/*! \ingroup ASN \brief This function initializes a default cert, with the default options: version = 3 (0x2), serial = 0, sigType = SHA_WITH_RSA, issuer = blank, daysValid = 500, selfSigned = 1 (true) use subject as issuer, subject = blank \return none No returns. \param cert pointer to an uninitialized cert structure to initialize _Example_ \code Cert myCert; wc_InitCert(&myCert); \endcode \sa wc_MakeCert \sa wc_MakeCertReq */ int wc_InitCert(Cert*); /*! \ingroup ASN \brief This function allocates a new Cert structure for use during cert operations without the application having to allocate the structure itself. The Cert structure is also initialized by this function thus removing the need to call wc_InitCert(). When the application is finished using the allocated Cert structure wc_CertFree() must be called. \return pointer If successful the call will return a pointer to the newly allocated and initialized Cert. \return NULL On a memory allocation failure. \param A pointer to the heap used for dynamic allocation. Can be NULL. _Example_ \code Cert* myCert; myCert = wc_CertNew(NULL); if (myCert == NULL) { // Cert creation failure } \endcode \sa wc_InitCert \sa wc_MakeCert \sa wc_CertFree */ Cert* wc_CertNew(void* heap); /*! \ingroup ASN \brief This function frees the memory allocated for a cert structure by a previous call to wc_CertNew(). \return None. \param A pointer to the cert structure to free. _Example_ \code Cert* myCert; myCert = wc_CertNew(NULL); // Perform cert operations. wc_CertFree(myCert); \endcode \sa wc_InitCert \sa wc_MakeCert \sa wc_CertNew */ void wc_CertFree(Cert* cert); /*! \ingroup ASN \brief Used to make CA signed certs. Called after the subject information has been entered. This function makes an x509 Certificate v3 RSA or ECC from a cert input. It then writes this cert to derBuffer. It takes in either an rsaKey or an eccKey to generate the certificate. The certificate must be initialized with wc_InitCert before this method is called. \return Success On successfully making an x509 certificate from the specified input cert, returns the size of the cert generated. \return MEMORY_E Returned if there is an error allocating memory with XMALLOC \return BUFFER_E Returned if the provided derBuffer is too small to store the generated certificate \return Others Additional error messages may be returned if the cert generation is not successful. \param cert pointer to an initialized cert structure \param derBuffer pointer to the buffer in which to hold the generated cert \param derSz size of the buffer in which to store the cert \param rsaKey pointer to an RsaKey structure containing the rsa key used to generate the certificate \param eccKey pointer to an EccKey structure containing the ecc key used to generate the certificate \param rng pointer to the random number generator used to make the cert _Example_ \code Cert myCert; wc_InitCert(&myCert); WC_RNG rng; //initialize rng; RsaKey key; //initialize key; byte * derCert = malloc(FOURK_BUF); word32 certSz; certSz = wc_MakeCert(&myCert, derCert, FOURK_BUF, &key, NULL, &rng); \endcode \sa wc_InitCert \sa wc_MakeCertReq */ int wc_MakeCert(Cert* cert, byte* derBuffer, word32 derSz, RsaKey* rsaKey, ecc_key* eccKey, WC_RNG* rng); /*! \ingroup ASN \brief This function makes a certificate signing request using the input certificate and writes the output to derBuffer. It takes in either an rsaKey or an eccKey to generate the certificate request. wc_SignCert() will need to be called after this function to sign the certificate request. Please see the wolfCrypt test application (./wolfcrypt/test/test.c) for an example usage of this function. \return Success On successfully making an X.509 certificate request from the specified input cert, returns the size of the certificate request generated. \return MEMORY_E Returned if there is an error allocating memory with XMALLOC \return BUFFER_E Returned if the provided derBuffer is too small to store the generated certificate \return Other Additional error messages may be returned if the certificate request generation is not successful. \param cert pointer to an initialized cert structure \param derBuffer pointer to the buffer in which to hold the generated certificate request \param derSz size of the buffer in which to store the certificate request \param rsaKey pointer to an RsaKey structure containing the rsa key used to generate the certificate request \param eccKey pointer to an EccKey structure containing the ecc key used to generate the certificate request _Example_ \code Cert myCert; // initialize myCert EccKey key; //initialize key; byte* derCert = (byte*)malloc(FOURK_BUF); word32 certSz; certSz = wc_MakeCertReq(&myCert, derCert, FOURK_BUF, NULL, &key); \endcode \sa wc_InitCert \sa wc_MakeCert */ int wc_MakeCertReq(Cert* cert, byte* derBuffer, word32 derSz, RsaKey* rsaKey, ecc_key* eccKey); /*! \ingroup ASN \brief This function signs buffer and adds the signature to the end of buffer. It takes in a signature type. Must be called after wc_MakeCert() or wc_MakeCertReq() if creating a CA signed cert. \return Success On successfully signing the certificate, returns the new size of the cert (including signature). \return MEMORY_E Returned if there is an error allocating memory with XMALLOC \return BUFFER_E Returned if the provided buffer is too small to store the generated certificate \return Other Additional error messages may be returned if the cert generation is not successful. \param requestSz the size of the certificate body we’re requesting to have signed \param sType Type of signature to create. Valid options are: CTC_MD5wRSA, CTC_SHAwRSA, CTC_SHAwECDSA, CTC_SHA256wECDSA, and CTC_SHA256wRSA \param buffer pointer to the buffer containing the certificate to be signed. On success: will hold the newly signed certificate \param buffSz the (total) size of the buffer in which to store the newly signed certificate \param rsaKey pointer to an RsaKey structure containing the rsa key to used to sign the certificate \param eccKey pointer to an EccKey structure containing the ecc key to used to sign the certificate \param rng pointer to the random number generator used to sign the certificate _Example_ \code Cert myCert; byte* derCert = (byte*)malloc(FOURK_BUF); // initialize myCert, derCert RsaKey key; // initialize key; WC_RNG rng; // initialize rng word32 certSz; certSz = wc_SignCert(myCert.bodySz, myCert.sigType,derCert,FOURK_BUF, &key, NULL, &rng); \endcode \sa wc_InitCert \sa wc_MakeCert */ int wc_SignCert(int requestSz, int sigType, byte* derBuffer, word32 derSz, RsaKey* rsaKey, ecc_key* eccKey, WC_RNG* rng); /*! \ingroup ASN \brief This function is a combination of the previous two functions, wc_MakeCert and wc_SignCert for self signing (the previous functions may be used for CA requests). It makes a certificate, and then signs it, generating a self-signed certificate. \return Success On successfully signing the certificate, returns the new size of the cert. \return MEMORY_E Returned if there is an error allocating memory with XMALLOC \return BUFFER_E Returned if the provided buffer is too small to store the generated certificate \return Other Additional error messages may be returned if the cert generation is not successful. \param cert pointer to the cert to make and sign \param buffer pointer to the buffer in which to hold the signed certificate \param buffSz size of the buffer in which to store the signed certificate \param key pointer to an RsaKey structure containing the rsa key to used to sign the certificate \param rng pointer to the random number generator used to generate and sign the certificate _Example_ \code Cert myCert; byte* derCert = (byte*)malloc(FOURK_BUF); // initialize myCert, derCert RsaKey key; // initialize key; WC_RNG rng; // initialize rng word32 certSz; certSz = wc_MakeSelfCert(&myCert, derCert, FOURK_BUF, &key, NULL, &rng); \endcode \sa wc_InitCert \sa wc_MakeCert \sa wc_SignCert */ int wc_MakeSelfCert(Cert* cert, byte* derBuffer, word32 derSz, RsaKey* key, WC_RNG* rng); /*! \ingroup ASN \brief This function sets the issuer for a certificate to the issuer in the provided pem issuerFile. It also changes the certificate’s self-signed attribute to false. The issuer specified in issuerFile is verified prior to setting the cert issuer. This method is used to set fields prior to signing. \return 0 Returned on successfully setting the issuer for the certificate \return MEMORY_E Returned if there is an error allocating memory with XMALLOC \return ASN_PARSE_E Returned if there is an error parsing the cert header file \return ASN_OBJECT_ID_E Returned if there is an error parsing the encryption type from the cert \return ASN_EXPECT_0_E Returned if there is a formatting error in the encryption specification of the cert file \return ASN_BEFORE_DATE_E Returned if the date is before the certificate start date \return ASN_AFTER_DATE_E Returned if the date is after the certificate expiration date \return ASN_BITSTR_E Returned if there is an error parsing a bit string from the certificate \return ECC_CURVE_OID_E Returned if there is an error parsing the ECC key from the certificate \return ASN_UNKNOWN_OID_E Returned if the certificate is using an unknown key object id \return ASN_VERSION_E Returned if the ALLOW_V1_EXTENSIONS option is not defined and the certificate is a V1 or V2 certificate \return BAD_FUNC_ARG Returned if there is an error processing the certificate extension \return ASN_CRIT_EXT_E Returned if an unfamiliar critical extension is encountered in processing the certificate \return ASN_SIG_OID_E Returned if the signature encryption type is not the same as the encryption type of the certificate in the provided file \return ASN_SIG_CONFIRM_E Returned if confirming the certification signature fails \return ASN_NAME_INVALID_E Returned if the certificate’s name is not permitted by the CA name constraints \return ASN_NO_SIGNER_E Returned if there is no CA signer to verify the certificate’s authenticity \param cert pointer to the cert for which to set the issuer \param issuerFile path of the file containing the pem formatted certificate _Example_ \code Cert myCert; // initialize myCert if(wc_SetIssuer(&myCert, ”./path/to/ca-cert.pem”) != 0) { // error setting issuer } \endcode \sa wc_InitCert \sa wc_SetSubject \sa wc_SetIssuerBuffer */ int wc_SetIssuer(Cert* cert, const char* issuerFile); /*! \ingroup ASN \brief This function sets the subject for a certificate to the subject in the provided pem subjectFile. This method is used to set fields prior to signing. \return 0 Returned on successfully setting the issuer for the certificate \return MEMORY_E Returned if there is an error allocating memory with XMALLOC \return ASN_PARSE_E Returned if there is an error parsing the cert header file \return ASN_OBJECT_ID_E Returned if there is an error parsing the encryption type from the cert \return ASN_EXPECT_0_E Returned if there is a formatting error in the encryption specification of the cert file \return ASN_BEFORE_DATE_E Returned if the date is before the certificate start date \return ASN_AFTER_DATE_E Returned if the date is after the certificate expiration date \return ASN_BITSTR_E Returned if there is an error parsing a bit string from the certificate \return ECC_CURVE_OID_E Returned if there is an error parsing the ECC key from the certificate \return ASN_UNKNOWN_OID_E Returned if the certificate is using an unknown key object id \return ASN_VERSION_E Returned if the ALLOW_V1_EXTENSIONS option is not defined and the certificate is a V1 or V2 certificate \return BAD_FUNC_ARG Returned if there is an error processing the certificate extension \return ASN_CRIT_EXT_E Returned if an unfamiliar critical extension is encountered in processing the certificate \return ASN_SIG_OID_E Returned if the signature encryption type is not the same as the encryption type of the certificate in the provided file \return ASN_SIG_CONFIRM_E Returned if confirming the certification signature fails \return ASN_NAME_INVALID_E Returned if the certificate’s name is not permitted by the CA name constraints \return ASN_NO_SIGNER_E Returned if there is no CA signer to verify the certificate’s authenticity \param cert pointer to the cert for which to set the issuer \param subjectFile path of the file containing the pem formatted certificate _Example_ \code Cert myCert; // initialize myCert if(wc_SetSubject(&myCert, ”./path/to/ca-cert.pem”) != 0) { // error setting subject } \endcode \sa wc_InitCert \sa wc_SetIssuer */ int wc_SetSubject(Cert* cert, const char* subjectFile); /*! \ingroup ASN \brief This function sets the raw subject for a certificate from the subject in the provided der buffer. This method is used to set the raw subject field prior to signing. \return 0 Returned on successfully setting the subject for the certificate \return MEMORY_E Returned if there is an error allocating memory with XMALLOC \return ASN_PARSE_E Returned if there is an error parsing the cert header file \return ASN_OBJECT_ID_E Returned if there is an error parsing the encryption type from the cert \return ASN_EXPECT_0_E Returned if there is a formatting error in the encryption specification of the cert file \return ASN_BEFORE_DATE_E Returned if the date is before the certificate start date \return ASN_AFTER_DATE_E Returned if the date is after the certificate expiration date \return ASN_BITSTR_E Returned if there is an error parsing a bit string from the certificate \return ECC_CURVE_OID_E Returned if there is an error parsing the ECC key from the certificate \return ASN_UNKNOWN_OID_E Returned if the certificate is using an unknown key object id \return ASN_VERSION_E Returned if the ALLOW_V1_EXTENSIONS option is not defined and the certificate is a V1 or V2 certificate \return BAD_FUNC_ARG Returned if there is an error processing the certificate extension \return ASN_CRIT_EXT_E Returned if an unfamiliar critical extension is encountered in processing the certificate \return ASN_SIG_OID_E Returned if the signature encryption type is not the same as the encryption type of the certificate in the provided file \return ASN_SIG_CONFIRM_E Returned if confirming the certification signature fails \return ASN_NAME_INVALID_E Returned if the certificate’s name is not permitted by the CA name constraints \return ASN_NO_SIGNER_E Returned if there is no CA signer to verify the certificate’s authenticity \param cert pointer to the cert for which to set the raw subject \param der pointer to the buffer containing the der formatted certificate from which to grab the subject \param derSz size of the buffer containing the der formatted certificate from which to grab the subject _Example_ \code Cert myCert; // initialize myCert byte* der; der = (byte*)malloc(FOURK_BUF); // initialize der if(wc_SetSubjectRaw(&myCert, der, FOURK_BUF) != 0) { // error setting subject } \endcode \sa wc_InitCert \sa wc_SetSubject */ int wc_SetSubjectRaw(Cert* cert, const byte* der, int derSz); /*! \ingroup ASN \brief This function gets the raw subject from the certificate structure. \return 0 Returned on successfully getting the subject from the certificate \return BAD_FUNC_ARG Returned if there is an error processing the certificate extension \param subjectRaw pointer-pointer to the raw subject upon successful return \param cert pointer to the cert from which to get the raw subject _Example_ \code Cert myCert; byte *subjRaw; // initialize myCert if(wc_GetSubjectRaw(&subjRaw, &myCert) != 0) { // error setting subject } \endcode \sa wc_InitCert \sa wc_SetSubjectRaw */ int wc_GetSubjectRaw(byte **subjectRaw, Cert *cert); /*! \ingroup ASN \brief This function sets the alternate names for a certificate to the alternate names in the provided pem file. This is useful in the case that one wishes to secure multiple domains with the same certificate. This method is used to set fields prior to signing. \return 0 Returned on successfully setting the alt names for the certificate \return MEMORY_E Returned if there is an error allocating memory with XMALLOC \return ASN_PARSE_E Returned if there is an error parsing the cert header file \return ASN_OBJECT_ID_E Returned if there is an error parsing the encryption type from the cert \return ASN_EXPECT_0_E Returned if there is a formatting error in the encryption specification of the cert file \return ASN_BEFORE_DATE_E Returned if the date is before the certificate start date \return ASN_AFTER_DATE_E Returned if the date is after the certificate expiration date \return ASN_BITSTR_E Returned if there is an error parsing a bit string from the certificate \return ECC_CURVE_OID_E Returned if there is an error parsing the ECC key from the certificate \return ASN_UNKNOWN_OID_E Returned if the certificate is using an unknown key object id \return ASN_VERSION_E Returned if the ALLOW_V1_EXTENSIONS option is not defined and the certificate is a V1 or V2 certificate \return BAD_FUNC_ARG Returned if there is an error processing the certificate extension \return ASN_CRIT_EXT_E Returned if an unfamiliar critical extension is encountered in processing the certificate \return ASN_SIG_OID_E Returned if the signature encryption type is not the same as the encryption type of the certificate in the provided file \return ASN_SIG_CONFIRM_E Returned if confirming the certification signature fails \return ASN_NAME_INVALID_E Returned if the certificate’s name is not permitted by the CA name constraints \return ASN_NO_SIGNER_E Returned if there is no CA signer to verify the certificate’s authenticity \param cert pointer to the cert for which to set the alt names \param file path of the file containing the pem formatted certificate _Example_ \code Cert myCert; // initialize myCert if(wc_SetSubject(&myCert, ”./path/to/ca-cert.pem”) != 0) { // error setting alt names } \endcode \sa wc_InitCert \sa wc_SetIssuer */ int wc_SetAltNames(Cert* cert, const char* file); /*! \ingroup ASN \brief This function sets the issuer for a certificate from the issuer in the provided der buffer. It also changes the certificate’s self-signed attribute to false. This method is used to set fields prior to signing. \return 0 Returned on successfully setting the issuer for the certificate \return MEMORY_E Returned if there is an error allocating memory with XMALLOC \return ASN_PARSE_E Returned if there is an error parsing the cert header file \return ASN_OBJECT_ID_E Returned if there is an error parsing the encryption type from the cert \return ASN_EXPECT_0_E Returned if there is a formatting error in the encryption specification of the cert file \return ASN_BEFORE_DATE_E Returned if the date is before the certificate start date \return ASN_AFTER_DATE_E Returned if the date is after the certificate expiration date \return ASN_BITSTR_E Returned if there is an error parsing a bit string from the certificate \return ECC_CURVE_OID_E Returned if there is an error parsing the ECC key from the certificate \return ASN_UNKNOWN_OID_E Returned if the certificate is using an unknown key object id \return ASN_VERSION_E Returned if the ALLOW_V1_EXTENSIONS option is not defined and the certificate is a V1 or V2 certificate \return BAD_FUNC_ARG Returned if there is an error processing the certificate extension \return ASN_CRIT_EXT_E Returned if an unfamiliar critical extension is encountered in processing the certificate \return ASN_SIG_OID_E Returned if the signature encryption type is not the same as the encryption type of the certificate in the provided file \return ASN_SIG_CONFIRM_E Returned if confirming the certification signature fails \return ASN_NAME_INVALID_E Returned if the certificate’s name is not permitted by the CA name constraints \return ASN_NO_SIGNER_E Returned if there is no CA signer to verify the certificate’s authenticity \param cert pointer to the cert for which to set the issuer \param der pointer to the buffer containing the der formatted certificate from which to grab the issuer \param derSz size of the buffer containing the der formatted certificate from which to grab the issuer _Example_ \code Cert myCert; // initialize myCert byte* der; der = (byte*)malloc(FOURK_BUF); // initialize der if(wc_SetIssuerBuffer(&myCert, der, FOURK_BUF) != 0) { // error setting issuer } \endcode \sa wc_InitCert \sa wc_SetIssuer */ int wc_SetIssuerBuffer(Cert* cert, const byte* der, int derSz); /*! \ingroup ASN \brief This function sets the raw issuer for a certificate from the issuer in the provided der buffer. This method is used to set the raw issuer field prior to signing. \return 0 Returned on successfully setting the issuer for the certificate \return MEMORY_E Returned if there is an error allocating memory with XMALLOC \return ASN_PARSE_E Returned if there is an error parsing the cert header file \return ASN_OBJECT_ID_E Returned if there is an error parsing the encryption type from the cert \return ASN_EXPECT_0_E Returned if there is a formatting error in the encryption specification of the cert file \return ASN_BEFORE_DATE_E Returned if the date is before the certificate start date \return ASN_AFTER_DATE_E Returned if the date is after the certificate expiration date \return ASN_BITSTR_E Returned if there is an error parsing a bit string from the certificate \return ECC_CURVE_OID_E Returned if there is an error parsing the ECC key from the certificate \return ASN_UNKNOWN_OID_E Returned if the certificate is using an unknown key object id \return ASN_VERSION_E Returned if the ALLOW_V1_EXTENSIONS option is not defined and the certificate is a V1 or V2 certificate \return BAD_FUNC_ARG Returned if there is an error processing the certificate extension \return ASN_CRIT_EXT_E Returned if an unfamiliar critical extension is encountered in processing the certificate \return ASN_SIG_OID_E Returned if the signature encryption type is not the same as the encryption type of the certificate in the provided file \return ASN_SIG_CONFIRM_E Returned if confirming the certification signature fails \return ASN_NAME_INVALID_E Returned if the certificate’s name is not permitted by the CA name constraints \return ASN_NO_SIGNER_E Returned if there is no CA signer to verify the certificate’s authenticity \param cert pointer to the cert for which to set the raw issuer \param der pointer to the buffer containing the der formatted certificate from which to grab the subject \param derSz size of the buffer containing the der formatted certificate from which to grab the subject _Example_ \code Cert myCert; // initialize myCert byte* der; der = (byte*)malloc(FOURK_BUF); // initialize der if(wc_SetIssuerRaw(&myCert, der, FOURK_BUF) != 0) { // error setting subject } \endcode \sa wc_InitCert \sa wc_SetIssuer */ int wc_SetIssuerRaw(Cert* cert, const byte* der, int derSz); /*! \ingroup ASN \brief This function sets the subject for a certificate from the subject in the provided der buffer. This method is used to set fields prior to signing. \return 0 Returned on successfully setting the subject for the certificate \return MEMORY_E Returned if there is an error allocating memory with XMALLOC \return ASN_PARSE_E Returned if there is an error parsing the cert header file \return ASN_OBJECT_ID_E Returned if there is an error parsing the encryption type from the cert \return ASN_EXPECT_0_E Returned if there is a formatting error in the encryption specification of the cert file \return ASN_BEFORE_DATE_E Returned if the date is before the certificate start date \return ASN_AFTER_DATE_E Returned if the date is after the certificate expiration date \return ASN_BITSTR_E Returned if there is an error parsing a bit string from the certificate \return ECC_CURVE_OID_E Returned if there is an error parsing the ECC key from the certificate \return ASN_UNKNOWN_OID_E Returned if the certificate is using an unknown key object id \return ASN_VERSION_E Returned if the ALLOW_V1_EXTENSIONS option is not defined and the certificate is a V1 or V2 certificate \return BAD_FUNC_ARG Returned if there is an error processing the certificate extension \return ASN_CRIT_EXT_E Returned if an unfamiliar critical extension is encountered in processing the certificate \return ASN_SIG_OID_E Returned if the signature encryption type is not the same as the encryption type of the certificate in the provided file \return ASN_SIG_CONFIRM_E Returned if confirming the certification signature fails \return ASN_NAME_INVALID_E Returned if the certificate’s name is not permitted by the CA name constraints \return ASN_NO_SIGNER_E Returned if there is no CA signer to verify the certificate’s authenticity \param cert pointer to the cert for which to set the subject \param der pointer to the buffer containing the der formatted certificate from which to grab the subject \param derSz size of the buffer containing the der formatted certificate from which to grab the subject _Example_ \code Cert myCert; // initialize myCert byte* der; der = (byte*)malloc(FOURK_BUF); // initialize der if(wc_SetSubjectBuffer(&myCert, der, FOURK_BUF) != 0) { // error setting subject } \endcode \sa wc_InitCert \sa wc_SetSubject */ int wc_SetSubjectBuffer(Cert* cert, const byte* der, int derSz); /*! \ingroup ASN \brief This function sets the alternate names for a certificate from the alternate names in the provided der buffer. This is useful in the case that one wishes to secure multiple domains with the same certificate. This method is used to set fields prior to signing. \return 0 Returned on successfully setting the alternate names for the certificate \return MEMORY_E Returned if there is an error allocating memory with XMALLOC \return ASN_PARSE_E Returned if there is an error parsing the cert header file \return ASN_OBJECT_ID_E Returned if there is an error parsing the encryption type from the cert \return ASN_EXPECT_0_E Returned if there is a formatting error in the encryption specification of the cert file \return ASN_BEFORE_DATE_E Returned if the date is before the certificate start date \return ASN_AFTER_DATE_E Returned if the date is after the certificate expiration date \return ASN_BITSTR_E Returned if there is an error parsing a bit string from the certificate \return ECC_CURVE_OID_E Returned if there is an error parsing the ECC key from the certificate \return ASN_UNKNOWN_OID_E Returned if the certificate is using an unknown key object id \return ASN_VERSION_E Returned if the ALLOW_V1_EXTENSIONS option is not defined and the certificate is a V1 or V2 certificate \return BAD_FUNC_ARG Returned if there is an error processing the certificate extension \return ASN_CRIT_EXT_E Returned if an unfamiliar critical extension is encountered in processing the certificate \return ASN_SIG_OID_E Returned if the signature encryption type is not the same as the encryption type of the certificate in the provided file \return ASN_SIG_CONFIRM_E Returned if confirming the certification signature fails \return ASN_NAME_INVALID_E Returned if the certificate’s name is not permitted by the CA name constraints \return ASN_NO_SIGNER_E Returned if there is no CA signer to verify the certificate’s authenticity \param cert pointer to the cert for which to set the alternate names \param der pointer to the buffer containing the der formatted certificate from which to grab the alternate names \param derSz size of the buffer containing the der formatted certificate from which to grab the alternate names _Example_ \code Cert myCert; // initialize myCert byte* der; der = (byte*)malloc(FOURK_BUF); // initialize der if(wc_SetAltNamesBuffer(&myCert, der, FOURK_BUF) != 0) { // error setting subject } \endcode \sa wc_InitCert \sa wc_SetAltNames */ int wc_SetAltNamesBuffer(Cert* cert, const byte* der, int derSz); /*! \ingroup ASN \brief This function sets the dates for a certificate from the date range in the provided der buffer. This method is used to set fields prior to signing. \return 0 Returned on successfully setting the dates for the certificate \return MEMORY_E Returned if there is an error allocating memory with XMALLOC \return ASN_PARSE_E Returned if there is an error parsing the cert header file \return ASN_OBJECT_ID_E Returned if there is an error parsing the encryption type from the cert \return ASN_EXPECT_0_E Returned if there is a formatting error in the encryption specification of the cert file \return ASN_BEFORE_DATE_E Returned if the date is before the certificate start date \return ASN_AFTER_DATE_E Returned if the date is after the certificate expiration date \return ASN_BITSTR_E Returned if there is an error parsing a bit string from the certificate \return ECC_CURVE_OID_E Returned if there is an error parsing the ECC key from the certificate \return ASN_UNKNOWN_OID_E Returned if the certificate is using an unknown key object id \return ASN_VERSION_E Returned if the ALLOW_V1_EXTENSIONS option is not defined and the certificate is a V1 or V2 certificate \return BAD_FUNC_ARG Returned if there is an error processing the certificate extension \return ASN_CRIT_EXT_E Returned if an unfamiliar critical extension is encountered in processing the certificate \return ASN_SIG_OID_E Returned if the signature encryption type is not the same as the encryption type of the certificate in the provided file \return ASN_SIG_CONFIRM_E Returned if confirming the certification signature fails \return ASN_NAME_INVALID_E Returned if the certificate’s name is not permitted by the CA name constraints \return ASN_NO_SIGNER_E Returned if there is no CA signer to verify the certificate’s authenticity \param cert pointer to the cert for which to set the dates \param der pointer to the buffer containing the der formatted certificate from which to grab the date range \param derSz size of the buffer containing the der formatted certificate from which to grab the date range _Example_ \code Cert myCert; // initialize myCert byte* der; der = (byte*)malloc(FOURK_BUF); // initialize der if(wc_SetDatesBuffer(&myCert, der, FOURK_BUF) != 0) { // error setting subject } \endcode \sa wc_InitCert */ int wc_SetDatesBuffer(Cert* cert, const byte* der, int derSz); /*! \ingroup ASN \brief Set AKID from either an RSA or ECC public key. note: Only set one of rsakey or eckey, not both. \return 0 Success \return BAD_FUNC_ARG Either cert is null or both rsakey and eckey are null. \return MEMORY_E Error allocating memory. \return PUBLIC_KEY_E Error writing to the key. \param cert Pointer to the certificate to set the SKID. \param rsakey Pointer to the RsaKey struct to read from. \param eckey Pointer to the ecc_key to read from. _Example_ \code Cert myCert; RsaKey keypub; wc_InitRsaKey(&keypub, 0); if (wc_SetAuthKeyIdFromPublicKey(&myCert, &keypub, NULL) != 0) { // Handle error } \endcode \sa wc_SetSubjectKeyId \sa wc_SetAuthKeyId \sa wc_SetAuthKeyIdFromCert */ int wc_SetAuthKeyIdFromPublicKey(Cert *cert, RsaKey *rsakey, ecc_key *eckey); /*! \ingroup ASN \brief Set AKID from from DER encoded certificate. \return 0 Success \return BAD_FUNC_ARG Error if any argument is null or derSz is less than 0. \return MEMORY_E Error if problem allocating memory. \return ASN_NO_SKID No subject key ID found. \param cert The Cert struct to write to. \param der The DER encoded certificate buffer. \param derSz Size of der in bytes. _Example_ \code Cert some_cert; byte some_der[] = { // Initialize a DER buffer }; wc_InitCert(&some_cert); if(wc_SetAuthKeyIdFromCert(&some_cert, some_der, sizeof(some_der) != 0) { // Handle error } \endcode \sa wc_SetAuthKeyIdFromPublicKey \sa wc_SetAuthKeyId */ int wc_SetAuthKeyIdFromCert(Cert *cert, const byte *der, int derSz); /*! \ingroup ASN \brief Set AKID from certificate file in PEM format. \return 0 Success \return BAD_FUNC_ARG Error if cert or file is null. \return MEMORY_E Error if problem allocating memory. \param cert Cert struct you want to set the AKID of. \param file Buffer containing PEM cert file. _Example_ \code char* file_name = "/path/to/file"; cert some_cert; wc_InitCert(&some_cert); if(wc_SetAuthKeyId(&some_cert, file_name) != 0) { // Handle Error } \endcode \sa wc_SetAuthKeyIdFromPublicKey \sa wc_SetAuthKeyIdFromCert */ int wc_SetAuthKeyId(Cert *cert, const char* file); /*! \ingroup ASN \brief Set SKID from RSA or ECC public key. \return 0 Success \return BAD_FUNC_ARG Returned if cert or rsakey and eckey are null. \return MEMORY_E Returned if there is an error allocating memory. \return PUBLIC_KEY_E Returned if there is an error getting the public key. \param cert Pointer to a Cert structure to be used. \param rsakey Pointer to an RsaKey structure \param eckey Pointer to an ecc_key structure _Example_ \code Cert some_cert; RsaKey some_key; wc_InitCert(&some_cert); wc_InitRsaKey(&some_key); if(wc_SetSubjectKeyIdFromPublicKey(&some_cert,&some_key, NULL) != 0) { // Handle Error } \endcode \sa wc_SetSubjectKeyId */ int wc_SetSubjectKeyIdFromPublicKey(Cert *cert, RsaKey *rsakey, ecc_key *eckey); /*! \ingroup ASN \brief Set SKID from public key file in PEM format. Both arguments are required. \return 0 Success \return BAD_FUNC_ARG Returns if cert or file is null. \return MEMORY_E Returns if there is a problem allocating memory for key. \return PUBLIC_KEY_E Returns if there is an error decoding the public key. \param cert Cert structure to set the SKID of. \param file Contains the PEM encoded file. _Example_ \code const char* file_name = "path/to/file"; Cert some_cert; wc_InitCert(&some_cert); if(wc_SetSubjectKeyId(&some_cert, file_name) != 0) { // Handle Error } \endcode \sa wc_SetSubjectKeyIdFromPublicKey */ int wc_SetSubjectKeyId(Cert *cert, const char* file); /*! \ingroup RSA \brief This function allows you to set the key usage using a comma delimited string of tokens. Accepted tokens are: digitalSignature, nonRepudiation, contentCommitment, keyCertSign, cRLSign, dataEncipherment, keyAgreement, keyEncipherment, encipherOnly, decipherOnly. Example: "digitalSignature,nonRepudiation" nonRepudiation and contentCommitment are for the same usage. \return 0 Success \return BAD_FUNC_ARG Returned when either arg is null. \return MEMORY_E Returned when there is an error allocating memory. \return KEYUSAGE_E Returned if an unrecognized token is entered. \param cert Pointer to initialized Cert structure. \param value Comma delimited string of tokens to set usage. _Example_ \code Cert cert; wc_InitCert(&cert); if(wc_SetKeyUsage(&cert, "cRLSign,keyCertSign") != 0) { // Handle error } \endcode \sa wc_InitCert \sa wc_MakeRsaKey */ int wc_SetKeyUsage(Cert *cert, const char *value); /*! \ingroup ASN \brief Loads a PEM key from a file and converts to a DER encoded buffer. \return 0 Success \return <0 Error \return SSL_BAD_FILE There is a problem with opening the file. \return MEMORY_E There is an error allocating memory for the file buffer. \return BUFFER_E derBuf is not large enough to hold the converted key. \param fileName Name of the file to load. \param derBuf Buffer for DER encoded key. \param derSz Size of DER buffer. _Example_ \code char* some_file = "filename"; unsigned char der[]; if(wc_PemPubKeyToDer(some_file, der, sizeof(der)) != 0) { //Handle Error } \endcode \sa wc_PubKeyPemToDer */ int wc_PemPubKeyToDer(const char* fileName, unsigned char* derBuf, int derSz); /*! \ingroup ASN \brief Convert a PEM encoded public key to DER. Returns the number of bytes written to the buffer or a negative value for an error. \return >0 Success, number of bytes written. \return BAD_FUNC_ARG Returns if pem, buff, or buffSz are null \return <0 An error occurred in the function. \param pem PEM encoded key \param pemSz Size of pem \param buff Pointer to buffer for output. \param buffSz Size of buffer. _Example_ \code byte some_pem[] = { Initialize with PEM key } unsigned char out_buffer[1024]; // Ensure buffer is large enough to fit DER if(wc_PubKeyPemToDer(some_pem, sizeof(some_pem), out_buffer, sizeof(out_buffer)) < 0) { // Handle error } \endcode \sa wc_PemPubKeyToDer */ int wc_PubKeyPemToDer(const unsigned char* pem, int pemSz, unsigned char* buff, int buffSz); /*! \ingroup ASN \brief This function converts a pem certificate to a der certificate, and places the resulting certificate in the derBuf buffer provided. \return Success On success returns the size of the derBuf generated \return BUFFER_E Returned if the size of derBuf is too small to hold the certificate generated \return MEMORY_E Returned if the call to XMALLOC fails \param fileName path to the file containing a pem certificate to convert to a der certificate \param derBuf pointer to a char buffer in which to store the converted certificate \param derSz size of the char buffer in which to store the converted certificate _Example_ \code char * file = “./certs/client-cert.pem”; int derSz; byte* der = (byte*)XMALLOC((8*1024), NULL, DYNAMIC_TYPE_CERT); derSz = wc_PemCertToDer(file, der, (8*1024)); if (derSz <= 0) { //PemCertToDer error } \endcode \sa none */ int wc_PemCertToDer(const char* fileName, unsigned char* derBuf, int derSz); /*! \ingroup ASN \brief This function converts a der formatted input certificate, contained in the der buffer, into a pem formatted output certificate, contained in the output buffer. It should be noted that this is not an in place conversion, and a separate buffer must be utilized to store the pem formatted output. \return Success On successfully making a pem certificate from the input der cert, returns the size of the pem cert generated. \return BAD_FUNC_ARG Returned if there is an error parsing the der file and storing it as a pem file \return MEMORY_E Returned if there is an error allocating memory with XMALLOC \return ASN_INPUT_E Returned in the case of a base64 encoding error \return BUFFER_E May be returned if the output buffer is too small to store the pem formatted certificate \param der pointer to the buffer of the certificate to convert \param derSz size of the the certificate to convert \param output pointer to the buffer in which to store the pem formatted certificate \param outSz size of the buffer in which to store the pem formatted certificate \param type the type of certificate to generate. Valid types are: CERT_TYPE, PRIVATEKEY_TYPE, ECC_PRIVATEKEY_TYPE, and CERTREQ_TYPE. _Example_ \code byte* der; // initialize der with certificate byte* pemFormatted[FOURK_BUF]; word32 pemSz; pemSz = wc_DerToPem(der, derSz,pemFormatted,FOURK_BUF, CERT_TYPE); \endcode \sa wc_PemCertToDer */ int wc_DerToPem(const byte* der, word32 derSz, byte* output, word32 outputSz, int type); /*! \ingroup ASN \brief This function converts a der formatted input certificate, contained in the der buffer, into a pem formatted output certificate, contained in the output buffer. It should be noted that this is not an in place conversion, and a separate buffer must be utilized to store the pem formatted output. Allows setting cipher info. \return Success On successfully making a pem certificate from the input der cert, returns the size of the pem cert generated. \return BAD_FUNC_ARG Returned if there is an error parsing the der file and storing it as a pem file \return MEMORY_E Returned if there is an error allocating memory with XMALLOC \return ASN_INPUT_E Returned in the case of a base64 encoding error \return BUFFER_E May be returned if the output buffer is too small to store the pem formatted certificate \param der pointer to the buffer of the certificate to convert \param derSz size of the the certificate to convert \param output pointer to the buffer in which to store the pem formatted certificate \param outSz size of the buffer in which to store the pem formatted certificate \param cipher_inf Additional cipher information. \param type the type of certificate to generate. Valid types are: CERT_TYPE, PRIVATEKEY_TYPE, ECC_PRIVATEKEY_TYPE, and CERTREQ_TYPE. _Example_ \code byte* der; // initialize der with certificate byte* pemFormatted[FOURK_BUF]; word32 pemSz; byte* cipher_info[] { Additional cipher info. } pemSz = wc_DerToPemEx(der, derSz,pemFormatted,FOURK_BUF, ,CERT_TYPE); \endcode \sa wc_PemCertToDer */ int wc_DerToPemEx(const byte* der, word32 derSz, byte* output, word32 outputSz, byte *cipherIno, int type); /*! \ingroup CertsKeys \brief Converts a key in PEM format to DER format. \return int the function returns the number of bytes written to the buffer on successful execution. \return int negative int returned indicating an error. \param pem a pointer to the PEM encoded certificate. \param pemSz the size of the PEM buffer (pem) \param buff a pointer to the copy of the buffer member of the DerBuffer struct. \param buffSz size of the buffer space allocated in the DerBuffer struct. \param pass password passed into the function. _Example_ \code byte* loadBuf; long fileSz = 0; byte* bufSz; static int LoadKeyFile(byte** keyBuf, word32* keyBufSz, const char* keyFile, int typeKey, const char* password); … bufSz = wc_KeyPemToDer(loadBuf, (int)fileSz, saveBuf, (int)fileSz, password); if(saveBufSz > 0){ // Bytes were written to the buffer. } \endcode \sa wc_PemToDer */ int wc_KeyPemToDer(const unsigned char* pem, int pemSz, unsigned char* buff, int buffSz, const char* pass); /*! \ingroup CertsKeys \brief This function converts a PEM formatted certificate to DER format. Calls OpenSSL function PemToDer. \return buffer returns the bytes written to the buffer. \param pem pointer PEM formatted certificate. \param pemSz size of the certificate. \param buff buffer to be copied to DER format. \param buffSz size of the buffer. \param type Certificate file type found in asn_public.h enum CertType. _Example_ \code const unsigned char* pem; int pemSz; unsigned char buff[BUFSIZE]; int buffSz = sizeof(buff)/sizeof(char); int type; ... if(wc_CertPemToDer(pem, pemSz, buff, buffSz, type) <= 0) { // There were bytes written to buffer } \endcode \sa wc_PemToDer */ int wc_CertPemToDer(const unsigned char* pem, int pemSz, unsigned char* buff, int buffSz, int type); /*! \ingroup CertsKeys \brief This function gets the public key in DER format from a populated DecodedCert struct. Users must call wc_InitDecodedCert() and wc_ParseCert() before calling this API. wc_InitDecodedCert() accepts a DER/ASN.1 encoded certificate. To convert a PEM cert to DER, first use wc_CertPemToDer() before calling wc_InitDecodedCert(). \return 0 on success, negative on error. LENGTH_ONLY_E if derKey is NULL and returning length only. \param cert populated DecodedCert struct holding X.509 certificate \param derKey output buffer to place DER encoded public key \param derKeySz [IN/OUT] size of derKey buffer on input, size of public key on return. If derKey is passed in as NULL, derKeySz will be set to required buffer size for public key and LENGTH_ONLY_E will be returned from function. \sa wc_GetPubKeyDerFromCert */ int wc_GetPubKeyDerFromCert(struct DecodedCert* cert, byte* derKey, word32* derKeySz); /*! \ingroup ASN \brief This function reads in an ECC private key from the input buffer, input, parses the private key, and uses it to generate an ecc_key object, which it stores in key. \return 0 On successfully decoding the private key and storing the result in the ecc_key struct \return ASN_PARSE_E: Returned if there is an error parsing the der file and storing it as a pem file \return MEMORY_E Returned if there is an error allocating memory with XMALLOC \return BUFFER_E Returned if the certificate to convert is large than the specified max certificate size \return ASN_OBJECT_ID_E Returned if the certificate encoding has an invalid object id \return ECC_CURVE_OID_E Returned if the ECC curve of the provided key is not supported \return ECC_BAD_ARG_E Returned if there is an error in the ECC key format \return NOT_COMPILED_IN Returned if the private key is compressed, and no compression key is provided \return MP_MEM Returned if there is an error in the math library used while parsing the private key \return MP_VAL Returned if there is an error in the math library used while parsing the private key \return MP_RANGE Returned if there is an error in the math library used while parsing the private key \param input pointer to the buffer containing the input private key \param inOutIdx pointer to a word32 object containing the index in the buffer at which to start \param key pointer to an initialized ecc object, on which to store the decoded private key \param inSz size of the input buffer containing the private key _Example_ \code int ret, idx=0; ecc_key key; // to store key in byte* tmp; // tmp buffer to read key from tmp = (byte*) malloc(FOURK_BUF); int inSz; inSz = fread(tmp, 1, FOURK_BUF, privateKeyFile); // read key into tmp buffer wc_ecc_init(&key); // initialize key ret = wc_EccPrivateKeyDecode(tmp, &idx, &key, (word32)inSz); if(ret < 0) { // error decoding ecc key } \endcode \sa wc_RSA_PrivateKeyDecode */ int wc_EccPrivateKeyDecode(const byte* input, word32* inOutIdx, ecc_key* key, word32 inSz); /*! \ingroup ASN \brief This function writes a private ECC key to der format. \return Success On successfully writing the ECC key to der format, returns the length written to the buffer \return BAD_FUNC_ARG Returned if key or output is null, or inLen equals zero \return MEMORY_E Returned if there is an error allocating memory with XMALLOC \return BUFFER_E Returned if the converted certificate is too large to store in the output buffer \return ASN_UNKNOWN_OID_E Returned if the ECC key used is of an unknown type \return MP_MEM Returned if there is an error in the math library used while parsing the private key \return MP_VAL Returned if there is an error in the math library used while parsing the private key \return MP_RANGE Returned if there is an error in the math library used while parsing the private key \param key pointer to the buffer containing the input ecc key \param output pointer to a buffer in which to store the der formatted key \param inLen the length of the buffer in which to store the der formatted key _Example_ \code int derSz; ecc_key key; // initialize and make key byte der[FOURK_BUF]; // store der formatted key here derSz = wc_EccKeyToDer(&key, der, FOURK_BUF); if(derSz < 0) { // error converting ecc key to der buffer } \endcode \sa wc_RsaKeyToDer */ int wc_EccKeyToDer(ecc_key* key, byte* output, word32 inLen); /*! \ingroup ASN \brief Decodes an ECC public key from an input buffer. It will parse an ASN sequence to retrieve the ECC key. \return 0 Success \return BAD_FUNC_ARG Returns if any arguments are null. \return ASN_PARSE_E Returns if there is an error parsing \return ASN_ECC_KEY_E Returns if there is an error importing the key. See wc_ecc_import_x963 for possible reasons. \param input Buffer containing DER encoded key to decode. \param inOutIdx Index to start reading input buffer from. On output, index is set to last position parsed of input buffer. \param key Pointer to ecc_key struct to store the public key. \param inSz Size of the input buffer. _Example_ \code int ret; word32 idx = 0; byte buff[] = { // initialize with key }; ecc_key pubKey; wc_ecc_init(&pubKey); if ( wc_EccPublicKeyDecode(buff, &idx, &pubKey, sizeof(buff)) != 0) { // error decoding key } \endcode \sa wc_ecc_import_x963 */ int wc_EccPublicKeyDecode(const byte* input, word32* inOutIdx, ecc_key* key, word32 inSz); /*! \ingroup ASN \brief This function converts the ECC public key to DER format. It returns the size of buffer used. The public ECC key in DER format is stored in output buffer. The with_AlgCurve flag will include a header that has the Algorithm and Curve information \return >0 Success, size of buffer used \return BAD_FUNC_ARG Returned if output or key is null. \return LENGTH_ONLY_E Error in getting ECC public key size. \return BUFFER_E Returned when output buffer is too small. \param key Pointer to ECC key \param output Pointer to output buffer to write to. \param inLen Size of buffer. \param with_AlgCurve a flag for when to include a header that has the Algorithm and Curve information. _Example_ \code ecc_key key; wc_ecc_init(&key); WC_WC_RNG rng; wc_InitRng(&rng); wc_ecc_make_key(&rng, 32, &key); int derSz = // Some appropriate size for der; byte der[derSz]; if(wc_EccPublicKeyToDer(&key, der, derSz, 1) < 0) { // Error converting ECC public key to der } \endcode \sa wc_EccKeyToDer \sa wc_EccPrivateKeyDecode */ int wc_EccPublicKeyToDer(ecc_key* key, byte* output, word32 inLen, int with_AlgCurve); /*! \ingroup ASN \brief This function converts the ECC public key to DER format. It returns the size of buffer used. The public ECC key in DER format is stored in output buffer. The with_AlgCurve flag will include a header that has the Algorithm and Curve information. The comp parameter determines if the public key will be exported as compressed. \return >0 Success, size of buffer used \return BAD_FUNC_ARG Returned if output or key is null. \return LENGTH_ONLY_E Error in getting ECC public key size. \return BUFFER_E Returned when output buffer is too small. \param key Pointer to ECC key \param output Pointer to output buffer to write to. \param inLen Size of buffer. \param with_AlgCurve a flag for when to include a header that has the Algorithm and Curve information. \param comp If 1 (non-zero) the ECC public key will be written in compressed form. If 0 it will be written in an uncompressed format. _Example_ \code ecc_key key; wc_ecc_init(&key); WC_WC_RNG rng; wc_InitRng(&rng); wc_ecc_make_key(&rng, 32, &key); int derSz = // Some appropriate size for der; byte der[derSz]; // Write out a compressed ECC key if(wc_EccPublicKeyToDer_ex(&key, der, derSz, 1, 1) < 0) { // Error converting ECC public key to der } \endcode \sa wc_EccKeyToDer \sa wc_EccPublicKeyDecode */ int wc_EccPublicKeyToDer_ex(ecc_key* key, byte* output, word32 inLen, int with_AlgCurve, int comp); /*! \ingroup ASN \brief This function encodes a digital signature into the output buffer, and returns the size of the encoded signature created. \return Success On successfully writing the encoded signature to output, returns the length written to the buffer \param out pointer to the buffer where the encoded signature will be written \param digest pointer to the digest to use to encode the signature \param digSz the length of the buffer containing the digest \param hashOID OID identifying the hash type used to generate the signature. Valid options, depending on build configurations, are: SHAh, SHA256h, SHA384h, SHA512h, MD2h, MD5h, DESb, DES3b, CTC_MD5wRSA, CTC_SHAwRSA, CTC_SHA256wRSA, CTC_SHA384wRSA, CTC_SHA512wRSA, CTC_SHAwECDSA, CTC_SHA256wECDSA, CTC_SHA384wECDSA, and CTC_SHA512wECDSA. \endcode \code int signSz; byte encodedSig[MAX_ENCODED_SIG_SZ]; Sha256 sha256; // initialize sha256 for hashing byte* dig = = (byte*)malloc(WC_SHA256_DIGEST_SIZE); // perform hashing and hash updating so dig stores SHA-256 hash // (see wc_InitSha256, wc_Sha256Update and wc_Sha256Final) signSz = wc_EncodeSignature(encodedSig, dig, WC_SHA256_DIGEST_SIZE, SHA256h); \endcode \sa none */ word32 wc_EncodeSignature(byte* out, const byte* digest, word32 digSz, int hashOID); /*! \ingroup ASN \brief This function returns the hash OID that corresponds to a hashing type. For example, when given the type: WC_SHA512, this function returns the identifier corresponding to a SHA512 hash, SHA512h. \return Success On success, returns the OID corresponding to the appropriate hash to use with that encryption type. \return 0 Returned if an unrecognized hash type is passed in as argument. \param type the hash type for which to find the OID. Valid options, depending on build configuration, include: WC_MD5, WC_SHA, WC_SHA256, WC_SHA384, WC_SHA512, WC_SHA3_224, WC_SHA3_256, WC_SHA3_384 or WC_SHA3_512 _Example_ \code int hashOID; hashOID = wc_GetCTC_HashOID(WC_SHA512); if (hashOID == 0) { // WOLFSSL_SHA512 not defined } \endcode \sa none */ int wc_GetCTC_HashOID(int type); /*! \ingroup ASN \brief This function cleans up memory and resources used by the certificate structure's decoded cert cache. When WOLFSSL_CERT_GEN_CACHE is defined the decoded cert structure is cached in the certificate structure. This allows subsequent calls to certificate set functions to avoid parsing the decoded cert on each call. \return 0 on success. \return BAD_FUNC_ARG Returned if invalid pointer is passed in as argument. \param cert pointer to an uninitialized certificate information structure. _Example_ \code Cert cert; // Initialized certificate structure wc_SetCert_Free(&cert); \endcode \sa wc_SetAuthKeyIdFromCert \sa wc_SetIssuerBuffer \sa wc_SetSubjectBuffer \sa wc_SetSubjectRaw \sa wc_SetIssuerRaw \sa wc_SetAltNamesBuffer \sa wc_SetDatesBuffer */ void wc_SetCert_Free(Cert* cert); /*! \ingroup ASN \brief This function finds the beginning of the traditional private key inside a PKCS#8 unencrypted buffer. \return Length of traditional private key on success. \return Negative values on failure. \param input Buffer containing unencrypted PKCS#8 private key. \param inOutIdx Index into the input buffer. On input, it should be a byte offset to the beginning of the the PKCS#8 buffer. On output, it will be the byte offset to the traditional private key within the input buffer. \param sz The number of bytes in the input buffer. _Example_ \code byte* pkcs8Buf; // Buffer containing PKCS#8 key. word32 idx = 0; word32 sz; // Size of pkcs8Buf. ... ret = wc_GetPkcs8TraditionalOffset(pkcs8Buf, &idx, sz); // pkcs8Buf + idx is now the beginning of the traditional private key bytes. \endcode \sa wc_CreatePKCS8Key \sa wc_EncryptPKCS8Key \sa wc_DecryptPKCS8Key \sa wc_CreateEncryptedPKCS8Key */ int wc_GetPkcs8TraditionalOffset(byte* input, word32* inOutIdx, word32 sz); /*! \ingroup ASN \brief This function takes in a DER private key and converts it to PKCS#8 format. Also used in creating PKCS#12 shrouded key bags. See RFC 5208. \return The size of the PKCS#8 key placed into out on success. \return LENGTH_ONLY_E if out is NULL, with required output buffer size in outSz. \return Other negative values on failure. \param out Buffer to place result in. If NULL, required out buffer size returned in outSz. \param outSz Size of out buffer. \param key Buffer with traditional DER key. \param keySz Size of key buffer. \param algoID Algorithm ID (e.g. RSAk). \param curveOID ECC curve OID if used. Should be NULL for RSA keys. \param oidSz Size of curve OID. Is set to 0 if curveOID is NULL. _Example_ \code ecc_key eccKey; // wolfSSL ECC key object. byte* der; // DER-encoded ECC key. word32 derSize; // Size of der. const byte* curveOid = NULL; // OID of curve used by eccKey. word32 curveOidSz = 0; // Size of curve OID. byte* pkcs8; // Output buffer for PKCS#8 key. word32 pkcs8Sz; // Size of output buffer. derSize = wc_EccKeyDerSize(&eccKey, 1); ... derSize = wc_EccKeyToDer(&eccKey, der, derSize); ... ret = wc_ecc_get_oid(eccKey.dp->oidSum, &curveOid, &curveOidSz); ... ret = wc_CreatePKCS8Key(NULL, &pkcs8Sz, der, derSize, ECDSAk, curveOid, curveOidSz); // Get size needed in pkcs8Sz. ... ret = wc_CreatePKCS8Key(pkcs8, &pkcs8Sz, der, derSize, ECDSAk, curveOid, curveOidSz); \endcode \sa wc_GetPkcs8TraditionalOffset \sa wc_EncryptPKCS8Key \sa wc_DecryptPKCS8Key \sa wc_CreateEncryptedPKCS8Key */ int wc_CreatePKCS8Key(byte* out, word32* outSz, byte* key, word32 keySz, int algoID, const byte* curveOID, word32 oidSz); /*! \ingroup ASN \brief This function takes in an unencrypted PKCS#8 DER key (e.g. one created by wc_CreatePKCS8Key) and converts it to PKCS#8 encrypted format. The resulting encrypted key can be decrypted using wc_DecryptPKCS8Key. See RFC 5208. \return The size of the encrypted key placed in out on success. \return LENGTH_ONLY_E if out is NULL, with required output buffer size in outSz. \return Other negative values on failure. \param key Buffer with traditional DER key. \param keySz Size of key buffer. \param out Buffer to place result in. If NULL, required out buffer size returned in outSz. \param outSz Size of out buffer. \param password The password to use for the password-based encryption algorithm. \param passwordSz The length of the password (not including the NULL terminator). \param vPKCS The PKCS version to use. Can be 1 for PKCS12 or PKCS5. \param pbeOid The OID of the PBE scheme to use (e.g. PBES2 or one of the OIDs for PBES1 in RFC 2898 A.3). \param encAlgId The encryption algorithm ID to use (e.g. AES256CBCb). \param salt The salt buffer to use. If NULL, a random salt will be used. \param saltSz The length of the salt buffer. Can be 0 if passing NULL for salt. \param itt The number of iterations to use for the KDF. \param rng A pointer to an initialized WC_RNG object. \param heap A pointer to the heap used for dynamic allocation. Can be NULL. _Example_ \code byte* pkcs8; // Unencrypted PKCS#8 key. word32 pkcs8Sz; // Size of pkcs8. byte* pkcs8Enc; // Encrypted PKCS#8 key. word32 pkcs8EncSz; // Size of pkcs8Enc. const char* password; // Password to use for encryption. int passwordSz; // Length of password (not including NULL terminator). WC_RNG rng; // The following produces an encrypted version of pkcs8 in pkcs8Enc. The // encryption uses password-based encryption scheme 2 (PBE2) from PKCS#5 and // the AES cipher in CBC mode with a 256-bit key. See RFC 8018 for more on // PKCS#5. ret = wc_EncryptPKCS8Key(pkcs8, pkcs8Sz, pkcs8Enc, &pkcs8EncSz, password, passwordSz, PKCS5, PBES2, AES256CBCb, NULL, 0, WC_PKCS12_ITT_DEFAULT, &rng, NULL); \endcode \sa wc_GetPkcs8TraditionalOffset \sa wc_CreatePKCS8Key \sa wc_DecryptPKCS8Key \sa wc_CreateEncryptedPKCS8Key */ int wc_EncryptPKCS8Key(byte* key, word32 keySz, byte* out, word32* outSz, const char* password, int passwordSz, int vPKCS, int pbeOid, int encAlgId, byte* salt, word32 saltSz, int itt, WC_RNG* rng, void* heap); /*! \ingroup ASN \brief This function takes an encrypted PKCS#8 DER key and decrypts it to PKCS#8 unencrypted DER. Undoes the encryption done by wc_EncryptPKCS8Key. See RFC5208. The input buffer is overwritten with the decrypted data. \return The length of the decrypted buffer on success. \return Negative values on failure. \param input On input, buffer containing encrypted PKCS#8 key. On successful output, contains the decrypted key. \param sz Size of the input buffer. \param password The password used to encrypt the key. \param passwordSz The length of the password (not including NULL terminator). _Example_ \code byte* pkcs8Enc; // Encrypted PKCS#8 key made with wc_EncryptPKCS8Key. word32 pkcs8EncSz; // Size of pkcs8Enc. const char* password; // Password to use for decryption. int passwordSz; // Length of password (not including NULL terminator). ret = wc_DecryptPKCS8Key(pkcs8Enc, pkcs8EncSz, password, passwordSz); \endcode \sa wc_GetPkcs8TraditionalOffset \sa wc_CreatePKCS8Key \sa wc_EncryptPKCS8Key \sa wc_CreateEncryptedPKCS8Key */ int wc_DecryptPKCS8Key(byte* input, word32 sz, const char* password, int passwordSz); /*! \ingroup ASN \brief This function takes a traditional, DER key, converts it to PKCS#8 format, and encrypts it. It uses wc_CreatePKCS8Key and wc_EncryptPKCS8Key to do this. \return The size of the encrypted key placed in out on success. \return LENGTH_ONLY_E if out is NULL, with required output buffer size in outSz. \return Other negative values on failure. \param key Buffer with traditional DER key. \param keySz Size of key buffer. \param out Buffer to place result in. If NULL, required out buffer size returned in outSz. \param outSz Size of out buffer. \param password The password to use for the password-based encryption algorithm. \param passwordSz The length of the password (not including the NULL terminator). \param vPKCS The PKCS version to use. Can be 1 for PKCS12 or PKCS5. \param pbeOid The OID of the PBE scheme to use (e.g. PBES2 or one of the OIDs for PBES1 in RFC 2898 A.3). \param encAlgId The encryption algorithm ID to use (e.g. AES256CBCb). \param salt The salt buffer to use. If NULL, a random salt will be used. \param saltSz The length of the salt buffer. Can be 0 if passing NULL for salt. \param itt The number of iterations to use for the KDF. \param rng A pointer to an initialized WC_RNG object. \param heap A pointer to the heap used for dynamic allocation. Can be NULL. _Example_ \code byte* key; // Traditional private key (DER formatted). word32 keySz; // Size of key. byte* pkcs8Enc; // Encrypted PKCS#8 key. word32 pkcs8EncSz; // Size of pkcs8Enc. const char* password; // Password to use for encryption. int passwordSz; // Length of password (not including NULL terminator). WC_RNG rng; // The following produces an encrypted, PKCS#8 version of key in pkcs8Enc. // The encryption uses password-based encryption scheme 2 (PBE2) from PKCS#5 // and the AES cipher in CBC mode with a 256-bit key. See RFC 8018 for more // on PKCS#5. ret = wc_CreateEncryptedPKCS8Key(key, keySz, pkcs8Enc, &pkcs8EncSz, password, passwordSz, PKCS5, PBES2, AES256CBCb, NULL, 0, WC_PKCS12_ITT_DEFAULT, &rng, NULL); \endcode \sa wc_GetPkcs8TraditionalOffset \sa wc_CreatePKCS8Key \sa wc_EncryptPKCS8Key \sa wc_DecryptPKCS8Key */ int wc_CreateEncryptedPKCS8Key(byte* key, word32 keySz, byte* out, word32* outSz, const char* password, int passwordSz, int vPKCS, int pbeOid, int encAlgId, byte* salt, word32 saltSz, int itt, WC_RNG* rng, void* heap); /*! \ingroup ASN \brief This function initializes the DecodedCert pointed to by the "cert" parameter. It saves the "source" pointer to a DER-encoded certificate of length "inSz." This certificate can be parsed by a subsequent call to wc_ParseCert. \param cert Pointer to an allocated DecodedCert object. \param source Pointer to a DER-encoded certificate. \param inSz Length of the DER-encoded certificate in bytes. \param heap A pointer to the heap used for dynamic allocation. Can be NULL. _Example_ \code DecodedCert decodedCert; // Decoded certificate object. byte* certBuf; // DER-encoded certificate buffer. word32 certBufSz; // Size of certBuf in bytes. wc_InitDecodedCert(&decodedCert, certBuf, certBufSz, NULL); \endcode \sa wc_ParseCert \sa wc_FreeDecodedCert */ void wc_InitDecodedCert(struct DecodedCert* cert, const byte* source, word32 inSz, void* heap); /*! \ingroup ASN \brief This function parses the DER-encoded certificate saved in the DecodedCert object and populates the fields of that object. The DecodedCert must have been initialized with a prior call to wc_InitDecodedCert. This function takes an optional pointer to a CertificateManager object, which is used to populate the certificate authority information of the DecodedCert, if the CA is found in the CertificateManager. \return 0 on success. \return Other negative values on failure. \param cert Pointer to an initialized DecodedCert object. \param type Type of certificate. See the CertType enum in asn_public.h. \param verify Flag that, if set, indicates the user wants to verify the validity of the certificate. \param cm An optional pointer to a CertificateManager. Can be NULL. _Example_ \code int ret; DecodedCert decodedCert; // Decoded certificate object. byte* certBuf; // DER-encoded certificate buffer. word32 certBufSz; // Size of certBuf in bytes. wc_InitDecodedCert(&decodedCert, certBuf, certBufSz, NULL); ret = wc_ParseCert(&decodedCert, CERT_TYPE, NO_VERIFY, NULL); if (ret != 0) { fprintf(stderr, "wc_ParseCert failed.\n"); } \endcode \sa wc_InitDecodedCert \sa wc_FreeDecodedCert */ int wc_ParseCert(DecodedCert* cert, int type, int verify, void* cm); /*! \ingroup ASN \brief This function frees a DecodedCert that was previously initialized with wc_InitDecodedCert. \param cert Pointer to an initialized DecodedCert object. _Example_ \code int ret; DecodedCert decodedCert; // Decoded certificate object. byte* certBuf; // DER-encoded certificate buffer. word32 certBufSz; // Size of certBuf in bytes. wc_InitDecodedCert(&decodedCert, certBuf, certBufSz, NULL); ret = wc_ParseCert(&decodedCert, CERT_TYPE, NO_VERIFY, NULL); if (ret != 0) { fprintf(stderr, "wc_ParseCert failed.\n"); } wc_FreeDecodedCert(&decodedCert); \endcode \sa wc_InitDecodedCert \sa wc_ParseCert */ void wc_FreeDecodedCert(struct DecodedCert* cert); /*! \ingroup ASN \brief This function registers a time callback that will be used anytime wolfSSL needs to get the current time. The prototype of the callback should be the same as the "time" function from the C standard library. \return 0 Returned on success. \param f function to register as the time callback. _Example_ \code int ret = 0; // Time callback prototype time_t my_time_cb(time_t* t); // Register it ret = wc_SetTimeCb(my_time_cb); if (ret != 0) { // failed to set time callback } time_t my_time_cb(time_t* t) { // custom time function } \endcode \sa wc_Time */ int wc_SetTimeCb(wc_time_cb f); /*! \ingroup ASN \brief This function gets the current time. By default, it uses the XTIME macro, which varies between platforms. The user can use a function of their choosing instead via the wc_SetTimeCb function. \return Time Current time returned on success. \param t Optional time_t pointer to populate with current time. _Example_ \code time_t currentTime = 0; currentTime = wc_Time(NULL); wc_Time(¤tTime); \endcode \sa wc_SetTimeCb */ time_t wc_Time(time_t* t); /*! \ingroup ASN \brief This function injects a custom extension in to an X.509 certificate. note: The content at the address pointed to by any of the parameters that are pointers must not be modified until the certificate is generated and you have the der output. This function does NOT copy the contents to another buffer. \return 0 Returned on success. \return Other negative values on failure. \param cert Pointer to an initialized DecodedCert object. \param critical If 0, the extension will not be marked critical, otherwise it will be marked critical. \param oid Dot separated oid as a string. For example "1.2.840.10045.3.1.7" \param der The der encoding of the content of the extension. \param derSz The size in bytes of the der encoding. _Example_ \code int ret = 0; Cert newCert; wc_InitCert(&newCert); // Code to setup subject, public key, issuer, and other things goes here. ret = wc_SetCustomExtension(&newCert, 1, "1.2.3.4.5", (const byte *)"This is a critical extension", 28); if (ret < 0) { // Failed to set the extension. } ret = wc_SetCustomExtension(&newCert, 0, "1.2.3.4.6", (const byte *)"This is NOT a critical extension", 32) if (ret < 0) { // Failed to set the extension. } // Code to sign the certificate and then write it out goes here. \endcode \sa wc_InitCert \sa wc_SetUnknownExtCallback */ int wc_SetCustomExtension(Cert *cert, int critical, const char *oid, const byte *der, word32 derSz); /*! \ingroup ASN \brief This function registers a callback that will be used anytime wolfSSL encounters an unknown X.509 extension in a certificate while parsing a certificate. The prototype of the callback should be: \return 0 Returned on success. \return Other negative values on failure. \param cert the DecodedCert struct that is to be associated with this callback. \param cb function to register as the time callback. _Example_ \code int ret = 0; // Unkown extension callback prototype int myUnknownExtCallback(const word16* oid, word32 oidSz, int crit, const unsigned char* der, word32 derSz); // Register it ret = wc_SetUnknownExtCallback(cert, myUnknownExtCallback); if (ret != 0) { // failed to set the callback } // oid: Array of integers that are the dot separated values in an oid. // oidSz: Number of values in oid. // crit: Whether the extension was mark critical. // der: The der encoding of the content of the extension. // derSz: The size in bytes of the der encoding. int myCustomExtCallback(const word16* oid, word32 oidSz, int crit, const unsigned char* der, word32 derSz) { // Logic to parse extension goes here. // NOTE: by returning zero, we are accepting this extension and // informing wolfSSL that it is acceptable. If you find an extension // that you do not find acceptable, you should return an error. The // standard behavior upon encountering an unknown extension with the // critical flag set is to return ASN_CRIT_EXT_E. For the sake of // brevity, this example is always accepting every extension; you // should use different logic. return 0; } \endcode \sa ParseCert \sa wc_SetCustomExtension */ int wc_SetUnknownExtCallback(DecodedCert* cert, wc_UnknownExtCallback cb); /*! \ingroup ASN \brief This function verifies the signature in the der form of an X.509 certificate against a public key. The public key is expected to be the full subject public key info in der form. \return 0 Returned on success. \return Other negative values on failure. \param cert The der encoding of the X.509 certificate. \param certSz The size in bytes of cert. \param heap A pointer to the heap used for dynamic allocation. Can be NULL. \param pubKey The der encoding of the public key. \param pubKeySz The size in bytes of pubKey. \param pubKeyOID OID identifying the algorithm of the public key. (ie: ECDSAk, DSAk or RSAk) */ int wc_CheckCertSigPubKey(const byte* cert, word32 certSz, void* heap, const byte* pubKey, word32 pubKeySz, int pubKeyOID);