cthrace/collabvm-1.2.ts
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

make rustfmt.toml consistent with editorconfig because of course rustfmt refuses to use the editorconfig

Browse Source
This commit is contained in:
Elijah R
2024-08-04 15:59:39 -04:00
parent 64d4774d00
commit b00c662b95
6 changed files with 262 additions and 259 deletions
Download Patch File Download Diff File Expand all files Collapse all files

3
cvm-rs/rustfmt.toml Normal file
View File

@@ -0,0 +1,3 @@
tab_spaces = 4
newline_style = "Unix"
hard_tabs = true

238
cvm-rs/src/guac.rs
View File

@@ -8,30 +8,30 @@ pub type Elements = Vec<String>;
/// Errors during decoding
#[derive(Debug, Clone)]
pub enum DecodeError {
/// Invalid guacamole instruction format
InvalidFormat,
/// Invalid guacamole instruction format
InvalidFormat,
/// Instruction is too long for the current decode policy.
InstructionTooLong,
/// Instruction is too long for the current decode policy.
InstructionTooLong,
/// Element is too long for the current decode policy.
ElementTooLong,
/// Element is too long for the current decode policy.
ElementTooLong,
/// Invalid element size.
ElementSizeInvalid,
/// Invalid element size.
ElementSizeInvalid,
}
pub type DecodeResult<T> = std::result::Result<T, DecodeError>;
impl fmt::Display for DecodeError {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
Self::InvalidFormat => write!(f, "Invalid Guacamole instruction while decoding"),
Self::InstructionTooLong => write!(f, "Instruction too long for current decode policy"),
Self::ElementTooLong => write!(f, "Element too long for current decode policy"),
Self::ElementSizeInvalid => write!(f, "Element size is invalid"),
}
}
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
Self::InvalidFormat => write!(f, "Invalid Guacamole instruction while decoding"),
Self::InstructionTooLong => write!(f, "Instruction too long for current decode policy"),
Self::ElementTooLong => write!(f, "Element too long for current decode policy"),
Self::ElementSizeInvalid => write!(f, "Element size is invalid"),
}
}
}
// this decode policy abstraction would in theory be useful,
@@ -40,13 +40,13 @@ impl fmt::Display for DecodeError {
pub struct StaticDecodePolicy<const INST_SIZE: usize, const ELEM_SIZE: usize>();
impl<const INST_SIZE: usize, const ELEM_SIZE: usize> StaticDecodePolicy<INST_SIZE, ELEM_SIZE> {
fn max_instruction_size(&self) -> usize {
INST_SIZE
}
fn max_instruction_size(&self) -> usize {
INST_SIZE
}
fn max_element_size(&self) -> usize {
ELEM_SIZE
}
fn max_element_size(&self) -> usize {
ELEM_SIZE
}
}
/// The default decode policy.
@@ -54,139 +54,139 @@ pub type DefaultDecodePolicy = StaticDecodePolicy<12288, 4096>;
/// Encodes elements into a Guacamole instruction
pub fn encode_instruction(elements: &Elements) -> String {
let mut str = String::new();
let mut str = String::new();
for elem in elements.iter() {
str.push_str(&format!("{}.{},", elem.len(), elem));
}
for elem in elements.iter() {
str.push_str(&format!("{}.{},", elem.len(), elem));
}
// hacky, but whatever
str.pop();
str.push(';');
// hacky, but whatever
str.pop();
str.push(';');
str
str
}
/// Decodes a Guacamole instruction to individual elements
pub fn decode_instruction(element_string: &String) -> DecodeResult<Elements> {
let policy = DefaultDecodePolicy {};
let policy = DefaultDecodePolicy {};
let mut vec: Elements = Vec::new();
let mut current_position: usize = 0;
let mut vec: Elements = Vec::new();
let mut current_position: usize = 0;
// Instruction is too long. Don't even bother
if policy.max_instruction_size() < element_string.len() {
return Err(DecodeError::InstructionTooLong);
}
// Instruction is too long. Don't even bother
if policy.max_instruction_size() < element_string.len() {
return Err(DecodeError::InstructionTooLong);
}
let chars = element_string.chars().collect::<Vec<_>>();
let chars = element_string.chars().collect::<Vec<_>>();
loop {
let mut element_size: usize = 0;
loop {
let mut element_size: usize = 0;
// Scan the integer value in by hand. This is mostly because
// I'm stupid, and the Rust integer parsing routines (seemingly)
// require a substring (or a slice, but, if you can generate a slice,
// you can also just scan the value in by hand.)
//
// We bound this anyways and do quite the checks, so even though it's not great,
// it should be generally fine (TM).
loop {
let c = chars[current_position];
// Scan the integer value in by hand. This is mostly because
// I'm stupid, and the Rust integer parsing routines (seemingly)
// require a substring (or a slice, but, if you can generate a slice,
// you can also just scan the value in by hand.)
//
// We bound this anyways and do quite the checks, so even though it's not great,
// it should be generally fine (TM).
loop {
let c = chars[current_position];
if c >= '0' && c <= '9' {
element_size = element_size * 10 + (c as usize) - ('0' as usize);
} else {
if c == '.' {
break;
}
if c >= '0' && c <= '9' {
element_size = element_size * 10 + (c as usize) - ('0' as usize);
} else {
if c == '.' {
break;
}
return Err(DecodeError::InvalidFormat);
}
current_position += 1;
}
return Err(DecodeError::InvalidFormat);
}
current_position += 1;
}
// Eat the '.' seperating the size and the element data;
// our integer scanning ensures we only get here in the case that this is actually the '.'
// character.
current_position += 1;
// Eat the '.' seperating the size and the element data;
// our integer scanning ensures we only get here in the case that this is actually the '.'
// character.
current_position += 1;
// Make sure the element size doesn't overflow the decode policy
// or the size of the whole instruction.
// Make sure the element size doesn't overflow the decode policy
// or the size of the whole instruction.
if element_size >= policy.max_element_size() {
return Err(DecodeError::ElementTooLong);
}
if element_size >= policy.max_element_size() {
return Err(DecodeError::ElementTooLong);
}
if element_size >= element_string.len() {
return Err(DecodeError::ElementSizeInvalid);
}
if element_size >= element_string.len() {
return Err(DecodeError::ElementSizeInvalid);
}
// cutoff elements or something
if current_position + element_size > chars.len() - 1 {
//println!("? {current_position} a {}", chars.len());
return Err(DecodeError::InvalidFormat);
}
// cutoff elements or something
if current_position + element_size > chars.len() - 1 {
//println!("? {current_position} a {}", chars.len());
return Err(DecodeError::InvalidFormat);
}
let element = chars
.iter()
.skip(current_position)
.take(element_size)
.collect::<String>();
let element = chars
.iter()
.skip(current_position)
.take(element_size)
.collect::<String>();
current_position += element_size;
current_position += element_size;
vec.push(element);
vec.push(element);
// make sure seperator is proper
match chars[current_position] {
',' => {}
';' => break,
_ => return Err(DecodeError::InvalidFormat),
}
// make sure seperator is proper
match chars[current_position] {
',' => {}
';' => break,
_ => return Err(DecodeError::InvalidFormat),
}
// eat the ','
current_position += 1;
}
// eat the ','
current_position += 1;
}
Ok(vec)
Ok(vec)
}
#[cfg(test)]
mod tests {
use super::*;
use super::*;
#[test]
fn decode_basic() {
let test = String::from("7.connect,3.vm1;");
let res = decode_instruction(&test);
#[test]
fn decode_basic() {
let test = String::from("7.connect,3.vm1;");
let res = decode_instruction(&test);
assert!(res.is_ok());
assert_eq!(res.unwrap(), vec!["connect", "vm1"]);
}
assert!(res.is_ok());
assert_eq!(res.unwrap(), vec!["connect", "vm1"]);
}
#[test]
fn decode_errors() {
let test = String::from("700.connect,3.vm1;");
let res = decode_instruction(&test);
#[test]
fn decode_errors() {
let test = String::from("700.connect,3.vm1;");
let res = decode_instruction(&test);
eprintln!("Error for: {}", res.clone().unwrap_err());
eprintln!("Error for: {}", res.clone().unwrap_err());
assert!(res.is_err())
}
assert!(res.is_err())
}
// generally just test that the codec even works
// (we can decode a instruction we created)
#[test]
fn general_codec_works() {
let vec = vec![String::from("connect"), String::from("vm1")];
let test = encode_instruction(&vec);
// generally just test that the codec even works
// (we can decode a instruction we created)
#[test]
fn general_codec_works() {
let vec = vec![String::from("connect"), String::from("vm1")];
let test = encode_instruction(&vec);
assert_eq!(test, "7.connect,3.vm1;");
assert_eq!(test, "7.connect,3.vm1;");
let res = decode_instruction(&test);
let res = decode_instruction(&test);
assert!(res.is_ok());
assert_eq!(res.unwrap(), vec);
}
assert!(res.is_ok());
assert_eq!(res.unwrap(), vec);
}
}

52
cvm-rs/src/guac_js.rs
View File

@@ -2,46 +2,46 @@ use crate::guac;
use neon::prelude::*;
fn guac_decode_impl<'a>(cx: &mut FunctionContext<'a>) -> JsResult<'a, JsArray> {
let input = cx.argument::<JsString>(0)?.value(cx);
let input = cx.argument::<JsString>(0)?.value(cx);
match guac::decode_instruction(&input) {
Ok(data) => {
let array = JsArray::new(cx, data.len());
match guac::decode_instruction(&input) {
Ok(data) => {
let array = JsArray::new(cx, data.len());
let conv = data
.iter()
.map(|v| cx.string(v))
.collect::<Vec<Handle<JsString>>>();
let conv = data
.iter()
.map(|v| cx.string(v))
.collect::<Vec<Handle<JsString>>>();
for (i, str) in conv.iter().enumerate() {
array.set(cx, i as u32, *str)?;
}
for (i, str) in conv.iter().enumerate() {
array.set(cx, i as u32, *str)?;
}
return Ok(array);
}
return Ok(array);
}
Err(e) => {
return cx.throw_error(format!("{}", e));
}
}
Err(e) => {
return cx.throw_error(format!("{}", e));
}
}
}
fn guac_encode_impl<'a>(cx: &mut FunctionContext<'a>) -> JsResult<'a, JsString> {
let mut elements: Vec<String> = Vec::with_capacity(cx.len());
let mut elements: Vec<String> = Vec::with_capacity(cx.len());
// Capture varadic arguments
for i in 0..cx.len() {
let input = cx.argument::<JsString>(i)?.value(cx);
elements.push(input);
}
// Capture varadic arguments
for i in 0..cx.len() {
let input = cx.argument::<JsString>(i)?.value(cx);
elements.push(input);
}
Ok(cx.string(guac::encode_instruction(&elements)))
Ok(cx.string(guac::encode_instruction(&elements)))
}
pub fn guac_decode(mut cx: FunctionContext) -> JsResult<JsArray> {
guac_decode_impl(&mut cx)
guac_decode_impl(&mut cx)
}
pub fn guac_encode(mut cx: FunctionContext) -> JsResult<JsString> {
guac_encode_impl(&mut cx)
guac_encode_impl(&mut cx)
}

118
cvm-rs/src/jpeg_compressor.rs
View File

@@ -1,82 +1,82 @@
use turbojpeg_sys::*;
pub struct Image<'a> {
pub buffer: &'a [u8],
pub width: u32,
pub height: u32,
pub stride: u32,
pub format: TJPF,
pub buffer: &'a [u8],
pub width: u32,
pub height: u32,
pub stride: u32,
pub format: TJPF,
}
pub struct JpegCompressor {
handle: tjhandle,
subsamp: TJSAMP,
quality: u32,
handle: tjhandle,
subsamp: TJSAMP,
quality: u32,
}
unsafe impl Send for JpegCompressor {}
impl JpegCompressor {
pub fn new() -> Self {
unsafe {
let init = Self {
handle: tjInitCompress(),
subsamp: TJSAMP_TJSAMP_422,
quality: 95,
};
return init;
}
}
pub fn new() -> Self {
unsafe {
let init = Self {
handle: tjInitCompress(),
subsamp: TJSAMP_TJSAMP_422,
quality: 95,
};
return init;
}
}
pub fn set_quality(&mut self, quality: u32) {
self.quality = quality;
}
pub fn set_quality(&mut self, quality: u32) {
self.quality = quality;
}
pub fn set_subsamp(&mut self, samp: TJSAMP) {
self.subsamp = samp;
}
pub fn set_subsamp(&mut self, samp: TJSAMP) {
self.subsamp = samp;
}
pub fn compress_buffer<'a>(&self, image: &Image<'a>) -> Vec<u8> {
unsafe {
let size: usize =
tjBufSize(image.width as i32, image.height as i32, self.subsamp) as usize;
let mut vec = Vec::with_capacity(size);
pub fn compress_buffer<'a>(&self, image: &Image<'a>) -> Vec<u8> {
unsafe {
let size: usize =
tjBufSize(image.width as i32, image.height as i32, self.subsamp) as usize;
let mut vec = Vec::with_capacity(size);
vec.resize(size, 0);
vec.resize(size, 0);
let mut ptr: *mut u8 = vec.as_mut_ptr();
let mut size: libc::c_ulong = 0;
let mut ptr: *mut u8 = vec.as_mut_ptr();
let mut size: libc::c_ulong = 0;
let res = tjCompress2(
self.handle,
image.buffer.as_ptr(),
image.width as i32,
image.stride as i32,
image.height as i32,
image.format,
std::ptr::addr_of_mut!(ptr),
std::ptr::addr_of_mut!(size),
self.subsamp,
self.quality as i32,
(TJFLAG_NOREALLOC) as i32,
);
let res = tjCompress2(
self.handle,
image.buffer.as_ptr(),
image.width as i32,
image.stride as i32,
image.height as i32,
image.format,
std::ptr::addr_of_mut!(ptr),
std::ptr::addr_of_mut!(size),
self.subsamp,
self.quality as i32,
(TJFLAG_NOREALLOC) as i32,
);
// TODO: Result sex so we can actually notify failure
if res == -1 {
return Vec::new();
}
// TODO: Result sex so we can actually notify failure
if res == -1 {
return Vec::new();
}
// Truncate down to the size we're given back
vec.truncate(size as usize);
return vec;
}
}
// Truncate down to the size we're given back
vec.truncate(size as usize);
return vec;
}
}
}
impl Drop for JpegCompressor {
fn drop(&mut self) {
unsafe {
tjDestroy(self.handle);
}
}
fn drop(&mut self) {
unsafe {
tjDestroy(self.handle);
}
}
}

100
cvm-rs/src/jpeg_js.rs
View File

@@ -13,75 +13,75 @@ use crate::jpeg_compressor::*;
/// Gives a static Tokio runtime. We should replace this with
/// rayon or something, but for now tokio works.
fn runtime<'a, C: Context<'a>>(cx: &mut C) -> NeonResult<&'static Runtime> {
static RUNTIME: OnceCell<Runtime> = OnceCell::new();
static RUNTIME: OnceCell<Runtime> = OnceCell::new();
RUNTIME
.get_or_try_init(Runtime::new)
.or_else(|err| cx.throw_error(&err.to_string()))
RUNTIME
.get_or_try_init(Runtime::new)
.or_else(|err| cx.throw_error(&err.to_string()))
}
thread_local! {
static COMPRESSOR: RefCell<JpegCompressor> = RefCell::new(JpegCompressor::new());
static COMPRESSOR: RefCell<JpegCompressor> = RefCell::new(JpegCompressor::new());
}
fn jpeg_encode_impl<'a>(cx: &mut FunctionContext<'a>) -> JsResult<'a, JsPromise> {
let input = cx.argument::<JsObject>(0)?;
let input = cx.argument::<JsObject>(0)?;
// Get our input arguments here
let width: u64 = input.get::<JsNumber, _, _>(cx, "width")?.value(cx) as u64;
let height: u64 = input.get::<JsNumber, _, _>(cx, "height")?.value(cx) as u64;
let stride: u64 = input.get::<JsNumber, _, _>(cx, "stride")?.value(cx) as u64;
let buffer: Handle<JsBuffer> = input.get(cx, "buffer")?;
// Get our input arguments here
let width: u64 = input.get::<JsNumber, _, _>(cx, "width")?.value(cx) as u64;
let height: u64 = input.get::<JsNumber, _, _>(cx, "height")?.value(cx) as u64;
let stride: u64 = input.get::<JsNumber, _, _>(cx, "stride")?.value(cx) as u64;
let buffer: Handle<JsBuffer> = input.get(cx, "buffer")?;
let (deferred, promise) = cx.promise();
let channel = cx.channel();
let runtime = runtime(cx)?;
let (deferred, promise) = cx.promise();
let channel = cx.channel();
let runtime = runtime(cx)?;
let buf = buffer.as_slice(cx);
let buf = buffer.as_slice(cx);
let copy: Arc<Mutex<Vec<u8>>> = Arc::new(Mutex::new(Vec::with_capacity(buf.len())));
let copy: Arc<Mutex<Vec<u8>>> = Arc::new(Mutex::new(Vec::with_capacity(buf.len())));
// Copy from the node buffer to our temporary buffer
{
let mut locked = copy.lock().unwrap();
let cap = locked.capacity();
locked.resize(cap, 0);
locked.copy_from_slice(buf);
}
// Copy from the node buffer to our temporary buffer
{
let mut locked = copy.lock().unwrap();
let cap = locked.capacity();
locked.resize(cap, 0);
locked.copy_from_slice(buf);
}
// Spawn off a tokio blocking pool thread that will do the work for us
runtime.spawn_blocking(move || {
let clone = Arc::clone(&copy);
let locked = clone.lock().unwrap();
// Spawn off a tokio blocking pool thread that will do the work for us
runtime.spawn_blocking(move || {
let clone = Arc::clone(&copy);
let locked = clone.lock().unwrap();
let image: Image = Image {
buffer: locked.as_slice(),
width: width as u32,
height: height as u32,
let image: Image = Image {
buffer: locked.as_slice(),
width: width as u32,
height: height as u32,
stride: (stride * 4u64) as u32, // I think?
format: turbojpeg_sys::TJPF_TJPF_RGBA,
};
stride: (stride * 4u64) as u32, // I think?
format: turbojpeg_sys::TJPF_TJPF_RGBA,
};
let vec = COMPRESSOR.with(|lazy| {
let mut b = lazy.borrow_mut();
b.set_quality(35);
b.set_subsamp(turbojpeg_sys::TJSAMP_TJSAMP_420);
b.compress_buffer(&image)
});
let vec = COMPRESSOR.with(|lazy| {
let mut b = lazy.borrow_mut();
b.set_quality(35);
b.set_subsamp(turbojpeg_sys::TJSAMP_TJSAMP_420);
b.compress_buffer(&image)
});
// Fulfill the Javascript promise with our encoded buffer
deferred.settle_with(&channel, move |mut cx| {
let mut buf = cx.buffer(vec.len())?;
let slice = buf.as_mut_slice(&mut cx);
slice.copy_from_slice(vec.as_slice());
Ok(buf)
});
});
// Fulfill the Javascript promise with our encoded buffer
deferred.settle_with(&channel, move |mut cx| {
let mut buf = cx.buffer(vec.len())?;
let slice = buf.as_mut_slice(&mut cx);
slice.copy_from_slice(vec.as_slice());
Ok(buf)
});
});
Ok(promise)
Ok(promise)
}
pub fn jpeg_encode(mut cx: FunctionContext) -> JsResult<JsPromise> {
jpeg_encode_impl(&mut cx)
jpeg_encode_impl(&mut cx)
}

10
cvm-rs/src/lib.rs
View File

@@ -8,10 +8,10 @@ use neon::prelude::*;
#[neon::main]
fn main(mut cx: ModuleContext) -> NeonResult<()> {
// Mostly transitionary, later on API should change
cx.export_function("jpegEncode", jpeg_js::jpeg_encode)?;
// Mostly transitionary, later on API should change
cx.export_function("jpegEncode", jpeg_js::jpeg_encode)?;
cx.export_function("guacDecode", guac_js::guac_decode)?;
cx.export_function("guacEncode", guac_js::guac_encode)?;
Ok(())
cx.export_function("guacDecode", guac_js::guac_decode)?;
cx.export_function("guacEncode", guac_js::guac_encode)?;
Ok(())
}