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use std ::io ::Read ;
use std ::collections ::HashMap ;
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use std ::cell ::* ;
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use std ::str ::FromStr ;
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use rustc_serialize ::base64 ::FromBase64 ;
use rustc_serialize ::json ::Json ;
use rustc_serialize ::hex ::FromHex ;
use flate2 ::read ::GzDecoder ;
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use util ::uint ::* ;
use util ::hash ::* ;
use util ::bytes ::* ;
use util ::triehash ::* ;
use util ::error ::* ;
use util ::rlp ::* ;
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use util ::sha3 ::* ;
use account ::* ;
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use engine ::Engine ;
use builtin ::Builtin ;
use null_engine ::NullEngine ;
use denominations ::* ;
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use header ::* ;
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// TODO: need a JSON->cost closure converter.
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/// Converts file from base64 gzipped bytes to json
pub fn base_to_json ( source : & [ u8 ] ) -> Json {
// there is probably no need to store genesis in based64 gzip,
// but that's what go does, and it was easy to load it this way
let data = source . from_base64 ( ) . expect ( " Genesis block is malformed! " ) ;
let data_ref : & [ u8 ] = & data ;
let mut decoder = GzDecoder ::new ( data_ref ) . expect ( " Gzip is invalid " ) ;
let mut s : String = " " . to_string ( ) ;
decoder . read_to_string ( & mut s ) . expect ( " Gzip is invalid " ) ;
Json ::from_str ( & s ) . expect ( " Json is invalid " )
}
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/// Convert JSON value to equivlaent RLP representation.
// TODO: handle container types.
pub fn json_to_rlp ( json : & Json ) -> Bytes {
match json {
& Json ::I64 ( o ) = > encode ( & ( o as u64 ) ) ,
& Json ::U64 ( o ) = > encode ( & o ) ,
& Json ::String ( ref s ) if & s [ 0 .. 2 ] = = " 0x " & & U256 ::from_str ( & s [ 2 .. ] ) . is_ok ( ) = > {
encode ( & U256 ::from_str ( & s [ 2 .. ] ) . unwrap ( ) )
} ,
& Json ::String ( ref s ) = > {
encode ( s )
} ,
_ = > panic! ( )
}
}
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/// Convert JSON to a string->RLP map.
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pub fn json_to_rlp_map ( json : & Json ) -> HashMap < String , Bytes > {
json . as_object ( ) . unwrap ( ) . iter ( ) . map ( | ( k , v ) | ( k , json_to_rlp ( v ) ) ) . fold ( HashMap ::new ( ) , | mut acc , kv | {
acc . insert ( kv . 0. clone ( ) , kv . 1 ) ;
acc
} )
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}
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/// Parameters for a block chain; includes both those intrinsic to the design of the
/// chain and those to be interpreted by the active chain engine.
pub struct Spec {
// What engine are we using for this?
pub engine_name : String ,
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// Parameters concerning operation of the specific engine we're using.
// Name -> RLP-encoded value
pub engine_params : HashMap < String , Bytes > ,
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// Builtin-contracts are here for now but would like to abstract into Engine API eventually.
pub builtins : HashMap < Address , Builtin > ,
// Genesis params.
pub parent_hash : H256 ,
pub author : Address ,
pub difficulty : U256 ,
pub gas_limit : U256 ,
pub gas_used : U256 ,
pub timestamp : U256 ,
pub extra_data : Bytes ,
pub genesis_state : HashMap < Address , Account > ,
pub seal_fields : usize ,
pub seal_rlp : Bytes ,
// May be prepopulated if we know this in advance.
state_root_memo : RefCell < Option < H256 > > ,
}
impl Spec {
/// Convert this object into a boxed Engine of the right underlying type.
// TODO avoid this hard-coded nastiness - use dynamic-linked plugin framework instead.
pub fn to_engine ( self ) -> Result < Box < Engine > , EthcoreError > {
match self . engine_name . as_ref ( ) {
" NullEngine " = > Ok ( NullEngine ::new_boxed ( self ) ) ,
_ = > Err ( EthcoreError ::UnknownName )
}
}
/// Return the state root for the genesis state, memoising accordingly.
pub fn state_root ( & self ) -> Ref < H256 > {
if self . state_root_memo . borrow ( ) . is_none ( ) {
* self . state_root_memo . borrow_mut ( ) = Some ( trie_root ( self . genesis_state . iter ( ) . map ( | ( k , v ) | ( k . to_vec ( ) , v . rlp ( ) ) ) . collect ( ) ) ) ;
}
Ref ::map ( self . state_root_memo . borrow ( ) , | x | x . as_ref ( ) . unwrap ( ) )
}
/// Compose the genesis block for this chain.
pub fn genesis_block ( & self ) -> Bytes {
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let empty_list = RlpStream ::new_list ( 0 ) . out ( ) ;
let empty_list_sha3 = empty_list . sha3 ( ) ;
let header = Header {
parent_hash : self . parent_hash . clone ( ) ,
timestamp : self . timestamp . clone ( ) ,
number : U256 ::from ( 0 u8 ) ,
author : self . author . clone ( ) ,
transactions_root : SHA3_EMPTY . clone ( ) ,
uncles_hash : empty_list_sha3 . clone ( ) ,
extra_data : self . extra_data . clone ( ) ,
state_root : self . state_root ( ) . clone ( ) ,
receipts_root : SHA3_EMPTY . clone ( ) ,
log_bloom : H2048 ::new ( ) . clone ( ) ,
gas_used : self . gas_used . clone ( ) ,
gas_limit : self . gas_limit . clone ( ) ,
difficulty : self . difficulty . clone ( ) ,
seal : {
let seal = {
let mut s = RlpStream ::new_list ( self . seal_fields ) ;
s . append_raw ( & self . seal_rlp , self . seal_fields ) ;
s . out ( )
} ;
let r = Rlp ::new ( & seal ) ;
( 0 .. self . seal_fields ) . map ( | i | r . at ( i ) . raw ( ) . to_vec ( ) ) . collect ( )
} ,
} ;
let mut ret = RlpStream ::new_list ( 3 ) ;
ret . append ( & header ) ;
ret . append_raw ( & empty_list , 1 ) ;
ret . append_raw ( & empty_list , 1 ) ;
ret . out ( )
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}
}
impl Spec {
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/// Loads a chain-specification from a json data structure
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pub fn from_json ( json : Json ) -> Spec {
// once we commit ourselves to some json parsing library (serde?)
// move it to proper data structure
let mut state = HashMap ::new ( ) ;
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let mut builtins = HashMap ::new ( ) ;
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let accounts = json [ " alloc " ] . as_object ( ) . expect ( " Missing genesis state " ) ;
for ( address , acc ) in accounts . iter ( ) {
let addr = Address ::from_str ( address ) . unwrap ( ) ;
let o = acc . as_object ( ) . unwrap ( ) ;
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if let Json ::Object ( _ ) = o [ " precompiled " ] {
if let Some ( b ) = Builtin ::from_json ( & o [ " precompiled " ] ) {
builtins . insert ( addr . clone ( ) , b ) ;
}
}
let balance = U256 ::from_dec_str ( o [ " balance " ] . as_string ( ) . unwrap_or ( " 0 " ) ) . unwrap ( ) ;
let nonce = U256 ::from_dec_str ( o [ " nonce " ] . as_string ( ) . unwrap_or ( " 0 " ) ) . unwrap ( ) ;
// TODO: handle code & data is they exist.
state . insert ( addr , Account ::new_basic ( balance , nonce ) ) ;
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}
let ( seal_fields , seal_rlp ) = {
if json . find ( " mixhash " ) . is_some ( ) & & json . find ( " nonce " ) . is_some ( ) {
let mut s = RlpStream ::new ( ) ;
s . append ( & H256 ::from_str ( & json [ " mixhash " ] . as_string ( ) . unwrap ( ) [ 2 .. ] ) . unwrap ( ) ) ;
s . append ( & H64 ::from_str ( & json [ " nonce " ] . as_string ( ) . unwrap ( ) [ 2 .. ] ) . unwrap ( ) ) ;
( 2 , s . out ( ) )
} else {
// backup algo that will work with sealFields/sealRlp (and without).
( usize ::from_str ( & json [ " sealFields " ] . as_string ( ) . unwrap_or ( " 0x " ) [ 2 .. ] ) . unwrap ( ) , json [ " sealRlp " ] . as_string ( ) . unwrap_or ( " 0x " ) [ 2 .. ] . from_hex ( ) . unwrap ( ) )
}
} ;
Spec {
engine_name : json [ " engineName " ] . as_string ( ) . unwrap ( ) . to_string ( ) ,
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engine_params : json_to_rlp_map ( & json [ " params " ] ) ,
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builtins : builtins ,
parent_hash : H256 ::from_str ( & json [ " parentHash " ] . as_string ( ) . unwrap ( ) [ 2 .. ] ) . unwrap ( ) ,
author : Address ::from_str ( & json [ " coinbase " ] . as_string ( ) . unwrap ( ) [ 2 .. ] ) . unwrap ( ) ,
difficulty : U256 ::from_str ( & json [ " difficulty " ] . as_string ( ) . unwrap ( ) [ 2 .. ] ) . unwrap ( ) ,
gas_limit : U256 ::from_str ( & json [ " gasLimit " ] . as_string ( ) . unwrap ( ) [ 2 .. ] ) . unwrap ( ) ,
gas_used : U256 ::from ( 0 u8 ) ,
timestamp : U256 ::from_str ( & json [ " timestamp " ] . as_string ( ) . unwrap ( ) [ 2 .. ] ) . unwrap ( ) ,
extra_data : json [ " extraData " ] . as_string ( ) . unwrap ( ) [ 2 .. ] . from_hex ( ) . unwrap ( ) ,
genesis_state : state ,
seal_fields : seal_fields ,
seal_rlp : seal_rlp ,
state_root_memo : RefCell ::new ( json [ " stateRoot " ] . as_string ( ) . map ( | s | H256 ::from_str ( & s [ 2 .. ] ) . unwrap ( ) ) ) ,
}
}
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fn standard_builtins ( ) -> HashMap < Address , Builtin > {
let mut ret = HashMap ::new ( ) ;
ret . insert ( Address ::from_str ( " 0000000000000000000000000000000000000001 " ) . unwrap ( ) , Builtin ::from_named_linear ( " ecrecover " , 3000 , 0 ) . unwrap ( ) ) ;
ret . insert ( Address ::from_str ( " 0000000000000000000000000000000000000002 " ) . unwrap ( ) , Builtin ::from_named_linear ( " sha256 " , 60 , 12 ) . unwrap ( ) ) ;
ret . insert ( Address ::from_str ( " 0000000000000000000000000000000000000003 " ) . unwrap ( ) , Builtin ::from_named_linear ( " ripemd160 " , 600 , 120 ) . unwrap ( ) ) ;
ret . insert ( Address ::from_str ( " 0000000000000000000000000000000000000004 " ) . unwrap ( ) , Builtin ::from_named_linear ( " identity " , 15 , 3 ) . unwrap ( ) ) ;
ret
}
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/// Creates the Olympic network chain spec.
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pub fn olympic ( ) -> Spec {
Spec {
engine_name : " Ethash " . to_string ( ) ,
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engine_params : vec ! [
( " block_reward " , encode ( & ( finney ( ) * U256 ::from ( 1500 u64 ) ) ) ) ,
( " maximum_extra_data_size " , encode ( & U256 ::from ( 1024 u64 ) ) ) ,
( " account_start_nonce " , encode ( & U256 ::from ( 0 u64 ) ) ) ,
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( " gas_limit_bounds_divisor " , encode ( & 1024 u64 ) ) ,
( " minimum_difficulty " , encode ( & 131_072 u64 ) ) ,
( " difficulty_bound_divisor " , encode ( & 2048 u64 ) ) ,
( " duration_limit " , encode ( & 8 u64 ) ) ,
( " min_gas_limit " , encode ( & 125_000 u64 ) ) ,
( " gas_floor_target " , encode ( & 3_141_592 u64 ) ) ,
] . into_iter ( ) . fold ( HashMap ::new ( ) , | mut acc , vec | {
acc . insert ( vec . 0. to_string ( ) , vec . 1 ) ;
acc
} ) ,
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builtins : Self ::standard_builtins ( ) ,
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parent_hash : H256 ::new ( ) ,
author : Address ::new ( ) ,
difficulty : U256 ::from ( 131_072 u64 ) ,
gas_limit : U256 ::from ( 0 u64 ) ,
gas_used : U256 ::from ( 0 u64 ) ,
timestamp : U256 ::from ( 0 u64 ) ,
extra_data : vec ! [ ] ,
genesis_state : vec ! [ // TODO: make correct
( Address ::new ( ) , Account ::new_basic ( U256 ::from ( 1 ) < < 200 , U256 ::from ( 0 ) ) )
] . into_iter ( ) . fold ( HashMap ::new ( ) , | mut acc , vec | {
acc . insert ( vec . 0 , vec . 1 ) ;
acc
} ) ,
seal_fields : 2 ,
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seal_rlp : { let mut r = RlpStream ::new_list ( 2 ) ; r . append ( & 0x2a u64 ) ; r . append ( & H256 ::new ( ) ) ; r . out ( ) } , // TODO: make correct
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state_root_memo : RefCell ::new ( None ) ,
}
}
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/// Creates the Frontier network chain spec.
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pub fn frontier ( ) -> Spec {
Spec {
engine_name : " Ethash " . to_string ( ) ,
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engine_params : vec ! [
( " block_reward " , encode ( & ( ether ( ) * U256 ::from ( 5 u64 ) ) ) ) ,
( " maximum_extra_data_size " , encode ( & U256 ::from ( 32 u64 ) ) ) ,
( " account_start_nonce " , encode ( & U256 ::from ( 0 u64 ) ) ) ,
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( " gas_limit_bounds_divisor " , encode ( & 1024 u64 ) ) ,
( " minimum_difficulty " , encode ( & 131_072 u64 ) ) ,
( " difficulty_bound_divisor " , encode ( & 2048 u64 ) ) ,
( " duration_limit " , encode ( & 13 u64 ) ) ,
( " min_gas_limit " , encode ( & 5000 u64 ) ) ,
( " gas_floor_target " , encode ( & 3_141_592 u64 ) ) ,
] . into_iter ( ) . fold ( HashMap ::new ( ) , | mut acc , vec | {
acc . insert ( vec . 0. to_string ( ) , vec . 1 ) ;
acc
} ) ,
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builtins : Self ::standard_builtins ( ) ,
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parent_hash : H256 ::new ( ) ,
author : Address ::new ( ) ,
difficulty : U256 ::from ( 131_072 u64 ) ,
gas_limit : U256 ::from ( 0 u64 ) ,
gas_used : U256 ::from ( 0 u64 ) ,
timestamp : U256 ::from ( 0 u64 ) ,
extra_data : vec ! [ ] ,
genesis_state : vec ! [ // TODO: make correct
( Address ::new ( ) , Account ::new_basic ( U256 ::from ( 1 ) < < 200 , U256 ::from ( 0 ) ) )
] . into_iter ( ) . fold ( HashMap ::new ( ) , | mut acc , vec | {
acc . insert ( vec . 0 , vec . 1 ) ;
acc
} ) ,
seal_fields : 2 ,
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seal_rlp : { let mut r = RlpStream ::new_list ( 2 ) ; r . append ( & 0x42 u64 ) ; r . append ( & H256 ::new ( ) ) ; r . out ( ) } ,
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state_root_memo : RefCell ::new ( None ) ,
}
}
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/// Creates the Morden network chain spec.
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pub fn morden ( ) -> Spec {
Spec {
engine_name : " Ethash " . to_string ( ) ,
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engine_params : vec ! [
( " block_reward " , encode ( & ( ether ( ) * U256 ::from ( 5 u64 ) ) ) ) ,
( " maximum_extra_data_size " , encode ( & U256 ::from ( 32 u64 ) ) ) ,
( " account_start_nonce " , encode ( & ( U256 ::from ( 1 u64 ) < < 20 ) ) ) ,
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( " gas_limit_bounds_divisor " , encode ( & 1024 u64 ) ) ,
( " minimum_difficulty " , encode ( & 131_072 u64 ) ) ,
( " difficulty_bound_divisor " , encode ( & 2048 u64 ) ) ,
( " duration_limit " , encode ( & 13 u64 ) ) ,
( " min_gas_limit " , encode ( & 5000 u64 ) ) ,
( " gas_floor_target " , encode ( & 3_141_592 u64 ) ) ,
] . into_iter ( ) . fold ( HashMap ::new ( ) , | mut acc , vec | {
acc . insert ( vec . 0. to_string ( ) , vec . 1 ) ;
acc
} ) ,
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builtins : Self ::standard_builtins ( ) ,
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parent_hash : H256 ::new ( ) ,
author : Address ::new ( ) ,
difficulty : U256 ::from ( 131_072 u64 ) ,
gas_limit : U256 ::from ( 0 u64 ) ,
gas_used : U256 ::from ( 0 u64 ) ,
timestamp : U256 ::from ( 0 u64 ) ,
extra_data : vec ! [ ] ,
genesis_state : vec ! [ // TODO: make correct
( Address ::new ( ) , Account ::new_basic ( U256 ::from ( 1 ) < < 200 , U256 ::from ( 0 ) ) )
] . into_iter ( ) . fold ( HashMap ::new ( ) , | mut acc , vec | {
acc . insert ( vec . 0 , vec . 1 ) ;
acc
} ) ,
seal_fields : 2 ,
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seal_rlp : { let mut r = RlpStream ::new_list ( 2 ) ; r . append ( & 0x00006d6f7264656e u64 ) ; r . append ( & H256 ::from_str ( " 00000000000000000000000000000000000000647572616c65787365646c6578 " ) . unwrap ( ) ) ; r . out ( ) } , // TODO: make correct
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state_root_memo : RefCell ::new ( None ) ,
}
}
}