xref: /linux/Documentation/process/adding-syscalls.rst (revision e58e871becec2d3b04ed91c0c16fe8deac9c9dfa)
1Adding a New System Call
2========================
3
4This document describes what's involved in adding a new system call to the
5Linux kernel, over and above the normal submission advice in
6:ref:`Documentation/process/submitting-patches.rst <submittingpatches>`.
7
8
9System Call Alternatives
10------------------------
11
12The first thing to consider when adding a new system call is whether one of
13the alternatives might be suitable instead.  Although system calls are the
14most traditional and most obvious interaction points between userspace and the
15kernel, there are other possibilities -- choose what fits best for your
16interface.
17
18 - If the operations involved can be made to look like a filesystem-like
19   object, it may make more sense to create a new filesystem or device.  This
20   also makes it easier to encapsulate the new functionality in a kernel module
21   rather than requiring it to be built into the main kernel.
22
23     - If the new functionality involves operations where the kernel notifies
24       userspace that something has happened, then returning a new file
25       descriptor for the relevant object allows userspace to use
26       ``poll``/``select``/``epoll`` to receive that notification.
27     - However, operations that don't map to
28       :manpage:`read(2)`/:manpage:`write(2)`-like operations
29       have to be implemented as :manpage:`ioctl(2)` requests, which can lead
30       to a somewhat opaque API.
31
32 - If you're just exposing runtime system information, a new node in sysfs
33   (see ``Documentation/filesystems/sysfs.txt``) or the ``/proc`` filesystem may
34   be more appropriate.  However, access to these mechanisms requires that the
35   relevant filesystem is mounted, which might not always be the case (e.g.
36   in a namespaced/sandboxed/chrooted environment).  Avoid adding any API to
37   debugfs, as this is not considered a 'production' interface to userspace.
38 - If the operation is specific to a particular file or file descriptor, then
39   an additional :manpage:`fcntl(2)` command option may be more appropriate.  However,
40   :manpage:`fcntl(2)` is a multiplexing system call that hides a lot of complexity, so
41   this option is best for when the new function is closely analogous to
42   existing :manpage:`fcntl(2)` functionality, or the new functionality is very simple
43   (for example, getting/setting a simple flag related to a file descriptor).
44 - If the operation is specific to a particular task or process, then an
45   additional :manpage:`prctl(2)` command option may be more appropriate.  As
46   with :manpage:`fcntl(2)`, this system call is a complicated multiplexor so
47   is best reserved for near-analogs of existing ``prctl()`` commands or
48   getting/setting a simple flag related to a process.
49
50
51Designing the API: Planning for Extension
52-----------------------------------------
53
54A new system call forms part of the API of the kernel, and has to be supported
55indefinitely.  As such, it's a very good idea to explicitly discuss the
56interface on the kernel mailing list, and it's important to plan for future
57extensions of the interface.
58
59(The syscall table is littered with historical examples where this wasn't done,
60together with the corresponding follow-up system calls --
61``eventfd``/``eventfd2``, ``dup2``/``dup3``, ``inotify_init``/``inotify_init1``,
62``pipe``/``pipe2``, ``renameat``/``renameat2`` -- so
63learn from the history of the kernel and plan for extensions from the start.)
64
65For simpler system calls that only take a couple of arguments, the preferred
66way to allow for future extensibility is to include a flags argument to the
67system call.  To make sure that userspace programs can safely use flags
68between kernel versions, check whether the flags value holds any unknown
69flags, and reject the system call (with ``EINVAL``) if it does::
70
71    if (flags & ~(THING_FLAG1 | THING_FLAG2 | THING_FLAG3))
72        return -EINVAL;
73
74(If no flags values are used yet, check that the flags argument is zero.)
75
76For more sophisticated system calls that involve a larger number of arguments,
77it's preferred to encapsulate the majority of the arguments into a structure
78that is passed in by pointer.  Such a structure can cope with future extension
79by including a size argument in the structure::
80
81    struct xyzzy_params {
82        u32 size; /* userspace sets p->size = sizeof(struct xyzzy_params) */
83        u32 param_1;
84        u64 param_2;
85        u64 param_3;
86    };
87
88As long as any subsequently added field, say ``param_4``, is designed so that a
89zero value gives the previous behaviour, then this allows both directions of
90version mismatch:
91
92 - To cope with a later userspace program calling an older kernel, the kernel
93   code should check that any memory beyond the size of the structure that it
94   expects is zero (effectively checking that ``param_4 == 0``).
95 - To cope with an older userspace program calling a newer kernel, the kernel
96   code can zero-extend a smaller instance of the structure (effectively
97   setting ``param_4 = 0``).
98
99See :manpage:`perf_event_open(2)` and the ``perf_copy_attr()`` function (in
100``kernel/events/core.c``) for an example of this approach.
101
102
103Designing the API: Other Considerations
104---------------------------------------
105
106If your new system call allows userspace to refer to a kernel object, it
107should use a file descriptor as the handle for that object -- don't invent a
108new type of userspace object handle when the kernel already has mechanisms and
109well-defined semantics for using file descriptors.
110
111If your new :manpage:`xyzzy(2)` system call does return a new file descriptor,
112then the flags argument should include a value that is equivalent to setting
113``O_CLOEXEC`` on the new FD.  This makes it possible for userspace to close
114the timing window between ``xyzzy()`` and calling
115``fcntl(fd, F_SETFD, FD_CLOEXEC)``, where an unexpected ``fork()`` and
116``execve()`` in another thread could leak a descriptor to
117the exec'ed program. (However, resist the temptation to re-use the actual value
118of the ``O_CLOEXEC`` constant, as it is architecture-specific and is part of a
119numbering space of ``O_*`` flags that is fairly full.)
120
121If your system call returns a new file descriptor, you should also consider
122what it means to use the :manpage:`poll(2)` family of system calls on that file
123descriptor. Making a file descriptor ready for reading or writing is the
124normal way for the kernel to indicate to userspace that an event has
125occurred on the corresponding kernel object.
126
127If your new :manpage:`xyzzy(2)` system call involves a filename argument::
128
129    int sys_xyzzy(const char __user *path, ..., unsigned int flags);
130
131you should also consider whether an :manpage:`xyzzyat(2)` version is more appropriate::
132
133    int sys_xyzzyat(int dfd, const char __user *path, ..., unsigned int flags);
134
135This allows more flexibility for how userspace specifies the file in question;
136in particular it allows userspace to request the functionality for an
137already-opened file descriptor using the ``AT_EMPTY_PATH`` flag, effectively
138giving an :manpage:`fxyzzy(3)` operation for free::
139
140 - xyzzyat(AT_FDCWD, path, ..., 0) is equivalent to xyzzy(path,...)
141 - xyzzyat(fd, "", ..., AT_EMPTY_PATH) is equivalent to fxyzzy(fd, ...)
142
143(For more details on the rationale of the \*at() calls, see the
144:manpage:`openat(2)` man page; for an example of AT_EMPTY_PATH, see the
145:manpage:`fstatat(2)` man page.)
146
147If your new :manpage:`xyzzy(2)` system call involves a parameter describing an
148offset within a file, make its type ``loff_t`` so that 64-bit offsets can be
149supported even on 32-bit architectures.
150
151If your new :manpage:`xyzzy(2)` system call involves privileged functionality,
152it needs to be governed by the appropriate Linux capability bit (checked with
153a call to ``capable()``), as described in the :manpage:`capabilities(7)` man
154page.  Choose an existing capability bit that governs related functionality,
155but try to avoid combining lots of only vaguely related functions together
156under the same bit, as this goes against capabilities' purpose of splitting
157the power of root.  In particular, avoid adding new uses of the already
158overly-general ``CAP_SYS_ADMIN`` capability.
159
160If your new :manpage:`xyzzy(2)` system call manipulates a process other than
161the calling process, it should be restricted (using a call to
162``ptrace_may_access()``) so that only a calling process with the same
163permissions as the target process, or with the necessary capabilities, can
164manipulate the target process.
165
166Finally, be aware that some non-x86 architectures have an easier time if
167system call parameters that are explicitly 64-bit fall on odd-numbered
168arguments (i.e. parameter 1, 3, 5), to allow use of contiguous pairs of 32-bit
169registers.  (This concern does not apply if the arguments are part of a
170structure that's passed in by pointer.)
171
172
173Proposing the API
174-----------------
175
176To make new system calls easy to review, it's best to divide up the patchset
177into separate chunks.  These should include at least the following items as
178distinct commits (each of which is described further below):
179
180 - The core implementation of the system call, together with prototypes,
181   generic numbering, Kconfig changes and fallback stub implementation.
182 - Wiring up of the new system call for one particular architecture, usually
183   x86 (including all of x86_64, x86_32 and x32).
184 - A demonstration of the use of the new system call in userspace via a
185   selftest in ``tools/testing/selftests/``.
186 - A draft man-page for the new system call, either as plain text in the
187   cover letter, or as a patch to the (separate) man-pages repository.
188
189New system call proposals, like any change to the kernel's API, should always
190be cc'ed to linux-api@vger.kernel.org.
191
192
193Generic System Call Implementation
194----------------------------------
195
196The main entry point for your new :manpage:`xyzzy(2)` system call will be called
197``sys_xyzzy()``, but you add this entry point with the appropriate
198``SYSCALL_DEFINEn()`` macro rather than explicitly.  The 'n' indicates the
199number of arguments to the system call, and the macro takes the system call name
200followed by the (type, name) pairs for the parameters as arguments.  Using
201this macro allows metadata about the new system call to be made available for
202other tools.
203
204The new entry point also needs a corresponding function prototype, in
205``include/linux/syscalls.h``, marked as asmlinkage to match the way that system
206calls are invoked::
207
208    asmlinkage long sys_xyzzy(...);
209
210Some architectures (e.g. x86) have their own architecture-specific syscall
211tables, but several other architectures share a generic syscall table. Add your
212new system call to the generic list by adding an entry to the list in
213``include/uapi/asm-generic/unistd.h``::
214
215    #define __NR_xyzzy 292
216    __SYSCALL(__NR_xyzzy, sys_xyzzy)
217
218Also update the __NR_syscalls count to reflect the additional system call, and
219note that if multiple new system calls are added in the same merge window,
220your new syscall number may get adjusted to resolve conflicts.
221
222The file ``kernel/sys_ni.c`` provides a fallback stub implementation of each
223system call, returning ``-ENOSYS``.  Add your new system call here too::
224
225    cond_syscall(sys_xyzzy);
226
227Your new kernel functionality, and the system call that controls it, should
228normally be optional, so add a ``CONFIG`` option (typically to
229``init/Kconfig``) for it. As usual for new ``CONFIG`` options:
230
231 - Include a description of the new functionality and system call controlled
232   by the option.
233 - Make the option depend on EXPERT if it should be hidden from normal users.
234 - Make any new source files implementing the function dependent on the CONFIG
235   option in the Makefile (e.g. ``obj-$(CONFIG_XYZZY_SYSCALL) += xyzzy.c``).
236 - Double check that the kernel still builds with the new CONFIG option turned
237   off.
238
239To summarize, you need a commit that includes:
240
241 - ``CONFIG`` option for the new function, normally in ``init/Kconfig``
242 - ``SYSCALL_DEFINEn(xyzzy, ...)`` for the entry point
243 - corresponding prototype in ``include/linux/syscalls.h``
244 - generic table entry in ``include/uapi/asm-generic/unistd.h``
245 - fallback stub in ``kernel/sys_ni.c``
246
247
248x86 System Call Implementation
249------------------------------
250
251To wire up your new system call for x86 platforms, you need to update the
252master syscall tables.  Assuming your new system call isn't special in some
253way (see below), this involves a "common" entry (for x86_64 and x32) in
254arch/x86/entry/syscalls/syscall_64.tbl::
255
256    333   common   xyzzy     sys_xyzzy
257
258and an "i386" entry in ``arch/x86/entry/syscalls/syscall_32.tbl``::
259
260    380   i386     xyzzy     sys_xyzzy
261
262Again, these numbers are liable to be changed if there are conflicts in the
263relevant merge window.
264
265
266Compatibility System Calls (Generic)
267------------------------------------
268
269For most system calls the same 64-bit implementation can be invoked even when
270the userspace program is itself 32-bit; even if the system call's parameters
271include an explicit pointer, this is handled transparently.
272
273However, there are a couple of situations where a compatibility layer is
274needed to cope with size differences between 32-bit and 64-bit.
275
276The first is if the 64-bit kernel also supports 32-bit userspace programs, and
277so needs to parse areas of (``__user``) memory that could hold either 32-bit or
27864-bit values.  In particular, this is needed whenever a system call argument
279is:
280
281 - a pointer to a pointer
282 - a pointer to a struct containing a pointer (e.g. ``struct iovec __user *``)
283 - a pointer to a varying sized integral type (``time_t``, ``off_t``,
284   ``long``, ...)
285 - a pointer to a struct containing a varying sized integral type.
286
287The second situation that requires a compatibility layer is if one of the
288system call's arguments has a type that is explicitly 64-bit even on a 32-bit
289architecture, for example ``loff_t`` or ``__u64``.  In this case, a value that
290arrives at a 64-bit kernel from a 32-bit application will be split into two
29132-bit values, which then need to be re-assembled in the compatibility layer.
292
293(Note that a system call argument that's a pointer to an explicit 64-bit type
294does **not** need a compatibility layer; for example, :manpage:`splice(2)`'s arguments of
295type ``loff_t __user *`` do not trigger the need for a ``compat_`` system call.)
296
297The compatibility version of the system call is called ``compat_sys_xyzzy()``,
298and is added with the ``COMPAT_SYSCALL_DEFINEn()`` macro, analogously to
299SYSCALL_DEFINEn.  This version of the implementation runs as part of a 64-bit
300kernel, but expects to receive 32-bit parameter values and does whatever is
301needed to deal with them.  (Typically, the ``compat_sys_`` version converts the
302values to 64-bit versions and either calls on to the ``sys_`` version, or both of
303them call a common inner implementation function.)
304
305The compat entry point also needs a corresponding function prototype, in
306``include/linux/compat.h``, marked as asmlinkage to match the way that system
307calls are invoked::
308
309    asmlinkage long compat_sys_xyzzy(...);
310
311If the system call involves a structure that is laid out differently on 32-bit
312and 64-bit systems, say ``struct xyzzy_args``, then the include/linux/compat.h
313header file should also include a compat version of the structure (``struct
314compat_xyzzy_args``) where each variable-size field has the appropriate
315``compat_`` type that corresponds to the type in ``struct xyzzy_args``.  The
316``compat_sys_xyzzy()`` routine can then use this ``compat_`` structure to
317parse the arguments from a 32-bit invocation.
318
319For example, if there are fields::
320
321    struct xyzzy_args {
322        const char __user *ptr;
323        __kernel_long_t varying_val;
324        u64 fixed_val;
325        /* ... */
326    };
327
328in struct xyzzy_args, then struct compat_xyzzy_args would have::
329
330    struct compat_xyzzy_args {
331        compat_uptr_t ptr;
332        compat_long_t varying_val;
333        u64 fixed_val;
334        /* ... */
335    };
336
337The generic system call list also needs adjusting to allow for the compat
338version; the entry in ``include/uapi/asm-generic/unistd.h`` should use
339``__SC_COMP`` rather than ``__SYSCALL``::
340
341    #define __NR_xyzzy 292
342    __SC_COMP(__NR_xyzzy, sys_xyzzy, compat_sys_xyzzy)
343
344To summarize, you need:
345
346 - a ``COMPAT_SYSCALL_DEFINEn(xyzzy, ...)`` for the compat entry point
347 - corresponding prototype in ``include/linux/compat.h``
348 - (if needed) 32-bit mapping struct in ``include/linux/compat.h``
349 - instance of ``__SC_COMP`` not ``__SYSCALL`` in
350   ``include/uapi/asm-generic/unistd.h``
351
352
353Compatibility System Calls (x86)
354--------------------------------
355
356To wire up the x86 architecture of a system call with a compatibility version,
357the entries in the syscall tables need to be adjusted.
358
359First, the entry in ``arch/x86/entry/syscalls/syscall_32.tbl`` gets an extra
360column to indicate that a 32-bit userspace program running on a 64-bit kernel
361should hit the compat entry point::
362
363    380   i386     xyzzy     sys_xyzzy    compat_sys_xyzzy
364
365Second, you need to figure out what should happen for the x32 ABI version of
366the new system call.  There's a choice here: the layout of the arguments
367should either match the 64-bit version or the 32-bit version.
368
369If there's a pointer-to-a-pointer involved, the decision is easy: x32 is
370ILP32, so the layout should match the 32-bit version, and the entry in
371``arch/x86/entry/syscalls/syscall_64.tbl`` is split so that x32 programs hit
372the compatibility wrapper::
373
374    333   64       xyzzy     sys_xyzzy
375    ...
376    555   x32      xyzzy     compat_sys_xyzzy
377
378If no pointers are involved, then it is preferable to re-use the 64-bit system
379call for the x32 ABI (and consequently the entry in
380arch/x86/entry/syscalls/syscall_64.tbl is unchanged).
381
382In either case, you should check that the types involved in your argument
383layout do indeed map exactly from x32 (-mx32) to either the 32-bit (-m32) or
38464-bit (-m64) equivalents.
385
386
387System Calls Returning Elsewhere
388--------------------------------
389
390For most system calls, once the system call is complete the user program
391continues exactly where it left off -- at the next instruction, with the
392stack the same and most of the registers the same as before the system call,
393and with the same virtual memory space.
394
395However, a few system calls do things differently.  They might return to a
396different location (``rt_sigreturn``) or change the memory space
397(``fork``/``vfork``/``clone``) or even architecture (``execve``/``execveat``)
398of the program.
399
400To allow for this, the kernel implementation of the system call may need to
401save and restore additional registers to the kernel stack, allowing complete
402control of where and how execution continues after the system call.
403
404This is arch-specific, but typically involves defining assembly entry points
405that save/restore additional registers and invoke the real system call entry
406point.
407
408For x86_64, this is implemented as a ``stub_xyzzy`` entry point in
409``arch/x86/entry/entry_64.S``, and the entry in the syscall table
410(``arch/x86/entry/syscalls/syscall_64.tbl``) is adjusted to match::
411
412    333   common   xyzzy     stub_xyzzy
413
414The equivalent for 32-bit programs running on a 64-bit kernel is normally
415called ``stub32_xyzzy`` and implemented in ``arch/x86/entry/entry_64_compat.S``,
416with the corresponding syscall table adjustment in
417``arch/x86/entry/syscalls/syscall_32.tbl``::
418
419    380   i386     xyzzy     sys_xyzzy    stub32_xyzzy
420
421If the system call needs a compatibility layer (as in the previous section)
422then the ``stub32_`` version needs to call on to the ``compat_sys_`` version
423of the system call rather than the native 64-bit version.  Also, if the x32 ABI
424implementation is not common with the x86_64 version, then its syscall
425table will also need to invoke a stub that calls on to the ``compat_sys_``
426version.
427
428For completeness, it's also nice to set up a mapping so that user-mode Linux
429still works -- its syscall table will reference stub_xyzzy, but the UML build
430doesn't include ``arch/x86/entry/entry_64.S`` implementation (because UML
431simulates registers etc).  Fixing this is as simple as adding a #define to
432``arch/x86/um/sys_call_table_64.c``::
433
434    #define stub_xyzzy sys_xyzzy
435
436
437Other Details
438-------------
439
440Most of the kernel treats system calls in a generic way, but there is the
441occasional exception that may need updating for your particular system call.
442
443The audit subsystem is one such special case; it includes (arch-specific)
444functions that classify some special types of system call -- specifically
445file open (``open``/``openat``), program execution (``execve``/``exeveat``) or
446socket multiplexor (``socketcall``) operations. If your new system call is
447analogous to one of these, then the audit system should be updated.
448
449More generally, if there is an existing system call that is analogous to your
450new system call, it's worth doing a kernel-wide grep for the existing system
451call to check there are no other special cases.
452
453
454Testing
455-------
456
457A new system call should obviously be tested; it is also useful to provide
458reviewers with a demonstration of how user space programs will use the system
459call.  A good way to combine these aims is to include a simple self-test
460program in a new directory under ``tools/testing/selftests/``.
461
462For a new system call, there will obviously be no libc wrapper function and so
463the test will need to invoke it using ``syscall()``; also, if the system call
464involves a new userspace-visible structure, the corresponding header will need
465to be installed to compile the test.
466
467Make sure the selftest runs successfully on all supported architectures.  For
468example, check that it works when compiled as an x86_64 (-m64), x86_32 (-m32)
469and x32 (-mx32) ABI program.
470
471For more extensive and thorough testing of new functionality, you should also
472consider adding tests to the Linux Test Project, or to the xfstests project
473for filesystem-related changes.
474
475 - https://linux-test-project.github.io/
476 - git://git.kernel.org/pub/scm/fs/xfs/xfstests-dev.git
477
478
479Man Page
480--------
481
482All new system calls should come with a complete man page, ideally using groff
483markup, but plain text will do.  If groff is used, it's helpful to include a
484pre-rendered ASCII version of the man page in the cover email for the
485patchset, for the convenience of reviewers.
486
487The man page should be cc'ed to linux-man@vger.kernel.org
488For more details, see https://www.kernel.org/doc/man-pages/patches.html
489
490References and Sources
491----------------------
492
493 - LWN article from Michael Kerrisk on use of flags argument in system calls:
494   https://lwn.net/Articles/585415/
495 - LWN article from Michael Kerrisk on how to handle unknown flags in a system
496   call: https://lwn.net/Articles/588444/
497 - LWN article from Jake Edge describing constraints on 64-bit system call
498   arguments: https://lwn.net/Articles/311630/
499 - Pair of LWN articles from David Drysdale that describe the system call
500   implementation paths in detail for v3.14:
501
502    - https://lwn.net/Articles/604287/
503    - https://lwn.net/Articles/604515/
504
505 - Architecture-specific requirements for system calls are discussed in the
506   :manpage:`syscall(2)` man-page:
507   http://man7.org/linux/man-pages/man2/syscall.2.html#NOTES
508 - Collated emails from Linus Torvalds discussing the problems with ``ioctl()``:
509   http://yarchive.net/comp/linux/ioctl.html
510 - "How to not invent kernel interfaces", Arnd Bergmann,
511   http://www.ukuug.org/events/linux2007/2007/papers/Bergmann.pdf
512 - LWN article from Michael Kerrisk on avoiding new uses of CAP_SYS_ADMIN:
513   https://lwn.net/Articles/486306/
514 - Recommendation from Andrew Morton that all related information for a new
515   system call should come in the same email thread:
516   https://lkml.org/lkml/2014/7/24/641
517 - Recommendation from Michael Kerrisk that a new system call should come with
518   a man page: https://lkml.org/lkml/2014/6/13/309
519 - Suggestion from Thomas Gleixner that x86 wire-up should be in a separate
520   commit: https://lkml.org/lkml/2014/11/19/254
521 - Suggestion from Greg Kroah-Hartman that it's good for new system calls to
522   come with a man-page & selftest: https://lkml.org/lkml/2014/3/19/710
523 - Discussion from Michael Kerrisk of new system call vs. :manpage:`prctl(2)` extension:
524   https://lkml.org/lkml/2014/6/3/411
525 - Suggestion from Ingo Molnar that system calls that involve multiple
526   arguments should encapsulate those arguments in a struct, which includes a
527   size field for future extensibility: https://lkml.org/lkml/2015/7/30/117
528 - Numbering oddities arising from (re-)use of O_* numbering space flags:
529
530    - commit 75069f2b5bfb ("vfs: renumber FMODE_NONOTIFY and add to uniqueness
531      check")
532    - commit 12ed2e36c98a ("fanotify: FMODE_NONOTIFY and __O_SYNC in sparc
533      conflict")
534    - commit bb458c644a59 ("Safer ABI for O_TMPFILE")
535
536 - Discussion from Matthew Wilcox about restrictions on 64-bit arguments:
537   https://lkml.org/lkml/2008/12/12/187
538 - Recommendation from Greg Kroah-Hartman that unknown flags should be
539   policed: https://lkml.org/lkml/2014/7/17/577
540 - Recommendation from Linus Torvalds that x32 system calls should prefer
541   compatibility with 64-bit versions rather than 32-bit versions:
542   https://lkml.org/lkml/2011/8/31/244
543