c7e5d56b58
This modifies the chaincfg package to register the default network params via the init function instead of manually hard coding their data into the maps. This is less error prone when adding new default networks. A new function named mustRegister has been introduced that panics if there are any errors when registering the network that the new code makes use of and appropriate tests have been added.
439 lines
16 KiB
Go
439 lines
16 KiB
Go
// Copyright (c) 2014 The btcsuite developers
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// Use of this source code is governed by an ISC
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// license that can be found in the LICENSE file.
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package chaincfg
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import (
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"errors"
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"math/big"
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"github.com/btcsuite/btcd/wire"
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)
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// These variables are the chain proof-of-work limit parameters for each default
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// network.
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var (
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// bigOne is 1 represented as a big.Int. It is defined here to avoid
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// the overhead of creating it multiple times.
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bigOne = big.NewInt(1)
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// mainPowLimit is the highest proof of work value a Bitcoin block can
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// have for the main network. It is the value 2^224 - 1.
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mainPowLimit = new(big.Int).Sub(new(big.Int).Lsh(bigOne, 224), bigOne)
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// regressionPowLimit is the highest proof of work value a Bitcoin block
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// can have for the regression test network. It is the value 2^255 - 1.
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regressionPowLimit = new(big.Int).Sub(new(big.Int).Lsh(bigOne, 255), bigOne)
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// testNet3PowLimit is the highest proof of work value a Bitcoin block
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// can have for the test network (version 3). It is the value
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// 2^224 - 1.
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testNet3PowLimit = new(big.Int).Sub(new(big.Int).Lsh(bigOne, 224), bigOne)
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// simNetPowLimit is the highest proof of work value a Bitcoin block
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// can have for the simulation test network. It is the value 2^255 - 1.
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simNetPowLimit = new(big.Int).Sub(new(big.Int).Lsh(bigOne, 255), bigOne)
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)
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// Checkpoint identifies a known good point in the block chain. Using
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// checkpoints allows a few optimizations for old blocks during initial download
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// and also prevents forks from old blocks.
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//
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// Each checkpoint is selected based upon several factors. See the
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// documentation for blockchain.IsCheckpointCandidate for details on the
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// selection criteria.
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type Checkpoint struct {
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Height int32
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Hash *wire.ShaHash
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}
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// Params defines a Bitcoin network by its parameters. These parameters may be
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// used by Bitcoin applications to differentiate networks as well as addresses
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// and keys for one network from those intended for use on another network.
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type Params struct {
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Name string
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Net wire.BitcoinNet
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DefaultPort string
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DNSSeeds []string
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// Chain parameters
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GenesisBlock *wire.MsgBlock
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GenesisHash *wire.ShaHash
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PowLimit *big.Int
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PowLimitBits uint32
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SubsidyHalvingInterval int32
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ResetMinDifficulty bool
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GenerateSupported bool
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// Checkpoints ordered from oldest to newest.
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Checkpoints []Checkpoint
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// Enforce current block version once network has
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// upgraded. This is part of BIP0034.
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BlockEnforceNumRequired uint64
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// Reject previous block versions once network has
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// upgraded. This is part of BIP0034.
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BlockRejectNumRequired uint64
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// The number of nodes to check. This is part of BIP0034.
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BlockUpgradeNumToCheck uint64
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// Mempool parameters
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RelayNonStdTxs bool
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// Address encoding magics
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PubKeyHashAddrID byte // First byte of a P2PKH address
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ScriptHashAddrID byte // First byte of a P2SH address
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PrivateKeyID byte // First byte of a WIF private key
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// BIP32 hierarchical deterministic extended key magics
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HDPrivateKeyID [4]byte
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HDPublicKeyID [4]byte
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// BIP44 coin type used in the hierarchical deterministic path for
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// address generation.
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HDCoinType uint32
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}
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// MainNetParams defines the network parameters for the main Bitcoin network.
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var MainNetParams = Params{
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Name: "mainnet",
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Net: wire.MainNet,
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DefaultPort: "8333",
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DNSSeeds: []string{
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"seed.bitcoin.sipa.be",
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"dnsseed.bluematt.me",
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"dnsseed.bitcoin.dashjr.org",
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"seed.bitcoinstats.com",
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"seed.bitnodes.io",
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"bitseed.xf2.org",
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"seed.bitcoin.jonasschnelli.ch",
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},
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// Chain parameters
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GenesisBlock: &genesisBlock,
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GenesisHash: &genesisHash,
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PowLimit: mainPowLimit,
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PowLimitBits: 0x1d00ffff,
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SubsidyHalvingInterval: 210000,
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ResetMinDifficulty: false,
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GenerateSupported: false,
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// Checkpoints ordered from oldest to newest.
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Checkpoints: []Checkpoint{
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{11111, newShaHashFromStr("0000000069e244f73d78e8fd29ba2fd2ed618bd6fa2ee92559f542fdb26e7c1d")},
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{33333, newShaHashFromStr("000000002dd5588a74784eaa7ab0507a18ad16a236e7b1ce69f00d7ddfb5d0a6")},
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{74000, newShaHashFromStr("0000000000573993a3c9e41ce34471c079dcf5f52a0e824a81e7f953b8661a20")},
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{105000, newShaHashFromStr("00000000000291ce28027faea320c8d2b054b2e0fe44a773f3eefb151d6bdc97")},
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{134444, newShaHashFromStr("00000000000005b12ffd4cd315cd34ffd4a594f430ac814c91184a0d42d2b0fe")},
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{168000, newShaHashFromStr("000000000000099e61ea72015e79632f216fe6cb33d7899acb35b75c8303b763")},
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{193000, newShaHashFromStr("000000000000059f452a5f7340de6682a977387c17010ff6e6c3bd83ca8b1317")},
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{210000, newShaHashFromStr("000000000000048b95347e83192f69cf0366076336c639f9b7228e9ba171342e")},
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{216116, newShaHashFromStr("00000000000001b4f4b433e81ee46494af945cf96014816a4e2370f11b23df4e")},
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{225430, newShaHashFromStr("00000000000001c108384350f74090433e7fcf79a606b8e797f065b130575932")},
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{250000, newShaHashFromStr("000000000000003887df1f29024b06fc2200b55f8af8f35453d7be294df2d214")},
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{267300, newShaHashFromStr("000000000000000a83fbd660e918f218bf37edd92b748ad940483c7c116179ac")},
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{279000, newShaHashFromStr("0000000000000001ae8c72a0b0c301f67e3afca10e819efa9041e458e9bd7e40")},
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{300255, newShaHashFromStr("0000000000000000162804527c6e9b9f0563a280525f9d08c12041def0a0f3b2")},
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{319400, newShaHashFromStr("000000000000000021c6052e9becade189495d1c539aa37c58917305fd15f13b")},
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{343185, newShaHashFromStr("0000000000000000072b8bf361d01a6ba7d445dd024203fafc78768ed4368554")},
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{352940, newShaHashFromStr("000000000000000010755df42dba556bb72be6a32f3ce0b6941ce4430152c9ff")},
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{382320, newShaHashFromStr("00000000000000000a8dc6ed5b133d0eb2fd6af56203e4159789b092defd8ab2")},
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},
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// Enforce current block version once majority of the network has
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// upgraded.
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// 75% (750 / 1000)
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// Reject previous block versions once a majority of the network has
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// upgraded.
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// 95% (950 / 1000)
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BlockEnforceNumRequired: 750,
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BlockRejectNumRequired: 950,
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BlockUpgradeNumToCheck: 1000,
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// Mempool parameters
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RelayNonStdTxs: false,
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// Address encoding magics
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PubKeyHashAddrID: 0x00, // starts with 1
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ScriptHashAddrID: 0x05, // starts with 3
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PrivateKeyID: 0x80, // starts with 5 (uncompressed) or K (compressed)
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// BIP32 hierarchical deterministic extended key magics
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HDPrivateKeyID: [4]byte{0x04, 0x88, 0xad, 0xe4}, // starts with xprv
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HDPublicKeyID: [4]byte{0x04, 0x88, 0xb2, 0x1e}, // starts with xpub
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// BIP44 coin type used in the hierarchical deterministic path for
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// address generation.
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HDCoinType: 0,
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}
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// RegressionNetParams defines the network parameters for the regression test
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// Bitcoin network. Not to be confused with the test Bitcoin network (version
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// 3), this network is sometimes simply called "testnet".
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var RegressionNetParams = Params{
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Name: "regtest",
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Net: wire.TestNet,
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DefaultPort: "18444",
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DNSSeeds: []string{},
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// Chain parameters
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GenesisBlock: ®TestGenesisBlock,
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GenesisHash: ®TestGenesisHash,
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PowLimit: regressionPowLimit,
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PowLimitBits: 0x207fffff,
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SubsidyHalvingInterval: 150,
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ResetMinDifficulty: true,
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GenerateSupported: true,
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// Checkpoints ordered from oldest to newest.
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Checkpoints: nil,
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// Enforce current block version once majority of the network has
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// upgraded.
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// 75% (750 / 1000)
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// Reject previous block versions once a majority of the network has
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// upgraded.
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// 95% (950 / 1000)
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BlockEnforceNumRequired: 750,
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BlockRejectNumRequired: 950,
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BlockUpgradeNumToCheck: 1000,
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// Mempool parameters
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RelayNonStdTxs: true,
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// Address encoding magics
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PubKeyHashAddrID: 0x6f, // starts with m or n
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ScriptHashAddrID: 0xc4, // starts with 2
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PrivateKeyID: 0xef, // starts with 9 (uncompressed) or c (compressed)
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// BIP32 hierarchical deterministic extended key magics
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HDPrivateKeyID: [4]byte{0x04, 0x35, 0x83, 0x94}, // starts with tprv
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HDPublicKeyID: [4]byte{0x04, 0x35, 0x87, 0xcf}, // starts with tpub
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// BIP44 coin type used in the hierarchical deterministic path for
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// address generation.
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HDCoinType: 1,
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}
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// TestNet3Params defines the network parameters for the test Bitcoin network
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// (version 3). Not to be confused with the regression test network, this
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// network is sometimes simply called "testnet".
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var TestNet3Params = Params{
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Name: "testnet3",
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Net: wire.TestNet3,
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DefaultPort: "18333",
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DNSSeeds: []string{
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"testnet-seed.bitcoin.schildbach.de",
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"testnet-seed.bitcoin.petertodd.org",
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"testnet-seed.bluematt.me",
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},
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// Chain parameters
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GenesisBlock: &testNet3GenesisBlock,
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GenesisHash: &testNet3GenesisHash,
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PowLimit: testNet3PowLimit,
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PowLimitBits: 0x1d00ffff,
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SubsidyHalvingInterval: 210000,
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ResetMinDifficulty: true,
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GenerateSupported: false,
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// Checkpoints ordered from oldest to newest.
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Checkpoints: []Checkpoint{
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{546, newShaHashFromStr("000000002a936ca763904c3c35fce2f3556c559c0214345d31b1bcebf76acb70")},
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},
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// Enforce current block version once majority of the network has
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// upgraded.
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// 51% (51 / 100)
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// Reject previous block versions once a majority of the network has
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// upgraded.
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// 75% (75 / 100)
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BlockEnforceNumRequired: 51,
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BlockRejectNumRequired: 75,
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BlockUpgradeNumToCheck: 100,
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// Mempool parameters
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RelayNonStdTxs: true,
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// Address encoding magics
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PubKeyHashAddrID: 0x6f, // starts with m or n
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ScriptHashAddrID: 0xc4, // starts with 2
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PrivateKeyID: 0xef, // starts with 9 (uncompressed) or c (compressed)
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// BIP32 hierarchical deterministic extended key magics
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HDPrivateKeyID: [4]byte{0x04, 0x35, 0x83, 0x94}, // starts with tprv
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HDPublicKeyID: [4]byte{0x04, 0x35, 0x87, 0xcf}, // starts with tpub
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// BIP44 coin type used in the hierarchical deterministic path for
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// address generation.
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HDCoinType: 1,
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}
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// SimNetParams defines the network parameters for the simulation test Bitcoin
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// network. This network is similar to the normal test network except it is
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// intended for private use within a group of individuals doing simulation
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// testing. The functionality is intended to differ in that the only nodes
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// which are specifically specified are used to create the network rather than
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// following normal discovery rules. This is important as otherwise it would
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// just turn into another public testnet.
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var SimNetParams = Params{
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Name: "simnet",
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Net: wire.SimNet,
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DefaultPort: "18555",
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DNSSeeds: []string{}, // NOTE: There must NOT be any seeds.
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// Chain parameters
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GenesisBlock: &simNetGenesisBlock,
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GenesisHash: &simNetGenesisHash,
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PowLimit: simNetPowLimit,
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PowLimitBits: 0x207fffff,
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SubsidyHalvingInterval: 210000,
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ResetMinDifficulty: true,
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GenerateSupported: true,
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// Checkpoints ordered from oldest to newest.
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Checkpoints: nil,
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// Enforce current block version once majority of the network has
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// upgraded.
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// 51% (51 / 100)
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// Reject previous block versions once a majority of the network has
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// upgraded.
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// 75% (75 / 100)
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BlockEnforceNumRequired: 51,
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BlockRejectNumRequired: 75,
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BlockUpgradeNumToCheck: 100,
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// Mempool parameters
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RelayNonStdTxs: true,
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// Address encoding magics
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PubKeyHashAddrID: 0x3f, // starts with S
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ScriptHashAddrID: 0x7b, // starts with s
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PrivateKeyID: 0x64, // starts with 4 (uncompressed) or F (compressed)
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// BIP32 hierarchical deterministic extended key magics
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HDPrivateKeyID: [4]byte{0x04, 0x20, 0xb9, 0x00}, // starts with sprv
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HDPublicKeyID: [4]byte{0x04, 0x20, 0xbd, 0x3a}, // starts with spub
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// BIP44 coin type used in the hierarchical deterministic path for
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// address generation.
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HDCoinType: 115, // ASCII for s
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}
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var (
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// ErrDuplicateNet describes an error where the parameters for a Bitcoin
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// network could not be set due to the network already being a standard
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// network or previously-registered into this package.
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ErrDuplicateNet = errors.New("duplicate Bitcoin network")
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// ErrUnknownHDKeyID describes an error where the provided id which
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// is intended to identify the network for a hierarchical deterministic
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// private extended key is not registered.
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ErrUnknownHDKeyID = errors.New("unknown hd private extended key bytes")
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)
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var (
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registeredNets = make(map[wire.BitcoinNet]struct{})
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pubKeyHashAddrIDs = make(map[byte]struct{})
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scriptHashAddrIDs = make(map[byte]struct{})
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hdPrivToPubKeyIDs = make(map[[4]byte][]byte)
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)
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// Register registers the network parameters for a Bitcoin network. This may
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// error with ErrDuplicateNet if the network is already registered (either
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// due to a previous Register call, or the network being one of the default
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// networks).
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//
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// Network parameters should be registered into this package by a main package
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// as early as possible. Then, library packages may lookup networks or network
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// parameters based on inputs and work regardless of the network being standard
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// or not.
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func Register(params *Params) error {
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if _, ok := registeredNets[params.Net]; ok {
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return ErrDuplicateNet
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}
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registeredNets[params.Net] = struct{}{}
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pubKeyHashAddrIDs[params.PubKeyHashAddrID] = struct{}{}
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scriptHashAddrIDs[params.ScriptHashAddrID] = struct{}{}
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hdPrivToPubKeyIDs[params.HDPrivateKeyID] = params.HDPublicKeyID[:]
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return nil
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}
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// mustRegister performs the same function as Register except it panics if there
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// is an error. This should only be called from package init functions.
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func mustRegister(params *Params) {
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if err := Register(params); err != nil {
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panic("failed to register network: " + err.Error())
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}
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}
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// IsPubKeyHashAddrID returns whether the id is an identifier known to prefix a
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// pay-to-pubkey-hash address on any default or registered network. This is
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// used when decoding an address string into a specific address type. It is up
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// to the caller to check both this and IsScriptHashAddrID and decide whether an
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// address is a pubkey hash address, script hash address, neither, or
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// undeterminable (if both return true).
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func IsPubKeyHashAddrID(id byte) bool {
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_, ok := pubKeyHashAddrIDs[id]
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return ok
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}
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// IsScriptHashAddrID returns whether the id is an identifier known to prefix a
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// pay-to-script-hash address on any default or registered network. This is
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// used when decoding an address string into a specific address type. It is up
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// to the caller to check both this and IsPubKeyHashAddrID and decide whether an
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// address is a pubkey hash address, script hash address, neither, or
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// undeterminable (if both return true).
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func IsScriptHashAddrID(id byte) bool {
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_, ok := scriptHashAddrIDs[id]
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return ok
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}
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// HDPrivateKeyToPublicKeyID accepts a private hierarchical deterministic
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// extended key id and returns the associated public key id. When the provided
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// id is not registered, the ErrUnknownHDKeyID error will be returned.
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func HDPrivateKeyToPublicKeyID(id []byte) ([]byte, error) {
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if len(id) != 4 {
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return nil, ErrUnknownHDKeyID
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}
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var key [4]byte
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copy(key[:], id)
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pubBytes, ok := hdPrivToPubKeyIDs[key]
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if !ok {
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return nil, ErrUnknownHDKeyID
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}
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return pubBytes, nil
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}
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// newShaHashFromStr converts the passed big-endian hex string into a
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// wire.ShaHash. It only differs from the one available in wire in that
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// it panics on an error since it will only (and must only) be called with
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// hard-coded, and therefore known good, hashes.
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func newShaHashFromStr(hexStr string) *wire.ShaHash {
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sha, err := wire.NewShaHashFromStr(hexStr)
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if err != nil {
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// Ordinarily I don't like panics in library code since it
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// can take applications down without them having a chance to
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// recover which is extremely annoying, however an exception is
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// being made in this case because the only way this can panic
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// is if there is an error in the hard-coded hashes. Thus it
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// will only ever potentially panic on init and therefore is
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// 100% predictable.
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panic(err)
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}
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return sha
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}
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func init() {
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// Register all default networks when the package is initialized.
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mustRegister(&MainNetParams)
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mustRegister(&TestNet3Params)
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mustRegister(&RegressionNetParams)
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mustRegister(&SimNetParams)
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}
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