src/ci/cpu-usage-over-time.py - third_party/rust - Git at Google

 #!/usr/bin/env python
 # ignore-tidy-linelength

 # This is a small script that we use on CI to collect CPU usage statistics of
 # our builders. By seeing graphs of CPU usage over time we hope to correlate
 # that with possible improvements to Rust's own build system, ideally diagnosing
 # that either builders are always fully using their CPU resources or they're
 # idle for long stretches of time.
 #
 # This script is relatively simple, but it's platform specific. Each platform
 # (OSX/Windows/Linux) has a different way of calculating the current state of
 # CPU at a point in time. We then compare two captured states to determine the
 # percentage of time spent in one state versus another. The state capturing is
 # all platform-specific but the loop at the bottom is the cross platform part
 # that executes everywhere.
 #
 # # Viewing statistics
 #
 # All builders will upload their CPU statistics as CSV files to our S3 buckets.
 # These URLS look like:
 #
 #   https://$bucket.s3.amazonaws.com/rustc-builds/$commit/cpu-$builder.csv
 #
 # for example
 #
 #   https://rust-lang-ci2.s3.amazonaws.com/rustc-builds/68baada19cd5340f05f0db15a3e16d6671609bcc/cpu-x86_64-apple.csv
 #
 # Each CSV file has two columns. The first is the timestamp of the measurement
 # and the second column is the % of idle cpu time in that time slice. Ideally
 # the second column is always zero.
 #
 # Once you've downloaded a file there's various ways to plot it and visualize
 # it. For command line usage you use the `src/etc/cpu-usage-over-time-plot.sh`
 # script in this repository.

 import datetime
 import sys
 import time

 if sys.platform == 'linux2':
     class State:
         def __init__(self):
             with open('/proc/stat', 'r') as file:
                 data = file.readline().split()
             if data[0] != 'cpu':
                 raise Exception('did not start with "cpu"')
             self.user = int(data[1])
             self.nice = int(data[2])
             self.system = int(data[3])
             self.idle = int(data[4])
             self.iowait = int(data[5])
             self.irq = int(data[6])
             self.softirq = int(data[7])
             self.steal = int(data[8])
             self.guest = int(data[9])
             self.guest_nice = int(data[10])

         def idle_since(self, prev):
             user = self.user - prev.user
             nice = self.nice - prev.nice
             system = self.system - prev.system
             idle = self.idle - prev.idle
             iowait = self.iowait - prev.iowait
             irq = self.irq - prev.irq
             softirq = self.softirq - prev.softirq
             steal = self.steal - prev.steal
             guest = self.guest - prev.guest
             guest_nice = self.guest_nice - prev.guest_nice
             total = user + nice + system + idle + iowait + irq + softirq + steal + guest + guest_nice
             return float(idle) / float(total) * 100

 elif sys.platform == 'win32':
     from ctypes.wintypes import DWORD
     from ctypes import Structure, windll, WinError, GetLastError, byref

     class FILETIME(Structure):
         _fields_ = [
             ("dwLowDateTime", DWORD),
             ("dwHighDateTime", DWORD),
         ]

     class State:
         def __init__(self):
             idle, kernel, user = FILETIME(), FILETIME(), FILETIME()

             success = windll.kernel32.GetSystemTimes(
                 byref(idle),
                 byref(kernel),
                 byref(user),
             )

             assert success, WinError(GetLastError())[1]

             self.idle = (idle.dwHighDateTime << 32) | idle.dwLowDateTime
             self.kernel = (kernel.dwHighDateTime << 32) | kernel.dwLowDateTime
             self.user = (user.dwHighDateTime << 32) | user.dwLowDateTime

         def idle_since(self, prev):
             idle = self.idle - prev.idle
             user = self.user - prev.user
             kernel = self.kernel - prev.kernel
             return float(idle) / float(user + kernel) * 100

 elif sys.platform == 'darwin':
     from ctypes import *
     libc = cdll.LoadLibrary('/usr/lib/libc.dylib')

     PROESSOR_CPU_LOAD_INFO = c_int(2)
     CPU_STATE_USER = 0
     CPU_STATE_SYSTEM = 1
     CPU_STATE_IDLE = 2
     CPU_STATE_NICE = 3
     c_int_p = POINTER(c_int)

     class State:
         def __init__(self):
             num_cpus_u = c_uint(0)
             cpu_info = c_int_p()
             cpu_info_cnt = c_int(0)
             err = libc.host_processor_info(
                 libc.mach_host_self(),
                 PROESSOR_CPU_LOAD_INFO,
                 byref(num_cpus_u),
                 byref(cpu_info),
                 byref(cpu_info_cnt),
             )
             assert err == 0
             self.user = 0
             self.system = 0
             self.idle = 0
             self.nice = 0
             cur = 0
             while cur < cpu_info_cnt.value:
                 self.user += cpu_info[cur + CPU_STATE_USER]
                 self.system += cpu_info[cur + CPU_STATE_SYSTEM]
                 self.idle += cpu_info[cur + CPU_STATE_IDLE]
                 self.nice += cpu_info[cur + CPU_STATE_NICE]
                 cur += num_cpus_u.value

         def idle_since(self, prev):
             user = self.user - prev.user
             system = self.system - prev.system
             idle = self.idle - prev.idle
             nice = self.nice - prev.nice
             return float(idle) / float(user + system + idle + nice) * 100.0

 else:
     print('unknown platform', sys.platform)
     sys.exit(1)

 cur_state = State()
 print("Time,Idle")
 while True:
     time.sleep(1)
     next_state = State()
     now = datetime.datetime.utcnow().isoformat()
     idle = next_state.idle_since(cur_state)
     print("%s,%s" % (now, idle))
     sys.stdout.flush()
     cur_state = next_state
	#!/usr/bin/env python
	# ignore-tidy-linelength

	# This is a small script that we use on CI to collect CPU usage statistics of
	# our builders. By seeing graphs of CPU usage over time we hope to correlate
	# that with possible improvements to Rust's own build system, ideally diagnosing
	# that either builders are always fully using their CPU resources or they're
	# idle for long stretches of time.
	#
	# This script is relatively simple, but it's platform specific. Each platform
	# (OSX/Windows/Linux) has a different way of calculating the current state of
	# CPU at a point in time. We then compare two captured states to determine the
	# percentage of time spent in one state versus another. The state capturing is
	# all platform-specific but the loop at the bottom is the cross platform part
	# that executes everywhere.
	#
	# # Viewing statistics
	#
	# All builders will upload their CPU statistics as CSV files to our S3 buckets.
	# These URLS look like:
	#
	# https://$bucket.s3.amazonaws.com/rustc-builds/$commit/cpu-$builder.csv
	#
	# for example
	#
	# https://rust-lang-ci2.s3.amazonaws.com/rustc-builds/68baada19cd5340f05f0db15a3e16d6671609bcc/cpu-x86_64-apple.csv
	#
	# Each CSV file has two columns. The first is the timestamp of the measurement
	# and the second column is the % of idle cpu time in that time slice. Ideally
	# the second column is always zero.
	#
	# Once you've downloaded a file there's various ways to plot it and visualize
	# it. For command line usage you use the `src/etc/cpu-usage-over-time-plot.sh`
	# script in this repository.

	import datetime
	import sys
	import time

	if sys.platform == 'linux2':
	class State:
	def __init__(self):
	with open('/proc/stat', 'r') as file:
	data = file.readline().split()
	if data[0] != 'cpu':
	raise Exception('did not start with "cpu"')
	self.user = int(data[1])
	self.nice = int(data[2])
	self.system = int(data[3])
	self.idle = int(data[4])
	self.iowait = int(data[5])
	self.irq = int(data[6])
	self.softirq = int(data[7])
	self.steal = int(data[8])
	self.guest = int(data[9])
	self.guest_nice = int(data[10])

	def idle_since(self, prev):
	user = self.user - prev.user
	nice = self.nice - prev.nice
	system = self.system - prev.system
	idle = self.idle - prev.idle
	iowait = self.iowait - prev.iowait
	irq = self.irq - prev.irq
	softirq = self.softirq - prev.softirq
	steal = self.steal - prev.steal
	guest = self.guest - prev.guest
	guest_nice = self.guest_nice - prev.guest_nice
	total = user + nice + system + idle + iowait + irq + softirq + steal + guest + guest_nice
	return float(idle) / float(total) * 100

	elif sys.platform == 'win32':
	from ctypes.wintypes import DWORD
	from ctypes import Structure, windll, WinError, GetLastError, byref

	class FILETIME(Structure):
	_fields_ = [
	("dwLowDateTime", DWORD),
	("dwHighDateTime", DWORD),
	]

	class State:
	def __init__(self):
	idle, kernel, user = FILETIME(), FILETIME(), FILETIME()

	success = windll.kernel32.GetSystemTimes(
	byref(idle),
	byref(kernel),
	byref(user),
	)

	assert success, WinError(GetLastError())[1]

	self.idle = (idle.dwHighDateTime << 32) \| idle.dwLowDateTime
	self.kernel = (kernel.dwHighDateTime << 32) \| kernel.dwLowDateTime
	self.user = (user.dwHighDateTime << 32) \| user.dwLowDateTime

	def idle_since(self, prev):
	idle = self.idle - prev.idle
	user = self.user - prev.user
	kernel = self.kernel - prev.kernel
	return float(idle) / float(user + kernel) * 100

	elif sys.platform == 'darwin':
	from ctypes import *
	libc = cdll.LoadLibrary('/usr/lib/libc.dylib')

	PROESSOR_CPU_LOAD_INFO = c_int(2)
	CPU_STATE_USER = 0
	CPU_STATE_SYSTEM = 1
	CPU_STATE_IDLE = 2
	CPU_STATE_NICE = 3
	c_int_p = POINTER(c_int)

	class State:
	def __init__(self):
	num_cpus_u = c_uint(0)
	cpu_info = c_int_p()
	cpu_info_cnt = c_int(0)
	err = libc.host_processor_info(
	libc.mach_host_self(),
	PROESSOR_CPU_LOAD_INFO,
	byref(num_cpus_u),
	byref(cpu_info),
	byref(cpu_info_cnt),
	)
	assert err == 0
	self.user = 0
	self.system = 0
	self.idle = 0
	self.nice = 0
	cur = 0
	while cur < cpu_info_cnt.value:
	self.user += cpu_info[cur + CPU_STATE_USER]
	self.system += cpu_info[cur + CPU_STATE_SYSTEM]
	self.idle += cpu_info[cur + CPU_STATE_IDLE]
	self.nice += cpu_info[cur + CPU_STATE_NICE]
	cur += num_cpus_u.value

	def idle_since(self, prev):
	user = self.user - prev.user
	system = self.system - prev.system
	idle = self.idle - prev.idle
	nice = self.nice - prev.nice
	return float(idle) / float(user + system + idle + nice) * 100.0

	else:
	print('unknown platform', sys.platform)
	sys.exit(1)

	cur_state = State()
	print("Time,Idle")
	while True:
	time.sleep(1)
	next_state = State()
	now = datetime.datetime.utcnow().isoformat()
	idle = next_state.idle_since(cur_state)
	print("%s,%s" % (now, idle))
	sys.stdout.flush()
	cur_state = next_state