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author | Masami Hiramatsu <mhiramat@kernel.org> | 2017-10-06 08:16:37 +0900 |
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committer | Ingo Molnar <mingo@kernel.org> | 2017-10-20 11:02:55 +0200 |
commit | 9b17374e11c7ce2cf0b2b990fa4aa0360921aa2b (patch) | |
tree | 21e9e3899485ef3f1262650e3be5cb245aa070d5 /Documentation/kprobes.txt | |
parent | 9be95bdc53c12ada23e39027237fd05e1393d893 (diff) | |
download | linux-9b17374e11c7ce2cf0b2b990fa4aa0360921aa2b.tar.gz linux-9b17374e11c7ce2cf0b2b990fa4aa0360921aa2b.tar.bz2 linux-9b17374e11c7ce2cf0b2b990fa4aa0360921aa2b.zip |
kprobes/docs: Remove jprobes related documents
Remove jprobes related documentation from kprobes.txt.
Also add some migration advice for the people who are
still using jprobes.
Signed-off-by: Masami Hiramatsu <mhiramat@kernel.org>
Cc: Alexei Starovoitov <ast@kernel.org>
Cc: Ananth N Mavinakayanahalli <ananth@linux.vnet.ibm.com>
Cc: Anil S Keshavamurthy <anil.s.keshavamurthy@intel.com>
Cc: David S . Miller <davem@davemloft.net>
Cc: Ian McDonald <ian.mcdonald@jandi.co.nz>
Cc: Kees Cook <keescook@chromium.org>
Cc: Linus Torvalds <torvalds@linux-foundation.org>
Cc: Paul E . McKenney <paulmck@linux.vnet.ibm.com>
Cc: Peter Zijlstra <peterz@infradead.org>
Cc: Stephen Hemminger <stephen@networkplumber.org>
Cc: Steven Rostedt <rostedt@goodmis.org>
Cc: Thomas Gleixner <tglx@linutronix.de>
Cc: Vlad Yasevich <vyasevich@gmail.com>
Link: http://lkml.kernel.org/r/150724539698.5014.7300022363980503141.stgit@devbox
[ Fixes to the new documentation. ]
Signed-off-by: Ingo Molnar <mingo@kernel.org>
Diffstat (limited to 'Documentation/kprobes.txt')
-rw-r--r-- | Documentation/kprobes.txt | 159 |
1 files changed, 57 insertions, 102 deletions
diff --git a/Documentation/kprobes.txt b/Documentation/kprobes.txt index 2335715bf471..22208bf2386d 100644 --- a/Documentation/kprobes.txt +++ b/Documentation/kprobes.txt @@ -8,7 +8,7 @@ Kernel Probes (Kprobes) .. CONTENTS - 1. Concepts: Kprobes, Jprobes, Return Probes + 1. Concepts: Kprobes, and Return Probes 2. Architectures Supported 3. Configuring Kprobes 4. API Reference @@ -16,12 +16,12 @@ Kernel Probes (Kprobes) 6. Probe Overhead 7. TODO 8. Kprobes Example - 9. Jprobes Example - 10. Kretprobes Example + 9. Kretprobes Example + 10. Deprecated Features Appendix A: The kprobes debugfs interface Appendix B: The kprobes sysctl interface -Concepts: Kprobes, Jprobes, Return Probes +Concepts: Kprobes and Return Probes ========================================= Kprobes enables you to dynamically break into any kernel routine and @@ -32,12 +32,10 @@ routine to be invoked when the breakpoint is hit. .. [1] some parts of the kernel code can not be trapped, see :ref:`kprobes_blacklist`) -There are currently three types of probes: kprobes, jprobes, and -kretprobes (also called return probes). A kprobe can be inserted -on virtually any instruction in the kernel. A jprobe is inserted at -the entry to a kernel function, and provides convenient access to the -function's arguments. A return probe fires when a specified function -returns. +There are currently two types of probes: kprobes, and kretprobes +(also called return probes). A kprobe can be inserted on virtually +any instruction in the kernel. A return probe fires when a specified +function returns. In the typical case, Kprobes-based instrumentation is packaged as a kernel module. The module's init function installs ("registers") @@ -82,45 +80,6 @@ After the instruction is single-stepped, Kprobes executes the "post_handler," if any, that is associated with the kprobe. Execution then continues with the instruction following the probepoint. -How Does a Jprobe Work? ------------------------ - -A jprobe is implemented using a kprobe that is placed on a function's -entry point. It employs a simple mirroring principle to allow -seamless access to the probed function's arguments. The jprobe -handler routine should have the same signature (arg list and return -type) as the function being probed, and must always end by calling -the Kprobes function jprobe_return(). - -Here's how it works. When the probe is hit, Kprobes makes a copy of -the saved registers and a generous portion of the stack (see below). -Kprobes then points the saved instruction pointer at the jprobe's -handler routine, and returns from the trap. As a result, control -passes to the handler, which is presented with the same register and -stack contents as the probed function. When it is done, the handler -calls jprobe_return(), which traps again to restore the original stack -contents and processor state and switch to the probed function. - -By convention, the callee owns its arguments, so gcc may produce code -that unexpectedly modifies that portion of the stack. This is why -Kprobes saves a copy of the stack and restores it after the jprobe -handler has run. Up to MAX_STACK_SIZE bytes are copied -- e.g., -64 bytes on i386. - -Note that the probed function's args may be passed on the stack -or in registers. The jprobe will work in either case, so long as the -handler's prototype matches that of the probed function. - -Note that in some architectures (e.g.: arm64 and sparc64) the stack -copy is not done, as the actual location of stacked parameters may be -outside of a reasonable MAX_STACK_SIZE value and because that location -cannot be determined by the jprobes code. In this case the jprobes -user must be careful to make certain the calling signature of the -function does not cause parameters to be passed on the stack (e.g.: -more than eight function arguments, an argument of more than sixteen -bytes, or more than 64 bytes of argument data, depending on -architecture). - Return Probes ------------- @@ -245,8 +204,7 @@ Pre-optimization After preparing the detour buffer, Kprobes verifies that none of the following situations exist: -- The probe has either a break_handler (i.e., it's a jprobe) or a - post_handler. +- The probe has a post_handler. - Other instructions in the optimized region are probed. - The probe is disabled. @@ -331,7 +289,7 @@ rejects registering it, if the given address is in the blacklist. Architectures Supported ======================= -Kprobes, jprobes, and return probes are implemented on the following +Kprobes and return probes are implemented on the following architectures: - i386 (Supports jump optimization) @@ -446,27 +404,6 @@ architecture-specific trap number associated with the fault (e.g., on i386, 13 for a general protection fault or 14 for a page fault). Returns 1 if it successfully handled the exception. -register_jprobe ---------------- - -:: - - #include <linux/kprobes.h> - int register_jprobe(struct jprobe *jp) - -Sets a breakpoint at the address jp->kp.addr, which must be the address -of the first instruction of a function. When the breakpoint is hit, -Kprobes runs the handler whose address is jp->entry. - -The handler should have the same arg list and return type as the probed -function; and just before it returns, it must call jprobe_return(). -(The handler never actually returns, since jprobe_return() returns -control to Kprobes.) If the probed function is declared asmlinkage -or anything else that affects how args are passed, the handler's -declaration must match. - -register_jprobe() returns 0 on success, or a negative errno otherwise. - register_kretprobe ------------------ @@ -513,7 +450,6 @@ unregister_*probe #include <linux/kprobes.h> void unregister_kprobe(struct kprobe *kp); - void unregister_jprobe(struct jprobe *jp); void unregister_kretprobe(struct kretprobe *rp); Removes the specified probe. The unregister function can be called @@ -532,7 +468,6 @@ register_*probes #include <linux/kprobes.h> int register_kprobes(struct kprobe **kps, int num); int register_kretprobes(struct kretprobe **rps, int num); - int register_jprobes(struct jprobe **jps, int num); Registers each of the num probes in the specified array. If any error occurs during registration, all probes in the array, up to @@ -555,7 +490,6 @@ unregister_*probes #include <linux/kprobes.h> void unregister_kprobes(struct kprobe **kps, int num); void unregister_kretprobes(struct kretprobe **rps, int num); - void unregister_jprobes(struct jprobe **jps, int num); Removes each of the num probes in the specified array at once. @@ -574,7 +508,6 @@ disable_*probe #include <linux/kprobes.h> int disable_kprobe(struct kprobe *kp); int disable_kretprobe(struct kretprobe *rp); - int disable_jprobe(struct jprobe *jp); Temporarily disables the specified ``*probe``. You can enable it again by using enable_*probe(). You must specify the probe which has been registered. @@ -587,7 +520,6 @@ enable_*probe #include <linux/kprobes.h> int enable_kprobe(struct kprobe *kp); int enable_kretprobe(struct kretprobe *rp); - int enable_jprobe(struct jprobe *jp); Enables ``*probe`` which has been disabled by disable_*probe(). You must specify the probe which has been registered. @@ -595,12 +527,10 @@ the probe which has been registered. Kprobes Features and Limitations ================================ -Kprobes allows multiple probes at the same address. Currently, -however, there cannot be multiple jprobes on the same function at -the same time. Also, a probepoint for which there is a jprobe or -a post_handler cannot be optimized. So if you install a jprobe, -or a kprobe with a post_handler, at an optimized probepoint, the -probepoint will be unoptimized automatically. +Kprobes allows multiple probes at the same address. Also, +a probepoint for which there is a post_handler cannot be optimized. +So if you install a kprobe with a post_handler, at an optimized +probepoint, the probepoint will be unoptimized automatically. In general, you can install a probe anywhere in the kernel. In particular, you can probe interrupt handlers. Known exceptions @@ -662,7 +592,7 @@ We're unaware of other specific cases where this could be a problem. If, upon entry to or exit from a function, the CPU is running on a stack other than that of the current task, registering a return probe on that function may produce undesirable results. For this -reason, Kprobes doesn't support return probes (or kprobes or jprobes) +reason, Kprobes doesn't support return probes (or kprobes) on the x86_64 version of __switch_to(); the registration functions return -EINVAL. @@ -706,24 +636,24 @@ Probe Overhead On a typical CPU in use in 2005, a kprobe hit takes 0.5 to 1.0 microseconds to process. Specifically, a benchmark that hits the same probepoint repeatedly, firing a simple handler each time, reports 1-2 -million hits per second, depending on the architecture. A jprobe or -return-probe hit typically takes 50-75% longer than a kprobe hit. +million hits per second, depending on the architecture. A return-probe +hit typically takes 50-75% longer than a kprobe hit. When you have a return probe set on a function, adding a kprobe at the entry to that function adds essentially no overhead. Here are sample overhead figures (in usec) for different architectures:: - k = kprobe; j = jprobe; r = return probe; kr = kprobe + return probe - on same function; jr = jprobe + return probe on same function:: + k = kprobe; r = return probe; kr = kprobe + return probe + on same function i386: Intel Pentium M, 1495 MHz, 2957.31 bogomips - k = 0.57 usec; j = 1.00; r = 0.92; kr = 0.99; jr = 1.40 + k = 0.57 usec; r = 0.92; kr = 0.99 x86_64: AMD Opteron 246, 1994 MHz, 3971.48 bogomips - k = 0.49 usec; j = 0.76; r = 0.80; kr = 0.82; jr = 1.07 + k = 0.49 usec; r = 0.80; kr = 0.82 ppc64: POWER5 (gr), 1656 MHz (SMT disabled, 1 virtual CPU per physical CPU) - k = 0.77 usec; j = 1.31; r = 1.26; kr = 1.45; jr = 1.99 + k = 0.77 usec; r = 1.26; kr = 1.45 Optimized Probe Overhead ------------------------ @@ -755,11 +685,6 @@ Kprobes Example See samples/kprobes/kprobe_example.c -Jprobes Example -=============== - -See samples/kprobes/jprobe_example.c - Kretprobes Example ================== @@ -772,6 +697,37 @@ For additional information on Kprobes, refer to the following URLs: - http://www-users.cs.umn.edu/~boutcher/kprobes/ - http://www.linuxsymposium.org/2006/linuxsymposium_procv2.pdf (pages 101-115) +Deprecated Features +=================== + +Jprobes is now a deprecated feature. People who are depending on it should +migrate to other tracing features or use older kernels. Please consider to +migrate your tool to one of the following options: + +- Use trace-event to trace target function with arguments. + + trace-event is a low-overhead (and almost no visible overhead if it + is off) statically defined event interface. You can define new events + and trace it via ftrace or any other tracing tools. + + See the following urls: + + - https://lwn.net/Articles/379903/ + - https://lwn.net/Articles/381064/ + - https://lwn.net/Articles/383362/ + +- Use ftrace dynamic events (kprobe event) with perf-probe. + + If you build your kernel with debug info (CONFIG_DEBUG_INFO=y), you can + find which register/stack is assigned to which local variable or arguments + by using perf-probe and set up new event to trace it. + + See following documents: + + - Documentation/trace/kprobetrace.txt + - Documentation/trace/events.txt + - tools/perf/Documentation/perf-probe.txt + The kprobes debugfs interface ============================= @@ -783,14 +739,13 @@ under the /sys/kernel/debug/kprobes/ directory (assuming debugfs is mounted at / /sys/kernel/debug/kprobes/list: Lists all registered probes on the system:: c015d71a k vfs_read+0x0 - c011a316 j do_fork+0x0 c03dedc5 r tcp_v4_rcv+0x0 The first column provides the kernel address where the probe is inserted. -The second column identifies the type of probe (k - kprobe, r - kretprobe -and j - jprobe), while the third column specifies the symbol+offset of -the probe. If the probed function belongs to a module, the module name -is also specified. Following columns show probe status. If the probe is on +The second column identifies the type of probe (k - kprobe and r - kretprobe) +while the third column specifies the symbol+offset of the probe. +If the probed function belongs to a module, the module name is also +specified. Following columns show probe status. If the probe is on a virtual address that is no longer valid (module init sections, module virtual addresses that correspond to modules that've been unloaded), such probes are marked with [GONE]. If the probe is temporarily disabled, |