forked from luck/tmp_suning_uos_patched
[PATCH] kprobes: Update Documentation/kprobes.txt
Update Documentation/kprobes.txt to reflect Kprobes enhancements and other recent developments. Acked-by: Ananth Mavinakayanahalli <mananth@in.ibm.com> Signed-off-by: Jim Keniston <jkenisto@us.ibm.com> Signed-off-by: Andrew Morton <akpm@osdl.org> Signed-off-by: Linus Torvalds <torvalds@osdl.org>
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@ -136,17 +136,20 @@ Kprobes, jprobes, and return probes are implemented on the following
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architectures:
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- i386
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- x86_64 (AMD-64, E64MT)
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- x86_64 (AMD-64, EM64T)
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- ppc64
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- ia64 (Support for probes on certain instruction types is still in progress.)
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- ia64 (Does not support probes on instruction slot1.)
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- sparc64 (Return probes not yet implemented.)
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3. Configuring Kprobes
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When configuring the kernel using make menuconfig/xconfig/oldconfig,
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ensure that CONFIG_KPROBES is set to "y". Under "Kernel hacking",
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look for "Kprobes". You may have to enable "Kernel debugging"
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(CONFIG_DEBUG_KERNEL) before you can enable Kprobes.
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ensure that CONFIG_KPROBES is set to "y". Under "Instrumentation
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Support", look for "Kprobes".
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So that you can load and unload Kprobes-based instrumentation modules,
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make sure "Loadable module support" (CONFIG_MODULES) and "Module
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unloading" (CONFIG_MODULE_UNLOAD) are set to "y".
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You may also want to ensure that CONFIG_KALLSYMS and perhaps even
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CONFIG_KALLSYMS_ALL are set to "y", since kallsyms_lookup_name()
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@ -262,18 +265,18 @@ at any time after the probe has been registered.
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5. Kprobes Features and Limitations
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As of Linux v2.6.12, Kprobes allows multiple probes at the same
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address. Currently, however, there cannot be multiple jprobes on
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the same function at the same time.
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Kprobes allows multiple probes at the same address. Currently,
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however, there cannot be multiple jprobes on the same function at
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the same time.
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In general, you can install a probe anywhere in the kernel.
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In particular, you can probe interrupt handlers. Known exceptions
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are discussed in this section.
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For obvious reasons, it's a bad idea to install a probe in
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the code that implements Kprobes (mostly kernel/kprobes.c and
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arch/*/kernel/kprobes.c). A patch in the v2.6.13 timeframe instructs
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Kprobes to reject such requests.
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The register_*probe functions will return -EINVAL if you attempt
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to install a probe in the code that implements Kprobes (mostly
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kernel/kprobes.c and arch/*/kernel/kprobes.c, but also functions such
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as do_page_fault and notifier_call_chain).
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If you install a probe in an inline-able function, Kprobes makes
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no attempt to chase down all inline instances of the function and
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@ -290,18 +293,14 @@ from the accidental ones. Don't drink and probe.
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Kprobes makes no attempt to prevent probe handlers from stepping on
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each other -- e.g., probing printk() and then calling printk() from a
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probe handler. As of Linux v2.6.12, if a probe handler hits a probe,
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that second probe's handlers won't be run in that instance.
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probe handler. If a probe handler hits a probe, that second probe's
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handlers won't be run in that instance, and the kprobe.nmissed member
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of the second probe will be incremented.
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In Linux v2.6.12 and previous versions, Kprobes' data structures are
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protected by a single lock that is held during probe registration and
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unregistration and while handlers are run. Thus, no two handlers
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can run simultaneously. To improve scalability on SMP systems,
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this restriction will probably be removed soon, in which case
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multiple handlers (or multiple instances of the same handler) may
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run concurrently on different CPUs. Code your handlers accordingly.
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As of Linux v2.6.15-rc1, multiple handlers (or multiple instances of
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the same handler) may run concurrently on different CPUs.
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Kprobes does not use semaphores or allocate memory except during
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Kprobes does not use mutexes or allocate memory except during
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registration and unregistration.
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Probe handlers are run with preemption disabled. Depending on the
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@ -316,11 +315,18 @@ address instead of the real return address for kretprobed functions.
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(As far as we can tell, __builtin_return_address() is used only
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for instrumentation and error reporting.)
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If the number of times a function is called does not match the
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number of times it returns, registering a return probe on that
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function may produce undesirable results. We have the do_exit()
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and do_execve() cases covered. do_fork() is not an issue. We're
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unaware of other specific cases where this could be a problem.
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If the number of times a function is called does not match the number
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of times it returns, registering a return probe on that function may
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produce undesirable results. We have the do_exit() case covered.
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do_execve() and do_fork() are not an issue. We're unaware of other
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specific cases where this could be a problem.
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If, upon entry to or exit from a function, the CPU is running on
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a stack other than that of the current task, registering a return
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probe on that function may produce undesirable results. For this
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reason, Kprobes doesn't support return probes (or kprobes or jprobes)
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on the x86_64 version of __switch_to(); the registration functions
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return -EINVAL.
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6. Probe Overhead
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@ -347,14 +353,12 @@ k = 0.77 usec; j = 1.31; r = 1.26; kr = 1.45; jr = 1.99
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7. TODO
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a. SystemTap (http://sourceware.org/systemtap): Work in progress
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to provide a simplified programming interface for probe-based
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instrumentation.
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b. Improved SMP scalability: Currently, work is in progress to handle
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multiple kprobes in parallel.
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c. Kernel return probes for sparc64.
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d. Support for other architectures.
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e. User-space probes.
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a. SystemTap (http://sourceware.org/systemtap): Provides a simplified
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programming interface for probe-based instrumentation. Try it out.
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b. Kernel return probes for sparc64.
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c. Support for other architectures.
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d. User-space probes.
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e. Watchpoint probes (which fire on data references).
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8. Kprobes Example
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@ -411,8 +415,7 @@ int init_module(void)
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printk("Couldn't find %s to plant kprobe\n", "do_fork");
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return -1;
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}
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ret = register_kprobe(&kp);
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if (ret < 0) {
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if ((ret = register_kprobe(&kp) < 0)) {
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printk("register_kprobe failed, returned %d\n", ret);
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return -1;
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}
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