RetroZilla/security/nss/lib/libpkix/pkix/checker/pkix_ocspchecker.c
2018-05-19 22:01:21 +08:00

420 lines
15 KiB
C

/* 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_ocspchecker.c
*
* OcspChecker Object Functions
*
*/
#include "pkix_ocspchecker.h"
#include "pkix_pl_ocspcertid.h"
#include "pkix_error.h"
/* --Private-Data-and-Types--------------------------------------- */
typedef struct pkix_OcspCheckerStruct {
/* RevocationMethod is the super class of OcspChecker. */
pkix_RevocationMethod method;
PKIX_PL_VerifyCallback certVerifyFcn;
} pkix_OcspChecker;
/* --Private-Functions-------------------------------------------- */
/*
* FUNCTION: pkix_OcspChecker_Destroy
* (see comments for PKIX_PL_DestructorCallback in pkix_pl_system.h)
*/
static PKIX_Error *
pkix_OcspChecker_Destroy(
PKIX_PL_Object *object,
void *plContext)
{
return NULL;
}
/*
* FUNCTION: pkix_OcspChecker_RegisterSelf
* DESCRIPTION:
* Registers PKIX_OCSPCHECKER_TYPE and its related functions with
* systemClasses[]
* THREAD SAFETY:
* Not Thread Safe - for performance and complexity reasons
*
* 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_OcspChecker_RegisterSelf(void *plContext)
{
extern pkix_ClassTable_Entry systemClasses[PKIX_NUMTYPES];
pkix_ClassTable_Entry* entry = &systemClasses[PKIX_OCSPCHECKER_TYPE];
PKIX_ENTER(OCSPCHECKER, "pkix_OcspChecker_RegisterSelf");
entry->description = "OcspChecker";
entry->typeObjectSize = sizeof(pkix_OcspChecker);
entry->destructor = pkix_OcspChecker_Destroy;
PKIX_RETURN(OCSPCHECKER);
}
/*
* FUNCTION: pkix_OcspChecker_Create
*/
PKIX_Error *
pkix_OcspChecker_Create(PKIX_RevocationMethodType methodType,
PKIX_UInt32 flags,
PKIX_UInt32 priority,
pkix_LocalRevocationCheckFn localRevChecker,
pkix_ExternalRevocationCheckFn externalRevChecker,
PKIX_PL_VerifyCallback verifyFn,
pkix_RevocationMethod **pChecker,
void *plContext)
{
pkix_OcspChecker *method = NULL;
PKIX_ENTER(OCSPCHECKER, "pkix_OcspChecker_Create");
PKIX_NULLCHECK_ONE(pChecker);
PKIX_CHECK(PKIX_PL_Object_Alloc
(PKIX_OCSPCHECKER_TYPE,
sizeof (pkix_OcspChecker),
(PKIX_PL_Object **)&method,
plContext),
PKIX_COULDNOTCREATECERTCHAINCHECKEROBJECT);
pkixErrorResult = pkix_RevocationMethod_Init(
(pkix_RevocationMethod*)method, methodType, flags, priority,
localRevChecker, externalRevChecker, plContext);
if (pkixErrorResult) {
goto cleanup;
}
method->certVerifyFcn = (PKIX_PL_VerifyCallback)verifyFn;
*pChecker = (pkix_RevocationMethod*)method;
method = NULL;
cleanup:
PKIX_DECREF(method);
PKIX_RETURN(OCSPCHECKER);
}
/*
* FUNCTION: pkix_OcspChecker_MapResultCodeToRevStatus
*/
PKIX_RevocationStatus
pkix_OcspChecker_MapResultCodeToRevStatus(SECErrorCodes resultCode)
{
switch (resultCode) {
case SEC_ERROR_REVOKED_CERTIFICATE:
return PKIX_RevStatus_Revoked;
default:
return PKIX_RevStatus_NoInfo;
}
}
/* --Public-Functions--------------------------------------------- */
/*
* FUNCTION: pkix_OcspChecker_Check (see comments in pkix_checker.h)
*/
/*
* The OCSPChecker is created in an idle state, and remains in this state until
* either (a) the default Responder has been set and enabled, and a Check
* request is received with no responder specified, or (b) a Check request is
* received with a specified responder. A request message is constructed and
* given to the HttpClient. If non-blocking I/O is used the client may return
* with WOULDBLOCK, in which case the OCSPChecker returns the WOULDBLOCK
* condition to its caller in turn. On a subsequent call the I/O is resumed.
* When a response is received it is decoded and the results provided to the
* caller.
*
*/
PKIX_Error *
pkix_OcspChecker_CheckLocal(
PKIX_PL_Cert *cert,
PKIX_PL_Cert *issuer,
PKIX_PL_Date *date,
pkix_RevocationMethod *checkerObject,
PKIX_ProcessingParams *procParams,
PKIX_UInt32 methodFlags,
PKIX_Boolean chainVerificationState,
PKIX_RevocationStatus *pRevStatus,
PKIX_UInt32 *pReasonCode,
void *plContext)
{
PKIX_PL_OcspCertID *cid = NULL;
PKIX_Boolean hasFreshStatus = PKIX_FALSE;
PKIX_Boolean statusIsGood = PKIX_FALSE;
SECErrorCodes resultCode = SEC_ERROR_REVOKED_CERTIFICATE_OCSP;
PKIX_RevocationStatus revStatus = PKIX_RevStatus_NoInfo;
PKIX_ENTER(OCSPCHECKER, "pkix_OcspChecker_CheckLocal");
PKIX_CHECK(
PKIX_PL_OcspCertID_Create(cert, NULL, &cid,
plContext),
PKIX_OCSPCERTIDCREATEFAILED);
if (!cid) {
goto cleanup;
}
PKIX_CHECK(
PKIX_PL_OcspCertID_GetFreshCacheStatus(cid, date,
&hasFreshStatus,
&statusIsGood,
&resultCode,
plContext),
PKIX_OCSPCERTIDGETFRESHCACHESTATUSFAILED);
if (hasFreshStatus) {
if (statusIsGood) {
revStatus = PKIX_RevStatus_Success;
resultCode = 0;
} else {
revStatus = pkix_OcspChecker_MapResultCodeToRevStatus(resultCode);
}
}
cleanup:
*pRevStatus = revStatus;
/* ocsp carries only tree statuses: good, bad, and unknown.
* revStatus is used to pass them. reasonCode is always set
* to be unknown. */
*pReasonCode = crlEntryReasonUnspecified;
PKIX_DECREF(cid);
PKIX_RETURN(OCSPCHECKER);
}
/*
* The OCSPChecker is created in an idle state, and remains in this state until
* either (a) the default Responder has been set and enabled, and a Check
* request is received with no responder specified, or (b) a Check request is
* received with a specified responder. A request message is constructed and
* given to the HttpClient. When a response is received it is decoded and the
* results provided to the caller.
*
* During the most recent enhancement of this function, it has been found that
* it doesn't correctly implement non-blocking I/O.
*
* The nbioContext is used in two places, for "response-obtaining" and
* for "response-verification".
*
* However, if this function gets called to resume, it always
* repeats the "request creation" and "response fetching" steps!
* As a result, the earlier operation is never resumed.
*/
PKIX_Error *
pkix_OcspChecker_CheckExternal(
PKIX_PL_Cert *cert,
PKIX_PL_Cert *issuer,
PKIX_PL_Date *date,
pkix_RevocationMethod *checkerObject,
PKIX_ProcessingParams *procParams,
PKIX_UInt32 methodFlags,
PKIX_RevocationStatus *pRevStatus,
PKIX_UInt32 *pReasonCode,
void **pNBIOContext,
void *plContext)
{
SECErrorCodes resultCode = SEC_ERROR_REVOKED_CERTIFICATE_OCSP;
PKIX_Boolean uriFound = PKIX_FALSE;
PKIX_Boolean passed = PKIX_TRUE;
pkix_OcspChecker *checker = NULL;
PKIX_PL_OcspCertID *cid = NULL;
PKIX_PL_OcspRequest *request = NULL;
PKIX_PL_OcspResponse *response = NULL;
PKIX_PL_Date *validity = NULL;
PKIX_RevocationStatus revStatus = PKIX_RevStatus_NoInfo;
void *nbioContext = NULL;
enum { stageGET, stagePOST } currentStage;
PRBool retry = PR_FALSE;
PKIX_ENTER(OCSPCHECKER, "pkix_OcspChecker_CheckExternal");
PKIX_CHECK(
pkix_CheckType((PKIX_PL_Object*)checkerObject,
PKIX_OCSPCHECKER_TYPE, plContext),
PKIX_OBJECTNOTOCSPCHECKER);
checker = (pkix_OcspChecker *)checkerObject;
PKIX_CHECK(
PKIX_PL_OcspCertID_Create(cert, NULL, &cid,
plContext),
PKIX_OCSPCERTIDCREATEFAILED);
/* create request */
PKIX_CHECK(
pkix_pl_OcspRequest_Create(cert, cid, validity, NULL,
methodFlags, &uriFound, &request,
plContext),
PKIX_OCSPREQUESTCREATEFAILED);
if (uriFound == PKIX_FALSE) {
/* no caching for certs lacking URI */
resultCode = 0;
goto cleanup;
}
if (methodFlags & CERT_REV_M_FORCE_POST_METHOD_FOR_OCSP) {
/* Do not try HTTP GET, only HTTP POST */
currentStage = stagePOST;
} else {
/* Try HTTP GET first, falling back to POST */
currentStage = stageGET;
}
do {
const char *method;
passed = PKIX_TRUE;
retry = PR_FALSE;
if (currentStage == stageGET) {
method = "GET";
} else {
PORT_Assert(currentStage == stagePOST);
method = "POST";
}
/* send request and create a response object */
PKIX_CHECK_NO_GOTO(
pkix_pl_OcspResponse_Create(request, method, NULL,
checker->certVerifyFcn,
&nbioContext,
&response,
plContext),
PKIX_OCSPRESPONSECREATEFAILED);
if (pkixErrorResult) {
passed = PKIX_FALSE;
}
if (passed && nbioContext != 0) {
*pNBIOContext = nbioContext;
goto cleanup;
}
if (passed){
PKIX_CHECK_NO_GOTO(
pkix_pl_OcspResponse_Decode(response, &passed,
&resultCode, plContext),
PKIX_OCSPRESPONSEDECODEFAILED);
if (pkixErrorResult) {
passed = PKIX_FALSE;
}
}
if (passed){
PKIX_CHECK_NO_GOTO(
pkix_pl_OcspResponse_GetStatus(response, &passed,
&resultCode, plContext),
PKIX_OCSPRESPONSEGETSTATUSRETURNEDANERROR);
if (pkixErrorResult) {
passed = PKIX_FALSE;
}
}
if (passed){
PKIX_CHECK_NO_GOTO(
pkix_pl_OcspResponse_VerifySignature(response, cert,
procParams, &passed,
&nbioContext, plContext),
PKIX_OCSPRESPONSEVERIFYSIGNATUREFAILED);
if (pkixErrorResult) {
passed = PKIX_FALSE;
} else {
if (nbioContext != 0) {
*pNBIOContext = nbioContext;
goto cleanup;
}
}
}
if (!passed && currentStage == stagePOST) {
/* We won't retry a POST failure, so it's final.
* Because the following block with its call to
* pkix_pl_OcspResponse_GetStatusForCert
* will take care of caching good or bad state,
* but we only execute that next block if there hasn't
* been a failure yet, we must cache the POST
* failure now.
*/
if (cid && cid->certID) {
/* Caching MIGHT consume the cid. */
PKIX_Error *err;
err = PKIX_PL_OcspCertID_RememberOCSPProcessingFailure(
cid, plContext);
if (err) {
PKIX_PL_Object_DecRef((PKIX_PL_Object*)err, plContext);
}
}
}
if (passed){
PKIX_Boolean allowCachingOfFailures =
(currentStage == stagePOST) ? PKIX_TRUE : PKIX_FALSE;
PKIX_CHECK_NO_GOTO(
pkix_pl_OcspResponse_GetStatusForCert(cid, response,
allowCachingOfFailures,
date,
&passed, &resultCode,
plContext),
PKIX_OCSPRESPONSEGETSTATUSFORCERTFAILED);
if (pkixErrorResult) {
passed = PKIX_FALSE;
} else if (passed == PKIX_FALSE) {
revStatus = pkix_OcspChecker_MapResultCodeToRevStatus(resultCode);
} else {
revStatus = PKIX_RevStatus_Success;
}
}
if (currentStage == stageGET && revStatus != PKIX_RevStatus_Success &&
revStatus != PKIX_RevStatus_Revoked) {
/* we'll retry */
PKIX_DECREF(response);
retry = PR_TRUE;
currentStage = stagePOST;
revStatus = PKIX_RevStatus_NoInfo;
if (pkixErrorResult) {
PKIX_PL_Object_DecRef((PKIX_PL_Object*)pkixErrorResult,
plContext);
pkixErrorResult = NULL;
}
}
} while (retry);
cleanup:
if (revStatus == PKIX_RevStatus_NoInfo && (uriFound ||
methodFlags & PKIX_REV_M_REQUIRE_INFO_ON_MISSING_SOURCE) &&
methodFlags & PKIX_REV_M_FAIL_ON_MISSING_FRESH_INFO) {
revStatus = PKIX_RevStatus_Revoked;
}
*pRevStatus = revStatus;
/* ocsp carries only three statuses: good, bad, and unknown.
* revStatus is used to pass them. reasonCode is always set
* to be unknown. */
*pReasonCode = crlEntryReasonUnspecified;
PKIX_DECREF(cid);
PKIX_DECREF(request);
PKIX_DECREF(response);
PKIX_RETURN(OCSPCHECKER);
}