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# -*- coding: utf-8 -*-
# Description: nvidia-smi netdata python.d module
# Original Author: Steven Noonan (tycho)
# Author: Ilya Mashchenko (ilyam8)
import subprocess
import threading
import xml.etree.ElementTree as et
from bases.collection import find_binary
from bases.FrameworkServices.SimpleService import SimpleService
disabled_by_default = True
NVIDIA_SMI = 'nvidia-smi'
BAD_VALUE = 'N/A'
EMPTY_ROW = ''
EMPTY_ROW_LIMIT = 500
POLLER_BREAK_ROW = '</nvidia_smi_log>'
PCI_BANDWIDTH = 'pci_bandwidth'
FAN_SPEED = 'fan_speed'
GPU_UTIL = 'gpu_utilization'
MEM_UTIL = 'mem_utilization'
ENCODER_UTIL = 'encoder_utilization'
MEM_USAGE = 'mem_usage'
TEMPERATURE = 'temperature'
CLOCKS = 'clocks'
POWER = 'power'
PROCESSES_MEM = 'processes_mem'
ORDER = [
PCI_BANDWIDTH,
FAN_SPEED,
GPU_UTIL,
MEM_UTIL,
ENCODER_UTIL,
MEM_USAGE,
TEMPERATURE,
CLOCKS,
POWER,
PROCESSES_MEM,
]
def gpu_charts(gpu):
fam = gpu.full_name()
charts = {
PCI_BANDWIDTH: {
'options': [None, 'PCI Express Bandwidth Utilization', 'KiB/s', fam, 'nvidia_smi.pci_bandwidth', 'area'],
'lines': [
['rx_util', 'rx', 'absolute', 1, 1],
['tx_util', 'tx', 'absolute', 1, -1],
]
},
FAN_SPEED: {
'options': [None, 'Fan Speed', 'percentage', fam, 'nvidia_smi.fan_speed', 'line'],
'lines': [
['fan_speed', 'speed'],
]
},
GPU_UTIL: {
'options': [None, 'GPU Utilization', 'percentage', fam, 'nvidia_smi.gpu_utilization', 'line'],
'lines': [
['gpu_util', 'utilization'],
]
},
MEM_UTIL: {
'options': [None, 'Memory Bandwidth Utilization', 'percentage', fam, 'nvidia_smi.mem_utilization', 'line'],
'lines': [
['memory_util', 'utilization'],
]
},
ENCODER_UTIL: {
'options': [None, 'Encoder/Decoder Utilization', 'percentage', fam, 'nvidia_smi.encoder_utilization', 'line'],
'lines': [
['encoder_util', 'encoder'],
['decoder_util', 'decoder'],
]
},
MEM_USAGE: {
'options': [None, 'Memory Usage', 'MiB', fam, 'nvidia_smi.memory_allocated', 'stacked'],
'lines': [
['fb_memory_free', 'free'],
['fb_memory_used', 'used'],
]
},
TEMPERATURE: {
'options': [None, 'Temperature', 'celsius', fam, 'nvidia_smi.temperature', 'line'],
'lines': [
['gpu_temp', 'temp'],
]
},
CLOCKS: {
'options': [None, 'Clock Frequencies', 'MHz', fam, 'nvidia_smi.clocks', 'line'],
'lines': [
['graphics_clock', 'graphics'],
['video_clock', 'video'],
['sm_clock', 'sm'],
['mem_clock', 'mem'],
]
},
POWER: {
'options': [None, 'Power Utilization', 'Watts', fam, 'nvidia_smi.power', 'line'],
'lines': [
['power_draw', 'power', 'absolute', 1, 100],
]
},
PROCESSES_MEM: {
'options': [None, 'Memory Used by Each Process', 'MiB', fam, 'nvidia_smi.processes_mem', 'stacked'],
'lines': []
},
}
idx = gpu.num
order = ['gpu{0}_{1}'.format(idx, v) for v in ORDER]
charts = dict(('gpu{0}_{1}'.format(idx, k), v) for k, v in charts.items())
for chart in charts.values():
for line in chart['lines']:
line[0] = 'gpu{0}_{1}'.format(idx, line[0])
return order, charts
class NvidiaSMI:
def __init__(self):
self.command = find_binary(NVIDIA_SMI)
self.active_proc = None
def run_once(self):
proc = subprocess.Popen([self.command, '-x', '-q'], stdout=subprocess.PIPE)
stdout, _ = proc.communicate()
return stdout
def run_loop(self, interval):
if self.active_proc:
self.kill()
proc = subprocess.Popen([self.command, '-x', '-q', '-l', str(interval)], stdout=subprocess.PIPE)
self.active_proc = proc
return proc.stdout
def kill(self):
if self.active_proc:
self.active_proc.kill()
self.active_proc = None
class NvidiaSMIPoller(threading.Thread):
def __init__(self, poll_interval):
threading.Thread.__init__(self)
self.daemon = True
self.smi = NvidiaSMI()
self.interval = poll_interval
self.lock = threading.RLock()
self.last_data = str()
self.exit = False
self.empty_rows = 0
self.rows = list()
def has_smi(self):
return bool(self.smi.command)
def run_once(self):
return self.smi.run_once()
def run(self):
out = self.smi.run_loop(self.interval)
for row in out:
if self.exit or self.empty_rows > EMPTY_ROW_LIMIT:
break
self.process_row(row)
self.smi.kill()
def process_row(self, row):
row = row.decode()
self.empty_rows += (row == EMPTY_ROW)
self.rows.append(row)
if POLLER_BREAK_ROW in row:
self.lock.acquire()
self.last_data = '\n'.join(self.rows)
self.lock.release()
self.rows = list()
self.empty_rows = 0
def is_started(self):
return self.ident is not None
def shutdown(self):
self.exit = True
def data(self):
self.lock.acquire()
data = self.last_data
self.lock.release()
return data
def handle_attr_error(method):
def on_call(*args, **kwargs):
try:
return method(*args, **kwargs)
except AttributeError:
return None
return on_call
def handle_value_error(method):
def on_call(*args, **kwargs):
try:
return method(*args, **kwargs)
except ValueError:
return None
return on_call
class GPU:
def __init__(self, num, root):
self.num = num
self.root = root
def id(self):
return self.root.get('id')
def name(self):
return self.root.find('product_name').text
def full_name(self):
return 'gpu{0} {1}'.format(self.num, self.name())
@handle_attr_error
def rx_util(self):
return self.root.find('pci').find('rx_util').text.split()[0]
@handle_attr_error
def tx_util(self):
return self.root.find('pci').find('tx_util').text.split()[0]
@handle_attr_error
def fan_speed(self):
return self.root.find('fan_speed').text.split()[0]
@handle_attr_error
def gpu_util(self):
return self.root.find('utilization').find('gpu_util').text.split()[0]
@handle_attr_error
def memory_util(self):
return self.root.find('utilization').find('memory_util').text.split()[0]
@handle_attr_error
def encoder_util(self):
return self.root.find('utilization').find('encoder_util').text.split()[0]
@handle_attr_error
def decoder_util(self):
return self.root.find('utilization').find('decoder_util').text.split()[0]
@handle_attr_error
def fb_memory_used(self):
return self.root.find('fb_memory_usage').find('used').text.split()[0]
@handle_attr_error
def fb_memory_free(self):
return self.root.find('fb_memory_usage').find('free').text.split()[0]
@handle_attr_error
def temperature(self):
return self.root.find('temperature').find('gpu_temp').text.split()[0]
@handle_attr_error
def graphics_clock(self):
return self.root.find('clocks').find('graphics_clock').text.split()[0]
@handle_attr_error
def video_clock(self):
return self.root.find('clocks').find('video_clock').text.split()[0]
@handle_attr_error
def sm_clock(self):
return self.root.find('clocks').find('sm_clock').text.split()[0]
@handle_attr_error
def mem_clock(self):
return self.root.find('clocks').find('mem_clock').text.split()[0]
@handle_value_error
@handle_attr_error
def power_draw(self):
return float(self.root.find('power_readings').find('power_draw').text.split()[0]) * 100
@handle_attr_error
def processes(self):
p_nodes = self.root.find('processes').findall('process_info')
ps = []
for p in p_nodes:
ps.append({
'pid': p.find('pid').text,
'process_name': p.find('process_name').text,
'used_memory': int(p.find('used_memory').text.split()[0]),
})
return ps
def data(self):
data = {
'rx_util': self.rx_util(),
'tx_util': self.tx_util(),
'fan_speed': self.fan_speed(),
'gpu_util': self.gpu_util(),
'memory_util': self.memory_util(),
'encoder_util': self.encoder_util(),
'decoder_util': self.decoder_util(),
'fb_memory_used': self.fb_memory_used(),
'fb_memory_free': self.fb_memory_free(),
'gpu_temp': self.temperature(),
'graphics_clock': self.graphics_clock(),
'video_clock': self.video_clock(),
'sm_clock': self.sm_clock(),
'mem_clock': self.mem_clock(),
'power_draw': self.power_draw(),
}
processes = self.processes() or []
data.update({'process_mem_{0}'.format(p['pid']): p['used_memory'] for p in processes})
return dict(
('gpu{0}_{1}'.format(self.num, k), v) for k, v in data.items() if v is not None and v != BAD_VALUE
)
class Service(SimpleService):
def __init__(self, configuration=None, name=None):
super(Service, self).__init__(configuration=configuration, name=name)
self.order = list()
self.definitions = dict()
poll = int(configuration.get('poll_seconds', 1))
self.poller = NvidiaSMIPoller(poll)
def get_data(self):
if not self.poller.is_started():
self.poller.start()
if not self.poller.is_alive():
self.debug('poller is off')
return None
last_data = self.poller.data()
if not last_data:
return None
parsed = self.parse_xml(last_data)
if parsed is None:
return None
data = dict()
for idx, root in enumerate(parsed.findall('gpu')):
gpu = GPU(idx, root)
data.update(gpu.data())
self.update_processes_mem_chart(gpu)
return data or None
def update_processes_mem_chart(self, gpu):
ps = gpu.processes()
if not ps:
return
chart = self.charts['gpu{0}_{1}'.format(gpu.num, PROCESSES_MEM)]
active_dim_ids = []
for p in ps:
dim_id = 'gpu{0}_process_mem_{1}'.format(gpu.num, p['pid'])
active_dim_ids.append(dim_id)
if dim_id not in chart:
chart.add_dimension([dim_id, '{0} {1}'.format(p['pid'], p['process_name'])])
for dim in chart:
if dim.id not in active_dim_ids:
chart.del_dimension(dim.id, hide=False)
def check(self):
if not self.poller.has_smi():
self.error("couldn't find '{0}' binary".format(NVIDIA_SMI))
return False
raw_data = self.poller.run_once()
if not raw_data:
self.error("failed to invoke '{0}' binary".format(NVIDIA_SMI))
return False
parsed = self.parse_xml(raw_data)
if parsed is None:
return False
gpus = parsed.findall('gpu')
if not gpus:
return False
self.create_charts(gpus)
return True
def parse_xml(self, data):
try:
return et.fromstring(data)
except et.ParseError as error:
self.error('xml parse failed: "{0}", error: {1}'.format(data, error))
return None
def create_charts(self, gpus):
for idx, root in enumerate(gpus):
order, charts = gpu_charts(GPU(idx, root))
self.order.extend(order)
self.definitions.update(charts)
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