tools/profile.py - platform/external/bcc - Gitiles

 #!/usr/bin/python
 # @lint-avoid-python-3-compatibility-imports
 #
 # profile  Profile CPU usage by sampling stack traces at a timed interval.
 #          For Linux, uses BCC, BPF, perf_events. Embedded C.
 #
 # This is an efficient profiler, as stack traces are frequency counted in
 # kernel context, rather than passing every stack to user space for frequency
 # counting there. Only the unique stacks and counts are passed to user space
 # at the end of the profile, greatly reducing the kernel<->user transfer.
 #
 # This uses perf_event_open to setup a timer which is instrumented by BPF,
 # and for efficiency it does not initialize the perf ring buffer, so the
 # redundant perf samples are not collected.
 #
 # REQUIRES: Linux 4.9+ (BPF_PROG_TYPE_PERF_EVENT support). Under tools/old is
 # a version of this tool that may work on Linux 4.6 - 4.8.
 #
 # Copyright 2016 Netflix, Inc.
 # Licensed under the Apache License, Version 2.0 (the "License")
 #
 # THANKS: Alexei Starovoitov, who added proper BPF profiling support to Linux;
 # Sasha Goldshtein, Andrew Birchall, and Evgeny Vereshchagin, who wrote much
 # of the code here, borrowed from tracepoint.py and offcputime.py; and
 # Teng Qin, who added perf support in bcc.
 #
 # 15-Jul-2016   Brendan Gregg   Created this.
 # 20-Oct-2016      "      "     Switched to use the new 4.9 support.

 from __future__ import print_function
 from bcc import BPF, PerfType, PerfSWConfig
 from sys import stderr
 from time import sleep
 import argparse
 import signal
 import os
 import errno
 import multiprocessing
 import ctypes as ct

 #
 # Process Arguments
 #

 # arg validation
 def positive_int(val):
     try:
         ival = int(val)
     except ValueError:
         raise argparse.ArgumentTypeError("must be an integer")

     if ival < 0:
         raise argparse.ArgumentTypeError("must be positive")
     return ival

 def positive_nonzero_int(val):
     ival = positive_int(val)
     if ival == 0:
         raise argparse.ArgumentTypeError("must be nonzero")
     return ival

 # arguments
 examples = """examples:
     ./profile             # profile stack traces at 49 Hertz until Ctrl-C
     ./profile -F 99       # profile stack traces at 99 Hertz
     ./profile 5           # profile at 49 Hertz for 5 seconds only
     ./profile -f 5        # output in folded format for flame graphs
     ./profile -p 185      # only profile threads for PID 185
     ./profile -U          # only show user space stacks (no kernel)
     ./profile -K          # only show kernel space stacks (no user)
 """
 parser = argparse.ArgumentParser(
     description="Profile CPU stack traces at a timed interval",
     formatter_class=argparse.RawDescriptionHelpFormatter,
     epilog=examples)
 thread_group = parser.add_mutually_exclusive_group()
 thread_group.add_argument("-p", "--pid", type=positive_int,
     help="profile this PID only")
 # TODO: add options for user/kernel threads only
 stack_group = parser.add_mutually_exclusive_group()
 stack_group.add_argument("-U", "--user-stacks-only", action="store_true",
     help="show stacks from user space only (no kernel space stacks)")
 stack_group.add_argument("-K", "--kernel-stacks-only", action="store_true",
     help="show stacks from kernel space only (no user space stacks)")
 parser.add_argument("-F", "--frequency", type=positive_int, default=49,
     help="sample frequency, Hertz (default 49)")
 parser.add_argument("-d", "--delimited", action="store_true",
     help="insert delimiter between kernel/user stacks")
 parser.add_argument("-a", "--annotations", action="store_true",
     help="add _[k] annotations to kernel frames")
 parser.add_argument("-f", "--folded", action="store_true",
     help="output folded format, one line per stack (for flame graphs)")
 parser.add_argument("--stack-storage-size", default=10240,
     type=positive_nonzero_int,
     help="the number of unique stack traces that can be stored and "
         "displayed (default 2048)")
 parser.add_argument("duration", nargs="?", default=99999999,
     type=positive_nonzero_int,
     help="duration of trace, in seconds")

 # option logic
 args = parser.parse_args()
 pid = int(args.pid) if args.pid is not None else -1
 duration = int(args.duration)
 debug = 0
 need_delimiter = args.delimited and not (args.kernel_stacks_only or
     args.user_stacks_only)
 # TODO: add stack depth, and interval

 #
 # Setup BPF
 #

 # define BPF program
 bpf_text = """
 #include <uapi/linux/ptrace.h>
 #include <uapi/linux/bpf_perf_event.h>
 #include <linux/sched.h>

 struct key_t {
     u32 pid;
     u64 kernel_ip;
     u64 kernel_ret_ip;
     int user_stack_id;
     int kernel_stack_id;
     char name[TASK_COMM_LEN];
 };
 BPF_HASH(counts, struct key_t);
 BPF_HASH(start, u32);
 BPF_STACK_TRACE(stack_traces, STACK_STORAGE_SIZE)

 // This code gets a bit complex. Probably not suitable for casual hacking.

 int do_perf_event(struct bpf_perf_event_data *ctx) {
     u32 pid = bpf_get_current_pid_tgid() >> 32;
     if (!(THREAD_FILTER))
         return 0;

     // create map key
     u64 zero = 0, *val;
     struct key_t key = {.pid = pid};
     bpf_get_current_comm(&key.name, sizeof(key.name));

     // get stacks
     key.user_stack_id = USER_STACK_GET;
     key.kernel_stack_id = KERNEL_STACK_GET;

     if (key.kernel_stack_id >= 0) {
         // populate extras to fix the kernel stack
         struct pt_regs regs = {};
         bpf_probe_read(&regs, sizeof(regs), (void *)&ctx->regs);
         u64 ip = PT_REGS_IP(&regs);

         // if ip isn't sane, leave key ips as zero for later checking
 #ifdef CONFIG_RANDOMIZE_MEMORY
         if (ip > __PAGE_OFFSET_BASE) {
 #else
         if (ip > PAGE_OFFSET) {
 #endif
             key.kernel_ip = ip;
         }
     }

     val = counts.lookup_or_init(&key, &zero);
     (*val)++;
     return 0;
 }
 """

 # set thread filter
 thread_context = ""
 perf_filter = "-a"
 if args.pid is not None:
     thread_context = "PID %s" % args.pid
     thread_filter = 'pid == %s' % args.pid
     perf_filter = '-p %s' % args.pid
 else:
     thread_context = "all threads"
     thread_filter = '1'
 bpf_text = bpf_text.replace('THREAD_FILTER', thread_filter)

 # set stack storage size
 bpf_text = bpf_text.replace('STACK_STORAGE_SIZE', str(args.stack_storage_size))

 # handle stack args
 kernel_stack_get = \
     "stack_traces.get_stackid(&ctx->regs, 0 | BPF_F_REUSE_STACKID)"
 user_stack_get = \
     "stack_traces.get_stackid(&ctx->regs, 0 | BPF_F_REUSE_STACKID | " \
     "BPF_F_USER_STACK)"
 stack_context = ""
 if args.user_stacks_only:
     stack_context = "user"
     kernel_stack_get = "-1"
 elif args.kernel_stacks_only:
     stack_context = "kernel"
     user_stack_get = "-1"
 else:
     stack_context = "user + kernel"
 bpf_text = bpf_text.replace('USER_STACK_GET', user_stack_get)
 bpf_text = bpf_text.replace('KERNEL_STACK_GET', kernel_stack_get)

 # header
 if not args.folded:
     print("Sampling at %d Hertz of %s by %s stack" %
         (args.frequency, thread_context, stack_context), end="")
     if duration < 99999999:
         print(" for %d secs." % duration)
     else:
         print("... Hit Ctrl-C to end.")

 if debug:
     print(bpf_text)

 # initialize BPF & perf_events
 b = BPF(text=bpf_text)
 b.attach_perf_event(ev_type=PerfType.SOFTWARE,
     ev_config=PerfSWConfig.CPU_CLOCK, fn_name="do_perf_event",
     sample_period=0, sample_freq=args.frequency)

 # signal handler
 def signal_ignore(signal, frame):
     print()

 #
 # Output Report
 #

 # collect samples
 try:
     sleep(duration)
 except KeyboardInterrupt:
     # as cleanup can take some time, trap Ctrl-C:
     signal.signal(signal.SIGINT, signal_ignore)

 if not args.folded:
     print()

 def aksym(addr):
     if args.annotations:
         return b.ksym(addr) + "_[k]"
     else:
         return b.ksym(addr)

 # output stacks
 missing_stacks = 0
 has_enomem = False
 counts = b.get_table("counts")
 stack_traces = b.get_table("stack_traces")
 for k, v in sorted(counts.items(), key=lambda counts: counts[1].value):
     # handle get_stackid erorrs
     if (not args.user_stacks_only and k.kernel_stack_id < 0 and
             k.kernel_stack_id != -errno.EFAULT) or \
             (not args.kernel_stacks_only and k.user_stack_id < 0 and
             k.user_stack_id != -errno.EFAULT):
         missing_stacks += 1
         # check for an ENOMEM error
         if k.kernel_stack_id == -errno.ENOMEM or \
                 k.user_stack_id == -errno.ENOMEM:
             has_enomem = True

     user_stack = [] if k.user_stack_id < 0 else \
         stack_traces.walk(k.user_stack_id)
     kernel_tmp = [] if k.kernel_stack_id < 0 else \
         stack_traces.walk(k.kernel_stack_id)

     # fix kernel stack
     kernel_stack = []
     if k.kernel_stack_id >= 0:
         for addr in kernel_tmp:
             kernel_stack.append(addr)
         # the later IP checking
         if k.kernel_ip:
             kernel_stack.insert(0, k.kernel_ip)

     do_delimiter = need_delimiter and kernel_stack

     if args.folded:
         # print folded stack output
         user_stack = list(user_stack)
         kernel_stack = list(kernel_stack)
         line = [k.name.decode()] + \
             [b.sym(addr, k.pid) for addr in reversed(user_stack)] + \
             (do_delimiter and ["-"] or []) + \
             [aksym(addr) for addr in reversed(kernel_stack)]
         print("%s %d" % (";".join(line), v.value))
     else:
         # print default multi-line stack output.
         for addr in kernel_stack:
             print("    %s" % aksym(addr))
         if do_delimiter:
             print("    --")
         for addr in user_stack:
             print("    %s" % b.sym(addr, k.pid))
         print("    %-16s %s (%d)" % ("-", k.name, k.pid))
         print("        %d\n" % v.value)

 # check missing
 if missing_stacks > 0:
     enomem_str = "" if not has_enomem else \
         " Consider increasing --stack-storage-size."
     print("WARNING: %d stack traces could not be displayed.%s" %
         (missing_stacks, enomem_str),
         file=stderr)
	#!/usr/bin/python
	# @lint-avoid-python-3-compatibility-imports
	#
	# profile Profile CPU usage by sampling stack traces at a timed interval.
	# For Linux, uses BCC, BPF, perf_events. Embedded C.
	#
	# This is an efficient profiler, as stack traces are frequency counted in
	# kernel context, rather than passing every stack to user space for frequency
	# counting there. Only the unique stacks and counts are passed to user space
	# at the end of the profile, greatly reducing the kernel<->user transfer.
	#
	# This uses perf_event_open to setup a timer which is instrumented by BPF,
	# and for efficiency it does not initialize the perf ring buffer, so the
	# redundant perf samples are not collected.
	#
	# REQUIRES: Linux 4.9+ (BPF_PROG_TYPE_PERF_EVENT support). Under tools/old is
	# a version of this tool that may work on Linux 4.6 - 4.8.
	#
	# Copyright 2016 Netflix, Inc.
	# Licensed under the Apache License, Version 2.0 (the "License")
	#
	# THANKS: Alexei Starovoitov, who added proper BPF profiling support to Linux;
	# Sasha Goldshtein, Andrew Birchall, and Evgeny Vereshchagin, who wrote much
	# of the code here, borrowed from tracepoint.py and offcputime.py; and
	# Teng Qin, who added perf support in bcc.
	#
	# 15-Jul-2016 Brendan Gregg Created this.
	# 20-Oct-2016 " " Switched to use the new 4.9 support.

	from __future__ import print_function
	from bcc import BPF, PerfType, PerfSWConfig
	from sys import stderr
	from time import sleep
	import argparse
	import signal
	import os
	import errno
	import multiprocessing
	import ctypes as ct

	#
	# Process Arguments
	#

	# arg validation
	def positive_int(val):
	try:
	ival = int(val)
	except ValueError:
	raise argparse.ArgumentTypeError("must be an integer")

	if ival < 0:
	raise argparse.ArgumentTypeError("must be positive")
	return ival

	def positive_nonzero_int(val):
	ival = positive_int(val)
	if ival == 0:
	raise argparse.ArgumentTypeError("must be nonzero")
	return ival

	# arguments
	examples = """examples:
	./profile # profile stack traces at 49 Hertz until Ctrl-C
	./profile -F 99 # profile stack traces at 99 Hertz
	./profile 5 # profile at 49 Hertz for 5 seconds only
	./profile -f 5 # output in folded format for flame graphs
	./profile -p 185 # only profile threads for PID 185
	./profile -U # only show user space stacks (no kernel)
	./profile -K # only show kernel space stacks (no user)
	"""
	parser = argparse.ArgumentParser(
	description="Profile CPU stack traces at a timed interval",
	formatter_class=argparse.RawDescriptionHelpFormatter,
	epilog=examples)
	thread_group = parser.add_mutually_exclusive_group()
	thread_group.add_argument("-p", "--pid", type=positive_int,
	help="profile this PID only")
	# TODO: add options for user/kernel threads only
	stack_group = parser.add_mutually_exclusive_group()
	stack_group.add_argument("-U", "--user-stacks-only", action="store_true",
	help="show stacks from user space only (no kernel space stacks)")
	stack_group.add_argument("-K", "--kernel-stacks-only", action="store_true",
	help="show stacks from kernel space only (no user space stacks)")
	parser.add_argument("-F", "--frequency", type=positive_int, default=49,
	help="sample frequency, Hertz (default 49)")
	parser.add_argument("-d", "--delimited", action="store_true",
	help="insert delimiter between kernel/user stacks")
	parser.add_argument("-a", "--annotations", action="store_true",
	help="add _[k] annotations to kernel frames")
	parser.add_argument("-f", "--folded", action="store_true",
	help="output folded format, one line per stack (for flame graphs)")
	parser.add_argument("--stack-storage-size", default=10240,
	type=positive_nonzero_int,
	help="the number of unique stack traces that can be stored and "
	"displayed (default 2048)")
	parser.add_argument("duration", nargs="?", default=99999999,
	type=positive_nonzero_int,
	help="duration of trace, in seconds")

	# option logic
	args = parser.parse_args()
	pid = int(args.pid) if args.pid is not None else -1
	duration = int(args.duration)
	debug = 0
	need_delimiter = args.delimited and not (args.kernel_stacks_only or
	args.user_stacks_only)
	# TODO: add stack depth, and interval

	#
	# Setup BPF
	#

	# define BPF program
	bpf_text = """
	#include <uapi/linux/ptrace.h>
	#include <uapi/linux/bpf_perf_event.h>
	#include <linux/sched.h>

	struct key_t {
	u32 pid;
	u64 kernel_ip;
	u64 kernel_ret_ip;
	int user_stack_id;
	int kernel_stack_id;
	char name[TASK_COMM_LEN];
	};
	BPF_HASH(counts, struct key_t);
	BPF_HASH(start, u32);
	BPF_STACK_TRACE(stack_traces, STACK_STORAGE_SIZE)

	// This code gets a bit complex. Probably not suitable for casual hacking.

	int do_perf_event(struct bpf_perf_event_data *ctx) {
	u32 pid = bpf_get_current_pid_tgid() >> 32;
	if (!(THREAD_FILTER))
	return 0;

	// create map key
	u64 zero = 0, *val;
	struct key_t key = {.pid = pid};
	bpf_get_current_comm(&key.name, sizeof(key.name));

	// get stacks
	key.user_stack_id = USER_STACK_GET;
	key.kernel_stack_id = KERNEL_STACK_GET;

	if (key.kernel_stack_id >= 0) {
	// populate extras to fix the kernel stack
	struct pt_regs regs = {};
	bpf_probe_read(&regs, sizeof(regs), (void *)&ctx->regs);
	u64 ip = PT_REGS_IP(&regs);

	// if ip isn't sane, leave key ips as zero for later checking
	#ifdef CONFIG_RANDOMIZE_MEMORY
	if (ip > __PAGE_OFFSET_BASE) {
	#else
	if (ip > PAGE_OFFSET) {
	#endif
	key.kernel_ip = ip;
	}
	}

	val = counts.lookup_or_init(&key, &zero);
	(*val)++;
	return 0;
	}
	"""

	# set thread filter
	thread_context = ""
	perf_filter = "-a"
	if args.pid is not None:
	thread_context = "PID %s" % args.pid
	thread_filter = 'pid == %s' % args.pid
	perf_filter = '-p %s' % args.pid
	else:
	thread_context = "all threads"
	thread_filter = '1'
	bpf_text = bpf_text.replace('THREAD_FILTER', thread_filter)

	# set stack storage size
	bpf_text = bpf_text.replace('STACK_STORAGE_SIZE', str(args.stack_storage_size))

	# handle stack args
	kernel_stack_get = \
	"stack_traces.get_stackid(&ctx->regs, 0 \| BPF_F_REUSE_STACKID)"
	user_stack_get = \
	"stack_traces.get_stackid(&ctx->regs, 0 \| BPF_F_REUSE_STACKID \| " \
	"BPF_F_USER_STACK)"
	stack_context = ""
	if args.user_stacks_only:
	stack_context = "user"
	kernel_stack_get = "-1"
	elif args.kernel_stacks_only:
	stack_context = "kernel"
	user_stack_get = "-1"
	else:
	stack_context = "user + kernel"
	bpf_text = bpf_text.replace('USER_STACK_GET', user_stack_get)
	bpf_text = bpf_text.replace('KERNEL_STACK_GET', kernel_stack_get)

	# header
	if not args.folded:
	print("Sampling at %d Hertz of %s by %s stack" %
	(args.frequency, thread_context, stack_context), end="")
	if duration < 99999999:
	print(" for %d secs." % duration)
	else:
	print("... Hit Ctrl-C to end.")

	if debug:
	print(bpf_text)

	# initialize BPF & perf_events
	b = BPF(text=bpf_text)
	b.attach_perf_event(ev_type=PerfType.SOFTWARE,
	ev_config=PerfSWConfig.CPU_CLOCK, fn_name="do_perf_event",
	sample_period=0, sample_freq=args.frequency)

	# signal handler
	def signal_ignore(signal, frame):
	print()

	#
	# Output Report
	#

	# collect samples
	try:
	sleep(duration)
	except KeyboardInterrupt:
	# as cleanup can take some time, trap Ctrl-C:
	signal.signal(signal.SIGINT, signal_ignore)

	if not args.folded:
	print()

	def aksym(addr):
	if args.annotations:
	return b.ksym(addr) + "_[k]"
	else:
	return b.ksym(addr)

	# output stacks
	missing_stacks = 0
	has_enomem = False
	counts = b.get_table("counts")
	stack_traces = b.get_table("stack_traces")
	for k, v in sorted(counts.items(), key=lambda counts: counts[1].value):
	# handle get_stackid erorrs
	if (not args.user_stacks_only and k.kernel_stack_id < 0 and
	k.kernel_stack_id != -errno.EFAULT) or \
	(not args.kernel_stacks_only and k.user_stack_id < 0 and
	k.user_stack_id != -errno.EFAULT):
	missing_stacks += 1
	# check for an ENOMEM error
	if k.kernel_stack_id == -errno.ENOMEM or \
	k.user_stack_id == -errno.ENOMEM:
	has_enomem = True

	user_stack = [] if k.user_stack_id < 0 else \
	stack_traces.walk(k.user_stack_id)
	kernel_tmp = [] if k.kernel_stack_id < 0 else \
	stack_traces.walk(k.kernel_stack_id)

	# fix kernel stack
	kernel_stack = []
	if k.kernel_stack_id >= 0:
	for addr in kernel_tmp:
	kernel_stack.append(addr)
	# the later IP checking
	if k.kernel_ip:
	kernel_stack.insert(0, k.kernel_ip)

	do_delimiter = need_delimiter and kernel_stack

	if args.folded:
	# print folded stack output
	user_stack = list(user_stack)
	kernel_stack = list(kernel_stack)
	line = [k.name.decode()] + \
	[b.sym(addr, k.pid) for addr in reversed(user_stack)] + \
	(do_delimiter and ["-"] or []) + \
	[aksym(addr) for addr in reversed(kernel_stack)]
	print("%s %d" % (";".join(line), v.value))
	else:
	# print default multi-line stack output.
	for addr in kernel_stack:
	print(" %s" % aksym(addr))
	if do_delimiter:
	print(" --")
	for addr in user_stack:
	print(" %s" % b.sym(addr, k.pid))
	print(" %-16s %s (%d)" % ("-", k.name, k.pid))
	print(" %d\n" % v.value)

	# check missing
	if missing_stacks > 0:
	enomem_str = "" if not has_enomem else \
	" Consider increasing --stack-storage-size."
	print("WARNING: %d stack traces could not be displayed.%s" %
	(missing_stacks, enomem_str),
	file=stderr)