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pull from: xeos:a-mem-allocator
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xeos:master
xeos:gh-pages
xeos:ser-cow
xeos:a-mem-allocator
xeos:andre/mmap-realloc
xeos:cmichi-derive-clone-for-module-instances
xeos:cmichi-add-threadsafety-feature-flag
xeos:fixsm
xeos:edition
xeos:derive
xeos:ser-mmap
xeos:fuzz
xeos:lift-limits-lil-more
xeos:parity-wasm-update
xeos:deref-not-started
xeos:0.5.1
xeos:0.5
xeos:0.5.0
xeos:0.4.6
xeos:0.4.5
xeos:0.4.4
xeos:0.4.3
xeos:0.4.2
xeos:0.4.1
xeos:0.4.0
xeos:0.3
xeos:0.2.1
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xeos:0.1.3
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xeos:0.1.0

2 Commits
master ... a-mem-allo

Author SHA1 Message Date
arkpar dedcda99dd
Style 2019-07-04 18:05:41 +02:00
arkpar 2d2d1f49c3
Customizable allocator 2019-07-04 18:03:18 +02:00
1 changed files with 125 additions and 73 deletions
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198
src/memory.rs
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@ -3,8 +3,8 @@ use alloc::prelude::v1::*;
use alloc::rc::Rc; use alloc::rc::Rc;
use core::{ use core::{
cell::{Cell, RefCell}, cell::{Cell, RefCell},
cmp, fmt, cmp, fmt, slice,
ops::Range, ops::{Range, Deref, DerefMut},
u32, u32,
}; };
use memory_units::{Bytes, Pages, RoundUpTo}; use memory_units::{Bytes, Pages, RoundUpTo};
@ -35,6 +35,22 @@ impl ::core::ops::Deref for MemoryRef {
} }
} }
pub trait Allocator: Deref<Target=[u8]> + DerefMut<Target=[u8]> {
fn resize(&mut self, usize, value: u8);
}
impl Allocator for Vec<u8> {
fn resize(&mut self, size: usize, value: u8) {
Vec::resize(self, size, value)
}
}
impl Allocator for &'static mut [u8] {
fn resize(&mut self, _size: usize, _value: u8) {
// no op
}
}
/// Runtime representation of a linear memory (or `memory` for short). /// Runtime representation of a linear memory (or `memory` for short).
/// ///
/// A memory is a contiguous, mutable array of raw bytes. Wasm code can load and store values /// A memory is a contiguous, mutable array of raw bytes. Wasm code can load and store values
@ -52,11 +68,13 @@ pub struct MemoryInstance {
/// Memory limits. /// Memory limits.
limits: ResizableLimits, limits: ResizableLimits,
/// Linear memory buffer with lazy allocation. /// Linear memory buffer with lazy allocation.
buffer: RefCell<Vec<u8>>, buffer: RefCell<Box<dyn Allocator>>,
initial: Pages, initial: Pages,
current_size: Cell<usize>, current_size: Cell<usize>,
maximum: Option<Pages>, maximum: Option<Pages>,
lowest_used: Cell<u32>, lowest_used: Cell<u32>,
buffer_ptr: Cell<*mut u8>,
buffer_size: Cell<usize>,
} }
impl fmt::Debug for MemoryInstance { impl fmt::Debug for MemoryInstance {
@ -126,22 +144,61 @@ impl MemoryInstance {
validation::validate_memory(initial_u32, maximum_u32).map_err(Error::Memory)?; validation::validate_memory(initial_u32, maximum_u32).map_err(Error::Memory)?;
} }
let memory = MemoryInstance::new(initial, maximum); let allocator = Box::new(Vec::with_capacity(4096));
let memory = MemoryInstance::new(initial, maximum, allocator);
Ok(MemoryRef(Rc::new(memory)))
}
/// Create a memory instance using specified raw memory. The memory address must
/// be aligned to a page size. The size must be a multiple of page size.
///
/// # Errors
///
/// Returns `Err` if:
///
/// - `buffer` is not aligned to page size.
/// - `size` is not a multiple of page size.
pub fn with_memory(buffer: *mut u8, size: usize) -> Result<MemoryRef, Error> {
if (buffer as usize) % LINEAR_MEMORY_PAGE_SIZE.0 != 0 {
return Err(Error::Memory(format!(
"Buffer address must be aligned to page size",
)))
}
if size % LINEAR_MEMORY_PAGE_SIZE.0 != 0 {
return Err(Error::Memory(format!(
"Size {} must be multiple of page size",
size,
)))
}
let pages: Pages = Bytes(size).round_up_to();
if pages > Pages(validation::LINEAR_MEMORY_MAX_PAGES as usize) {
return Err(Error::Memory(format!(
"Memory size must be at most {} pages",
validation::LINEAR_MEMORY_MAX_PAGES
)));
}
let allocator = unsafe { Box::new(slice::from_raw_parts_mut(buffer, size)) };
let memory = MemoryInstance::new(pages, Some(pages), allocator);
Ok(MemoryRef(Rc::new(memory))) Ok(MemoryRef(Rc::new(memory)))
} }
/// Create new linear memory instance. /// Create new linear memory instance.
fn new(initial: Pages, maximum: Option<Pages>) -> Self { fn new(initial: Pages, maximum: Option<Pages>, mut allocator: Box<Allocator>) -> Self {
let limits = ResizableLimits::new(initial.0 as u32, maximum.map(|p| p.0 as u32)); let limits = ResizableLimits::new(initial.0 as u32, maximum.map(|p| p.0 as u32));
let initial_size: Bytes = initial.into(); let initial_size: Bytes = initial.into();
let ptr = allocator.as_mut_ptr();
MemoryInstance { MemoryInstance {
limits: limits, limits: limits,
buffer: RefCell::new(Vec::with_capacity(4096)), buffer: RefCell::new(allocator),
initial: initial, initial: initial,
current_size: Cell::new(initial_size.0), current_size: Cell::new(initial_size.0),
maximum: maximum, maximum: maximum,
lowest_used: Cell::new(u32::max_value()), lowest_used: Cell::new(u32::max_value()),
buffer_ptr: Cell::new(ptr),
buffer_size: Cell::new(0),
} }
} }
@ -199,15 +256,15 @@ impl MemoryInstance {
/// Returns current used memory size in bytes. /// Returns current used memory size in bytes.
/// This is one more than the highest memory address that had been written to. /// This is one more than the highest memory address that had been written to.
pub fn used_size(&self) -> Bytes { pub fn used_size(&self) -> Bytes {
Bytes(self.buffer.borrow().len()) Bytes(self.buffer_size.get())
} }
/// Get value from memory at given offset. /// Get value from memory at given offset.
pub fn get_value<T: LittleEndianConvert>(&self, offset: u32) -> Result<T, Error> { pub fn get_value<T: LittleEndianConvert>(&self, offset: u32) -> Result<T, Error> {
let mut buffer = self.buffer.borrow_mut();
let region = let region =
self.checked_region(&mut buffer, offset as usize, ::core::mem::size_of::<T>())?; self.checked_region(offset as usize, ::core::mem::size_of::<T>())?;
Ok(T::from_little_endian(&buffer[region.range()]).expect("Slice size is checked")) let mem = unsafe { slice::from_raw_parts_mut(self.buffer_ptr.get(), self.buffer_size.get()) };
Ok(T::from_little_endian(&mem[region.range()]).expect("Slice size is checked"))
} }
/// Copy data from memory at given offset. /// Copy data from memory at given offset.
@ -217,10 +274,9 @@ impl MemoryInstance {
/// ///
/// [`get_into`]: #method.get_into /// [`get_into`]: #method.get_into
pub fn get(&self, offset: u32, size: usize) -> Result<Vec<u8>, Error> { pub fn get(&self, offset: u32, size: usize) -> Result<Vec<u8>, Error> {
let mut buffer = self.buffer.borrow_mut(); let region = self.checked_region(offset as usize, size)?;
let region = self.checked_region(&mut buffer, offset as usize, size)?; let mem = unsafe { slice::from_raw_parts_mut(self.buffer_ptr.get(), self.buffer_size.get()) };
Ok(mem[region.range()].to_vec())
Ok(buffer[region.range()].to_vec())
} }
/// Copy data from given offset in the memory into `target` slice. /// Copy data from given offset in the memory into `target` slice.
@ -229,39 +285,37 @@ impl MemoryInstance {
/// ///
/// Returns `Err` if the specified region is out of bounds. /// Returns `Err` if the specified region is out of bounds.
pub fn get_into(&self, offset: u32, target: &mut [u8]) -> Result<(), Error> { pub fn get_into(&self, offset: u32, target: &mut [u8]) -> Result<(), Error> {
let mut buffer = self.buffer.borrow_mut(); let region = self.checked_region(offset as usize, target.len())?;
let region = self.checked_region(&mut buffer, offset as usize, target.len())?; let mem = unsafe { slice::from_raw_parts_mut(self.buffer_ptr.get(), self.buffer_size.get()) };
target.copy_from_slice(&mem[region.range()]);
target.copy_from_slice(&buffer[region.range()]);
Ok(()) Ok(())
} }
/// Copy data in the memory at given offset. /// Copy data in the memory at given offset.
pub fn set(&self, offset: u32, value: &[u8]) -> Result<(), Error> { pub fn set(&self, offset: u32, value: &[u8]) -> Result<(), Error> {
let mut buffer = self.buffer.borrow_mut();
let range = self let range = self
.checked_region(&mut buffer, offset as usize, value.len())? .checked_region(offset as usize, value.len())?
.range(); .range();
if offset < self.lowest_used.get() { if offset < self.lowest_used.get() {
self.lowest_used.set(offset); self.lowest_used.set(offset);
} }
buffer[range].copy_from_slice(value); let mem = unsafe { slice::from_raw_parts_mut(self.buffer_ptr.get(), self.buffer_size.get()) };
mem[range].copy_from_slice(value);
Ok(()) Ok(())
} }
/// Copy value in the memory at given offset. /// Copy value in the memory at given offset.
pub fn set_value<T: LittleEndianConvert>(&self, offset: u32, value: T) -> Result<(), Error> { pub fn set_value<T: LittleEndianConvert>(&self, offset: u32, value: T) -> Result<(), Error> {
let mut buffer = self.buffer.borrow_mut();
let range = self let range = self
.checked_region(&mut buffer, offset as usize, ::core::mem::size_of::<T>())? .checked_region(offset as usize, ::core::mem::size_of::<T>())?
.range(); .range();
if offset < self.lowest_used.get() { if offset < self.lowest_used.get() {
self.lowest_used.set(offset); self.lowest_used.set(offset);
} }
value.into_little_endian(&mut buffer[range]); let mem = unsafe { slice::from_raw_parts_mut(self.buffer_ptr.get(), self.buffer_size.get()) };
value.into_little_endian(&mut mem[range]);
Ok(()) Ok(())
} }
@ -299,15 +353,11 @@ impl MemoryInstance {
Ok(size_before_grow) Ok(size_before_grow)
} }
fn checked_region<B>( fn checked_region(
&self, &self,
buffer: &mut B,
offset: usize, offset: usize,
size: usize, size: usize,
) -> Result<CheckedRegion, Error> ) -> Result<CheckedRegion, Error> {
where
B: ::core::ops::DerefMut<Target = Vec<u8>>,
{
let end = offset.checked_add(size).ok_or_else(|| { let end = offset.checked_add(size).ok_or_else(|| {
Error::Memory(format!( Error::Memory(format!(
"trying to access memory block of size {} from offset {}", "trying to access memory block of size {} from offset {}",
@ -315,16 +365,19 @@ impl MemoryInstance {
)) ))
})?; })?;
if end <= self.current_size.get() && buffer.len() < end { if end <= self.current_size.get() && self.buffer_size.get() < end {
buffer.resize(end, 0); let mut allocator = self.buffer.borrow_mut();
allocator.resize(end, 0);
self.buffer_ptr.set(allocator.as_mut_ptr());
self.buffer_size.set(allocator.len());
} }
if end > buffer.len() { if end > self.buffer_size.get() {
return Err(Error::Memory(format!( return Err(Error::Memory(format!(
"trying to access region [{}..{}] in memory [0..{}]", "trying to access region [{}..{}] in memory [0..{}]",
offset, offset,
end, end,
buffer.len() self.buffer_size.get(),
))); )));
} }
@ -334,17 +387,13 @@ impl MemoryInstance {
}) })
} }
fn checked_region_pair<B>( fn checked_region_pair(
&self, &self,
buffer: &mut B,
offset1: usize, offset1: usize,
size1: usize, size1: usize,
offset2: usize, offset2: usize,
size2: usize, size2: usize,
) -> Result<(CheckedRegion, CheckedRegion), Error> ) -> Result<(CheckedRegion, CheckedRegion), Error> {
where
B: ::core::ops::DerefMut<Target = Vec<u8>>,
{
let end1 = offset1.checked_add(size1).ok_or_else(|| { let end1 = offset1.checked_add(size1).ok_or_else(|| {
Error::Memory(format!( Error::Memory(format!(
"trying to access memory block of size {} from offset {}", "trying to access memory block of size {} from offset {}",
@ -360,25 +409,28 @@ impl MemoryInstance {
})?; })?;
let max = cmp::max(end1, end2); let max = cmp::max(end1, end2);
if max <= self.current_size.get() && buffer.len() < max { if max <= self.current_size.get() && self.buffer_size.get() < max {
buffer.resize(max, 0); let mut allocator = self.buffer.borrow_mut();
allocator.resize(max, 0);
self.buffer_ptr.set(allocator.as_mut_ptr());
self.buffer_size.set(allocator.len());
} }
if end1 > buffer.len() { if end1 > self.buffer_size.get() {
return Err(Error::Memory(format!( return Err(Error::Memory(format!(
"trying to access region [{}..{}] in memory [0..{}]", "trying to access region [{}..{}] in memory [0..{}]",
offset1, offset1,
end1, end1,
buffer.len() self.buffer_size.get(),
))); )));
} }
if end2 > buffer.len() { if end2 > self.buffer_size.get() {
return Err(Error::Memory(format!( return Err(Error::Memory(format!(
"trying to access region [{}..{}] in memory [0..{}]", "trying to access region [{}..{}] in memory [0..{}]",
offset2, offset2,
end2, end2,
buffer.len() self.buffer_size.get(),
))); )));
} }
@ -402,10 +454,8 @@ impl MemoryInstance {
/// ///
/// Returns `Err` if either of specified regions is out of bounds. /// Returns `Err` if either of specified regions is out of bounds.
pub fn copy(&self, src_offset: usize, dst_offset: usize, len: usize) -> Result<(), Error> { pub fn copy(&self, src_offset: usize, dst_offset: usize, len: usize) -> Result<(), Error> {
let mut buffer = self.buffer.borrow_mut();
let (read_region, write_region) = let (read_region, write_region) =
self.checked_region_pair(&mut buffer, src_offset, len, dst_offset, len)?; self.checked_region_pair(src_offset, len, dst_offset, len)?;
if dst_offset < self.lowest_used.get() as usize { if dst_offset < self.lowest_used.get() as usize {
self.lowest_used.set(dst_offset as u32); self.lowest_used.set(dst_offset as u32);
@ -413,8 +463,8 @@ impl MemoryInstance {
unsafe { unsafe {
::core::ptr::copy( ::core::ptr::copy(
buffer[read_region.range()].as_ptr(), self.buffer_ptr.get().offset(read_region.offset as isize),
buffer[write_region.range()].as_mut_ptr(), self.buffer_ptr.get().offset(write_region.offset as isize),
len, len,
) )
} }
@ -439,10 +489,9 @@ impl MemoryInstance {
dst_offset: usize, dst_offset: usize,
len: usize, len: usize,
) -> Result<(), Error> { ) -> Result<(), Error> {
let mut buffer = self.buffer.borrow_mut();
let (read_region, write_region) = let (read_region, write_region) =
self.checked_region_pair(&mut buffer, src_offset, len, dst_offset, len)?; self.checked_region_pair(src_offset, len, dst_offset, len)?;
if read_region.intersects(&write_region) { if read_region.intersects(&write_region) {
return Err(Error::Memory(format!( return Err(Error::Memory(format!(
@ -456,8 +505,8 @@ impl MemoryInstance {
unsafe { unsafe {
::core::ptr::copy_nonoverlapping( ::core::ptr::copy_nonoverlapping(
buffer[read_region.range()].as_ptr(), self.buffer_ptr.get().offset(read_region.offset as isize),
buffer[write_region.range()].as_mut_ptr(), self.buffer_ptr.get().offset(write_region.offset as isize),
len, len,
) )
} }
@ -481,23 +530,24 @@ impl MemoryInstance {
return src.copy(src_offset, dst_offset, len); return src.copy(src_offset, dst_offset, len);
} }
// Because memory references point to different memory instances, it is safe to `borrow_mut`
// both buffers at once (modulo `with_direct_access_mut`).
let mut src_buffer = src.buffer.borrow_mut();
let mut dst_buffer = dst.buffer.borrow_mut();
let src_range = src let src_range = src
.checked_region(&mut src_buffer, src_offset, len)? .checked_region(src_offset, len)?
.range(); .range();
let dst_range = dst let dst_range = dst
.checked_region(&mut dst_buffer, dst_offset, len)? .checked_region(dst_offset, len)?
.range(); .range();
if dst_offset < dst.lowest_used.get() as usize { if dst_offset < dst.lowest_used.get() as usize {
dst.lowest_used.set(dst_offset as u32); dst.lowest_used.set(dst_offset as u32);
} }
dst_buffer[dst_range].copy_from_slice(&src_buffer[src_range]); unsafe {
::core::ptr::copy_nonoverlapping(
src.buffer_ptr.get().offset(src_range.start as isize),
dst.buffer_ptr.get().offset(dst_range.start as isize),
len,
)
}
Ok(()) Ok(())
} }
@ -510,16 +560,18 @@ impl MemoryInstance {
/// ///
/// Returns `Err` if the specified region is out of bounds. /// Returns `Err` if the specified region is out of bounds.
pub fn clear(&self, offset: usize, new_val: u8, len: usize) -> Result<(), Error> { pub fn clear(&self, offset: usize, new_val: u8, len: usize) -> Result<(), Error> {
let mut buffer = self.buffer.borrow_mut(); let range = self.checked_region(offset, len)?.range();
let range = self.checked_region(&mut buffer, offset, len)?.range();
if offset < self.lowest_used.get() as usize { if offset < self.lowest_used.get() as usize {
self.lowest_used.set(offset as u32); self.lowest_used.set(offset as u32);
} }
for val in &mut buffer[range] { unsafe {
*val = new_val ::core::ptr::write_bytes(
self.buffer_ptr.get().offset(range.start as isize),
new_val,
len,
);
} }
Ok(()) Ok(())
} }
@ -558,9 +610,9 @@ impl MemoryInstance {
/// [`get`]: #method.get /// [`get`]: #method.get
/// [`set`]: #method.set /// [`set`]: #method.set
/// [`copy`]: #method.copy /// [`copy`]: #method.copy
pub fn with_direct_access_mut<R, F: FnOnce(&mut Vec<u8>) -> R>(&self, f: F) -> R { pub fn with_direct_access_mut<R, F: FnOnce(&mut Allocator) -> R>(&self, f: F) -> R {
let mut buf = self.buffer.borrow_mut(); let mut buf = self.buffer.borrow_mut();
f(&mut buf) f(&mut **buf)
} }
} }
@ -618,7 +670,7 @@ mod tests {
} }
fn create_memory(initial_content: &[u8]) -> MemoryInstance { fn create_memory(initial_content: &[u8]) -> MemoryInstance {
let mem = MemoryInstance::new(Pages(1), Some(Pages(1))); let mem = MemoryInstance::new(Pages(1), Some(Pages(1)), Box::new(Vec::new()));
mem.set(0, initial_content) mem.set(0, initial_content)
.expect("Successful initialize the memory"); .expect("Successful initialize the memory");
mem mem
@ -731,7 +783,7 @@ mod tests {
#[test] #[test]
fn get_into() { fn get_into() {
let mem = MemoryInstance::new(Pages(1), None); let mem = MemoryInstance::new(Pages(1), None, Box::new(Vec::new()));
mem.set(6, &[13, 17, 129]) mem.set(6, &[13, 17, 129])
.expect("memory set should not fail"); .expect("memory set should not fail");