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a572ea8ca3
RetroZilla/security/nss/lib/libpkix/pkix/top/pkix_build.c
roytam1 a572ea8ca3 cherry-picked mozilla NSS upstream changes (to rev 82de44ead36f, which is on par with 3.18): 
bug1095307, bug1073330(backout), bug1084986, bug1050069, bug942172, bug1054547, bug532081, bug1096348, bug1058870, bug1093940, bug1102985, bug1112461, bug1094492, bug112029, bug1119983, bug1120685, bug1120691, bug1113632, bug863076, bug1082973, bug1124539, bug1117617, bug1117621, bug1121273, bug753136, bug921684, bug1132818, bug1125375, bug647690, bug1055441, bug1134455, bug975010, bug950369, bug1128367, bug1129573, bug1136095, bug1117897, bug1113453, bug1061725, bug1073330, bug1111901, bug1083900, bug1136095, bug1138820, bug1096741, bug1134548, bug345725, bug950348, bug950344, bug1151037, bug991783, bug1153994
2018-07-14 21:22:30 +08:00

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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/*
* pkix_build.c
*
* Top level buildChain function
*
*/
/* #define PKIX_BUILDDEBUG 1 */
/* #define PKIX_FORWARDBUILDERSTATEDEBUG 1 */
#include "pkix_build.h"
extern PRLogModuleInfo *pkixLog;
/*
* List of critical extension OIDs associate with what build chain has
* checked. Those OIDs need to be removed from the unresolved critical
* extension OIDs list manually (instead of by checker automatically).
*/
static SECOidTag buildCheckedCritExtOIDs[] = {
PKIX_CERTKEYUSAGE_OID,
PKIX_CERTSUBJALTNAME_OID,
PKIX_BASICCONSTRAINTS_OID,
PKIX_NAMECONSTRAINTS_OID,
PKIX_EXTENDEDKEYUSAGE_OID,
PKIX_NSCERTTYPE_OID,
PKIX_UNKNOWN_OID
};
/* --Private-ForwardBuilderState-Functions---------------------------------- */
/*
* FUNCTION: pkix_ForwardBuilderState_Destroy
* (see comments for PKIX_PL_DestructorCallback in pkix_pl_system.h)
*/
static PKIX_Error *
pkix_ForwardBuilderState_Destroy(
PKIX_PL_Object *object,
void *plContext)
{
PKIX_ForwardBuilderState *state = NULL;
PKIX_ENTER(FORWARDBUILDERSTATE, "pkix_ForwardBuilderState_Destroy");
PKIX_NULLCHECK_ONE(object);
PKIX_CHECK(pkix_CheckType
(object, PKIX_FORWARDBUILDERSTATE_TYPE, plContext),
PKIX_OBJECTNOTFORWARDBUILDERSTATE);
state = (PKIX_ForwardBuilderState *)object;
state->status = BUILD_INITIAL;
state->traversedCACerts = 0;
state->certStoreIndex = 0;
state->numCerts = 0;
state->numAias = 0;
state->certIndex = 0;
state->aiaIndex = 0;
state->certCheckedIndex = 0;
state->checkerIndex = 0;
state->hintCertIndex = 0;
state->numFanout = 0;
state->numDepth = 0;
state->reasonCode = 0;
state->canBeCached = PKIX_FALSE;
state->useOnlyLocal = PKIX_FALSE;
state->revChecking = PKIX_FALSE;
state->usingHintCerts = PKIX_FALSE;
state->certLoopingDetected = PKIX_FALSE;
PKIX_DECREF(state->validityDate);
PKIX_DECREF(state->prevCert);
PKIX_DECREF(state->candidateCert);
PKIX_DECREF(state->traversedSubjNames);
PKIX_DECREF(state->trustChain);
PKIX_DECREF(state->aia);
PKIX_DECREF(state->candidateCerts);
PKIX_DECREF(state->reversedCertChain);
PKIX_DECREF(state->checkedCritExtOIDs);
PKIX_DECREF(state->checkerChain);
PKIX_DECREF(state->certSel);
PKIX_DECREF(state->verifyNode);
PKIX_DECREF(state->client);
/*
* If we ever add a child link we have to be careful not to have loops
* in the Destroy process. But with one-way links we should be okay.
*/
if (state->parentState == NULL) {
state->buildConstants.numAnchors = 0;
state->buildConstants.numCertStores = 0;
state->buildConstants.numHintCerts = 0;
state->buildConstants.procParams = 0;
PKIX_DECREF(state->buildConstants.testDate);
PKIX_DECREF(state->buildConstants.timeLimit);
PKIX_DECREF(state->buildConstants.targetCert);
PKIX_DECREF(state->buildConstants.targetPubKey);
PKIX_DECREF(state->buildConstants.certStores);
PKIX_DECREF(state->buildConstants.anchors);
PKIX_DECREF(state->buildConstants.userCheckers);
PKIX_DECREF(state->buildConstants.hintCerts);
PKIX_DECREF(state->buildConstants.revChecker);
PKIX_DECREF(state->buildConstants.aiaMgr);
} else {
PKIX_DECREF(state->parentState);
}
cleanup:
PKIX_RETURN(FORWARDBUILDERSTATE);
}
/*
* FUNCTION: pkix_ForwardBuilderState_Create
*
* DESCRIPTION:
* Allocate and initialize a ForwardBuilderState.
*
* PARAMETERS
* "traversedCACerts"
* Number of CA certificates traversed.
* "numFanout"
* Number of Certs that can be considered at this level (0 = no limit)
* "numDepth"
* Number of additional levels that can be searched (0 = no limit)
* "canBeCached"
* Boolean value indicating whether all certs on the chain can be cached.
* "validityDate"
* Address of Date at which build chain Certs' most restricted validity
* time is kept. May be NULL.
* "prevCert"
* Address of Cert just traversed. Must be non-NULL.
* "traversedSubjNames"
* Address of List of GeneralNames that have been traversed.
* Must be non-NULL.
* "trustChain"
* Address of List of certificates traversed. Must be non-NULL.
* "parentState"
* Address of previous ForwardBuilderState
* "pState"
* Address where ForwardBuilderState 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 Build Error if the function fails in a non-fatal way.
* Returns a Fatal Error if the function fails in an unrecoverable way.
*/
static PKIX_Error *
pkix_ForwardBuilderState_Create(
PKIX_Int32 traversedCACerts,
PKIX_UInt32 numFanout,
PKIX_UInt32 numDepth,
PKIX_Boolean canBeCached,
PKIX_PL_Date *validityDate,
PKIX_PL_Cert *prevCert,
PKIX_List *traversedSubjNames,
PKIX_List *trustChain,
PKIX_ForwardBuilderState *parentState,
PKIX_ForwardBuilderState **pState,
void *plContext)
{
PKIX_ForwardBuilderState *state = NULL;
PKIX_ENTER(FORWARDBUILDERSTATE, "pkix_ForwardBuilderState_Create");
PKIX_NULLCHECK_FOUR(prevCert, traversedSubjNames, pState, trustChain);
PKIX_CHECK(PKIX_PL_Object_Alloc
(PKIX_FORWARDBUILDERSTATE_TYPE,
sizeof (PKIX_ForwardBuilderState),
(PKIX_PL_Object **)&state,
plContext),
PKIX_COULDNOTCREATEFORWARDBUILDERSTATEOBJECT);
state->status = BUILD_INITIAL;
state->traversedCACerts = traversedCACerts;
state->certStoreIndex = 0;
state->numCerts = 0;
state->numAias = 0;
state->certIndex = 0;
state->aiaIndex = 0;
state->certCheckedIndex = 0;
state->checkerIndex = 0;
state->hintCertIndex = 0;
state->numFanout = numFanout;
state->numDepth = numDepth;
state->reasonCode = 0;
state->revChecking = numDepth;
state->canBeCached = canBeCached;
state->useOnlyLocal = PKIX_TRUE;
state->revChecking = PKIX_FALSE;
state->usingHintCerts = PKIX_FALSE;
state->certLoopingDetected = PKIX_FALSE;
PKIX_INCREF(validityDate);
state->validityDate = validityDate;
PKIX_INCREF(prevCert);
state->prevCert = prevCert;
state->candidateCert = NULL;
PKIX_INCREF(traversedSubjNames);
state->traversedSubjNames = traversedSubjNames;
PKIX_INCREF(trustChain);
state->trustChain = trustChain;
state->aia = NULL;
state->candidateCerts = NULL;
state->reversedCertChain = NULL;
state->checkedCritExtOIDs = NULL;
state->checkerChain = NULL;
state->certSel = NULL;
state->verifyNode = NULL;
state->client = NULL;
PKIX_INCREF(parentState);
state->parentState = parentState;
if (parentState != NULL) {
state->buildConstants.numAnchors =
parentState->buildConstants.numAnchors;
state->buildConstants.numCertStores =
parentState->buildConstants.numCertStores;
state->buildConstants.numHintCerts =
parentState->buildConstants.numHintCerts;
state->buildConstants.maxFanout =
parentState->buildConstants.maxFanout;
state->buildConstants.maxDepth =
parentState->buildConstants.maxDepth;
state->buildConstants.maxTime =
parentState->buildConstants.maxTime;
state->buildConstants.procParams =
parentState->buildConstants.procParams;
state->buildConstants.testDate =
parentState->buildConstants.testDate;
state->buildConstants.timeLimit =
parentState->buildConstants.timeLimit;
state->buildConstants.targetCert =
parentState->buildConstants.targetCert;
state->buildConstants.targetPubKey =
parentState->buildConstants.targetPubKey;
state->buildConstants.certStores =
parentState->buildConstants.certStores;
state->buildConstants.anchors =
parentState->buildConstants.anchors;
state->buildConstants.userCheckers =
parentState->buildConstants.userCheckers;
state->buildConstants.hintCerts =
parentState->buildConstants.hintCerts;
state->buildConstants.revChecker =
parentState->buildConstants.revChecker;
state->buildConstants.aiaMgr =
parentState->buildConstants.aiaMgr;
state->buildConstants.trustOnlyUserAnchors =
parentState->buildConstants.trustOnlyUserAnchors;
}
*pState = state;
state = NULL;
cleanup:
PKIX_DECREF(state);
PKIX_RETURN(FORWARDBUILDERSTATE);
}
/*
* FUNCTION: pkix_Build_GetResourceLimits
*
* DESCRIPTION:
* Retrieve Resource Limits from ProcessingParams and initialize them in
* BuildConstants.
*
* PARAMETERS
* "buildConstants"
* Address of a BuildConstants structure containing objects and values
* that remain constant throughout the building of a chain. 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 Build Error if the function fails in a non-fatal way.
* Returns a Fatal Error if the function fails in an unrecoverable way.
*/
static PKIX_Error *
pkix_Build_GetResourceLimits(
BuildConstants *buildConstants,
void *plContext)
{
PKIX_ResourceLimits *resourceLimits = NULL;
PKIX_ENTER(BUILD, "pkix_Build_GetResourceLimits");
PKIX_NULLCHECK_ONE(buildConstants);
PKIX_CHECK(PKIX_ProcessingParams_GetResourceLimits
(buildConstants->procParams, &resourceLimits, plContext),
PKIX_PROCESSINGPARAMSGETRESOURCELIMITSFAILED);
buildConstants->maxFanout = 0;
buildConstants->maxDepth = 0;
buildConstants->maxTime = 0;
if (resourceLimits) {
PKIX_CHECK(PKIX_ResourceLimits_GetMaxFanout
(resourceLimits, &buildConstants->maxFanout, plContext),
PKIX_RESOURCELIMITSGETMAXFANOUTFAILED);
PKIX_CHECK(PKIX_ResourceLimits_GetMaxDepth
(resourceLimits, &buildConstants->maxDepth, plContext),
PKIX_RESOURCELIMITSGETMAXDEPTHFAILED);
PKIX_CHECK(PKIX_ResourceLimits_GetMaxTime
(resourceLimits, &buildConstants->maxTime, plContext),
PKIX_RESOURCELIMITSGETMAXTIMEFAILED);
}
cleanup:
PKIX_DECREF(resourceLimits);
PKIX_RETURN(BUILD);
}
/*
* FUNCTION: pkix_ForwardBuilderState_ToString
* (see comments for PKIX_PL_ToStringCallback in pkix_pl_system.h)
*/
static PKIX_Error *
pkix_ForwardBuilderState_ToString
(PKIX_PL_Object *object,
PKIX_PL_String **pString,
void *plContext)
{
PKIX_ForwardBuilderState *state = NULL;
PKIX_PL_String *formatString = NULL;
PKIX_PL_String *resultString = NULL;
PKIX_PL_String *buildStatusString = NULL;
PKIX_PL_String *validityDateString = NULL;
PKIX_PL_String *prevCertString = NULL;
PKIX_PL_String *candidateCertString = NULL;
PKIX_PL_String *traversedSubjNamesString = NULL;
PKIX_PL_String *trustChainString = NULL;
PKIX_PL_String *candidateCertsString = NULL;
PKIX_PL_String *certSelString = NULL;
PKIX_PL_String *verifyNodeString = NULL;
PKIX_PL_String *parentStateString = NULL;
char *asciiFormat = "\n"
"\t{buildStatus: \t%s\n"
"\ttraversedCACerts: \t%d\n"
"\tcertStoreIndex: \t%d\n"
"\tnumCerts: \t%d\n"
"\tnumAias: \t%d\n"
"\tcertIndex: \t%d\n"
"\taiaIndex: \t%d\n"
"\tnumFanout: \t%d\n"
"\tnumDepth: \t%d\n"
"\treasonCode: \t%d\n"
"\tcanBeCached: \t%d\n"
"\tuseOnlyLocal: \t%d\n"
"\trevChecking: \t%d\n"
"\tvalidityDate: \t%s\n"
"\tprevCert: \t%s\n"
"\tcandidateCert: \t%s\n"
"\ttraversedSubjNames: \t%s\n"
"\ttrustChain: \t%s\n"
"\tcandidateCerts: \t%s\n"
"\tcertSel: \t%s\n"
"\tverifyNode: \t%s\n"
"\tparentState: \t%s}\n";
char *asciiStatus = NULL;
PKIX_ENTER(FORWARDBUILDERSTATE, "pkix_ForwardBuilderState_ToString");
PKIX_NULLCHECK_TWO(object, pString);
PKIX_CHECK(pkix_CheckType
(object, PKIX_FORWARDBUILDERSTATE_TYPE, plContext),
PKIX_OBJECTNOTFORWARDBUILDERSTATE);
state = (PKIX_ForwardBuilderState *)object;
PKIX_CHECK(PKIX_PL_String_Create
(PKIX_ESCASCII, asciiFormat, 0, &formatString, plContext),
PKIX_STRINGCREATEFAILED);
switch (state->status) {
case BUILD_SHORTCUTPENDING: asciiStatus = "BUILD_SHORTCUTPENDING";
break;
case BUILD_INITIAL: asciiStatus = "BUILD_INITIAL";
break;
case BUILD_TRYAIA: asciiStatus = "BUILD_TRYAIA";
break;
case BUILD_AIAPENDING: asciiStatus = "BUILD_AIAPENDING";
break;
case BUILD_COLLECTINGCERTS: asciiStatus = "BUILD_COLLECTINGCERTS";
break;
case BUILD_GATHERPENDING: asciiStatus = "BUILD_GATHERPENDING";
break;
case BUILD_CERTVALIDATING: asciiStatus = "BUILD_CERTVALIDATING";
break;
case BUILD_ABANDONNODE: asciiStatus = "BUILD_ABANDONNODE";
break;
case BUILD_DATEPREP: asciiStatus = "BUILD_DATEPREP";
break;
case BUILD_CHECKTRUSTED: asciiStatus = "BUILD_CHECKTRUSTED";
break;
case BUILD_CHECKTRUSTED2: asciiStatus = "BUILD_CHECKTRUSTED2";
break;
case BUILD_ADDTOCHAIN: asciiStatus = "BUILD_ADDTOCHAIN";
break;
case BUILD_VALCHAIN: asciiStatus = "BUILD_VALCHAIN";
break;
case BUILD_VALCHAIN2: asciiStatus = "BUILD_VALCHAIN2";
break;
case BUILD_EXTENDCHAIN: asciiStatus = "BUILD_EXTENDCHAIN";
break;
case BUILD_GETNEXTCERT: asciiStatus = "BUILD_GETNEXTCERT";
break;
default: asciiStatus = "INVALID STATUS";
break;
}
PKIX_CHECK(PKIX_PL_String_Create
(PKIX_ESCASCII, asciiStatus, 0, &buildStatusString, plContext),
PKIX_STRINGCREATEFAILED);
PKIX_TOSTRING
(state->validityDate, &validityDateString, plContext,
PKIX_OBJECTTOSTRINGFAILED);
PKIX_TOSTRING
(state->prevCert, &prevCertString, plContext,
PKIX_OBJECTTOSTRINGFAILED);
PKIX_TOSTRING
(state->candidateCert, &candidateCertString, plContext,
PKIX_OBJECTTOSTRINGFAILED);
PKIX_TOSTRING
(state->traversedSubjNames,
&traversedSubjNamesString,
plContext,
PKIX_OBJECTTOSTRINGFAILED);
PKIX_TOSTRING
(state->trustChain, &trustChainString, plContext,
PKIX_OBJECTTOSTRINGFAILED);
PKIX_TOSTRING
(state->candidateCerts, &candidateCertsString, plContext,
PKIX_OBJECTTOSTRINGFAILED);
PKIX_TOSTRING
(state->certSel, &certSelString, plContext,
PKIX_OBJECTTOSTRINGFAILED);
PKIX_TOSTRING
(state->verifyNode, &verifyNodeString, plContext,
PKIX_OBJECTTOSTRINGFAILED);
PKIX_TOSTRING
(state->parentState, &parentStateString, plContext,
PKIX_OBJECTTOSTRINGFAILED);
PKIX_CHECK(PKIX_PL_Sprintf
(&resultString,
plContext,
formatString,
buildStatusString,
(PKIX_Int32)state->traversedCACerts,
(PKIX_UInt32)state->certStoreIndex,
(PKIX_UInt32)state->numCerts,
(PKIX_UInt32)state->numAias,
(PKIX_UInt32)state->certIndex,
(PKIX_UInt32)state->aiaIndex,
(PKIX_UInt32)state->numFanout,
(PKIX_UInt32)state->numDepth,
(PKIX_UInt32)state->reasonCode,
state->canBeCached,
state->useOnlyLocal,
state->revChecking,
validityDateString,
prevCertString,
candidateCertString,
traversedSubjNamesString,
trustChainString,
candidateCertsString,
certSelString,
verifyNodeString,
parentStateString),
PKIX_SPRINTFFAILED);
*pString = resultString;
cleanup:
PKIX_DECREF(formatString);
PKIX_DECREF(buildStatusString);
PKIX_DECREF(validityDateString);
PKIX_DECREF(prevCertString);
PKIX_DECREF(candidateCertString);
PKIX_DECREF(traversedSubjNamesString);
PKIX_DECREF(trustChainString);
PKIX_DECREF(candidateCertsString);
PKIX_DECREF(certSelString);
PKIX_DECREF(verifyNodeString);
PKIX_DECREF(parentStateString);
PKIX_RETURN(FORWARDBUILDERSTATE);
}
/*
* FUNCTION: pkix_ForwardBuilderState_RegisterSelf
*
* DESCRIPTION:
* Registers PKIX_FORWARDBUILDERSTATE_TYPE and its related functions
* with systemClasses[]
*
* THREAD SAFETY:
* Not Thread Safe (see Thread Safety Definitions in Programmer's Guide)
*
* Since this function is only called by PKIX_PL_Initialize, which should
* only be called once, it is acceptable that this function is not
* thread-safe.
*/
PKIX_Error *
pkix_ForwardBuilderState_RegisterSelf(void *plContext)
{
extern pkix_ClassTable_Entry systemClasses[PKIX_NUMTYPES];
pkix_ClassTable_Entry entry;
PKIX_ENTER(FORWARDBUILDERSTATE,
"pkix_ForwardBuilderState_RegisterSelf");
entry.description = "ForwardBuilderState";
entry.objCounter = 0;
entry.typeObjectSize = sizeof(PKIX_ForwardBuilderState);
entry.destructor = pkix_ForwardBuilderState_Destroy;
entry.equalsFunction = NULL;
entry.hashcodeFunction = NULL;
entry.toStringFunction = pkix_ForwardBuilderState_ToString;
entry.comparator = NULL;
entry.duplicateFunction = NULL;
systemClasses[PKIX_FORWARDBUILDERSTATE_TYPE] = entry;
PKIX_RETURN(FORWARDBUILDERSTATE);
}
#if PKIX_FORWARDBUILDERSTATEDEBUG
/*
* FUNCTION: pkix_ForwardBuilderState_DumpState
*
* DESCRIPTION:
* This function invokes the ToString function on the argument pointed to
* by "state".
* PARAMETERS:
* "state"
* The address of the ForwardBuilderState object. Must be non-NULL.
*
* THREAD SAFETY:
* Not Thread Safe (see Thread Safety Definitions in Programmer's Guide)
*/
PKIX_Error *
pkix_ForwardBuilderState_DumpState(
PKIX_ForwardBuilderState *state,
void *plContext)
{
PKIX_PL_String *stateString = NULL;
char *stateAscii = NULL;
PKIX_UInt32 length;
PKIX_ENTER(FORWARDBUILDERSTATE,"pkix_ForwardBuilderState_DumpState");
PKIX_NULLCHECK_ONE(state);
PKIX_CHECK(PKIX_PL_Object_InvalidateCache
((PKIX_PL_Object *)state, plContext),
PKIX_OBJECTINVALIDATECACHEFAILED);
PKIX_CHECK(PKIX_PL_Object_ToString
((PKIX_PL_Object*)state, &stateString, plContext),
PKIX_OBJECTTOSTRINGFAILED);
PKIX_CHECK(PKIX_PL_String_GetEncoded
(stateString,
PKIX_ESCASCII,
(void **)&stateAscii,
&length,
plContext),
PKIX_STRINGGETENCODEDFAILED);
PKIX_DEBUG_ARG("In Phase 1: state = %s\n", stateAscii);
PKIX_FREE(stateAscii);
PKIX_DECREF(stateString);
cleanup:
PKIX_RETURN(FORWARDBUILDERSTATE);
}
#endif
/*
* FUNCTION: pkix_ForwardBuilderState_IsIOPending
* DESCRIPTION:
*
* This function determines whether the state of the ForwardBuilderState
* pointed to by "state" indicates I/O is in progress, and stores the Boolean
* result at "pPending".
*
* PARAMETERS:
* "state"
* The address of the ForwardBuilderState object. Must be non-NULL.
* "pPending"
* The address at which the result is 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 ForwardBuilderState Error if the function fails in a
* non-fatal way.
* Returns a Fatal Error if the function fails in an unrecoverable way.
*/
static PKIX_Error*
pkix_ForwardBuilderState_IsIOPending(
PKIX_ForwardBuilderState *state,
PKIX_Boolean *pPending,
void *plContext)
{
PKIX_ENTER(FORWARDBUILDERSTATE, "pkix_ForwardBuilderState_IsIOPending");
PKIX_NULLCHECK_TWO(state, pPending);
if ((state->status == BUILD_GATHERPENDING) ||
(state->status == BUILD_CHECKTRUSTED2) ||
(state->status == BUILD_VALCHAIN2) ||
(state->status == BUILD_AIAPENDING)) {
*pPending = PKIX_TRUE;
} else {
*pPending = PKIX_FALSE;
}
PKIX_RETURN(FORWARDBUILDERSTATE);
}
/* --Private-BuildChain-Functions------------------------------------------- */
/*
* FUNCTION: pkix_Build_SortCertComparator
* DESCRIPTION:
*
* This Function takes two Certificates cast in "obj1" and "obj2",
* compares them to determine which is a more preferable certificate
* for chain building. This Function is suitable for use as a
* comparator callback for pkix_List_BubbleSort, setting "*pResult" to
* > 0 if "obj1" is less desirable than "obj2" and < 0 if "obj1"
* is more desirable than "obj2".
*
* PARAMETERS:
* "obj1"
* Address of the PKIX_PL_Object that is a cast of PKIX_PL_Cert.
* Must be non-NULL.
* "obj2"
* Address of the PKIX_PL_Object that is a cast of PKIX_PL_Cert.
* Must be non-NULL.
* "pResult"
* Address where the comparison result is returned. 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 Build Error if the function fails in a non-fatal way
* Returns a Fatal Error if the function fails in an unrecoverable way.
*/
static PKIX_Error *
pkix_Build_SortCertComparator(
PKIX_PL_Object *obj1,
PKIX_PL_Object *obj2,
PKIX_Int32 *pResult,
void *plContext)
{
PKIX_PL_Date *date1 = NULL;
PKIX_PL_Date *date2 = NULL;
PKIX_Int32 result = 0;
PKIX_ENTER(BUILD, "pkix_Build_SortCertComparator");
PKIX_NULLCHECK_THREE(obj1, obj2, pResult);
/*
* For sorting candidate certificates, we use NotAfter date as the
* comparison key for now (can be expanded if desired in the future).
*
* In PKIX_BuildChain, the List of CertStores was reordered so that
* trusted CertStores are ahead of untrusted CertStores. That sort, or
* this one, could be taken out if it is determined that it doesn't help
* performance, or in some way hinders the solution of choosing desired
* candidates.
*/
PKIX_CHECK(pkix_CheckType(obj1, PKIX_CERT_TYPE, plContext),
PKIX_OBJECTNOTCERT);
PKIX_CHECK(pkix_CheckType(obj2, PKIX_CERT_TYPE, plContext),
PKIX_OBJECTNOTCERT);
PKIX_CHECK(PKIX_PL_Cert_GetValidityNotAfter
((PKIX_PL_Cert *)obj1, &date1, plContext),
PKIX_CERTGETVALIDITYNOTAFTERFAILED);
PKIX_CHECK(PKIX_PL_Cert_GetValidityNotAfter
((PKIX_PL_Cert *)obj2, &date2, plContext),
PKIX_CERTGETVALIDITYNOTAFTERFAILED);
PKIX_CHECK(PKIX_PL_Object_Compare
((PKIX_PL_Object *)date1,
(PKIX_PL_Object *)date2,
&result,
plContext),
PKIX_OBJECTCOMPARATORFAILED);
/*
* Invert the result, so that if date1 is greater than date2,
* obj1 is sorted before obj2. This is because pkix_List_BubbleSort
* sorts in ascending order.
*/
*pResult = -result;
cleanup:
PKIX_DECREF(date1);
PKIX_DECREF(date2);
PKIX_RETURN(BUILD);
}
/* This local error check macro */
#define ERROR_CHECK(errCode) \
if (pkixErrorResult) { \
if (pkixLog) { \
PR_LOG(pkixLog, PR_LOG_DEBUG, ("====> ERROR_CHECK code %s\n", #errCode)); \
} \
pkixTempErrorReceived = PKIX_TRUE; \
pkixErrorClass = pkixErrorResult->errClass; \
if (pkixErrorClass == PKIX_FATAL_ERROR) { \
goto cleanup; \
} \
if (verifyNode) { \
PKIX_DECREF(verifyNode->error); \
PKIX_INCREF(pkixErrorResult); \
verifyNode->error = pkixErrorResult; \
} \
pkixErrorCode = errCode; \
goto cleanup; \
}
/*
* FUNCTION: pkix_Build_VerifyCertificate
* DESCRIPTION:
*
* Checks whether the previous Cert stored in the ForwardBuilderState pointed
* to by "state" successfully chains, including signature verification, to the
* candidate Cert also stored in "state", using the Boolean value in "trusted"
* to determine whether "candidateCert" is trusted.
*
* First it checks whether "candidateCert" has already been traversed by
* determining whether it is contained in the List of traversed Certs. It then
* checks the candidate Cert with user checkers, if any, in the List pointed to
* by "userCheckers". Finally, it runs the signature validation.
*
* If this Certificate fails verification, and state->verifyNode is non-NULL,
* this function sets the Error code into the verifyNode.
*
* PARAMETERS:
* "state"
* Address of ForwardBuilderState to be used. Must be non-NULL.
* "userCheckers"
* Address of a List of CertChainCheckers to be used, if present, to
* validate the candidateCert.
* "trusted"
* Boolean value of trust for the candidate Cert
* "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 Build Error if the function fails in a non-fatal way
* Returns a Fatal Error if the function fails in an unrecoverable way.
*/
static PKIX_Error *
pkix_Build_VerifyCertificate(
PKIX_ForwardBuilderState *state,
PKIX_List *userCheckers,
PKIX_Boolean *pTrusted,
PKIX_VerifyNode *verifyNode,
void *plContext)
{
PKIX_UInt32 numUserCheckers = 0;
PKIX_UInt32 i = 0;
PKIX_Boolean loopFound = PKIX_FALSE;
PKIX_Boolean supportForwardChecking = PKIX_FALSE;
PKIX_Boolean trusted = PKIX_FALSE;
PKIX_PL_Cert *candidateCert = NULL;
PKIX_PL_PublicKey *candidatePubKey = NULL;
PKIX_CertChainChecker *userChecker = NULL;
PKIX_CertChainChecker_CheckCallback checkerCheck = NULL;
PKIX_PL_TrustAnchorMode trustAnchorMode =
PKIX_PL_TrustAnchorMode_Ignore;
void *nbioContext = NULL;
PKIX_ENTER(BUILD, "pkix_Build_VerifyCertificate");
PKIX_NULLCHECK_TWO(state, pTrusted);
PKIX_NULLCHECK_THREE
(state->candidateCerts, state->prevCert, state->trustChain);
PKIX_INCREF(state->candidateCert);
candidateCert = state->candidateCert;
if (state->buildConstants.numAnchors) {
if (state->buildConstants.trustOnlyUserAnchors) {
trustAnchorMode = PKIX_PL_TrustAnchorMode_Exclusive;
} else {
trustAnchorMode = PKIX_PL_TrustAnchorMode_Additive;
}
} else {
trustAnchorMode = PKIX_PL_TrustAnchorMode_Ignore;
}
PKIX_CHECK(
PKIX_PL_Cert_IsCertTrusted(candidateCert, trustAnchorMode,
&trusted, plContext),
PKIX_CERTISCERTTRUSTEDFAILED);
*pTrusted = trusted;
/* check for loops */
PKIX_CHECK(pkix_List_Contains
(state->trustChain,
(PKIX_PL_Object *)candidateCert,
&loopFound,
plContext),
PKIX_LISTCONTAINSFAILED);
if (loopFound) {
if (verifyNode != NULL) {
PKIX_Error *verifyError = NULL;
PKIX_ERROR_CREATE
(BUILD,
PKIX_LOOPDISCOVEREDDUPCERTSNOTALLOWED,
verifyError);
PKIX_DECREF(verifyNode->error);
verifyNode->error = verifyError;
}
/* Even if error logged, still need to abort
* if cert is not trusted. */
if (!trusted) {
PKIX_ERROR(PKIX_LOOPDISCOVEREDDUPCERTSNOTALLOWED);
}
state->certLoopingDetected = PKIX_TRUE;
}
if (userCheckers != NULL) {
PKIX_CHECK(PKIX_List_GetLength
(userCheckers, &numUserCheckers, plContext),
PKIX_LISTGETLENGTHFAILED);
for (i = 0; i < numUserCheckers; i++) {
PKIX_CHECK(PKIX_List_GetItem
(userCheckers,
i,
(PKIX_PL_Object **) &userChecker,
plContext),
PKIX_LISTGETITEMFAILED);
PKIX_CHECK
(PKIX_CertChainChecker_IsForwardCheckingSupported
(userChecker, &supportForwardChecking, plContext),
PKIX_CERTCHAINCHECKERISFORWARDCHECKINGSUPPORTEDFAILED);
if (supportForwardChecking == PKIX_TRUE) {
PKIX_CHECK(PKIX_CertChainChecker_GetCheckCallback
(userChecker, &checkerCheck, plContext),
PKIX_CERTCHAINCHECKERGETCHECKCALLBACKFAILED);
pkixErrorResult =
checkerCheck(userChecker, candidateCert, NULL,
&nbioContext, plContext);
ERROR_CHECK(PKIX_USERCHECKERCHECKFAILED);
}
PKIX_DECREF(userChecker);
}
}
/* Check that public key of the trusted dsa cert has
* dsa parameters */
if (trusted) {
PKIX_Boolean paramsNeeded = PKIX_FALSE;
PKIX_CHECK(PKIX_PL_Cert_GetSubjectPublicKey
(candidateCert, &candidatePubKey, plContext),
PKIX_CERTGETSUBJECTPUBLICKEYFAILED);
PKIX_CHECK(PKIX_PL_PublicKey_NeedsDSAParameters
(candidatePubKey, &paramsNeeded, plContext),
PKIX_PUBLICKEYNEEDSDSAPARAMETERSFAILED);
if (paramsNeeded) {
PKIX_ERROR(PKIX_MISSINGDSAPARAMETERS);
}
}
cleanup:
PKIX_DECREF(candidateCert);
PKIX_DECREF(candidatePubKey);
PKIX_DECREF(userChecker);
PKIX_RETURN(BUILD);
}
/*
* FUNCTION: pkix_Build_ValidationCheckers
* DESCRIPTION:
*
* Creates a List of Objects to be used in determining whether the List of
* Certs pointed to by "certChain" successfully validates using the
* ForwardBuilderState pointed to by "state", and the TrustAnchor pointed to by
* "anchor". These objects are a reversed Cert Chain, consisting of the certs
* in "certChain" in reversed order, suitable for presenting to the
* CertChainCheckers; a List of critical extension OIDS that have already been
* processed in forward building; a List of CertChainCheckers to be called, and
* a List of RevocationCheckers to be called. These results are stored in
* fields of "state".
*
* PARAMETERS:
* "state"
* Address of ForwardBuilderState to be used. Must be non-NULL.
* "certChain"
* Address of List of Certs to be validated. Must be non-NULL.
* "anchor"
* Address of TrustAnchor to be used. Must be non-NULL.
* "addEkuChecker"
* Boolean flags that tells to add eku checker to the list
* of checkers. Only needs to be done for existing chain revalidation.
* "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 Build Error if the function fails in a non-fatal way
* Returns a Fatal Error if the function fails in an unrecoverable way.
*/
static PKIX_Error *
pkix_Build_ValidationCheckers(
PKIX_ForwardBuilderState *state,
PKIX_List *certChain,
PKIX_TrustAnchor *anchor,
PKIX_Boolean chainRevalidationStage,
void *plContext)
{
PKIX_List *checkers = NULL;
PKIX_List *initialPolicies = NULL;
PKIX_List *reversedCertChain = NULL;
PKIX_List *buildCheckedCritExtOIDsList = NULL;
PKIX_ProcessingParams *procParams = NULL;
PKIX_PL_Cert *trustedCert = NULL;
PKIX_PL_PublicKey *trustedPubKey = NULL;
PKIX_PL_CertNameConstraints *trustedNC = NULL;
PKIX_CertChainChecker *sigChecker = NULL;
PKIX_CertChainChecker *policyChecker = NULL;
PKIX_CertChainChecker *userChecker = NULL;
PKIX_CertChainChecker *nameConstraintsChecker = NULL;
PKIX_CertChainChecker *checker = NULL;
PKIX_CertSelector *certSelector = NULL;
PKIX_List *userCheckerExtOIDs = NULL;
PKIX_PL_OID *oid = NULL;
PKIX_Boolean supportForwardChecking = PKIX_FALSE;
PKIX_Boolean policyQualifiersRejected = PKIX_FALSE;
PKIX_Boolean initialPolicyMappingInhibit = PKIX_FALSE;
PKIX_Boolean initialAnyPolicyInhibit = PKIX_FALSE;
PKIX_Boolean initialExplicitPolicy = PKIX_FALSE;
PKIX_UInt32 numChainCerts;
PKIX_UInt32 numCertCheckers;
PKIX_UInt32 i;
PKIX_ENTER(BUILD, "pkix_Build_ValidationCheckers");
PKIX_NULLCHECK_THREE(state, certChain, anchor);
PKIX_CHECK(PKIX_List_Create(&checkers, plContext),
PKIX_LISTCREATEFAILED);
PKIX_CHECK(PKIX_List_ReverseList
(certChain, &reversedCertChain, plContext),
PKIX_LISTREVERSELISTFAILED);
PKIX_CHECK(PKIX_List_GetLength
(reversedCertChain, &numChainCerts, plContext),
PKIX_LISTGETLENGTHFAILED);
procParams = state->buildConstants.procParams;
/* Do need to add a number of checker to revalidate
* a built chain. KU, EKU, CertType and Validity Date
* get checked by certificate selector during chain
* construction, but needed to be checked for chain from
* the cache.*/
if (chainRevalidationStage) {
PKIX_CHECK(pkix_ExpirationChecker_Initialize
(state->buildConstants.testDate, &checker, plContext),
PKIX_EXPIRATIONCHECKERINITIALIZEFAILED);
PKIX_CHECK(PKIX_List_AppendItem
(checkers, (PKIX_PL_Object *)checker, plContext),
PKIX_LISTAPPENDITEMFAILED);
PKIX_DECREF(checker);
PKIX_CHECK(PKIX_ProcessingParams_GetTargetCertConstraints
(procParams, &certSelector, plContext),
PKIX_PROCESSINGPARAMSGETTARGETCERTCONSTRAINTSFAILED);
PKIX_CHECK(pkix_TargetCertChecker_Initialize
(certSelector, numChainCerts, &checker, plContext),
PKIX_EXPIRATIONCHECKERINITIALIZEFAILED);
PKIX_CHECK(PKIX_List_AppendItem
(checkers, (PKIX_PL_Object *)checker, plContext),
PKIX_LISTAPPENDITEMFAILED);
PKIX_DECREF(checker);
}
PKIX_CHECK(PKIX_ProcessingParams_GetInitialPolicies
(procParams, &initialPolicies, plContext),
PKIX_PROCESSINGPARAMSGETINITIALPOLICIESFAILED);
PKIX_CHECK(PKIX_ProcessingParams_GetPolicyQualifiersRejected
(procParams, &policyQualifiersRejected, plContext),
PKIX_PROCESSINGPARAMSGETPOLICYQUALIFIERSREJECTEDFAILED);
PKIX_CHECK(PKIX_ProcessingParams_IsPolicyMappingInhibited
(procParams, &initialPolicyMappingInhibit, plContext),
PKIX_PROCESSINGPARAMSISPOLICYMAPPINGINHIBITEDFAILED);
PKIX_CHECK(PKIX_ProcessingParams_IsAnyPolicyInhibited
(procParams, &initialAnyPolicyInhibit, plContext),
PKIX_PROCESSINGPARAMSISANYPOLICYINHIBITEDFAILED);
PKIX_CHECK(PKIX_ProcessingParams_IsExplicitPolicyRequired
(procParams, &initialExplicitPolicy, plContext),
PKIX_PROCESSINGPARAMSISEXPLICITPOLICYREQUIREDFAILED);
PKIX_CHECK(pkix_PolicyChecker_Initialize
(initialPolicies,
policyQualifiersRejected,
initialPolicyMappingInhibit,
initialExplicitPolicy,
initialAnyPolicyInhibit,
numChainCerts,
&policyChecker,
plContext),
PKIX_POLICYCHECKERINITIALIZEFAILED);
PKIX_CHECK(PKIX_List_AppendItem
(checkers, (PKIX_PL_Object *)policyChecker, plContext),
PKIX_LISTAPPENDITEMFAILED);
/*
* Create an OID list that contains critical extensions processed
* by BuildChain. These are specified in a static const array.
*/
PKIX_CHECK(PKIX_List_Create(&buildCheckedCritExtOIDsList, plContext),
PKIX_LISTCREATEFAILED);
for (i = 0; buildCheckedCritExtOIDs[i] != PKIX_UNKNOWN_OID; i++) {
PKIX_CHECK(PKIX_PL_OID_Create
(buildCheckedCritExtOIDs[i], &oid, plContext),
PKIX_OIDCREATEFAILED);
PKIX_CHECK(PKIX_List_AppendItem
(buildCheckedCritExtOIDsList,
(PKIX_PL_Object *) oid,
plContext),
PKIX_LISTAPPENDITEMFAILED);
PKIX_DECREF(oid);
}
if (state->buildConstants.userCheckers != NULL) {
PKIX_CHECK(PKIX_List_GetLength
(state->buildConstants.userCheckers,
&numCertCheckers,
plContext),
PKIX_LISTGETLENGTHFAILED);
for (i = 0; i < numCertCheckers; i++) {
PKIX_CHECK(PKIX_List_GetItem
(state->buildConstants.userCheckers,
i,
(PKIX_PL_Object **) &userChecker,
plContext),
PKIX_LISTGETITEMFAILED);
PKIX_CHECK
(PKIX_CertChainChecker_IsForwardCheckingSupported
(userChecker, &supportForwardChecking, plContext),
PKIX_CERTCHAINCHECKERGETSUPPORTEDEXTENSIONSFAILED);
/*
* If this userChecker supports forwardChecking then it
* should have been checked during build chain. Skip
* checking but need to add checker's extension OIDs
* to buildCheckedCritExtOIDsList.
*/
if (supportForwardChecking == PKIX_TRUE) {
PKIX_CHECK
(PKIX_CertChainChecker_GetSupportedExtensions
(userChecker, &userCheckerExtOIDs, plContext),
PKIX_CERTCHAINCHECKERGETSUPPORTEDEXTENSIONSFAILED);
if (userCheckerExtOIDs != NULL) {
PKIX_CHECK(pkix_List_AppendList
(buildCheckedCritExtOIDsList,
userCheckerExtOIDs,
plContext),
PKIX_LISTAPPENDLISTFAILED);
}
} else {
PKIX_CHECK(PKIX_List_AppendItem
(checkers,
(PKIX_PL_Object *)userChecker,
plContext),
PKIX_LISTAPPENDITEMFAILED);
}
PKIX_DECREF(userCheckerExtOIDs);
PKIX_DECREF(userChecker);
}
}
/* Enabling post chain building signature check on the certs. */
PKIX_CHECK(PKIX_TrustAnchor_GetTrustedCert
(anchor, &trustedCert, plContext),
PKIX_TRUSTANCHORGETTRUSTEDCERTFAILED);
PKIX_CHECK(PKIX_PL_Cert_GetSubjectPublicKey
(trustedCert, &trustedPubKey, plContext),
PKIX_CERTGETSUBJECTPUBLICKEYFAILED);
PKIX_CHECK(pkix_SignatureChecker_Initialize
(trustedPubKey,
numChainCerts,
&sigChecker,
plContext),
PKIX_SIGNATURECHECKERINITIALIZEFAILED);
PKIX_CHECK(PKIX_List_AppendItem
(checkers,
(PKIX_PL_Object *)sigChecker,
plContext),
PKIX_LISTAPPENDITEMFAILED);
/* Enabling post chain building name constraints check on the certs. */
PKIX_CHECK(PKIX_TrustAnchor_GetNameConstraints
(anchor, &trustedNC, plContext),
PKIX_TRUSTANCHORGETNAMECONSTRAINTSFAILED);
PKIX_CHECK(pkix_NameConstraintsChecker_Initialize
(trustedNC, numChainCerts, &nameConstraintsChecker,
plContext),
PKIX_NAMECONSTRAINTSCHECKERINITIALIZEFAILED);
PKIX_CHECK(PKIX_List_AppendItem
(checkers,
(PKIX_PL_Object *)nameConstraintsChecker,
plContext),
PKIX_LISTAPPENDITEMFAILED);
PKIX_DECREF(state->reversedCertChain);
PKIX_INCREF(reversedCertChain);
state->reversedCertChain = reversedCertChain;
PKIX_DECREF(state->checkedCritExtOIDs);
PKIX_INCREF(buildCheckedCritExtOIDsList);
state->checkedCritExtOIDs = buildCheckedCritExtOIDsList;
PKIX_DECREF(state->checkerChain);
state->checkerChain = checkers;
checkers = NULL;
state->certCheckedIndex = 0;
state->checkerIndex = 0;
state->revChecking = PKIX_FALSE;
cleanup:
PKIX_DECREF(oid);
PKIX_DECREF(reversedCertChain);
PKIX_DECREF(buildCheckedCritExtOIDsList);
PKIX_DECREF(checker);
PKIX_DECREF(checkers);
PKIX_DECREF(initialPolicies);
PKIX_DECREF(trustedCert);
PKIX_DECREF(trustedPubKey);
PKIX_DECREF(certSelector);
PKIX_DECREF(sigChecker);
PKIX_DECREF(trustedNC);
PKIX_DECREF(nameConstraintsChecker);
PKIX_DECREF(policyChecker);
PKIX_DECREF(userChecker);
PKIX_DECREF(userCheckerExtOIDs);
PKIX_RETURN(BUILD);
}
/*
* FUNCTION: pkix_Build_ValidateEntireChain
* DESCRIPTION:
*
* Checks whether the current List of Certs successfully validates using the
* TrustAnchor pointed to by "anchor" and other parameters contained, as was
* the Cert List, in "state".
*
* If a checker using non-blocking I/O returns with a non-NULL non-blocking I/O
* context (NBIOContext), an indication that I/O is in progress and the
* checking has not been completed, this function stores that context at
* "pNBIOContext". Otherwise, it stores NULL at "pNBIOContext".
*
* If not awaiting I/O and if successful, a ValidateResult is created
* containing the Public Key of the target certificate (including DSA parameter
* inheritance, if any) and the PolicyNode representing the policy tree output
* by the validation algorithm. If not successful, an Error pointer is
* returned.
*
* PARAMETERS:
* "state"
* Address of ForwardBuilderState to be used. Must be non-NULL.
* "anchor"
* Address of TrustAnchor to be used. Must be non-NULL.
* "pNBIOContext"
* Address at which the NBIOContext is stored indicating whether the
* validation is complete. Must be non-NULL.
* "pValResult"
* Address at which the ValidateResult is 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 Build Error if the function fails in a non-fatal way
* Returns a Fatal Error if the function fails in an unrecoverable way.
*/
static PKIX_Error *
pkix_Build_ValidateEntireChain(
PKIX_ForwardBuilderState *state,
PKIX_TrustAnchor *anchor,
void **pNBIOContext,
PKIX_ValidateResult **pValResult,
PKIX_VerifyNode *verifyNode,
void *plContext)
{
PKIX_UInt32 numChainCerts = 0;
PKIX_PL_PublicKey *subjPubKey = NULL;
PKIX_PolicyNode *policyTree = NULL;
PKIX_ValidateResult *valResult = NULL;
void *nbioContext = NULL;
PKIX_ENTER(BUILD, "pkix_Build_ValidateEntireChain");
PKIX_NULLCHECK_FOUR(state, anchor, pNBIOContext, pValResult);
*pNBIOContext = NULL; /* prepare for case of error exit */
PKIX_CHECK(PKIX_List_GetLength
(state->reversedCertChain, &numChainCerts, plContext),
PKIX_LISTGETLENGTHFAILED);
pkixErrorResult =
pkix_CheckChain(state->reversedCertChain, numChainCerts, anchor,
state->checkerChain,
state->buildConstants.revChecker,
state->checkedCritExtOIDs,
state->buildConstants.procParams,
&state->certCheckedIndex, &state->checkerIndex,
&state->revChecking, &state->reasonCode,
&nbioContext, &subjPubKey, &policyTree, NULL,
plContext);
if (nbioContext != NULL) {
*pNBIOContext = nbioContext;
goto cleanup;
}
ERROR_CHECK(PKIX_CHECKCHAINFAILED);
/* XXX Remove this assertion after 2014-12-31. See bug 946984. */
PORT_Assert(state->reasonCode == 0);
PKIX_CHECK(pkix_ValidateResult_Create
(subjPubKey, anchor, policyTree, &valResult, plContext),
PKIX_VALIDATERESULTCREATEFAILED);
*pValResult = valResult;
valResult = NULL;
cleanup:
PKIX_DECREF(subjPubKey);
PKIX_DECREF(policyTree);
PKIX_DECREF(valResult);
PKIX_RETURN(BUILD);
}
/*
* FUNCTION: pkix_Build_SortCandidateCerts
* DESCRIPTION:
*
* This function sorts a List of candidate Certs pointed to by "candidates"
* using an algorithm that places Certs most likely to produce a successful
* chain at the front of the list, storing the resulting sorted List at
* "pSortedCandidates".
*
* At present the only sort criterion is that trusted Certs go ahead of
* untrusted Certs.
*
* PARAMETERS:
* "candidates"
* Address of List of Candidate Certs to be sorted. Must be non-NULL.
* "pSortedCandidates"
* Address at which sorted List is 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 Build Error if the function fails in a non-fatal way
* Returns a Fatal Error if the function fails in an unrecoverable way.
*/
static PKIX_Error *
pkix_Build_SortCandidateCerts(
PKIX_List *candidates,
PKIX_List **pSortedCandidates,
void *plContext)
{
PKIX_List *sortedList = NULL;
PKIX_ENTER(BUILD, "pkix_Build_SortCandidateCerts");
PKIX_NULLCHECK_TWO(candidates, pSortedCandidates);
/*
* Both bubble and quick sort algorithms are available.
* For a list of fewer than around 100 items, the bubble sort is more
* efficient. (This number was determined by experimenting with both
* algorithms on a Java List.)
* If the candidate list is very small, using the sort can drag down
* the performance a little bit.
*/
PKIX_CHECK(pkix_List_BubbleSort
(candidates,
pkix_Build_SortCertComparator,
&sortedList,
plContext),
PKIX_LISTBUBBLESORTFAILED);
*pSortedCandidates = sortedList;
cleanup:
PKIX_RETURN(BUILD);
}
/*
* FUNCTION: pkix_Build_BuildSelectorAndParams
* DESCRIPTION:
*
* This function creates a CertSelector, initialized with an appropriate
* ComCertSelParams, using the variables provided in the ForwardBuilderState
* pointed to by "state". The CertSelector created is stored in the certsel
* element of "state".
*
* PARAMETERS:
* "state"
* Address of ForwardBuilderState to be used. 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 Build Error if the function fails in a non-fatal way
* Returns a Fatal Error if the function fails in an unrecoverable way.
*/
static PKIX_Error *
pkix_Build_BuildSelectorAndParams(
PKIX_ForwardBuilderState *state,
void *plContext)
{
PKIX_ComCertSelParams *certSelParams = NULL;
PKIX_CertSelector *certSel = NULL;
PKIX_PL_X500Name *currentIssuer = NULL;
PKIX_PL_ByteArray *authKeyId = NULL;
PKIX_PL_Date *testDate = NULL;
PKIX_CertSelector *callerCertSelector = NULL;
PKIX_ComCertSelParams *callerComCertSelParams = NULL;
PKIX_UInt32 reqKu = 0;
PKIX_List *reqEkuOids = NULL;
PKIX_ENTER(BUILD, "pkix_Build_BuildSelectorAndParams");
PKIX_NULLCHECK_THREE(state, state->prevCert, state->traversedSubjNames);
PKIX_CHECK(PKIX_PL_Cert_GetIssuer
(state->prevCert, &currentIssuer, plContext),
PKIX_CERTGETISSUERFAILED);
PKIX_CHECK(PKIX_PL_Cert_GetAuthorityKeyIdentifier
(state->prevCert, &authKeyId, plContext),
PKIX_CERTGETAUTHORITYKEYIDENTIFIERFAILED);
PKIX_CHECK(PKIX_ComCertSelParams_Create(&certSelParams, plContext),
PKIX_COMCERTSELPARAMSCREATEFAILED);
PKIX_CHECK(PKIX_ComCertSelParams_SetSubject
(certSelParams, currentIssuer, plContext),
PKIX_COMCERTSELPARAMSSETSUBJECTFAILED);
if (authKeyId != NULL) {
PKIX_CHECK(PKIX_ComCertSelParams_SetSubjKeyIdentifier
(certSelParams, authKeyId, plContext),
PKIX_COMCERTSELPARAMSSETSUBJKEYIDENTIFIERFAILED);
}
PKIX_INCREF(state->buildConstants.testDate);
testDate = state->buildConstants.testDate;
PKIX_CHECK(PKIX_ComCertSelParams_SetCertificateValid
(certSelParams, testDate, plContext),
PKIX_COMCERTSELPARAMSSETCERTIFICATEVALIDFAILED);
PKIX_CHECK(PKIX_ComCertSelParams_SetBasicConstraints
(certSelParams, state->traversedCACerts, plContext),
PKIX_COMCERTSELPARAMSSETBASICCONSTRAINTSFAILED);
PKIX_CHECK(PKIX_ComCertSelParams_SetPathToNames
(certSelParams, state->traversedSubjNames, plContext),
PKIX_COMCERTSELPARAMSSETPATHTONAMESFAILED);
PKIX_CHECK(PKIX_ProcessingParams_GetTargetCertConstraints
(state->buildConstants.procParams,
&callerCertSelector, plContext),
PKIX_PROCESSINGPARAMSGETTARGETCERTCONSTRAINTSFAILED);
if (callerCertSelector != NULL) {
/* Get initial EKU OIDs from ComCertSelParams, if set */
PKIX_CHECK(PKIX_CertSelector_GetCommonCertSelectorParams
(callerCertSelector, &callerComCertSelParams, plContext),
PKIX_CERTSELECTORGETCOMMONCERTSELECTORPARAMSFAILED);
if (callerComCertSelParams != NULL) {
PKIX_CHECK(PKIX_ComCertSelParams_GetExtendedKeyUsage
(callerComCertSelParams, &reqEkuOids, plContext),
PKIX_COMCERTSELPARAMSGETEXTENDEDKEYUSAGEFAILED);
PKIX_CHECK(PKIX_ComCertSelParams_GetKeyUsage
(callerComCertSelParams, &reqKu, plContext),
PKIX_COMCERTSELPARAMSGETEXTENDEDKEYUSAGEFAILED);
}
}
PKIX_CHECK(
PKIX_ComCertSelParams_SetKeyUsage(certSelParams, reqKu,
plContext),
PKIX_COMCERTSELPARAMSSETKEYUSAGEFAILED);
PKIX_CHECK(
PKIX_ComCertSelParams_SetExtendedKeyUsage(certSelParams,
reqEkuOids,
plContext),
PKIX_COMCERTSELPARAMSSETEXTKEYUSAGEFAILED);
PKIX_CHECK(PKIX_CertSelector_Create
(NULL, NULL, &state->certSel, plContext),
PKIX_CERTSELECTORCREATEFAILED);
PKIX_CHECK(PKIX_CertSelector_SetCommonCertSelectorParams
(state->certSel, certSelParams, plContext),
PKIX_CERTSELECTORSETCOMMONCERTSELECTORPARAMSFAILED);
PKIX_CHECK(PKIX_List_Create(&state->candidateCerts, plContext),
PKIX_LISTCREATEFAILED);
state->certStoreIndex = 0;
cleanup:
PKIX_DECREF(certSelParams);
PKIX_DECREF(certSel);
PKIX_DECREF(currentIssuer);
PKIX_DECREF(authKeyId);
PKIX_DECREF(testDate);
PKIX_DECREF(reqEkuOids);
PKIX_DECREF(callerComCertSelParams);
PKIX_DECREF(callerCertSelector);
PKIX_RETURN(BUILD);
}
/* Match trust anchor to select params in order to find next cert. */
static PKIX_Error*
pkix_Build_SelectCertsFromTrustAnchors(
PKIX_List *trustAnchorsList,
PKIX_ComCertSelParams *certSelParams,
PKIX_List **pMatchList,
void *plContext)
{
int anchorIndex = 0;
PKIX_TrustAnchor *anchor = NULL;
PKIX_PL_Cert *trustedCert = NULL;
PKIX_List *matchList = NULL;
PKIX_CertSelector *certSel = NULL;
PKIX_CertSelector_MatchCallback selectorMatchCB = NULL;
PKIX_ENTER(BUILD, "pkix_Build_SelectCertsFromTrustAnchors");
PKIX_CHECK(PKIX_CertSelector_Create
(NULL, NULL, &certSel, plContext),
PKIX_CERTSELECTORCREATEFAILED);
PKIX_CHECK(PKIX_CertSelector_SetCommonCertSelectorParams
(certSel, certSelParams, plContext),
PKIX_CERTSELECTORSETCOMMONCERTSELECTORPARAMSFAILED);
PKIX_CHECK(PKIX_CertSelector_GetMatchCallback
(certSel, &selectorMatchCB, plContext),
PKIX_CERTSELECTORGETMATCHCALLBACKFAILED);
for (anchorIndex = 0;anchorIndex < trustAnchorsList->length; anchorIndex++) {
PKIX_CHECK(
PKIX_List_GetItem(trustAnchorsList,
anchorIndex,
(PKIX_PL_Object **)&anchor,
plContext),
PKIX_LISTGETITEMFAILED);
PKIX_CHECK(PKIX_TrustAnchor_GetTrustedCert
(anchor, &trustedCert, plContext),
PKIX_TRUSTANCHORGETTRUSTEDCERTFAILED);
pkixErrorResult =
(*selectorMatchCB)(certSel, trustedCert, plContext);
if (!pkixErrorResult) {
if (!matchList) {
PKIX_CHECK(PKIX_List_Create(&matchList,
plContext),
PKIX_LISTCREATEFAILED);
}
PKIX_CHECK(
PKIX_List_AppendItem(matchList,
(PKIX_PL_Object*)trustedCert,
plContext),
PKIX_LISTAPPENDITEMFAILED);
} else {
PKIX_DECREF(pkixErrorResult);
}
PKIX_DECREF(trustedCert);
PKIX_DECREF(anchor);
}
*pMatchList = matchList;
matchList = NULL;
cleanup:
PKIX_DECREF(matchList);
PKIX_DECREF(trustedCert);
PKIX_DECREF(anchor);
PKIX_DECREF(certSel);
PKIX_RETURN(BUILD);
}
static PKIX_Error*
pkix_Build_RemoveDupUntrustedCerts(
PKIX_List *trustedCertList,
PKIX_List *certsFound,
void *plContext)
{
PKIX_UInt32 trustIndex;
PKIX_PL_Cert *trustCert = NULL, *cert = NULL;
PKIX_ENTER(BUILD, "pkix_Build_RemoveDupUntrustedCerts");
if (trustedCertList == NULL || certsFound == NULL) {
goto cleanup;
}
for (trustIndex = 0;trustIndex < trustedCertList->length;
trustIndex++) {
PKIX_UInt32 certIndex = 0;
PKIX_CHECK(
PKIX_List_GetItem(trustedCertList,
trustIndex,
(PKIX_PL_Object **)&trustCert,
plContext),
PKIX_LISTGETITEMFAILED);
while (certIndex < certsFound->length) {
PKIX_Boolean result = PKIX_FALSE;
PKIX_DECREF(cert);
PKIX_CHECK(
PKIX_List_GetItem(certsFound, certIndex,
(PKIX_PL_Object **)&cert,
plContext),
PKIX_LISTGETITEMFAILED);
PKIX_CHECK(
PKIX_PL_Object_Equals((PKIX_PL_Object *)trustCert,
(PKIX_PL_Object *)cert,
&result,
plContext),
PKIX_OBJECTEQUALSFAILED);
if (!result) {
certIndex += 1;
continue;
}
PKIX_CHECK(
PKIX_List_DeleteItem(certsFound, certIndex,
plContext),
PKIX_LISTDELETEITEMFAILED);
}
PKIX_DECREF(trustCert);
}
cleanup:
PKIX_DECREF(cert);
PKIX_DECREF(trustCert);
PKIX_RETURN(BUILD);
}
/*
* FUNCTION: pkix_Build_GatherCerts
* DESCRIPTION:
*
* This function traverses the CertStores in the List of CertStores contained
* in "state", using the certSelector and other parameters contained in
* "state", to obtain a List of all available Certs that satisfy the criteria.
* If a CertStore has a cache, "certSelParams" is used both to query the cache
* and, if an actual CertStore search occurred, to update the cache. (Behavior
* is undefined if "certSelParams" is different from the parameters that were
* used to initialize the certSelector in "state".)
*
* If a CertStore using non-blocking I/O returns with an indication that I/O is
* in progress and the checking has not been completed, this function stores
* platform-dependent information at "pNBIOContext". Otherwise it stores NULL
* at "pNBIOContext", and state is updated with the results of the search.
*
* PARAMETERS:
* "state"
* Address of ForwardBuilderState to be used. Must be non-NULL.
* "certSelParams"
* Address of ComCertSelParams which were used in creating the current
* CertSelector, and to be used in querying and updating any caches that
* may be associated with with the CertStores.
* "pNBIOContext"
* Address at which platform-dependent information is returned if request
* is suspended for non-blocking I/O. 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 Build Error if the function fails in a non-fatal way
* Returns a Fatal Error if the function fails in an unrecoverable way.
*/
/* return NULL if wouldblock, empty list if none found, else list of found */
static PKIX_Error *
pkix_Build_GatherCerts(
PKIX_ForwardBuilderState *state,
PKIX_ComCertSelParams *certSelParams,
void **pNBIOContext,
void *plContext)
{
PKIX_Boolean certStoreIsCached = PKIX_FALSE;
PKIX_Boolean certStoreIsLocal = PKIX_FALSE;
PKIX_Boolean foundInCache = PKIX_FALSE;
PKIX_CertStore *certStore = NULL;
PKIX_CertStore_CertCallback getCerts = NULL;
PKIX_List *certsFound = NULL;
PKIX_List *trustedCertList = NULL;
void *nbioContext = NULL;
PKIX_ENTER(BUILD, "pkix_Build_GatherCerts");
PKIX_NULLCHECK_THREE(state, certSelParams, pNBIOContext);
nbioContext = *pNBIOContext;
*pNBIOContext = NULL;
PKIX_DECREF(state->candidateCerts);
while (state->certStoreIndex < state->buildConstants.numCertStores) {
/* Get the current CertStore */
PKIX_CHECK(PKIX_List_GetItem
(state->buildConstants.certStores,
state->certStoreIndex,
(PKIX_PL_Object **)&certStore,
plContext),
PKIX_LISTGETITEMFAILED);
PKIX_CHECK(PKIX_CertStore_GetLocalFlag
(certStore, &certStoreIsLocal, plContext),
PKIX_CERTSTOREGETLOCALFLAGFAILED);
if (state->useOnlyLocal == certStoreIsLocal) {
/* If GATHERPENDING, we've already checked the cache */
if (state->status == BUILD_GATHERPENDING) {
certStoreIsCached = PKIX_FALSE;
foundInCache = PKIX_FALSE;
} else {
PKIX_CHECK(PKIX_CertStore_GetCertStoreCacheFlag
(certStore, &certStoreIsCached, plContext),
PKIX_CERTSTOREGETCERTSTORECACHEFLAGFAILED);
if (certStoreIsCached) {
/*
* Look for Certs in the cache, using the SubjectName as
* the key. Then the ComCertSelParams are used to filter
* for qualified certs. If none are found, then the
* certStores are queried. When we eventually add items
* to the cache, we will only add items that passed the
* ComCertSelParams filter, rather than all Certs which
* matched the SubjectName.
*/
PKIX_CHECK(pkix_CacheCert_Lookup
(certStore,
certSelParams,
state->buildConstants.testDate,
&foundInCache,
&certsFound,
plContext),
PKIX_CACHECERTCHAINLOOKUPFAILED);
}
}
/*
* XXX need to verify if Cert is trusted, hence may not
* be worth it to have the Cert Cached or
* If it is trusted, don't cache, but once there is cached
* certs, we won't get certs from database any more.
* can use flag to force not getting certs from cache
*/
if (!foundInCache) {
if (nbioContext == NULL) {
PKIX_CHECK(PKIX_CertStore_GetCertCallback
(certStore, &getCerts, plContext),
PKIX_CERTSTOREGETCERTCALLBACKFAILED);
PKIX_CHECK(getCerts
(certStore,
state->certSel,
state->verifyNode,
&nbioContext,
&certsFound,
plContext),
PKIX_GETCERTSFAILED);
} else {
PKIX_CHECK(PKIX_CertStore_CertContinue
(certStore,
state->certSel,
state->verifyNode,
&nbioContext,
&certsFound,
plContext),
PKIX_CERTSTORECERTCONTINUEFAILED);
}
if (certStoreIsCached && certsFound) {
PKIX_CHECK(pkix_CacheCert_Add
(certStore,
certSelParams,
certsFound,
plContext),
PKIX_CACHECERTADDFAILED);
}
}
/*
* getCerts returns an empty list for "NONE FOUND",
* a NULL list for "would block"
*/
if (certsFound == NULL) {
state->status = BUILD_GATHERPENDING;
*pNBIOContext = nbioContext;
goto cleanup;
}
}
/* Are there any more certStores to query? */
PKIX_DECREF(certStore);
++(state->certStoreIndex);
}
if (certsFound && certsFound->length > 1) {
PKIX_List *sorted = NULL;
/* sort Certs to try to optimize search */
PKIX_CHECK(pkix_Build_SortCandidateCerts
(certsFound, &sorted, plContext),
PKIX_BUILDSORTCANDIDATECERTSFAILED);
PKIX_DECREF(certsFound);
certsFound = sorted;
}
PKIX_CHECK(
pkix_Build_SelectCertsFromTrustAnchors(
state->buildConstants.anchors,
certSelParams, &trustedCertList,
plContext),
PKIX_FAILTOSELECTCERTSFROMANCHORS);
PKIX_CHECK(
pkix_Build_RemoveDupUntrustedCerts(trustedCertList,
certsFound,
plContext),
PKIX_REMOVEDUPUNTRUSTEDCERTSFAILED);
PKIX_CHECK(
pkix_List_MergeLists(trustedCertList,
certsFound,
&state->candidateCerts,
plContext),
PKIX_LISTMERGEFAILED);
/* No, return the list we have gathered */
PKIX_CHECK(PKIX_List_GetLength
(state->candidateCerts, &state->numCerts, plContext),
PKIX_LISTGETLENGTHFAILED);
state->certIndex = 0;
cleanup:
PKIX_DECREF(trustedCertList);
PKIX_DECREF(certStore);
PKIX_DECREF(certsFound);
PKIX_RETURN(BUILD);
}
/*
* FUNCTION: pkix_Build_UpdateDate
* DESCRIPTION:
*
* This function updates the validityDate contained in "state", for the current
* CertChain contained in "state", to include the validityDate of the
* candidateCert contained in "state". The validityDate of a chain is the
* earliest of all the notAfter dates contained in the respective Certificates.
*
* PARAMETERS:
* "state"
* Address of ForwardBuilderState to be used. 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 Build Error if the function fails in a non-fatal way
* Returns a Fatal Error if the function fails in an unrecoverable way.
*/
static PKIX_Error *
pkix_Build_UpdateDate(
PKIX_ForwardBuilderState *state,
void *plContext)
{
PKIX_Boolean canBeCached = PKIX_FALSE;
PKIX_Int32 comparison = 0;
PKIX_PL_Date *notAfter = NULL;
PKIX_ENTER(BUILD, "pkix_Build_UpdateDate");
PKIX_NULLCHECK_ONE(state);
PKIX_CHECK(PKIX_PL_Cert_GetCacheFlag
(state->candidateCert, &canBeCached, plContext),
PKIX_CERTGETCACHEFLAGFAILED);
state->canBeCached = state->canBeCached && canBeCached;
if (state->canBeCached == PKIX_TRUE) {
/*
* So far, all certs can be cached. Update cert
* chain validity time, which is the earliest of
* all certs' notAfter times.
*/
PKIX_CHECK(PKIX_PL_Cert_GetValidityNotAfter
(state->candidateCert, &notAfter, plContext),
PKIX_CERTGETVALIDITYNOTAFTERFAILED);
if (state->validityDate == NULL) {
state->validityDate = notAfter;
notAfter = NULL;
} else {
PKIX_CHECK(PKIX_PL_Object_Compare
((PKIX_PL_Object *)state->validityDate,
(PKIX_PL_Object *)notAfter,
&comparison,
plContext),
PKIX_OBJECTCOMPARATORFAILED);
if (comparison > 0) {
PKIX_DECREF(state->validityDate);
state->validityDate = notAfter;
notAfter = NULL;
}
}
}
cleanup:
PKIX_DECREF(notAfter);
PKIX_RETURN(BUILD);
}
/* Prepare 'state' for the AIA round. */
static void
pkix_PrepareForwardBuilderStateForAIA(
PKIX_ForwardBuilderState *state)
{
PORT_Assert(state->useOnlyLocal == PKIX_TRUE);
state->useOnlyLocal = PKIX_FALSE;
state->certStoreIndex = 0;
state->numFanout = state->buildConstants.maxFanout;
state->status = BUILD_TRYAIA;
}
/*
* FUNCTION: pkix_BuildForwardDepthFirstSearch
* DESCRIPTION:
*
* This function performs a depth first search in the "forward" direction (from
* the target Cert to the trust anchor). A non-NULL targetCert must be stored
* in the ForwardBuilderState before this function is called. It is not written
* recursively since execution may be suspended in in any of several places
* pending completion of non-blocking I/O. This iterative structure makes it
* much easier to resume where it left off.
*
* Since the nature of the search is recursive, the recursion is handled by
* chaining states. That is, each new step involves creating a new
* ForwardBuilderState linked to its predecessor. If a step turns out to be
* fruitless, the state of the predecessor is restored and the next alternative
* is tried. When a search is successful, values needed from the last state
* (canBeCached and validityDate) are copied to the state provided by the
* caller, so that the caller can retrieve those values.
*
* There are three return arguments, the NBIOContext, the ValidateResult and
* the ForwardBuilderState. If NBIOContext is non-NULL, it means the search is
* suspended until the results of a non-blocking IO become available. The
* caller may wait for the completion using platform-dependent methods and then
* call this function again, allowing it to resume the search. If NBIOContext
* is NULL and the ValidateResult is non-NULL, it means the search has
* concluded successfully. If the NBIOContext is NULL but the ValidateResult is
* NULL, it means the search was unsuccessful.
*
* This function performs several steps at each node in the constructed chain:
*
* 1) It retrieves Certs from the registered CertStores that match the
* criteria established by the ForwardBuilderState pointed to by "state", such
* as a subject name matching the issuer name of the previous Cert. If there
* are no matching Certs, the function returns to the previous, or "parent",
* state and tries to continue the chain building with another of the Certs
* obtained from the CertStores as possible issuers for that parent Cert.
*
* 2) For each candidate Cert returned by the CertStores, this function checks
* whether the Cert is valid. If it is trusted, this function checks whether
* this Cert might serve as a TrustAnchor for a complete chain.
*
* 3) It determines whether this Cert, in conjunction with any of the
* TrustAnchors, might complete a chain. A complete chain, from this or the
* preceding step, is checked to see whether it is valid as a complete
* chain, including the checks that cannot be done in the forward direction.
*
* 4) If this Cert chains successfully, but is not a complete chain, that is,
* we have not reached a trusted Cert, a new ForwardBuilderState is created
* with this Cert as the immediate predecessor, and we continue in step (1),
* attempting to get Certs from the CertStores with this Certs "issuer" as
* their subject.
*
* 5) If an entire chain validates successfully, then we are done. A
* ValidateResult is created containing the Public Key of the target
* certificate (including DSA parameter inheritance, if any) and the
* PolicyNode representing the policy tree output by the validation algorithm,
* and stored at pValResult, and the function exits returning NULL.
*
* 5) If the entire chain does not validate successfully, the algorithm
* discards the latest Cert and continues in step 2 with the next candidate
* Cert, backing up to a parent state when no more possibilities exist at a
* given level, and returning failure when we try to back up but discover we
* are at the top level.
*
* PARAMETERS:
* "pNBIOContext"
* Address at which platform-dependent information is returned if building
* is suspended for non-blocking I/O. Must be non-NULL.
* "pState"
* Address at which input ForwardBuilderState is found, and at which output
* ForwardBuilderState is stored. Must be non-NULL.
* "pValResult"
* Address at which the ValidateResult is 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 Build Error if the function fails in a non-fatal way.
* Returns a Fatal Error if the function fails in an unrecoverable way.
*/
static PKIX_Error *
pkix_BuildForwardDepthFirstSearch(
void **pNBIOContext,
PKIX_ForwardBuilderState *state,
PKIX_ValidateResult **pValResult,
void *plContext)
{
PKIX_Boolean outOfOptions = PKIX_FALSE;
PKIX_Boolean trusted = PKIX_FALSE;
PKIX_Boolean isSelfIssued = PKIX_FALSE;
PKIX_Boolean canBeCached = PKIX_FALSE;
PKIX_Boolean ioPending = PKIX_FALSE;
PKIX_PL_Date *validityDate = NULL;
PKIX_PL_Date *currTime = NULL;
PKIX_Int32 childTraversedCACerts = 0;
PKIX_UInt32 numSubjectNames = 0;
PKIX_UInt32 numChained = 0;
PKIX_Int32 cmpTimeResult = 0;
PKIX_UInt32 i = 0;
PKIX_UInt32 certsSoFar = 0;
PKIX_List *childTraversedSubjNames = NULL;
PKIX_List *subjectNames = NULL;
PKIX_List *unfilteredCerts = NULL;
PKIX_List *filteredCerts = NULL;
PKIX_PL_Object *subjectName = NULL;
PKIX_ValidateResult *valResult = NULL;
PKIX_ForwardBuilderState *childState = NULL;
PKIX_ForwardBuilderState *parentState = NULL;
PKIX_PL_Object *revCheckerState = NULL;
PKIX_ComCertSelParams *certSelParams = NULL;
PKIX_TrustAnchor *trustAnchor = NULL;
PKIX_PL_Cert *trustedCert = NULL;
PKIX_VerifyNode *verifyNode = NULL;
PKIX_Error *verifyError = NULL;
PKIX_Error *finalError = NULL;
void *nbio = NULL;
PKIX_UInt32 numIterations = 0;
PKIX_ENTER(BUILD, "pkix_BuildForwardDepthFirstSearch");
PKIX_NULLCHECK_THREE(pNBIOContext, state, pValResult);
nbio = *pNBIOContext;
*pNBIOContext = NULL;
PKIX_INCREF(state->validityDate);
validityDate = state->validityDate;
canBeCached = state->canBeCached;
PKIX_DECREF(*pValResult);
/*
* We return if successful; if we fall off the end
* of this "while" clause our search has failed.
*/
while (outOfOptions == PKIX_FALSE) {
/*
* The maximum number of iterations works around a bug that
* causes this while loop to never exit when AIA and cross
* certificates are involved. See bug xxxxx.
*/
if (numIterations++ > 250)
PKIX_ERROR(PKIX_TIMECONSUMEDEXCEEDSRESOURCELIMITS);
if (state->buildConstants.maxTime != 0) {
PKIX_DECREF(currTime);
PKIX_CHECK(PKIX_PL_Date_Create_UTCTime
(NULL, &currTime, plContext),
PKIX_DATECREATEUTCTIMEFAILED);
PKIX_CHECK(PKIX_PL_Object_Compare
((PKIX_PL_Object *)state->buildConstants.timeLimit,
(PKIX_PL_Object *)currTime,
&cmpTimeResult,
plContext),
PKIX_OBJECTCOMPARATORFAILED);
if (cmpTimeResult < 0) {
if (state->verifyNode != NULL) {
PKIX_ERROR_CREATE
(BUILD,
PKIX_TIMECONSUMEDEXCEEDSRESOURCELIMITS,
verifyError);
PKIX_CHECK_FATAL(pkix_VerifyNode_SetError
(state->verifyNode,
verifyError,
plContext),
PKIX_VERIFYNODESETERRORFAILED);
PKIX_DECREF(finalError);
finalError = verifyError;
verifyError = NULL;
}
/* Even if we logged error, we still have to abort */
PKIX_ERROR(PKIX_TIMECONSUMEDEXCEEDSRESOURCELIMITS);
}
}
if (state->status == BUILD_INITIAL) {
PKIX_CHECK(pkix_Build_BuildSelectorAndParams(state, plContext),
PKIX_BUILDBUILDSELECTORANDPARAMSFAILED);
/*
* If the caller supplied a partial certChain (hintCerts) try
* the next one from that List before we go to the certStores.
*/
if (state->buildConstants.numHintCerts > 0) {
/* How many Certs does our trust chain have already? */
PKIX_CHECK(PKIX_List_GetLength
(state->trustChain, &certsSoFar, plContext),
PKIX_LISTGETLENGTHFAILED);
/* That includes the target Cert. Don't count it. */
certsSoFar--;
/* Are we still within range of the partial chain? */
if (certsSoFar >= state->buildConstants.numHintCerts) {
state->status = BUILD_TRYAIA;
} else {
/*
* If we already have n certs, we want the n+1th
* (i.e., index = n) from the list of hints.
*/
PKIX_DECREF(state->candidateCert);
PKIX_CHECK(PKIX_List_GetItem
(state->buildConstants.hintCerts,
certsSoFar,
(PKIX_PL_Object **)&state->candidateCert,
plContext),
PKIX_LISTGETITEMFAILED);
PKIX_CHECK(PKIX_List_AppendItem
(state->candidateCerts,
(PKIX_PL_Object *)state->candidateCert,
plContext),
PKIX_LISTAPPENDITEMFAILED);
state->numCerts = 1;
state->usingHintCerts = PKIX_TRUE;
state->status = BUILD_CERTVALIDATING;
}
} else {
state->status = BUILD_TRYAIA;
}
}
if (state->status == BUILD_TRYAIA) {
if (state->useOnlyLocal == PKIX_TRUE) {
state->status = BUILD_COLLECTINGCERTS;
} else {
state->status = BUILD_AIAPENDING;
}
}
if (state->status == BUILD_AIAPENDING &&
state->buildConstants.aiaMgr) {
pkixErrorResult = PKIX_PL_AIAMgr_GetAIACerts
(state->buildConstants.aiaMgr,
state->prevCert,
&nbio,
&unfilteredCerts,
plContext);
if (nbio != NULL) {
/* IO still pending, resume later */
*pNBIOContext = nbio;
goto cleanup;
}
state->numCerts = 0;
if (pkixErrorResult) {
pkixErrorClass = pkixErrorResult->errClass;
if (pkixErrorClass == PKIX_FATAL_ERROR) {
goto fatal;
}
PKIX_DECREF(finalError);
finalError = pkixErrorResult;
pkixErrorResult = NULL;
if (state->verifyNode != NULL) {
/* state->verifyNode is the object that contains a list
* of verifyNodes. verifyNodes contains cert chain
* build failures that occurred on this level of chain
* building. Here, creating new verify node
* to log the failure and adding it to the list. */
PKIX_CHECK_FATAL(pkix_VerifyNode_Create
(state->prevCert,
0, NULL,
&verifyNode,
plContext),
PKIX_VERIFYNODECREATEFAILED);
PKIX_CHECK_FATAL(pkix_VerifyNode_SetError
(verifyNode, finalError, plContext),
PKIX_VERIFYNODESETERRORFAILED);
PKIX_CHECK_FATAL(pkix_VerifyNode_AddToTree
(state->verifyNode,
verifyNode,
plContext),
PKIX_VERIFYNODEADDTOTREEFAILED);
PKIX_DECREF(verifyNode);
}
}
#ifdef PKIX_BUILDDEBUG
/* Turn this on to trace the List of Certs, before CertSelect */
{
PKIX_PL_String *unString;
char *unAscii;
PKIX_UInt32 length;
PKIX_TOSTRING
((PKIX_PL_Object*)unfilteredCerts,
&unString,
plContext,
PKIX_OBJECTTOSTRINGFAILED);
PKIX_CHECK(PKIX_PL_String_GetEncoded
(unString,
PKIX_ESCASCII,
(void **)&unAscii,
&length,
plContext),
PKIX_STRINGGETENCODEDFAILED);
PKIX_DEBUG_ARG
("unfilteredCerts = %s\n", unAscii);
PKIX_DECREF(unString);
PKIX_FREE(unAscii);
}
#endif
/* Note: Certs winnowed here don't get into VerifyTree. */
if (unfilteredCerts) {
PKIX_CHECK(pkix_CertSelector_Select
(state->certSel,
unfilteredCerts,
&filteredCerts,
plContext),
PKIX_CERTSELECTORSELECTFAILED);
PKIX_DECREF(unfilteredCerts);
PKIX_CHECK(PKIX_List_GetLength
(filteredCerts, &(state->numCerts), plContext),
PKIX_LISTGETLENGTHFAILED);
#ifdef PKIX_BUILDDEBUG
/* Turn this on to trace the List of Certs, after CertSelect */
{
PKIX_PL_String *unString;
char *unAscii;
PKIX_UInt32 length;
PKIX_TOSTRING
((PKIX_PL_Object*)filteredCerts,
&unString,
plContext,
PKIX_OBJECTTOSTRINGFAILED);
PKIX_CHECK(PKIX_PL_String_GetEncoded
(unString,
PKIX_ESCASCII,
(void **)&unAscii,
&length,
plContext),
PKIX_STRINGGETENCODEDFAILED);
PKIX_DEBUG_ARG("filteredCerts = %s\n", unAscii);
PKIX_DECREF(unString);
PKIX_FREE(unAscii);
}
#endif
PKIX_DECREF(state->candidateCerts);
state->candidateCerts = filteredCerts;
state->certIndex = 0;
filteredCerts = NULL;
}
/* Are there any Certs to try? */
if (state->numCerts > 0) {
state->status = BUILD_CERTVALIDATING;
} else {
state->status = BUILD_COLLECTINGCERTS;
}
}
PKIX_DECREF(certSelParams);
PKIX_CHECK(PKIX_CertSelector_GetCommonCertSelectorParams
(state->certSel, &certSelParams, plContext),
PKIX_CERTSELECTORGETCOMMONCERTSELECTORPARAMSFAILED);
/* **** Querying the CertStores ***** */
if ((state->status == BUILD_COLLECTINGCERTS) ||
(state->status == BUILD_GATHERPENDING)) {
#if PKIX_FORWARDBUILDERSTATEDEBUG
PKIX_CHECK(pkix_ForwardBuilderState_DumpState
(state, plContext),
PKIX_FORWARDBUILDERSTATEDUMPSTATEFAILED);
#endif
PKIX_CHECK(pkix_Build_GatherCerts
(state, certSelParams, &nbio, plContext),
PKIX_BUILDGATHERCERTSFAILED);
if (nbio != NULL) {
/* IO still pending, resume later */
*pNBIOContext = nbio;
goto cleanup;
}
/* Are there any Certs to try? */
if (state->numCerts > 0) {
state->status = BUILD_CERTVALIDATING;
} else {
state->status = BUILD_ABANDONNODE;
}
}
/* ****Phase 2 - Chain building***** */
#if PKIX_FORWARDBUILDERSTATEDEBUG
PKIX_CHECK(pkix_ForwardBuilderState_DumpState(state, plContext),
PKIX_FORWARDBUILDERSTATEDUMPSTATEFAILED);
#endif
if (state->status == BUILD_CERTVALIDATING) {
PKIX_DECREF(state->candidateCert);
PKIX_CHECK(PKIX_List_GetItem
(state->candidateCerts,
state->certIndex,
(PKIX_PL_Object **)&(state->candidateCert),
plContext),
PKIX_LISTGETITEMFAILED);
if ((state->verifyNode) != NULL) {
PKIX_CHECK_FATAL(pkix_VerifyNode_Create
(state->candidateCert,
0,
NULL,
&verifyNode,
plContext),
PKIX_VERIFYNODECREATEFAILED);
}
/* If failure, this function sets Error in verifyNode */
verifyError = pkix_Build_VerifyCertificate
(state,
state->buildConstants.userCheckers,
&trusted,
verifyNode,
plContext);
if (verifyError) {
pkixTempErrorReceived = PKIX_TRUE;
pkixErrorClass = verifyError->errClass;
if (pkixErrorClass == PKIX_FATAL_ERROR) {
pkixErrorResult = verifyError;
verifyError = NULL;
goto fatal;
}
}
if (PKIX_ERROR_RECEIVED) {
if (state->verifyNode != NULL) {
PKIX_CHECK_FATAL(pkix_VerifyNode_SetError
(verifyNode, verifyError, plContext),
PKIX_VERIFYNODESETERRORFAILED);
PKIX_CHECK_FATAL(pkix_VerifyNode_AddToTree
(state->verifyNode,
verifyNode,
plContext),
PKIX_VERIFYNODEADDTOTREEFAILED);
PKIX_DECREF(verifyNode);
}
pkixTempErrorReceived = PKIX_FALSE;
PKIX_DECREF(finalError);
finalError = verifyError;
verifyError = NULL;
if (state->certLoopingDetected) {
PKIX_ERROR
(PKIX_LOOPDISCOVEREDDUPCERTSNOTALLOWED);
}
state->status = BUILD_GETNEXTCERT;
} else {
state->status = BUILD_DATEPREP;
}
}
if (state->status == BUILD_DATEPREP) {
/* Keep track of whether this chain can be cached */
PKIX_CHECK(pkix_Build_UpdateDate(state, plContext),
PKIX_BUILDUPDATEDATEFAILED);
canBeCached = state->canBeCached;
PKIX_DECREF(validityDate);
PKIX_INCREF(state->validityDate);
validityDate = state->validityDate;
if (trusted == PKIX_TRUE) {
state->status = BUILD_CHECKTRUSTED;
} else {
state->status = BUILD_ADDTOCHAIN;
}
}
if (state->status == BUILD_CHECKTRUSTED) {
/*
* If this cert is trusted, try to validate the entire
* chain using this certificate as trust anchor.
*/
PKIX_CHECK(PKIX_TrustAnchor_CreateWithCert
(state->candidateCert,
&trustAnchor,
plContext),
PKIX_TRUSTANCHORCREATEWITHCERTFAILED);
PKIX_CHECK(pkix_Build_ValidationCheckers
(state,
state->trustChain,
trustAnchor,
PKIX_FALSE, /* do not add eku checker
* since eku was already
* checked */
plContext),
PKIX_BUILDVALIDATIONCHECKERSFAILED);
state->status = BUILD_CHECKTRUSTED2;
}
if (state->status == BUILD_CHECKTRUSTED2) {
verifyError =
pkix_Build_ValidateEntireChain(state,
trustAnchor,
&nbio, &valResult,
verifyNode,
plContext);
if (nbio != NULL) {
/* IO still pending, resume later */
goto cleanup;
} else {
/* checking the error for fatal status */
if (verifyError) {
pkixTempErrorReceived = PKIX_TRUE;
pkixErrorClass = verifyError->errClass;
if (pkixErrorClass == PKIX_FATAL_ERROR) {
pkixErrorResult = verifyError;
verifyError = NULL;
goto fatal;
}
}
if (state->verifyNode != NULL) {
PKIX_CHECK_FATAL(pkix_VerifyNode_AddToTree
(state->verifyNode,
verifyNode,
plContext),
PKIX_VERIFYNODEADDTOTREEFAILED);
PKIX_DECREF(verifyNode);
}
if (!PKIX_ERROR_RECEIVED) {
*pValResult = valResult;
valResult = NULL;
/* Change state so IsIOPending is FALSE */
state->status = BUILD_CHECKTRUSTED;
goto cleanup;
}
PKIX_DECREF(finalError);
finalError = verifyError;
verifyError = NULL;
/* Reset temp error that was set by
* PKIX_CHECK_ONLY_FATAL and continue */
pkixTempErrorReceived = PKIX_FALSE;
PKIX_DECREF(trustAnchor);
}
/*
* If chain doesn't validate with a trusted Cert,
* adding more Certs to it can't help.
*/
if (state->certLoopingDetected) {
PKIX_DECREF(verifyError);
PKIX_ERROR_CREATE(BUILD,
PKIX_LOOPDISCOVEREDDUPCERTSNOTALLOWED,
verifyError);
PKIX_CHECK_FATAL(
pkix_VerifyNode_SetError(state->verifyNode,
verifyError,
plContext),
PKIX_VERIFYNODESETERRORFAILED);
PKIX_DECREF(verifyError);
}
state->status = BUILD_GETNEXTCERT;
}
/*
* This Cert was not trusted. Add it to our chain, and
* continue building. If we don't reach a trust anchor,
* we'll take it off later and continue without it.
*/
if (state->status == BUILD_ADDTOCHAIN) {
PKIX_CHECK(PKIX_List_AppendItem
(state->trustChain,
(PKIX_PL_Object *)state->candidateCert,
plContext),
PKIX_LISTAPPENDITEMFAILED);
state->status = BUILD_EXTENDCHAIN;
}
if (state->status == BUILD_EXTENDCHAIN) {
/* Check whether we are allowed to extend the chain */
if ((state->buildConstants.maxDepth != 0) &&
(state->numDepth <= 1)) {
if (state->verifyNode != NULL) {
PKIX_ERROR_CREATE
(BUILD,
PKIX_DEPTHWOULDEXCEEDRESOURCELIMITS,
verifyError);
PKIX_CHECK_FATAL(pkix_VerifyNode_SetError
(verifyNode, verifyError, plContext),
PKIX_VERIFYNODESETERRORFAILED);
PKIX_CHECK_FATAL(pkix_VerifyNode_AddToTree
(state->verifyNode, verifyNode, plContext),
PKIX_VERIFYNODEADDTOTREEFAILED);
PKIX_DECREF(verifyNode);
PKIX_DECREF(finalError);
finalError = verifyError;
verifyError = NULL;
}
/* Even if error logged, still need to abort */
PKIX_ERROR(PKIX_DEPTHWOULDEXCEEDRESOURCELIMITS);
}
PKIX_CHECK(pkix_IsCertSelfIssued
(state->candidateCert, &isSelfIssued, plContext),
PKIX_ISCERTSELFISSUEDFAILED);
PKIX_CHECK(PKIX_PL_Object_Duplicate
((PKIX_PL_Object *)state->traversedSubjNames,
(PKIX_PL_Object **)&childTraversedSubjNames,
plContext),
PKIX_OBJECTDUPLICATEFAILED);
if (isSelfIssued) {
childTraversedCACerts = state->traversedCACerts;
} else {
childTraversedCACerts = state->traversedCACerts + 1;
PKIX_CHECK(PKIX_PL_Cert_GetAllSubjectNames
(state->candidateCert,
&subjectNames,
plContext),
PKIX_CERTGETALLSUBJECTNAMESFAILED);
if (subjectNames) {
PKIX_CHECK(PKIX_List_GetLength
(subjectNames,
&numSubjectNames,
plContext),
PKIX_LISTGETLENGTHFAILED);
} else {
numSubjectNames = 0;
}
for (i = 0; i < numSubjectNames; i++) {
PKIX_CHECK(PKIX_List_GetItem
(subjectNames,
i,
&subjectName,
plContext),
PKIX_LISTGETITEMFAILED);
PKIX_NULLCHECK_ONE
(state->traversedSubjNames);
PKIX_CHECK(PKIX_List_AppendItem
(state->traversedSubjNames,
subjectName,
plContext),
PKIX_LISTAPPENDITEMFAILED);
PKIX_DECREF(subjectName);
}
PKIX_DECREF(subjectNames);
}
PKIX_CHECK(pkix_ForwardBuilderState_Create
(childTraversedCACerts,
state->buildConstants.maxFanout,
state->numDepth - 1,
canBeCached,
validityDate,
state->candidateCert,
childTraversedSubjNames,
state->trustChain,
state,
&childState,
plContext),
PKIX_FORWARDBUILDSTATECREATEFAILED);
PKIX_DECREF(childTraversedSubjNames);
PKIX_DECREF(certSelParams);
childState->verifyNode = verifyNode;
verifyNode = NULL;
PKIX_DECREF(state);
state = childState; /* state->status == BUILD_INITIAL */
childState = NULL;
continue; /* with while (!outOfOptions) */
}
if (state->status == BUILD_GETNEXTCERT) {
pkixTempErrorReceived = PKIX_FALSE;
PKIX_DECREF(state->candidateCert);
/*
* If we were using a Cert from the callier-supplied partial
* chain, delete it and go to the certStores.
*/
if (state->usingHintCerts == PKIX_TRUE) {
PKIX_DECREF(state->candidateCerts);
PKIX_CHECK(PKIX_List_Create
(&state->candidateCerts, plContext),
PKIX_LISTCREATEFAILED);
state->numCerts = 0;
state->usingHintCerts = PKIX_FALSE;
state->status = BUILD_TRYAIA;
continue;
} else if (++(state->certIndex) < (state->numCerts)) {
if ((state->buildConstants.maxFanout != 0) &&
(--(state->numFanout) == 0)) {
if (state->verifyNode != NULL) {
PKIX_ERROR_CREATE
(BUILD,
PKIX_FANOUTEXCEEDSRESOURCELIMITS,
verifyError);
PKIX_CHECK_FATAL
(pkix_VerifyNode_SetError
(state->verifyNode,
verifyError,
plContext),
PKIX_VERIFYNODESETERRORFAILED);
PKIX_DECREF(finalError);
finalError = verifyError;
verifyError = NULL;
}
/* Even if error logged, still need to abort */
PKIX_ERROR
(PKIX_FANOUTEXCEEDSRESOURCELIMITS);
}
state->status = BUILD_CERTVALIDATING;
continue;
}
}
/*
* Adding the current cert to the chain didn't help. If our search
* has been restricted to local certStores, try opening up the
* search and see whether that helps. Otherwise, back up to the
* parent cert, and see if there are any more to try.
*/
if (state->useOnlyLocal == PKIX_TRUE) {
pkix_PrepareForwardBuilderStateForAIA(state);
} else do {
if (state->parentState == NULL) {
/* We are at the top level, and can't back up! */
outOfOptions = PKIX_TRUE;
} else {
/*
* Try the next cert, if any, for this parent.
* Otherwise keep backing up until we reach a
* parent with more certs to try.
*/
PKIX_CHECK(PKIX_List_GetLength
(state->trustChain, &numChained, plContext),
PKIX_LISTGETLENGTHFAILED);
PKIX_CHECK(PKIX_List_DeleteItem
(state->trustChain, numChained - 1, plContext),
PKIX_LISTDELETEITEMFAILED);
/* local and aia fetching returned no good certs.
* Creating a verify node in the parent that tells
* us this. */
if (!state->verifyNode) {
PKIX_CHECK_FATAL(
pkix_VerifyNode_Create(state->prevCert,
0, NULL,
&state->verifyNode,
plContext),
PKIX_VERIFYNODECREATEFAILED);
}
/* Updating the log with the error. */
PKIX_DECREF(verifyError);
PKIX_ERROR_CREATE(BUILD, PKIX_SECERRORUNKNOWNISSUER,
verifyError);
PKIX_CHECK_FATAL(
pkix_VerifyNode_SetError(state->verifyNode,
verifyError,
plContext),
PKIX_VERIFYNODESETERRORFAILED);
PKIX_DECREF(verifyError);
PKIX_INCREF(state->parentState);
parentState = state->parentState;
PKIX_DECREF(verifyNode);
verifyNode = state->verifyNode;
state->verifyNode = NULL;
PKIX_DECREF(state);
state = parentState;
parentState = NULL;
if (state->verifyNode != NULL && verifyNode) {
PKIX_CHECK_FATAL(pkix_VerifyNode_AddToTree
(state->verifyNode,
verifyNode,
plContext),
PKIX_VERIFYNODEADDTOTREEFAILED);
PKIX_DECREF(verifyNode);
}
PKIX_DECREF(validityDate);
PKIX_INCREF(state->validityDate);
validityDate = state->validityDate;
canBeCached = state->canBeCached;
/* Are there any more Certs to try? */
if (++(state->certIndex) < (state->numCerts)) {
state->status = BUILD_CERTVALIDATING;
PKIX_DECREF(state->candidateCert);
break;
}
if (state->useOnlyLocal == PKIX_TRUE) {
/* Clean up and go for AIA round. */
pkix_PrepareForwardBuilderStateForAIA(state);
break;
}
}
PKIX_DECREF(state->candidateCert);
} while (outOfOptions == PKIX_FALSE);
} /* while (outOfOptions == PKIX_FALSE) */
cleanup:
if (pkixErrorClass == PKIX_FATAL_ERROR) {
goto fatal;
}
/* verifyNode should be equal to NULL at this point. Assert it.
* Temporarelly use verifyError to store an error ref to which we
* have in pkixErrorResult. This is done to prevent error cloberring
* while using macros below. */
PORT_Assert(verifyError == NULL);
verifyError = pkixErrorResult;
/*
* We were called with an initialState that had no parent. If we are
* returning with an error or with a result, we must destroy any state
* that we created (any state with a parent).
*/
PKIX_CHECK_FATAL(pkix_ForwardBuilderState_IsIOPending
(state, &ioPending, plContext),
PKIX_FORWARDBUILDERSTATEISIOPENDINGFAILED);
if (ioPending == PKIX_FALSE) {
while (state->parentState) {
PKIX_INCREF(state->parentState);
parentState = state->parentState;
PKIX_DECREF(verifyNode);
verifyNode = state->verifyNode;
state->verifyNode = NULL;
PKIX_DECREF(state);
state = parentState;
parentState = NULL;
if (state->verifyNode != NULL && verifyNode) {
PKIX_CHECK_FATAL(pkix_VerifyNode_AddToTree
(state->verifyNode,
verifyNode,
plContext),
PKIX_VERIFYNODEADDTOTREEFAILED);
PKIX_DECREF(verifyNode);
}
}
state->canBeCached = canBeCached;
PKIX_DECREF(state->validityDate);
state->validityDate = validityDate;
validityDate = NULL;
}
if (!*pValResult && !verifyError) {
if (!finalError) {
PKIX_CHECK_FATAL(
pkix_VerifyNode_FindError(state->verifyNode,
&finalError,
plContext),
PKIX_VERIFYNODEFINDERRORFAILED);
}
if (finalError) {
pkixErrorResult = finalError;
pkixErrorCode = PKIX_BUILDFORWARDDEPTHFIRSTSEARCHFAILED;
finalError = NULL;
goto fatal;
}
pkixErrorCode = PKIX_SECERRORUNKNOWNISSUER;
pkixErrorReceived = PKIX_TRUE;
PKIX_ERROR_CREATE(BUILD, PKIX_SECERRORUNKNOWNISSUER,
verifyError);
PKIX_CHECK_FATAL(
pkix_VerifyNode_SetError(state->verifyNode, verifyError,
plContext),
PKIX_VERIFYNODESETERRORFAILED);
} else {
pkixErrorResult = verifyError;
verifyError = NULL;
}
fatal:
if (state->parentState) {
/* parentState in "state" object should be NULL at this point.
* If itn't, that means that we got fatal error(we have jumped to
* "fatal" label) and we should destroy all state except the top one. */
while (state->parentState) {
PKIX_Error *error = NULL;
PKIX_ForwardBuilderState *prntState = state->parentState;
/* Dumb: need to increment parentState to avoid destruction
* of "build constants"(they get destroyed when parentState is
* set to NULL. */
PKIX_INCREF(prntState);
error = PKIX_PL_Object_DecRef((PKIX_PL_Object*)state, plContext);
if (error) {
PKIX_PL_Object_DecRef((PKIX_PL_Object*)error, plContext);
}
/* No need to decref the parent state. It was already done by
* pkix_ForwardBuilderState_Destroy function. */
state = prntState;
}
}
PKIX_DECREF(parentState);
PKIX_DECREF(childState);
PKIX_DECREF(valResult);
PKIX_DECREF(verifyError);
PKIX_DECREF(finalError);
PKIX_DECREF(verifyNode);
PKIX_DECREF(childTraversedSubjNames);
PKIX_DECREF(certSelParams);
PKIX_DECREF(subjectNames);
PKIX_DECREF(subjectName);
PKIX_DECREF(trustAnchor);
PKIX_DECREF(validityDate);
PKIX_DECREF(revCheckerState);
PKIX_DECREF(currTime);
PKIX_DECREF(filteredCerts);
PKIX_DECREF(unfilteredCerts);
PKIX_DECREF(trustedCert);
PKIX_RETURN(BUILD);
}
/*
* FUNCTION: pkix_Build_CheckInCache
* DESCRIPTION:
*
* The function tries to locate a chain for a cert in the cert chain cache.
* If found, the chain goes through revocation chacking and returned back to
* caller. Chains that fail revocation check get removed from cache.
*
* PARAMETERS:
* "state"
* Address of ForwardBuilderState to be used. Must be non-NULL.
* "pBuildResult"
* Address at which the BuildResult is stored, after a successful build.
* Must be non-NULL.
* "pNBIOContext"
* Address at which the NBIOContext is stored indicating whether the
* validation is complete. 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 Build Error if the function fails in a non-fatal way
* Returns a Fatal Error if the function fails in an unrecoverable way.
*/
static PKIX_Error*
pkix_Build_CheckInCache(
PKIX_ForwardBuilderState *state,
PKIX_BuildResult **pBuildResult,
void **pNBIOContext,
void *plContext)
{
PKIX_PL_Cert *targetCert = NULL;
PKIX_List *anchors = NULL;
PKIX_PL_Date *testDate = NULL;
PKIX_BuildResult *buildResult = NULL;
PKIX_ValidateResult *valResult = NULL;
PKIX_Error *buildError = NULL;
PKIX_TrustAnchor *matchingAnchor = NULL;
PKIX_PL_Cert *trustedCert = NULL;
PKIX_List *certList = NULL;
PKIX_Boolean cacheHit = PKIX_FALSE;
PKIX_Boolean trusted = PKIX_FALSE;
PKIX_Boolean stillValid = PKIX_FALSE;
void *nbioContext = NULL;
PKIX_ENTER(BUILD, "pkix_Build_CheckInCache");
nbioContext = *pNBIOContext;
*pNBIOContext = NULL;
targetCert = state->buildConstants.targetCert;
anchors = state->buildConstants.anchors;
testDate = state->buildConstants.testDate;
/* Check whether this cert verification has been cached. */
PKIX_CHECK(pkix_CacheCertChain_Lookup
(targetCert,
anchors,
testDate,
&cacheHit,
&buildResult,
plContext),
PKIX_CACHECERTCHAINLOOKUPFAILED);
if (!cacheHit) {
goto cleanup;
}
/*
* We found something in cache. Verify that the anchor
* cert is still trusted,
*/
PKIX_CHECK(PKIX_BuildResult_GetValidateResult
(buildResult, &valResult, plContext),
PKIX_BUILDRESULTGETVALIDATERESULTFAILED);
PKIX_CHECK(PKIX_ValidateResult_GetTrustAnchor
(valResult, &matchingAnchor, plContext),
PKIX_VALIDATERESULTGETTRUSTANCHORFAILED);
PKIX_DECREF(valResult);
PKIX_CHECK(PKIX_TrustAnchor_GetTrustedCert
(matchingAnchor, &trustedCert, plContext),
PKIX_TRUSTANCHORGETTRUSTEDCERTFAILED);
if (anchors && state->buildConstants.numAnchors) {
/* Check if it is one of the trust anchors */
PKIX_CHECK(
pkix_List_Contains(anchors,
(PKIX_PL_Object *)matchingAnchor,
&trusted,
plContext),
PKIX_LISTCONTAINSFAILED);
}
if ((!trusted && !state->buildConstants.trustOnlyUserAnchors) ||
!state->buildConstants.numAnchors) {
/* If it is not one of the trust anchors and the trust anchors
* are supplemental, or if there are no trust anchors, then check
* if the cert is trusted directly.
*/
PKIX_CHECK(
PKIX_PL_Cert_IsCertTrusted(trustedCert,
PKIX_PL_TrustAnchorMode_Ignore,
&trusted, plContext),
PKIX_CERTISCERTTRUSTEDFAILED);
}
if (!trusted) {
goto cleanup;
}
/*
* Since the key usage may vary for different
* applications, we need to verify the chain again.
* Reverification will be improved with a fix for 397805.
*/
PKIX_CHECK(PKIX_BuildResult_GetCertChain
(buildResult, &certList, plContext),
PKIX_BUILDRESULTGETCERTCHAINFAILED);
PKIX_CHECK(pkix_Build_ValidationCheckers
(state,
certList,
matchingAnchor,
PKIX_TRUE, /* Chain revalidation stage. */
plContext),
PKIX_BUILDVALIDATIONCHECKERSFAILED);
PKIX_CHECK_ONLY_FATAL(
pkix_Build_ValidateEntireChain(state, matchingAnchor,
&nbioContext, &valResult,
state->verifyNode, plContext),
PKIX_BUILDVALIDATEENTIRECHAINFAILED);
if (nbioContext != NULL) {
/* IO still pending, resume later */
*pNBIOContext = nbioContext;
goto cleanup;
}
if (!PKIX_ERROR_RECEIVED) {
/* The result from cache is still valid. But we replace an old*/
*pBuildResult = buildResult;
buildResult = NULL;
stillValid = PKIX_TRUE;
}
cleanup:
if (!nbioContext && cacheHit && !(trusted && stillValid)) {
/* The anchor of this chain is no longer trusted or
* chain cert(s) has been revoked.
* Invalidate this result in the cache */
buildError = pkixErrorResult;
PKIX_CHECK_FATAL(pkix_CacheCertChain_Remove
(targetCert,
anchors,
plContext),
PKIX_CACHECERTCHAINREMOVEFAILED);
pkixErrorResult = buildError;
buildError = NULL;
}
fatal:
PKIX_DECREF(buildResult);
PKIX_DECREF(valResult);
PKIX_DECREF(buildError);
PKIX_DECREF(certList);
PKIX_DECREF(matchingAnchor);
PKIX_DECREF(trustedCert);
PKIX_RETURN(BUILD);
}
/*
* FUNCTION: pkix_Build_InitiateBuildChain
* DESCRIPTION:
*
* This function initiates the search for a BuildChain, using the parameters
* provided in "procParams" and, if continuing a search that was suspended
* for I/O, using the ForwardBuilderState pointed to by "pState".
*
* If a successful chain is built, this function stores the BuildResult at
* "pBuildResult". Alternatively, if an operation using non-blocking I/O
* is in progress and the operation has not been completed, this function
* stores the platform-dependent non-blocking I/O context (nbioContext) at
* "pNBIOContext", the FowardBuilderState at "pState", and NULL at
* "pBuildResult". Finally, if chain building was unsuccessful, this function
* stores NULL at both "pState" and at "pBuildResult".
*
* Note: This function is re-entered only for the case of non-blocking I/O
* in the "short-cut" attempt to build a chain using the target Certificate
* directly with one of the trustAnchors. For all other cases, resumption
* after non-blocking I/O is via pkix_Build_ResumeBuildChain.
*
* PARAMETERS:
* "procParams"
* Address of the ProcessingParams for the search. Must be non-NULL.
* "pNBIOContext"
* Address at which the NBIOContext is stored indicating whether the
* validation is complete. Must be non-NULL.
* "pState"
* Address at which the ForwardBuilderState is stored, if the chain
* building is suspended for waiting I/O; also, the address at which the
* ForwardBuilderState is provided for resumption of the chain building
* attempt. Must be non-NULL.
* "pBuildResult"
* Address at which the BuildResult is stored, after a successful build.
* Must be non-NULL.
* "pVerifyNode"
* Address at which a VerifyNode chain is returned, if 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 Build Error if the function fails in a non-fatal way
* Returns a Fatal Error if the function fails in an unrecoverable way.
*/
static PKIX_Error *
pkix_Build_InitiateBuildChain(
PKIX_ProcessingParams *procParams,
void **pNBIOContext,
PKIX_ForwardBuilderState **pState,
PKIX_BuildResult **pBuildResult,
PKIX_VerifyNode **pVerifyNode,
void *plContext)
{
PKIX_UInt32 numAnchors = 0;
PKIX_UInt32 numCertStores = 0;
PKIX_UInt32 numHintCerts = 0;
PKIX_UInt32 i = 0;
PKIX_Boolean isDuplicate = PKIX_FALSE;
PKIX_PL_Cert *trustedCert = NULL;
PKIX_CertSelector *targetConstraints = NULL;
PKIX_ComCertSelParams *targetParams = NULL;
PKIX_List *anchors = NULL;
PKIX_List *targetSubjNames = NULL;
PKIX_PL_Cert *targetCert = NULL;
PKIX_PL_Object *firstHintCert = NULL;
PKIX_RevocationChecker *revChecker = NULL;
PKIX_List *certStores = NULL;
PKIX_CertStore *certStore = NULL;
PKIX_List *userCheckers = NULL;
PKIX_List *hintCerts = NULL;
PKIX_PL_Date *testDate = NULL;
PKIX_PL_PublicKey *targetPubKey = NULL;
void *nbioContext = NULL;
BuildConstants buildConstants;
PKIX_List *tentativeChain = NULL;
PKIX_ValidateResult *valResult = NULL;
PKIX_BuildResult *buildResult = NULL;
PKIX_List *certList = NULL;
PKIX_ForwardBuilderState *state = NULL;
PKIX_CertStore_CheckTrustCallback trustCallback = NULL;
PKIX_CertSelector_MatchCallback selectorCallback = NULL;
PKIX_Boolean trusted = PKIX_FALSE;
PKIX_PL_AIAMgr *aiaMgr = NULL;
PKIX_ENTER(BUILD, "pkix_Build_InitiateBuildChain");
PKIX_NULLCHECK_FOUR(procParams, pNBIOContext, pState, pBuildResult);
nbioContext = *pNBIOContext;
*pNBIOContext = NULL;
state = *pState;
*pState = NULL; /* no net change in reference count */
if (state == NULL) {
PKIX_CHECK(PKIX_ProcessingParams_GetDate
(procParams, &testDate, plContext),
PKIX_PROCESSINGPARAMSGETDATEFAILED);
PKIX_CHECK(PKIX_ProcessingParams_GetTrustAnchors
(procParams, &anchors, plContext),
PKIX_PROCESSINGPARAMSGETTRUSTANCHORSFAILED);
PKIX_CHECK(PKIX_List_GetLength(anchors, &numAnchors, plContext),
PKIX_LISTGETLENGTHFAILED);
/* retrieve stuff from targetCertConstraints */
PKIX_CHECK(PKIX_ProcessingParams_GetTargetCertConstraints
(procParams, &targetConstraints, plContext),
PKIX_PROCESSINGPARAMSGETTARGETCERTCONSTRAINTSFAILED);
PKIX_CHECK(PKIX_CertSelector_GetCommonCertSelectorParams
(targetConstraints, &targetParams, plContext),
PKIX_CERTSELECTORGETCOMMONCERTSELECTORPARAMSFAILED);
PKIX_CHECK(PKIX_ComCertSelParams_GetCertificate
(targetParams, &targetCert, plContext),
PKIX_COMCERTSELPARAMSGETCERTIFICATEFAILED);
PKIX_CHECK(
PKIX_ComCertSelParams_SetLeafCertFlag(targetParams,
PKIX_TRUE, plContext),
PKIX_COMCERTSELPARAMSSETLEAFCERTFLAGFAILED);
PKIX_CHECK(PKIX_ProcessingParams_GetHintCerts
(procParams, &hintCerts, plContext),
PKIX_PROCESSINGPARAMSGETHINTCERTSFAILED);
if (hintCerts != NULL) {
PKIX_CHECK(PKIX_List_GetLength
(hintCerts, &numHintCerts, plContext),
PKIX_LISTGETLENGTHFAILED);
}
/*
* Caller must provide either a target Cert
* (in ComCertSelParams->Certificate) or a partial Cert
* chain (in ProcParams->HintCerts).
*/
if (targetCert == NULL) {
/* Use first cert of hintCerts as the targetCert */
if (numHintCerts == 0) {
PKIX_ERROR(PKIX_NOTARGETCERTSUPPLIED);
}
PKIX_CHECK(PKIX_List_GetItem
(hintCerts,
0,
(PKIX_PL_Object **)&targetCert,
plContext),
PKIX_LISTGETITEMFAILED);
PKIX_CHECK(PKIX_List_DeleteItem(hintCerts, 0, plContext),
PKIX_LISTGETITEMFAILED);
} else {
/*
* If the first hintCert is the same as the targetCert,
* delete it from hintCerts.
*/
if (numHintCerts != 0) {
PKIX_CHECK(PKIX_List_GetItem
(hintCerts, 0, &firstHintCert, plContext),
PKIX_LISTGETITEMFAILED);
PKIX_CHECK(PKIX_PL_Object_Equals
((PKIX_PL_Object *)targetCert,
firstHintCert,
&isDuplicate,
plContext),
PKIX_OBJECTEQUALSFAILED);
if (isDuplicate) {
PKIX_CHECK(PKIX_List_DeleteItem
(hintCerts, 0, plContext),
PKIX_LISTGETITEMFAILED);
}
PKIX_DECREF(firstHintCert);
}
}
if (targetCert == NULL) {
PKIX_ERROR(PKIX_NOTARGETCERTSUPPLIED);
}
PKIX_CHECK(PKIX_PL_Cert_IsLeafCertTrusted
(targetCert,
&trusted,
plContext),
PKIX_CERTISCERTTRUSTEDFAILED);
PKIX_CHECK(PKIX_PL_Cert_GetAllSubjectNames
(targetCert,
&targetSubjNames,
plContext),
PKIX_CERTGETALLSUBJECTNAMESFAILED);
PKIX_CHECK(PKIX_PL_Cert_GetSubjectPublicKey
(targetCert, &targetPubKey, plContext),
PKIX_CERTGETSUBJECTPUBLICKEYFAILED);
PKIX_CHECK(PKIX_List_Create(&tentativeChain, plContext),
PKIX_LISTCREATEFAILED);
PKIX_CHECK(PKIX_List_AppendItem
(tentativeChain, (PKIX_PL_Object *)targetCert, plContext),
PKIX_LISTAPPENDITEMFAILED);
if (procParams->qualifyTargetCert) {
/* EE cert validation */
/* Sync up the time on the target selector parameter struct. */
PKIX_CHECK(
PKIX_ComCertSelParams_SetCertificateValid(targetParams,
testDate,
plContext),
PKIX_COMCERTSELPARAMSSETCERTIFICATEVALIDFAILED);
PKIX_CHECK(PKIX_CertSelector_GetMatchCallback
(targetConstraints, &selectorCallback, plContext),
PKIX_CERTSELECTORGETMATCHCALLBACKFAILED);
pkixErrorResult =
(*selectorCallback)(targetConstraints, targetCert,
plContext);
if (pkixErrorResult) {
pkixErrorClass = pkixErrorResult->errClass;
if (pkixErrorClass == PKIX_FATAL_ERROR) {
goto cleanup;
}
if (pVerifyNode != NULL) {
PKIX_Error *tempResult =
pkix_VerifyNode_Create(targetCert, 0,
pkixErrorResult,
pVerifyNode,
plContext);
if (tempResult) {
PKIX_DECREF(pkixErrorResult);
pkixErrorResult = tempResult;
pkixErrorCode = PKIX_VERIFYNODECREATEFAILED;
pkixErrorClass = PKIX_FATAL_ERROR;
goto cleanup;
}
}
pkixErrorCode = PKIX_CERTCHECKVALIDITYFAILED;
goto cleanup;
}
}
/* If the EE cert is trusted, force success. We only want to do
* this if we aren't validating against a policy (like EV). */
if (trusted && procParams->initialPolicies == NULL) {
if (pVerifyNode != NULL) {
PKIX_Error *tempResult =
pkix_VerifyNode_Create(targetCert, 0, NULL,
pVerifyNode,
plContext);
if (tempResult) {
pkixErrorResult = tempResult;
pkixErrorCode = PKIX_VERIFYNODECREATEFAILED;
pkixErrorClass = PKIX_FATAL_ERROR;
goto cleanup;
}
}
PKIX_CHECK(pkix_ValidateResult_Create
(targetPubKey, NULL /* anchor */,
NULL /* policyTree */, &valResult, plContext),
PKIX_VALIDATERESULTCREATEFAILED);
PKIX_CHECK(
pkix_BuildResult_Create(valResult, tentativeChain,
&buildResult, plContext),
PKIX_BUILDRESULTCREATEFAILED);
*pBuildResult = buildResult;
/* Note that *pState is NULL. The only side effect is that
* the cert chain won't be cached in PKIX_BuildChain, which
* is fine. */
goto cleanup;
}
PKIX_CHECK(PKIX_ProcessingParams_GetCertStores
(procParams, &certStores, plContext),
PKIX_PROCESSINGPARAMSGETCERTSTORESFAILED);
PKIX_CHECK(PKIX_List_GetLength
(certStores, &numCertStores, plContext),
PKIX_LISTGETLENGTHFAILED);
/* Reorder CertStores so trusted are at front of the List */
if (numCertStores > 1) {
for (i = numCertStores - 1; i > 0; i--) {
PKIX_CHECK_ONLY_FATAL(PKIX_List_GetItem
(certStores,
i,
(PKIX_PL_Object **)&certStore,
plContext),
PKIX_LISTGETITEMFAILED);
PKIX_CHECK_ONLY_FATAL(PKIX_CertStore_GetTrustCallback
(certStore, &trustCallback, plContext),
PKIX_CERTSTOREGETTRUSTCALLBACKFAILED);
if (trustCallback != NULL) {
/* Is a trusted Cert, move CertStore to front */
PKIX_CHECK(PKIX_List_DeleteItem
(certStores, i, plContext),
PKIX_LISTDELETEITEMFAILED);
PKIX_CHECK(PKIX_List_InsertItem
(certStores,
0,
(PKIX_PL_Object *)certStore,
plContext),
PKIX_LISTINSERTITEMFAILED);
}
PKIX_DECREF(certStore);
}
}
PKIX_CHECK(PKIX_ProcessingParams_GetCertChainCheckers
(procParams, &userCheckers, plContext),
PKIX_PROCESSINGPARAMSGETCERTCHAINCHECKERSFAILED);
PKIX_CHECK(PKIX_ProcessingParams_GetRevocationChecker
(procParams, &revChecker, plContext),
PKIX_PROCESSINGPARAMSGETREVOCATIONCHECKERFAILED);
/* Do not initialize AIA manager if we are not going to fetch
* cert using aia url. */
if (procParams->useAIAForCertFetching) {
PKIX_CHECK(PKIX_PL_AIAMgr_Create(&aiaMgr, plContext),
PKIX_AIAMGRCREATEFAILED);
}
/*
* We initialize all the fields of buildConstants here, in one place,
* just to help keep track and ensure that we got everything.
*/
buildConstants.numAnchors = numAnchors;
buildConstants.numCertStores = numCertStores;
buildConstants.numHintCerts = numHintCerts;
buildConstants.procParams = procParams;
buildConstants.testDate = testDate;
buildConstants.timeLimit = NULL;
buildConstants.targetCert = targetCert;
buildConstants.targetPubKey = targetPubKey;
buildConstants.certStores = certStores;
buildConstants.anchors = anchors;
buildConstants.userCheckers = userCheckers;
buildConstants.hintCerts = hintCerts;
buildConstants.revChecker = revChecker;
buildConstants.aiaMgr = aiaMgr;
buildConstants.trustOnlyUserAnchors =
procParams->useOnlyTrustAnchors;
PKIX_CHECK(pkix_Build_GetResourceLimits(&buildConstants, plContext),
PKIX_BUILDGETRESOURCELIMITSFAILED);
PKIX_CHECK(pkix_ForwardBuilderState_Create
(0, /* PKIX_UInt32 traversedCACerts */
buildConstants.maxFanout,
buildConstants.maxDepth,
PKIX_TRUE, /* PKIX_Boolean canBeCached */
NULL, /* PKIX_Date *validityDate */
targetCert, /* PKIX_PL_Cert *prevCert */
targetSubjNames, /* PKIX_List *traversedSubjNames */
tentativeChain, /* PKIX_List *trustChain */
NULL, /* PKIX_ForwardBuilderState *parent */
&state, /* PKIX_ForwardBuilderState **pState */
plContext),
PKIX_BUILDSTATECREATEFAILED);
state->buildConstants.numAnchors = buildConstants.numAnchors;
state->buildConstants.numCertStores = buildConstants.numCertStores;
state->buildConstants.numHintCerts = buildConstants.numHintCerts;
state->buildConstants.maxFanout = buildConstants.maxFanout;
state->buildConstants.maxDepth = buildConstants.maxDepth;
state->buildConstants.maxTime = buildConstants.maxTime;
state->buildConstants.procParams = buildConstants.procParams;
PKIX_INCREF(buildConstants.testDate);
state->buildConstants.testDate = buildConstants.testDate;
state->buildConstants.timeLimit = buildConstants.timeLimit;
PKIX_INCREF(buildConstants.targetCert);
state->buildConstants.targetCert = buildConstants.targetCert;
PKIX_INCREF(buildConstants.targetPubKey);
state->buildConstants.targetPubKey =
buildConstants.targetPubKey;
PKIX_INCREF(buildConstants.certStores);
state->buildConstants.certStores = buildConstants.certStores;
PKIX_INCREF(buildConstants.anchors);
state->buildConstants.anchors = buildConstants.anchors;
PKIX_INCREF(buildConstants.userCheckers);
state->buildConstants.userCheckers =
buildConstants.userCheckers;
PKIX_INCREF(buildConstants.hintCerts);
state->buildConstants.hintCerts = buildConstants.hintCerts;
PKIX_INCREF(buildConstants.revChecker);
state->buildConstants.revChecker = buildConstants.revChecker;
state->buildConstants.aiaMgr = buildConstants.aiaMgr;
aiaMgr = NULL;
state->buildConstants.trustOnlyUserAnchors =
buildConstants.trustOnlyUserAnchors;
if (buildConstants.maxTime != 0) {
PKIX_CHECK(PKIX_PL_Date_Create_CurrentOffBySeconds
(buildConstants.maxTime,
&state->buildConstants.timeLimit,
plContext),
PKIX_DATECREATECURRENTOFFBYSECONDSFAILED);
}
if (pVerifyNode != NULL) {
PKIX_Error *tempResult =
pkix_VerifyNode_Create(targetCert, 0, NULL,
&(state->verifyNode),
plContext);
if (tempResult) {
pkixErrorResult = tempResult;
pkixErrorCode = PKIX_VERIFYNODECREATEFAILED;
pkixErrorClass = PKIX_FATAL_ERROR;
goto cleanup;
}
}
PKIX_CHECK_ONLY_FATAL(
pkix_Build_CheckInCache(state, &buildResult,
&nbioContext, plContext),
PKIX_UNABLETOBUILDCHAIN);
if (nbioContext) {
*pNBIOContext = nbioContext;
*pState = state;
state = NULL;
goto cleanup;
}
if (buildResult) {
*pBuildResult = buildResult;
if (pVerifyNode != NULL) {
*pVerifyNode = state->verifyNode;
state->verifyNode = NULL;
}
goto cleanup;
}
}
/* If we're resuming after non-blocking I/O we need to get SubjNames */
if (targetSubjNames == NULL) {
PKIX_CHECK(PKIX_PL_Cert_GetAllSubjectNames
(state->buildConstants.targetCert,
&targetSubjNames,
plContext),
PKIX_CERTGETALLSUBJECTNAMESFAILED);
}
state->status = BUILD_INITIAL;
pkixErrorResult =
pkix_BuildForwardDepthFirstSearch(&nbioContext, state,
&valResult, plContext);
/* non-null nbioContext means the build would block */
if (pkixErrorResult == NULL && nbioContext != NULL) {
*pNBIOContext = nbioContext;
*pBuildResult = NULL;
/* no valResult means the build has failed */
} else {
if (pVerifyNode != NULL) {
PKIX_INCREF(state->verifyNode);
*pVerifyNode = state->verifyNode;
}
if (valResult == NULL || pkixErrorResult)
PKIX_ERROR(PKIX_UNABLETOBUILDCHAIN);
PKIX_CHECK(
pkix_BuildResult_Create(valResult, state->trustChain,
&buildResult, plContext),
PKIX_BUILDRESULTCREATEFAILED);
*pBuildResult = buildResult;
}
*pState = state;
state = NULL;
cleanup:
PKIX_DECREF(targetConstraints);
PKIX_DECREF(targetParams);
PKIX_DECREF(anchors);
PKIX_DECREF(targetSubjNames);
PKIX_DECREF(targetCert);
PKIX_DECREF(revChecker);
PKIX_DECREF(certStores);
PKIX_DECREF(certStore);
PKIX_DECREF(userCheckers);
PKIX_DECREF(hintCerts);
PKIX_DECREF(firstHintCert);
PKIX_DECREF(testDate);
PKIX_DECREF(targetPubKey);
PKIX_DECREF(tentativeChain);
PKIX_DECREF(valResult);
PKIX_DECREF(certList);
PKIX_DECREF(trustedCert);
PKIX_DECREF(state);
PKIX_DECREF(aiaMgr);
PKIX_RETURN(BUILD);
}
/*
* FUNCTION: pkix_Build_ResumeBuildChain
* DESCRIPTION:
*
* This function continues the search for a BuildChain, using the parameters
* provided in "procParams" and the ForwardBuilderState pointed to by "state".
*
* If a successful chain is built, this function stores the BuildResult at
* "pBuildResult". Alternatively, if an operation using non-blocking I/O
* is in progress and the operation has not been completed, this function
* stores the FowardBuilderState at "pState" and NULL at "pBuildResult".
* Finally, if chain building was unsuccessful, this function stores NULL
* at both "pState" and at "pBuildResult".
*
* PARAMETERS:
* "pNBIOContext"
* Address at which the NBIOContext is stored indicating whether the
* validation is complete. Must be non-NULL.
* "pState"
* Address at which the ForwardBuilderState is provided for resumption of
* the chain building attempt; also, the address at which the
* ForwardBuilderStateis stored, if the chain building is suspended for
* waiting I/O. Must be non-NULL.
* "pBuildResult"
* Address at which the BuildResult is stored, after a successful build.
* 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 Build Error if the function fails in a non-fatal way
* Returns a Fatal Error if the function fails in an unrecoverable way.
*/
static PKIX_Error *
pkix_Build_ResumeBuildChain(
void **pNBIOContext,
PKIX_ForwardBuilderState *state,
PKIX_BuildResult **pBuildResult,
PKIX_VerifyNode **pVerifyNode,
void *plContext)
{
PKIX_ValidateResult *valResult = NULL;
PKIX_BuildResult *buildResult = NULL;
void *nbioContext = NULL;
PKIX_ENTER(BUILD, "pkix_Build_ResumeBuildChain");
PKIX_NULLCHECK_TWO(state, pBuildResult);
nbioContext = *pNBIOContext;
*pNBIOContext = NULL;
pkixErrorResult =
pkix_BuildForwardDepthFirstSearch(&nbioContext, state,
&valResult, plContext);
/* non-null nbioContext means the build would block */
if (pkixErrorResult == NULL && nbioContext != NULL) {
*pNBIOContext = nbioContext;
*pBuildResult = NULL;
/* no valResult means the build has failed */
} else {
if (pVerifyNode != NULL) {
PKIX_INCREF(state->verifyNode);
*pVerifyNode = state->verifyNode;
}
if (valResult == NULL || pkixErrorResult)
PKIX_ERROR(PKIX_UNABLETOBUILDCHAIN);
PKIX_CHECK(
pkix_BuildResult_Create(valResult, state->trustChain,
&buildResult, plContext),
PKIX_BUILDRESULTCREATEFAILED);
*pBuildResult = buildResult;
}
cleanup:
PKIX_DECREF(valResult);
PKIX_RETURN(BUILD);
}
/* --Public-Functions--------------------------------------------- */
/*
* FUNCTION: PKIX_BuildChain (see comments in pkix.h)
*/
PKIX_Error *
PKIX_BuildChain(
PKIX_ProcessingParams *procParams,
void **pNBIOContext,
void **pState,
PKIX_BuildResult **pBuildResult,
PKIX_VerifyNode **pVerifyNode,
void *plContext)
{
PKIX_ForwardBuilderState *state = NULL;
PKIX_BuildResult *buildResult = NULL;
void *nbioContext = NULL;
PKIX_ENTER(BUILD, "PKIX_BuildChain");
PKIX_NULLCHECK_FOUR(procParams, pNBIOContext, pState, pBuildResult);
nbioContext = *pNBIOContext;
*pNBIOContext = NULL;
if (*pState == NULL) {
PKIX_CHECK(pkix_Build_InitiateBuildChain
(procParams,
&nbioContext,
&state,
&buildResult,
pVerifyNode,
plContext),
PKIX_BUILDINITIATEBUILDCHAINFAILED);
} else {
state = (PKIX_ForwardBuilderState *)(*pState);
*pState = NULL; /* no net change in reference count */
if (state->status == BUILD_SHORTCUTPENDING) {
PKIX_CHECK(pkix_Build_InitiateBuildChain
(procParams,
&nbioContext,
&state,
&buildResult,
pVerifyNode,
plContext),
PKIX_BUILDINITIATEBUILDCHAINFAILED);
} else {
PKIX_CHECK(pkix_Build_ResumeBuildChain
(&nbioContext,
state,
&buildResult,
pVerifyNode,
plContext),
PKIX_BUILDINITIATEBUILDCHAINFAILED);
}
}
/* non-null nbioContext means the build would block */
if (nbioContext != NULL) {
*pNBIOContext = nbioContext;
*pState = state;
state = NULL;
*pBuildResult = NULL;
/* no buildResult means the build has failed */
} else if (buildResult == NULL) {
PKIX_ERROR(PKIX_UNABLETOBUILDCHAIN);
} else {
/*
* If we made a successful chain by combining the target Cert
* with one of the Trust Anchors, we may have never created a
* validityDate. We treat this situation as
* canBeCached = PKIX_FALSE.
*/
if ((state != NULL) &&
((state->validityDate) != NULL) &&
(state->canBeCached)) {
PKIX_CHECK(pkix_CacheCertChain_Add
(state->buildConstants.targetCert,
state->buildConstants.anchors,
state->validityDate,
buildResult,
plContext),
PKIX_CACHECERTCHAINADDFAILED);
}
*pState = NULL;
*pBuildResult = buildResult;
buildResult = NULL;
}
cleanup:
PKIX_DECREF(buildResult);
PKIX_DECREF(state);
PKIX_RETURN(BUILD);
}
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