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* use setitimer function rather than syscall to implement alarmRich Felker2019-08-051-3/+3
| | | | | | otherwise alarm will break on 32-bit archs when time_t is changed to 64-bit. a second itimerval object is introduced for retrieving the old value, since the setitimer function has restrict-qualified arguments.
* fix build regression in i386 asm for atan2, atan2fRich Felker2019-08-052-2/+2
| | | | | commit f3ed8bfe8a82af1870ddc8696ed4cc1d5aa6b441 inadvertently removed labels that were still needed.
* fix x87 stack imbalance in corner cases of i386 math asmRich Felker2019-08-058-44/+14
| | | | | | | | | | | | | | | | | | | | | | | commit 31c5fb80b9eae86f801be4f46025bc6532a554c5 introduced underflow code paths for the i386 math asm, along with checks on the fpu status word to skip the underflow-generation instructions if the underflow flag was already raised. unfortunately, at least one such path, in log1p, returned with 2 items on the x87 stack rather than just 1 item for the return value. this is a violation of the ABI's calling convention, and could cause subsequent floating point code to produce NANs due to x87 stack overflow. if floating point results are used in flow control, this can lead to runaway wrong code execution. rather than reviewing each "underflow already raised" code path for correctness, remove them all. they're likely slower than just performing the underflow code unconditionally, and significantly more complex. all of this code should be ripped out and replaced by C source files with inline asm. doing so would preclude this kind of error by having the compiler perform all x87 stack register allocation and stack manipulation, and would produce comparable or better code. however such a change is a much larger project.
* fix regression in clock_gettime on 32-bit archs without vdsoRich Felker2019-08-051-0/+1
| | | | | commit 72f50245d018af0c31b38dec83c557a4e5dd1ea8 broke this by creating a code path where r is uninitialized.
* update riscv64 syscall numbers to linux v5.1Rich Felker2019-08-031-0/+8
| | | | | | | | commit f3f96f2daa4d00f0e38489fb465cd0244b531abe added these for the rest of the archs, but the patch it corresponded to missed riscv64 since riscv64 was not yet upstream at the time. this caused commit dfc81828f7ab41da08f744c44117a1bb20a05749 to break riscv64 build, due to a wrong assumption that SYS_statx was unconditionally defined.
* clock_gettime: add support for 32-bit vdso with 64-bit time_tRich Felker2019-08-021-0/+32
| | | | | | | | | | | | | | | this fixes a major upcoming performance regression introduced by commit 72f50245d018af0c31b38dec83c557a4e5dd1ea8, whereby 32-bit archs would lose vdso clock_gettime after switching to 64-bit time_t, unless the kernel supports time64 and provides a time64 version of the vdso function. this would incur not just one but two syscalls: first, the failed time64 syscall, then the fallback time32 one. overflow of the 32-bit result is detected and triggers a revert to syscalls. normally, on a system that's not Y2038-ready, this would still overflow, but if the process has been migrated to a time64-capable kernel or if the kernel has been hot-patched to add time64 syscalls, it may conceivably work.
* move IPC_STAT definition to a new bits/ipcstat.h fileRich Felker2019-08-0211-3/+11
| | | | | | | | | | | | | | | otherwise, 32-bit archs that could otherwise share the generic bits/ipc.h would need to duplicate the struct ipc_perm definition, obscuring the fact that it's the same. sysvipc is not widely used and these headers are not commonly included, so there is no performance gain to be had by limiting the number of indirectly included files here. files with the existing time32 definition of IPC_STAT are added to all current 32-bit archs now, so that when it's changed the change will show up as a change rather than addition of a new file where it's less obvious that the value is changing vs the generic one that was used before.
* fix missing declarations for pthread_join extensions in source fileRich Felker2019-08-021-0/+1
| | | | | | | | per policy, define the feature test macro to get declarations for the pthread_tryjoin_np and pthread_timedjoin_np functions. in the past this has been only for checking; with 32-bit archs getting 64-bit time_t it will also be necessary for symbols to get redirected correctly.
* allow archs to define IPC_STAT, propagate time64 bit to other macrosRich Felker2019-08-024-6/+8
| | | | | | | | to make use of {sem,shm,msg}ctl IPC_STAT functionality to provide 64-bit time_t on 32-bit archs, IPC_STAT and related macros must be defined with bit 8 (0x100) set. allow archs to define IPC_STAT in bits/ipc.h, and define the other macros in terms of it so that they all get the same value of the time64 bit.
* clock_gettime: add time64 syscall support, decouple 32-bit time_tRich Felker2019-08-021-0/+19
| | | | | | | | | | | | | | | | | | | | | | the time64 syscall has to be used if time_t is 64-bit, since there's no way of knowing before making a syscall whether the result will fit in 32 bits, and the 32-bit syscalls do not report overflow as an error. on 64-bit archs, there is no change to the code after preprocessing. on current 32-bit archs, the result is now read from the kernel through long[2] array, then copied into the timespec, to remove the assumption that time_t is the same as long. vdso clock_gettime is still used in place of a syscall if available. 32-bit archs with 64-bit time_t must use the time64 version of the vdso function; if it's not available, performance will significantly suffer. support for both vdso functions could be added, but would break the ability to move a long-lived process from a pre-time64 kernel to one that can outlast Y2038 with checkpoint/resume, at least without added hacks to identify that the 32-bit function is no longer usable and stop using it (e.g. by seeing negative tv_sec). this possibility may be explored in future work on the function.
* clock_adjtime: add time64 support, decouple 32-bit time_t, fix x32Rich Felker2019-08-021-0/+110
| | | | | | | | | | | | | | | | | | | | the 64-bit/time64 version of the syscall is not API-compatible with the userspace timex structure definition; fields specified as long have type long long. so when using the time64 syscall, we have to convert the entire structure. this was always the case for x32 as well, but went unnoticed, meaning that clock_adjtime just passed junk to the kernel on x32. it should be fixed now. for the fallback case, we avoid encoding any assumptions about the new location of the time member or naming of the legacy slots by accessing them through a union of the kernel type and the new userspace type. the only assumption is that the non-time members live at the same offsets as in the (non-time64, long-based) kernel timex struct. this property saves us from having to convert the whole thing, and avoids a lot of additional work in compat shims. the new code is statically unreachable for now except on x32, where it fixes major brokenness. it is permanently unreachable on 64-bit.
* ioctl: add fallback for new time64 SIOCGSTAMP[NS]Rich Felker2019-07-313-1/+34
| | | | | | | | | | | without this, the SIOCGSTAMP and SIOCGSTAMPNS ioctl commands, for obtaining timestamps, would stop working on pre-5.1 kernels after time_t is switched to 64-bit and their values are changed to the new time64 versions. new code is written such that it's statically unreachable on 64-bit archs, and on existing 32-bit archs until the macro values are changed to activate 64-bit time_t.
* get/setsockopt: add fallback for new time64 SO_RCVTIMEO/SO_SNDTIMEORich Felker2019-07-318-2/+79
| | | | | | | | | | without this, the SO_RCVTIMEO and SO_SNDTIMEO socket options would stop working on pre-5.1 kernels after time_t is switched to 64-bit and their values are changed to the new time64 versions. new code is written such that it's statically unreachable on 64-bit archs, and on existing 32-bit archs until the macro values are changed to activate 64-bit time_t.
* make __socketcall analogous to __syscall, error-returningRich Felker2019-07-311-6/+6
| | | | | | | | | | | the __socketcall and __socketcall_cp macros are remnants from a really old version of the syscall-mechanism infrastructure, and don't follow the pattern that the "__" version of the macro returns the raw negated error number rather than setting errno and returning -1. for time64 purposes, some socket syscalls will need to operate on the error value rather than returning immediately, so fix this up so they can use it.
* sysvipc: overhaul {sem,shm,msg}ctl for time64Rich Felker2019-07-314-12/+41
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | being "ctl" functions that take command numbers, these will be handled like ioctl/sockopt/etc., using new command numbers for the time64 variants with an "IPC_TIME64" bit added to their values. to obtain such a reserved bit, we reuse the IPC_64 bit, 0x100, which served only as part of the libc-to-kernel interface, not as a public interface of the libc functions. using new command numbers avoids the need for compat shims (in ABIs doing time64 through symbol redirection and compat shims) and, by virtue of having a fixed time64 bit for all commands, we can ensure that libc can perform the appropriate translations, even if the application is using new commands from a newer version of the libc headers than the libc available at runtime. for the vast majority of 32-bit archs, the kernel {sem,shm,msq}id64_ds definitions left padding space intended for expanding their time_t fields to 64 bits in-place, and it would have been really nice to be able to do time64 support that way. however the padding was almost always in little-endian order (except on powerpc, and for msqid_ds only on mips, where it matched the arch's byte order), and more importantly, the alignment was overlooked. in semid_ds and msqid_ds, the time_t members were not suitably aligned to be expanded to 64-bit, due to the ipc_perm header consisting of 9 32-bit words -- except on powerpc where ipc_perm contains an extra padding word. in shmid_ds, the time_t members were suitably aligned, except that mips (accidentally?) omitted the padding for them alltogether. as a result, we're stuck with adding new time_t fields on the end of the structures, and assembling the 32-bit lo/hi parts (or 16-bit hi parts, for mips shmid_ds, which lacked sufficient reserved space for full 32-bit hi parts) to fill them in. all of the functional changes here are conditional on the IPC_TIME64 macro having a nonzero definition, which will only happen when IPC_STAT is redefined for 32-bit archs, and on time_t being larger than long, so for now the new code is all dead code.
* fix semctl with SEM_STAT_ANYRich Felker2019-07-311-1/+1
| | | | | | due to the variadic signature, semctl needs to be made aware of any new commands that take arguments. this was overlooked when commit af55070eae5438476f921d827b7ae49e8141c3fe added SEM_STAT_ANY.
* remove gratuitously-different arch-specific bits/ipc.h filesRich Felker2019-07-303-36/+0
| | | | | | | | these differ from generic only in using endian-matched padding with a short __ipc_perm_seq field in place of the int field in generic. this is not a documented public interface anyway, and the original intent was to use int here. some ports just inadvertently slipped in the kernel short+padding form.
* remove arch-specific bits/ipc.h that are identical to genericRich Felker2019-07-302-22/+0
| | | | | | previously these differed from generic because they needed their own definitions of IPC_64. now that it's no longer in public header, they're identical.
* move IPC_64 from public bits/ipc.h to syscall_arch.hRich Felker2019-07-3016-22/+16
| | | | | | | | | | | | | | | | | | | | the definition of the IPC_64 macro controls the interface between libc and the kernel through syscalls; it's not a public API. the meaning is rather obscure. long ago, Linux's sysvipc *id_ds structures used 16-bit uids/gids and wrong types for a few other fields. this was in the libc5 era, before glibc. the IPC_64 flag (64 is a misnomer; it's more like 32) tells the kernel to use the modern[-ish] versions of the structures. the definition of IPC_64 has nothing to do with whether the arch is 32- or 64-bit. rather, due to either historical accident or intentional obnoxiousness, the kernel only accepts and masks off the 0x100 IPC_64 flag conditional on CONFIG_ARCH_WANT_IPC_PARSE_VERSION, i.e. for archs that want to provide, or that accidentally provided, both. for archs which don't define this option, no masking is performed and commands with the 0x100 bit set will fail as invalid. so ultimately, the definition is just a matter of matching an arbitrary switch defined per-arch in the kernel.
* select: overhaul for time64Rich Felker2019-07-301-13/+31
| | | | | | | | | | | | | | | | | | | | | | | | | | | major changes are made alongside adding time64 syscall support to account for issues found during research. select historically accepts non-normalized (tv_usec not restricted to less than 1000000) timeouts, and the kernel normalizes them, but the normalization code is buggy and subject to integer overflows. since normalization is needed anyway when using SYS_pselect6 or SYS_pselect6_time64 as the backend, simply do it up-front to eliminate both code path complexity and the possibility of kernel bugs. as a side effect, select no longer updates the caller's timeout timeval with the remaining time. previously, archs that used SYS_select updated it and archs that used SYS_pselect6 didn't. this change may turn out to be controversial and may need revisiting, but in any case the old behavior was not strictly conforming. POSIX allows modification of the timeout "upon successful completion", but the Linux syscall modifies it upon unsuccessful completion (EINTR) as well (and presumably each time the syscall stops and restarts before it's known whether completion will be successful). it's possible that this language does not reflect the actual intent of the standard, since other historical implementations probably behaved like Linux, but that should be clarified if there's a desire to bring the old behavior back. regardless, programs that are depending on this are not correct and are already broken on some archs we support.
* recvmmsg: add time64 syscall support, decouple 32-bit time_tRich Felker2019-07-291-0/+18
| | | | | | | | | | | | | the time64 syscall is used only if the timeout does not fit in 32 bits. after preprocessing, the code is unchanged on 64-bit archs. for 32-bit archs, the timeout now goes through an intermediate copy, meaning that the caller does not get back the updated timeout. this is based on my reading of the documentation, which does not document the updating as a contract you can rely on, and mentions that the whole recvmmsg timeout mechanism is buggy and unlikely to be useful. if it turns out that there's interest in making the remaining time officially available to callers, such functionality could be added back later.
* setitimer, getitimer: decouple time_t from longRich Felker2019-07-294-0/+44
| | | | | | | | | | | | | | | | these functions have no new time64 syscall, so the existence of a time64 syscall cannot be used as the condition for the new code. instead, assume the syscall takes timevals as longs, which is true everywhere but x32, and interface with the kernel through long[4] objects. rather than adding new hacks to special-case x32 here, just add x32-specific source files since a trivial syscall wrapper suffices there. the new code paths added in this commit are statically unreachable on all current archs, but will become reachable when 32-bit archs get 64-bit time_t.
* remove duplicates of new generic bits/msg.hRich Felker2019-07-296-75/+0
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* use 64-bit msqid_ds layout in the generic version of bits/msg.hRich Felker2019-07-291-3/+0
| | | | | | this layout is more common already than the old generic, and should become even more common in the future with new archs added and with 64-bit time_t on 32-bit archs.
* duplicate generic bits/msg.h for each arch using it, in prep to changeRich Felker2019-07-295-0/+75
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* remove duplicates of new generic bits/sem.hRich Felker2019-07-295-57/+0
| | | | | | some of these were not exact duplicates, but had gratuitously different naming for padding, or omitted the endian checks because the arch is fixed-endian.
* use 64-bit semid_ds layout in the generic version of bits/sem.hRich Felker2019-07-291-2/+0
| | | | | | | | this layout is slightly less common than the old generic one, but only because x86_64 and x32 wrongly (according to comments in the kernel headers) copied the i386 padding. for future archs, and with 64-bit time_t on 32-bit archs, the new layout here will become the most common, and it makes sense to treat it as the generic.
* collapse out byte order conditions in bits/sem.h for fixed-endian archsRich Felker2019-07-294-20/+0
| | | | | having preprocessor conditionals on byte order in the bits headers for fixed-endian archs is confusing at best. remove them.
* duplicate generic bits/sem.h for each arch using it, in prep to changeRich Felker2019-07-297-0/+112
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* extricate bits/sem.h from x32 time_t hackRich Felker2019-07-297-25/+36
| | | | | | | | | | | | | | various padding fields in the generic bits/sem.h were defined in terms of time_t as a cheap hack standing in for "kernel long", to allow x32 to use the generic version of the file. this was a really bad idea, as it ended up getting copied into lots of arch-specific versions of the bits file, and is a blocker to changing time_t to 64-bit on 32-bit archs. this commit adds an x32-specific version of the header, and changes padding type back from time_t to long (currently the same type on all archs but x32) in the generic header and all the others the hack got copied into.
* remove trailing newlines from various versions of bits/shm.hRich Felker2019-07-299-9/+0
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* remove duplicates of new generic bits/shm.hRich Felker2019-07-295-123/+0
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* use 64-bit shmid_ds layout in the generic version of bits/shm.hRich Felker2019-07-291-3/+0
| | | | | | | | | this layout is more common already than the old generic, and should become even more common in the future with new archs added and with 64-bit time_t on 32-bit archs. the duplicate arch-specific copies are not removed yet in this commit, so as to assist git tooling in copy/rename tracking.
* duplicate generic bits/shm.h for each arch using it, in prep to changeRich Felker2019-07-295-0/+140
| | | | | | | | | | | | | there are more archs sharing the generic 64-bit version of the struct, which is uniform and much more reasonable, than sharing the current "generic" one, and depending on how time64 sysvipc is done for 32-bit archs, even more may be sharing the "64-bit version" in the future. so, duplicate the current generic to all archs using it (arm, i386, m68k, microblaze, or1k) so that the generic can be changed freely. this is recorded as its own commit mainly as a hint to git tooling, to assist in copy/move tracking.
* timerfd: add time64 syscall support, decouple 32-bit time_tRich Felker2019-07-291-0/+42
| | | | | the changes here are semantically and structurally identical to those made to timer_settime and timer_gettime for time64 support.
* sched_rr_get_interval: don't assume time_t is 32-bit on 32-bit archsRich Felker2019-07-291-0/+14
| | | | | | | | | | as with clock_getres, the time64 syscall for this is not necessary or useful, this time since scheduling timeslices are not on the order 68 years. if there's a 32-bit syscall, use it and expand the result into timespec; otherwise there is only one syscall and it does the right thing to store to timespec directly. on 64-bit archs, there is no change to the code after preprocessing.
* clock_getres: don't assume time_t is 32-bit on 32-bit archsRich Felker2019-07-291-0/+14
| | | | | | | | | | the time64 syscall for this is not necessary or useful, since clock resolution is generally better than 68-year granularity. if there's a 32-bit syscall, use it and expand the result into timespec; otherwise there is only one syscall and it does the right thing to store to timespec directly. on 64-bit archs, there is no change to the code after preprocessing.
* timer_gettime: add time64 syscall support, decouple 32-bit time_tRich Felker2019-07-291-0/+16
| | | | | | | | | | | | the time64 syscall has to be used if time_t is 64-bit, since there's no way of knowing before making a syscall whether the result will fit in 32 bits, and the 32-bit syscalls do not report overflow as an error. on 64-bit archs, there is no change to the code after preprocessing. on current 32-bit archs, the result is now read from the kernel through long[4] array, then copied into the timespec, to remove the assumption that time_t is the same as long.
* remove x32 syscall timespec fixup hacksRich Felker2019-07-293-101/+4
| | | | | | | | | | | | | | | | | | | | | | | | | | | the x32 syscall interfaces treat timespec's tv_nsec member as 64-bit despite the API type being long and long being 32-bit in the ABI. this is no problem for syscalls that store timespecs to userspace as results, but caused uninitialized padding to be misinterpreted as the high bits in syscalls that take timespecs as input. since the beginning of the port, we've dealt with this situation with hacks in syscall_arch.h, and injected between __syscall_cp_c and __syscall_cp_asm, to special-case the syscall numbers that involve timespecs as inputs and copy them to a form suitable to pass to the kernel. commit 40aa18d55ab763e69ad16d0cf1cebea708ffde47 set the stage for removal of these hacks by letting us treat the "normal" x32 syscalls dealing with timespec as if they're x32's "time64" syscalls, effectively making x32 ax "time64-only 32-bit arch" like riscv32 will be when it's added. since then, all users of syscalls that x32's syscall_arch.h had hacks for have been updated to use time64 syscalls, so the hacks can be removed. there are still at least a few other timespec-related syscalls broken on x32, which were overlooked when the x32 hacks were done or added later. these include at least recvmmsg, adjtimex/clock_adjtime, and timerfd_settime, and they will be fixed independently later on.
* utimensat: add time64 syscall support, decouple 32-bit time_tRich Felker2019-07-291-6/+31
| | | | | | | | | | | | | | | | | | | | | | | | time64 syscall is used only if it's the only one defined for the arch, or if either of the requested times does not fit in 32 bits. care is taken to normalize the inputs to account for UTIME_NOW or UTIME_OMIT in tv_nsec, in which case tv_sec should be ignored. this is needed not only to avoid spurious time64 syscalls that might waste time failing with ENOSYS, but also to accurately decide whether fallback is possible. if the requested time cannot be represented, the function fails with ENOTSUP, defined in general as "The implementation does not support the requested feature or value". neither the time64 syscall, nor this error, can happen on current 32-bit archs where time_t is a 32-bit type, and both are statically unreachable. on 64-bit archs, there are only superficial changes to the SYS_futimesat fallback path, which has been modified to pass long[4] instead of struct timeval[2] to the kernel, making it suitable for use on 32-bit archs even once time_t is changed to 64-bit. for 32-bit archs, the call to SYS_utimensat has also been changed to copy the timespecs through an array of long[4] rather than passing the timespec[2] in-place.
* clock_settime: add time64 syscall support, decouple 32-bit time_tRich Felker2019-07-291-0/+17
| | | | | | | | | | | | | | | time64 syscall is used only if it's the only one defined for the arch, or if the requested time does not fit in 32 bits. on current 32-bit archs where time_t is a 32-bit type, this makes it statically unreachable. if the time64 syscall is needed because the requested time does not fit in 32 bits, we define this as an error ENOTSUP, for "The implementation does not support the requested feature or value". on 64-bit archs, there is no change to the code after preprocessing. on current 32-bit archs, the time is moved through an intermediate copy to remove the assumption that time_t is a 32-bit type.
* timer_settime: add support for time64 syscall, decouple 32-bit time_tRich Felker2019-07-291-0/+25
| | | | | | | | | | | | | time64 syscall is used only if it's the only one defined for the arch, if either component of the itimerspec does not fit in 32 bits, or if time_t is 64-bit and the caller requested the old value, in which case there's a possibility that the old value might not fit in 32 bits. on current 32-bit archs where time_t is a 32-bit type, this makes it statically unreachable. on 64-bit archs, there is no change to the code after preprocessing. on current 32-bit archs, the time is moved through an intermediate copy to remove the assumption that time_t is a 32-bit type.
* pselect, ppoll: add time64 syscall support, decouple 32-bit time_tRich Felker2019-07-282-4/+34
| | | | | | | | | | | | | | time64 syscall is used only if it's the only one defined for the arch, or if the requested timeout length does not fit in 32 bits. on current 32-bit archs where time_t is a 32-bit type, this makes it statically unreachable. on 64-bit archs, there are only superficial changes to the code after preprocessing. both before and after these changes, these functions copied their timeout arguments to avoid letting the kernel clobber the caller's copies. now, the copying also serves to change the type from userspace timespec to a pair of longs, which makes a difference only in the 32-bit fallback case, not on 64-bit.
* futex wait operations: add time64 syscall support, decouple 32-bit time_tRich Felker2019-07-282-3/+41
| | | | | | | | | | | | | | | | | | | | | thanks to the original factorization using the __timedwait function, there are no FUTEX_WAIT calls anywhere else, giving us a single point of change to make nearly all the timed thread primitives time64-ready. the one exception is the FUTEX_LOCK_PI command for PI mutex timedlock. I haven't tried to make these two points share code, since they have different fallbacks (no non-private fallback needed for PI since PI was added later) and FUTEX_LOCK_PI isn't a cancellation point (thus allowing the whole code path to inline into pthread_mutex_timedlock). as for other changes in this series, the time64 syscall is used only if it's the only one defined for the arch, or if the requested timeout does not fit in 32 bits. on current 32-bit archs where time_t is a 32-bit type, this makes it statically unreachable. on 64-bit archs, there are only superficial changes to the code after preprocessing. on current 32-bit archs, the time is passed via an intermediate copy to remove the assumption that time_t is a 32-bit type.
* semtimedop: add time64 syscall support, decouple 32-bit time_tRich Felker2019-07-281-2/+24
| | | | | | | | | | | | | | | | | | | | time64 syscall is used only if it's the only one defined for the arch, or if the requested timeout does not fit in 32 bits. on current 32-bit archs where time_t is a 32-bit type, this makes it statically unreachable. on 64-bit archs, there is no change to the code after preprocessing. on current 32-bit archs, the time is passed via an intermediate copy to remove the assumption that time_t is a 32-bit type. to avoid duplicating SYS_ipc/SYS_semtimedop choice logic, the code for 32-bit archs "falls through" after updating the timeout argument ts to point to a [compound literal] array of longs. in preparation for "time64-only" 32-bit archs, an extra case is added for neither SYS_ipc nor the non-time64 SYS_semtimedop existing; the ENOSYS failure path here should never be reachable, and is added just in case a compiler can't see that it's not reachable, to avoid spurious static analysis complaints.
* sigtimedwait: add time64 syscall support, decouple 32-bit time_tRich Felker2019-07-281-4/+24
| | | | | | | | | | | | time64 syscall is used only if it's the only one defined for the arch, or if the requested timeout length does not fit in 32 bits. on current 32-bit archs where time_t is a 32-bit type, this makes it statically unreachable. on 64-bit archs, there are only superficial changes to the code after preprocessing. on current 32-bit archs, the timeout is passed via an intermediate copy to remove the assumption that time_t is a 32-bit type.
* mq_timedsend, mq_timedreceive: add time64, decouple 32-bit time_tRich Felker2019-07-282-0/+34
| | | | | | | | | | | time64 syscall is used only if it's the only one defined for the arch, or if the requested absolute timeout does not fit in 32 bits. on current 32-bit archs where time_t is a 32-bit type, this makes it statically unreachable. on 64-bit archs, there is no change to the code after preprocessing. on current 32-bit archs, the timeout is passed via an intermediate copy to remove the assumption that time_t is a 32-bit type.
* clock_nanosleep: add time64 syscall support, decouple 32-bit time_tRich Felker2019-07-281-0/+25
| | | | | | | | | | | time64 syscall is used only if it's the only one defined for the arch, or if the requested time does not fit in 32 bits. on current 32-bit archs where time_t is a 32-bit type, this makes it statically unreachable. on 64-bit archs, there is no change to the code after preprocessing. on current 32-bit archs, the time is moved through an intermediate copy to remove the assumption that time_t is a 32-bit type.
* implement settimeofday in terms of clock_settime, not old syscallRich Felker2019-07-271-1/+6
| | | | | | | | | this is yet another place where special handling of time syscalls can and should be avoided by implementing legacy functions in terms of their modern replacements. in theory a fallback to SYS_settimeofday could be added to clock_settime, but SYS_clock_settime has been available since Linux 2.6.0 or earlier, i.e. all the way back to the minimum supported version.
* internally, define plain syscalls, if missing, as their time64 variantsRich Felker2019-07-271-0/+83
| | | | | | | | | | | | | this commit has no effect whatsoever right now, but is in preparation for a future riscv32 port and other future 32-bit archs that will be "time64-only" from the start on the kernel side. together with the previous x32 changes, this commit ensures that syscall call points that don't care about time (passing null timeouts, etc.) can continue to do so without having to special-case time64-only archs, and allows code using the time64 syscalls to uniformly test for the need to fallback with SYS_foo != SYS_foo_time64, rather than needing to check defined(SYS_foo) && SYS_foo != SYS_foo_time64.