openethereum/src/blockheader.rs

use util::hash::*;
use util::uint::*;
use util::rlp::*;
use util::sha3;

/// view onto block header rlp
pub struct BlockView<'a> {
	rlp: Rlp<'a>
}

impl<'a> BlockView<'a> {
	pub fn new(bytes: &'a [u8]) -> BlockView<'a> {
		BlockView {
			rlp: Rlp::new(bytes)
		}
	}

	pub fn parent_hash(&self) -> H256 { self.rlp.val_at(0) }
	pub fn uncles_hash(&self) -> H256 { self.rlp.val_at(1) }
	pub fn coinbase(&self) -> Address { self.rlp.val_at(2) }
	pub fn state_root(&self) -> H256 { self.rlp.val_at(3) }
	pub fn transactions_root(&self) -> H256 { self.rlp.val_at(4) }
	pub fn receipts_root(&self) -> H256 { self.rlp.val_at(5) }
	pub fn log_bloom(&self) -> H2048 { self.rlp.val_at(6) }
	pub fn difficulty(&self) -> U256 { self.rlp.val_at(7) }
	pub fn number(&self) -> U256 { self.rlp.val_at(8) }
	pub fn gas_limit(&self) -> U256 { self.rlp.val_at(9) }
	pub fn gas_usd(&self) -> U256 { self.rlp.val_at(10) }
	pub fn timestamp(&self) -> U256 { self.rlp.val_at(11) }
	pub fn mix_hash(&self) -> H256 { self.rlp.val_at(12) }
	pub fn nonce(&self) -> H64 { self.rlp.val_at(13) }
}

impl<'a> sha3::Hashable for BlockView<'a> {
	fn sha3(&self) -> H256 {
		self.rlp.data().sha3()
	}
}

/// Data structure represening block header
/// similar to cpp-ethereum's BlockInfo
pub struct BlockHeader {
	parent_hash: H256,
	uncles_hash: H256,
	coinbase: Address,
	state_root: H256,
	transactions_root: H256,
	receipts_root: H256,
	log_bloom: H2048,
	difficulty: U256,
	number: U256,
	gas_limit: U256,
	gas_used: U256,
	timestamp: U256,
	mix_hash: H256,
	nonce: H64
}

impl Decodable for BlockHeader {
	fn decode<D>(decoder: &D) -> Result<Self, DecoderError>  where D: Decoder {
		decoder.read_list(| d | {
			// return an error if d != 14
			let blockheader = BlockHeader {
				parent_hash: try!(Decodable::decode(&d[0])),
				uncles_hash: try!(Decodable::decode(&d[1])),
				coinbase: try!(Decodable::decode(&d[2])),
				state_root: try!(Decodable::decode(&d[3])),
				transactions_root: try!(Decodable::decode(&d[4])),
				receipts_root: try!(Decodable::decode(&d[5])),
				log_bloom: try!(Decodable::decode(&d[6])),
				difficulty: try!(Decodable::decode(&d[7])),
				number: try!(Decodable::decode(&d[8])),
				gas_limit: try!(Decodable::decode(&d[9])),
				gas_used: try!(Decodable::decode(&d[10])),
				timestamp: try!(Decodable::decode(&d[11])),
				mix_hash: try!(Decodable::decode(&d[12])),
				nonce: try!(Decodable::decode(&d[13]))
			};
			Ok(blockheader)
		})
	}
}

impl Encodable for BlockHeader {
	fn encode<E>(&self, encoder: &mut E) where E: Encoder {
		encoder.emit_list(| e | {
			self.parent_hash.encode(e);
			self.uncles_hash.encode(e);
			self.coinbase.encode(e);
			self.state_root.encode(e);
			self.transactions_root.encode(e);
			self.receipts_root.encode(e);
			self.log_bloom.encode(e);
			self.difficulty.encode(e);
			self.number.encode(e);
			self.gas_limit.encode(e);
			self.gas_used.encode(e);
			self.timestamp.encode(e);
			self.mix_hash.encode(e);
			self.nonce.encode(e);
		})
	}
}

#[cfg(test)]
mod tests {
	fn encoding_and_decoding() {
	}
}
blockheader 2015-12-08 16:31:36 +01:00			`use util::hash::*;`
			`use util::uint::*;`
			`use util::rlp::*;`
implementation genesis_block without genesis state 2015-12-11 03:51:23 +01:00			`use util::sha3;`
blockheader 2015-12-08 16:31:36 +01:00
blockchain init 2015-12-09 19:03:25 +01:00			`/// view onto block header rlp`
			`pub struct BlockView<'a> {`
			`rlp: Rlp<'a>`
			`}`

			`impl<'a> BlockView<'a> {`
			`pub fn new(bytes: &'a [u8]) -> BlockView<'a> {`
			`BlockView {`
			`rlp: Rlp::new(bytes)`
			`}`
			`}`

			`pub fn parent_hash(&self) -> H256 { self.rlp.val_at(0) }`
			`pub fn uncles_hash(&self) -> H256 { self.rlp.val_at(1) }`
			`pub fn coinbase(&self) -> Address { self.rlp.val_at(2) }`
			`pub fn state_root(&self) -> H256 { self.rlp.val_at(3) }`
			`pub fn transactions_root(&self) -> H256 { self.rlp.val_at(4) }`
			`pub fn receipts_root(&self) -> H256 { self.rlp.val_at(5) }`
			`pub fn log_bloom(&self) -> H2048 { self.rlp.val_at(6) }`
			`pub fn difficulty(&self) -> U256 { self.rlp.val_at(7) }`
			`pub fn number(&self) -> U256 { self.rlp.val_at(8) }`
			`pub fn gas_limit(&self) -> U256 { self.rlp.val_at(9) }`
			`pub fn gas_usd(&self) -> U256 { self.rlp.val_at(10) }`
			`pub fn timestamp(&self) -> U256 { self.rlp.val_at(11) }`
			`pub fn mix_hash(&self) -> H256 { self.rlp.val_at(12) }`
			`pub fn nonce(&self) -> H64 { self.rlp.val_at(13) }`
			`}`

implementation genesis_block without genesis state 2015-12-11 03:51:23 +01:00			`impl<'a> sha3::Hashable for BlockView<'a> {`
			`fn sha3(&self) -> H256 {`
			`self.rlp.data().sha3()`
			`}`
			`}`

blockchain init 2015-12-09 19:03:25 +01:00			`/// Data structure represening block header`
implementation genesis_block without genesis state 2015-12-11 03:51:23 +01:00			`/// similar to cpp-ethereum's BlockInfo`
blockheader 2015-12-08 16:31:36 +01:00			`pub struct BlockHeader {`
			`parent_hash: H256,`
blockchain init 2015-12-09 19:03:25 +01:00			`uncles_hash: H256,`
			`coinbase: Address,`
blockheader 2015-12-08 16:31:36 +01:00			`state_root: H256,`
			`transactions_root: H256,`
			`receipts_root: H256,`
			`log_bloom: H2048,`
			`difficulty: U256,`
			`number: U256,`
			`gas_limit: U256,`
			`gas_used: U256,`
			`timestamp: U256,`
			`mix_hash: H256,`
			`nonce: H64`
			`}`

			`impl Decodable for BlockHeader {`
			`fn decode<D>(decoder: &D) -> Result<Self, DecoderError> where D: Decoder {`
			`decoder.read_list(\| d \| {`
blockchain init 2015-12-09 19:03:25 +01:00			`// return an error if d != 14`
blockheader 2015-12-08 16:31:36 +01:00			`let blockheader = BlockHeader {`
Decodable blockheader 2015-12-08 16:36:44 +01:00			`parent_hash: try!(Decodable::decode(&d[0])),`
blockchain init 2015-12-09 19:03:25 +01:00			`uncles_hash: try!(Decodable::decode(&d[1])),`
			`coinbase: try!(Decodable::decode(&d[2])),`
Decodable blockheader 2015-12-08 16:36:44 +01:00			`state_root: try!(Decodable::decode(&d[3])),`
			`transactions_root: try!(Decodable::decode(&d[4])),`
			`receipts_root: try!(Decodable::decode(&d[5])),`
			`log_bloom: try!(Decodable::decode(&d[6])),`
			`difficulty: try!(Decodable::decode(&d[7])),`
			`number: try!(Decodable::decode(&d[8])),`
			`gas_limit: try!(Decodable::decode(&d[9])),`
			`gas_used: try!(Decodable::decode(&d[10])),`
			`timestamp: try!(Decodable::decode(&d[11])),`
			`mix_hash: try!(Decodable::decode(&d[12])),`
			`nonce: try!(Decodable::decode(&d[13]))`
blockheader 2015-12-08 16:31:36 +01:00			`};`
			`Ok(blockheader)`
			`})`
			`}`
			`}`

			`impl Encodable for BlockHeader {`
			`fn encode<E>(&self, encoder: &mut E) where E: Encoder {`
			`encoder.emit_list(\| e \| {`
			`self.parent_hash.encode(e);`
blockchain init 2015-12-09 19:03:25 +01:00			`self.uncles_hash.encode(e);`
			`self.coinbase.encode(e);`
blockheader 2015-12-08 16:31:36 +01:00			`self.state_root.encode(e);`
			`self.transactions_root.encode(e);`
			`self.receipts_root.encode(e);`
			`self.log_bloom.encode(e);`
			`self.difficulty.encode(e);`
			`self.number.encode(e);`
			`self.gas_limit.encode(e);`
			`self.gas_used.encode(e);`
			`self.timestamp.encode(e);`
			`self.mix_hash.encode(e);`
			`self.nonce.encode(e);`
			`})`
			`}`
			`}`

signature agnostic transaction 2015-12-09 00:45:33 +01:00			`#[cfg(test)]`
			`mod tests {`
			`fn encoding_and_decoding() {`
			`}`
			`}`