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2024-09-09 08:52:07 +00:00
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5
kernel/samples/kprobes/Makefile Normal file
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# builds the kprobes example kernel modules;
# then to use one (as root): insmod <module_name.ko>
obj-$(CONFIG_SAMPLE_KPROBES) += kprobe_example.o jprobe_example.o
obj-$(CONFIG_SAMPLE_KRETPROBES) += kretprobe_example.o

68
kernel/samples/kprobes/jprobe_example.c Normal file
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/*
* Here's a sample kernel module showing the use of jprobes to dump
* the arguments of do_fork().
*
* For more information on theory of operation of jprobes, see
* Documentation/kprobes.txt
*
* Build and insert the kernel module as done in the kprobe example.
* You will see the trace data in /var/log/messages and on the
* console whenever do_fork() is invoked to create a new process.
* (Some messages may be suppressed if syslogd is configured to
* eliminate duplicate messages.)
*/
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/kprobes.h>
/*
* Jumper probe for do_fork.
* Mirror principle enables access to arguments of the probed routine
* from the probe handler.
*/
/* Proxy routine having the same arguments as actual do_fork() routine */
static long jdo_fork(unsigned long clone_flags, unsigned long stack_start,
struct pt_regs *regs, unsigned long stack_size,
int __user *parent_tidptr, int __user *child_tidptr)
{
printk(KERN_INFO "jprobe: clone_flags = 0x%lx, stack_size = 0x%lx,"
" regs = 0x%p\n",
clone_flags, stack_size, regs);
/* Always end with a call to jprobe_return(). */
jprobe_return();
return 0;
}
static struct jprobe my_jprobe = {
.entry = jdo_fork,
.kp = {
.symbol_name = "do_fork",
},
};
static int __init jprobe_init(void)
{
int ret;
ret = register_jprobe(&my_jprobe);
if (ret < 0) {
printk(KERN_INFO "register_jprobe failed, returned %d\n", ret);
return -1;
}
printk(KERN_INFO "Planted jprobe at %p, handler addr %p\n",
my_jprobe.kp.addr, my_jprobe.entry);
return 0;
}
static void __exit jprobe_exit(void)
{
unregister_jprobe(&my_jprobe);
printk(KERN_INFO "jprobe at %p unregistered\n", my_jprobe.kp.addr);
}
module_init(jprobe_init)
module_exit(jprobe_exit)
MODULE_LICENSE("GPL");

100
kernel/samples/kprobes/kprobe_example.c Normal file
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/*
* NOTE: This example is works on x86 and powerpc.
* Here's a sample kernel module showing the use of kprobes to dump a
* stack trace and selected registers when do_fork() is called.
*
* For more information on theory of operation of kprobes, see
* Documentation/kprobes.txt
*
* You will see the trace data in /var/log/messages and on the console
* whenever do_fork() is invoked to create a new process.
*/
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/kprobes.h>
/* For each probe you need to allocate a kprobe structure */
static struct kprobe kp = {
.symbol_name = "do_fork",
};
/* kprobe pre_handler: called just before the probed instruction is executed */
static int handler_pre(struct kprobe *p, struct pt_regs *regs)
{
#ifdef CONFIG_X86
printk(KERN_INFO "pre_handler: p->addr = 0x%p, ip = %lx,"
" flags = 0x%lx\n",
p->addr, regs->ip, regs->flags);
#endif
#ifdef CONFIG_PPC
printk(KERN_INFO "pre_handler: p->addr = 0x%p, nip = 0x%lx,"
" msr = 0x%lx\n",
p->addr, regs->nip, regs->msr);
#endif
#ifdef CONFIG_MIPS
printk(KERN_INFO "pre_handler: p->addr = 0x%p, epc = 0x%lx,"
" status = 0x%lx\n",
p->addr, regs->cp0_epc, regs->cp0_status);
#endif
/* A dump_stack() here will give a stack backtrace */
return 0;
}
/* kprobe post_handler: called after the probed instruction is executed */
static void handler_post(struct kprobe *p, struct pt_regs *regs,
unsigned long flags)
{
#ifdef CONFIG_X86
printk(KERN_INFO "post_handler: p->addr = 0x%p, flags = 0x%lx\n",
p->addr, regs->flags);
#endif
#ifdef CONFIG_PPC
printk(KERN_INFO "post_handler: p->addr = 0x%p, msr = 0x%lx\n",
p->addr, regs->msr);
#endif
#ifdef CONFIG_MIPS
printk(KERN_INFO "post_handler: p->addr = 0x%p, status = 0x%lx\n",
p->addr, regs->cp0_status);
#endif
}
/*
* fault_handler: this is called if an exception is generated for any
* instruction within the pre- or post-handler, or when Kprobes
* single-steps the probed instruction.
*/
static int handler_fault(struct kprobe *p, struct pt_regs *regs, int trapnr)
{
printk(KERN_INFO "fault_handler: p->addr = 0x%p, trap #%dn",
p->addr, trapnr);
/* Return 0 because we don't handle the fault. */
return 0;
}
static int __init kprobe_init(void)
{
int ret;
kp.pre_handler = handler_pre;
kp.post_handler = handler_post;
kp.fault_handler = handler_fault;
ret = register_kprobe(&kp);
if (ret < 0) {
printk(KERN_INFO "register_kprobe failed, returned %d\n", ret);
return ret;
}
printk(KERN_INFO "Planted kprobe at %p\n", kp.addr);
return 0;
}
static void __exit kprobe_exit(void)
{
unregister_kprobe(&kp);
printk(KERN_INFO "kprobe at %p unregistered\n", kp.addr);
}
module_init(kprobe_init)
module_exit(kprobe_exit)
MODULE_LICENSE("GPL");

107
kernel/samples/kprobes/kretprobe_example.c Normal file
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/*
* kretprobe_example.c
*
* Here's a sample kernel module showing the use of return probes to
* report the return value and total time taken for probed function
* to run.
*
* usage: insmod kretprobe_example.ko func=<func_name>
*
* If no func_name is specified, do_fork is instrumented
*
* For more information on theory of operation of kretprobes, see
* Documentation/kprobes.txt
*
* Build and insert the kernel module as done in the kprobe example.
* You will see the trace data in /var/log/messages and on the console
* whenever the probed function returns. (Some messages may be suppressed
* if syslogd is configured to eliminate duplicate messages.)
*/
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/kprobes.h>
#include <linux/ktime.h>
#include <linux/limits.h>
#include <linux/sched.h>
static char func_name[NAME_MAX] = "do_fork";
module_param_string(func, func_name, NAME_MAX, S_IRUGO);
MODULE_PARM_DESC(func, "Function to kretprobe; this module will report the"
" function's execution time");
/* per-instance private data */
struct my_data {
ktime_t entry_stamp;
};
/* Here we use the entry_hanlder to timestamp function entry */
static int entry_handler(struct kretprobe_instance *ri, struct pt_regs *regs)
{
struct my_data *data;
if (!current->mm)
return 1; /* Skip kernel threads */
data = (struct my_data *)ri->data;
data->entry_stamp = ktime_get();
return 0;
}
/*
* Return-probe handler: Log the return value and duration. Duration may turn
* out to be zero consistently, depending upon the granularity of time
* accounting on the platform.
*/
static int ret_handler(struct kretprobe_instance *ri, struct pt_regs *regs)
{
int retval = regs_return_value(regs);
struct my_data *data = (struct my_data *)ri->data;
s64 delta;
ktime_t now;
now = ktime_get();
delta = ktime_to_ns(ktime_sub(now, data->entry_stamp));
printk(KERN_INFO "%s returned %d and took %lld ns to execute\n",
func_name, retval, (long long)delta);
return 0;
}
static struct kretprobe my_kretprobe = {
.handler = ret_handler,
.entry_handler = entry_handler,
.data_size = sizeof(struct my_data),
/* Probe up to 20 instances concurrently. */
.maxactive = 20,
};
static int __init kretprobe_init(void)
{
int ret;
my_kretprobe.kp.symbol_name = func_name;
ret = register_kretprobe(&my_kretprobe);
if (ret < 0) {
printk(KERN_INFO "register_kretprobe failed, returned %d\n",
ret);
return -1;
}
printk(KERN_INFO "Planted return probe at %s: %p\n",
my_kretprobe.kp.symbol_name, my_kretprobe.kp.addr);
return 0;
}
static void __exit kretprobe_exit(void)
{
unregister_kretprobe(&my_kretprobe);
printk(KERN_INFO "kretprobe at %p unregistered\n",
my_kretprobe.kp.addr);
/* nmissed > 0 suggests that maxactive was set too low. */
printk(KERN_INFO "Missed probing %d instances of %s\n",
my_kretprobe.nmissed, my_kretprobe.kp.symbol_name);
}
module_init(kretprobe_init)
module_exit(kretprobe_exit)
MODULE_LICENSE("GPL");