There is no straightforward way for the Zig team to access the Solaris system
headers; to do this, one has to create an Oracle account, accept their EULA to
download the installer ISO, and finally install it on a machine or VM. We do not
have to jump through hoops like this for any other OS that we support, and no
one on the team has expressed willingness to do it.
As a result, we cannot audit any Solaris contributions to std.c or other
similarly sensitive parts of the standard library. The best we would be able to
do is assume that Solaris and illumos are 100% compatible with no way to verify
that assumption. But at that point, the solaris and illumos OS tags would be
functionally identical anyway.
For Solaris especially, any contributions that involve APIs introduced after the
OS was made closed-source would also be inherently more risky than equivalent
contributions for other proprietary OSs due to the case of Google LLC v. Oracle
America, Inc., wherein Oracle clearly demonstrated its willingness to pursue
legal action against entities that merely copy API declarations.
Finally, Oracle laid off most of the Solaris team in 2017; the OS has been in
maintenance mode since, presumably to be retired completely sometime in the 2030s.
For these reasons, this commit removes all Oracle Solaris support.
Anyone who still wishes to use Zig on Solaris can try their luck by simply using
illumos instead of solaris in target triples - chances are it'll work. But there
will be no effort from the Zig team to support this use case; we recommend that
people move to illumos instead.
This type is useful for two things:
* Doing non-local control flow with ucontext.h functions.
* Inspecting machine state in a signal handler.
The first use case is not one we support; we no longer expose bindings to those
functions in the standard library. They're also deprecated in POSIX and, as a
result, not available in musl.
The second use case is valid, but is very poorly served by the standard library.
As evidenced by my changes to std.debug.cpu_context.signal_context_t, users will
be better served rolling their own ucontext_t and especially mcontext_t types
which fit their specific situation. Further, these types tend to evolve
frequently as architectures evolve, and the standard library has not done a good
job keeping up, or even providing them for all supported targets.
This matches all other platforms. Even if this field is defined as 'int'
in the C definition, the expectation is that the full 32-bit unsigned
integer range can be used. In particular this Sigaction initializer in
the new std.debug code was causing a build failure:
```zig
.flags = (posix.SA.SIGINFO | posix.SA.RESTART | posix.SA.RESETHAND)
```
Mostly on macOS, since Loris showed me a not-great stack trace, and I
spent 8 hours trying to make it better. The dyld shared cache is
designed in a way which makes this really hard to do right, and
documentation is non-existent, but this *seems* to work pretty well.
I'll leave the ruling on whether I did a good job to CI and our users.
Our usage of `ucontext_t` in the standard library was kind of
problematic. We unnecessarily mimiced libc-specific structures, and our
`getcontext` implementation was overkill for our use case of stack
tracing.
This commit introduces a new namespace, `std.debug.cpu_context`, which
contains "context" types for various architectures (currently x86,
x86_64, ARM, and AARCH64) containing the general-purpose CPU registers;
the ones needed in practice for stack unwinding. Each implementation has
a function `current` which populates the structure using inline
assembly. The structure is user-overrideable, though that should only be
necessary if the standard library does not have an implementation for
the *architecture*: that is to say, none of this is OS-dependent.
Of course, in POSIX signal handlers, we get a `ucontext_t` from the
kernel. The function `std.debug.cpu_context.fromPosixSignalContext`
converts this to a `std.debug.cpu_context.Native` with a big ol' target
switch.
This functionality is not exposed from `std.c` or `std.posix`, and
neither are `ucontext_t`, `mcontext_t`, or `getcontext`. The rationale
is that these types and functions do not conform to a specific ABI, and
in fact tend to get updated over time based on CPU features and
extensions; in addition, different libcs use different structures which
are "partially compatible" with the kernel structure. Overall, it's a
mess, but all we need is the kernel context, so we can just define a
kernel-compatible structure as long as we don't claim C compatibility by
putting it in `std.c` or `std.posix`.
This change resulted in a few nice `std.debug` simplifications, but
nothing too noteworthy. However, the main benefit of this change is that
DWARF unwinding---sometimes necessary for collecting stack traces
reliably---now requires far less target-specific integration.
Also fix a bug I noticed in `PageAllocator` (I found this due to a bug
in my distro's QEMU distribution; thanks, broken QEMU patch!) and I
think a couple of minor bugs in `std.debug`.
Resolves: #23801Resolves: #23802
* Add missing functions like ISDIR() or ISREG(). This is required to
build the zig compiler
* Use octal notation for the S_ constants. This is how it is done for
".freebsd" and it is also the notation used by DragonFly in
"sys/stat.h"
* Reorder S_ constants in the same order as ".freebsd" does. Again, this
follows the ordering within "sys/stat.h"
Because these lists are very long in several cases and quite
varied, I opted to place them in the existing c/foo.zig files.
There are many other sets of network-related constants like this
to add over time across all the OSes. For now I picked these
because I needed a few constants from each of these namespaces for
my own project, so I tried to flesh out these namespaces
completely as best I could, at least for basic sockopt purposes.
Note windows has some of these already defined in ws2_32 as
individual constants rather than contained in a namespacing
struct. I'm not sure what to do with that in the long run (break
it and namespace them?), but this doesn't change the status quo
for windows in any case.
in_pktinfo is only used on a few targets for the IP_PKTINFO
sockopt, as many BSDs use an alternate mechanism (IP_RECVDSTADDR)
that doesn't require a special struct. in6_pktinfo is more
universal.
This is the struct type used as set/getsockopt() option data with
SO.ACCEPTFILTER, which is also only declared on this same limited
set of BSD-ish targets.
In theory this could be aliased over to std.posix as well, but I
think for a corner case like this, it's not unreasonable for a
user that is avoiding uneccessary std.c references to access it as
"posix.system.accept_filter_arg" (which would still work fine if,
in the future, FreeBSD escapes its libc dep and defines it in
std.os.freebsd).
Also, added EPIPE to recvfrom() error set (it's a documented error
for unix and tcp sockets, at least), which recvmsg() largely
shares. Windows has an odd, callback-based form of recvmsg() that
doesn't fit the normal interface here.
socketpair is something like a pipe2() for sockets, and generally
only works for AF_UNIX sockets for most platforms. Winsock2
explicitly does not support this call, even though it does have
AF_UNIX sockets.
Previously we had a single definition of std.c.cmsghdr for all
libc-linking platforms which aliased from the Solaris definition,
a superfluous matching one in std.os.dragonfly, and no others.
The existing definition from std.c didn't actually work for Linux,
as Linux's "len" field is usize in the kernel's definition.
Emscripten follows the Linux model of course (but uses the
binary-compatible musl definition, which has an endian-sensitive
padding scheme to make the len type "socklen_t" even though the
kernel uses a usize, which is fair).
This unifies and documents all the known *nix-ish cases (I'm not
sure if wasi or windows really has cmsghdr support? Could be added
later, void for now), such that c.cmsghdr and posix.system.cmsghdr
should work correctly for all the known cases here, libc or
otherwise.
* update the MSG struct with the correct values for openbsd
* add comment with link to sys/sys/socket.h
---------
Co-authored-by: Brandon Mercer <bmercer@eutonian.com>
Note the previous "28" here for openbsd was some kind of copy
error long ago. That's the value of KERN.SOMAXCONN, which is an
entirely different thing.
Linux already gained the relevant syscalls and consts in #24473
The basic mlock() and munlock() are fairly universal across the
*nix world with a consistent interface, but are missing on wasi
and windows.
The mlockall() and munlockall() calls are not as widely supported
as the basic ones. Notable non-implementers include darwin,
haiku, and serenity (and of course wasi and windows again).
mlock2() is Linux-only, as are its MLOCK flags.
This mainly just moves stuff around.
Justifications for other changes:
* `KEVENT.FLAGS` is backed by `c_uint` because that's what the `kevent64` flags param takes (according to the 'latest' manpage from 2008)
* `MACH_RCV_NOTIFY` is a legacy name and `MACH_RCV_OVERWRITE` is deprecated (xnu/osfmk/mach/message.h), so I removed them. They were 0 anyway and thus couldn't be represented
as a packed struct field.
* `MACH.RCV` and `MACH.SEND` are technically the same 'type' because they can both be supplied at the same time to `mach_msg`. I decided to still keep them separate because
naming works out better that way and all flags except for `MACH_MSG_STRICT_REPLY` aren't shared anyway. Both are part of a packed union `mach_msg_option_t` which supplies a
helper function to combine the two types.
* `PT` is backed by `c_int` because that's what `ptrace` takes as a request arg (according to the latest manpage from 2015)
Unlike all other platforms where RDONLY is 0 it does not work as a
default for the O flags on serenity - various syscalls other than
'open', e.g. 'pipe', return EINVAL if unexpected bits are set in the
flags.
* c.darwin: define MSG for macos
* darwin: add series os name
* Update lib/std/c.zig
Co-authored-by: Alex Rønne Petersen <alex@alexrp.com>
---------
Co-authored-by: Alex Rønne Petersen <alex@alexrp.com>
