A New Scripting Dynamic Tracing Tool For Linux
KTAP is a new scripting dynamic tracing tool for Linux, it uses a scripting language and lets users trace the Linux kernel dynamically. KTAP is designed to give operational insights with interoperability that allow users to tune, troubleshoot and extend kernel and application. It's similar with Linux Systemtap and Solaris Dtrace.
KTAP have different design principles from Linux mainstream dynamic tracing language in that it's based on bytecode, so it doesn't depend upon GCC, doesn't require compiling kernel module for each script, safe to use in production environment, fulfilling the embedded ecosystem's tracing needs.
More information can be found at doc/ directory.
- simple but powerful script language
- register based interpreter(heavy optimized) in Linux kernel
- small and lightweight(6KLOC of interpreter)
- not depend on gcc for each script running
- easy to use in embedded environment without debugging info
- support static tracepoint, k(ret)probe, u(ret)probe, function trace, timer, backtrace and more
- supported in x86, arm, ppc, mips
- safety in sandbox
-
Clone ktap from github
[root@jovi]# git clone http://github.com/ktap/ktap.git
-
Compiling ktap
[root@jovi]# cd ktap [root@jovi]# make #generate ktapvm kernel module and ktap binary
-
Load ktapvm kernel module(make sure debugfs mounted)
[root@jovi]# make load #need to be root or have sudo access
-
Running ktap
[root@jovi]# ./ktap scripts/helloworld.kp
-
simplest one-liner command to enable all tracepoints
ktap -e "trace : { print(argevent) }"
-
syscall tracing on target process
ktap -e "trace syscalls:* { print(argevent) }" -- ls
-
function tracing
ktap -e "trace ftrace:function { print(argevent) }"
ktap -e "trace ftrace:function /ip==mutex*/ { print(argevent) }"
-
simple syscall tracing
#scripts/syscalls.kp trace syscalls:* { print(cpu(), pid(), execname(), argevent) }
-
syscall tracing in histogram style
#scripts/syscalls_histogram.kp hist = {}
trace syscalls:sys_enter_* { table_count(hist, argname) }
trace_end { histogram(hist) }
-
kprobe tracing
#scripts/kprobes-do-sys-open.kp trace probe:do_sys_open dfd=%di fname=%dx flags=%cx mode=+4($stack) { print("entry:", execname(), argevent) }
trace probe:do_sys_open%return fd=$retval { print("exit:", execname(), argevent) }
-
uprobe tracing
#scripts/uprobes-malloc.kp #do not use 0x000773c0 in your system, #you need to calculate libc malloc symbol offset in your own system. #symbol resolve will support in future
trace probe:/lib/libc.so.6:0x000773c0 { print("entry:", execname(), argevent) }
trace probe:/lib/libc.so.6:0x000773c0%return { print("exit:", execname(), argevent) }
-
timer
tick-1ms { printf("time fired on one cpu\n"); }
profile-2s { printf("time fired on every cpu\n"); }
ktap@freelists.org
You can subscribe KTAP mailing list at link(subscribe before posting):
http://www.freelists.org/list/ktap
ktap is licensed under GPL v2
Copyright (C) 2012-2013 The ktap Project Developers. All rights reserved.
Author: zhangwei(Jovi) jovi.zhangwei@gmail.com
KTAP is still under active development, so contributions are welcome. You are encouraged to report bugs, provide feedback, send feature request, or hack on it.
Some presentations of ktap is available in doc/references.txt