Merge rust-bitcoin/rust-secp256k1#648: Rename KeyPair to Keypair
33747bb16f
Rename KeyPair to Keypair (Tobin C. Harding) Pull request description: We use "keypair" in identifiers (local vars and function names) but `KeyPair` - one of them is wrong. Elect to follow upstream and define keypair as a single word i.e., use `Keypair` for type name and `keypair` in identifiers. This patch can be reproduced mechanically by doing two search-and-replace operations on all files excluding the CHANGELOG - Replace "KeyPair" with "Keypair" - Replace "key_pair" with "keypair" Fix #647 ACKs for top commit: apoelstra: ACK33747bb16f
Tree-SHA512: 2cb67cde3a39c4681e0628b17b12724fe17d00bc71e985b4eb0b3ad58d574f4a372aa782fc9cb7221cd2032d8312c579195ad2230a3eeb4c550865fa36e42c0b
This commit is contained in:
commit
d9aadc6eaa
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@ -49,7 +49,7 @@ bench marks use: `RUSTFLAGS='--cfg=bench' cargo +nightly bench --features=recove
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### A note on `non_secure_erase`
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### A note on `non_secure_erase`
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This crate's secret types (`SecretKey`, `KeyPair`, `SharedSecret`, `Scalar`, and `DisplaySecret`)
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This crate's secret types (`SecretKey`, `Keypair`, `SharedSecret`, `Scalar`, and `DisplaySecret`)
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have a method called `non_secure_erase` that *attempts* to overwrite the contained secret. This
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have a method called `non_secure_erase` that *attempts* to overwrite the contained secret. This
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method is provided to assist other libraries in building secure secret erasure. However, this
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method is provided to assist other libraries in building secure secret erasure. However, this
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library makes no guarantees about the security of using `non_secure_erase`. In particular,
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library makes no guarantees about the security of using `non_secure_erase`. In particular,
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@ -395,11 +395,11 @@ impl core::hash::Hash for XOnlyPublicKey {
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#[repr(C)]
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#[repr(C)]
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#[derive(Copy, Clone)]
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#[derive(Copy, Clone)]
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#[cfg_attr(secp256k1_fuzz, derive(PartialEq, Eq, PartialOrd, Ord, Hash))]
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#[cfg_attr(secp256k1_fuzz, derive(PartialEq, Eq, PartialOrd, Ord, Hash))]
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pub struct KeyPair([c_uchar; 96]);
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pub struct Keypair([c_uchar; 96]);
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impl_array_newtype!(KeyPair, c_uchar, 96);
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impl_array_newtype!(Keypair, c_uchar, 96);
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impl_raw_debug!(KeyPair);
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impl_raw_debug!(Keypair);
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impl KeyPair {
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impl Keypair {
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/// Creates an "uninitialized" FFI keypair which is zeroed out
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/// Creates an "uninitialized" FFI keypair which is zeroed out
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///
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///
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/// # Safety
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/// # Safety
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@ -421,7 +421,7 @@ impl KeyPair {
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/// that you obtained from the FFI interface of the same version of this
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/// that you obtained from the FFI interface of the same version of this
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/// library.
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/// library.
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pub unsafe fn from_array_unchecked(data: [c_uchar; 96]) -> Self {
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pub unsafe fn from_array_unchecked(data: [c_uchar; 96]) -> Self {
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KeyPair(data)
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Keypair(data)
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}
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}
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/// Returns the underlying FFI opaque representation of the x-only public key
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/// Returns the underlying FFI opaque representation of the x-only public key
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@ -480,15 +480,15 @@ pub fn non_secure_erase_impl<T>(dst: &mut T, src: T) {
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}
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}
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#[cfg(not(secp256k1_fuzz))]
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#[cfg(not(secp256k1_fuzz))]
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impl PartialOrd for KeyPair {
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impl PartialOrd for Keypair {
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fn partial_cmp(&self, other: &KeyPair) -> Option<core::cmp::Ordering> {
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fn partial_cmp(&self, other: &Keypair) -> Option<core::cmp::Ordering> {
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Some(self.cmp(other))
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Some(self.cmp(other))
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}
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}
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}
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}
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#[cfg(not(secp256k1_fuzz))]
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#[cfg(not(secp256k1_fuzz))]
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impl Ord for KeyPair {
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impl Ord for Keypair {
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fn cmp(&self, other: &KeyPair) -> core::cmp::Ordering {
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fn cmp(&self, other: &Keypair) -> core::cmp::Ordering {
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let this = self.public_key();
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let this = self.public_key();
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let that = other.public_key();
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let that = other.public_key();
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this.cmp(&that)
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this.cmp(&that)
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@ -496,17 +496,17 @@ impl Ord for KeyPair {
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}
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}
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#[cfg(not(secp256k1_fuzz))]
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#[cfg(not(secp256k1_fuzz))]
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impl PartialEq for KeyPair {
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impl PartialEq for Keypair {
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fn eq(&self, other: &Self) -> bool {
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fn eq(&self, other: &Self) -> bool {
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self.cmp(other) == core::cmp::Ordering::Equal
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self.cmp(other) == core::cmp::Ordering::Equal
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}
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}
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}
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}
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#[cfg(not(secp256k1_fuzz))]
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#[cfg(not(secp256k1_fuzz))]
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impl Eq for KeyPair {}
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impl Eq for Keypair {}
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#[cfg(not(secp256k1_fuzz))]
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#[cfg(not(secp256k1_fuzz))]
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impl core::hash::Hash for KeyPair {
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impl core::hash::Hash for Keypair {
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fn hash<H: core::hash::Hasher>(&self, state: &mut H) {
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fn hash<H: core::hash::Hasher>(&self, state: &mut H) {
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// To hash the key pair we just hash the serialized public key. Since any change to the
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// To hash the key pair we just hash the serialized public key. Since any change to the
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// secret key would also be a change to the public key this is a valid one way function from
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// secret key would also be a change to the public key this is a valid one way function from
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@ -592,13 +592,13 @@ extern "C" {
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#[cfg_attr(not(rust_secp_no_symbol_renaming), link_name = "rustsecp256k1_v0_8_1_keypair_sec")]
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#[cfg_attr(not(rust_secp_no_symbol_renaming), link_name = "rustsecp256k1_v0_8_1_keypair_sec")]
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pub fn secp256k1_keypair_sec(cx: *const Context,
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pub fn secp256k1_keypair_sec(cx: *const Context,
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output_seckey: *mut c_uchar,
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output_seckey: *mut c_uchar,
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keypair: *const KeyPair)
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keypair: *const Keypair)
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-> c_int;
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-> c_int;
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#[cfg_attr(not(rust_secp_no_symbol_renaming), link_name = "rustsecp256k1_v0_8_1_keypair_pub")]
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#[cfg_attr(not(rust_secp_no_symbol_renaming), link_name = "rustsecp256k1_v0_8_1_keypair_pub")]
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pub fn secp256k1_keypair_pub(cx: *const Context,
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pub fn secp256k1_keypair_pub(cx: *const Context,
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output_pubkey: *mut PublicKey,
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output_pubkey: *mut PublicKey,
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keypair: *const KeyPair)
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keypair: *const Keypair)
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-> c_int;
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-> c_int;
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}
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}
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@ -702,7 +702,7 @@ extern "C" {
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cx: *const Context,
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cx: *const Context,
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sig: *mut c_uchar,
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sig: *mut c_uchar,
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msg32: *const c_uchar,
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msg32: *const c_uchar,
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keypair: *const KeyPair,
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keypair: *const Keypair,
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aux_rand32: *const c_uchar
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aux_rand32: *const c_uchar
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) -> c_int;
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) -> c_int;
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@ -713,7 +713,7 @@ extern "C" {
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sig: *mut c_uchar,
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sig: *mut c_uchar,
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msg: *const c_uchar,
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msg: *const c_uchar,
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msg_len: size_t,
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msg_len: size_t,
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keypair: *const KeyPair,
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keypair: *const Keypair,
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extra_params: *const SchnorrSigExtraParams,
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extra_params: *const SchnorrSigExtraParams,
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) -> c_int;
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) -> c_int;
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@ -730,7 +730,7 @@ extern "C" {
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#[cfg_attr(not(rust_secp_no_symbol_renaming), link_name = "rustsecp256k1_v0_8_1_keypair_create")]
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#[cfg_attr(not(rust_secp_no_symbol_renaming), link_name = "rustsecp256k1_v0_8_1_keypair_create")]
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pub fn secp256k1_keypair_create(
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pub fn secp256k1_keypair_create(
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cx: *const Context,
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cx: *const Context,
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keypair: *mut KeyPair,
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keypair: *mut Keypair,
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seckey: *const c_uchar,
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seckey: *const c_uchar,
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) -> c_int;
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) -> c_int;
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@ -776,13 +776,13 @@ extern "C" {
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cx: *const Context,
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cx: *const Context,
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pubkey: *mut XOnlyPublicKey,
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pubkey: *mut XOnlyPublicKey,
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pk_parity: *mut c_int,
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pk_parity: *mut c_int,
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keypair: *const KeyPair
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keypair: *const Keypair
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) -> c_int;
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) -> c_int;
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#[cfg_attr(not(rust_secp_no_symbol_renaming), link_name = "rustsecp256k1_v0_8_1_keypair_xonly_tweak_add")]
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#[cfg_attr(not(rust_secp_no_symbol_renaming), link_name = "rustsecp256k1_v0_8_1_keypair_xonly_tweak_add")]
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pub fn secp256k1_keypair_xonly_tweak_add(
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pub fn secp256k1_keypair_xonly_tweak_add(
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cx: *const Context,
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cx: *const Context,
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keypair: *mut KeyPair,
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keypair: *mut Keypair,
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tweak32: *const c_uchar,
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tweak32: *const c_uchar,
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) -> c_int;
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) -> c_int;
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@ -1316,12 +1316,12 @@ mod fuzz_dummy {
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cx: *const Context,
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cx: *const Context,
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sig64: *mut c_uchar,
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sig64: *mut c_uchar,
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msg32: *const c_uchar,
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msg32: *const c_uchar,
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keypair: *const KeyPair,
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keypair: *const Keypair,
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_aux_rand32: *const c_uchar
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_aux_rand32: *const c_uchar
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) -> c_int {
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) -> c_int {
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check_context_flags(cx, SECP256K1_START_SIGN);
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check_context_flags(cx, SECP256K1_START_SIGN);
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// Check context is built for signing
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// Check context is built for signing
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let mut new_kp = KeyPair::new();
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let mut new_kp = Keypair::new();
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if secp256k1_keypair_create(cx, &mut new_kp, (*keypair).0.as_ptr()) != 1 {
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if secp256k1_keypair_create(cx, &mut new_kp, (*keypair).0.as_ptr()) != 1 {
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return 0;
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return 0;
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}
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}
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@ -1341,7 +1341,7 @@ mod fuzz_dummy {
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sig: *mut c_uchar,
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sig: *mut c_uchar,
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msg: *const c_uchar,
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msg: *const c_uchar,
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_msg_len: size_t,
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_msg_len: size_t,
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keypair: *const KeyPair,
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keypair: *const Keypair,
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_extra_params: *const SchnorrSigExtraParams,
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_extra_params: *const SchnorrSigExtraParams,
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) -> c_int {
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) -> c_int {
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secp256k1_schnorrsig_sign(cx, sig, msg, keypair, ptr::null())
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secp256k1_schnorrsig_sign(cx, sig, msg, keypair, ptr::null())
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@ -1350,7 +1350,7 @@ mod fuzz_dummy {
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// Extra keys
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// Extra keys
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pub unsafe fn secp256k1_keypair_create(
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pub unsafe fn secp256k1_keypair_create(
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cx: *const Context,
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cx: *const Context,
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keypair: *mut KeyPair,
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keypair: *mut Keypair,
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seckey: *const c_uchar,
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seckey: *const c_uchar,
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) -> c_int {
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) -> c_int {
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check_context_flags(cx, SECP256K1_START_SIGN);
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check_context_flags(cx, SECP256K1_START_SIGN);
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@ -1419,7 +1419,7 @@ mod fuzz_dummy {
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cx: *const Context,
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cx: *const Context,
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pubkey: *mut XOnlyPublicKey,
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pubkey: *mut XOnlyPublicKey,
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pk_parity: *mut c_int,
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pk_parity: *mut c_int,
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keypair: *const KeyPair
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keypair: *const Keypair
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) -> c_int {
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) -> c_int {
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check_context_flags(cx, 0);
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check_context_flags(cx, 0);
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if !pk_parity.is_null() {
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if !pk_parity.is_null() {
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@ -1431,7 +1431,7 @@ mod fuzz_dummy {
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pub unsafe fn secp256k1_keypair_xonly_tweak_add(
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pub unsafe fn secp256k1_keypair_xonly_tweak_add(
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cx: *const Context,
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cx: *const Context,
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keypair: *mut KeyPair,
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keypair: *mut Keypair,
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tweak32: *const c_uchar,
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tweak32: *const c_uchar,
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) -> c_int {
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) -> c_int {
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check_context_flags(cx, SECP256K1_START_VERIFY);
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check_context_flags(cx, SECP256K1_START_VERIFY);
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184
src/key.rs
184
src/key.rs
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@ -226,21 +226,21 @@ impl SecretKey {
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}
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}
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}
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}
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/// Creates a new secret key using data from BIP-340 [`KeyPair`].
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/// Creates a new secret key using data from BIP-340 [`Keypair`].
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///
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///
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/// # Examples
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/// # Examples
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///
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///
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/// ```
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/// ```
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/// # #[cfg(feature = "rand-std")] {
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/// # #[cfg(feature = "rand-std")] {
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/// use secp256k1::{rand, Secp256k1, SecretKey, KeyPair};
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/// use secp256k1::{rand, Secp256k1, SecretKey, Keypair};
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///
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///
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/// let secp = Secp256k1::new();
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/// let secp = Secp256k1::new();
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/// let key_pair = KeyPair::new(&secp, &mut rand::thread_rng());
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/// let keypair = Keypair::new(&secp, &mut rand::thread_rng());
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/// let secret_key = SecretKey::from_keypair(&key_pair);
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/// let secret_key = SecretKey::from_keypair(&keypair);
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/// # }
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/// # }
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/// ```
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/// ```
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#[inline]
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#[inline]
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pub fn from_keypair(keypair: &KeyPair) -> Self {
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pub fn from_keypair(keypair: &Keypair) -> Self {
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let mut sk = [0u8; constants::SECRET_KEY_SIZE];
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let mut sk = [0u8; constants::SECRET_KEY_SIZE];
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unsafe {
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unsafe {
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let ret = ffi::secp256k1_keypair_sec(
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let ret = ffi::secp256k1_keypair_sec(
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@ -342,12 +342,12 @@ impl SecretKey {
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#[cfg(feature = "global-context")]
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#[cfg(feature = "global-context")]
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pub fn sign_ecdsa(&self, msg: Message) -> ecdsa::Signature { SECP256K1.sign_ecdsa(&msg, self) }
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pub fn sign_ecdsa(&self, msg: Message) -> ecdsa::Signature { SECP256K1.sign_ecdsa(&msg, self) }
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/// Returns the [`KeyPair`] for this [`SecretKey`].
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/// Returns the [`Keypair`] for this [`SecretKey`].
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///
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///
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/// This is equivalent to using [`KeyPair::from_secret_key`].
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/// This is equivalent to using [`Keypair::from_secret_key`].
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#[inline]
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#[inline]
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pub fn keypair<C: Signing>(&self, secp: &Secp256k1<C>) -> KeyPair {
|
pub fn keypair<C: Signing>(&self, secp: &Secp256k1<C>) -> Keypair {
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KeyPair::from_secret_key(secp, self)
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Keypair::from_secret_key(secp, self)
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}
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}
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/// Returns the [`PublicKey`] for this [`SecretKey`].
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/// Returns the [`PublicKey`] for this [`SecretKey`].
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@ -478,21 +478,21 @@ impl PublicKey {
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}
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}
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}
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}
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|
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/// Creates a new compressed public key using data from BIP-340 [`KeyPair`].
|
/// Creates a new compressed public key using data from BIP-340 [`Keypair`].
|
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///
|
///
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/// # Examples
|
/// # Examples
|
||||||
///
|
///
|
||||||
/// ```
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/// ```
|
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/// # #[cfg(feature = "rand-std")] {
|
/// # #[cfg(feature = "rand-std")] {
|
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/// use secp256k1::{rand, Secp256k1, PublicKey, KeyPair};
|
/// use secp256k1::{rand, Secp256k1, PublicKey, Keypair};
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///
|
///
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/// let secp = Secp256k1::new();
|
/// let secp = Secp256k1::new();
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/// let key_pair = KeyPair::new(&secp, &mut rand::thread_rng());
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/// let keypair = Keypair::new(&secp, &mut rand::thread_rng());
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/// let public_key = PublicKey::from_keypair(&key_pair);
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/// let public_key = PublicKey::from_keypair(&keypair);
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/// # }
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/// # }
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/// ```
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/// ```
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#[inline]
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#[inline]
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||||||
pub fn from_keypair(keypair: &KeyPair) -> Self {
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pub fn from_keypair(keypair: &Keypair) -> Self {
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unsafe {
|
unsafe {
|
||||||
let mut pk = ffi::PublicKey::new();
|
let mut pk = ffi::PublicKey::new();
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let ret = ffi::secp256k1_keypair_pub(
|
let ret = ffi::secp256k1_keypair_pub(
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|
@ -778,25 +778,25 @@ impl<'de> serde::Deserialize<'de> for PublicKey {
|
||||||
///
|
///
|
||||||
/// ```
|
/// ```
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/// # #[cfg(feature = "rand-std")] {
|
/// # #[cfg(feature = "rand-std")] {
|
||||||
/// use secp256k1::{rand, KeyPair, Secp256k1};
|
/// use secp256k1::{rand, Keypair, Secp256k1};
|
||||||
///
|
///
|
||||||
/// let secp = Secp256k1::new();
|
/// let secp = Secp256k1::new();
|
||||||
/// let (secret_key, public_key) = secp.generate_keypair(&mut rand::thread_rng());
|
/// let (secret_key, public_key) = secp.generate_keypair(&mut rand::thread_rng());
|
||||||
/// let key_pair = KeyPair::from_secret_key(&secp, &secret_key);
|
/// let keypair = Keypair::from_secret_key(&secp, &secret_key);
|
||||||
/// # }
|
/// # }
|
||||||
/// ```
|
/// ```
|
||||||
/// [`bincode`]: https://docs.rs/bincode
|
/// [`bincode`]: https://docs.rs/bincode
|
||||||
/// [`cbor`]: https://docs.rs/cbor
|
/// [`cbor`]: https://docs.rs/cbor
|
||||||
#[derive(Copy, Clone, PartialOrd, Ord, PartialEq, Eq, Hash)]
|
#[derive(Copy, Clone, PartialOrd, Ord, PartialEq, Eq, Hash)]
|
||||||
pub struct KeyPair(ffi::KeyPair);
|
pub struct Keypair(ffi::Keypair);
|
||||||
impl_display_secret!(KeyPair);
|
impl_display_secret!(Keypair);
|
||||||
impl_fast_comparisons!(KeyPair);
|
impl_fast_comparisons!(Keypair);
|
||||||
|
|
||||||
impl KeyPair {
|
impl Keypair {
|
||||||
/// Obtains a raw const pointer suitable for use with FFI functions.
|
/// Obtains a raw const pointer suitable for use with FFI functions.
|
||||||
#[inline]
|
#[inline]
|
||||||
#[deprecated(since = "0.25.0", note = "Use Self::as_c_ptr if you need to access the FFI layer")]
|
#[deprecated(since = "0.25.0", note = "Use Self::as_c_ptr if you need to access the FFI layer")]
|
||||||
pub fn as_ptr(&self) -> *const ffi::KeyPair { self.as_c_ptr() }
|
pub fn as_ptr(&self) -> *const ffi::Keypair { self.as_c_ptr() }
|
||||||
|
|
||||||
/// Obtains a raw mutable pointer suitable for use with FFI functions.
|
/// Obtains a raw mutable pointer suitable for use with FFI functions.
|
||||||
#[inline]
|
#[inline]
|
||||||
|
@ -804,22 +804,22 @@ impl KeyPair {
|
||||||
since = "0.25.0",
|
since = "0.25.0",
|
||||||
note = "Use Self::as_mut_c_ptr if you need to access the FFI layer"
|
note = "Use Self::as_mut_c_ptr if you need to access the FFI layer"
|
||||||
)]
|
)]
|
||||||
pub fn as_mut_ptr(&mut self) -> *mut ffi::KeyPair { self.as_mut_c_ptr() }
|
pub fn as_mut_ptr(&mut self) -> *mut ffi::Keypair { self.as_mut_c_ptr() }
|
||||||
|
|
||||||
/// Creates a [`KeyPair`] directly from a Secp256k1 secret key.
|
/// Creates a [`Keypair`] directly from a Secp256k1 secret key.
|
||||||
#[inline]
|
#[inline]
|
||||||
pub fn from_secret_key<C: Signing>(secp: &Secp256k1<C>, sk: &SecretKey) -> KeyPair {
|
pub fn from_secret_key<C: Signing>(secp: &Secp256k1<C>, sk: &SecretKey) -> Keypair {
|
||||||
unsafe {
|
unsafe {
|
||||||
let mut kp = ffi::KeyPair::new();
|
let mut kp = ffi::Keypair::new();
|
||||||
if ffi::secp256k1_keypair_create(secp.ctx.as_ptr(), &mut kp, sk.as_c_ptr()) == 1 {
|
if ffi::secp256k1_keypair_create(secp.ctx.as_ptr(), &mut kp, sk.as_c_ptr()) == 1 {
|
||||||
KeyPair(kp)
|
Keypair(kp)
|
||||||
} else {
|
} else {
|
||||||
panic!("the provided secret key is invalid: it is corrupted or was not produced by Secp256k1 library")
|
panic!("the provided secret key is invalid: it is corrupted or was not produced by Secp256k1 library")
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
/// Creates a [`KeyPair`] directly from a secret key slice.
|
/// Creates a [`Keypair`] directly from a secret key slice.
|
||||||
///
|
///
|
||||||
/// # Errors
|
/// # Errors
|
||||||
///
|
///
|
||||||
|
@ -829,45 +829,45 @@ impl KeyPair {
|
||||||
pub fn from_seckey_slice<C: Signing>(
|
pub fn from_seckey_slice<C: Signing>(
|
||||||
secp: &Secp256k1<C>,
|
secp: &Secp256k1<C>,
|
||||||
data: &[u8],
|
data: &[u8],
|
||||||
) -> Result<KeyPair, Error> {
|
) -> Result<Keypair, Error> {
|
||||||
if data.is_empty() || data.len() != constants::SECRET_KEY_SIZE {
|
if data.is_empty() || data.len() != constants::SECRET_KEY_SIZE {
|
||||||
return Err(Error::InvalidSecretKey);
|
return Err(Error::InvalidSecretKey);
|
||||||
}
|
}
|
||||||
|
|
||||||
unsafe {
|
unsafe {
|
||||||
let mut kp = ffi::KeyPair::new();
|
let mut kp = ffi::Keypair::new();
|
||||||
if ffi::secp256k1_keypair_create(secp.ctx.as_ptr(), &mut kp, data.as_c_ptr()) == 1 {
|
if ffi::secp256k1_keypair_create(secp.ctx.as_ptr(), &mut kp, data.as_c_ptr()) == 1 {
|
||||||
Ok(KeyPair(kp))
|
Ok(Keypair(kp))
|
||||||
} else {
|
} else {
|
||||||
Err(Error::InvalidSecretKey)
|
Err(Error::InvalidSecretKey)
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
/// Creates a [`KeyPair`] directly from a secret key string.
|
/// Creates a [`Keypair`] directly from a secret key string.
|
||||||
///
|
///
|
||||||
/// # Errors
|
/// # Errors
|
||||||
///
|
///
|
||||||
/// [`Error::InvalidSecretKey`] if corresponding public key for the provided secret key is not even.
|
/// [`Error::InvalidSecretKey`] if corresponding public key for the provided secret key is not even.
|
||||||
#[inline]
|
#[inline]
|
||||||
pub fn from_seckey_str<C: Signing>(secp: &Secp256k1<C>, s: &str) -> Result<KeyPair, Error> {
|
pub fn from_seckey_str<C: Signing>(secp: &Secp256k1<C>, s: &str) -> Result<Keypair, Error> {
|
||||||
let mut res = [0u8; constants::SECRET_KEY_SIZE];
|
let mut res = [0u8; constants::SECRET_KEY_SIZE];
|
||||||
match from_hex(s, &mut res) {
|
match from_hex(s, &mut res) {
|
||||||
Ok(constants::SECRET_KEY_SIZE) =>
|
Ok(constants::SECRET_KEY_SIZE) =>
|
||||||
KeyPair::from_seckey_slice(secp, &res[0..constants::SECRET_KEY_SIZE]),
|
Keypair::from_seckey_slice(secp, &res[0..constants::SECRET_KEY_SIZE]),
|
||||||
_ => Err(Error::InvalidPublicKey),
|
_ => Err(Error::InvalidPublicKey),
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
/// Creates a [`KeyPair`] directly from a secret key string and the global [`SECP256K1`] context.
|
/// Creates a [`Keypair`] directly from a secret key string and the global [`SECP256K1`] context.
|
||||||
///
|
///
|
||||||
/// # Errors
|
/// # Errors
|
||||||
///
|
///
|
||||||
/// [`Error::InvalidSecretKey`] if corresponding public key for the provided secret key is not even.
|
/// [`Error::InvalidSecretKey`] if corresponding public key for the provided secret key is not even.
|
||||||
#[inline]
|
#[inline]
|
||||||
#[cfg(feature = "global-context")]
|
#[cfg(feature = "global-context")]
|
||||||
pub fn from_seckey_str_global(s: &str) -> Result<KeyPair, Error> {
|
pub fn from_seckey_str_global(s: &str) -> Result<Keypair, Error> {
|
||||||
KeyPair::from_seckey_str(SECP256K1, s)
|
Keypair::from_seckey_str(SECP256K1, s)
|
||||||
}
|
}
|
||||||
|
|
||||||
/// Generates a new random secret key.
|
/// Generates a new random secret key.
|
||||||
|
@ -875,32 +875,32 @@ impl KeyPair {
|
||||||
///
|
///
|
||||||
/// ```
|
/// ```
|
||||||
/// # #[cfg(feature = "rand-std")] {
|
/// # #[cfg(feature = "rand-std")] {
|
||||||
/// use secp256k1::{rand, Secp256k1, SecretKey, KeyPair};
|
/// use secp256k1::{rand, Secp256k1, SecretKey, Keypair};
|
||||||
///
|
///
|
||||||
/// let secp = Secp256k1::new();
|
/// let secp = Secp256k1::new();
|
||||||
/// let key_pair = KeyPair::new(&secp, &mut rand::thread_rng());
|
/// let keypair = Keypair::new(&secp, &mut rand::thread_rng());
|
||||||
/// # }
|
/// # }
|
||||||
/// ```
|
/// ```
|
||||||
#[inline]
|
#[inline]
|
||||||
#[cfg(feature = "rand")]
|
#[cfg(feature = "rand")]
|
||||||
pub fn new<R: rand::Rng + ?Sized, C: Signing>(secp: &Secp256k1<C>, rng: &mut R) -> KeyPair {
|
pub fn new<R: rand::Rng + ?Sized, C: Signing>(secp: &Secp256k1<C>, rng: &mut R) -> Keypair {
|
||||||
let mut data = crate::random_32_bytes(rng);
|
let mut data = crate::random_32_bytes(rng);
|
||||||
unsafe {
|
unsafe {
|
||||||
let mut keypair = ffi::KeyPair::new();
|
let mut keypair = ffi::Keypair::new();
|
||||||
while ffi::secp256k1_keypair_create(secp.ctx.as_ptr(), &mut keypair, data.as_c_ptr())
|
while ffi::secp256k1_keypair_create(secp.ctx.as_ptr(), &mut keypair, data.as_c_ptr())
|
||||||
== 0
|
== 0
|
||||||
{
|
{
|
||||||
data = crate::random_32_bytes(rng);
|
data = crate::random_32_bytes(rng);
|
||||||
}
|
}
|
||||||
KeyPair(keypair)
|
Keypair(keypair)
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
/// Generates a new random secret key using the global [`SECP256K1`] context.
|
/// Generates a new random secret key using the global [`SECP256K1`] context.
|
||||||
#[inline]
|
#[inline]
|
||||||
#[cfg(all(feature = "global-context", feature = "rand"))]
|
#[cfg(all(feature = "global-context", feature = "rand"))]
|
||||||
pub fn new_global<R: ::rand::Rng + ?Sized>(rng: &mut R) -> KeyPair {
|
pub fn new_global<R: ::rand::Rng + ?Sized>(rng: &mut R) -> Keypair {
|
||||||
KeyPair::new(SECP256K1, rng)
|
Keypair::new(SECP256K1, rng)
|
||||||
}
|
}
|
||||||
|
|
||||||
/// Returns the secret bytes for this key pair.
|
/// Returns the secret bytes for this key pair.
|
||||||
|
@ -922,13 +922,13 @@ impl KeyPair {
|
||||||
///
|
///
|
||||||
/// ```
|
/// ```
|
||||||
/// # #[cfg(feature = "rand-std")] {
|
/// # #[cfg(feature = "rand-std")] {
|
||||||
/// use secp256k1::{Secp256k1, KeyPair, Scalar};
|
/// use secp256k1::{Secp256k1, Keypair, Scalar};
|
||||||
///
|
///
|
||||||
/// let secp = Secp256k1::new();
|
/// let secp = Secp256k1::new();
|
||||||
/// let tweak = Scalar::random();
|
/// let tweak = Scalar::random();
|
||||||
///
|
///
|
||||||
/// let mut key_pair = KeyPair::new(&secp, &mut rand::thread_rng());
|
/// let mut keypair = Keypair::new(&secp, &mut rand::thread_rng());
|
||||||
/// let tweaked = key_pair.add_xonly_tweak(&secp, &tweak).expect("Improbable to fail with a randomly generated tweak");
|
/// let tweaked = keypair.add_xonly_tweak(&secp, &tweak).expect("Improbable to fail with a randomly generated tweak");
|
||||||
/// # }
|
/// # }
|
||||||
/// ```
|
/// ```
|
||||||
// TODO: Add checked implementation
|
// TODO: Add checked implementation
|
||||||
|
@ -937,7 +937,7 @@ impl KeyPair {
|
||||||
mut self,
|
mut self,
|
||||||
secp: &Secp256k1<C>,
|
secp: &Secp256k1<C>,
|
||||||
tweak: &Scalar,
|
tweak: &Scalar,
|
||||||
) -> Result<KeyPair, Error> {
|
) -> Result<Keypair, Error> {
|
||||||
unsafe {
|
unsafe {
|
||||||
let err = ffi::secp256k1_keypair_xonly_tweak_add(
|
let err = ffi::secp256k1_keypair_xonly_tweak_add(
|
||||||
secp.ctx.as_ptr(),
|
secp.ctx.as_ptr(),
|
||||||
|
@ -952,19 +952,19 @@ impl KeyPair {
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
/// Returns the [`SecretKey`] for this [`KeyPair`].
|
/// Returns the [`SecretKey`] for this [`Keypair`].
|
||||||
///
|
///
|
||||||
/// This is equivalent to using [`SecretKey::from_keypair`].
|
/// This is equivalent to using [`SecretKey::from_keypair`].
|
||||||
#[inline]
|
#[inline]
|
||||||
pub fn secret_key(&self) -> SecretKey { SecretKey::from_keypair(self) }
|
pub fn secret_key(&self) -> SecretKey { SecretKey::from_keypair(self) }
|
||||||
|
|
||||||
/// Returns the [`PublicKey`] for this [`KeyPair`].
|
/// Returns the [`PublicKey`] for this [`Keypair`].
|
||||||
///
|
///
|
||||||
/// This is equivalent to using [`PublicKey::from_keypair`].
|
/// This is equivalent to using [`PublicKey::from_keypair`].
|
||||||
#[inline]
|
#[inline]
|
||||||
pub fn public_key(&self) -> PublicKey { PublicKey::from_keypair(self) }
|
pub fn public_key(&self) -> PublicKey { PublicKey::from_keypair(self) }
|
||||||
|
|
||||||
/// Returns the [`XOnlyPublicKey`] (and it's [`Parity`]) for this [`KeyPair`].
|
/// Returns the [`XOnlyPublicKey`] (and it's [`Parity`]) for this [`Keypair`].
|
||||||
///
|
///
|
||||||
/// This is equivalent to using [`XOnlyPublicKey::from_keypair`].
|
/// This is equivalent to using [`XOnlyPublicKey::from_keypair`].
|
||||||
#[inline]
|
#[inline]
|
||||||
|
@ -989,27 +989,27 @@ impl KeyPair {
|
||||||
pub fn non_secure_erase(&mut self) { self.0.non_secure_erase(); }
|
pub fn non_secure_erase(&mut self) { self.0.non_secure_erase(); }
|
||||||
}
|
}
|
||||||
|
|
||||||
impl From<KeyPair> for SecretKey {
|
impl From<Keypair> for SecretKey {
|
||||||
#[inline]
|
#[inline]
|
||||||
fn from(pair: KeyPair) -> Self { SecretKey::from_keypair(&pair) }
|
fn from(pair: Keypair) -> Self { SecretKey::from_keypair(&pair) }
|
||||||
}
|
}
|
||||||
|
|
||||||
impl<'a> From<&'a KeyPair> for SecretKey {
|
impl<'a> From<&'a Keypair> for SecretKey {
|
||||||
#[inline]
|
#[inline]
|
||||||
fn from(pair: &'a KeyPair) -> Self { SecretKey::from_keypair(pair) }
|
fn from(pair: &'a Keypair) -> Self { SecretKey::from_keypair(pair) }
|
||||||
}
|
}
|
||||||
|
|
||||||
impl From<KeyPair> for PublicKey {
|
impl From<Keypair> for PublicKey {
|
||||||
#[inline]
|
#[inline]
|
||||||
fn from(pair: KeyPair) -> Self { PublicKey::from_keypair(&pair) }
|
fn from(pair: Keypair) -> Self { PublicKey::from_keypair(&pair) }
|
||||||
}
|
}
|
||||||
|
|
||||||
impl<'a> From<&'a KeyPair> for PublicKey {
|
impl<'a> From<&'a Keypair> for PublicKey {
|
||||||
#[inline]
|
#[inline]
|
||||||
fn from(pair: &'a KeyPair) -> Self { PublicKey::from_keypair(pair) }
|
fn from(pair: &'a Keypair) -> Self { PublicKey::from_keypair(pair) }
|
||||||
}
|
}
|
||||||
|
|
||||||
impl str::FromStr for KeyPair {
|
impl str::FromStr for Keypair {
|
||||||
type Err = Error;
|
type Err = Error;
|
||||||
|
|
||||||
#[allow(unused_variables, unreachable_code)] // When built with no default features.
|
#[allow(unused_variables, unreachable_code)] // When built with no default features.
|
||||||
|
@ -1024,12 +1024,12 @@ impl str::FromStr for KeyPair {
|
||||||
let ctx: Secp256k1<crate::SignOnlyPreallocated> = panic!("The previous implementation was panicking too, please enable the global-context feature of rust-secp256k1");
|
let ctx: Secp256k1<crate::SignOnlyPreallocated> = panic!("The previous implementation was panicking too, please enable the global-context feature of rust-secp256k1");
|
||||||
|
|
||||||
#[allow(clippy::needless_borrow)]
|
#[allow(clippy::needless_borrow)]
|
||||||
KeyPair::from_seckey_str(&ctx, s)
|
Keypair::from_seckey_str(&ctx, s)
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
#[cfg(feature = "serde")]
|
#[cfg(feature = "serde")]
|
||||||
impl serde::Serialize for KeyPair {
|
impl serde::Serialize for Keypair {
|
||||||
fn serialize<S: serde::Serializer>(&self, s: S) -> Result<S::Ok, S::Error> {
|
fn serialize<S: serde::Serializer>(&self, s: S) -> Result<S::Ok, S::Error> {
|
||||||
if s.is_human_readable() {
|
if s.is_human_readable() {
|
||||||
let mut buf = [0u8; constants::SECRET_KEY_SIZE * 2];
|
let mut buf = [0u8; constants::SECRET_KEY_SIZE * 2];
|
||||||
|
@ -1049,15 +1049,15 @@ impl serde::Serialize for KeyPair {
|
||||||
|
|
||||||
#[cfg(feature = "serde")]
|
#[cfg(feature = "serde")]
|
||||||
#[allow(unused_variables)] // For `data` under some feature combinations (the unconditional panic below).
|
#[allow(unused_variables)] // For `data` under some feature combinations (the unconditional panic below).
|
||||||
#[allow(unreachable_code)] // For `KeyPair::from_seckey_slice` after unconditional panic.
|
#[allow(unreachable_code)] // For `Keypair::from_seckey_slice` after unconditional panic.
|
||||||
impl<'de> serde::Deserialize<'de> for KeyPair {
|
impl<'de> serde::Deserialize<'de> for Keypair {
|
||||||
fn deserialize<D: serde::Deserializer<'de>>(d: D) -> Result<Self, D::Error> {
|
fn deserialize<D: serde::Deserializer<'de>>(d: D) -> Result<Self, D::Error> {
|
||||||
if d.is_human_readable() {
|
if d.is_human_readable() {
|
||||||
d.deserialize_str(super::serde_util::FromStrVisitor::new(
|
d.deserialize_str(super::serde_util::FromStrVisitor::new(
|
||||||
"a hex string representing 32 byte KeyPair",
|
"a hex string representing 32 byte Keypair",
|
||||||
))
|
))
|
||||||
} else {
|
} else {
|
||||||
let visitor = super::serde_util::Tuple32Visitor::new("raw 32 bytes KeyPair", |data| {
|
let visitor = super::serde_util::Tuple32Visitor::new("raw 32 bytes Keypair", |data| {
|
||||||
#[cfg(feature = "global-context")]
|
#[cfg(feature = "global-context")]
|
||||||
let ctx = SECP256K1;
|
let ctx = SECP256K1;
|
||||||
|
|
||||||
|
@ -1068,15 +1068,15 @@ impl<'de> serde::Deserialize<'de> for KeyPair {
|
||||||
let ctx: Secp256k1<crate::SignOnlyPreallocated> = panic!("cannot deserialize key pair without a context (please enable either the global-context or alloc feature)");
|
let ctx: Secp256k1<crate::SignOnlyPreallocated> = panic!("cannot deserialize key pair without a context (please enable either the global-context or alloc feature)");
|
||||||
|
|
||||||
#[allow(clippy::needless_borrow)]
|
#[allow(clippy::needless_borrow)]
|
||||||
KeyPair::from_seckey_slice(&ctx, data)
|
Keypair::from_seckey_slice(&ctx, data)
|
||||||
});
|
});
|
||||||
d.deserialize_tuple(constants::SECRET_KEY_SIZE, visitor)
|
d.deserialize_tuple(constants::SECRET_KEY_SIZE, visitor)
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
impl CPtr for KeyPair {
|
impl CPtr for Keypair {
|
||||||
type Target = ffi::KeyPair;
|
type Target = ffi::Keypair;
|
||||||
fn as_c_ptr(&self) -> *const Self::Target { &self.0 }
|
fn as_c_ptr(&self) -> *const Self::Target { &self.0 }
|
||||||
|
|
||||||
fn as_mut_c_ptr(&mut self) -> *mut Self::Target { &mut self.0 }
|
fn as_mut_c_ptr(&mut self) -> *mut Self::Target { &mut self.0 }
|
||||||
|
@ -1096,11 +1096,11 @@ impl CPtr for KeyPair {
|
||||||
///
|
///
|
||||||
/// ```
|
/// ```
|
||||||
/// # #[cfg(feature = "rand-std")] {
|
/// # #[cfg(feature = "rand-std")] {
|
||||||
/// use secp256k1::{rand, Secp256k1, KeyPair, XOnlyPublicKey};
|
/// use secp256k1::{rand, Secp256k1, Keypair, XOnlyPublicKey};
|
||||||
///
|
///
|
||||||
/// let secp = Secp256k1::new();
|
/// let secp = Secp256k1::new();
|
||||||
/// let key_pair = KeyPair::new(&secp, &mut rand::thread_rng());
|
/// let keypair = Keypair::new(&secp, &mut rand::thread_rng());
|
||||||
/// let xonly = XOnlyPublicKey::from_keypair(&key_pair);
|
/// let xonly = XOnlyPublicKey::from_keypair(&keypair);
|
||||||
/// # }
|
/// # }
|
||||||
/// ```
|
/// ```
|
||||||
/// [`bincode`]: https://docs.rs/bincode
|
/// [`bincode`]: https://docs.rs/bincode
|
||||||
|
@ -1151,7 +1151,7 @@ impl XOnlyPublicKey {
|
||||||
|
|
||||||
/// Returns the [`XOnlyPublicKey`] (and it's [`Parity`]) for `keypair`.
|
/// Returns the [`XOnlyPublicKey`] (and it's [`Parity`]) for `keypair`.
|
||||||
#[inline]
|
#[inline]
|
||||||
pub fn from_keypair(keypair: &KeyPair) -> (XOnlyPublicKey, Parity) {
|
pub fn from_keypair(keypair: &Keypair) -> (XOnlyPublicKey, Parity) {
|
||||||
let mut pk_parity = 0;
|
let mut pk_parity = 0;
|
||||||
unsafe {
|
unsafe {
|
||||||
let mut xonly_pk = ffi::XOnlyPublicKey::new();
|
let mut xonly_pk = ffi::XOnlyPublicKey::new();
|
||||||
|
@ -1228,13 +1228,13 @@ impl XOnlyPublicKey {
|
||||||
///
|
///
|
||||||
/// ```
|
/// ```
|
||||||
/// # #[cfg(feature = "rand-std")] {
|
/// # #[cfg(feature = "rand-std")] {
|
||||||
/// use secp256k1::{Secp256k1, KeyPair, Scalar, XOnlyPublicKey};
|
/// use secp256k1::{Secp256k1, Keypair, Scalar, XOnlyPublicKey};
|
||||||
///
|
///
|
||||||
/// let secp = Secp256k1::new();
|
/// let secp = Secp256k1::new();
|
||||||
/// let tweak = Scalar::random();
|
/// let tweak = Scalar::random();
|
||||||
///
|
///
|
||||||
/// let mut key_pair = KeyPair::new(&secp, &mut rand::thread_rng());
|
/// let mut keypair = Keypair::new(&secp, &mut rand::thread_rng());
|
||||||
/// let (xonly, _parity) = key_pair.x_only_public_key();
|
/// let (xonly, _parity) = keypair.x_only_public_key();
|
||||||
/// let tweaked = xonly.add_tweak(&secp, &tweak).expect("Improbable to fail with a randomly generated tweak");
|
/// let tweaked = xonly.add_tweak(&secp, &tweak).expect("Improbable to fail with a randomly generated tweak");
|
||||||
/// # }
|
/// # }
|
||||||
/// ```
|
/// ```
|
||||||
|
@ -1288,13 +1288,13 @@ impl XOnlyPublicKey {
|
||||||
///
|
///
|
||||||
/// ```
|
/// ```
|
||||||
/// # #[cfg(feature = "rand-std")] {
|
/// # #[cfg(feature = "rand-std")] {
|
||||||
/// use secp256k1::{Secp256k1, KeyPair, Scalar};
|
/// use secp256k1::{Secp256k1, Keypair, Scalar};
|
||||||
///
|
///
|
||||||
/// let secp = Secp256k1::new();
|
/// let secp = Secp256k1::new();
|
||||||
/// let tweak = Scalar::random();
|
/// let tweak = Scalar::random();
|
||||||
///
|
///
|
||||||
/// let mut key_pair = KeyPair::new(&secp, &mut rand::thread_rng());
|
/// let mut keypair = Keypair::new(&secp, &mut rand::thread_rng());
|
||||||
/// let (mut public_key, _) = key_pair.x_only_public_key();
|
/// let (mut public_key, _) = keypair.x_only_public_key();
|
||||||
/// let original = public_key;
|
/// let original = public_key;
|
||||||
/// let (tweaked, parity) = public_key.add_tweak(&secp, &tweak).expect("Improbable to fail with a randomly generated tweak");
|
/// let (tweaked, parity) = public_key.add_tweak(&secp, &tweak).expect("Improbable to fail with a randomly generated tweak");
|
||||||
/// assert!(original.tweak_add_check(&secp, &tweaked, parity, tweak));
|
/// assert!(original.tweak_add_check(&secp, &tweaked, parity, tweak));
|
||||||
|
@ -1550,7 +1550,7 @@ mod test {
|
||||||
#[cfg(target_arch = "wasm32")]
|
#[cfg(target_arch = "wasm32")]
|
||||||
use wasm_bindgen_test::wasm_bindgen_test as test;
|
use wasm_bindgen_test::wasm_bindgen_test as test;
|
||||||
|
|
||||||
use super::{KeyPair, Parity, PublicKey, Secp256k1, SecretKey, XOnlyPublicKey, *};
|
use super::{Keypair, Parity, PublicKey, Secp256k1, SecretKey, XOnlyPublicKey, *};
|
||||||
use crate::Error::{InvalidPublicKey, InvalidSecretKey};
|
use crate::Error::{InvalidPublicKey, InvalidSecretKey};
|
||||||
use crate::{constants, from_hex, to_hex, Scalar};
|
use crate::{constants, from_hex, to_hex, Scalar};
|
||||||
|
|
||||||
|
@ -1607,7 +1607,7 @@ mod test {
|
||||||
#[cfg(all(feature = "std", not(secp256k1_fuzz)))]
|
#[cfg(all(feature = "std", not(secp256k1_fuzz)))]
|
||||||
fn erased_keypair_is_valid() {
|
fn erased_keypair_is_valid() {
|
||||||
let s = Secp256k1::new();
|
let s = Secp256k1::new();
|
||||||
let kp = KeyPair::from_seckey_slice(&s, &[1u8; constants::SECRET_KEY_SIZE])
|
let kp = Keypair::from_seckey_slice(&s, &[1u8; constants::SECRET_KEY_SIZE])
|
||||||
.expect("valid secret key");
|
.expect("valid secret key");
|
||||||
let mut kp2 = kp;
|
let mut kp2 = kp;
|
||||||
kp2.non_secure_erase();
|
kp2.non_secure_erase();
|
||||||
|
@ -2159,7 +2159,7 @@ mod test {
|
||||||
for _ in 0..10 {
|
for _ in 0..10 {
|
||||||
let tweak = Scalar::random();
|
let tweak = Scalar::random();
|
||||||
|
|
||||||
let kp = KeyPair::new(&s, &mut rand::thread_rng());
|
let kp = Keypair::new(&s, &mut rand::thread_rng());
|
||||||
let (xonly, _) = XOnlyPublicKey::from_keypair(&kp);
|
let (xonly, _) = XOnlyPublicKey::from_keypair(&kp);
|
||||||
|
|
||||||
let tweaked_kp = kp.add_xonly_tweak(&s, &tweak).expect("keypair tweak add failed");
|
let tweaked_kp = kp.add_xonly_tweak(&s, &tweak).expect("keypair tweak add failed");
|
||||||
|
@ -2199,7 +2199,7 @@ mod test {
|
||||||
use serde::{Deserialize, Deserializer, Serialize, Serializer};
|
use serde::{Deserialize, Deserializer, Serialize, Serializer};
|
||||||
use serde_test::{assert_tokens, Configure, Token};
|
use serde_test::{assert_tokens, Configure, Token};
|
||||||
|
|
||||||
use crate::key::KeyPair;
|
use crate::key::Keypair;
|
||||||
use crate::SECP256K1;
|
use crate::SECP256K1;
|
||||||
|
|
||||||
#[rustfmt::skip]
|
#[rustfmt::skip]
|
||||||
|
@ -2211,7 +2211,7 @@ mod test {
|
||||||
];
|
];
|
||||||
static SK_STR: &str = "01010101010101010001020304050607ffff0000ffff00006363636363636363";
|
static SK_STR: &str = "01010101010101010001020304050607ffff0000ffff00006363636363636363";
|
||||||
|
|
||||||
let sk = KeyPair::from_seckey_slice(SECP256K1, &SK_BYTES).unwrap();
|
let sk = Keypair::from_seckey_slice(SECP256K1, &SK_BYTES).unwrap();
|
||||||
#[rustfmt::skip]
|
#[rustfmt::skip]
|
||||||
assert_tokens(&sk.compact(), &[
|
assert_tokens(&sk.compact(), &[
|
||||||
Token::Tuple{ len: 32 },
|
Token::Tuple{ len: 32 },
|
||||||
|
@ -2228,7 +2228,7 @@ mod test {
|
||||||
}
|
}
|
||||||
|
|
||||||
#[cfg(all(not(secp256k1_fuzz), feature = "alloc"))]
|
#[cfg(all(not(secp256k1_fuzz), feature = "alloc"))]
|
||||||
fn keys() -> (SecretKey, PublicKey, KeyPair, XOnlyPublicKey) {
|
fn keys() -> (SecretKey, PublicKey, Keypair, XOnlyPublicKey) {
|
||||||
let secp = Secp256k1::new();
|
let secp = Secp256k1::new();
|
||||||
|
|
||||||
#[rustfmt::skip]
|
#[rustfmt::skip]
|
||||||
|
@ -2253,7 +2253,7 @@ mod test {
|
||||||
|
|
||||||
let sk = SecretKey::from_slice(&SK_BYTES).expect("failed to parse sk bytes");
|
let sk = SecretKey::from_slice(&SK_BYTES).expect("failed to parse sk bytes");
|
||||||
let pk = PublicKey::from_slice(&pk_bytes).expect("failed to create pk from iterator");
|
let pk = PublicKey::from_slice(&pk_bytes).expect("failed to create pk from iterator");
|
||||||
let kp = KeyPair::from_secret_key(&secp, &sk);
|
let kp = Keypair::from_secret_key(&secp, &sk);
|
||||||
let xonly = XOnlyPublicKey::from_slice(&PK_BYTES).expect("failed to get xonly from slice");
|
let xonly = XOnlyPublicKey::from_slice(&PK_BYTES).expect("failed to get xonly from slice");
|
||||||
|
|
||||||
(sk, pk, kp, xonly)
|
(sk, pk, kp, xonly)
|
||||||
|
@ -2311,7 +2311,7 @@ mod test {
|
||||||
assert_eq!(got, want)
|
assert_eq!(got, want)
|
||||||
}
|
}
|
||||||
|
|
||||||
// SecretKey -> KeyPair -> SecretKey
|
// SecretKey -> Keypair -> SecretKey
|
||||||
#[test]
|
#[test]
|
||||||
#[cfg(all(not(secp256k1_fuzz), feature = "alloc"))]
|
#[cfg(all(not(secp256k1_fuzz), feature = "alloc"))]
|
||||||
fn roundtrip_secret_key_via_keypair() {
|
fn roundtrip_secret_key_via_keypair() {
|
||||||
|
@ -2324,7 +2324,7 @@ mod test {
|
||||||
assert_eq!(back, sk)
|
assert_eq!(back, sk)
|
||||||
}
|
}
|
||||||
|
|
||||||
// KeyPair -> SecretKey -> KeyPair
|
// Keypair -> SecretKey -> Keypair
|
||||||
#[test]
|
#[test]
|
||||||
#[cfg(all(not(secp256k1_fuzz), feature = "alloc"))]
|
#[cfg(all(not(secp256k1_fuzz), feature = "alloc"))]
|
||||||
fn roundtrip_keypair_via_secret_key() {
|
fn roundtrip_keypair_via_secret_key() {
|
||||||
|
@ -2391,7 +2391,7 @@ mod test {
|
||||||
|
|
||||||
static PK_STR: &str = "18845781f631c48f1c9709e23092067d06837f30aa0cd0544ac887fe91ddd166";
|
static PK_STR: &str = "18845781f631c48f1c9709e23092067d06837f30aa0cd0544ac887fe91ddd166";
|
||||||
|
|
||||||
let kp = KeyPair::from_seckey_slice(crate::SECP256K1, &SK_BYTES).unwrap();
|
let kp = Keypair::from_seckey_slice(crate::SECP256K1, &SK_BYTES).unwrap();
|
||||||
let (pk, _parity) = XOnlyPublicKey::from_keypair(&kp);
|
let (pk, _parity) = XOnlyPublicKey::from_keypair(&kp);
|
||||||
|
|
||||||
#[rustfmt::skip]
|
#[rustfmt::skip]
|
||||||
|
@ -2413,10 +2413,10 @@ mod test {
|
||||||
#[cfg(feature = "rand-std")]
|
#[cfg(feature = "rand-std")]
|
||||||
fn test_keypair_from_str() {
|
fn test_keypair_from_str() {
|
||||||
let ctx = crate::Secp256k1::new();
|
let ctx = crate::Secp256k1::new();
|
||||||
let keypair = KeyPair::new(&ctx, &mut rand::thread_rng());
|
let keypair = Keypair::new(&ctx, &mut rand::thread_rng());
|
||||||
let mut buf = [0_u8; constants::SECRET_KEY_SIZE * 2]; // Holds hex digits.
|
let mut buf = [0_u8; constants::SECRET_KEY_SIZE * 2]; // Holds hex digits.
|
||||||
let s = to_hex(&keypair.secret_key().secret_bytes(), &mut buf).unwrap();
|
let s = to_hex(&keypair.secret_key().secret_bytes(), &mut buf).unwrap();
|
||||||
let parsed_key = KeyPair::from_str(s).unwrap();
|
let parsed_key = Keypair::from_str(s).unwrap();
|
||||||
assert_eq!(parsed_key, keypair);
|
assert_eq!(parsed_key, keypair);
|
||||||
}
|
}
|
||||||
|
|
||||||
|
@ -2425,7 +2425,7 @@ mod test {
|
||||||
fn test_keypair_deserialize_serde() {
|
fn test_keypair_deserialize_serde() {
|
||||||
let ctx = crate::Secp256k1::new();
|
let ctx = crate::Secp256k1::new();
|
||||||
let sec_key_str = "4242424242424242424242424242424242424242424242424242424242424242";
|
let sec_key_str = "4242424242424242424242424242424242424242424242424242424242424242";
|
||||||
let keypair = KeyPair::from_seckey_str(&ctx, sec_key_str).unwrap();
|
let keypair = Keypair::from_seckey_str(&ctx, sec_key_str).unwrap();
|
||||||
|
|
||||||
serde_test::assert_tokens(&keypair.readable(), &[Token::String(sec_key_str)]);
|
serde_test::assert_tokens(&keypair.readable(), &[Token::String(sec_key_str)]);
|
||||||
|
|
||||||
|
@ -2442,7 +2442,7 @@ mod test {
|
||||||
#[cfg(not(any(feature = "alloc", feature = "global-context")))]
|
#[cfg(not(any(feature = "alloc", feature = "global-context")))]
|
||||||
fn test_parse_keypair_no_alloc_panic() {
|
fn test_parse_keypair_no_alloc_panic() {
|
||||||
let key_hex = "4242424242424242424242424242424242424242424242424242424242424242";
|
let key_hex = "4242424242424242424242424242424242424242424242424242424242424242";
|
||||||
let _: KeyPair = key_hex.parse().expect("We shouldn't even get this far");
|
let _: Keypair = key_hex.parse().expect("We shouldn't even get this far");
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
|
|
|
@ -9,7 +9,7 @@ use core::{fmt, ptr, str};
|
||||||
use rand::{CryptoRng, Rng};
|
use rand::{CryptoRng, Rng};
|
||||||
|
|
||||||
use crate::ffi::{self, CPtr};
|
use crate::ffi::{self, CPtr};
|
||||||
use crate::key::{KeyPair, XOnlyPublicKey};
|
use crate::key::{Keypair, XOnlyPublicKey};
|
||||||
#[cfg(feature = "global-context")]
|
#[cfg(feature = "global-context")]
|
||||||
use crate::SECP256K1;
|
use crate::SECP256K1;
|
||||||
use crate::{
|
use crate::{
|
||||||
|
@ -104,7 +104,7 @@ impl<C: Signing> Secp256k1<C> {
|
||||||
fn sign_schnorr_helper(
|
fn sign_schnorr_helper(
|
||||||
&self,
|
&self,
|
||||||
msg: &Message,
|
msg: &Message,
|
||||||
keypair: &KeyPair,
|
keypair: &Keypair,
|
||||||
nonce_data: *const ffi::types::c_uchar,
|
nonce_data: *const ffi::types::c_uchar,
|
||||||
) -> Signature {
|
) -> Signature {
|
||||||
unsafe {
|
unsafe {
|
||||||
|
@ -127,12 +127,12 @@ impl<C: Signing> Secp256k1<C> {
|
||||||
/// Creates a schnorr signature internally using the [`rand::rngs::ThreadRng`] random number
|
/// Creates a schnorr signature internally using the [`rand::rngs::ThreadRng`] random number
|
||||||
/// generator to generate the auxiliary random data.
|
/// generator to generate the auxiliary random data.
|
||||||
#[cfg(feature = "rand-std")]
|
#[cfg(feature = "rand-std")]
|
||||||
pub fn sign_schnorr(&self, msg: &Message, keypair: &KeyPair) -> Signature {
|
pub fn sign_schnorr(&self, msg: &Message, keypair: &Keypair) -> Signature {
|
||||||
self.sign_schnorr_with_rng(msg, keypair, &mut rand::thread_rng())
|
self.sign_schnorr_with_rng(msg, keypair, &mut rand::thread_rng())
|
||||||
}
|
}
|
||||||
|
|
||||||
/// Creates a schnorr signature without using any auxiliary random data.
|
/// Creates a schnorr signature without using any auxiliary random data.
|
||||||
pub fn sign_schnorr_no_aux_rand(&self, msg: &Message, keypair: &KeyPair) -> Signature {
|
pub fn sign_schnorr_no_aux_rand(&self, msg: &Message, keypair: &Keypair) -> Signature {
|
||||||
self.sign_schnorr_helper(msg, keypair, ptr::null())
|
self.sign_schnorr_helper(msg, keypair, ptr::null())
|
||||||
}
|
}
|
||||||
|
|
||||||
|
@ -140,7 +140,7 @@ impl<C: Signing> Secp256k1<C> {
|
||||||
pub fn sign_schnorr_with_aux_rand(
|
pub fn sign_schnorr_with_aux_rand(
|
||||||
&self,
|
&self,
|
||||||
msg: &Message,
|
msg: &Message,
|
||||||
keypair: &KeyPair,
|
keypair: &Keypair,
|
||||||
aux_rand: &[u8; 32],
|
aux_rand: &[u8; 32],
|
||||||
) -> Signature {
|
) -> Signature {
|
||||||
self.sign_schnorr_helper(msg, keypair, aux_rand.as_c_ptr() as *const ffi::types::c_uchar)
|
self.sign_schnorr_helper(msg, keypair, aux_rand.as_c_ptr() as *const ffi::types::c_uchar)
|
||||||
|
@ -152,7 +152,7 @@ impl<C: Signing> Secp256k1<C> {
|
||||||
pub fn sign_schnorr_with_rng<R: Rng + CryptoRng>(
|
pub fn sign_schnorr_with_rng<R: Rng + CryptoRng>(
|
||||||
&self,
|
&self,
|
||||||
msg: &Message,
|
msg: &Message,
|
||||||
keypair: &KeyPair,
|
keypair: &Keypair,
|
||||||
rng: &mut R,
|
rng: &mut R,
|
||||||
) -> Signature {
|
) -> Signature {
|
||||||
let mut aux = [0u8; 32];
|
let mut aux = [0u8; 32];
|
||||||
|
@ -198,7 +198,7 @@ mod tests {
|
||||||
use wasm_bindgen_test::wasm_bindgen_test as test;
|
use wasm_bindgen_test::wasm_bindgen_test as test;
|
||||||
|
|
||||||
use super::*;
|
use super::*;
|
||||||
use crate::schnorr::{KeyPair, Signature, XOnlyPublicKey};
|
use crate::schnorr::{Keypair, Signature, XOnlyPublicKey};
|
||||||
use crate::Error::InvalidPublicKey;
|
use crate::Error::InvalidPublicKey;
|
||||||
use crate::{constants, from_hex, Message, Secp256k1, SecretKey};
|
use crate::{constants, from_hex, Message, Secp256k1, SecretKey};
|
||||||
|
|
||||||
|
@ -238,12 +238,12 @@ mod tests {
|
||||||
|
|
||||||
#[cfg(feature = "rand-std")]
|
#[cfg(feature = "rand-std")]
|
||||||
fn sign_helper(
|
fn sign_helper(
|
||||||
sign: fn(&Secp256k1<crate::All>, &Message, &KeyPair, &mut ThreadRng) -> Signature,
|
sign: fn(&Secp256k1<crate::All>, &Message, &Keypair, &mut ThreadRng) -> Signature,
|
||||||
) {
|
) {
|
||||||
let secp = Secp256k1::new();
|
let secp = Secp256k1::new();
|
||||||
|
|
||||||
let mut rng = rand::thread_rng();
|
let mut rng = rand::thread_rng();
|
||||||
let kp = KeyPair::new(&secp, &mut rng);
|
let kp = Keypair::new(&secp, &mut rng);
|
||||||
let (pk, _parity) = kp.x_only_public_key();
|
let (pk, _parity) = kp.x_only_public_key();
|
||||||
|
|
||||||
for _ in 0..100 {
|
for _ in 0..100 {
|
||||||
|
@ -264,7 +264,7 @@ mod tests {
|
||||||
|
|
||||||
let hex_msg = hex_32!("E48441762FB75010B2AA31A512B62B4148AA3FB08EB0765D76B252559064A614");
|
let hex_msg = hex_32!("E48441762FB75010B2AA31A512B62B4148AA3FB08EB0765D76B252559064A614");
|
||||||
let msg = Message::from_digest_slice(&hex_msg).unwrap();
|
let msg = Message::from_digest_slice(&hex_msg).unwrap();
|
||||||
let sk = KeyPair::from_seckey_str(
|
let sk = Keypair::from_seckey_str(
|
||||||
&secp,
|
&secp,
|
||||||
"688C77BC2D5AAFF5491CF309D4753B732135470D05B7B2CD21ADD0744FE97BEF",
|
"688C77BC2D5AAFF5491CF309D4753B732135470D05B7B2CD21ADD0744FE97BEF",
|
||||||
)
|
)
|
||||||
|
@ -324,7 +324,7 @@ mod tests {
|
||||||
#[cfg(feature = "rand-std")]
|
#[cfg(feature = "rand-std")]
|
||||||
fn test_pubkey_serialize_roundtrip() {
|
fn test_pubkey_serialize_roundtrip() {
|
||||||
let secp = Secp256k1::new();
|
let secp = Secp256k1::new();
|
||||||
let kp = KeyPair::new(&secp, &mut rand::thread_rng());
|
let kp = Keypair::new(&secp, &mut rand::thread_rng());
|
||||||
let (pk, _parity) = kp.x_only_public_key();
|
let (pk, _parity) = kp.x_only_public_key();
|
||||||
|
|
||||||
let ser = pk.serialize();
|
let ser = pk.serialize();
|
||||||
|
@ -337,7 +337,7 @@ mod tests {
|
||||||
fn test_xonly_key_extraction() {
|
fn test_xonly_key_extraction() {
|
||||||
let secp = Secp256k1::new();
|
let secp = Secp256k1::new();
|
||||||
let sk_str = "688C77BC2D5AAFF5491CF309D4753B732135470D05B7B2CD21ADD0744FE97BEF";
|
let sk_str = "688C77BC2D5AAFF5491CF309D4753B732135470D05B7B2CD21ADD0744FE97BEF";
|
||||||
let keypair = KeyPair::from_seckey_str(&secp, sk_str).unwrap();
|
let keypair = Keypair::from_seckey_str(&secp, sk_str).unwrap();
|
||||||
let sk = SecretKey::from_keypair(&keypair);
|
let sk = SecretKey::from_keypair(&keypair);
|
||||||
assert_eq!(SecretKey::from_str(sk_str).unwrap(), sk);
|
assert_eq!(SecretKey::from_str(sk_str).unwrap(), sk);
|
||||||
let pk = crate::key::PublicKey::from_keypair(&keypair);
|
let pk = crate::key::PublicKey::from_keypair(&keypair);
|
||||||
|
@ -385,7 +385,7 @@ mod tests {
|
||||||
0x63, 0x63, 0x63, 0x63,
|
0x63, 0x63, 0x63, 0x63,
|
||||||
];
|
];
|
||||||
|
|
||||||
let kp = KeyPair::from_seckey_slice(&secp, &SK_BYTES).expect("sk");
|
let kp = Keypair::from_seckey_slice(&secp, &SK_BYTES).expect("sk");
|
||||||
|
|
||||||
// In fuzzing mode secret->public key derivation is different, so
|
// In fuzzing mode secret->public key derivation is different, so
|
||||||
// hard-code the expected result.
|
// hard-code the expected result.
|
||||||
|
@ -445,7 +445,7 @@ mod tests {
|
||||||
fn test_pubkey_serialize() {
|
fn test_pubkey_serialize() {
|
||||||
use rand::rngs::mock::StepRng;
|
use rand::rngs::mock::StepRng;
|
||||||
let secp = Secp256k1::new();
|
let secp = Secp256k1::new();
|
||||||
let kp = KeyPair::new(&secp, &mut StepRng::new(1, 1));
|
let kp = Keypair::new(&secp, &mut StepRng::new(1, 1));
|
||||||
let (pk, _parity) = kp.x_only_public_key();
|
let (pk, _parity) = kp.x_only_public_key();
|
||||||
assert_eq!(
|
assert_eq!(
|
||||||
&pk.serialize()[..],
|
&pk.serialize()[..],
|
||||||
|
@ -465,7 +465,7 @@ mod tests {
|
||||||
let s = Secp256k1::new();
|
let s = Secp256k1::new();
|
||||||
|
|
||||||
let msg = Message::from_digest_slice(&[1; 32]).unwrap();
|
let msg = Message::from_digest_slice(&[1; 32]).unwrap();
|
||||||
let keypair = KeyPair::from_seckey_slice(&s, &[2; 32]).unwrap();
|
let keypair = Keypair::from_seckey_slice(&s, &[2; 32]).unwrap();
|
||||||
let aux = [3u8; 32];
|
let aux = [3u8; 32];
|
||||||
let sig = s.sign_schnorr_with_aux_rand(&msg, &keypair, &aux);
|
let sig = s.sign_schnorr_with_aux_rand(&msg, &keypair, &aux);
|
||||||
static SIG_BYTES: [u8; constants::SCHNORR_SIGNATURE_SIZE] = [
|
static SIG_BYTES: [u8; constants::SCHNORR_SIGNATURE_SIZE] = [
|
||||||
|
|
|
@ -6,7 +6,7 @@ use core::fmt;
|
||||||
|
|
||||||
use crate::constants::SECRET_KEY_SIZE;
|
use crate::constants::SECRET_KEY_SIZE;
|
||||||
use crate::ecdh::SharedSecret;
|
use crate::ecdh::SharedSecret;
|
||||||
use crate::key::{KeyPair, SecretKey};
|
use crate::key::{Keypair, SecretKey};
|
||||||
use crate::to_hex;
|
use crate::to_hex;
|
||||||
macro_rules! impl_display_secret {
|
macro_rules! impl_display_secret {
|
||||||
// Default hasher exists only in standard library and not alloc
|
// Default hasher exists only in standard library and not alloc
|
||||||
|
@ -127,7 +127,7 @@ impl SecretKey {
|
||||||
pub fn display_secret(&self) -> DisplaySecret { DisplaySecret { secret: self.secret_bytes() } }
|
pub fn display_secret(&self) -> DisplaySecret { DisplaySecret { secret: self.secret_bytes() } }
|
||||||
}
|
}
|
||||||
|
|
||||||
impl KeyPair {
|
impl Keypair {
|
||||||
/// Formats the explicit byte value of the secret key kept inside the type as a
|
/// Formats the explicit byte value of the secret key kept inside the type as a
|
||||||
/// little-endian hexadecimal string using the provided formatter.
|
/// little-endian hexadecimal string using the provided formatter.
|
||||||
///
|
///
|
||||||
|
@ -139,11 +139,11 @@ impl KeyPair {
|
||||||
/// ```
|
/// ```
|
||||||
/// # #[cfg(feature = "std")] {
|
/// # #[cfg(feature = "std")] {
|
||||||
/// # use std::str::FromStr;
|
/// # use std::str::FromStr;
|
||||||
/// use secp256k1::{KeyPair, Secp256k1, SecretKey};
|
/// use secp256k1::{Keypair, Secp256k1, SecretKey};
|
||||||
///
|
///
|
||||||
/// let secp = Secp256k1::new();
|
/// let secp = Secp256k1::new();
|
||||||
/// let key = SecretKey::from_str("0000000000000000000000000000000000000000000000000000000000000001").unwrap();
|
/// let key = SecretKey::from_str("0000000000000000000000000000000000000000000000000000000000000001").unwrap();
|
||||||
/// let key = KeyPair::from_secret_key(&secp, &key);
|
/// let key = Keypair::from_secret_key(&secp, &key);
|
||||||
/// // Here we explicitly display the secret value:
|
/// // Here we explicitly display the secret value:
|
||||||
/// assert_eq!(
|
/// assert_eq!(
|
||||||
/// "0000000000000000000000000000000000000000000000000000000000000001",
|
/// "0000000000000000000000000000000000000000000000000000000000000001",
|
||||||
|
|
|
@ -5,7 +5,7 @@ extern crate secp256k1;
|
||||||
extern crate serde_cbor;
|
extern crate serde_cbor;
|
||||||
|
|
||||||
#[cfg(feature = "global-context")]
|
#[cfg(feature = "global-context")]
|
||||||
use secp256k1::{KeyPair, Secp256k1};
|
use secp256k1::{Keypair, Secp256k1};
|
||||||
use secp256k1::{PublicKey, SecretKey, XOnlyPublicKey};
|
use secp256k1::{PublicKey, SecretKey, XOnlyPublicKey};
|
||||||
|
|
||||||
// Arbitrary key data.
|
// Arbitrary key data.
|
||||||
|
@ -59,9 +59,9 @@ fn bincode_public_key() {
|
||||||
|
|
||||||
#[test]
|
#[test]
|
||||||
#[cfg(feature = "global-context")]
|
#[cfg(feature = "global-context")]
|
||||||
fn bincode_key_pair() {
|
fn bincode_keypair() {
|
||||||
let secp = Secp256k1::new();
|
let secp = Secp256k1::new();
|
||||||
let kp = KeyPair::from_seckey_slice(&secp, &SK_BYTES).expect("failed to create keypair");
|
let kp = Keypair::from_seckey_slice(&secp, &SK_BYTES).expect("failed to create keypair");
|
||||||
let ser = bincode::serialize(&kp).unwrap();
|
let ser = bincode::serialize(&kp).unwrap();
|
||||||
|
|
||||||
assert_eq!(ser, SK_BYTES);
|
assert_eq!(ser, SK_BYTES);
|
||||||
|
|
Loading…
Reference in New Issue