2015-07-28 11:41:48

by David Drysdale

[permalink] [raw]
Subject: [PATCH RFC 0/1] Document how to add a new syscall

Given that I've gotten some of the details wrong in the past (and I've
seen others do likewise), I thought it might be helpful to collate the
best practices for adding a new system call to the kernel.

Apologies for the wide circulation -- I've tried to include folk who've
recently added or proposed a system call, as they're most likely to
have opinions on:
- whether this a useful addition to Documentation/
- whether the details of the advice are correct and complete.

Shuah, is there anything more that should be added for the Testing
section in particular?

Thanks,
David

(With thanks to Andrew Morton for looking over an initial draft, and to
Michael Kerrisk for suggesting several clarifications and additions.)


David Drysdale (1):
Documentation: describe how to add a system call

Documentation/adding-syscalls.txt | 454 ++++++++++++++++++++++++++++++++++++++
1 file changed, 454 insertions(+)
create mode 100644 Documentation/adding-syscalls.txt

--
2.2.0.rc0.207.ga3a616c


2015-07-28 11:42:01

by David Drysdale

[permalink] [raw]
Subject: [PATCH RFC 1/1] Documentation: describe how to add a system call

Add a document describing the process of adding a new system call,
including the need for a flags argument for future compatibility, and
covering 32-bit/64-bit concerns (albeit in an x86-centric way).

Signed-off-by: David Drysdale <[email protected]>
Reviewed-by: Michael Kerrisk <[email protected]>

---
Documentation/adding-syscalls.txt | 454 ++++++++++++++++++++++++++++++++++++++
1 file changed, 454 insertions(+)
create mode 100644 Documentation/adding-syscalls.txt

diff --git a/Documentation/adding-syscalls.txt b/Documentation/adding-syscalls.txt
new file mode 100644
index 000000000000..5f52edda8951
--- /dev/null
+++ b/Documentation/adding-syscalls.txt
@@ -0,0 +1,454 @@
+Adding a New System Call
+========================
+
+This document describes what's involved in adding a new system call to the
+Linux kernel, over and above the normal submission advice in
+Documentation/SubmittingPatches.
+
+
+System Call Alternatives
+------------------------
+
+The first thing to consider when adding a new system call is whether one of
+the alternatives might be suitable instead. Although system calls are the
+most traditional and most obvious interaction points between userspace and the
+kernel, there are other possibilities -- choose what fits best for your
+interface.
+
+ - If the operations involved can be made to look like a filesystem-like
+ object, it may make more sense to create a new filesystem or device. This
+ also makes it easier to encapsulate the new functionality in a kernel module
+ rather than requiring it to be built into the main kernel.
+ - If the new functionality involves operations where the kernel notifies
+ userspace that something has happened, then returning a new file
+ descriptor for the relevant object allows userspace to use
+ poll/select/epoll to receive that notification.
+ - However, operations that don't map to read(2)/write(2)-like operations
+ have to be implemented as ioctl(2) requests, which can lead to a
+ somewhat opaque API.
+ - If you're just exposing runtime system information, a new node in sysfs
+ (see Documentation/filesystems/sysfs.txt) or the /proc filesystem may be
+ more appropriate. However, access to these mechanisms requires that the
+ relevant filesystem is mounted, which might not always be the case (e.g.
+ in a namespaced/sandboxed/chrooted environment).
+ - If the operation is specific to a particular file or file descriptor, then
+ an additional fcntl(2) command option may be more appropriate. However,
+ fcntl(2) is a multiplexing system call that hides a lot of complexity, so
+ this option is best for when the new function is closely analogous to
+ existing fcntl(2) functionality, or the new functionality is very simple
+ (for example, getting/setting a simple flag related to a file descriptor).
+ - If the operation is specific to a particular task or process, then an
+ additional prctl(2) command option may be more appropriate. As with
+ fcntl(2), this system call is a complicated multiplexor so is best reserved
+ for near-analogs of existing prctl() commands or getting/setting a simple
+ flag related to a process.
+
+
+Designing the API
+-----------------
+
+A new system call forms part of the API of the kernel, and has to be supported
+indefinitely. As such, it's a very good idea to explicitly discuss the
+interface on the kernel mailing list, and to plan for future extensions of the
+interface. In particular:
+
+ **Include a flags argument for every new system call**
+
+The syscall table is littered with historical examples where this wasn't done,
+together with the corresponding follow-up system calls (eventfd/eventfd2,
+dup2/dup3, inotify_init/inotify_init1, pipe/pipe2, renameat/renameat2), so
+learn from the history of the kernel and include a flags argument from the
+start.
+
+Also, to make sure that userspace programs can safely use flags between kernel
+versions, check whether the flags value holds any unknown flags, and reject the
+sycall (with EINVAL) if it does:
+
+ if (flags & ~(THING_FLAG1 | THING_FLAG2 | THING_FLAG3))
+ return -EINVAL;
+
+If your new xyzzy(2) system call returns a new file descriptor, then the flags
+argument should include a value that is equivalent to setting O_CLOEXEC on the
+new FD. This makes it possible for userspace to close the timing window
+between xyzzy() and calling fcntl(fd, F_SETFD, FD_CLOEXEC), where an
+unexpected fork() and execve() in another thread could leak a descriptor to
+the exec'ed program. (However, resist the temptation to re-use the actual value
+of the O_CLOEXEC constant, as it is architecture-specific and is part of a
+numbering space of O_* flags that is fairly full.)
+
+If your new xyzzy(2) system call involves a filename argument:
+
+ int sys_xyzzy(const char __user *path, ..., unsigned int flags);
+
+you should also consider whether an xyzzyat(2) version is more appropriate:
+
+ int sys_xyzzyat(int dfd, const char __user *path, ..., unsigned int flags);
+
+This allows more flexibility for how userspace specifies the file in question;
+in particular it allows userspace to request the functionality for an
+already-opened file descriptor using the AT_EMPTY_PATH flag, effectively giving
+an fxyzzy(3) operation for free:
+
+ - xyzzyat(AT_FDCWD, path, ..., 0) is equivalent to xyzzy(path,...)
+ - xyzzyat(fd, "", ..., AT_EMPTY_PATH) is equivalent to fxyzzy(fd, ...)
+
+(For more details on the rationale of the *at() calls, see the openat(2) man
+page; for an example of AT_EMPTY_PATH, see the statat(2) man page.)
+
+If your new xyzzy(2) system call involves a parameter describing an offset
+within a file, make its type loff_t so that 64-bit offsets can be supported
+even on 32-bit architectures.
+
+If your new xyzzy(2) system call involves administrative functionality, it
+needs to be governed by the appropriate Linux capability bit, as described in
+the capabilities(7) man page.
+
+ - If there is an existing capability that governs related functionality, then
+ use that. However, avoid combining lots of only vaguely related functions
+ together under the same bit, as this goes against capabilities' purpose of
+ splitting the power of root. In particular, avoid adding new uses of the
+ already overly-general CAP_SYS_ADMIN capability.
+ - If there is no related capability, then consider adding a new capability
+ bit -- but bear in mind that the numbering space is limited, and each new
+ bit needs to be understood and administered by sysadmins.
+
+Finally, be aware that some non-x86 architectures have an easier time if
+system call parameters that are explicitly 64-bit fall on odd-numbered
+arguments (i.e. parameter 1, 3, 5), to allow use of contiguous pairs of 32-bit
+registers.
+
+
+Proposing the API
+-----------------
+
+To make new system calls easy to review, it's best to divide up the patchset
+into separate chunks. These should include at least the following items as
+distinct commits (each of which is described further below):
+
+ - The core implementation of the system call together with prototypes, generic
+ numbering and fallback stub implementation.
+ - Wiring up of the new system call for one particular architecture, usually
+ x86 (including all of x86_64, x86_32 and x32).
+ - A demonstration of the use of the new system call in userspace via a
+ selftest.
+ - A draft man-page for the new system call.
+
+Changes to the kernel's API should always be cc'ed to [email protected]
+
+
+Generic System Call Implementation
+----------------------------------
+
+The main entry point for your new xyzzy(2) system call will be called
+sys_xyzzy(), but you add this entry point with the appropriate
+SYSCALL_DEFINEn() macro rather than explicitly. The 'n' indicates the number
+of arguments to the system call, and the macro takes the system call name
+followed by the (type, name) pairs for the parameters as arguments. Using
+this macro allows metadata about the new system call to be made available for
+other tools.
+
+The new entry point also needs a corresponding function prototype, in
+include/linux/syscalls.h, marked as asmlinkage to match the way that system
+calls are invoked:
+
+ asmlinkage long sys_xyzzy(...);
+
+Some architectures (e.g. x86) have their own architecture-specific syscall
+tables, but several other architectures share a generic syscall table. Add your
+new system call to the generic list by adding an entry to the list in
+include/uapi/asm-generic/unistd.h:
+
+ #define __NR_xyzzy 292
+ __SYSCALL(__NR_xyzzy, sys_xyzzy)
+
+Also update the __NR_syscalls count to reflect the additional system call, and
+note that if multiple new system calls are added in the same merge window,
+your new syscall number may get adjusted to resolve conflicts.
+
+The file kernel/sys_ni.c provides a fallback stub implementation of each system
+call, returning -ENOSYS. Add your new system call here too:
+
+ cond_syscall(sys_xyzzy);
+
+To summarize, you need a commit that includes:
+
+ - SYSCALL_DEFINEn(xyzzy, ...) for the entry point
+ - corresponding prototype in include/linux/syscalls.h
+ - generic table entry in include/uapi/asm-generic/unistd.h
+ - fallback stub in kernel/sys_ni.c
+
+
+x86 System Call Implementation
+------------------------------
+
+To wire up your new system call for x86 platforms, you need to update the
+master syscall tables. Assuming your new system call isn't special in some
+way (see below), this involves a "common" entry (for x86_64 and x32) in
+arch/x86/entry/syscalls/syscall_64.tbl:
+
+ 333 common xyzzy sys_xyzzy
+
+and an "i386" entry in arch/x86/entry/syscalls/syscall_32.tbl:
+
+ 380 i386 xyzzy sys_xyzzy
+
+Again, these numbers are liable to be changed if there are conflicts in the
+relevant merge window.
+
+
+Compatibility System Calls (Generic)
+------------------------------------
+
+For most system calls the same 64-bit implementation can be invoked even when
+the userspace program is itself 32-bit; even if the system call's parameters
+include an explicit pointer, this is handled transparently.
+
+However, there are a couple of situations where a compatibility layer is
+needed to cope with size differences between 32-bit and 64-bit.
+
+The first is if the 64-bit kernel also supports 32-bit userspace programs, and
+so needs to parse areas of (__user) memory that could hold either 32-bit or
+64-bit values. In particular, this is needed whenever a system call argument
+is:
+
+ - a pointer to a pointer
+ - a pointer to a struct containing a pointer (e.g. struct iovec __user *)
+ - a pointer to a varying sized integral type (time_t, off_t, long, ...)
+ - a pointer to a struct containing a varying sized integral type.
+
+The second situation that requires a compatibility layer is if one of the
+system call's arguments has a type that is explicitly 64-bit even on a 32-bit
+architecture, for example loff_t or __u64. In this case, a value that arrives
+at a 64-bit kernel from a 32-bit application will be split into two 32-bit
+values, which then need to be re-assembled in the compatibility layer.
+
+(Note that a system call argument that's a pointer to an explicit 64-bit type
+does *not* need a compatibility layer; for example, splice(2)'s arguments of
+type loff_t __user * do not trigger the need for a compat_ system call.)
+
+The compatibility version of the system call is called compat_sys_xyzzy(), and
+is added with the COMPAT_SYSCALL_DEFINEn() macro, analogously to
+SYSCALL_DEFINEn. This version of the implementation runs as part of a 64-bit
+kernel, but expects to receive 32-bit parameter values and does whatever is
+needed to deal with them. (Typically, the compat_sys_ version converts the
+values to 64-bit versions and either calls on to the sys_ version, or both of
+them call a common inner implementation function.)
+
+The compat entry point also needs a corresponding function prototype, in
+include/linux/compat.h, marked as asmlinkage to match the way that system
+calls are invoked:
+
+ asmlinkage long compat_sys_xyzzy(...);
+
+If the system call involves a structure that is laid out differently on 32-bit
+and 64-bit systems, say struct xyzzy_args, then the include/linux/compat.h
+header file should also include a compat version of the structure (struct
+compat_xyzzy_args) where each variable-size field has the appropriate compat_
+type that corresponds to the type in struct xyzzy_args. The
+compat_sys_xyzzy() routine can then use this compat_ structure to parse the
+arguments from a 32-bit invocation.
+
+For example, if there are fields:
+
+ struct xyzzy_args {
+ const char __user *ptr;
+ __kernel_long_t varying_val;
+ u64 fixed_val;
+ /* ... */
+ };
+
+in struct xyzzy_args, then struct compat_xyzzy_args would have:
+
+ struct compat_xyzzy_args {
+ compat_uptr_t ptr;
+ compat_long_t varying_val;
+ u64 fixed_val;
+ /* ... */
+ };
+
+The generic system call list also needs adjusting to allow for the compat
+version; the entry in include/uapi/asm-generic/unistd.h should use
+__SC_COMP rather than __SYSCALL:
+
+ #define __NR_xyzzy 292
+ __SC_COMP(__NR_xyzzy, sys_xyzzy, compat_sys_xyzzy)
+
+To summarize, you need:
+
+ - a COMPAT_SYSCALL_DEFINEn(xyzzy, ...) for the compat entry point
+ - corresponding prototype in include/linux/compat.h
+ - (if needed) 32-bit mapping struct in include/linux/compat.h
+ - instance of __SC_COMP not __SYSCALL in include/uapi/asm-generic/unistd.h
+
+
+Compatibility System Calls (x86)
+--------------------------------
+
+To wire up the x86 architecture of a system call with a compatibility version,
+the entries in the syscall tables need to be adjusted.
+
+First, the entry in arch/x86/entry/syscalls/syscall_32.tbl gets an extra
+column to indicate that a 32-bit userspace program running on a 64-bit kernel
+should hit the compat entry point:
+
+ 380 i386 xyzzy sys_xyzzy compat_sys_xyzzy
+
+Second, you need to figure out what should happen for the x32 ABI version of
+the new system call. There's a choice here: the layout of the arguments
+should either match the 64-bit version or the 32-bit version.
+
+If there's a pointer-to-a-pointer involved, the decision is easy: x32 is
+ILP32, so the layout should match the 32-bit version, and the entry in
+arch/x86/entry/syscalls/syscall_64.tbl is split so that x32 programs hit the
+compatibility wrapper:
+
+ 333 64 xyzzy sys_xyzzy
+ ...
+ 555 x32 xyzzy compat_sys_xyzzy
+
+If no pointers are involved, then it is preferable to re-use the 64-bit system
+call for the x32 ABI (and consequently the entry in
+arch/x86/entry/syscalls/syscall_64.tbl is unchanged).
+
+In either case, you should check that the types involved in your argument
+layout do indeed map exactly from x32 (-mx32) to either the 32-bit (-m32) or
+64-bit (-m64) equivalents.
+
+
+System Calls Returning Elsewhere
+--------------------------------
+
+For most system calls, once the system call is complete the user program
+continues exactly where it left off -- at the next instruction, with the same
+stack and registers as before the system call, and with the same virtual
+memory space.
+
+However, a few system calls do things differently. They might return to a
+different location (rt_sigreturn) or change the memory space (fork/vfork/clone)
+or even architecture (execve/execveat) of the program.
+
+To allow for this, the kernel implementation of the system call may need to
+save and restore additional registers to the kernel stack, allowing complete
+control of where and how execution continues after the system call.
+
+This is arch-specific, but typically involves defining assembly entry points
+that save/restore additional registers and invoke the real system call entry
+point.
+
+For x86_64, this is implemented as a stub_xyzzy entry point in
+arch/x86/entry/entry_64.S, and the entry in the syscall table
+(arch/x86/entry/syscalls/syscall_64.tbl) is adjusted to match:
+
+ 333 common xyzzy stub_xyzzy
+
+The equivalent for 32-bit programs running on a 64-bit kernel is normally
+called stub32_xyzzy and implemented in arch/x86/entry/entry_64_compat.S,
+with the corresponding syscall table adjustment in
+arch/x86/entry/syscalls/syscall_32.tbl:
+
+ 380 i386 xyzzy sys_xyzzy stub32_xyzzy
+
+If the system call needs a compatibility layer (as in the previous section)
+then the stub32_ version needs to call on to the compat_sys_ version of the
+system call rather than the native 64-bit version. Also, if the x32 ABI
+implementation is not common with the x86_64 version, then its syscall
+table will also need to invoke a stub that calls on to the compat_sys_
+version.
+
+For completeness, it's also nice to set up a mapping so that user-mode Linux
+still works -- its syscall table will reference stub_xyzzy, but the UML build
+doesn't include arch/x86/entry/entry_64.S implementation (because UML
+simulates registers etc). Fixing this is as simple as adding a #define to
+arch/x86/um/sys_call_table_64.c:
+
+ #define stub_xyzzy sys_xyzzy
+
+
+Other Details
+-------------
+
+Most of the kernel treats system calls in a generic way, but there is the
+occasional exception that may need updating for your particular system call.
+
+The audit subsystem is one such special case; it includes (arch-specific)
+functions that classify some special types of system call -- specifically
+file open (open/openat), program execution (execve/exeveat) or socket
+multiplexor (socketcall) operations. If your new system call is analogous to
+one of these, then the audit system should be updated.
+
+More generally, if there is an existing system call that is analogous to your
+new system call, it's worth doing a kernel-wide grep for the existing system
+call to check there are no other special cases.
+
+
+Testing
+-------
+
+A new system call should obviously be tested; it is also useful to provide
+reviewers with a demonstration of how user space programs will use the system
+call. A good way to combine these aims is to include a simple self-test
+program in a new directory under tools/testing/selftests/.
+
+Make sure the selftest runs successfully on all supported architectures. For
+example, check that it works when compiled as an x86_64 (-m64), x86_32 (-m32)
+and x32 (-mx32) ABI program.
+
+
+Man Page
+--------
+
+All new system calls should come with a complete man page, ideally using groff
+markup, but plain text will do. If groff is used, it's helpful to include a
+pre-rendered ASCII version of the man page in the cover email for the
+patchset, for the convenience of reviewers.
+
+The man page should be cc'ed to [email protected]
+
+
+References and Sources
+----------------------
+
+ - LWN article from Michael Kerrisk on use of flags argument in system calls:
+ https://lwn.net/Articles/585415/
+ - LWN article from Michael Kerrisk on how to handle unknown flags in a system
+ call: https://lwn.net/Articles/588444/
+ - LWN article from Jake Edge describing constraints on 64-bit system call
+ arguments: https://lwn.net/Articles/311630/
+ - Pair of LWN articles from David Drysdale that describe the system call
+ implementation paths in detail for v3.14:
+ - https://lwn.net/Articles/604287/
+ - https://lwn.net/Articles/604515/
+ - Architecture-specific requirements for system calls are discussed in the
+ syscall(2) man-page:
+ http://man7.org/linux/man-pages/man2/syscall.2.html#NOTES
+ - Collated emails from Linus Torvalds discussing the problems with ioctl():
+ http://yarchive.net/comp/linux/ioctl.html
+ - "How to not invent kernel interfaces", Arnd Bergmann,
+ http://www.ukuug.org/events/linux2007/2007/papers/Bergmann.pdf
+ - LWN article from Michael Kerrisk on avoiding new uses of CAP_SYS_ADMIN:
+ https://lwn.net/Articles/486306/
+
+ - Recommendation from Andrew Morton that all related information for a new
+ system call should come in the same email thread:
+ https://lkml.org/lkml/2014/7/24/641
+ - Recommendation from Michael Kerrisk that a new system call should come with
+ a man page: https://lkml.org/lkml/2014/6/13/309
+ - Suggestion from Thomas Gleixner that x86 wire-up should be in a separate
+ commit: https://lkml.org/lkml/2014/11/19/254
+ - Suggestion from Greg Kroah-Hartman that it's good for new system calls to
+ come with a man-page & selftest: https://lkml.org/lkml/2014/3/19/710
+ - Discussion from Michael Kerrisk of new system call vs. prctl(2) extension:
+ https://lkml.org/lkml/2014/6/3/411
+ - Numbering oddities arising from (re-)use of O_* numbering space flags:
+ - commit 75069f2b5bfb ("vfs: renumber FMODE_NONOTIFY and add to uniqueness
+ check")
+ - commit 12ed2e36c98a ("fanotify: FMODE_NONOTIFY and __O_SYNC in sparc
+ conflict")
+ - commit bb458c644a59 ("Safer ABI for O_TMPFILE")
+ - Discussion from Matthew Wilcox about restrictions on 64-bit arguments:
+ https://lkml.org/lkml/2008/12/12/187
+ - Recommendation from Greg Kroah-Hartman that unknown flags should be
+ policed: https://lkml.org/lkml/2014/7/17/577
+ - Recommendation from Linus Torvalds that x32 system calls should prefer
+ compatibility with 64-bit versions rather than 32-bit versions:
+ https://lkml.org/lkml/2011/8/31/244
--
2.4.3.573.g4eafbef

2015-07-28 13:59:30

by Shuah Khan

[permalink] [raw]
Subject: Re: [PATCH RFC 0/1] Document how to add a new syscall

On 07/28/2015 05:41 AM, David Drysdale wrote:
> Given that I've gotten some of the details wrong in the past (and I've
> seen others do likewise), I thought it might be helpful to collate the
> best practices for adding a new system call to the kernel.
>
> Apologies for the wide circulation -- I've tried to include folk who've
> recently added or proposed a system call, as they're most likely to
> have opinions on:
> - whether this a useful addition to Documentation/
> - whether the details of the advice are correct and complete.
>
> Shuah, is there anything more that should be added for the Testing
> section in particular?
>

David,

Looks good. You could add a one liner on in some cases, it might be
necessary to install headers before test compiles. Other than that,
the information looks good.

thanks,
-- Shuah


--
Shuah Khan
Sr. Linux Kernel Developer
Open Source Innovation Group
Samsung Research America (Silicon Valley)
[email protected] | (970) 217-8978

2015-07-28 14:14:50

by Eric B Munson

[permalink] [raw]
Subject: Re: [PATCH RFC 1/1] Documentation: describe how to add a system call

On Tue, 28 Jul 2015, David Drysdale wrote:

> Add a document describing the process of adding a new system call,
> including the need for a flags argument for future compatibility, and
> covering 32-bit/64-bit concerns (albeit in an x86-centric way).
>
> Signed-off-by: David Drysdale <[email protected]>
> Reviewed-by: Michael Kerrisk <[email protected]>

This is really helpful

Reviewed-by: Eric B Munson <[email protected]>


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2015-07-28 14:19:53

by Peter Zijlstra

[permalink] [raw]
Subject: Re: [PATCH RFC 0/1] Document how to add a new syscall

On Tue, Jul 28, 2015 at 07:59:16AM -0600, Shuah Khan wrote:
> On 07/28/2015 05:41 AM, David Drysdale wrote:
> > Given that I've gotten some of the details wrong in the past (and I've
> > seen others do likewise), I thought it might be helpful to collate the
> > best practices for adding a new system call to the kernel.
> >
> > Apologies for the wide circulation -- I've tried to include folk who've
> > recently added or proposed a system call, as they're most likely to
> > have opinions on:
> > - whether this a useful addition to Documentation/
> > - whether the details of the advice are correct and complete.
> >
> > Shuah, is there anything more that should be added for the Testing
> > section in particular?
> >
>
> David,
>
> Looks good. You could add a one liner on in some cases, it might be
> necessary to install headers before test compiles. Other than that,
> the information looks good.

For perf we still use the syscall() wrapper and we have hardcoded
(fallback) syscall numbers in there in case they've not yet reached
unistd.h.

People update their kernels far more often than their userspace headers.

2015-07-28 16:02:29

by David Drysdale

[permalink] [raw]
Subject: Re: [PATCH RFC 0/1] Document how to add a new syscall

On Tue, Jul 28, 2015 at 3:19 PM, Peter Zijlstra <[email protected]> wrote:
> On Tue, Jul 28, 2015 at 07:59:16AM -0600, Shuah Khan wrote:
>> On 07/28/2015 05:41 AM, David Drysdale wrote:
>> > Given that I've gotten some of the details wrong in the past (and I've
>> > seen others do likewise), I thought it might be helpful to collate the
>> > best practices for adding a new system call to the kernel.
>> >
>> > Apologies for the wide circulation -- I've tried to include folk who've
>> > recently added or proposed a system call, as they're most likely to
>> > have opinions on:
>> > - whether this a useful addition to Documentation/
>> > - whether the details of the advice are correct and complete.
>> >
>> > Shuah, is there anything more that should be added for the Testing
>> > section in particular?
>> >
>>
>> David,
>>
>> Looks good. You could add a one liner on in some cases, it might be
>> necessary to install headers before test compiles. Other than that,
>> the information looks good.
>
> For perf we still use the syscall() wrapper and we have hardcoded
> (fallback) syscall numbers in there in case they've not yet reached
> unistd.h.
>
> People update their kernels far more often than their userspace headers.

How about:

diff --git a/Documentation/adding-syscalls.txt
b/Documentation/adding-syscalls.txt
index 5f52edda8951..b274c3d01edb 100644
--- a/Documentation/adding-syscalls.txt
+++ b/Documentation/adding-syscalls.txt
@@ -389,6 +389,11 @@ reviewers with a demonstration of how user space
programs will use the system
call. A good way to combine these aims is to include a simple self-test
program in a new directory under tools/testing/selftests/.

+For a new system call, there will obviously be no libc wrapper function and so
+the test will need to invoke it using syscall(); also, if the system call
+involves a new userspace-visible structure, the corresponding header will need
+to be installed to compile the test.
+
Make sure the selftest runs successfully on all supported architectures. For
example, check that it works when compiled as an x86_64 (-m64), x86_32 (-m32)
and x32 (-mx32) ABI program.

2015-07-28 16:41:11

by Shuah Khan

[permalink] [raw]
Subject: Re: [PATCH RFC 0/1] Document how to add a new syscall

On 07/28/2015 10:02 AM, David Drysdale wrote:
> On Tue, Jul 28, 2015 at 3:19 PM, Peter Zijlstra <[email protected]> wrote:
>> On Tue, Jul 28, 2015 at 07:59:16AM -0600, Shuah Khan wrote:
>>> On 07/28/2015 05:41 AM, David Drysdale wrote:
>>>> Given that I've gotten some of the details wrong in the past (and I've
>>>> seen others do likewise), I thought it might be helpful to collate the
>>>> best practices for adding a new system call to the kernel.
>>>>
>>>> Apologies for the wide circulation -- I've tried to include folk who've
>>>> recently added or proposed a system call, as they're most likely to
>>>> have opinions on:
>>>> - whether this a useful addition to Documentation/
>>>> - whether the details of the advice are correct and complete.
>>>>
>>>> Shuah, is there anything more that should be added for the Testing
>>>> section in particular?
>>>>
>>>
>>> David,
>>>
>>> Looks good. You could add a one liner on in some cases, it might be
>>> necessary to install headers before test compiles. Other than that,
>>> the information looks good.
>>
>> For perf we still use the syscall() wrapper and we have hardcoded
>> (fallback) syscall numbers in there in case they've not yet reached
>> unistd.h.
>>
>> People update their kernels far more often than their userspace headers.
>
> How about:
>
> diff --git a/Documentation/adding-syscalls.txt
> b/Documentation/adding-syscalls.txt
> index 5f52edda8951..b274c3d01edb 100644
> --- a/Documentation/adding-syscalls.txt
> +++ b/Documentation/adding-syscalls.txt
> @@ -389,6 +389,11 @@ reviewers with a demonstration of how user space
> programs will use the system
> call. A good way to combine these aims is to include a simple self-test
> program in a new directory under tools/testing/selftests/.
>
> +For a new system call, there will obviously be no libc wrapper function and so
> +the test will need to invoke it using syscall(); also, if the system call
> +involves a new userspace-visible structure, the corresponding header will need
> +to be installed to compile the test.
> +

This looks good.

thanks,
-- Shuah


--
Shuah Khan
Sr. Linux Kernel Developer
Open Source Innovation Group
Samsung Research America (Silicon Valley)
[email protected] | (970) 217-8978

2015-07-28 16:43:21

by Kees Cook

[permalink] [raw]
Subject: Re: [PATCH RFC 1/1] Documentation: describe how to add a system call

On Tue, Jul 28, 2015 at 4:41 AM, David Drysdale <[email protected]> wrote:
> Add a document describing the process of adding a new system call,
> including the need for a flags argument for future compatibility, and
> covering 32-bit/64-bit concerns (albeit in an x86-centric way).
>
> Signed-off-by: David Drysdale <[email protected]>
> Reviewed-by: Michael Kerrisk <[email protected]>

This is great!

Reviewed-by: Kees Cook <[email protected]>

I have a few minor suggestions below...

>
> ---
> Documentation/adding-syscalls.txt | 454 ++++++++++++++++++++++++++++++++++++++
> 1 file changed, 454 insertions(+)
> create mode 100644 Documentation/adding-syscalls.txt
>
> diff --git a/Documentation/adding-syscalls.txt b/Documentation/adding-syscalls.txt
> new file mode 100644
> index 000000000000..5f52edda8951
> --- /dev/null
> +++ b/Documentation/adding-syscalls.txt
> @@ -0,0 +1,454 @@
> +Adding a New System Call
> +========================
> +
> +This document describes what's involved in adding a new system call to the
> +Linux kernel, over and above the normal submission advice in
> +Documentation/SubmittingPatches.
> +
> +
> +System Call Alternatives
> +------------------------
> +
> +The first thing to consider when adding a new system call is whether one of
> +the alternatives might be suitable instead. Although system calls are the
> +most traditional and most obvious interaction points between userspace and the
> +kernel, there are other possibilities -- choose what fits best for your
> +interface.
> +
> + - If the operations involved can be made to look like a filesystem-like
> + object, it may make more sense to create a new filesystem or device. This
> + also makes it easier to encapsulate the new functionality in a kernel module
> + rather than requiring it to be built into the main kernel.
> + - If the new functionality involves operations where the kernel notifies
> + userspace that something has happened, then returning a new file
> + descriptor for the relevant object allows userspace to use
> + poll/select/epoll to receive that notification.
> + - However, operations that don't map to read(2)/write(2)-like operations
> + have to be implemented as ioctl(2) requests, which can lead to a
> + somewhat opaque API.
> + - If you're just exposing runtime system information, a new node in sysfs
> + (see Documentation/filesystems/sysfs.txt) or the /proc filesystem may be
> + more appropriate. However, access to these mechanisms requires that the
> + relevant filesystem is mounted, which might not always be the case (e.g.
> + in a namespaced/sandboxed/chrooted environment).

I would add "Avoid adding anything to debugfs, as this is not
considered a 'production' interface to userspace."

> + - If the operation is specific to a particular file or file descriptor, then
> + an additional fcntl(2) command option may be more appropriate. However,
> + fcntl(2) is a multiplexing system call that hides a lot of complexity, so
> + this option is best for when the new function is closely analogous to
> + existing fcntl(2) functionality, or the new functionality is very simple
> + (for example, getting/setting a simple flag related to a file descriptor).
> + - If the operation is specific to a particular task or process, then an
> + additional prctl(2) command option may be more appropriate. As with
> + fcntl(2), this system call is a complicated multiplexor so is best reserved
> + for near-analogs of existing prctl() commands or getting/setting a simple
> + flag related to a process.
> +
> +
> +Designing the API
> +-----------------
> +
> +A new system call forms part of the API of the kernel, and has to be supported
> +indefinitely. As such, it's a very good idea to explicitly discuss the
> +interface on the kernel mailing list, and to plan for future extensions of the
> +interface. In particular:
> +
> + **Include a flags argument for every new system call**
> +
> +The syscall table is littered with historical examples where this wasn't done,
> +together with the corresponding follow-up system calls (eventfd/eventfd2,
> +dup2/dup3, inotify_init/inotify_init1, pipe/pipe2, renameat/renameat2), so
> +learn from the history of the kernel and include a flags argument from the
> +start.
> +
> +Also, to make sure that userspace programs can safely use flags between kernel
> +versions, check whether the flags value holds any unknown flags, and reject the
> +sycall (with EINVAL) if it does:
> +
> + if (flags & ~(THING_FLAG1 | THING_FLAG2 | THING_FLAG3))
> + return -EINVAL;

Perhaps mention, "Even if no flags will be used, make sure the flags
argument is zero."

> +
> +If your new xyzzy(2) system call returns a new file descriptor, then the flags
> +argument should include a value that is equivalent to setting O_CLOEXEC on the
> +new FD. This makes it possible for userspace to close the timing window
> +between xyzzy() and calling fcntl(fd, F_SETFD, FD_CLOEXEC), where an
> +unexpected fork() and execve() in another thread could leak a descriptor to
> +the exec'ed program. (However, resist the temptation to re-use the actual value
> +of the O_CLOEXEC constant, as it is architecture-specific and is part of a
> +numbering space of O_* flags that is fairly full.)
> +
> +If your new xyzzy(2) system call involves a filename argument:
> +
> + int sys_xyzzy(const char __user *path, ..., unsigned int flags);
> +
> +you should also consider whether an xyzzyat(2) version is more appropriate:
> +
> + int sys_xyzzyat(int dfd, const char __user *path, ..., unsigned int flags);
> +
> +This allows more flexibility for how userspace specifies the file in question;
> +in particular it allows userspace to request the functionality for an
> +already-opened file descriptor using the AT_EMPTY_PATH flag, effectively giving
> +an fxyzzy(3) operation for free:
> +
> + - xyzzyat(AT_FDCWD, path, ..., 0) is equivalent to xyzzy(path,...)
> + - xyzzyat(fd, "", ..., AT_EMPTY_PATH) is equivalent to fxyzzy(fd, ...)
> +
> +(For more details on the rationale of the *at() calls, see the openat(2) man
> +page; for an example of AT_EMPTY_PATH, see the statat(2) man page.)
> +
> +If your new xyzzy(2) system call involves a parameter describing an offset
> +within a file, make its type loff_t so that 64-bit offsets can be supported
> +even on 32-bit architectures.
> +
> +If your new xyzzy(2) system call involves administrative functionality, it
> +needs to be governed by the appropriate Linux capability bit, as described in

Maybe add:

... capability bit, and checked with a call to capable(), as described ...

> +the capabilities(7) man page.
> +
> + - If there is an existing capability that governs related functionality, then
> + use that. However, avoid combining lots of only vaguely related functions
> + together under the same bit, as this goes against capabilities' purpose of
> + splitting the power of root. In particular, avoid adding new uses of the
> + already overly-general CAP_SYS_ADMIN capability.
> + - If there is no related capability, then consider adding a new capability
> + bit -- but bear in mind that the numbering space is limited, and each new
> + bit needs to be understood and administered by sysadmins.

Perhaps mention alternative mechanisms for access control when working
on file descriptors, like avoiding security issues by looking at fd
_opener_ credentials, rather than current's credentials?

> +
> +Finally, be aware that some non-x86 architectures have an easier time if
> +system call parameters that are explicitly 64-bit fall on odd-numbered
> +arguments (i.e. parameter 1, 3, 5), to allow use of contiguous pairs of 32-bit
> +registers.
> +
> +
> +Proposing the API
> +-----------------
> +
> +To make new system calls easy to review, it's best to divide up the patchset
> +into separate chunks. These should include at least the following items as
> +distinct commits (each of which is described further below):
> +
> + - The core implementation of the system call together with prototypes, generic
> + numbering and fallback stub implementation.
> + - Wiring up of the new system call for one particular architecture, usually
> + x86 (including all of x86_64, x86_32 and x32).
> + - A demonstration of the use of the new system call in userspace via a
> + selftest.

While you call out the path later, I think it could use being explicit here too:

" ... a selftest in tools/testing/selftests/."

> + - A draft man-page for the new system call.
> +
> +Changes to the kernel's API should always be cc'ed to [email protected]

I would strengthen this as:

New syscall proposals, like any change to the kernel's API, should
always be cc'ed...

> +
> +
> +Generic System Call Implementation
> +----------------------------------
> +
> +The main entry point for your new xyzzy(2) system call will be called
> +sys_xyzzy(), but you add this entry point with the appropriate
> +SYSCALL_DEFINEn() macro rather than explicitly. The 'n' indicates the number
> +of arguments to the system call, and the macro takes the system call name
> +followed by the (type, name) pairs for the parameters as arguments. Using
> +this macro allows metadata about the new system call to be made available for
> +other tools.
> +
> +The new entry point also needs a corresponding function prototype, in
> +include/linux/syscalls.h, marked as asmlinkage to match the way that system
> +calls are invoked:
> +
> + asmlinkage long sys_xyzzy(...);
> +
> +Some architectures (e.g. x86) have their own architecture-specific syscall
> +tables, but several other architectures share a generic syscall table. Add your
> +new system call to the generic list by adding an entry to the list in
> +include/uapi/asm-generic/unistd.h:
> +
> + #define __NR_xyzzy 292
> + __SYSCALL(__NR_xyzzy, sys_xyzzy)
> +
> +Also update the __NR_syscalls count to reflect the additional system call, and
> +note that if multiple new system calls are added in the same merge window,
> +your new syscall number may get adjusted to resolve conflicts.
> +
> +The file kernel/sys_ni.c provides a fallback stub implementation of each system
> +call, returning -ENOSYS. Add your new system call here too:
> +
> + cond_syscall(sys_xyzzy);
> +
> +To summarize, you need a commit that includes:
> +
> + - SYSCALL_DEFINEn(xyzzy, ...) for the entry point
> + - corresponding prototype in include/linux/syscalls.h
> + - generic table entry in include/uapi/asm-generic/unistd.h
> + - fallback stub in kernel/sys_ni.c
> +
> +
> +x86 System Call Implementation
> +------------------------------
> +
> +To wire up your new system call for x86 platforms, you need to update the
> +master syscall tables. Assuming your new system call isn't special in some
> +way (see below), this involves a "common" entry (for x86_64 and x32) in
> +arch/x86/entry/syscalls/syscall_64.tbl:
> +
> + 333 common xyzzy sys_xyzzy
> +
> +and an "i386" entry in arch/x86/entry/syscalls/syscall_32.tbl:
> +
> + 380 i386 xyzzy sys_xyzzy
> +
> +Again, these numbers are liable to be changed if there are conflicts in the
> +relevant merge window.
> +
> +
> +Compatibility System Calls (Generic)
> +------------------------------------
> +
> +For most system calls the same 64-bit implementation can be invoked even when
> +the userspace program is itself 32-bit; even if the system call's parameters
> +include an explicit pointer, this is handled transparently.
> +
> +However, there are a couple of situations where a compatibility layer is
> +needed to cope with size differences between 32-bit and 64-bit.
> +
> +The first is if the 64-bit kernel also supports 32-bit userspace programs, and
> +so needs to parse areas of (__user) memory that could hold either 32-bit or
> +64-bit values. In particular, this is needed whenever a system call argument
> +is:
> +
> + - a pointer to a pointer
> + - a pointer to a struct containing a pointer (e.g. struct iovec __user *)
> + - a pointer to a varying sized integral type (time_t, off_t, long, ...)
> + - a pointer to a struct containing a varying sized integral type.
> +
> +The second situation that requires a compatibility layer is if one of the
> +system call's arguments has a type that is explicitly 64-bit even on a 32-bit
> +architecture, for example loff_t or __u64. In this case, a value that arrives
> +at a 64-bit kernel from a 32-bit application will be split into two 32-bit
> +values, which then need to be re-assembled in the compatibility layer.
> +
> +(Note that a system call argument that's a pointer to an explicit 64-bit type
> +does *not* need a compatibility layer; for example, splice(2)'s arguments of
> +type loff_t __user * do not trigger the need for a compat_ system call.)
> +
> +The compatibility version of the system call is called compat_sys_xyzzy(), and
> +is added with the COMPAT_SYSCALL_DEFINEn() macro, analogously to
> +SYSCALL_DEFINEn. This version of the implementation runs as part of a 64-bit
> +kernel, but expects to receive 32-bit parameter values and does whatever is
> +needed to deal with them. (Typically, the compat_sys_ version converts the
> +values to 64-bit versions and either calls on to the sys_ version, or both of
> +them call a common inner implementation function.)
> +
> +The compat entry point also needs a corresponding function prototype, in
> +include/linux/compat.h, marked as asmlinkage to match the way that system
> +calls are invoked:
> +
> + asmlinkage long compat_sys_xyzzy(...);
> +
> +If the system call involves a structure that is laid out differently on 32-bit
> +and 64-bit systems, say struct xyzzy_args, then the include/linux/compat.h
> +header file should also include a compat version of the structure (struct
> +compat_xyzzy_args) where each variable-size field has the appropriate compat_
> +type that corresponds to the type in struct xyzzy_args. The
> +compat_sys_xyzzy() routine can then use this compat_ structure to parse the
> +arguments from a 32-bit invocation.
> +
> +For example, if there are fields:
> +
> + struct xyzzy_args {
> + const char __user *ptr;
> + __kernel_long_t varying_val;
> + u64 fixed_val;
> + /* ... */
> + };
> +
> +in struct xyzzy_args, then struct compat_xyzzy_args would have:
> +
> + struct compat_xyzzy_args {
> + compat_uptr_t ptr;
> + compat_long_t varying_val;
> + u64 fixed_val;
> + /* ... */
> + };
> +
> +The generic system call list also needs adjusting to allow for the compat
> +version; the entry in include/uapi/asm-generic/unistd.h should use
> +__SC_COMP rather than __SYSCALL:
> +
> + #define __NR_xyzzy 292
> + __SC_COMP(__NR_xyzzy, sys_xyzzy, compat_sys_xyzzy)
> +
> +To summarize, you need:
> +
> + - a COMPAT_SYSCALL_DEFINEn(xyzzy, ...) for the compat entry point
> + - corresponding prototype in include/linux/compat.h
> + - (if needed) 32-bit mapping struct in include/linux/compat.h
> + - instance of __SC_COMP not __SYSCALL in include/uapi/asm-generic/unistd.h
> +
> +
> +Compatibility System Calls (x86)
> +--------------------------------
> +
> +To wire up the x86 architecture of a system call with a compatibility version,
> +the entries in the syscall tables need to be adjusted.
> +
> +First, the entry in arch/x86/entry/syscalls/syscall_32.tbl gets an extra
> +column to indicate that a 32-bit userspace program running on a 64-bit kernel
> +should hit the compat entry point:
> +
> + 380 i386 xyzzy sys_xyzzy compat_sys_xyzzy
> +
> +Second, you need to figure out what should happen for the x32 ABI version of
> +the new system call. There's a choice here: the layout of the arguments
> +should either match the 64-bit version or the 32-bit version.
> +
> +If there's a pointer-to-a-pointer involved, the decision is easy: x32 is
> +ILP32, so the layout should match the 32-bit version, and the entry in
> +arch/x86/entry/syscalls/syscall_64.tbl is split so that x32 programs hit the
> +compatibility wrapper:
> +
> + 333 64 xyzzy sys_xyzzy
> + ...
> + 555 x32 xyzzy compat_sys_xyzzy
> +
> +If no pointers are involved, then it is preferable to re-use the 64-bit system
> +call for the x32 ABI (and consequently the entry in
> +arch/x86/entry/syscalls/syscall_64.tbl is unchanged).
> +
> +In either case, you should check that the types involved in your argument
> +layout do indeed map exactly from x32 (-mx32) to either the 32-bit (-m32) or
> +64-bit (-m64) equivalents.
> +
> +
> +System Calls Returning Elsewhere
> +--------------------------------
> +
> +For most system calls, once the system call is complete the user program
> +continues exactly where it left off -- at the next instruction, with the same
> +stack and registers as before the system call, and with the same virtual
> +memory space.
> +
> +However, a few system calls do things differently. They might return to a
> +different location (rt_sigreturn) or change the memory space (fork/vfork/clone)
> +or even architecture (execve/execveat) of the program.
> +
> +To allow for this, the kernel implementation of the system call may need to
> +save and restore additional registers to the kernel stack, allowing complete
> +control of where and how execution continues after the system call.
> +
> +This is arch-specific, but typically involves defining assembly entry points
> +that save/restore additional registers and invoke the real system call entry
> +point.
> +
> +For x86_64, this is implemented as a stub_xyzzy entry point in
> +arch/x86/entry/entry_64.S, and the entry in the syscall table
> +(arch/x86/entry/syscalls/syscall_64.tbl) is adjusted to match:
> +
> + 333 common xyzzy stub_xyzzy
> +
> +The equivalent for 32-bit programs running on a 64-bit kernel is normally
> +called stub32_xyzzy and implemented in arch/x86/entry/entry_64_compat.S,
> +with the corresponding syscall table adjustment in
> +arch/x86/entry/syscalls/syscall_32.tbl:
> +
> + 380 i386 xyzzy sys_xyzzy stub32_xyzzy
> +
> +If the system call needs a compatibility layer (as in the previous section)
> +then the stub32_ version needs to call on to the compat_sys_ version of the
> +system call rather than the native 64-bit version. Also, if the x32 ABI
> +implementation is not common with the x86_64 version, then its syscall
> +table will also need to invoke a stub that calls on to the compat_sys_
> +version.
> +
> +For completeness, it's also nice to set up a mapping so that user-mode Linux
> +still works -- its syscall table will reference stub_xyzzy, but the UML build
> +doesn't include arch/x86/entry/entry_64.S implementation (because UML
> +simulates registers etc). Fixing this is as simple as adding a #define to
> +arch/x86/um/sys_call_table_64.c:
> +
> + #define stub_xyzzy sys_xyzzy
> +
> +
> +Other Details
> +-------------
> +
> +Most of the kernel treats system calls in a generic way, but there is the
> +occasional exception that may need updating for your particular system call.
> +
> +The audit subsystem is one such special case; it includes (arch-specific)
> +functions that classify some special types of system call -- specifically
> +file open (open/openat), program execution (execve/exeveat) or socket
> +multiplexor (socketcall) operations. If your new system call is analogous to
> +one of these, then the audit system should be updated.
> +
> +More generally, if there is an existing system call that is analogous to your
> +new system call, it's worth doing a kernel-wide grep for the existing system
> +call to check there are no other special cases.
> +
> +
> +Testing
> +-------
> +
> +A new system call should obviously be tested; it is also useful to provide
> +reviewers with a demonstration of how user space programs will use the system
> +call. A good way to combine these aims is to include a simple self-test
> +program in a new directory under tools/testing/selftests/.
> +
> +Make sure the selftest runs successfully on all supported architectures. For
> +example, check that it works when compiled as an x86_64 (-m64), x86_32 (-m32)
> +and x32 (-mx32) ABI program.
> +
> +
> +Man Page
> +--------
> +
> +All new system calls should come with a complete man page, ideally using groff
> +markup, but plain text will do. If groff is used, it's helpful to include a
> +pre-rendered ASCII version of the man page in the cover email for the
> +patchset, for the convenience of reviewers.

How about adding:
"For more details, see https://www.kernel.org/doc/man-pages/patches.html"

> +
> +The man page should be cc'ed to [email protected]
> +
> +
> +References and Sources
> +----------------------
> +
> + - LWN article from Michael Kerrisk on use of flags argument in system calls:
> + https://lwn.net/Articles/585415/
> + - LWN article from Michael Kerrisk on how to handle unknown flags in a system
> + call: https://lwn.net/Articles/588444/
> + - LWN article from Jake Edge describing constraints on 64-bit system call
> + arguments: https://lwn.net/Articles/311630/
> + - Pair of LWN articles from David Drysdale that describe the system call
> + implementation paths in detail for v3.14:
> + - https://lwn.net/Articles/604287/
> + - https://lwn.net/Articles/604515/
> + - Architecture-specific requirements for system calls are discussed in the
> + syscall(2) man-page:
> + http://man7.org/linux/man-pages/man2/syscall.2.html#NOTES
> + - Collated emails from Linus Torvalds discussing the problems with ioctl():
> + http://yarchive.net/comp/linux/ioctl.html
> + - "How to not invent kernel interfaces", Arnd Bergmann,
> + http://www.ukuug.org/events/linux2007/2007/papers/Bergmann.pdf
> + - LWN article from Michael Kerrisk on avoiding new uses of CAP_SYS_ADMIN:
> + https://lwn.net/Articles/486306/
> +
> + - Recommendation from Andrew Morton that all related information for a new
> + system call should come in the same email thread:
> + https://lkml.org/lkml/2014/7/24/641
> + - Recommendation from Michael Kerrisk that a new system call should come with
> + a man page: https://lkml.org/lkml/2014/6/13/309
> + - Suggestion from Thomas Gleixner that x86 wire-up should be in a separate
> + commit: https://lkml.org/lkml/2014/11/19/254
> + - Suggestion from Greg Kroah-Hartman that it's good for new system calls to
> + come with a man-page & selftest: https://lkml.org/lkml/2014/3/19/710
> + - Discussion from Michael Kerrisk of new system call vs. prctl(2) extension:
> + https://lkml.org/lkml/2014/6/3/411
> + - Numbering oddities arising from (re-)use of O_* numbering space flags:
> + - commit 75069f2b5bfb ("vfs: renumber FMODE_NONOTIFY and add to uniqueness
> + check")
> + - commit 12ed2e36c98a ("fanotify: FMODE_NONOTIFY and __O_SYNC in sparc
> + conflict")
> + - commit bb458c644a59 ("Safer ABI for O_TMPFILE")
> + - Discussion from Matthew Wilcox about restrictions on 64-bit arguments:
> + https://lkml.org/lkml/2008/12/12/187
> + - Recommendation from Greg Kroah-Hartman that unknown flags should be
> + policed: https://lkml.org/lkml/2014/7/17/577
> + - Recommendation from Linus Torvalds that x32 system calls should prefer
> + compatibility with 64-bit versions rather than 32-bit versions:
> + https://lkml.org/lkml/2011/8/31/244
> --
> 2.4.3.573.g4eafbef

Thanks for writing this up!

-Kees

--
Kees Cook
Chrome OS Security

2015-07-28 17:13:55

by David Drysdale

[permalink] [raw]
Subject: Re: [PATCH RFC 1/1] Documentation: describe how to add a system call

On Tue, Jul 28, 2015 at 5:43 PM, Kees Cook <[email protected]> wrote:
> On Tue, Jul 28, 2015 at 4:41 AM, David Drysdale <[email protected]> wrote:
>> Add a document describing the process of adding a new system call,
>> including the need for a flags argument for future compatibility, and
>> covering 32-bit/64-bit concerns (albeit in an x86-centric way).
>>
>> Signed-off-by: David Drysdale <[email protected]>
>> Reviewed-by: Michael Kerrisk <[email protected]>
>
> This is great!
>
> Reviewed-by: Kees Cook <[email protected]>
>
> I have a few minor suggestions below...

Thanks, I've applied all bar one -- a query below.

>> ---
>> Documentation/adding-syscalls.txt | 454 ++++++++++++++++++++++++++++++++++++++
>> 1 file changed, 454 insertions(+)
>> create mode 100644 Documentation/adding-syscalls.txt
>>
>> diff --git a/Documentation/adding-syscalls.txt b/Documentation/adding-syscalls.txt
>> new file mode 100644
>> index 000000000000..5f52edda8951
>> --- /dev/null
>> +++ b/Documentation/adding-syscalls.txt

[snip]

>> + - If there is an existing capability that governs related functionality, then
>> + use that. However, avoid combining lots of only vaguely related functions
>> + together under the same bit, as this goes against capabilities' purpose of
>> + splitting the power of root. In particular, avoid adding new uses of the
>> + already overly-general CAP_SYS_ADMIN capability.
>> + - If there is no related capability, then consider adding a new capability
>> + bit -- but bear in mind that the numbering space is limited, and each new
>> + bit needs to be understood and administered by sysadmins.
>
> Perhaps mention alternative mechanisms for access control when working
> on file descriptors, like avoiding security issues by looking at fd
> _opener_ credentials, rather than current's credentials?

I'm struggling to cope up with text about this that doesn't feel either
too vague or much too detailed / internal, so maybe I'm misunderstanding
what you're after. Could you clarify or maybe suggest a sentence or two?

Thanks,
David

2015-07-28 17:17:12

by Kees Cook

[permalink] [raw]
Subject: Re: [PATCH RFC 1/1] Documentation: describe how to add a system call

On Tue, Jul 28, 2015 at 10:13 AM, David Drysdale <[email protected]> wrote:
> On Tue, Jul 28, 2015 at 5:43 PM, Kees Cook <[email protected]> wrote:
>> On Tue, Jul 28, 2015 at 4:41 AM, David Drysdale <[email protected]> wrote:
>>> Add a document describing the process of adding a new system call,
>>> including the need for a flags argument for future compatibility, and
>>> covering 32-bit/64-bit concerns (albeit in an x86-centric way).
>>>
>>> Signed-off-by: David Drysdale <[email protected]>
>>> Reviewed-by: Michael Kerrisk <[email protected]>
>>
>> This is great!
>>
>> Reviewed-by: Kees Cook <[email protected]>
>>
>> I have a few minor suggestions below...
>
> Thanks, I've applied all bar one -- a query below.
>
>>> ---
>>> Documentation/adding-syscalls.txt | 454 ++++++++++++++++++++++++++++++++++++++
>>> 1 file changed, 454 insertions(+)
>>> create mode 100644 Documentation/adding-syscalls.txt
>>>
>>> diff --git a/Documentation/adding-syscalls.txt b/Documentation/adding-syscalls.txt
>>> new file mode 100644
>>> index 000000000000..5f52edda8951
>>> --- /dev/null
>>> +++ b/Documentation/adding-syscalls.txt
>
> [snip]
>
>>> + - If there is an existing capability that governs related functionality, then
>>> + use that. However, avoid combining lots of only vaguely related functions
>>> + together under the same bit, as this goes against capabilities' purpose of
>>> + splitting the power of root. In particular, avoid adding new uses of the
>>> + already overly-general CAP_SYS_ADMIN capability.
>>> + - If there is no related capability, then consider adding a new capability
>>> + bit -- but bear in mind that the numbering space is limited, and each new
>>> + bit needs to be understood and administered by sysadmins.
>>
>> Perhaps mention alternative mechanisms for access control when working
>> on file descriptors, like avoiding security issues by looking at fd
>> _opener_ credentials, rather than current's credentials?
>
> I'm struggling to cope up with text about this that doesn't feel either
> too vague or much too detailed / internal, so maybe I'm misunderstanding
> what you're after. Could you clarify or maybe suggest a sentence or two?

Hm, yes, I think you're right: my suggestion here was too specific.
Please ignore! :)

-Kees

--
Kees Cook
Chrome OS Security

2015-07-28 21:22:50

by Randy Dunlap

[permalink] [raw]
Subject: Re: [PATCH RFC 1/1] Documentation: describe how to add a system call

On 07/28/15 04:41, David Drysdale wrote:
> Add a document describing the process of adding a new system call,
> including the need for a flags argument for future compatibility, and
> covering 32-bit/64-bit concerns (albeit in an x86-centric way).
>
> Signed-off-by: David Drysdale <[email protected]>
> Reviewed-by: Michael Kerrisk <[email protected]>

Nice job. and long overdue. Thanks.

Reviewed-by: Randy Dunlap <[email protected]>

>
> ---
> Documentation/adding-syscalls.txt | 454 ++++++++++++++++++++++++++++++++++++++
> 1 file changed, 454 insertions(+)
> create mode 100644 Documentation/adding-syscalls.txt
>
> diff --git a/Documentation/adding-syscalls.txt b/Documentation/adding-syscalls.txt
> new file mode 100644
> index 000000000000..5f52edda8951
> --- /dev/null
> +++ b/Documentation/adding-syscalls.txt
> @@ -0,0 +1,454 @@



--
~Randy