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use std::io::{Read, Write};
use message;
use util::read_exact;
use {Error, Result, Word};
use byteorder::{ByteOrder, LittleEndian};
pub struct SliceSegments<'a> {
words: &'a [Word],
segment_slices : Vec<(usize, usize)>,
}
impl <'a> message::ReaderSegments for SliceSegments<'a> {
fn get_segment<'b>(&'b self, id: u32) -> Option<&'b [Word]> {
if id < self.segment_slices.len() as u32 {
let (a, b) = self.segment_slices[id as usize];
Some(&self.words[a..b])
} else {
None
}
}
}
pub fn read_message_from_words<'a>(slice: &'a [Word],
options: message::ReaderOptions)
-> Result<message::Reader<SliceSegments<'a>>>
{
let mut bytes = ::Word::words_to_bytes(slice);
let (num_words, offsets) = try!(read_segment_table(&mut bytes, options));
let words = ::Word::bytes_to_words(bytes);
if num_words != words.len() {
Err(Error::failed(
format!("Wrong number of words. Header claimed {} words, but message has {} words",
num_words, words.len())))
} else {
Ok(message::Reader::new(SliceSegments { words: words, segment_slices: offsets }, options))
}
}
pub struct OwnedSegments {
segment_slices : Vec<(usize, usize)>,
owned_space : Vec<Word>,
}
impl ::message::ReaderSegments for OwnedSegments {
fn get_segment<'a>(&'a self, id: u32) -> Option<&'a [Word]> {
if id < self.segment_slices.len() as u32 {
let (a, b) = self.segment_slices[id as usize];
Some(&self.owned_space[a..b])
} else {
None
}
}
}
pub fn read_message<R>(read: &mut R, options: message::ReaderOptions) -> Result<message::Reader<OwnedSegments>>
where R: Read {
let (total_words, segment_slices) = try!(read_segment_table(read, options));
read_segments(read, total_words, segment_slices, options)
}
fn read_segment_table<R>(read: &mut R,
options: message::ReaderOptions)
-> Result<(usize, Vec<(usize, usize)>)>
where R: Read
{
let mut buf: [u8; 8] = [0; 8];
try!(read_exact(read, &mut buf));
let segment_count = <LittleEndian as ByteOrder>::read_u32(&buf[0..4])
.wrapping_add(1) as usize;
if segment_count >= 512 {
return Err(Error::failed(format!("Too many segments: {}", segment_count)))
} else if segment_count == 0 {
return Err(Error::failed(format!("Too few segments: {}", segment_count)))
}
let mut segment_slices = Vec::with_capacity(segment_count);
let mut total_words = <LittleEndian as ByteOrder>::read_u32(&buf[4..8]) as usize;
segment_slices.push((0, total_words));
if segment_count > 1 {
if segment_count < 4 {
try!(read_exact(read, &mut buf));
for idx in 0..(segment_count - 1) {
let segment_len =
<LittleEndian as ByteOrder>::read_u32(&buf[(idx * 4)..(idx + 1) * 4]) as usize;
segment_slices.push((total_words, total_words + segment_len));
total_words += segment_len;
}
} else {
let mut segment_sizes = vec![0u8; (segment_count & !1) * 4];
try!(read_exact(read, &mut segment_sizes[..]));
for idx in 0..(segment_count - 1) {
let segment_len =
<LittleEndian as ByteOrder>::read_u32(&segment_sizes[(idx * 4)..(idx + 1) * 4]) as usize;
segment_slices.push((total_words, total_words + segment_len));
total_words += segment_len;
}
}
}
if total_words as u64 > options.traversal_limit_in_words {
return Err(Error::failed(
format!("Message has {} words, which is too large. To increase the limit on the \
receiving end, see capnp::message::ReaderOptions.", total_words)))
}
Ok((total_words, segment_slices))
}
fn read_segments<R>(read: &mut R,
total_words: usize,
segment_slices: Vec<(usize, usize)>,
options: message::ReaderOptions)
-> Result<message::Reader<OwnedSegments>>
where R: Read {
let mut owned_space: Vec<Word> = Word::allocate_zeroed_vec(total_words);
try!(read_exact(read, Word::words_to_bytes_mut(&mut owned_space[..])));
let segments = OwnedSegments {segment_slices: segment_slices, owned_space: owned_space};
Ok(::message::Reader::new(segments, options))
}
pub fn write_message_to_words<A>(message: &message::Builder<A>) -> Vec<Word>
where A: message::Allocator
{
flatten_segments(&*message.get_segments_for_output())
}
fn flatten_segments(segments: &[&[Word]]) -> Vec<Word> {
let word_count = compute_serialized_size(&*segments);
let table_size = segments.len() / 2 + 1;
let mut result = Vec::with_capacity(word_count);
for _ in 0..table_size {
result.push(Word { raw_content: 0 });
}
{
let mut bytes = ::Word::words_to_bytes_mut(&mut result[..]);
write_segment_table(&mut bytes, &*segments).expect("Failed to write segment table.");
}
for segment in &*segments {
for idx in 0..segment.len() {
result.push(segment[idx]);
}
}
result
}
pub fn write_message<W, A>(write: &mut W, message: &message::Builder<A>) -> ::std::io::Result<()>
where W: Write, A: message::Allocator {
let segments = message.get_segments_for_output();
try!(write_segment_table(write, &*segments));
write_segments(write, &*segments)
}
fn write_segment_table<W>(write: &mut W, segments: &[&[Word]]) -> ::std::io::Result<()>
where W: Write {
let mut buf: [u8; 8] = [0; 8];
let segment_count = segments.len();
<LittleEndian as ByteOrder>::write_u32(&mut buf[0..4], segment_count as u32 - 1);
<LittleEndian as ByteOrder>::write_u32(&mut buf[4..8], segments[0].len() as u32);
try!(write.write_all(&buf));
if segment_count > 1 {
if segment_count < 4 {
for idx in 1..segment_count {
<LittleEndian as ByteOrder>::write_u32(
&mut buf[(idx - 1) * 4..idx * 4], segments[idx].len() as u32);
}
if segment_count == 2 {
for idx in 4..8 { buf[idx] = 0 }
}
try!(write.write_all(&buf));
} else {
let mut buf = vec![0; (segment_count & !1) * 4];
for idx in 1..segment_count {
<LittleEndian as ByteOrder>::write_u32(
&mut buf[(idx - 1) * 4..idx * 4], segments[idx].len() as u32);
}
if segment_count % 2 == 0 {
for idx in (buf.len() - 4)..(buf.len()) { buf[idx] = 0 }
}
try!(write.write_all(&buf));
}
}
Ok(())
}
fn write_segments<W>(write: &mut W, segments: &[&[Word]]) -> ::std::io::Result<()>
where W: Write {
for segment in segments {
try!(write.write_all(Word::words_to_bytes(segment)));
}
Ok(())
}
fn compute_serialized_size(segments: &[&[Word]]) -> usize {
let mut size = (segments.len() / 2) + 1;
for segment in &*segments {
size += segment.len();
}
size
}
pub fn compute_serialized_size_in_words<A>(message: &::message::Builder<A>) -> usize
where A: ::message::Allocator
{
compute_serialized_size(&*message.get_segments_for_output())
}
#[cfg(test)]
pub mod test {
use std::io::{Cursor, Write};
use quickcheck::{quickcheck, TestResult};
use {Word};
use message;
use message::ReaderSegments;
use super::{read_message, read_message_from_words, flatten_segments,
read_segment_table, write_segment_table, write_segments};
pub fn write_message_segments<W>(write: &mut W, segments: &Vec<Vec<Word>>) where W: Write {
let borrowed_segments: &[&[Word]] = &segments.iter()
.map(|segment| &segment[..])
.collect::<Vec<_>>()[..];
write_segment_table(write, borrowed_segments).unwrap();
write_segments(write, borrowed_segments).unwrap();
}
#[test]
fn test_read_segment_table() {
let mut buf = vec![];
buf.extend([0,0,0,0,
0,0,0,0]
.iter().cloned());
let (words, segment_slices) = read_segment_table(&mut Cursor::new(&buf[..]),
message::ReaderOptions::new()).unwrap();
assert_eq!(0, words);
assert_eq!(vec![(0,0)], segment_slices);
buf.clear();
buf.extend([0,0,0,0,
1,0,0,0]
.iter().cloned());
let (words, segment_slices) = read_segment_table(&mut Cursor::new(&buf[..]),
message::ReaderOptions::new()).unwrap();
assert_eq!(1, words);
assert_eq!(vec![(0,1)], segment_slices);
buf.clear();
buf.extend([1,0,0,0,
1,0,0,0,
1,0,0,0,
0,0,0,0]
.iter().cloned());
let (words, segment_slices) = read_segment_table(&mut Cursor::new(&buf[..]),
message::ReaderOptions::new()).unwrap();
assert_eq!(2, words);
assert_eq!(vec![(0,1), (1, 2)], segment_slices);
buf.clear();
buf.extend([2,0,0,0,
1,0,0,0,
1,0,0,0,
0,1,0,0]
.iter().cloned());
let (words, segment_slices) = read_segment_table(&mut Cursor::new(&buf[..]),
message::ReaderOptions::new()).unwrap();
assert_eq!(258, words);
assert_eq!(vec![(0,1), (1, 2), (2, 258)], segment_slices);
buf.clear();
buf.extend([3,0,0,0,
77,0,0,0,
23,0,0,0,
1,0,0,0,
99,0,0,0,
0,0,0,0]
.iter().cloned());
let (words, segment_slices) = read_segment_table(&mut Cursor::new(&buf[..]),
message::ReaderOptions::new()).unwrap();
assert_eq!(200, words);
assert_eq!(vec![(0,77), (77, 100), (100, 101), (101, 200)], segment_slices);
buf.clear();
}
#[test]
fn test_read_invalid_segment_table() {
let mut buf = vec![];
buf.extend([0,2,0,0].iter().cloned());
buf.extend([0; 513 * 4].iter().cloned());
assert!(read_segment_table(&mut Cursor::new(&buf[..]),
message::ReaderOptions::new()).is_err());
buf.clear();
buf.extend([0,0,0,0].iter().cloned());
assert!(read_segment_table(&mut Cursor::new(&buf[..]),
message::ReaderOptions::new()).is_err());
buf.clear();
buf.extend([0,0,0,0].iter().cloned());
buf.extend([0; 3].iter().cloned());
assert!(read_segment_table(&mut Cursor::new(&buf[..]),
message::ReaderOptions::new()).is_err());
buf.clear();
buf.extend([255,255,255,255].iter().cloned());
assert!(read_segment_table(&mut Cursor::new(&buf[..]),
message::ReaderOptions::new()).is_err());
buf.clear();
}
#[test]
fn test_write_segment_table() {
let mut buf = vec![];
let segment_0 = [capnp_word!(0,0,0,0,0,0,0,0); 0];
let segment_1 = [capnp_word!(1,1,1,1,1,1,1,1); 1];
let segment_199 = [capnp_word!(201,202,203,204,205,206,207,208); 199];
write_segment_table(&mut buf, &[&segment_0]).unwrap();
assert_eq!(&[0,0,0,0,
0,0,0,0],
&buf[..]);
buf.clear();
write_segment_table(&mut buf, &[&segment_1]).unwrap();
assert_eq!(&[0,0,0,0,
1,0,0,0],
&buf[..]);
buf.clear();
write_segment_table(&mut buf, &[&segment_199]).unwrap();
assert_eq!(&[0,0,0,0,
199,0,0,0],
&buf[..]);
buf.clear();
write_segment_table(&mut buf, &[&segment_0, &segment_1]).unwrap();
assert_eq!(&[1,0,0,0,
0,0,0,0,
1,0,0,0,
0,0,0,0],
&buf[..]);
buf.clear();
write_segment_table(&mut buf,
&[&segment_199, &segment_1, &segment_199, &segment_0]).unwrap();
assert_eq!(&[3,0,0,0,
199,0,0,0,
1,0,0,0,
199,0,0,0,
0,0,0,0,
0,0,0,0],
&buf[..]);
buf.clear();
write_segment_table(&mut buf,
&[&segment_199, &segment_1, &segment_199, &segment_0, &segment_1]).unwrap();
assert_eq!(&[4,0,0,0,
199,0,0,0,
1,0,0,0,
199,0,0,0,
0,0,0,0,
1,0,0,0],
&buf[..]);
buf.clear();
}
#[test]
fn check_round_trip() {
fn round_trip(segments: Vec<Vec<Word>>) -> TestResult {
if segments.len() == 0 { return TestResult::discard(); }
let mut cursor = Cursor::new(Vec::new());
write_message_segments(&mut cursor, &segments);
cursor.set_position(0);
let message = read_message(&mut cursor, message::ReaderOptions::new()).unwrap();
let result_segments = message.into_segments();
TestResult::from_bool(segments.iter().enumerate().all(|(i, segment)| {
&segment[..] == result_segments.get_segment(i as u32).unwrap()
}))
}
quickcheck(round_trip as fn(Vec<Vec<Word>>) -> TestResult);
}
#[test]
fn check_round_trip_slice_segments() {
fn round_trip(segments: Vec<Vec<Word>>) -> TestResult {
if segments.len() == 0 { return TestResult::discard(); }
let borrowed_segments: &[&[Word]] = &segments.iter()
.map(|segment| &segment[..])
.collect::<Vec<_>>()[..];
let words = flatten_segments(&borrowed_segments);
let message = read_message_from_words(&words[..], message::ReaderOptions::new()).unwrap();
let result_segments = message.into_segments();
TestResult::from_bool(segments.iter().enumerate().all(|(i, segment)| {
&segment[..] == result_segments.get_segment(i as u32).unwrap()
}))
}
quickcheck(round_trip as fn(Vec<Vec<Word>>) -> TestResult);
}
}