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#!/usr/bin/env python3
#
# Copyright 2017 Ettus Research (National Instruments)
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
"""
N310 Built-In Self Test (BIST)
"""
from __future__ import print_function
import os
import sys
import socket
import time
import json
from datetime import datetime
import argparse
##############################################################################
# Aurora/SFP BIST code
##############################################################################
def get_sfp_bist_defaults():
" Default dictionary for SFP/Aurora BIST dry-runs "
return {
'elapsed_time': 1.0,
'max_roundtrip_latency': 0.8e-6,
'throughput': 1000e6,
'max_ber': 8.5e-11,
'errors': 0,
'bits': 12012486656,
}
def run_aurora_bist(master, slave=None):
"""
Spawn a BER test
"""
from usrp_mpm import aurora_control
from usrp_mpm.uio import UIO
master_au_ctrl = aurora_control.AuroraControl(
UIO(label=master, read_only=False),
)
slave_au_ctrl = None if slave is None else aurora_control.AuroraControl(
UIO(label=slave, read_only=False),
)
return master_au_ctrl.run_ber_loopback_bist(
duration=10,
requested_rate=1300 * 8e6,
slave=slave_au_ctrl,
)
def aurora_results_to_status(bist_results):
"""
Convert a dictionary coming from AuroraControl BIST to one that we can use
for this BIST
"""
return bist_results['mst_errors'] == 0, {
'elapsed_time': bist_results['time_elapsed'],
'max_roundtrip_latency': bist_results['mst_latency_us'],
'throughput': bist_results['approx_throughput'],
'max_ber': bist_results['max_ber'],
'errors': bist_results['mst_errors'],
'bits': bist_results['mst_samps'],
}
##############################################################################
# Helpers
##############################################################################
def post_results(results):
"""
Given a dictionary, post the results.
This will print the results as JSON to stdout.
"""
print(json.dumps(
results,
sort_keys=True,
indent=4,
separators=(',', ': ')
))
##############################################################################
# Bist class
##############################################################################
class N310BIST(object):
"""
BIST Tool for the USRP N3xx series
"""
# This defines special tests that are really collections of other tests.
collections = {
'standard': ["ddr3", "gpsdo", "rtc", "temp", "clock_int", "tpm"],
'extended': "*",
}
@staticmethod
def make_arg_parser():
"""
Return arg parser
"""
parser = argparse.ArgumentParser(
description="N3xx BIST Tool",
)
parser.add_argument(
'-n', '--dry-run', action='store_true',
help="Fake out the tests. All tests will return a valid" \
" response, but will not actually interact with hardware.",
)
parser.add_argument(
'-v', '--verbose', action='store_true',
help="Crank up verbosity level",
)
parser.add_argument(
'--debug', action='store_true',
help="For debugging this tool.",
)
parser.add_argument(
'tests',
help="List the tests that should be run",
nargs='+', # There has to be at least one
)
return parser
def __init__(self):
self.args = N310BIST.make_arg_parser().parse_args()
self.tests_to_run = set()
for test in self.args.tests:
if test in self.collections:
for test in self.expand_collection(test):
self.tests_to_run.add(test)
else:
self.tests_to_run.add(test)
try:
# Keep this import here so we can do dry-runs without any MPM code
from usrp_mpm import get_main_logger
if not self.args.verbose:
from usrp_mpm.mpmlog import WARNING
get_main_logger().setLevel(WARNING)
self.log = get_main_logger().getChild('main')
except ImportError:
pass
def expand_collection(self, coll):
"""
Return names of tests in a collection
"""
tests = self.collections[coll]
if tests == "*":
tests = {x.replace('bist_', '')
for x in dir(self)
if x.find('bist_') == 0
}
else:
tests = set(tests)
return tests
def run(self):
"""
Execute tests.
Returns True on Success.
"""
def execute_test(testname):
"""
Actually run a test.
"""
testmethod_name = "bist_{0}".format(testname)
sys.stderr.write(
"Executing test method: {0}\n\n".format(testmethod_name)
)
try:
status, data = getattr(self, testmethod_name)()
data['status'] = status
data['error_msg'] = data.get('error_msg', '')
return status, data
except AttributeError:
sys.stderr.write("Test not defined: {}\n".format(testname))
return False, {}
except Exception as ex:
sys.stderr.write(
"Test {} failed to execute: {}\n".format(testname, str(ex))
)
if self.args.debug:
raise
return False, {'error_msg': str(ex)}
tests_successful = True
result = {}
for test in self.tests_to_run:
status, result_data = execute_test(test)
tests_successful = tests_successful and status
result[test] = result_data
post_results(result)
return tests_successful
#############################################################################
# BISTS
# All bist_* methods must return True/False success values!
#############################################################################
def bist_rtc(self):
"""
BIST for RTC (real time clock)
Return dictionary:
- date: Returns the current UTC time, with seconds-accuracy, in ISO 8601
format, as a string. As if running 'date -Iseconds -u'.
- time: Same time, but in seconds since epoch.
Return status:
Unless datetime throws an exception, returns True.
"""
assert 'rtc' in self.tests_to_run
utc_now = datetime.utcnow()
return True, {
'time': time.mktime(utc_now.timetuple()),
'date': utc_now.replace(microsecond=0).isoformat() + "+00:00",
}
def bist_ddr3(self):
"""
BIST for PL DDR3 DRAM
Description: Calls a test to examine the speed of the DDR3. To be
precise, it fires up a UHD session, which runs a DDR3 BiST internally.
If that works, it'll return estimated throughput that was gathered
during the DDR3 BiST.
External Equipment: None
Return dictionary:
- throughput: The estimated throughput in bytes/s
Return status:
True if the DDR3 bist passed
"""
assert 'ddr3' in self.tests_to_run
if self.args.dry_run:
return True, {'throughput': 1250e6}
# FIXME implement
sys.stderr.write("Test not implemented.\n")
result = {'throughput': 1250e6}
return result.get('throughput', 0) > 1000e6, result
def bist_gpsdo(self):
"""
BIST for GPSDO
Description: Returns GPS information
External Equipment: None; Recommend attaching an antenna or providing
fake GPS information
Return dictionary: A TPV dictionary as returned by gpsd.
See also: http://www.catb.org/gpsd/gpsd_json.html
Check for mode 2 or 3 to see if it's locked.
"""
assert 'gpsdo' in self.tests_to_run
if self.args.dry_run:
return True, {
"class": "TPV",
"time": "2017-04-30T11:48:20.10Z",
"ept": 0.005,
"lat": 30.407899,
"lon": -97.726634,
"alt": 1327.689,
"epx": 15.319,
"epy": 17.054,
"epv": 124.484,
"track": 10.3797,
"speed": 0.091,
"climb": -0.085,
"eps": 34.11,
"mode": 3
}
from usrp_mpm.periph_manager import n310
gpio_tca6424 = n310.TCA6424()
gpio_tca6424.set("PWREN-GPS")
time.sleep(60) # Wait for GPS chip to power on and lock to GPS
my_sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
my_sock.connect(('localhost', 2947))
sys.stderr.write("Connected to GPSDO socket.\n")
query_cmd = b'?WATCH={"enable":true,"json":true}'
my_sock.sendall(query_cmd)
sys.stderr.write("Sent query: {}\n".format(query_cmd))
while my_sock.recv(1) != b'\n':
pass
sys.stderr.write("Received initial newline.\n")
result = {}
while result.get('class', None) != 'TPV':
json_result = b''
next_char = b''
while next_char != b'\n':
json_result += next_char
next_char = my_sock.recv(1)
sys.stderr.write(
"Received JSON response: {}\n\n".format(json_result)
)
result = json.loads(json_result.decode('ascii'))
my_sock.sendall(b'?WATCH={"enable":false}')
my_sock.close()
return True, result # TODO Come up with a better pass condition
def bist_tpm(self):
"""
BIST for TPM (Trusted Platform Module)
This reads the caps value for all detected TPM devices.
Return dictionary:
- tpm<N>_caps: TPM manufacturer and version info. Is a multi-line
string.
Return status: True if exactly one TPM device is detected.
"""
assert 'tpm' in self.tests_to_run
if self.args.dry_run:
return True, {
'tpm0_caps': "Fake caps value\n\nVersion 0.0.0",
}
result = {}
props_to_read = ('caps',)
base_path = '/sys/class/tpm'
for tpm_device in os.listdir(base_path):
if tpm_device.startswith('tpm'):
for key in props_to_read:
result['{}_{}'.format(tpm_device, key)] = open(
os.path.join(base_path, tpm_device, key), 'r'
).read().strip()
return len(result) == 1, result
def bist_clock_int(self):
"""
BIST for clock lock from internal (25 MHz) source.
Description: Checks to see if the daughtercard can lock to an internal
clock source.
External Equipment: None
Return dictionary:
- <sensor-name>:
- locked: Boolean lock status
There can be multiple ref lock sensors; for a pass condition they all
need to be asserted.
"""
assert 'clock_int' in self.tests_to_run
if self.args.dry_run:
return True, {'ref_locked': True}
# FIXME implement
sys.stderr.write("Test not implemented.\n")
return True, {}
def bist_clock_ext(self):
"""
BIST for clock lock from external source. Note: This test requires a
connected daughterboard with a 'ref lock' sensor available.
Description: Checks to see if the daughtercard can lock to the external
reference clock.
External Equipment: 10 MHz reference Source connected to "ref in".
Return dictionary:
- <sensor-name>:
- locked: Boolean lock status
There can be multiple ref lock sensors; for a pass condition they all
need to be asserted.
"""
assert 'clock_ext' in self.tests_to_run
if self.args.dry_run:
return True, {'ref_locked': True}
# FIXME implement
sys.stderr.write("Test not implemented.\n")
return True, {}
def bist_sfp0_loopback(self):
"""
BIST for SFP+ ports:
Description: Uses one SFP+ port to test the other. Pipes data out
through one SFP, back to the other.
External Equipment: Loopback module in SFP0 required
required.
Return dictionary:
- elapsed_time: Float value, test time in seconds
- max_roundtrip_latency: Float value, max roundtrip latency in seconds
- throughput: Approximate data throughput in bytes/s
- max_ber: Estimated maximum BER, float value.
- errors: Number of errors
- bits: Number of bits that were transferred
"""
if self.args.dry_run:
return True, get_sfp_bist_defaults()
sfp_bist_results = run_aurora_bist(master='misc-enet-regs0')
return aurora_results_to_status(sfp_bist_results)
def bist_sfp1_loopback(self):
"""
BIST for SFP+ ports:
Description: Uses one SFP+ port to test the other. Pipes data out
through one SFP, back to the other.
External Equipment: Loopback module in SFP1 required
required.
Return dictionary:
- elapsed_time: Float value, test time in seconds
- max_roundtrip_latency: Float value, max roundtrip latency in seconds
- throughput: Approximate data throughput in bytes/s
- max_ber: Estimated maximum BER, float value.
- errors: Number of errors
- bits: Number of bits that were transferred
"""
if self.args.dry_run:
return True, get_sfp_bist_defaults()
sfp_bist_results = run_aurora_bist(master='misc-enet-regs1')
return aurora_results_to_status(sfp_bist_results)
def bist_sfp_loopback(self):
"""
BIST for SFP+ ports:
Description: Uses one SFP+ port to test the other. Pipes data out
through one SFP, back to the other.
External Equipment: Loopback cable between the two SFP+ ports
required.
Return dictionary:
- elapsed_time: Float value, test time in seconds
- max_roundtrip_latency: Float value, max roundtrip latency in seconds
- throughput: Approximate data throughput in bytes/s
- max_ber: Estimated maximum BER, float value.
- errors: Number of errors
- bits: Number of bits that were transferred
"""
if self.args.dry_run:
return True, get_sfp_bist_defaults()
sfp_bist_results = run_aurora_bist(
master='misc-enet-regs0',
slave='misc-enet-regs1',
)
return aurora_results_to_status(sfp_bist_results)
def bist_gpio(self):
"""
BIST for GPIO
Description: Writes and reads the values to the GPIO
Needed Equipment: External loopback as follows
GPIO
0<->6
1<->7
2<->8
3<->9
4<->10
5<->11
Return dictionary:
- write_patterns: A list of patterns that were written
- read_patterns: A list of patterns that were read back
"""
assert 'gpio' in self.tests_to_run
patterns = range(64)
if self.args.dry_run:
return True, {
'write_patterns': patterns,
'read_patterns': patterns,
}
from usrp_mpm.periph_manager import n310
gpio_tca6424 = n310.TCA6424()
gpio_tca6424.set("FPGA-GPIO-EN")
# Allow some time for the front-panel GPIOs to become usable
time.sleep(.5)
ddr1 = 0x03f
ddr2 = 0xfc0
def _run_gpio(ddr, patterns):
" Run a GPIO test for a given set of patterns "
gpio_ctrl = n310.FP_GPIO(ddr)
for pattern in patterns:
gpio_ctrl.set_all(pattern)
time.sleep(0.1)
gpio_rb = gpio_ctrl.get_all()
if pattern != gpio_rb:
return False, {'write_patterns': [pattern],
'read_patterns': [gpio_rb]}
return True, {'write_patterns': list(patterns),
'read_patterns': list(patterns)}
status, data = _run_gpio(ddr1, patterns)
if not status:
return status, data
status, data = _run_gpio(ddr2, patterns)
return status, data
def bist_temp(self):
"""
BIST for temperature sensors
Description: Reads the temperature sensors on the motherboards and
returns their values in mC
Return dictionary:
- <thermal-zone-name>: temp in mC
"""
assert 'temp' in self.tests_to_run
if self.args.dry_run:
return True, {'fpga-thermal-zone': 30000}
import pyudev
context = pyudev.Context()
result = {
device.attributes.get('type').decode('ascii'): \
int(device.attributes.get('temp').decode('ascii'))
for device in context.list_devices(subsystem='thermal')
if 'temp' in device.attributes.available_attributes \
and device.attributes.get('temp') is not None
}
return len(result) >= 1, result
def bist_fan(self):
"""
BIST for temperature sensors
Description: Reads the RPM values of the fans on the motherboard
Return dictionary:
- <fan-name>: Fan speed in RPM
External Equipment: None
"""
assert 'fan' in self.tests_to_run
if self.args.dry_run:
return True, {'cooling_device0': 10000, 'cooling_device1': 10000}
import pyudev
context = pyudev.Context()
result = {
device.sys_name: int(device.attributes.get('cur_state'))
for device in context.list_devices(subsystem='thermal')
if 'cur_state' in device.attributes.available_attributes \
and device.attributes.get('cur_state') is not None
}
return len(result) == 2, result
##############################################################################
# main
##############################################################################
def main():
" Go, go, go! "
return N310BIST().run()
if __name__ == '__main__':
exit(not main())
|