tools/tplist_example.txt - platform/external/bcc - Git at Google

 Demonstrations of tplist.


 tplist displays kernel tracepoints and USDT probes, including their
 format. It can be used to discover probe points for use with the trace
 and argdist tools. Kernel tracepoints are scattered around the kernel
 and provide valuable static tracing on block and network I/O, scheduling,
 power events, and many other subjects. USDT probes are placed in libraries
 (such as libc) and executables (such as node) and provide static tracing
 information that can (optionally) be turned on and off at runtime.

 For example, suppose you want to discover which USDT probes a particular
 executable contains. Just run tplist on that executable (or library):

 $ tplist -l basic_usdt
 /home/vagrant/basic_usdt basic_usdt:start_main
 /home/vagrant/basic_usdt basic_usdt:loop_iter
 /home/vagrant/basic_usdt basic_usdt:end_main

 The loop_iter probe sounds interesting. How many arguments are available?

 $ tplist '*loop_iter' -l basic_usdt -v
 basic_usdt:loop_iter [sema 0x601036]
   2 location(s)
   2 argument(s)

 This output indicates that the loop_iter probe is used in two locations
 in the basic_usdt executable, and that it has two arguments. Fortunately,
 the argdist and trace tools understand the probe format and can print out
 the arguments automatically -- you can refer to them as arg1, arg2, and
 so on.

 Try to explore with some common libraries on your system and see if they
 contain UDST probes. Here are two examples you might find interesting:

 $ tplist -l pthread     # list probes in libpthread
 /lib64/libpthread.so.0 libpthread:pthread_start
 /lib64/libpthread.so.0 libpthread:pthread_create
 /lib64/libpthread.so.0 libpthread:pthread_join
 /lib64/libpthread.so.0 libpthread:pthread_join_ret
 /lib64/libpthread.so.0 libpthread:mutex_init
 ... more output truncated

 $ tplist -l c           # list probes in libc
 /lib64/libc.so.6 libc:setjmp
 /lib64/libc.so.6 libc:longjmp
 /lib64/libc.so.6 libc:longjmp_target
 /lib64/libc.so.6 libc:memory_arena_reuse_free_list
 /lib64/libc.so.6 libc:memory_heap_new
 ... more output truncated

 tplist also understands kernel tracepoints, and can list their format
 as well. For example, let's look for all block I/O-related tracepoints:

 # tplist 'block*'
 block:block_touch_buffer
 block:block_dirty_buffer
 block:block_rq_abort
 block:block_rq_requeue
 block:block_rq_complete
 block:block_rq_insert
 block:block_rq_issue
 block:block_bio_bounce
 block:block_bio_complete
 block:block_bio_backmerge
 block:block_bio_frontmerge
 block:block_bio_queue
 block:block_getrq
 block:block_sleeprq
 block:block_plug
 block:block_unplug
 block:block_split
 block:block_bio_remap
 block:block_rq_remap

 The block:block_rq_complete tracepoints sounds interesting. Let's print
 its format to see what we can trace with argdist and trace:

 $ tplist -v block:block_rq_complete
 block:block_rq_complete
     dev_t dev;
     sector_t sector;
     unsigned int nr_sector;
     int errors;
     char rwbs[8];

 The dev, sector, nr_sector, etc. variables can now all be used in probes
 you specify with argdist or trace.


 For debugging USDT probes, it is sometimes useful to see the exact locations
 and arguments of the probes, including the registers or global variables from
 which their values are coming from. In super-verbose mode, tplist will print
 this information (note the -vv):

 $ tplist -vv -l c *alloc*
 libc:memory_malloc_retry [sema 0x0]
   location #0 /lib64/libc.so.6 0x835c0
     argument #0 8 unsigned bytes @ bp
   location #1 /lib64/libc.so.6 0x83778
     argument #0 8 unsigned bytes @ bp
   location #2 /lib64/libc.so.6 0x85a50
     argument #0 8 unsigned bytes @ bp
 libc:memory_realloc_retry [sema 0x0]
   location #0 /lib64/libc.so.6 0x84b90
     argument #0 8 unsigned bytes @ r13
     argument #1 8 unsigned bytes @ bp
   location #1 /lib64/libc.so.6 0x85cf0
     argument #0 8 unsigned bytes @ r13
     argument #1 8 unsigned bytes @ bp
 libc:memory_calloc_retry [sema 0x0]
   location #0 /lib64/libc.so.6 0x850f0
     argument #0 8 unsigned bytes @ bp


 USAGE message:

 $ tplist -h
 usage: tplist.py [-h] [-p PID] [-l LIB] [-v] [filter]

 Display kernel tracepoints or USDT probes and their formats.

 positional arguments:
   filter             A filter that specifies which probes/tracepoints to print

 optional arguments:
   -h, --help         show this help message and exit
   -p PID, --pid PID  List USDT probes in the specified process
   -l LIB, --lib LIB  List USDT probes in the specified library or executable
   -v                 Increase verbosity level (print variables, arguments, etc.)
	Demonstrations of tplist.


	tplist displays kernel tracepoints and USDT probes, including their
	format. It can be used to discover probe points for use with the trace
	and argdist tools. Kernel tracepoints are scattered around the kernel
	and provide valuable static tracing on block and network I/O, scheduling,
	power events, and many other subjects. USDT probes are placed in libraries
	(such as libc) and executables (such as node) and provide static tracing
	information that can (optionally) be turned on and off at runtime.

	For example, suppose you want to discover which USDT probes a particular
	executable contains. Just run tplist on that executable (or library):

	$ tplist -l basic_usdt
	/home/vagrant/basic_usdt basic_usdt:start_main
	/home/vagrant/basic_usdt basic_usdt:loop_iter
	/home/vagrant/basic_usdt basic_usdt:end_main

	The loop_iter probe sounds interesting. How many arguments are available?

	$ tplist '*loop_iter' -l basic_usdt -v
	basic_usdt:loop_iter [sema 0x601036]
	2 location(s)
	2 argument(s)

	This output indicates that the loop_iter probe is used in two locations
	in the basic_usdt executable, and that it has two arguments. Fortunately,
	the argdist and trace tools understand the probe format and can print out
	the arguments automatically -- you can refer to them as arg1, arg2, and
	so on.

	Try to explore with some common libraries on your system and see if they
	contain UDST probes. Here are two examples you might find interesting:

	$ tplist -l pthread # list probes in libpthread
	/lib64/libpthread.so.0 libpthread:pthread_start
	/lib64/libpthread.so.0 libpthread:pthread_create
	/lib64/libpthread.so.0 libpthread:pthread_join
	/lib64/libpthread.so.0 libpthread:pthread_join_ret
	/lib64/libpthread.so.0 libpthread:mutex_init
	... more output truncated

	$ tplist -l c # list probes in libc
	/lib64/libc.so.6 libc:setjmp
	/lib64/libc.so.6 libc:longjmp
	/lib64/libc.so.6 libc:longjmp_target
	/lib64/libc.so.6 libc:memory_arena_reuse_free_list
	/lib64/libc.so.6 libc:memory_heap_new
	... more output truncated

	tplist also understands kernel tracepoints, and can list their format
	as well. For example, let's look for all block I/O-related tracepoints:

	# tplist 'block*'
	block:block_touch_buffer
	block:block_dirty_buffer
	block:block_rq_abort
	block:block_rq_requeue
	block:block_rq_complete
	block:block_rq_insert
	block:block_rq_issue
	block:block_bio_bounce
	block:block_bio_complete
	block:block_bio_backmerge
	block:block_bio_frontmerge
	block:block_bio_queue
	block:block_getrq
	block:block_sleeprq
	block:block_plug
	block:block_unplug
	block:block_split
	block:block_bio_remap
	block:block_rq_remap

	The block:block_rq_complete tracepoints sounds interesting. Let's print
	its format to see what we can trace with argdist and trace:

	$ tplist -v block:block_rq_complete
	block:block_rq_complete
	dev_t dev;
	sector_t sector;
	unsigned int nr_sector;
	int errors;
	char rwbs[8];

	The dev, sector, nr_sector, etc. variables can now all be used in probes
	you specify with argdist or trace.


	For debugging USDT probes, it is sometimes useful to see the exact locations
	and arguments of the probes, including the registers or global variables from
	which their values are coming from. In super-verbose mode, tplist will print
	this information (note the -vv):

	$ tplist -vv -l c alloc
	libc:memory_malloc_retry [sema 0x0]
	location #0 /lib64/libc.so.6 0x835c0
	argument #0 8 unsigned bytes @ bp
	location #1 /lib64/libc.so.6 0x83778
	argument #0 8 unsigned bytes @ bp
	location #2 /lib64/libc.so.6 0x85a50
	argument #0 8 unsigned bytes @ bp
	libc:memory_realloc_retry [sema 0x0]
	location #0 /lib64/libc.so.6 0x84b90
	argument #0 8 unsigned bytes @ r13
	argument #1 8 unsigned bytes @ bp
	location #1 /lib64/libc.so.6 0x85cf0
	argument #0 8 unsigned bytes @ r13
	argument #1 8 unsigned bytes @ bp
	libc:memory_calloc_retry [sema 0x0]
	location #0 /lib64/libc.so.6 0x850f0
	argument #0 8 unsigned bytes @ bp


	USAGE message:

	$ tplist -h
	usage: tplist.py [-h] [-p PID] [-l LIB] [-v] [filter]

	Display kernel tracepoints or USDT probes and their formats.

	positional arguments:
	filter A filter that specifies which probes/tracepoints to print

	optional arguments:
	-h, --help show this help message and exit
	-p PID, --pid PID List USDT probes in the specified process
	-l LIB, --lib LIB List USDT probes in the specified library or executable
	-v Increase verbosity level (print variables, arguments, etc.)