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models.go
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models.go
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package keystore
import (
"encoding/json"
"fmt"
"math/big"
"time"
gethkeystore "github.com/ethereum/go-ethereum/accounts/keystore"
"github.com/ethereum/go-ethereum/common"
"github.com/pkg/errors"
"github.com/smartcontractkit/chainlink/v2/core/logger"
"github.com/smartcontractkit/chainlink/v2/core/services/keystore/keys/cosmoskey"
"github.com/smartcontractkit/chainlink/v2/core/services/keystore/keys/csakey"
"github.com/smartcontractkit/chainlink/v2/core/services/keystore/keys/dkgencryptkey"
"github.com/smartcontractkit/chainlink/v2/core/services/keystore/keys/dkgsignkey"
"github.com/smartcontractkit/chainlink/v2/core/services/keystore/keys/ethkey"
"github.com/smartcontractkit/chainlink/v2/core/services/keystore/keys/ocr2key"
"github.com/smartcontractkit/chainlink/v2/core/services/keystore/keys/ocrkey"
"github.com/smartcontractkit/chainlink/v2/core/services/keystore/keys/p2pkey"
"github.com/smartcontractkit/chainlink/v2/core/services/keystore/keys/solkey"
"github.com/smartcontractkit/chainlink/v2/core/services/keystore/keys/starkkey"
"github.com/smartcontractkit/chainlink/v2/core/services/keystore/keys/vrfkey"
"github.com/smartcontractkit/chainlink/v2/core/utils"
)
type encryptedKeyRing struct {
UpdatedAt time.Time
EncryptedKeys []byte
}
func (ekr encryptedKeyRing) Decrypt(password string) (*keyRing, error) {
if len(ekr.EncryptedKeys) == 0 {
return newKeyRing(), nil
}
var cryptoJSON gethkeystore.CryptoJSON
err := json.Unmarshal(ekr.EncryptedKeys, &cryptoJSON)
if err != nil {
return nil, err
}
marshalledRawKeyRingJson, err := gethkeystore.DecryptDataV3(cryptoJSON, adulteratedPassword(password))
if err != nil {
return nil, err
}
var rawKeys rawKeyRing
err = json.Unmarshal(marshalledRawKeyRingJson, &rawKeys)
if err != nil {
return nil, err
}
ring, err := rawKeys.keys()
if err != nil {
return nil, err
}
err = rawKeys.LegacyKeys.StoreUnsupported(marshalledRawKeyRingJson, ring)
if err != nil {
return nil, err
}
ring.LegacyKeys = rawKeys.LegacyKeys
return ring, nil
}
type keyStates struct {
// Key ID => chain ID => state
KeyIDChainID map[string]map[string]*ethkey.State
// Chain ID => Key ID => state
ChainIDKeyID map[string]map[string]*ethkey.State
All []*ethkey.State
}
func newKeyStates() *keyStates {
return &keyStates{
KeyIDChainID: make(map[string]map[string]*ethkey.State),
ChainIDKeyID: make(map[string]map[string]*ethkey.State),
}
}
// warning: not thread-safe! caller must sync
// adds or replaces a state
func (ks *keyStates) add(state *ethkey.State) {
cid := state.EVMChainID.String()
kid := state.KeyID()
keyStates, exists := ks.KeyIDChainID[kid]
if !exists {
keyStates = make(map[string]*ethkey.State)
ks.KeyIDChainID[kid] = keyStates
}
keyStates[cid] = state
chainStates, exists := ks.ChainIDKeyID[cid]
if !exists {
chainStates = make(map[string]*ethkey.State)
ks.ChainIDKeyID[cid] = chainStates
}
chainStates[kid] = state
exists = false
for i, existingState := range ks.All {
if existingState.ID == state.ID {
ks.All[i] = state
exists = true
break
}
}
if !exists {
ks.All = append(ks.All, state)
}
}
// warning: not thread-safe! caller must sync
func (ks *keyStates) get(addr common.Address, chainID *big.Int) *ethkey.State {
chainStates, exists := ks.KeyIDChainID[addr.Hex()]
if !exists {
return nil
}
return chainStates[chainID.String()]
}
// warning: not thread-safe! caller must sync
func (ks *keyStates) disable(addr common.Address, chainID *big.Int, updatedAt time.Time) {
state := ks.get(addr, chainID)
state.Disabled = true
state.UpdatedAt = updatedAt
}
// warning: not thread-safe! caller must sync
func (ks *keyStates) enable(addr common.Address, chainID *big.Int, updatedAt time.Time) {
state := ks.get(addr, chainID)
state.Disabled = false
state.UpdatedAt = updatedAt
}
// warning: not thread-safe! caller must sync
func (ks *keyStates) delete(addr common.Address) {
var chainIDs []*big.Int
for i := len(ks.All) - 1; i >= 0; i-- {
if ks.All[i].Address.Address() == addr {
chainIDs = append(chainIDs, ks.All[i].EVMChainID.ToInt())
ks.All = append(ks.All[:i], ks.All[i+1:]...)
}
}
for _, cid := range chainIDs {
delete(ks.KeyIDChainID[addr.Hex()], cid.String())
delete(ks.ChainIDKeyID[cid.String()], addr.Hex())
}
}
type keyRing struct {
CSA map[string]csakey.KeyV2
Eth map[string]ethkey.KeyV2
OCR map[string]ocrkey.KeyV2
OCR2 map[string]ocr2key.KeyBundle
P2P map[string]p2pkey.KeyV2
Cosmos map[string]cosmoskey.Key
Solana map[string]solkey.Key
StarkNet map[string]starkkey.Key
VRF map[string]vrfkey.KeyV2
DKGSign map[string]dkgsignkey.Key
DKGEncrypt map[string]dkgencryptkey.Key
LegacyKeys LegacyKeyStorage
}
func newKeyRing() *keyRing {
return &keyRing{
CSA: make(map[string]csakey.KeyV2),
Eth: make(map[string]ethkey.KeyV2),
OCR: make(map[string]ocrkey.KeyV2),
OCR2: make(map[string]ocr2key.KeyBundle),
P2P: make(map[string]p2pkey.KeyV2),
Cosmos: make(map[string]cosmoskey.Key),
Solana: make(map[string]solkey.Key),
StarkNet: make(map[string]starkkey.Key),
VRF: make(map[string]vrfkey.KeyV2),
DKGSign: make(map[string]dkgsignkey.Key),
DKGEncrypt: make(map[string]dkgencryptkey.Key),
}
}
func (kr *keyRing) Encrypt(password string, scryptParams utils.ScryptParams) (ekr encryptedKeyRing, err error) {
marshalledRawKeyRingJson, err := json.Marshal(kr.raw())
if err != nil {
return ekr, err
}
marshalledRawKeyRingJson, err = kr.LegacyKeys.UnloadUnsupported(marshalledRawKeyRingJson)
if err != nil {
return encryptedKeyRing{}, err
}
cryptoJSON, err := gethkeystore.EncryptDataV3(
marshalledRawKeyRingJson,
[]byte(adulteratedPassword(password)),
scryptParams.N,
scryptParams.P,
)
if err != nil {
return ekr, errors.Wrapf(err, "could not encrypt key ring")
}
encryptedKeys, err := json.Marshal(&cryptoJSON)
if err != nil {
return ekr, errors.Wrapf(err, "could not encode cryptoJSON")
}
return encryptedKeyRing{
EncryptedKeys: encryptedKeys,
}, nil
}
func (kr *keyRing) raw() (rawKeys rawKeyRing) {
for _, csaKey := range kr.CSA {
rawKeys.CSA = append(rawKeys.CSA, csaKey.Raw())
}
for _, ethKey := range kr.Eth {
rawKeys.Eth = append(rawKeys.Eth, ethKey.Raw())
}
for _, ocrKey := range kr.OCR {
rawKeys.OCR = append(rawKeys.OCR, ocrKey.Raw())
}
for _, ocr2key := range kr.OCR2 {
rawKeys.OCR2 = append(rawKeys.OCR2, ocr2key.Raw())
}
for _, p2pKey := range kr.P2P {
rawKeys.P2P = append(rawKeys.P2P, p2pKey.Raw())
}
for _, cosmoskey := range kr.Cosmos {
rawKeys.Cosmos = append(rawKeys.Cosmos, cosmoskey.Raw())
}
for _, solkey := range kr.Solana {
rawKeys.Solana = append(rawKeys.Solana, solkey.Raw())
}
for _, starkkey := range kr.StarkNet {
rawKeys.StarkNet = append(rawKeys.StarkNet, starkkey.Raw())
}
for _, vrfKey := range kr.VRF {
rawKeys.VRF = append(rawKeys.VRF, vrfKey.Raw())
}
for _, dkgSignKey := range kr.DKGSign {
rawKeys.DKGSign = append(rawKeys.DKGSign, dkgSignKey.Raw())
}
for _, dkgEncryptKey := range kr.DKGEncrypt {
rawKeys.DKGEncrypt = append(rawKeys.DKGEncrypt, dkgEncryptKey.Raw())
}
return rawKeys
}
func (kr *keyRing) logPubKeys(lggr logger.Logger) {
lggr = lggr.Named("KeyRing")
var csaIDs []string
for _, CSAKey := range kr.CSA {
csaIDs = append(csaIDs, CSAKey.ID())
}
var ethIDs []string
for _, ETHKey := range kr.Eth {
ethIDs = append(ethIDs, ETHKey.ID())
}
var ocrIDs []string
for _, OCRKey := range kr.OCR {
ocrIDs = append(ocrIDs, OCRKey.ID())
}
var ocr2IDs []string
for _, OCR2Key := range kr.OCR2 {
ocr2IDs = append(ocr2IDs, OCR2Key.ID())
}
var p2pIDs []string
for _, P2PKey := range kr.P2P {
p2pIDs = append(p2pIDs, P2PKey.ID())
}
var cosmosIDs []string
for _, cosmosKey := range kr.Cosmos {
cosmosIDs = append(cosmosIDs, cosmosKey.ID())
}
var solanaIDs []string
for _, solanaKey := range kr.Solana {
solanaIDs = append(solanaIDs, solanaKey.ID())
}
var starknetIDs []string
for _, starkkey := range kr.StarkNet {
starknetIDs = append(starknetIDs, starkkey.ID())
}
var vrfIDs []string
for _, VRFKey := range kr.VRF {
vrfIDs = append(vrfIDs, VRFKey.ID())
}
var dkgSignIDs []string
for _, dkgSignKey := range kr.DKGSign {
dkgSignIDs = append(dkgSignIDs, dkgSignKey.ID())
}
var dkgEncryptIDs []string
for _, dkgEncryptKey := range kr.DKGEncrypt {
dkgEncryptIDs = append(dkgEncryptIDs, dkgEncryptKey.ID())
}
if len(csaIDs) > 0 {
lggr.Infow(fmt.Sprintf("Unlocked %d CSA keys", len(csaIDs)), "keys", csaIDs)
}
if len(ethIDs) > 0 {
lggr.Infow(fmt.Sprintf("Unlocked %d ETH keys", len(ethIDs)), "keys", ethIDs)
}
if len(ocrIDs) > 0 {
lggr.Infow(fmt.Sprintf("Unlocked %d OCR keys", len(ocrIDs)), "keys", ocrIDs)
}
if len(ocr2IDs) > 0 {
lggr.Infow(fmt.Sprintf("Unlocked %d OCR2 keys", len(ocr2IDs)), "keys", ocr2IDs)
}
if len(p2pIDs) > 0 {
lggr.Infow(fmt.Sprintf("Unlocked %d P2P keys", len(p2pIDs)), "keys", p2pIDs)
}
if len(cosmosIDs) > 0 {
lggr.Infow(fmt.Sprintf("Unlocked %d Cosmos keys", len(cosmosIDs)), "keys", cosmosIDs)
}
if len(solanaIDs) > 0 {
lggr.Infow(fmt.Sprintf("Unlocked %d Solana keys", len(solanaIDs)), "keys", solanaIDs)
}
if len(starknetIDs) > 0 {
lggr.Infow(fmt.Sprintf("Unlocked %d StarkNet keys", len(starknetIDs)), "keys", starknetIDs)
}
if len(vrfIDs) > 0 {
lggr.Infow(fmt.Sprintf("Unlocked %d VRF keys", len(vrfIDs)), "keys", vrfIDs)
}
if len(dkgSignIDs) > 0 {
lggr.Infow(fmt.Sprintf("Unlocked %d DKGSign keys", len(dkgSignIDs)), "keys", dkgSignIDs)
}
if len(dkgEncryptIDs) > 0 {
lggr.Infow(fmt.Sprintf("Unlocked %d DKGEncrypt keys", len(dkgEncryptIDs)), "keys", dkgEncryptIDs)
}
if len(kr.LegacyKeys.legacyRawKeys) > 0 {
lggr.Infow(fmt.Sprintf("%d keys stored in legacy system", kr.LegacyKeys.legacyRawKeys.len()))
}
}
// rawKeyRing is an intermediate struct for encrypting / decrypting keyRing
// it holds only the essential key information to avoid adding unnecessary data
// (like public keys) to the database
type rawKeyRing struct {
Eth []ethkey.Raw
CSA []csakey.Raw
OCR []ocrkey.Raw
OCR2 []ocr2key.Raw
P2P []p2pkey.Raw
Cosmos []cosmoskey.Raw
Solana []solkey.Raw
StarkNet []starkkey.Raw
VRF []vrfkey.Raw
DKGSign []dkgsignkey.Raw
DKGEncrypt []dkgencryptkey.Raw
LegacyKeys LegacyKeyStorage `json:"-"`
}
func (rawKeys rawKeyRing) keys() (*keyRing, error) {
keyRing := newKeyRing()
for _, rawCSAKey := range rawKeys.CSA {
csaKey := rawCSAKey.Key()
keyRing.CSA[csaKey.ID()] = csaKey
}
for _, rawETHKey := range rawKeys.Eth {
ethKey := rawETHKey.Key()
keyRing.Eth[ethKey.ID()] = ethKey
}
for _, rawOCRKey := range rawKeys.OCR {
ocrKey := rawOCRKey.Key()
keyRing.OCR[ocrKey.ID()] = ocrKey
}
for _, rawOCR2Key := range rawKeys.OCR2 {
if ocr2Key := rawOCR2Key.Key(); ocr2Key != nil {
keyRing.OCR2[ocr2Key.ID()] = ocr2Key
}
}
for _, rawP2PKey := range rawKeys.P2P {
p2pKey := rawP2PKey.Key()
keyRing.P2P[p2pKey.ID()] = p2pKey
}
for _, rawCosmosKey := range rawKeys.Cosmos {
cosmosKey := rawCosmosKey.Key()
keyRing.Cosmos[cosmosKey.ID()] = cosmosKey
}
for _, rawSolKey := range rawKeys.Solana {
solKey := rawSolKey.Key()
keyRing.Solana[solKey.ID()] = solKey
}
for _, rawStarkNetKey := range rawKeys.StarkNet {
starkKey := rawStarkNetKey.Key()
keyRing.StarkNet[starkKey.ID()] = starkKey
}
for _, rawVRFKey := range rawKeys.VRF {
vrfKey := rawVRFKey.Key()
keyRing.VRF[vrfKey.ID()] = vrfKey
}
for _, rawDKGSignKey := range rawKeys.DKGSign {
dkgSignKey := rawDKGSignKey.Key()
keyRing.DKGSign[dkgSignKey.ID()] = dkgSignKey
}
for _, rawDKGEncryptKey := range rawKeys.DKGEncrypt {
dkgEncryptKey := rawDKGEncryptKey.Key()
keyRing.DKGEncrypt[dkgEncryptKey.ID()] = dkgEncryptKey
}
keyRing.LegacyKeys = rawKeys.LegacyKeys
return keyRing, nil
}
// adulteration prevents the password from getting used in the wrong place
func adulteratedPassword(password string) string {
return "master-password-" + password
}