+/*
+ * Copyright (c) 2002-2007,2011-2014 Apple Inc. All Rights Reserved.
+ *
+ * @APPLE_LICENSE_HEADER_START@
+ *
+ * This file contains Original Code and/or Modifications of Original Code
+ * as defined in and that are subject to the Apple Public Source License
+ * Version 2.0 (the 'License'). You may not use this file except in
+ * compliance with the License. Please obtain a copy of the License at
+ * http://www.opensource.apple.com/apsl/ and read it before using this
+ * file.
+ *
+ * The Original Code and all software distributed under the License are
+ * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
+ * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
+ * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
+ * Please see the License for the specific language governing rights and
+ * limitations under the License.
+ *
+ * @APPLE_LICENSE_HEADER_END@
+ */
+
+//
+// Certificate.cpp
+//
+#include <security_keychain/Certificate.h>
+#include <security_cdsa_utilities/Schema.h>
+#include <Security/oidscert.h>
+#include <Security/oidsattr.h>
+#include <Security/SecCertificate.h>
+#include <Security/SecCertificatePriv.h>
+#include <security_cdsa_client/cspclient.h>
+#include <security_keychain/KeyItem.h>
+#include <security_keychain/KCCursor.h>
+#include <vector>
+#include <CommonCrypto/CommonDigestSPI.h>
+#include <SecBase.h>
+
+using namespace KeychainCore;
+
+CL
+Certificate::clForType(CSSM_CERT_TYPE type)
+{
+ return CL(gGuidAppleX509CL);
+}
+
+Certificate::Certificate(const CSSM_DATA &data, CSSM_CERT_TYPE type, CSSM_CERT_ENCODING encoding) :
+ ItemImpl(CSSM_DL_DB_RECORD_X509_CERTIFICATE, reinterpret_cast<SecKeychainAttributeList *>(NULL), UInt32(data.Length), reinterpret_cast<const void *>(data.Data)),
+ mHaveTypeAndEncoding(true),
+ mPopulated(false),
+ mType(type),
+ mEncoding(encoding),
+ mCL(clForType(type)),
+ mCertHandle(0),
+ mV1SubjectPublicKeyCStructValue(NULL),
+ mV1SubjectNameCStructValue(NULL),
+ mV1IssuerNameCStructValue(NULL),
+ mSha1Hash(NULL)
+{
+ if (data.Length == 0 || data.Data == NULL)
+ MacOSError::throwMe(errSecParam);
+}
+
+// db item constructor
+Certificate::Certificate(const Keychain &keychain, const PrimaryKey &primaryKey, const CssmClient::DbUniqueRecord &uniqueId) :
+ ItemImpl(keychain, primaryKey, uniqueId),
+ mHaveTypeAndEncoding(false),
+ mPopulated(false),
+ mCL(NULL),
+ mCertHandle(0),
+ mV1SubjectPublicKeyCStructValue(NULL),
+ mV1SubjectNameCStructValue(NULL),
+ mV1IssuerNameCStructValue(NULL),
+ mSha1Hash(NULL)
+{
+}
+
+
+
+Certificate* Certificate::make(const Keychain &keychain, const PrimaryKey &primaryKey, const CssmClient::DbUniqueRecord &uniqueId)
+{
+ Certificate* c = new Certificate(keychain, primaryKey, uniqueId);
+ keychain->addItem(primaryKey, c);
+ return c;
+}
+
+
+
+Certificate* Certificate::make(const Keychain &keychain, const PrimaryKey &primaryKey)
+{
+ Certificate* c = new Certificate(keychain, primaryKey);
+ keychain->addItem(primaryKey, c);
+ return c;
+}
+
+
+
+
+// PrimaryKey item constructor
+Certificate::Certificate(const Keychain &keychain, const PrimaryKey &primaryKey) :
+ ItemImpl(keychain, primaryKey),
+ mHaveTypeAndEncoding(false),
+ mPopulated(false),
+ mCL(NULL),
+ mCertHandle(0),
+ mV1SubjectPublicKeyCStructValue(NULL),
+ mV1SubjectNameCStructValue(NULL),
+ mV1IssuerNameCStructValue(NULL),
+ mSha1Hash(NULL)
+{
+ // @@@ In this case we don't know the type...
+}
+
+Certificate::Certificate(Certificate &certificate) :
+ ItemImpl(certificate),
+ mHaveTypeAndEncoding(certificate.mHaveTypeAndEncoding),
+ mPopulated(false /* certificate.mPopulated */),
+ mType(certificate.mType),
+ mEncoding(certificate.mEncoding),
+ mCL(certificate.mCL),
+ mCertHandle(0),
+ mV1SubjectPublicKeyCStructValue(NULL),
+ mV1SubjectNameCStructValue(NULL),
+ mV1IssuerNameCStructValue(NULL),
+ mSha1Hash(NULL)
+{
+}
+
+Certificate::~Certificate()
+try
+{
+ if (mV1SubjectPublicKeyCStructValue)
+ releaseFieldValue(CSSMOID_X509V1SubjectPublicKeyCStruct, mV1SubjectPublicKeyCStructValue);
+
+ if (mCertHandle && mCL)
+ CSSM_CL_CertAbortCache(mCL->handle(), mCertHandle);
+
+ if (mV1SubjectNameCStructValue)
+ releaseFieldValue(CSSMOID_X509V1SubjectNameCStruct, mV1SubjectNameCStructValue);
+
+ if (mV1IssuerNameCStructValue)
+ releaseFieldValue(CSSMOID_X509V1IssuerNameCStruct, mV1IssuerNameCStructValue);
+
+ if (mSha1Hash)
+ CFRelease(mSha1Hash);
+}
+catch (...)
+{
+}
+
+CSSM_HANDLE
+Certificate::certHandle()
+{
+ StLock<Mutex>_(mMutex);
+ const CSSM_DATA *cert = &data();
+ if (!mCertHandle)
+ {
+ if (CSSM_RETURN retval = CSSM_CL_CertCache(clHandle(), cert, &mCertHandle))
+ CssmError::throwMe(retval);
+ }
+
+ return mCertHandle;
+}
+
+/* Return a zero terminated list of CSSM_DATA_PTR's with the values of the field specified by field. Caller must call releaseFieldValues to free the storage allocated by this call. */
+CSSM_DATA_PTR *
+Certificate::copyFieldValues(const CSSM_OID &field)
+{
+ StLock<Mutex>_(mMutex);
+ CSSM_CL_HANDLE clh = clHandle();
+ CSSM_DATA_PTR fieldValue, *fieldValues;
+ CSSM_HANDLE resultsHandle = 0;
+ uint32 numberOfFields = 0;
+ CSSM_RETURN result;
+
+ result = CSSM_CL_CertGetFirstCachedFieldValue(clh, certHandle(), &field, &resultsHandle, &numberOfFields, &fieldValue);
+ if (result)
+ {
+ if (result == CSSMERR_CL_NO_FIELD_VALUES)
+ return NULL;
+
+ CssmError::throwMe(result);
+ }
+
+ fieldValues = new CSSM_DATA_PTR[numberOfFields + 1];
+ fieldValues[0] = fieldValue;
+ fieldValues[numberOfFields] = NULL;
+
+ for (uint32 value = 1; value < numberOfFields; ++value)
+ {
+ CSSM_RETURN cresult = CSSM_CL_CertGetNextCachedFieldValue(clh, resultsHandle, &fieldValues[value]);
+ if (cresult)
+ {
+ fieldValues[value] = NULL;
+ result = cresult;
+ break; // No point in continuing really.
+ }
+ }
+
+ CSSM_CL_CertAbortQuery(clh, resultsHandle);
+
+ if (result)
+ {
+ releaseFieldValues(field, fieldValues);
+ CssmError::throwMe(result);
+ }
+
+ return fieldValues;
+}
+
+void
+Certificate::releaseFieldValues(const CSSM_OID &field, CSSM_DATA_PTR *fieldValues)
+{
+ StLock<Mutex>_(mMutex);
+ if (fieldValues)
+ {
+ CSSM_CL_HANDLE clh = clHandle();
+
+ for (int ix = 0; fieldValues[ix]; ++ix)
+ CSSM_CL_FreeFieldValue(clh, &field, fieldValues[ix]);
+
+ delete[] fieldValues;
+ }
+}
+
+void
+Certificate::addParsedAttribute(const CSSM_DB_ATTRIBUTE_INFO &info, const CSSM_OID &field)
+{
+ StLock<Mutex>_(mMutex);
+ CSSM_DATA_PTR *fieldValues = copyFieldValues(field);
+ if (fieldValues)
+ {
+ CssmDbAttributeData &anAttr = mDbAttributes->add(info);
+ for (int ix = 0; fieldValues[ix]; ++ix)
+ anAttr.add(*fieldValues[ix], *mDbAttributes);
+
+ releaseFieldValues(field, fieldValues);
+ }
+}
+
+void
+Certificate::addSubjectKeyIdentifier()
+{
+ StLock<Mutex>_(mMutex);
+ const CSSM_DB_ATTRIBUTE_INFO &info = Schema::attributeInfo(kSecSubjectKeyIdentifierItemAttr);
+ const CSSM_OID &field = CSSMOID_SubjectKeyIdentifier;
+
+ CSSM_DATA_PTR *fieldValues = copyFieldValues(field);
+ if (fieldValues)
+ {
+ CssmDbAttributeData &anAttr = mDbAttributes->add(info);
+ for (int ix = 0; fieldValues[ix]; ++ix)
+ {
+ const CSSM_X509_EXTENSION *extension = reinterpret_cast<const CSSM_X509_EXTENSION *>(fieldValues[ix]->Data);
+ if (extension == NULL || fieldValues[ix]->Length != sizeof(CSSM_X509_EXTENSION))
+ {
+ assert(extension != NULL && fieldValues[ix]->Length == sizeof(CSSM_X509_EXTENSION));
+ continue;
+ }
+ const CE_SubjectKeyID *skid = reinterpret_cast<CE_SubjectKeyID *>(extension->value.parsedValue);
+ if (skid == NULL)
+ {
+ assert(skid != NULL);
+ continue;
+ }
+ anAttr.add(*skid, *mDbAttributes);
+ }
+
+ releaseFieldValues(field, fieldValues);
+ }
+}
+
+/* Return a CSSM_DATA_PTR with the value of the first field specified by field. Caller must call releaseFieldValue to free the storage allocated by this call. */
+CSSM_DATA_PTR
+Certificate::copyFirstFieldValue(const CSSM_OID &field)
+{
+ StLock<Mutex>_(mMutex);
+ CSSM_CL_HANDLE clh = clHandle();
+ CSSM_DATA_PTR fieldValue;
+ CSSM_HANDLE resultsHandle = 0;
+ uint32 numberOfFields = 0;
+ CSSM_RETURN result;
+
+ result = CSSM_CL_CertGetFirstCachedFieldValue(clh, certHandle(), &field, &resultsHandle, &numberOfFields, &fieldValue);
+ if (result)
+ {
+ if (result == CSSMERR_CL_NO_FIELD_VALUES)
+ return NULL;
+
+ CssmError::throwMe(result);
+ }
+
+ result = CSSM_CL_CertAbortQuery(clh, resultsHandle);
+
+ if (result)
+ {
+ releaseFieldValue(field, fieldValue);
+ CssmError::throwMe(result);
+ }
+
+ return fieldValue;
+}
+
+void
+Certificate::releaseFieldValue(const CSSM_OID &field, CSSM_DATA_PTR fieldValue)
+{
+ StLock<Mutex>_(mMutex);
+ if (fieldValue)
+ {
+ CSSM_CL_HANDLE clh = clHandle();
+ CSSM_CL_FreeFieldValue(clh, &field, fieldValue);
+ }
+}
+
+
+
+/*
+ This method computes the keyIdentifier for the public key in the cert as
+ described below:
+
+ The keyIdentifier is composed of the 160-bit SHA-1 hash of the
+ value of the BIT STRING subjectPublicKey (excluding the tag,
+ length, and number of unused bits).
+*/
+const CssmData &
+Certificate::publicKeyHash()
+{
+ StLock<Mutex>_(mMutex);
+ if (mPublicKeyHash.Length)
+ return mPublicKeyHash;
+
+ CSSM_DATA_PTR keyPtr = copyFirstFieldValue(CSSMOID_CSSMKeyStruct);
+ if (keyPtr && keyPtr->Data)
+ {
+ CssmClient::CSP csp(gGuidAppleCSP);
+ CssmClient::PassThrough passThrough(csp);
+ CSSM_KEY *key = reinterpret_cast<CSSM_KEY *>(keyPtr->Data);
+ void *outData;
+ CssmData *cssmData;
+
+ /* Given a CSSM_KEY_PTR in any format, obtain the SHA-1 hash of the
+ * associated key blob.
+ * Key is specified in CSSM_CSP_CreatePassThroughContext.
+ * Hash is allocated by the CSP, in the App's memory, and returned
+ * in *outData. */
+ passThrough.key(key);
+ passThrough(CSSM_APPLECSP_KEYDIGEST, NULL, &outData);
+ cssmData = reinterpret_cast<CssmData *>(outData);
+
+ assert(cssmData->Length <= sizeof(mPublicKeyHashBytes));
+ mPublicKeyHash.Data = mPublicKeyHashBytes;
+ mPublicKeyHash.Length = cssmData->Length;
+ memcpy(mPublicKeyHash.Data, cssmData->Data, cssmData->Length);
+ csp.allocator().free(cssmData->Data);
+ csp.allocator().free(cssmData);
+ }
+
+ releaseFieldValue(CSSMOID_CSSMKeyStruct, keyPtr);
+
+ return mPublicKeyHash;
+}
+
+const CssmData &
+Certificate::subjectKeyIdentifier()
+{
+ StLock<Mutex>_(mMutex);
+ if (mSubjectKeyID.Length)
+ return mSubjectKeyID;
+
+ CSSM_DATA_PTR fieldValue = copyFirstFieldValue(CSSMOID_SubjectKeyIdentifier);
+ if (fieldValue && fieldValue->Data && fieldValue->Length == sizeof(CSSM_X509_EXTENSION))
+ {
+ const CSSM_X509_EXTENSION *extension = reinterpret_cast<const CSSM_X509_EXTENSION *>(fieldValue->Data);
+ const CE_SubjectKeyID *skid = reinterpret_cast<CE_SubjectKeyID *>(extension->value.parsedValue); // CSSM_DATA
+
+ if (skid->Length <= sizeof(mSubjectKeyIDBytes))
+ {
+ mSubjectKeyID.Data = mSubjectKeyIDBytes;
+ mSubjectKeyID.Length = skid->Length;
+ memcpy(mSubjectKeyID.Data, skid->Data, skid->Length);
+ }
+ else
+ mSubjectKeyID.Length = 0;
+ }
+
+ releaseFieldValue(CSSMOID_SubjectKeyIdentifier, fieldValue);
+
+ return mSubjectKeyID;
+}
+
+
+/*
+ * Given an CSSM_X509_NAME, Find the first (or last) name/value pair with
+ * a printable value which matches the specified OID (e.g., CSSMOID_CommonName).
+ * Returns the CFString-style encoding associated with name component's BER tag.
+ * Returns NULL if none found.
+ */
+static const CSSM_DATA *
+findPrintableField(
+ const CSSM_X509_NAME &x509Name,
+ const CSSM_OID *tvpType, // NULL means "any printable field"
+ bool lastInstance, // false means return first instance
+ CFStringBuiltInEncodings *encoding) // RETURNED
+{
+ const CSSM_DATA *result = NULL;
+ for(uint32 rdnDex=0; rdnDex<x509Name.numberOfRDNs; rdnDex++) {
+ const CSSM_X509_RDN *rdnPtr =
+ &x509Name.RelativeDistinguishedName[rdnDex];
+ for(uint32 tvpDex=0; tvpDex<rdnPtr->numberOfPairs; tvpDex++) {
+ const CSSM_X509_TYPE_VALUE_PAIR *tvpPtr =
+ &rdnPtr->AttributeTypeAndValue[tvpDex];
+
+ /* type/value pair: match caller's specified type? */
+ if(tvpType != NULL && tvpType->Data != NULL) {
+ if(tvpPtr->type.Length != tvpType->Length) {
+ continue;
+ }
+ if(memcmp(tvpPtr->type.Data, tvpType->Data, tvpType->Length)) {
+ /* If we don't have a match but the requested OID is CSSMOID_UserID,
+ * look for a matching X.500 UserID OID: (0.9.2342.19200300.100.1.1) */
+ const char cssm_userid_oid[] = { 0x09,0x49,0x86,0x49,0x1f,0x12,0x8c,0xe4,0x81,0x81 };
+ const char x500_userid_oid[] = { 0x09,0x92,0x26,0x89,0x93,0xF2,0x2C,0x64,0x01,0x01 };
+ if(!(tvpType->Length == sizeof(cssm_userid_oid) &&
+ !memcmp(tvpPtr->type.Data, x500_userid_oid, sizeof(x500_userid_oid)) &&
+ !memcmp(tvpType->Data, cssm_userid_oid, sizeof(cssm_userid_oid)))) {
+ continue;
+ }
+ }
+ }
+
+ /* printable? */
+ switch(tvpPtr->valueType) {
+ case BER_TAG_PRINTABLE_STRING:
+ case BER_TAG_IA5_STRING:
+ *encoding = kCFStringEncodingASCII;
+ result = &tvpPtr->value;
+ break;
+ case BER_TAG_PKIX_UTF8_STRING:
+ case BER_TAG_GENERAL_STRING:
+ case BER_TAG_PKIX_UNIVERSAL_STRING:
+ *encoding = kCFStringEncodingUTF8;
+ result = &tvpPtr->value;
+ break;
+ case BER_TAG_T61_STRING:
+ case BER_TAG_VIDEOTEX_STRING:
+ case BER_TAG_ISO646_STRING:
+ *encoding = kCFStringEncodingISOLatin1;
+ result = &tvpPtr->value;
+ break;
+ case BER_TAG_PKIX_BMP_STRING:
+ *encoding = kCFStringEncodingUnicode;
+ result = &tvpPtr->value;
+ break;
+ default:
+ /* not printable */
+ break;
+ }
+ /* if we found a result and we want the first instance, return it now. */
+ if(result && !lastInstance) {
+ return result;
+ }
+
+ } /* for each pair */
+ } /* for each RDN */
+
+ /* result is NULL if no printable component was found */
+ return result;
+}
+
+/*
+ * Infer printable label for a given CSSM_X509_NAME. Returns NULL
+ * if no appropriate printable name found. Returns the CFString-style
+ * encoding associated with name component's BER tag. Also optionally
+ * returns Description component and its encoding if present and the
+ * returned name component was one we explicitly requested.
+ */
+static const CSSM_DATA *inferLabelFromX509Name(
+ const CSSM_X509_NAME *x509Name,
+ CFStringBuiltInEncodings *encoding, // RETURNED
+ const CSSM_DATA **description, // optionally RETURNED
+ CFStringBuiltInEncodings *descrEncoding) // RETURNED if description != NULL
+{
+ const CSSM_DATA *printValue;
+ if(description != NULL) {
+ *description = findPrintableField(*x509Name, &CSSMOID_Description, false, descrEncoding);
+ }
+ /*
+ * Search order (take the first one found with a printable
+ * value):
+ * -- common name
+ * -- Organizational Unit
+ * -- Organization
+ * -- email address
+ * -- field of any kind
+ */
+ printValue = findPrintableField(*x509Name, &CSSMOID_CommonName, true, encoding);
+ if(printValue != NULL) {
+ return printValue;
+ }
+ printValue = findPrintableField(*x509Name, &CSSMOID_OrganizationalUnitName, false, encoding);
+ if(printValue != NULL) {
+ return printValue;
+ }
+ printValue = findPrintableField(*x509Name, &CSSMOID_OrganizationName, false, encoding);
+ if(printValue != NULL) {
+ return printValue;
+ }
+ printValue = findPrintableField(*x509Name, &CSSMOID_EmailAddress, false, encoding);
+ if(printValue != NULL) {
+ return printValue;
+ }
+ /* if we didn't get one of the above names, don't append description */
+ if(description != NULL) {
+ *description = NULL;
+ }
+ /* take anything */
+ return findPrintableField(*x509Name, NULL, false, encoding);
+}
+
+/*
+ * Infer printable label for a given an CSSM_X509_NAME. Returns NULL
+ * if no appropriate printable name found.
+ */
+const CSSM_DATA *SecInferLabelFromX509Name(
+ const CSSM_X509_NAME *x509Name)
+{
+ /* callees of this routine don't care about the encoding */
+ CFStringBuiltInEncodings encoding = kCFStringEncodingASCII;
+ return inferLabelFromX509Name(x509Name, &encoding, NULL, &encoding);
+}
+
+
+void
+Certificate::inferLabel(bool addLabel, CFStringRef *rtnString)
+{
+ StLock<Mutex>_(mMutex);
+ // Set PrintName and optionally the Alias attribute for this certificate, based on the
+ // X509 SubjectAltName and SubjectName.
+ const CSSM_DATA *printName = NULL;
+ const CSSM_DATA *description = NULL;
+ std::vector<CssmData> emailAddresses;
+ CSSM_DATA puntData;
+ CssmAutoData printPlusDescr(Allocator::standard());
+ CssmData printPlusDescData;
+ CFStringBuiltInEncodings printEncoding = kCFStringEncodingUTF8;
+ CFStringBuiltInEncodings descrEncoding = kCFStringEncodingUTF8;
+
+ // Find the SubjectAltName fields, if any, and extract all the GNT_RFC822Name entries from all of them
+ const CSSM_OID &sanOid = CSSMOID_SubjectAltName;
+ CSSM_DATA_PTR *sanValues = copyFieldValues(sanOid);
+ const CSSM_OID &snOid = CSSMOID_X509V1SubjectNameCStruct;
+ CSSM_DATA_PTR snValue = copyFirstFieldValue(snOid);
+
+ getNames(sanValues, snValue, GNT_RFC822Name, emailAddresses);
+
+ if (snValue && snValue->Data)
+ {
+ const CSSM_X509_NAME &x509Name = *(const CSSM_X509_NAME *)snValue->Data;
+ printName = inferLabelFromX509Name(&x509Name, &printEncoding,
+ &description, &descrEncoding);
+ if (printName)
+ {
+ /* Don't ever use "Thawte Freemail Member" as the label for a cert. Instead force
+ a fall back on the email address. */
+ const char tfm[] = "Thawte Freemail Member";
+ if ( (printName->Length == sizeof(tfm) - 1) &&
+ !memcmp(printName->Data, tfm, sizeof(tfm) - 1)) {
+ printName = NULL;
+ }
+ }
+ }
+
+ /* Do a check to see if a '\0' was at the end of printName and strip it. */
+ CssmData cleanedUpPrintName;
+ if((printName != NULL) &&
+ (printName->Length != 0) &&
+ (printEncoding != kCFStringEncodingISOLatin1) &&
+ (printEncoding != kCFStringEncodingUnicode) &&
+ (printName->Data[printName->Length - 1] == '\0')) {
+ cleanedUpPrintName.Data = printName->Data;
+ cleanedUpPrintName.Length = printName->Length - 1;
+ printName = &cleanedUpPrintName;
+ }
+
+ if((printName != NULL) && (description != NULL) && (description->Length != 0))
+ {
+ /*
+ * Munge Print Name (which in this case is the CommonName) and Description
+ * together with the Description in parentheses. We convert from whatever
+ * format Print Name and Description are in to UTF8 here.
+ */
+ CFRef<CFMutableStringRef> combo(CFStringCreateMutable(NULL, 0));
+ CFRef<CFStringRef> cfPrint(CFStringCreateWithBytes(NULL, printName->Data,
+ (CFIndex)printName->Length, printEncoding, true));
+ CssmData cleanedUpDescr(description->Data, description->Length);
+ if ((cleanedUpDescr.Data[cleanedUpDescr.Length - 1] == '\0') &&
+ (descrEncoding != kCFStringEncodingISOLatin1) &&
+ (descrEncoding != kCFStringEncodingUnicode)) {
+ cleanedUpDescr.Length--;
+ }
+ CFRef<CFStringRef> cfDesc(CFStringCreateWithBytes(NULL, cleanedUpDescr.Data,
+ (CFIndex)cleanedUpDescr.Length, descrEncoding, true));
+ CFStringAppend(combo, cfPrint);
+ CFStringAppendCString(combo, " (", kCFStringEncodingASCII);
+ CFStringAppend(combo, cfDesc);
+ CFStringAppendCString(combo, ")", kCFStringEncodingASCII);
+ CFRef<CFDataRef> comboData(CFStringCreateExternalRepresentation(NULL, combo,
+ kCFStringEncodingUTF8, 0));
+ printPlusDescr.copy(CFDataGetBytePtr(comboData), CFDataGetLength(comboData));
+ printPlusDescData = printPlusDescr;
+ printName = &printPlusDescData;
+ printEncoding = kCFStringEncodingUTF8;
+ }
+
+ if (printName == NULL)
+ {
+ /* If the we couldn't find a label use the emailAddress instead. */
+ if (!emailAddresses.empty())
+ printName = &emailAddresses[0];
+ else
+ {
+ /* punt! */
+ puntData.Data = (uint8 *)"X509 Certificate";
+ puntData.Length = 16;
+ printName = &puntData;
+ }
+ printEncoding = kCFStringEncodingUTF8;
+ }
+
+ /* If we couldn't find an email address just use the printName which might be the url or something else useful. */
+ if (emailAddresses.empty())
+ emailAddresses.push_back(CssmData::overlay(*printName));
+
+ /* What do we do with the inferred label - return it or add it mDbAttributes? */
+ if (addLabel)
+ {
+ mDbAttributes->add(Schema::kX509CertificatePrintName, *printName);
+ CssmDbAttributeData &attrData = mDbAttributes->add(Schema::kX509CertificateAlias);
+
+ /* Add the email addresses to attrData and normalize them. */
+ uint32 ix = 0;
+ for (std::vector<CssmData>::const_iterator it = emailAddresses.begin(); it != emailAddresses.end(); ++it, ++ix)
+ {
+ /* Add the email address using the allocator from mDbAttributes. */
+ attrData.add(*it, *mDbAttributes);
+ /* Normalize the emailAddresses in place since attrData already copied it. */
+ normalizeEmailAddress(attrData.Value[ix]);
+ }
+ }
+
+ if (rtnString)
+ {
+ CFStringBuiltInEncodings testEncoding = printEncoding;
+ if(testEncoding == kCFStringEncodingISOLatin1) {
+ // try UTF-8 first
+ testEncoding = kCFStringEncodingUTF8;
+ }
+ *rtnString = CFStringCreateWithBytes(NULL, printName->Data,
+ (CFIndex)printName->Length, testEncoding, true);
+ if(*rtnString == NULL && printEncoding == kCFStringEncodingISOLatin1) {
+ // string cannot be represented in UTF-8, fall back to ISO Latin 1
+ *rtnString = CFStringCreateWithBytes(NULL, printName->Data,
+ (CFIndex)printName->Length, printEncoding, true);
+ }
+ }
+
+ // Clean up
+ if (snValue)
+ releaseFieldValue(snOid, snValue);
+ if (sanValues)
+ releaseFieldValues(sanOid, sanValues);
+}
+
+void
+Certificate::populateAttributes()
+{
+ StLock<Mutex>_(mMutex);
+ if (mPopulated)
+ return;
+
+ addParsedAttribute(Schema::attributeInfo(kSecSubjectItemAttr), CSSMOID_X509V1SubjectName);
+ addParsedAttribute(Schema::attributeInfo(kSecIssuerItemAttr), CSSMOID_X509V1IssuerName);
+ addParsedAttribute(Schema::attributeInfo(kSecSerialNumberItemAttr), CSSMOID_X509V1SerialNumber);
+
+ addSubjectKeyIdentifier();
+
+ if(!mHaveTypeAndEncoding)
+ MacOSError::throwMe(errSecDataNotAvailable); // @@@ Or some other error.
+
+ // Adjust mType based on the actual version of the cert.
+ CSSM_DATA_PTR versionPtr = copyFirstFieldValue(CSSMOID_X509V1Version);
+ if (versionPtr && versionPtr->Data && versionPtr->Length == sizeof(uint32))
+ {
+ mType = CSSM_CERT_X_509v1 + (*reinterpret_cast<uint32 *>(versionPtr->Data));
+ }
+ else
+ mType = CSSM_CERT_X_509v1;
+
+ releaseFieldValue(CSSMOID_X509V1Version, versionPtr);
+
+ mDbAttributes->add(Schema::attributeInfo(kSecCertTypeItemAttr), mType);
+ mDbAttributes->add(Schema::attributeInfo(kSecCertEncodingItemAttr), mEncoding);
+ mDbAttributes->add(Schema::attributeInfo(kSecPublicKeyHashItemAttr), publicKeyHash());
+ inferLabel(true);
+
+ mPopulated = true;
+}
+
+const CssmData &
+Certificate::data()
+{
+ StLock<Mutex>_(mMutex);
+ CssmDataContainer *data = mData.get();
+ if (!data && mKeychain)
+ {
+ // Make sure mUniqueId is set.
+ dbUniqueRecord();
+ CssmDataContainer _data;
+ mData = NULL;
+ /* new data allocated by CSPDL, implicitly freed by CssmDataContainer */
+ mUniqueId->get(NULL, &_data);
+ /* this saves a copy to be freed at destruction and to be passed to caller */
+ setData((UInt32)_data.length(), _data.data());
+ return *mData.get();
+ }
+
+ // If the data hasn't been set we can't return it.
+ if (!data)
+ MacOSError::throwMe(errSecDataNotAvailable);
+
+ return *data;
+}
+
+CFHashCode Certificate::hash()
+{
+ (void)data(); // ensure that mData is set up
+ return ItemImpl::hash();
+}
+
+CSSM_CERT_TYPE
+Certificate::type()
+{
+ StLock<Mutex>_(mMutex);
+ if (!mHaveTypeAndEncoding)
+ {
+ SecKeychainAttribute attr;
+ attr.tag = kSecCertTypeItemAttr;
+ attr.data = &mType;
+ attr.length = sizeof(mType);
+ getAttribute(attr, NULL);
+ }
+
+ return mType;
+}
+
+CSSM_CERT_ENCODING
+Certificate::encoding()
+{
+ StLock<Mutex>_(mMutex);
+ if (!mHaveTypeAndEncoding)
+ {
+ SecKeychainAttribute attr;
+ attr.tag = kSecCertEncodingItemAttr;
+ attr.data = &mEncoding;
+ attr.length = sizeof(mEncoding);
+ getAttribute(attr, NULL);
+ }
+
+ return mEncoding;
+}
+
+const CSSM_X509_ALGORITHM_IDENTIFIER_PTR
+Certificate::algorithmID()
+{
+ StLock<Mutex>_(mMutex);
+ if (!mV1SubjectPublicKeyCStructValue)
+ mV1SubjectPublicKeyCStructValue = copyFirstFieldValue(CSSMOID_X509V1SubjectPublicKeyCStruct);
+
+ CSSM_X509_SUBJECT_PUBLIC_KEY_INFO *info = (CSSM_X509_SUBJECT_PUBLIC_KEY_INFO *)mV1SubjectPublicKeyCStructValue->Data;
+ CSSM_X509_ALGORITHM_IDENTIFIER *algid = &info->algorithm;
+ return algid;
+}
+
+CFDataRef
+Certificate::sha1Hash()
+{
+ StLock<Mutex>_(mMutex);
+ if (!mSha1Hash) {
+ SecCertificateRef certRef = handle(false);
+ CFAllocatorRef allocRef = (certRef) ? CFGetAllocator(certRef) : NULL;
+ CSSM_DATA certData = data();
+ if (certData.Length == 0 || !certData.Data) {
+ MacOSError::throwMe(errSecDataNotAvailable);
+ }
+ const UInt8 *dataPtr = (const UInt8 *)certData.Data;
+ CFIndex dataLen = (CFIndex)certData.Length;
+ CFMutableDataRef digest = CFDataCreateMutable(allocRef, CC_SHA1_DIGEST_LENGTH);
+ CFDataSetLength(digest, CC_SHA1_DIGEST_LENGTH);
+ CCDigest(kCCDigestSHA1, dataPtr, dataLen, CFDataGetMutableBytePtr(digest));
+ mSha1Hash = digest;
+ }
+ return mSha1Hash; /* object is owned by our instance; caller should NOT release it */
+}
+
+CFStringRef
+Certificate::commonName()
+{
+ StLock<Mutex>_(mMutex);
+ return distinguishedName(&CSSMOID_X509V1SubjectNameCStruct, &CSSMOID_CommonName);
+}
+
+CFStringRef
+Certificate::distinguishedName(const CSSM_OID *sourceOid, const CSSM_OID *componentOid)
+{
+ StLock<Mutex>_(mMutex);
+ CFStringRef rtnString = NULL;
+ CSSM_DATA_PTR fieldValue = copyFirstFieldValue(*sourceOid);
+ CSSM_X509_NAME_PTR x509Name = (CSSM_X509_NAME_PTR)fieldValue->Data;
+ const CSSM_DATA *printValue = NULL;
+ CFStringBuiltInEncodings encoding;
+
+ if (fieldValue && fieldValue->Data)
+ printValue = findPrintableField(*x509Name, componentOid, true, &encoding);
+
+ if (printValue)
+ rtnString = CFStringCreateWithBytes(NULL, printValue->Data,
+ CFIndex(printValue->Length), encoding, true);
+
+ releaseFieldValue(*sourceOid, fieldValue);
+
+ return rtnString;
+}
+
+
+/*
+ * Return a CFString containing the first email addresses for this certificate, based on the
+ * X509 SubjectAltName and SubjectName.
+ */
+CFStringRef
+Certificate::copyFirstEmailAddress()
+{
+ StLock<Mutex>_(mMutex);
+ CFStringRef rtnString;
+
+ const CSSM_OID &sanOid = CSSMOID_SubjectAltName;
+ CSSM_DATA_PTR *sanValues = copyFieldValues(sanOid);
+ const CSSM_OID &snOid = CSSMOID_X509V1SubjectNameCStruct;
+ CSSM_DATA_PTR snValue = copyFirstFieldValue(snOid);
+ std::vector<CssmData> emailAddresses;
+
+ getNames(sanValues, snValue, GNT_RFC822Name, emailAddresses);
+ if (emailAddresses.empty())
+ rtnString = NULL;
+ else
+ {
+ /* Encoding is kCFStringEncodingUTF8 since the string is either
+ PRINTABLE_STRING, IA5_STRING, T61_STRING or PKIX_UTF8_STRING. */
+ rtnString = CFStringCreateWithBytes(NULL, emailAddresses[0].Data,
+ (CFIndex)emailAddresses[0].Length, kCFStringEncodingUTF8, true);
+ }
+
+ // Clean up
+ if (snValue)
+ releaseFieldValue(snOid, snValue);
+ if (sanValues)
+ releaseFieldValues(sanOid, sanValues);
+
+ return rtnString;
+}
+
+/*
+ * Return a CFArray containing the DNS hostnames for this certificate, based on the
+ * X509 SubjectAltName and SubjectName.
+ */
+CFArrayRef
+Certificate::copyDNSNames()
+{
+ StLock<Mutex>_(mMutex);
+ CFMutableArrayRef array = CFArrayCreateMutable(NULL, 0, &kCFTypeArrayCallBacks);
+ std::vector<CssmData> dnsNames;
+
+ // Find the SubjectAltName fields, if any, and extract the GNT_DNSName entries from all of them
+ const CSSM_OID &sanOid = CSSMOID_SubjectAltName;
+ CSSM_DATA_PTR *sanValues = copyFieldValues(sanOid);
+
+ const CSSM_OID &snOid = CSSMOID_X509V1SubjectNameCStruct;
+ CSSM_DATA_PTR snValue = copyFirstFieldValue(snOid);
+
+ getNames(sanValues, snValue, GNT_DNSName, dnsNames);
+
+ for (std::vector<CssmData>::const_iterator it = dnsNames.begin(); it != dnsNames.end(); ++it)
+ {
+ /* Encoding is kCFStringEncodingUTF8 since the string is either
+ PRINTABLE_STRING, IA5_STRING, T61_STRING or PKIX_UTF8_STRING. */
+ CFStringRef string = CFStringCreateWithBytes(NULL, it->Data, static_cast<CFIndex>(it->Length), kCFStringEncodingUTF8, true);
+ /* Be prepared for improperly formatted (non-UTF8) strings! */
+ if (!string) continue;
+ CFArrayAppendValue(array, string);
+ CFRelease(string);
+ }
+
+ // Clean up
+ if (snValue)
+ releaseFieldValue(snOid, snValue);
+ if (sanValues)
+ releaseFieldValues(sanOid, sanValues);
+
+ return array;
+}
+
+/*
+ * Return a CFArray containing the email addresses for this certificate, based on the
+ * X509 SubjectAltName and SubjectName.
+ */
+CFArrayRef
+Certificate::copyEmailAddresses()
+{
+ StLock<Mutex>_(mMutex);
+ CFMutableArrayRef array = CFArrayCreateMutable(NULL, 0, &kCFTypeArrayCallBacks);
+ std::vector<CssmData> emailAddresses;
+
+ // Find the SubjectAltName fields, if any, and extract all the GNT_RFC822Name entries from all of them
+ const CSSM_OID &sanOid = CSSMOID_SubjectAltName;
+ CSSM_DATA_PTR *sanValues = copyFieldValues(sanOid);
+
+ const CSSM_OID &snOid = CSSMOID_X509V1SubjectNameCStruct;
+ CSSM_DATA_PTR snValue = copyFirstFieldValue(snOid);
+
+ getNames(sanValues, snValue, GNT_RFC822Name, emailAddresses);
+
+ for (std::vector<CssmData>::const_iterator it = emailAddresses.begin(); it != emailAddresses.end(); ++it)
+ {
+ /* Encoding is kCFStringEncodingUTF8 since the string is either
+ PRINTABLE_STRING, IA5_STRING, T61_STRING or PKIX_UTF8_STRING. */
+ CFStringRef string = CFStringCreateWithBytes(NULL, it->Data, static_cast<CFIndex>(it->Length), kCFStringEncodingUTF8, true);
+ /* Be prepared for improperly formatted (non-UTF8) strings! */
+ if (!string) continue;
+ CFArrayAppendValue(array, string);
+ CFRelease(string);
+ }
+
+ // Clean up
+ if (snValue)
+ releaseFieldValue(snOid, snValue);
+ if (sanValues)
+ releaseFieldValues(sanOid, sanValues);
+
+ return array;
+}
+
+const CSSM_X509_NAME_PTR
+Certificate::subjectName()
+{
+ StLock<Mutex>_(mMutex);
+ if (!mV1SubjectNameCStructValue)
+ if ((mV1SubjectNameCStructValue = copyFirstFieldValue(CSSMOID_X509V1SubjectNameCStruct)) == NULL)
+ return NULL;
+
+ return (const CSSM_X509_NAME_PTR)mV1SubjectNameCStructValue->Data;
+}
+
+const CSSM_X509_NAME_PTR
+Certificate::issuerName()
+{
+ StLock<Mutex>_(mMutex);
+ if (!mV1IssuerNameCStructValue)
+ if ((mV1IssuerNameCStructValue = copyFirstFieldValue(CSSMOID_X509V1IssuerNameCStruct)) == NULL)
+ return NULL;
+
+ return (const CSSM_X509_NAME_PTR)mV1IssuerNameCStructValue->Data;
+}
+
+CSSM_CL_HANDLE
+Certificate::clHandle()
+{
+ StLock<Mutex>_(mMutex);
+ if (!mCL)
+ mCL = clForType(type());
+
+ return mCL->handle();
+}
+
+bool
+Certificate::operator < (Certificate &other)
+{
+ // Certificates in different keychains are considered equal if data is equal
+ // Note that the Identity '<' operator relies on this assumption.
+ return data() < other.data();
+}
+
+bool
+Certificate::operator == (Certificate &other)
+{
+ // Certificates in different keychains are considered equal if data is equal
+ // Note that the Identity '==' operator relies on this assumption.
+ return data() == other.data();
+}
+
+void
+Certificate::update()
+{
+ ItemImpl::update();
+}
+
+Item
+Certificate::copyTo(const Keychain &keychain, Access *newAccess)
+{
+ StLock<Mutex>_(mMutex);
+ /* Certs can't have access controls. */
+ if (newAccess)
+ MacOSError::throwMe(errSecNoAccessForItem);
+
+ Item item(new Certificate(data(), type(), encoding()));
+ keychain->add(item);
+ return item;
+}
+
+void
+Certificate::didModify()
+{
+}
+
+PrimaryKey
+Certificate::add(Keychain &keychain)
+{
+ StLock<Mutex>_(mMutex);
+ // If we already have a Keychain we can't be added.
+ if (mKeychain)
+ MacOSError::throwMe(errSecDuplicateItem);
+
+ populateAttributes();
+
+ CSSM_DB_RECORDTYPE recordType = mDbAttributes->recordType();
+
+ Db db(keychain->database());
+ // add the item to the (regular) db
+ try
+ {
+ mUniqueId = db->insert(recordType, mDbAttributes.get(), mData.get());
+ }
+ catch (const CssmError &e)
+ {
+ if (e.osStatus() != CSSMERR_DL_INVALID_RECORDTYPE)
+ throw;
+
+ // Create the cert relation and try again.
+ db->createRelation(CSSM_DL_DB_RECORD_X509_CERTIFICATE,
+ "CSSM_DL_DB_RECORD_X509_CERTIFICATE",
+ Schema::X509CertificateSchemaAttributeCount,
+ Schema::X509CertificateSchemaAttributeList,
+ Schema::X509CertificateSchemaIndexCount,
+ Schema::X509CertificateSchemaIndexList);
+ keychain->keychainSchema()->didCreateRelation(
+ CSSM_DL_DB_RECORD_X509_CERTIFICATE,
+ "CSSM_DL_DB_RECORD_X509_CERTIFICATE",
+ Schema::X509CertificateSchemaAttributeCount,
+ Schema::X509CertificateSchemaAttributeList,
+ Schema::X509CertificateSchemaIndexCount,
+ Schema::X509CertificateSchemaIndexList);
+
+ mUniqueId = db->insert(recordType, mDbAttributes.get(), mData.get());
+ }
+
+ mPrimaryKey = keychain->makePrimaryKey(recordType, mUniqueId);
+ mKeychain = keychain;
+
+ return mPrimaryKey;
+}
+
+SecPointer<KeyItem>
+Certificate::publicKey()
+{
+ StLock<Mutex>_(mMutex);
+ SecPointer<KeyItem> keyItem;
+ // Return a CSSM_DATA_PTR with the value of the first field specified by field.
+ // Caller must call releaseFieldValue to free the storage allocated by this call.
+ // call OSStatus SecKeyGetCSSMKey(SecKeyRef key, const CSSM_KEY **cssmKey); to retrieve
+
+ CSSM_DATA_PTR keyPtr = copyFirstFieldValue(CSSMOID_CSSMKeyStruct);
+ if (keyPtr && keyPtr->Data)
+ {
+ CssmClient::CSP csp(gGuidAppleCSP);
+ CssmKey *cssmKey = reinterpret_cast<CssmKey *>(keyPtr->Data);
+ CssmClient::Key key(csp, *cssmKey);
+ keyItem = new KeyItem(key);
+ // Clear out KeyData since KeyItem() takes over ownership of the key, and we don't want it getting released.
+ cssmKey->KeyData.Data = NULL;
+ cssmKey->KeyData.Length = 0;
+ }
+
+ releaseFieldValue(CSSMOID_CSSMKeyStruct, keyPtr);
+
+ return keyItem;
+}
+
+// This function "borrowed" from the X509 CL, which is (currently) linked into
+// the Security.framework as a built-in plugin.
+extern "C" bool getField_normRDN_NSS (
+ const CSSM_DATA &derName,
+ uint32 &numFields, // RETURNED (if successful, 0 or 1)
+ CssmOwnedData &fieldValue); // RETURNED
+
+KCCursor
+Certificate::cursorForIssuerAndSN(const StorageManager::KeychainList &keychains, const CssmData &issuer, const CssmData &serialNumber)
+{
+ CssmAutoData fieldValue(Allocator::standard(Allocator::normal));
+ uint32 numFields;
+
+ // We need to decode issuer, normalize it, then re-encode it
+ if (!getField_normRDN_NSS(issuer, numFields, fieldValue))
+ MacOSError::throwMe(errSecDataNotAvailable);
+
+ // Code basically copied from SecKeychainSearchCreateFromAttributes and SecKeychainSearchCopyNext:
+ KCCursor cursor(keychains, kSecCertificateItemClass, NULL);
+ cursor->conjunctive(CSSM_DB_AND);
+ cursor->add(CSSM_DB_EQUAL, Schema::kX509CertificateIssuer, fieldValue.get());
+ cursor->add(CSSM_DB_EQUAL, Schema::kX509CertificateSerialNumber, serialNumber);
+
+ return cursor;
+}
+
+KCCursor
+Certificate::cursorForIssuerAndSN_CF(const StorageManager::KeychainList &keychains, CFDataRef issuer, CFDataRef serialNumber)
+{
+ // This assumes a normalized issuer
+ CSSM_DATA issuerCSSM, serialNumberCSSM;
+
+ issuerCSSM.Length = CFDataGetLength(issuer);
+ issuerCSSM.Data = const_cast<uint8 *>(CFDataGetBytePtr(issuer));
+
+ serialNumberCSSM.Length = CFDataGetLength(serialNumber);
+ serialNumberCSSM.Data = const_cast<uint8 *>(CFDataGetBytePtr(serialNumber));
+
+ // Code basically copied from SecKeychainSearchCreateFromAttributes and SecKeychainSearchCopyNext:
+ KCCursor cursor(keychains, kSecCertificateItemClass, NULL);
+ cursor->conjunctive(CSSM_DB_AND);
+ cursor->add(CSSM_DB_EQUAL, Schema::kX509CertificateIssuer, issuerCSSM);
+ cursor->add(CSSM_DB_EQUAL, Schema::kX509CertificateSerialNumber, serialNumberCSSM);
+
+ return cursor;
+}
+
+KCCursor
+Certificate::cursorForSubjectKeyID(const StorageManager::KeychainList &keychains, const CssmData &subjectKeyID)
+{
+ KCCursor cursor(keychains, kSecCertificateItemClass, NULL);
+ cursor->conjunctive(CSSM_DB_AND);
+ cursor->add(CSSM_DB_EQUAL, Schema::kX509CertificateSubjectKeyIdentifier, subjectKeyID);
+
+ return cursor;
+}
+
+KCCursor
+Certificate::cursorForEmail(const StorageManager::KeychainList &keychains, const char *emailAddress)
+{
+ KCCursor cursor(keychains, kSecCertificateItemClass, NULL);
+ if (emailAddress)
+ {
+ cursor->conjunctive(CSSM_DB_AND);
+ CssmSelectionPredicate &pred = cursor->add(CSSM_DB_EQUAL, Schema::kX509CertificateAlias, emailAddress);
+ /* Normalize the emailAddresses in place since cursor already copied it. */
+ normalizeEmailAddress(pred.Attribute.Value[0]);
+ }
+
+ return cursor;
+}
+
+SecPointer<Certificate>
+Certificate::findInKeychain(const StorageManager::KeychainList &keychains)
+{
+ StLock<Mutex>_(mMutex);
+ const CSSM_OID &issuerOid = CSSMOID_X509V1IssuerName;
+ CSSM_DATA_PTR issuerPtr = copyFirstFieldValue(issuerOid);
+ CssmData issuer(issuerPtr->Data, issuerPtr->Length);
+
+ const CSSM_OID &serialOid = CSSMOID_X509V1SerialNumber;
+ CSSM_DATA_PTR serialPtr = copyFirstFieldValue(serialOid);
+ CssmData serial(serialPtr->Data, serialPtr->Length);
+
+ SecPointer<Certificate> foundCert = NULL;
+ try {
+ foundCert = findByIssuerAndSN(keychains, issuer, serial);
+ } catch (...) {
+ foundCert = NULL;
+ }
+
+ releaseFieldValue(issuerOid, issuerPtr);
+ releaseFieldValue(serialOid, serialPtr);
+
+ return foundCert;
+}
+
+SecPointer<Certificate>
+Certificate::findByIssuerAndSN(const StorageManager::KeychainList &keychains, const CssmData &issuer, const CssmData &serialNumber)
+{
+ Item item;
+ if (!cursorForIssuerAndSN(keychains, issuer, serialNumber)->next(item))
+ CssmError::throwMe(errSecItemNotFound);
+
+ return static_cast<Certificate *>(&*item);
+}
+
+SecPointer<Certificate>
+Certificate::findBySubjectKeyID(const StorageManager::KeychainList &keychains, const CssmData &subjectKeyID)
+{
+ Item item;
+ if (!cursorForSubjectKeyID(keychains, subjectKeyID)->next(item))
+ CssmError::throwMe(errSecItemNotFound);
+
+ return static_cast<Certificate *>(&*item);
+}
+
+SecPointer<Certificate>
+Certificate::findByEmail(const StorageManager::KeychainList &keychains, const char *emailAddress)
+{
+ Item item;
+ if (!cursorForEmail(keychains, emailAddress)->next(item))
+ CssmError::throwMe(errSecItemNotFound);
+
+ return static_cast<Certificate *>(&*item);
+}
+
+/* Normalize emailAddresses in place. */
+void
+Certificate::normalizeEmailAddress(CSSM_DATA &emailAddress)
+{
+ /* Do a check to see if a '\0' was at the end of emailAddress and strip it. */
+ if (emailAddress.Length && emailAddress.Data[emailAddress.Length - 1] == '\0')
+ emailAddress.Length--;
+ bool foundAt = false;
+ for (uint32 ix = 0; ix < emailAddress.Length; ++ix)
+ {
+ uint8 ch = emailAddress.Data[ix];
+ if (foundAt)
+ {
+ if ('A' <= ch && ch <= 'Z')
+ emailAddress.Data[ix] = ch + 'a' - 'A';
+ }
+ else if (ch == '@')
+ foundAt = true;
+ }
+}
+
+void
+Certificate::getNames(CSSM_DATA_PTR *sanValues, CSSM_DATA_PTR snValue, CE_GeneralNameType generalNameType, std::vector<CssmData> &names)
+{
+ // Get the DNS host names or RFC822 email addresses for this certificate (depending on generalNameType),
+ // within the X509 SubjectAltName and SubjectName.
+
+ // Find the SubjectAltName fields, if any, and extract the nameType entries from all of them
+ if (sanValues)
+ {
+ for (CSSM_DATA_PTR *sanIx = sanValues; *sanIx; ++sanIx)
+ {
+ CSSM_DATA_PTR sanValue = *sanIx;
+ if (sanValue && sanValue->Data)
+ {
+ CSSM_X509_EXTENSION *cssmExt = (CSSM_X509_EXTENSION *)sanValue->Data;
+ CE_GeneralNames *parsedValue = (CE_GeneralNames *)cssmExt->value.parsedValue;
+
+ /* Grab all the values that are of the specified name type. */
+ for (uint32 i = 0; i < parsedValue->numNames; ++i)
+ {
+ if (parsedValue->generalName[i].nameType == generalNameType)
+ {
+ if (parsedValue->generalName[i].berEncoded) // can't handle this
+ continue;
+
+ names.push_back(CssmData::overlay(parsedValue->generalName[i].name));
+ }
+ }
+ }
+ }
+ }
+
+ if (names.empty() && snValue && snValue->Data)
+ {
+ const CSSM_X509_NAME &x509Name = *(const CSSM_X509_NAME *)snValue->Data;
+ for (uint32 rdnDex = 0; rdnDex < x509Name.numberOfRDNs; rdnDex++)
+ {
+ const CSSM_X509_RDN *rdnPtr =
+ &x509Name.RelativeDistinguishedName[rdnDex];
+ for (uint32 tvpDex = 0; tvpDex < rdnPtr->numberOfPairs; tvpDex++)
+ {
+ const CSSM_X509_TYPE_VALUE_PAIR *tvpPtr =
+ &rdnPtr->AttributeTypeAndValue[tvpDex];
+
+ /* type/value pair: match caller's specified type */
+ if (GNT_RFC822Name == generalNameType) {
+ if (((tvpPtr->type.Length != CSSMOID_EmailAddress.Length) ||
+ memcmp(tvpPtr->type.Data, CSSMOID_EmailAddress.Data, CSSMOID_EmailAddress.Length))) {
+ continue;
+ }
+ }
+ if (GNT_DNSName == generalNameType) {
+ if (((tvpPtr->type.Length != CSSMOID_CommonName.Length) ||
+ memcmp(tvpPtr->type.Data, CSSMOID_CommonName.Data, CSSMOID_CommonName.Length))) {
+ continue;
+ }
+ }
+
+ /* printable? */
+ switch (tvpPtr->valueType)
+ {
+ case BER_TAG_PRINTABLE_STRING:
+ case BER_TAG_IA5_STRING:
+ case BER_TAG_T61_STRING:
+ case BER_TAG_PKIX_UTF8_STRING:
+ /* success */
+ names.push_back(CssmData::overlay(tvpPtr->value));
+ break;
+ default:
+ break;
+ }
+ } /* for each pair */
+ } /* for each RDN */
+ }
+}
+
+void Certificate::willRead()
+{
+ populateAttributes();
+}
+
+Boolean Certificate::isSelfSigned()
+{
+ StLock<Mutex>_(mMutex);
+ CSSM_DATA_PTR issuer = NULL;
+ CSSM_DATA_PTR subject = NULL;
+ OSStatus ortn = errSecSuccess;
+ Boolean brtn = false;
+
+ issuer = copyFirstFieldValue(CSSMOID_X509V1IssuerNameStd);
+ subject = copyFirstFieldValue(CSSMOID_X509V1SubjectNameStd);
+ if((issuer == NULL) || (subject == NULL)) {
+ ortn = errSecParam;
+ }
+ else if((issuer->Length == subject->Length) &&
+ !memcmp(issuer->Data, subject->Data, issuer->Length)) {
+ brtn = true;
+ }
+ if(brtn) {
+ /* names match: verify signature */
+ CSSM_RETURN crtn;
+ CSSM_DATA certData = data();
+ crtn = CSSM_CL_CertVerify(clHandle(), 0,
+ &certData, &certData, NULL, 0);
+ if(crtn) {
+ brtn = false;
+ }
+ }
+ if(issuer) {
+ releaseFieldValue(CSSMOID_X509V1IssuerNameStd, issuer);
+ }
+ if(subject) {
+ releaseFieldValue(CSSMOID_X509V1SubjectNameStd, subject);
+ }
+ if(ortn) {
+ MacOSError::throwMe(ortn);
+ }
+ return brtn;
+}
projects / apple / security.git / blobdiff