da9ca41c31
SOLID[1] is an embedded development platform provided by Kyoto
Microcomputer Co., Ltd. This commit introduces a basic Tier 3 support
for SOLID.
# New Targets
The following targets are added:
- `aarch64-kmc-solid_asp3`
- `armv7a-kmc-solid_asp3-eabi`
- `armv7a-kmc-solid_asp3-eabihf`
SOLID's target software system can be divided into two parts: an
RTOS kernel, which is responsible for threading and synchronization,
and Core Services, which provides filesystems, networking, and other
things. The RTOS kernel is a μITRON4.0[2][3]-derived kernel based on
the open-source TOPPERS RTOS kernels[4]. For uniprocessor systems
(more precisely, systems where only one processor core is allocated for
SOLID), this will be the TOPPERS/ASP3 kernel. As μITRON is
traditionally only specified at the source-code level, the ABI is
unique to each implementation, which is why `asp3` is included in the
target names.
More targets could be added later, as we support other base kernels
(there are at least three at the point of writing) and are interested
in supporting other processor architectures in the future.
# C Compiler
Although SOLID provides its own supported C/C++ build toolchain, GNU Arm
Embedded Toolchain seems to work for the purpose of building Rust.
# Unresolved Questions
A μITRON4 kernel can support `Thread::unpark` natively, but it's not
used by this commit's implementation because the underlying kernel
feature is also used to implement `Condvar`, and it's unclear whether
`std` should guarantee that parking tokens are not clobbered by other
synchronization primitives.
# Unsupported or Unimplemented Features
Most features are implemented. The following features are not
implemented due to the lack of native support:
- `fs::File::{file_attr, truncate, duplicate, set_permissions}`
- `fs::{symlink, link, canonicalize}`
- Process creation
- Command-line arguments
Backtrace generation is not really a good fit for embedded targets, so
it's intentionally left unimplemented. Unwinding is functional, however.
## Dynamic Linking
Dynamic linking is not supported. The target platform supports dynamic
linking, but enabling this in Rust causes several problems.
- The linker invocation used to build the shared object of `std` is
too long for the platform-provided linker to handle.
- A linker script with specific requirements is required for the
compiled shared object to be actually loadable.
As such, we decided to disable dynamic linking for now. Regardless, the
users can try to create shared objects by manually invoking the linker.
## Executable
Building an executable is not supported as the notion of "executable
files" isn't well-defined for these targets.
[1] https://solid.kmckk.com/SOLID/
[2] http://ertl.jp/ITRON/SPEC/mitron4-e.html
[3] https://en.wikipedia.org/wiki/ITRON_project
[4] https://toppers.jp/
114 lines
3.6 KiB
Rust
114 lines
3.6 KiB
Rust
//! SOLID-specific extensions to general I/O primitives
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#![deny(unsafe_op_in_unsafe_fn)]
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#![unstable(feature = "solid_ext", issue = "none")]
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use crate::net;
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use crate::sys;
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use crate::sys_common::{self, AsInner, FromInner, IntoInner};
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/// Raw file descriptors.
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pub type RawFd = i32;
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/// A trait to extract the raw SOLID Sockets file descriptor from an underlying
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/// object.
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pub trait AsRawFd {
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/// Extracts the raw file descriptor.
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///
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/// This method does **not** pass ownership of the raw file descriptor
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/// to the caller. The descriptor is only guaranteed to be valid while
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/// the original object has not yet been destroyed.
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fn as_raw_fd(&self) -> RawFd;
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}
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/// A trait to express the ability to construct an object from a raw file
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/// descriptor.
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pub trait FromRawFd {
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/// Constructs a new instance of `Self` from the given raw file
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/// descriptor.
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///
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/// This function **consumes ownership** of the specified file
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/// descriptor. The returned object will take responsibility for closing
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/// it when the object goes out of scope.
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///
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/// This function is also unsafe as the primitives currently returned
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/// have the contract that they are the sole owner of the file
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/// descriptor they are wrapping. Usage of this function could
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/// accidentally allow violating this contract which can cause memory
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/// unsafety in code that relies on it being true.
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unsafe fn from_raw_fd(fd: RawFd) -> Self;
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}
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/// A trait to express the ability to consume an object and acquire ownership of
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/// its raw file descriptor.
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pub trait IntoRawFd {
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/// Consumes this object, returning the raw underlying file descriptor.
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///
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/// This function **transfers ownership** of the underlying file descriptor
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/// to the caller. Callers are then the unique owners of the file descriptor
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/// and must close the descriptor once it's no longer needed.
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fn into_raw_fd(self) -> RawFd;
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}
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#[stable(feature = "raw_fd_reflexive_traits", since = "1.48.0")]
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impl AsRawFd for RawFd {
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#[inline]
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fn as_raw_fd(&self) -> RawFd {
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*self
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}
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}
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#[stable(feature = "raw_fd_reflexive_traits", since = "1.48.0")]
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impl IntoRawFd for RawFd {
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#[inline]
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fn into_raw_fd(self) -> RawFd {
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self
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}
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}
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#[stable(feature = "raw_fd_reflexive_traits", since = "1.48.0")]
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impl FromRawFd for RawFd {
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#[inline]
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unsafe fn from_raw_fd(fd: RawFd) -> RawFd {
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fd
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}
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}
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macro_rules! impl_as_raw_fd {
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($($t:ident)*) => {$(
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#[stable(feature = "rust1", since = "1.0.0")]
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impl AsRawFd for net::$t {
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#[inline]
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fn as_raw_fd(&self) -> RawFd {
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*self.as_inner().socket().as_inner()
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}
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}
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)*};
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}
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impl_as_raw_fd! { TcpStream TcpListener UdpSocket }
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macro_rules! impl_from_raw_fd {
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($($t:ident)*) => {$(
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#[stable(feature = "from_raw_os", since = "1.1.0")]
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impl FromRawFd for net::$t {
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#[inline]
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unsafe fn from_raw_fd(fd: RawFd) -> net::$t {
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let socket = sys::net::Socket::from_inner(fd);
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net::$t::from_inner(sys_common::net::$t::from_inner(socket))
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}
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}
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)*};
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}
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impl_from_raw_fd! { TcpStream TcpListener UdpSocket }
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macro_rules! impl_into_raw_fd {
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($($t:ident)*) => {$(
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#[stable(feature = "into_raw_os", since = "1.4.0")]
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impl IntoRawFd for net::$t {
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#[inline]
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fn into_raw_fd(self) -> RawFd {
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self.into_inner().into_socket().into_inner()
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}
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}
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)*};
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}
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impl_into_raw_fd! { TcpStream TcpListener UdpSocket }
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