Fix mips-unknown-linux-uclibc target
The mips(el)-unknown-linux-uclibc target has apparently been broken in one way or another for over a year. This PR is the patch it took to successfully build a beta toolchain that could support it.
I am pretty sure these fixes are the right answer, after considerable digging in both the libc crate source (_pub-use pub-use everywhere, and not a hint to link_) and the uClibc source (_it's not POSIX, but they've shipped it since 2007, so close enough_).
For those who don't know, the *-uClibc targets are the only way (AFAIK) to create Rust binaries which run on Linux kernels prior to 2.6. It is a use case that is getting quite rare these days, but is still present in embedded ecosystems where chip vendors never migrated their hardware support to newer kernel versions.
Here's hoping these Rust toolchain targets find a maintainer someday.
cc rust-lang/rust#43503
Add TIOCGWINSZ accessor to solaris module
Signed-off-by: Ian Henry <ihenry@chef.io>
I recently noticed downstream that these request values were unavailable and needed for things like [the pb crate](https://github.com/a8m/pb). To get access to the request value I ran the following simple C code:
```
#include <sys/ioctl.h>
#include <stdio.h>
#include <sys/termios.h>
int main(int argc, char **argv) {
printf("Code: 0x%04lx\n", TIOCGWINSZ);
printf("Code: 0x%04lx\n", TIOCSWINSZ);
return 0;
}
```
To then validate the change I ran the following simple rust:
```
extern crate libc;
use libc::{ioctl, winsize, STDOUT_FILENO, TIOCGWINSZ};
fn main() {
let mut wsize = winsize {
ws_row: 0,
ws_col: 0,
ws_xpixel: 0,
ws_ypixel: 0,
};
unsafe {
ioctl(STDOUT_FILENO, TIOCGWINSZ, &mut wsize);
}
println!("Sizes: {{ rows: {}, cols: {}, xpixel: {}, ypixel: {} }}",
wsize.ws_row,
wsize.ws_col,
wsize.ws_xpixel,
wsize.ws_ypixel);
}
```
The futimes(), lutimes(), mq_timedreceive(), and mq_timedsend()
functions were linking against legacy library symbols that need 32-bit
time_t in structures, resulting in an ABI mismatch with 64-bit time_t.
Add libc definitions for Megaton-Hammer, a Switch Homebrew toolchain
I'm working on a pure-rust toolchain to write homebrew for the Nintendo Switch called [Megaton-Hammer](http://github.com/megatonhammer/megaton-hammer). I'm hoping to get those definitions upstreamed to simplify my life :).
This toolchain does not depend on a C compiler or a libc (it reimplements everything in rust) - but given many crates in the Rust ecosystem rely on the libc crate for the definition of various common types, this is what I came up with.
I was wondering what a good target triple would be ? I currently gate the implementation behind `target_os = "switch"`, but if this goes upstream I figure that might cause trouble for people using the Nintendo SDK (they might already be using `target_os = "switch"` for some things). Would it be better to go with `target_env = "megatonhammer"`?
Bump version to 0.2.43
Would be nice to have the new align feature from #1044 available for general use. But mostly I want this released since I have problems using the align feature for a PR on libstd, and I suspect it's somehow because I try to use an unpublished libc (https://github.com/rust-lang/rust/pull/52872).
illumos epoll_event struct should be packed
While attempting to run `cargo test` within the mio crate on illumos I noticed a number of the tests fail. Digging into the various epoll calls I discovered that the epoll_event struct was misaligned due to extra padding. The fix is to pack the epoll_event struct with the same compiler setting that the linux variant is using.
A simple rust example that demonstrates the issue:
```rust
extern crate libc;
use libc::epoll_event;
use std::mem;
fn main() {
println!("{}", mem::size_of::<u64>());
println!("{}", mem::size_of::<epoll_event>());
}
```
Running the above code on Linux results in:
```
8
12
```
while on illumos it currently results in:
```
8
16
```
Looking at the `test_close_on_drop` test from mio I traced the `epoll_ctl`
calls and saw the following:
```
[root@rustdev ~/src/mio]# dtrace -wn 'pid$target::epoll_ctl:entry {this->ev = arg3; printf("%d\n", arg2); print((struct epoll_event *)this->ev); stop()}' -c "/root/src/mio/target/debug/deps/test-109e1422fb40f621 test_close_on_drop"
dtrace: description 'pid$target::epoll_ctl:entry ' matched 1 probe
dtrace: allowing destructive actions
running 1 test
CPU ID FUNCTION:NAME
6 92874 epoll_ctl:entry 4
struct epoll_event * 0xfffffc7fee7feda8
test test_close_on_drop::test_close_on_drop ... test test_close_on_drop::test_close_on_drop has been running for over 60 seconds
6 92874 epoll_ctl:entry 6
struct epoll_event * 0xfffffc7fee7fee18
^[[A 6 92874 epoll_ctl:entry 7
struct epoll_event * 0xfffffc7fee7fee18
```
I dumped each of the epoll_event's with mdb:
```
[root@rustdev ~/src/mio]# mdb -Fp 219856
Loading modules: [ libumem.so.1 libc.so.1 ]
> 0xfffffc7fee7feda8::print
mdb: no symbol information for 0xfffffc7fee7feda8: no symbol corresponds to address
> 0xfffffc7fee7feda8::print struct epoll_event
{
events = 0x80000001
data = {
ptr = 0xfffffffffffffc7f
fd = 0xfffffc7f
u32 = 0xfffffc7f
u64 = 0xfffffffffffffc7f
}
}
>
[root@rustdev ~/src/mio]# prun 219856
[root@rustdev ~/src/mio]# mdb -Fp 219856
Loading modules: [ libumem.so.1 libc.so.1 ]
> 0xfffffc7fee7fee18::print struct epoll_event
{
events = 0x80000001
data = {
ptr = 0
fd = 0
u32 = 0
u64 = 0
}
}
>
[root@rustdev ~/src/mio]# prun 219856
[root@rustdev ~/src/mio]# mdb -Fp 2198
Loading modules: [ libumem.so.1 libc.so.1 ]
> 0xfffffc7fee7fee18::print struct epoll_event
{
events = 0x80000004
data = {
ptr = 0x100000000
fd = 0
u32 = 0
u64 = 0x100000000
}
}
```
The output from the last two `epoll_event`'s represent `Token(0)` the Client and `Token(1)` from the mio test. The first one however is from `AWAKEN` which is defined as `usize::MAX`. This value should be 18446744073709551615. However if we convert the hex value we see something else:
```
> 0xfffffffffffffc7f=E
18446744073709550719
```
Because of the extra 4 bytes of padding currently present in the illumos `epoll_event` definition the low order bits are picking up some junk from other memory.
All of the poll-related mio tests pass with this change. Two other tests are still failing, which appears to be caused by an OS bug, not a problem with mio or libc.
Add libc definitions for HermitCore (https://hermitcore.org)
HermitCore is based on lwIP, newlib, and pthread-embedded.
Some definitions are similar to other targets using newlib, however some are different enough to justify an own "hermit" port and not base on the existing "newlib" port.
