/* asn.h * * Copyright (C) 2006-2022 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 */ /*! \file wolfssl/wolfcrypt/asn.h */ /* DESCRIPTION This library provides the interface to Abstract Syntax Notation One (ASN.1) objects. ASN.1 is a standard interface description language for defining data structures that can be serialized and deserialized in a cross-platform way. */ #ifndef WOLF_CRYPT_ASN_H #define WOLF_CRYPT_ASN_H #include #ifndef NO_ASN #if !defined(NO_ASN_TIME) && defined(NO_TIME_H) #define NO_ASN_TIME /* backwards compatibility with NO_TIME_H */ #endif #include /* fips declare of RsaPrivateKeyDecode @wc_fips */ #if defined(HAVE_FIPS) && !defined(NO_RSA) && \ (!defined(HAVE_FIPS_VERSION) || (HAVE_FIPS_VERSION < 2)) #include #endif #ifndef NO_DH #include #endif #ifndef NO_DSA #include #endif #ifndef NO_SHA #include #endif #ifndef NO_MD5 #include #endif #include #include /* public interface */ #if defined(NO_SHA) && defined(NO_SHA256) #define WC_SHA256_DIGEST_SIZE 32 #endif #ifdef __cplusplus extern "C" { #endif #ifndef EXTERNAL_SERIAL_SIZE #define EXTERNAL_SERIAL_SIZE 32 #endif enum { ISSUER = 0, SUBJECT = 1, BEFORE = 0, AFTER = 1 }; /* ASN Tags */ enum ASN_Tags { ASN_EOC = 0x00, 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_PRINTABLE_STRING = 0x13, ASN_T61STRING = 0x14, ASN_IA5_STRING = 0x16, ASN_UTC_TIME = 0x17, ASN_GENERALIZED_TIME = 0x18, ASN_UNIVERSALSTRING = 0x1c, ASN_BMPSTRING = 0x1e, ASN_TYPE_MASK = 0x1f, ASN_LONG_LENGTH = 0x80, ASN_INDEF_LENGTH = 0x80, /* ASN_Flags - Bitmask */ ASN_CONSTRUCTED = 0x20, ASN_APPLICATION = 0x40, ASN_CONTEXT_SPECIFIC = 0x80, ASN_PRIVATE = 0xC0, CRL_EXTENSIONS = 0xa0, ASN_EXTENSIONS = 0xa3, /* GeneralName types */ ASN_OTHER_TYPE = 0x00, ASN_RFC822_TYPE = 0x01, ASN_DNS_TYPE = 0x02, ASN_DIR_TYPE = 0x04, ASN_URI_TYPE = 0x06, /* the value 6 is from GeneralName OID */ ASN_IP_TYPE = 0x07, /* the value 7 is from GeneralName OID */ /* PKCS #7 types */ ASN_ENC_CONTENT = 0x00, ASN_OTHERNAME_VALUE = 0x00, /* AuthorityKeyIdentifier fields */ ASN_AUTHKEYID_KEYID = 0x00, ASN_AUTHKEYID_ISSUER = 0x01, ASN_AUTHKEYID_SERIAL = 0x02, /* GeneralSubtree fields */ ASN_SUBTREE_MIN = 0x00, ASN_SUBTREE_MAX = 0x01, /* x509 Cert Fields */ ASN_X509_CERT_VERSION = 0x00, /* x509 Cert Extension Fields */ ASN_AKID_KEYID = 0x00, /* ECC Key Fields */ ASN_ECC_PARAMS = 0x00, ASN_ECC_PUBKEY = 0x01, /* OneAsymmetricKey Fields */ ASN_ASYMKEY_ATTRS = 0x00, ASN_ASYMKEY_PUBKEY = 0x01, }; /* NOTE: If ASN_UTC_TIME_SIZE or ASN_GENERALIZED_TIME_SIZE are ever modified * one needs to update the logic in asn.c function GetAsnTimeString() * which depends on the size 14 and/or 16 to determine which format to * place in the "buf" (output) */ #define ASN_UTC_TIME_SIZE 14 /* Read note above before modifying */ #define ASN_GENERALIZED_TIME_SIZE 16 /* Read note above before modifying */ #define ASN_GENERALIZED_TIME_MAX 68 #ifdef WOLFSSL_ASN_TEMPLATE /* Different data types that can be stored in ASNGetData/ASNSetData. */ enum ASNItem_DataType { /* Default for tag type. */ ASN_DATA_TYPE_NONE = 0, /* 8-bit integer value. */ ASN_DATA_TYPE_WORD8 = 1, /* 16-bit integer value. */ ASN_DATA_TYPE_WORD16 = 2, /* 32-bit integer value. */ ASN_DATA_TYPE_WORD32 = 4, /* Buffer with data and length. */ ASN_DATA_TYPE_BUFFER = 5, /* An expected/required buffer with data and length. */ ASN_DATA_TYPE_EXP_BUFFER = 6, /* Replace the item with buffer (data and length). */ ASN_DATA_TYPE_REPLACE_BUFFER = 7, /* Big number as an mp_int. */ ASN_DATA_TYPE_MP = 8, /* Big number as a positive or negative mp_int. */ ASN_DATA_TYPE_MP_POS_NEG = 9, /* ASN.1 CHOICE. A 0 terminated list of tags that are valid. */ ASN_DATA_TYPE_CHOICE = 10, }; /* A template entry describing an ASN.1 item. */ typedef struct ASNItem { /* Depth of ASN.1 item - how many constructed ASN.1 items above. */ byte depth; /* BER/DER tag to expect. */ byte tag; /* Whether the ASN.1 item is constructed. */ byte constructed:1; /* Whether to parse the header only or skip data. If * ASNSetData.data.buffer.data is supplied then this option gets * overwritten and the child nodes get ignored. */ byte headerOnly:1; /* Whether ASN.1 item is optional. * - 0 means not optional * - 1 means is optional * - 2+ means one of these at the same level with same value must appear. */ byte optional; } ASNItem; /* Dynamic data for setting (encoding) an ASN.1 item. */ typedef struct ASNSetData { /* Reverse offset into buffer of ASN.1 item - calculated in SizeASN_Items(). * SetASN_Items() subtracts from total length to get usable value. */ word32 offset; /* Length of data in ASN.1 item - calculated in SizeASN_Items(). */ word32 length; /* Different data type representation. */ union { /* 8-bit integer value. */ byte u8; /* 16-bit integer value. */ word16 u16; /* 32-bit integer value. */ word32 u32; /* Big number as an mp_int. */ mp_int* mp; /* Buffer as data pointer and length. */ struct { /* Data to write out. */ const byte* data; /* Length of data to write out. */ word32 length; } buffer; } data; /* Type of data stored in data field - enum ASNItem_DataType. */ byte dataType; /* Don't write this ASN.1 item out. * Optional items are dependent on the data being encoded. */ byte noOut; } ASNSetData; /* Dynamic data for getting (decoding) an ASN.1 item. */ typedef struct ASNGetData { /* Offset into buffer where encoding starts. */ word32 offset; /* Total length of data in ASN.1 item. * BIT_STRING and INTEGER lengths include leading byte. */ word32 length; union { /* Pointer to 8-bit integer. */ byte* u8; /* Pointer to 16-bit integer. */ word16* u16; /* Pointer to 32-bit integer. */ word32* u32; /* Pointer to mp_int for big number. */ mp_int* mp; /* List of possible tags. Useful for CHOICE ASN.1 items. */ const byte* choice; /* Buffer to copy into. */ struct { /* Buffer to hold ASN.1 data. */ byte* data; /* Maximum length of buffer. */ word32* length; } buffer; /* Refernce to ASN.1 item's data. */ struct { /* Pointer reference into input buffer. */ const byte* data; /* Length of data. */ word32 length; } ref; /* Data of an OBJECT_ID. */ struct { /* OID data reference into input buffer. */ const byte* data; /* Length of OID data. */ word32 length; /* Type of OID expected. */ word32 type; /* OID sum - 32-bit id. */ word32 sum; } oid; } data; /* Type of data stored in data field - enum ASNItem_DataType. */ byte dataType; /* Tag found in BER/DER item. */ byte tag; } ASNGetData; WOLFSSL_LOCAL int SizeASN_Items(const ASNItem* asn, ASNSetData *data, int count, int* encSz); WOLFSSL_LOCAL int SetASN_Items(const ASNItem* asn, ASNSetData *data, int count, byte* output); WOLFSSL_LOCAL int GetASN_Items(const ASNItem* asn, ASNGetData *data, int count, int complete, const byte* input, word32* inOutIdx, word32 maxIdx); #ifdef WOLFSSL_ASN_TEMPLATE_TYPE_CHECK WOLFSSL_LOCAL void GetASN_Int8Bit(ASNGetData *dataASN, byte* num); WOLFSSL_LOCAL void GetASN_Int16Bit(ASNGetData *dataASN, word16* num); WOLFSSL_LOCAL void GetASN_Int32Bit(ASNGetData *dataASN, word32* num); WOLFSSL_LOCAL void GetASN_Buffer(ASNGetData *dataASN, byte* data, word32* length); WOLFSSL_LOCAL void GetASN_ExpBuffer(ASNGetData *dataASN, const byte* data, word32 length); WOLFSSL_LOCAL void GetASN_MP(ASNGetData *dataASN, mp_int* num); WOLFSSL_LOCAL void GetASN_MP_PosNeg(ASNGetData *dataASN, mp_int* num); WOLFSSL_LOCAL void GetASN_Choice(ASNGetData *dataASN, const byte* options); WOLFSSL_LOCAL void GetASN_Boolean(ASNGetData *dataASN, byte* num); WOLFSSL_LOCAL void GetASN_OID(ASNGetData *dataASN, int oidType); WOLFSSL_LOCAL void GetASN_GetConstRef(ASNGetData * dataASN, const byte** data, word32* length); WOLFSSL_LOCAL void GetASN_GetRef(ASNGetData * dataASN, byte** data, word32* length); WOLFSSL_LOCAL void GetASN_OIDData(ASNGetData * dataASN, byte** data, word32* length); WOLFSSL_LOCAL void SetASN_Boolean(ASNSetData *dataASN, byte val); WOLFSSL_LOCAL void SetASN_Int8Bit(ASNSetData *dataASN, byte num); WOLFSSL_LOCAL void SetASN_Int16Bit(ASNSetData *dataASN, word16 num); WOLFSSL_LOCAL void SetASN_Buffer(ASNSetData *dataASN, const byte* data, word32 length); WOLFSSL_LOCAL void SetASN_ReplaceBuffer(ASNSetData *dataASN, const byte* data, word32 length); WOLFSSL_LOCAL void SetASN_MP(ASNSetData *dataASN, mp_int* num); WOLFSSL_LOCAL void SetASN_OID(ASNSetData *dataASN, int oid, int oidType); #else /* Setup ASN data item to get an 8-bit number. * * @param [in] dataASN Dynamic ASN data item. * @param [in] num Pointer to an 8-bit variable. */ #define GetASN_Int8Bit(dataASN, num) \ do { \ (dataASN)->dataType = ASN_DATA_TYPE_WORD8; \ (dataASN)->data.u8 = num; \ } while (0) /* Setup ASN data item to get a 16-bit number. * * @param [in] dataASN Dynamic ASN data item. * @param [in] num Pointer to a 16-bit variable. */ #define GetASN_Int16Bit(dataASN, num) \ do { \ (dataASN)->dataType = ASN_DATA_TYPE_WORD16; \ (dataASN)->data.u16 = num; \ } while (0) /* Setup ASN data item to get a 32-bit number. * * @param [in] dataASN Dynamic ASN data item. * @param [in] num Pointer to a 32-bit variable. */ #define GetASN_Int32Bit(dataASN, num) \ do { \ (dataASN)->dataType = ASN_DATA_TYPE_WORD32; \ (dataASN)->data.u32 = num; \ } while (0) /* Setup ASN data item to get data into a buffer of a specific length. * * @param [in] dataASN Dynamic ASN data item. * @param [in] d Buffer to hold data. * @param [in] l Length of buffer in bytes. */ #define GetASN_Buffer(dataASN, d, l) \ do { \ (dataASN)->dataType = ASN_DATA_TYPE_BUFFER; \ (dataASN)->data.buffer.data = d; \ (dataASN)->data.buffer.length = l; \ } while (0) /* Setup ASN data item to check parsed data against expected buffer. * * @param [in] dataASN Dynamic ASN data item. * @param [in] d Buffer containing expected data. * @param [in] l Length of buffer in bytes. */ #define GetASN_ExpBuffer(dataASN, d, l) \ do { \ (dataASN)->dataType = ASN_DATA_TYPE_EXP_BUFFER; \ (dataASN)->data.ref.data = d; \ (dataASN)->data.ref.length = l; \ } while (0) /* Setup ASN data item to get a number into an mp_int. * * @param [in] dataASN Dynamic ASN data item. * @param [in] num Multi-precision number object. */ #define GetASN_MP(dataASN, num) \ do { \ (dataASN)->dataType = ASN_DATA_TYPE_MP; \ (dataASN)->data.mp = num; \ } while (0) /* Setup ASN data item to get a positive or negative number into an mp_int. * * @param [in] dataASN Dynamic ASN data item. * @param [in] num Multi-precision number object. */ #define GetASN_MP_PosNeg(dataASN, num) \ do { \ (dataASN)->dataType = ASN_DATA_TYPE_MP_POS_NEG; \ (dataASN)->data.mp = num; \ } while (0) /* Setup ASN data item to be a choice of tags. * * @param [in] dataASN Dynamic ASN data item. * @param [in] choice 0 terminated list of tags that are valid. */ #define GetASN_Choice(dataASN, options) \ do { \ (dataASN)->dataType = ASN_DATA_TYPE_CHOICE; \ (dataASN)->data.choice = options; \ } while (0) /* Setup ASN data item to get a boolean value. * * @param [in] dataASN Dynamic ASN data item. * @param [in] num Pointer to an 8-bit variable. */ #define GetASN_Boolean(dataASN, num) \ do { \ (dataASN)->dataType = ASN_DATA_TYPE_NONE; \ (dataASN)->data.u8 = num; \ } while (0) /* Setup ASN data item to be a an OID of a specific type. * * @param [in] dataASN Dynamic ASN data item. * @param [in] oidType Type of OID to expect. */ #define GetASN_OID(dataASN, oidType) \ (dataASN)->data.oid.type = oidType /* Get the data and length from an ASN data item. * * @param [in] dataASN Dynamic ASN data item. * @param [out] d Pointer to data of item. * @param [out] l Length of buffer in bytes. */ #define GetASN_GetConstRef(dataASN, d, l) \ do { \ *(d) = (dataASN)->data.ref.data; \ *(l) = (dataASN)->data.ref.length; \ } while (0) /* Get the data and length from an ASN data item. * * @param [in] dataASN Dynamic ASN data item. * @param [out] d Pointer to data of item. * @param [out] l Length of buffer in bytes. */ #define GetASN_GetRef(dataASN, d, l) \ do { \ *(d) = (byte*)(dataASN)->data.ref.data; \ *(l) = (dataASN)->data.ref.length; \ } while (0) /* Get the data and length from an ASN data item that is an OID. * * @param [in] dataASN Dynamic ASN data item. * @param [out] d Pointer to . * @param [out] l Length of buffer in bytes. */ #define GetASN_OIDData(dataASN, d, l) \ do { \ *(d) = (byte*)(dataASN)->data.oid.data; \ *(l) = (dataASN)->data.oid.length; \ } while (0) /* Setup an ASN data item to set a boolean. * * @param [in] dataASN Dynamic ASN data item. * @param [in] val Boolean value. */ #define SetASN_Boolean(dataASN, val) \ do { \ (dataASN)->dataType = ASN_DATA_TYPE_NONE; \ (dataASN)->data.u8 = val; \ } while (0) /* Setup an ASN data item to set an 8-bit number. * * @param [in] dataASN Dynamic ASN data item. * @param [in] num 8-bit number to set. */ #define SetASN_Int8Bit(dataASN, num) \ do { \ (dataASN)->dataType = ASN_DATA_TYPE_WORD8; \ (dataASN)->data.u8 = num; \ } while (0) /* Setup an ASN data item to set a 16-bit number. * * @param [in] dataASN Dynamic ASN data item. * @param [in] num 16-bit number to set. */ #define SetASN_Int16Bit(dataASN, num) \ do { \ (dataASN)->dataType = ASN_DATA_TYPE_WORD16; \ (dataASN)->data.u16 = num; \ } while (0) /* Setup an ASN data item to set the data in a buffer. * * @param [in] dataASN Dynamic ASN data item. * @param [in] d Buffer containing data to set. * @param [in] l Length of data in buffer in bytes. */ #define SetASN_Buffer(dataASN, d, l) \ do { \ (dataASN)->data.buffer.data = d; \ (dataASN)->data.buffer.length = l; \ } while (0) /* Setup an ASN data item to set the DER encode data in a buffer. * * @param [in] dataASN Dynamic ASN data item. * @param [in] d Buffer containing BER encoded data to set. * @param [in] l Length of data in buffer in bytes. */ #define SetASN_ReplaceBuffer(dataASN, d, l) \ do { \ (dataASN)->dataType = ASN_DATA_TYPE_REPLACE_BUFFER; \ (dataASN)->data.buffer.data = d; \ (dataASN)->data.buffer.length = l; \ } while (0) /* Setup an ASN data item to set an muli-precision number. * * @param [in] dataASN Dynamic ASN data item. * @param [in] num Multi-precision number. */ #define SetASN_MP(dataASN, num) \ do { \ (dataASN)->dataType = ASN_DATA_TYPE_MP; \ (dataASN)->data.mp = num; \ } while (0) /* Setup an ASN data item to set an OID based on id and type. * * oid and oidType pair are unique. * * @param [in] dataASN Dynamic ASN data item. * @param [in] oid OID identifier. * @param [in] oidType Type of OID. */ #define SetASN_OID(dataASN, oid, oidType) \ (dataASN)->data.buffer.data = OidFromId(oid, oidType, \ &(dataASN)->data.buffer.length) #endif /* WOLFSSL_ASN_TEMPLATE_TYPE_CHECK */ /* Get address at the start of the BER item. * * @param [in] dataASN Dynamic ASN data item. * @param [in] in Input buffer. * @return Address at start of BER item. */ #define GetASNItem_Addr(dataASN, in) \ ((in) + (dataASN).offset) /* Get length of a BER item - including tag and length. * * @param [in] dataASN Dynamic ASN data item. * @param [in] in Input buffer. * @return Length of a BER item. */ #define GetASNItem_Length(dataASN, in) \ ((dataASN).length + (word32)((dataASN).data.buffer.data - (in)) - \ (dataASN).offset) /* Get the index of a BER item's data. * * @param [in] dataASN Dynamic ASN data item. * @param [in] in Input buffer. * @return Index of a BER item's data. */ #define GetASNItem_DataIdx(dataASN, in) \ (word32)((dataASN).data.ref.data - (in)) /* Get the end index of a BER item - index of the start of the next item. * * @param [in] dataASN Dynamic ASN data item. * @param [in] in Input buffer. * @return End index of a BER item. */ #define GetASNItem_EndIdx(dataASN, in) \ ((word32)((dataASN).data.ref.data - (in)) + \ (dataASN).data.ref.length) /* For a BIT_STRING, get the unused bits byte. * * @param [in] dataASN Dynamic ASN data item. * @return Unused bits byte in BIT_STRING. */ #define GetASNItem_UnusedBits(dataASN) \ (*((dataASN).data.ref.data - 1)) /* Set the data items at indices start to end inclusive to not be encoded. * * @param [in] dataASN Dynamic ASN data item. * @param [in] start First item not to be encoded. * @param [in] end Last item not to be encoded. */ #define SetASNItem_NoOut(dataASN, start, end) \ do { \ int ii; \ for (ii = (start); ii <= (end); ii++) { \ (dataASN)[ii].noOut = 1; \ } \ } \ while (0) /* Set the data items below node to not be encoded. * * @param [in] dataASN Dynamic ASN data item. * @param [in] node Node who's children should not be encoded. * @param [in] dataASNLen Number of items in dataASN. */ #define SetASNItem_NoOutBelow(dataASN, asn, node, dataASNLen) \ do { \ int ii; \ for (ii = (node) + 1; ii < (int)(dataASNLen); ii++) { \ if ((asn)[ii].depth <= (asn)[node].depth) \ break; \ (dataASN)[ii].noOut = 1; \ } \ } \ while (0) /* Set the node and all nodes below to not be encoded. * * @param [in] dataASN Dynamic ASN data item. * @param [in] node Node which should not be encoded. Child nodes will * also not be encoded. * @param [in] dataASNLen Number of items in dataASN. */ #define SetASNItem_NoOutNode(dataASN, asn, node, dataASNLen) \ do { \ int ii; \ (dataASN)[node].noOut = 1; \ for (ii = (node) + 1; ii < (int)(dataASNLen); ii++) { \ if ((asn)[ii].depth <= (asn)[node].depth) \ break; \ (dataASN)[ii].noOut = 1; \ } \ } \ while (0) #endif /* WOLFSSL_ASN_TEMPLATE */ enum DN_Tags { ASN_DN_NULL = 0x00, 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_STREET_ADDR = 0x09, /* street */ ASN_ORG_NAME = 0x0a, /* O */ ASN_ORGUNIT_NAME = 0x0b, /* OU */ ASN_BUS_CAT = 0x0f, /* businessCategory */ ASN_POSTAL_CODE = 0x11, /* postalCode */ ASN_USER_ID = 0x12, /* UserID */ #ifdef WOLFSSL_CERT_NAME_ALL ASN_NAME = 0x2a, /* name */ ASN_GIVEN_NAME = 0x29, /* GN */ ASN_INITIALS = 0x2b, /* initials */ ASN_DNQUALIFIER = 0x2e, /* dnQualifier */ #endif /* WOLFSSL_CERT_NAME_ALL */ ASN_EMAIL_NAME = 0x98, /* not actual OID (see attrEmailOid) */ ASN_CUSTOM_NAME = 0x99, /* not actual OID (see CertOidField) */ /* pilot attribute types * OID values of 0.9.2342.19200300.100.1.* */ ASN_FAVOURITE_DRINK = 0x05, /* favouriteDrink */ ASN_DOMAIN_COMPONENT = 0x19 /* DC */ }; /* This is the size of the smallest possible PEM header and footer */ extern const int pem_struct_min_sz; #if defined(OPENSSL_EXTRA) || defined(OPENSSL_EXTRA_X509_SMALL) typedef struct WOLFSSL_ObjectInfo { int nid; int id; word32 type; const char* sName; const char* lName; } WOLFSSL_ObjectInfo; extern const size_t wolfssl_object_info_sz; extern const WOLFSSL_ObjectInfo wolfssl_object_info[]; #endif /* defined(OPENSSL_EXTRA) || defined(OPENSSL_EXTRA_X509_SMALL) */ /* DN Tag Strings */ #define WOLFSSL_COMMON_NAME "/CN=" #define WOLFSSL_LN_COMMON_NAME "/commonName=" #define WOLFSSL_SUR_NAME "/SN=" #ifdef WOLFSSL_CERT_NAME_ALL #define WOLFSSL_NAME "/N=" #define WOLFSSL_INITIALS "/initials=" #define WOLFSSL_GIVEN_NAME "/GN=" #define WOLFSSL_DNQUALIFIER "/dnQualifier=" #endif /* WOLFSSL_CERT_NAME_ALL */ #define WOLFSSL_SERIAL_NUMBER "/serialNumber=" #define WOLFSSL_COUNTRY_NAME "/C=" #define WOLFSSL_LN_COUNTRY_NAME "/countryName=" #define WOLFSSL_LOCALITY_NAME "/L=" #define WOLFSSL_LN_LOCALITY_NAME "/localityName=" #define WOLFSSL_STATE_NAME "/ST=" #define WOLFSSL_LN_STATE_NAME "/stateOrProvinceName=" #define WOLFSSL_STREET_ADDR_NAME "/street=" #define WOLFSSL_LN_STREET_ADDR_NAME "/streetAddress=" #define WOLFSSL_POSTAL_NAME "/postalCode=" #define WOLFSSL_ORG_NAME "/O=" #define WOLFSSL_LN_ORG_NAME "/organizationName=" #define WOLFSSL_ORGUNIT_NAME "/OU=" #define WOLFSSL_LN_ORGUNIT_NAME "/organizationalUnitName=" #define WOLFSSL_DOMAIN_COMPONENT "/DC=" #define WOLFSSL_LN_DOMAIN_COMPONENT "/domainComponent=" #define WOLFSSL_BUS_CAT "/businessCategory=" #define WOLFSSL_JOI_C "/jurisdictionC=" #define WOLFSSL_JOI_ST "/jurisdictionST=" #define WOLFSSL_EMAIL_ADDR "/emailAddress=" #define WOLFSSL_USER_ID "/UID=" #define WOLFSSL_DOMAIN_COMPONENT "/DC=" #define WOLFSSL_FAVOURITE_DRINK "/favouriteDrink=" #if defined(WOLFSSL_APACHE_HTTPD) /* otherName strings */ #define WOLFSSL_SN_MS_UPN "msUPN" #define WOLFSSL_LN_MS_UPN "Microsoft User Principal Name" #define WOLFSSL_MS_UPN_SUM 265 #define WOLFSSL_SN_DNS_SRV "id-on-dnsSRV" #define WOLFSSL_LN_DNS_SRV "SRVName" /* TLS features extension strings */ #define WOLFSSL_SN_TLS_FEATURE "tlsfeature" #define WOLFSSL_LN_TLS_FEATURE "TLS Feature" #define WOLFSSL_TLS_FEATURE_SUM 92 #endif #if defined(OPENSSL_EXTRA) || defined(OPENSSL_EXTRA_X509_SMALL) /* NIDs */ #define NID_undef 0 #define NID_netscape_cert_type NID_undef #define NID_des 66 #define NID_des3 67 #define NID_sha256 672 #define NID_sha384 673 #define NID_sha512 674 #define NID_sha512_224 1094 #define NID_sha512_256 1095 #define NID_pkcs7_signed 22 #define NID_pkcs7_enveloped 23 #define NID_pkcs7_signedAndEnveloped 24 #define NID_pkcs9_unstructuredName 49 #define NID_pkcs9_contentType 50 /* 1.2.840.113549.1.9.3 */ #define NID_pkcs9_challengePassword 54 #define NID_hw_name_oid 73 #define NID_id_pkix_OCSP_basic 74 #define NID_any_policy 75 #define NID_anyExtendedKeyUsage 76 #define NID_givenName 99 /* 2.5.4.42 */ #define NID_initials 101 /* 2.5.4.43 */ #define NID_title 106 #define NID_description 107 #define NID_basic_constraints 133 #define NID_key_usage 129 /* 2.5.29.15 */ #define NID_ext_key_usage 151 /* 2.5.29.37 */ #define NID_subject_key_identifier 128 #define NID_authority_key_identifier 149 #define NID_private_key_usage_period 130 /* 2.5.29.16 */ #define NID_subject_alt_name 131 #define NID_issuer_alt_name 132 #define NID_info_access 69 #define NID_sinfo_access 79 /* id-pe 11 */ #define NID_name_constraints 144 /* 2.5.29.30 */ #define NID_crl_distribution_points 145 /* 2.5.29.31 */ #define NID_certificate_policies 146 #define NID_policy_mappings 147 #define NID_policy_constraints 150 #define NID_inhibit_any_policy 168 /* 2.5.29.54 */ #define NID_tlsfeature 1020 /* id-pe 24 */ #define NID_buildingName 1494 #define NID_dnQualifier 174 /* 2.5.4.46 */ #define NID_commonName 14 /* CN Changed to not conflict * with PBE_SHA1_DES3 */ #define NID_name 173 /* N , OID = 2.5.4.41 */ #define NID_surname 0x04 /* SN */ #define NID_serialNumber 0x05 /* serialNumber */ #define NID_countryName 0x06 /* C */ #define NID_localityName 0x07 /* L */ #define NID_stateOrProvinceName 0x08 /* ST */ #define NID_streetAddress ASN_STREET_ADDR /* street */ #define NID_organizationName 0x0a /* O */ #define NID_organizationalUnitName 0x0b /* OU */ #define NID_jurisdictionCountryName 0xc #define NID_jurisdictionStateOrProvinceName 0xd #define NID_businessCategory ASN_BUS_CAT #define NID_domainComponent ASN_DOMAIN_COMPONENT #define NID_postalCode ASN_POSTAL_CODE /* postalCode */ #define NID_favouriteDrink 462 #define NID_userId 458 #define NID_emailAddress 0x30 /* emailAddress */ #define NID_id_on_dnsSRV 82 /* 1.3.6.1.5.5.7.8.7 */ #define NID_ms_upn 265 /* 1.3.6.1.4.1.311.20.2.3 */ #define NID_X9_62_prime_field 406 /* 1.2.840.10045.1.1 */ #endif /* OPENSSL_EXTRA */ enum ECC_TYPES { ECC_PREFIX_0 = 160, ECC_PREFIX_1 = 161 }; #ifdef WOLFSSL_CERT_PIV enum PIV_Tags { ASN_PIV_CERT = 0x0A, ASN_PIV_NONCE = 0x0B, ASN_PIV_SIGNED_NONCE = 0x0C, ASN_PIV_TAG_CERT = 0x70, ASN_PIV_TAG_CERT_INFO = 0x71, ASN_PIV_TAG_MSCUID = 0x72, ASN_PIV_TAG_ERR_DET = 0xFE, /* certificate info masks */ ASN_PIV_CERT_INFO_COMPRESSED = 0x03, ASN_PIV_CERT_INFO_ISX509 = 0x04, /* GZIP is 0x01 */ ASN_PIV_CERT_INFO_GZIP = 0x01, }; #endif /* WOLFSSL_CERT_PIV */ #define ASN_JOI_PREFIX_SZ 10 #define ASN_JOI_PREFIX "\x2b\x06\x01\x04\x01\x82\x37\x3c\x02\x01" #define ASN_JOI_C 0x3 #define ASN_JOI_ST 0x2 #ifndef WC_ASN_NAME_MAX #if defined(OPENSSL_EXTRA) || defined(OPENSSL_EXTRA_X509_SMALL) || \ defined(WOLFSSL_CERT_EXT) #define WC_ASN_NAME_MAX 330 #else #define WC_ASN_NAME_MAX 256 #endif #endif enum Misc_ASN { MAX_SALT_SIZE = 64, /* MAX PKCS Salt length */ MAX_IV_SIZE = 64, /* MAX PKCS Iv length */ 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 */ #if defined(NO_SHA) || (!defined(NO_SHA256) && defined(WC_ASN_HASH_SHA256)) KEYID_SIZE = WC_SHA256_DIGEST_SIZE, #else KEYID_SIZE = WC_SHA_DIGEST_SIZE, #endif #if !defined(WOLFSSL_RSA_PUBLIC_ONLY) && (defined(WOLFSSL_KEY_GEN) || defined(OPENSSL_EXTRA) || !defined(RSA_LOW_MEM)) RSA_INTS = 8, /* RSA ints in private key */ #elif !defined(WOLFSSL_RSA_PUBLIC_ONLY) RSA_INTS = 5, /* RSA ints in private key */ #else RSA_INTS = 2, /* RSA ints in private key */ #endif DSA_PARAM_INTS = 3, /* DSA paramater ints */ RSA_PUB_INTS = 2, /* RSA ints in public key */ DSA_PUB_INTS = 4, /* DSA ints in public key */ DSA_INTS = 5, /* DSA ints in private key */ MIN_DATE_SIZE = 12, MAX_DATE_SIZE = 32, ASN_GEN_TIME_SZ = 15, /* 7 numbers * 2 + Zulu tag */ #ifndef NO_RSA #ifdef WOLFSSL_HAPROXY MAX_ENCODED_SIG_SZ = 1024, /* Supports 8192 bit keys */ #else MAX_ENCODED_SIG_SZ = 512, /* Supports 4096 bit keys */ #endif #elif defined(HAVE_ECC) MAX_ENCODED_SIG_SZ = 140, #elif defined(HAVE_CURVE448) MAX_ENCODED_SIG_SZ = 114, #else MAX_ENCODED_SIG_SZ = 64, #endif MAX_SIG_SZ = 256, MAX_ALGO_SZ = 20, MAX_SHORT_SZ = 6, /* asn int + byte len + 4 byte length */ MAX_LENGTH_SZ = 4, /* Max length size for DER encoding */ 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_ASN_SZ= 9, /* enum(bit or octet) + length(4) */ MAX_ENCODED_DIG_SZ = 64 + MAX_ENCODED_DIG_ASN_SZ, /* asn header + sha512 */ MAX_RSA_INT_SZ = 517, /* RSA raw sz 4096 for bits + tag + len(4) */ MAX_DSA_INT_SZ = 389, /* DSA raw sz 3072 for bits + tag + len(4) */ MAX_DSA_PUBKEY_SZ = (DSA_PUB_INTS * MAX_DSA_INT_SZ) + (2 * MAX_SEQ_SZ) + 2 + MAX_LENGTH_SZ, /* Maximum size of a DSA public key taken from wc_SetDsaPublicKey. */ MAX_DSA_PRIVKEY_SZ = (DSA_INTS * MAX_DSA_INT_SZ) + MAX_SEQ_SZ + MAX_VERSION_SZ, /* Maximum size of a DSA Private key taken from DsaKeyIntsToDer. */ 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 */ MAX_DER_DIGEST_ASN_SZ = MAX_ENCODED_DIG_ASN_SZ + MAX_ALGO_SZ + MAX_SEQ_SZ, /* Maximum DER digest ASN header size */ /* Max X509 header length indicates the max length + 2 ('\n', '\0') */ MAX_X509_HEADER_SZ = (37 + 2), /* Maximum PEM Header/Footer Size */ #ifdef WOLFSSL_CERT_GEN #ifdef WOLFSSL_CERT_REQ /* Max encoded cert req attributes length */ MAX_ATTRIB_SZ = MAX_SEQ_SZ * 4 + (11 + MAX_SEQ_SZ) * 3 + MAX_PRSTR_SZ * 2 + CTC_NAME_SIZE * 2, /* 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) || \ defined(HAVE_PKCS7) || defined(OPENSSL_EXTRA_X509_SMALL) || \ defined(HAVE_OID_DECODING) || defined(HAVE_OID_ENCODING) 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)) + CTC_MAX_EKU_OID_SZ, /* Max encoded ExtKeyUsage (SEQ/LEN + OBJID + OCTSTR/LEN + SEQ + (6 * (SEQ + OID))) */ #ifndef IGNORE_NETSCAPE_CERT_TYPE MAX_NSCERTTYPE_SZ = MAX_SEQ_SZ + 17, /* SEQ + OID + OCTET STR + * NS BIT STR */ #endif MAX_CERTPOL_NB = CTC_MAX_CERTPOL_NB,/* Max number of Cert Policy */ MAX_CERTPOL_SZ = CTC_MAX_CERTPOL_SZ, #endif MAX_AIA_SZ = 2, /* Max Authority Info Access extension size*/ 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 */ MAX_PUBLIC_KEY_SZ = MAX_DSA_PUBKEY_SZ + MAX_ALGO_SZ + MAX_SEQ_SZ * 2, #ifdef WOLFSSL_ENCRYPTED_KEYS HEADER_ENCRYPTED_KEY_SIZE = 88,/* Extra header size for encrypted key */ #else HEADER_ENCRYPTED_KEY_SIZE = 0, #endif TRAILING_ZERO = 1, /* Used for size of zero pad */ ASN_TAG_SZ = 1, /* single byte ASN.1 tag */ MIN_VERSION_SZ = 3, /* Min bytes needed for GetMyVersion */ MAX_X509_VERSION = 3, /* Max X509 version allowed */ MIN_X509_VERSION = 0, /* Min X509 version allowed */ WOLFSSL_X509_V1 = 0, WOLFSSL_X509_V2 = 1, WOLFSSL_X509_V3 = 2, #if defined(OPENSSL_ALL) || defined(WOLFSSL_MYSQL_COMPATIBLE) || \ defined(WOLFSSL_NGINX) || defined(WOLFSSL_HAPROXY) || \ defined(OPENSSL_EXTRA) || defined(HAVE_PKCS7) MAX_TIME_STRING_SZ = 25, /* Max length of formatted time string */ #endif PKCS5_SALT_SZ = 8, PEM_LINE_SZ = 64, /* Length of Base64 encoded line, not including new line */ PEM_LINE_LEN = PEM_LINE_SZ + 12, /* PEM line max + fudge */ COUNTRY_CODE_LEN = 2, /* RFC 3739 */ }; #ifndef WC_MAX_NAME_ENTRIES /* entries added to x509 name struct */ #ifdef OPENSSL_EXTRA #define WC_MAX_NAME_ENTRIES 16 #else #define WC_MAX_NAME_ENTRIES 14 #endif #endif #define MAX_NAME_ENTRIES WC_MAX_NAME_ENTRIES 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, oidCompressType = 16, oidCertNameType = 17, oidTlsExtType = 18, oidCrlExtType = 19, oidCsrAttrType = 20, #ifdef WOLFSSL_SUBJ_DIR_ATTR oidSubjDirAttrType = 21, #endif oidIgnoreType }; enum Hash_Sum { MD2h = 646, MD5h = 649, SHAh = 88, SHA224h = 417, SHA256h = 414, SHA384h = 415, SHA512h = 416, SHA512_224h = 418, SHA512_256h = 419, SHA3_224h = 420, SHA3_256h = 421, SHA3_384h = 422, SHA3_512h = 423, SHAKE128h = 424, SHAKE256h = 425 }; #if !defined(NO_DES3) || !defined(NO_AES) enum Block_Sum { #ifdef WOLFSSL_AES_128 AES128CBCb = 414, AES128GCMb = 418, AES128CCMb = 419, #endif #ifdef WOLFSSL_AES_192 AES192CBCb = 434, AES192GCMb = 438, AES192CCMb = 439, #endif #ifdef WOLFSSL_AES_256 AES256CBCb = 454, AES256GCMb = 458, AES256CCMb = 459, #endif #ifndef NO_DES3 DESb = 69, DES3b = 652 #endif }; #endif /* !NO_DES3 || !NO_AES */ enum Key_Sum { DSAk = 515, RSAk = 645, RSAPSSk = 654, RSAESOAEPk = 651, /* 1.2.840.113549.1.1.7 */ ECDSAk = 518, ED25519k = 256, /* 1.3.101.112 */ X25519k = 254, /* 1.3.101.110 */ ED448k = 257, /* 1.3.101.113 */ X448k = 255, /* 1.3.101.111 */ DHk = 647, /* dhKeyAgreement OID: 1.2.840.113549.1.3.1 */ FALCON_LEVEL1k = 268, /* 1.3.9999.3.1 */ FALCON_LEVEL5k = 271, /* 1.3.9999.3.4 */ DILITHIUM_LEVEL2k = 213, /* 1.3.6.1.4.1.2.267.7.4.4 */ DILITHIUM_LEVEL3k = 216, /* 1.3.6.1.4.1.2.267.7.6.5 */ DILITHIUM_LEVEL5k = 220, /* 1.3.6.1.4.1.2.267.7.8.7 */ DILITHIUM_AES_LEVEL2k = 217,/* 1.3.6.1.4.1.2.267.11.4.4 */ DILITHIUM_AES_LEVEL3k = 221,/* 1.3.6.1.4.1.2.267.11.6.5 + 1 (See GetOID() in asn.c) */ DILITHIUM_AES_LEVEL5k = 224,/* 1.3.6.1.4.1.2.267.11.8.7 */ SPHINCS_FAST_LEVEL1k = 281, /* 1 3 9999 6 7 4 */ SPHINCS_FAST_LEVEL3k = 283, /* 1 3 9999 6 8 3 + 2 (See GetOID() in asn.c) */ SPHINCS_FAST_LEVEL5k = 282, /* 1 3 9999 6 9 3 */ SPHINCS_SMALL_LEVEL1k = 287, /* 1 3 9999 6 7 10 */ SPHINCS_SMALL_LEVEL3k = 285, /* 1 3 9999 6 8 7 */ SPHINCS_SMALL_LEVEL5k = 286, /* 1 3 9999 6 9 7 */ }; #if !defined(NO_AES) || defined(HAVE_PKCS7) enum KeyWrap_Sum { #ifdef WOLFSSL_AES_128 AES128_WRAP = 417, #endif #ifdef WOLFSSL_AES_192 AES192_WRAP = 437, #endif #ifdef WOLFSSL_AES_256 AES256_WRAP = 457, #endif #ifdef HAVE_PKCS7 PWRI_KEK_WRAP = 680 /*id-alg-PWRI-KEK, 1.2.840.113549.1.9.16.3.9 */ #endif }; #endif /* !NO_AES || PKCS7 */ 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 KDF_Sum { PBKDF2_OID = 660, MGF1_OID = 652, }; enum HMAC_Sum { HMAC_SHA224_OID = 652, HMAC_SHA256_OID = 653, HMAC_SHA384_OID = 654, HMAC_SHA512_OID = 655, HMAC_SHA3_224_OID = 426, HMAC_SHA3_256_OID = 427, HMAC_SHA3_384_OID = 428, HMAC_SHA3_512_OID = 429 }; enum Extensions_Sum { BASIC_CA_OID = 133, /* 2.5.29.19 */ ALT_NAMES_OID = 131, /* 2.5.29.17 */ CRL_DIST_OID = 145, /* 2.5.29.31 */ AUTH_INFO_OID = 69, /* 1.3.6.1.5.5.7.1.1 */ AUTH_KEY_OID = 149, /* 2.5.29.35 */ SUBJ_KEY_OID = 128, /* 2.5.29.14 */ CERT_POLICY_OID = 146, /* 2.5.29.32 */ CRL_NUMBER_OID = 134, /* 2.5.29.20 */ 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 */ SUBJ_INFO_ACC_OID = 79, /* 1.3.6.1.5.5.7.1.11 */ POLICY_MAP_OID = 147, /* 2.5.29.33 */ POLICY_CONST_OID = 150, /* 2.5.29.36 */ ISSUE_ALT_NAMES_OID = 132, /* 2.5.29.18 */ TLS_FEATURE_OID = 92, /* 1.3.6.1.5.5.7.1.24 */ NETSCAPE_CT_OID = 753, /* 2.16.840.1.113730.1.1 */ OCSP_NOCHECK_OID = 121, /* 1.3.6.1.5.5.7.48.1.5 id-pkix-ocsp-nocheck */ SUBJ_DIR_ATTR_OID = 123, /* 2.5.29.9 */ AKEY_PACKAGE_OID = 1048, /* 2.16.840.1.101.2.1.2.78.5 RFC 5958 - Asymmetric Key Packages */ FASCN_OID = 419, /* 2.16.840.1.101.3.6.6 Federal PKI Policy FASC-N */ UPN_OID = 265 /* 1.3.6.1.4.1.311.20.2.3 UPN */ }; enum CertificatePolicy_Sum { CP_ANY_OID = 146, /* id-ce 32 0 */ #ifdef WOLFSSL_FPKI CP_FPKI_COMMON_AUTH_OID = 426, /* 2.16.840.1.101.3.2.1.3.13 */ CP_FPKI_PIV_AUTH_OID = 453, /* 2.16.840.1.101.3.2.1.3.40 */ CP_FPKI_PIV_AUTH_HW_OID = 454, /* 2.16.840.1.101.3.2.1.3.41 */ CP_FPKI_PIVI_AUTH_OID = 458 /* 2.16.840.1.101.3.2.1.3.45 */ #endif /* WOLFSSL_FPKI */ }; 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, id-ad-ocsp */ AIA_CA_ISSUER_OID = 117, /* 1.3.6.1.5.5.7.48.2, id-ad-caIssuers */ #ifdef WOLFSSL_SUBJ_INFO_ACC AIA_CA_REPO_OID = 120 /* 1.3.6.1.5.5.7.48.5, id-ad-caRepository */ #endif /* WOLFSSL_SUBJ_INFO_ACC */ }; #define ID_PKIX(num) (67+(num)) /* 1.3.6.1.5.5.7.num, id-pkix num */ #define ID_KP(num) (ID_PKIX(3)+(num)) /* 1.3.6.1.5.5.7.3.num, id-kp num */ 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 */ /* From RFC 6187: X.509v3 Certificates for Secure Shell Authenticaiton */ EKU_SSH_CLIENT_AUTH_OID = ID_KP(21), /* id-kp-secureShellClient */ EKU_SSH_MSCL_OID = 264, /* 1.3.6.1.4.1.311.20.2.2, MS Smart Card Logon */ EKU_SSH_KP_CLIENT_AUTH_OID = 64 /* 1.3.6.1.5.2.3.4, id-pkinit-KPClientAuth*/ }; #ifdef WOLFSSL_SUBJ_DIR_ATTR #define ID_PDA(num) (ID_PKIX(9)+(num)) /* 1.3.6.1.5.5.7.9.num, id-pda num */ enum SubjDirAttr_Sum { /* From RFC 3739, section 3.3.2 */ SDA_DOB_OID = ID_PDA(1), /* id-pda-dateOfBirth */ SDA_POB_OID = ID_PDA(2), /* id-pda-placeOfBirth */ SDA_GENDER_OID = ID_PDA(3), /* id-pda-gender */ SDA_COC_OID = ID_PDA(4), /* id-pda-countryOfCitizenship */ SDA_COR_OID = ID_PDA(5) /* id-pda-countryOfResidence */ }; #endif /* WOLFSSL_SUBJ_DIR_ATTR */ #ifdef HAVE_LIBZ enum CompressAlg_Sum { ZLIBc = 679 /* 1.2.840.113549.1.9.16.3.8, id-alg-zlibCompress */ }; #endif enum VerifyType { NO_VERIFY = 0, VERIFY = 1, VERIFY_CRL = 2, VERIFY_OCSP = 3, VERIFY_NAME = 4, VERIFY_SKIP_DATE = 5, VERIFY_OCSP_CERT = 6, }; #ifdef WOLFSSL_CERT_EXT enum KeyIdType { SKID_TYPE = 0, AKID_TYPE = 1 }; #endif #ifdef WOLFSSL_CERT_REQ enum CsrAttrType { UNSTRUCTURED_NAME_OID = 654, PKCS9_CONTENT_TYPE_OID = 655, CHALLENGE_PASSWORD_OID = 659, SERIAL_NUMBER_OID = 94, EXTENSION_REQUEST_OID = 666, USER_ID_OID = 865, DNQUALIFIER_OID = 135, INITIALS_OID = 132, SURNAME_OID = 93, NAME_OID = 130, GIVEN_NAME_OID = 131, }; #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_USER 0x80 #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 #ifdef WOLFSSL_WOLFSSH #define EXTKEYUSE_SSH_CLIENT_AUTH 0x01 #define EXTKEYUSE_SSH_MSCL 0x02 #define EXTKEYUSE_SSH_KP_CLIENT_AUTH 0x04 #endif /* WOLFSSL_WOLFSSH */ #define WC_NS_SSL_CLIENT 0x80 #define WC_NS_SSL_SERVER 0x40 #define WC_NS_SMIME 0x20 #define WC_NS_OBJSIGN 0x10 #define WC_NS_SSL_CA 0x04 #define WC_NS_SMIME_CA 0x02 #define WC_NS_OBJSIGN_CA 0x01 #if defined(OPENSSL_ALL) || defined(OPENSSL_EXTRA) || \ defined(WOLFSSL_WPAS_SMALL) || defined(WOLFSSL_IP_ALT_NAME) #ifndef WOLFSSL_MAX_IPSTR #define WOLFSSL_MAX_IPSTR 46 /* max ip size IPv4 mapped IPv6 */ #endif #define WOLFSSL_IP4_ADDR_LEN 4 #define WOLFSSL_IP6_ADDR_LEN 16 #endif /* OPENSSL_ALL || WOLFSSL_IP_ALT_NAME */ typedef struct DNS_entry DNS_entry; struct DNS_entry { DNS_entry* next; /* next on DNS list */ int type; /* i.e. ASN_DNS_TYPE */ int len; /* actual DNS len */ char* name; /* actual DNS name */ #if defined(OPENSSL_ALL) || defined(WOLFSSL_IP_ALT_NAME) char* ipString; /* human readable form of IP address */ #endif #ifdef WOLFSSL_FPKI int oidSum; /* provide oid sum for verification */ #endif }; #ifdef WOLFSSL_FPKI /* RFC4122 i.e urn:uuid:f81d4fae-7dec-11d0-a765-00a0c91e6bf6 */ #define DEFAULT_UUID_SZ 45 #endif 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) */ }; enum SignatureState { SIG_STATE_BEGIN, SIG_STATE_HASH, SIG_STATE_KEY, SIG_STATE_DO, SIG_STATE_CHECK, }; #ifdef HAVE_PK_CALLBACKS #ifdef HAVE_ECC typedef int (*wc_CallbackEccVerify)( const unsigned char* sig, unsigned int sigSz, const unsigned char* hash, unsigned int hashSz, const unsigned char* keyDer, unsigned int keySz, int* result, void* ctx); #endif #ifndef NO_RSA typedef int (*wc_CallbackRsaVerify)( unsigned char* sig, unsigned int sigSz, unsigned char** out, const unsigned char* keyDer, unsigned int keySz, void* ctx); #endif #endif /* HAVE_PK_CALLBACKS */ #if defined(WOLFSSL_RENESAS_TSIP_TLS) || defined(WOLFSSL_RENESAS_SCEPROTECT) ||\ defined(HAVE_PK_CALLBACKS) typedef struct tagCertAttribute { byte verifyByTSIP_SCE; word32 certBegin; word32 pubkey_n_start; word32 pubkey_n_len; word32 pubkey_e_start; word32 pubkey_e_len; int curve_id; const byte* cert; word32 certSz; const byte* keyIndex; } CertAttribute; #endif struct SignatureCtx { void* heap; byte* digest; #ifndef NO_RSA byte* out; #endif #if !(defined(NO_RSA) && defined(NO_DSA)) byte* sigCpy; #endif #if defined(HAVE_ECC) || defined(HAVE_ED25519) || defined(HAVE_ED448) || \ !defined(NO_DSA) int verify; #endif union { #ifndef NO_RSA struct RsaKey* rsa; #endif #ifndef NO_DSA struct DsaKey* dsa; #endif #ifdef HAVE_ECC struct ecc_key* ecc; #endif #ifdef HAVE_ED25519 struct ed25519_key* ed25519; #endif #ifdef HAVE_ED448 struct ed448_key* ed448; #endif #ifdef HAVE_PQC struct falcon_key* falcon; struct dilithium_key* dilithium; struct sphincs_key* sphincs; #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 #ifdef HAVE_PK_CALLBACKS #ifdef HAVE_ECC wc_CallbackEccVerify pkCbEcc; void* pkCtxEcc; #endif #ifndef NO_RSA wc_CallbackRsaVerify pkCbRsa; void* pkCtxRsa; #endif #endif /* HAVE_PK_CALLBACKS */ #ifndef NO_RSA #if defined(WOLFSSL_RENESAS_TSIP_TLS) || defined(WOLFSSL_RENESAS_SCEPROTECT) ||\ defined(HAVE_PK_CALLBACKS) CertAttribute CertAtt; #endif #ifdef WC_RSA_PSS enum wc_HashType hash; int mgf; int saltLen; #endif #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 */ }; #define DOMAIN_COMPONENT_MAX 10 struct DecodedName { char* fullName; int fullNameLen; int entryCount; int cnIdx; int cnLen; int cnNid; int snIdx; int snLen; int snNid; int cIdx; int cLen; int cNid; int lIdx; int lLen; int lNid; int stIdx; int stLen; int stNid; int oIdx; int oLen; int oNid; int ouIdx; int ouLen; #ifdef WOLFSSL_CERT_EXT int bcIdx; int bcLen; int jcIdx; int jcLen; int jsIdx; int jsLen; #endif int ouNid; int emailIdx; int emailLen; int emailNid; int uidIdx; int uidLen; int uidNid; int serialIdx; int serialLen; int serialNid; int dcIdx[DOMAIN_COMPONENT_MAX]; int dcLen[DOMAIN_COMPONENT_MAX]; int dcNum; int dcMode; }; /* ASN Encoded Name field */ typedef struct EncodedName { int nameLen; /* actual string value length */ int totalLen; /* total encoded length */ int type; /* type of name */ int used; /* are we actually using this one */ byte encoded[CTC_NAME_SIZE * 2]; /* encoding */ } EncodedName; #ifndef WOLFSSL_MAX_PATH_LEN /* RFC 5280 Section 6.1.2. "Initialization" - item (k) defines * (k) max_path_length: this integer is initialized to "n", is * decremented for each non-self-issued certificate in the path, * and may be reduced to the value in the path length constraint * field within the basic constraints extension of a CA * certificate. * * wolfSSL has arbitrarily selected the value 127 for "n" in the above * description. Users can modify the maximum path length by setting * WOLFSSL_MAX_PATH_LEN to a preferred value at build time */ #define WOLFSSL_MAX_PATH_LEN 127 #endif typedef struct DecodedName DecodedName; typedef struct DecodedCert DecodedCert; 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; #if defined(WOLFSSL_CUSTOM_OID) && defined(WOLFSSL_ASN_TEMPLATE) \ && defined(HAVE_OID_DECODING) typedef int (*wc_UnknownExtCallback)(const word16* oid, word32 oidSz, int crit, const unsigned char* der, word32 derSz); #endif struct DecodedCert { const 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 */ #ifdef WC_RSA_PSS word32 sigParamsIndex; /* start of signature parameters */ word32 sigParamsLength; /* length of signature parameters */ #endif 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 */ DNS_entry* altDirNames; /* alt names list of DIR 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 subjectKeyHash[KEYID_SIZE]; /* hash of the public Key */ byte issuerKeyHash[KEYID_SIZE]; /* hash of the public Key */ #endif /* HAVE_OCSP */ const byte* signature; /* not owned, points into raw cert */ char* subjectCN; /* CommonName */ int subjectCNLen; /* CommonName Length */ char subjectCNEnc; /* CommonName Encoding */ char issuer[WC_ASN_NAME_MAX]; /* full name including common name */ char subject[WC_ASN_NAME_MAX];/* full name including common name */ int verify; /* Default to yes, but could be off */ const 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 */ const byte* extensions; /* not owned, points into raw cert */ int extensionsSz; /* length of cert extensions */ word32 extensionsIdx; /* if want to go back and parse later */ const byte* extAuthInfo; /* Authority Information Access URI */ int extAuthInfoSz; /* length of the URI */ #if defined(OPENSSL_ALL) || defined(WOLFSSL_QT) const byte* extAuthInfoCaIssuer; /* Authority Info Access caIssuer URI */ int extAuthInfoCaIssuerSz; /* length of the caIssuer URI */ #endif const byte* extCrlInfoRaw; /* Entire CRL Distribution Points * Extension. This is useful when * re-generating the DER. */ int extCrlInfoRawSz; /* length of the extension */ const byte* extCrlInfo; /* CRL Distribution Points */ int extCrlInfoSz; /* length of the URI */ byte extSubjKeyId[KEYID_SIZE]; /* Subject Key ID */ byte extAuthKeyId[KEYID_SIZE]; /* Authority Key ID */ byte pathLength; /* CA basic constraint path length */ byte maxPathLen; /* max_path_len see RFC 5280 section * 6.1.2 "Initialization" - (k) for * description of max_path_len */ byte policyConstSkip; /* Policy Constraints skip certs value */ word16 extKeyUsage; /* Key usage bitfield */ byte extExtKeyUsage; /* Extended Key usage bitfield */ #ifdef WOLFSSL_WOLFSSH byte extExtKeyUsageSsh; /* Extended Key Usage bitfield for SSH */ #endif /* WOLFSSL_WOLFSSH */ #if defined(OPENSSL_EXTRA) || defined(OPENSSL_EXTRA_X509_SMALL) const byte* extExtKeyUsageSrc; word32 extExtKeyUsageSz; word32 extExtKeyUsageCount; #ifdef WOLFSSL_AKID_NAME const byte* extRawAuthKeyIdSrc; word32 extRawAuthKeyIdSz; #endif const byte* extAuthKeyIdSrc; word32 extAuthKeyIdSz; const byte* extSubjKeyIdSrc; word32 extSubjKeyIdSz; #endif #ifdef OPENSSL_ALL const byte* extSubjAltNameSrc; word32 extSubjAltNameSz; #endif #ifdef WOLFSSL_SUBJ_DIR_ATTR char countryOfCitizenship[COUNTRY_CODE_LEN+1]; /* ISO 3166 Country Code */ #ifdef OPENSSL_ALL const byte* extSubjDirAttrSrc; word32 extSubjDirAttrSz; #endif #endif /* WOLFSSL_SUBJ_DIR_ATTR */ #ifdef WOLFSSL_SUBJ_INFO_ACC const byte* extSubjInfoAccCaRepo; word32 extSubjInfoAccCaRepoSz; #ifdef OPENSSL_ALL const byte* extSubjInfoAccSrc; word32 extSubjInfoAccSz; #endif #endif /* WOLFSSL_SUBJ_INFO_ACC */ #if defined(HAVE_ECC) || defined(HAVE_ED25519) || defined(HAVE_ED448) word32 pkCurveOID; /* Public Key's curve OID */ #endif /* HAVE_ECC */ const byte* beforeDate; int beforeDateLen; const byte* afterDate; int afterDateLen; #if defined(HAVE_PKCS7) || defined(WOLFSSL_CERT_EXT) const byte* issuerRaw; /* pointer to issuer inside source */ int issuerRawLen; #endif #if !defined(IGNORE_NAME_CONSTRAINTS) || defined(WOLFSSL_CERT_EXT) const byte* subjectRaw; /* pointer to subject inside source */ int subjectRawLen; #endif #if !defined(IGNORE_NAME_CONSTRAINTS) || \ defined(WOLFSSL_CERT_GEN) || defined(WOLFSSL_CERT_EXT) char* subjectEmail; int subjectEmailLen; #endif #if defined(WOLFSSL_CERT_GEN) || defined(WOLFSSL_CERT_EXT) /* easy access to subject info for other sign */ char* subjectSN; int subjectSNLen; char subjectSNEnc; #ifdef WOLFSSL_CERT_NAME_ALL char* subjectN; int subjectNLen; char subjectNEnc; char* subjectI; int subjectILen; char subjectIEnc; char* subjectGN; int subjectGNLen; char subjectGNEnc; char* subjectDNQ; int subjectDNQLen; char subjectDNQEnc; #endif /*WOLFSSL_CERT_NAME_ALL */ 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* subjectSND; int subjectSNDLen; char subjectSNDEnc; char* subjectUID; int subjectUIDLen; char subjectUIDEnc; char* subjectStreet; int subjectStreetLen; char subjectStreetEnc; char* subjectBC; int subjectBCLen; char subjectBCEnc; char* subjectJC; int subjectJCLen; char subjectJCEnc; char* subjectJS; int subjectJSLen; char subjectJSEnc; char* subjectPC; int subjectPCLen; char subjectPCEnc; #if defined(WOLFSSL_HAVE_ISSUER_NAMES) char* issuerCN; int issuerCNLen; char issuerCNEnc; char* issuerSN; int issuerSNLen; char issuerSNEnc; char* issuerC; int issuerCLen; char issuerCEnc; char* issuerL; int issuerLLen; char issuerLEnc; char* issuerST; int issuerSTLen; char issuerSTEnc; char* issuerO; int issuerOLen; char issuerOEnc; char* issuerOU; int issuerOULen; char issuerOUEnc; char* issuerSND; int issuerSNDLen; char issuerSNDEnc; char* issuerEmail; int issuerEmailLen; #endif /* WOLFSSL_HAVE_ISSUER_NAMES */ #endif /* defined(WOLFSSL_CERT_GEN) || defined(WOLFSSL_CERT_EXT) */ #if defined(OPENSSL_EXTRA) || defined(OPENSSL_EXTRA_X509_SMALL) /* WOLFSSL_X509_NAME structures (used void* to avoid including ssl.h) */ void* issuerName; void* subjectName; #endif /* OPENSSL_EXTRA */ #ifdef WOLFSSL_SEP int deviceTypeSz; byte* deviceType; int hwTypeSz; byte* hwType; int hwSerialNumSz; byte* hwSerialNum; #endif /* WOLFSSL_SEP */ #ifdef WOLFSSL_CERT_EXT char extCertPolicies[MAX_CERTPOL_NB][MAX_CERTPOL_SZ]; int extCertPoliciesNb; #endif /* WOLFSSL_CERT_EXT */ #ifndef IGNORE_NETSCAPE_CERT_TYPE byte nsCertType; #endif #ifdef WOLFSSL_CERT_REQ /* CSR attributes */ char* contentType; /* Content Type */ int contentTypeLen; char* cPwd; /* Challenge Password */ int cPwdLen; char* sNum; /* Serial Number */ int sNumLen; char* dnQualifier; int dnQualifierLen; char* initials; int initialsLen; char* surname; int surnameLen; char* givenName; int givenNameLen; char* unstructuredName; int unstructuredNameLen; #endif /* WOLFSSL_CERT_REQ */ Signer* ca; #ifndef NO_CERTS SignatureCtx sigCtx; #endif #if defined(WOLFSSL_RENESAS_TSIP) || defined(WOLFSSL_RENESAS_SCEPROTECT) byte* sce_tsip_encRsaKeyIdx; #endif #ifdef WOLFSSL_MAXQ10XX_TLS word32 publicKeyIndex; /* offset to start of public key */ #endif int badDate; int criticalExt; /* Option Bits */ byte subjectCNStored : 1; /* have we saved a copy we own */ byte extSubjKeyIdSet : 1; /* Set when the SKID was read from cert */ byte extAuthKeyIdSet : 1; /* Set when the AKID was read from cert */ #ifndef IGNORE_NAME_CONSTRAINTS byte extNameConstraintSet : 1; #endif byte isCA : 1; /* CA basic constraint true */ byte pathLengthSet : 1; /* CA basic const path length set */ byte weOwnAltNames : 1; /* altNames haven't been given to copy */ byte extKeyUsageSet : 1; byte extExtKeyUsageSet : 1; /* Extended Key Usage set */ #ifdef HAVE_OCSP byte ocspNoCheckSet : 1; /* id-pkix-ocsp-nocheck set */ #endif byte extCRLdistSet : 1; byte extAuthInfoSet : 1; byte extBasicConstSet : 1; byte extPolicyConstSet : 1; byte extPolicyConstRxpSet : 1; /* requireExplicitPolicy set */ byte extPolicyConstIpmSet : 1; /* inhibitPolicyMapping set */ byte extSubjAltNameSet : 1; byte inhibitAnyOidSet : 1; byte selfSigned : 1; /* Indicates subject and issuer are same */ #if defined(WOLFSSL_SEP) || defined(WOLFSSL_QT) byte extCertPolicySet : 1; #endif byte extCRLdistCrit : 1; byte extAuthInfoCrit : 1; byte extBasicConstCrit : 1; byte extPolicyConstCrit : 1; byte extSubjAltNameCrit : 1; byte extAuthKeyIdCrit : 1; #ifndef IGNORE_NAME_CONSTRAINTS byte extNameConstraintCrit : 1; #endif byte extSubjKeyIdCrit : 1; byte extKeyUsageCrit : 1; byte extExtKeyUsageCrit : 1; #ifdef WOLFSSL_SUBJ_DIR_ATTR byte extSubjDirAttrSet : 1; #endif #ifdef WOLFSSL_SUBJ_INFO_ACC byte extSubjInfoAccSet : 1; #endif #if defined(WOLFSSL_SEP) || defined(WOLFSSL_QT) byte extCertPolicyCrit : 1; #endif #ifdef WOLFSSL_CERT_REQ byte isCSR : 1; /* Do we intend on parsing a CSR? */ #endif #if defined(WOLFSSL_CUSTOM_OID) && defined(WOLFSSL_ASN_TEMPLATE) \ && defined(HAVE_OID_DECODING) wc_UnknownExtCallback unknownExtCallback; #endif }; #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 maxPathLen; byte pathLength; byte pathLengthSet : 1; byte selfSigned : 1; const 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 #ifdef HAVE_OCSP byte subjectKeyHash[KEYID_SIZE]; #endif #ifdef WOLFSSL_SIGNER_DER_CERT DerBuffer* derCert; #endif #if defined(WOLFSSL_RENESAS_TSIP_TLS) || defined(WOLFSSL_RENESAS_SCEPROTECT) word32 cm_idx; #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 SKID 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) || \ defined(OPENSSL_EXTRA_X509_SMALL) || defined(WOLFSSL_PUBLIC_ASN) #define WOLFSSL_ASN_API WOLFSSL_API #else #define WOLFSSL_ASN_API WOLFSSL_LOCAL #endif #ifdef HAVE_SMIME #define MIME_HEADER_ASCII_MIN 33 #define MIME_HEADER_ASCII_MAX 126 typedef struct MimeParam MimeParam; typedef struct MimeHdr MimeHdr; struct MimeParam { MimeParam* next; char* attribute; char* value; }; struct MimeHdr { MimeHdr* next; MimeParam* params; char* name; char* body; }; typedef enum MimeTypes { MIME_HDR, MIME_PARAM } MimeTypes; typedef enum MimeStatus { MIME_NAMEATTR, MIME_BODYVAL } MimeStatus; #endif /* HAVE_SMIME */ WOLFSSL_LOCAL int CalcHashId(const byte* data, word32 len, byte* hash); WOLFSSL_LOCAL int GetName(DecodedCert* cert, int nameType, int maxIdx); WOLFSSL_ASN_API int wc_BerToDer(const byte* ber, word32 berSz, byte* der, word32* derSz); WOLFSSL_ASN_API void FreeAltNames(DNS_entry* altNames, void* heap); WOLFSSL_ASN_API DNS_entry* AltNameNew(void* heap); #ifndef IGNORE_NAME_CONSTRAINTS WOLFSSL_ASN_API void FreeNameSubtrees(Base_entry* names, void* heap); #endif /* IGNORE_NAME_CONSTRAINTS */ WOLFSSL_ASN_API void InitDecodedCert(DecodedCert* cert, const byte* source, word32 inSz, void* heap); WOLFSSL_ASN_API void FreeDecodedCert(DecodedCert* cert); WOLFSSL_ASN_API int ParseCert(DecodedCert* cert, int type, int verify, void* cm); #if defined(WOLFSSL_CUSTOM_OID) && defined(WOLFSSL_ASN_TEMPLATE) \ && defined(HAVE_OID_DECODING) WOLFSSL_ASN_API int wc_SetUnknownExtCallback(DecodedCert* cert, wc_UnknownExtCallback cb); #endif WOLFSSL_LOCAL int DecodePolicyOID(char *out, word32 outSz, const byte *in, word32 inSz); WOLFSSL_LOCAL int EncodePolicyOID(byte *out, word32 *outSz, const char *in, void* heap); WOLFSSL_API int CheckCertSignature(const byte*,word32,void*,void* cm); WOLFSSL_LOCAL int CheckCertSignaturePubKey(const byte* cert, word32 certSz, void* heap, const byte* pubKey, word32 pubKeySz, int pubKeyOID); #ifdef OPENSSL_EXTRA WOLFSSL_API int wc_CheckCertSigPubKey(const byte* cert, word32 certSz, void* heap, const byte* pubKey, word32 pubKeySz, int pubKeyOID); #endif #ifdef WOLFSSL_CERT_REQ WOLFSSL_LOCAL int CheckCSRSignaturePubKey(const byte* cert, word32 certSz, void* heap, const byte* pubKey, word32 pubKeySz, int pubKeyOID); #endif /* WOLFSSL_CERT_REQ */ WOLFSSL_ASN_API int AddSignature(byte* buf, int bodySz, const byte* sig, int sigSz, int sigAlgoType); WOLFSSL_LOCAL int ParseCertRelative(DecodedCert* cert, int type, int verify, void* cm); WOLFSSL_LOCAL int DecodeToKey(DecodedCert* cert, int verify); #ifdef WOLFSSL_ASN_TEMPLATE WOLFSSL_LOCAL int DecodeCert(DecodedCert* cert, int verify, int* criticalExt); #endif WOLFSSL_LOCAL int wc_GetPubX509(DecodedCert* cert, int verify, int* badDate); WOLFSSL_LOCAL const byte* OidFromId(word32 id, word32 type, word32* oidSz); WOLFSSL_LOCAL Signer* MakeSigner(void* heap); WOLFSSL_LOCAL void FreeSigner(Signer* signer, void* heap); WOLFSSL_LOCAL void FreeSignerTable(Signer** table, int rows, void* heap); #ifdef WOLFSSL_TRUST_PEER_CERT WOLFSSL_LOCAL void FreeTrustedPeer(TrustedPeerCert* tp, void* heap); WOLFSSL_LOCAL void FreeTrustedPeerTable(TrustedPeerCert** table, int rows, void* heap); #endif /* WOLFSSL_TRUST_PEER_CERT */ WOLFSSL_ASN_API int ToTraditional(byte* buffer, word32 length); WOLFSSL_ASN_API int ToTraditional_ex(byte* buffer, word32 length, word32* algId); WOLFSSL_LOCAL int ToTraditionalInline(const byte* input, word32* inOutIdx, word32 length); WOLFSSL_LOCAL int ToTraditionalInline_ex(const byte* input, word32* inOutIdx, word32 length, word32* algId); WOLFSSL_LOCAL int ToTraditionalEnc(byte* input, word32 sz, const char* password, int passwordSz, word32* algId); 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_ASN_API int TraditionalEnc(byte* key, word32 keySz, byte* out, word32* outSz, const char* password, int passwordSz, int vPKCS, int vAlgo, int encAlgId, 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(OPENSSL_ALL) || 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 #if !defined(NO_ASN_TIME) && !defined(USER_TIME) && \ !defined(TIME_OVERRIDES) && (defined(OPENSSL_EXTRA) || defined(HAVE_PKCS7)) WOLFSSL_LOCAL int GetFormattedTime(void* currTime, byte* buf, word32 len); WOLFSSL_LOCAL int GetAsnTimeString(void* currTime, byte* buf, word32 len); #endif WOLFSSL_LOCAL int ExtractDate(const unsigned char* date, unsigned char format, wolfssl_tm* certTime, int* idx); WOLFSSL_LOCAL int DateGreaterThan(const struct tm* a, const struct tm* b); WOLFSSL_LOCAL int wc_ValidateDate(const byte* date, byte format, int dateType); WOLFSSL_LOCAL int wc_OBJ_sn2nid(const char *sn); /* ASN.1 helper functions */ #ifdef WOLFSSL_CERT_GEN WOLFSSL_LOCAL int SetNameEx(byte* output, word32 outputSz, CertName* name, void* heap); WOLFSSL_ASN_API int SetName(byte* output, word32 outputSz, CertName* name); WOLFSSL_LOCAL const char* GetOneCertName(CertName* name, int idx); WOLFSSL_LOCAL byte GetCertNameId(int idx); #endif WOLFSSL_LOCAL int GetShortInt(const byte* input, word32* inOutIdx, int* number, word32 maxIdx); WOLFSSL_LOCAL int SetShortInt(byte* input, word32* inOutIdx, word32 number, word32 maxIdx); WOLFSSL_LOCAL const char* GetSigName(int oid); WOLFSSL_LOCAL int GetLength(const byte* input, word32* inOutIdx, int* len, word32 maxIdx); WOLFSSL_LOCAL int GetLength_ex(const byte* input, word32* inOutIdx, int* len, word32 maxIdx, int check); WOLFSSL_LOCAL int GetSequence(const byte* input, word32* inOutIdx, int* len, word32 maxIdx); WOLFSSL_LOCAL int GetSequence_ex(const byte* input, word32* inOutIdx, int* len, word32 maxIdx, int check); WOLFSSL_LOCAL int GetOctetString(const byte* input, word32* inOutIdx, int* len, word32 maxIdx); WOLFSSL_LOCAL int CheckBitString(const byte* input, word32* inOutIdx, int* len, word32 maxIdx, int zeroBits, byte* unusedBits); WOLFSSL_LOCAL int GetSet(const byte* input, word32* inOutIdx, int* len, word32 maxIdx); WOLFSSL_LOCAL int GetSet_ex(const byte* input, word32* inOutIdx, int* len, word32 maxIdx, int check); 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 GetASNObjectId(const byte* input, word32* inOutIdx, int* len, word32 maxIdx); WOLFSSL_LOCAL int SetObjectId(int len, byte* output); 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 int GetASNTag(const byte* input, word32* idx, byte* tag, word32 inputSz); WOLFSSL_LOCAL word32 SetASNLength(word32 length, byte* output); WOLFSSL_LOCAL word32 SetASNSequence(word32 len, byte* output); WOLFSSL_LOCAL word32 SetASNOctetString(word32 len, byte* output); WOLFSSL_LOCAL word32 SetASNImplicit(byte tag,byte number, word32 len, byte* output); WOLFSSL_LOCAL word32 SetASNExplicit(byte number, word32 len, byte* output); WOLFSSL_LOCAL word32 SetASNSet(word32 len, byte* output); 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 int SetASNInt(int len, byte firstByte, byte* output); WOLFSSL_LOCAL word32 SetBitString(word32 len, byte unusedBits, 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, word32 outputSz, int maxSnSz); #ifndef WOLFSSL_ASN_TEMPLATE WOLFSSL_LOCAL int wc_GetSerialNumber(const byte* input, word32* inOutIdx, byte* serial, int* serialSz, word32 maxIdx); #endif WOLFSSL_LOCAL int GetNameHash(const byte* source, word32* idx, byte* hash, int maxIdx); WOLFSSL_LOCAL int wc_CheckPrivateKeyCert(const byte* key, word32 keySz, DecodedCert* der); WOLFSSL_LOCAL int wc_CheckPrivateKey(const byte* privKey, word32 privKeySz, const byte* pubKey, word32 pubKeySz, enum Key_Sum ks); WOLFSSL_LOCAL int StoreDHparams(byte* out, word32* outLen, mp_int* p, mp_int* g); #ifdef WOLFSSL_DH_EXTRA WOLFSSL_API int wc_DhPublicKeyDecode(const byte* input, word32* inOutIdx, DhKey* key, word32 inSz); #endif WOLFSSL_LOCAL int FlattenAltNames(byte* output, word32 outputSz, const DNS_entry* names); WOLFSSL_LOCAL int wc_EncodeName(EncodedName* name, const char* nameStr, char nameType, byte type); WOLFSSL_LOCAL int wc_EncodeNameCanonical(EncodedName* name, const char* nameStr, char nameType, byte type); #if defined(HAVE_ECC) || !defined(NO_DSA) /* ASN sig helpers */ WOLFSSL_LOCAL int StoreECC_DSA_Sig(byte* out, word32* outLen, mp_int* r, mp_int* s); WOLFSSL_LOCAL int StoreECC_DSA_Sig_Bin(byte* out, word32* outLen, const byte* r, word32 rLen, const byte* s, word32 sLen); WOLFSSL_LOCAL int DecodeECC_DSA_Sig_Bin(const byte* sig, word32 sigLen, byte* r, word32* rLen, byte* s, word32* sLen); WOLFSSL_LOCAL int DecodeECC_DSA_Sig(const byte* sig, word32 sigLen, mp_int* r, mp_int* s); #endif #ifndef NO_DSA WOLFSSL_LOCAL int StoreDSAParams(byte*, word32*, const mp_int*, const mp_int*, const mp_int*); #endif #if defined HAVE_ECC && (defined(OPENSSL_EXTRA) || defined(OPENSSL_EXTRA_X509_SMALL)) WOLFSSL_API int EccEnumToNID(int n); #endif WOLFSSL_LOCAL void InitSignatureCtx(SignatureCtx* sigCtx, void* heap, int devId); WOLFSSL_LOCAL void FreeSignatureCtx(SignatureCtx* sigCtx); WOLFSSL_LOCAL int SetAsymKeyDerPublic(const byte* pubKey, word32 pubKeyLen, byte* output, word32 outLen, int keyType, int withHeader); WOLFSSL_LOCAL int DecodeAsymKeyPublic(const byte* input, word32* inOutIdx, word32 inSz, byte* pubKey, word32* pubKeyLen, int keyType); #ifndef NO_CERTS WOLFSSL_LOCAL int wc_EncryptedInfoParse(EncryptedInfo* info, const char** pBuffer, size_t bufSz); WOLFSSL_LOCAL int PemToDer(const unsigned char* buff, long sz, int type, DerBuffer** pDer, void* heap, EncryptedInfo* info, int* eccKey); WOLFSSL_LOCAL int AllocDer(DerBuffer** der, word32 length, int type, void* heap); WOLFSSL_LOCAL void FreeDer(DerBuffer** der); #endif /* !NO_CERTS */ #ifdef HAVE_SMIME WOLFSSL_LOCAL int wc_MIME_parse_headers(char* in, int inLen, MimeHdr** hdrs); WOLFSSL_LOCAL int wc_MIME_header_strip(char* in, char** out, size_t start, size_t end); WOLFSSL_LOCAL MimeHdr* wc_MIME_find_header_name(const char* name, MimeHdr* hdr); WOLFSSL_LOCAL MimeParam* wc_MIME_find_param_attr(const char* attribute, MimeParam* param); WOLFSSL_LOCAL char* wc_MIME_single_canonicalize(const char* line, word32* len); WOLFSSL_LOCAL int wc_MIME_free_hdrs(MimeHdr* head); #endif /* HAVE_SMIME */ #ifdef WOLFSSL_CERT_GEN enum cert_enums { RSA_KEY = 10, ECC_KEY = 12, ED25519_KEY = 13, ED448_KEY = 14, DSA_KEY = 15, FALCON_LEVEL1_KEY = 16, FALCON_LEVEL5_KEY = 17, DILITHIUM_LEVEL2_KEY = 18, DILITHIUM_LEVEL3_KEY = 19, DILITHIUM_LEVEL5_KEY = 20, DILITHIUM_AES_LEVEL2_KEY = 21, DILITHIUM_AES_LEVEL3_KEY = 22, DILITHIUM_AES_LEVEL5_KEY = 23, SPHINCS_FAST_LEVEL1_KEY = 24, SPHINCS_FAST_LEVEL3_KEY = 25, SPHINCS_FAST_LEVEL5_KEY = 26, SPHINCS_SMALL_LEVEL1_KEY = 27, SPHINCS_SMALL_LEVEL3_KEY = 28, SPHINCS_SMALL_LEVEL5_KEY = 29, }; #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_UNAUTHORIZED = 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 }; #ifdef OPENSSL_EXTRA enum Ocsp_Verify_Error { OCSP_VERIFY_ERROR_NONE = 0, OCSP_BAD_ISSUER = 1 }; #endif typedef struct OcspRequest OcspRequest; typedef struct OcspResponse OcspResponse; struct CertStatus { CertStatus* next; byte serial[EXTERNAL_SERIAL_SIZE]; int serialSz; #ifdef OPENSSL_EXTRA WOLFSSL_ASN1_INTEGER* serialInt; #endif int status; byte thisDate[MAX_DATE_SIZE]; byte nextDate[MAX_DATE_SIZE]; byte thisDateFormat; byte nextDateFormat; #if defined(OPENSSL_ALL) || defined(WOLFSSL_NGINX) || \ defined(WOLFSSL_HAPROXY) || defined(HAVE_LIGHTY) WOLFSSL_ASN1_TIME thisDateParsed; WOLFSSL_ASN1_TIME nextDateParsed; byte* thisDateAsn; byte* nextDateAsn; #endif byte* rawOcspResponse; word32 rawOcspResponseSz; }; typedef struct OcspEntry OcspEntry; #ifdef NO_SHA #define OCSP_DIGEST_SIZE WC_SHA256_DIGEST_SIZE #else #define OCSP_DIGEST_SIZE WC_SHA_DIGEST_SIZE #endif struct OcspEntry { OcspEntry *next; /* next entry */ word32 hashAlgoOID; /* hash algo ID */ byte issuerHash[OCSP_DIGEST_SIZE]; /* issuer hash */ byte issuerKeyHash[OCSP_DIGEST_SIZE]; /* issuer public key hash */ CertStatus *status; /* OCSP response list */ int totalStatus; /* number on list */ byte* rawCertId; /* raw bytes of the CertID */ int rawCertIdSize; /* num bytes in raw CertID */ /* option bits - using 32-bit for alignment */ word32 ownStatus:1; /* do we need to free the status * response list */ word32 isDynamic:1; /* was dynamically allocated */ word32 used:1; /* entry used */ }; /* TODO: Long-term, it would be helpful if we made this struct and other OCSP structs conform to the ASN spec as described in RFC 6960. It will help with readability and with implementing OpenSSL compatibility API functions, because OpenSSL's OCSP data structures conform to the RFC. */ 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* 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 */ OcspEntry* single; /* chain of OCSP single responses */ 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 */ #ifdef OPENSSL_EXTRA int verifyError; #endif void* heap; }; struct OcspRequest { byte issuerHash[KEYID_SIZE]; byte issuerKeyHash[KEYID_SIZE]; byte* serial; /* copy of the serial number in source cert */ int serialSz; #ifdef OPENSSL_EXTRA WOLFSSL_ASN1_INTEGER* serialInt; #endif 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* resp, OcspEntry* single, CertStatus* status, byte* source, word32 inSz, void* heap); WOLFSSL_LOCAL void FreeOcspResponse(OcspResponse* resp); WOLFSSL_LOCAL int OcspResponseDecode(OcspResponse* resp, void* cm, void* heap, int noVerify); WOLFSSL_LOCAL int InitOcspRequest(OcspRequest* req, DecodedCert* cert, byte useNonce, void* heap); WOLFSSL_LOCAL void FreeOcspRequest(OcspRequest* req); WOLFSSL_LOCAL int EncodeOcspRequest(OcspRequest* req, byte* output, word32 size); WOLFSSL_LOCAL word32 EncodeOcspRequestExtensions(OcspRequest* req, byte* output, word32 size); WOLFSSL_LOCAL int CompareOcspReqResp(OcspRequest* req, OcspResponse* resp); #endif /* HAVE_OCSP */ /* for pointer use */ typedef struct RevokedCert RevokedCert; #ifdef HAVE_CRL struct RevokedCert { byte serialNumber[EXTERNAL_SERIAL_SIZE]; int serialSz; RevokedCert* next; byte revDate[MAX_DATE_SIZE]; byte revDateFormat; }; 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 name 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 */ #if defined(OPENSSL_EXTRA) byte* issuer; /* full name including common name */ word32 issuerSz; /* length of the issuer */ #endif int totalCerts; /* number on list */ int version; /* version of cert */ void* heap; #ifndef NO_SKID byte extAuthKeyIdSet; byte extAuthKeyId[SIGNER_DIGEST_SIZE]; /* Authority Key ID */ #endif int crlNumber; /* CRL number extension */ }; WOLFSSL_LOCAL void InitDecodedCRL(DecodedCRL* dcrl, 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(RevokedCert* rcert, DecodedCRL* dcrl, const byte* buff, word32 sz, int verify, void* cm); WOLFSSL_LOCAL void FreeDecodedCRL(DecodedCRL* dcrl); #endif /* HAVE_CRL */ #ifdef __cplusplus } /* extern "C" */ #endif #endif /* !NO_ASN */ #if ((defined(HAVE_ED25519) && defined(HAVE_ED25519_KEY_IMPORT)) \ || (defined(HAVE_CURVE25519) && defined(HAVE_CURVE25519_KEY_IMPORT)) \ || (defined(HAVE_ED448) && defined(HAVE_ED448_KEY_IMPORT)) \ || (defined(HAVE_CURVE448) && defined(HAVE_CURVE448_KEY_IMPORT)) \ || (defined(HAVE_PQC) && defined(HAVE_FALCON)) \ || (defined(HAVE_PQC) && defined(HAVE_DILITHIUM)) \ || (defined(HAVE_PQC) && defined(HAVE_SPHINCS))) WOLFSSL_LOCAL int DecodeAsymKey(const byte* input, word32* inOutIdx, word32 inSz, byte* privKey, word32* privKeyLen, byte* pubKey, word32* pubKeyLen, int keyType); #endif #ifdef WC_ENABLE_ASYM_KEY_EXPORT WOLFSSL_LOCAL int SetAsymKeyDer(const byte* privKey, word32 privKeyLen, const byte* pubKey, word32 pubKeyLen, byte* output, word32 outLen, int keyType); #endif #if !defined(NO_ASN) || !defined(NO_PWDBASED) #ifndef PKCS_MAX_KEY_SIZE #define PKCS_MAX_KEY_SIZE 64 /* MAX PKCS Key length */ #endif #if !defined(WOLFSSL_GAME_BUILD) && !defined(MAX_KEY_SIZE) /* for backwards compatibility */ #define MAX_KEY_SIZE PKCS_MAX_KEY_SIZE #endif #ifndef MAX_UNICODE_SZ #define MAX_UNICODE_SZ 256 #endif enum PBESTypes { PBE_MD5_DES = 0, PBE_SHA1_RC4_128 = 1, PBE_SHA1_DES = 2, PBE_SHA1_DES3 = 3, PBE_AES256_CBC = 4, PBE_AES128_CBC = 5, PBE_SHA1_40RC2_CBC = 6, PBE_SHA1_RC4_128_SUM = 657, PBE_SHA1_DES3_SUM = 659, PBE_MD5_DES_SUM = 651, PBE_SHA1_DES_SUM = 658, PBES2_SUM = 661, PBES2 = 13, /* algo ID */ PBES1_MD5_DES = 3, PBES1_SHA1_DES = 10, }; enum PKCSTypes { PKCS5v2 = 6, /* PKCS #5 v2.0 */ PKCS12v1 = 12, /* PKCS #12 */ PKCS5 = 5, /* PKCS oid tag */ PKCS8v0 = 0, /* default PKCS#8 version */ PKCS8v1 = 1, /* PKCS#8 version including public key */ PKCS1v0 = 0, /* default PKCS#1 version */ PKCS1v1 = 1, /* Multi-prime version */ }; #endif /* !NO_ASN || !NO_PWDBASED */ #endif /* WOLF_CRYPT_ASN_H */