#!/usr/bin/python3 """Write Starlink user terminal data to a sqlite database. This script pulls the current status info and/or metrics computed from the history data and writes them to the specified sqlite database either once or in a periodic loop. Requested data will be written into the following tables: : status : Current status data : history : Bulk history data : ping_stats : Ping history statistics : usage : Usage history statistics Array data is currently written to the database as text strings of comma- separated values, which may not be the best method for some use cases. If you find yourself wishing they were handled better, please open a feature request at https://github.com/sparky8512/starlink-grpc-tools/issues explaining the use case and how you would rather see it. This only affects a few fields, since most of the useful data is not in arrays. Note that using this script to record the alert_detail group mode will tend to trip schema-related errors when new alert types are added to the dish software. The error message will include something like "table status has no column named alert_foo", where "foo" is the newly added alert type. To work around this rare occurrence, you can pass the -f option to force a schema update. Alternatively, instead of using the alert_detail mode, you can use the alerts bitmask in the status group. NOTE: The Starlink user terminal does not include time values with its history or status data, so this script uses current system time to compute the timestamps it writes into the database. It is recommended to run this script on a host that has its system clock synced via NTP. Otherwise, the timestamps may get out of sync with real time. """ from datetime import datetime from datetime import timezone from itertools import repeat import logging import signal import sqlite3 import sys import time import starlink_grpc_tools.dish_common as dish_common import starlink_grpc_tools.starlink_grpc as starlink_grpc SCHEMA_VERSION = 4 class Terminated(Exception): pass def handle_sigterm(signum, frame): # Turn SIGTERM into an exception so main loop can clean up raise Terminated def parse_args(): parser = dish_common.create_arg_parser( output_description="write it to a sqlite database" ) parser.add_argument("database", help="Database file to use") group = parser.add_argument_group(title="sqlite database options") group.add_argument( "-f", "--force", action="store_true", help="Force schema conversion, even if it results in downgrade; may " "result in discarded data", ) group.add_argument( "-k", "--skip-query", action="store_true", help="Skip querying for prior sample write point in history modes", ) opts = dish_common.run_arg_parser(parser, need_id=True) opts.skip_query |= opts.no_counter return opts def query_counter(opts, gstate, column, table): now = time.time() cur = gstate.sql_conn.cursor() cur.execute( 'SELECT "time", "{0}" FROM "{1}" WHERE "time" {1}".format( row[1], datetime.fromtimestamp(row[0], tz=timezone.utc) ) ) return row else: return 0, None def loop_body(opts, gstate, shutdown=False): tables = {"status": {}, "ping_stats": {}, "usage": {}} hist_cols = ["time", "id"] hist_rows = [] def cb_add_item(key, val, category): tables[category][key] = val def cb_add_sequence(key, val, category, start): tables[category][key] = ",".join( str(subv) if subv is not None else "" for subv in val ) def cb_add_bulk(bulk, count, timestamp, counter): if len(hist_cols) == 2: hist_cols.extend(bulk.keys()) hist_cols.append("counter") for i in range(count): timestamp += 1 counter += 1 row = [timestamp, gstate.dish_id] row.extend(val[i] for val in bulk.values()) row.append(counter) hist_rows.append(row) rc = 0 status_ts = None hist_ts = None if not shutdown: rc, status_ts = dish_common.get_status_data( opts, gstate, cb_add_item, cb_add_sequence ) if opts.history_stats_mode and (not rc or opts.poll_loops > 1): if gstate.counter_stats is None and not opts.skip_query and opts.samples < 0: _, gstate.counter_stats = query_counter( opts, gstate, "end_counter", "ping_stats" ) hist_rc, hist_ts = dish_common.get_history_stats( opts, gstate, cb_add_item, cb_add_sequence, shutdown ) if not rc: rc = hist_rc if not shutdown and opts.bulk_mode and not rc: if gstate.counter is None and not opts.skip_query and opts.bulk_samples < 0: gstate.timestamp, gstate.counter = query_counter( opts, gstate, "counter", "history" ) rc = dish_common.get_bulk_data(opts, gstate, cb_add_bulk) rows_written = 0 try: cur = gstate.sql_conn.cursor() for category, fields in tables.items(): if fields: timestamp = status_ts if category == "status" else hist_ts sql = 'INSERT OR REPLACE INTO "{0}" ("time","id",{1}) VALUES ({2})'.format( category, ",".join('"' + x + '"' for x in fields), ",".join(repeat("?", len(fields) + 2)), ) values = [timestamp, gstate.dish_id] values.extend(fields.values()) cur.execute(sql, values) rows_written += 1 if hist_rows: sql = 'INSERT OR REPLACE INTO "history" ({0}) VALUES({1})'.format( ",".join('"' + x + '"' for x in hist_cols), ",".join(repeat("?", len(hist_cols))), ) cur.executemany(sql, hist_rows) rows_written += len(hist_rows) cur.close() gstate.sql_conn.commit() except sqlite3.OperationalError as e: # these are not necessarily fatal, but also not much can do about logging.error("Unexpected error from database, discarding data: %s", e) rc = 1 else: if opts.verbose: print("Rows written to db:", rows_written) return rc def ensure_schema(opts, conn, context): cur = conn.cursor() cur.execute("PRAGMA user_version") version = cur.fetchone() if version and version[0] == SCHEMA_VERSION and not opts.force: cur.close() return 0 try: if not version or not version[0]: if opts.verbose: print("Initializing new database") create_tables(conn, context, "") elif version[0] > SCHEMA_VERSION and not opts.force: logging.error( "Cowardly refusing to downgrade from schema version %s", version[0] ) return 1 else: print("Converting from schema version:", version[0]) convert_tables(conn, context) cur.execute("PRAGMA user_version={0}".format(SCHEMA_VERSION)) conn.commit() return 0 except starlink_grpc.GrpcError as e: dish_common.conn_error(opts, "Failure reflecting status fields: %s", str(e)) return 1 finally: cur.close() def create_tables(conn, context, suffix): tables = {} name_groups = starlink_grpc.status_field_names(context=context) + ( starlink_grpc.location_field_names(), ) type_groups = starlink_grpc.status_field_types(context=context) + ( starlink_grpc.location_field_types(), ) tables["status"] = zip(name_groups, type_groups) name_groups = starlink_grpc.history_stats_field_names() type_groups = starlink_grpc.history_stats_field_types() tables["ping_stats"] = zip(name_groups[0:5], type_groups[0:5]) tables["usage"] = ((name_groups[5], type_groups[5]),) name_groups = starlink_grpc.history_bulk_field_names() type_groups = starlink_grpc.history_bulk_field_types() tables["history"] = ((name_groups[1], type_groups[1]), (["counter"], [int])) def sql_type(type_class): if issubclass(type_class, float): return "REAL" if issubclass(type_class, bool): # advisory only, stores as int: return "BOOLEAN" if issubclass(type_class, int): return "INTEGER" if issubclass(type_class, str): return "TEXT" raise TypeError column_info = {} cur = conn.cursor() for table, group_pairs in tables.items(): column_names = ["time", "id"] columns = ['"time" INTEGER NOT NULL', '"id" TEXT NOT NULL'] for name_group, type_group in group_pairs: for name_item, type_item in zip(name_group, type_group): name_item = dish_common.BRACKETS_RE.match(name_item).group(1) if name_item != "id": columns.append('"{0}" {1}'.format(name_item, sql_type(type_item))) column_names.append(name_item) cur.execute('DROP TABLE IF EXISTS "{0}{1}"'.format(table, suffix)) sql = 'CREATE TABLE "{0}{1}" ({2}, PRIMARY KEY("time","id"))'.format( table, suffix, ", ".join(columns) ) cur.execute(sql) column_info[table] = column_names cur.close() return column_info def convert_tables(conn, context): new_column_info = create_tables(conn, context, "_new") conn.row_factory = sqlite3.Row old_cur = conn.cursor() new_cur = conn.cursor() for table, new_columns in new_column_info.items(): old_cur.execute('SELECT * FROM "{0}"'.format(table)) old_columns = set(x[0] for x in old_cur.description) new_columns = tuple(x for x in new_columns if x in old_columns) sql = 'INSERT OR REPLACE INTO "{0}_new" ({1}) VALUES ({2})'.format( table, ",".join('"' + x + '"' for x in new_columns), ",".join(repeat("?", len(new_columns))), ) new_cur.executemany( sql, (tuple(row[col] for col in new_columns) for row in old_cur) ) new_cur.execute('DROP TABLE "{0}"'.format(table)) new_cur.execute('ALTER TABLE "{0}_new" RENAME TO "{0}"'.format(table)) old_cur.close() new_cur.close() conn.row_factory = None def main(): opts = parse_args() logging.basicConfig(format="%(levelname)s: %(message)s") gstate = dish_common.GlobalState(target=opts.target) gstate.points = [] gstate.deferred_points = [] signal.signal(signal.SIGTERM, handle_sigterm) gstate.sql_conn = sqlite3.connect(opts.database) rc = 0 try: rc = ensure_schema(opts, gstate.sql_conn, gstate.context) if rc: sys.exit(rc) next_loop = time.monotonic() while True: rc = loop_body(opts, gstate) if opts.loop_interval > 0.0: now = time.monotonic() next_loop = max(next_loop + opts.loop_interval, now) time.sleep(next_loop - now) else: break except sqlite3.Error as e: logging.error("Database error: %s", e) rc = 1 except (KeyboardInterrupt, Terminated): pass finally: loop_body(opts, gstate, shutdown=True) gstate.sql_conn.close() gstate.shutdown() sys.exit(rc) if __name__ == "__main__": main()