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this commit covers all remaining ioctls I'm aware of that use
time_t-derived types in their interfaces. it may still be incomplete,
and has undergone only minimal testing for a few commands used in
audio playback.
the SNDRV_PCM_IOCTL_SYNC_PTR command is special-cased because, rather
than the whole structure expanding, it has two substructures each
padded to 64 bytes that expand within their own 64-byte reserved zone.
as long as it's the only one of its type, it doesn't really make sense
to make a general framework for it, but the existing table framework
is still used for the substructures in the special-case. one of the
substructures, snd_pcm_mmap_status, has a snd_pcm_uframes_t member
which is not a timestamp but is expanded just like one, to match the
64-bit-arch version of the structure. this is handled just like a
timestamp at offset 8, and is the motivation for the conversions table
holding offsets of individual values to be expanded rather than
timespec/timeval type pairs.
for some of the types, the size to which they expand is dependent on
whether the arch's ABI aligns 8-byte types on 8-byte boundaries.
new_req entries in the table need to reflect this size to get the
right ioctl request number that will match what callers pass, but we
don't have access to the actual structure type definitions here and
duplicating them would be cumbersome. instead, the new_misaligned
macro introduced here constructs an artificial object whose size is
the result of expanding a misaligned timespec/timeval to 64-bit and
imposing the arch's alignment on the result, which can be passed to
the _IO{R,W,WR} macros.
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record offsets of individual slots that expand from 32- to 64-bit,
rather than timespec/timeval pairs. this flexibility will be needed
for some ioctls. reduce size of types in table. adjust representation
of offsets to include a count rather than needing -1 padding so that
the table is less ugly and doesn't need large diffs if we increase max
number of slots.
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with the current set of supported ioctls, this conversion is hardly an
improvement, but it sets the stage for being able to do alsa, v4l2,
ppp, and other ioctls with timespec/timeval-derived types. without
this capability, a lot of functionality users depend on would stop
working with the time64 switchover.
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commit b60fdf133c033d4ad6b04a8237f253563fae5928 broke the
SIOCGSTAMP[NS] ioctl fallbacks introduced in commit
2e554617e5a6a41bf3f6c6306c753cd53abf728c, as well as use of these
ioctls, by creating a situation where bits/ioctl.h could be included
without __LONG_MAX being visible.
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always try the time64 syscall first since we can use its success to
conclude that no conversion is needed (any setsockopt for the
timestamp options would have succeeded without need for fallbacks).
otherwise, we have to remember the original controllen for each
msghdr, requiring O(vlen) space, so vlen must be bounded. linux clamps
it to IOV_MAX for sendmmsg only (not recvmmsg), but doing the same for
recvmmsg is not unreasonable, especially since the limitation will
only apply to old kernels.
we could optimize to avoid trying SYS_recvmmsg_time64 first if all
msghdrs have controllen zero, or support unlimited vlen by looping and
emulating the timeout logic, but I'm not inclined to do complex and
error-prone optimizations on a function that has so many underlying
problems it should really never be used.
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the definitions of SO_TIMESTAMP* changed on 32-bit archs in commit
38143339646a4ccce8afe298c34467767c899f51 to the new versions that
provide 64-bit versions of timeval/timespec structure in control
message payload. socket options, being state attached to the socket
rather than function calls, are not trivial to implement as fallbacks
on ENOSYS, and support for them was initially omitted on the
assumption that the ioctl-based polling alternatives (SIOCGSTAMP*)
could be used instead by applications if setsockopt fails.
unfortunately, it turns out that SO_TIMESTAMP is sufficiently old and
widely supported that a number of applications assume it's available
and treat errors as fatal.
this patch introduces emulation of SO_TIMESTAMP[NS] on pre-time64
kernels by falling back to setting the "_OLD" (time32) versions of the
options if the time64 ones are not recognized, and performing
translation of the SCM_TIMESTAMP[NS] control messages in recvmsg.
since recvmsg does not know whether its caller is legacy time32 code
or time64, it performs translation for any SCM_TIMESTAMP[NS]_OLD
control messages it sees, leaving the original time32 timestamp as-is
(it can't be rewritten in-place anyway, and memmove would be mildly
expensive) and appending the converted time64 control message at the
end of the buffer. legacy time32 callers will see the converted one as
a spurious control message of unknown type; time64 callers running on
pre-time64 kernels will see the original one as a spurious control
message of unknown type. a time64 caller running on a kernel with
native time64 support will only see the time64 version of the control
message.
emulation of SO_TIMESTAMPING is not included at this time since (1)
applications which use it seem to be prepared for the possibility that
it's not present or working, and (2) it can also be used in sendmsg
control messages, in a manner that looks complex to emulate
completely, and costly even when running on a time64-supporting
kernel.
corresponding changes in recvmmsg are not made at this time; they will
be done separately.
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linux/input.h and perhaps others use this macro to determine whether
the userspace time_t is 64-bit when potentially defining types in
terms of time_t and derived structures. the name __USE_TIME_BITS64 is
unfortunate; it really should have been in the __UAPI namespace. but
this is what was chosen back in v4.16 when first preparing input.h for
time64 userspace, presumably based on expectations about what the
glibc-internal features.h macro for time64 would be, and changing it
now would just put a new minimum version requirement on kernel
headers.
the __USE_TIME_BITS64 macro is not intended as a public interface. it
is purely an internal contract between libc and Linux uapi headers.
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this interface permits a null pointer for where to store the old
itimerval being replaced. an early version of the time32 compat shim
code had corresponding bugs for lots of functions; apparently
setitimer was overlooked when fixing them.
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The R_ARM_THM_JUMP19 relocation type generated for the original code
when targeting Thumb 2 is not supported by the gold linker.
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When FE_DFL_ENV is passed to fesetenv(), the very first instruction
lw t1, 0(a0) will fail since a0 is -1.
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This changes my name in the COPYRIGHT file, and adds a .mailmap entry
for my new name.
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commit 4d3a162d001a93edd285fb6603a883c30ae553ba overlooked that the
mips64 reloc.h dependent on endian.h not only for setting the ABI ldso
name to match the byte order, but also for use of the byte swapping
macros. they are needed to override R_TYPE, R_SYM, and R_INFO, to
compensate for a mips "quirk" of always using big endian order for
symbol references in relocations.
part of that commit canot be reverted because the original code was
wrong: it's invalid to define _GNU_SOURCE or any feature test macro
in reloc.h, or anywhere except at the top of a source file. however,
thanks to commit 316730cdc7a330cddf288b4e5c1de5daa64e19f4, the feature
test macro is no longer needed to access the endian-swapping macros,
so simply bringing back the #include directive suffices.
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commit de90f38e3b105802655d19d965d66335d25d59ef omitted $(srcdir) from
the makefile include pathname it added. since the include directive
was prefixed with - to make it optional (for archs that don't use it),
the failure to find arch/$(ARCH)/arch.mak was silent.
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in commit 22daaea39f1cc5f7391f0a5cd84576ffb58c2860, the
__dlsym_redir_time64 function providing the backend for __dlsym_time64
was defined only in the dynamic linker, and thus was undefined when
static linking a program referencing dlsym. use the same stub_dlsym
definition that provides __dlsym (the non-redirecting backend) for
static linked programs to provide it, conditional on _REDIR_TIME64.
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now that all 32-bit archs have 64-bit time_t (and suseconds_t), the
arch-provided _Int64 macro (long or long long, as appropriate) can be
used to define them, and arch-specific definitions are no longer
needed.
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now that all 32-bit archs have 64-bit time types, the values for the
time-related ioctls can be shared. the mechanism for this is an
arch/generic version of the bits header. archs which don't use the
generic header still need to duplicate the definitions.
x32, which does not use the new time64 values of the macros, already
has its own overrides, so this commit does not affect it.
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now that all 32-bit archs have 64-bit time types, the values for the
time-related socket option macros can be treated as universal for
32-bit archs. the sys/socket.h mechanism for this predates
arch/generic and is instead in the top-level header.
x32, which does not use the new time64 values of the macros, already
has its own overrides, so this commit does not affect it.
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this commit preserves ABI fully for existing interface boundaries
between libc and libc consumers (applications or libraries), by
retaining existing symbol names for the legacy 32-bit interfaces and
redirecting sources compiled against the new headers to alternate
symbol names. this does not necessarily, however, preserve the
pairwise ABI of libc consumers with one another; where they use
time_t-derived types in their interfaces with one another, it may be
necessary to synchronize updates with each other.
the intent is that ABI resulting from this commit already be stable
and permanent, but it will not be officially so until a release is
made. changes to some header-defined types that do not play any role
in the ABI between libc and its consumers may still be subject to
change.
mechanically, the changes made by this commit for each 32-bit arch are
as follows:
- _REDIR_TIME64 is defined to activate the symbol redirections in
public headers
- COMPAT_SRC_DIRS is defined in arch.mak to activate build of ABI
compat shims to serve as definitions for the original symbol names
- time_t and suseconds_t definitions are changed to long long (64-bit)
- IPC_STAT definition is changed to add the IPC_TIME64 bit (0x100),
triggering conversion of semid_ds, shmid_ds, and msqid_ds split
low/high time bits into new time_t members
- structs semid_ds, shmid_ds, msqid_ds, and stat are modified to add
new 64-bit time_t/timespec members at the end, maintaining existing
layout of other members.
- socket options (SO_*) and ioctl (sockios) command macros are
redefined to use the kernel's "_NEW" values.
in addition, on archs where vdso clock_gettime is used, the
VDSO_CGT_SYM macro definition in syscall_arch.h is changed to use a
new time64 vdso function if available, and a new VDSO_CGT32_SYM macro
is added for use as fallback on kernels lacking time64.
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these definitions are copied from generic bits/ioctl.h, so that x32
keeps the "_OLD" versions (which are already time64 on x32) when
32-bit archs switch to 64-bit time_t.
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these definitions are merely copied from the top-level sys/socket.h,
so there is no functional change at this time. however, the top-level
definitions will change to use the time64 "_NEW" versions on 32-bit
archs when time_t is switched over to 64-bit. this commit ensures that
change will be suppressed on x32.
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these structures can now be defined generically in terms of endianness
and long size. previously, the 32-bit archs all shared a common
definition from the generic bits header, and each 64-bit arch had to
repeat the 64-bit version, with endian conditionals if the arch had
variants of each endianness.
I would prefer getting rid of the preprocessor conditionals for
padding and instead using unnamed bitfield members, like commit
9b2921bea1d5017832e1b45d1fd64220047a9802 did for struct timespec.
however, at present sendmsg, recvmsg, and recvmmsg need access to the
padding members by name to zero them. this could perhaps be cleaned up
in the future.
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being that it contains pointers and (from the kernel perspective,
which is wrong) size_t members, x32 uses the 32-bit version of the
structure, not a half-32-bit, half-64-bit layout like we had here. the
x86_64 definition was inadvertently copied when x32 was first added.
unlike errors in the opposite direction (missing padding), this error
was not easily detected breakage, because the layout of the commonly
used initial subset of members still matched. breakage could only be
observed in the presence of control messages or flags.
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SO_RCVTIMEO and SO_SNDTIMEO already were, but only in aggregate with
SO_DEBUG and all of the other low/traditional options that varied per
arch. SO_TIMESTAMP* are newly overridable. the two groups have to be
done separately since mips64 and powerpc64 will override the former
but not the latter.
at some point this should be cleaned up to use bits headers more
idiomatically.
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the immediate usage case for this is to let 32-bit archs moving to
64-bit time_t via symbol redirection pull in wrapper shims that
provide the old symbol names. in the future it may be used for other
types of compatibility-only source files that are not relevant to all
archs.
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if symbols are being redirected to provide the new time64 ABI, dlsym
must perform matching redirections; otherwise, it would poke a hole in
the magic and return pointers to functions that are not safe to call
from a caller using time64 types.
rather than duplicating a table of redirections, use the time64
symbols present in libc's symbol table to derive the decision for
whether a particular symbol needs to be redirected.
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these files provide the symbols for the traditional 32-bit time_t ABI
on existing 32-bit archs by wrapping the real, internal versions of
the corresponding functions, which always work with 64-bit time_t.
they are written to be as agnostic as possible to the implementation
details of the real functions, so that they can be written once and
mostly forgotten, but they are aware of details of the old (and
sometimes new) ABI, which is okay since ABI is fixed and cannot
change.
a new compat tree is added, separate from src, which the Makefile does
not see or use now, but which archs will be able to add to the build
process. we could also consider moving other things that are compat
shims here, like functions which are purely for glibc-ABI-compat, with
the goal of making it optional or just cleaning up the main src tree
to make the distinction between actual implementation/API files and
ABI-compat shims clear.
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here _REDIR_TIME64 is used as an indication that there's an old ABI,
and thereby the old time32 timespec fields of struct stat.
keeping struct stat compatible and providing both versions of the
timespec fields is done so that ftw/nftw does not need painful compat
shims, and (more importantly) so that similar interfaces between pairs
of libc consumers (applications/libraries) will be less likely to
break when one has been rebuilt for time64 but the other has not.
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these functions cannot provide the glibc lfs64-ABI-compatible symbols
when time_t differs from what it was in that ABI. instead, the aliases
need to be provided by the time32 compat shims or through some other
mechanism.
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the time_t members in struct sched_param are just reserved space to
preserve size and alignment. when time_t changes to 64-bit on 32-bit
archs, this structure should not change.
make definition conditional on _REDIR_TIME64 to match the size of the
old time_t, which can be assumed to be long if _REDIR_TIME64 is
defined.
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a _REDIR_TIME64 macro is introduced, which the arch's alltypes.h is
expected to define, to control redirection of symbol names for
interfaces that involve time_t and derived types. this ensures that
object files will only be linked to libc interfaces matching the ABI
whose headers they were compiled against.
along with time32 compat shims, which will be introduced separately,
the redirection also makes it possible for a single libc (static or
shared) to be used with object files produced with either the old
(32-bit time_t) headers or the new ones after 64-bit time_t switchover
takes place. mixing of such object files (or shared libraries) in the
same program will also be possible, but must be done with care; ABI
between libc and a consumer of the libc interfaces is guaranteed to
match by the the symbol name redirection, but pairwise ABI between
consumers of libc that define interfaces between each other in terms
of time_t is not guaranteed to match.
this change adds a dependency on an additional "GNU C" feature to the
public headers for existing 32-bit archs, which is generally
undesirable; however, the feature is one which glibc has depended on
for a long time, and thus which any viable alternative compiler is
going to need to provide. 64-bit archs are not affected, nor will
future 32-bit archs be, regardless of whether they are "new" on the
kernel side (e.g. riscv32) or just newly-added (e.g. a new sparc or
xtensa port). the same applies to newly-added ABIs for existing
machine-level archs.
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the existing implementation of case mappings was very small (typically
around 1.5k), but unmaintainable, requiring manual addition of new
case mappings with each new edition of Unicode. often, it turned out
that newly-added case mappings were not easily representable in the
existing tightly-constrained table structures, requiring new hacks to
be invented and delaying support for new characters.
the new implementation added here follows the pattern used for
character class membership, with a two-level table allowing Unicode
blocks for which no data is needed to be elided. however, rather than
single-bit data, each character maps to a one of up to 6 case-mapping
rules available to its block, where 6 is floor(cbrt(256)) and allow 3
characters to be represented per byte (vs 8 with bit tables). blocks
that would need more than 6 rules designate one as an exception and
let lookup pass into a binary search of exceptional cases for the
block.
the number 6 was chosen empirically; many blocks would be ok with 4
rules (uncased, lower, upper, possible exceptions), some even just
with 2, but the latter are rare and fitting 4 characters per byte
rather than 3 does not save significant space. moreover, somewhat
surprisingly, there are sufficiently many blocks where even 4 rules
don't suffice without a lot of exceptions (blocks where some case
pairs are laced, others offset) that originally I was looking at
supporting variable-width tables, with 1-, 2-, or 3-bit entries,
thereby allowing blocks with 8 rules. as implemented in my
experiments, that version was significantly larger and involved more
memory accesses/cache lines.
improvements in size at the expense of some performance might be
possible by utilizing iswalpha data or merging the table of case
mapping identity with alphabetic identity. these were explored
somewhat when the code was first written, and might be worth
revisiting in the future.
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somehow this seems to have been overlooked. add it now so that
subsequent overhaul of case mapping implementation will not introduce
a functional change at the same time.
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linux fails the open with ENOSPC, but POSIX mandates EAGAIN.
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for time64 support on 32-bit archs, the kernel interfaces use a
timespec layout padded to match the representation of a pair of 64-bit
values, which requires endian-specific padding.
use of an ordinary, non-bitfield, named member for the padding is
undesirable because, on big endian archs, it would alter the
interpretation of traditional (non-designated) initializers of the
form {s,ns}, initializing the padding instead of the tv_nsec member.
unnamed bitfield members solve this problem by not taking part in
initialization, and were the expected solution when the kernel
interfaces were designed. however, they also have further advantages
which we take advantage of here:
positioning of the padding could be controlled by having a
preprocessor conditional with separate definitions of struct timespec
for little and big endian, but whether padding should appear at all is
a function of whether time_t is larger than long. this condition is
not something the preprocessor can determine unless we were to define
a new macro specifically for that purpose.
by using unnamed bitfield members instead of ordinary named members,
we can arrange for the size of the padding to collapse to zero when it
should not be present, just by using sizeof(time_t) and sizeof(long)
in the bitfield width expression, which can be any integer constant
expression.
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commit 2b4fd6f75b4fa66d28cddcf165ad48e8fda486d1 added time64 for this
function, but did so with a hidden assumption that the new time64
version of struct timex will be layout-compatible with the old one.
however, there is little benefit to doing it that way, and the cost is
permanent special-casing of 32-bit archs with 64-bit time_t in the
public interface definitions.
instead, do a full translation of the structure going in and out. this
commit is actually a revision to an earlier uncommited version of the
code.
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presently the kernel does not actually define time64 versions of these
syscalls, and they're not really needed except to represent extreme
cpu time usage. however, x32's versions of the syscalls already behave
as time64 ones, meaning the functions were broken on x32 if the caller
used any part of the rusage result other than ru_utime and ru_stime.
commit 7e8171143124f7f510db555dc6f6327a965a3e84 made it possible to
fix this by treating x32's syscalls as time64 versions.
in the non-time64-syscall case, make the syscall with the rusage
destination pointer adjusted so that all members but the timevals line
up between the libc and kernel structures. on 64-bit archs, or present
32-bit archs with 32-bit time_t, the timevals will line up too and no
further work is needed. for future 32-bit archs with 64-bit time_t,
the timevals are copied into place, contingent on time_t being larger
than long.
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this is analogous to commit 40aa18d55ab763e69ad16d0cf1cebea708ffde47.
so far, there are not any actual time64 versions of the rusage
syscalls (getrusage and wait4) and might never be. however, the
existing x32 ones behave the way time64 versions would if they
existed: using 64-bit slots in place of all longs.
presently, wait4 and getrusage are broken on x32, storing the timevals
correctly but messing up everything else due to the long/kernel-long
mismatch. this would be a huge buffer overflow if not for the 16
reserved slots we left long ago, which suffice to prevent 14
double-sized longs from overflowing into unrelated memory. this commit
will make it possible to fix them.
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this is to match the kernel and glibc interfaces. here, struct pt_regs
is an incomplete type, but that's harmless, and if it's completed by
inclusion of another header then members of the struct pointed to by
the regs member can be accessed directly without going through a cast
or intermediate pointer object.
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the userspace ucontext API has this as an array rather than a
structure.
commit 3c59a868956636bc8adafb1b168d090897692532 fixed the
corresponding mistake for vrregset_t, namely that the original
powerpc64 port used a mix of types from 32-bit powerpc and powerpc64
rather than matching the 64-bit types.
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aside from the special value EOF, ungetc is specified to accept and
convert values outside the range of unsigned char. conversion takes
place automatically as part of assignment when storing into the
buffer, but the return value is also required to be the resulting
converted value, and this requirement was not satisfied.
simplified from patch by Wang Jianjian.
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based on patch by Dan Gohman, who caught this via compiler warnings.
analysis by Szabolcs Nagy determined that it's a bug, whereby errno
can be set incorrectly for values where the coercion from long double
to double causes rounding. it seems likely that floating point status
flags may be set incorrectly as a result too.
at the same time, clean up use of preprocessor concatenation involving
LDBL_MANT_DIG, which spuriously depends on it being a single unadorned
decimal integer literal, and instead use the equivalent formulation
2/LDBL_EPSILON. an equivalent change on the printf side was made in
commit bff6095d915f3e41206e47ea2a570ecb937ef926.
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policy has long been that these definitions are purely a function of
whether long/pointer is 32- or 64-bit, and that they are not allowed
to vary per-arch. move the definition to the shared alltypes.h.in
fragment, using integer constant expressions in terms of sizeof to
vary the array dimensions appropriately. I'm not sure whether this is
more or less ugly than using preprocessor conditionals and two sets of
definitions here, but either way is a lot less ugly than repeating the
same thing for every arch.
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LLONG_MAX is uniform for all archs we support and plenty of header and
code level logic assumes it is, so it does not make sense for limits.h
bits mechanism to pretend it's variable.
LONG_BIT can be defined in terms of LONG_MAX; there's no reason to put
it in bits.
by moving LONG_MAX definition to __LONG_MAX in alltypes.h and moving
LLONG_MAX out of bits, there are now no plain-C limits that are
defined in the bits header, so the bits header only needs to be
included in the POSIX or extended profiles. this allows the feature
test macro logic to be removed from the bits header, facilitating a
long-term goal of getting such logic out of bits.
having __LONG_MAX in alltypes.h will allow further generalization of
headers.
archs without a constant PAGESIZE no longer need bits/limits.h at all.
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the resolution of Austin Group issue #162 adds endian.h as a standard
header for future versions of the standard, making it no longer
acceptable for some of the functionality to be hidden behind
_BSD_SOURCE or _GNU_SOURCE. the definitions of the [lb]etoh{16,32,64}
function-like macros are kept conditional since they are alternate
names which the standard did not adopt.
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building on commit 97d35a552ec5b6ddf7923dd2f9a8eb973526acea,
__BYTE_ORDER is now available wherever alltypes.h is included. since
reloc.h is only used from src/internal/dynlink.h, it can be assumed
that __BYTE_ORDER is exposed. reloc.h is not permitted to be included
in other contexts, and generally, like most arch headers, lacks
inclusion guards that would allow such usage. the mips64 version
mistakenly included such guards; they are removed for consistency.
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