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/* Copyright (C) 1995-1998 Eric Young (eay@cryptsoft.com)
* All rights reserved.
*
* This package is an SSL implementation written
* by Eric Young (eay@cryptsoft.com).
* The implementation was written so as to conform with Netscapes SSL.
*
* This library is free for commercial and non-commercial use as long as
* the following conditions are aheared to. The following conditions
* apply to all code found in this distribution, be it the RC4, RSA,
* lhash, DES, etc., code; not just the SSL code. The SSL documentation
* included with this distribution is covered by the same copyright terms
* except that the holder is Tim Hudson (tjh@cryptsoft.com).
*
* Copyright remains Eric Young's, and as such any Copyright notices in
* the code are not to be removed.
* If this package is used in a product, Eric Young should be given attribution
* as the author of the parts of the library used.
* This can be in the form of a textual message at program startup or
* in documentation (online or textual) provided with the package.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* "This product includes cryptographic software written by
* Eric Young (eay@cryptsoft.com)"
* The word 'cryptographic' can be left out if the rouines from the library
* being used are not cryptographic related :-).
* 4. If you include any Windows specific code (or a derivative thereof) from
* the apps directory (application code) you must include an acknowledgement:
* "This product includes software written by Tim Hudson (tjh@cryptsoft.com)"
*
* THIS SOFTWARE IS PROVIDED BY ERIC YOUNG ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* The licence and distribution terms for any publically available version or
* derivative of this code cannot be changed. i.e. this code cannot simply be
* copied and put under another distribution licence
* [including the GNU Public Licence.]
*
* The DSS routines are based on patches supplied by
* Steven Schoch <schoch@sheba.arc.nasa.gov>. */
#ifndef OPENSSL_HEADER_DSA_H
#define OPENSSL_HEADER_DSA_H
#include <openssl/base.h>
#include <openssl/engine.h>
#include <openssl/ex_data.h>
#include <openssl/thread.h>
#if defined(__cplusplus)
extern "C" {
#endif
// DSA contains functions for signing and verifying with the Digital Signature
// Algorithm.
//
// This module is deprecated and retained for legacy reasons only. It is not
// considered a priority for performance or hardening work. Do not use it in
// new code. Use Ed25519, ECDSA with P-256, or RSA instead.
// Allocation and destruction.
// DSA_new returns a new, empty DSA object or NULL on error.
OPENSSL_EXPORT DSA *DSA_new(void);
// DSA_free decrements the reference count of |dsa| and frees it if the
// reference count drops to zero.
OPENSSL_EXPORT void DSA_free(DSA *dsa);
// DSA_up_ref increments the reference count of |dsa| and returns one.
OPENSSL_EXPORT int DSA_up_ref(DSA *dsa);
// Properties.
// DSA_get0_key sets |*out_pub_key| and |*out_priv_key|, if non-NULL, to |dsa|'s
// public and private key, respectively. If |dsa| is a public key, the private
// key will be set to NULL.
OPENSSL_EXPORT void DSA_get0_key(const DSA *dsa, const BIGNUM **out_pub_key,
const BIGNUM **out_priv_key);
// DSA_get0_pqg sets |*out_p|, |*out_q|, and |*out_g|, if non-NULL, to |dsa|'s
// p, q, and g parameters, respectively.
OPENSSL_EXPORT void DSA_get0_pqg(const DSA *dsa, const BIGNUM **out_p,
const BIGNUM **out_q, const BIGNUM **out_g);
// DSA_set0_key sets |dsa|'s public and private key to |pub_key| and |priv_key|,
// respectively, if non-NULL. On success, it takes ownership of each argument
// and returns one. Otherwise, it returns zero.
//
// |priv_key| may be NULL, but |pub_key| must either be non-NULL or already
// configured on |dsa|.
OPENSSL_EXPORT int DSA_set0_key(DSA *dsa, BIGNUM *pub_key, BIGNUM *priv_key);
// DSA_set0_pqg sets |dsa|'s parameters to |p|, |q|, and |g|, if non-NULL, and
// takes ownership of them. On success, it takes ownership of each argument and
// returns one. Otherwise, it returns zero.
//
// Each argument must either be non-NULL or already configured on |dsa|.
OPENSSL_EXPORT int DSA_set0_pqg(DSA *dsa, BIGNUM *p, BIGNUM *q, BIGNUM *g);
// Parameter generation.
// DSA_generate_parameters_ex generates a set of DSA parameters by following
// the procedure given in FIPS 186-4, appendix A.
// (http://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.186-4.pdf)
//
// The larger prime will have a length of |bits| (e.g. 2048). The |seed| value
// allows others to generate and verify the same parameters and should be
// random input which is kept for reference. If |out_counter| or |out_h| are
// not NULL then the counter and h value used in the generation are written to
// them.
//
// The |cb| argument is passed to |BN_generate_prime_ex| and is thus called
// during the generation process in order to indicate progress. See the
// comments for that function for details. In addition to the calls made by
// |BN_generate_prime_ex|, |DSA_generate_parameters_ex| will call it with
// |event| equal to 2 and 3 at different stages of the process.
//
// It returns one on success and zero otherwise.
OPENSSL_EXPORT int DSA_generate_parameters_ex(DSA *dsa, unsigned bits,
const uint8_t *seed,
size_t seed_len, int *out_counter,
unsigned long *out_h,
BN_GENCB *cb);
// DSAparams_dup returns a freshly allocated |DSA| that contains a copy of the
// parameters from |dsa|. It returns NULL on error.
OPENSSL_EXPORT DSA *DSAparams_dup(const DSA *dsa);
// Key generation.
// DSA_generate_key generates a public/private key pair in |dsa|, which must
// already have parameters setup. It returns one on success and zero on
// error.
OPENSSL_EXPORT int DSA_generate_key(DSA *dsa);
// Signatures.
// DSA_SIG_st (aka |DSA_SIG|) contains a DSA signature as a pair of integers.
struct DSA_SIG_st {
BIGNUM *r, *s;
};
// DSA_SIG_new returns a freshly allocated, DIG_SIG structure or NULL on error.
// Both |r| and |s| in the signature will be NULL.
OPENSSL_EXPORT DSA_SIG *DSA_SIG_new(void);
// DSA_SIG_free frees the contents of |sig| and then frees |sig| itself.
OPENSSL_EXPORT void DSA_SIG_free(DSA_SIG *sig);
// DSA_do_sign returns a signature of the hash in |digest| by the key in |dsa|
// and returns an allocated, DSA_SIG structure, or NULL on error.
OPENSSL_EXPORT DSA_SIG *DSA_do_sign(const uint8_t *digest, size_t digest_len,
const DSA *dsa);
// DSA_do_verify verifies that |sig| is a valid signature, by the public key in
// |dsa|, of the hash in |digest|. It returns one if so, zero if invalid and -1
// on error.
//
// WARNING: do not use. This function returns -1 for error, 0 for invalid and 1
// for valid. However, this is dangerously different to the usual OpenSSL
// convention and could be a disaster if a user did |if (DSA_do_verify(...))|.
// Because of this, |DSA_check_signature| is a safer version of this.
//
// TODO(fork): deprecate.
OPENSSL_EXPORT int DSA_do_verify(const uint8_t *digest, size_t digest_len,
DSA_SIG *sig, const DSA *dsa);
// DSA_do_check_signature sets |*out_valid| to zero. Then it verifies that |sig|
// is a valid signature, by the public key in |dsa| of the hash in |digest|
// and, if so, it sets |*out_valid| to one.
//
// It returns one if it was able to verify the signature as valid or invalid,
// and zero on error.
OPENSSL_EXPORT int DSA_do_check_signature(int *out_valid, const uint8_t *digest,
size_t digest_len, DSA_SIG *sig,
const DSA *dsa);
// ASN.1 signatures.
//
// These functions also perform DSA signature operations, but deal with ASN.1
// encoded signatures as opposed to raw |BIGNUM|s. If you don't know what
// encoding a DSA signature is in, it's probably ASN.1.
// DSA_sign signs |digest| with the key in |dsa| and writes the resulting
// signature, in ASN.1 form, to |out_sig| and the length of the signature to
// |*out_siglen|. There must be, at least, |DSA_size(dsa)| bytes of space in
// |out_sig|. It returns one on success and zero otherwise.
//
// (The |type| argument is ignored.)
OPENSSL_EXPORT int DSA_sign(int type, const uint8_t *digest, size_t digest_len,
uint8_t *out_sig, unsigned int *out_siglen,
const DSA *dsa);
// DSA_verify verifies that |sig| is a valid, ASN.1 signature, by the public
// key in |dsa|, of the hash in |digest|. It returns one if so, zero if invalid
// and -1 on error.
//
// (The |type| argument is ignored.)
//
// WARNING: do not use. This function returns -1 for error, 0 for invalid and 1
// for valid. However, this is dangerously different to the usual OpenSSL
// convention and could be a disaster if a user did |if (DSA_do_verify(...))|.
// Because of this, |DSA_check_signature| is a safer version of this.
//
// TODO(fork): deprecate.
OPENSSL_EXPORT int DSA_verify(int type, const uint8_t *digest,
size_t digest_len, const uint8_t *sig,
size_t sig_len, const DSA *dsa);
// DSA_check_signature sets |*out_valid| to zero. Then it verifies that |sig|
// is a valid, ASN.1 signature, by the public key in |dsa|, of the hash in
// |digest|. If so, it sets |*out_valid| to one.
//
// It returns one if it was able to verify the signature as valid or invalid,
// and zero on error.
OPENSSL_EXPORT int DSA_check_signature(int *out_valid, const uint8_t *digest,
size_t digest_len, const uint8_t *sig,
size_t sig_len, const DSA *dsa);
// DSA_size returns the size, in bytes, of an ASN.1 encoded, DSA signature
// generated by |dsa|. Parameters must already have been setup in |dsa|.
OPENSSL_EXPORT int DSA_size(const DSA *dsa);
// ASN.1 encoding.
// DSA_SIG_parse parses a DER-encoded DSA-Sig-Value structure from |cbs| and
// advances |cbs|. It returns a newly-allocated |DSA_SIG| or NULL on error.
OPENSSL_EXPORT DSA_SIG *DSA_SIG_parse(CBS *cbs);
// DSA_SIG_marshal marshals |sig| as a DER-encoded DSA-Sig-Value and appends the
// result to |cbb|. It returns one on success and zero on error.
OPENSSL_EXPORT int DSA_SIG_marshal(CBB *cbb, const DSA_SIG *sig);
// DSA_parse_public_key parses a DER-encoded DSA public key from |cbs| and
// advances |cbs|. It returns a newly-allocated |DSA| or NULL on error.
OPENSSL_EXPORT DSA *DSA_parse_public_key(CBS *cbs);
// DSA_marshal_public_key marshals |dsa| as a DER-encoded DSA public key and
// appends the result to |cbb|. It returns one on success and zero on
// failure.
OPENSSL_EXPORT int DSA_marshal_public_key(CBB *cbb, const DSA *dsa);
// DSA_parse_private_key parses a DER-encoded DSA private key from |cbs| and
// advances |cbs|. It returns a newly-allocated |DSA| or NULL on error.
OPENSSL_EXPORT DSA *DSA_parse_private_key(CBS *cbs);
// DSA_marshal_private_key marshals |dsa| as a DER-encoded DSA private key and
// appends the result to |cbb|. It returns one on success and zero on
// failure.
OPENSSL_EXPORT int DSA_marshal_private_key(CBB *cbb, const DSA *dsa);
// DSA_parse_parameters parses a DER-encoded Dss-Parms structure (RFC 3279)
// from |cbs| and advances |cbs|. It returns a newly-allocated |DSA| or NULL on
// error.
OPENSSL_EXPORT DSA *DSA_parse_parameters(CBS *cbs);
// DSA_marshal_parameters marshals |dsa| as a DER-encoded Dss-Parms structure
// (RFC 3447) and appends the result to |cbb|. It returns one on success and
// zero on failure.
OPENSSL_EXPORT int DSA_marshal_parameters(CBB *cbb, const DSA *dsa);
// Conversion.
// DSA_dup_DH returns a |DH| constructed from the parameters of |dsa|. This is
// sometimes needed when Diffie-Hellman parameters are stored in the form of
// DSA parameters. It returns an allocated |DH| on success or NULL on error.
OPENSSL_EXPORT DH *DSA_dup_DH(const DSA *dsa);
// ex_data functions.
//
// See |ex_data.h| for details.
OPENSSL_EXPORT int DSA_get_ex_new_index(long argl, void *argp,
CRYPTO_EX_unused *unused,
CRYPTO_EX_dup *dup_unused,
CRYPTO_EX_free *free_func);
OPENSSL_EXPORT int DSA_set_ex_data(DSA *dsa, int idx, void *arg);
OPENSSL_EXPORT void *DSA_get_ex_data(const DSA *dsa, int idx);
// Deprecated functions.
// d2i_DSA_SIG parses an ASN.1, DER-encoded, DSA signature from |len| bytes at
// |*inp|. If |out_sig| is not NULL then, on exit, a pointer to the result is
// in |*out_sig|. Note that, even if |*out_sig| is already non-NULL on entry, it
// will not be written to. Rather, a fresh |DSA_SIG| is allocated and the
// previous one is freed. On successful exit, |*inp| is advanced past the DER
// structure. It returns the result or NULL on error.
//
// Use |DSA_SIG_parse| instead.
OPENSSL_EXPORT DSA_SIG *d2i_DSA_SIG(DSA_SIG **out_sig, const uint8_t **inp,
long len);
// i2d_DSA_SIG marshals |in| to an ASN.1, DER structure. If |outp| is not NULL
// then the result is written to |*outp| and |*outp| is advanced just past the
// output. It returns the number of bytes in the result, whether written or not,
// or a negative value on error.
//
// Use |DSA_SIG_marshal| instead.
OPENSSL_EXPORT int i2d_DSA_SIG(const DSA_SIG *in, uint8_t **outp);
// d2i_DSAPublicKey parses an ASN.1, DER-encoded, DSA public key from |len|
// bytes at |*inp|. If |out| is not NULL then, on exit, a pointer to the result
// is in |*out|. Note that, even if |*ou| is already non-NULL on entry, it will
// not be written to. Rather, a fresh |DSA| is allocated and the previous one is
// freed. On successful exit, |*inp| is advanced past the DER structure. It
// returns the result or NULL on error.
//
// Use |DSA_parse_public_key| instead.
OPENSSL_EXPORT DSA *d2i_DSAPublicKey(DSA **out, const uint8_t **inp, long len);
// i2d_DSAPublicKey marshals a public key from |in| to an ASN.1, DER structure.
// If |outp| is not NULL then the result is written to |*outp| and |*outp| is
// advanced just past the output. It returns the number of bytes in the result,
// whether written or not, or a negative value on error.
//
// Use |DSA_marshal_public_key| instead.
OPENSSL_EXPORT int i2d_DSAPublicKey(const DSA *in, uint8_t **outp);
// d2i_DSAPrivateKey parses an ASN.1, DER-encoded, DSA private key from |len|
// bytes at |*inp|. If |out| is not NULL then, on exit, a pointer to the result
// is in |*out|. Note that, even if |*out| is already non-NULL on entry, it will
// not be written to. Rather, a fresh |DSA| is allocated and the previous one is
// freed. On successful exit, |*inp| is advanced past the DER structure. It
// returns the result or NULL on error.
//
// Use |DSA_parse_private_key| instead.
OPENSSL_EXPORT DSA *d2i_DSAPrivateKey(DSA **out, const uint8_t **inp, long len);
// i2d_DSAPrivateKey marshals a private key from |in| to an ASN.1, DER
// structure. If |outp| is not NULL then the result is written to |*outp| and
// |*outp| is advanced just past the output. It returns the number of bytes in
// the result, whether written or not, or a negative value on error.
//
// Use |DSA_marshal_private_key| instead.
OPENSSL_EXPORT int i2d_DSAPrivateKey(const DSA *in, uint8_t **outp);
// d2i_DSAparams parses ASN.1, DER-encoded, DSA parameters from |len| bytes at
// |*inp|. If |out| is not NULL then, on exit, a pointer to the result is in
// |*out|. Note that, even if |*out| is already non-NULL on entry, it will not
// be written to. Rather, a fresh |DSA| is allocated and the previous one is
// freed. On successful exit, |*inp| is advanced past the DER structure. It
// returns the result or NULL on error.
//
// Use |DSA_parse_parameters| instead.
OPENSSL_EXPORT DSA *d2i_DSAparams(DSA **out, const uint8_t **inp, long len);
// i2d_DSAparams marshals DSA parameters from |in| to an ASN.1, DER structure.
// If |outp| is not NULL then the result is written to |*outp| and |*outp| is
// advanced just past the output. It returns the number of bytes in the result,
// whether written or not, or a negative value on error.
//
// Use |DSA_marshal_parameters| instead.
OPENSSL_EXPORT int i2d_DSAparams(const DSA *in, uint8_t **outp);
// DSA_generate_parameters is a deprecated version of
// |DSA_generate_parameters_ex| that creates and returns a |DSA*|. Don't use
// it.
OPENSSL_EXPORT DSA *DSA_generate_parameters(int bits, unsigned char *seed,
int seed_len, int *counter_ret,
unsigned long *h_ret,
void (*callback)(int, int, void *),
void *cb_arg);
struct dsa_st {
long version;
BIGNUM *p;
BIGNUM *q; // == 20
BIGNUM *g;
BIGNUM *pub_key; // y public key
BIGNUM *priv_key; // x private key
int flags;
// Normally used to cache montgomery values
CRYPTO_MUTEX method_mont_lock;
BN_MONT_CTX *method_mont_p;
BN_MONT_CTX *method_mont_q;
CRYPTO_refcount_t references;
CRYPTO_EX_DATA ex_data;
};
#if defined(__cplusplus)
} // extern C
extern "C++" {
namespace bssl {
BORINGSSL_MAKE_DELETER(DSA, DSA_free)
BORINGSSL_MAKE_DELETER(DSA_SIG, DSA_SIG_free)
} // namespace bssl
} // extern C++
#endif
#define DSA_R_BAD_Q_VALUE 100
#define DSA_R_MISSING_PARAMETERS 101
#define DSA_R_MODULUS_TOO_LARGE 102
#define DSA_R_NEED_NEW_SETUP_VALUES 103
#define DSA_R_BAD_VERSION 104
#define DSA_R_DECODE_ERROR 105
#define DSA_R_ENCODE_ERROR 106
#endif // OPENSSL_HEADER_DSA_H