genesis

package
v2.0.0-alpha.1 Latest Latest
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 Go to latest Published: Aug 2, 2025 License: BSD-3-Clause Imports: 45 Imported by: 0

README

Genesis

The Genesis package converts formatted JSON files into the genesis of the Primary Network. For the simplest example, see the Local Genesis JSON file.

The genesis JSON file contains the following properties:

  • networkID: A unique identifier for the blockchain, must be a number in the range [0, 2^32).
  • allocations: The list of initial addresses, their initial balances and the unlock schedule for each.
  • startTime: The time of the beginning of the blockchain, it must be a Unix timestamp and it can't be a time in the future.
  • initialStakeDuration: The stake duration, in seconds, of the validators that exist at network genesis.
  • initialStakeDurationOffset: The offset, in seconds, between the end times of the validators that exist at genesis.
  • initialStakedFunds: A list of addresses that own the funds staked at genesis (each address must be present in allocations as well)
  • initialStakers: The validators that exist at genesis. Each element contains the rewardAddress, NodeID and the delegationFee of the validator.
  • cChainGenesis: The genesis info to be passed to the C-Chain.
  • message: A message to include in the genesis. Not required.

Allocations and Genesis Stakers

Each allocation contains the following fields:

  • ethAddr: Annotation of corresponding Ethereum address holding an ERC-20 token
  • luxAddr: X/P Chain address to receive the allocation
  • initialAmount: Initial unlocked amount minted to the luxAddr on the X-Chain
  • unlockSchedule: List of locked, stakeable UTXOs minted to luxAddr on the P-Chain

Note: if an luxAddr from allocations is included in initialStakers, the genesis includes all the UTXOs specified in the unlockSchedule as part of the locked stake of the corresponding genesis validator. Otherwise, the locked UTXO is created directly on the P-Chain.

Subnet Consensus Overrides

To bake custom DAG or Linear consensus defaults into your Primary Network genesis, provide a Subnet config file named <subnetID>.json under configs/subnets/ alongside this genesis. When the node starts, it merges these overrides on top of its built-in defaults.

Example configs/subnets/<YourSubnetID>.json:

{
  "validatorOnly": false,

  // --- Consensus ---
  "consensusParameters": {
    "k": 12,              // sample 12 validators
    "alpha": 8,           // need 8 matching votes
    "beta": 10,           // commit threshold
    "concurrentRepolls": 16,
    "optimalProcessing": 2048,
    "maxOutstandingItems": 4096,
    "maxItemProcessingTime": "250ms",

    // DAG-specific fast path
    "betaVirtuous": 4,
    "betaRogue": 12,
    "batchSize": 40,
    "parentSize": 2
  },

  // --- Block production cadence ---
  "proposerMinBlockDelay": "200ms"   // see consensus docs
}

Documentation

Index

Constants

View Source 
const (
	VMRQKeyStr          = "vmRQiZeXEXYMyJhEiqdC2z5JhuDbxL8ix9UVvjgMu2Er1NepE"
	VMRQKeyFormattedStr = secp256k1.PrivateKeyPrefix + VMRQKeyStr

	EWOQKeyStr          = "ewoqjP7PxY4yr3iLTpLisriqt94hdyDFNgchSxGGztUrTXtNN"
	EWOQKeyFormattedStr = secp256k1.PrivateKeyPrefix + EWOQKeyStr
)

Variables

View Source 
var (
	QChainAliases = []string{"Q", "quantum"}                  // Q-Chain aliases
	PChainAliases = []string{"Q", "quantum", "P", "platform"} // Deprecated: Use QChainAliases. Includes legacy P aliases for compatibility
	XChainAliases = []string{"X", "xvm"}
	CChainAliases = []string{"C", "evm"}
	VMAliases     = map[ids.ID][]string{
		constants.QuantumVMID: {"quantum", "platform"},
		constants.XVMID:       {"xvm"},
		constants.EVMID:       {"evm"},
		secp256k1fx.ID:        {"secp256k1fx"},
		nftfx.ID:              {"nftfx"},
		propertyfx.ID:         {"propertyfx"},
	}
)
View Source 
var (
	VMRQKey *secp256k1.PrivateKey
	EWOQKey *secp256k1.PrivateKey

	// LocalConsensusParameters are the consensus parameters for local networks (5 nodes)
	// Optimized for 10Gbps local network with maximum pipelining
	LocalConsensusParameters = sampling.Parameters{
		K:                 5,
		AlphaPreference:   4,
		AlphaConfidence:   4,
		Beta:              4,
		ConcurrentRepolls: 4,
	}

	// LocalParams are the params used for local networks
	LocalParams = Params{
		ConsensusParameters: LocalConsensusParameters,
		TxFeeConfig: TxFeeConfig{
			CreateAssetTxFee: units.MilliLux,
			TxFee:            units.MilliLux,
			DynamicFeeConfig: gas.Config{
				Weights: gas.Dimensions{
					gas.Bandwidth: 1,
					gas.DBRead:    1_000,
					gas.DBWrite:   1_000,
					gas.Compute:   4,
				},
				MaxCapacity:     1_000_000,
				MaxPerSecond:    100_000,
				TargetPerSecond: 50_000,
				MinPrice:        1,

				ExcessConversionConstant: 2_164_043,
			},
			ValidatorFeeConfig: fee.Config{
				Capacity: 20_000,
				Target:   10_000,
				MinPrice: gas.Price(1 * units.NanoLux),

				ExcessConversionConstant: 865_617,
			},
		},
		StakingConfig: StakingConfig{
			UptimeRequirement: .8,
			MinValidatorStake: 2 * units.KiloLux,
			MaxValidatorStake: 3 * units.MegaLux,
			MinDelegatorStake: 25 * units.Lux,
			MinDelegationFee:  20000,
			MinStakeDuration:  24 * time.Hour,
			MaxStakeDuration:  365 * 24 * time.Hour,
			RewardConfig: reward.Config{
				MaxConsumptionRate: .12 * reward.PercentDenominator,
				MinConsumptionRate: .10 * reward.PercentDenominator,
				MintingPeriod:      365 * 24 * time.Hour,
				SupplyCap:          720 * units.MegaLux,
			},
		},
	}
)
View Source 
var (

	// MainnetConsensusParameters are the consensus parameters for mainnet (21 nodes)
	MainnetConsensusParameters = sampling.Parameters{
		K:                 21,
		AlphaPreference:   13,
		AlphaConfidence:   18,
		Beta:              8,
		ConcurrentRepolls: 8,
	}

	// MainnetParams are the params used for mainnet
	MainnetParams = Params{
		ConsensusParameters: MainnetConsensusParameters,
		TxFeeConfig: TxFeeConfig{
			CreateAssetTxFee: 10 * units.MilliLux,
			TxFee:            units.MilliLux,
			DynamicFeeConfig: gas.Config{
				Weights: gas.Dimensions{
					gas.Bandwidth: 1,
					gas.DBRead:    1_000,
					gas.DBWrite:   1_000,
					gas.Compute:   4,
				},
				MaxCapacity:     1_000_000,
				MaxPerSecond:    100_000,
				TargetPerSecond: 50_000,
				MinPrice:        1,

				ExcessConversionConstant: 2_164_043,
			},
			ValidatorFeeConfig: fee.Config{
				Capacity: 20_000,
				Target:   10_000,
				MinPrice: gas.Price(512 * units.NanoLux),

				ExcessConversionConstant: 1_246_488_515,
			},
		},
		StakingConfig: StakingConfig{
			UptimeRequirement: .8,
			MinValidatorStake: 2 * units.KiloLux,
			MaxValidatorStake: 3 * units.MegaLux,
			MinDelegatorStake: 25 * units.Lux,
			MinDelegationFee:  20000,
			MinStakeDuration:  2 * 7 * 24 * time.Hour,
			MaxStakeDuration:  365 * 24 * time.Hour,
			RewardConfig: reward.Config{
				MaxConsumptionRate: .12 * reward.PercentDenominator,
				MinConsumptionRate: .10 * reward.PercentDenominator,
				MintingPeriod:      365 * 24 * time.Hour,
				SupplyCap:          720 * units.MegaLux,
			},
		},
	}
)
View Source 
var (

	// TestnetParams are the params used for the testnet testnet
	TestnetParams = Params{
		TxFeeConfig: TxFeeConfig{
			CreateAssetTxFee: 10 * units.MilliLux,
			TxFee:            units.MilliLux,
			DynamicFeeConfig: gas.Config{
				Weights: gas.Dimensions{
					gas.Bandwidth: 1,
					gas.DBRead:    1_000,
					gas.DBWrite:   1_000,
					gas.Compute:   4,
				},
				MaxCapacity:     1_000_000,
				MaxPerSecond:    100_000,
				TargetPerSecond: 50_000,
				MinPrice:        1,

				ExcessConversionConstant: 2_164_043,
			},
			ValidatorFeeConfig: fee.Config{
				Capacity: 20_000,
				Target:   10_000,
				MinPrice: gas.Price(512 * units.NanoLux),

				ExcessConversionConstant: 51_937_021,
			},
		},
		StakingConfig: StakingConfig{
			UptimeRequirement: .8,
			MinValidatorStake: 1 * units.Lux,
			MaxValidatorStake: 3 * units.MegaLux,
			MinDelegatorStake: 1 * units.Lux,
			MinDelegationFee:  20000,
			MinStakeDuration:  24 * time.Hour,
			MaxStakeDuration:  365 * 24 * time.Hour,
			RewardConfig: reward.Config{
				MaxConsumptionRate: .12 * reward.PercentDenominator,
				MinConsumptionRate: .10 * reward.PercentDenominator,
				MintingPeriod:      365 * 24 * time.Hour,
				SupplyCap:          720 * units.MegaLux,
			},
		},
	}
)

Functions

func Aliases 

func Aliases(genesisBytes []byte) (map[string][]string, map[ids.ID][]string, error)

Aliases returns the default aliases based on the network ID

func FromConfig 

func FromConfig(config *Config) ([]byte, ids.ID, error)

FromConfig returns:

  1. The byte representation of the genesis state of the platform chain (ie the genesis state of the network)
  2. The asset ID of LUX

func FromFile 

func FromFile(networkID uint32, filepath string, stakingCfg *StakingConfig) ([]byte, ids.ID, error)

FromFile returns the genesis data of the Platform Chain.

Since an Lux network has exactly one Platform Chain, and the Platform Chain defines the genesis state of the network (who is staking, which chains exist, etc.), defining the genesis state of the Platform Chain is the same as defining the genesis state of the network.

FromFile accepts: 1) The ID of the new network. [networkID] 2) The location of a custom genesis config to load. filepath

If filepath is empty or the given network ID is Mainnet, Testnet, or Local, returns error. If filepath is non-empty and networkID isn't Mainnet, Testnet, or Local, loads the network genesis data from the config at filepath.

FromFile returns:

  1. The byte representation of the genesis state of the platform chain (ie the genesis state of the network)
  2. The asset ID of LUX

func FromFlag 

func FromFlag(networkID uint32, genesisContent string, stakingCfg *StakingConfig) ([]byte, ids.ID, error)

FromFlag returns the genesis data of the Platform Chain.

Since an Lux network has exactly one Platform Chain, and the Platform Chain defines the genesis state of the network (who is staking, which chains exist, etc.), defining the genesis state of the Platform Chain is the same as defining the genesis state of the network.

FromFlag accepts: 1) The ID of the new network. [networkID] 2) The content of a custom genesis config to load. [genesisContent]

If [genesisContent] is empty or the given network ID is Mainnet, Testnet, or Local, returns error. If [genesisContent] is non-empty and networkID isn't Mainnet, Testnet, or Local, loads the network genesis data from [genesisContent].

FromFlag returns:

  1. The byte representation of the genesis state of the platform chain (ie the genesis state of the network)
  2. The asset ID of LUX

func GetCheckpoints 

func GetCheckpoints(networkID uint32, chainID ids.ID) set.Set[ids.ID]

GetCheckpoints returns all known checkpoints for the chain on the requested network.

func GetConsensusParameters 

func GetConsensusParameters(networkID uint32) sampling.Parameters

func GetValidators 

func GetValidators(networkID uint32) set.Set[ids.NodeID]

GetValidators returns recent validators for the requested network.

func LUXAssetID 

func LUXAssetID(xvmGenesisBytes []byte) (ids.ID, error)

func ProcessorAffinityConfig 

func ProcessorAffinityConfig() map[string]interface{}

ProcessorAffinityConfig generates CPU affinity configuration for 8 chains

func VMGenesis 

func VMGenesis(genesisBytes []byte, vmID ids.ID) (*pchaintxs.Tx, error)

Types

type Allocation 

type Allocation struct {
	ETHAddr        ids.ShortID    `json:"ethAddr"`
	LUXAddr        ids.ShortID    `json:"luxAddr"`
	InitialAmount  uint64         `json:"initialAmount"`
	UnlockSchedule []LockedAmount `json:"unlockSchedule"`
}

func (Allocation) Compare 

func (a Allocation) Compare(other Allocation) int

func (Allocation) Unparse 

func (a Allocation) Unparse(networkID uint32) (UnparsedAllocation, error)

type Bootstrapper 

type Bootstrapper struct {
	ID   ids.NodeID     `json:"-"`
	Host string         `json:"-"` // Original host string for reference
	IP   netip.AddrPort `json:"-"` // Resolved IP address
}

Represents the relationship between the nodeID and the nodeIP. The bootstrapper is sometimes called "anchor" or "beacon" node.

func GetBootstrappers 

func GetBootstrappers(networkID uint32) []Bootstrapper

GetBootstrappers returns all default bootstrappers for the provided network.

func SampleBootstrappers 

func SampleBootstrappers(networkID uint32, count int) []Bootstrapper

SampleBootstrappers returns the some beacons this node should connect to

func (*Bootstrapper) ResolveIP 

func (b *Bootstrapper) ResolveIP() error

ResolveIP attempts to resolve the hostname to an IP address if not already resolved

func (*Bootstrapper) UnmarshalJSON 

func (b *Bootstrapper) UnmarshalJSON(data []byte) error

UnmarshalJSON implements custom JSON unmarshaling to support hostnames

type BootstrapperRaw 

type BootstrapperRaw struct {
	ID   ids.NodeID `json:"id"`
	Host string     `json:"host"` // Can be hostname:port or ip:port
}

BootstrapperRaw represents the raw JSON format with hostname support

type ChainConfig 

type ChainConfig struct {
	// Chain identification
	ChainID   ids.ID `json:"chainID"`
	VMID      ids.ID `json:"vmID"`
	ChainName string `json:"chainName"`

	// Consensus parameters
	ConsensusParams ConsensusParams `json:"consensusParams"`

	// Resource allocation
	ProcessorAffinity []int  `json:"processorAffinity"` // CPU cores
	MemoryLimit       uint64 `json:"memoryLimit"`       // In bytes
	DiskQuota         uint64 `json:"diskQuota"`         // In bytes

	// Network settings
	MaxMessageSize     int           `json:"maxMessageSize"`
	MaxPendingMessages int           `json:"maxPendingMessages"`
	GossipFrequency    time.Duration `json:"gossipFrequency"`
	GossipBatchSize    int           `json:"gossipBatchSize"`

	// Performance tuning
	BlockCacheSize      int `json:"blockCacheSize"`
	StateCacheSize      int `json:"stateCacheSize"`
	TransactionPoolSize int `json:"transactionPoolSize"`

	// Chain-specific settings
	CustomConfig interface{} `json:"customConfig,omitempty"`
}

ChainConfig represents per-chain configuration

type ChainGrouping 

type ChainGrouping struct {
	FastChains     []string // A, X - Low latency requirements
	SecureChains   []string // M, Z - High security requirements
	BalancedChains []string // B, C, P, Q - Balanced requirements
}

ChainGrouping represents how chains are grouped for optimization

func GetChainGrouping 

func GetChainGrouping() ChainGrouping

GetChainGrouping returns the logical grouping of chains

type Config 

type Config struct {
	NetworkID uint32 `json:"networkID"`

	Allocations []Allocation `json:"allocations"`

	StartTime                  uint64        `json:"startTime"`
	InitialStakeDuration       uint64        `json:"initialStakeDuration"`
	InitialStakeDurationOffset uint64        `json:"initialStakeDurationOffset"`
	InitialStakedFunds         []ids.ShortID `json:"initialStakedFunds"`
	InitialStakers             []Staker      `json:"initialStakers"`

	CChainGenesis string `json:"cChainGenesis"`

	Message string `json:"message"`
}

Config contains the genesis addresses used to construct a genesis 

var (
	// MainnetConfig is the config that should be used to generate the mainnet
	// genesis.
	MainnetConfig Config

	// TestnetConfig is the config that should be used to generate the testnet
	// genesis.
	TestnetConfig Config

	// LocalConfig is the config that should be used to generate a local
	// genesis.
	LocalConfig Config

	// LuxMainnetConfig is the config that should be used to generate the Lux
	// mainnet genesis with network ID 96369.
	LuxMainnetConfig Config

	// LuxTestnetConfig is the config that should be used to generate the Lux
	// testnet genesis with network ID 96368.
	LuxTestnetConfig Config
)

func GetConfig 

func GetConfig(networkID uint32) *Config

func GetConfigContent 

func GetConfigContent(genesisContent string) (*Config, error)

GetConfigContent loads a *Config from a provided environment variable

func GetConfigFile 

func GetConfigFile(fp string) (*Config, error)

GetConfigFile loads a *Config from a provided filepath.

func (*Config) InitialSupply 

func (c *Config) InitialSupply() (uint64, error)

func (Config) Unparse 

func (c Config) Unparse() (UnparsedConfig, error)

type ConsensusParams 

type ConsensusParams struct {
	K                     int           `json:"k"`
	AlphaPreference       int           `json:"alphaPreference"`
	AlphaConfidence       int           `json:"alphaConfidence"`
	Beta                  int           `json:"beta"`
	MaxItemProcessingTime time.Duration `json:"maxItemProcessingTime"`

	// Additional tuning
	ConcurrentRepolls      int           `json:"concurrentRepolls"`
	OptimalProcessing      int           `json:"optimalProcessing"`
	MaxOutstandingItems    int           `json:"maxOutstandingItems"`
	MaxItemProcessingRetry int           `json:"maxItemProcessingRetry"`
	ParentCheckInterval    time.Duration `json:"parentCheckInterval"`
}

ConsensusParams defines consensus parameters for a chain

type EightChainsConfig 

type EightChainsConfig struct {
	// Core chains
	AChainConfig ChainConfig `json:"aChain"` // AI VM
	BChainConfig ChainConfig `json:"bChain"` // Bridge VM
	CChainConfig ChainConfig `json:"cChain"` // EVM
	MChainConfig ChainConfig `json:"mChain"` // MPC VM
	PChainConfig ChainConfig `json:"pChain"` // Platform VM
	QChainConfig ChainConfig `json:"qChain"` // Quantum VM
	XChainConfig ChainConfig `json:"xChain"` // Exchange VM
	ZChainConfig ChainConfig `json:"zChain"` // ZK VM

	// Network-wide settings
	NetworkID      uint32 `json:"networkID"`
	ProcessorCount int    `json:"processorCount"`
}

EightChainsConfig defines the configuration for all 8 chains

func Default8ChainsConfig 

func Default8ChainsConfig() *EightChainsConfig

Default8ChainsConfig returns the default configuration for 8 chains

func (*EightChainsConfig) OptimizeFor8Cores 

func (c *EightChainsConfig) OptimizeFor8Cores()

OptimizeFor8Cores adjusts parameters for optimal 8-core performance

type Genesis8ChainsParams 

type Genesis8ChainsParams struct {
	NetworkID       uint32
	NumValidators   int
	InitialStake    uint64
	StakingDuration time.Duration

	// Chain-specific parameters
	EVMChainID      *big.Int
	AIAgentCount    int
	BridgeThreshold int
	MPCParticipants int
	ZKCircuitCount  int
}

Genesis8ChainsParams contains parameters for generating 8-chain genesis

func Default8ChainsParams 

func Default8ChainsParams() Genesis8ChainsParams

Default8ChainsParams returns default parameters for 8-chain genesis

type LockedAmount 

type LockedAmount struct {
	Amount   uint64 `json:"amount"`
	Locktime uint64 `json:"locktime"`
}

type Params 

type Params struct {
	StakingConfig
	TxFeeConfig
	ConsensusParameters sampling.Parameters `json:"consensusParameters"`
}

type Staker 

type Staker struct {
	NodeID        ids.NodeID                `json:"nodeID"`
	RewardAddress ids.ShortID               `json:"rewardAddress"`
	DelegationFee uint32                    `json:"delegationFee"`
	Signer        *signer.ProofOfPossession `json:"signer,omitempty"`
}

func (Staker) Unparse 

func (s Staker) Unparse(networkID uint32) (UnparsedStaker, error)

type StakingConfig 

type StakingConfig struct {
	// Staking uptime requirements
	UptimeRequirement float64 `json:"uptimeRequirement"`
	// Minimum stake, in nLUX, required to validate the primary network
	MinValidatorStake uint64 `json:"minValidatorStake"`
	// Maximum stake, in nLUX, allowed to be placed on a single validator in
	// the primary network
	MaxValidatorStake uint64 `json:"maxValidatorStake"`
	// Minimum stake, in nLUX, that can be delegated on the primary network
	MinDelegatorStake uint64 `json:"minDelegatorStake"`
	// Minimum delegation fee, in the range [0, 1000000], that can be charged
	// for delegation on the primary network.
	MinDelegationFee uint32 `json:"minDelegationFee"`
	// MinStakeDuration is the minimum amount of time a validator can validate
	// for in a single period.
	MinStakeDuration time.Duration `json:"minStakeDuration"`
	// MaxStakeDuration is the maximum amount of time a validator can validate
	// for in a single period.
	MaxStakeDuration time.Duration `json:"maxStakeDuration"`
	// RewardConfig is the config for the reward function.
	RewardConfig reward.Config `json:"rewardConfig"`
}

func GetStakingConfig 

func GetStakingConfig(networkID uint32) StakingConfig

type TxFeeConfig 

type TxFeeConfig struct {
	CreateAssetTxFee   uint64     `json:"createAssetTxFee"`
	TxFee              uint64     `json:"txFee"`
	DynamicFeeConfig   gas.Config `json:"dynamicFeeConfig"`
	ValidatorFeeConfig fee.Config `json:"validatorFeeConfig"`
}

func GetTxFeeConfig 

func GetTxFeeConfig(networkID uint32) TxFeeConfig

type UnparsedAllocation 

type UnparsedAllocation struct {
	ETHAddr        string         `json:"ethAddr"`
	LUXAddr        string         `json:"luxAddr"`
	InitialAmount  uint64         `json:"initialAmount"`
	UnlockSchedule []LockedAmount `json:"unlockSchedule"`
}

func (UnparsedAllocation) Parse 

func (ua UnparsedAllocation) Parse() (Allocation, error)

type UnparsedConfig 

type UnparsedConfig struct {
	NetworkID uint32 `json:"networkID"`

	Allocations []UnparsedAllocation `json:"allocations"`

	StartTime                  uint64           `json:"startTime"`
	InitialStakeDuration       uint64           `json:"initialStakeDuration"`
	InitialStakeDurationOffset uint64           `json:"initialStakeDurationOffset"`
	InitialStakedFunds         []string         `json:"initialStakedFunds"`
	InitialStakers             []UnparsedStaker `json:"initialStakers"`

	CChainGenesis string `json:"cChainGenesis"`

	Message string `json:"message"`
}

UnparsedConfig contains the genesis addresses used to construct a genesis

func (UnparsedConfig) Parse 

func (uc UnparsedConfig) Parse() (Config, error)

type UnparsedStaker 

type UnparsedStaker struct {
	NodeID        ids.NodeID                `json:"nodeID"`
	RewardAddress string                    `json:"rewardAddress"`
	DelegationFee uint32                    `json:"delegationFee"`
	Signer        *signer.ProofOfPossession `json:"signer,omitempty"`
}

func (UnparsedStaker) Parse 

func (us UnparsedStaker) Parse() (Staker, error)

type WorkloadDistribution 

type WorkloadDistribution struct {
	// Chunk size for parallel processing
	ChunkSize int

	// Worker pool sizes per chain type
	FastChainWorkers     int
	SecureChainWorkers   int
	BalancedChainWorkers int

	// Message batching
	BatchSizes map[string]int
}

WorkloadDistribution defines how work is distributed across chains

func GetOptimalWorkloadDistribution 

func GetOptimalWorkloadDistribution() WorkloadDistribution

GetOptimalWorkloadDistribution returns optimal workload distribution for 8 chains

Source Files

View all Source files

Directories

Path Synopsis
generate
checkpoints command
validators command

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