160 lines
6.7 KiB
Go
160 lines
6.7 KiB
Go
package keychain
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import "github.com/btcsuite/btcd/btcec"
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const (
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// KeyDerivationVersion is the version of the key derivation schema
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// defined below. We use a version as this means that we'll be able to
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// accept new seed in the future and be able to discern if the software
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// is compatible with the version of the seed.
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KeyDerivationVersion = 0
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// BIP0043Purpose is the "purpose" value that we'll use for the first
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// version or our key derivation scheme. All keys are expected to be
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// derived from this purpose, then the particular coin type of the
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// chain where the keys are to be used. Slightly adhering to BIP0043
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// allows us to not deviate too far from a widely used standard, and
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// also fits into existing implementations of the BIP's template.
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//
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// NOTE: BRICK SQUUUUUAD.
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BIP0043Purpose = 1017
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)
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// KeyFamily represents a "family" of keys that will be used within various
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// contracts created by lnd. These families are meant to be distinct branches
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// within the HD key chain of the backing wallet. Usage of key families within
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// the interface below are strict in order to promote integrability and the
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// ability to restore all keys given a user master seed backup.
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//
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// The key derivation in this file follows the following hierarchy based on
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// BIP43:
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//
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// * m/1017'/coinType'/keyFamily/0/index
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type KeyFamily uint32
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const (
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// KeyFamilyMultiSig are keys to be used within multi-sig scripts.
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KeyFamilyMultiSig KeyFamily = 0
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// KeyFamilyRevocationBase are keys that are used within channels to
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// create revocation basepoints that the remote party will use to
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// create revocation keys for us.
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KeyFamilyRevocationBase = 1
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// KeyFamilyHtlcBase are keys used within channels that will be
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// combined with per-state randomness to produce public keys that will
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// be used in HTLC scripts.
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KeyFamilyHtlcBase KeyFamily = 2
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// KeyFamilyPaymentBase are keys used within channels that will be
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// combined with per-state randomness to produce public keys that will
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// be used in scripts that pay directly to us without any delay.
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KeyFamilyPaymentBase KeyFamily = 3
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// KeyFamilyDelayBase are keys used within channels that will be
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// combined with per-state randomness to produce public keys that will
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// be used in scripts that pay to us, but require a CSV delay before we
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// can sweep the funds.
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KeyFamilyDelayBase KeyFamily = 4
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// KeyFamilyRevocationRoot is a family of keys which will be used to
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// derive the root of a revocation tree for a particular channel.
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KeyFamilyRevocationRoot KeyFamily = 5
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// KeyFamilyNodeKey is a family of keys that will be used to derive
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// keys that will be advertised on the network to represent our current
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// "identity" within the network. Peers will need our latest node key
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// in order to establish a transport session with us on the Lightning
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// p2p level (BOLT-0008).
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KeyFamilyNodeKey KeyFamily = 6
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)
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// KeyLocator is a two-tuple that can be used to derive *any* key that has ever
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// been used under the key derivation mechanisms described in this file.
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// Version 0 of our key derivation schema uses the following BIP43-like
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// derivation:
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//
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// * m/201'/coinType'/keyFamily/0/index
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//
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// Our purpose is 201 (chosen arbitrary for now), and the coin type will vary
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// based on which coin/chain the channels are being created on. The key family
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// are actually just individual "accounts" in the nomenclature of BIP43. By
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// default we assume a branch of 0 (external). Finally, the key index (which
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// will vary per channel and use case) is the final element which allows us to
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// deterministically derive keys.
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type KeyLocator struct {
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// TODO(roasbeef); add the key scope as well??
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// Family is the family of key being identified.
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Family KeyFamily
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// Index is the precise index of the key being identified.
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Index uint32
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}
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// IsEmpty returns true if a KeyLocator is "empty". This may be the case where we
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// learn of a key from a remote party for a contract, but don't know the
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// precise details of its derivation (as we don't know the private key!).
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func (k KeyLocator) IsEmpty() bool {
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return k.Family == 0 && k.Index == 0
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}
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// KeyDescriptor wraps a KeyLocator and also optionally includes a public key.
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// Either the KeyLocator must be non-empty, or the public key pointer be
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// non-nil. This will be used by the KeyRing interface to lookup arbitrary
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// private keys, and also within the SignDescriptor struct to locate precisely
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// which keys should be used for signing.
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type KeyDescriptor struct {
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// KeyLocator is the internal KeyLocator of the descriptor.
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KeyLocator
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// PubKey is an optional public key that fully describes a target key.
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// If this is nil, the KeyLocator MUST NOT be empty.
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PubKey *btcec.PublicKey
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}
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// KeyRing is the primary interface that will be used to perform public
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// derivation of various keys used within the peer-to-peer network, and also
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// within any created contracts. All derivation required by the KeyRing is
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// based off of public derivation, so a system with only an extended public key
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// (for the particular purpose+family) can derive this set of keys.
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type KeyRing interface {
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// DeriveNextKey attempts to derive the *next* key within the key
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// family (account in BIP43) specified. This method should return the
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// next external child within this branch.
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DeriveNextKey(keyFam KeyFamily) (KeyDescriptor, error)
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// DeriveKey attempts to derive an arbitrary key specified by the
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// passed KeyLocator. This may be used in several recovery scenarios,
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// or when manually rotating something like our current default node
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// key.
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DeriveKey(keyLoc KeyLocator) (KeyDescriptor, error)
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}
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// SecretKeyRing is a similar to the regular KeyRing interface, but it is also
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// able to derive *private keys*. As this is a super-set of the regular
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// KeyRing, we also expect the SecretKeyRing to implement the fully KeyRing
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// interface. The methods in this struct may be used to extract the node key in
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// order to accept inbound network connections, or to do manual signing for
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// recovery purposes.
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type SecretKeyRing interface {
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KeyRing
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// DerivePrivKey attempts to derive the private key that corresponds to
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// the passed key descriptor.
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DerivePrivKey(keyDesc KeyDescriptor) (*btcec.PrivateKey, error)
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// ScalarMult performs a scalar multiplication (ECDH-like operation)
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// between the target key descriptor and remote public key. The output
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// returned will be the sha256 of the resulting shared point serialized
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// in compressed format. If k is our private key, and P is the public
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// key, we perform the following operation:
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//
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// sx := k*P
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// s := sha256(sx.SerializeCompressed())
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ScalarMult(keyDesc KeyDescriptor, pubKey *btcec.PublicKey) ([]byte, error)
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}
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// TODO(roasbeef): extend to actually support scalar mult of key?
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// * would allow to push in initial handshake auth into interface as well
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