// 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 #include "qthelper.h" #include "dive.h" #include "sample.h" #include "subsurface-string.h" #include "parse.h" #include "divelist.h" #include "divelog.h" #include "device.h" #include "membuffer.h" #include "gettext.h" #include "tag.h" #include "errorhelper.h" #include #include "divecomputer.h" /* Process gas change event for seac database. * Create gas change event at the time of the * current sample. */ static int seac_gaschange(void *param, sqlite3_stmt *sqlstmt) { using namespace std::string_literals; struct parser_state *state = (struct parser_state *)param; event_start(state); state->cur_event.time.seconds = sqlite3_column_int(sqlstmt, 1); state->cur_event.name = "gaschange"s; state->cur_event.gas.mix.o2.permille = 10 * sqlite3_column_int(sqlstmt, 4); event_end(state); return 0; } /* Callback function to parse seac dives. Reads headers_dive table to read dive * information into divecomputer struct. */ static int seac_dive(void *param, int, char **data, char **) { int retval = 0, cylnum = 0; int year, month, day, hour, min, sec, tz; char isodatetime[30]; time_t divetime; struct gasmix lastgas, curgas; struct parser_state *state = (struct parser_state *)param; sqlite3 *handle = state->sql_handle; sqlite3_stmt *sqlstmt; const char *get_samples = "SELECT dive_number, runtime_s, depth_cm, temperature_mCx10, active_O2_fr, first_stop_depth_cm, first_stop_time_s, ndl_tts_s, cns, gf_l, gf_h FROM dive_data WHERE dive_number = ? AND dive_id = ? ORDER BY runtime_s ASC"; /* 0 = dive_number * 1 = runtime_s * 2 = depth_cm * 3 = temperature_mCx10 - eg dC * 4 = active_O2_fr * 5 = first_stop_depth_cm * 6 = first_stop_time_s * 7 = ndl_tts_s * 8 = cns * 9 = gf-l * 10 = gf-h */ dive_start(state); state->cur_dive->number = atoi(data[0]); // Create first cylinder cylinder_t *curcyl = get_or_create_cylinder(state->cur_dive.get(), 0); // Get time and date sscanf(data[2], "%d/%d/%2d", &day, &month, &year); sscanf(data[4], "%2d:%2d:%2d", &hour, &min, &sec); year += 2000; tz = atoi(data[3]); // Timezone offset lookup array const char timezoneoffset[][7] = {"+12:00", // 0 "+11:00", // 1 "+10:00", // 2 "+09:30", // 3 "+09:00", // 4 "+08:00", // 5 "+07:00", // 6 "+06:00", // 7 "+05:00", // 8 "+04:30", // 9 "+04:00", // 10 "+03:30", // 11 "+03:00", // 12 "+02:00", // 13 "+01:00", // 14 "+00:00", // 15 "-01:00", // 16 "-02:00", // 17 "-03:00", // 18 "-03:30", // 19 "-04:00", // 20 "-04:30", // 21 "-05:00", // 22 "-05:30", // 23 "-05:45", // 24 "-06:00", // 25 "-06:30", // 26 "-07:00", // 27 "-08:00", // 28 "-08:45", // 29 "-09:00", // 30 "-09:30", // 31 "-09:45", // 32 "-10:00", // 33 "-10:30", // 34 "-11:00", // 35 "-11:30", // 36 "-12:00", // 37 "-12:45", // 38 "-13:00", // 39 "-13:45", // 40 "-14:00"}; // 41 sprintf(isodatetime, "%4i-%02i-%02iT%02i:%02i:%02i%6s", year, month, day, hour, min, sec, timezoneoffset[tz]); divetime = get_dive_datetime_from_isostring(isodatetime); state->cur_dive->when = divetime; // 6 = dive_type // Dive type 2? if (data[6]) { switch (atoi(data[6])) { case 1: state->cur_dive->dcs[0].divemode = OC; break; // Gauge Mode case 2: state->cur_dive->dcs[0].divemode = UNDEF_COMP_TYPE; break; case 3: state->cur_dive->dcs[0].divemode = FREEDIVE; break; default: if (verbose) { report_info("Unknown divetype %i", atoi(data[6])); } } } // 9 = comments from seac app if (data[9]) { utf8_string_std(data[9], &state->cur_dive->notes); } // 10 = dive duration if (data[10]) { state->cur_dive->dcs[0].duration.seconds = atoi(data[10]); } // 8 = water_type /* TODO: Seac only offers fresh / salt, and doesn't * seem to record correctly currently. I have both * fresh and saltwater dives and water type is reported * as 150 for both. */ if (data[8]) { switch (atoi(data[8])) { case 150: state->cur_dive->salinity = 0; break; case 100: state->cur_dive->salinity = 1; break; default: if (verbose) { report_info("Unknown salinity %i", atoi(data[8])); } } } if (data[11]) { state->cur_dive->dcs[0].maxdepth.mm = 10 * atoi(data[11]); } // Create sql_stmt type to query DB retval = sqlite3_prepare_v2(handle, get_samples, -1, &sqlstmt, 0); if (retval != SQLITE_OK) { report_info("Preparing SQL object failed when getting SeacSync dives."); return 1; } // Bind current dive number to sql statement sqlite3_bind_int(sqlstmt, 1, state->cur_dive->number); sqlite3_bind_int(sqlstmt, 2, atoi(data[13])); // Catch a bad query retval = sqlite3_step(sqlstmt); if (retval == SQLITE_ERROR) { report_info("Getting dive data from SeacSync DB failed."); return 1; } settings_start(state); dc_settings_start(state); utf8_string_std(data[1], &state->cur_dive->dcs[0].serial); utf8_string_std(data[12],&state->cur_dive->dcs[0].fw_version); state->cur_dive->dcs[0].model = "Seac Action"; state->cur_dive->dcs[0].deviceid = calculate_string_hash(data[1]); add_extra_data(&state->cur_dive->dcs[0], "GF-Lo", (const char*)sqlite3_column_text(sqlstmt, 9)); add_extra_data(&state->cur_dive->dcs[0], "GF-Hi", (const char*)sqlite3_column_text(sqlstmt, 10)); dc_settings_end(state); settings_end(state); if (data[11]) { state->cur_dive->dcs[0].maxdepth.mm = 10 * atoi(data[11]); } curcyl->gasmix.o2.permille = 10 * sqlite3_column_int(sqlstmt, 4); // Track gasses to tell when switch occurs lastgas = curcyl->gasmix; curgas = curcyl->gasmix; // Read samples while (retval == SQLITE_ROW) { sample_start(state); state->cur_sample->time.seconds = sqlite3_column_int(sqlstmt, 1); state->cur_sample->depth.mm = 10 * sqlite3_column_int(sqlstmt, 2); state->cur_sample->temperature.mkelvin = cC_to_mkelvin(sqlite3_column_int(sqlstmt, 3)); curgas.o2.permille = 10 * sqlite3_column_int(sqlstmt, 4); if (!same_gasmix(lastgas, curgas)) { seac_gaschange(state, sqlstmt); lastgas = curgas; cylnum ^= 1; // Only need to toggle between two cylinders curcyl = get_or_create_cylinder(state->cur_dive.get(), cylnum); curcyl->gasmix.o2.permille = 10 * sqlite3_column_int(sqlstmt, 4); } state->cur_sample->stopdepth.mm = 10 * sqlite3_column_int(sqlstmt, 5); state->cur_sample->stoptime.seconds = sqlite3_column_int(sqlstmt, 6); state->cur_sample->ndl.seconds = sqlite3_column_int(sqlstmt, 7); state->cur_sample->cns = sqlite3_column_int(sqlstmt, 8); sample_end(state); retval = sqlite3_step(sqlstmt); } sqlite3_finalize(sqlstmt); dive_end(state); return SQLITE_OK; } /** Read SeacSync divesDB.db sqlite3 database into dive and samples. * * Each row returned in the query of headers_dive creates a new dive. * The callback function performs another SQL query on the other * table, to read in the sample values. */ int parse_seac_buffer(sqlite3 *handle, const char *url, const char *, int, struct divelog *log) { int retval; char *err = NULL; struct parser_state state; state.log = log; state.sql_handle = handle; const char *get_dives = "SELECT dive_number, device_sn, date, timezone, time, elapsed_surface_time, dive_type, start_mode, water_type, comment, total_dive_time, max_depth, firmware_version, dive_id FROM headers_dive"; /* 0 = dive_number * 1 = device_sn * 2 = date * 3 = timezone * 4 = time * 5 = elapsed_surface_time * 6 = dive_type * 7 = start_mode * 8 = water_type * 9 = comment * 10 = total_dive_time * 11 = max_depth * 12 = firmware version * 13 = dive_id */ retval = sqlite3_exec(handle, get_dives, &seac_dive, &state, &err); if (retval != SQLITE_OK) { report_info("Database query failed '%s'.", url); return 1; } return 0; }