbar = psi_to_mbar(atoi(data[7])) * 2;
}
if (data[8] && atoi(data[8]) != 4092)
cur_sample->pressure[1].mbar = psi_to_mbar(atoi(data[8])) * 2;
sample_end();
return 0;
}
extern int shearwater_mode(void *handle, int columns, char **data, char **column)
{
(void) handle;
(void) columns;
(void) column;
if (data[0])
cur_dive->dc.divemode = atoi(data[0]) == 0 ? CCR : OC;
return 0;
}
extern int shearwater_dive(void *param, int columns, char **data, char **column)
{
(void) columns;
(void) column;
int retval = 0;
sqlite3 *handle = (sqlite3 *)param;
char *err = NULL;
char get_profile_template[] = "select currentTime,currentDepth,waterTemp,averagePPO2,currentNdl,CNSPercent,decoCeiling from dive_log_records where diveLogId=%d";
char get_profile_template_ai[] = "select currentTime,currentDepth,waterTemp,averagePPO2,currentNdl,CNSPercent,decoCeiling,aiSensor0_PressurePSI,aiSensor1_PressurePSI from dive_log_records where diveLogId = %d";
char get_cylinder_template[] = "select fractionO2,fractionHe from dive_log_records where diveLogId = %d group by fractionO2,fractionHe";
char get_changes_template[] = "select a.currentTime,a.fractionO2,a.fractionHe from dive_log_records as a,dive_log_records as b where (a.id - 1) = b.id and (a.fractionO2 != b.fractionO2 or a.fractionHe != b.fractionHe) and a.diveLogId=b.divelogId and a.diveLogId = %d";
char get_mode_template[] = "select distinct currentCircuitSetting from dive_log_records where diveLogId = %d";
char get_buffer[1024];
dive_start();
cur_dive->number = atoi(data[0]);
cur_dive->when = (time_t)(atol(data[1]));
int dive_id = atoi(data[11]);
if (data[2])
add_dive_site(data[2], cur_dive);
if (data[3])
utf8_string(data[3], &cur_dive->buddy);
if (data[4])
utf8_string(data[4], &cur_dive->notes);
metric = atoi(data[5]) == 1 ? 0 : 1;
/* TODO: verify that metric calculation is correct */
if (data[6])
cur_dive->dc.maxdepth.mm = metric ? lrint(strtod_flags(data[6], NULL, 0) * 1000) : feet_to_mm(strtod_flags(data[6], NULL, 0));
if (data[7])
cur_dive->dc.duration.seconds = atoi(data[7]) * 60;
if (data[8])
cur_dive->dc.surface_pressure.mbar = atoi(data[8]);
/*
* TODO: the deviceid hash should be calculated here.
*/
settings_start();
dc_settings_start();
if (data[9])
utf8_string(data[9], &cur_settings.dc.serial_nr);
if (data[10]) {
switch (atoi(data[10])) {
case 2:
cur_settings.dc.model = strdup("Shearwater Petrel/Perdix");
break;
case 4:
cur_settings.dc.model = strdup("Shearwater Predator");
break;
default:
cur_settings.dc.model = strdup("Shearwater import");
break;
}
}
cur_settings.dc.deviceid = atoi(data[9]);
dc_settings_end();
settings_end();
if (data[10]) {
switch (atoi(data[10])) {
case 2:
cur_dive->dc.model = strdup("Shearwater Petrel/Perdix");
break;
case 4:
cur_dive->dc.model = strdup("Shearwater Predator");
break;
default:
cur_dive->dc.model = strdup("Shearwater import");
break;
}
}
if (data[11]) {
snprintf(get_buffer, sizeof(get_buffer) - 1, get_mode_template, dive_id);
retval = sqlite3_exec(handle, get_buffer, &shearwater_mode, 0, &err);
if (retval != SQLITE_OK) {
fprintf(stderr, "%s", "Database query shearwater_mode failed.\n");
return 1;
}
}
snprintf(get_buffer, sizeof(get_buffer) - 1, get_cylinder_template, dive_id);
retval = sqlite3_exec(handle, get_buffer, &shearwater_cylinders, 0, &err);
if (retval != SQLITE_OK) {
fprintf(stderr, "%s", "Database query shearwater_cylinders failed.\n");
return 1;
}
snprintf(get_buffer, sizeof(get_buffer) - 1, get_changes_template, dive_id);
retval = sqlite3_exec(handle, get_buffer, &shearwater_changes, 0, &err);
if (retval != SQLITE_OK) {
fprintf(stderr, "%s", "Database query shearwater_changes failed.\n");
return 1;
}
snprintf(get_buffer, sizeof(get_buffer) - 1, get_profile_template_ai, dive_id);
retval = sqlite3_exec(handle, get_buffer, &shearwater_ai_profile_sample, 0, &err);
if (retval != SQLITE_OK) {
snprintf(get_buffer, sizeof(get_buffer) - 1, get_profile_template, dive_id);
retval = sqlite3_exec(handle, get_buffer, &shearwater_profile_sample, 0, &err);
if (retval != SQLITE_OK) {
fprintf(stderr, "%s", "Database query shearwater_profile_sample failed.\n");
return 1;
}
}
dive_end();
return SQLITE_OK;
}
int parse_shearwater_buffer(sqlite3 *handle, const char *url, const char *buffer, int size,
struct dive_table *table)
{
(void) buffer;
(void) size;
int retval;
char *err = NULL;
target_table = table;
char get_dives[] = "select l.number,timestamp,location||' / '||site,buddy,notes,imperialUnits,maxDepth,maxTime,startSurfacePressure,computerSerial,computerModel,i.diveId FROM dive_info AS i JOIN dive_logs AS l ON i.diveId=l.diveId";
retval = sqlite3_exec(handle, get_dives, &shearwater_dive, handle, &err);
if (retval != SQLITE_OK) {
fprintf(stderr, "Database query failed '%s'.\n", url);
return 1;
}
return 0;
}
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