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"""
Utilities for running benchmarks.
Classes:
SerialMonitor -- captures serial output for a specific amount of time
ShellMonitor -- captures UNIX program output for a specific amount of time
Functions:
get_monitor -- return Monitor class suitable for the selected multipass arch
get_counter_limits -- return arch-specific multipass counter limits (max value, max overflow)
"""
import json
import logging
import os
import re
import serial
import serial.threaded
import subprocess
import sys
import time
from dfatool.lennart.SigrokCLIInterface import SigrokCLIInterface
logger = logging.getLogger(__name__)
class SerialReader(serial.threaded.Protocol):
"""
Character- to line-wise data buffer for serial interfaces.
Reads in new data whenever it becomes available and exposes a line-based
interface to applications.
"""
def __init__(self, callback=None):
"""Create a new SerialReader object."""
self.callback = callback
self.recv_buf = ""
self.lines = list()
self.all_lines = list()
def __call__(self):
return self
def data_received(self, data):
"""Append newly received serial data to the line buffer."""
try:
str_data = data.decode("UTF-8")
self.recv_buf += str_data
# We may get anything between \r\n, \n\r and simple \n newlines.
# We assume that \n is always present and use str.strip to remove leading/trailing \r symbols
# Note: Do not call str.strip on lines[-1]! Otherwise, lines may be mangled
lines = self.recv_buf.split("\n")
if len(lines) > 1:
new_lines = list(map(str.strip, lines[:-1]))
self.lines.extend(new_lines)
self.all_lines.extend(new_lines)
self.recv_buf = lines[-1]
if self.callback:
for line in lines[:-1]:
self.callback(str.strip(line))
except UnicodeDecodeError:
pass
# sys.stderr.write('UART output contains garbage: {data}\n'.format(data = data))
def get_lines(self) -> list:
"""
Return the latest batch of complete lines.
The return value is a list and may be empty.
Empties the internal line buffer to ensure that no line is returned twice.
"""
ret = self.lines
self.lines = []
return ret
def get_line(self) -> str:
"""
Return the latest complete line, or None.
Empties the entire internal line buffer to ensure that no line is returned twice.
"""
if len(self.lines):
ret = self.lines[-1]
self.lines = []
return ret
return None
class SerialMonitor:
"""SerialMonitor captures serial output for a specific amount of time."""
def __init__(self, port: str, baud: int, callback=None):
"""
Create a new SerialMonitor connected to port at the specified baud rate.
Communication uses no parity, no flow control, and one stop bit.
Data collection starts immediately.
"""
self.ser = serial.serial_for_url(port, do_not_open=True)
self.ser.baudrate = baud
self.ser.parity = "N"
self.ser.rtscts = False
self.ser.xonxoff = False
logger.debug(f"Opening serial port {port} with {baud}N1")
try:
self.ser.open()
except serial.SerialException as e:
sys.stderr.write(
"Could not open serial port {}: {}\n".format(self.ser.name, e)
)
sys.exit(1)
self.reader = SerialReader(callback=callback)
self.worker = serial.threaded.ReaderThread(self.ser, self.reader)
self.worker.start()
def run(self, timeout: int = 10) -> list:
"""
Collect serial output for timeout seconds and return a list of all output lines.
Blocks until data collection is complete.
"""
time.sleep(timeout)
return self.reader.get_lines()
def get_lines(self) -> list:
return self.reader.all_lines
def get_files(self) -> list:
return list()
def get_config(self) -> dict:
return dict()
def close(self):
"""Close serial connection."""
self.worker.stop()
self.ser.close()
# TODO Optionale Kalibrierung mit bekannten Widerständen an GPIOs am Anfang (EnergyTrace selbst macht nur bis 1,5mA)
# TODO Sync per LED? -> Vor und ggf nach jeder Transition kurz pulsen
# TODO Für Verbraucher mit wenig Energiebedarf: Versorgung direkt per GPIO
# -> Zu Beginn der Messung ganz ausknipsen
class EnergyTraceMonitor(SerialMonitor):
"""EnergyTraceMonitor captures serial timing output and EnergyTrace energy data."""
# Zusätzliche key-value-Argumente von generate-dfa-benchmark.py --energytrace=... landen hier
# (z.B. --energytrace=var1=bar,somecount=2 => EnerygTraceMonitor(..., var1="bar", somecount="2")).
# Soald das EnergyTraceMonitor-Objekt erzeugt wird, beginnt die Messung (d.h. hier: msp430-etv wird gestartet)
def __init__(
self, port: str, baud: int, callback=None, voltage=3.3, plusplus=False
):
super().__init__(port=port, baud=baud, callback=callback)
self._voltage = voltage
self._plusplus = plusplus
self._output = time.strftime("%Y%m%d-%H%M%S.etlog")
self._start_energytrace()
def _start_energytrace(self):
print("[%s] Starting Measurement" % type(self).__name__)
if self._plusplus:
cmd = ["msp430-etv", "--with-hardware-states", "--save", self._output, "0"]
else:
cmd = ["msp430-etv", "--save", self._output, "0"]
self._logger = subprocess.Popen(
cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE, universal_newlines=True
)
# Benchmark fertig -> externe Hilfsprogramme beenden
def close(self):
# wait for tail sync
time.sleep(2)
super().close()
self._logger.send_signal(subprocess.signal.SIGINT)
stdout, stderr = self._logger.communicate(timeout=15)
print("[%s] Stopped Measurement" % type(self).__name__)
# Zusätzliche Dateien, die mit dem Benchmark-Log und -Plan abgespeichert werden sollen
# (hier: Die von msp430-etv generierten Logfiles)
def get_files(self) -> list:
print("[%s] Getting files" % type(self).__name__)
return [self._output]
# Benchmark-Konfiguration. Hier: Die (konstante) Spannung.
# MSP430FR5969: 3,6V (wird aktuell nicht unterstützt)
# MSP430FR5994: 3,3V (default)
def get_config(self) -> dict:
return {"voltage": self._voltage}
class EnergyTraceLogicAnalyzerMonitor(EnergyTraceMonitor):
"""EnergyTraceLogicAnalyzerMonitor captures EnergyTrace energy data and LogicAnalyzer timing output."""
def __init__(self, port: str, baud: int, callback=None, voltage=3.3):
super().__init__(port=port, baud=baud, callback=callback, voltage=voltage)
options = {"fake": False, "sample_rate": 1_000_000}
self.log_file = "logic_output_log_%s.json" % (time.strftime("%Y%m%d-%H%M%S"))
# Initialization of Interfaces
self.sig = SigrokCLIInterface(
sample_rate=options["sample_rate"], fake=options["fake"]
)
# Start Measurements
self.sig.runMeasureAsynchronous()
def close(self):
super().close()
# Read measured data
# self.sig.waitForAsynchronousMeasure()
self.sig.forceStopMeasure()
time.sleep(0.2)
sync_data = self.sig.getData()
# TODO ensure that sync_data.getDict()["timestamps"] is not empty
# (if it is, communication with the LA was broken the entire time)
with open(self.log_file, "w") as fp:
json.dump(sync_data.getDict(), fp)
def get_files(self) -> list:
files = [self.log_file]
files.extend(super().get_files())
return files
class MIMOSAMonitor(SerialMonitor):
"""MIMOSAMonitor captures serial output and MIMOSA energy data for a specific amount of time."""
def __init__(
self, port: str, baud: int, callback=None, offset=130, shunt=330, voltage=3.3
):
super().__init__(port=port, baud=baud, callback=callback)
self._offset = offset
self._shunt = shunt
self._voltage = voltage
self._start_mimosa()
def _mimosactl(self, subcommand):
cmd = ["mimosactl"]
cmd.append(subcommand)
logger.debug(f"Executing {cmd}")
res = subprocess.run(cmd)
if res.returncode != 0:
res = subprocess.run(cmd)
if res.returncode != 0:
raise RuntimeError(
f"'{' '.join(cmd)}' exited with a non-zero status of {res.returncode}. stderr = '{res.stderr}', stdout = '{res.stdout}'"
)
def _mimosacmd(self, opts):
cmd = ["MimosaCMD"]
cmd.extend(opts)
res = subprocess.run(cmd)
if res.returncode != 0:
raise RuntimeError(
f"'{' '.join(cmd)}' exited with a non-zero status of {res.returncode}. stderr = '{res.stderr}', stdout = '{res.stdout}'"
)
def _start_mimosa(self):
self._mimosactl("disconnect")
self._mimosacmd(["--start"])
self._mimosacmd(["--parameter", "offset", str(self._offset)])
self._mimosacmd(["--parameter", "shunt", str(self._shunt)])
self._mimosacmd(["--parameter", "voltage", str(self._voltage)])
self._mimosacmd(["--mimosa-start"])
time.sleep(2)
self._mimosactl("1k") # 987 ohm
time.sleep(2)
self._mimosactl("100k") # 99.3 kohm
time.sleep(2)
self._mimosactl("connect")
def _stop_mimosa(self):
# Make sure the MIMOSA daemon has gathered all needed data
time.sleep(2)
self._mimosacmd(["--mimosa-stop"])
mtime_changed = True
mim_file = None
time.sleep(1)
# reverse sort ensures that we will get the latest file, which must
# belong to the current measurements. This ensures that older .mim
# files lying around in the directory will not confuse our
# heuristic.
for filename in sorted(os.listdir(), reverse=True):
if re.search(r"[.]mim$", filename):
mim_file = filename
break
while mtime_changed:
mtime_changed = False
if time.time() - os.stat(mim_file).st_mtime < 3:
mtime_changed = True
time.sleep(1)
self._mimosacmd(["--stop"])
return mim_file
def close(self):
super().close()
self.mim_file = self._stop_mimosa()
def get_files(self) -> list:
return [self.mim_file]
def get_config(self) -> dict:
return {"offset": self._offset, "shunt": self._shunt, "voltage": self._voltage}
class ShellMonitor:
"""SerialMonitor runs a program and captures its output for a specific amount of time."""
def __init__(self, script: str, callback=None):
"""
Create a new ShellMonitor object.
Does not start execution and monitoring yet.
"""
self.script = script
self.callback = callback
def run(self, timeout: int = 4) -> list:
"""
Run program for timeout seconds and return a list of its stdout lines.
stderr and return status are discarded at the moment.
"""
if type(timeout) != int:
raise ValueError("timeout argument must be int")
res = subprocess.run(
["timeout", "{:d}s".format(timeout), self.script],
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
universal_newlines=True,
)
if self.callback:
for line in res.stdout.split("\n"):
self.callback(line)
return res.stdout.split("\n")
def monitor(self):
raise NotImplementedError
def close(self):
"""
Do nothing, successfully.
Intended for compatibility with SerialMonitor.
"""
pass
class KRATOS:
def __init__(self, opts=list()):
self.opts = opts
def app_header(self):
ret = (
'#include "AEMR.h"\n'
'#include "syscall/guarded_buzzer.h"\n'
'#include "drivers/counter.h"\n'
'#include "drivers/gpio.h"\n'
)
return ret
def app_function_start(self):
ret = (
"ImplementThread(EnergyBenchmarkApp, energyBenchmarkApp, 512);\n"
"void EnergyBenchmarkApp::action()\n"
"{\n"
"Guarded_Buzzer buz(500);\n"
)
return ret
def app_function_end(self):
return "}\n"
def app_delay(self, ms, comment=""):
return self.app_sleep(ms, comment)
def app_sleep(self, ms, comment=""):
if comment:
comment = f" // {comment}"
return f"buz.sleep({ms});{comment}\n"
def app_newlines(self):
return "uart << endl << endl;\n"
def app_lasync_call(self):
return "runLASync(buz);\n"
def app_lasync_function(self):
ret = """void runLASync(Guarded_Buzzer &buz){
setOutput(1, 0);
setOutput(1, 1);
pinHigh(1, 0);
pinHigh(1, 1);
buz.sleep(1000);
pinLow(1, 0);
pinLow(1, 1);
}
"""
return ret
def sanity_check_config(self):
with open(".config", "r") as f:
config_lines = f.readlines()
for line in config_lines:
line = line.strip()
if (
"CONFIG_eUSCI_A_UART_BAUDRATE" in line
and line != "CONFIG_eUSCI_A_UART_BAUDRATE=9600"
):
raise RuntimeError(
f"Unsupported UART baud rate in .config, must be 9600: {line}"
)
if (
"CONFIG_Architecture_MSP430FR_CycleCounter" in line
and line != "CONFIG_Architecture_MSP430FR_CycleCounter=y"
):
raise RuntimeError(f"Kratos Cycle Counter is disabled")
def build(self, app, opts=list()):
self.sanity_check_config()
command = ["make", "clean"]
command.extend(self.opts)
command.extend(opts)
logger.debug(f"Building: {' '.join(command)}")
res = subprocess.run(
command,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
universal_newlines=True,
)
if res.returncode != 0:
raise RuntimeError(
f"'{' '.join(command)}' exited with a non-zero status of {res.returncode}. stderr = '{res.stderr}', stdout = '{res.stdout}'"
)
command = ["make"]
command.extend(self.opts)
command.extend(opts)
logger.debug(f"Building: {' '.join(command)}")
res = subprocess.run(
command,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
universal_newlines=True,
)
if res.returncode != 0:
raise RuntimeError(
f"'{' '.join(command)}' exited with a non-zero status of {res.returncode}. stderr = '{res.stderr}', stdout = '{res.stdout}'"
)
return command
def flash(self, app, opts=list()):
command = ["make", "flash"]
command.extend(self.opts)
command.extend(opts)
logger.debug(f"Flashing: {' '.join(command)}")
res = subprocess.run(
command,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
universal_newlines=True,
)
if res.returncode != 0:
raise RuntimeError(
f"'{' '.join(command)}' exited with a non-zero status of {res.returncode}. stderr = '{res.stderr}', stdout = '{res.stdout}'"
)
return command
def get_monitor(self, **kwargs) -> object:
"""
Return an appropriate monitor for arch, depending on "make info" output.
Port and Baud rate are taken from "make info".
:param energytrace: `EnergyTraceMonitor` options. Returns an EnergyTrace monitor if not None.
:param mimosa: `MIMOSAMonitor` options. Returns a MIMOSA monitor if not None.
"""
if "mimosa" in kwargs and kwargs["mimosa"] is not None:
mimosa_kwargs = kwargs.pop("mimosa")
return MIMOSAMonitor("/dev/ttyACM1", "9600", **mimosa_kwargs, **kwargs)
elif "energytrace" in kwargs and kwargs["energytrace"] is not None:
energytrace_kwargs = kwargs.pop("energytrace").copy()
sync_mode = energytrace_kwargs.pop("sync")
if sync_mode == "la":
return EnergyTraceLogicAnalyzerMonitor(
"/dev/ttyACM1", "9600", **energytrace_kwargs, **kwargs
)
else:
return EnergyTraceMonitor(
"/dev/ttyACM1", "9600", **energytrace_kwargs, **kwargs
)
else:
kwargs.pop("energytrace", None)
kwargs.pop("mimosa", None)
return SerialMonitor("/dev/ttyACM1", "9600", **kwargs)
def sleep_ms(self, duration: int, opts=list()) -> str:
max_sleep = 250
if max_sleep is not None and duration > max_sleep:
sub_sleep_count = duration // max_sleep
tail_sleep = duration % max_sleep
ret = f"for (unsigned char i = 0; i < {sub_sleep_count}; i++) {{ buz.sleep({max_sleep}); }}\n"
if tail_sleep > 0:
ret += f"buz.sleep({tail_sleep});\n"
return ret
return f"buz.sleep({duration});\n"
def get_counter_limits_us(self, opts=list()) -> tuple:
"""Return duration of one counter step and one counter overflow in us."""
cpu_freq = 16_000_000
overflow_value = 65536
max_overflow = 65535
return (
1_000_000 / cpu_freq,
overflow_value * 1_000_000 / cpu_freq,
max_overflow,
)
def get_nfpvalues(self) -> list:
"""
Return Kratos "make nfpvalues" output.
Returns a dict.
"""
command = ["make", "nfpvalues"]
logger.debug(f"Getting nfpvalues: {' '.join(command)}")
res = subprocess.run(
command,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
universal_newlines=True,
)
if res.returncode != 0:
raise RuntimeError(
f"'{' '.join(command)}' exited with a non-zero status of {res.returncode}. stderr = '{res.stderr}', stdout = '{res.stdout}'"
)
return json.loads(res.stdout)
class Multipass:
def __init__(self, name, opts=list()):
self.name = name
self.opts = opts
self.info = self.get_info()
def app_header(self):
ret = '#include "arch.h"\n' '#include "driver/gpio.h"\n'
return ret
def app_function_start(self):
ret = "int main(void)\n{\n"
for driver in ("arch", "gpio", "kout"):
ret += f"{driver}.setup();\n"
return ret
def app_function_end(self):
return "while (1) { }\nreturn 0;\n}\n"
def app_delay(self, ms, comment=""):
if comment:
comment = f" // {comment}"
return f"arch.delay_ms({ms});{comment}\n"
def app_sleep(self, ms, comment=""):
if ms > 250:
# TODO build multiple sleep_ms calls
raise ValueError("msp430 does not support sleep longer than 250ms")
if comment:
comment = f" // {comment}"
return f"arch.sleep_ms({ms});{comment}\n"
def app_newlines(self):
return "kout << endl << endl;\n"
def app_lasync_call(self):
return "runLASync();\n"
def app_lasync_function(self):
ret = """void runLASync(){
#ifdef PTALOG_GPIO
gpio.write(PTALOG_GPIO, 1);
#endif
gpio.led_on(0);
gpio.led_on(1);
#ifdef PTALOG_GPIO
gpio.write(PTALOG_GPIO, 0);
#endif
for (unsigned char i = 0; i < 4; i++) {
arch.sleep_ms(250);
}
#ifdef PTALOG_GPIO
gpio.write(PTALOG_GPIO, 1);
#endif
gpio.led_off(0);
gpio.led_off(1);
#ifdef PTALOG_GPIO
gpio.write(PTALOG_GPIO, 0);
#endif
}\n\n"""
return ret
def build(self, app, opts=list()):
command = ["make", "arch={}".format(self.name), "app={}".format(app), "clean"]
command.extend(self.opts)
command.extend(opts)
logger.debug(f"Building: {' '.join(command)}")
res = subprocess.run(
command,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
universal_newlines=True,
)
if res.returncode != 0:
raise RuntimeError(
f"'{' '.join(command)}' exited with a non-zero status of {res.returncode}. stderr = '{res.stderr}', stdout = '{res.stdout}'"
)
command = ["make", "-B", "arch={}".format(self.name), "app={}".format(app)]
command.extend(self.opts)
command.extend(opts)
logger.debug(f"Building: {' '.join(command)}")
res = subprocess.run(
command,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
universal_newlines=True,
)
if res.returncode != 0:
raise RuntimeError(
f"'{' '.join(command)}' exited with a non-zero status of {res.returncode}. stderr = '{res.stderr}', stdout = '{res.stdout}'"
)
return command
def flash(self, app, opts=list()):
command = ["make", "arch={}".format(self.name), "app={}".format(app), "program"]
command.extend(self.opts)
command.extend(opts)
logger.debug(f"Flashing: {' '.join(command)}")
res = subprocess.run(
command,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
universal_newlines=True,
)
if res.returncode != 0:
raise RuntimeError(
f"'{' '.join(command)}' exited with a non-zero status of {res.returncode}. stderr = '{res.stderr}', stdout = '{res.stdout}'"
)
return command
def get_info(self, opts=list()) -> list:
"""
Return multipass "make info" output.
Returns a list.
"""
command = ["make", "arch={}".format(self.name), "app=donothing", "info"]
command.extend(self.opts)
command.extend(opts)
logger.debug(f"Getting Info: {' '.join(command)}")
res = subprocess.run(
command,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
universal_newlines=True,
)
if res.returncode != 0:
raise RuntimeError(
f"'{' '.join(command)}' exited with a non-zero status of {res.returncode}. stderr = '{res.stderr}', stdout = '{res.stdout}'"
)
return res.stdout.split("\n")
def get_nfpvalues(self, app, opts=list()) -> list:
"""
Return multipass "make nfpvalues" output.
Returns a dict.
"""
command = ["make", f"arch={self.name}", f"app={app}", "nfpvalues"]
command.extend(self.opts)
command.extend(opts)
logger.debug(f"Getting nfpvalues: {' '.join(command)}")
res = subprocess.run(
command,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
universal_newlines=True,
)
if res.returncode != 0:
raise RuntimeError(
f"'{' '.join(command)}' exited with a non-zero status of {res.returncode}. stderr = '{res.stderr}', stdout = '{res.stdout}'"
)
return json.loads(res.stdout)
def _cached_info(self, opts=list()) -> list:
if len(opts):
return self.get_info(opts)
return self.info
def get_monitor(self, **kwargs) -> object:
"""
Return an appropriate monitor for arch, depending on "make info" output.
Port and Baud rate are taken from "make info".
:param energytrace: `EnergyTraceMonitor` options. Returns an EnergyTrace monitor if not None.
:param mimosa: `MIMOSAMonitor` options. Returns a MIMOSA monitor if not None.
"""
for line in self.info:
if "Monitor:" in line:
_, port, arg = line.split(" ")
if port == "run":
return ShellMonitor(arg, **kwargs)
elif "mimosa" in kwargs and kwargs["mimosa"] is not None:
mimosa_kwargs = kwargs.pop("mimosa")
return MIMOSAMonitor(port, arg, **mimosa_kwargs, **kwargs)
elif "energytrace" in kwargs and kwargs["energytrace"] is not None:
energytrace_kwargs = kwargs.pop("energytrace").copy()
sync_mode = energytrace_kwargs.pop("sync")
if sync_mode == "la":
return EnergyTraceLogicAnalyzerMonitor(
port, arg, **energytrace_kwargs, **kwargs
)
else:
return EnergyTraceMonitor(
port, arg, **energytrace_kwargs, **kwargs
)
else:
kwargs.pop("energytrace", None)
kwargs.pop("mimosa", None)
return SerialMonitor(port, arg, **kwargs)
raise RuntimeError("Monitor failure")
def get_counter_limits(self, opts=list()) -> tuple:
"""Return multipass max counter and max overflow value for arch."""
for line in self._cached_info(opts):
match = re.match("Counter Overflow: ([^/]*)/(.*)", line)
if match:
overflow_value = int(match.group(1))
max_overflow = int(match.group(2))
return overflow_value, max_overflow
raise RuntimeError("Did not find Counter Overflow limits")
def sleep_ms(self, duration: int, opts=list()) -> str:
max_sleep = None
if "msp430fr" in self.name:
cpu_freq = None
for line in self._cached_info(opts):
match = re.match(r"CPU\s+Freq:\s+(.*)\s+Hz", line)
if match:
cpu_freq = int(match.group(1))
if cpu_freq is not None and cpu_freq > 8_000_000:
max_sleep = 250
else:
max_sleep = 500
if max_sleep is not None and duration > max_sleep:
sub_sleep_count = duration // max_sleep
tail_sleep = duration % max_sleep
ret = f"for (unsigned char i = 0; i < {sub_sleep_count}; i++) {{ arch.sleep_ms({max_sleep}); }}\n"
if tail_sleep > 0:
ret += f"arch.sleep_ms({tail_sleep});\n"
return ret
return f"arch.sleep_ms({duration});\n"
def get_counter_limits_us(self, opts=list()) -> tuple:
"""Return duration of one counter step and one counter overflow in us."""
cpu_freq = 0
counter_freq = 0
overflow_value = 0
max_overflow = 0
for line in self._cached_info(opts):
match = re.match(r"CPU\s+Freq:\s+(.*)\s+Hz", line)
if match:
cpu_freq = int(match.group(1))
match = re.match(r"Count\s+Freq:\s+(.*)\s+Hz", line)
if match:
counter_freq = int(match.group(1))
match = re.match(r"Counter Overflow:\s+([^/]*)/(.*)", line)
if match:
overflow_value = int(match.group(1))
max_overflow = int(match.group(2))
if cpu_freq and not counter_freq:
counter_freq = cpu_freq
if counter_freq and overflow_value:
return (
1_000_000 / counter_freq,
overflow_value * 1_000_000 / counter_freq,
max_overflow,
)
raise RuntimeError("Did not find Counter Overflow limits")
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