/* */ #include #include #include #include #include #include #include #include #include #include "nominatim.h" #include "index.h" #include "export.h" #include "postgresql.h" extern int verbose; void nominatim_index(int rank_min, int rank_max, int num_threads, const char *conninfo, const char *structuredoutputfile) { struct index_thread_data * thread_data; pthread_mutex_t count_mutex = PTHREAD_MUTEX_INITIALIZER; int tuples, count, sleepcount; time_t rankStartTime; int rankTotalTuples; int rankCountTuples; float rankPerSecond; PGconn *conn; PGresult * res; PGresult * resSectors; PGresult * resPlaces; PGresult * resNULL; int rank; int i; int iSector; int iResult; const char *paramValues[2]; int paramLengths[2]; int paramFormats[2]; uint32_t paramRank; uint32_t paramSector; uint32_t sector; xmlTextWriterPtr writer; pthread_mutex_t writer_mutex = PTHREAD_MUTEX_INITIALIZER; Oid pg_prepare_params[2]; conn = PQconnectdb(conninfo); if (PQstatus(conn) != CONNECTION_OK) { fprintf(stderr, "Connection to database failed: %s\n", PQerrorMessage(conn)); exit(EXIT_FAILURE); } pg_prepare_params[0] = PG_OID_INT4; res = PQprepare(conn, "index_sectors", "select geometry_sector,count(*) from placex where rank_search = $1 and indexed_status > 0 group by geometry_sector order by geometry_sector", 1, pg_prepare_params); if (PQresultStatus(res) != PGRES_COMMAND_OK) { fprintf(stderr, "Failed preparing index_sectors: %s\n", PQerrorMessage(conn)); exit(EXIT_FAILURE); } PQclear(res); pg_prepare_params[0] = PG_OID_INT4; res = PQprepare(conn, "index_nosectors", "select 0::integer,count(*) from placex where rank_search = $1 and indexed_status > 0", 1, pg_prepare_params); if (PQresultStatus(res) != PGRES_COMMAND_OK) { fprintf(stderr, "Failed preparing index_sectors: %s\n", PQerrorMessage(conn)); exit(EXIT_FAILURE); } PQclear(res); pg_prepare_params[0] = PG_OID_INT4; pg_prepare_params[1] = PG_OID_INT4; res = PQprepare(conn, "index_sector_places", "select place_id from placex where rank_search = $1 and geometry_sector = $2 and indexed_status > 0", 2, pg_prepare_params); if (PQresultStatus(res) != PGRES_COMMAND_OK) { fprintf(stderr, "Failed preparing index_sector_places: %s\n", PQerrorMessage(conn)); exit(EXIT_FAILURE); } PQclear(res); pg_prepare_params[0] = PG_OID_INT4; res = PQprepare(conn, "index_nosector_places", "select place_id from placex where rank_search = $1 and indexed_status > 0 order by geometry_sector", 1, pg_prepare_params); if (PQresultStatus(res) != PGRES_COMMAND_OK) { fprintf(stderr, "Failed preparing index_nosector_places: %s\n", PQerrorMessage(conn)); exit(EXIT_FAILURE); } PQclear(res); // Build the data for each thread thread_data = (struct index_thread_data *)malloc(sizeof(struct index_thread_data)*num_threads); for (i = 0; i < num_threads; i++) { thread_data[i].conn = PQconnectdb(conninfo); if (PQstatus(thread_data[i].conn) != CONNECTION_OK) { fprintf(stderr, "Connection to database failed: %s\n", PQerrorMessage(thread_data[i].conn)); exit(EXIT_FAILURE); } pg_prepare_params[0] = PG_OID_INT8; res = PQprepare(thread_data[i].conn, "index_placex", "update placex set indexed_status = 0 where place_id = $1", 1, pg_prepare_params); if (PQresultStatus(res) != PGRES_COMMAND_OK) { fprintf(stderr, "Failed preparing index_placex: %s\n", PQerrorMessage(conn)); exit(EXIT_FAILURE); } PQclear(res); /*res = PQexec(thread_data[i].conn, "set enable_seqscan = false"); if (PQresultStatus(res) != PGRES_COMMAND_OK) { fprintf(stderr, "Failed disabling sequential scan: %s\n", PQerrorMessage(conn)); exit(EXIT_FAILURE); } PQclear(res);*/ nominatim_exportCreatePreparedQueries(thread_data[i].conn); } // Create the output file writer = NULL; if (structuredoutputfile) { writer = nominatim_exportXMLStart(structuredoutputfile); } fprintf(stderr, "Starting indexing rank (%i to %i) using %i threads\n", rank_min, rank_max, num_threads); for (rank = rank_min; rank <= rank_max; rank++) { fprintf(stderr, "Starting rank %d\n", rank); rankCountTuples = 0; rankPerSecond = 0; paramRank = PGint32(rank); paramValues[0] = (char *)¶mRank; paramLengths[0] = sizeof(paramRank); paramFormats[0] = 1; // if (rank < 16) // resSectors = PQexecPrepared(conn, "index_nosectors", 1, paramValues, paramLengths, paramFormats, 1); // else resSectors = PQexecPrepared(conn, "index_sectors", 1, paramValues, paramLengths, paramFormats, 1); if (PQresultStatus(resSectors) != PGRES_TUPLES_OK) { fprintf(stderr, "index_sectors: SELECT failed: %s", PQerrorMessage(conn)); PQclear(resSectors); exit(EXIT_FAILURE); } if (PQftype(resSectors, 0) != PG_OID_INT4) { fprintf(stderr, "Sector value has unexpected type\n"); PQclear(resSectors); exit(EXIT_FAILURE); } if (PQftype(resSectors, 1) != PG_OID_INT8) { fprintf(stderr, "Sector value has unexpected type\n"); PQclear(resSectors); exit(EXIT_FAILURE); } rankTotalTuples = 0; for (iSector = 0; iSector < PQntuples(resSectors); iSector++) { rankTotalTuples += PGint64(*((uint64_t *)PQgetvalue(resSectors, iSector, 1))); } rankStartTime = time(0); for (iSector = 0; iSector <= PQntuples(resSectors); iSector++) { if (iSector > 0) { resPlaces = PQgetResult(conn); if (PQresultStatus(resPlaces) != PGRES_TUPLES_OK) { fprintf(stderr, "index_sector_places: SELECT failed: %s", PQerrorMessage(conn)); PQclear(resPlaces); exit(EXIT_FAILURE); } if (PQftype(resPlaces, 0) != PG_OID_INT8) { fprintf(stderr, "Place_id value has unexpected type\n"); PQclear(resPlaces); exit(EXIT_FAILURE); } resNULL = PQgetResult(conn); if (resNULL != NULL) { fprintf(stderr, "Unexpected non-null response\n"); exit(EXIT_FAILURE); } } if (iSector < PQntuples(resSectors)) { sector = PGint32(*((uint32_t *)PQgetvalue(resSectors, iSector, 0))); // fprintf(stderr, "\n Starting sector %d size %ld\n", sector, PGint64(*((uint64_t *)PQgetvalue(resSectors, iSector, 1)))); // Get all the place_id's for this sector paramRank = PGint32(rank); paramValues[0] = (char *)¶mRank; paramLengths[0] = sizeof(paramRank); paramFormats[0] = 1; paramSector = PGint32(sector); paramValues[1] = (char *)¶mSector; paramLengths[1] = sizeof(paramSector); paramFormats[1] = 1; if (rankTotalTuples-rankCountTuples < num_threads*1000) { iResult = PQsendQueryPrepared(conn, "index_nosector_places", 1, paramValues, paramLengths, paramFormats, 1); } else { iResult = PQsendQueryPrepared(conn, "index_sector_places", 2, paramValues, paramLengths, paramFormats, 1); } if (!iResult) { fprintf(stderr, "index_sector_places: SELECT failed: %s", PQerrorMessage(conn)); PQclear(resPlaces); exit(EXIT_FAILURE); } } if (iSector > 0) { count = 0; rankPerSecond = 0; tuples = PQntuples(resPlaces); if (tuples > 0) { // Spawn threads for (i = 0; i < num_threads; i++) { thread_data[i].res = resPlaces; thread_data[i].tuples = tuples; thread_data[i].count = &count; thread_data[i].count_mutex = &count_mutex; thread_data[i].writer = writer; thread_data[i].writer_mutex = &writer_mutex; pthread_create(&thread_data[i].thread, NULL, &nominatim_indexThread, (void *)&thread_data[i]); } // Monitor threads to give user feedback sleepcount = 0; while (count < tuples) { usleep(1000); // Aim for one update per second if (sleepcount++ > 500) { rankPerSecond = ((float)rankCountTuples + (float)count) / MAX(difftime(time(0), rankStartTime),1); fprintf(stderr, " Done %i in %i @ %f per second - Rank %i ETA (seconds): %f\n", (rankCountTuples + count), (int)(difftime(time(0), rankStartTime)), rankPerSecond, rank, ((float)(rankTotalTuples - (rankCountTuples + count)))/rankPerSecond); sleepcount = 0; } } // Wait for everything to finish for (i = 0; i < num_threads; i++) { pthread_join(thread_data[i].thread, NULL); } rankCountTuples += tuples; } // Finished sector rankPerSecond = (float)rankCountTuples / MAX(difftime(time(0), rankStartTime),1); fprintf(stderr, " Done %i in %i @ %f per second - ETA (seconds): %f\n", rankCountTuples, (int)(difftime(time(0), rankStartTime)), rankPerSecond, ((float)(rankTotalTuples - rankCountTuples))/rankPerSecond); PQclear(resPlaces); } if (rankTotalTuples-rankCountTuples < num_threads*20 && iSector < PQntuples(resSectors)) { iSector = PQntuples(resSectors) - 1; } } // Finished rank fprintf(stderr, "\r Done %i in %i @ %f per second - FINISHED \n\n", rankCountTuples, (int)(difftime(time(0), rankStartTime)), rankPerSecond); PQclear(resSectors); } if (writer) { nominatim_exportXMLEnd(writer); } } void *nominatim_indexThread(void * thread_data_in) { struct index_thread_data * thread_data = (struct index_thread_data * )thread_data_in; struct export_data querySet; PGresult *res; const char *paramValues[1]; int paramLengths[1]; int paramFormats[1]; uint64_t paramPlaceID; uint64_t place_id; time_t updateStartTime; while (1) { pthread_mutex_lock( thread_data->count_mutex ); if (*(thread_data->count) >= thread_data->tuples) { pthread_mutex_unlock( thread_data->count_mutex ); break; } place_id = PGint64(*((uint64_t *)PQgetvalue(thread_data->res, *thread_data->count, 0))); (*thread_data->count)++; pthread_mutex_unlock( thread_data->count_mutex ); if (verbose) fprintf(stderr, " Processing place_id %ld\n", place_id); updateStartTime = time(0); int done = 0; if (thread_data->writer) { nominatim_exportPlaceQueries(place_id, thread_data->conn, &querySet); } while(!done) { paramPlaceID = PGint64(place_id); paramValues[0] = (char *)¶mPlaceID; paramLengths[0] = sizeof(paramPlaceID); paramFormats[0] = 1; res = PQexecPrepared(thread_data->conn, "index_placex", 1, paramValues, paramLengths, paramFormats, 1); if (PQresultStatus(res) == PGRES_COMMAND_OK) done = 1; else { if (!strncmp(PQerrorMessage(thread_data->conn), "ERROR: deadlock detected", 25)) { fprintf(stderr, "index_placex: UPDATE failed - deadlock, retrying (%ld)\n", place_id); PQclear(res); sleep(rand() % 10); } else { fprintf(stderr, "index_placex: UPDATE failed: %s", PQerrorMessage(thread_data->conn)); PQclear(res); exit(EXIT_FAILURE); } } } PQclear(res); if (difftime(time(0), updateStartTime) > 1) fprintf(stderr, " Slow place_id %ld\n", place_id); if (thread_data->writer) { nominatim_exportPlace(place_id, thread_data->conn, thread_data->writer, thread_data->writer_mutex, &querySet); nominatim_exportFreeQueries(&querySet); } } return NULL; }