/** * <code>repeated .wallet.Key key = 3;</code> */ public org.bitcoinj.wallet.Protos.Key.Builder addKeyBuilder( int index) { return getKeyFieldBuilder().addBuilder( index, org.bitcoinj.wallet.Protos.Key.getDefaultInstance()); } /**
/** * <code>repeated .wallet.Key key = 3;</code> */ public org.bitcoinj.wallet.Protos.Key.Builder addKeyBuilder() { return getKeyFieldBuilder().addBuilder( org.bitcoinj.wallet.Protos.Key.getDefaultInstance()); } /**
/** * <code>repeated .wallet.Key key = 3;</code> */ public org.bitcoinj.wallet.Protos.Key.Builder addKeyBuilder( int index) { return getKeyFieldBuilder().addBuilder( index, org.bitcoinj.wallet.Protos.Key.getDefaultInstance()); } /**
/** * <code>optional bytes deterministic_seed = 8;</code> * * <pre> * The seed for a deterministic key hierarchy. Derived from the mnemonic, * but cached here for quick startup. Only applicable to a DETERMINISTIC_MNEMONIC key entry. * </pre> */ public Builder clearDeterministicSeed() { bitField0_ = (bitField0_ & ~0x00000080); deterministicSeed_ = getDefaultInstance().getDeterministicSeed(); onChanged(); return this; }
/** * <code>optional string label = 4;</code> * * <pre> * User-provided label associated with the key. * </pre> */ public Builder clearLabel() { bitField0_ = (bitField0_ & ~0x00000010); label_ = getDefaultInstance().getLabel(); onChanged(); return this; } /**
/** * <code>optional string label = 4;</code> * * <pre> * User-provided label associated with the key. * </pre> */ public Builder clearLabel() { bitField0_ = (bitField0_ & ~0x00000010); label_ = getDefaultInstance().getLabel(); onChanged(); return this; } /**
/** * <code>optional bytes public_key = 3;</code> * * <pre> * The public EC key derived from the private key. We allow both to be stored to avoid mobile clients having to * do lots of slow EC math on startup. For DETERMINISTIC_MNEMONIC entries this is missing. * </pre> */ public Builder clearPublicKey() { bitField0_ = (bitField0_ & ~0x00000008); publicKey_ = getDefaultInstance().getPublicKey(); onChanged(); return this; }
/** * <code>optional bytes secret_bytes = 2;</code> * * <pre> * Either the private EC key bytes (without any ASN.1 wrapping), or the deterministic root seed. * If the secret is encrypted, or this is a "watching entry" then this is missing. * </pre> */ public Builder clearSecretBytes() { bitField0_ = (bitField0_ & ~0x00000002); secretBytes_ = getDefaultInstance().getSecretBytes(); onChanged(); return this; }
/** * <code>optional bytes secret_bytes = 2;</code> * * <pre> * Either the private EC key bytes (without any ASN.1 wrapping), or the deterministic root seed. * If the secret is encrypted, or this is a "watching entry" then this is missing. * </pre> */ public Builder clearSecretBytes() { bitField0_ = (bitField0_ & ~0x00000002); secretBytes_ = getDefaultInstance().getSecretBytes(); onChanged(); return this; }
/** * <code>optional bytes deterministic_seed = 8;</code> * * <pre> * The seed for a deterministic key hierarchy. Derived from the mnemonic, * but cached here for quick startup. Only applicable to a DETERMINISTIC_MNEMONIC key entry. * </pre> */ public Builder clearDeterministicSeed() { bitField0_ = (bitField0_ & ~0x00000080); deterministicSeed_ = getDefaultInstance().getDeterministicSeed(); onChanged(); return this; }
/** * <code>optional bytes public_key = 3;</code> * * <pre> * The public EC key derived from the private key. We allow both to be stored to avoid mobile clients having to * do lots of slow EC math on startup. For DETERMINISTIC_MNEMONIC entries this is missing. * </pre> */ public Builder clearPublicKey() { bitField0_ = (bitField0_ & ~0x00000008); publicKey_ = getDefaultInstance().getPublicKey(); onChanged(); return this; }
public org.bitcoinj.wallet.Protos.Key getDefaultInstanceForType() { return org.bitcoinj.wallet.Protos.Key.getDefaultInstance(); }
/** * <code>optional bytes private_key = 2;</code> * * <pre> * The private EC key bytes without any ASN.1 wrapping. * </pre> */ public Builder clearPrivateKey() { bitField0_ = (bitField0_ & ~0x00000002); privateKey_ = getDefaultInstance().getPrivateKey(); onChanged(); return this; }
/** * <code>repeated .wallet.Key key = 3;</code> */ public org.bitcoinj.wallet.Protos.Key.Builder addKeyBuilder() { return getKeyFieldBuilder().addBuilder( org.bitcoinj.wallet.Protos.Key.getDefaultInstance()); } /**
/** * <code>repeated .wallet.Key key = 3;</code> */ public org.bitcoinj.wallet.Protos.Key.Builder addKeyBuilder( int index) { return getKeyFieldBuilder().addBuilder( index, org.bitcoinj.wallet.Protos.Key.getDefaultInstance()); } /**
/** * <code>repeated .wallet.Key key = 3;</code> */ public org.bitcoinj.wallet.Protos.Key.Builder addKeyBuilder( int index) { return getKeyFieldBuilder().addBuilder( index, org.bitcoinj.wallet.Protos.Key.getDefaultInstance()); } /**
/** * <code>repeated .wallet.Key key = 3;</code> */ public org.bitcoinj.wallet.Protos.Key.Builder addKeyBuilder() { return getKeyFieldBuilder().addBuilder( org.bitcoinj.wallet.Protos.Key.getDefaultInstance()); } /**
/** * <code>repeated .wallet.Key key = 3;</code> */ public org.bitcoinj.wallet.Protos.Key.Builder addKeyBuilder( int index) { return getKeyFieldBuilder().addBuilder( index, org.bitcoinj.wallet.Protos.Key.getDefaultInstance()); } /**
/** * <code>repeated .wallet.Key key = 3;</code> */ public org.bitcoinj.wallet.Protos.Key.Builder addKeyBuilder() { return getKeyFieldBuilder().addBuilder( org.bitcoinj.wallet.Protos.Key.getDefaultInstance()); } /**
/** * <code>repeated .wallet.Key key = 3;</code> */ public org.bitcoinj.wallet.Protos.Key.Builder addKeyBuilder() { return getKeyFieldBuilder().addBuilder( org.bitcoinj.wallet.Protos.Key.getDefaultInstance()); } /**