Protocol Buffers - Google's data interchange format (grpc依赖)
https://developers.google.com/protocol-buffers/
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215 lines
7.6 KiB
215 lines
7.6 KiB
// Protocol Buffers - Google's data interchange format |
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// Copyright 2024 Google LLC. All rights reserved. |
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// |
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// Use of this source code is governed by a BSD-style |
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// license that can be found in the LICENSE file or at |
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// https://developers.google.com/open-source/licenses/bsd |
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use crate::opaque_pointee::opaque_pointee; |
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use std::alloc::{self, Layout}; |
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use std::cell::UnsafeCell; |
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use std::marker::PhantomData; |
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use std::mem::{align_of, MaybeUninit}; |
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use std::ptr::{self, NonNull}; |
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use std::slice; |
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opaque_pointee!(upb_Arena); |
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pub type RawArena = NonNull<upb_Arena>; |
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/// See `upb/port/def.inc`. |
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const UPB_MALLOC_ALIGN: usize = 8; |
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const _CHECK_UPB_MALLOC_ALIGN_AT_LEAST_POINTER_ALIGNED: () = |
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assert!(UPB_MALLOC_ALIGN >= align_of::<*const ()>()); |
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/// A wrapper over a `upb_Arena`. |
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/// |
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/// This is not a safe wrapper per se, because the allocation functions still |
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/// have sharp edges (see their safety docs for more info). |
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/// |
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/// This is an owning type and will automatically free the arena when |
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/// dropped. |
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/// |
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/// Note that this type is not `Sync` as it implements unsynchronized interior |
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/// mutability. The upb_Arena C object could be understood as being Sync (at |
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/// least vacuously under current API since there are not any const upb_Arena* |
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/// API functions), but the Rust Arena is necessarily expressed as interior |
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/// mutability (&self rather than &mut self receivers) See https://doc.rust-lang.org/nomicon/lifetime-mismatch.html and |
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/// https://blog.reverberate.org/2021/12/19/arenas-and-rust.html, and the |
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/// 'known problems' section of https://rust-lang.github.io/rust-clippy/master/index.html#/mut_from_ref. |
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#[derive(Debug)] |
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pub struct Arena { |
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// Safety invariant: this must always be a valid arena |
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raw: RawArena, |
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_not_sync: PhantomData<UnsafeCell<()>>, |
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} |
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// SAFETY: `Arena` uniquely holds the underlying RawArena and has no |
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// thread-local data. |
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unsafe impl Send for Arena {} |
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impl Arena { |
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/// Allocates a fresh arena. |
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#[inline] |
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pub fn new() -> Self { |
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#[inline(never)] |
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#[cold] |
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fn arena_new_failed() -> ! { |
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panic!("Could not create a new UPB arena"); |
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} |
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// SAFETY: |
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// - `upb_Arena_New` is assumed to be implemented correctly and always sound to |
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// call; if it returned a non-null pointer, it is a valid arena. |
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unsafe { |
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let Some(raw) = upb_Arena_New() else { arena_new_failed() }; |
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Self { raw, _not_sync: PhantomData } |
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} |
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} |
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/// # Safety |
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/// - The `raw_arena` must point to a valid arena. |
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/// - The caller must ensure that the Arena's destructor does not run. |
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pub unsafe fn from_raw(raw_arena: RawArena) -> Self { |
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Arena { raw: raw_arena, _not_sync: PhantomData } |
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} |
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/// Returns the raw, UPB-managed pointer to the arena. |
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#[inline] |
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pub fn raw(&self) -> RawArena { |
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self.raw |
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} |
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/// Allocates some memory on the arena. |
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/// |
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/// # Safety |
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/// |
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/// - `layout`'s alignment must be less than `UPB_MALLOC_ALIGN`. |
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#[allow(clippy::mut_from_ref)] |
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#[inline] |
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pub unsafe fn alloc(&self, layout: Layout) -> &mut [MaybeUninit<u8>] { |
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debug_assert!(layout.align() <= UPB_MALLOC_ALIGN); |
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// SAFETY: `self.raw` is a valid UPB arena |
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let ptr = unsafe { upb_Arena_Malloc(self.raw, layout.size()) }; |
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if ptr.is_null() { |
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alloc::handle_alloc_error(layout); |
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} |
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// SAFETY: |
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// - `upb_Arena_Malloc` promises that if the return pointer is non-null, it is |
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// dereferencable for `size` bytes and has an alignment of `UPB_MALLOC_ALIGN` |
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// until the arena is destroyed. |
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// - `[MaybeUninit<u8>]` has no alignment requirement, and `ptr` is aligned to a |
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// `UPB_MALLOC_ALIGN` boundary. |
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unsafe { slice::from_raw_parts_mut(ptr.cast(), layout.size()) } |
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} |
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/// Same as alloc() but panics if `layout.align() > UPB_MALLOC_ALIGN`. |
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#[allow(clippy::mut_from_ref)] |
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#[inline] |
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pub fn checked_alloc(&self, layout: Layout) -> &mut [MaybeUninit<u8>] { |
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assert!(layout.align() <= UPB_MALLOC_ALIGN); |
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// SAFETY: layout.align() <= UPB_MALLOC_ALIGN asserted. |
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unsafe { self.alloc(layout) } |
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} |
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/// Copies the T into this arena and returns a pointer to the T data inside |
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/// the arena. |
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pub fn copy_in<'a, T: Copy>(&'a self, data: &T) -> &'a T { |
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let layout = Layout::for_value(data); |
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let alloc = self.checked_alloc(layout); |
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// SAFETY: |
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// - alloc is valid for `layout.len()` bytes and is the uninit bytes are written |
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// to not read from until written. |
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// - T is copy so copying the bytes of the value is sound. |
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unsafe { |
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let alloc = alloc.as_mut_ptr().cast::<MaybeUninit<T>>(); |
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// let data = (data as *const T).cast::<MaybeUninit<T>>(); |
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(*alloc).write(*data) |
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} |
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} |
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pub fn copy_str_in<'a>(&'a self, s: &str) -> &'a str { |
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let copied_bytes = self.copy_slice_in(s.as_bytes()); |
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// SAFETY: `copied_bytes` has same contents as `s` and so must meet &str |
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// criteria. |
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unsafe { std::str::from_utf8_unchecked(copied_bytes) } |
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} |
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pub fn copy_slice_in<'a, T: Copy>(&'a self, data: &[T]) -> &'a [T] { |
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let layout = Layout::for_value(data); |
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let alloc: *mut T = self.checked_alloc(layout).as_mut_ptr().cast(); |
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// SAFETY: |
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// - uninit_alloc is valid for `layout.len()` bytes and is the uninit bytes are |
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// written to not read from until written. |
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// - T is copy so copying the bytes of the values is sound. |
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unsafe { |
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ptr::copy_nonoverlapping(data.as_ptr(), alloc, data.len()); |
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slice::from_raw_parts_mut(alloc, data.len()) |
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} |
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} |
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/// Fuse two arenas so they share the same lifetime. |
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/// |
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/// `fuse` will make it so that the memory allocated by `self` or `other` is |
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/// guaranteed to last until both `self` and `other` have been dropped. |
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/// The pointers returned by `Arena::alloc` will continue to be valid so |
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/// long as either `self` or `other` has not been dropped. |
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pub fn fuse(&self, other: &Arena) { |
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// SAFETY: `self.raw()` and `other.raw()` are both valid UPB arenas. |
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let success = unsafe { upb_Arena_Fuse(self.raw(), other.raw()) }; |
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if !success { |
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// Fusing can fail if any of the arenas has an initial block i.e. the arena is |
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// backed by a preallocated chunk of memory that it doesn't own and thus cannot |
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// lifetime extend. This function panics because this is typically not a |
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// recoverable error but a logic bug in a program. |
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panic!("Could not fuse two UPB arenas."); |
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} |
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} |
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} |
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impl Default for Arena { |
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fn default() -> Self { |
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Self::new() |
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} |
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} |
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impl Drop for Arena { |
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#[inline] |
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fn drop(&mut self) { |
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unsafe { |
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upb_Arena_Free(self.raw); |
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} |
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} |
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} |
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extern "C" { |
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// `Option<NonNull<T: Sized>>` is ABI-compatible with `*mut T` |
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fn upb_Arena_New() -> Option<RawArena>; |
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fn upb_Arena_Free(arena: RawArena); |
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fn upb_Arena_Malloc(arena: RawArena, size: usize) -> *mut u8; |
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fn upb_Arena_Fuse(arena1: RawArena, arena2: RawArena) -> bool; |
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} |
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#[cfg(test)] |
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mod tests { |
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use super::*; |
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#[test] |
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fn raw_ffi_test() { |
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// SAFETY: FFI unit test uses C API under expected patterns. |
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unsafe { |
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let arena = upb_Arena_New().unwrap(); |
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let bytes = upb_Arena_Malloc(arena, 3); |
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*bytes.add(2) = 7; |
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upb_Arena_Free(arena); |
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} |
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} |
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#[test] |
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fn test_arena_new_and_free() { |
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let arena = Arena::new(); |
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drop(arena); |
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} |
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}
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