Documentation ¶
Index ¶
- Variables
- func ArmorInfoBytes(bz []byte) string
- func ArmorPubKeyBytes(bz []byte, algo string) string
- func DecodeArmor(armorStr string) (blockType string, headers map[string]string, data []byte, err error)
- func EncodeArmor(blockType string, headers map[string]string, data []byte) string
- func EncryptArmorPrivKey(privKey cryptotypes.PrivKey, passphrase, algo string) string
- func UnarmorDecryptPrivKey(armorStr, passphrase string) (privKey cryptotypes.PrivKey, algo string, err error)
- func UnarmorInfoBytes(armorStr string) ([]byte, error)
- func UnarmorPubKeyBytes(armorStr string) (bz []byte, algo string, err error)
Constants ¶
This section is empty.
Variables ¶
var BcryptSecurityParameter uint32 = 12
BcryptSecurityParameter is security parameter var, and it can be changed within the lcd test. Making the bcrypt security parameter a var shouldn't be a security issue: One can't verify an invalid key by maliciously changing the bcrypt parameter during a runtime vulnerability. The main security threat this then exposes would be something that changes this during runtime before the user creates their key. This vulnerability must succeed to update this to that same value before every subsequent call to the keys command in future startups / or the attacker must get access to the filesystem. However, with a similar threat model (changing variables in runtime), one can cause the user to sign a different tx than what they see, which is a significantly cheaper attack then breaking a bcrypt hash. (Recall that the nonce still exists to break rainbow tables) For further notes on security parameter choice, see README.md
Functions ¶
func DecodeArmor ¶ added in v0.46.0
func EncodeArmor ¶ added in v0.46.0
func EncryptArmorPrivKey ¶
func EncryptArmorPrivKey(privKey cryptotypes.PrivKey, passphrase, algo string) string
Encrypt and armor the private key.
func UnarmorDecryptPrivKey ¶
func UnarmorDecryptPrivKey(armorStr, passphrase string) (privKey cryptotypes.PrivKey, algo string, err error)
UnarmorDecryptPrivKey returns the privkey byte slice, a string of the algo type, and an error
func UnarmorInfoBytes ¶
Unarmor the InfoBytes
Types ¶
This section is empty.
Directories ¶
Path | Synopsis |
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Package hd provides support for hierarchical deterministic wallets generation and derivation.
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Package hd provides support for hierarchical deterministic wallets generation and derivation. |
Package keyring provides common key management API.
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Package keyring provides common key management API. |
keys
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bcrypt
Package bcrypt implements Provos and Mazières's bcrypt adaptive hashing algorithm.
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Package bcrypt implements Provos and Mazières's bcrypt adaptive hashing algorithm. |
internal/ecdsa
Package ECDSA implements Cosmos-SDK compatible ECDSA public and private key.
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Package ECDSA implements Cosmos-SDK compatible ECDSA public and private key. |
secp256r1
Package secp256r1 implements Cosmos-SDK compatible ECDSA public and private key.
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Package secp256r1 implements Cosmos-SDK compatible ECDSA public and private key. |