Merge pull request #137 from dongcarl/2018-8-better-errors

Fix Error type for SimpleDecoder and SimpleEncoder
This commit is contained in:
Andrew Poelstra 2018-08-22 00:55:54 +00:00 committed by GitHub
commit a61ad5d382
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22 changed files with 392 additions and 307 deletions

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@ -1,7 +1,7 @@
extern crate bitcoin;
type BResult = Result<bitcoin::blockdata::block::Block, bitcoin::util::Error>;
fn do_test(data: &[u8]) {
let _: BResult = bitcoin::network::serialize::deserialize(data);
let _: Result<bitcoin::blockdata::block::Block, _>= bitcoin::network::serialize::deserialize(data);
}
#[cfg(feature = "afl")]

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@ -1,7 +1,7 @@
extern crate bitcoin;
type BResult = Result<bitcoin::blockdata::script::Script, bitcoin::util::Error>;
fn do_test(data: &[u8]) {
let _: BResult = bitcoin::network::serialize::deserialize(data);
let _: Result<bitcoin::blockdata::script::Script, _> = bitcoin::network::serialize::deserialize(data);
}
#[cfg(feature = "afl")]

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@ -1,7 +1,7 @@
extern crate bitcoin;
type BResult = Result<bitcoin::blockdata::transaction::Transaction, bitcoin::util::Error>;
fn do_test(data: &[u8]) {
let tx_result: BResult = bitcoin::network::serialize::deserialize(data);
let tx_result: Result<bitcoin::blockdata::transaction::Transaction, _> = bitcoin::network::serialize::deserialize(data);
match tx_result {
Err(_) => {},
Ok(mut tx) => {

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@ -25,7 +25,7 @@
// Heavy stick to translate between opcode types
use std::mem::transmute;
use network::serialize::{SimpleDecoder, SimpleEncoder};
use network::serialize::{self, SimpleDecoder, SimpleEncoder};
use network::encodable::{ConsensusDecodable, ConsensusEncodable};
// Note: I am deliberately not implementing PartialOrd or Ord on the
@ -608,14 +608,14 @@ display_from_debug!(All);
impl<D: SimpleDecoder> ConsensusDecodable<D> for All {
#[inline]
fn consensus_decode(d: &mut D) -> Result<All, D::Error> {
fn consensus_decode(d: &mut D) -> Result<All, serialize::Error> {
Ok(All::from(d.read_u8()?))
}
}
impl<S: SimpleEncoder> ConsensusEncodable<S> for All {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> {
s.emit_u8(*self as u8)
}
}

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@ -32,7 +32,7 @@ use crypto::digest::Digest;
use blockdata::opcodes;
use network::encodable::{ConsensusDecodable, ConsensusEncodable};
use network::serialize::{SimpleDecoder, SimpleEncoder};
use network::serialize::{self, SimpleDecoder, SimpleEncoder};
use util::hash::Hash160;
#[cfg(feature="bitcoinconsensus")] use bitcoinconsensus;
#[cfg(feature="bitcoinconsensus")] use std::convert;
@ -621,14 +621,14 @@ impl serde::Serialize for Script {
// Network serialization
impl<S: SimpleEncoder> ConsensusEncodable<S> for Script {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> {
self.0.consensus_encode(s)
}
}
impl<D: SimpleDecoder> ConsensusDecodable<D> for Script {
#[inline]
fn consensus_decode(d: &mut D) -> Result<Script, D::Error> {
fn consensus_decode(d: &mut D) -> Result<Script, serialize::Error> {
Ok(Script(ConsensusDecodable::consensus_decode(d)?))
}
}

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@ -31,7 +31,7 @@ use std::fmt;
use util::hash::Sha256dHash;
#[cfg(feature="bitcoinconsensus")] use blockdata::script;
use blockdata::script::Script;
use network::serialize::{serialize, BitcoinHash, SimpleEncoder, SimpleDecoder};
use network::serialize::{self, serialize, BitcoinHash, SimpleEncoder, SimpleDecoder};
use network::encodable::{ConsensusEncodable, ConsensusDecodable, VarInt};
/// A reference to a transaction output
@ -326,13 +326,13 @@ impl BitcoinHash for Transaction {
impl_consensus_encoding!(TxOut, value, script_pubkey);
impl<S: SimpleEncoder> ConsensusEncodable<S> for OutPoint {
fn consensus_encode(&self, s: &mut S) -> Result <(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result <(), serialize::Error> {
self.txid.consensus_encode(s)?;
self.vout.consensus_encode(s)
}
}
impl<D: SimpleDecoder> ConsensusDecodable<D> for OutPoint {
fn consensus_decode(d: &mut D) -> Result<OutPoint, D::Error> {
fn consensus_decode(d: &mut D) -> Result<OutPoint, serialize::Error> {
Ok(OutPoint {
txid: ConsensusDecodable::consensus_decode(d)?,
vout: ConsensusDecodable::consensus_decode(d)?,
@ -341,14 +341,14 @@ impl<D: SimpleDecoder> ConsensusDecodable<D> for OutPoint {
}
impl<S: SimpleEncoder> ConsensusEncodable<S> for TxIn {
fn consensus_encode(&self, s: &mut S) -> Result <(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result <(), serialize::Error> {
self.previous_output.consensus_encode(s)?;
self.script_sig.consensus_encode(s)?;
self.sequence.consensus_encode(s)
}
}
impl<D: SimpleDecoder> ConsensusDecodable<D> for TxIn {
fn consensus_decode(d: &mut D) -> Result<TxIn, D::Error> {
fn consensus_decode(d: &mut D) -> Result<TxIn, serialize::Error> {
Ok(TxIn {
previous_output: ConsensusDecodable::consensus_decode(d)?,
script_sig: ConsensusDecodable::consensus_decode(d)?,
@ -359,7 +359,7 @@ impl<D: SimpleDecoder> ConsensusDecodable<D> for TxIn {
}
impl<S: SimpleEncoder> ConsensusEncodable<S> for Transaction {
fn consensus_encode(&self, s: &mut S) -> Result <(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result <(), serialize::Error> {
self.version.consensus_encode(s)?;
let mut have_witness = false;
for input in &self.input {
@ -385,7 +385,7 @@ impl<S: SimpleEncoder> ConsensusEncodable<S> for Transaction {
}
impl<D: SimpleDecoder> ConsensusDecodable<D> for Transaction {
fn consensus_decode(d: &mut D) -> Result<Transaction, D::Error> {
fn consensus_decode(d: &mut D) -> Result<Transaction, serialize::Error> {
let version: u32 = ConsensusDecodable::consensus_decode(d)?;
let input: Vec<TxIn> = ConsensusDecodable::consensus_decode(d)?;
// segwit
@ -417,7 +417,7 @@ impl<D: SimpleDecoder> ConsensusDecodable<D> for Transaction {
}
// We don't support anything else
x => {
Err(d.error(format!("segwit flag {:02x} not understood", x)))
Err(serialize::Error::UnsupportedSegwitFlag(x))
}
}
// non-segwit

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@ -16,7 +16,7 @@ macro_rules! impl_consensus_encoding {
($thing:ident, $($field:ident),+) => (
impl<S: ::network::serialize::SimpleEncoder> ::network::encodable::ConsensusEncodable<S> for $thing {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result<(), ::network::serialize::Error> {
$( self.$field.consensus_encode(s)?; )+
Ok(())
}
@ -24,7 +24,7 @@ macro_rules! impl_consensus_encoding {
impl<D: ::network::serialize::SimpleDecoder> ::network::encodable::ConsensusDecodable<D> for $thing {
#[inline]
fn consensus_decode(d: &mut D) -> Result<$thing, D::Error> {
fn consensus_decode(d: &mut D) -> Result<$thing, ::network::serialize::Error> {
use network::encodable::ConsensusDecodable;
Ok($thing {
$( $field: ConsensusDecodable::consensus_decode(d)?, )+
@ -38,7 +38,7 @@ macro_rules! impl_newtype_consensus_encoding {
($thing:ident) => (
impl<S: ::network::serialize::SimpleEncoder> ::network::encodable::ConsensusEncodable<S> for $thing {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result<(), ::network::serialize::Error> {
let &$thing(ref data) = self;
data.consensus_encode(s)
}
@ -46,7 +46,7 @@ macro_rules! impl_newtype_consensus_encoding {
impl<D: ::network::serialize::SimpleDecoder> ::network::encodable::ConsensusDecodable<D> for $thing {
#[inline]
fn consensus_decode(d: &mut D) -> Result<$thing, D::Error> {
fn consensus_decode(d: &mut D) -> Result<$thing, ::network::serialize::Error> {
Ok($thing(ConsensusDecodable::consensus_decode(d)?))
}
}

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@ -22,7 +22,7 @@ use std::io;
use std::fmt;
use std::net::{SocketAddr, Ipv6Addr, SocketAddrV4, SocketAddrV6};
use network::serialize::{SimpleEncoder, SimpleDecoder};
use network::serialize::{self, SimpleEncoder, SimpleDecoder};
use network::encodable::{ConsensusDecodable, ConsensusEncodable};
/// A message which can be sent on the Bitcoin network
@ -74,7 +74,7 @@ fn addr_to_be(addr: [u16; 8]) -> [u16; 8] {
impl<S: SimpleEncoder> ConsensusEncodable<S> for Address {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> {
self.services.consensus_encode(s)?;
addr_to_be(self.address).consensus_encode(s)?;
self.port.to_be().consensus_encode(s)
@ -83,7 +83,7 @@ impl<S: SimpleEncoder> ConsensusEncodable<S> for Address {
impl<D: SimpleDecoder> ConsensusDecodable<D> for Address {
#[inline]
fn consensus_decode(d: &mut D) -> Result<Address, D::Error> {
fn consensus_decode(d: &mut D) -> Result<Address, serialize::Error> {
Ok(Address {
services: ConsensusDecodable::consensus_decode(d)?,
address: addr_to_be(ConsensusDecodable::consensus_decode(d)?),

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@ -38,7 +38,7 @@
//! ```
use network::encodable::{ConsensusDecodable, ConsensusEncodable};
use network::serialize::{SimpleEncoder, SimpleDecoder};
use network::serialize::{self, SimpleEncoder, SimpleDecoder};
/// Version of the protocol as appearing in network message headers
pub const PROTOCOL_VERSION: u32 = 70001;
@ -105,7 +105,7 @@ impl Network {
impl<S: SimpleEncoder> ConsensusEncodable<S> for Network {
/// Encodes the magic bytes of `Network`.
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> {
self.magic().consensus_encode(s)
}
}
@ -113,11 +113,11 @@ impl<S: SimpleEncoder> ConsensusEncodable<S> for Network {
impl<D: SimpleDecoder> ConsensusDecodable<D> for Network {
/// Decodes the magic bytes of `Network`.
#[inline]
fn consensus_decode(d: &mut D) -> Result<Network, D::Error> {
fn consensus_decode(d: &mut D) -> Result<Network, serialize::Error> {
u32::consensus_decode(d)
.and_then(|m| {
Network::from_magic(m)
.ok_or(d.error(format!("Unknown network (magic {:x})", m)))
.ok_or(serialize::Error::UnknownNetworkMagic(m))
})
}
}

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@ -34,7 +34,7 @@ use std::hash::Hash;
use std::{mem, u32};
use util::hash::Sha256dHash;
use network::serialize::{SimpleDecoder, SimpleEncoder};
use network::serialize::{self, SimpleDecoder, SimpleEncoder};
/// Maximum size, in bytes, of a vector we are allowed to decode
pub const MAX_VEC_SIZE: usize = 32 * 1024 * 1024;
@ -42,13 +42,13 @@ pub const MAX_VEC_SIZE: usize = 32 * 1024 * 1024;
/// Data which can be encoded in a consensus-consistent way
pub trait ConsensusEncodable<S: SimpleEncoder> {
/// Encode an object with a well-defined format
fn consensus_encode(&self, e: &mut S) -> Result<(), S::Error>;
fn consensus_encode(&self, e: &mut S) -> Result<(), serialize::Error>;
}
/// Data which can be encoded in a consensus-consistent way
pub trait ConsensusDecodable<D: SimpleDecoder>: Sized {
/// Decode an object with a well-defined format
fn consensus_decode(d: &mut D) -> Result<Self, D::Error>;
fn consensus_decode(d: &mut D) -> Result<Self, serialize::Error>;
}
/// A variable-length unsigned integer
@ -64,12 +64,12 @@ macro_rules! impl_int_encodable{
($ty:ident, $meth_dec:ident, $meth_enc:ident) => (
impl<D: SimpleDecoder> ConsensusDecodable<D> for $ty {
#[inline]
fn consensus_decode(d: &mut D) -> Result<$ty, D::Error> { d.$meth_dec().map($ty::from_le) }
fn consensus_decode(d: &mut D) -> Result<$ty, serialize::Error> { d.$meth_dec().map($ty::from_le) }
}
impl<S: SimpleEncoder> ConsensusEncodable<S> for $ty {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> { s.$meth_enc(self.to_le()) }
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> { s.$meth_enc(self.to_le()) }
}
)
}
@ -100,7 +100,7 @@ impl VarInt {
impl<S: SimpleEncoder> ConsensusEncodable<S> for VarInt {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> {
match self.0 {
0...0xFC => { (self.0 as u8).consensus_encode(s) }
0xFD...0xFFFF => { s.emit_u8(0xFD)?; (self.0 as u16).consensus_encode(s) }
@ -112,7 +112,7 @@ impl<S: SimpleEncoder> ConsensusEncodable<S> for VarInt {
impl<D: SimpleDecoder> ConsensusDecodable<D> for VarInt {
#[inline]
fn consensus_decode(d: &mut D) -> Result<VarInt, D::Error> {
fn consensus_decode(d: &mut D) -> Result<VarInt, serialize::Error> {
let n = d.read_u8()?;
match n {
0xFF => d.read_u64().map(|n| VarInt(u64::from_le(n))),
@ -126,27 +126,27 @@ impl<D: SimpleDecoder> ConsensusDecodable<D> for VarInt {
// Booleans
impl<S: SimpleEncoder> ConsensusEncodable<S> for bool {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> { s.emit_u8(if *self {1} else {0}) }
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> { s.emit_u8(if *self {1} else {0}) }
}
impl<D: SimpleDecoder> ConsensusDecodable<D> for bool {
#[inline]
fn consensus_decode(d: &mut D) -> Result<bool, D::Error> { d.read_u8().map(|n| n != 0) }
fn consensus_decode(d: &mut D) -> Result<bool, serialize::Error> { d.read_u8().map(|n| n != 0) }
}
// Strings
impl<S: SimpleEncoder> ConsensusEncodable<S> for String {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> {
self.as_bytes().consensus_encode(s)
}
}
impl<D: SimpleDecoder> ConsensusDecodable<D> for String {
#[inline]
fn consensus_decode(d: &mut D) -> Result<String, D::Error> {
fn consensus_decode(d: &mut D) -> Result<String, serialize::Error> {
String::from_utf8(ConsensusDecodable::consensus_decode(d)?)
.map_err(|_| d.error("String was not valid UTF8".to_owned()))
.map_err(|_| serialize::Error::ParseFailed("String was not valid UTF8"))
}
}
@ -156,7 +156,7 @@ macro_rules! impl_array {
( $size:expr ) => (
impl<S: SimpleEncoder, T: ConsensusEncodable<S>> ConsensusEncodable<S> for [T; $size] {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> {
for i in self.iter() { i.consensus_encode(s)?; }
Ok(())
}
@ -164,7 +164,7 @@ macro_rules! impl_array {
impl<D: SimpleDecoder, T:ConsensusDecodable<D> + Copy> ConsensusDecodable<D> for [T; $size] {
#[inline]
fn consensus_decode(d: &mut D) -> Result<[T; $size], D::Error> {
fn consensus_decode(d: &mut D) -> Result<[T; $size], serialize::Error> {
// Set everything to the first decode
let mut ret = [ConsensusDecodable::consensus_decode(d)?; $size];
// Set the rest
@ -184,7 +184,7 @@ impl_array!(32);
impl<S: SimpleEncoder, T: ConsensusEncodable<S>> ConsensusEncodable<S> for [T] {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> {
VarInt(self.len() as u64).consensus_encode(s)?;
for c in self.iter() { c.consensus_encode(s)?; }
Ok(())
@ -196,18 +196,18 @@ impl<S: SimpleEncoder, T: ConsensusEncodable<S>> ConsensusEncodable<S> for [T] {
// Vectors
impl<S: SimpleEncoder, T: ConsensusEncodable<S>> ConsensusEncodable<S> for Vec<T> {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> { (&self[..]).consensus_encode(s) }
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> { (&self[..]).consensus_encode(s) }
}
impl<D: SimpleDecoder, T: ConsensusDecodable<D>> ConsensusDecodable<D> for Vec<T> {
#[inline]
fn consensus_decode(d: &mut D) -> Result<Vec<T>, D::Error> {
fn consensus_decode(d: &mut D) -> Result<Vec<T>, serialize::Error> {
let VarInt(len): VarInt = ConsensusDecodable::consensus_decode(d)?;
let byte_size = (len as usize)
.checked_mul(mem::size_of::<T>())
.ok_or(d.error("Invalid length".to_owned()))?;
.ok_or(serialize::Error::ParseFailed("Invalid length"))?;
if byte_size > MAX_VEC_SIZE {
return Err(d.error(format!("tried to allocate vec of size {} (max {})", byte_size, MAX_VEC_SIZE)));
return Err(serialize::Error::OversizedVectorAllocation { requested: byte_size, max: MAX_VEC_SIZE })
}
let mut ret = Vec::with_capacity(len as usize);
for _ in 0..len { ret.push(ConsensusDecodable::consensus_decode(d)?); }
@ -217,16 +217,16 @@ impl<D: SimpleDecoder, T: ConsensusDecodable<D>> ConsensusDecodable<D> for Vec<T
impl<S: SimpleEncoder, T: ConsensusEncodable<S>> ConsensusEncodable<S> for Box<[T]> {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> { (&self[..]).consensus_encode(s) }
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> { (&self[..]).consensus_encode(s) }
}
impl<D: SimpleDecoder, T: ConsensusDecodable<D>> ConsensusDecodable<D> for Box<[T]> {
#[inline]
fn consensus_decode(d: &mut D) -> Result<Box<[T]>, D::Error> {
fn consensus_decode(d: &mut D) -> Result<Box<[T]>, serialize::Error> {
let VarInt(len): VarInt = ConsensusDecodable::consensus_decode(d)?;
let len = len as usize;
if len > MAX_VEC_SIZE {
return Err(d.error(format!("tried to allocate vec of size {} (max {})", len, MAX_VEC_SIZE)));
return Err(serialize::Error::OversizedVectorAllocation { requested: len, max: MAX_VEC_SIZE })
}
let mut ret = Vec::with_capacity(len);
for _ in 0..len { ret.push(ConsensusDecodable::consensus_decode(d)?); }
@ -237,7 +237,7 @@ impl<D: SimpleDecoder, T: ConsensusDecodable<D>> ConsensusDecodable<D> for Box<[
// Options (encoded as vectors of length 0 or 1)
impl<S: SimpleEncoder, T: ConsensusEncodable<S>> ConsensusEncodable<S> for Option<T> {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> {
match *self {
Some(ref data) => {
1u8.consensus_encode(s)?;
@ -251,7 +251,7 @@ impl<S: SimpleEncoder, T: ConsensusEncodable<S>> ConsensusEncodable<S> for Optio
impl<D: SimpleDecoder, T:ConsensusDecodable<D>> ConsensusDecodable<D> for Option<T> {
#[inline]
fn consensus_decode(d: &mut D) -> Result<Option<T>, D::Error> {
fn consensus_decode(d: &mut D) -> Result<Option<T>, serialize::Error> {
let bit: u8 = ConsensusDecodable::consensus_decode(d)?;
Ok(if bit != 0 {
Some(ConsensusDecodable::consensus_decode(d)?)
@ -271,7 +271,7 @@ fn sha2_checksum(data: &[u8]) -> [u8; 4] {
// Checked data
impl<S: SimpleEncoder> ConsensusEncodable<S> for CheckedData {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> {
(self.0.len() as u32).consensus_encode(s)?;
sha2_checksum(&self.0).consensus_encode(s)?;
// We can't just pass to the slice encoder since it'll insert a length
@ -284,14 +284,17 @@ impl<S: SimpleEncoder> ConsensusEncodable<S> for CheckedData {
impl<D: SimpleDecoder> ConsensusDecodable<D> for CheckedData {
#[inline]
fn consensus_decode(d: &mut D) -> Result<CheckedData, D::Error> {
fn consensus_decode(d: &mut D) -> Result<CheckedData, serialize::Error> {
let len: u32 = ConsensusDecodable::consensus_decode(d)?;
let checksum: [u8; 4] = ConsensusDecodable::consensus_decode(d)?;
let mut ret = Vec::with_capacity(len as usize);
for _ in 0..len { ret.push(ConsensusDecodable::consensus_decode(d)?); }
let expected_checksum = sha2_checksum(&ret);
if expected_checksum != checksum {
Err(d.error(format!("bad checksum {:?} (expected {:?})", checksum, expected_checksum)))
Err(serialize::Error::InvalidChecksum {
expected: expected_checksum,
actual: checksum,
})
} else {
Ok(CheckedData(ret))
}
@ -304,7 +307,7 @@ macro_rules! tuple_encode {
impl <S: SimpleEncoder, $($x: ConsensusEncodable<S>),*> ConsensusEncodable<S> for ($($x),*) {
#[inline]
#[allow(non_snake_case)]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> {
let &($(ref $x),*) = self;
$( $x.consensus_encode(s)?; )*
Ok(())
@ -314,7 +317,7 @@ macro_rules! tuple_encode {
impl<D: SimpleDecoder, $($x: ConsensusDecodable<D>),*> ConsensusDecodable<D> for ($($x),*) {
#[inline]
#[allow(non_snake_case)]
fn consensus_decode(d: &mut D) -> Result<($($x),*), D::Error> {
fn consensus_decode(d: &mut D) -> Result<($($x),*), serialize::Error> {
Ok(($({let $x = ConsensusDecodable::consensus_decode(d)?; $x }),*))
}
}
@ -329,12 +332,12 @@ tuple_encode!(T0, T1, T2, T3, T4, T5, T6, T7);
// References
impl<S: SimpleEncoder, T: ConsensusEncodable<S>> ConsensusEncodable<S> for Box<T> {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> { (**self).consensus_encode(s) }
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> { (**self).consensus_encode(s) }
}
impl<D: SimpleDecoder, T: ConsensusDecodable<D>> ConsensusDecodable<D> for Box<T> {
#[inline]
fn consensus_decode(d: &mut D) -> Result<Box<T>, D::Error> {
fn consensus_decode(d: &mut D) -> Result<Box<T>, serialize::Error> {
ConsensusDecodable::consensus_decode(d).map(Box::new)
}
}
@ -346,7 +349,7 @@ impl<S, K, V> ConsensusEncodable<S> for HashMap<K, V>
V: ConsensusEncodable<S>
{
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> {
VarInt(self.len() as u64).consensus_encode(s)?;
for (key, value) in self.iter() {
key.consensus_encode(s)?;
@ -362,7 +365,7 @@ impl<D, K, V> ConsensusDecodable<D> for HashMap<K, V>
V: ConsensusDecodable<D>
{
#[inline]
fn consensus_decode(d: &mut D) -> Result<HashMap<K, V>, D::Error> {
fn consensus_decode(d: &mut D) -> Result<HashMap<K, V>, serialize::Error> {
let VarInt(len): VarInt = ConsensusDecodable::consensus_decode(d)?;
let mut ret = HashMap::with_capacity(len as usize);

View File

@ -39,9 +39,7 @@ pub trait Listener {
fn start(&self) -> Result<(Receiver<message::SocketResponse>, Socket), util::Error> {
// Open socket
let mut ret_sock = Socket::new(self.network());
if let Err(e) = ret_sock.connect(self.peer(), self.port()) {
return Err(util::Error::Detail("listener".to_owned(), Box::new(e)));
}
ret_sock.connect(self.peer(), self.port())?;
let mut sock = ret_sock.clone();
let (recv_tx, recv_rx) = channel();

View File

@ -30,8 +30,8 @@ use network::message_network;
use network::message_blockdata;
use network::encodable::{ConsensusDecodable, ConsensusEncodable};
use network::encodable::CheckedData;
use network::serialize::{serialize, RawDecoder, SimpleEncoder, SimpleDecoder};
use util::{self, propagate_err};
use network::serialize::{self, serialize, RawDecoder, SimpleEncoder, SimpleDecoder};
use util;
/// Serializer for command string
#[derive(PartialEq, Eq, Clone, Debug)]
@ -39,7 +39,7 @@ pub struct CommandString(pub String);
impl<S: SimpleEncoder> ConsensusEncodable<S> for CommandString {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> {
let &CommandString(ref inner_str) = self;
let mut rawbytes = [0u8; 12];
let strbytes = inner_str.as_bytes();
@ -55,7 +55,7 @@ impl<S: SimpleEncoder> ConsensusEncodable<S> for CommandString {
impl<D: SimpleDecoder> ConsensusDecodable<D> for CommandString {
#[inline]
fn consensus_decode(d: &mut D) -> Result<CommandString, D::Error> {
fn consensus_decode(d: &mut D) -> Result<CommandString, serialize::Error> {
let rawbytes: [u8; 12] = ConsensusDecodable::consensus_decode(d)?;
let rv = iter::FromIterator::from_iter(rawbytes.iter().filter_map(|&u| if u > 0 { Some(u as char) } else { None }));
Ok(CommandString(rv))
@ -147,7 +147,7 @@ impl RawNetworkMessage {
}
impl<S: SimpleEncoder> ConsensusEncodable<S> for RawNetworkMessage {
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> {
self.magic.consensus_encode(s)?;
CommandString(self.command()).consensus_encode(s)?;
CheckedData(match self.payload {
@ -172,33 +172,31 @@ impl<S: SimpleEncoder> ConsensusEncodable<S> for RawNetworkMessage {
}
}
// TODO: restriction on D::Error is so that `propagate_err` will work;
// is there a more generic way to handle this?
impl<D: SimpleDecoder<Error=util::Error>> ConsensusDecodable<D> for RawNetworkMessage {
fn consensus_decode(d: &mut D) -> Result<RawNetworkMessage, D::Error> {
impl<D: SimpleDecoder> ConsensusDecodable<D> for RawNetworkMessage {
fn consensus_decode(d: &mut D) -> Result<RawNetworkMessage, serialize::Error> {
let magic = ConsensusDecodable::consensus_decode(d)?;
let CommandString(cmd): CommandString= ConsensusDecodable::consensus_decode(d)?;
let CheckedData(raw_payload): CheckedData = ConsensusDecodable::consensus_decode(d)?;
let mut mem_d = RawDecoder::new(Cursor::new(raw_payload));
let payload = match &cmd[..] {
"version" => NetworkMessage::Version(propagate_err("version".to_owned(), ConsensusDecodable::consensus_decode(&mut mem_d))?),
"version" => NetworkMessage::Version(ConsensusDecodable::consensus_decode(&mut mem_d)?),
"verack" => NetworkMessage::Verack,
"addr" => NetworkMessage::Addr(propagate_err("addr".to_owned(), ConsensusDecodable::consensus_decode(&mut mem_d))?),
"inv" => NetworkMessage::Inv(propagate_err("inv".to_owned(), ConsensusDecodable::consensus_decode(&mut mem_d))?),
"getdata" => NetworkMessage::GetData(propagate_err("getdata".to_owned(), ConsensusDecodable::consensus_decode(&mut mem_d))?),
"notfound" => NetworkMessage::NotFound(propagate_err("notfound".to_owned(), ConsensusDecodable::consensus_decode(&mut mem_d))?),
"getblocks" => NetworkMessage::GetBlocks(propagate_err("getblocks".to_owned(), ConsensusDecodable::consensus_decode(&mut mem_d))?),
"getheaders" => NetworkMessage::GetHeaders(propagate_err("getheaders".to_owned(), ConsensusDecodable::consensus_decode(&mut mem_d))?),
"addr" => NetworkMessage::Addr(ConsensusDecodable::consensus_decode(&mut mem_d)?),
"inv" => NetworkMessage::Inv(ConsensusDecodable::consensus_decode(&mut mem_d)?),
"getdata" => NetworkMessage::GetData(ConsensusDecodable::consensus_decode(&mut mem_d)?),
"notfound" => NetworkMessage::NotFound(ConsensusDecodable::consensus_decode(&mut mem_d)?),
"getblocks" => NetworkMessage::GetBlocks(ConsensusDecodable::consensus_decode(&mut mem_d)?),
"getheaders" => NetworkMessage::GetHeaders(ConsensusDecodable::consensus_decode(&mut mem_d)?),
"mempool" => NetworkMessage::MemPool,
"block" => NetworkMessage::Block(propagate_err("block".to_owned(), ConsensusDecodable::consensus_decode(&mut mem_d))?),
"headers" => NetworkMessage::Headers(propagate_err("headers".to_owned(), ConsensusDecodable::consensus_decode(&mut mem_d))?),
"block" => NetworkMessage::Block(ConsensusDecodable::consensus_decode(&mut mem_d)?),
"headers" => NetworkMessage::Headers(ConsensusDecodable::consensus_decode(&mut mem_d)?),
"getaddr" => NetworkMessage::GetAddr,
"ping" => NetworkMessage::Ping(propagate_err("ping".to_owned(), ConsensusDecodable::consensus_decode(&mut mem_d))?),
"pong" => NetworkMessage::Pong(propagate_err("pong".to_owned(), ConsensusDecodable::consensus_decode(&mut mem_d))?),
"tx" => NetworkMessage::Tx(propagate_err("tx".to_owned(), ConsensusDecodable::consensus_decode(&mut mem_d))?),
"alert" => NetworkMessage::Alert(propagate_err("alert".to_owned(), ConsensusDecodable::consensus_decode(&mut mem_d))?),
cmd => return Err(d.error(format!("unrecognized network command `{}`", cmd)))
"ping" => NetworkMessage::Ping(ConsensusDecodable::consensus_decode(&mut mem_d)?),
"pong" => NetworkMessage::Pong(ConsensusDecodable::consensus_decode(&mut mem_d)?),
"tx" => NetworkMessage::Tx(ConsensusDecodable::consensus_decode(&mut mem_d)?),
"alert" => NetworkMessage::Alert(ConsensusDecodable::consensus_decode(&mut mem_d)?),
_ => return Err(serialize::Error::UnrecognizedNetworkCommand(cmd)),
};
Ok(RawNetworkMessage {
magic: magic,

View File

@ -20,7 +20,7 @@
use network::constants;
use network::encodable::{ConsensusDecodable, ConsensusEncodable};
use network::serialize::{SimpleDecoder, SimpleEncoder};
use network::serialize::{self, SimpleDecoder, SimpleEncoder};
use util::hash::Sha256dHash;
#[derive(PartialEq, Eq, Clone, Debug)]
@ -103,7 +103,7 @@ impl_consensus_encoding!(GetHeadersMessage, version, locator_hashes, stop_hash);
impl<S: SimpleEncoder> ConsensusEncodable<S> for Inventory {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> {
match self.inv_type {
InvType::Error => 0u32,
InvType::Transaction => 1,
@ -117,7 +117,7 @@ impl<S: SimpleEncoder> ConsensusEncodable<S> for Inventory {
impl<D: SimpleDecoder> ConsensusDecodable<D> for Inventory {
#[inline]
fn consensus_decode(d: &mut D) -> Result<Inventory, D::Error> {
fn consensus_decode(d: &mut D) -> Result<Inventory, serialize::Error> {
let int_type: u32 = ConsensusDecodable::consensus_decode(d)?;
Ok(Inventory {
inv_type: match int_type {

View File

@ -18,6 +18,10 @@
//! of Bitcoin data and network messages.
//!
use std::fmt;
use std::io;
use std::error;
pub mod constants;
pub mod consensus_params;
pub mod encodable;
@ -30,3 +34,39 @@ pub mod message;
pub mod message_blockdata;
pub mod message_network;
/// Network error
#[derive(Debug)]
pub enum Error {
/// And I/O error
Io(io::Error),
/// Socket mutex was poisoned
SocketMutexPoisoned,
/// Not connected to peer
SocketNotConnectedToPeer,
}
impl fmt::Display for Error {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
Error::Io(ref e) => fmt::Display::fmt(e, f),
Error::SocketMutexPoisoned | Error::SocketNotConnectedToPeer => f.write_str(error::Error::description(self)),
}
}
}
impl error::Error for Error {
fn cause(&self) -> Option<&error::Error> {
match *self {
Error::Io(ref e) => Some(e),
Error::SocketMutexPoisoned | Error::SocketNotConnectedToPeer => None,
}
}
fn description(&self) -> &str {
match *self {
Error::Io(ref e) => e.description(),
Error::SocketMutexPoisoned => "socket mutex was poisoned",
Error::SocketNotConnectedToPeer => "not connected to peer",
}
}
}

View File

@ -19,13 +19,144 @@
//! It also defines (de)serialization routines for many primitives.
//!
use std::error;
use std::fmt;
use std::io;
use std::io::{Cursor, Read, Write};
use byteorder::{LittleEndian, WriteBytesExt, ReadBytesExt};
use hex::encode as hex_encode;
use bitcoin_bech32;
use network::encodable::{ConsensusDecodable, ConsensusEncodable};
use util::base58;
use util::hash::Sha256dHash;
use util;
/// Serialization error
#[derive(Debug)]
pub enum Error {
/// And I/O error
Io(io::Error),
/// Base58 encoding error
Base58(base58::Error),
/// Bech32 encoding error
Bech32(bitcoin_bech32::Error),
/// Error from the `byteorder` crate
ByteOrder(io::Error),
/// Network magic was not expected
UnexpectedNetworkMagic {
/// The expected network magic
expected: u32,
/// The unexpected network magic
actual: u32,
},
/// Tried to allocate an oversized vector
OversizedVectorAllocation{
/// The capacity requested
requested: usize,
/// The maximum capacity
max: usize,
},
/// Checksum was invalid
InvalidChecksum {
/// The expected checksum
expected: [u8; 4],
/// The invalid checksum
actual: [u8; 4],
},
/// Network magic was unknown
UnknownNetworkMagic(u32),
/// Parsing error
ParseFailed(&'static str),
/// Unsupported witness version
UnsupportedWitnessVersion(u8),
/// Unsupported Segwit flag
UnsupportedSegwitFlag(u8),
/// Unrecognized network command
UnrecognizedNetworkCommand(String),
/// Unexpected hex digit
UnexpectedHexDigit(char),
}
impl fmt::Display for Error {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
Error::Io(ref e) => fmt::Display::fmt(e, f),
Error::Base58(ref e) => fmt::Display::fmt(e, f),
Error::Bech32(ref e) => fmt::Display::fmt(e, f),
Error::ByteOrder(ref e) => fmt::Display::fmt(e, f),
Error::UnexpectedNetworkMagic { expected: ref e, actual: ref a } => write!(f, "{}: expected {}, actual {}", error::Error::description(self), e, a),
Error::OversizedVectorAllocation { requested: ref r, max: ref m } => write!(f, "{}: requested {}, maximum {}", error::Error::description(self), r, m),
Error::InvalidChecksum { expected: ref e, actual: ref a } => write!(f, "{}: expected {}, actual {}", error::Error::description(self), hex_encode(e), hex_encode(a)),
Error::UnknownNetworkMagic(ref m) => write!(f, "{}: {}", error::Error::description(self), m),
Error::ParseFailed(ref e) => write!(f, "{}: {}", error::Error::description(self), e),
Error::UnsupportedWitnessVersion(ref wver) => write!(f, "{}: {}", error::Error::description(self), wver),
Error::UnsupportedSegwitFlag(ref swflag) => write!(f, "{}: {}", error::Error::description(self), swflag),
Error::UnrecognizedNetworkCommand(ref nwcmd) => write!(f, "{}: {}", error::Error::description(self), nwcmd),
Error::UnexpectedHexDigit(ref d) => write!(f, "{}: {}", error::Error::description(self), d),
}
}
}
impl error::Error for Error {
fn cause(&self) -> Option<&error::Error> {
match *self {
Error::Io(ref e) => Some(e),
Error::Base58(ref e) => Some(e),
Error::Bech32(ref e) => Some(e),
Error::ByteOrder(ref e) => Some(e),
Error::UnexpectedNetworkMagic { .. }
| Error::OversizedVectorAllocation { .. }
| Error::InvalidChecksum { .. }
| Error::UnknownNetworkMagic(..)
| Error::ParseFailed(..)
| Error::UnsupportedWitnessVersion(..)
| Error::UnsupportedSegwitFlag(..)
| Error::UnrecognizedNetworkCommand(..)
| Error::UnexpectedHexDigit(..) => None,
}
}
fn description(&self) -> &str {
match *self {
Error::Io(ref e) => e.description(),
Error::Base58(ref e) => e.description(),
Error::Bech32(ref e) => e.description(),
Error::ByteOrder(ref e) => e.description(),
Error::UnexpectedNetworkMagic { .. } => "unexpected network magic",
Error::OversizedVectorAllocation { .. } => "allocation of oversized vector requested",
Error::InvalidChecksum { .. } => "invalid checksum",
Error::UnknownNetworkMagic(..) => "unknown network magic",
Error::ParseFailed(..) => "parse failed",
Error::UnsupportedWitnessVersion(..) => "unsupported witness version",
Error::UnsupportedSegwitFlag(..) => "unsupported segwit version",
Error::UnrecognizedNetworkCommand(..) => "unrecognized network command",
Error::UnexpectedHexDigit(..) => "unexpected hex digit",
}
}
}
#[doc(hidden)]
impl From<base58::Error> for Error {
fn from(e: base58::Error) -> Error {
Error::Base58(e)
}
}
#[doc(hidden)]
impl From<bitcoin_bech32::Error> for Error {
fn from(e: bitcoin_bech32::Error) -> Error {
Error::Bech32(e)
}
}
#[doc(hidden)]
impl From<io::Error> for Error {
fn from(error: io::Error) -> Self {
Error::Io(error)
}
}
/// Objects which are referred to by hash
pub trait BitcoinHash {
@ -41,7 +172,7 @@ impl BitcoinHash for Vec<u8> {
}
/// Encode an object into a vector
pub fn serialize<T: ?Sized>(data: &T) -> Result<Vec<u8>, util::Error>
pub fn serialize<T: ?Sized>(data: &T) -> Result<Vec<u8>, Error>
where T: ConsensusEncodable<RawEncoder<Cursor<Vec<u8>>>>,
{
let mut encoder = RawEncoder::new(Cursor::new(vec![]));
@ -50,7 +181,7 @@ pub fn serialize<T: ?Sized>(data: &T) -> Result<Vec<u8>, util::Error>
}
/// Encode an object into a hex-encoded string
pub fn serialize_hex<T: ?Sized>(data: &T) -> Result<String, util::Error>
pub fn serialize_hex<T: ?Sized>(data: &T) -> Result<String, Error>
where T: ConsensusEncodable<RawEncoder<Cursor<Vec<u8>>>>
{
let serial = serialize(data)?;
@ -59,7 +190,7 @@ pub fn serialize_hex<T: ?Sized>(data: &T) -> Result<String, util::Error>
/// Deserialize an object from a vector, will error if said deserialization
/// doesn't consume the entire vector.
pub fn deserialize<'a, T>(data: &'a [u8]) -> Result<T, util::Error>
pub fn deserialize<'a, T>(data: &'a [u8]) -> Result<T, Error>
where T: ConsensusDecodable<RawDecoder<Cursor<&'a [u8]>>>
{
let mut decoder = RawDecoder::new(Cursor::new(data));
@ -69,7 +200,7 @@ pub fn deserialize<'a, T>(data: &'a [u8]) -> Result<T, util::Error>
if decoder.into_inner().position() == data.len() as u64 {
Ok(rv)
} else {
Err(util::Error::ParseFailed)
Err(Error::ParseFailed("data not consumed entirely when explicitly deserializing"))
}
}
@ -99,66 +230,57 @@ impl<R: Read> RawDecoder<R> {
/// A simple Encoder trait
pub trait SimpleEncoder {
/// An encoding error
type Error;
/// Output a 64-bit uint
fn emit_u64(&mut self, v: u64) -> Result<(), Self::Error>;
fn emit_u64(&mut self, v: u64) -> Result<(), Error>;
/// Output a 32-bit uint
fn emit_u32(&mut self, v: u32) -> Result<(), Self::Error>;
fn emit_u32(&mut self, v: u32) -> Result<(), Error>;
/// Output a 16-bit uint
fn emit_u16(&mut self, v: u16) -> Result<(), Self::Error>;
fn emit_u16(&mut self, v: u16) -> Result<(), Error>;
/// Output a 8-bit uint
fn emit_u8(&mut self, v: u8) -> Result<(), Self::Error>;
fn emit_u8(&mut self, v: u8) -> Result<(), Error>;
/// Output a 64-bit int
fn emit_i64(&mut self, v: i64) -> Result<(), Self::Error>;
fn emit_i64(&mut self, v: i64) -> Result<(), Error>;
/// Output a 32-bit int
fn emit_i32(&mut self, v: i32) -> Result<(), Self::Error>;
fn emit_i32(&mut self, v: i32) -> Result<(), Error>;
/// Output a 16-bit int
fn emit_i16(&mut self, v: i16) -> Result<(), Self::Error>;
fn emit_i16(&mut self, v: i16) -> Result<(), Error>;
/// Output a 8-bit int
fn emit_i8(&mut self, v: i8) -> Result<(), Self::Error>;
fn emit_i8(&mut self, v: i8) -> Result<(), Error>;
/// Output a boolean
fn emit_bool(&mut self, v: bool) -> Result<(), Self::Error>;
fn emit_bool(&mut self, v: bool) -> Result<(), Error>;
}
/// A simple Decoder trait
pub trait SimpleDecoder {
/// A decoding error
type Error;
/// Read a 64-bit uint
fn read_u64(&mut self) -> Result<u64, Self::Error>;
fn read_u64(&mut self) -> Result<u64, Error>;
/// Read a 32-bit uint
fn read_u32(&mut self) -> Result<u32, Self::Error>;
fn read_u32(&mut self) -> Result<u32, Error>;
/// Read a 16-bit uint
fn read_u16(&mut self) -> Result<u16, Self::Error>;
fn read_u16(&mut self) -> Result<u16, Error>;
/// Read a 8-bit uint
fn read_u8(&mut self) -> Result<u8, Self::Error>;
fn read_u8(&mut self) -> Result<u8, Error>;
/// Read a 64-bit int
fn read_i64(&mut self) -> Result<i64, Self::Error>;
fn read_i64(&mut self) -> Result<i64, Error>;
/// Read a 32-bit int
fn read_i32(&mut self) -> Result<i32, Self::Error>;
fn read_i32(&mut self) -> Result<i32, Error>;
/// Read a 16-bit int
fn read_i16(&mut self) -> Result<i16, Self::Error>;
fn read_i16(&mut self) -> Result<i16, Error>;
/// Read a 8-bit int
fn read_i8(&mut self) -> Result<i8, Self::Error>;
fn read_i8(&mut self) -> Result<i8, Error>;
/// Read a boolean
fn read_bool(&mut self) -> Result<bool, Self::Error>;
/// Signal a decoding error
fn error(&mut self, err: String) -> Self::Error;
fn read_bool(&mut self) -> Result<bool, Error>;
}
macro_rules! encoder_fn {
($name:ident, $val_type:ty, $writefn:ident) => {
#[inline]
fn $name(&mut self, v: $val_type) -> Result<(), util::Error> {
self.writer.$writefn::<LittleEndian>(v).map_err(util::Error::ByteOrder)
fn $name(&mut self, v: $val_type) -> Result<(), Error> {
self.writer.$writefn::<LittleEndian>(v).map_err(Error::Io)
}
}
}
@ -166,15 +288,13 @@ macro_rules! encoder_fn {
macro_rules! decoder_fn {
($name:ident, $val_type:ty, $readfn:ident) => {
#[inline]
fn $name(&mut self) -> Result<$val_type, util::Error> {
self.reader.$readfn::<LittleEndian>().map_err(util::Error::ByteOrder)
fn $name(&mut self) -> Result<$val_type, Error> {
self.reader.$readfn::<LittleEndian>().map_err(Error::Io)
}
}
}
impl<W: Write> SimpleEncoder for RawEncoder<W> {
type Error = util::Error;
encoder_fn!(emit_u64, u64, write_u64);
encoder_fn!(emit_u32, u32, write_u32);
encoder_fn!(emit_u16, u16, write_u16);
@ -183,22 +303,20 @@ impl<W: Write> SimpleEncoder for RawEncoder<W> {
encoder_fn!(emit_i16, i16, write_i16);
#[inline]
fn emit_i8(&mut self, v: i8) -> Result<(), util::Error> {
self.writer.write_i8(v).map_err(util::Error::ByteOrder)
fn emit_i8(&mut self, v: i8) -> Result<(), Error> {
self.writer.write_i8(v).map_err(Error::Io)
}
#[inline]
fn emit_u8(&mut self, v: u8) -> Result<(), util::Error> {
self.writer.write_u8(v).map_err(util::Error::ByteOrder)
fn emit_u8(&mut self, v: u8) -> Result<(), Error> {
self.writer.write_u8(v).map_err(Error::Io)
}
#[inline]
fn emit_bool(&mut self, v: bool) -> Result<(), util::Error> {
self.writer.write_i8(if v {1} else {0}).map_err(util::Error::ByteOrder)
fn emit_bool(&mut self, v: bool) -> Result<(), Error> {
self.writer.write_i8(if v {1} else {0}).map_err(Error::Io)
}
}
impl<R: Read> SimpleDecoder for RawDecoder<R> {
type Error = util::Error;
decoder_fn!(read_u64, u64, read_u64);
decoder_fn!(read_u32, u32, read_u32);
decoder_fn!(read_u16, u16, read_u16);
@ -207,25 +325,20 @@ impl<R: Read> SimpleDecoder for RawDecoder<R> {
decoder_fn!(read_i16, i16, read_i16);
#[inline]
fn read_u8(&mut self) -> Result<u8, util::Error> {
self.reader.read_u8().map_err(util::Error::ByteOrder)
fn read_u8(&mut self) -> Result<u8, Error> {
self.reader.read_u8().map_err(Error::Io)
}
#[inline]
fn read_i8(&mut self) -> Result<i8, util::Error> {
self.reader.read_i8().map_err(util::Error::ByteOrder)
fn read_i8(&mut self) -> Result<i8, Error> {
self.reader.read_i8().map_err(Error::Io)
}
#[inline]
fn read_bool(&mut self) -> Result<bool, util::Error> {
fn read_bool(&mut self) -> Result<bool, Error> {
match self.reader.read_i8() {
Ok(bit) => Ok(bit != 0),
Err(e) => Err(util::Error::ByteOrder(e))
Err(e) => Err(Error::Io(e))
}
}
#[inline]
fn error(&mut self, err: String) -> util::Error {
util::Error::Detail(err, Box::new(util::Error::ParseFailed))
}
}
// Aren't really any tests here.. the main functions are serialize and

View File

@ -19,18 +19,19 @@
use std::time::{UNIX_EPOCH, SystemTime};
use rand::{thread_rng, Rng};
use std::io::{self, Write};
use std::io::Write;
use std::net;
use std::sync::{Arc, Mutex};
use network;
use network::constants;
use network::address::Address;
use network::encodable::{ConsensusEncodable, ConsensusDecodable};
use network::message::{RawNetworkMessage, NetworkMessage};
use network::message::NetworkMessage::Version;
use network::message_network::VersionMessage;
use network::serialize::{RawEncoder, RawDecoder};
use util::{self, propagate_err};
use network::serialize::{self, RawEncoder, RawDecoder};
use util;
/// Format an IP address in the 16-byte bitcoin protocol serialization
fn ipaddr_to_bitcoin_addr(addr: &net::SocketAddr) -> [u16; 8] {
@ -60,9 +61,7 @@ macro_rules! with_socket(($s:ident, $sock:ident, $body:block) => ({
let sock_lock = $s.socket.lock();
match sock_lock {
Err(_) => {
let io_err = io::Error::new(io::ErrorKind::NotConnected,
"socket: socket mutex was poisoned");
Err(util::Error::Io(io_err))
Err(network::Error::SocketMutexPoisoned.into())
}
Ok(mut guard) => {
match *guard.deref_mut() {
@ -70,16 +69,13 @@ macro_rules! with_socket(($s:ident, $sock:ident, $body:block) => ({
$body
}
None => {
let io_err = io::Error::new(io::ErrorKind::NotConnected,
"socket: not connected to peer");
Err(util::Error::Io(io_err))
Err(network::Error::SocketNotConnectedToPeer.into())
}
}
}
}
}));
impl Socket {
// TODO: we fix services to 0
/// Construct a new socket
@ -95,7 +91,7 @@ impl Socket {
}
/// (Re)connect to the peer
pub fn connect(&mut self, host: &str, port: u16) -> Result<(), util::Error> {
pub fn connect(&mut self, host: &str, port: u16) -> Result<(), network::Error> {
// Entirely replace the Mutex, in case it was poisoned;
// this will also drop any preexisting socket that might be open
match net::TcpStream::connect((host, port)) {
@ -105,13 +101,13 @@ impl Socket {
}
Err(e) => {
self.socket = Arc::new(Mutex::new(None));
Err(util::Error::Io(e))
Err(network::Error::Io(e))
}
}
}
/// Peer address
pub fn receiver_address(&mut self) -> Result<Address, util::Error> {
pub fn receiver_address(&mut self) -> Result<Address, network::Error> {
with_socket!(self, sock, {
match sock.peer_addr() {
Ok(addr) => {
@ -121,13 +117,13 @@ impl Socket {
port: addr.port()
})
},
Err(e) => Err(util::Error::Io(e))
Err(e) => Err(network::Error::Io(e))
}
})
}
/// Our own address
pub fn sender_address(&mut self) -> Result<Address, util::Error> {
pub fn sender_address(&mut self) -> Result<Address, network::Error> {
with_socket!(self, sock, {
match sock.local_addr() {
Ok(addr) => {
@ -137,13 +133,13 @@ impl Socket {
port: addr.port()
})
},
Err(e) => Err(util::Error::Io(e))
Err(e) => Err(network::Error::Io(e))
}
})
}
/// Produce a version message appropriate for this socket
pub fn version_message(&mut self, start_height: i32) -> Result<NetworkMessage, util::Error> {
pub fn version_message(&mut self, start_height: i32) -> Result<NetworkMessage, network::Error> {
let recv_addr = self.receiver_address()?;
let send_addr = self.sender_address()?;
let timestamp = match SystemTime::now().duration_since(UNIX_EPOCH) {
@ -169,7 +165,7 @@ impl Socket {
with_socket!(self, sock, {
let message = RawNetworkMessage { magic: self.magic, payload: payload };
message.consensus_encode(&mut RawEncoder::new(&mut *sock))?;
sock.flush().map_err(util::Error::Io)
sock.flush().map_err(network::Error::Io).map_err(util::Error::Network)
})
}
@ -180,21 +176,18 @@ impl Socket {
// We need a new scope since the closure in here borrows read_err,
// and we try to read it afterward. Letting `iter` go out fixes it.
let mut decoder = RawDecoder::new(sock);
let decode: Result<RawNetworkMessage, _> = ConsensusDecodable::consensus_decode(&mut decoder);
match decode {
// Check for parse errors...
Err(e) => {
propagate_err("receive_message".to_owned(), Err(e))
},
Ok(ret) => {
let decoded: RawNetworkMessage = ConsensusDecodable::consensus_decode(&mut decoder)?;
// Then for magic (this should come before parse error, but we can't
// get to it if the deserialization failed). TODO restructure this
if ret.magic != self.magic {
Err(util::Error::BadNetworkMagic(self.magic, ret.magic))
if decoded.magic != self.magic {
Err(serialize::Error::UnexpectedNetworkMagic {
expected: self.magic,
actual: decoded.magic,
}.into())
} else {
Ok(ret.payload)
}
}
Ok(decoded.payload)
}
})
}

View File

@ -25,9 +25,9 @@ use secp256k1::key::PublicKey;
use blockdata::script;
use blockdata::opcodes;
use network::constants::Network;
use network::serialize;
use util::hash::Hash160;
use util::base58;
use util::Error;
/// The method used to produce an address
#[derive(Debug, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
@ -243,9 +243,9 @@ impl Display for Address {
}
impl FromStr for Address {
type Err = Error;
type Err = serialize::Error;
fn from_str(s: &str) -> Result<Address, Error> {
fn from_str(s: &str) -> Result<Address, serialize::Error> {
// bech32 (note that upper or lowercase is allowed but NOT mixed case)
if s.starts_with("bc1") || s.starts_with("BC1") ||
s.starts_with("tb1") || s.starts_with("TB1") ||
@ -259,7 +259,7 @@ impl FromStr for Address {
_ => panic!("unknown network")
};
if witprog.version().to_u8() != 0 {
return Err(Error::UnsupportedWitnessVersion(witprog.version().to_u8()));
return Err(serialize::Error::UnsupportedWitnessVersion(witprog.version().to_u8()));
}
return Ok(Address {
network: network,
@ -268,14 +268,14 @@ impl FromStr for Address {
}
if s.len() > 50 {
return Err(Error::Base58(base58::Error::InvalidLength(s.len() * 11 / 15)));
return Err(serialize::Error::Base58(base58::Error::InvalidLength(s.len() * 11 / 15)));
}
// Base 58
let data = base58::from_check(s)?;
if data.len() != 21 {
return Err(Error::Base58(base58::Error::InvalidLength(data.len())));
return Err(serialize::Error::Base58(base58::Error::InvalidLength(data.len())));
}
let (network, payload) = match data[0] {
@ -295,7 +295,7 @@ impl FromStr for Address {
Network::Testnet,
Payload::ScriptHash(Hash160::from(&data[1..]))
),
x => return Err(Error::Base58(base58::Error::InvalidVersion(vec![x])))
x => return Err(serialize::Error::Base58(base58::Error::InvalidVersion(vec![x])))
};
Ok(Address {

View File

@ -29,7 +29,7 @@ use crypto::digest::Digest;
use crypto::ripemd160::Ripemd160;
use network::encodable::{ConsensusDecodable, ConsensusEncodable};
use network::serialize::{SimpleEncoder, RawEncoder, BitcoinHash};
use network::serialize::{self, SimpleEncoder, RawEncoder, BitcoinHash};
use util::uint::Uint256;
#[cfg(feature="fuzztarget")] use util::sha2::Sha256;
@ -108,61 +108,59 @@ impl Sha256dEncoder {
}
impl SimpleEncoder for Sha256dEncoder {
type Error = ();
fn emit_u64(&mut self, v: u64) -> Result<(), ()> {
fn emit_u64(&mut self, v: u64) -> Result<(), serialize::Error> {
let mut data = [0; 8];
(&mut data[..]).write_u64::<LittleEndian>(v).unwrap();
self.0.input(&data);
Ok(())
}
fn emit_u32(&mut self, v: u32) -> Result<(), ()> {
fn emit_u32(&mut self, v: u32) -> Result<(), serialize::Error> {
let mut data = [0; 4];
(&mut data[..]).write_u32::<LittleEndian>(v).unwrap();
self.0.input(&data);
Ok(())
}
fn emit_u16(&mut self, v: u16) -> Result<(), ()> {
fn emit_u16(&mut self, v: u16) -> Result<(), serialize::Error> {
let mut data = [0; 2];
(&mut data[..]).write_u16::<LittleEndian>(v).unwrap();
self.0.input(&data);
Ok(())
}
fn emit_i64(&mut self, v: i64) -> Result<(), ()> {
fn emit_i64(&mut self, v: i64) -> Result<(), serialize::Error> {
let mut data = [0; 8];
(&mut data[..]).write_i64::<LittleEndian>(v).unwrap();
self.0.input(&data);
Ok(())
}
fn emit_i32(&mut self, v: i32) -> Result<(), ()> {
fn emit_i32(&mut self, v: i32) -> Result<(), serialize::Error> {
let mut data = [0; 4];
(&mut data[..]).write_i32::<LittleEndian>(v).unwrap();
self.0.input(&data);
Ok(())
}
fn emit_i16(&mut self, v: i16) -> Result<(), ()> {
fn emit_i16(&mut self, v: i16) -> Result<(), serialize::Error> {
let mut data = [0; 2];
(&mut data[..]).write_i16::<LittleEndian>(v).unwrap();
self.0.input(&data);
Ok(())
}
fn emit_i8(&mut self, v: i8) -> Result<(), ()> {
fn emit_i8(&mut self, v: i8) -> Result<(), serialize::Error> {
self.0.input(&[v as u8]);
Ok(())
}
fn emit_u8(&mut self, v: u8) -> Result<(), ()> {
fn emit_u8(&mut self, v: u8) -> Result<(), serialize::Error> {
self.0.input(&[v]);
Ok(())
}
fn emit_bool(&mut self, v: bool) -> Result<(), ()> {
fn emit_bool(&mut self, v: bool) -> Result<(), serialize::Error> {
self.0.input(&[if v {1} else {0}]);
Ok(())
}

View File

@ -17,11 +17,11 @@
//! Various utility functions
use blockdata::opcodes;
use util::Error;
use util::iter::Pairable;
use network::serialize;
/// Convert a hexadecimal-encoded string to its corresponding bytes
pub fn hex_bytes(s: &str) -> Result<Vec<u8>, Error> {
pub fn hex_bytes(s: &str) -> Result<Vec<u8>, serialize::Error> {
let mut v = vec![];
let mut iter = s.chars().pair();
// Do the parsing
@ -29,37 +29,19 @@ pub fn hex_bytes(s: &str) -> Result<Vec<u8>, Error> {
if e.is_err() { e }
else {
match (f.to_digit(16), s.to_digit(16)) {
(None, _) => Err(Error::Detail(
format!("expected hex, got {:}", f),
Box::new(Error::ParseFailed)
)),
(_, None) => Err(Error::Detail(
format!("expected hex, got {:}", s),
Box::new(Error::ParseFailed)
)),
(None, _) => Err(serialize::Error::UnexpectedHexDigit(f)),
(_, None) => Err(serialize::Error::UnexpectedHexDigit(s)),
(Some(f), Some(s)) => { v.push((f * 0x10 + s) as u8); Ok(()) }
}
}
)?;
// Check that there was no remainder
match iter.remainder() {
Some(_) => Err(Error::Detail(
"hexstring of odd length".to_owned(),
Box::new(Error::ParseFailed)
)),
Some(_) => Err(serialize::Error::ParseFailed("hexstring of odd length")),
None => Ok(v)
}
}
/// Dump an error message to the screen
/// TODO all uses of this should be replaced with some sort of logging infrastructure
pub fn consume_err<T>(s: &str, res: Result<T, Error>) {
match res {
Ok(_) => {},
Err(e) => { println!("{}: {:?}", s, e); }
};
}
/// Search for `needle` in the vector `haystack` and remove every
/// instance of it, returning the number of instances removed.
/// Loops through the vector opcode by opcode, skipping pushed data.

View File

@ -31,11 +31,13 @@ pub mod uint;
#[cfg(feature = "fuzztarget")]
pub mod sha2;
use std::{error, fmt, io};
use std::{error, fmt};
use bitcoin_bech32;
use secp256k1;
use network;
use network::serialize;
/// A trait which allows numbers to act as fixed-size bit arrays
pub trait BitArray {
/// Is bit set?
@ -57,53 +59,29 @@ pub trait BitArray {
fn one() -> Self;
}
/// A general error code
/// A general error code, other errors should implement conversions to/from this
/// if appropriate.
#[derive(Debug)]
pub enum Error {
/// An I/O error
Io(io::Error),
/// Base58 encoding error
Base58(base58::Error),
/// Bech32 encoding error
Bech32(bitcoin_bech32::Error),
/// Error from the `byteorder` crate
ByteOrder(io::Error),
/// Network magic was not what we expected
BadNetworkMagic(u32, u32),
/// Network message was unrecognized
BadNetworkMessage(String),
/// An object was attempted to be added twice
DuplicateHash,
/// Some operation was attempted on a block (or blockheader) that doesn't exist
BlockNotFound,
/// Parsing error
ParseFailed,
/// An object was added but it does not link into existing history
PrevHashNotFound,
/// secp-related error
Secp256k1(secp256k1::Error),
/// The `target` field of a block header did not match the expected difficulty
SpvBadTarget,
/// Serialization error
Serialize(serialize::Error),
/// Network error
Network(network::Error),
/// The header hash is not below the target
SpvBadProofOfWork,
/// Error propagated from subsystem
Detail(String, Box<Error>),
/// Unsupported witness version
UnsupportedWitnessVersion(u8)
/// The `target` field of a block header did not match the expected difficulty
SpvBadTarget,
}
impl fmt::Display for Error {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
Error::Io(ref e) => fmt::Display::fmt(e, f),
Error::Base58(ref e) => fmt::Display::fmt(e, f),
Error::Bech32(ref e) => fmt::Display::fmt(e, f),
Error::ByteOrder(ref e) => fmt::Display::fmt(e, f),
Error::BadNetworkMagic(exp, got) => write!(f, "expected network magic 0x{:x}, got 0x{:x}", exp, got),
Error::BadNetworkMessage(ref got) => write!(f, "incorrect network message {}", got),
Error::Detail(ref s, ref e) => write!(f, "{}: {}", s, e),
Error::Secp256k1(ref e) => fmt::Display::fmt(e, f),
ref x => f.write_str(error::Error::description(x))
Error::Serialize(ref e) => fmt::Display::fmt(e, f),
Error::Network(ref e) => fmt::Display::fmt(e, f),
Error::SpvBadProofOfWork | Error::SpvBadTarget => f.write_str(error::Error::description(self)),
}
}
}
@ -111,56 +89,24 @@ impl fmt::Display for Error {
impl error::Error for Error {
fn cause(&self) -> Option<&error::Error> {
match *self {
Error::Io(ref e) => Some(e),
Error::Base58(ref e) => Some(e),
Error::Bech32(ref e) => Some(e),
Error::ByteOrder(ref e) => Some(e),
Error::Detail(_, ref e) => Some(e),
Error::Secp256k1(ref e) => Some(e),
_ => None
Error::Serialize(ref e) => Some(e),
Error::Network(ref e) => Some(e),
Error::SpvBadProofOfWork | Error::SpvBadTarget => None
}
}
fn description(&self) -> &str {
match *self {
Error::Io(ref e) => e.description(),
Error::Base58(ref e) => e.description(),
Error::Bech32(ref e) => e.description(),
Error::ByteOrder(ref e) => e.description(),
Error::BadNetworkMagic(_, _) => "incorrect network magic",
Error::BadNetworkMessage(_) => "incorrect/unexpected network message",
Error::DuplicateHash => "duplicate hash",
Error::BlockNotFound => "no such block",
Error::ParseFailed => "parsing error",
Error::PrevHashNotFound => "prevhash not found",
Error::Secp256k1(ref e) => e.description(),
Error::SpvBadTarget => "target incorrect",
Error::Serialize(ref e) => e.description(),
Error::Network(ref e) => e.description(),
Error::SpvBadProofOfWork => "target correct but not attained",
Error::Detail(_, ref e) => e.description(),
Error::UnsupportedWitnessVersion(_) => "unsupported witness version"
Error::SpvBadTarget => "target incorrect",
}
}
}
/// Prepend the detail of an `IoResult`'s error with some text to get poor man's backtracing
pub fn propagate_err<T>(s: String, res: Result<T, Error>) -> Result<T, Error> {
res.map_err(|err| Error::Detail(s, Box::new(err)))
}
#[doc(hidden)]
impl From<base58::Error> for Error {
fn from(e: base58::Error) -> Error {
Error::Base58(e)
}
}
#[doc(hidden)]
impl From<bitcoin_bech32::Error> for Error {
fn from(e: bitcoin_bech32::Error) -> Error {
Error::Bech32(e)
}
}
#[doc(hidden)]
impl From<secp256k1::Error> for Error {
fn from(e: secp256k1::Error) -> Error {
@ -168,3 +114,16 @@ impl From<secp256k1::Error> for Error {
}
}
#[doc(hidden)]
impl From<serialize::Error> for Error {
fn from(e: serialize::Error) -> Error {
Error::Serialize(e)
}
}
#[doc(hidden)]
impl From<network::Error> for Error {
fn from(e: network::Error) -> Error {
Error::Network(e)
}
}

View File

@ -18,10 +18,10 @@
use std::fmt::{self, Display, Formatter};
use std::str::FromStr;
use util::Error;
use secp256k1::{self, Secp256k1};
use secp256k1::key::{PublicKey, SecretKey};
use util::address::Address;
use network::serialize;
use network::constants::Network;
use util::base58;
@ -113,21 +113,21 @@ impl Display for Privkey {
}
impl FromStr for Privkey {
type Err = Error;
type Err = serialize::Error;
fn from_str(s: &str) -> Result<Privkey, Error> {
fn from_str(s: &str) -> Result<Privkey, serialize::Error> {
let data = base58::from_check(s)?;
let compressed = match data.len() {
33 => false,
34 => true,
_ => { return Err(Error::Base58(base58::Error::InvalidLength(data.len()))); }
_ => { return Err(serialize::Error::Base58(base58::Error::InvalidLength(data.len()))); }
};
let network = match data[0] {
128 => Network::Bitcoin,
239 => Network::Testnet,
x => { return Err(Error::Base58(base58::Error::InvalidVersion(vec![x]))); }
x => { return Err(serialize::Error::Base58(base58::Error::InvalidVersion(vec![x]))); }
};
let secp = Secp256k1::without_caps();

View File

@ -20,6 +20,7 @@
use std::fmt;
use network::serialize;
use util::BitArray;
macro_rules! construct_uint {
@ -337,7 +338,7 @@ macro_rules! construct_uint {
impl<S: ::network::serialize::SimpleEncoder> ::network::encodable::ConsensusEncodable<S> for $name {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
fn consensus_encode(&self, s: &mut S) -> Result<(), serialize::Error> {
let &$name(ref data) = self;
for word in data.iter() { word.consensus_encode(s)?; }
Ok(())
@ -345,7 +346,7 @@ macro_rules! construct_uint {
}
impl<D: ::network::serialize::SimpleDecoder> ::network::encodable::ConsensusDecodable<D> for $name {
fn consensus_decode(d: &mut D) -> Result<$name, D::Error> {
fn consensus_decode(d: &mut D) -> Result<$name, serialize::Error> {
use network::encodable::ConsensusDecodable;
let ret: [u64; $n_words] = ConsensusDecodable::consensus_decode(d)?;
Ok($name(ret))