base58: remove Base58 traits, replace with encode/decode functions

src/util/address.rs

@@ -15,6 +15,9 @@
 //! Support for ordinary base58 Bitcoin addresses and private keys
 //!
 
+use std::str::FromStr;
+use std::string::ToString;
+
 use secp256k1::{self, Secp256k1};
 use secp256k1::key::{PublicKey, SecretKey};
 
@@ -22,7 +25,7 @@ use blockdata::script;
 use blockdata::opcodes;
 use network::constants::Network;
 use util::hash::Hash160;
-use util::base58::{self, FromBase58, ToBase58};
+use util::base58;
 
 /// The method used to produce an address
 #[derive(Copy, Clone, PartialEq, Eq, Debug)]
@@ -98,23 +101,26 @@ impl Address {
     }
 }
 
-impl ToBase58 for Address {
+impl ToString for Address {
-    fn base58_layout(&self) -> Vec<u8> {
+    fn to_string(&self) -> String {
-        let mut ret = vec![
+        let mut prefixed = [0; 21];
-            match (self.network, self.ty) {
+        prefixed[0] = match (self.network, self.ty) {
             (Network::Bitcoin, Type::PubkeyHash) => 0,
             (Network::Bitcoin, Type::ScriptHash) => 5,
             (Network::Testnet, Type::PubkeyHash) => 111,
             (Network::Testnet, Type::ScriptHash) => 196
-            }
+        };
-        ];
+        prefixed[1..].copy_from_slice(&self.hash[..]);
-        ret.extend(self.hash[..].iter().cloned());
+        base58::check_encode_slice(&prefixed[..])
-        ret
     }
 }
 
-impl FromBase58 for Address {
+impl FromStr for Address {
-    fn from_base58_layout(data: Vec<u8>) -> Result<Address, base58::Error> {
+    type Err = base58::Error;
+
+    fn from_str(s: &str) -> Result<Address, base58::Error> {
+        let data = try!(base58::from_check(s));
+
         if data.len() != 21 {
             return Err(base58::Error::InvalidLength(data.len()));
         }
@@ -137,7 +143,7 @@ impl FromBase58 for Address {
 
 impl ::std::fmt::Debug for Address {
     fn fmt(&self, f: &mut ::std::fmt::Formatter) -> ::std::fmt::Result {
-        write!(f, "{}", self.to_base58check())
+        write!(f, "{}", self.to_string())
     }
 }
 
@@ -195,22 +201,29 @@ impl Privkey {
     }
 }
 
-impl ToBase58 for Privkey {
+impl ToString for Privkey {
-    fn base58_layout(&self) -> Vec<u8> {
+    fn to_string(&self) -> String {
-        let mut ret = vec![
+        let mut ret = [0; 34];
-            match self.network {
+        ret[0] = match self.network {
             Network::Bitcoin => 128,
             Network::Testnet => 239
+        };
+        ret[1..33].copy_from_slice(&self.key[..]);
+        if self.compressed {
+            ret[33] = 1;
+            base58::check_encode_slice(&ret[..])
+        } else {
+            base58::check_encode_slice(&ret[..33])
         }
-        ];
-        ret.extend(&self.key[..]);
-        if self.compressed { ret.push(1); }
-        ret
     }
 }
 
-impl FromBase58 for Privkey {
+impl FromStr for Privkey {
-    fn from_base58_layout(data: Vec<u8>) -> Result<Privkey, base58::Error> {
+    type Err = base58::Error;
+
+    fn from_str(s: &str) -> Result<Privkey, base58::Error> {
+        let data = try!(base58::from_check(s));
+
         let compressed = match data.len() {
             33 => false,
             34 => true,
@@ -237,6 +250,9 @@ impl FromBase58 for Privkey {
 
 #[cfg(test)]
 mod tests {
+    use std::str::FromStr;
+    use std::string::ToString;
+
     use secp256k1::Secp256k1;
     use secp256k1::key::PublicKey;
     use serialize::hex::FromHex;
@@ -244,7 +260,6 @@ mod tests {
     use blockdata::script::Script;
     use network::constants::Network::{Bitcoin, Testnet};
     use util::hash::Hash160;
-    use util::base58::{FromBase58, ToBase58};
     use super::*;
 
     macro_rules! hex (($hex:expr) => ($hex.from_hex().unwrap()));
@@ -260,8 +275,8 @@ mod tests {
         };
 
         assert_eq!(addr.script_pubkey(), hex_script!("76a914162c5ea71c0b23f5b9022ef047c4a86470a5b07088ac"));
-        assert_eq!(&addr.to_base58check(), "132F25rTsvBdp9JzLLBHP5mvGY66i1xdiM");
+        assert_eq!(&addr.to_string(), "132F25rTsvBdp9JzLLBHP5mvGY66i1xdiM");
-        assert_eq!(FromBase58::from_base58check("132F25rTsvBdp9JzLLBHP5mvGY66i1xdiM"), Ok(addr));
+        assert_eq!(Address::from_str("132F25rTsvBdp9JzLLBHP5mvGY66i1xdiM"), Ok(addr));
     }
 
     #[test]
@@ -270,11 +285,11 @@ mod tests {
 
         let key = hex_key!(&secp, "048d5141948c1702e8c95f438815794b87f706a8d4cd2bffad1dc1570971032c9b6042a0431ded2478b5c9cf2d81c124a5e57347a3c63ef0e7716cf54d613ba183");
         let addr = Address::from_key(Bitcoin, &key, false);
-        assert_eq!(&addr.to_base58check(), "1QJVDzdqb1VpbDK7uDeyVXy9mR27CJiyhY");
+        assert_eq!(&addr.to_string(), "1QJVDzdqb1VpbDK7uDeyVXy9mR27CJiyhY");
 
         let key = hex_key!(&secp, &"03df154ebfcf29d29cc10d5c2565018bce2d9edbab267c31d2caf44a63056cf99f");
         let addr = Address::from_key(Testnet, &key, true);
-        assert_eq!(&addr.to_base58check(), "mqkhEMH6NCeYjFybv7pvFC22MFeaNT9AQC");
+        assert_eq!(&addr.to_string(), "mqkhEMH6NCeYjFybv7pvFC22MFeaNT9AQC");
     }
 
     #[test]
@@ -286,8 +301,8 @@ mod tests {
         };
 
         assert_eq!(addr.script_pubkey(), hex_script!("a914162c5ea71c0b23f5b9022ef047c4a86470a5b07087"));
-        assert_eq!(&addr.to_base58check(), "33iFwdLuRpW1uK1RTRqsoi8rR4NpDzk66k");
+        assert_eq!(&addr.to_string(), "33iFwdLuRpW1uK1RTRqsoi8rR4NpDzk66k");
-        assert_eq!(FromBase58::from_base58check("33iFwdLuRpW1uK1RTRqsoi8rR4NpDzk66k"), Ok(addr));
+        assert_eq!(Address::from_str("33iFwdLuRpW1uK1RTRqsoi8rR4NpDzk66k"), Ok(addr));
     }
 
     #[test]
@@ -295,31 +310,31 @@ mod tests {
         let script = hex_script!("552103a765fc35b3f210b95223846b36ef62a4e53e34e2925270c2c7906b92c9f718eb2103c327511374246759ec8d0b89fa6c6b23b33e11f92c5bc155409d86de0c79180121038cae7406af1f12f4786d820a1466eec7bc5785a1b5e4a387eca6d797753ef6db2103252bfb9dcaab0cd00353f2ac328954d791270203d66c2be8b430f115f451b8a12103e79412d42372c55dd336f2eb6eb639ef9d74a22041ba79382c74da2338fe58ad21035049459a4ebc00e876a9eef02e72a3e70202d3d1f591fc0dd542f93f642021f82102016f682920d9723c61b27f562eb530c926c00106004798b6471e8c52c60ee02057ae");
         let addr = Address::from_script(Testnet, &script);
 
-        assert_eq!(&addr.to_base58check(), "2N3zXjbwdTcPsJiy8sUK9FhWJhqQCxA8Jjr");
+        assert_eq!(&addr.to_string(), "2N3zXjbwdTcPsJiy8sUK9FhWJhqQCxA8Jjr");
-        assert_eq!(FromBase58::from_base58check("2N3zXjbwdTcPsJiy8sUK9FhWJhqQCxA8Jjr"), Ok(addr));
+        assert_eq!(Address::from_str("2N3zXjbwdTcPsJiy8sUK9FhWJhqQCxA8Jjr"), Ok(addr));
     }
 
     #[test]
     fn test_key_derivation() {
         // testnet compressed
-        let sk: Privkey = FromBase58::from_base58check("cVt4o7BGAig1UXywgGSmARhxMdzP5qvQsxKkSsc1XEkw3tDTQFpy").unwrap();
+        let sk = Privkey::from_str("cVt4o7BGAig1UXywgGSmARhxMdzP5qvQsxKkSsc1XEkw3tDTQFpy").unwrap();
         assert_eq!(sk.network(), Testnet);
         assert_eq!(sk.is_compressed(), true);
-        assert_eq!(&sk.to_base58check(), "cVt4o7BGAig1UXywgGSmARhxMdzP5qvQsxKkSsc1XEkw3tDTQFpy");
+        assert_eq!(&sk.to_string(), "cVt4o7BGAig1UXywgGSmARhxMdzP5qvQsxKkSsc1XEkw3tDTQFpy");
 
         let secp = Secp256k1::new();
         let pk = sk.to_address(&secp).unwrap();
-        assert_eq!(&pk.to_base58check(), "mqwpxxvfv3QbM8PU8uBx2jaNt9btQqvQNx");
+        assert_eq!(&pk.to_string(), "mqwpxxvfv3QbM8PU8uBx2jaNt9btQqvQNx");
 
         // mainnet uncompressed
-        let sk: Privkey = FromBase58::from_base58check("5JYkZjmN7PVMjJUfJWfRFwtuXTGB439XV6faajeHPAM9Z2PT2R3").unwrap();
+        let sk = Privkey::from_str("5JYkZjmN7PVMjJUfJWfRFwtuXTGB439XV6faajeHPAM9Z2PT2R3").unwrap();
         assert_eq!(sk.network(), Bitcoin);
         assert_eq!(sk.is_compressed(), false);
-        assert_eq!(&sk.to_base58check(), "5JYkZjmN7PVMjJUfJWfRFwtuXTGB439XV6faajeHPAM9Z2PT2R3");
+        assert_eq!(&sk.to_string(), "5JYkZjmN7PVMjJUfJWfRFwtuXTGB439XV6faajeHPAM9Z2PT2R3");
 
         let secp = Secp256k1::new();
         let pk = sk.to_address(&secp).unwrap();
-        assert_eq!(&pk.to_base58check(), "1GhQvF6dL8xa6wBxLnWmHcQsurx9RxiMc8");
+        assert_eq!(&pk.to_string(), "1GhQvF6dL8xa6wBxLnWmHcQsurx9RxiMc8");
     }
 }
 

src/util/base58.rs

@@ -16,7 +16,7 @@
 
 use std::{error, fmt};
 
-use byteorder::{ByteOrder, LittleEndian, WriteBytesExt};
+use byteorder::{ByteOrder, LittleEndian};
 use util::hash::Sha256dHash;
 
 /// An error that might occur during base58 decoding
@@ -84,14 +84,8 @@ static BASE58_DIGITS: [Option<u8>; 128] = [
     Some(55), Some(56), Some(57), None,     None,     None,     None,     None,     // 120-127
 ];
 
-/// Trait for objects which can be read as base58
+/// Decode base58-encoded string into a byte vector
-pub trait FromBase58: Sized {
+pub fn from(data: &str) -> Result<Vec<u8>, Error> {
-    /// Constructs an object from the byte-encoding (base 256)
-    /// representation of its base58 format
-    fn from_base58_layout(data: Vec<u8>) -> Result<Self, Error>;
-
-    /// Obtain an object from its base58 encoding
-    fn from_base58(data: &str) -> Result<Self, Error> {
     // 11/15 is just over log_256(58)
     let mut scratch = vec![0u8; 1 + data.len() * 11 / 15];
     // Build in base 256
@@ -118,12 +112,12 @@ pub trait FromBase58: Sized {
                                        .collect();
     // Copy rest of string
     ret.extend(scratch.into_iter().skip_while(|&x| x == 0));
-        FromBase58::from_base58_layout(ret)
+    Ok(ret)
-    }
+}
 
-    /// Obtain an object from its base58check encoding
+/// Decode a base58check-encoded string
-    fn from_base58check(data: &str) -> Result<Self, Error> {
+pub fn from_check(data: &str) -> Result<Vec<u8>, Error> {
-        let mut ret: Vec<u8> = try!(FromBase58::from_base58(data));
+    let mut ret: Vec<u8> = try!(from(data));
     if ret.len() < 4 {
         return Err(Error::TooShort(ret.len()));
     }
@@ -135,120 +129,113 @@ pub trait FromBase58: Sized {
     }
 
     ret.truncate(ck_start);
-        FromBase58::from_base58_layout(ret)
+    Ok(ret)
-    }
 }
 
-/// Directly encode a slice as base58
+fn encode_iter<I>(data: I) -> String
-pub fn base58_encode_slice(data: &[u8]) -> String {
+where
+    I: Iterator<Item = u8> + Clone,
+{
+    let (len, _) = data.size_hint();
+
     // 7/5 is just over log_58(256)
-    let mut scratch = vec![0u8; 1 + data.len() * 7 / 5];
+    let mut ret = Vec::with_capacity(1 + len * 7 / 5);
-    // Build in base 58
+
-    for &d256 in &data.base58_layout() {
+    let mut leading_zero_count = 0;
-        // Compute "X = X * 256 + next_digit" in base 58
+    let mut leading_zeroes = true;
-        let mut carry = d256 as u32;
+    // Build string in little endian with 0-58 in place of characters...
-        for d58 in scratch.iter_mut().rev() {
+    for d256 in data {
-            carry += (*d58 as u32) << 8;
+        let mut carry = d256 as usize;
-            *d58 = (carry % 58) as u8;
+        if leading_zeroes && carry == 0 {
-            carry /= 58;
+            leading_zero_count += 1;
-        }
+        } else {
-        assert_eq!(carry, 0);
+            leading_zeroes = false;
         }
 
-    // Copy leading zeroes directly
+        for ch in ret.iter_mut() {
-    let mut ret: Vec<u8> = data.iter().take_while(|&&x| x == 0)
+            let new_ch = *ch as usize * 256 + carry;
-                                      .map(|_| BASE58_CHARS[0])
+            *ch = (new_ch % 58) as u8;
-                                      .collect();
+            carry = new_ch / 58;
-    // Copy rest of string
+        }
-    ret.extend(scratch.into_iter().skip_while(|&x| x == 0)
+        while carry > 0 {
-                                  .map(|x| BASE58_CHARS[x as usize]));
+            ret.push((carry % 58) as u8);
+            carry /= 58;
+        }
+    }
+
+    // ... then reverse it and convert to chars
+    for _ in 0..leading_zero_count {
+        ret.push(0);
+    }
+    ret.reverse();
+    for ch in ret.iter_mut() {
+        *ch = BASE58_CHARS[*ch as usize];
+    }
     String::from_utf8(ret).unwrap()
 }
 
-/// Trait for objects which can be written as base58
+/// Directly encode a slice as base58
-pub trait ToBase58 {
+pub fn encode_slice(data: &[u8]) -> String {
-    /// The serialization to be converted into base58
+    encode_iter(data.iter().cloned())
-    fn base58_layout(&self) -> Vec<u8>;
-
-    /// Obtain a string with the base58 encoding of the object
-    fn to_base58(&self) -> String {
-        base58_encode_slice(&self.base58_layout()[..])
-    }
-
-    /// Obtain a string with the base58check encoding of the object
-    /// (Tack the first 4 256-digits of the object's Bitcoin hash onto the end.)
-    fn to_base58check(&self) -> String {
-        let mut data = self.base58_layout();
-        let checksum = Sha256dHash::from_data(&data).into_le().low_u32();
-        data.write_u32::<LittleEndian>(checksum).unwrap();
-        base58_encode_slice(&data)
-    }
 }
 
-// Trivial implementations for slices and vectors
+/// Obtain a string with the base58check encoding of a slice
-impl<'a> ToBase58 for &'a [u8] {
+/// (Tack the first 4 256-digits of the object's Bitcoin hash onto the end.)
-    fn base58_layout(&self) -> Vec<u8> { self.to_vec() }
+pub fn check_encode_slice(data: &[u8]) -> String {
-    fn to_base58(&self) -> String { base58_encode_slice(*self) }
+    let checksum = Sha256dHash::from_data(&data);
-}
+    encode_iter(
-
+        data.iter()
-impl<'a> ToBase58 for Vec<u8> {
+            .cloned()
-    fn base58_layout(&self) -> Vec<u8> { self.clone() }
+            .chain(checksum[0..4].iter().cloned())
-    fn to_base58(&self) -> String { base58_encode_slice(&self[..]) }
+    )
-}
-
-impl FromBase58 for Vec<u8> {
-    fn from_base58_layout(data: Vec<u8>) -> Result<Vec<u8>, Error> {
-        Ok(data)
-    }
 }
 
 #[cfg(test)]
 mod tests {
     use serialize::hex::FromHex;
 
-    use super::ToBase58;
+    use super::*;
-    use super::FromBase58;
 
     #[test]
     fn test_base58_encode() {
         // Basics
-        assert_eq!(&(&[0][..]).to_base58(), "1");
+        assert_eq!(&encode_slice(&[0][..]), "1");
-        assert_eq!(&(&[1][..]).to_base58(), "2");
+        assert_eq!(&encode_slice(&[1][..]), "2");
-        assert_eq!(&(&[58][..]).to_base58(), "21");
+        assert_eq!(&encode_slice(&[58][..]), "21");
-        assert_eq!(&(&[13, 36][..]).to_base58(), "211");
+        assert_eq!(&encode_slice(&[13, 36][..]), "211");
 
         // Leading zeroes
-        assert_eq!(&(&[0, 13, 36][..]).to_base58(), "1211");
+        assert_eq!(&encode_slice(&[0, 13, 36][..]), "1211");
-        assert_eq!(&(&[0, 0, 0, 0, 13, 36][..]).to_base58(), "1111211");
+        assert_eq!(&encode_slice(&[0, 0, 0, 0, 13, 36][..]), "1111211");
 
         // Addresses
-        assert_eq!(&"00f8917303bfa8ef24f292e8fa1419b20460ba064d".from_hex().unwrap().to_base58check(),
+        let addr = "00f8917303bfa8ef24f292e8fa1419b20460ba064d".from_hex().unwrap();
-                   "1PfJpZsjreyVrqeoAfabrRwwjQyoSQMmHH");
+        assert_eq!(&check_encode_slice(&addr[..]), "1PfJpZsjreyVrqeoAfabrRwwjQyoSQMmHH");
       }
 
       #[test]
       fn test_base58_decode() {
         // Basics
-        assert_eq!(FromBase58::from_base58("1").ok(), Some(vec![0u8]));
+        assert_eq!(from("1").ok(), Some(vec![0u8]));
-        assert_eq!(FromBase58::from_base58("2").ok(), Some(vec![1u8]));
+        assert_eq!(from("2").ok(), Some(vec![1u8]));
-        assert_eq!(FromBase58::from_base58("21").ok(), Some(vec![58u8]));
+        assert_eq!(from("21").ok(), Some(vec![58u8]));
-        assert_eq!(FromBase58::from_base58("211").ok(), Some(vec![13u8, 36]));
+        assert_eq!(from("211").ok(), Some(vec![13u8, 36]));
 
         // Leading zeroes
-        assert_eq!(FromBase58::from_base58("1211").ok(), Some(vec![0u8, 13, 36]));
+        assert_eq!(from("1211").ok(), Some(vec![0u8, 13, 36]));
-        assert_eq!(FromBase58::from_base58("111211").ok(), Some(vec![0u8, 0, 0, 13, 36]));
+        assert_eq!(from("111211").ok(), Some(vec![0u8, 0, 0, 13, 36]));
 
         // Addresses
-        assert_eq!(FromBase58::from_base58check("1PfJpZsjreyVrqeoAfabrRwwjQyoSQMmHH").ok(),
+        assert_eq!(from_check("1PfJpZsjreyVrqeoAfabrRwwjQyoSQMmHH").ok(),
                    Some("00f8917303bfa8ef24f292e8fa1419b20460ba064d".from_hex().unwrap()))
     }
 
     #[test]
     fn test_base58_roundtrip() {
         let s = "xprv9wTYmMFdV23N2TdNG573QoEsfRrWKQgWeibmLntzniatZvR9BmLnvSxqu53Kw1UmYPxLgboyZQaXwTCg8MSY3H2EU4pWcQDnRnrVA1xe8fs";
-        let v: Vec<u8> = FromBase58::from_base58check(s).unwrap();
+        let v: Vec<u8> = from_check(s).unwrap();
-        assert_eq!(&v.to_base58check(), s);
+        assert_eq!(check_encode_slice(&v[..]), s);
-        assert_eq!(FromBase58::from_base58check(&v.to_base58check()).ok(), Some(v));
+        assert_eq!(from_check(&check_encode_slice(&v[..])).ok(), Some(v));
     }
 }
 

src/util/bip32.rs

@@ -19,9 +19,11 @@
 use std::default::Default;
 use std::io::Cursor;
 use std::{error, fmt};
+use std::str::FromStr;
+use std::string::ToString;
 use serde::{Serialize, Deserialize, Serializer, Deserializer};
 
-use byteorder::{BigEndian, ByteOrder, ReadBytesExt, WriteBytesExt};
+use byteorder::{BigEndian, ByteOrder, ReadBytesExt};
 use crypto::digest::Digest;
 use crypto::hmac::Hmac;
 use crypto::mac::Mac;
@@ -33,7 +35,6 @@ use secp256k1::{self, Secp256k1};
 
 use network::constants::Network;
 use util::base58;
-use util::base58::{FromBase58, ToBase58};
 
 /// A chain code
 pub struct ChainCode([u8; 32]);
@@ -337,33 +338,36 @@ impl ExtendedPubKey {
     }
 }
 
-impl ToBase58 for ExtendedPrivKey {
+impl ToString for ExtendedPrivKey {
-    fn base58_layout(&self) -> Vec<u8> { 
+    fn to_string(&self) -> String {
-        let mut ret = Vec::with_capacity(78);
+        let mut ret = [0; 78];
-        ret.extend(match self.network {
+        ret[0..4].copy_from_slice(&match self.network {
             Network::Bitcoin => [0x04, 0x88, 0xAD, 0xE4],
-            Network::Testnet => [0x04, 0x35, 0x83, 0x94]
+            Network::Testnet => [0x04, 0x35, 0x83, 0x94],
-        }.iter().cloned());
+        }[..]);
-        ret.push(self.depth as u8);
+        ret[4] = self.depth as u8;
-        ret.extend(self.parent_fingerprint[..].iter().cloned());
+        ret[5..9].copy_from_slice(&self.parent_fingerprint[..]);
         match self.child_number {
             ChildNumber::Hardened(n) => {
-                ret.write_u32::<BigEndian>(n + (1 << 31)).unwrap();
+                BigEndian::write_u32(&mut ret[9..13], n + (1 << 31));
             }
             ChildNumber::Normal(n) => {
-                ret.write_u32::<BigEndian>(n).unwrap();
+                BigEndian::write_u32(&mut ret[9..13], n);
             }
         }
-        ret.extend(self.chain_code[..].iter().cloned());
+        ret[13..45].copy_from_slice(&self.chain_code[..]);
-        ret.push(0);
+        ret[45] = 0;
-        ret.extend(self.secret_key[..].iter().cloned());
+        ret[46..78].copy_from_slice(&self.secret_key[..]);
-        ret
+        base58::check_encode_slice(&ret[..])
     }
 }
 
-impl FromBase58 for ExtendedPrivKey {
+impl FromStr for ExtendedPrivKey {
-    fn from_base58_layout(data: Vec<u8>) -> Result<ExtendedPrivKey, base58::Error> {
+    type Err = base58::Error;
+
+    fn from_str(inp: &str) -> Result<ExtendedPrivKey, base58::Error> {
         let s = Secp256k1::with_caps(secp256k1::ContextFlag::None);
+        let data = try!(base58::from_check(inp));
 
         if data.len() != 78 {
             return Err(base58::Error::InvalidLength(data.len()));
@@ -392,34 +396,35 @@ impl FromBase58 for ExtendedPrivKey {
     }
 }
 
-impl ToBase58 for ExtendedPubKey {
+impl ToString for ExtendedPubKey {
-    fn base58_layout(&self) -> Vec<u8> {
+    fn to_string(&self) -> String {
-        let mut ret = Vec::with_capacity(78);
+        let mut ret = [0; 78];
-        ret.extend(match self.network {
+        ret[0..4].copy_from_slice(&match self.network {
             Network::Bitcoin => [0x04u8, 0x88, 0xB2, 0x1E],
-            Network::Testnet => [0x04u8, 0x35, 0x87, 0xCF]
+            Network::Testnet => [0x04u8, 0x35, 0x87, 0xCF],
-        }.iter().cloned());
+        }[..]);
-        ret.push(self.depth as u8);
+        ret[4] = self.depth as u8;
-        ret.extend(self.parent_fingerprint[..].iter().cloned());
+        ret[5..9].copy_from_slice(&self.parent_fingerprint[..]);
-        let mut be_n = [0; 4];
         match self.child_number {
             ChildNumber::Hardened(n) => {
-                BigEndian::write_u32(&mut be_n, n + (1 << 31));
+                BigEndian::write_u32(&mut ret[9..13], n + (1 << 31));
             }
             ChildNumber::Normal(n) => {
-                BigEndian::write_u32(&mut be_n, n);
+                BigEndian::write_u32(&mut ret[9..13], n);
             }
         }
-        ret.extend(be_n.iter().cloned());
+        ret[13..45].copy_from_slice(&self.chain_code[..]);
-        ret.extend(self.chain_code[..].iter().cloned());
+        ret[45..78].copy_from_slice(&self.public_key.serialize()[..]);
-        ret.extend(self.public_key.serialize()[..].iter().cloned());
+        base58::check_encode_slice(&ret[..])
-        ret
     }
 }
 
-impl FromBase58 for ExtendedPubKey {
+impl FromStr for ExtendedPubKey {
-    fn from_base58_layout(data: Vec<u8>) -> Result<ExtendedPubKey, base58::Error> {
+    type Err = base58::Error;
+
+    fn from_str(inp: &str) -> Result<ExtendedPubKey, base58::Error> {
         let s = Secp256k1::with_caps(secp256k1::ContextFlag::None);
+        let data = try!(base58::from_check(inp));
 
         if data.len() != 78 {
             return Err(base58::Error::InvalidLength(data.len()));
@@ -450,11 +455,13 @@ impl FromBase58 for ExtendedPubKey {
 
 #[cfg(test)]
 mod tests {
+    use std::str::FromStr;
+    use std::string::ToString;
+
     use secp256k1::Secp256k1;
     use serialize::hex::FromHex;
 
     use network::constants::Network::{self, Bitcoin};
-    use util::base58::{FromBase58, ToBase58};
 
     use super::{ChildNumber, ExtendedPrivKey, ExtendedPubKey};
     use super::ChildNumber::{Hardened, Normal};
@@ -484,11 +491,11 @@ mod tests {
         }
 
         // Check result against expected base58
-        assert_eq!(&sk.to_base58check()[..], expected_sk);
+        assert_eq!(&sk.to_string()[..], expected_sk);
-        assert_eq!(&pk.to_base58check()[..], expected_pk);
+        assert_eq!(&pk.to_string()[..], expected_pk);
         // Check decoded base58 against result
-        let decoded_sk = FromBase58::from_base58check(expected_sk);
+        let decoded_sk = ExtendedPrivKey::from_str(expected_sk);
-        let decoded_pk = FromBase58::from_base58check(expected_pk);
+        let decoded_pk = ExtendedPubKey::from_str(expected_pk);
         assert_eq!(Ok(sk), decoded_sk);
         assert_eq!(Ok(pk), decoded_pk);
     }

src/util/contracthash.rs

@@ -295,7 +295,6 @@ mod tests {
 
     use blockdata::script::Script;
     use network::constants::Network;
-    use util::base58::ToBase58;
 
     use super::*;
 
@@ -320,7 +319,7 @@ mod tests {
         let contract = hex!("5032534894ffbf32c1f1c0d3089b27c98fd991d5d7329ebd7d711223e2cde5a9417a1fa3e852c576");
 
         let addr = create_address(&secp, Network::Testnet, &contract, keys, &alpha_template!()).unwrap();
-        assert_eq!(addr.to_base58check(), "2N3zXjbwdTcPsJiy8sUK9FhWJhqQCxA8Jjr".to_owned());
+        assert_eq!(addr.to_string(), "2N3zXjbwdTcPsJiy8sUK9FhWJhqQCxA8Jjr".to_owned());
     }
 
     #[test]