Documentation/libtracefs-kprobes.txt - platform/external/libtracefs - Git at Google

 libtracefs(3)
 =============

 NAME
 ----
 tracefs_kprobe_alloc, tracefs_kretprobe_alloc, tracefs_kprobe_raw, tracefs_kretprobe_raw -
 Allocate, get, and create kprobes

 SYNOPSIS
 --------
 [verse]
 --
 *#include <tracefs.h>*

 struct tracefs_dynevent pass:[*]
 *tracefs_kprobe_alloc*(const char pass:[*]_system_, const char pass:[*]_event_,
 		       const char pass:[*]_addr_, const char pass:[*]_format_);
 struct tracefs_dynevent pass:[*]
 *tracefs_kretprobe_alloc*(const char pass:[*]_system_, const char pass:[*]_event_,
 			  const char pass:[*]_addr_, const char pass:[*]_format_, unsigned int _max_);
 int *tracefs_kprobe_raw*(const char pass:[*]_system_, const char pass:[*]_event_,
 			 const char pass:[*]_addr_, const char pass:[*]_format_);
 int *tracefs_kretprobe_raw*(const char pass:[*]_system_, const char pass:[*]_event_,
 			    const char pass:[*]_addr_, const char pass:[*]_format_);
 --

 DESCRIPTION
 -----------
 *tracefs_kprobe_alloc*() allocates a new kprobe context. The kbrobe is not configured in the system.
 The new kprobe will be in the _system_ group (or kprobes if _system_ is NULL) and have the name of
 _event_ (or _addr_ if _event_ is NULL). The kprobe will be inserted to _addr_ (function name, with
 or without offset, or a address), and the _format_ will define the format of the kprobe. See the
 Linux documentation file under: Documentation/trace/kprobetrace.rst

 *tracefs_kretprobe_alloc*() is the same as *tracefs_kprobe_alloc*, but allocates context for
 kretprobe. It has one additional parameter, which is optional, _max_ - maxactive count.
 See description of kretprobes in the Documentation/trace/kprobetrace.rst file.

 *tracefs_kprobe_raw*() will create a kprobe event. If _system_ is NULL, then
 the default "kprobes" is used for the group (event system). Otherwise if _system_
 is specified then the kprobe will be created under the group by that name. The
 _event_ is the name of the kprobe event to create. The _addr_ can be a function,
 a function and offset, or a kernel address. This is where the location of the
 kprobe will be inserted in the kernel. The _format_ is the kprobe format as
 specified as FETCHARGS in the Linux kernel source in the Documentation/trace/kprobetrace.rst
 document.

 *tracefs_kretprobe_raw*() is the same as *tracefs_kprobe_raw()*, except that it
 creates a kretprobe instead of a kprobe. The difference is also described
 in the Linux kernel source in the Documentation/trace/kprobetrace.rst file.

 RETURN VALUE
 ------------

 *tracefs_kprobe_raw*() and *tracefs_kretprobe_raw*() return 0 on success, or -1 on error.
 If a parsing error occurs on *tracefs_kprobe_raw*() or *tracefs_kretprobe_raw*() then
 *tracefs_error_last*(3) may be used to retrieve the error message explaining the parsing issue.

 The *tracefs_kprobe_alloc*() and *tracefs_kretprobe_alloc*() APIs return a pointer to an allocated
 tracefs_dynevent structure, describing the probe. This pointer must be freed by
 *tracefs_dynevent_free*(3). Note, this only allocates a descriptor representing the kprobe. It does
 not modify the running system.

 ERRORS
 ------
 The following errors are for all the above calls:

 *EPERM* Not run as root user

 *ENODEV* Kprobe events are not configured for the running kernel.

 *ENOMEM* Memory allocation error.

 *tracefs_kprobe_raw*(), *tracefs_kretprobe_raw*(), *tracefs_kprobe_alloc*(),
 and *tracefs_kretprobe_alloc*() can fail with the following errors:

 *EBADMSG* if _addr_ is NULL.

 *EINVAL*  Most likely a parsing error occurred (use *tracefs_error_last*(3) to possibly
           see what that error was).

 Other errors may also happen caused by internal system calls.

 EXAMPLE
 -------
 [source,c]
 --
 #include <stdlib.h>
 #include <unistd.h>
 #include <sys/wait.h>

 #include <tracefs.h>

 static struct tep_event *open_event;
 static struct tep_format_field *file_field;

 static struct tep_event *openret_event;
 static struct tep_format_field *ret_field;

 static int callback(struct tep_event *event, struct tep_record *record,
 		    int cpu, void *data)
 {
 	struct trace_seq seq;

 	trace_seq_init(&seq);
 	tep_print_event(event->tep, &seq, record, "%d-%s: ", TEP_PRINT_PID, TEP_PRINT_COMM);

 	if (event->id == open_event->id) {
 		trace_seq_puts(&seq, "open file='");
 		tep_print_field(&seq, record->data, file_field);
 		trace_seq_puts(&seq, "'\n");
 	} else if (event->id == openret_event->id) {
 		unsigned long long ret;
 		tep_read_number_field(ret_field, record->data, &ret);
 		trace_seq_printf(&seq, "open ret=%lld\n", ret);
 	} else {
 		goto out;
 	}

 	trace_seq_terminate(&seq);
 	trace_seq_do_printf(&seq);
 out:
 	trace_seq_destroy(&seq);

 	return 0;
 }

 static pid_t run_exec(char **argv, char **env)
 {
 	pid_t pid;

 	pid = fork();
 	if (pid)
 		return pid;

 	execve(argv[0], argv, env);
 	perror("exec");
 	exit(-1);
 }

 const char *mykprobe = "my_kprobes";

 enum kprobe_type {
 	KPROBE,
 	KRETPROBE,
 };

 static void __kprobe_create(enum kprobe_type type, const char *event,
 			    const char *addr, const char *fmt)
 {
 	char *err;
 	int r;

 	if (type == KPROBE)
 		r = tracefs_kprobe_raw(mykprobe, event, addr, fmt);
 	else
 		r = tracefs_kretprobe_raw(mykprobe, event, addr, fmt);
 	if (r < 0) {
 		err = tracefs_error_last(NULL);
 		perror("Failed to create kprobe:");
 		if (err && strlen(err))
 			fprintf(stderr, "%s\n", err);
 	}
 }

 static void kprobe_create(const char *event, const char *addr,
 			  const char *fmt)
 {
 	__kprobe_create(KPROBE, event, addr, fmt);
 }

 static void kretprobe_create(const char *event, const char *addr,
 			     const char *fmt)
 {
 	__kprobe_create(KRETPROBE, event, addr, fmt);
 }

 int main (int argc, char **argv, char **env)
 {
 	struct tracefs_instance *instance;
 	struct tep_handle *tep;
 	const char *sysnames[] = { mykprobe, NULL };
 	pid_t pid;

 	if (argc < 2) {
 		printf("usage: %s command\n", argv[0]);
 		exit(-1);
 	}

 	instance = tracefs_instance_create("exec_open");
 	if (!instance) {
 		perror("creating instance");
 		exit(-1);
 	}

 	tracefs_dynevent_destroy_all(TRACEFS_DYNEVENT_KPROBE | TRACEFS_DYNEVENT_KRETPROBE, true);

 	kprobe_create("open", "do_sys_openat2",
 		      "file=+0($arg2):ustring flags=+0($arg3):x64 mode=+8($arg3):x64\n");

 	kretprobe_create("openret", "do_sys_openat2", "ret=%ax");

 	tep = tracefs_local_events_system(NULL, sysnames);
 	if (!tep) {
 		perror("reading events");
 		exit(-1);
 	}
 	open_event = tep_find_event_by_name(tep, mykprobe, "open");
 	file_field = tep_find_field(open_event, "file");

 	openret_event = tep_find_event_by_name(tep, mykprobe, "openret");
 	ret_field = tep_find_field(openret_event, "ret");

 	tracefs_event_enable(instance, mykprobe, NULL);
 	pid = run_exec(&argv[1], env);

 	/* Let the child start to run */
 	sched_yield();

 	do {
 		tracefs_load_cmdlines(NULL, tep);
 		tracefs_iterate_raw_events(tep, instance, NULL, 0, callback, NULL);
 	} while (waitpid(pid, NULL, WNOHANG) != pid);

 	/* Will disable the events */
 	tracefs_dynevent_destroy_all(TRACEFS_DYNEVENT_KPROBE | TRACEFS_DYNEVENT_KRETPROBE, true);
 	tracefs_instance_destroy(instance);
 	tep_free(tep);

 	return 0;
 }
 --

 FILES
 -----
 [verse]
 --
 *tracefs.h*
 	Header file to include in order to have access to the library APIs.
 *-ltracefs*
 	Linker switch to add when building a program that uses the library.
 --

 SEE ALSO
 --------
 *libtracefs*(3),
 *libtraceevent*(3),
 *trace-cmd*(1)

 AUTHOR
 ------
 [verse]
 --
 *Steven Rostedt* <rostedt@goodmis.org>
 *Tzvetomir Stoyanov* <tz.stoyanov@gmail.com>
 *sameeruddin shaik* <sameeruddin.shaik8@gmail.com>
 --
 REPORTING BUGS
 --------------
 Report bugs to  <linux-trace-devel@vger.kernel.org>

 LICENSE
 -------
 libtracefs is Free Software licensed under the GNU LGPL 2.1

 RESOURCES
 ---------
 https://git.kernel.org/pub/scm/libs/libtrace/libtracefs.git/

 COPYING
 -------
 Copyright \(C) 2021 VMware, Inc. Free use of this software is granted under
 the terms of the GNU Public License (GPL).
	libtracefs(3)
	=============

	NAME
	----
	tracefs_kprobe_alloc, tracefs_kretprobe_alloc, tracefs_kprobe_raw, tracefs_kretprobe_raw -
	Allocate, get, and create kprobes

	SYNOPSIS
	--------
	[verse]
	--
	#include <tracefs.h>

	struct tracefs_dynevent pass:[*]
	tracefs_kprobe_alloc(const char pass:[]_system_, const char pass:[]_event_,
	const char pass:[]_addr_, const char pass:[]_format_);
	struct tracefs_dynevent pass:[*]
	tracefs_kretprobe_alloc(const char pass:[]_system_, const char pass:[]_event_,
	const char pass:[]_addr_, const char pass:[]_format_, unsigned int _max_);
	int tracefs_kprobe_raw(const char pass:[]_system_, const char pass:[]_event_,
	const char pass:[]_addr_, const char pass:[]_format_);
	int tracefs_kretprobe_raw(const char pass:[]_system_, const char pass:[]_event_,
	const char pass:[]_addr_, const char pass:[]_format_);
	--

	DESCRIPTION
	-----------
	tracefs_kprobe_alloc() allocates a new kprobe context. The kbrobe is not configured in the system.
	The new kprobe will be in the _system_ group (or kprobes if _system_ is NULL) and have the name of
	_event_ (or _addr_ if _event_ is NULL). The kprobe will be inserted to _addr_ (function name, with
	or without offset, or a address), and the _format_ will define the format of the kprobe. See the
	Linux documentation file under: Documentation/trace/kprobetrace.rst

	tracefs_kretprobe_alloc() is the same as tracefs_kprobe_alloc, but allocates context for
	kretprobe. It has one additional parameter, which is optional, _max_ - maxactive count.
	See description of kretprobes in the Documentation/trace/kprobetrace.rst file.

	tracefs_kprobe_raw() will create a kprobe event. If _system_ is NULL, then
	the default "kprobes" is used for the group (event system). Otherwise if _system_
	is specified then the kprobe will be created under the group by that name. The
	_event_ is the name of the kprobe event to create. The _addr_ can be a function,
	a function and offset, or a kernel address. This is where the location of the
	kprobe will be inserted in the kernel. The _format_ is the kprobe format as
	specified as FETCHARGS in the Linux kernel source in the Documentation/trace/kprobetrace.rst
	document.

	tracefs_kretprobe_raw() is the same as tracefs_kprobe_raw(), except that it
	creates a kretprobe instead of a kprobe. The difference is also described
	in the Linux kernel source in the Documentation/trace/kprobetrace.rst file.

	RETURN VALUE
	------------

	tracefs_kprobe_raw() and tracefs_kretprobe_raw() return 0 on success, or -1 on error.
	If a parsing error occurs on tracefs_kprobe_raw() or tracefs_kretprobe_raw() then
	tracefs_error_last(3) may be used to retrieve the error message explaining the parsing issue.

	The tracefs_kprobe_alloc() and tracefs_kretprobe_alloc() APIs return a pointer to an allocated
	tracefs_dynevent structure, describing the probe. This pointer must be freed by
	tracefs_dynevent_free(3). Note, this only allocates a descriptor representing the kprobe. It does
	not modify the running system.

	ERRORS
	------
	The following errors are for all the above calls:

	EPERM Not run as root user

	ENODEV Kprobe events are not configured for the running kernel.

	ENOMEM Memory allocation error.

	tracefs_kprobe_raw(), tracefs_kretprobe_raw(), tracefs_kprobe_alloc(),
	and tracefs_kretprobe_alloc() can fail with the following errors:

	EBADMSG if _addr_ is NULL.

	EINVAL Most likely a parsing error occurred (use tracefs_error_last(3) to possibly
	see what that error was).

	Other errors may also happen caused by internal system calls.

	EXAMPLE
	-------
	[source,c]
	--
	#include <stdlib.h>
	#include <unistd.h>
	#include <sys/wait.h>

	#include <tracefs.h>

	static struct tep_event *open_event;
	static struct tep_format_field *file_field;

	static struct tep_event *openret_event;
	static struct tep_format_field *ret_field;

	static int callback(struct tep_event event, struct tep_record record,
	int cpu, void *data)
	{
	struct trace_seq seq;

	trace_seq_init(&seq);
	tep_print_event(event->tep, &seq, record, "%d-%s: ", TEP_PRINT_PID, TEP_PRINT_COMM);

	if (event->id == open_event->id) {
	trace_seq_puts(&seq, "open file='");
	tep_print_field(&seq, record->data, file_field);
	trace_seq_puts(&seq, "'\n");
	} else if (event->id == openret_event->id) {
	unsigned long long ret;
	tep_read_number_field(ret_field, record->data, &ret);
	trace_seq_printf(&seq, "open ret=%lld\n", ret);
	} else {
	goto out;
	}

	trace_seq_terminate(&seq);
	trace_seq_do_printf(&seq);
	out:
	trace_seq_destroy(&seq);

	return 0;
	}

	static pid_t run_exec(char argv, char env)
	{
	pid_t pid;

	pid = fork();
	if (pid)
	return pid;

	execve(argv[0], argv, env);
	perror("exec");
	exit(-1);
	}

	const char *mykprobe = "my_kprobes";

	enum kprobe_type {
	KPROBE,
	KRETPROBE,
	};

	static void __kprobe_create(enum kprobe_type type, const char *event,
	const char addr, const char fmt)
	{
	char *err;
	int r;

	if (type == KPROBE)
	r = tracefs_kprobe_raw(mykprobe, event, addr, fmt);
	else
	r = tracefs_kretprobe_raw(mykprobe, event, addr, fmt);
	if (r < 0) {
	err = tracefs_error_last(NULL);
	perror("Failed to create kprobe:");
	if (err && strlen(err))
	fprintf(stderr, "%s\n", err);
	}
	}

	static void kprobe_create(const char event, const char addr,
	const char *fmt)
	{
	__kprobe_create(KPROBE, event, addr, fmt);
	}

	static void kretprobe_create(const char event, const char addr,
	const char *fmt)
	{
	__kprobe_create(KRETPROBE, event, addr, fmt);
	}

	int main (int argc, char argv, char env)
	{
	struct tracefs_instance *instance;
	struct tep_handle *tep;
	const char *sysnames[] = { mykprobe, NULL };
	pid_t pid;

	if (argc < 2) {
	printf("usage: %s command\n", argv[0]);
	exit(-1);
	}

	instance = tracefs_instance_create("exec_open");
	if (!instance) {
	perror("creating instance");
	exit(-1);
	}

	tracefs_dynevent_destroy_all(TRACEFS_DYNEVENT_KPROBE \| TRACEFS_DYNEVENT_KRETPROBE, true);

	kprobe_create("open", "do_sys_openat2",
	"file=+0($arg2):ustring flags=+0($arg3):x64 mode=+8($arg3):x64\n");

	kretprobe_create("openret", "do_sys_openat2", "ret=%ax");

	tep = tracefs_local_events_system(NULL, sysnames);
	if (!tep) {
	perror("reading events");
	exit(-1);
	}
	open_event = tep_find_event_by_name(tep, mykprobe, "open");
	file_field = tep_find_field(open_event, "file");

	openret_event = tep_find_event_by_name(tep, mykprobe, "openret");
	ret_field = tep_find_field(openret_event, "ret");

	tracefs_event_enable(instance, mykprobe, NULL);
	pid = run_exec(&argv[1], env);

	/* Let the child start to run */
	sched_yield();

	do {
	tracefs_load_cmdlines(NULL, tep);
	tracefs_iterate_raw_events(tep, instance, NULL, 0, callback, NULL);
	} while (waitpid(pid, NULL, WNOHANG) != pid);

	/* Will disable the events */
	tracefs_dynevent_destroy_all(TRACEFS_DYNEVENT_KPROBE \| TRACEFS_DYNEVENT_KRETPROBE, true);
	tracefs_instance_destroy(instance);
	tep_free(tep);

	return 0;
	}
	--

	FILES
	-----
	[verse]
	--
	tracefs.h
	Header file to include in order to have access to the library APIs.
	-ltracefs
	Linker switch to add when building a program that uses the library.
	--

	SEE ALSO
	--------
	libtracefs(3),
	libtraceevent(3),
	trace-cmd(1)

	AUTHOR
	------
	[verse]
	--
	Steven Rostedt <rostedt@goodmis.org>
	Tzvetomir Stoyanov <tz.stoyanov@gmail.com>
	sameeruddin shaik <sameeruddin.shaik8@gmail.com>
	--
	REPORTING BUGS
	--------------
	Report bugs to <linux-trace-devel@vger.kernel.org>

	LICENSE
	-------
	libtracefs is Free Software licensed under the GNU LGPL 2.1

	RESOURCES
	---------
	https://git.kernel.org/pub/scm/libs/libtrace/libtracefs.git/

	COPYING
	-------
	Copyright \(C) 2021 VMware, Inc. Free use of this software is granted under
	the terms of the GNU Public License (GPL).