Documentation ¶
Overview ¶
Package chaincfg defines chain configuration parameters.
In addition to the main Bitcoin network, which is intended for the transfer of monetary value, there also exists two currently active standard networks: regression test and testnet (version 3). These networks are incompatible with each other (each sharing a different genesis block) and software should handle errors where input intended for one network is used on an application instance running on a different network.
For library packages, chaincfg provides the ability to lookup chain parameters and encoding magics when passed a *Params. Older APIs not updated to the new convention of passing a *Params may lookup the parameters for a wire.BitcoinNet using ParamsForNet, but be aware that this usage is deprecated and will be removed from chaincfg in the future.
For main packages, a (typically global) var may be assigned the address of one of the standard Param vars for use as the application's "active" network. When a network parameter is needed, it may then be looked up through this variable (either directly, or hidden in a library call).
package main import ( "flag" "fmt" "log" "github.com/PutinCoinPUT/ppcutil" "github.com/PutinCoinPUT/ppcd/chaincfg" ) var testnet = flag.Bool("testnet", false, "operate on the testnet Bitcoin network") // By default (without -testnet), use mainnet. var chainParams = &chaincfg.MainNetParams func main() { flag.Parse() // Modify active network parameters if operating on testnet. if *testnet { chainParams = &chaincfg.TestNet3Params } // later... // Create and print new payment address, specific to the active network. pubKeyHash := make([]byte, 20) addr, err := ppcutil.NewAddressPubKeyHash(pubKeyHash, chainParams) if err != nil { log.Fatal(err) } fmt.Println(addr) }
If an application does not use one of the three standard Bitcoin networks, a new Params struct may be created which defines the parameters for the non-standard network. As a general rule of thumb, all network parameters should be unique to the network, but parameter collisions can still occur (unfortunately, this is the case with regtest and testnet3 sharing magics).
Index ¶
- Variables
- func HDPrivateKeyToPublicKeyID(id []byte) ([]byte, error)
- func IsBech32SegwitPrefix(prefix string) bool
- func IsPubKeyHashAddrID(id byte) bool
- func IsScriptHashAddrID(id byte) bool
- func Register(params *Params) error
- func RegisterHDKeyID(hdPublicKeyID []byte, hdPrivateKeyID []byte) error
- type BlockClock
- type Checkpoint
- type ClockConsensusDeploymentEnder
- type ClockConsensusDeploymentStarter
- type ConsensusDeployment
- type ConsensusDeploymentEnder
- type ConsensusDeploymentStarter
- type DNSSeed
- type MedianTimeDeploymentEnder
- type MedianTimeDeploymentStarter
- type Params
Constants ¶
This section is empty.
Variables ¶
var (
// DefaultSignetChallenge is the byte representation of the signet
// challenge for the default (public, Taproot enabled) signet network.
// This is the binary equivalent of the bitcoin script
// 1 03ad5e0edad18cb1f0fc0d28a3d4f1f3e445640337489abb10404f2d1e086be430
// 0359ef5021964fe22d6f8e05b2463c9540ce96883fe3b278760f048f5189f2e6c4 2
// OP_CHECKMULTISIG
DefaultSignetChallenge, _ = hex.DecodeString(
"512103ad5e0edad18cb1f0fc0d28a3d4f1f3e445640337489abb10404f2d" +
"1e086be430210359ef5021964fe22d6f8e05b2463c9540ce9688" +
"3fe3b278760f048f5189f2e6c452ae",
)
// DefaultSignetDNSSeeds is the list of seed nodes for the default
// (public, Taproot enabled) signet network.
DefaultSignetDNSSeeds = []DNSSeed{
{"178.128.221.177", false},
{"2a01:7c8:d005:390::5", false},
{"v7ajjeirttkbnt32wpy3c6w3emwnfr3fkla7hpxcfokr3ysd3kqtzmqd.onion:38333", false},
}
)
These variables are the chain proof-of-work limit parameters for each default network.
var ( // ErrDuplicateNet describes an error where the parameters for a Bitcoin // network could not be set due to the network already being a standard // network or previously-registered into this package. ErrDuplicateNet = errors.New("duplicate Bitcoin network") // ErrUnknownHDKeyID describes an error where the provided id which // is intended to identify the network for a hierarchical deterministic // private extended key is not registered. ErrUnknownHDKeyID = errors.New("unknown hd private extended key bytes") // ErrInvalidHDKeyID describes an error where the provided hierarchical // deterministic version bytes, or hd key id, is malformed. ErrInvalidHDKeyID = errors.New("invalid hd extended key version bytes") )
var ( // ErrNoBlockClock is returned when an operation fails due to lack of // synchornization with the current up to date block clock. ErrNoBlockClock = fmt.Errorf("no block clock synchronized") )
var MainNetParams = Params{ Name: "mainnet", Net: wire.MainNet, DefaultPort: "8566", DNSSeeds: []DNSSeed{ {"elex-1.putincoin.info", false}, {"elex-2.putincoin.info", false}, {"elex-3.putincoin.info", false}, {"elex-4.putincoin.info", false}, }, GenesisBlock: &genesisBlockPPC, GenesisHash: &genesisHashPPC, GenesisMeta: &genesisMeta, PowLimit: mainPowLimit, PowLimitBits: 0x1d00ffff, SubsidyReductionInterval: 0, TargetTimespan: time.Minute * 16, TargetTimePerBlock: time.Minute * 1, RetargetAdjustmentFactor: 4, ReduceMinDifficulty: false, MinDiffReductionTime: 0, GenerateSupported: false, Checkpoints: []Checkpoint{ {19080, newHashFromStr("085d9975fdcd77a9e5186fcb99b21de3fd0fc557836cb2ce0629b217703fa64f")}, {30583, newHashFromStr("6e6a252bf4331d4c0f2c972785aa8f8e7767782b376f6a8110ef7e176e16450a")}, {99999, newHashFromStr("f559d39b807849d46d2c247d4b7dc0bc90e3f030f2a524c52bc05ddbd674838c")}, {336000, newHashFromStr("31556d18cf82c42e0b8f7c32e9778a6f0ae05c96f75b0fd1a7d507f34170feea")}, {371850, newHashFromStr("557e0363615ff4a8efdf60ba76c1fb28c882bf48e13e04b0754a332331a26e68")}, {407813, newHashFromStr("50791c95702eaeae64dfb37d12dfad046c113e504f5a6f63f623908ac8b06b7d")}, {420000, newHashFromStr("968ff670e5ee57c6a452a1970986adf6f3f90809dd84387ba1850c30ae20096b")}, }, RuleChangeActivationThreshold: 1916, MinerConfirmationWindow: 2016, RelayNonStdTxs: false, Bech32HRPSegwit: "pc", PubKeyHashAddrID: 55, ScriptHashAddrID: 20, PrivateKeyID: 0xb7, WitnessPubKeyHashAddrID: 0x06, WitnessScriptHashAddrID: 0x0A, HDPrivateKeyID: [4]byte{0x04, 0x88, 0xad, 0xe4}, HDPublicKeyID: [4]byte{0x04, 0x88, 0xb2, 0x1e}, HDCoinType: 0, StakeMinAge: 8 * 60 * 60, CoinbaseMaturity: 20, InitialHashTargetBits: 0x1c00ffff, ModifierInterval: 10 * 60, StakeModifierCheckpoints: map[int32]uint32{ 0: uint32(0x0e00670b), }, }
MainNetParams defines the network parameters for the main PUTinCoin network.
var RegressionNetParams = Params{ Name: "regtest", Net: wire.TestNet, DefaultPort: "18444", DNSSeeds: []DNSSeed{}, GenesisBlock: ®TestGenesisBlock, GenesisHash: ®TestGenesisHash, GenesisMeta: &genesisMeta, PowLimit: regressionPowLimit, PowLimitBits: 0x207fffff, PoWNoRetargeting: true, CoinbaseMaturity: 100, BIP0034Height: 100000000, SubsidyReductionInterval: 150, TargetTimespan: time.Hour * 24 * 14, TargetTimePerBlock: time.Minute * 10, RetargetAdjustmentFactor: 4, ReduceMinDifficulty: true, MinDiffReductionTime: time.Minute * 20, GenerateSupported: true, Checkpoints: nil, RuleChangeActivationThreshold: 108, MinerConfirmationWindow: 144, RelayNonStdTxs: true, Bech32HRPSegwit: "bcrt", PubKeyHashAddrID: 0x6f, ScriptHashAddrID: 0xc4, PrivateKeyID: 0xef, HDPrivateKeyID: [4]byte{0x04, 0x35, 0x83, 0x94}, HDPublicKeyID: [4]byte{0x04, 0x35, 0x87, 0xcf}, HDCoinType: 1, }
RegressionNetParams defines the network parameters for the regression test Bitcoin network. Not to be confused with the test Bitcoin network (version 3), this network is sometimes simply called "testnet".
var SigNetParams = CustomSignetParams( DefaultSignetChallenge, DefaultSignetDNSSeeds, )
SigNetParams defines the network parameters for the default public signet Bitcoin network. Not to be confused with the regression test network, this network is sometimes simply called "signet" or "taproot signet".
var SimNetParams = Params{ Name: "simnet", Net: wire.SimNet, DefaultPort: "18555", DNSSeeds: []DNSSeed{}, GenesisBlock: &simNetGenesisBlock, GenesisHash: &simNetGenesisHash, GenesisMeta: &genesisMeta, PowLimit: simNetPowLimit, PowLimitBits: 0x207fffff, BIP0034Height: 0, CoinbaseMaturity: 100, SubsidyReductionInterval: 210000, TargetTimespan: time.Hour * 24 * 14, TargetTimePerBlock: time.Minute * 10, RetargetAdjustmentFactor: 4, ReduceMinDifficulty: true, MinDiffReductionTime: time.Minute * 20, GenerateSupported: true, Checkpoints: nil, RuleChangeActivationThreshold: 75, MinerConfirmationWindow: 100, RelayNonStdTxs: true, Bech32HRPSegwit: "sb", PubKeyHashAddrID: 0x3f, ScriptHashAddrID: 0x7b, PrivateKeyID: 0x64, WitnessPubKeyHashAddrID: 0x19, WitnessScriptHashAddrID: 0x28, HDPrivateKeyID: [4]byte{0x04, 0x20, 0xb9, 0x00}, HDPublicKeyID: [4]byte{0x04, 0x20, 0xbd, 0x3a}, HDCoinType: 115, }
SimNetParams defines the network parameters for the simulation test Bitcoin network. This network is similar to the normal test network except it is intended for private use within a group of individuals doing simulation testing. The functionality is intended to differ in that the only nodes which are specifically specified are used to create the network rather than following normal discovery rules. This is important as otherwise it would just turn into another public testnet.
var TestNet3Params = Params{ Name: "testnet3", Net: wire.TestNet3, DefaultPort: "9903", DNSSeeds: []DNSSeed{ {"telex-1.putincoin.info", false}, {"telex-2.putincoin.info", false}, {"telex-3.putincoin.info", false}, {"telex-4.putincoin.info", false}, }, GenesisBlock: &testNet3GenesisBlockPPC, GenesisHash: &testNet3GenesisHashPPC, GenesisMeta: &genesisMeta, PowLimit: testNet3PowLimit, PowLimitBits: 0x1d07ffff, SubsidyReductionInterval: 210000, TargetTimespan: time.Hour * 24 * 14, TargetTimePerBlock: time.Minute * 10, RetargetAdjustmentFactor: 4, ReduceMinDifficulty: true, MinDiffReductionTime: time.Minute * 20, GenerateSupported: false, Checkpoints: []Checkpoint{ {19080, newHashFromStr("b054d63d41852d71b611eaa8eca37d9fddca69b5013cf0966d453402ec8005ce")}, {30583, newHashFromStr("5179c0c496b5d25ab81ffe14273ea6928c6ff81c0a0d6a83b5d7d41d64886300")}, {99999, newHashFromStr("a7b03b14b8673683d972ab81775f3e85fea4fe689874b5956183466535dc651c")}, {219999, newHashFromStr("0691bb86c92762c5c4c5a3723585ebeb7ec59310bbb0bdb6666551ab24ad919e")}, {336000, newHashFromStr("f07adf61615c529f7c282b858d13d3e037b197324cb12e0669c461947494c4e3")}, {372751, newHashFromStr("000000000000148db599b217c117b5104f5043c55f6ca2a8a065d9fab9f9bba1")}, {382019, newHashFromStr("3ab75769d7957d9bf0857b5019d0a0e41044fa9ecf30b2f9c32aa457b0864ce5")}, {408500, newHashFromStr("1636ac08b073d26b28fa40243d58dd5deb215752efe094c92c61998e4e9baf3f")}, {412691, newHashFromStr("0e20318be88f07f521453435b37cfc516c3de07264a78ed7170985a1126126ab")}, {441299, newHashFromStr("4091d0836a37c50ceee876000ac0cb251fd10031dab901d2c0677cd86283096e")}, {442735, newHashFromStr("1b83b33894d51be0b8b323bfab093f638915236e0e40ba3b52bb33fdbc4053cd")}, }, RuleChangeActivationThreshold: 1512, MinerConfirmationWindow: 2016, RelayNonStdTxs: true, Bech32HRPSegwit: "tpc", PubKeyHashAddrID: 0x37, ScriptHashAddrID: 0x14, WitnessPubKeyHashAddrID: 0x03, WitnessScriptHashAddrID: 0x28, PrivateKeyID: 0xb7, HDPrivateKeyID: [4]byte{0x04, 0x35, 0x83, 0x94}, HDPublicKeyID: [4]byte{0x04, 0x35, 0x87, 0xcf}, HDCoinType: 1, StakeMinAge: 60 * 60 * 24, CoinbaseMaturity: 60, InitialHashTargetBits: 0x1d07ffff, ModifierInterval: 60 * 20, StakeModifierCheckpoints: map[int32]uint32{ 0: uint32(0x0e00670b), 19080: uint32(0x3711dc3a), 30583: uint32(0xb480fade), 99999: uint32(0x9a62eaec), 219999: uint32(0xeafe96c3), 336000: uint32(0x8330dc09), 372751: uint32(0xafb94e2f), 382019: uint32(0x7f5cf5eb), 408500: uint32(0x68cadee2), 412691: uint32(0x93138e67), 441299: uint32(0x03e195cb), 442735: uint32(0xe42d94fe), }, }
TestNet3Params defines the network parameters for the test Bitcoin network (version 3). Not to be confused with the regression test network, this network is sometimes simply called "testnet".
Functions ¶
func HDPrivateKeyToPublicKeyID ¶
HDPrivateKeyToPublicKeyID accepts a private hierarchical deterministic extended key id and returns the associated public key id. When the provided id is not registered, the ErrUnknownHDKeyID error will be returned.
func IsBech32SegwitPrefix ¶
IsBech32SegwitPrefix returns whether the prefix is a known prefix for segwit addresses on any default or registered network. This is used when decoding an address string into a specific address type.
func IsPubKeyHashAddrID ¶
IsPubKeyHashAddrID returns whether the id is an identifier known to prefix a pay-to-pubkey-hash address on any default or registered network. This is used when decoding an address string into a specific address type. It is up to the caller to check both this and IsScriptHashAddrID and decide whether an address is a pubkey hash address, script hash address, neither, or undeterminable (if both return true).
func IsScriptHashAddrID ¶
IsScriptHashAddrID returns whether the id is an identifier known to prefix a pay-to-script-hash address on any default or registered network. This is used when decoding an address string into a specific address type. It is up to the caller to check both this and IsPubKeyHashAddrID and decide whether an address is a pubkey hash address, script hash address, neither, or undeterminable (if both return true).
func Register ¶
Register registers the network parameters for a Bitcoin network. This may error with ErrDuplicateNet if the network is already registered (either due to a previous Register call, or the network being one of the default networks).
Network parameters should be registered into this package by a main package as early as possible. Then, library packages may lookup networks or network parameters based on inputs and work regardless of the network being standard or not.
func RegisterHDKeyID ¶
RegisterHDKeyID registers a public and private hierarchical deterministic extended key ID pair.
Non-standard HD version bytes, such as the ones documented in SLIP-0132, should be registered using this method for library packages to lookup key IDs (aka HD version bytes). When the provided key IDs are invalid, the ErrInvalidHDKeyID error will be returned.
Reference:
SLIP-0132 : Registered HD version bytes for BIP-0032 https://github.com/satoshilabs/slips/blob/master/slip-0132.md
Types ¶
type BlockClock ¶
type BlockClock interface { // PastMedianTime returns the past median time from the PoV of the // passed block header. The past median time is the median time of the // 11 blocks prior to the passed block header. PastMedianTime(*wire.BlockHeader, *wire.Meta) (time.Time, error) }
BlockClock is an abstraction over the past median time computation. The past median time computation is used in several consensus checks such as CSV, and also BIP 9 version bits. This interface allows callers to abstract away the computation of the past median time from the perspective of a given block header.
type Checkpoint ¶
Checkpoint identifies a known good point in the block chain. Using checkpoints allows a few optimizations for old blocks during initial download and also prevents forks from old blocks.
Each checkpoint is selected based upon several factors. See the documentation for blockchain.IsCheckpointCandidate for details on the selection criteria.
type ClockConsensusDeploymentEnder ¶
type ClockConsensusDeploymentEnder interface { ConsensusDeploymentEnder // SynchronizeClock synchronizes the target ConsensusDeploymentStarter // with the current up-to date BlockClock. SynchronizeClock(clock BlockClock) }
ClockConsensusDeploymentEnder is a more specialized version of the ConsensusDeploymentEnder that uses a BlockClock in order to determine if a deployment has started or not.
NOTE: Any calls to HasEnded will _fail_ with ErrNoBlockClock if they happen before SynchronizeClock is executed.
type ClockConsensusDeploymentStarter ¶
type ClockConsensusDeploymentStarter interface { ConsensusDeploymentStarter // SynchronizeClock synchronizes the target ConsensusDeploymentStarter // with the current up-to date BlockClock. SynchronizeClock(clock BlockClock) }
ClockConsensusDeploymentStarter is a more specialized version of the ConsensusDeploymentStarter that uses a BlockClock in order to determine if a deployment has started or not.
NOTE: Any calls to HasStarted will _fail_ with ErrNoBlockClock if they happen before SynchronizeClock is executed.
type ConsensusDeployment ¶
type ConsensusDeployment struct { // BitNumber defines the specific bit number within the block version // this particular soft-fork deployment refers to. BitNumber uint8 // MinActivationHeight is an optional field that when set (default // value being zero), modifies the traditional BIP 9 state machine by // only transitioning from LockedIn to Active once the block height is // greater than (or equal to) thus specified height. MinActivationHeight uint32 // CustomActivationThreshold if set (non-zero), will _override_ the // existing RuleChangeActivationThreshold value set at the // network/chain level. This value divided by the active // MinerConfirmationWindow denotes the threshold required for // activation. A value of 1815 block denotes a 90% threshold. CustomActivationThreshold uint32 // DeploymentStarter is used to determine if the given // ConsensusDeployment has started or not. DeploymentStarter ConsensusDeploymentStarter // DeploymentEnder is used to determine if the given // ConsensusDeployment has ended or not. DeploymentEnder ConsensusDeploymentEnder }
ConsensusDeployment defines details related to a specific consensus rule change that is voted in. This is part of BIP0009.
type ConsensusDeploymentEnder ¶
type ConsensusDeploymentEnder interface { // HasEnded returns true if the consensus deployment has ended. HasEnded(*wire.BlockHeader, *wire.Meta) (bool, error) }
ConsensusDeploymentEnder determines if a given consensus deployment has ended. A deployment has ended once according got eh current "time", the deployment is no longer eligible for activation.
type ConsensusDeploymentStarter ¶
type ConsensusDeploymentStarter interface { // HasStarted returns true if the consensus deployment has started. HasStarted(*wire.BlockHeader, *wire.Meta) (bool, error) }
ConsensusDeploymentStarter determines if a given consensus deployment has started. A deployment has started once according to the current "time", the deployment is eligible for activation once a perquisite condition has passed.
type DNSSeed ¶
type DNSSeed struct { // Host defines the hostname of the seed. Host string // HasFiltering defines whether the seed supports filtering // by service flags (wire.ServiceFlag). HasFiltering bool }
DNSSeed identifies a DNS seed.
type MedianTimeDeploymentEnder ¶
type MedianTimeDeploymentEnder struct {
// contains filtered or unexported fields
}
MedianTimeDeploymentEnder is a ClockConsensusDeploymentEnder that uses the median time past of a target block to determine if a deployment has ended.
func NewMedianTimeDeploymentEnder ¶
func NewMedianTimeDeploymentEnder(endTime time.Time) *MedianTimeDeploymentEnder
NewMedianTimeDeploymentEnder returns a new instance of the MedianTimeDeploymentEnder anchored around the passed endTime. Using a time.Time instance where IsZero() is true, indicates that a deployment should be considered to never end.
func (*MedianTimeDeploymentEnder) EndTime ¶
func (m *MedianTimeDeploymentEnder) EndTime() time.Time
MedianTimeDeploymentEnder returns the raw end time of the deployment.
func (*MedianTimeDeploymentEnder) HasEnded ¶
func (m *MedianTimeDeploymentEnder) HasEnded(blkHeader *wire.BlockHeader, blkMeta *wire.Meta) (bool, error)
HasEnded returns true if the deployment has ended.
func (*MedianTimeDeploymentEnder) SynchronizeClock ¶
func (m *MedianTimeDeploymentEnder) SynchronizeClock(clock BlockClock)
SynchronizeClock synchronizes the target ConsensusDeploymentEnder with the current up-to date BlockClock.
type MedianTimeDeploymentStarter ¶
type MedianTimeDeploymentStarter struct {
// contains filtered or unexported fields
}
MedianTimeDeploymentStarter is a ClockConsensusDeploymentStarter that uses the median time past of a target block node to determine if a deployment has started.
func NewMedianTimeDeploymentStarter ¶
func NewMedianTimeDeploymentStarter(startTime time.Time) *MedianTimeDeploymentStarter
NewMedianTimeDeploymentStarter returns a new instance of a MedianTimeDeploymentStarter for a given start time. Using a time.Time instance where IsZero() is true, indicates that a deployment should be considered to always have been started.
func (*MedianTimeDeploymentStarter) HasStarted ¶
func (m *MedianTimeDeploymentStarter) HasStarted(blkHeader *wire.BlockHeader, blkMeta *wire.Meta) (bool, error)
HasStarted returns true if the consensus deployment has started.
func (*MedianTimeDeploymentStarter) StartTime ¶
func (m *MedianTimeDeploymentStarter) StartTime() time.Time
StartTime returns the raw start time of the deployment.
func (*MedianTimeDeploymentStarter) SynchronizeClock ¶
func (m *MedianTimeDeploymentStarter) SynchronizeClock(clock BlockClock)
SynchronizeClock synchronizes the target ConsensusDeploymentStarter with the current up-to date BlockClock.
type Params ¶
type Params struct { // Name defines a human-readable identifier for the network. Name string // Net defines the magic bytes used to identify the network. Net wire.BitcoinNet // DefaultPort defines the default peer-to-peer port for the network. DefaultPort string // DNSSeeds defines a list of DNS seeds for the network that are used // as one method to discover peers. DNSSeeds []DNSSeed // GenesisBlock defines the first block of the chain. GenesisBlock *wire.MsgBlock // GenesisHash is the starting block hash. GenesisHash *chainhash.Hash GenesisMeta *wire.Meta // PowLimit defines the highest allowed proof of work value for a block // as a uint256. PowLimit *big.Int // PowLimitBits defines the highest allowed proof of work value for a // block in compact form. PowLimitBits uint32 // PoWNoRetargeting defines whether the network has difficulty // retargeting enabled or not. This should only be set to true for // regtest like networks. PoWNoRetargeting bool // These fields define the block heights at which the specified softfork // BIP became active. BIP0034Height int32 // CoinbaseMaturity is the number of blocks required before newly mined // coins (coinbase transactions) can be spent. CoinbaseMaturity uint16 // SubsidyReductionInterval is the interval of blocks before the subsidy // is reduced. SubsidyReductionInterval int32 // TargetTimespan is the desired amount of time that should elapse // before the block difficulty requirement is examined to determine how // it should be changed in order to maintain the desired block // generation rate. TargetTimespan time.Duration // TargetTimePerBlock is the desired amount of time to generate each // block. TargetTimePerBlock time.Duration // RetargetAdjustmentFactor is the adjustment factor used to limit // the minimum and maximum amount of adjustment that can occur between // difficulty retargets. RetargetAdjustmentFactor int64 // ReduceMinDifficulty defines whether the network should reduce the // minimum required difficulty after a long enough period of time has // passed without finding a block. This is really only useful for test // networks and should not be set on a main network. ReduceMinDifficulty bool // MinDiffReductionTime is the amount of time after which the minimum // required difficulty should be reduced when a block hasn't been found. // // NOTE: This only applies if ReduceMinDifficulty is true. MinDiffReductionTime time.Duration // GenerateSupported specifies whether or not CPU mining is allowed. GenerateSupported bool // Checkpoints ordered from oldest to newest. Checkpoints []Checkpoint // These fields are related to voting on consensus rule changes as // defined by BIP0009. // // RuleChangeActivationThreshold is the number of blocks in a threshold // state retarget window for which a positive vote for a rule change // must be cast in order to lock in a rule change. It should typically // be 95% for the main network and 75% for test networks. // // MinerConfirmationWindow is the number of blocks in each threshold // state retarget window. // // Deployments define the specific consensus rule changes to be voted // on. RuleChangeActivationThreshold uint32 MinerConfirmationWindow uint32 // Mempool parameters RelayNonStdTxs bool // Human-readable part for Bech32 encoded segwit addresses, as defined // in BIP 173. Bech32HRPSegwit string // Address encoding magics PubKeyHashAddrID byte // First byte of a P2PKH address ScriptHashAddrID byte // First byte of a P2SH address PrivateKeyID byte // First byte of a WIF private key WitnessPubKeyHashAddrID byte // First byte of a P2WPKH address WitnessScriptHashAddrID byte // First byte of a P2WSH address // BIP32 hierarchical deterministic extended key magics HDPrivateKeyID [4]byte HDPublicKeyID [4]byte // BIP44 coin type used in the hierarchical deterministic path for // address generation. HDCoinType uint32 // peercoin: peercoin specific parameters StakeMinAge int64 // CoinbaseMaturity is the number of blocks required before newly // mined bitcoins (coinbase transactions) can be spent. // CoinbaseMaturity int64 InitialHashTargetBits uint32 // Modifier interval: time to elapse before new modifier is computed ModifierInterval int64 StakeModifierCheckpoints map[int32]uint32 }
Params defines a Bitcoin network by its parameters. These parameters may be used by Bitcoin applications to differentiate networks as well as addresses and keys for one network from those intended for use on another network.
func CustomSignetParams ¶
CustomSignetParams creates network parameters for a custom signet network from a challenge. The challenge is the binary compiled version of the block challenge script.