/* * An .slg file is composed of a main table (Dives), a bunch of tables directly * linked to Dives by their indexes (Site, Suit, Tank, etc) and another group of * independent tables (Activity, Type, Gear, Fish ...) which connect with the dives * via a related group of tables (ActivityRelation, TypeRelation ...) that contain * just the dive index number and the related table index number. * The data stored in the main group of tables are very extensive, going far beyond * the actual scope of Subsurface in most of cases; e.g. Dives table keeps * information which can be directly uploaded to DAN's database of dives, or Buddy * table can include telephones, photo or, even, buddy mother's maiden name. * * Although these funcs are suposed to work in a standalone tool, will also work * on main Subsurface import menu, by simply tweaking file.c and main_window.cpp * to call smartrak_import() */ #ifndef __USE_XOPEN #define __USE_XOPEN #endif #ifndef _GNU_SOURCE #define _GNU_SOURCE #endif #include #include #include #include #include #include #include "core/dive.h" #include "core/gettext.h" #include "core/divelist.h" #include "core/libdivecomputer.h" #include "core/divesite.h" #include "core/membuffer.h" /* SmartTrak version, constant for every single file */ int smtk_version; int tanks; /* Freeing temp char arrays utility */ static void smtk_free(char **array, int count) { int n; for (n = 0; n < count; n++) free(array[n]); array = NULL; } /* * There are AFAIK two versions of Smarttrak. The newer one supports trimix and up * to 10 tanks. The other one just 3 tanks and no trimix but only nitrox. This is a * problem for an automated parser which has to support both formats. * In this solution I made an enum of fields with the same order they would have in * a smarttrak db, and a tiny function which returns the number of the column where * a field is expected to be, taking into account the different db formats . */ enum field_pos {IDX = 0, DIVENUM, DATE, INTIME, INTVAL, DURATION, OUTTIME, DESATBEFORE, DESATAFTER, NOFLYBEFORE, NOFLYAFTER, NOSTOPDECO, MAXDEPTH, VISIBILITY, WEIGHT, O2FRAC, HEFRAC, PSTART, PEND, AIRTEMP, MINWATERTEMP, MAXWATERTEMP, SECFACT, ALARMS, MODE, REMARKS, DCNUMBER, DCMODEL, DIVETIMECOUNT, LOG, PROFILE, SITEIDX, ALTIDX, SUITIDX, WEATHERIDX, SURFACEIDX, UNDERWATERIDX, TANKIDX}; /* * Returns calculated column number depending on smartrak version, as there are more * tanks (10) in later versions than in older (3). * Older versions also lacks of 3 columns storing he fraction, one for each tank. */ static int coln(enum field_pos pos) { int amnd = (smtk_version < 10213) ? 3 : 0; if (pos <= O2FRAC) return pos; if (pos >= AIRTEMP) { pos += 4 * (tanks - 1) - amnd; return pos; } switch (pos) { case HEFRAC: pos = O2FRAC + tanks; return pos; case PSTART: pos = O2FRAC + 2 * tanks - amnd; return pos; case PEND: pos = O2FRAC + 2 * tanks + 1 - amnd; return pos; } } /* * Fills the date part of a tm structure with the string data obtained * from smartrak in format "DD/MM/YY HH:MM:SS" where time is irrelevant. * TODO: Verify localization. */ static void smtk_date_to_tm(char *d_buffer, struct tm *tm_date) { char *temp = NULL; temp = copy_string(d_buffer); strtok(temp, " "); if (temp) { strptime(temp, "%x", tm_date); free(temp); } } /* * Fills the time part of a tm structure with the string data obtained * from smartrak in format "DD/MM/YY HH:MM:SS" where date is irrelevant. * TODO: Verify localization. */ static void smtk_time_to_tm(char *t_buffer, struct tm *tm_date) { char *temp = NULL; temp = index(t_buffer, ' '); if (temp) strptime(temp, "%X", tm_date); } /* * Converts to seconds a time lapse returned from smartrak in string format * "DD/MM/YY HH:MM:SS" where date is irrelevant. * TODO: modify to support times > 24h where date means difference in days * from 29/12/99. */ static unsigned int smtk_time_to_secs(char *t_buffer) { unsigned int n, hr, min, sec; if (!same_string(t_buffer, "")) { n = sscanf(t_buffer, "%*m[/0-9] %d:%d:%d ", &hr, &min, &sec); return((n == 3) ? (((hr*60)+min)*60)+sec : 0); } else { return 0; } } /* * Returns an opened table given its name and mdb. outcol and outbounder have to be allocated * by the caller and are filled here. */ static MdbTableDef *smtk_open_table(MdbHandle *mdb, char *tablename, MdbColumn **outcol, char **outbounder) { MdbCatalogEntry *entry; MdbTableDef *table; int i; entry = mdb_get_catalogentry_by_name(mdb, tablename); if (!entry) return NULL; table = mdb_read_table(entry); if (!table) return NULL; mdb_read_columns(table); for (i = 0; i < table->num_cols; i++) { outcol[i] = g_ptr_array_index(table->columns, i); outbounder[i] = (char *) g_malloc(MDB_BIND_SIZE); mdb_bind_column(table, i+1, outbounder[i], NULL); } mdb_rewind_table(table); return table; } /* * Utility function which returns the value from a given column in a given table, * whose row equals the given idx string. * Idx should be a numeric value, but all values obtained from mdbtools are strings, * so let's compare strings instead of numbers to avoid unnecessary transforms. */ static char *smtk_value_by_idx(MdbHandle *mdb, char *tablename, int colnum, char *idx) { MdbCatalogEntry *entry; MdbTableDef *table; MdbColumn *idxcol, *valuecol; char *bounder[MDB_MAX_COLS], *str = NULL; int i = 0; entry = mdb_get_catalogentry_by_name(mdb, tablename); table = mdb_read_table(entry); if (!table) { report_error("[Error][smartrak_import]\t%s table doesn't exist\n", tablename); return str; } mdb_read_columns(table); idxcol = g_ptr_array_index(table->columns, 0); valuecol = g_ptr_array_index(table->columns, colnum); for (i = 0; i < table->num_cols; i++) { bounder[i] = (char *) g_malloc(MDB_BIND_SIZE); mdb_bind_column(table, i+1, bounder[i], NULL); } mdb_rewind_table(table); for (i = 0; i < table->num_rows; i++) { mdb_fetch_row(table); if (!strcmp(idxcol->bind_ptr, idx)) { str = copy_string(valuecol->bind_ptr); break; } } smtk_free(bounder, table->num_cols); mdb_free_tabledef(table); return str; } /* * Utility function which joins three strings, being the second a separator string, * usually a "\n". The third is a format string with an argument list. * If the original string is NULL, then just returns the third. * This is based in add_to_string() and add_to_string_va(), and, as its parents * frees the original string. */ static char *smtk_concat_str(const char *orig, const char *sep, const char *fmt, ...) { char *str; va_list args; struct membuffer out = { 0 }, in = { 0 }; va_start(args, fmt); put_vformat(&in, fmt, args); if (orig != NULL) { put_format(&out, "%s%s%s", orig, sep, mb_cstring(&in)); str = copy_string(mb_cstring(&out)); } else { str = copy_string(mb_cstring(&in)); } va_end(args); free_buffer(&out); free_buffer(&in); free((void *)orig); return str; } /* * A site may be a wreck, which has its own table. * Parse this table referred by the site idx. If found, put the different info items in * Subsurface's dive_site notes. * Wreck format: * | Idx | SiteIdx | Text | Built | Sank | SankTime | Reason | ... | Notes | TrakId | */ static void smtk_wreck_site(MdbHandle *mdb, char *site_idx, struct dive_site *ds) { MdbTableDef *table; MdbColumn *col[MDB_MAX_COLS]; char *bound_values[MDB_MAX_COLS]; char *tmp = NULL, *notes = NULL; int rc, i; uint32_t d; const char *wreck_fields[] = {QT_TRANSLATE_NOOP("gettextFromC", "Built"), QT_TRANSLATE_NOOP("gettextFromC", "Sank"), QT_TRANSLATE_NOOP("gettextFromC", "Sank Time"), QT_TRANSLATE_NOOP("gettextFromC", "Reason"), QT_TRANSLATE_NOOP("gettextFromC", "Nationality"), QT_TRANSLATE_NOOP("gettextFromC", "Shipyard"), QT_TRANSLATE_NOOP("gettextFromC", "ShipType"), QT_TRANSLATE_NOOP("gettextFromC", "Length"), QT_TRANSLATE_NOOP("gettextFromC", "Beam"), QT_TRANSLATE_NOOP("gettextFromC", "Draught"), QT_TRANSLATE_NOOP("gettextFromC", "Displacement"), QT_TRANSLATE_NOOP("gettextFromC", "Cargo"), QT_TRANSLATE_NOOP("gettextFromC", "Notes")}; table = smtk_open_table(mdb, "Wreck", col, bound_values); /* Sanity check for table, unlikely but ... */ if (!table) return; /* Begin parsing. Write strings to notes only if available.*/ while (mdb_fetch_row(table)) { if (!strcmp(col[1]->bind_ptr, site_idx)) { tmp = copy_string(col[1]->bind_ptr); notes = smtk_concat_str(notes, "\n", translate("gettextFromC", "Wreck Data")); for (i = 3; i < 16; i++) { switch (i) { case 3: case 4: if (memcmp(col[i]->bind_ptr, "\0", 1)) notes = smtk_concat_str(notes, "\n", "%s: %s", wreck_fields[i - 3], strtok(copy_string(col[i]->bind_ptr), " ")); break; case 5: if (strcmp(rindex(copy_string(col[i]->bind_ptr), ' '), "\0")) notes = smtk_concat_str(notes, "\n", "%s: %s", wreck_fields[i - 3], rindex(col[i]->bind_ptr, ' ')); break; case 6 ... 9: case 14: case 15: if (memcmp(col[i]->bind_ptr, "\0", 1)) notes = smtk_concat_str(notes, "\n", "%s: %s", wreck_fields[i - 3], col[i]->bind_ptr); break; default: d = lrintl(strtold(col[i]->bind_ptr, NULL)); if (d) notes = smtk_concat_str(notes, "\n", "%s: %d", wreck_fields[i - 3], d); break; } } ds->notes = smtk_concat_str(ds->notes, "\n", "%s", notes); break; } } /* Clean up and exit */ smtk_free(bound_values, table->num_cols); mdb_free_tabledef(table); free(notes); free(tmp); } /* * Smartrak locations db is quite extensive. This builds a string joining some of * the data in the style: "Country, State, Locality, Site" if this data are * available. Uses two tables, Site and Location. Puts Altitude, Depth and Notes * in Subsurface's dive site structure's notes if they are available. * Site format: * | Idx | Text | LocationIdx | WaterIdx | PlatformIdx | BottomIdx | Latitude | Longitude | Altitude | Depth | Notes | TrakId | * Location format: * | Idx | Text | Province | Country | Depth | */ static void smtk_build_location(MdbHandle *mdb, char *idx, timestamp_t when, uint32_t *location) { MdbTableDef *table; MdbColumn *col[MDB_MAX_COLS]; char *bound_values[MDB_MAX_COLS]; int i; uint32_t d; struct dive_site *ds; degrees_t lat, lon; char *str = NULL, *loc_idx = NULL, *site = NULL, *notes = NULL; const char *site_fields[] = {QT_TRANSLATE_NOOP("gettextFromC", "Altitude"), QT_TRANSLATE_NOOP("gettextFromC", "Depth"), QT_TRANSLATE_NOOP("gettextFromC", "Notes")}; /* Read data from Site table. Format notes for the dive site if any.*/ table = smtk_open_table(mdb, "Site", col, bound_values); if (!table) return; for (i = 1; i <= atoi(idx); i++) mdb_fetch_row(table); loc_idx = copy_string(col[2]->bind_ptr); site = copy_string(col[1]->bind_ptr); lat.udeg = lrint(strtod(col[6]->bind_ptr, NULL) * 1000000); lon.udeg = lrint(strtod(col[7]->bind_ptr, NULL) * 1000000); for (i = 8; i < 11; i++) { switch (i) { case 8: case 9: d = lrintl(strtold(col[i]->bind_ptr, NULL)); if (d) notes = smtk_concat_str(notes, "\n", "%s: %d m", site_fields[i - 8], d); break; case 10: if (memcmp(col[i]->bind_ptr, "\0", 1)) notes = smtk_concat_str(notes, "\n", "%s: %s", site_fields[i - 8], col[i]->bind_ptr); break; } } smtk_free(bound_values, table->num_cols); mdb_free_tabledef(table); /* Read data from Location table, linked to Site by loc_idx */ table = smtk_open_table(mdb, "Location", col, bound_values); mdb_rewind_table(table); for (i = 1; i <= atoi(loc_idx); i++) mdb_fetch_row(table); /* * Create a string for Subsurface's dive site structure with coordinates * if available, if the site's name doesn't previously exists. */ if (memcmp(col[3]->bind_ptr, "\0", 1)) str = smtk_concat_str(str, ", ", "%s", col[3]->bind_ptr); // Country if (memcmp(col[2]->bind_ptr, "\0", 1)) str = smtk_concat_str(str, ", ", "%s", col[2]->bind_ptr); // State - Province if (memcmp(col[1]->bind_ptr, "\0", 1)) str = smtk_concat_str(str, ", ", "%s", col[1]->bind_ptr); // Locality str = smtk_concat_str(str, ", ", "%s", site); *location = get_dive_site_uuid_by_name(str, NULL); if (*location == 0) { if (lat.udeg == 0 && lon.udeg == 0) *location = create_dive_site(str, when); else *location = create_dive_site_with_gps(str, lat, lon, when); } smtk_free(bound_values, table->num_cols); /* Insert site notes */ ds = get_dive_site_by_uuid(*location); ds->notes = copy_string(notes); free(notes); /* Check if we have a wreck */ smtk_wreck_site(mdb, idx, ds); /* Clean up and exit */ mdb_free_tabledef(table); free(loc_idx); free(site); free(str); } static void smtk_build_tank_info(MdbHandle *mdb, struct dive *dive, int tanknum, char *idx) { MdbTableDef *table; MdbColumn *col[MDB_MAX_COLS]; char *bound_values[MDB_MAX_COLS]; int i; table = smtk_open_table(mdb, "Tank", col, bound_values); if (!table) return; for (i = 1; i <= atoi(idx); i++) mdb_fetch_row(table); dive->cylinder[tanknum].type.description = copy_string(col[1]->bind_ptr); dive->cylinder[tanknum].type.size.mliter = strtod(col[2]->bind_ptr, NULL) * 1000; dive->cylinder[tanknum].type.workingpressure.mbar = strtod(col[4]->bind_ptr, NULL) * 1000; smtk_free(bound_values, table->num_cols); mdb_free_tabledef(table); } /* * Parses a relation table and fills a list with the relations for a dive idx. * Returns the number of relations found for a given dive idx. * Table relation format: * | Diveidx | Idx | */ static int smtk_index_list(MdbHandle *mdb, char *table_name, char *dive_idx, int idx_list[]) { int n = 0, i = 0; MdbTableDef *table; MdbColumn *cols[MDB_MAX_COLS]; char *bounders[MDB_MAX_COLS]; table = smtk_open_table(mdb, table_name, cols, bounders); /* Sanity check */ if (!table) return 0; /* Parse the table searching for dive_idx */ while (mdb_fetch_row(table)) { if (!strcmp(dive_idx, cols[0]->bind_ptr)) { idx_list[n] = atoi(cols[1]->bind_ptr); n++; } } /* Clean up and exit */ smtk_free(bounders, table->num_cols); mdb_free_tabledef(table); return n; } /* * Returns string with buddies names as registered in smartrak (may be a nickname). * "Buddy" table is a buddies relation with lots and lots and lots of data (even buddy mother's * maiden name ;-) ) most of them useless for a dive log. Let's just consider the nickname as main * field and the full name if this exists and its construction is different from the nickname. * Buddy table format: * | Idx | Text (nickname) | Name | Firstname | Middlename | Title | Picture | Phone | ... */ static char *smtk_locate_buddy(MdbHandle *mdb, char *dive_idx) { char *str = NULL, *fullname = NULL, *bounder[MDB_MAX_COLS] = { NULL }, *buddies[256] = { NULL }; MdbTableDef *table; MdbColumn *col[MDB_MAX_COLS]; int i, n, rel[256] = { 0 }; n = smtk_index_list(mdb, "BuddyRelation", dive_idx, rel); if (!n) return str; table = smtk_open_table(mdb, "Buddy", col, bounder); if (!table) return str; /* * Buddies in a single dive aren't (usually) a big number, so probably * it's not a good idea to use a complex data structure and algorithm. */ while (mdb_fetch_row(table)) { if (!same_string(col[3]->bind_ptr, "")) fullname = smtk_concat_str(fullname, " ", "%s", col[3]->bind_ptr); if (!same_string(col[4]->bind_ptr, "")) fullname = smtk_concat_str(fullname, " ", "%s", col[4]->bind_ptr); if (!same_string(col[2]->bind_ptr, "")) fullname = smtk_concat_str(fullname, " ", "%s", col[2]->bind_ptr); if (fullname && !same_string(col[1]->bind_ptr, fullname)) buddies[atoi(col[0]->bind_ptr)] = smtk_concat_str(buddies[atoi(col[0]->bind_ptr)], "", "%s (%s)", col[1]->bind_ptr, fullname); else buddies[atoi(col[0]->bind_ptr)] = smtk_concat_str(buddies[atoi(col[0]->bind_ptr)], "", "%s", col[1]->bind_ptr); free(fullname); fullname = NULL; } for (i = 0; i < n; i++) str = smtk_concat_str(str, ", ", "%s", buddies[rel[i]]); /* Clean up and exit */ smtk_free(buddies, 256); smtk_free(bounder, MDB_MAX_COLS); mdb_free_tabledef(table); return str; } /* Parses the dive_type mdb tables and import the data into dive's * taglist structure or notes. If there are tags that affects dive's dive_mode * (SCR, CCR or so), set the dive mode too. * The "tag" parameter is used to mark if we want this table to be imported * into tags or into notes. * Managed tables formats: Just consider Idx and Text * Type: * | Idx | Text | Default (bool) * Activity: * | Idx | Text | Default (bool) * Gear: * | Idx | Text | Vendor | Type | Typenum | Notes | Default (bool) | TrakId * Fish: * | Idx | Text | Name | Latin name | Typelength | Maxlength | Picture | Default (bool)| TrakId */ static void smtk_parse_relations(MdbHandle *mdb, struct dive *dive, char *dive_idx, char *table_name, char *rel_table_name, bool tag) { MdbTableDef *table; MdbColumn *col[MDB_MAX_COLS]; char *bound_values[MDB_MAX_COLS], *tmp = NULL, *types[64] = { NULL }; int i = 0, n = 0, rels[256] = { 0 }; n = smtk_index_list(mdb, rel_table_name, dive_idx, rels); if (!n) return; table = smtk_open_table(mdb, table_name, col, bound_values); if (!table) return; while (mdb_fetch_row(table)) types[atoi(col[0]->bind_ptr)] = copy_string(col[1]->bind_ptr); for (i = 0; i < n; i++) { if (tag) taglist_add_tag(&dive->tag_list, types[rels[i]]); else tmp = smtk_concat_str(tmp, ", ", "%s", types[rels[i]]); if (strstr(types[rels[i]], "SCR")) dive->dc.divemode = PSCR; else if (strstr(types[rels[i]], "CCR")) dive->dc.divemode = CCR; } if (tmp) dive->notes = smtk_concat_str(dive->notes, "\n", "Smartrak %s: %s", table_name, tmp); free(tmp); /* clean up and exit */ smtk_free(types, 64); smtk_free(bound_values, table->num_cols); mdb_free_tabledef(table); } /* * Marker table is a mix between Type tables and Relations tables. Its format is * | Dive Idx | Idx | Text | Type | XPos | YPos | XConnect | YConnect * Type may be one of 1 = Text; 2 = DC; 3 = Tissue Data; 4 = Photo (0 most of time??) * XPos is time in minutes during the dive (long int) * YPos irelevant * XConnect irelevant * YConnect irelevant */ static void smtk_parse_bookmarks(MdbHandle *mdb, struct dive *d, char *dive_idx) { MdbTableDef *table; MdbColumn *col[MDB_MAX_COLS]; char *bound_values[MDB_MAX_COLS], *tmp = NULL; unsigned int time; table = smtk_open_table(mdb, "Marker", col, bound_values); if (!table) report_error("[smtk-import] Error - Couldn't open table 'Marker', dive %d", d->number); while (mdb_fetch_row(table)) { if (same_string(col[0]->bind_ptr, dive_idx)) { time = lrint(strtod(col[4]->bind_ptr, NULL) * 60); tmp = strdup(col[2]->bind_ptr); if (!add_event(&d->dc, time, SAMPLE_EVENT_BOOKMARK, 0, 0, tmp)) report_error("[smtk-import] Error - Couldn't add bookmark, dive %d, Name = %s", d->number, tmp); } } smtk_free(bound_values, table->num_cols); mdb_free_tabledef(table); } /* * Returns a dc_descriptor_t structure based on dc model's number. * This ensures the model pased to libdc_buffer_parser() is a supported model and avoids * problems with shared model num devices by taking the family into account. The family * is estimated elsewhere based in dive header length. */ static dc_descriptor_t *get_data_descriptor(int data_model, dc_family_t data_fam) { dc_descriptor_t *descriptor = NULL, *current = NULL; dc_iterator_t *iterator = NULL; dc_status_t rc; rc = dc_descriptor_iterator(&iterator); if (rc != DC_STATUS_SUCCESS) { report_error("[Error][libdc]\t\t\tCreating the device descriptor iterator.\n"); return current; } while ((dc_iterator_next(iterator, &descriptor)) == DC_STATUS_SUCCESS) { int desc_model = dc_descriptor_get_model(descriptor); dc_family_t desc_fam = dc_descriptor_get_type(descriptor); if (data_fam == DC_FAMILY_UWATEC_ALADIN) { if (data_model == desc_model && data_fam == desc_fam) { current = descriptor; break; } } else if (data_model == desc_model && (desc_fam == DC_FAMILY_UWATEC_SMART || desc_fam == DC_FAMILY_UWATEC_MERIDIAN)) { current = descriptor; break; } dc_descriptor_free(descriptor); } dc_iterator_free(iterator); return current; } /* * Fills a device_data_t structure with known dc data. * Completes a dc_descriptor_t structure with libdc's g_descriptors[] table so * we ensure that data passed for parsing to libdc have a supported and known * DC. dc_family_t is certainly known *only* if it is Aladin/Memomouse family * otherwise it will be known after get_data_descriptor call. */ static int prepare_data(int data_model, dc_family_t dc_fam, device_data_t *dev_data) { dev_data->device = NULL; dev_data->context = NULL; dev_data->descriptor = get_data_descriptor(data_model, dc_fam); if (dev_data->descriptor) { dev_data->vendor = dc_descriptor_get_vendor(dev_data->descriptor); dev_data->product = dc_descriptor_get_product(dev_data->descriptor); dev_data->model = smtk_concat_str(dev_data->model, "", "%s %s", dev_data->vendor, dev_data->product); return DC_STATUS_SUCCESS; } else { return DC_STATUS_UNSUPPORTED; } } /* * Returns a buffer prepared for libdc parsing. * Aladin and memomouse dives were imported from datatrak, so they lack of a * header. Creates a fake header for them and inserts the dc model where libdc * expects it to be. */ static dc_status_t libdc_buffer_complete(device_data_t *dev_data, unsigned char *hdr_buffer, int hdr_length, unsigned char *prf_buffer, int prf_length, unsigned char *compl_buf) { switch (dc_descriptor_get_type(dev_data->descriptor)) { case DC_FAMILY_UWATEC_ALADIN: case DC_FAMILY_UWATEC_MEMOMOUSE: compl_buf[3] = (unsigned char) dc_descriptor_get_model(dev_data->descriptor); memcpy(compl_buf+hdr_length, prf_buffer, prf_length); break; case DC_FAMILY_UWATEC_SMART: case DC_FAMILY_UWATEC_MERIDIAN: memcpy(compl_buf, hdr_buffer, hdr_length); memcpy(compl_buf+hdr_length, prf_buffer, prf_length); break; default: return -2; } return 0; } /* * Main function. * Two looping levels using a database for the first level ("Dives" table) * and a clone of the first DB for the second level (each dive items). Using * a DB clone is necessary as calling mdb_fetch_row() over different tables in * a single DB breaks binded row data, and so would break the top loop. */ void smartrak_import(const char *file, struct dive_table *divetable) { MdbHandle *mdb, *mdb_clon; MdbTableDef *mdb_table; MdbColumn *col[MDB_MAX_COLS]; char *bound_values[MDB_MAX_COLS], *ver; int i, dc_model; // Set an european style locale to work date/time conversion setlocale(LC_TIME, "POSIX"); mdb = mdb_open(file, MDB_NOFLAGS); if (!mdb) { report_error("[Error][smartrak_import]\tFile %s does not seem to be an Access database.", file); return; } if (!mdb_read_catalog(mdb, MDB_TABLE)) { report_error("[Error][smartrak_import]\tFile %s does not seem to be an Access database.", file); return; } mdb_clon = mdb_clone_handle(mdb); mdb_read_catalog(mdb_clon, MDB_TABLE); /* Check Smarttrak version (different number of supported tanks, mixes and so) */ ver = smtk_value_by_idx(mdb_clon, "SmartTrak", 1, "1"); smtk_version = atoi(ver); free(ver); tanks = (smtk_version < 10213) ? 3 : 10; mdb_table = smtk_open_table(mdb, "Dives", col, bound_values); if (!mdb_table) { report_error("[Error][smartrak_import]\tFile %s does not seem to be an SmartTrak file.", file); return; } while (mdb_fetch_row(mdb_table)) { device_data_t *devdata = calloc(1, sizeof(device_data_t)); dc_family_t dc_fam = DC_FAMILY_NULL; unsigned char *prf_buffer, *hdr_buffer, *compl_buffer; struct dive *smtkdive = alloc_dive(); struct tm *tm_date = malloc(sizeof(struct tm)); size_t hdr_length, prf_length; dc_status_t rc = 0; smtkdive->number = lrint(strtod(col[1]->bind_ptr, NULL)); /* * If there is a DC model (no zero) try to create a buffer for the * dive and parse it with libdivecomputer */ dc_model = lrint(strtod(col[coln(DCMODEL)]->bind_ptr, NULL)) & 0xFF; if (dc_model) { hdr_buffer = mdb_ole_read_full(mdb, col[coln(LOG)], &hdr_length); if (hdr_length > 0 && hdr_length < 20) // We have a profile but it's imported from datatrak dc_fam = DC_FAMILY_UWATEC_ALADIN; rc = prepare_data(dc_model, dc_fam, devdata); } else { rc = DC_STATUS_NODEVICE; } smtkdive->dc.model = devdata->model; smtkdive->dc.serial = copy_string(col[coln(DCNUMBER)]->bind_ptr); if (rc == DC_STATUS_SUCCESS) { prf_buffer = mdb_ole_read_full(mdb, col[coln(PROFILE)], &prf_length); if (prf_length > 0) { if (dc_descriptor_get_type(devdata->descriptor) == DC_FAMILY_UWATEC_ALADIN || dc_descriptor_get_type(devdata->descriptor) == DC_FAMILY_UWATEC_MEMOMOUSE) hdr_length = 18; compl_buffer = calloc(hdr_length+prf_length, sizeof(char)); rc = libdc_buffer_complete(devdata, hdr_buffer, hdr_length, prf_buffer, prf_length, compl_buffer); if (rc != DC_STATUS_SUCCESS) { report_error("[Error][smartrak_import]\t- %s - for dive %d", errmsg(rc), smtkdive->number); } else { rc = libdc_buffer_parser(smtkdive, devdata, compl_buffer, hdr_length + prf_length); if (rc != DC_STATUS_SUCCESS) report_error("[Error][libdc]\t\t- %s - for dive %d", errmsg(rc), smtkdive->number); } free(compl_buffer); } else { /* Dives without profile samples (usual in older aladin series) */ report_error("[Warning][smartrak_import]\t No profile for dive %d", smtkdive->number); smtkdive->dc.duration.seconds = smtkdive->duration.seconds = smtk_time_to_secs(col[coln(DURATION)]->bind_ptr); smtkdive->dc.maxdepth.mm = smtkdive->maxdepth.mm = lrint(strtod(col[coln(MAXDEPTH)]->bind_ptr, NULL) * 1000); } free(hdr_buffer); free(prf_buffer); } else { /* Manual dives or unknown DCs */ report_error("[Warning][smartrak_import]\t Manual or unknown dive computer for dive %d", smtkdive->number); smtkdive->dc.duration.seconds = smtkdive->duration.seconds = smtk_time_to_secs(col[coln(DURATION)]->bind_ptr); smtkdive->dc.maxdepth.mm = smtkdive->maxdepth.mm = lrint(strtod(col[coln(MAXDEPTH)]->bind_ptr, NULL) * 1000); } /* * Cylinder and gasmixes completion. * Revisit data under some circunstances, e.g. a start pressure = 0 may mean * that dc doesn't support gas control, in this situation let's look into mdb data */ int numtanks = (tanks == 10) ? 8 : 3; // Subsurface supports up to 8 tanks int pstartcol = coln(PSTART); int o2fraccol = coln(O2FRAC); int hefraccol = coln(HEFRAC); int tankidxcol = coln(TANKIDX); for (i = 0; i < numtanks; i++) { if (smtkdive->cylinder[i].start.mbar == 0) { smtkdive->cylinder[i].start.mbar = strtod(col[(i*2)+pstartcol]->bind_ptr, NULL) * 1000; smtkdive->cylinder[i].gasmix.o2.permille = strtod(col[i+o2fraccol]->bind_ptr, NULL) * 10; if (smtk_version == 10213) smtkdive->cylinder[i].gasmix.he.permille = strtod(col[i+hefraccol]->bind_ptr, NULL) * 10; else smtkdive->cylinder[i].gasmix.he.permille = 0; } /* * If there is a start pressure ensure that end pressure is not zero as * will be registered in DCs which only keep track of differential pressures, * and collect the data registered by the user in mdb */ if (smtkdive->cylinder[i].start.mbar != 0) { if (smtkdive->cylinder[i].end.mbar == 0) smtkdive->cylinder[i].end.mbar = strtod(col[(i * 2) + 1 + pstartcol]->bind_ptr, NULL) * 1000 ? : 1000; smtk_build_tank_info(mdb_clon, smtkdive, i, col[i + tankidxcol]->bind_ptr); } } /* Date issues with libdc parser - Take date time from mdb */ smtk_date_to_tm(col[coln(DATE)]->bind_ptr, tm_date); smtk_time_to_tm(col[coln(INTIME)]->bind_ptr, tm_date); smtkdive->dc.when = smtkdive->when = timegm(tm_date); free(tm_date); smtkdive->dc.surfacetime.seconds = smtk_time_to_secs(col[coln(INTVAL)]->bind_ptr); /* Data that user may have registered manually if not supported by DC, or not parsed */ if (!smtkdive->airtemp.mkelvin) smtkdive->airtemp.mkelvin = C_to_mkelvin(lrint(strtod(col[coln(AIRTEMP)]->bind_ptr, NULL))); if (!smtkdive->watertemp.mkelvin) smtkdive->watertemp.mkelvin = smtkdive->mintemp.mkelvin = C_to_mkelvin(lrint(strtod(col[coln(MINWATERTEMP)]->bind_ptr, NULL))); if (!smtkdive->maxtemp.mkelvin) smtkdive->maxtemp.mkelvin = C_to_mkelvin(lrint(strtod(col[coln(MAXWATERTEMP)]->bind_ptr, NULL))); /* No DC related data */ smtkdive->visibility = strtod(col[coln(VISIBILITY)]->bind_ptr, NULL) > 25 ? 5 : lrint(strtod(col[13]->bind_ptr, NULL) / 5); smtkdive->weightsystem[0].weight.grams = lrint(strtod(col[coln(WEIGHT)]->bind_ptr, NULL) * 1000); smtkdive->suit = smtk_value_by_idx(mdb_clon, "Suit", 1, col[coln(SUITIDX)]->bind_ptr); smtk_build_location(mdb_clon, col[coln(SITEIDX)]->bind_ptr, smtkdive->when, &smtkdive->dive_site_uuid); smtkdive->buddy = smtk_locate_buddy(mdb_clon, col[0]->bind_ptr); smtk_parse_relations(mdb_clon, smtkdive, col[0]->bind_ptr, "Type", "TypeRelation", true); smtk_parse_relations(mdb_clon, smtkdive, col[0]->bind_ptr, "Activity", "ActivityRelation", false); smtk_parse_relations(mdb_clon, smtkdive, col[0]->bind_ptr, "Gear", "GearRelation", false); smtk_parse_relations(mdb_clon, smtkdive, col[0]->bind_ptr, "Fish", "FishRelation", false); smtk_parse_bookmarks(mdb_clon, smtkdive, col[0]->bind_ptr); smtkdive->notes = smtk_concat_str(smtkdive->notes, "\n", "%s", col[coln(REMARKS)]->bind_ptr); record_dive_to_table(smtkdive, divetable); free(devdata); } smtk_free(bound_values, mdb_table->num_cols); mdb_free_tabledef(mdb_table); mdb_free_catalog(mdb_clon); mdb->catalog = NULL; mdb_close(mdb_clon); mdb_close(mdb); sort_table(divetable); }