starlink-grpc-tools/dishHistoryStats.py

#!/usr/bin/python3
######################################################################
#
# Equivalent script to parseJsonHistory.py, except integrating the
# gRPC calls, instead of relying on separate invocation of grpcurl.
#
# This script examines the most recent samples from the history data
# and computes several different metrics related to packet loss. By
# default, it will print the results in CSV format.
#
######################################################################

import datetime
import getopt
import logging
import sys
import time

import starlink_grpc


def main():
    arg_error = False

    try:
        opts, args = getopt.getopt(sys.argv[1:], "ahrs:t:vH")
    except getopt.GetoptError as err:
        print(str(err))
        arg_error = True

    # Default to 1 hour worth of data samples.
    samples_default = 3600
    samples = None
    print_usage = False
    verbose = False
    default_loop_time = 0
    loop_time = default_loop_time
    run_lengths = False
    print_header = False

    if not arg_error:
        if len(args) > 0:
            arg_error = True
        else:
            for opt, arg in opts:
                if opt == "-a":
                    samples = -1
                elif opt == "-h":
                    print_usage = True
                elif opt == "-r":
                    run_lengths = True
                elif opt == "-s":
                    samples = int(arg)
                elif opt == "-t":
                    loop_time = float(arg)
                elif opt == "-v":
                    verbose = True
                elif opt == "-H":
                    print_header = True

    if print_usage or arg_error:
        print("Usage: " + sys.argv[0] + " [options...]")
        print("Options:")
        print("    -a: Parse all valid samples")
        print("    -h: Be helpful")
        print("    -r: Include ping drop run length stats")
        print("    -s <num>: Number of data samples to parse, default: loop interval,")
        print("              if set, else " + str(samples_default))
        print("    -t <num>: Loop interval in seconds or 0 for no loop, default: " +
              str(default_loop_time))
        print("    -v: Be verbose")
        print("    -H: print CSV header instead of parsing history data")
        sys.exit(1 if arg_error else 0)

    if samples is None:
        samples = int(loop_time) if loop_time > 0 else samples_default

    logging.basicConfig(format="%(levelname)s: %(message)s")

    g_fields, pd_fields, rl_fields = starlink_grpc.history_ping_field_names()

    if print_header:
        header = ["datetimestamp_utc"]
        header.extend(g_fields)
        header.extend(pd_fields)
        if run_lengths:
            for field in rl_fields:
                if field.startswith("run_"):
                    header.extend(field + "_" + str(x) for x in range(1, 61))
                else:
                    header.append(field)
        print(",".join(header))
        sys.exit(0)

    def loop_body():
        timestamp = datetime.datetime.utcnow()

        try:
            g_stats, pd_stats, rl_stats = starlink_grpc.history_ping_stats(samples, verbose)
        except starlink_grpc.GrpcError as e:
            logging.error("Failure getting ping stats: " + str(e))
            return 1

        if verbose:
            print("Parsed samples:        " + str(g_stats["samples"]))
            print("Total ping drop:       " + str(pd_stats["total_ping_drop"]))
            print("Count of drop == 1:    " + str(pd_stats["count_full_ping_drop"]))
            print("Obstructed:            " + str(pd_stats["count_obstructed"]))
            print("Obstructed ping drop:  " + str(pd_stats["total_obstructed_ping_drop"]))
            print("Obstructed drop == 1:  " + str(pd_stats["count_full_obstructed_ping_drop"]))
            print("Unscheduled:           " + str(pd_stats["count_unscheduled"]))
            print("Unscheduled ping drop: " + str(pd_stats["total_unscheduled_ping_drop"]))
            print("Unscheduled drop == 1: " + str(pd_stats["count_full_unscheduled_ping_drop"]))
            if run_lengths:
                print("Initial drop run fragment: " + str(rl_stats["init_run_fragment"]))
                print("Final drop run fragment: " + str(rl_stats["final_run_fragment"]))
                print("Per-second drop runs:  " +
                      ", ".join(str(x) for x in rl_stats["run_seconds"]))
                print("Per-minute drop runs:  " +
                      ", ".join(str(x) for x in rl_stats["run_minutes"]))
            if loop_time > 0:
                print()
        else:
            csv_data = [timestamp.replace(microsecond=0).isoformat()]
            csv_data.extend(str(g_stats[field]) for field in g_fields)
            csv_data.extend(str(pd_stats[field]) for field in pd_fields)
            if run_lengths:
                for field in rl_fields:
                    if field.startswith("run_"):
                        csv_data.extend(str(substat) for substat in rl_stats[field])
                    else:
                        csv_data.append(str(rl_stats[field]))
            print(",".join(csv_data))

        return 0

    next_loop = time.monotonic()
    while True:
        rc = loop_body()
        if loop_time > 0:
            now = time.monotonic()
            next_loop = max(next_loop + loop_time, now)
            time.sleep(next_loop - now)
        else:
            break

    sys.exit(rc)


if __name__ == '__main__':
    main()
Last of initial set of scripts 2020-12-22 22:16:33 -06:00			`#!/usr/bin/python3`
			`######################################################################`
			`#`
			`# Equivalent script to parseJsonHistory.py, except integrating the`
Reorganize history parsing logic into a separate module Moves the parsing logic that will be shared by some upcoming scripts out into a separate module. There's still just as much duplication between the JSON parser and the grpc parser as there was before, but this should at least prevent further duplication of this logic. This also adds some proper documentation for what each of the stats means. 2021-01-06 13:46:50 -06:00			`# gRPC calls, instead of relying on separate invocation of grpcurl.`
Last of initial set of scripts 2020-12-22 22:16:33 -06:00			`#`
			`# This script examines the most recent samples from the history data`
			`# and computes several different metrics related to packet loss. By`
			`# default, it will print the results in CSV format.`
			`#`
			`######################################################################`

			`import datetime`
			`import getopt`
Revamp error printing Closes #8 2021-01-12 21:51:38 -06:00			`import logging`
Implement periodic loop option Add an interval timing loop for all the grpc scripts that did not already have one. Organized some of the code into functions in order to facilitate this, which caused some problems with local variables vs global ones, so moved the script code into a proper main() function. Which didn't really solve the access to globals issue, so also moved the mutable state into a class instance. The interval timer should be relatively robust against time drift due to the loop function running time and/or OS scheduler delay, but is far from perfect. Retry logic is now in place for both InfluxDB scripts. Retry for dishStatusInflux.py is slightly changed in that a failed write to InfluxDB server will be retried on every interval, rather than waiting for another batch full of data points to write, but this only happens once there is at least a full batch (currently 6) of data points pending. This new behavior matches how the autocommit functionality on SeriesHelper works. Changed the default behavior of dishStatusInflux.py to not loop, in order to match the other scripts. To get the old behavior, add a '-t 30' option to the command line. Closes #9 2021-01-15 20:39:33 -06:00			`import sys`
			`import time`
Last of initial set of scripts 2020-12-22 22:16:33 -06:00
Reorganize history parsing logic into a separate module Moves the parsing logic that will be shared by some upcoming scripts out into a separate module. There's still just as much duplication between the JSON parser and the grpc parser as there was before, but this should at least prevent further duplication of this logic. This also adds some proper documentation for what each of the stats means. 2021-01-06 13:46:50 -06:00			`import starlink_grpc`
Last of initial set of scripts 2020-12-22 22:16:33 -06:00

Implement periodic loop option Add an interval timing loop for all the grpc scripts that did not already have one. Organized some of the code into functions in order to facilitate this, which caused some problems with local variables vs global ones, so moved the script code into a proper main() function. Which didn't really solve the access to globals issue, so also moved the mutable state into a class instance. The interval timer should be relatively robust against time drift due to the loop function running time and/or OS scheduler delay, but is far from perfect. Retry logic is now in place for both InfluxDB scripts. Retry for dishStatusInflux.py is slightly changed in that a failed write to InfluxDB server will be retried on every interval, rather than waiting for another batch full of data points to write, but this only happens once there is at least a full batch (currently 6) of data points pending. This new behavior matches how the autocommit functionality on SeriesHelper works. Changed the default behavior of dishStatusInflux.py to not loop, in order to match the other scripts. To get the old behavior, add a '-t 30' option to the command line. Closes #9 2021-01-15 20:39:33 -06:00			`def main():`
			`arg_error = False`
Reorganize history parsing logic into a separate module Moves the parsing logic that will be shared by some upcoming scripts out into a separate module. There's still just as much duplication between the JSON parser and the grpc parser as there was before, but this should at least prevent further duplication of this logic. This also adds some proper documentation for what each of the stats means. 2021-01-06 13:46:50 -06:00
Implement periodic loop option Add an interval timing loop for all the grpc scripts that did not already have one. Organized some of the code into functions in order to facilitate this, which caused some problems with local variables vs global ones, so moved the script code into a proper main() function. Which didn't really solve the access to globals issue, so also moved the mutable state into a class instance. The interval timer should be relatively robust against time drift due to the loop function running time and/or OS scheduler delay, but is far from perfect. Retry logic is now in place for both InfluxDB scripts. Retry for dishStatusInflux.py is slightly changed in that a failed write to InfluxDB server will be retried on every interval, rather than waiting for another batch full of data points to write, but this only happens once there is at least a full batch (currently 6) of data points pending. This new behavior matches how the autocommit functionality on SeriesHelper works. Changed the default behavior of dishStatusInflux.py to not loop, in order to match the other scripts. To get the old behavior, add a '-t 30' option to the command line. Closes #9 2021-01-15 20:39:33 -06:00			`try:`
			`opts, args = getopt.getopt(sys.argv[1:], "ahrs:t:vH")`
			`except getopt.GetoptError as err:`
			`print(str(err))`
Reorganize history parsing logic into a separate module Moves the parsing logic that will be shared by some upcoming scripts out into a separate module. There's still just as much duplication between the JSON parser and the grpc parser as there was before, but this should at least prevent further duplication of this logic. This also adds some proper documentation for what each of the stats means. 2021-01-06 13:46:50 -06:00			`arg_error = True`
Implement periodic loop option Add an interval timing loop for all the grpc scripts that did not already have one. Organized some of the code into functions in order to facilitate this, which caused some problems with local variables vs global ones, so moved the script code into a proper main() function. Which didn't really solve the access to globals issue, so also moved the mutable state into a class instance. The interval timer should be relatively robust against time drift due to the loop function running time and/or OS scheduler delay, but is far from perfect. Retry logic is now in place for both InfluxDB scripts. Retry for dishStatusInflux.py is slightly changed in that a failed write to InfluxDB server will be retried on every interval, rather than waiting for another batch full of data points to write, but this only happens once there is at least a full batch (currently 6) of data points pending. This new behavior matches how the autocommit functionality on SeriesHelper works. Changed the default behavior of dishStatusInflux.py to not loop, in order to match the other scripts. To get the old behavior, add a '-t 30' option to the command line. Closes #9 2021-01-15 20:39:33 -06:00
			`# Default to 1 hour worth of data samples.`
			`samples_default = 3600`
			`samples = None`
			`print_usage = False`
			`verbose = False`
			`default_loop_time = 0`
			`loop_time = default_loop_time`
			`run_lengths = False`
			`print_header = False`

			`if not arg_error:`
			`if len(args) > 0:`
			`arg_error = True`
			`else:`
			`for opt, arg in opts:`
			`if opt == "-a":`
			`samples = -1`
			`elif opt == "-h":`
			`print_usage = True`
			`elif opt == "-r":`
			`run_lengths = True`
			`elif opt == "-s":`
			`samples = int(arg)`
			`elif opt == "-t":`
			`loop_time = float(arg)`
			`elif opt == "-v":`
			`verbose = True`
			`elif opt == "-H":`
			`print_header = True`

			`if print_usage or arg_error:`
			`print("Usage: " + sys.argv[0] + " [options...]")`
			`print("Options:")`
			`print(" -a: Parse all valid samples")`
			`print(" -h: Be helpful")`
			`print(" -r: Include ping drop run length stats")`
			`print(" -s <num>: Number of data samples to parse, default: loop interval,")`
			`print(" if set, else " + str(samples_default))`
			`print(" -t <num>: Loop interval in seconds or 0 for no loop, default: " +`
			`str(default_loop_time))`
			`print(" -v: Be verbose")`
			`print(" -H: print CSV header instead of parsing history data")`
			`sys.exit(1 if arg_error else 0)`

			`if samples is None:`
			`samples = int(loop_time) if loop_time > 0 else samples_default`

			`logging.basicConfig(format="%(levelname)s: %(message)s")`

			`g_fields, pd_fields, rl_fields = starlink_grpc.history_ping_field_names()`

			`if print_header:`
			`header = ["datetimestamp_utc"]`
			`header.extend(g_fields)`
			`header.extend(pd_fields)`
			`if run_lengths:`
			`for field in rl_fields:`
			`if field.startswith("run_"):`
			`header.extend(field + "_" + str(x) for x in range(1, 61))`
			`else:`
			`header.append(field)`
			`print(",".join(header))`
			`sys.exit(0)`

			`def loop_body():`
			`timestamp = datetime.datetime.utcnow()`

			`try:`
			`g_stats, pd_stats, rl_stats = starlink_grpc.history_ping_stats(samples, verbose)`
			`except starlink_grpc.GrpcError as e:`
			`logging.error("Failure getting ping stats: " + str(e))`
			`return 1`

			`if verbose:`
			`print("Parsed samples: " + str(g_stats["samples"]))`
			`print("Total ping drop: " + str(pd_stats["total_ping_drop"]))`
			`print("Count of drop == 1: " + str(pd_stats["count_full_ping_drop"]))`
			`print("Obstructed: " + str(pd_stats["count_obstructed"]))`
			`print("Obstructed ping drop: " + str(pd_stats["total_obstructed_ping_drop"]))`
			`print("Obstructed drop == 1: " + str(pd_stats["count_full_obstructed_ping_drop"]))`
			`print("Unscheduled: " + str(pd_stats["count_unscheduled"]))`
			`print("Unscheduled ping drop: " + str(pd_stats["total_unscheduled_ping_drop"]))`
			`print("Unscheduled drop == 1: " + str(pd_stats["count_full_unscheduled_ping_drop"]))`
			`if run_lengths:`
			`print("Initial drop run fragment: " + str(rl_stats["init_run_fragment"]))`
			`print("Final drop run fragment: " + str(rl_stats["final_run_fragment"]))`
			`print("Per-second drop runs: " +`
			`", ".join(str(x) for x in rl_stats["run_seconds"]))`
			`print("Per-minute drop runs: " +`
			`", ".join(str(x) for x in rl_stats["run_minutes"]))`
			`if loop_time > 0:`
			`print()`
			`else:`
			`csv_data = [timestamp.replace(microsecond=0).isoformat()]`
			`csv_data.extend(str(g_stats[field]) for field in g_fields)`
			`csv_data.extend(str(pd_stats[field]) for field in pd_fields)`
			`if run_lengths:`
			`for field in rl_fields:`
			`if field.startswith("run_"):`
			`csv_data.extend(str(substat) for substat in rl_stats[field])`
			`else:`
			`csv_data.append(str(rl_stats[field]))`
			`print(",".join(csv_data))`

			`return 0`

			`next_loop = time.monotonic()`
			`while True:`
			`rc = loop_body()`
			`if loop_time > 0:`
			`now = time.monotonic()`
			`next_loop = max(next_loop + loop_time, now)`
			`time.sleep(next_loop - now)`
			`else:`
			`break`

			`sys.exit(rc)`


			`if __name__ == '__main__':`
			`main()`