Provided by: perf-tools-unstable_1.0+git7ffb3fd-1ubuntu1_all 
NAME
uprobe - trace a given uprobe definition. User-level dynamic tracing. Uses Linux ftrace.
EXPERIMENTAL.
SYNOPSIS
uprobe [-FhHsv] [-d secs] [-p PID] [-L TID] {-l target | uprobe_definition [filter]}
DESCRIPTION
This will create, trace, then destroy a given uprobe definition. See
Documentation/trace/uprobetracer.txt in the Linux kernel source for the syntax of a uprobe
definition, and "uprobe -h" for examples. With this tool, the probe alias is optional (it
will default to something meaningful).
WARNING: This uses dynamic tracing of user-level functions, using some relatively new
kernel code. I have seen this cause target processes to fail, either entering endless spin
loops or crashing on illegal instructions. I believe newer kernels (post 4.0) are
relatively safer, but use caution. Test in a lab environment, and know what you are doing,
before use. Also consider other (more developed) user-level tracers (perf_events, LTTng,
etc.).
Use extreme caution with the raw address mode: eg, "p:libc:0xbf130". uprobe does not check
for instruction alignment, so tracing the wrong address (eg, mid-way through a multi-byte
instruction) will corrupt the target's memory. Other tracers (eg, perf_events with
debuginfo) check alignment.
Also beware of widespread tracing that interferes with the operation of the system, eg,
tracing libc:malloc, which by-default will trace _all_ processes.
I wrote this because I kept testing different custom uprobes at the command line, and
wanted a way to automate the steps. For generic user-level tracing, use perf_events
directly.
Since this uses ftrace, only the root user can use this tool.
REQUIREMENTS
REQUIREMENTS: FTRACE and UPROBE CONFIG, which you may already have on recent kernel
versions, file(1), ldconfig(8), objdump(1), and some version of awk. Also, currently only
executes on Linux 4.0+ (see WARNING) unless -F is used.
OPTIONS
-F Force. Trace despite kernel version warnings. Use on older kernels may expose you
to (since fixed) bugs, which can lock up or crash target processes, which could
also lock up the entire system. Test in a lab environment before use, and consider
other more developed user-level tracers (perf_events, LTTng, etc.).
-d seconds
Set the duration of tracing, in seconds. Trace output will be buffered and printed
at the end. This also reduces overheads by buffering in-kernel, instead of printing
events as they occur.
The ftrace buffer has a fixed size per-CPU (see
/sys/kernel/debug/tracing/buffer_size_kb). If you think events are missing, try
increasing that size.
-h Print usage message.
-H Print column headers.
-s Print user-level stack traces after each event. These are currently printed in hex,
and need post-processing to see user-level symbols (eg, addr2line; I should
automate that).
-v Show the uprobe format file only (do not trace), identifying possible variables for
use in a custom filter.
-p PID Only trace user-level functions when this process ID is on-CPU.
-L TID Only trace user-level functions when this thread ID is on-CPU.
uprobe_definition
A full uprobe definition, as documented by Documentation/trace/uprobetracer.txt in
the Linux kernel source. Note that the probe alias name is optional with uprobe(8),
and if not specified, it will default to something meaningful. See the EXAMPLES
section.
filter An ftrace filter definition.
EXAMPLES
These examples may need modification to match your target software function names and
platform's register usage. If using platform specific registers becomes too painful in
practice, consider a debuginfo-based tracer, which can trace variables names instead (eg,
perf_events).
trace readline() calls in all running "bash" executables:
# uprobe p:bash:readline
trace readline() with explicit executable path:
# uprobe p:/bin/bash:readline
trace the return of readline() with return value as a string:
# uprobe 'r:bash:readline +0($retval):string'
trace sleep() calls in all running libc shared libraries:
# uprobe p:libc:sleep
trace sleep() with register %di (x86):
# uprobe 'p:libc:sleep %di'
trace this address (use caution: must be instruction aligned):
# uprobe p:libc:0xbf130
trace gettimeofday() for PID 1182 only:
# uprobe -p 1182 p:libc:gettimeofday
trace the return of fopen() only when it returns NULL:
# uprobe 'r:libc:fopen file=$retval' 'file == 0'
FIELDS
The output format depends on the kernel version, and headings can be printed using -H. The
format is the same as the ftrace function trace format, described in the kernel source
under Documentation/trace/ftrace.txt.
Typical fields are:
TASK-PID
The process name (which could include dashes), a dash, and the process ID.
CPU# The CPU ID, in brackets.
|||| Kernel state flags. For example, on Linux 3.16 these are for irqs-off, need-
resched, hardirq/softirq, and preempt-depth.
TIMESTAMP
Time of event, in seconds.
FUNCTION
User-level function name.
OVERHEAD
This can generate a lot of trace data quickly, depending on the frequency of the traced
events. Such data will cause performance overheads. This also works without buffering by
default, printing function events as they happen (uses trace_pipe), context switching and
consuming CPU to do so. If needed, you can try the "-d secs" option, which buffers events
instead, reducing overhead. If you think the buffer option is losing events, try
increasing the buffer size (buffer_size_kb).
If you find a use for uprobe(8) where the overhead is prohibitive, consider the same
enabling using perf_events where overhead should be reduced.
SOURCE
This is from the perf-tools collection:
https://github.com/brendangregg/perf-tools
Also look under the examples directory for a text file containing example usage, output,
and commentary for this tool.
OS
Linux
STABILITY
Unstable - in development.
AUTHOR
Brendan Gregg
SEE ALSO
kprobe(8)