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wolfssl/wolfssl/wolfcrypt/asn.h
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2018-01-11 14:37:49 -07:00

1045 lines
34 KiB
C

/* asn.h
*
* Copyright (C) 2006-2017 wolfSSL Inc.
*
* This file is part of wolfSSL.
*
* wolfSSL is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* wolfSSL is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335, USA
*/
#ifndef WOLF_CRYPT_ASN_H
#define WOLF_CRYPT_ASN_H
#include <wolfssl/wolfcrypt/types.h>
#ifndef NO_ASN
#include <wolfssl/wolfcrypt/integer.h>
/* fips declare of RsaPrivateKeyDecode @wc_fips */
#if defined(HAVE_FIPS) && !defined(NO_RSA)
#include <cyassl/ctaocrypt/rsa.h>
#endif
#ifndef NO_DH
#include <wolfssl/wolfcrypt/dh.h>
#endif
#ifndef NO_DSA
#include <wolfssl/wolfcrypt/dsa.h>
#endif
#ifndef NO_SHA
#include <wolfssl/wolfcrypt/sha.h>
#endif
#ifndef NO_MD5
#include <wolfssl/wolfcrypt/md5.h>
#endif
#include <wolfssl/wolfcrypt/sha256.h>
#include <wolfssl/wolfcrypt/asn_public.h> /* public interface */
#ifdef __cplusplus
extern "C" {
#endif
enum {
ISSUER = 0,
SUBJECT = 1,
EXTERNAL_SERIAL_SIZE = 32,
BEFORE = 0,
AFTER = 1
};
/* ASN Tags */
enum ASN_Tags {
ASN_BOOLEAN = 0x01,
ASN_INTEGER = 0x02,
ASN_BIT_STRING = 0x03,
ASN_OCTET_STRING = 0x04,
ASN_TAG_NULL = 0x05,
ASN_OBJECT_ID = 0x06,
ASN_ENUMERATED = 0x0a,
ASN_UTF8STRING = 0x0c,
ASN_SEQUENCE = 0x10,
ASN_SET = 0x11,
ASN_UTC_TIME = 0x17,
ASN_OTHER_TYPE = 0x00,
ASN_RFC822_TYPE = 0x01,
ASN_DNS_TYPE = 0x02,
ASN_DIR_TYPE = 0x04,
ASN_GENERALIZED_TIME = 0x18,
CRL_EXTENSIONS = 0xa0,
ASN_EXTENSIONS = 0xa3,
ASN_LONG_LENGTH = 0x80
};
#define ASN_UTC_TIME_SIZE 14
#define ASN_GENERALIZED_TIME_SIZE 16
enum ASN_Flags {
ASN_CONSTRUCTED = 0x20,
ASN_CONTEXT_SPECIFIC = 0x80
};
enum DN_Tags {
ASN_COMMON_NAME = 0x03, /* CN */
ASN_SUR_NAME = 0x04, /* SN */
ASN_SERIAL_NUMBER = 0x05, /* serialNumber */
ASN_COUNTRY_NAME = 0x06, /* C */
ASN_LOCALITY_NAME = 0x07, /* L */
ASN_STATE_NAME = 0x08, /* ST */
ASN_ORG_NAME = 0x0a, /* O */
ASN_ORGUNIT_NAME = 0x0b, /* OU */
ASN_DOMAIN_COMPONENT = 0x10, /* DC */
ASN_EMAIL_NAME = 0x98 /* not oid number there is 97 in 2.5.4.0-97 */
};
enum PBES {
PBE_MD5_DES = 0,
PBE_SHA1_RC4_128 = 1,
PBE_SHA1_DES = 2,
PBE_SHA1_DES3 = 3,
PBE_AES256_CBC = 4,
PBE_SHA1_RC4_128_SUM = 657,
PBE_SHA1_DES3_SUM = 659,
PBES2 = 13 /* algo ID */
};
enum ECC_TYPES {
ECC_PREFIX_0 = 160,
ECC_PREFIX_1 = 161
};
enum Misc_ASN {
ASN_NAME_MAX = 256,
MAX_SALT_SIZE = 64, /* MAX PKCS Salt length */
MAX_IV_SIZE = 64, /* MAX PKCS Iv length */
MAX_KEY_SIZE = 64, /* MAX PKCS Key length */
PKCS5 = 5, /* PKCS oid tag */
PKCS5v2 = 6, /* PKCS #5 v2.0 */
PKCS8v0 = 0, /* default PKCS#8 version */
PKCS12v1 = 12, /* PKCS #12 */
MAX_UNICODE_SZ = 256,
ASN_BOOL_SIZE = 2, /* including type */
ASN_ECC_HEADER_SZ = 2, /* String type + 1 byte len */
ASN_ECC_CONTEXT_SZ = 2, /* Content specific type + 1 byte len */
#ifdef NO_SHA
KEYID_SIZE = WC_SHA256_DIGEST_SIZE,
#else
KEYID_SIZE = WC_SHA_DIGEST_SIZE,
#endif
RSA_INTS = 8, /* RSA ints in private key */
DSA_INTS = 5, /* DSA ints in private key */
MIN_DATE_SIZE = 13,
MAX_DATE_SIZE = 32,
ASN_GEN_TIME_SZ = 15, /* 7 numbers * 2 + Zulu tag */
MAX_ENCODED_SIG_SZ = 512,
MAX_SIG_SZ = 256,
MAX_ALGO_SZ = 20,
MAX_SHORT_SZ = 6, /* asn int + byte len + 4 byte length */
MAX_SEQ_SZ = 5, /* enum(seq | con) + length(4) */
MAX_SET_SZ = 5, /* enum(set | con) + length(4) */
MAX_OCTET_STR_SZ = 5, /* enum(set | con) + length(4) */
MAX_EXP_SZ = 5, /* enum(contextspec|con|exp) + length(4) */
MAX_PRSTR_SZ = 5, /* enum(prstr) + length(4) */
MAX_VERSION_SZ = 5, /* enum + id + version(byte) + (header(2))*/
MAX_ENCODED_DIG_SZ = 73, /* sha512 + enum(bit or octet) + length(4) */
MAX_RSA_INT_SZ = 517, /* RSA raw sz 4096 for bits + tag + len(4) */
MAX_NTRU_KEY_SZ = 610, /* NTRU 112 bit public key */
MAX_NTRU_ENC_SZ = 628, /* NTRU 112 bit DER public encoding */
MAX_LENGTH_SZ = 4, /* Max length size for DER encoding */
MAX_RSA_E_SZ = 16, /* Max RSA public e size */
MAX_CA_SZ = 32, /* Max encoded CA basic constraint length */
MAX_SN_SZ = 35, /* Max encoded serial number (INT) length */
MAX_DER_DIGEST_SZ = MAX_ENCODED_DIG_SZ + MAX_ALGO_SZ + MAX_SEQ_SZ, /* Maximum DER digest size */
#ifdef WOLFSSL_CERT_GEN
#ifdef WOLFSSL_CERT_REQ
/* Max encoded cert req attributes length */
MAX_ATTRIB_SZ = MAX_SEQ_SZ * 3 + (11 + MAX_SEQ_SZ) * 2 +
MAX_PRSTR_SZ + CTC_NAME_SIZE, /* 11 is the OID size */
#endif
#if defined(WOLFSSL_ALT_NAMES) || defined(WOLFSSL_CERT_EXT)
MAX_EXTENSIONS_SZ = 1 + MAX_LENGTH_SZ + CTC_MAX_ALT_SIZE,
#else
MAX_EXTENSIONS_SZ = 1 + MAX_LENGTH_SZ + MAX_CA_SZ,
#endif
/* Max total extensions, id + len + others */
#endif
#if defined(WOLFSSL_CERT_EXT) || defined(OPENSSL_EXTRA)
MAX_OID_SZ = 32, /* Max DER length of OID*/
MAX_OID_STRING_SZ = 64, /* Max string length representation of OID*/
#endif
#ifdef WOLFSSL_CERT_EXT
MAX_KID_SZ = 45, /* Max encoded KID length (SHA-256 case) */
MAX_KEYUSAGE_SZ = 18, /* Max encoded Key Usage length */
MAX_EXTKEYUSAGE_SZ = 12 + (6 * (8 + 2)), /* Max encoded ExtKeyUsage
(SEQ/LEN + OBJID + OCTSTR/LEN + SEQ + (6 * (SEQ + OID))) */
MAX_CERTPOL_NB = CTC_MAX_CERTPOL_NB,/* Max number of Cert Policy */
MAX_CERTPOL_SZ = CTC_MAX_CERTPOL_SZ,
#endif
MAX_NAME_ENTRIES = 5, /* extra entries added to x509 name struct */
OCSP_NONCE_EXT_SZ = 35, /* OCSP Nonce Extension size */
MAX_OCSP_EXT_SZ = 58, /* Max OCSP Extension length */
MAX_OCSP_NONCE_SZ = 16, /* OCSP Nonce size */
EIGHTK_BUF = 8192, /* Tmp buffer size */
MAX_PUBLIC_KEY_SZ = MAX_NTRU_ENC_SZ + MAX_ALGO_SZ + MAX_SEQ_SZ * 2,
/* use bigger NTRU size */
HEADER_ENCRYPTED_KEY_SIZE = 88,/* Extra header size for encrypted key */
TRAILING_ZERO = 1, /* Used for size of zero pad */
MIN_VERSION_SZ = 3, /* Min bytes needed for GetMyVersion */
#if defined(WOLFSSL_MYSQL_COMPATIBLE) || defined(WOLFSSL_NGINX) || defined(WOLFSSL_HAPROXY)
MAX_TIME_STRING_SZ = 25, /* Max length of formatted time string */
#endif
};
enum Oid_Types {
oidHashType = 0,
oidSigType = 1,
oidKeyType = 2,
oidCurveType = 3,
oidBlkType = 4,
oidOcspType = 5,
oidCertExtType = 6,
oidCertAuthInfoType = 7,
oidCertPolicyType = 8,
oidCertAltNameType = 9,
oidCertKeyUseType = 10,
oidKdfType = 11,
oidKeyWrapType = 12,
oidCmsKeyAgreeType = 13,
oidPBEType = 14,
oidHmacType = 15,
oidIgnoreType
};
enum Hash_Sum {
MD2h = 646,
MD5h = 649,
SHAh = 88,
SHA224h = 417,
SHA256h = 414,
SHA384h = 415,
SHA512h = 416
};
enum Block_Sum {
AES128CBCb = 414,
AES192CBCb = 434,
AES256CBCb = 454,
DESb = 69,
DES3b = 652
};
enum Key_Sum {
DSAk = 515,
RSAk = 645,
NTRUk = 274,
ECDSAk = 518,
ED25519k = 256
};
enum KeyWrap_Sum {
AES128_WRAP = 417,
AES192_WRAP = 437,
AES256_WRAP = 457
};
enum Key_Agree {
dhSinglePass_stdDH_sha1kdf_scheme = 464,
dhSinglePass_stdDH_sha224kdf_scheme = 188,
dhSinglePass_stdDH_sha256kdf_scheme = 189,
dhSinglePass_stdDH_sha384kdf_scheme = 190,
dhSinglePass_stdDH_sha512kdf_scheme = 191,
};
enum Ecc_Sum {
ECC_SECP112R1_OID = 182,
ECC_SECP112R2_OID = 183,
ECC_SECP128R1_OID = 204,
ECC_SECP128R2_OID = 205,
ECC_SECP160R1_OID = 184,
ECC_SECP160R2_OID = 206,
ECC_SECP160K1_OID = 185,
ECC_BRAINPOOLP160R1_OID = 98,
ECC_SECP192R1_OID = 520,
ECC_PRIME192V2_OID = 521,
ECC_PRIME192V3_OID = 522,
ECC_SECP192K1_OID = 207,
ECC_BRAINPOOLP192R1_OID = 100,
ECC_SECP224R1_OID = 209,
ECC_SECP224K1_OID = 208,
ECC_BRAINPOOLP224R1_OID = 102,
ECC_PRIME239V1_OID = 523,
ECC_PRIME239V2_OID = 524,
ECC_PRIME239V3_OID = 525,
ECC_SECP256R1_OID = 526,
ECC_SECP256K1_OID = 186,
ECC_BRAINPOOLP256R1_OID = 104,
ECC_X25519_OID = 365,
ECC_ED25519_OID = 256,
ECC_BRAINPOOLP320R1_OID = 106,
ECC_SECP384R1_OID = 210,
ECC_BRAINPOOLP384R1_OID = 108,
ECC_BRAINPOOLP512R1_OID = 110,
ECC_SECP521R1_OID = 211,
};
enum KDF_Sum {
PBKDF2_OID = 660
};
enum HMAC_Sum {
HMAC_SHA224_OID = 652,
HMAC_SHA256_OID = 653,
HMAC_SHA384_OID = 654,
HMAC_SHA512_OID = 655
};
enum Extensions_Sum {
BASIC_CA_OID = 133,
ALT_NAMES_OID = 131,
CRL_DIST_OID = 145,
AUTH_INFO_OID = 69, /* id-pe 1 */
AUTH_KEY_OID = 149,
SUBJ_KEY_OID = 128,
CERT_POLICY_OID = 146,
KEY_USAGE_OID = 129, /* 2.5.29.15 */
INHIBIT_ANY_OID = 168, /* 2.5.29.54 */
EXT_KEY_USAGE_OID = 151, /* 2.5.29.37 */
NAME_CONS_OID = 144, /* 2.5.29.30 */
PRIV_KEY_USAGE_PERIOD_OID = 130, /* 2.5.29.16 */
SUBJECT_INFO_ACCESS = 79, /* id-pe 11 */
POLICY_MAP_OID = 147,
POLICY_CONST_OID = 150,
ISSUE_ALT_NAMES_OID = 132,
TLS_FEATURE_OID = 92 /* id-pe 24 */
};
enum CertificatePolicy_Sum {
CP_ANY_OID = 146 /* id-ce 32 0 */
};
enum SepHardwareName_Sum {
HW_NAME_OID = 79 /* 1.3.6.1.5.5.7.8.4 from RFC 4108*/
};
enum AuthInfo_Sum {
AIA_OCSP_OID = 116, /* 1.3.6.1.5.5.7.48.1 */
AIA_CA_ISSUER_OID = 117 /* 1.3.6.1.5.5.7.48.2 */
};
enum ExtKeyUsage_Sum { /* From RFC 5280 */
EKU_ANY_OID = 151, /* 2.5.29.37.0, anyExtendedKeyUsage */
EKU_SERVER_AUTH_OID = 71, /* 1.3.6.1.5.5.7.3.1, id-kp-serverAuth */
EKU_CLIENT_AUTH_OID = 72, /* 1.3.6.1.5.5.7.3.2, id-kp-clientAuth */
EKU_CODESIGNING_OID = 73, /* 1.3.6.1.5.5.7.3.3, id-kp-codeSigning */
EKU_EMAILPROTECT_OID = 74, /* 1.3.6.1.5.5.7.3.4, id-kp-emailProtection */
EKU_TIMESTAMP_OID = 78, /* 1.3.6.1.5.5.7.3.8, id-kp-timeStamping */
EKU_OCSP_SIGN_OID = 79 /* 1.3.6.1.5.5.7.3.9, id-kp-OCSPSigning */
};
enum VerifyType {
NO_VERIFY = 0,
VERIFY = 1,
VERIFY_CRL = 2,
VERIFY_OCSP = 3
};
#ifdef WOLFSSL_CERT_EXT
enum KeyIdType {
SKID_TYPE = 0,
AKID_TYPE = 1
};
#endif
/* Key usage extension bits (based on RFC 5280) */
#define KEYUSE_DIGITAL_SIG 0x0080
#define KEYUSE_CONTENT_COMMIT 0x0040
#define KEYUSE_KEY_ENCIPHER 0x0020
#define KEYUSE_DATA_ENCIPHER 0x0010
#define KEYUSE_KEY_AGREE 0x0008
#define KEYUSE_KEY_CERT_SIGN 0x0004
#define KEYUSE_CRL_SIGN 0x0002
#define KEYUSE_ENCIPHER_ONLY 0x0001
#define KEYUSE_DECIPHER_ONLY 0x8000
/* Extended Key Usage bits (internal mapping only) */
#define EXTKEYUSE_OCSP_SIGN 0x40
#define EXTKEYUSE_TIMESTAMP 0x20
#define EXTKEYUSE_EMAILPROT 0x10
#define EXTKEYUSE_CODESIGN 0x08
#define EXTKEYUSE_CLIENT_AUTH 0x04
#define EXTKEYUSE_SERVER_AUTH 0x02
#define EXTKEYUSE_ANY 0x01
typedef struct DNS_entry DNS_entry;
struct DNS_entry {
DNS_entry* next; /* next on DNS list */
char* name; /* actual DNS name */
};
typedef struct Base_entry Base_entry;
struct Base_entry {
Base_entry* next; /* next on name base list */
char* name; /* actual name base */
int nameSz; /* name length */
byte type; /* Name base type (DNS or RFC822) */
};
struct DecodedName {
char* fullName;
int fullNameLen;
int entryCount;
int cnIdx;
int cnLen;
int snIdx;
int snLen;
int cIdx;
int cLen;
int lIdx;
int lLen;
int stIdx;
int stLen;
int oIdx;
int oLen;
int ouIdx;
int ouLen;
int emailIdx;
int emailLen;
int uidIdx;
int uidLen;
int serialIdx;
int serialLen;
int dcIdx;
int dcLen;
};
enum SignatureState {
SIG_STATE_BEGIN,
SIG_STATE_HASH,
SIG_STATE_KEY,
SIG_STATE_DO,
SIG_STATE_CHECK,
};
struct SignatureCtx {
void* heap;
byte* digest;
#ifndef NO_RSA
byte* out;
byte* plain;
#endif
#if defined(HAVE_ECC) || defined(HAVE_ED25519)
int verify;
#endif
union {
#ifndef NO_RSA
struct RsaKey* rsa;
#endif
#ifdef HAVE_ECC
struct ecc_key* ecc;
#endif
#ifdef HAVE_ED25519
struct ed25519_key* ed25519;
#endif
void* ptr;
} key;
int devId;
int state;
int typeH;
int digestSz;
word32 keyOID;
#ifdef WOLFSSL_ASYNC_CRYPT
WC_ASYNC_DEV* asyncDev;
void* asyncCtx;
#endif
};
enum CertSignState {
CERTSIGN_STATE_BEGIN,
CERTSIGN_STATE_DIGEST,
CERTSIGN_STATE_ENCODE,
CERTSIGN_STATE_DO,
};
struct CertSignCtx {
byte* sig;
byte* digest;
#ifndef NO_RSA
byte* encSig;
int encSigSz;
#endif
int state; /* enum CertSignState */
};
typedef struct DecodedCert DecodedCert;
typedef struct DecodedName DecodedName;
typedef struct Signer Signer;
#ifdef WOLFSSL_TRUST_PEER_CERT
typedef struct TrustedPeerCert TrustedPeerCert;
#endif /* WOLFSSL_TRUST_PEER_CERT */
typedef struct SignatureCtx SignatureCtx;
typedef struct CertSignCtx CertSignCtx;
struct DecodedCert {
byte* publicKey;
word32 pubKeySize;
int pubKeyStored;
word32 certBegin; /* offset to start of cert */
word32 sigIndex; /* offset to start of signature */
word32 sigLength; /* length of signature */
word32 signatureOID; /* sum of algorithm object id */
word32 keyOID; /* sum of key algo object id */
int version; /* cert version, 1 or 3 */
DNS_entry* altNames; /* alt names list of dns entries */
#ifndef IGNORE_NAME_CONSTRAINTS
DNS_entry* altEmailNames; /* alt names list of RFC822 entries */
Base_entry* permittedNames; /* Permitted name bases */
Base_entry* excludedNames; /* Excluded name bases */
#endif /* IGNORE_NAME_CONSTRAINTS */
byte subjectHash[KEYID_SIZE]; /* hash of all Names */
byte issuerHash[KEYID_SIZE]; /* hash of all Names */
#ifdef HAVE_OCSP
byte issuerKeyHash[KEYID_SIZE]; /* hash of the public Key */
#endif /* HAVE_OCSP */
byte* signature; /* not owned, points into raw cert */
char* subjectCN; /* CommonName */
int subjectCNLen; /* CommonName Length */
char subjectCNEnc; /* CommonName Encoding */
int subjectCNStored; /* have we saved a copy we own */
char issuer[ASN_NAME_MAX]; /* full name including common name */
char subject[ASN_NAME_MAX]; /* full name including common name */
int verify; /* Default to yes, but could be off */
byte* source; /* byte buffer holder cert, NOT owner */
word32 srcIdx; /* current offset into buffer */
word32 maxIdx; /* max offset based on init size */
void* heap; /* for user memory overrides */
byte serial[EXTERNAL_SERIAL_SIZE]; /* raw serial number */
int serialSz; /* raw serial bytes stored */
byte* extensions; /* not owned, points into raw cert */
int extensionsSz; /* length of cert extensions */
word32 extensionsIdx; /* if want to go back and parse later */
byte* extAuthInfo; /* Authority Information Access URI */
int extAuthInfoSz; /* length of the URI */
byte* extCrlInfo; /* CRL Distribution Points */
int extCrlInfoSz; /* length of the URI */
byte extSubjKeyId[KEYID_SIZE]; /* Subject Key ID */
byte extSubjKeyIdSet; /* Set when the SKID was read from cert */
byte extAuthKeyId[KEYID_SIZE]; /* Authority Key ID */
byte extAuthKeyIdSet; /* Set when the AKID was read from cert */
#ifndef IGNORE_NAME_CONSTRAINTS
byte extNameConstraintSet;
#endif /* IGNORE_NAME_CONSTRAINTS */
byte isCA; /* CA basic constraint true */
byte pathLengthSet; /* CA basic const path length set */
byte pathLength; /* CA basic constraint path length */
byte weOwnAltNames; /* altNames haven't been given to copy */
byte extKeyUsageSet;
word16 extKeyUsage; /* Key usage bitfield */
byte extExtKeyUsageSet; /* Extended Key Usage */
byte extExtKeyUsage; /* Extended Key usage bitfield */
#ifdef OPENSSL_EXTRA
byte extCRLdistSet;
byte extCRLdistCrit;
byte extAuthInfoSet;
byte extAuthInfoCrit;
byte extBasicConstSet;
byte extBasicConstCrit;
byte extSubjAltNameSet;
byte extSubjAltNameCrit;
byte extAuthKeyIdCrit;
#ifndef IGNORE_NAME_CONSTRAINTS
byte extNameConstraintCrit;
#endif /* IGNORE_NAME_CONSTRAINTS */
byte extSubjKeyIdCrit;
byte extKeyUsageCrit;
byte extExtKeyUsageCrit;
byte* extExtKeyUsageSrc;
word32 extExtKeyUsageSz;
word32 extExtKeyUsageCount;
byte* extAuthKeyIdSrc;
word32 extAuthKeyIdSz;
byte* extSubjKeyIdSrc;
word32 extSubjKeyIdSz;
#endif
#if defined(HAVE_ECC) || defined(HAVE_ED25519)
word32 pkCurveOID; /* Public Key's curve OID */
#endif /* HAVE_ECC */
byte* beforeDate;
int beforeDateLen;
byte* afterDate;
int afterDateLen;
#ifdef HAVE_PKCS7
byte* issuerRaw; /* pointer to issuer inside source */
int issuerRawLen;
#endif
#ifndef IGNORE_NAME_CONSTRAINT
byte* subjectRaw; /* pointer to subject inside source */
int subjectRawLen;
#endif
#if defined(WOLFSSL_CERT_GEN)
/* easy access to subject info for other sign */
char* subjectSN;
int subjectSNLen;
char subjectSNEnc;
char* subjectC;
int subjectCLen;
char subjectCEnc;
char* subjectL;
int subjectLLen;
char subjectLEnc;
char* subjectST;
int subjectSTLen;
char subjectSTEnc;
char* subjectO;
int subjectOLen;
char subjectOEnc;
char* subjectOU;
int subjectOULen;
char subjectOUEnc;
char* subjectEmail;
int subjectEmailLen;
#endif /* WOLFSSL_CERT_GEN */
#ifdef OPENSSL_EXTRA
DecodedName issuerName;
DecodedName subjectName;
#endif /* OPENSSL_EXTRA */
#ifdef WOLFSSL_SEP
int deviceTypeSz;
byte* deviceType;
int hwTypeSz;
byte* hwType;
int hwSerialNumSz;
byte* hwSerialNum;
#ifdef OPENSSL_EXTRA
byte extCertPolicySet;
byte extCertPolicyCrit;
#endif /* OPENSSL_EXTRA */
#endif /* WOLFSSL_SEP */
#ifdef WOLFSSL_CERT_EXT
char extCertPolicies[MAX_CERTPOL_NB][MAX_CERTPOL_SZ];
int extCertPoliciesNb;
#endif /* WOLFSSL_CERT_EXT */
Signer* ca;
SignatureCtx sigCtx;
};
#define WOLFSSL_MAX_SNAME 40
struct WOLFSSL_ASN1_OBJECT {
void* heap;
byte* obj;
/* sName is short name i.e sha256 rather than oid (null terminated) */
char sName[WOLFSSL_MAX_SNAME];
int type; /* oid */
word32 objSz;
byte dynamic; /* if 1 then obj was dynamiclly created, 0 otherwise */
};
extern const char* BEGIN_CERT;
extern const char* END_CERT;
extern const char* BEGIN_CERT_REQ;
extern const char* END_CERT_REQ;
extern const char* BEGIN_DSA_PARAM;
extern const char* END_DSA_PARAM;
extern const char* BEGIN_DH_PARAM;
extern const char* END_DH_PARAM;
extern const char* BEGIN_X509_CRL;
extern const char* END_X509_CRL;
extern const char* BEGIN_RSA_PRIV;
extern const char* END_RSA_PRIV;
extern const char* BEGIN_PRIV_KEY;
extern const char* END_PRIV_KEY;
extern const char* BEGIN_ENC_PRIV_KEY;
extern const char* END_ENC_PRIV_KEY;
extern const char* BEGIN_EC_PRIV;
extern const char* END_EC_PRIV;
extern const char* BEGIN_DSA_PRIV;
extern const char* END_DSA_PRIV;
extern const char* BEGIN_PUB_KEY;
extern const char* END_PUB_KEY;
extern const char* BEGIN_EDDSA_PRIV;
extern const char* END_EDDSA_PRIV;
#ifdef NO_SHA
#define SIGNER_DIGEST_SIZE WC_SHA256_DIGEST_SIZE
#else
#define SIGNER_DIGEST_SIZE WC_SHA_DIGEST_SIZE
#endif
/* CA Signers */
/* if change layout change PERSIST_CERT_CACHE functions too */
struct Signer {
word32 pubKeySize;
word32 keyOID; /* key type */
word16 keyUsage;
byte pathLength;
byte pathLengthSet;
byte* publicKey;
int nameLen;
char* name; /* common name */
#ifndef IGNORE_NAME_CONSTRAINTS
Base_entry* permittedNames;
Base_entry* excludedNames;
#endif /* IGNORE_NAME_CONSTRAINTS */
byte subjectNameHash[SIGNER_DIGEST_SIZE];
/* sha hash of names in certificate */
#ifndef NO_SKID
byte subjectKeyIdHash[SIGNER_DIGEST_SIZE];
/* sha hash of names in certificate */
#endif
Signer* next;
};
#ifdef WOLFSSL_TRUST_PEER_CERT
/* used for having trusted peer certs rather then CA */
struct TrustedPeerCert {
int nameLen;
char* name; /* common name */
#ifndef IGNORE_NAME_CONSTRAINTS
Base_entry* permittedNames;
Base_entry* excludedNames;
#endif /* IGNORE_NAME_CONSTRAINTS */
byte subjectNameHash[SIGNER_DIGEST_SIZE];
/* sha hash of names in certificate */
#ifndef NO_SKID
byte subjectKeyIdHash[SIGNER_DIGEST_SIZE];
/* sha hash of names in certificate */
#endif
word32 sigLen;
byte* sig;
struct TrustedPeerCert* next;
};
#endif /* WOLFSSL_TRUST_PEER_CERT */
/* for testing or custom openssl wrappers */
#if defined(WOLFSSL_TEST_CERT) || defined(OPENSSL_EXTRA)
#define WOLFSSL_ASN_API WOLFSSL_API
#else
#define WOLFSSL_ASN_API WOLFSSL_LOCAL
#endif
WOLFSSL_ASN_API void FreeAltNames(DNS_entry*, void*);
#ifndef IGNORE_NAME_CONSTRAINTS
WOLFSSL_ASN_API void FreeNameSubtrees(Base_entry*, void*);
#endif /* IGNORE_NAME_CONSTRAINTS */
WOLFSSL_ASN_API void InitDecodedCert(DecodedCert*, byte*, word32, void*);
WOLFSSL_ASN_API void FreeDecodedCert(DecodedCert*);
WOLFSSL_ASN_API int ParseCert(DecodedCert*, int type, int verify, void* cm);
WOLFSSL_LOCAL int DecodePolicyOID(char *o, word32 oSz, byte *in, word32 inSz);
WOLFSSL_LOCAL int ParseCertRelative(DecodedCert*,int type,int verify,void* cm);
WOLFSSL_LOCAL int DecodeToKey(DecodedCert*, int verify);
WOLFSSL_LOCAL const byte* OidFromId(word32 id, word32 type, word32* oidSz);
WOLFSSL_LOCAL Signer* MakeSigner(void*);
WOLFSSL_LOCAL void FreeSigner(Signer*, void*);
WOLFSSL_LOCAL void FreeSignerTable(Signer**, int, void*);
#ifdef WOLFSSL_TRUST_PEER_CERT
WOLFSSL_LOCAL void FreeTrustedPeer(TrustedPeerCert*, void*);
WOLFSSL_LOCAL void FreeTrustedPeerTable(TrustedPeerCert**, int, void*);
#endif /* WOLFSSL_TRUST_PEER_CERT */
WOLFSSL_ASN_API int ToTraditional(byte* buffer, word32 length);
WOLFSSL_LOCAL int ToTraditionalInline(const byte* input, word32* inOutIdx,
word32 length);
WOLFSSL_LOCAL int ToTraditionalEnc(byte* buffer, word32 length,const char*,int);
WOLFSSL_ASN_API int UnTraditionalEnc(byte* key, word32 keySz, byte* out,
word32* outSz, const char* password, int passwordSz, int vPKCS,
int vAlgo, byte* salt, word32 saltSz, int itt, WC_RNG* rng, void* heap);
WOLFSSL_LOCAL int DecryptContent(byte* input, word32 sz,const char* psw,int pswSz);
WOLFSSL_LOCAL int EncryptContent(byte* input, word32 sz, byte* out, word32* outSz,
const char* password,int passwordSz, int vPKCS, int vAlgo,
byte* salt, word32 saltSz, int itt, WC_RNG* rng, void* heap);
WOLFSSL_LOCAL int wc_GetKeyOID(byte* key, word32 keySz, const byte** curveOID,
word32* oidSz, int* algoID, void* heap);
typedef struct tm wolfssl_tm;
#if defined(WOLFSSL_MYSQL_COMPATIBLE) || defined(OPENSSL_EXTRA) || \
defined(WOLFSSL_NGINX) || defined(WOLFSSL_HAPROXY)
WOLFSSL_LOCAL int GetTimeString(byte* date, int format, char* buf, int len);
#endif
WOLFSSL_LOCAL int ExtractDate(const unsigned char* date, unsigned char format,
wolfssl_tm* certTime, int* idx);
WOLFSSL_LOCAL int ValidateDate(const byte* date, byte format, int dateType);
/* ASN.1 helper functions */
#ifdef WOLFSSL_CERT_GEN
WOLFSSL_ASN_API int SetName(byte* output, word32 outputSz, CertName* name);
#endif
WOLFSSL_LOCAL int GetShortInt(const byte* input, word32* inOutIdx, int* number,
word32 maxIdx);
WOLFSSL_LOCAL char* GetSigName(int oid);
WOLFSSL_LOCAL int GetLength(const byte* input, word32* inOutIdx, int* len,
word32 maxIdx);
WOLFSSL_LOCAL int GetSequence(const byte* input, word32* inOutIdx, int* len,
word32 maxIdx);
WOLFSSL_LOCAL int GetSet(const byte* input, word32* inOutIdx, int* len,
word32 maxIdx);
WOLFSSL_LOCAL int GetMyVersion(const byte* input, word32* inOutIdx,
int* version, word32 maxIdx);
WOLFSSL_LOCAL int GetInt(mp_int* mpi, const byte* input, word32* inOutIdx,
word32 maxIdx);
#ifdef HAVE_OID_ENCODING
WOLFSSL_LOCAL int EncodeObjectId(const word16* in, word32 inSz,
byte* out, word32* outSz);
#endif
#ifdef HAVE_OID_DECODING
WOLFSSL_LOCAL int DecodeObjectId(const byte* in, word32 inSz,
word16* out, word32* outSz);
#endif
WOLFSSL_LOCAL int GetObjectId(const byte* input, word32* inOutIdx, word32* oid,
word32 oidType, word32 maxIdx);
WOLFSSL_LOCAL int GetAlgoId(const byte* input, word32* inOutIdx, word32* oid,
word32 oidType, word32 maxIdx);
WOLFSSL_LOCAL word32 SetLength(word32 length, byte* output);
WOLFSSL_LOCAL word32 SetSequence(word32 len, byte* output);
WOLFSSL_LOCAL word32 SetOctetString(word32 len, byte* output);
WOLFSSL_LOCAL word32 SetImplicit(byte tag,byte number,word32 len,byte* output);
WOLFSSL_LOCAL word32 SetExplicit(byte number, word32 len, byte* output);
WOLFSSL_LOCAL word32 SetSet(word32 len, byte* output);
WOLFSSL_LOCAL word32 SetAlgoID(int algoOID,byte* output,int type,int curveSz);
WOLFSSL_LOCAL int SetMyVersion(word32 version, byte* output, int header);
WOLFSSL_LOCAL int SetSerialNumber(const byte* sn, word32 snSz, byte* output,
int maxSnSz);
WOLFSSL_LOCAL int GetSerialNumber(const byte* input, word32* inOutIdx,
byte* serial, int* serialSz, word32 maxIdx);
WOLFSSL_LOCAL int GetNameHash(const byte* source, word32* idx, byte* hash,
int maxIdx);
WOLFSSL_LOCAL int wc_CheckPrivateKey(byte* key, word32 keySz, DecodedCert* der);
#ifdef HAVE_ECC
/* ASN sig helpers */
WOLFSSL_LOCAL int StoreECC_DSA_Sig(byte* out, word32* outLen, mp_int* r,
mp_int* s);
WOLFSSL_LOCAL int DecodeECC_DSA_Sig(const byte* sig, word32 sigLen,
mp_int* r, mp_int* s);
#endif
WOLFSSL_LOCAL void InitSignatureCtx(SignatureCtx* sigCtx, void* heap, int devId);
WOLFSSL_LOCAL void FreeSignatureCtx(SignatureCtx* sigCtx);
#ifdef WOLFSSL_CERT_GEN
enum cert_enums {
NAME_ENTRIES = 8,
JOINT_LEN = 2,
EMAIL_JOINT_LEN = 9,
RSA_KEY = 10,
NTRU_KEY = 11,
ECC_KEY = 12,
ED25519_KEY = 13
};
#ifndef WOLFSSL_PEMCERT_TODER_DEFINED
#ifndef NO_FILESYSTEM
/* forward from wolfSSL */
WOLFSSL_API
int wolfSSL_PemCertToDer(const char* fileName,unsigned char* derBuf,int derSz);
#define WOLFSSL_PEMCERT_TODER_DEFINED
#endif
#endif
#endif /* WOLFSSL_CERT_GEN */
/* for pointer use */
typedef struct CertStatus CertStatus;
#ifdef HAVE_OCSP
enum Ocsp_Response_Status {
OCSP_SUCCESSFUL = 0, /* Response has valid confirmations */
OCSP_MALFORMED_REQUEST = 1, /* Illegal confirmation request */
OCSP_INTERNAL_ERROR = 2, /* Internal error in issuer */
OCSP_TRY_LATER = 3, /* Try again later */
OCSP_SIG_REQUIRED = 5, /* Must sign the request (4 is skipped) */
OCSP_UNAUTHROIZED = 6 /* Request unauthorized */
};
enum Ocsp_Cert_Status {
CERT_GOOD = 0,
CERT_REVOKED = 1,
CERT_UNKNOWN = 2
};
enum Ocsp_Sums {
OCSP_BASIC_OID = 117,
OCSP_NONCE_OID = 118
};
typedef struct OcspRequest OcspRequest;
typedef struct OcspResponse OcspResponse;
struct CertStatus {
CertStatus* next;
byte serial[EXTERNAL_SERIAL_SIZE];
int serialSz;
int status;
byte thisDate[MAX_DATE_SIZE];
byte nextDate[MAX_DATE_SIZE];
byte thisDateFormat;
byte nextDateFormat;
#if defined(WOLFSSL_NGINX) || defined(WOLFSSL_HAPROXY)
byte* thisDateAsn;
byte* nextDateAsn;
#endif
byte* rawOcspResponse;
word32 rawOcspResponseSz;
};
struct OcspResponse {
int responseStatus; /* return code from Responder */
byte* response; /* Pointer to beginning of OCSP Response */
word32 responseSz; /* length of the OCSP Response */
byte producedDate[MAX_DATE_SIZE];
/* Date at which this response was signed */
byte producedDateFormat; /* format of the producedDate */
byte* issuerHash;
byte* issuerKeyHash;
byte* cert;
word32 certSz;
byte* sig; /* Pointer to sig in source */
word32 sigSz; /* Length in octets for the sig */
word32 sigOID; /* OID for hash used for sig */
CertStatus* status; /* certificate status to fill out */
byte* nonce; /* pointer to nonce inside ASN.1 response */
int nonceSz; /* length of the nonce string */
byte* source; /* pointer to source buffer, not owned */
word32 maxIdx; /* max offset based on init size */
};
struct OcspRequest {
byte issuerHash[KEYID_SIZE];
byte issuerKeyHash[KEYID_SIZE];
byte* serial; /* copy of the serial number in source cert */
int serialSz;
byte* url; /* copy of the extAuthInfo in source cert */
int urlSz;
byte nonce[MAX_OCSP_NONCE_SZ];
int nonceSz;
void* heap;
void* ssl;
};
WOLFSSL_LOCAL void InitOcspResponse(OcspResponse*, CertStatus*, byte*, word32);
WOLFSSL_LOCAL int OcspResponseDecode(OcspResponse*, void*, void* heap, int);
WOLFSSL_LOCAL int InitOcspRequest(OcspRequest*, DecodedCert*, byte, void*);
WOLFSSL_LOCAL void FreeOcspRequest(OcspRequest*);
WOLFSSL_LOCAL int EncodeOcspRequest(OcspRequest*, byte*, word32);
WOLFSSL_LOCAL word32 EncodeOcspRequestExtensions(OcspRequest*, byte*, word32);
WOLFSSL_LOCAL int CompareOcspReqResp(OcspRequest*, OcspResponse*);
#endif /* HAVE_OCSP */
/* for pointer use */
typedef struct RevokedCert RevokedCert;
#ifdef HAVE_CRL
struct RevokedCert {
byte serialNumber[EXTERNAL_SERIAL_SIZE];
int serialSz;
RevokedCert* next;
};
typedef struct DecodedCRL DecodedCRL;
struct DecodedCRL {
word32 certBegin; /* offset to start of cert */
word32 sigIndex; /* offset to start of signature */
word32 sigLength; /* length of signature */
word32 signatureOID; /* sum of algorithm object id */
byte* signature; /* pointer into raw source, not owned */
byte issuerHash[SIGNER_DIGEST_SIZE]; /* issuer hash */
byte crlHash[SIGNER_DIGEST_SIZE]; /* raw crl data hash */
byte lastDate[MAX_DATE_SIZE]; /* last date updated */
byte nextDate[MAX_DATE_SIZE]; /* next update date */
byte lastDateFormat; /* format of last date */
byte nextDateFormat; /* format of next date */
RevokedCert* certs; /* revoked cert list */
int totalCerts; /* number on list */
void* heap;
};
WOLFSSL_LOCAL void InitDecodedCRL(DecodedCRL*, void* heap);
WOLFSSL_LOCAL int VerifyCRL_Signature(SignatureCtx* sigCtx,
const byte* toBeSigned, word32 tbsSz,
const byte* signature, word32 sigSz,
word32 signatureOID, Signer *ca,
void* heap);
WOLFSSL_LOCAL int ParseCRL(DecodedCRL*, const byte* buff, word32 sz, void* cm);
WOLFSSL_LOCAL void FreeDecodedCRL(DecodedCRL*);
#endif /* HAVE_CRL */
#ifdef __cplusplus
} /* extern "C" */
#endif
#endif /* !NO_ASN */
#endif /* WOLF_CRYPT_ASN_H */