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https://codeberg.org/anoncontributorxmr/monero.git
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166 lines
6.2 KiB
C
166 lines
6.2 KiB
C
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#pragma once
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#include <cstddef>
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#include <cstring>
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namespace crypto {
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#pragma pack(push, 1)
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class hash {
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char data[32];
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};
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class ec_point {
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char data[32];
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};
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class ec_scalar {
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char data[32];
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};
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class public_key: ec_point {
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friend class crypto_ops;
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};
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class secret_key: ec_scalar {
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friend class crypto_ops;
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};
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class key_image: ec_point {
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friend class crypto_ops;
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};
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class signature {
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ec_scalar c, r;
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friend class crypto_ops;
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};
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#pragma pack(pop)
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static_assert(sizeof(hash) == 32 && sizeof(ec_point) == 32 &&
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sizeof(ec_scalar) == 32 && sizeof(public_key) == 32 &&
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sizeof(secret_key) == 32 && sizeof(key_image) == 32 &&
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sizeof(signature) == 64, "Invalid structure size");
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extern "C" {
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void keccak(const void *data, std::size_t length, char *hash);
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}
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inline void keccak(const void *data, std::size_t length, hash &hash) {
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keccak(data, length, reinterpret_cast<char *>(&hash));
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}
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inline bool operator==(const hash &a, const hash &b) {
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return std::memcmp(&a, &b, sizeof(struct hash)) == 0;
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}
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inline bool operator==(const public_key &a, const public_key &b) {
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return std::memcmp(&a, &b, sizeof(struct public_key)) == 0;
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}
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inline bool operator==(const key_image &a, const key_image &b) {
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return std::memcmp(&a, &b, sizeof(struct key_image)) == 0;
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}
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class crypto_ops {
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crypto_ops();
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crypto_ops(const crypto_ops &);
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void operator=(const crypto_ops &);
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~crypto_ops();
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static void generate_keys(public_key &, secret_key &);
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friend void generate_keys(public_key &, secret_key &);
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static bool check_key(const public_key &);
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friend bool check_key(const public_key &);
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static void generate_signature(const hash &, const public_key &, const secret_key &, signature &);
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friend void generate_signature(const hash &, const public_key &, const secret_key &, signature &);
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static bool check_signature(const hash &, const public_key &, const signature &);
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friend bool check_signature(const hash &, const public_key &, const signature &);
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static void generate_key_image(const public_key &, const secret_key &, key_image &);
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friend void generate_key_image(const public_key &, const secret_key &, key_image &);
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static void generate_ring_signature(const hash &, const key_image &,
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const public_key *const *, std::size_t, const secret_key &, std::size_t, signature *);
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friend void generate_ring_signature(const hash &, const key_image &,
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const public_key *const *, std::size_t, const secret_key &, std::size_t, signature *);
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static bool check_ring_signature(const hash &, const key_image &,
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const public_key *const *, std::size_t, const signature *);
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friend bool check_ring_signature(const hash &, const key_image &,
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const public_key *const *, std::size_t, const signature *);
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};
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/* Generate a new key pair.
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* pub: a newly generated public key.
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* sec: a newly generated secret key.
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*/
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inline void generate_keys(public_key &pub, secret_key &sec) {
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crypto_ops::generate_keys(pub, sec);
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}
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/* Check a public key.
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* key: a key to check.
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* returns: true if the key is valid, false otherwise.
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*/
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inline bool check_key(const public_key &key) {
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return crypto_ops::check_key(key);
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}
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/* Sign a message.
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* message_hash: hash of a message.
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* pub: public key used for signing. Assumed to be valid.
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* sec: secret key used for signing. Assumed to correspond to pub.
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* sig: the resulting signature.
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*/
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inline void generate_signature(const hash &message_hash, const public_key &pub, const secret_key &sec, signature &sig) {
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crypto_ops::generate_signature(message_hash, pub, sec, sig);
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}
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/* Verify a signature.
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* message_hash: hash of a message.
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* pub: public key used for signing. Assumed to be valid, use check_key to check it first.
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* sig: a signature.
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* returns: true if the signature is valid, false otherwise.
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*/
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inline bool check_signature(const hash &message_hash, const public_key &pub, const signature &sig) {
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return crypto_ops::check_signature(message_hash, pub, sig);
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}
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/* Generate the image of a key.
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* pub: public key used for signing. Assumed to be valid.
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* sec: secret key used for signing. Assumed to correspond to pub.
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* image: the resulting key image.
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*/
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inline void generate_key_image(const public_key &pub, const secret_key &sec, key_image &image) {
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crypto_ops::generate_key_image(pub, sec, image);
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}
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/* Sign a message using linkable ring signature.
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* message_hash: hash of a message.
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* image: image of the key used for signing. Use generate_key_image to create it. Assumed to correspond to the key used for signing.
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* pubs: pointer to an array of pointers to public keys of a ring. All keys are assumed to be valid, use check_key to check them first.
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* pubs_count: number of keys in a ring.
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* sec: secret key used for signing.
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* sec_index: index of the key used for signing in pubs. It is assumed that 0 <= sec_index < pubs_count and that sec corresponds to *pubs[sec_index].
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* sig: the resulting signature (occupies pubs_count elements). To verify it, image of the key is also necessary.
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*/
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inline void generate_ring_signature(const hash &message_hash, const key_image &image,
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const public_key *const *pubs, std::size_t pubs_count,
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const secret_key &sec, std::size_t sec_index,
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signature *sig) {
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crypto_ops::generate_ring_signature(message_hash, image, pubs, pubs_count, sec, sec_index, sig);
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}
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/* Verify a linkable ring signature.
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* message_hash: hash of a message.
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* image: image of the key used for signing.
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* pubs: pointer to an array of pointers to public keys of a ring. All keys are assumed to be valid, use check_key to check them first.
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* pubs_count: number of keys in a ring.
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* sig: a signature (occupies pubs_count elements).
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* returns: true if the signature is valid, false otherwise.
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*/
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inline bool check_ring_signature(const hash &message_hash, const key_image &image,
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const public_key *const *pubs, std::size_t pubs_count,
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const signature *sig) {
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return crypto_ops::check_ring_signature(message_hash, image, pubs, pubs_count, sig);
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}
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/* To check whether two signatures are linked, compare their key images. */
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}
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