mirror of
https://github.com/openssl/openssl.git
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8548d3bfc9
Reviewed-by: Dmitry Belyavskiy <beldmit@gmail.com> Reviewed-by: Paul Dale <pauli@openssl.org> Reviewed-by: Tomas Mraz <tomas@openssl.org> (Merged from https://github.com/openssl/openssl/pull/19889)
707 lines
32 KiB
Plaintext
707 lines
32 KiB
Plaintext
=pod
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=head1 NAME
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EVP_PKEY_CTX_ctrl,
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EVP_PKEY_CTX_ctrl_str,
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EVP_PKEY_CTX_ctrl_uint64,
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EVP_PKEY_CTX_md,
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EVP_PKEY_CTX_set_signature_md,
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EVP_PKEY_CTX_get_signature_md,
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EVP_PKEY_CTX_set_mac_key,
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EVP_PKEY_CTX_set_group_name,
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EVP_PKEY_CTX_get_group_name,
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EVP_PKEY_CTX_set_rsa_padding,
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EVP_PKEY_CTX_get_rsa_padding,
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EVP_PKEY_CTX_set_rsa_pss_saltlen,
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EVP_PKEY_CTX_get_rsa_pss_saltlen,
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EVP_PKEY_CTX_set_rsa_keygen_bits,
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EVP_PKEY_CTX_set_rsa_keygen_pubexp,
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EVP_PKEY_CTX_set1_rsa_keygen_pubexp,
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EVP_PKEY_CTX_set_rsa_keygen_primes,
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EVP_PKEY_CTX_set_rsa_mgf1_md_name,
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EVP_PKEY_CTX_set_rsa_mgf1_md,
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EVP_PKEY_CTX_get_rsa_mgf1_md,
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EVP_PKEY_CTX_get_rsa_mgf1_md_name,
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EVP_PKEY_CTX_set_rsa_oaep_md_name,
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EVP_PKEY_CTX_set_rsa_oaep_md,
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EVP_PKEY_CTX_get_rsa_oaep_md,
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EVP_PKEY_CTX_get_rsa_oaep_md_name,
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EVP_PKEY_CTX_set0_rsa_oaep_label,
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EVP_PKEY_CTX_get0_rsa_oaep_label,
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EVP_PKEY_CTX_set_dsa_paramgen_bits,
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EVP_PKEY_CTX_set_dsa_paramgen_q_bits,
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EVP_PKEY_CTX_set_dsa_paramgen_md,
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EVP_PKEY_CTX_set_dsa_paramgen_md_props,
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EVP_PKEY_CTX_set_dsa_paramgen_gindex,
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EVP_PKEY_CTX_set_dsa_paramgen_type,
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EVP_PKEY_CTX_set_dsa_paramgen_seed,
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EVP_PKEY_CTX_set_dh_paramgen_prime_len,
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EVP_PKEY_CTX_set_dh_paramgen_subprime_len,
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EVP_PKEY_CTX_set_dh_paramgen_generator,
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EVP_PKEY_CTX_set_dh_paramgen_type,
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EVP_PKEY_CTX_set_dh_paramgen_gindex,
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EVP_PKEY_CTX_set_dh_paramgen_seed,
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EVP_PKEY_CTX_set_dh_rfc5114,
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EVP_PKEY_CTX_set_dhx_rfc5114,
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EVP_PKEY_CTX_set_dh_pad,
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EVP_PKEY_CTX_set_dh_nid,
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EVP_PKEY_CTX_set_dh_kdf_type,
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EVP_PKEY_CTX_get_dh_kdf_type,
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EVP_PKEY_CTX_set0_dh_kdf_oid,
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EVP_PKEY_CTX_get0_dh_kdf_oid,
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EVP_PKEY_CTX_set_dh_kdf_md,
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EVP_PKEY_CTX_get_dh_kdf_md,
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EVP_PKEY_CTX_set_dh_kdf_outlen,
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EVP_PKEY_CTX_get_dh_kdf_outlen,
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EVP_PKEY_CTX_set0_dh_kdf_ukm,
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EVP_PKEY_CTX_get0_dh_kdf_ukm,
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EVP_PKEY_CTX_set_ec_paramgen_curve_nid,
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EVP_PKEY_CTX_set_ec_param_enc,
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EVP_PKEY_CTX_set_ecdh_cofactor_mode,
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EVP_PKEY_CTX_get_ecdh_cofactor_mode,
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EVP_PKEY_CTX_set_ecdh_kdf_type,
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EVP_PKEY_CTX_get_ecdh_kdf_type,
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EVP_PKEY_CTX_set_ecdh_kdf_md,
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EVP_PKEY_CTX_get_ecdh_kdf_md,
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EVP_PKEY_CTX_set_ecdh_kdf_outlen,
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EVP_PKEY_CTX_get_ecdh_kdf_outlen,
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EVP_PKEY_CTX_set0_ecdh_kdf_ukm,
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EVP_PKEY_CTX_get0_ecdh_kdf_ukm,
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EVP_PKEY_CTX_set1_id, EVP_PKEY_CTX_get1_id, EVP_PKEY_CTX_get1_id_len,
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EVP_PKEY_CTX_set_kem_op
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- algorithm specific control operations
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=head1 SYNOPSIS
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#include <openssl/evp.h>
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int EVP_PKEY_CTX_ctrl(EVP_PKEY_CTX *ctx, int keytype, int optype,
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int cmd, int p1, void *p2);
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int EVP_PKEY_CTX_ctrl_uint64(EVP_PKEY_CTX *ctx, int keytype, int optype,
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int cmd, uint64_t value);
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int EVP_PKEY_CTX_ctrl_str(EVP_PKEY_CTX *ctx, const char *type,
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const char *value);
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int EVP_PKEY_CTX_md(EVP_PKEY_CTX *ctx, int optype, int cmd, const char *md);
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int EVP_PKEY_CTX_set_signature_md(EVP_PKEY_CTX *ctx, const EVP_MD *md);
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int EVP_PKEY_CTX_get_signature_md(EVP_PKEY_CTX *ctx, const EVP_MD **pmd);
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int EVP_PKEY_CTX_set_mac_key(EVP_PKEY_CTX *ctx, const unsigned char *key,
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int len);
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int EVP_PKEY_CTX_set_group_name(EVP_PKEY_CTX *ctx, const char *name);
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int EVP_PKEY_CTX_get_group_name(EVP_PKEY_CTX *ctx, char *name, size_t namelen);
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int EVP_PKEY_CTX_set_kem_op(EVP_PKEY_CTX *ctx, const char *op);
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#include <openssl/rsa.h>
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int EVP_PKEY_CTX_set_rsa_padding(EVP_PKEY_CTX *ctx, int pad);
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int EVP_PKEY_CTX_get_rsa_padding(EVP_PKEY_CTX *ctx, int *pad);
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int EVP_PKEY_CTX_set_rsa_pss_saltlen(EVP_PKEY_CTX *ctx, int saltlen);
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int EVP_PKEY_CTX_get_rsa_pss_saltlen(EVP_PKEY_CTX *ctx, int *saltlen);
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int EVP_PKEY_CTX_set_rsa_keygen_bits(EVP_PKEY_CTX *ctx, int mbits);
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int EVP_PKEY_CTX_set1_rsa_keygen_pubexp(EVP_PKEY_CTX *ctx, BIGNUM *pubexp);
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int EVP_PKEY_CTX_set_rsa_keygen_primes(EVP_PKEY_CTX *ctx, int primes);
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int EVP_PKEY_CTX_set_rsa_mgf1_md_name(EVP_PKEY_CTX *ctx, const char *mdname,
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const char *mdprops);
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int EVP_PKEY_CTX_set_rsa_mgf1_md(EVP_PKEY_CTX *ctx, const EVP_MD *md);
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int EVP_PKEY_CTX_get_rsa_mgf1_md(EVP_PKEY_CTX *ctx, const EVP_MD **md);
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int EVP_PKEY_CTX_get_rsa_mgf1_md_name(EVP_PKEY_CTX *ctx, char *name,
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size_t namelen);
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int EVP_PKEY_CTX_set_rsa_oaep_md_name(EVP_PKEY_CTX *ctx, const char *mdname,
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const char *mdprops);
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int EVP_PKEY_CTX_set_rsa_oaep_md(EVP_PKEY_CTX *ctx, const EVP_MD *md);
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int EVP_PKEY_CTX_get_rsa_oaep_md(EVP_PKEY_CTX *ctx, const EVP_MD **md);
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int EVP_PKEY_CTX_get_rsa_oaep_md_name(EVP_PKEY_CTX *ctx, char *name,
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size_t namelen);
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int EVP_PKEY_CTX_set0_rsa_oaep_label(EVP_PKEY_CTX *ctx, void *label,
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int len);
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int EVP_PKEY_CTX_get0_rsa_oaep_label(EVP_PKEY_CTX *ctx, unsigned char **label);
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#include <openssl/dsa.h>
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int EVP_PKEY_CTX_set_dsa_paramgen_bits(EVP_PKEY_CTX *ctx, int nbits);
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int EVP_PKEY_CTX_set_dsa_paramgen_q_bits(EVP_PKEY_CTX *ctx, int qbits);
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int EVP_PKEY_CTX_set_dsa_paramgen_md(EVP_PKEY_CTX *ctx, const EVP_MD *md);
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int EVP_PKEY_CTX_set_dsa_paramgen_md_props(EVP_PKEY_CTX *ctx,
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const char *md_name,
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const char *md_properties);
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int EVP_PKEY_CTX_set_dsa_paramgen_type(EVP_PKEY_CTX *ctx, const char *name);
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int EVP_PKEY_CTX_set_dsa_paramgen_gindex(EVP_PKEY_CTX *ctx, int gindex);
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int EVP_PKEY_CTX_set_dsa_paramgen_seed(EVP_PKEY_CTX *ctx,
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const unsigned char *seed,
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size_t seedlen);
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#include <openssl/dh.h>
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int EVP_PKEY_CTX_set_dh_paramgen_prime_len(EVP_PKEY_CTX *ctx, int len);
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int EVP_PKEY_CTX_set_dh_paramgen_subprime_len(EVP_PKEY_CTX *ctx, int len);
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int EVP_PKEY_CTX_set_dh_paramgen_generator(EVP_PKEY_CTX *ctx, int gen);
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int EVP_PKEY_CTX_set_dh_paramgen_type(EVP_PKEY_CTX *ctx, int type);
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int EVP_PKEY_CTX_set_dh_pad(EVP_PKEY_CTX *ctx, int pad);
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int EVP_PKEY_CTX_set_dh_nid(EVP_PKEY_CTX *ctx, int nid);
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int EVP_PKEY_CTX_set_dh_rfc5114(EVP_PKEY_CTX *ctx, int rfc5114);
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int EVP_PKEY_CTX_set_dhx_rfc5114(EVP_PKEY_CTX *ctx, int rfc5114);
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int EVP_PKEY_CTX_set_dh_paramgen_gindex(EVP_PKEY_CTX *ctx, int gindex);
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int EVP_PKEY_CTX_set_dh_paramgen_seed(EVP_PKEY_CTX *ctx,
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const unsigned char *seed,
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size_t seedlen);
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int EVP_PKEY_CTX_set_dh_kdf_type(EVP_PKEY_CTX *ctx, int kdf);
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int EVP_PKEY_CTX_get_dh_kdf_type(EVP_PKEY_CTX *ctx);
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int EVP_PKEY_CTX_set0_dh_kdf_oid(EVP_PKEY_CTX *ctx, ASN1_OBJECT *oid);
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int EVP_PKEY_CTX_get0_dh_kdf_oid(EVP_PKEY_CTX *ctx, ASN1_OBJECT **oid);
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int EVP_PKEY_CTX_set_dh_kdf_md(EVP_PKEY_CTX *ctx, const EVP_MD *md);
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int EVP_PKEY_CTX_get_dh_kdf_md(EVP_PKEY_CTX *ctx, const EVP_MD **md);
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int EVP_PKEY_CTX_set_dh_kdf_outlen(EVP_PKEY_CTX *ctx, int len);
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int EVP_PKEY_CTX_get_dh_kdf_outlen(EVP_PKEY_CTX *ctx, int *len);
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int EVP_PKEY_CTX_set0_dh_kdf_ukm(EVP_PKEY_CTX *ctx, unsigned char *ukm, int len);
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#include <openssl/ec.h>
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int EVP_PKEY_CTX_set_ec_paramgen_curve_nid(EVP_PKEY_CTX *ctx, int nid);
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int EVP_PKEY_CTX_set_ec_param_enc(EVP_PKEY_CTX *ctx, int param_enc);
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int EVP_PKEY_CTX_set_ecdh_cofactor_mode(EVP_PKEY_CTX *ctx, int cofactor_mode);
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int EVP_PKEY_CTX_get_ecdh_cofactor_mode(EVP_PKEY_CTX *ctx);
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int EVP_PKEY_CTX_set_ecdh_kdf_type(EVP_PKEY_CTX *ctx, int kdf);
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int EVP_PKEY_CTX_get_ecdh_kdf_type(EVP_PKEY_CTX *ctx);
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int EVP_PKEY_CTX_set_ecdh_kdf_md(EVP_PKEY_CTX *ctx, const EVP_MD *md);
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int EVP_PKEY_CTX_get_ecdh_kdf_md(EVP_PKEY_CTX *ctx, const EVP_MD **md);
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int EVP_PKEY_CTX_set_ecdh_kdf_outlen(EVP_PKEY_CTX *ctx, int len);
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int EVP_PKEY_CTX_get_ecdh_kdf_outlen(EVP_PKEY_CTX *ctx, int *len);
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int EVP_PKEY_CTX_set0_ecdh_kdf_ukm(EVP_PKEY_CTX *ctx, unsigned char *ukm, int len);
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int EVP_PKEY_CTX_set1_id(EVP_PKEY_CTX *ctx, void *id, size_t id_len);
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int EVP_PKEY_CTX_get1_id(EVP_PKEY_CTX *ctx, void *id);
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int EVP_PKEY_CTX_get1_id_len(EVP_PKEY_CTX *ctx, size_t *id_len);
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The following functions have been deprecated since OpenSSL 3.0, and can be
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hidden entirely by defining B<OPENSSL_API_COMPAT> with a suitable version value,
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see L<openssl_user_macros(7)>:
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#include <openssl/rsa.h>
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int EVP_PKEY_CTX_set_rsa_keygen_pubexp(EVP_PKEY_CTX *ctx, BIGNUM *pubexp);
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#include <openssl/dh.h>
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int EVP_PKEY_CTX_get0_dh_kdf_ukm(EVP_PKEY_CTX *ctx, unsigned char **ukm);
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#include <openssl/ec.h>
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int EVP_PKEY_CTX_get0_ecdh_kdf_ukm(EVP_PKEY_CTX *ctx, unsigned char **ukm);
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=head1 DESCRIPTION
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EVP_PKEY_CTX_ctrl() sends a control operation to the context I<ctx>. The key
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type used must match I<keytype> if it is not -1. The parameter I<optype> is a
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mask indicating which operations the control can be applied to.
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The control command is indicated in I<cmd> and any additional arguments in
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I<p1> and I<p2>.
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For I<cmd> = B<EVP_PKEY_CTRL_SET_MAC_KEY>, I<p1> is the length of the MAC key,
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and I<p2> is the MAC key. This is used by Poly1305, SipHash, HMAC and CMAC.
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Applications will not normally call EVP_PKEY_CTX_ctrl() directly but will
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instead call one of the algorithm specific functions below.
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EVP_PKEY_CTX_ctrl_uint64() is a wrapper that directly passes a
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uint64 value as I<p2> to EVP_PKEY_CTX_ctrl().
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EVP_PKEY_CTX_ctrl_str() allows an application to send an algorithm
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specific control operation to a context I<ctx> in string form. This is
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intended to be used for options specified on the command line or in text
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files. The commands supported are documented in the openssl utility
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command line pages for the option I<-pkeyopt> which is supported by the
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I<pkeyutl>, I<genpkey> and I<req> commands.
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EVP_PKEY_CTX_md() sends a message digest control operation to the context
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I<ctx>. The message digest is specified by its name I<md>.
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EVP_PKEY_CTX_set_signature_md() sets the message digest type used
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in a signature. It can be used in the RSA, DSA and ECDSA algorithms.
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EVP_PKEY_CTX_get_signature_md()gets the message digest type used
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in a signature. It can be used in the RSA, DSA and ECDSA algorithms.
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Key generation typically involves setting up parameters to be used and
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generating the private and public key data. Some algorithm implementations
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allow private key data to be set explicitly using EVP_PKEY_CTX_set_mac_key().
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In this case key generation is simply the process of setting up the
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parameters for the key and then setting the raw key data to the value explicitly.
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Normally applications would call L<EVP_PKEY_new_raw_private_key(3)> or similar
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functions instead.
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EVP_PKEY_CTX_set_mac_key() can be used with any of the algorithms supported by
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the L<EVP_PKEY_new_raw_private_key(3)> function.
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EVP_PKEY_CTX_set_group_name() sets the group name to I<name> for parameter and
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key generation. For example for EC keys this will set the curve name and for
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DH keys it will set the name of the finite field group.
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EVP_PKEY_CTX_get_group_name() finds the group name that's currently
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set with I<ctx>, and writes it to the location that I<name> points at, as long
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as its size I<namelen> is large enough to store that name, including a
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terminating NUL byte.
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=head2 RSA parameters
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EVP_PKEY_CTX_set_rsa_padding() sets the RSA padding mode for I<ctx>.
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The I<pad> parameter can take the value B<RSA_PKCS1_PADDING> for PKCS#1
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padding, B<RSA_NO_PADDING> for
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no padding, B<RSA_PKCS1_OAEP_PADDING> for OAEP padding (encrypt and
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decrypt only), B<RSA_X931_PADDING> for X9.31 padding (signature operations
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only), B<RSA_PKCS1_PSS_PADDING> (sign and verify only) and
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B<RSA_PKCS1_WITH_TLS_PADDING> for TLS RSA ClientKeyExchange message padding
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(decryption only).
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Two RSA padding modes behave differently if EVP_PKEY_CTX_set_signature_md()
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is used. If this function is called for PKCS#1 padding the plaintext buffer is
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an actual digest value and is encapsulated in a DigestInfo structure according
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to PKCS#1 when signing and this structure is expected (and stripped off) when
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verifying. If this control is not used with RSA and PKCS#1 padding then the
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supplied data is used directly and not encapsulated. In the case of X9.31
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padding for RSA the algorithm identifier byte is added or checked and removed
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if this control is called. If it is not called then the first byte of the plaintext
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buffer is expected to be the algorithm identifier byte.
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EVP_PKEY_CTX_get_rsa_padding() gets the RSA padding mode for I<ctx>.
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EVP_PKEY_CTX_set_rsa_pss_saltlen() sets the RSA PSS salt length to I<saltlen>.
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As its name implies it is only supported for PSS padding. If this function is
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not called then the salt length is maximized up to the digest length when
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signing and auto detection when verifying. Four special values are supported:
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=over 4
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=item B<RSA_PSS_SALTLEN_DIGEST>
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sets the salt length to the digest length.
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=item B<RSA_PSS_SALTLEN_MAX>
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sets the salt length to the maximum permissible value.
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=item B<RSA_PSS_SALTLEN_AUTO>
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causes the salt length to be automatically determined based on the
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B<PSS> block structure when verifying. When signing, it has the same
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meaning as B<RSA_PSS_SALTLEN_MAX>.
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=item B<RSA_PSS_SALTLEN_AUTO_DIGEST_MAX>
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causes the salt length to be automatically determined based on the B<PSS> block
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structure when verifying, like B<RSA_PSS_SALTLEN_AUTO>. When signing, the salt
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length is maximized up to a maximum of the digest length to comply with FIPS
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186-4 section 5.5.
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=back
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EVP_PKEY_CTX_get_rsa_pss_saltlen() gets the RSA PSS salt length for I<ctx>.
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The padding mode must already have been set to B<RSA_PKCS1_PSS_PADDING>.
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EVP_PKEY_CTX_set_rsa_keygen_bits() sets the RSA key length for
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RSA key generation to I<bits>. If not specified 2048 bits is used.
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EVP_PKEY_CTX_set1_rsa_keygen_pubexp() sets the public exponent value for RSA key
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generation to the value stored in I<pubexp>. Currently it should be an odd
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integer. In accordance with the OpenSSL naming convention, the I<pubexp> pointer
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must be freed independently of the EVP_PKEY_CTX (ie, it is internally copied).
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If not specified 65537 is used.
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EVP_PKEY_CTX_set_rsa_keygen_pubexp() does the same as
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EVP_PKEY_CTX_set1_rsa_keygen_pubexp() except that there is no internal copy and
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therefore I<pubexp> should not be modified or freed after the call.
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EVP_PKEY_CTX_set_rsa_keygen_primes() sets the number of primes for
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RSA key generation to I<primes>. If not specified 2 is used.
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EVP_PKEY_CTX_set_rsa_mgf1_md_name() sets the MGF1 digest for RSA
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padding schemes to the digest named I<mdname>. If the RSA algorithm
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implementation for the selected provider supports it then the digest will be
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fetched using the properties I<mdprops>. If not explicitly set the signing
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digest is used. The padding mode must have been set to B<RSA_PKCS1_OAEP_PADDING>
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or B<RSA_PKCS1_PSS_PADDING>.
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EVP_PKEY_CTX_set_rsa_mgf1_md() does the same as
|
|
EVP_PKEY_CTX_set_rsa_mgf1_md_name() except that the name of the digest is
|
|
inferred from the supplied I<md> and it is not possible to specify any
|
|
properties.
|
|
|
|
EVP_PKEY_CTX_get_rsa_mgf1_md_name() gets the name of the MGF1
|
|
digest algorithm for I<ctx>. If not explicitly set the signing digest is used.
|
|
The padding mode must have been set to B<RSA_PKCS1_OAEP_PADDING> or
|
|
B<RSA_PKCS1_PSS_PADDING>.
|
|
|
|
EVP_PKEY_CTX_get_rsa_mgf1_md() does the same as
|
|
EVP_PKEY_CTX_get_rsa_mgf1_md_name() except that it returns a pointer to an
|
|
EVP_MD object instead. Note that only known, built-in EVP_MD objects will be
|
|
returned. The EVP_MD object may be NULL if the digest is not one of these (such
|
|
as a digest only implemented in a third party provider).
|
|
|
|
EVP_PKEY_CTX_set_rsa_oaep_md_name() sets the message digest type
|
|
used in RSA OAEP to the digest named I<mdname>. If the RSA algorithm
|
|
implementation for the selected provider supports it then the digest will be
|
|
fetched using the properties I<mdprops>. The padding mode must have been set to
|
|
B<RSA_PKCS1_OAEP_PADDING>.
|
|
|
|
EVP_PKEY_CTX_set_rsa_oaep_md() does the same as
|
|
EVP_PKEY_CTX_set_rsa_oaep_md_name() except that the name of the digest is
|
|
inferred from the supplied I<md> and it is not possible to specify any
|
|
properties.
|
|
|
|
EVP_PKEY_CTX_get_rsa_oaep_md_name() gets the message digest
|
|
algorithm name used in RSA OAEP and stores it in the buffer I<name> which is of
|
|
size I<namelen>. The padding mode must have been set to
|
|
B<RSA_PKCS1_OAEP_PADDING>. The buffer should be sufficiently large for any
|
|
expected digest algorithm names or the function will fail.
|
|
|
|
EVP_PKEY_CTX_get_rsa_oaep_md() does the same as
|
|
EVP_PKEY_CTX_get_rsa_oaep_md_name() except that it returns a pointer to an
|
|
EVP_MD object instead. Note that only known, built-in EVP_MD objects will be
|
|
returned. The EVP_MD object may be NULL if the digest is not one of these (such
|
|
as a digest only implemented in a third party provider).
|
|
|
|
EVP_PKEY_CTX_set0_rsa_oaep_label() sets the RSA OAEP label to binary data
|
|
I<label> and its length in bytes to I<len>. If I<label> is NULL or I<len> is 0,
|
|
the label is cleared. The library takes ownership of the label so the
|
|
caller should not free the original memory pointed to by I<label>.
|
|
The padding mode must have been set to B<RSA_PKCS1_OAEP_PADDING>.
|
|
|
|
EVP_PKEY_CTX_get0_rsa_oaep_label() gets the RSA OAEP label to
|
|
I<label>. The return value is the label length. The padding mode
|
|
must have been set to B<RSA_PKCS1_OAEP_PADDING>. The resulting pointer is owned
|
|
by the library and should not be freed by the caller.
|
|
|
|
B<RSA_PKCS1_WITH_TLS_PADDING> is used when decrypting an RSA encrypted TLS
|
|
pre-master secret in a TLS ClientKeyExchange message. It is the same as
|
|
RSA_PKCS1_PADDING except that it additionally verifies that the result is the
|
|
correct length and the first two bytes are the protocol version initially
|
|
requested by the client. If the encrypted content is publicly invalid then the
|
|
decryption will fail. However, if the padding checks fail then decryption will
|
|
still appear to succeed but a random TLS premaster secret will be returned
|
|
instead. This padding mode accepts two parameters which can be set using the
|
|
L<EVP_PKEY_CTX_set_params(3)> function. These are
|
|
OSSL_ASYM_CIPHER_PARAM_TLS_CLIENT_VERSION and
|
|
OSSL_ASYM_CIPHER_PARAM_TLS_NEGOTIATED_VERSION, both of which are expected to be
|
|
unsigned integers. Normally only the first of these will be set and represents
|
|
the TLS protocol version that was first requested by the client (e.g. 0x0303 for
|
|
TLSv1.2, 0x0302 for TLSv1.1 etc). Historically some buggy clients would use the
|
|
negotiated protocol version instead of the protocol version first requested. If
|
|
this behaviour should be tolerated then
|
|
OSSL_ASYM_CIPHER_PARAM_TLS_NEGOTIATED_VERSION should be set to the actual
|
|
negotiated protocol version. Otherwise it should be left unset.
|
|
|
|
Similarly to the B<RSA_PKCS1_WITH_TLS_PADDING> above, since OpenSSL version
|
|
3.2.0, the use of B<RSA_PKCS1_PADDING> will return a randomly generated message
|
|
instead of padding errors in case padding checks fail. Applications that
|
|
want to remain secure while using earlier versions of OpenSSL, still need to
|
|
handle both the error code from the RSA decryption operation and the
|
|
returned message in a side channel secure manner.
|
|
This protection against Bleichenbacher attacks can be disabled by setting
|
|
the OSSL_ASYM_CIPHER_PARAM_IMPLICIT_REJECTION (an unsigned integer) to 0.
|
|
|
|
=head2 DSA parameters
|
|
|
|
EVP_PKEY_CTX_set_dsa_paramgen_bits() sets the number of bits used for DSA
|
|
parameter generation to B<nbits>. If not specified, 2048 is used.
|
|
|
|
EVP_PKEY_CTX_set_dsa_paramgen_q_bits() sets the number of bits in the subprime
|
|
parameter I<q> for DSA parameter generation to I<qbits>. If not specified, 224
|
|
is used. If a digest function is specified below, this parameter is ignored and
|
|
instead, the number of bits in I<q> matches the size of the digest.
|
|
|
|
EVP_PKEY_CTX_set_dsa_paramgen_md() sets the digest function used for DSA
|
|
parameter generation to I<md>. If not specified, one of SHA-1, SHA-224, or
|
|
SHA-256 is selected to match the bit length of I<q> above.
|
|
|
|
EVP_PKEY_CTX_set_dsa_paramgen_md_props() sets the digest function used for DSA
|
|
parameter generation using I<md_name> and I<md_properties> to retrieve the
|
|
digest from a provider.
|
|
If not specified, I<md_name> will be set to one of SHA-1, SHA-224, or
|
|
SHA-256 depending on the bit length of I<q> above. I<md_properties> is a
|
|
property query string that has a default value of '' if not specified.
|
|
|
|
EVP_PKEY_CTX_set_dsa_paramgen_gindex() sets the I<gindex> used by the generator
|
|
G. The default value is -1 which uses unverifiable g, otherwise a positive value
|
|
uses verifiable g. This value must be saved if key validation of g is required,
|
|
since it is not part of a persisted key.
|
|
|
|
EVP_PKEY_CTX_set_dsa_paramgen_seed() sets the I<seed> to use for generation
|
|
rather than using a randomly generated value for the seed. This is useful for
|
|
testing purposes only and can fail if the seed does not produce primes for both
|
|
p & q on its first iteration. This value must be saved if key validation of
|
|
p, q, and verifiable g are required, since it is not part of a persisted key.
|
|
|
|
EVP_PKEY_CTX_set_dsa_paramgen_type() sets the generation type to use FIPS186-4
|
|
generation if I<name> is "fips186_4", or FIPS186-2 generation if I<name> is
|
|
"fips186_2". The default value for the default provider is "fips186_2". The
|
|
default value for the FIPS provider is "fips186_4".
|
|
|
|
=head2 DH parameters
|
|
|
|
EVP_PKEY_CTX_set_dh_paramgen_prime_len() sets the length of the DH prime
|
|
parameter I<p> for DH parameter generation. If this function is not called then
|
|
2048 is used. Only accepts lengths greater than or equal to 256.
|
|
|
|
EVP_PKEY_CTX_set_dh_paramgen_subprime_len() sets the length of the DH
|
|
optional subprime parameter I<q> for DH parameter generation. The default is
|
|
256 if the prime is at least 2048 bits long or 160 otherwise. The DH paramgen
|
|
type must have been set to "fips186_4".
|
|
|
|
EVP_PKEY_CTX_set_dh_paramgen_generator() sets DH generator to I<gen> for DH
|
|
parameter generation. If not specified 2 is used.
|
|
|
|
EVP_PKEY_CTX_set_dh_paramgen_type() sets the key type for DH parameter
|
|
generation. The supported parameters are:
|
|
|
|
=over 4
|
|
|
|
=item B<DH_PARAMGEN_TYPE_GROUP>
|
|
|
|
Use a named group. If only the safe prime parameter I<p> is set this can be
|
|
used to select a ffdhe safe prime group of the correct size.
|
|
|
|
=item B<DH_PARAMGEN_TYPE_FIPS_186_4>
|
|
|
|
FIPS186-4 FFC parameter generator.
|
|
|
|
=item B<DH_PARAMGEN_TYPE_FIPS_186_2>
|
|
|
|
FIPS186-2 FFC parameter generator (X9.42 DH).
|
|
|
|
=item B<DH_PARAMGEN_TYPE_GENERATOR>
|
|
|
|
Uses a safe prime generator g (PKCS#3 format).
|
|
|
|
=back
|
|
|
|
The default in the default provider is B<DH_PARAMGEN_TYPE_GENERATOR> for the
|
|
"DH" keytype, and B<DH_PARAMGEN_TYPE_FIPS_186_2> for the "DHX" keytype. In the
|
|
FIPS provider the default value is B<DH_PARAMGEN_TYPE_GROUP> for the "DH"
|
|
keytype and <B<DH_PARAMGEN_TYPE_FIPS_186_4> for the "DHX" keytype.
|
|
|
|
EVP_PKEY_CTX_set_dh_paramgen_gindex() sets the I<gindex> used by the generator G.
|
|
The default value is -1 which uses unverifiable g, otherwise a positive value
|
|
uses verifiable g. This value must be saved if key validation of g is required,
|
|
since it is not part of a persisted key.
|
|
|
|
EVP_PKEY_CTX_set_dh_paramgen_seed() sets the I<seed> to use for generation
|
|
rather than using a randomly generated value for the seed. This is useful for
|
|
testing purposes only and can fail if the seed does not produce primes for both
|
|
p & q on its first iteration. This value must be saved if key validation of p, q,
|
|
and verifiable g are required, since it is not part of a persisted key.
|
|
|
|
EVP_PKEY_CTX_set_dh_pad() sets the DH padding mode.
|
|
If I<pad> is 1 the shared secret is padded with zeros up to the size of the DH
|
|
prime I<p>.
|
|
If I<pad> is zero (the default) then no padding is performed.
|
|
|
|
EVP_PKEY_CTX_set_dh_nid() sets the DH parameters to values corresponding to
|
|
I<nid> as defined in RFC7919 or RFC3526. The I<nid> parameter must be
|
|
B<NID_ffdhe2048>, B<NID_ffdhe3072>, B<NID_ffdhe4096>, B<NID_ffdhe6144>,
|
|
B<NID_ffdhe8192>, B<NID_modp_1536>, B<NID_modp_2048>, B<NID_modp_3072>,
|
|
B<NID_modp_4096>, B<NID_modp_6144>, B<NID_modp_8192> or B<NID_undef> to clear
|
|
the stored value. This function can be called during parameter or key generation.
|
|
The nid parameter and the rfc5114 parameter are mutually exclusive.
|
|
|
|
EVP_PKEY_CTX_set_dh_rfc5114() and EVP_PKEY_CTX_set_dhx_rfc5114() both set the
|
|
DH parameters to the values defined in RFC5114. The I<rfc5114> parameter must
|
|
be 1, 2 or 3 corresponding to RFC5114 sections 2.1, 2.2 and 2.3. or 0 to clear
|
|
the stored value. This macro can be called during parameter generation. The
|
|
I<ctx> must have a key type of B<EVP_PKEY_DHX>.
|
|
The rfc5114 parameter and the nid parameter are mutually exclusive.
|
|
|
|
=head2 DH key derivation function parameters
|
|
|
|
Note that all of the following functions require that the I<ctx> parameter has
|
|
a private key type of B<EVP_PKEY_DHX>. When using key derivation, the output of
|
|
EVP_PKEY_derive() is the output of the KDF instead of the DH shared secret.
|
|
The KDF output is typically used as a Key Encryption Key (KEK) that in turn
|
|
encrypts a Content Encryption Key (CEK).
|
|
|
|
EVP_PKEY_CTX_set_dh_kdf_type() sets the key derivation function type to I<kdf>
|
|
for DH key derivation. Possible values are B<EVP_PKEY_DH_KDF_NONE> and
|
|
B<EVP_PKEY_DH_KDF_X9_42> which uses the key derivation specified in RFC2631
|
|
(based on the keying algorithm described in X9.42). When using key derivation,
|
|
the I<kdf_oid>, I<kdf_md> and I<kdf_outlen> parameters must also be specified.
|
|
|
|
EVP_PKEY_CTX_get_dh_kdf_type() gets the key derivation function type for I<ctx>
|
|
used for DH key derivation. Possible values are B<EVP_PKEY_DH_KDF_NONE> and
|
|
B<EVP_PKEY_DH_KDF_X9_42>.
|
|
|
|
EVP_PKEY_CTX_set0_dh_kdf_oid() sets the key derivation function object
|
|
identifier to I<oid> for DH key derivation. This OID should identify the
|
|
algorithm to be used with the Content Encryption Key.
|
|
The library takes ownership of the object identifier so the caller should not
|
|
free the original memory pointed to by I<oid>.
|
|
|
|
EVP_PKEY_CTX_get0_dh_kdf_oid() gets the key derivation function oid for I<ctx>
|
|
used for DH key derivation. The resulting pointer is owned by the library and
|
|
should not be freed by the caller.
|
|
|
|
EVP_PKEY_CTX_set_dh_kdf_md() sets the key derivation function message digest to
|
|
I<md> for DH key derivation. Note that RFC2631 specifies that this digest should
|
|
be SHA1 but OpenSSL tolerates other digests.
|
|
|
|
EVP_PKEY_CTX_get_dh_kdf_md() gets the key derivation function message digest for
|
|
I<ctx> used for DH key derivation.
|
|
|
|
EVP_PKEY_CTX_set_dh_kdf_outlen() sets the key derivation function output length
|
|
to I<len> for DH key derivation.
|
|
|
|
EVP_PKEY_CTX_get_dh_kdf_outlen() gets the key derivation function output length
|
|
for I<ctx> used for DH key derivation.
|
|
|
|
EVP_PKEY_CTX_set0_dh_kdf_ukm() sets the user key material to I<ukm> and its
|
|
length to I<len> for DH key derivation. This parameter is optional and
|
|
corresponds to the partyAInfo field in RFC2631 terms. The specification
|
|
requires that it is 512 bits long but this is not enforced by OpenSSL.
|
|
The library takes ownership of the user key material so the caller should not
|
|
free the original memory pointed to by I<ukm>.
|
|
|
|
EVP_PKEY_CTX_get0_dh_kdf_ukm() gets the user key material for I<ctx>.
|
|
The return value is the user key material length. The resulting pointer is owned
|
|
by the library and should not be freed by the caller.
|
|
|
|
=head2 EC parameters
|
|
|
|
Use EVP_PKEY_CTX_set_group_name() (described above) to set the curve name to
|
|
I<name> for parameter and key generation.
|
|
|
|
EVP_PKEY_CTX_set_ec_paramgen_curve_nid() does the same as
|
|
EVP_PKEY_CTX_set_group_name(), but is specific to EC and uses a I<nid> rather
|
|
than a name string.
|
|
|
|
For EC parameter generation, one of EVP_PKEY_CTX_set_group_name()
|
|
or EVP_PKEY_CTX_set_ec_paramgen_curve_nid() must be called or an error occurs
|
|
because there is no default curve.
|
|
These function can also be called to set the curve explicitly when
|
|
generating an EC key.
|
|
|
|
EVP_PKEY_CTX_get_group_name() (described above) can be used to obtain the curve
|
|
name that's currently set with I<ctx>.
|
|
|
|
EVP_PKEY_CTX_set_ec_param_enc() sets the EC parameter encoding to I<param_enc>
|
|
when generating EC parameters or an EC key. The encoding can be
|
|
B<OPENSSL_EC_EXPLICIT_CURVE> for explicit parameters (the default in versions
|
|
of OpenSSL before 1.1.0) or B<OPENSSL_EC_NAMED_CURVE> to use named curve form.
|
|
For maximum compatibility the named curve form should be used. Note: the
|
|
B<OPENSSL_EC_NAMED_CURVE> value was added in OpenSSL 1.1.0; previous
|
|
versions should use 0 instead.
|
|
|
|
=head2 ECDH parameters
|
|
|
|
EVP_PKEY_CTX_set_ecdh_cofactor_mode() sets the cofactor mode to I<cofactor_mode>
|
|
for ECDH key derivation. Possible values are 1 to enable cofactor
|
|
key derivation, 0 to disable it and -1 to clear the stored cofactor mode and
|
|
fallback to the private key cofactor mode.
|
|
|
|
EVP_PKEY_CTX_get_ecdh_cofactor_mode() returns the cofactor mode for I<ctx> used
|
|
for ECDH key derivation. Possible values are 1 when cofactor key derivation is
|
|
enabled and 0 otherwise.
|
|
|
|
=head2 ECDH key derivation function parameters
|
|
|
|
EVP_PKEY_CTX_set_ecdh_kdf_type() sets the key derivation function type to
|
|
I<kdf> for ECDH key derivation. Possible values are B<EVP_PKEY_ECDH_KDF_NONE>
|
|
and B<EVP_PKEY_ECDH_KDF_X9_63> which uses the key derivation specified in X9.63.
|
|
When using key derivation, the I<kdf_md> and I<kdf_outlen> parameters must
|
|
also be specified.
|
|
|
|
EVP_PKEY_CTX_get_ecdh_kdf_type() returns the key derivation function type for
|
|
I<ctx> used for ECDH key derivation. Possible values are
|
|
B<EVP_PKEY_ECDH_KDF_NONE> and B<EVP_PKEY_ECDH_KDF_X9_63>.
|
|
|
|
EVP_PKEY_CTX_set_ecdh_kdf_md() sets the key derivation function message digest
|
|
to I<md> for ECDH key derivation. Note that X9.63 specifies that this digest
|
|
should be SHA1 but OpenSSL tolerates other digests.
|
|
|
|
EVP_PKEY_CTX_get_ecdh_kdf_md() gets the key derivation function message digest
|
|
for I<ctx> used for ECDH key derivation.
|
|
|
|
EVP_PKEY_CTX_set_ecdh_kdf_outlen() sets the key derivation function output
|
|
length to I<len> for ECDH key derivation.
|
|
|
|
EVP_PKEY_CTX_get_ecdh_kdf_outlen() gets the key derivation function output
|
|
length for I<ctx> used for ECDH key derivation.
|
|
|
|
EVP_PKEY_CTX_set0_ecdh_kdf_ukm() sets the user key material to I<ukm> for ECDH
|
|
key derivation. This parameter is optional and corresponds to the shared info in
|
|
X9.63 terms. The library takes ownership of the user key material so the caller
|
|
should not free the original memory pointed to by I<ukm>.
|
|
|
|
EVP_PKEY_CTX_get0_ecdh_kdf_ukm() gets the user key material for I<ctx>.
|
|
The return value is the user key material length. The resulting pointer is owned
|
|
by the library and should not be freed by the caller.
|
|
|
|
=head2 Other parameters
|
|
|
|
EVP_PKEY_CTX_set1_id(), EVP_PKEY_CTX_get1_id() and EVP_PKEY_CTX_get1_id_len()
|
|
are used to manipulate the special identifier field for specific signature
|
|
algorithms such as SM2. The EVP_PKEY_CTX_set1_id() sets an ID pointed by I<id> with
|
|
the length I<id_len> to the library. The library takes a copy of the id so that
|
|
the caller can safely free the original memory pointed to by I<id>.
|
|
EVP_PKEY_CTX_get1_id_len() returns the length of the ID set via a previous call
|
|
to EVP_PKEY_CTX_set1_id(). The length is usually used to allocate adequate
|
|
memory for further calls to EVP_PKEY_CTX_get1_id(). EVP_PKEY_CTX_get1_id()
|
|
returns the previously set ID value to caller in I<id>. The caller should
|
|
allocate adequate memory space for the I<id> before calling EVP_PKEY_CTX_get1_id().
|
|
|
|
EVP_PKEY_CTX_set_kem_op() sets the KEM operation to run. This can be set after
|
|
EVP_PKEY_encapsulate_init() or EVP_PKEY_decapsulate_init() to select the
|
|
kem operation. RSA is the only key type that supports encapsulation currently,
|
|
and as there is no default operation for the RSA type, this function must be
|
|
called before EVP_PKEY_encapsulate() or EVP_PKEY_decapsulate().
|
|
|
|
=head1 RETURN VALUES
|
|
|
|
All other functions described on this page return a positive value for success
|
|
and 0 or a negative value for failure. In particular a return value of -2
|
|
indicates the operation is not supported by the public key algorithm.
|
|
|
|
=head1 SEE ALSO
|
|
|
|
L<EVP_PKEY_CTX_set_params(3)>,
|
|
L<EVP_PKEY_CTX_new(3)>,
|
|
L<EVP_PKEY_encrypt(3)>,
|
|
L<EVP_PKEY_decrypt(3)>,
|
|
L<EVP_PKEY_sign(3)>,
|
|
L<EVP_PKEY_verify(3)>,
|
|
L<EVP_PKEY_verify_recover(3)>,
|
|
L<EVP_PKEY_derive(3)>,
|
|
L<EVP_PKEY_keygen(3)>
|
|
L<EVP_PKEY_encapsulate(3)>
|
|
L<EVP_PKEY_decapsulate(3)>
|
|
|
|
=head1 HISTORY
|
|
|
|
EVP_PKEY_CTX_get_rsa_oaep_md_name(), EVP_PKEY_CTX_get_rsa_mgf1_md_name(),
|
|
EVP_PKEY_CTX_set_rsa_mgf1_md_name(), EVP_PKEY_CTX_set_rsa_oaep_md_name(),
|
|
EVP_PKEY_CTX_set_dsa_paramgen_md_props(), EVP_PKEY_CTX_set_dsa_paramgen_gindex(),
|
|
EVP_PKEY_CTX_set_dsa_paramgen_type(), EVP_PKEY_CTX_set_dsa_paramgen_seed(),
|
|
EVP_PKEY_CTX_set_group_name() and EVP_PKEY_CTX_get_group_name()
|
|
were added in OpenSSL 3.0.
|
|
|
|
The EVP_PKEY_CTX_set1_id(), EVP_PKEY_CTX_get1_id() and
|
|
EVP_PKEY_CTX_get1_id_len() macros were added in 1.1.1, other functions were
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added in OpenSSL 1.0.0.
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In OpenSSL 1.1.1 and below the functions were mostly macros.
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From OpenSSL 3.0 they are all functions.
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EVP_PKEY_CTX_set_rsa_keygen_pubexp(), EVP_PKEY_CTX_get0_dh_kdf_ukm(),
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and EVP_PKEY_CTX_get0_ecdh_kdf_ukm() were deprecated in OpenSSL 3.0.
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=head1 COPYRIGHT
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Copyright 2006-2021 The OpenSSL Project Authors. All Rights Reserved.
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Licensed under the Apache License 2.0 (the "License"). You may not use
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this file except in compliance with the License. You can obtain a copy
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in the file LICENSE in the source distribution or at
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L<https://www.openssl.org/source/license.html>.
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=cut
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