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Differences between /Documentation/process/adding-syscalls.rst (Version linux-6.12-rc7) and /Documentation/process/adding-syscalls.rst (Version linux-4.12.14)


  1                                                << 
  2 .. _addsyscalls:                               << 
  3                                                << 
  4 Adding a New System Call                            1 Adding a New System Call
  5 ========================                            2 ========================
  6                                                     3 
  7 This document describes what's involved in add      4 This document describes what's involved in adding a new system call to the
  8 Linux kernel, over and above the normal submis      5 Linux kernel, over and above the normal submission advice in
  9 :ref:`Documentation/process/submitting-patches      6 :ref:`Documentation/process/submitting-patches.rst <submittingpatches>`.
 10                                                     7 
 11                                                     8 
 12 System Call Alternatives                            9 System Call Alternatives
 13 ------------------------                           10 ------------------------
 14                                                    11 
 15 The first thing to consider when adding a new      12 The first thing to consider when adding a new system call is whether one of
 16 the alternatives might be suitable instead.  A     13 the alternatives might be suitable instead.  Although system calls are the
 17 most traditional and most obvious interaction      14 most traditional and most obvious interaction points between userspace and the
 18 kernel, there are other possibilities -- choos     15 kernel, there are other possibilities -- choose what fits best for your
 19 interface.                                         16 interface.
 20                                                    17 
 21  - If the operations involved can be made to l     18  - If the operations involved can be made to look like a filesystem-like
 22    object, it may make more sense to create a      19    object, it may make more sense to create a new filesystem or device.  This
 23    also makes it easier to encapsulate the new     20    also makes it easier to encapsulate the new functionality in a kernel module
 24    rather than requiring it to be built into t     21    rather than requiring it to be built into the main kernel.
 25                                                    22 
 26      - If the new functionality involves opera     23      - If the new functionality involves operations where the kernel notifies
 27        userspace that something has happened,      24        userspace that something has happened, then returning a new file
 28        descriptor for the relevant object allo     25        descriptor for the relevant object allows userspace to use
 29        ``poll``/``select``/``epoll`` to receiv     26        ``poll``/``select``/``epoll`` to receive that notification.
 30      - However, operations that don't map to       27      - However, operations that don't map to
 31        :manpage:`read(2)`/:manpage:`write(2)`-     28        :manpage:`read(2)`/:manpage:`write(2)`-like operations
 32        have to be implemented as :manpage:`ioc     29        have to be implemented as :manpage:`ioctl(2)` requests, which can lead
 33        to a somewhat opaque API.                   30        to a somewhat opaque API.
 34                                                    31 
 35  - If you're just exposing runtime system info     32  - If you're just exposing runtime system information, a new node in sysfs
 36    (see ``Documentation/filesystems/sysfs.rst` !!  33    (see ``Documentation/filesystems/sysfs.txt``) or the ``/proc`` filesystem may
 37    be more appropriate.  However, access to th     34    be more appropriate.  However, access to these mechanisms requires that the
 38    relevant filesystem is mounted, which might     35    relevant filesystem is mounted, which might not always be the case (e.g.
 39    in a namespaced/sandboxed/chrooted environm     36    in a namespaced/sandboxed/chrooted environment).  Avoid adding any API to
 40    debugfs, as this is not considered a 'produ     37    debugfs, as this is not considered a 'production' interface to userspace.
 41  - If the operation is specific to a particula     38  - If the operation is specific to a particular file or file descriptor, then
 42    an additional :manpage:`fcntl(2)` command o     39    an additional :manpage:`fcntl(2)` command option may be more appropriate.  However,
 43    :manpage:`fcntl(2)` is a multiplexing syste     40    :manpage:`fcntl(2)` is a multiplexing system call that hides a lot of complexity, so
 44    this option is best for when the new functi     41    this option is best for when the new function is closely analogous to
 45    existing :manpage:`fcntl(2)` functionality,     42    existing :manpage:`fcntl(2)` functionality, or the new functionality is very simple
 46    (for example, getting/setting a simple flag     43    (for example, getting/setting a simple flag related to a file descriptor).
 47  - If the operation is specific to a particula     44  - If the operation is specific to a particular task or process, then an
 48    additional :manpage:`prctl(2)` command opti     45    additional :manpage:`prctl(2)` command option may be more appropriate.  As
 49    with :manpage:`fcntl(2)`, this system call      46    with :manpage:`fcntl(2)`, this system call is a complicated multiplexor so
 50    is best reserved for near-analogs of existi     47    is best reserved for near-analogs of existing ``prctl()`` commands or
 51    getting/setting a simple flag related to a      48    getting/setting a simple flag related to a process.
 52                                                    49 
 53                                                    50 
 54 Designing the API: Planning for Extension          51 Designing the API: Planning for Extension
 55 -----------------------------------------          52 -----------------------------------------
 56                                                    53 
 57 A new system call forms part of the API of the     54 A new system call forms part of the API of the kernel, and has to be supported
 58 indefinitely.  As such, it's a very good idea      55 indefinitely.  As such, it's a very good idea to explicitly discuss the
 59 interface on the kernel mailing list, and it's     56 interface on the kernel mailing list, and it's important to plan for future
 60 extensions of the interface.                       57 extensions of the interface.
 61                                                    58 
 62 (The syscall table is littered with historical     59 (The syscall table is littered with historical examples where this wasn't done,
 63 together with the corresponding follow-up syst     60 together with the corresponding follow-up system calls --
 64 ``eventfd``/``eventfd2``, ``dup2``/``dup3``, `     61 ``eventfd``/``eventfd2``, ``dup2``/``dup3``, ``inotify_init``/``inotify_init1``,
 65 ``pipe``/``pipe2``, ``renameat``/``renameat2``     62 ``pipe``/``pipe2``, ``renameat``/``renameat2`` -- so
 66 learn from the history of the kernel and plan      63 learn from the history of the kernel and plan for extensions from the start.)
 67                                                    64 
 68 For simpler system calls that only take a coup     65 For simpler system calls that only take a couple of arguments, the preferred
 69 way to allow for future extensibility is to in     66 way to allow for future extensibility is to include a flags argument to the
 70 system call.  To make sure that userspace prog     67 system call.  To make sure that userspace programs can safely use flags
 71 between kernel versions, check whether the fla     68 between kernel versions, check whether the flags value holds any unknown
 72 flags, and reject the system call (with ``EINV     69 flags, and reject the system call (with ``EINVAL``) if it does::
 73                                                    70 
 74     if (flags & ~(THING_FLAG1 | THING_FLAG2 |      71     if (flags & ~(THING_FLAG1 | THING_FLAG2 | THING_FLAG3))
 75         return -EINVAL;                            72         return -EINVAL;
 76                                                    73 
 77 (If no flags values are used yet, check that t     74 (If no flags values are used yet, check that the flags argument is zero.)
 78                                                    75 
 79 For more sophisticated system calls that invol     76 For more sophisticated system calls that involve a larger number of arguments,
 80 it's preferred to encapsulate the majority of      77 it's preferred to encapsulate the majority of the arguments into a structure
 81 that is passed in by pointer.  Such a structur     78 that is passed in by pointer.  Such a structure can cope with future extension
 82 by including a size argument in the structure:     79 by including a size argument in the structure::
 83                                                    80 
 84     struct xyzzy_params {                          81     struct xyzzy_params {
 85         u32 size; /* userspace sets p->size =      82         u32 size; /* userspace sets p->size = sizeof(struct xyzzy_params) */
 86         u32 param_1;                               83         u32 param_1;
 87         u64 param_2;                               84         u64 param_2;
 88         u64 param_3;                               85         u64 param_3;
 89     };                                             86     };
 90                                                    87 
 91 As long as any subsequently added field, say `     88 As long as any subsequently added field, say ``param_4``, is designed so that a
 92 zero value gives the previous behaviour, then      89 zero value gives the previous behaviour, then this allows both directions of
 93 version mismatch:                                  90 version mismatch:
 94                                                    91 
 95  - To cope with a later userspace program call     92  - To cope with a later userspace program calling an older kernel, the kernel
 96    code should check that any memory beyond th     93    code should check that any memory beyond the size of the structure that it
 97    expects is zero (effectively checking that      94    expects is zero (effectively checking that ``param_4 == 0``).
 98  - To cope with an older userspace program cal     95  - To cope with an older userspace program calling a newer kernel, the kernel
 99    code can zero-extend a smaller instance of      96    code can zero-extend a smaller instance of the structure (effectively
100    setting ``param_4 = 0``).                       97    setting ``param_4 = 0``).
101                                                    98 
102 See :manpage:`perf_event_open(2)` and the ``pe     99 See :manpage:`perf_event_open(2)` and the ``perf_copy_attr()`` function (in
103 ``kernel/events/core.c``) for an example of th    100 ``kernel/events/core.c``) for an example of this approach.
104                                                   101 
105                                                   102 
106 Designing the API: Other Considerations           103 Designing the API: Other Considerations
107 ---------------------------------------           104 ---------------------------------------
108                                                   105 
109 If your new system call allows userspace to re    106 If your new system call allows userspace to refer to a kernel object, it
110 should use a file descriptor as the handle for    107 should use a file descriptor as the handle for that object -- don't invent a
111 new type of userspace object handle when the k    108 new type of userspace object handle when the kernel already has mechanisms and
112 well-defined semantics for using file descript    109 well-defined semantics for using file descriptors.
113                                                   110 
114 If your new :manpage:`xyzzy(2)` system call do    111 If your new :manpage:`xyzzy(2)` system call does return a new file descriptor,
115 then the flags argument should include a value    112 then the flags argument should include a value that is equivalent to setting
116 ``O_CLOEXEC`` on the new FD.  This makes it po    113 ``O_CLOEXEC`` on the new FD.  This makes it possible for userspace to close
117 the timing window between ``xyzzy()`` and call    114 the timing window between ``xyzzy()`` and calling
118 ``fcntl(fd, F_SETFD, FD_CLOEXEC)``, where an u    115 ``fcntl(fd, F_SETFD, FD_CLOEXEC)``, where an unexpected ``fork()`` and
119 ``execve()`` in another thread could leak a de    116 ``execve()`` in another thread could leak a descriptor to
120 the exec'ed program. (However, resist the temp    117 the exec'ed program. (However, resist the temptation to re-use the actual value
121 of the ``O_CLOEXEC`` constant, as it is archit    118 of the ``O_CLOEXEC`` constant, as it is architecture-specific and is part of a
122 numbering space of ``O_*`` flags that is fairl    119 numbering space of ``O_*`` flags that is fairly full.)
123                                                   120 
124 If your system call returns a new file descrip    121 If your system call returns a new file descriptor, you should also consider
125 what it means to use the :manpage:`poll(2)` fa    122 what it means to use the :manpage:`poll(2)` family of system calls on that file
126 descriptor. Making a file descriptor ready for    123 descriptor. Making a file descriptor ready for reading or writing is the
127 normal way for the kernel to indicate to users    124 normal way for the kernel to indicate to userspace that an event has
128 occurred on the corresponding kernel object.      125 occurred on the corresponding kernel object.
129                                                   126 
130 If your new :manpage:`xyzzy(2)` system call in    127 If your new :manpage:`xyzzy(2)` system call involves a filename argument::
131                                                   128 
132     int sys_xyzzy(const char __user *path, ...    129     int sys_xyzzy(const char __user *path, ..., unsigned int flags);
133                                                   130 
134 you should also consider whether an :manpage:`    131 you should also consider whether an :manpage:`xyzzyat(2)` version is more appropriate::
135                                                   132 
136     int sys_xyzzyat(int dfd, const char __user    133     int sys_xyzzyat(int dfd, const char __user *path, ..., unsigned int flags);
137                                                   134 
138 This allows more flexibility for how userspace    135 This allows more flexibility for how userspace specifies the file in question;
139 in particular it allows userspace to request t    136 in particular it allows userspace to request the functionality for an
140 already-opened file descriptor using the ``AT_    137 already-opened file descriptor using the ``AT_EMPTY_PATH`` flag, effectively
141 giving an :manpage:`fxyzzy(3)` operation for f    138 giving an :manpage:`fxyzzy(3)` operation for free::
142                                                   139 
143  - xyzzyat(AT_FDCWD, path, ..., 0) is equivale    140  - xyzzyat(AT_FDCWD, path, ..., 0) is equivalent to xyzzy(path,...)
144  - xyzzyat(fd, "", ..., AT_EMPTY_PATH) is equi    141  - xyzzyat(fd, "", ..., AT_EMPTY_PATH) is equivalent to fxyzzy(fd, ...)
145                                                   142 
146 (For more details on the rationale of the \*at    143 (For more details on the rationale of the \*at() calls, see the
147 :manpage:`openat(2)` man page; for an example     144 :manpage:`openat(2)` man page; for an example of AT_EMPTY_PATH, see the
148 :manpage:`fstatat(2)` man page.)                  145 :manpage:`fstatat(2)` man page.)
149                                                   146 
150 If your new :manpage:`xyzzy(2)` system call in    147 If your new :manpage:`xyzzy(2)` system call involves a parameter describing an
151 offset within a file, make its type ``loff_t``    148 offset within a file, make its type ``loff_t`` so that 64-bit offsets can be
152 supported even on 32-bit architectures.           149 supported even on 32-bit architectures.
153                                                   150 
154 If your new :manpage:`xyzzy(2)` system call in    151 If your new :manpage:`xyzzy(2)` system call involves privileged functionality,
155 it needs to be governed by the appropriate Lin    152 it needs to be governed by the appropriate Linux capability bit (checked with
156 a call to ``capable()``), as described in the     153 a call to ``capable()``), as described in the :manpage:`capabilities(7)` man
157 page.  Choose an existing capability bit that     154 page.  Choose an existing capability bit that governs related functionality,
158 but try to avoid combining lots of only vaguel    155 but try to avoid combining lots of only vaguely related functions together
159 under the same bit, as this goes against capab    156 under the same bit, as this goes against capabilities' purpose of splitting
160 the power of root.  In particular, avoid addin    157 the power of root.  In particular, avoid adding new uses of the already
161 overly-general ``CAP_SYS_ADMIN`` capability.      158 overly-general ``CAP_SYS_ADMIN`` capability.
162                                                   159 
163 If your new :manpage:`xyzzy(2)` system call ma    160 If your new :manpage:`xyzzy(2)` system call manipulates a process other than
164 the calling process, it should be restricted (    161 the calling process, it should be restricted (using a call to
165 ``ptrace_may_access()``) so that only a callin    162 ``ptrace_may_access()``) so that only a calling process with the same
166 permissions as the target process, or with the    163 permissions as the target process, or with the necessary capabilities, can
167 manipulate the target process.                    164 manipulate the target process.
168                                                   165 
169 Finally, be aware that some non-x86 architectu    166 Finally, be aware that some non-x86 architectures have an easier time if
170 system call parameters that are explicitly 64-    167 system call parameters that are explicitly 64-bit fall on odd-numbered
171 arguments (i.e. parameter 1, 3, 5), to allow u    168 arguments (i.e. parameter 1, 3, 5), to allow use of contiguous pairs of 32-bit
172 registers.  (This concern does not apply if th    169 registers.  (This concern does not apply if the arguments are part of a
173 structure that's passed in by pointer.)           170 structure that's passed in by pointer.)
174                                                   171 
175                                                   172 
176 Proposing the API                                 173 Proposing the API
177 -----------------                                 174 -----------------
178                                                   175 
179 To make new system calls easy to review, it's     176 To make new system calls easy to review, it's best to divide up the patchset
180 into separate chunks.  These should include at    177 into separate chunks.  These should include at least the following items as
181 distinct commits (each of which is described f    178 distinct commits (each of which is described further below):
182                                                   179 
183  - The core implementation of the system call,    180  - The core implementation of the system call, together with prototypes,
184    generic numbering, Kconfig changes and fall    181    generic numbering, Kconfig changes and fallback stub implementation.
185  - Wiring up of the new system call for one pa    182  - Wiring up of the new system call for one particular architecture, usually
186    x86 (including all of x86_64, x86_32 and x3    183    x86 (including all of x86_64, x86_32 and x32).
187  - A demonstration of the use of the new syste    184  - A demonstration of the use of the new system call in userspace via a
188    selftest in ``tools/testing/selftests/``.      185    selftest in ``tools/testing/selftests/``.
189  - A draft man-page for the new system call, e    186  - A draft man-page for the new system call, either as plain text in the
190    cover letter, or as a patch to the (separat    187    cover letter, or as a patch to the (separate) man-pages repository.
191                                                   188 
192 New system call proposals, like any change to     189 New system call proposals, like any change to the kernel's API, should always
193 be cc'ed to linux-api@vger.kernel.org.            190 be cc'ed to linux-api@vger.kernel.org.
194                                                   191 
195                                                   192 
196 Generic System Call Implementation                193 Generic System Call Implementation
197 ----------------------------------                194 ----------------------------------
198                                                   195 
199 The main entry point for your new :manpage:`xy    196 The main entry point for your new :manpage:`xyzzy(2)` system call will be called
200 ``sys_xyzzy()``, but you add this entry point     197 ``sys_xyzzy()``, but you add this entry point with the appropriate
201 ``SYSCALL_DEFINEn()`` macro rather than explic    198 ``SYSCALL_DEFINEn()`` macro rather than explicitly.  The 'n' indicates the
202 number of arguments to the system call, and th    199 number of arguments to the system call, and the macro takes the system call name
203 followed by the (type, name) pairs for the par    200 followed by the (type, name) pairs for the parameters as arguments.  Using
204 this macro allows metadata about the new syste    201 this macro allows metadata about the new system call to be made available for
205 other tools.                                      202 other tools.
206                                                   203 
207 The new entry point also needs a corresponding    204 The new entry point also needs a corresponding function prototype, in
208 ``include/linux/syscalls.h``, marked as asmlin    205 ``include/linux/syscalls.h``, marked as asmlinkage to match the way that system
209 calls are invoked::                               206 calls are invoked::
210                                                   207 
211     asmlinkage long sys_xyzzy(...);               208     asmlinkage long sys_xyzzy(...);
212                                                   209 
213 Some architectures (e.g. x86) have their own a    210 Some architectures (e.g. x86) have their own architecture-specific syscall
214 tables, but several other architectures share     211 tables, but several other architectures share a generic syscall table. Add your
215 new system call to the generic list by adding     212 new system call to the generic list by adding an entry to the list in
216 ``include/uapi/asm-generic/unistd.h``::           213 ``include/uapi/asm-generic/unistd.h``::
217                                                   214 
218     #define __NR_xyzzy 292                        215     #define __NR_xyzzy 292
219     __SYSCALL(__NR_xyzzy, sys_xyzzy)              216     __SYSCALL(__NR_xyzzy, sys_xyzzy)
220                                                   217 
221 Also update the __NR_syscalls count to reflect    218 Also update the __NR_syscalls count to reflect the additional system call, and
222 note that if multiple new system calls are add    219 note that if multiple new system calls are added in the same merge window,
223 your new syscall number may get adjusted to re    220 your new syscall number may get adjusted to resolve conflicts.
224                                                   221 
225 The file ``kernel/sys_ni.c`` provides a fallba    222 The file ``kernel/sys_ni.c`` provides a fallback stub implementation of each
226 system call, returning ``-ENOSYS``.  Add your     223 system call, returning ``-ENOSYS``.  Add your new system call here too::
227                                                   224 
228     COND_SYSCALL(xyzzy);                       !! 225     cond_syscall(sys_xyzzy);
229                                                   226 
230 Your new kernel functionality, and the system     227 Your new kernel functionality, and the system call that controls it, should
231 normally be optional, so add a ``CONFIG`` opti    228 normally be optional, so add a ``CONFIG`` option (typically to
232 ``init/Kconfig``) for it. As usual for new ``C    229 ``init/Kconfig``) for it. As usual for new ``CONFIG`` options:
233                                                   230 
234  - Include a description of the new functional    231  - Include a description of the new functionality and system call controlled
235    by the option.                                 232    by the option.
236  - Make the option depend on EXPERT if it shou    233  - Make the option depend on EXPERT if it should be hidden from normal users.
237  - Make any new source files implementing the     234  - Make any new source files implementing the function dependent on the CONFIG
238    option in the Makefile (e.g. ``obj-$(CONFIG !! 235    option in the Makefile (e.g. ``obj-$(CONFIG_XYZZY_SYSCALL) += xyzzy.c``).
239  - Double check that the kernel still builds w    236  - Double check that the kernel still builds with the new CONFIG option turned
240    off.                                           237    off.
241                                                   238 
242 To summarize, you need a commit that includes:    239 To summarize, you need a commit that includes:
243                                                   240 
244  - ``CONFIG`` option for the new function, nor    241  - ``CONFIG`` option for the new function, normally in ``init/Kconfig``
245  - ``SYSCALL_DEFINEn(xyzzy, ...)`` for the ent    242  - ``SYSCALL_DEFINEn(xyzzy, ...)`` for the entry point
246  - corresponding prototype in ``include/linux/    243  - corresponding prototype in ``include/linux/syscalls.h``
247  - generic table entry in ``include/uapi/asm-g    244  - generic table entry in ``include/uapi/asm-generic/unistd.h``
248  - fallback stub in ``kernel/sys_ni.c``           245  - fallback stub in ``kernel/sys_ni.c``
249                                                   246 
250                                                   247 
251 x86 System Call Implementation                    248 x86 System Call Implementation
252 ------------------------------                    249 ------------------------------
253                                                   250 
254 To wire up your new system call for x86 platfo    251 To wire up your new system call for x86 platforms, you need to update the
255 master syscall tables.  Assuming your new syst    252 master syscall tables.  Assuming your new system call isn't special in some
256 way (see below), this involves a "common" entr    253 way (see below), this involves a "common" entry (for x86_64 and x32) in
257 arch/x86/entry/syscalls/syscall_64.tbl::          254 arch/x86/entry/syscalls/syscall_64.tbl::
258                                                   255 
259     333   common   xyzzy     sys_xyzzy            256     333   common   xyzzy     sys_xyzzy
260                                                   257 
261 and an "i386" entry in ``arch/x86/entry/syscal    258 and an "i386" entry in ``arch/x86/entry/syscalls/syscall_32.tbl``::
262                                                   259 
263     380   i386     xyzzy     sys_xyzzy            260     380   i386     xyzzy     sys_xyzzy
264                                                   261 
265 Again, these numbers are liable to be changed     262 Again, these numbers are liable to be changed if there are conflicts in the
266 relevant merge window.                            263 relevant merge window.
267                                                   264 
268                                                   265 
269 Compatibility System Calls (Generic)              266 Compatibility System Calls (Generic)
270 ------------------------------------              267 ------------------------------------
271                                                   268 
272 For most system calls the same 64-bit implemen    269 For most system calls the same 64-bit implementation can be invoked even when
273 the userspace program is itself 32-bit; even i    270 the userspace program is itself 32-bit; even if the system call's parameters
274 include an explicit pointer, this is handled t    271 include an explicit pointer, this is handled transparently.
275                                                   272 
276 However, there are a couple of situations wher    273 However, there are a couple of situations where a compatibility layer is
277 needed to cope with size differences between 3    274 needed to cope with size differences between 32-bit and 64-bit.
278                                                   275 
279 The first is if the 64-bit kernel also support    276 The first is if the 64-bit kernel also supports 32-bit userspace programs, and
280 so needs to parse areas of (``__user``) memory    277 so needs to parse areas of (``__user``) memory that could hold either 32-bit or
281 64-bit values.  In particular, this is needed     278 64-bit values.  In particular, this is needed whenever a system call argument
282 is:                                               279 is:
283                                                   280 
284  - a pointer to a pointer                         281  - a pointer to a pointer
285  - a pointer to a struct containing a pointer     282  - a pointer to a struct containing a pointer (e.g. ``struct iovec __user *``)
286  - a pointer to a varying sized integral type     283  - a pointer to a varying sized integral type (``time_t``, ``off_t``,
287    ``long``, ...)                                 284    ``long``, ...)
288  - a pointer to a struct containing a varying     285  - a pointer to a struct containing a varying sized integral type.
289                                                   286 
290 The second situation that requires a compatibi    287 The second situation that requires a compatibility layer is if one of the
291 system call's arguments has a type that is exp    288 system call's arguments has a type that is explicitly 64-bit even on a 32-bit
292 architecture, for example ``loff_t`` or ``__u6    289 architecture, for example ``loff_t`` or ``__u64``.  In this case, a value that
293 arrives at a 64-bit kernel from a 32-bit appli    290 arrives at a 64-bit kernel from a 32-bit application will be split into two
294 32-bit values, which then need to be re-assemb    291 32-bit values, which then need to be re-assembled in the compatibility layer.
295                                                   292 
296 (Note that a system call argument that's a poi    293 (Note that a system call argument that's a pointer to an explicit 64-bit type
297 does **not** need a compatibility layer; for e    294 does **not** need a compatibility layer; for example, :manpage:`splice(2)`'s arguments of
298 type ``loff_t __user *`` do not trigger the ne    295 type ``loff_t __user *`` do not trigger the need for a ``compat_`` system call.)
299                                                   296 
300 The compatibility version of the system call i    297 The compatibility version of the system call is called ``compat_sys_xyzzy()``,
301 and is added with the ``COMPAT_SYSCALL_DEFINEn    298 and is added with the ``COMPAT_SYSCALL_DEFINEn()`` macro, analogously to
302 SYSCALL_DEFINEn.  This version of the implemen    299 SYSCALL_DEFINEn.  This version of the implementation runs as part of a 64-bit
303 kernel, but expects to receive 32-bit paramete    300 kernel, but expects to receive 32-bit parameter values and does whatever is
304 needed to deal with them.  (Typically, the ``c    301 needed to deal with them.  (Typically, the ``compat_sys_`` version converts the
305 values to 64-bit versions and either calls on     302 values to 64-bit versions and either calls on to the ``sys_`` version, or both of
306 them call a common inner implementation functi    303 them call a common inner implementation function.)
307                                                   304 
308 The compat entry point also needs a correspond    305 The compat entry point also needs a corresponding function prototype, in
309 ``include/linux/compat.h``, marked as asmlinka    306 ``include/linux/compat.h``, marked as asmlinkage to match the way that system
310 calls are invoked::                               307 calls are invoked::
311                                                   308 
312     asmlinkage long compat_sys_xyzzy(...);        309     asmlinkage long compat_sys_xyzzy(...);
313                                                   310 
314 If the system call involves a structure that i    311 If the system call involves a structure that is laid out differently on 32-bit
315 and 64-bit systems, say ``struct xyzzy_args``,    312 and 64-bit systems, say ``struct xyzzy_args``, then the include/linux/compat.h
316 header file should also include a compat versi    313 header file should also include a compat version of the structure (``struct
317 compat_xyzzy_args``) where each variable-size     314 compat_xyzzy_args``) where each variable-size field has the appropriate
318 ``compat_`` type that corresponds to the type     315 ``compat_`` type that corresponds to the type in ``struct xyzzy_args``.  The
319 ``compat_sys_xyzzy()`` routine can then use th    316 ``compat_sys_xyzzy()`` routine can then use this ``compat_`` structure to
320 parse the arguments from a 32-bit invocation.     317 parse the arguments from a 32-bit invocation.
321                                                   318 
322 For example, if there are fields::                319 For example, if there are fields::
323                                                   320 
324     struct xyzzy_args {                           321     struct xyzzy_args {
325         const char __user *ptr;                   322         const char __user *ptr;
326         __kernel_long_t varying_val;              323         __kernel_long_t varying_val;
327         u64 fixed_val;                            324         u64 fixed_val;
328         /* ... */                                 325         /* ... */
329     };                                            326     };
330                                                   327 
331 in struct xyzzy_args, then struct compat_xyzzy    328 in struct xyzzy_args, then struct compat_xyzzy_args would have::
332                                                   329 
333     struct compat_xyzzy_args {                    330     struct compat_xyzzy_args {
334         compat_uptr_t ptr;                        331         compat_uptr_t ptr;
335         compat_long_t varying_val;                332         compat_long_t varying_val;
336         u64 fixed_val;                            333         u64 fixed_val;
337         /* ... */                                 334         /* ... */
338     };                                            335     };
339                                                   336 
340 The generic system call list also needs adjust    337 The generic system call list also needs adjusting to allow for the compat
341 version; the entry in ``include/uapi/asm-gener    338 version; the entry in ``include/uapi/asm-generic/unistd.h`` should use
342 ``__SC_COMP`` rather than ``__SYSCALL``::         339 ``__SC_COMP`` rather than ``__SYSCALL``::
343                                                   340 
344     #define __NR_xyzzy 292                        341     #define __NR_xyzzy 292
345     __SC_COMP(__NR_xyzzy, sys_xyzzy, compat_sy    342     __SC_COMP(__NR_xyzzy, sys_xyzzy, compat_sys_xyzzy)
346                                                   343 
347 To summarize, you need:                           344 To summarize, you need:
348                                                   345 
349  - a ``COMPAT_SYSCALL_DEFINEn(xyzzy, ...)`` fo    346  - a ``COMPAT_SYSCALL_DEFINEn(xyzzy, ...)`` for the compat entry point
350  - corresponding prototype in ``include/linux/    347  - corresponding prototype in ``include/linux/compat.h``
351  - (if needed) 32-bit mapping struct in ``incl    348  - (if needed) 32-bit mapping struct in ``include/linux/compat.h``
352  - instance of ``__SC_COMP`` not ``__SYSCALL``    349  - instance of ``__SC_COMP`` not ``__SYSCALL`` in
353    ``include/uapi/asm-generic/unistd.h``          350    ``include/uapi/asm-generic/unistd.h``
354                                                   351 
355                                                   352 
356 Compatibility System Calls (x86)                  353 Compatibility System Calls (x86)
357 --------------------------------                  354 --------------------------------
358                                                   355 
359 To wire up the x86 architecture of a system ca    356 To wire up the x86 architecture of a system call with a compatibility version,
360 the entries in the syscall tables need to be a    357 the entries in the syscall tables need to be adjusted.
361                                                   358 
362 First, the entry in ``arch/x86/entry/syscalls/    359 First, the entry in ``arch/x86/entry/syscalls/syscall_32.tbl`` gets an extra
363 column to indicate that a 32-bit userspace pro    360 column to indicate that a 32-bit userspace program running on a 64-bit kernel
364 should hit the compat entry point::               361 should hit the compat entry point::
365                                                   362 
366     380   i386     xyzzy     sys_xyzzy    __ia !! 363     380   i386     xyzzy     sys_xyzzy    compat_sys_xyzzy
367                                                   364 
368 Second, you need to figure out what should hap    365 Second, you need to figure out what should happen for the x32 ABI version of
369 the new system call.  There's a choice here: t    366 the new system call.  There's a choice here: the layout of the arguments
370 should either match the 64-bit version or the     367 should either match the 64-bit version or the 32-bit version.
371                                                   368 
372 If there's a pointer-to-a-pointer involved, th    369 If there's a pointer-to-a-pointer involved, the decision is easy: x32 is
373 ILP32, so the layout should match the 32-bit v    370 ILP32, so the layout should match the 32-bit version, and the entry in
374 ``arch/x86/entry/syscalls/syscall_64.tbl`` is     371 ``arch/x86/entry/syscalls/syscall_64.tbl`` is split so that x32 programs hit
375 the compatibility wrapper::                       372 the compatibility wrapper::
376                                                   373 
377     333   64       xyzzy     sys_xyzzy            374     333   64       xyzzy     sys_xyzzy
378     ...                                           375     ...
379     555   x32      xyzzy     __x32_compat_sys_ !! 376     555   x32      xyzzy     compat_sys_xyzzy
380                                                   377 
381 If no pointers are involved, then it is prefer    378 If no pointers are involved, then it is preferable to re-use the 64-bit system
382 call for the x32 ABI (and consequently the ent    379 call for the x32 ABI (and consequently the entry in
383 arch/x86/entry/syscalls/syscall_64.tbl is unch    380 arch/x86/entry/syscalls/syscall_64.tbl is unchanged).
384                                                   381 
385 In either case, you should check that the type    382 In either case, you should check that the types involved in your argument
386 layout do indeed map exactly from x32 (-mx32)     383 layout do indeed map exactly from x32 (-mx32) to either the 32-bit (-m32) or
387 64-bit (-m64) equivalents.                        384 64-bit (-m64) equivalents.
388                                                   385 
389                                                   386 
390 System Calls Returning Elsewhere                  387 System Calls Returning Elsewhere
391 --------------------------------                  388 --------------------------------
392                                                   389 
393 For most system calls, once the system call is    390 For most system calls, once the system call is complete the user program
394 continues exactly where it left off -- at the     391 continues exactly where it left off -- at the next instruction, with the
395 stack the same and most of the registers the s    392 stack the same and most of the registers the same as before the system call,
396 and with the same virtual memory space.           393 and with the same virtual memory space.
397                                                   394 
398 However, a few system calls do things differen    395 However, a few system calls do things differently.  They might return to a
399 different location (``rt_sigreturn``) or chang    396 different location (``rt_sigreturn``) or change the memory space
400 (``fork``/``vfork``/``clone``) or even archite    397 (``fork``/``vfork``/``clone``) or even architecture (``execve``/``execveat``)
401 of the program.                                   398 of the program.
402                                                   399 
403 To allow for this, the kernel implementation o    400 To allow for this, the kernel implementation of the system call may need to
404 save and restore additional registers to the k    401 save and restore additional registers to the kernel stack, allowing complete
405 control of where and how execution continues a    402 control of where and how execution continues after the system call.
406                                                   403 
407 This is arch-specific, but typically involves     404 This is arch-specific, but typically involves defining assembly entry points
408 that save/restore additional registers and inv    405 that save/restore additional registers and invoke the real system call entry
409 point.                                            406 point.
410                                                   407 
411 For x86_64, this is implemented as a ``stub_xy    408 For x86_64, this is implemented as a ``stub_xyzzy`` entry point in
412 ``arch/x86/entry/entry_64.S``, and the entry i    409 ``arch/x86/entry/entry_64.S``, and the entry in the syscall table
413 (``arch/x86/entry/syscalls/syscall_64.tbl``) i    410 (``arch/x86/entry/syscalls/syscall_64.tbl``) is adjusted to match::
414                                                   411 
415     333   common   xyzzy     stub_xyzzy           412     333   common   xyzzy     stub_xyzzy
416                                                   413 
417 The equivalent for 32-bit programs running on     414 The equivalent for 32-bit programs running on a 64-bit kernel is normally
418 called ``stub32_xyzzy`` and implemented in ``a    415 called ``stub32_xyzzy`` and implemented in ``arch/x86/entry/entry_64_compat.S``,
419 with the corresponding syscall table adjustmen    416 with the corresponding syscall table adjustment in
420 ``arch/x86/entry/syscalls/syscall_32.tbl``::      417 ``arch/x86/entry/syscalls/syscall_32.tbl``::
421                                                   418 
422     380   i386     xyzzy     sys_xyzzy    stub    419     380   i386     xyzzy     sys_xyzzy    stub32_xyzzy
423                                                   420 
424 If the system call needs a compatibility layer    421 If the system call needs a compatibility layer (as in the previous section)
425 then the ``stub32_`` version needs to call on     422 then the ``stub32_`` version needs to call on to the ``compat_sys_`` version
426 of the system call rather than the native 64-b    423 of the system call rather than the native 64-bit version.  Also, if the x32 ABI
427 implementation is not common with the x86_64 v    424 implementation is not common with the x86_64 version, then its syscall
428 table will also need to invoke a stub that cal    425 table will also need to invoke a stub that calls on to the ``compat_sys_``
429 version.                                          426 version.
430                                                   427 
431 For completeness, it's also nice to set up a m    428 For completeness, it's also nice to set up a mapping so that user-mode Linux
432 still works -- its syscall table will referenc    429 still works -- its syscall table will reference stub_xyzzy, but the UML build
433 doesn't include ``arch/x86/entry/entry_64.S``     430 doesn't include ``arch/x86/entry/entry_64.S`` implementation (because UML
434 simulates registers etc).  Fixing this is as s    431 simulates registers etc).  Fixing this is as simple as adding a #define to
435 ``arch/x86/um/sys_call_table_64.c``::             432 ``arch/x86/um/sys_call_table_64.c``::
436                                                   433 
437     #define stub_xyzzy sys_xyzzy                  434     #define stub_xyzzy sys_xyzzy
438                                                   435 
439                                                   436 
440 Other Details                                     437 Other Details
441 -------------                                     438 -------------
442                                                   439 
443 Most of the kernel treats system calls in a ge    440 Most of the kernel treats system calls in a generic way, but there is the
444 occasional exception that may need updating fo    441 occasional exception that may need updating for your particular system call.
445                                                   442 
446 The audit subsystem is one such special case;     443 The audit subsystem is one such special case; it includes (arch-specific)
447 functions that classify some special types of     444 functions that classify some special types of system call -- specifically
448 file open (``open``/``openat``), program execu    445 file open (``open``/``openat``), program execution (``execve``/``exeveat``) or
449 socket multiplexor (``socketcall``) operations    446 socket multiplexor (``socketcall``) operations. If your new system call is
450 analogous to one of these, then the audit syst    447 analogous to one of these, then the audit system should be updated.
451                                                   448 
452 More generally, if there is an existing system    449 More generally, if there is an existing system call that is analogous to your
453 new system call, it's worth doing a kernel-wid    450 new system call, it's worth doing a kernel-wide grep for the existing system
454 call to check there are no other special cases    451 call to check there are no other special cases.
455                                                   452 
456                                                   453 
457 Testing                                           454 Testing
458 -------                                           455 -------
459                                                   456 
460 A new system call should obviously be tested;     457 A new system call should obviously be tested; it is also useful to provide
461 reviewers with a demonstration of how user spa    458 reviewers with a demonstration of how user space programs will use the system
462 call.  A good way to combine these aims is to     459 call.  A good way to combine these aims is to include a simple self-test
463 program in a new directory under ``tools/testi    460 program in a new directory under ``tools/testing/selftests/``.
464                                                   461 
465 For a new system call, there will obviously be    462 For a new system call, there will obviously be no libc wrapper function and so
466 the test will need to invoke it using ``syscal    463 the test will need to invoke it using ``syscall()``; also, if the system call
467 involves a new userspace-visible structure, th    464 involves a new userspace-visible structure, the corresponding header will need
468 to be installed to compile the test.              465 to be installed to compile the test.
469                                                   466 
470 Make sure the selftest runs successfully on al    467 Make sure the selftest runs successfully on all supported architectures.  For
471 example, check that it works when compiled as     468 example, check that it works when compiled as an x86_64 (-m64), x86_32 (-m32)
472 and x32 (-mx32) ABI program.                      469 and x32 (-mx32) ABI program.
473                                                   470 
474 For more extensive and thorough testing of new    471 For more extensive and thorough testing of new functionality, you should also
475 consider adding tests to the Linux Test Projec    472 consider adding tests to the Linux Test Project, or to the xfstests project
476 for filesystem-related changes.                   473 for filesystem-related changes.
477                                                   474 
478  - https://linux-test-project.github.io/          475  - https://linux-test-project.github.io/
479  - git://git.kernel.org/pub/scm/fs/xfs/xfstest    476  - git://git.kernel.org/pub/scm/fs/xfs/xfstests-dev.git
480                                                   477 
481                                                   478 
482 Man Page                                          479 Man Page
483 --------                                          480 --------
484                                                   481 
485 All new system calls should come with a comple    482 All new system calls should come with a complete man page, ideally using groff
486 markup, but plain text will do.  If groff is u    483 markup, but plain text will do.  If groff is used, it's helpful to include a
487 pre-rendered ASCII version of the man page in     484 pre-rendered ASCII version of the man page in the cover email for the
488 patchset, for the convenience of reviewers.       485 patchset, for the convenience of reviewers.
489                                                   486 
490 The man page should be cc'ed to linux-man@vger    487 The man page should be cc'ed to linux-man@vger.kernel.org
491 For more details, see https://www.kernel.org/d    488 For more details, see https://www.kernel.org/doc/man-pages/patches.html
492                                                   489 
493                                                << 
494 Do not call System Calls in the Kernel         << 
495 --------------------------------------         << 
496                                                << 
497 System calls are, as stated above, interaction << 
498 the kernel.  Therefore, system call functions  << 
499 ``compat_sys_xyzzy()`` should only be called f << 
500 table, but not from elsewhere in the kernel.   << 
501 useful to be used within the kernel, needs to  << 
502 new syscall, or needs to be shared between a s << 
503 variant, it should be implemented by means of  << 
504 ``ksys_xyzzy()``).  This kernel function may t << 
505 syscall stub (``sys_xyzzy()``), the compatibil << 
506 (``compat_sys_xyzzy()``), and/or other kernel  << 
507                                                << 
508 At least on 64-bit x86, it will be a hard requ << 
509 call system call functions in the kernel.  It  << 
510 convention for system calls where ``struct pt_ << 
511 syscall wrapper which then hands processing ov << 
512 This means that only those parameters which ar << 
513 syscall are passed on during syscall entry, in << 
514 registers with random user space content all t << 
515 trouble down the call chain).                  << 
516                                                << 
517 Moreover, rules on how data may be accessed ma << 
518 user data.  This is another reason why calling << 
519 bad idea.                                      << 
520                                                << 
521 Exceptions to this rule are only allowed in ar << 
522 architecture-specific compatibility wrappers,  << 
523                                                << 
524                                                << 
525 References and Sources                            490 References and Sources
526 ----------------------                            491 ----------------------
527                                                   492 
528  - LWN article from Michael Kerrisk on use of     493  - LWN article from Michael Kerrisk on use of flags argument in system calls:
529    https://lwn.net/Articles/585415/               494    https://lwn.net/Articles/585415/
530  - LWN article from Michael Kerrisk on how to     495  - LWN article from Michael Kerrisk on how to handle unknown flags in a system
531    call: https://lwn.net/Articles/588444/         496    call: https://lwn.net/Articles/588444/
532  - LWN article from Jake Edge describing const    497  - LWN article from Jake Edge describing constraints on 64-bit system call
533    arguments: https://lwn.net/Articles/311630/    498    arguments: https://lwn.net/Articles/311630/
534  - Pair of LWN articles from David Drysdale th    499  - Pair of LWN articles from David Drysdale that describe the system call
535    implementation paths in detail for v3.14:      500    implementation paths in detail for v3.14:
536                                                   501 
537     - https://lwn.net/Articles/604287/            502     - https://lwn.net/Articles/604287/
538     - https://lwn.net/Articles/604515/            503     - https://lwn.net/Articles/604515/
539                                                   504 
540  - Architecture-specific requirements for syst    505  - Architecture-specific requirements for system calls are discussed in the
541    :manpage:`syscall(2)` man-page:                506    :manpage:`syscall(2)` man-page:
542    http://man7.org/linux/man-pages/man2/syscal    507    http://man7.org/linux/man-pages/man2/syscall.2.html#NOTES
543  - Collated emails from Linus Torvalds discuss    508  - Collated emails from Linus Torvalds discussing the problems with ``ioctl()``:
544    https://yarchive.net/comp/linux/ioctl.html  !! 509    http://yarchive.net/comp/linux/ioctl.html
545  - "How to not invent kernel interfaces", Arnd    510  - "How to not invent kernel interfaces", Arnd Bergmann,
546    https://www.ukuug.org/events/linux2007/2007 !! 511    http://www.ukuug.org/events/linux2007/2007/papers/Bergmann.pdf
547  - LWN article from Michael Kerrisk on avoidin    512  - LWN article from Michael Kerrisk on avoiding new uses of CAP_SYS_ADMIN:
548    https://lwn.net/Articles/486306/               513    https://lwn.net/Articles/486306/
549  - Recommendation from Andrew Morton that all     514  - Recommendation from Andrew Morton that all related information for a new
550    system call should come in the same email t    515    system call should come in the same email thread:
551    https://lore.kernel.org/r/20140724144747.30 !! 516    https://lkml.org/lkml/2014/7/24/641
552  - Recommendation from Michael Kerrisk that a     517  - Recommendation from Michael Kerrisk that a new system call should come with
553    a man page: https://lore.kernel.org/r/CAKgN !! 518    a man page: https://lkml.org/lkml/2014/6/13/309
554  - Suggestion from Thomas Gleixner that x86 wi    519  - Suggestion from Thomas Gleixner that x86 wire-up should be in a separate
555    commit: https://lore.kernel.org/r/alpine.DE !! 520    commit: https://lkml.org/lkml/2014/11/19/254
556  - Suggestion from Greg Kroah-Hartman that it'    521  - Suggestion from Greg Kroah-Hartman that it's good for new system calls to
557    come with a man-page & selftest: https://lo !! 522    come with a man-page & selftest: https://lkml.org/lkml/2014/3/19/710
558  - Discussion from Michael Kerrisk of new syst    523  - Discussion from Michael Kerrisk of new system call vs. :manpage:`prctl(2)` extension:
559    https://lore.kernel.org/r/CAHO5Pa3F2MjfTtfN !! 524    https://lkml.org/lkml/2014/6/3/411
560  - Suggestion from Ingo Molnar that system cal    525  - Suggestion from Ingo Molnar that system calls that involve multiple
561    arguments should encapsulate those argument    526    arguments should encapsulate those arguments in a struct, which includes a
562    size field for future extensibility: https: !! 527    size field for future extensibility: https://lkml.org/lkml/2015/7/30/117
563  - Numbering oddities arising from (re-)use of    528  - Numbering oddities arising from (re-)use of O_* numbering space flags:
564                                                   529 
565     - commit 75069f2b5bfb ("vfs: renumber FMOD    530     - commit 75069f2b5bfb ("vfs: renumber FMODE_NONOTIFY and add to uniqueness
566       check")                                     531       check")
567     - commit 12ed2e36c98a ("fanotify: FMODE_NO    532     - commit 12ed2e36c98a ("fanotify: FMODE_NONOTIFY and __O_SYNC in sparc
568       conflict")                                  533       conflict")
569     - commit bb458c644a59 ("Safer ABI for O_TM    534     - commit bb458c644a59 ("Safer ABI for O_TMPFILE")
570                                                   535 
571  - Discussion from Matthew Wilcox about restri    536  - Discussion from Matthew Wilcox about restrictions on 64-bit arguments:
572    https://lore.kernel.org/r/20081212152929.GM !! 537    https://lkml.org/lkml/2008/12/12/187
573  - Recommendation from Greg Kroah-Hartman that    538  - Recommendation from Greg Kroah-Hartman that unknown flags should be
574    policed: https://lore.kernel.org/r/20140717 !! 539    policed: https://lkml.org/lkml/2014/7/17/577
575  - Recommendation from Linus Torvalds that x32    540  - Recommendation from Linus Torvalds that x32 system calls should prefer
576    compatibility with 64-bit versions rather t    541    compatibility with 64-bit versions rather than 32-bit versions:
577    https://lore.kernel.org/r/CA+55aFxfmwfB7jbb !! 542    https://lkml.org/lkml/2011/8/31/244
                                                      

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