/* * Parse a cert, dump contents. */ #include "cdsaUtils.h" #include #include #include #include #include #include #include #include "printCert.h" #include "oidParser.h" #include "timeStr.h" #include static char *months[] = { "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec" }; /* * Convert a CSSM_DATA_PTR, referring to a DER-encoded int, to a * uint32. */ static uint32 DER_ToInt(const CSSM_DATA *DER_Data) { uint32 rtn = 0; uint32 i = 0; while(i < DER_Data->Length) { rtn |= DER_Data->Data[i]; if(++i == DER_Data->Length) { break; } rtn <<= 8; } return rtn; } static void printTime(const CSSM_X509_TIME *cssmTime) { struct tm tm; /* ignore cssmTime->timeType for now */ if(appTimeStringToTm((char *)cssmTime->time.Data, cssmTime->time.Length, &tm)) { printf("***Bad time string format***\n"); return; } if(tm.tm_mon > 11) { printf("***Bad time string format***\n"); return; } printf("%02d:%02d:%02d %s %d, %04d\n", tm.tm_hour, tm.tm_min, tm.tm_sec, months[tm.tm_mon], tm.tm_mday, tm.tm_year + 1900); } static void printDataAsHex( const CSSM_DATA *d, unsigned maxToPrint = 0) // optional, 0 means print it all { unsigned i; bool more = false; uint32 len = d->Length; uint8 *cp = d->Data; if((maxToPrint != 0) && (len > maxToPrint)) { len = maxToPrint; more = true; } for(i=0; iLength * Tag is implied */ static void printOid(OidParser &parser, const CSSM_DATA *oid) { char strBuf[OID_PARSER_STRING_SIZE]; if(oid == NULL) { printf("NULL\n"); return; } if((oid->Length == 0) || (oid->Data == NULL)) { printf("EMPTY\n"); return; } parser.oidParse(oid->Data, oid->Length, strBuf); printf("%s\n", strBuf); } /* * Used to print generic blobs which we don't really understand. * The bytesToPrint argument is usually thing->Length; it's here because snacc * peports lengths of bit strings in BITS. Caller knows this and * modifies bytesToPrint accordingly. In any case, bytesToPrint is the * max number of valid bytes in *thing->Data. */ #define BLOB_LENGTH_PRINT 3 static void printBlobBytes( char *blobType, char *quanta, // e.g., "bytes', "bits" uint32 bytesToPrint, const CSSM_DATA *thing) { uint32 dex; uint32 toPrint = bytesToPrint; if(toPrint > BLOB_LENGTH_PRINT) { toPrint = BLOB_LENGTH_PRINT; } printf("%s; Length %u %s; data = ", blobType, (unsigned)thing->Length, quanta); for(dex=0; dexData[dex]); if(dex == (toPrint - 1)) { break; } } if(dex < bytesToPrint) { printf(" ...\n"); } else { printf("\n"); } } /* * Print an IA5String or Printable string. Null terminator is not assumed. * Trailing newline is printed. */ static void printString( const CSSM_DATA *str) { unsigned i; char *cp = (char *)str->Data; for(i=0; iLength; i++) { printf("%c", *cp++); } printf("\n"); } static void printDerThing( CSSM_BER_TAG tagType, const CSSM_DATA *thing, OidParser &parser) { switch(tagType) { case BER_TAG_INTEGER: printf("%u\n", (unsigned)DER_ToInt(thing)); return; case BER_TAG_BOOLEAN: if(thing->Length != 1) { printf("***malformed BER_TAG_BOOLEAN: length %d data ", (unsigned)thing->Length); } printf("%u\n", (unsigned)DER_ToInt(thing)); return; case BER_TAG_PRINTABLE_STRING: case BER_TAG_IA5_STRING: case BER_TAG_T61_STRING: // mostly printable.... printString(thing); return; case BER_TAG_OCTET_STRING: printBlobBytes("Byte string", "bytes", thing->Length, thing); return; case BER_TAG_BIT_STRING: printBlobBytes("Bit string", "bits", (thing->Length + 7) / 8, thing); return; case BER_TAG_SEQUENCE: printBlobBytes("Sequence", "bytes", thing->Length, thing); return; case BER_TAG_SET: printBlobBytes("Set", "bytes", thing->Length, thing); return; case BER_TAG_OID: printf("OID = "); printOid(parser, thing); break; default: printf("not displayed (tagType = %s; length %u)\n", tagTypeString(tagType), (unsigned)thing->Length); break; } } static void printSigAlg( CSSM_X509_ALGORITHM_IDENTIFIER *sigAlg, OidParser &parser) { printOid(parser, &sigAlg->algorithm); if(sigAlg->parameters.Data != NULL) { printf(" alg params : "); printDataAsHex(&sigAlg->parameters, 8); } } /* compare two OIDs, return CSSM_TRUE if identical */ static CSSM_BOOL compareOids( const CSSM_OID *oid1, const CSSM_OID *oid2) { if((oid1 == NULL) || (oid2 == NULL)) { return CSSM_FALSE; } if(oid1->Length != oid2->Length) { return CSSM_FALSE; } if(memcmp(oid1->Data, oid2->Data, oid1->Length)) { return CSSM_FALSE; } else { return CSSM_TRUE; } } static CSSM_RETURN printName( const CSSM_X509_NAME_PTR x509Name, OidParser &parser) { CSSM_X509_TYPE_VALUE_PAIR *ptvp; CSSM_X509_RDN_PTR rdnp; unsigned rdnDex; unsigned pairDex; char *fieldName; for(rdnDex=0; rdnDexnumberOfRDNs; rdnDex++) { rdnp = &x509Name->RelativeDistinguishedName[rdnDex]; for(pairDex=0; pairDexnumberOfPairs; pairDex++) { ptvp = &rdnp->AttributeTypeAndValue[pairDex]; if(compareOids(&ptvp->type, &CSSMOID_CountryName)) { fieldName = "Country "; } else if(compareOids(&ptvp->type, &CSSMOID_OrganizationName)) { fieldName = "Org "; } else if(compareOids(&ptvp->type, &CSSMOID_LocalityName)) { fieldName = "Locality "; } else if(compareOids(&ptvp->type, &CSSMOID_OrganizationalUnitName)) { fieldName = "OrgUnit "; } else if(compareOids(&ptvp->type, &CSSMOID_CommonName)) { fieldName = "Common Name "; } else if(compareOids(&ptvp->type, &CSSMOID_Surname)) { fieldName = "Surname "; } else if(compareOids(&ptvp->type, &CSSMOID_Title)) { fieldName = "Title "; } else if(compareOids(&ptvp->type, &CSSMOID_Surname)) { fieldName = "Surname "; } else if(compareOids(&ptvp->type, &CSSMOID_StateProvinceName)) { fieldName = "State "; } else if(compareOids(&ptvp->type, &CSSMOID_CollectiveStateProvinceName)) { fieldName = "Coll. State "; } else if(compareOids(&ptvp->type, &CSSMOID_EmailAddress)) { /* deprecated, used by Thawte */ fieldName = "Email addrs "; } else { fieldName = "Other name "; } printf(" %s : ", fieldName); printDerThing(ptvp->valueType, &ptvp->value, parser); } /* for each type/value pair */ } /* for each RDN */ return CSSM_OK; } static void printKeyHeader( const CSSM_KEYHEADER &hdr) { printf(" Algorithm : "); switch(hdr.AlgorithmId) { case CSSM_ALGID_RSA: printf("RSA\n"); break; case CSSM_ALGID_DSA: printf("DSA\n"); break; case CSSM_ALGID_FEE: printf("FEE\n"); break; default: printf("Unknown(%d(d), 0x%x)\n", (unsigned)hdr.AlgorithmId, (unsigned)hdr.AlgorithmId); } printf(" Key Size : %u bits\n", (unsigned)hdr.LogicalKeySizeInBits); printf(" Key Use : "); CSSM_KEYUSE usage = hdr.KeyUsage; if(usage & CSSM_KEYUSE_ANY) { printf("CSSM_KEYUSE_ANY "); } if(usage & CSSM_KEYUSE_ENCRYPT) { printf("CSSM_KEYUSE_ENCRYPT "); } if(usage & CSSM_KEYUSE_DECRYPT) { printf("CSSM_KEYUSE_DECRYPT "); } if(usage & CSSM_KEYUSE_SIGN) { printf("CSSM_KEYUSE_SIGN "); } if(usage & CSSM_KEYUSE_VERIFY) { printf("CSSM_KEYUSE_VERIFY "); } if(usage & CSSM_KEYUSE_SIGN_RECOVER) { printf("CSSM_KEYUSE_SIGN_RECOVER "); } if(usage & CSSM_KEYUSE_VERIFY_RECOVER) { printf("CSSM_KEYUSE_VERIFY_RECOVER "); } if(usage & CSSM_KEYUSE_WRAP) { printf("CSSM_KEYUSE_WRAP "); } if(usage & CSSM_KEYUSE_UNWRAP) { printf("CSSM_KEYUSE_UNWRAP "); } if(usage & CSSM_KEYUSE_DERIVE) { printf("CSSM_KEYUSE_DERIVE "); } printf("\n"); } /* * Print contents of a CE_GeneralNames as best we can. */ static void printGeneralNames( CE_GeneralNames *generalNames, OidParser &parser) { unsigned i; CE_GeneralName *name; for(i=0; inumNames; i++) { name = &generalNames->generalName[i]; switch(name->nameType) { case GNT_RFC822Name: printf(" RFC822Name : "); printString(&name->name); break; case GNT_DNSName: printf(" DNSName : "); printString(&name->name); break; case GNT_URI: printf(" URI : "); printString(&name->name); break; case GNT_IPAddress: printf(" IP Address : "); for(unsigned i=0; iname.Length; i++) { printf("%d", name->name.Data[i]); if(i < (name->name.Length - 1)) { printf("."); } } printf("\n"); break; case GNT_RegisteredID: printf(" RegisteredID : "); printOid(parser, &name->name); break; case GNT_X400Address: /* ORAddress, a very complicated struct - punt */ printf(" X400Address : "); printBlobBytes("Sequence", "bytes", name->name.Length, &name->name); break; case GNT_DirectoryName: /* encoded Name (i.e. CSSM_X509_NAME) */ printf(" Dir Name : "); printBlobBytes("Byte string", "bytes", name->name.Length, &name->name); break; case GNT_EdiPartyName: /* sequence EDIPartyName */ printf(" EdiPartyName : "); printBlobBytes("Sequence", "bytes", name->name.Length, &name->name); break; case GNT_OtherName: printf(" OtherName : "); printOid(parser, &name->name); break; } } } static int printExtensionCommon( const CSSM_DATA &value, OidParser &parser, bool expectParsed = true) { if(value.Length != sizeof(CSSM_X509_EXTENSION)) { printf("***malformed CSSM_FIELD (1)\n"); return 1; } CSSM_X509_EXTENSION *cssmExt = (CSSM_X509_EXTENSION *)value.Data; printf("Extension struct : "); printOid(parser, &cssmExt->extnId); printf(" Critical : %s\n", cssmExt->critical ? "TRUE" : "FALSE"); switch(cssmExt->format) { case CSSM_X509_DATAFORMAT_ENCODED: if(expectParsed) { printf("Bad CSSM_X509_EXTENSION; expected FORMAT_PARSED\n"); return 1; } if((cssmExt->BERvalue.Data == NULL) || (cssmExt->value.parsedValue != NULL)) { printf("***Malformed CSSM_X509_EXTENSION (1)\n"); return 1; } break; case CSSM_X509_DATAFORMAT_PARSED: if(!expectParsed) { printf("Bad CSSM_X509_EXTENSION; expected FORMAT_ENCODED\n"); return 1; } if((cssmExt->BERvalue.Data != NULL) || (cssmExt->value.parsedValue == NULL)) { printf("***Malformed CSSM_X509_EXTENSION (2)\n"); return 1; } break; default: printf("***Unknown CSSM_X509_EXTENSION.format\n"); return 1; } return 0; } static void printKeyUsage( const CSSM_DATA &value) { CE_KeyUsage usage; CSSM_X509_EXTENSION *cssmExt = (CSSM_X509_EXTENSION *)value.Data; usage = *((CE_KeyUsage *)cssmExt->value.parsedValue); printf(" usage : "); if(usage & CE_KU_DigitalSignature) { printf("DigitalSignature "); } if(usage & CE_KU_NonRepudiation) { printf("NonRepudiation "); } if(usage & CE_KU_KeyEncipherment) { printf("KeyEncipherment "); } if(usage & CE_KU_DataEncipherment) { printf("DataEncipherment "); } if(usage & CE_KU_KeyAgreement) { printf("KeyAgreement "); } if(usage & CE_KU_KeyCertSign) { printf("KeyCertSign "); } if(usage & CE_KU_CRLSign) { printf("CRLSign "); } if(usage & CE_KU_EncipherOnly) { printf("EncipherOnly "); } if(usage & CE_KU_DecipherOnly) { printf("DecipherOnly "); } printf("\n"); } static void printBasicConstraints( const CSSM_DATA &value) { CSSM_X509_EXTENSION *cssmExt = (CSSM_X509_EXTENSION *)value.Data; CE_BasicConstraints *bc = (CE_BasicConstraints *)cssmExt->value.parsedValue; printf(" CA : %s\n", bc->cA ? "TRUE" : "FALSE"); if(bc->pathLenConstraintPresent) { printf(" pathLenConstr : %u\n", (unsigned)bc->pathLenConstraint); } } static void printExtKeyUsage( const CSSM_DATA &value, OidParser &parser) { CSSM_X509_EXTENSION *cssmExt = (CSSM_X509_EXTENSION *)value.Data; CE_ExtendedKeyUsage *eku = (CE_ExtendedKeyUsage *)cssmExt->value.parsedValue; unsigned oidDex; for(oidDex=0; oidDexnumPurposes; oidDex++) { printf(" purpose %2d : ", oidDex); printOid(parser, &eku->purposes[oidDex]); } } static void printAuthorityKeyId( const CSSM_DATA &value, OidParser &parser) { CSSM_X509_EXTENSION *cssmExt = (CSSM_X509_EXTENSION *)value.Data; CE_AuthorityKeyID *akid = (CE_AuthorityKeyID *)cssmExt->value.parsedValue; if(akid->keyIdentifierPresent) { printf(" keyIdentifier : "); printDataAsHex(&akid->keyIdentifier, 8); } if(akid->generalNamesPresent) { printGeneralNames(akid->generalNames, parser); } if(akid->serialNumberPresent) { printf(" serialNumber : "); printDataAsHex(&akid->serialNumber, 8); } } static void printSubjectAltName( const CSSM_DATA &value, OidParser &parser) { CSSM_X509_EXTENSION *cssmExt = (CSSM_X509_EXTENSION *)value.Data; CE_GeneralNames *san = (CE_GeneralNames *)cssmExt->value.parsedValue; printGeneralNames(san, parser); } static void printCertPolicies( const CSSM_DATA &value, OidParser &parser) { CSSM_X509_EXTENSION *cssmExt = (CSSM_X509_EXTENSION *)value.Data; CE_CertPolicies *cdsaObj = (CE_CertPolicies *)cssmExt->value.parsedValue; for(unsigned polDex=0; polDexnumPolicies; polDex++) { CE_PolicyInformation *cPolInfo = &cdsaObj->policies[polDex]; printf(" Policy %2d : ID ", polDex); printOid(parser, &cPolInfo->certPolicyId); for(unsigned qualDex=0; qualDexnumPolicyQualifiers; qualDex++) { CE_PolicyQualifierInfo *cQualInfo = &cPolInfo->policyQualifiers[qualDex]; printf(" Qual %2d : ID ", qualDex); printOid(parser, &cQualInfo->policyQualifierId); if(cuCompareCssmData(&cQualInfo->policyQualifierId, &CSSMOID_QT_CPS)) { printf(" CPS : "); printString(&cQualInfo->qualifier); } else { printf(" unparsed : "); printDataAsHex(&cQualInfo->qualifier, 8); } } } } static void printNetscapeCertType( const CSSM_DATA &value) { CE_NetscapeCertType certType; CSSM_X509_EXTENSION *cssmExt = (CSSM_X509_EXTENSION *)value.Data; certType = *((CE_NetscapeCertType *)cssmExt->value.parsedValue); printf(" certType : "); if(certType & CE_NCT_SSL_Client) { printf("SSL_Client "); } if(certType & CE_NCT_SSL_Server) { printf("SSL_Server "); } if(certType & CE_NCT_SMIME) { printf("S/MIME "); } if(certType & CE_NCT_ObjSign) { printf("ObjectSign "); } if(certType & CE_NCT_Reserved) { printf("Reserved "); } if(certType & CE_NCT_SSL_CA) { printf("SSL_CA "); } if(certType & CE_NCT_SMIME_CA) { printf("SMIME_CA "); } if(certType & CE_NCT_ObjSignCA) { printf("ObjSignCA "); } printf("\n"); } /* print one field */ void printCertField( const CSSM_FIELD &field, OidParser &parser, CSSM_BOOL verbose) { const CSSM_DATA *thisData = &field.FieldValue; const CSSM_OID *thisOid = &field.FieldOid; if(cuCompareCssmData(thisOid, &CSSMOID_X509V1Version)) { if(verbose) { printf("Version : %u\n", (unsigned)DER_ToInt(thisData)); } } else if(cuCompareCssmData(thisOid, &CSSMOID_X509V1SerialNumber)) { printf("Serial Number : "); printDataAsHex(thisData, 0); } else if(cuCompareCssmData(thisOid, &CSSMOID_X509V1IssuerNameCStruct)) { printf("Issuer Name :\n"); CSSM_X509_NAME_PTR name = (CSSM_X509_NAME_PTR)thisData->Data; if((name == NULL) || (thisData->Length != sizeof(CSSM_X509_NAME))) { printf(" ***malformed CSSM_X509_NAME\n"); } else { printName(name, parser); } } else if(cuCompareCssmData(thisOid, &CSSMOID_X509V1SubjectNameCStruct)) { printf("Subject Name :\n"); CSSM_X509_NAME_PTR name = (CSSM_X509_NAME_PTR)thisData->Data; if((name == NULL) || (thisData->Length != sizeof(CSSM_X509_NAME))) { printf(" ***malformed CSSM_X509_NAME\n"); } else { printName(name, parser); } } else if(cuCompareCssmData(thisOid, &CSSMOID_X509V1ValidityNotBefore)) { CSSM_X509_TIME *cssmTime = (CSSM_X509_TIME *)thisData->Data; if((cssmTime == NULL) || (thisData->Length != sizeof(CSSM_X509_TIME))) { printf(" ***malformed CSSM_X509_TIME\n"); } else if(verbose) { printf("Not Before : "); printString(&cssmTime->time); printf(" : "); printTime(cssmTime); } else { printf("Not Before : "); printTime(cssmTime); } } else if(cuCompareCssmData(thisOid, &CSSMOID_X509V1ValidityNotAfter)) { CSSM_X509_TIME *cssmTime = (CSSM_X509_TIME *)thisData->Data; if((cssmTime == NULL) || (thisData->Length != sizeof(CSSM_X509_TIME))) { printf(" ***malformed CSSM_X509_TIME\n"); } else if(verbose) { printf("Not After : "); printString(&cssmTime->time); printf(" : "); printTime(cssmTime); } else { printf("Not After : "); printTime(cssmTime); } } else if(cuCompareCssmData(thisOid, &CSSMOID_X509V1SignatureAlgorithmTBS)) { if(verbose) { /* normally skip, it's the same as TBS sig alg */ printf("TBS Sig Algorithm : "); CSSM_X509_ALGORITHM_IDENTIFIER *algId = (CSSM_X509_ALGORITHM_IDENTIFIER *)thisData->Data; if((algId == NULL) || (thisData->Length != sizeof(CSSM_X509_ALGORITHM_IDENTIFIER))) { printf(" ***malformed CSSM_X509_ALGORITHM_IDENTIFIER\n"); } else { printSigAlg(algId, parser); } } } else if(cuCompareCssmData(thisOid, &CSSMOID_X509V1SignatureAlgorithm)) { printf("Cert Sig Algorithm : "); CSSM_X509_ALGORITHM_IDENTIFIER *algId = (CSSM_X509_ALGORITHM_IDENTIFIER *)thisData->Data; if((algId == NULL) || (thisData->Length != sizeof(CSSM_X509_ALGORITHM_IDENTIFIER))) { printf(" ***malformed CSSM_X509_ALGORITHM_IDENTIFIER\n"); } else { printSigAlg(algId, parser); } } else if(cuCompareCssmData(thisOid, &CSSMOID_X509V1CertificateIssuerUniqueId)) { if(verbose) { printf("Issuer UniqueId : "); printDerThing(BER_TAG_BIT_STRING, thisData, parser); } } else if(cuCompareCssmData(thisOid, &CSSMOID_X509V1CertificateSubjectUniqueId)) { if(verbose) { printf("Subject UniqueId : "); printDerThing(BER_TAG_BIT_STRING, thisData, parser); } } else if(cuCompareCssmData(thisOid, &CSSMOID_X509V1SubjectPublicKeyCStruct)) { CSSM_X509_SUBJECT_PUBLIC_KEY_INFO *pubKeyInfo = (CSSM_X509_SUBJECT_PUBLIC_KEY_INFO *)thisData->Data; printf("Pub Key Algorithm : "); if((pubKeyInfo == NULL) || (thisData->Length != sizeof(CSSM_X509_SUBJECT_PUBLIC_KEY_INFO))) { printf(" ***malformed CSSM_X509_SUBJECT_PUBLIC_KEY_INFO\n"); } else { printSigAlg(&pubKeyInfo->algorithm, parser); printf("Pub key Bytes : Length %u bytes : ", (unsigned)pubKeyInfo->subjectPublicKey.Length); printDataAsHex(&pubKeyInfo->subjectPublicKey, 8); } } else if(cuCompareCssmData(thisOid, &CSSMOID_CSSMKeyStruct)) { CSSM_KEY_PTR cssmKey = (CSSM_KEY_PTR)thisData->Data; printf("CSSM Key :\n"); if((cssmKey == NULL) || (thisData->Length != sizeof(CSSM_KEY))) { printf(" ***malformed CSSM_KEY\n"); } else { printKeyHeader(cssmKey->KeyHeader); } } else if(cuCompareCssmData(thisOid, &CSSMOID_X509V1Signature)) { printf("Signature : %u bytes : ", (unsigned)thisData->Length); printDataAsHex(thisData, 8); } else if(cuCompareCssmData(thisOid, &CSSMOID_X509V3CertificateExtensionCStruct)) { if(printExtensionCommon(*thisData, parser, false)) { return; } CSSM_X509_EXTENSION *cssmExt = (CSSM_X509_EXTENSION *)thisData->Data; printf(" Unparsed data : "); printDataAsHex(&cssmExt->BERvalue, 8); } else if(cuCompareCssmData(thisOid, &CSSMOID_KeyUsage)) { if(printExtensionCommon(*thisData, parser)) { return; } printKeyUsage(*thisData); } else if(cuCompareCssmData(thisOid, &CSSMOID_BasicConstraints)) { if(printExtensionCommon(*thisData, parser)) { return; } printBasicConstraints(*thisData); } else if(cuCompareCssmData(thisOid, &CSSMOID_ExtendedKeyUsage)) { if(printExtensionCommon(*thisData, parser)) { return; } printExtKeyUsage(*thisData, parser); } else if(cuCompareCssmData(thisOid, &CSSMOID_SubjectKeyIdentifier)) { if(printExtensionCommon(*thisData, parser)) { return; } CSSM_X509_EXTENSION *cssmExt = (CSSM_X509_EXTENSION *)thisData->Data; CSSM_DATA_PTR cdata = (CSSM_DATA_PTR)cssmExt->value.parsedValue; if((cdata == NULL) || (cdata->Data == NULL)) { printf("****Malformed extension (no parsedValue)\n"); } else { printf(" Subject KeyID : "); printDataAsHex(cdata, 8); } } else if(cuCompareCssmData(thisOid, &CSSMOID_AuthorityKeyIdentifier)) { if(printExtensionCommon(*thisData, parser)) { return; } printAuthorityKeyId(*thisData, parser); } else if(cuCompareCssmData(thisOid, &CSSMOID_SubjectAltName)) { if(printExtensionCommon(*thisData, parser)) { return; } printSubjectAltName(*thisData, parser); } else if(cuCompareCssmData(thisOid, &CSSMOID_CertificatePolicies)) { if(printExtensionCommon(*thisData, parser)) { return; } printCertPolicies(*thisData, parser); } else if(cuCompareCssmData(thisOid, &CSSMOID_NetscapeCertType)) { if(printExtensionCommon(*thisData, parser)) { return; } printNetscapeCertType(*thisData); } else if(cuCompareCssmData(thisOid, &CSSMOID_X509V1IssuerName)) { if(verbose) { printf("Normalized Issuer : "); printDataAsHex(thisData, 8); } } else if(cuCompareCssmData(thisOid, &CSSMOID_X509V1SubjectName)) { if(verbose) { printf("Normalized Subject : "); printDataAsHex(thisData, 8); } } else { printf("other field: : "); printOid(parser, thisOid); } } /* connect to CSSM/CL lazily, once */ static CSSM_CL_HANDLE clHand = 0; int printCert( const unsigned char *certData, unsigned certLen, CSSM_BOOL verbose) { CSSM_FIELD_PTR fieldPtr; // mallocd by CL uint32 i; uint32 numFields; OidParser parser; CSSM_DATA cert; if(clHand == 0) { clHand = cuClStartup(); if(clHand == 0) { printf("***Error connecting to CSSM cert module; aborting cert display\n"); return 0; } } cert.Data = (uint8 *)certData; cert.Length = certLen; CSSM_RETURN crtn = CSSM_CL_CertGetAllFields(clHand, &cert, &numFields, &fieldPtr); if(crtn) { cuPrintError("CSSM_CL_CertGetAllFields", crtn); return crtn; } for(i=0; i