mirror of
https://github.com/rn10950/RetroZilla.git
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476 lines
17 KiB
C
476 lines
17 KiB
C
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/* ***** BEGIN LICENSE BLOCK *****
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* Version: MPL 1.1/GPL 2.0/LGPL 2.1
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*
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* The contents of this file are subject to the Mozilla Public License Version
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* 1.1 (the "License"); you may not use this file except in compliance with
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* the License. You may obtain a copy of the License at
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* http://www.mozilla.org/MPL/
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*
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* Software distributed under the License is distributed on an "AS IS" basis,
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* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
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* for the specific language governing rights and limitations under the
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* License.
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*
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* The Original Code is the PKIX-C library.
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*
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* The Initial Developer of the Original Code is
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* Sun Microsystems, Inc.
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* Portions created by the Initial Developer are
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* Copyright 2004-2007 Sun Microsystems, Inc. All Rights Reserved.
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*
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* Contributor(s):
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* Sun Microsystems, Inc.
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*
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* Alternatively, the contents of this file may be used under the terms of
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* either the GNU General Public License Version 2 or later (the "GPL"), or
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* the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
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* in which case the provisions of the GPL or the LGPL are applicable instead
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* of those above. If you wish to allow use of your version of this file only
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* under the terms of either the GPL or the LGPL, and not to allow others to
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* use your version of this file under the terms of the MPL, indicate your
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* decision by deleting the provisions above and replace them with the notice
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* and other provisions required by the GPL or the LGPL. If you do not delete
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* the provisions above, a recipient may use your version of this file under
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* the terms of any one of the MPL, the GPL or the LGPL.
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*
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* ***** END LICENSE BLOCK ***** */
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/*
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* pkix_signaturechecker.c
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*
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* Functions for signature validation
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*
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*/
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#include "pkix_signaturechecker.h"
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/*
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* FUNCTION: pkix_SignatureCheckerstate_Destroy
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* (see comments for PKIX_PL_DestructorCallback in pkix_pl_system.h)
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*/
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static PKIX_Error *
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pkix_SignatureCheckerState_Destroy(
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PKIX_PL_Object *object,
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void *plContext)
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{
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pkix_SignatureCheckerState *state = NULL;
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PKIX_ENTER(SIGNATURECHECKERSTATE,
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"pkix_SignatureCheckerState_Destroy");
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PKIX_NULLCHECK_ONE(object);
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/* Check that this object is a signature checker state */
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PKIX_CHECK(pkix_CheckType
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(object, PKIX_SIGNATURECHECKERSTATE_TYPE, plContext),
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PKIX_OBJECTNOTSIGNATURECHECKERSTATE);
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state = (pkix_SignatureCheckerState *) object;
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state->prevCertCertSign = PKIX_FALSE;
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PKIX_DECREF(state->prevPublicKey);
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PKIX_DECREF(state->prevPublicKeyList);
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PKIX_DECREF(state->keyUsageOID);
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cleanup:
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PKIX_RETURN(SIGNATURECHECKERSTATE);
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}
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/*
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* FUNCTION: pkix_SignatureCheckerState_RegisterSelf
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*
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* DESCRIPTION:
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* Registers PKIX_SIGNATURECHECKERSTATE_TYPE and its related functions
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* with systemClasses[]
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*
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* THREAD SAFETY:
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* Not Thread Safe (see Thread Safety Definitions in Programmer's Guide)
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*
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* Since this function is only called by PKIX_PL_Initialize, which should
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* only be called once, it is acceptable that this function is not
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* thread-safe.
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*/
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PKIX_Error *
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pkix_SignatureCheckerState_RegisterSelf(void *plContext)
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{
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extern pkix_ClassTable_Entry systemClasses[PKIX_NUMTYPES];
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pkix_ClassTable_Entry entry;
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PKIX_ENTER(SIGNATURECHECKERSTATE,
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"pkix_SignatureCheckerState_RegisterSelf");
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entry.description = "SignatureCheckerState";
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entry.objCounter = 0;
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entry.typeObjectSize = sizeof(pkix_SignatureCheckerState);
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entry.destructor = pkix_SignatureCheckerState_Destroy;
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entry.equalsFunction = NULL;
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entry.hashcodeFunction = NULL;
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entry.toStringFunction = NULL;
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entry.comparator = NULL;
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entry.duplicateFunction = NULL;
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systemClasses[PKIX_SIGNATURECHECKERSTATE_TYPE] = entry;
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PKIX_RETURN(SIGNATURECHECKERSTATE);
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}
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/*
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* FUNCTION: pkix_SignatureCheckerState_Create
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*
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* DESCRIPTION:
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* Allocate and initialize SignatureChecker state data.
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*
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* PARAMETERS
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* "trustedPubKey"
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* Address of trusted Anchor Public Key for verifying first Cert in the
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* chain. Must be non-NULL.
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* "certsRemaining"
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* Number of certificates remaining in the chain.
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* "pCheckerState"
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* Address where SignatureCheckerState will be stored. Must be non-NULL.
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* "plContext"
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* Platform-specific context pointer.
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*
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* THREAD SAFETY:
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* Not Thread Safe (see Thread Safety Definitions in Programmer's Guide)
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*
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* RETURNS:
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* Returns NULL if the function succeeds.
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* Returns a SignatureCheckerState Error if the function fails in a
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* non-fatal way.
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* Returns a Fatal Error if the function fails in an unrecoverable way.
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*/
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static PKIX_Error *
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pkix_SignatureCheckerState_Create(
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PKIX_PL_PublicKey *trustedPubKey,
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PKIX_UInt32 certsRemaining,
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pkix_SignatureCheckerState **pCheckerState,
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void *plContext)
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{
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pkix_SignatureCheckerState *state = NULL;
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PKIX_PL_OID *keyUsageOID = NULL;
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PKIX_ENTER(SIGNATURECHECKERSTATE, "pkix_SignatureCheckerState_Create");
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PKIX_NULLCHECK_TWO(trustedPubKey, pCheckerState);
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PKIX_CHECK(PKIX_PL_Object_Alloc
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(PKIX_SIGNATURECHECKERSTATE_TYPE,
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sizeof (pkix_SignatureCheckerState),
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(PKIX_PL_Object **)&state,
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plContext),
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PKIX_COULDNOTCREATESIGNATURECHECKERSTATEOBJECT);
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/* Initialize fields */
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state->prevCertCertSign = PKIX_TRUE;
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state->prevPublicKeyList = NULL;
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state->certsRemaining = certsRemaining;
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PKIX_INCREF(trustedPubKey);
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state->prevPublicKey = trustedPubKey;
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PKIX_CHECK(PKIX_PL_OID_Create
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(PKIX_CERTKEYUSAGE_OID,
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&keyUsageOID,
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plContext),
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PKIX_OIDCREATEFAILED);
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state->keyUsageOID = keyUsageOID;
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keyUsageOID = NULL;
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*pCheckerState = state;
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state = NULL;
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cleanup:
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PKIX_DECREF(keyUsageOID);
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PKIX_DECREF(state);
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PKIX_RETURN(SIGNATURECHECKERSTATE);
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}
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/* --Private-Functions-------------------------------------------- */
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/*
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* FUNCTION: pkix_SignatureChecker_Check
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* (see comments for PKIX_CertChainChecker_CheckCallback in pkix_checker.h)
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*/
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PKIX_Error *
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pkix_SignatureChecker_Check(
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PKIX_CertChainChecker *checker,
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PKIX_PL_Cert *cert,
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PKIX_List *unresolvedCriticalExtensions,
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void **pNBIOContext,
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void *plContext)
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{
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pkix_SignatureCheckerState *state = NULL;
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PKIX_PL_PublicKey *prevPubKey = NULL;
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PKIX_PL_PublicKey *currPubKey = NULL;
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PKIX_PL_PublicKey *newPubKey = NULL;
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PKIX_PL_PublicKey *pKey = NULL;
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PKIX_PL_CertBasicConstraints *basicConstraints = NULL;
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PKIX_Error *checkKeyUsageFail = NULL;
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PKIX_Error *verifyFail = NULL;
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PKIX_Boolean certVerified = PKIX_FALSE;
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PKIX_ENTER(CERTCHAINCHECKER, "pkix_SignatureChecker_Check");
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PKIX_NULLCHECK_THREE(checker, cert, pNBIOContext);
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*pNBIOContext = NULL; /* we never block on pending I/O */
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PKIX_CHECK(PKIX_CertChainChecker_GetCertChainCheckerState
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(checker, (PKIX_PL_Object **)&state, plContext),
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PKIX_CERTCHAINCHECKERGETCERTCHAINCHECKERSTATEFAILED);
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(state->certsRemaining)--;
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PKIX_INCREF(state->prevPublicKey);
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prevPubKey = state->prevPublicKey;
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/*
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* Previous Cert doesn't have CertSign bit on for signature
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* verification and it is not a self-issued Cert so there is no
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* old key saved. This is considered error.
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*/
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if (state->prevCertCertSign == PKIX_FALSE &&
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state->prevPublicKeyList == NULL) {
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PKIX_ERROR(PKIX_KEYUSAGEKEYCERTSIGNBITNOTON);
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}
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/* Previous Cert is valid for signature verification, try it first */
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if (state->prevCertCertSign == PKIX_TRUE) {
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verifyFail = PKIX_PL_Cert_VerifySignature
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(cert, prevPubKey, plContext);
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if (verifyFail == NULL) {
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certVerified = PKIX_TRUE;
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} else {
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certVerified = PKIX_FALSE;
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PKIX_DECREF(verifyFail);
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}
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}
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#ifdef NIST_TEST_4_5_4_AND_4_5_6
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/*
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* Following codes under this compiler flag is implemented for
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* special cases of NIST tests 4.5.4 and 4.5.6. We are not sure
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* we should handle these two tests as what is implemented so the
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* codes are commented out, and the tests fails (for now).
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* For Cert chain validation, our assumption is all the Certs on
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* the chain are using its previous Cert's public key to decode
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* its current key. But for thses two tests, keys are used not
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* in this precedent order, we can either
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* 1) Use what is implemented here: take in what Cert order NIST
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* specified and for continuous self-issued Certs, stacking up
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* their keys and tries all of them in FILO order.
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* But this method breaks the idea of chain key presdency.
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* 2) Use Build Chain facility: we will specify the valid Certs
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* order (means key precedency is kept) and count on Build Chain
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* to get the Certs that can fill for the needed keys. This may have
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* performance impact.
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* 3) Fetch Certs from CertStore: we will specifiy the valid Certs
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* order and use CertSelector on SubjectName to get a list of
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* candidates Certs to fill in for the needed keys.
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* Anyhow, the codes are kept around just in case we want to use
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* solution one...
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*/
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/* If failed and previous key is self-issued, try its old key(s) */
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if (certVerified == PKIX_FALSE && state->prevPublicKeyList != NULL) {
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/* Verify from keys on the list */
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PKIX_CHECK(PKIX_List_GetLength
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(state->prevPublicKeyList, &numKeys, plContext),
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PKIX_LISTGETLENGTHFAILED);
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for (i = numKeys - 1; i >= 0; i--) {
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PKIX_CHECK(PKIX_List_GetItem
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(state->prevPublicKeyList,
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i,
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(PKIX_PL_Object **) &pKey,
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plContext),
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PKIX_LISTGETITEMFAILED);
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verifyFail = PKIX_PL_Cert_VerifySignature
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(cert, pKey, plContext);
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if (verifyFail == NULL) {
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certVerified = PKIX_TRUE;
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break;
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} else {
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certVerified = PKIX_FALSE;
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PKIX_DECREF(verifyFail);
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}
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PKIX_DECREF(pKey);
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}
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}
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#endif
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if (certVerified == PKIX_FALSE) {
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PKIX_ERROR(PKIX_VALIDATIONFAILEDCERTSIGNATURECHECKING);
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}
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#ifdef NIST_TEST_4_5_4_AND_4_5_6
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/*
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* Check if Cert is self-issued. If so, the old key(s) is saved, in
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* conjunction to the new key, for verifying CERT validity later.
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*/
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PKIX_CHECK(pkix_IsCertSelfIssued(cert, &selfIssued, plContext),
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PKIX_ISCERTSELFISSUEFAILED);
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/*
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* Check if Cert is self-issued. If so, the public key of the Cert
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* that issues this Cert (old key) can be used together with this
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* current key (new key) for key verification. If there are multiple
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* self-issued certs, keys of those Certs (old keys) can also be used
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* for key verification. Old key(s) is saved in a list (PrevPublickKey-
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* List) and cleared when a Cert is no longer self-issued. PrevPublic-
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* Key keep key of the previous Cert.
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*/
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if (selfIssued == PKIX_TRUE) {
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/* Make sure previous Cert is valid for signature verification */
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if (state->prevCertCertSign == PKIX_TRUE) {
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if (state->prevPublicKeyList == NULL) {
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PKIX_CHECK(PKIX_List_Create
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(&state->prevPublicKeyList, plContext),
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PKIX_LISTCREATEFALIED);
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}
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PKIX_CHECK(PKIX_List_AppendItem
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(state->prevPublicKeyList,
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(PKIX_PL_Object *) state->prevPublicKey,
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plContext),
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PKIX_LISTAPPENDITEMFAILED);
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}
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} else {
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/* Not self-issued Cert any more, clear old key(s) saved */
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PKIX_DECREF(state->prevPublicKeyList);
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}
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#endif
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/* Save current key as prevPublicKey */
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PKIX_CHECK(PKIX_PL_Cert_GetSubjectPublicKey
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(cert, &currPubKey, plContext),
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PKIX_CERTGETSUBJECTPUBLICKEYFAILED);
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PKIX_CHECK(PKIX_PL_PublicKey_MakeInheritedDSAPublicKey
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(currPubKey, prevPubKey, &newPubKey, plContext),
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PKIX_PUBLICKEYMAKEINHERITEDDSAPUBLICKEYFAILED);
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if (newPubKey == NULL){
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PKIX_INCREF(currPubKey);
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newPubKey = currPubKey;
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}
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PKIX_INCREF(newPubKey);
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PKIX_DECREF(state->prevPublicKey);
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state->prevPublicKey = newPubKey;
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/* Save this Cert key usage CertSign bit */
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if (state->certsRemaining != 0) {
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checkKeyUsageFail = PKIX_PL_Cert_VerifyKeyUsage
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(cert, PKIX_KEY_CERT_SIGN, plContext);
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state->prevCertCertSign = (checkKeyUsageFail == NULL)?
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PKIX_TRUE:PKIX_FALSE;
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PKIX_DECREF(checkKeyUsageFail);
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}
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/* Remove Key Usage Extension OID from list */
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if (unresolvedCriticalExtensions != NULL) {
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PKIX_CHECK(pkix_List_Remove
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(unresolvedCriticalExtensions,
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(PKIX_PL_Object *) state->keyUsageOID,
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plContext),
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PKIX_LISTREMOVEFAILED);
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}
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PKIX_CHECK(PKIX_CertChainChecker_SetCertChainCheckerState
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(checker, (PKIX_PL_Object *)state, plContext),
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PKIX_CERTCHAINCHECKERSETCERTCHAINCHECKERSTATEFAILED);
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cleanup:
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PKIX_DECREF(state);
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PKIX_DECREF(pKey);
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PKIX_DECREF(prevPubKey);
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PKIX_DECREF(currPubKey);
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PKIX_DECREF(newPubKey);
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PKIX_DECREF(basicConstraints);
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PKIX_DECREF(verifyFail);
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PKIX_DECREF(checkKeyUsageFail);
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PKIX_RETURN(CERTCHAINCHECKER);
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}
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/*
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* FUNCTION: pkix_SignatureChecker_Initialize
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||
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* DESCRIPTION:
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||
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*
|
||
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* Creates a new CertChainChecker and stores it at "pChecker", where it will
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||
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* be used by pkix_SignatureChecker_Check to check that the public key in
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* the checker's state is able to successfully validate the certificate's
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* signature. The PublicKey pointed to by "trustedPubKey" is used to
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||
|
* initialize the checker's state.
|
||
|
*
|
||
|
* PARAMETERS:
|
||
|
* "trustedPubKey"
|
||
|
* Address of PublicKey representing the trusted public key used to
|
||
|
* initialize the state of this checker. Must be non-NULL.
|
||
|
* "certsRemaining"
|
||
|
* Number of certificates remaining in the chain.
|
||
|
* "pChecker"
|
||
|
* Address where object pointer will be stored. Must be non-NULL.
|
||
|
* "plContext"
|
||
|
* Platform-specific context pointer.
|
||
|
* THREAD SAFETY:
|
||
|
* Thread Safe (see Thread Safety Definitions in Programmer's Guide)
|
||
|
* RETURNS:
|
||
|
* Returns NULL if the function succeeds.
|
||
|
* Returns a CertChainChecker Error if the function fails in a non-fatal way.
|
||
|
* Returns a Fatal Error if the function fails in an unrecoverable way.
|
||
|
*/
|
||
|
PKIX_Error *
|
||
|
pkix_SignatureChecker_Initialize(
|
||
|
PKIX_PL_PublicKey *trustedPubKey,
|
||
|
PKIX_UInt32 certsRemaining,
|
||
|
PKIX_CertChainChecker **pChecker,
|
||
|
void *plContext)
|
||
|
{
|
||
|
pkix_SignatureCheckerState* state = NULL;
|
||
|
PKIX_ENTER(CERTCHAINCHECKER, "PKIX_SignatureChecker_Initialize");
|
||
|
PKIX_NULLCHECK_TWO(pChecker, trustedPubKey);
|
||
|
|
||
|
PKIX_CHECK(pkix_SignatureCheckerState_Create
|
||
|
(trustedPubKey, certsRemaining, &state, plContext),
|
||
|
PKIX_SIGNATURECHECKERSTATECREATEFAILED);
|
||
|
|
||
|
PKIX_CHECK(PKIX_CertChainChecker_Create
|
||
|
(pkix_SignatureChecker_Check,
|
||
|
PKIX_FALSE,
|
||
|
PKIX_FALSE,
|
||
|
NULL,
|
||
|
(PKIX_PL_Object *) state,
|
||
|
pChecker,
|
||
|
plContext),
|
||
|
PKIX_CERTCHAINCHECKERCREATEFAILED);
|
||
|
|
||
|
cleanup:
|
||
|
|
||
|
PKIX_DECREF(state);
|
||
|
|
||
|
PKIX_RETURN(CERTCHAINCHECKER);
|
||
|
|
||
|
}
|