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|
/* $Id: x509-certpaths.cpp $ */
/** @file
* IPRT - Crypto - X.509, Simple Certificate Path Builder & Validator.
*/
/*
* Copyright (C) 2006-2020 Oracle Corporation
*
* This file is part of VirtualBox Open Source Edition (OSE), as
* available from http://www.virtualbox.org. This file is free software;
* you can redistribute it and/or modify it under the terms of the GNU
* General Public License (GPL) as published by the Free Software
* Foundation, in version 2 as it comes in the "COPYING" file of the
* VirtualBox OSE distribution. VirtualBox OSE is distributed in the
* hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
*
* The contents of this file may alternatively be used under the terms
* of the Common Development and Distribution License Version 1.0
* (CDDL) only, as it comes in the "COPYING.CDDL" file of the
* VirtualBox OSE distribution, in which case the provisions of the
* CDDL are applicable instead of those of the GPL.
*
* You may elect to license modified versions of this file under the
* terms and conditions of either the GPL or the CDDL or both.
*/
/*********************************************************************************************************************************
* Header Files *
*********************************************************************************************************************************/
#define LOG_GROUP RTLOGGROUP_CRYPTO
#include "internal/iprt.h"
#include <iprt/crypto/x509.h>
#include <iprt/asm.h>
#include <iprt/ctype.h>
#include <iprt/err.h>
#include <iprt/mem.h>
#include <iprt/string.h>
#include <iprt/list.h>
#include <iprt/log.h>
#include <iprt/time.h>
#include <iprt/crypto/applecodesign.h> /* critical extension OIDs */
#include <iprt/crypto/pkcs7.h> /* PCRTCRPKCS7SETOFCERTS */
#include <iprt/crypto/store.h>
#include "x509-internal.h"
/*********************************************************************************************************************************
* Structures and Typedefs *
*********************************************************************************************************************************/
/**
* X.509 certificate path node.
*/
typedef struct RTCRX509CERTPATHNODE
{
/** Sibling list entry. */
RTLISTNODE SiblingEntry;
/** List of children or leaf list entry. */
RTLISTANCHOR ChildListOrLeafEntry;
/** Pointer to the parent node. NULL for root. */
struct RTCRX509CERTPATHNODE *pParent;
/** The distance between this node and the target. */
uint32_t uDepth : 8;
/** Indicates the source of this certificate. */
uint32_t uSrc : 3;
/** Set if this is a leaf node. */
uint32_t fLeaf : 1;
/** Makes sure it's a 32-bit bitfield. */
uint32_t uReserved : 20;
/** Leaf only: The result of the last path vertification. */
int rcVerify;
/** Pointer to the certificate. This can be NULL only for trust anchors. */
PCRTCRX509CERTIFICATE pCert;
/** If the certificate or trust anchor was obtained from a store, this is the
* associated certificate context (referenced of course). This is used to
* access the trust anchor information, if present.
*
* (If this is NULL it's from a certificate array or some such given directly to
* the path building code. It's assumed the caller doesn't free these until the
* path validation/whatever is done with and the paths destroyed.) */
PCRTCRCERTCTX pCertCtx;
} RTCRX509CERTPATHNODE;
/** Pointer to a X.509 path node. */
typedef RTCRX509CERTPATHNODE *PRTCRX509CERTPATHNODE;
/** @name RTCRX509CERTPATHNODE::uSrc values.
* The trusted and untrusted sources ordered in priority order, where higher
* number means high priority in case of duplicates.
* @{ */
#define RTCRX509CERTPATHNODE_SRC_NONE 0
#define RTCRX509CERTPATHNODE_SRC_TARGET 1
#define RTCRX509CERTPATHNODE_SRC_UNTRUSTED_SET 2
#define RTCRX509CERTPATHNODE_SRC_UNTRUSTED_ARRAY 3
#define RTCRX509CERTPATHNODE_SRC_UNTRUSTED_STORE 4
#define RTCRX509CERTPATHNODE_SRC_TRUSTED_STORE 5
#define RTCRX509CERTPATHNODE_SRC_TRUSTED_CERT 6
#define RTCRX509CERTPATHNODE_SRC_IS_TRUSTED(uSrc) ((uSrc) >= RTCRX509CERTPATHNODE_SRC_TRUSTED_STORE)
/** @} */
/**
* Policy tree node.
*/
typedef struct RTCRX509CERTPATHSPOLICYNODE
{
/** Sibling list entry. */
RTLISTNODE SiblingEntry;
/** Tree depth list entry. */
RTLISTNODE DepthEntry;
/** List of children or leaf list entry. */
RTLISTANCHOR ChildList;
/** Pointer to the parent. */
struct RTCRX509CERTPATHSPOLICYNODE *pParent;
/** The policy object ID. */
PCRTASN1OBJID pValidPolicy;
/** Optional sequence of policy qualifiers. */
PCRTCRX509POLICYQUALIFIERINFOS pPolicyQualifiers;
/** The first policy ID in the exepcted policy set. */
PCRTASN1OBJID pExpectedPolicyFirst;
/** Set if we've already mapped pExpectedPolicyFirst. */
bool fAlreadyMapped;
/** Number of additional items in the expected policy set. */
uint32_t cMoreExpectedPolicySet;
/** Additional items in the expected policy set. */
PCRTASN1OBJID *papMoreExpectedPolicySet;
} RTCRX509CERTPATHSPOLICYNODE;
/** Pointer to a policy tree node. */
typedef RTCRX509CERTPATHSPOLICYNODE *PRTCRX509CERTPATHSPOLICYNODE;
/**
* Path builder and validator instance.
*
* The path builder creates a tree of certificates by forward searching from the
* end-entity towards a trusted source. The leaf nodes are inserted into list
* ordered by the source of the leaf certificate and the path length (i.e. tree
* depth).
*
* The path validator works the tree from the leaf end and validates each
* potential path found by the builder. It is generally happy with one working
* path, but may be told to verify all of them.
*/
typedef struct RTCRX509CERTPATHSINT
{
/** Magic number. */
uint32_t u32Magic;
/** Reference counter. */
uint32_t volatile cRefs;
/** @name Input
* @{ */
/** The target certificate (end entity) to build a trusted path for. */
PCRTCRX509CERTIFICATE pTarget;
/** Lone trusted certificate. */
PCRTCRX509CERTIFICATE pTrustedCert;
/** Store of trusted certificates. */
RTCRSTORE hTrustedStore;
/** Store of untrusted certificates. */
RTCRSTORE hUntrustedStore;
/** Array of untrusted certificates, typically from the protocol. */
PCRTCRX509CERTIFICATE paUntrustedCerts;
/** Number of entries in paUntrusted. */
uint32_t cUntrustedCerts;
/** Set of untrusted PKCS \#7 / CMS certificatess. */
PCRTCRPKCS7SETOFCERTS pUntrustedCertsSet;
/** UTC time we're going to validate the path at, requires
* RTCRX509CERTPATHSINT_F_VALID_TIME to be set. */
RTTIMESPEC ValidTime;
/** Number of policy OIDs in the user initial policy set, 0 means anyPolicy. */
uint32_t cInitialUserPolicySet;
/** The user initial policy set. As with all other user provided data, we
* assume it's immutable and remains valid for the usage period of the path
* builder & validator. */
PCRTASN1OBJID *papInitialUserPolicySet;
/** Number of certificates before the user wants an explicit policy result.
* Set to UINT32_MAX no explicit policy restriction required by the user. */
uint32_t cInitialExplicitPolicy;
/** Number of certificates before the user wants policy mapping to be
* inhibited. Set to UINT32_MAX if no initial policy mapping inhibition
* desired by the user. */
uint32_t cInitialPolicyMappingInhibit;
/** Number of certificates before the user wants the anyPolicy to be rejected.
* Set to UINT32_MAX no explicit policy restriction required by the user. */
uint32_t cInitialInhibitAnyPolicy;
/** Initial name restriction: Permitted subtrees. */
PCRTCRX509GENERALSUBTREES pInitialPermittedSubtrees;
/** Initial name restriction: Excluded subtrees. */
PCRTCRX509GENERALSUBTREES pInitialExcludedSubtrees;
/** Flags RTCRX509CERTPATHSINT_F_XXX. */
uint32_t fFlags;
/** @} */
/** Sticky status for remembering allocation errors and the like. */
int32_t rc;
/** Where to store extended error info (optional). */
PRTERRINFO pErrInfo;
/** @name Path Builder Output
* @{ */
/** Pointer to the root of the tree. This will always be non-NULL after path
* building and thus can be reliably used to tell if path building has taken
* place or not. */
PRTCRX509CERTPATHNODE pRoot;
/** List of working leaf tree nodes. */
RTLISTANCHOR LeafList;
/** The number of paths (leafs). */
uint32_t cPaths;
/** @} */
/** Path Validator State. */
struct
{
/** Number of nodes in the certificate path we're validating (aka 'n'). */
uint32_t cNodes;
/** The current node (0 being the trust anchor). */
uint32_t iNode;
/** The root node of the valid policy tree. */
PRTCRX509CERTPATHSPOLICYNODE pValidPolicyTree;
/** An array of length cNodes + 1 which tracks all nodes at the given (index)
* tree depth via the RTCRX509CERTPATHSPOLICYNODE::DepthEntry member. */
PRTLISTANCHOR paValidPolicyDepthLists;
/** Number of entries in paPermittedSubtrees (name constraints).
* If zero, no permitted name constrains currently in effect. */
uint32_t cPermittedSubtrees;
/** The allocated size of papExcludedSubtrees */
uint32_t cPermittedSubtreesAlloc;
/** Array of permitted subtrees we've collected so far (name constraints). */
PCRTCRX509GENERALSUBTREE *papPermittedSubtrees;
/** Set if we end up with an empty set after calculating a name constraints
* union. */
bool fNoPermittedSubtrees;
/** Number of entries in paExcludedSubtrees (name constraints).
* If zero, no excluded name constrains currently in effect. */
uint32_t cExcludedSubtrees;
/** Array of excluded subtrees we've collected so far (name constraints). */
PCRTCRX509GENERALSUBTREES *papExcludedSubtrees;
/** Number of non-self-issued certificates to be processed before a non-NULL
* paValidPolicyTree is required. */
uint32_t cExplicitPolicy;
/** Number of non-self-issued certificates to be processed we stop processing
* policy mapping extensions. */
uint32_t cInhibitPolicyMapping;
/** Number of non-self-issued certificates to be processed before a the
* anyPolicy is rejected. */
uint32_t cInhibitAnyPolicy;
/** Number of non-self-issued certificates we're allowed to process. */
uint32_t cMaxPathLength;
/** The working issuer name. */
PCRTCRX509NAME pWorkingIssuer;
/** The working public key algorithm ID. */
PCRTASN1OBJID pWorkingPublicKeyAlgorithm;
/** The working public key algorithm parameters. */
PCRTASN1DYNTYPE pWorkingPublicKeyParameters;
/** A bit string containing the public key. */
PCRTASN1BITSTRING pWorkingPublicKey;
} v;
/** An object identifier initialized to anyPolicy. */
RTASN1OBJID AnyPolicyObjId;
/** Temporary scratch space. */
char szTmp[1024];
} RTCRX509CERTPATHSINT;
typedef RTCRX509CERTPATHSINT *PRTCRX509CERTPATHSINT;
/** Magic value for RTCRX509CERTPATHSINT::u32Magic (Bruce Schneier). */
#define RTCRX509CERTPATHSINT_MAGIC UINT32_C(0x19630115)
/** @name RTCRX509CERTPATHSINT_F_XXX - Certificate path build flags.
* @{ */
#define RTCRX509CERTPATHSINT_F_VALID_TIME RT_BIT_32(0)
#define RTCRX509CERTPATHSINT_F_ELIMINATE_UNTRUSTED_PATHS RT_BIT_32(1)
#define RTCRX509CERTPATHSINT_F_VALID_MASK UINT32_C(0x00000003)
/** @} */
/*********************************************************************************************************************************
* Internal Functions *
*********************************************************************************************************************************/
static void rtCrX509CertPathsDestroyTree(PRTCRX509CERTPATHSINT pThis);
static void rtCrX509CpvCleanup(PRTCRX509CERTPATHSINT pThis);
/** @name Path Builder and Validator Config APIs
* @{
*/
RTDECL(int) RTCrX509CertPathsCreate(PRTCRX509CERTPATHS phCertPaths, PCRTCRX509CERTIFICATE pTarget)
{
AssertPtrReturn(phCertPaths, VERR_INVALID_POINTER);
PRTCRX509CERTPATHSINT pThis = (PRTCRX509CERTPATHSINT)RTMemAllocZ(sizeof(*pThis));
if (pThis)
{
int rc = RTAsn1ObjId_InitFromString(&pThis->AnyPolicyObjId, RTCRX509_ID_CE_CP_ANY_POLICY_OID, &g_RTAsn1DefaultAllocator);
if (RT_SUCCESS(rc))
{
pThis->u32Magic = RTCRX509CERTPATHSINT_MAGIC;
pThis->cRefs = 1;
pThis->pTarget = pTarget;
pThis->hTrustedStore = NIL_RTCRSTORE;
pThis->hUntrustedStore = NIL_RTCRSTORE;
pThis->cInitialExplicitPolicy = UINT32_MAX;
pThis->cInitialPolicyMappingInhibit = UINT32_MAX;
pThis->cInitialInhibitAnyPolicy = UINT32_MAX;
pThis->rc = VINF_SUCCESS;
RTListInit(&pThis->LeafList);
*phCertPaths = pThis;
return VINF_SUCCESS;
}
return rc;
}
return VERR_NO_MEMORY;
}
RTDECL(uint32_t) RTCrX509CertPathsRetain(RTCRX509CERTPATHS hCertPaths)
{
PRTCRX509CERTPATHSINT pThis = hCertPaths;
AssertPtrReturn(pThis, UINT32_MAX);
uint32_t cRefs = ASMAtomicIncU32(&pThis->cRefs);
Assert(cRefs > 0 && cRefs < 64);
return cRefs;
}
RTDECL(uint32_t) RTCrX509CertPathsRelease(RTCRX509CERTPATHS hCertPaths)
{
uint32_t cRefs;
if (hCertPaths != NIL_RTCRX509CERTPATHS)
{
PRTCRX509CERTPATHSINT pThis = hCertPaths;
AssertPtrReturn(pThis, UINT32_MAX);
AssertReturn(pThis->u32Magic == RTCRX509CERTPATHSINT_MAGIC, UINT32_MAX);
cRefs = ASMAtomicDecU32(&pThis->cRefs);
Assert(cRefs < 64);
if (!cRefs)
{
/*
* No more references, destroy the whole thing.
*/
ASMAtomicWriteU32(&pThis->u32Magic, ~RTCRX509CERTPATHSINT_MAGIC);
/* config */
pThis->pTarget = NULL; /* Referencing user memory. */
pThis->pTrustedCert = NULL; /* Referencing user memory. */
RTCrStoreRelease(pThis->hTrustedStore);
pThis->hTrustedStore = NIL_RTCRSTORE;
RTCrStoreRelease(pThis->hUntrustedStore);
pThis->hUntrustedStore = NIL_RTCRSTORE;
pThis->paUntrustedCerts = NULL; /* Referencing user memory. */
pThis->pUntrustedCertsSet = NULL; /* Referencing user memory. */
pThis->papInitialUserPolicySet = NULL; /* Referencing user memory. */
pThis->pInitialPermittedSubtrees = NULL; /* Referencing user memory. */
pThis->pInitialExcludedSubtrees = NULL; /* Referencing user memory. */
/* builder */
rtCrX509CertPathsDestroyTree(pThis);
/* validator */
rtCrX509CpvCleanup(pThis);
/* misc */
RTAsn1VtDelete(&pThis->AnyPolicyObjId.Asn1Core);
/* Finally, the instance itself. */
RTMemFree(pThis);
}
}
else
cRefs = 0;
return cRefs;
}
RTDECL(int) RTCrX509CertPathsSetTrustedStore(RTCRX509CERTPATHS hCertPaths, RTCRSTORE hTrustedStore)
{
PRTCRX509CERTPATHSINT pThis = hCertPaths;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
AssertReturn(pThis->u32Magic == RTCRX509CERTPATHSINT_MAGIC, VERR_INVALID_HANDLE);
AssertReturn(pThis->pRoot == NULL, VERR_WRONG_ORDER);
if (pThis->hTrustedStore != NIL_RTCRSTORE)
{
RTCrStoreRelease(pThis->hTrustedStore);
pThis->hTrustedStore = NIL_RTCRSTORE;
}
if (hTrustedStore != NIL_RTCRSTORE)
{
AssertReturn(RTCrStoreRetain(hTrustedStore) != UINT32_MAX, VERR_INVALID_HANDLE);
pThis->hTrustedStore = hTrustedStore;
}
return VINF_SUCCESS;
}
RTDECL(int) RTCrX509CertPathsSetUntrustedStore(RTCRX509CERTPATHS hCertPaths, RTCRSTORE hUntrustedStore)
{
PRTCRX509CERTPATHSINT pThis = hCertPaths;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
AssertReturn(pThis->u32Magic == RTCRX509CERTPATHSINT_MAGIC, VERR_INVALID_HANDLE);
AssertReturn(pThis->pRoot == NULL, VERR_WRONG_ORDER);
if (pThis->hUntrustedStore != NIL_RTCRSTORE)
{
RTCrStoreRelease(pThis->hUntrustedStore);
pThis->hUntrustedStore = NIL_RTCRSTORE;
}
if (hUntrustedStore != NIL_RTCRSTORE)
{
AssertReturn(RTCrStoreRetain(hUntrustedStore) != UINT32_MAX, VERR_INVALID_HANDLE);
pThis->hUntrustedStore = hUntrustedStore;
}
return VINF_SUCCESS;
}
RTDECL(int) RTCrX509CertPathsSetUntrustedArray(RTCRX509CERTPATHS hCertPaths, PCRTCRX509CERTIFICATE paCerts, uint32_t cCerts)
{
PRTCRX509CERTPATHSINT pThis = hCertPaths;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
AssertReturn(pThis->u32Magic == RTCRX509CERTPATHSINT_MAGIC, VERR_INVALID_HANDLE);
pThis->paUntrustedCerts = paCerts;
pThis->cUntrustedCerts = cCerts;
return VINF_SUCCESS;
}
RTDECL(int) RTCrX509CertPathsSetUntrustedSet(RTCRX509CERTPATHS hCertPaths, PCRTCRPKCS7SETOFCERTS pSetOfCerts)
{
PRTCRX509CERTPATHSINT pThis = hCertPaths;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
AssertReturn(pThis->u32Magic == RTCRX509CERTPATHSINT_MAGIC, VERR_INVALID_HANDLE);
pThis->pUntrustedCertsSet = pSetOfCerts;
return VINF_SUCCESS;
}
RTDECL(int) RTCrX509CertPathsSetValidTime(RTCRX509CERTPATHS hCertPaths, PCRTTIME pTime)
{
PRTCRX509CERTPATHSINT pThis = hCertPaths;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
AssertReturn(pThis->u32Magic == RTCRX509CERTPATHSINT_MAGIC, VERR_INVALID_HANDLE);
/* Allow this after building paths, as it's only used during verification. */
if (pTime)
{
if (RTTimeImplode(&pThis->ValidTime, pTime))
return VERR_INVALID_PARAMETER;
pThis->fFlags |= RTCRX509CERTPATHSINT_F_VALID_TIME;
}
else
pThis->fFlags &= ~RTCRX509CERTPATHSINT_F_VALID_TIME;
return VINF_SUCCESS;
}
RTDECL(int) RTCrX509CertPathsSetValidTimeSpec(RTCRX509CERTPATHS hCertPaths, PCRTTIMESPEC pTimeSpec)
{
PRTCRX509CERTPATHSINT pThis = hCertPaths;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
AssertReturn(pThis->u32Magic == RTCRX509CERTPATHSINT_MAGIC, VERR_INVALID_HANDLE);
/* Allow this after building paths, as it's only used during verification. */
if (pTimeSpec)
{
pThis->ValidTime = *pTimeSpec;
pThis->fFlags |= RTCRX509CERTPATHSINT_F_VALID_TIME;
}
else
pThis->fFlags &= ~RTCRX509CERTPATHSINT_F_VALID_TIME;
return VINF_SUCCESS;
}
RTDECL(int) RTCrX509CertPathsCreateEx(PRTCRX509CERTPATHS phCertPaths, PCRTCRX509CERTIFICATE pTarget, RTCRSTORE hTrustedStore,
RTCRSTORE hUntrustedStore, PCRTCRX509CERTIFICATE paUntrustedCerts, uint32_t cUntrustedCerts,
PCRTTIMESPEC pValidTime)
{
int rc = RTCrX509CertPathsCreate(phCertPaths, pTarget);
if (RT_SUCCESS(rc))
{
PRTCRX509CERTPATHSINT pThis = *phCertPaths;
rc = RTCrX509CertPathsSetTrustedStore(pThis, hTrustedStore);
if (RT_SUCCESS(rc))
{
rc = RTCrX509CertPathsSetUntrustedStore(pThis, hUntrustedStore);
if (RT_SUCCESS(rc))
{
rc = RTCrX509CertPathsSetUntrustedArray(pThis, paUntrustedCerts, cUntrustedCerts);
if (RT_SUCCESS(rc))
{
rc = RTCrX509CertPathsSetValidTimeSpec(pThis, pValidTime);
if (RT_SUCCESS(rc))
{
return VINF_SUCCESS;
}
}
RTCrStoreRelease(pThis->hUntrustedStore);
}
RTCrStoreRelease(pThis->hTrustedStore);
}
RTMemFree(pThis);
*phCertPaths = NIL_RTCRX509CERTPATHS;
}
return rc;
}
/** @} */
/** @name Path Builder and Validator Common Utility Functions.
* @{
*/
/**
* Checks if the certificate is self-issued.
*
* @returns true / false.
* @param pNode The path node to check..
*/
static bool rtCrX509CertPathsIsSelfIssued(PRTCRX509CERTPATHNODE pNode)
{
return pNode->pCert
&& RTCrX509Name_MatchByRfc5280(&pNode->pCert->TbsCertificate.Subject, &pNode->pCert->TbsCertificate.Issuer);
}
/** @} */
/** @name Path Builder Functions.
* @{
*/
/**
*
* @returns
* @param pThis .
*/
static PRTCRX509CERTPATHNODE rtCrX509CertPathsNewNode(PRTCRX509CERTPATHSINT pThis)
{
PRTCRX509CERTPATHNODE pNode = (PRTCRX509CERTPATHNODE)RTMemAllocZ(sizeof(*pNode));
if (RT_LIKELY(pNode))
{
RTListInit(&pNode->SiblingEntry);
RTListInit(&pNode->ChildListOrLeafEntry);
pNode->rcVerify = VERR_CR_X509_NOT_VERIFIED;
return pNode;
}
pThis->rc = RTErrInfoSet(pThis->pErrInfo, VERR_NO_MEMORY, "No memory for path node");
return NULL;
}
static void rtCrX509CertPathsDestroyNode(PRTCRX509CERTPATHNODE pNode)
{
if (pNode->pCertCtx)
{
RTCrCertCtxRelease(pNode->pCertCtx);
pNode->pCertCtx = NULL;
}
RT_ZERO(*pNode);
RTMemFree(pNode);
}
static void rtCrX509CertPathsAddIssuer(PRTCRX509CERTPATHSINT pThis, PRTCRX509CERTPATHNODE pParent,
PCRTCRX509CERTIFICATE pCert, PCRTCRCERTCTX pCertCtx, uint8_t uSrc)
{
/*
* Check if we've seen this certificate already in the current path or
* among the already gathered issuers.
*/
if (pCert)
{
/* No duplicate certificates in the path. */
PRTCRX509CERTPATHNODE pTmpNode = pParent;
while (pTmpNode)
{
Assert(pTmpNode->pCert);
if ( pTmpNode->pCert == pCert
|| RTCrX509Certificate_Compare(pTmpNode->pCert, pCert) == 0)
return;
pTmpNode = pTmpNode->pParent;
}
/* No duplicate tree branches. */
RTListForEach(&pParent->ChildListOrLeafEntry, pTmpNode, RTCRX509CERTPATHNODE, SiblingEntry)
{
if (RTCrX509Certificate_Compare(pTmpNode->pCert, pCert) == 0)
return;
}
}
else
Assert(pCertCtx);
/*
* Reference the context core before making the allocation.
*/
if (pCertCtx)
AssertReturnVoidStmt(RTCrCertCtxRetain(pCertCtx) != UINT32_MAX,
pThis->rc = RTErrInfoSetF(pThis->pErrInfo, VERR_CR_X509_CPB_BAD_CERT_CTX,
"Bad pCertCtx=%p", pCertCtx));
/*
* We haven't see it, append it as a child.
*/
PRTCRX509CERTPATHNODE pNew = rtCrX509CertPathsNewNode(pThis);
if (pNew)
{
pNew->pParent = pParent;
pNew->pCert = pCert;
pNew->pCertCtx = pCertCtx;
pNew->uSrc = uSrc;
pNew->uDepth = pParent->uDepth + 1;
RTListAppend(&pParent->ChildListOrLeafEntry, &pNew->SiblingEntry);
}
else
RTCrCertCtxRelease(pCertCtx);
}
static void rtCrX509CertPathsGetIssuersFromStore(PRTCRX509CERTPATHSINT pThis, PRTCRX509CERTPATHNODE pNode,
PCRTCRX509NAME pIssuer, RTCRSTORE hStore, uint8_t uSrc)
{
RTCRSTORECERTSEARCH Search;
int rc = RTCrStoreCertFindBySubjectOrAltSubjectByRfc5280(hStore, pIssuer, &Search);
if (RT_SUCCESS(rc))
{
PCRTCRCERTCTX pCertCtx;
while ((pCertCtx = RTCrStoreCertSearchNext(hStore, &Search)) != NULL)
{
if ( pCertCtx->pCert
|| ( RTCRX509CERTPATHNODE_SRC_IS_TRUSTED(uSrc)
&& pCertCtx->pTaInfo) )
rtCrX509CertPathsAddIssuer(pThis, pNode, pCertCtx->pCert, pCertCtx, uSrc);
RTCrCertCtxRelease(pCertCtx);
}
RTCrStoreCertSearchDestroy(hStore, &Search);
}
}
static void rtCrX509CertPathsGetIssuers(PRTCRX509CERTPATHSINT pThis, PRTCRX509CERTPATHNODE pNode)
{
Assert(RTListIsEmpty(&pNode->ChildListOrLeafEntry));
Assert(!pNode->fLeaf);
Assert(pNode->pCert);
/*
* Don't recurse infintely.
*/
if (RT_UNLIKELY(pNode->uDepth >= 50))
return;
PCRTCRX509NAME const pIssuer = &pNode->pCert->TbsCertificate.Issuer;
/*
* Trusted certificate.
*/
if ( pThis->pTrustedCert
&& RTCrX509Certificate_MatchSubjectOrAltSubjectByRfc5280(pThis->pTrustedCert, pIssuer))
rtCrX509CertPathsAddIssuer(pThis, pNode, pThis->pTrustedCert, NULL, RTCRX509CERTPATHNODE_SRC_TRUSTED_CERT);
/*
* Trusted certificate store.
*/
if (pThis->hTrustedStore != NIL_RTCRSTORE)
rtCrX509CertPathsGetIssuersFromStore(pThis, pNode, pIssuer, pThis->hTrustedStore,
RTCRX509CERTPATHNODE_SRC_TRUSTED_STORE);
/*
* Untrusted store.
*/
if (pThis->hUntrustedStore != NIL_RTCRSTORE)
rtCrX509CertPathsGetIssuersFromStore(pThis, pNode, pIssuer, pThis->hTrustedStore,
RTCRX509CERTPATHNODE_SRC_UNTRUSTED_STORE);
/*
* Untrusted array.
*/
if (pThis->paUntrustedCerts)
for (uint32_t i = 0; i < pThis->cUntrustedCerts; i++)
if (RTCrX509Certificate_MatchSubjectOrAltSubjectByRfc5280(&pThis->paUntrustedCerts[i], pIssuer))
rtCrX509CertPathsAddIssuer(pThis, pNode, &pThis->paUntrustedCerts[i], NULL,
RTCRX509CERTPATHNODE_SRC_UNTRUSTED_ARRAY);
/** @todo Rainy day: Should abstract the untrusted array and set so we don't get
* unnecessary PKCS7/CMS header dependencies. */
/*
* Untrusted set.
*/
if (pThis->pUntrustedCertsSet)
{
uint32_t const cCerts = pThis->pUntrustedCertsSet->cItems;
PRTCRPKCS7CERT const *papCerts = pThis->pUntrustedCertsSet->papItems;
for (uint32_t i = 0; i < cCerts; i++)
{
PCRTCRPKCS7CERT pCert = papCerts[i];
if ( pCert->enmChoice == RTCRPKCS7CERTCHOICE_X509
&& RTCrX509Certificate_MatchSubjectOrAltSubjectByRfc5280(pCert->u.pX509Cert, pIssuer))
rtCrX509CertPathsAddIssuer(pThis, pNode, pCert->u.pX509Cert, NULL, RTCRX509CERTPATHNODE_SRC_UNTRUSTED_SET);
}
}
}
static PRTCRX509CERTPATHNODE rtCrX509CertPathsGetNextRightUp(PRTCRX509CERTPATHSINT pThis, PRTCRX509CERTPATHNODE pNode)
{
for (;;)
{
/* The root node has no siblings. */
PRTCRX509CERTPATHNODE pParent = pNode->pParent;
if (!pNode->pParent)
return NULL;
/* Try go to the right. */
PRTCRX509CERTPATHNODE pNext = RTListGetNext(&pParent->ChildListOrLeafEntry, pNode, RTCRX509CERTPATHNODE, SiblingEntry);
if (pNext)
return pNext;
/* Up. */
pNode = pParent;
}
RT_NOREF_PV(pThis);
}
static PRTCRX509CERTPATHNODE rtCrX509CertPathsEliminatePath(PRTCRX509CERTPATHSINT pThis, PRTCRX509CERTPATHNODE pNode)
{
for (;;)
{
Assert(RTListIsEmpty(&pNode->ChildListOrLeafEntry));
/* Don't remove the root node. */
PRTCRX509CERTPATHNODE pParent = pNode->pParent;
if (!pParent)
return NULL;
/* Before removing and deleting the node check if there is sibling
right to it that we should continue processing from. */
PRTCRX509CERTPATHNODE pNext = RTListGetNext(&pParent->ChildListOrLeafEntry, pNode, RTCRX509CERTPATHNODE, SiblingEntry);
RTListNodeRemove(&pNode->SiblingEntry);
rtCrX509CertPathsDestroyNode(pNode);
if (pNext)
return pNext;
/* If the parent node cannot be removed, do a normal get-next-rigth-up
to find the continuation point for the tree loop. */
if (!RTListIsEmpty(&pParent->ChildListOrLeafEntry))
return rtCrX509CertPathsGetNextRightUp(pThis, pParent);
pNode = pParent;
}
}
/**
* Destroys the whole path tree.
*
* @param pThis The path builder and verifier instance.
*/
static void rtCrX509CertPathsDestroyTree(PRTCRX509CERTPATHSINT pThis)
{
PRTCRX509CERTPATHNODE pNode, pNextLeaf;
RTListForEachSafe(&pThis->LeafList, pNode, pNextLeaf, RTCRX509CERTPATHNODE, ChildListOrLeafEntry)
{
RTListNodeRemove(&pNode->ChildListOrLeafEntry);
RTListInit(&pNode->ChildListOrLeafEntry);
for (;;)
{
PRTCRX509CERTPATHNODE pParent = pNode->pParent;
RTListNodeRemove(&pNode->SiblingEntry);
rtCrX509CertPathsDestroyNode(pNode);
if (!pParent)
{
pThis->pRoot = NULL;
break;
}
if (!RTListIsEmpty(&pParent->ChildListOrLeafEntry))
break;
pNode = pParent;
}
}
Assert(!pThis->pRoot);
}
/**
* Adds a leaf node.
*
* This should normally be a trusted certificate, but the caller can also
* request the incomplete paths, in which case this will be an untrusted
* certificate.
*
* @returns Pointer to the next node in the tree to process.
* @param pThis The path builder instance.
* @param pNode The leaf node.
*/
static PRTCRX509CERTPATHNODE rtCrX509CertPathsAddLeaf(PRTCRX509CERTPATHSINT pThis, PRTCRX509CERTPATHNODE pNode)
{
pNode->fLeaf = true;
/*
* Priority insert by source and depth.
*/
PRTCRX509CERTPATHNODE pCurLeaf;
RTListForEach(&pThis->LeafList, pCurLeaf, RTCRX509CERTPATHNODE, ChildListOrLeafEntry)
{
if ( pNode->uSrc > pCurLeaf->uSrc
|| ( pNode->uSrc == pCurLeaf->uSrc
&& pNode->uDepth < pCurLeaf->uDepth) )
{
RTListNodeInsertBefore(&pCurLeaf->ChildListOrLeafEntry, &pNode->ChildListOrLeafEntry);
pThis->cPaths++;
return rtCrX509CertPathsGetNextRightUp(pThis, pNode);
}
}
RTListAppend(&pThis->LeafList, &pNode->ChildListOrLeafEntry);
pThis->cPaths++;
return rtCrX509CertPathsGetNextRightUp(pThis, pNode);
}
RTDECL(int) RTCrX509CertPathsBuild(RTCRX509CERTPATHS hCertPaths, PRTERRINFO pErrInfo)
{
/*
* Validate the input.
*/
PRTCRX509CERTPATHSINT pThis = hCertPaths;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
AssertReturn(pThis->u32Magic == RTCRX509CERTPATHSINT_MAGIC, VERR_INVALID_HANDLE);
AssertReturn(!(pThis->fFlags & ~RTCRX509CERTPATHSINT_F_VALID_MASK), VERR_INVALID_PARAMETER);
AssertReturn( (pThis->paUntrustedCerts == NULL && pThis->cUntrustedCerts == 0)
|| (pThis->paUntrustedCerts != NULL && pThis->cUntrustedCerts > 0),
VERR_INVALID_PARAMETER);
AssertReturn(RTListIsEmpty(&pThis->LeafList), VERR_INVALID_PARAMETER);
AssertReturn(pThis->pRoot == NULL, VERR_INVALID_PARAMETER);
AssertReturn(pThis->rc == VINF_SUCCESS, pThis->rc);
AssertPtrReturn(pThis->pTarget, VERR_INVALID_PARAMETER);
Assert(RT_SUCCESS(RTCrX509Certificate_CheckSanity(pThis->pTarget, 0, NULL, NULL)));
/*
* Set up the target.
*/
PRTCRX509CERTPATHNODE pCur;
pThis->pRoot = pCur = rtCrX509CertPathsNewNode(pThis);
if (pThis->pRoot)
{
pCur->pCert = pThis->pTarget;
pCur->uDepth = 0;
pCur->uSrc = RTCRX509CERTPATHNODE_SRC_TARGET;
pThis->pErrInfo = pErrInfo;
/*
* The tree construction loop.
* Walks down, up, and right as the tree is constructed.
*/
do
{
/*
* Check for the two leaf cases first.
*/
if (RTCRX509CERTPATHNODE_SRC_IS_TRUSTED(pCur->uSrc))
pCur = rtCrX509CertPathsAddLeaf(pThis, pCur);
#if 0 /* This isn't right.*/
else if (rtCrX509CertPathsIsSelfIssued(pCur))
{
if (pThis->fFlags & RTCRX509CERTPATHSINT_F_ELIMINATE_UNTRUSTED_PATHS)
pCur = rtCrX509CertPathsEliminatePath(pThis, pCur);
else
pCur = rtCrX509CertPathsAddLeaf(pThis, pCur);
}
#endif
/*
* Not a leaf, find all potential issuers and decend into these.
*/
else
{
rtCrX509CertPathsGetIssuers(pThis, pCur);
if (RT_FAILURE(pThis->rc))
break;
if (!RTListIsEmpty(&pCur->ChildListOrLeafEntry))
pCur = RTListGetFirst(&pCur->ChildListOrLeafEntry, RTCRX509CERTPATHNODE, SiblingEntry);
else if (pThis->fFlags & RTCRX509CERTPATHSINT_F_ELIMINATE_UNTRUSTED_PATHS)
pCur = rtCrX509CertPathsEliminatePath(pThis, pCur);
else
pCur = rtCrX509CertPathsAddLeaf(pThis, pCur);
}
if (pCur)
Log2(("RTCrX509CertPathsBuild: pCur=%p fLeaf=%d pParent=%p pNext=%p pPrev=%p\n",
pCur, pCur->fLeaf, pCur->pParent,
pCur->pParent ? RTListGetNext(&pCur->pParent->ChildListOrLeafEntry, pCur, RTCRX509CERTPATHNODE, SiblingEntry) : NULL,
pCur->pParent ? RTListGetPrev(&pCur->pParent->ChildListOrLeafEntry, pCur, RTCRX509CERTPATHNODE, SiblingEntry) : NULL));
} while (pCur);
pThis->pErrInfo = NULL;
if (RT_SUCCESS(pThis->rc))
return VINF_SUCCESS;
}
else
Assert(RT_FAILURE_NP(pThis->rc));
return pThis->rc;
}
/**
* Looks up path by leaf/path index.
*
* @returns Pointer to the leaf node of the path.
* @param pThis The path builder & validator instance.
* @param iPath The oridnal of the path to get.
*/
static PRTCRX509CERTPATHNODE rtCrX509CertPathsGetLeafByIndex(PRTCRX509CERTPATHSINT pThis, uint32_t iPath)
{
Assert(iPath < pThis->cPaths);
uint32_t iCurPath = 0;
PRTCRX509CERTPATHNODE pCurLeaf;
RTListForEach(&pThis->LeafList, pCurLeaf, RTCRX509CERTPATHNODE, ChildListOrLeafEntry)
{
if (iCurPath == iPath)
return pCurLeaf;
iCurPath++;
}
AssertFailedReturn(NULL);
}
static void rtDumpPrintf(PFNRTDUMPPRINTFV pfnPrintfV, void *pvUser, const char *pszFormat, ...)
{
va_list va;
va_start(va, pszFormat);
pfnPrintfV(pvUser, pszFormat, va);
va_end(va);
}
static void rtDumpIndent(PFNRTDUMPPRINTFV pfnPrintfV, void *pvUser, uint32_t cchSpaces, const char *pszFormat, ...)
{
static const char s_szSpaces[] = " ";
while (cchSpaces > 0)
{
uint32_t cchBurst = RT_MIN(sizeof(s_szSpaces) - 1, cchSpaces);
rtDumpPrintf(pfnPrintfV, pvUser, &s_szSpaces[sizeof(s_szSpaces) - cchBurst - 1]);
cchSpaces -= cchBurst;
}
va_list va;
va_start(va, pszFormat);
pfnPrintfV(pvUser, pszFormat, va);
va_end(va);
}
/** @name X.500 attribute types
* See RFC-4519 among others.
* @{ */
#define RTCRX500_ID_AT_OBJECT_CLASS_OID "2.5.4.0"
#define RTCRX500_ID_AT_ALIASED_ENTRY_NAME_OID "2.5.4.1"
#define RTCRX500_ID_AT_KNOWLDGEINFORMATION_OID "2.5.4.2"
#define RTCRX500_ID_AT_COMMON_NAME_OID "2.5.4.3"
#define RTCRX500_ID_AT_SURNAME_OID "2.5.4.4"
#define RTCRX500_ID_AT_SERIAL_NUMBER_OID "2.5.4.5"
#define RTCRX500_ID_AT_COUNTRY_NAME_OID "2.5.4.6"
#define RTCRX500_ID_AT_LOCALITY_NAME_OID "2.5.4.7"
#define RTCRX500_ID_AT_STATE_OR_PROVINCE_NAME_OID "2.5.4.8"
#define RTCRX500_ID_AT_STREET_ADDRESS_OID "2.5.4.9"
#define RTCRX500_ID_AT_ORGANIZATION_NAME_OID "2.5.4.10"
#define RTCRX500_ID_AT_ORGANIZATION_UNIT_NAME_OID "2.5.4.11"
#define RTCRX500_ID_AT_TITLE_OID "2.5.4.12"
#define RTCRX500_ID_AT_DESCRIPTION_OID "2.5.4.13"
#define RTCRX500_ID_AT_SEARCH_GUIDE_OID "2.5.4.14"
#define RTCRX500_ID_AT_BUSINESS_CATEGORY_OID "2.5.4.15"
#define RTCRX500_ID_AT_POSTAL_ADDRESS_OID "2.5.4.16"
#define RTCRX500_ID_AT_POSTAL_CODE_OID "2.5.4.17"
#define RTCRX500_ID_AT_POST_OFFICE_BOX_OID "2.5.4.18"
#define RTCRX500_ID_AT_PHYSICAL_DELIVERY_OFFICE_NAME_OID "2.5.4.19"
#define RTCRX500_ID_AT_TELEPHONE_NUMBER_OID "2.5.4.20"
#define RTCRX500_ID_AT_TELEX_NUMBER_OID "2.5.4.21"
#define RTCRX500_ID_AT_TELETEX_TERMINAL_IDENTIFIER_OID "2.5.4.22"
#define RTCRX500_ID_AT_FACIMILE_TELEPHONE_NUMBER_OID "2.5.4.23"
#define RTCRX500_ID_AT_X121_ADDRESS_OID "2.5.4.24"
#define RTCRX500_ID_AT_INTERNATIONAL_ISDN_NUMBER_OID "2.5.4.25"
#define RTCRX500_ID_AT_REGISTERED_ADDRESS_OID "2.5.4.26"
#define RTCRX500_ID_AT_DESTINATION_INDICATOR_OID "2.5.4.27"
#define RTCRX500_ID_AT_PREFERRED_DELIVERY_METHOD_OID "2.5.4.28"
#define RTCRX500_ID_AT_PRESENTATION_ADDRESS_OID "2.5.4.29"
#define RTCRX500_ID_AT_SUPPORTED_APPLICATION_CONTEXT_OID "2.5.4.30"
#define RTCRX500_ID_AT_MEMBER_OID "2.5.4.31"
#define RTCRX500_ID_AT_OWNER_OID "2.5.4.32"
#define RTCRX500_ID_AT_ROLE_OCCUPANT_OID "2.5.4.33"
#define RTCRX500_ID_AT_SEE_ALSO_OID "2.5.4.34"
#define RTCRX500_ID_AT_USER_PASSWORD_OID "2.5.4.35"
#define RTCRX500_ID_AT_USER_CERTIFICATE_OID "2.5.4.36"
#define RTCRX500_ID_AT_CA_CERTIFICATE_OID "2.5.4.37"
#define RTCRX500_ID_AT_AUTHORITY_REVOCATION_LIST_OID "2.5.4.38"
#define RTCRX500_ID_AT_CERTIFICATE_REVOCATION_LIST_OID "2.5.4.39"
#define RTCRX500_ID_AT_CROSS_CERTIFICATE_PAIR_OID "2.5.4.40"
#define RTCRX500_ID_AT_NAME_OID "2.5.4.41"
#define RTCRX500_ID_AT_GIVEN_NAME_OID "2.5.4.42"
#define RTCRX500_ID_AT_INITIALS_OID "2.5.4.43"
#define RTCRX500_ID_AT_GENERATION_QUALIFIER_OID "2.5.4.44"
#define RTCRX500_ID_AT_UNIQUE_IDENTIFIER_OID "2.5.4.45"
#define RTCRX500_ID_AT_DN_QUALIFIER_OID "2.5.4.46"
#define RTCRX500_ID_AT_ENHANCHED_SEARCH_GUIDE_OID "2.5.4.47"
#define RTCRX500_ID_AT_PROTOCOL_INFORMATION_OID "2.5.4.48"
#define RTCRX500_ID_AT_DISTINGUISHED_NAME_OID "2.5.4.49"
#define RTCRX500_ID_AT_UNIQUE_MEMBER_OID "2.5.4.50"
#define RTCRX500_ID_AT_HOUSE_IDENTIFIER_OID "2.5.4.51"
#define RTCRX500_ID_AT_SUPPORTED_ALGORITHMS_OID "2.5.4.52"
#define RTCRX500_ID_AT_DELTA_REVOCATION_LIST_OID "2.5.4.53"
#define RTCRX500_ID_AT_ATTRIBUTE_CERTIFICATE_OID "2.5.4.58"
#define RTCRX500_ID_AT_PSEUDONYM_OID "2.5.4.65"
/** @} */
static void rtCrX509NameDump(PCRTCRX509NAME pName, PFNRTDUMPPRINTFV pfnPrintfV, void *pvUser)
{
for (uint32_t i = 0; i < pName->cItems; i++)
{
PCRTCRX509RELATIVEDISTINGUISHEDNAME const pRdn = pName->papItems[i];
for (uint32_t j = 0; j < pRdn->cItems; j++)
{
PRTCRX509ATTRIBUTETYPEANDVALUE pAttrib = pRdn->papItems[j];
const char *pszType = pAttrib->Type.szObjId;
if ( !strncmp(pAttrib->Type.szObjId, "2.5.4.", 6)
&& (pAttrib->Type.szObjId[8] == '\0' || pAttrib->Type.szObjId[9] == '\0'))
{
switch (RTStrToUInt8(&pAttrib->Type.szObjId[6]))
{
case 3: pszType = "cn"; break;
case 4: pszType = "sn"; break;
case 5: pszType = "serialNumber"; break;
case 6: pszType = "c"; break;
case 7: pszType = "l"; break;
case 8: pszType = "st"; break;
case 9: pszType = "street"; break;
case 10: pszType = "o"; break;
case 11: pszType = "ou"; break;
case 13: pszType = "description"; break;
case 15: pszType = "businessCategory"; break;
case 16: pszType = "postalAddress"; break;
case 17: pszType = "postalCode"; break;
case 18: pszType = "postOfficeBox"; break;
case 20: pszType = "telephoneNumber"; break;
case 26: pszType = "registeredAddress"; break;
case 31: pszType = "member"; break;
case 41: pszType = "name"; break;
case 42: pszType = "givenName"; break;
case 43: pszType = "initials"; break;
case 45: pszType = "x500UniqueIdentifier"; break;
case 50: pszType = "uniqueMember"; break;
}
}
rtDumpPrintf(pfnPrintfV, pvUser, "/%s=", pszType);
if (pAttrib->Value.enmType == RTASN1TYPE_STRING)
{
if (pAttrib->Value.u.String.pszUtf8)
rtDumpPrintf(pfnPrintfV, pvUser, "%s", pAttrib->Value.u.String.pszUtf8);
else
{
const char *pch = pAttrib->Value.u.String.Asn1Core.uData.pch;
uint32_t cch = pAttrib->Value.u.String.Asn1Core.cb;
int rc = RTStrValidateEncodingEx(pch, cch, 0);
if (RT_SUCCESS(rc) && cch)
rtDumpPrintf(pfnPrintfV, pvUser, "%.*s", (size_t)cch, pch);
else
while (cch > 0)
{
if (RT_C_IS_PRINT(*pch))
rtDumpPrintf(pfnPrintfV, pvUser, "%c", *pch);
else
rtDumpPrintf(pfnPrintfV, pvUser, "\\x%02x", *pch);
cch--;
pch++;
}
}
}
else
rtDumpPrintf(pfnPrintfV, pvUser, "<not-string: uTag=%#x>", pAttrib->Value.u.Core.uTag);
}
}
}
static const char *rtCrX509CertPathsNodeGetSourceName(PRTCRX509CERTPATHNODE pNode)
{
switch (pNode->uSrc)
{
case RTCRX509CERTPATHNODE_SRC_TARGET: return "target";
case RTCRX509CERTPATHNODE_SRC_UNTRUSTED_SET: return "untrusted_set";
case RTCRX509CERTPATHNODE_SRC_UNTRUSTED_ARRAY: return "untrusted_array";
case RTCRX509CERTPATHNODE_SRC_UNTRUSTED_STORE: return "untrusted_store";
case RTCRX509CERTPATHNODE_SRC_TRUSTED_STORE: return "trusted_store";
case RTCRX509CERTPATHNODE_SRC_TRUSTED_CERT: return "trusted_cert";
default: return "invalid";
}
}
static void rtCrX509CertPathsDumpOneWorker(PRTCRX509CERTPATHSINT pThis, uint32_t iPath, PRTCRX509CERTPATHNODE pCurLeaf,
uint32_t uVerbosity, PFNRTDUMPPRINTFV pfnPrintfV, void *pvUser)
{
RT_NOREF_PV(pThis);
rtDumpPrintf(pfnPrintfV, pvUser, "Path #%u: %s, %u deep, rcVerify=%Rrc\n",
iPath, RTCRX509CERTPATHNODE_SRC_IS_TRUSTED(pCurLeaf->uSrc) ? "trusted" : "untrusted", pCurLeaf->uDepth,
pCurLeaf->rcVerify);
for (uint32_t iIndent = 2; pCurLeaf; iIndent += 2, pCurLeaf = pCurLeaf->pParent)
{
if (pCurLeaf->pCert)
{
rtDumpIndent(pfnPrintfV, pvUser, iIndent, "Issuer : ");
rtCrX509NameDump(&pCurLeaf->pCert->TbsCertificate.Issuer, pfnPrintfV, pvUser);
rtDumpPrintf(pfnPrintfV, pvUser, "\n");
rtDumpIndent(pfnPrintfV, pvUser, iIndent, "Subject: ");
rtCrX509NameDump(&pCurLeaf->pCert->TbsCertificate.Subject, pfnPrintfV, pvUser);
rtDumpPrintf(pfnPrintfV, pvUser, "\n");
if (uVerbosity >= 4)
RTAsn1Dump(&pCurLeaf->pCert->SeqCore.Asn1Core, 0, iIndent, pfnPrintfV, pvUser);
else if (uVerbosity >= 3)
RTAsn1Dump(&pCurLeaf->pCert->TbsCertificate.T3.Extensions.SeqCore.Asn1Core, 0, iIndent, pfnPrintfV, pvUser);
}
else
{
Assert(pCurLeaf->pCertCtx); Assert(pCurLeaf->pCertCtx->pTaInfo);
rtDumpIndent(pfnPrintfV, pvUser, iIndent, "Subject: ");
rtCrX509NameDump(&pCurLeaf->pCertCtx->pTaInfo->CertPath.TaName, pfnPrintfV, pvUser);
if (uVerbosity >= 4)
RTAsn1Dump(&pCurLeaf->pCertCtx->pTaInfo->SeqCore.Asn1Core, 0, iIndent, pfnPrintfV, pvUser);
}
const char *pszSrc = rtCrX509CertPathsNodeGetSourceName(pCurLeaf);
rtDumpIndent(pfnPrintfV, pvUser, iIndent, "Source : %s\n", pszSrc);
}
}
RTDECL(int) RTCrX509CertPathsDumpOne(RTCRX509CERTPATHS hCertPaths, uint32_t iPath, uint32_t uVerbosity,
PFNRTDUMPPRINTFV pfnPrintfV, void *pvUser)
{
/*
* Validate the input.
*/
PRTCRX509CERTPATHSINT pThis = hCertPaths;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
AssertReturn(pThis->u32Magic == RTCRX509CERTPATHSINT_MAGIC, VERR_INVALID_HANDLE);
AssertPtrReturn(pfnPrintfV, VERR_INVALID_POINTER);
int rc;
if (iPath < pThis->cPaths)
{
PRTCRX509CERTPATHNODE pLeaf = rtCrX509CertPathsGetLeafByIndex(pThis, iPath);
if (pLeaf)
{
rtCrX509CertPathsDumpOneWorker(pThis, iPath, pLeaf, uVerbosity, pfnPrintfV, pvUser);
rc = VINF_SUCCESS;
}
else
rc = VERR_CR_X509_CERTPATHS_INTERNAL_ERROR;
}
else
rc = VERR_NOT_FOUND;
return rc;
}
RTDECL(int) RTCrX509CertPathsDumpAll(RTCRX509CERTPATHS hCertPaths, uint32_t uVerbosity, PFNRTDUMPPRINTFV pfnPrintfV, void *pvUser)
{
/*
* Validate the input.
*/
PRTCRX509CERTPATHSINT pThis = hCertPaths;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
AssertReturn(pThis->u32Magic == RTCRX509CERTPATHSINT_MAGIC, VERR_INVALID_HANDLE);
AssertPtrReturn(pfnPrintfV, VERR_INVALID_POINTER);
/*
* Dump all the paths.
*/
rtDumpPrintf(pfnPrintfV, pvUser, "%u paths, rc=%Rrc\n", pThis->cPaths, pThis->rc);
uint32_t iPath = 0;
PRTCRX509CERTPATHNODE pCurLeaf, pNextLeaf;
RTListForEachSafe(&pThis->LeafList, pCurLeaf, pNextLeaf, RTCRX509CERTPATHNODE, ChildListOrLeafEntry)
{
rtCrX509CertPathsDumpOneWorker(pThis, iPath, pCurLeaf, uVerbosity, pfnPrintfV, pvUser);
iPath++;
}
return VINF_SUCCESS;
}
/** @} */
/** @name Path Validator Functions.
* @{
*/
static void *rtCrX509CpvAllocZ(PRTCRX509CERTPATHSINT pThis, size_t cb, const char *pszWhat)
{
void *pv = RTMemAllocZ(cb);
if (!pv)
pThis->rc = RTErrInfoSetF(pThis->pErrInfo, VERR_NO_MEMORY, "Failed to allocate %zu bytes for %s", cb, pszWhat);
return pv;
}
DECL_NO_INLINE(static, bool) rtCrX509CpvFailed(PRTCRX509CERTPATHSINT pThis, int rc, const char *pszFormat, ...)
{
va_list va;
va_start(va, pszFormat);
pThis->rc = RTErrInfoSetV(pThis->pErrInfo, rc, pszFormat, va);
va_end(va);
return false;
}
/**
* Adds a sequence of excluded sub-trees.
*
* Don't waste time optimizing the output if this is supposed to be a union.
* Unless the path is very long, it's a lot more work to optimize and the result
* will be the same anyway.
*
* @returns success indicator.
* @param pThis The validator instance.
* @param pSubtrees The sequence of sub-trees to add.
*/
static bool rtCrX509CpvAddExcludedSubtrees(PRTCRX509CERTPATHSINT pThis, PCRTCRX509GENERALSUBTREES pSubtrees)
{
if (((pThis->v.cExcludedSubtrees + 1) & 0xf) == 0)
{
void *pvNew = RTMemRealloc(pThis->v.papExcludedSubtrees,
(pThis->v.cExcludedSubtrees + 16) * sizeof(pThis->v.papExcludedSubtrees[0]));
if (RT_UNLIKELY(!pvNew))
return rtCrX509CpvFailed(pThis, VERR_NO_MEMORY, "Error growing subtrees pointer array to %u elements",
pThis->v.cExcludedSubtrees + 16);
pThis->v.papExcludedSubtrees = (PCRTCRX509GENERALSUBTREES *)pvNew;
}
pThis->v.papExcludedSubtrees[pThis->v.cExcludedSubtrees] = pSubtrees;
pThis->v.cExcludedSubtrees++;
return true;
}
/**
* Checks if a sub-tree is according to RFC-5280.
*
* @returns Success indiciator.
* @param pThis The validator instance.
* @param pSubtree The subtree to check.
*/
static bool rtCrX509CpvCheckSubtreeValidity(PRTCRX509CERTPATHSINT pThis, PCRTCRX509GENERALSUBTREE pSubtree)
{
if ( pSubtree->Base.enmChoice <= RTCRX509GENERALNAMECHOICE_INVALID
|| pSubtree->Base.enmChoice >= RTCRX509GENERALNAMECHOICE_END)
return rtCrX509CpvFailed(pThis, VERR_CR_X509_CPV_UNEXP_GENERAL_SUBTREE_CHOICE,
"Unexpected GeneralSubtree choice %#x", pSubtree->Base.enmChoice);
if (RTAsn1Integer_UnsignedCompareWithU32(&pSubtree->Minimum, 0) != 0)
return rtCrX509CpvFailed(pThis, VERR_CR_X509_CPV_UNEXP_GENERAL_SUBTREE_MIN,
"Unexpected GeneralSubtree Minimum value: %#llx",
pSubtree->Minimum.uValue);
if (RTAsn1Integer_IsPresent(&pSubtree->Maximum))
return rtCrX509CpvFailed(pThis, VERR_CR_X509_CPV_UNEXP_GENERAL_SUBTREE_MAX,
"Unexpected GeneralSubtree Maximum value: %#llx",
pSubtree->Maximum.uValue);
return true;
}
/**
* Grows the array of permitted sub-trees.
*
* @returns success indiciator.
* @param pThis The validator instance.
* @param cAdding The number of subtrees we should grow by
* (relative to the current number of valid
* entries).
*/
static bool rtCrX509CpvGrowPermittedSubtrees(PRTCRX509CERTPATHSINT pThis, uint32_t cAdding)
{
uint32_t cNew = RT_ALIGN_32(pThis->v.cPermittedSubtrees + cAdding, 16);
if (cNew > pThis->v.cPermittedSubtreesAlloc)
{
if (cNew >= _4K)
return rtCrX509CpvFailed(pThis, VERR_NO_MEMORY, "Too many permitted subtrees: %u (cur %u)",
cNew, pThis->v.cPermittedSubtrees);
void *pvNew = RTMemRealloc(pThis->v.papPermittedSubtrees, cNew * sizeof(pThis->v.papPermittedSubtrees[0]));
if (RT_UNLIKELY(!pvNew))
return rtCrX509CpvFailed(pThis, VERR_NO_MEMORY, "Error growing subtrees pointer array from %u to %u elements",
pThis->v.cPermittedSubtreesAlloc, cNew);
pThis->v.papPermittedSubtrees = (PCRTCRX509GENERALSUBTREE *)pvNew;
}
return true;
}
/**
* Adds a sequence of permitted sub-trees.
*
* We store reference to each individual sub-tree because we must support
* intersection calculation.
*
* @returns success indiciator.
* @param pThis The validator instance.
* @param cSubtrees The number of sub-trees to add.
* @param papSubtrees Array of sub-trees to add.
*/
static bool rtCrX509CpvAddPermittedSubtrees(PRTCRX509CERTPATHSINT pThis, uint32_t cSubtrees,
PRTCRX509GENERALSUBTREE const *papSubtrees)
{
/*
* If the array is empty, assume no permitted names.
*/
if (!cSubtrees)
{
pThis->v.fNoPermittedSubtrees = true;
return true;
}
/*
* Grow the array if necessary.
*/
if (!rtCrX509CpvGrowPermittedSubtrees(pThis, cSubtrees))
return false;
/*
* Append each subtree to the array.
*/
uint32_t iDst = pThis->v.cPermittedSubtrees;
for (uint32_t iSrc = 0; iSrc < cSubtrees; iSrc++)
{
if (!rtCrX509CpvCheckSubtreeValidity(pThis, papSubtrees[iSrc]))
return false;
pThis->v.papPermittedSubtrees[iDst] = papSubtrees[iSrc];
iDst++;
}
pThis->v.cPermittedSubtrees = iDst;
return true;
}
/**
* Adds a one permitted sub-tree.
*
* We store reference to each individual sub-tree because we must support
* intersection calculation.
*
* @returns success indiciator.
* @param pThis The validator instance.
* @param pSubtree Array of sub-trees to add.
*/
static bool rtCrX509CpvAddPermittedSubtree(PRTCRX509CERTPATHSINT pThis, PCRTCRX509GENERALSUBTREE pSubtree)
{
return rtCrX509CpvAddPermittedSubtrees(pThis, 1, (PRTCRX509GENERALSUBTREE const *)&pSubtree);
}
/**
* Calculates the intersection between @a pSubtrees and the current permitted
* sub-trees.
*
* @returns Success indicator.
* @param pThis The validator instance.
* @param pSubtrees The sub-tree sequence to intersect with.
*/
static bool rtCrX509CpvIntersectionPermittedSubtrees(PRTCRX509CERTPATHSINT pThis, PCRTCRX509GENERALSUBTREES pSubtrees)
{
/*
* Deal with special cases first.
*/
if (pThis->v.fNoPermittedSubtrees)
{
Assert(pThis->v.cPermittedSubtrees == 0);
return true;
}
uint32_t cRight = pSubtrees->cItems;
PRTCRX509GENERALSUBTREE const *papRight = pSubtrees->papItems;
if (cRight == 0)
{
pThis->v.cPermittedSubtrees = 0;
pThis->v.fNoPermittedSubtrees = true;
return true;
}
uint32_t cLeft = pThis->v.cPermittedSubtrees;
PCRTCRX509GENERALSUBTREE *papLeft = pThis->v.papPermittedSubtrees;
if (!cLeft) /* first name constraint, no initial constraint */
return rtCrX509CpvAddPermittedSubtrees(pThis, cRight, papRight);
/*
* Create a new array with the intersection, freeing the old (left) array
* once we're done.
*/
bool afRightTags[RTCRX509GENERALNAMECHOICE_END] = { 0, 0, 0, 0, 0, 0, 0, 0, 0 };
pThis->v.cPermittedSubtrees = 0;
pThis->v.cPermittedSubtreesAlloc = 0;
pThis->v.papPermittedSubtrees = NULL;
for (uint32_t iRight = 0; iRight < cRight; iRight++)
{
if (!rtCrX509CpvCheckSubtreeValidity(pThis, papRight[iRight]))
return false;
RTCRX509GENERALNAMECHOICE const enmRightChoice = papRight[iRight]->Base.enmChoice;
afRightTags[enmRightChoice] = true;
bool fHaveRight = false;
for (uint32_t iLeft = 0; iLeft < cLeft; iLeft++)
if (papLeft[iLeft]->Base.enmChoice == enmRightChoice)
{
if (RTCrX509GeneralSubtree_Compare(papLeft[iLeft], papRight[iRight]) == 0)
{
if (!fHaveRight)
{
fHaveRight = true;
rtCrX509CpvAddPermittedSubtree(pThis, papLeft[iLeft]);
}
}
else if (RTCrX509GeneralSubtree_ConstraintMatch(papLeft[iLeft], papRight[iRight]))
{
if (!fHaveRight)
{
fHaveRight = true;
rtCrX509CpvAddPermittedSubtree(pThis, papRight[iRight]);
}
}
else if (RTCrX509GeneralSubtree_ConstraintMatch(papRight[iRight], papLeft[iLeft]))
rtCrX509CpvAddPermittedSubtree(pThis, papLeft[iLeft]);
}
}
/*
* Add missing types not specified in the right set.
*/
for (uint32_t iLeft = 0; iLeft < cLeft; iLeft++)
if (!afRightTags[papLeft[iLeft]->Base.enmChoice])
rtCrX509CpvAddPermittedSubtree(pThis, papLeft[iLeft]);
/*
* If we ended up with an empty set, no names are permitted any more.
*/
if (pThis->v.cPermittedSubtrees == 0)
pThis->v.fNoPermittedSubtrees = true;
RTMemFree(papLeft);
return RT_SUCCESS(pThis->rc);
}
/**
* Check if the given X.509 name is permitted by current name constraints.
*
* @returns true is permitteded, false if not (caller set error info).
* @param pThis The validator instance.
* @param pName The name to match.
*/
static bool rtCrX509CpvIsNamePermitted(PRTCRX509CERTPATHSINT pThis, PCRTCRX509NAME pName)
{
uint32_t i = pThis->v.cPermittedSubtrees;
if (i == 0)
return !pThis->v.fNoPermittedSubtrees;
while (i-- > 0)
{
PCRTCRX509GENERALSUBTREE pConstraint = pThis->v.papPermittedSubtrees[i];
if ( RTCRX509GENERALNAME_IS_DIRECTORY_NAME(&pConstraint->Base)
&& RTCrX509Name_ConstraintMatch(&pConstraint->Base.u.pT4->DirectoryName, pName))
return true;
}
return false;
}
/**
* Check if the given X.509 general name is permitted by current name
* constraints.
*
* @returns true is permitteded, false if not (caller sets error info).
* @param pThis The validator instance.
* @param pGeneralName The name to match.
*/
static bool rtCrX509CpvIsGeneralNamePermitted(PRTCRX509CERTPATHSINT pThis, PCRTCRX509GENERALNAME pGeneralName)
{
uint32_t i = pThis->v.cPermittedSubtrees;
if (i == 0)
return !pThis->v.fNoPermittedSubtrees;
while (i-- > 0)
if (RTCrX509GeneralName_ConstraintMatch(&pThis->v.papPermittedSubtrees[i]->Base, pGeneralName))
return true;
return false;
}
/**
* Check if the given X.509 name is excluded by current name constraints.
*
* @returns true if excluded (caller sets error info), false if not explicitly
* excluded.
* @param pThis The validator instance.
* @param pName The name to match.
*/
static bool rtCrX509CpvIsNameExcluded(PRTCRX509CERTPATHSINT pThis, PCRTCRX509NAME pName)
{
uint32_t i = pThis->v.cExcludedSubtrees;
while (i-- > 0)
{
PCRTCRX509GENERALSUBTREES pSubTrees = pThis->v.papExcludedSubtrees[i];
uint32_t j = pSubTrees->cItems;
while (j-- > 0)
{
PCRTCRX509GENERALSUBTREE const pSubTree = pSubTrees->papItems[j];
if ( RTCRX509GENERALNAME_IS_DIRECTORY_NAME(&pSubTree->Base)
&& RTCrX509Name_ConstraintMatch(&pSubTree->Base.u.pT4->DirectoryName, pName))
return true;
}
}
return false;
}
/**
* Check if the given X.509 general name is excluded by current name
* constraints.
*
* @returns true if excluded (caller sets error info), false if not explicitly
* excluded.
* @param pThis The validator instance.
* @param pGeneralName The name to match.
*/
static bool rtCrX509CpvIsGeneralNameExcluded(PRTCRX509CERTPATHSINT pThis, PCRTCRX509GENERALNAME pGeneralName)
{
uint32_t i = pThis->v.cExcludedSubtrees;
while (i-- > 0)
{
PCRTCRX509GENERALSUBTREES pSubTrees = pThis->v.papExcludedSubtrees[i];
uint32_t j = pSubTrees->cItems;
while (j-- > 0)
if (RTCrX509GeneralName_ConstraintMatch(&pSubTrees->papItems[j]->Base, pGeneralName))
return true;
}
return false;
}
/**
* Creates a new node and inserts it.
*
* @param pThis The path builder & validator instance.
* @param pParent The parent node. NULL for the root node.
* @param iDepth The tree depth to insert at.
* @param pValidPolicy The valid policy of the new node.
* @param pQualifiers The qualifiers of the new node.
* @param pExpectedPolicy The (first) expected polcy of the new node.
*/
static bool rtCrX509CpvPolicyTreeInsertNew(PRTCRX509CERTPATHSINT pThis, PRTCRX509CERTPATHSPOLICYNODE pParent, uint32_t iDepth,
PCRTASN1OBJID pValidPolicy, PCRTCRX509POLICYQUALIFIERINFOS pQualifiers,
PCRTASN1OBJID pExpectedPolicy)
{
Assert(iDepth <= pThis->v.cNodes);
PRTCRX509CERTPATHSPOLICYNODE pNode;
pNode = (PRTCRX509CERTPATHSPOLICYNODE)rtCrX509CpvAllocZ(pThis, sizeof(*pNode), "policy tree node");
if (pNode)
{
pNode->pParent = pParent;
if (pParent)
RTListAppend(&pParent->ChildList, &pNode->SiblingEntry);
else
{
Assert(pThis->v.pValidPolicyTree == NULL);
pThis->v.pValidPolicyTree = pNode;
RTListInit(&pNode->SiblingEntry);
}
RTListInit(&pNode->ChildList);
RTListAppend(&pThis->v.paValidPolicyDepthLists[iDepth], &pNode->DepthEntry);
pNode->pValidPolicy = pValidPolicy;
pNode->pPolicyQualifiers = pQualifiers;
pNode->pExpectedPolicyFirst = pExpectedPolicy;
pNode->cMoreExpectedPolicySet = 0;
pNode->papMoreExpectedPolicySet = NULL;
return true;
}
return false;
}
/**
* Unlinks and frees a node in the valid policy tree.
*
* @param pThis The path builder & validator instance.
* @param pNode The node to destroy.
*/
static void rtCrX509CpvPolicyTreeDestroyNode(PRTCRX509CERTPATHSINT pThis, PRTCRX509CERTPATHSPOLICYNODE pNode)
{
Assert(RTListIsEmpty(&pNode->ChildList));
if (pNode->pParent)
RTListNodeRemove(&pNode->SiblingEntry);
else
pThis->v.pValidPolicyTree = NULL;
RTListNodeRemove(&pNode->DepthEntry);
pNode->pParent = NULL;
if (pNode->papMoreExpectedPolicySet)
{
RTMemFree(pNode->papMoreExpectedPolicySet);
pNode->papMoreExpectedPolicySet = NULL;
}
RTMemFree(pNode);
}
/**
* Unlinks and frees a sub-tree in the valid policy tree.
*
* @param pThis The path builder & validator instance.
* @param pNode The node that is the root of the subtree.
*/
static void rtCrX509CpvPolicyTreeDestroySubtree(PRTCRX509CERTPATHSINT pThis, PRTCRX509CERTPATHSPOLICYNODE pNode)
{
if (!RTListIsEmpty(&pNode->ChildList))
{
PRTCRX509CERTPATHSPOLICYNODE pCur = pNode;
do
{
Assert(!RTListIsEmpty(&pCur->ChildList));
/* Decend until we find a leaf. */
do
pCur = RTListGetFirst(&pCur->ChildList, RTCRX509CERTPATHSPOLICYNODE, SiblingEntry);
while (!RTListIsEmpty(&pCur->ChildList));
/* Remove it and all leafy siblings. */
PRTCRX509CERTPATHSPOLICYNODE pParent = pCur->pParent;
do
{
Assert(pCur != pNode);
rtCrX509CpvPolicyTreeDestroyNode(pThis, pCur);
pCur = RTListGetFirst(&pParent->ChildList, RTCRX509CERTPATHSPOLICYNODE, SiblingEntry);
if (!pCur)
{
pCur = pParent;
pParent = pParent->pParent;
}
} while (RTListIsEmpty(&pCur->ChildList) && pCur != pNode);
} while (pCur != pNode);
}
rtCrX509CpvPolicyTreeDestroyNode(pThis, pNode);
}
/**
* Destroys the entire policy tree.
*
* @param pThis The path builder & validator instance.
*/
static void rtCrX509CpvPolicyTreeDestroy(PRTCRX509CERTPATHSINT pThis)
{
uint32_t i = pThis->v.cNodes + 1;
while (i-- > 0)
{
PRTCRX509CERTPATHSPOLICYNODE pCur, pNext;
RTListForEachSafe(&pThis->v.paValidPolicyDepthLists[i], pCur, pNext, RTCRX509CERTPATHSPOLICYNODE, DepthEntry)
{
rtCrX509CpvPolicyTreeDestroyNode(pThis, pCur);
}
}
}
/**
* Removes all leaf nodes at level @a iDepth and above.
*
* @param pThis The path builder & validator instance.
* @param iDepth The depth to start pruning at.
*/
static void rtCrX509CpvPolicyTreePrune(PRTCRX509CERTPATHSINT pThis, uint32_t iDepth)
{
do
{
PRTLISTANCHOR pList = &pThis->v.paValidPolicyDepthLists[iDepth];
PRTCRX509CERTPATHSPOLICYNODE pCur, pNext;
RTListForEachSafe(pList, pCur, pNext, RTCRX509CERTPATHSPOLICYNODE, DepthEntry)
{
if (RTListIsEmpty(&pCur->ChildList))
rtCrX509CpvPolicyTreeDestroyNode(pThis, pCur);
}
} while (iDepth-- > 0);
}
/**
* Checks if @a pPolicy is the valid policy of a child of @a pNode.
*
* @returns true if in child node, false if not.
* @param pNode The node which children to check.
* @param pPolicy The valid policy to look for among the children.
*/
static bool rtCrX509CpvPolicyTreeIsChild(PRTCRX509CERTPATHSPOLICYNODE pNode, PCRTASN1OBJID pPolicy)
{
PRTCRX509CERTPATHSPOLICYNODE pChild;
RTListForEach(&pNode->ChildList, pChild, RTCRX509CERTPATHSPOLICYNODE, SiblingEntry)
{
if (RTAsn1ObjId_Compare(pChild->pValidPolicy, pPolicy) == 0)
return true;
}
return true;
}
/**
* Prunes the valid policy tree according to the specified user policy set.
*
* @returns Pointer to the policy object from @a papPolicies if found, NULL if
* no match.
* @param pObjId The object ID to locate at match in the set.
* @param cPolicies The number of policies in @a papPolicies.
* @param papPolicies The policy set to search.
*/
static PCRTASN1OBJID rtCrX509CpvFindObjIdInPolicySet(PCRTASN1OBJID pObjId, uint32_t cPolicies, PCRTASN1OBJID *papPolicies)
{
uint32_t i = cPolicies;
while (i-- > 0)
if (RTAsn1ObjId_Compare(pObjId, papPolicies[i]) == 0)
return papPolicies[i];
return NULL;
}
/**
* Prunes the valid policy tree according to the specified user policy set.
*
* @returns success indicator (allocates memory)
* @param pThis The path builder & validator instance.
* @param cPolicies The number of policies in @a papPolicies.
* @param papPolicies The user initial policies.
*/
static bool rtCrX509CpvPolicyTreeIntersect(PRTCRX509CERTPATHSINT pThis, uint32_t cPolicies, PCRTASN1OBJID *papPolicies)
{
/*
* 4.1.6.g.i - NULL tree remains NULL.
*/
if (!pThis->v.pValidPolicyTree)
return true;
/*
* 4.1.6.g.ii - If the user set includes anyPolicy, the whole tree is the
* result of the intersection.
*/
uint32_t i = cPolicies;
while (i-- > 0)
if (RTAsn1ObjId_CompareWithString(papPolicies[i], RTCRX509_ID_CE_CP_ANY_POLICY_OID) == 0)
return true;
/*
* 4.1.6.g.iii - Complicated.
*/
PRTCRX509CERTPATHSPOLICYNODE pCur, pNext;
PRTLISTANCHOR pList;
/* 1 & 2: Delete nodes which parent has valid policy == anyPolicy and which
valid policy is neither anyPolicy nor a member of papszPolicies.
While doing so, construct a set of unused user policies that
we'll replace anyPolicy nodes with in step 3. */
uint32_t cPoliciesLeft = 0;
PCRTASN1OBJID *papPoliciesLeft = NULL;
if (cPolicies)
{
papPoliciesLeft = (PCRTASN1OBJID *)rtCrX509CpvAllocZ(pThis, cPolicies * sizeof(papPoliciesLeft[0]), "papPoliciesLeft");
if (!papPoliciesLeft)
return false;
for (i = 0; i < cPolicies; i++)
papPoliciesLeft[i] = papPolicies[i];
}
for (uint32_t iDepth = 1; iDepth <= pThis->v.cNodes; iDepth++)
{
pList = &pThis->v.paValidPolicyDepthLists[iDepth];
RTListForEachSafe(pList, pCur, pNext, RTCRX509CERTPATHSPOLICYNODE, DepthEntry)
{
Assert(pCur->pParent);
if ( RTAsn1ObjId_CompareWithString(pCur->pParent->pValidPolicy, RTCRX509_ID_CE_CP_ANY_POLICY_OID) == 0
&& RTAsn1ObjId_CompareWithString(pCur->pValidPolicy, RTCRX509_ID_CE_CP_ANY_POLICY_OID) != 0)
{
PCRTASN1OBJID pFound = rtCrX509CpvFindObjIdInPolicySet(pCur->pValidPolicy, cPolicies, papPolicies);
if (!pFound)
rtCrX509CpvPolicyTreeDestroySubtree(pThis, pCur);
else
for (i = 0; i < cPoliciesLeft; i++)
if (papPoliciesLeft[i] == pFound)
{
cPoliciesLeft--;
if (i < cPoliciesLeft)
papPoliciesLeft[i] = papPoliciesLeft[cPoliciesLeft];
papPoliciesLeft[cPoliciesLeft] = NULL;
break;
}
}
}
}
/*
* 4.1.5.g.iii.3 - Replace anyPolicy nodes on the final tree depth with
* the policies in papPoliciesLeft.
*/
pList = &pThis->v.paValidPolicyDepthLists[pThis->v.cNodes];
RTListForEachSafe(pList, pCur, pNext, RTCRX509CERTPATHSPOLICYNODE, DepthEntry)
{
if (RTAsn1ObjId_CompareWithString(pCur->pValidPolicy, RTCRX509_ID_CE_CP_ANY_POLICY_OID) == 0)
{
for (i = 0; i < cPoliciesLeft; i++)
rtCrX509CpvPolicyTreeInsertNew(pThis, pCur->pParent, pThis->v.cNodes - 1,
papPoliciesLeft[i], pCur->pPolicyQualifiers, papPoliciesLeft[i]);
rtCrX509CpvPolicyTreeDestroyNode(pThis, pCur);
}
}
RTMemFree(papPoliciesLeft);
/*
* 4.1.5.g.iii.4 - Prune the tree
*/
rtCrX509CpvPolicyTreePrune(pThis, pThis->v.cNodes - 1);
return RT_SUCCESS(pThis->rc);
}
/**
* Frees the path validator state.
*
* @param pThis The path builder & validator instance.
*/
static void rtCrX509CpvCleanup(PRTCRX509CERTPATHSINT pThis)
{
/*
* Destroy the policy tree and all its nodes. We do this from the bottom
* up via the depth lists, saving annoying tree traversal.
*/
if (pThis->v.paValidPolicyDepthLists)
{
rtCrX509CpvPolicyTreeDestroy(pThis);
RTMemFree(pThis->v.paValidPolicyDepthLists);
pThis->v.paValidPolicyDepthLists = NULL;
}
Assert(pThis->v.pValidPolicyTree == NULL);
pThis->v.pValidPolicyTree = NULL;
/*
* Destroy the name constraint arrays.
*/
if (pThis->v.papPermittedSubtrees)
{
RTMemFree(pThis->v.papPermittedSubtrees);
pThis->v.papPermittedSubtrees = NULL;
}
pThis->v.cPermittedSubtrees = 0;
pThis->v.cPermittedSubtreesAlloc = 0;
pThis->v.fNoPermittedSubtrees = false;
if (pThis->v.papExcludedSubtrees)
{
RTMemFree(pThis->v.papExcludedSubtrees);
pThis->v.papExcludedSubtrees = NULL;
}
pThis->v.cExcludedSubtrees = 0;
/*
* Clear other pointers.
*/
pThis->v.pWorkingIssuer = NULL;
pThis->v.pWorkingPublicKey = NULL;
pThis->v.pWorkingPublicKeyAlgorithm = NULL;
pThis->v.pWorkingPublicKeyParameters = NULL;
}
/**
* Initializes the state.
*
* Caller must check pThis->rc.
*
* @param pThis The path builder & validator instance.
* @param pTrustAnchor The trust anchor node for the path that we're about
* to validate.
*/
static void rtCrX509CpvInit(PRTCRX509CERTPATHSINT pThis, PRTCRX509CERTPATHNODE pTrustAnchor)
{
rtCrX509CpvCleanup(pThis);
/*
* The node count does not include the trust anchor.
*/
pThis->v.cNodes = pTrustAnchor->uDepth;
/*
* Valid policy tree starts with an anyPolicy node.
*/
uint32_t i = pThis->v.cNodes + 1;
pThis->v.paValidPolicyDepthLists = (PRTLISTANCHOR)rtCrX509CpvAllocZ(pThis, i * sizeof(RTLISTANCHOR),
"paValidPolicyDepthLists");
if (RT_UNLIKELY(!pThis->v.paValidPolicyDepthLists))
return;
while (i-- > 0)
RTListInit(&pThis->v.paValidPolicyDepthLists[i]);
if (!rtCrX509CpvPolicyTreeInsertNew(pThis, NULL, 0 /* iDepth*/, &pThis->AnyPolicyObjId, NULL, &pThis->AnyPolicyObjId))
return;
Assert(!RTListIsEmpty(&pThis->v.paValidPolicyDepthLists[0])); Assert(pThis->v.pValidPolicyTree);
/*
* Name constrains.
*/
if (pThis->pInitialPermittedSubtrees)
rtCrX509CpvAddPermittedSubtrees(pThis, pThis->pInitialPermittedSubtrees->cItems,
pThis->pInitialPermittedSubtrees->papItems);
if (pThis->pInitialExcludedSubtrees)
rtCrX509CpvAddExcludedSubtrees(pThis, pThis->pInitialExcludedSubtrees);
/*
* Counters.
*/
pThis->v.cExplicitPolicy = pThis->cInitialExplicitPolicy;
pThis->v.cInhibitPolicyMapping = pThis->cInitialPolicyMappingInhibit;
pThis->v.cInhibitAnyPolicy = pThis->cInitialInhibitAnyPolicy;
pThis->v.cMaxPathLength = pThis->v.cNodes;
/*
* Certificate info from the trust anchor.
*/
if (pTrustAnchor->pCert)
{
PCRTCRX509TBSCERTIFICATE const pTbsCert = &pTrustAnchor->pCert->TbsCertificate;
pThis->v.pWorkingIssuer = &pTbsCert->Subject;
pThis->v.pWorkingPublicKey = &pTbsCert->SubjectPublicKeyInfo.SubjectPublicKey;
pThis->v.pWorkingPublicKeyAlgorithm = &pTbsCert->SubjectPublicKeyInfo.Algorithm.Algorithm;
pThis->v.pWorkingPublicKeyParameters = &pTbsCert->SubjectPublicKeyInfo.Algorithm.Parameters;
}
else
{
Assert(pTrustAnchor->pCertCtx); Assert(pTrustAnchor->pCertCtx->pTaInfo);
PCRTCRTAFTRUSTANCHORINFO const pTaInfo = pTrustAnchor->pCertCtx->pTaInfo;
pThis->v.pWorkingIssuer = &pTaInfo->CertPath.TaName;
pThis->v.pWorkingPublicKey = &pTaInfo->PubKey.SubjectPublicKey;
pThis->v.pWorkingPublicKeyAlgorithm = &pTaInfo->PubKey.Algorithm.Algorithm;
pThis->v.pWorkingPublicKeyParameters = &pTaInfo->PubKey.Algorithm.Parameters;
}
if ( !RTASN1CORE_IS_PRESENT(&pThis->v.pWorkingPublicKeyParameters->u.Core)
|| pThis->v.pWorkingPublicKeyParameters->enmType == RTASN1TYPE_NULL)
pThis->v.pWorkingPublicKeyParameters = NULL;
}
/**
* Step 6.1.3.a.
*/
static bool rtCrX509CpvCheckBasicCertInfo(PRTCRX509CERTPATHSINT pThis, PRTCRX509CERTPATHNODE pNode)
{
/*
* 6.1.3.a.1 - Verify the certificate signature.
*/
int rc = RTCrX509Certificate_VerifySignature(pNode->pCert, pThis->v.pWorkingPublicKeyAlgorithm,
pThis->v.pWorkingPublicKeyParameters, pThis->v.pWorkingPublicKey,
pThis->pErrInfo);
if (RT_FAILURE(rc))
{
pThis->rc = rc;
return false;
}
/*
* 6.1.3.a.2 - Verify that the certificate is valid at the specified time.
*/
AssertCompile(sizeof(pThis->szTmp) >= 36 * 3);
if ( (pThis->fFlags & RTCRX509CERTPATHSINT_F_VALID_TIME)
&& !RTCrX509Validity_IsValidAtTimeSpec(&pNode->pCert->TbsCertificate.Validity, &pThis->ValidTime))
return rtCrX509CpvFailed(pThis, VERR_CR_X509_CPV_NOT_VALID_AT_TIME,
"Certificate is not valid (ValidTime=%s Validity=[%s...%s])",
RTTimeSpecToString(&pThis->ValidTime, &pThis->szTmp[0], 36),
RTTimeToString(&pNode->pCert->TbsCertificate.Validity.NotBefore.Time, &pThis->szTmp[36], 36),
RTTimeToString(&pNode->pCert->TbsCertificate.Validity.NotAfter.Time, &pThis->szTmp[2*36], 36) );
/*
* 6.1.3.a.3 - Verified that the certficiate is not revoked.
*/
/** @todo rainy day. */
/*
* 6.1.3.a.4 - Check the issuer name.
*/
if (!RTCrX509Name_MatchByRfc5280(&pNode->pCert->TbsCertificate.Issuer, pThis->v.pWorkingIssuer))
return rtCrX509CpvFailed(pThis, VERR_CR_X509_CPV_ISSUER_MISMATCH, "Issuer mismatch");
return true;
}
/**
* Step 6.1.3.b-c.
*/
static bool rtCrX509CpvCheckNameConstraints(PRTCRX509CERTPATHSINT pThis, PRTCRX509CERTPATHNODE pNode)
{
if (pThis->v.fNoPermittedSubtrees)
return rtCrX509CpvFailed(pThis, VERR_CR_X509_CPV_NO_PERMITTED_NAMES, "No permitted subtrees");
if ( pNode->pCert->TbsCertificate.Subject.cItems > 0
&& ( !rtCrX509CpvIsNamePermitted(pThis, &pNode->pCert->TbsCertificate.Subject)
|| rtCrX509CpvIsNameExcluded(pThis, &pNode->pCert->TbsCertificate.Subject)) )
return rtCrX509CpvFailed(pThis, VERR_CR_X509_CPV_NAME_NOT_PERMITTED,
"Subject name is not permitted by current name constraints");
PCRTCRX509GENERALNAMES pAltSubjectName = pNode->pCert->TbsCertificate.T3.pAltSubjectName;
if (pAltSubjectName)
{
uint32_t i = pAltSubjectName->cItems;
while (i-- > 0)
if ( !rtCrX509CpvIsGeneralNamePermitted(pThis, pAltSubjectName->papItems[i])
|| rtCrX509CpvIsGeneralNameExcluded(pThis, pAltSubjectName->papItems[i]))
return rtCrX509CpvFailed(pThis, VERR_CR_X509_CPV_ALT_NAME_NOT_PERMITTED,
"Alternative name #%u is is not permitted by current name constraints", i);
}
return true;
}
/**
* Step 6.1.3.d-f.
*/
static bool rtCrX509CpvWorkValidPolicyTree(PRTCRX509CERTPATHSINT pThis, uint32_t iDepth, PRTCRX509CERTPATHNODE pNode,
bool fSelfIssued)
{
PCRTCRX509CERTIFICATEPOLICIES pPolicies = pNode->pCert->TbsCertificate.T3.pCertificatePolicies;
if (pPolicies)
{
/*
* 6.1.3.d.1 - Work the certiciate policies into the tree.
*/
PRTCRX509CERTPATHSPOLICYNODE pCur;
PRTLISTANCHOR pListAbove = &pThis->v.paValidPolicyDepthLists[iDepth - 1];
uint32_t iAnyPolicy = UINT32_MAX;
uint32_t i = pPolicies->cItems;
while (i-- > 0)
{
PCRTCRX509POLICYQUALIFIERINFOS const pQualifiers = &pPolicies->papItems[i]->PolicyQualifiers;
PCRTASN1OBJID const pIdP = &pPolicies->papItems[i]->PolicyIdentifier;
if (RTAsn1ObjId_CompareWithString(pIdP, RTCRX509_ID_CE_CP_ANY_POLICY_OID) == 0)
{
iAnyPolicy++;
continue;
}
/*
* 6.1.3.d.1.i - Create children for matching policies.
*/
uint32_t cMatches = 0;
RTListForEach(pListAbove, pCur, RTCRX509CERTPATHSPOLICYNODE, DepthEntry)
{
bool fMatch = RTAsn1ObjId_Compare(pCur->pExpectedPolicyFirst, pIdP) == 0;
if (!fMatch && pCur->cMoreExpectedPolicySet)
for (uint32_t j = 0; !fMatch && j < pCur->cMoreExpectedPolicySet; j++)
fMatch = RTAsn1ObjId_Compare(pCur->papMoreExpectedPolicySet[j], pIdP) == 0;
if (fMatch)
{
if (!rtCrX509CpvPolicyTreeInsertNew(pThis, pCur, iDepth, pIdP, pQualifiers, pIdP))
return false;
cMatches++;
}
}
/*
* 6.1.3.d.1.ii - If no matches above do the same for anyPolicy
* nodes, only match with valid policy this time.
*/
if (cMatches == 0)
{
RTListForEach(pListAbove, pCur, RTCRX509CERTPATHSPOLICYNODE, DepthEntry)
{
if (RTAsn1ObjId_CompareWithString(pCur->pExpectedPolicyFirst, RTCRX509_ID_CE_CP_ANY_POLICY_OID) == 0)
{
if (!rtCrX509CpvPolicyTreeInsertNew(pThis, pCur, iDepth, pIdP, pQualifiers, pIdP))
return false;
}
}
}
}
/*
* 6.1.3.d.2 - If anyPolicy present, make sure all expected policies
* are propagated to the current depth.
*/
if ( iAnyPolicy < pPolicies->cItems
&& ( pThis->v.cInhibitAnyPolicy > 0
|| (pNode->pParent && fSelfIssued) ) )
{
PCRTCRX509POLICYQUALIFIERINFOS pApQ = &pPolicies->papItems[iAnyPolicy]->PolicyQualifiers;
RTListForEach(pListAbove, pCur, RTCRX509CERTPATHSPOLICYNODE, DepthEntry)
{
if (!rtCrX509CpvPolicyTreeIsChild(pCur, pCur->pExpectedPolicyFirst))
rtCrX509CpvPolicyTreeInsertNew(pThis, pCur, iDepth, pCur->pExpectedPolicyFirst, pApQ,
pCur->pExpectedPolicyFirst);
for (uint32_t j = 0; j < pCur->cMoreExpectedPolicySet; j++)
if (!rtCrX509CpvPolicyTreeIsChild(pCur, pCur->papMoreExpectedPolicySet[j]))
rtCrX509CpvPolicyTreeInsertNew(pThis, pCur, iDepth, pCur->papMoreExpectedPolicySet[j], pApQ,
pCur->papMoreExpectedPolicySet[j]);
}
}
/*
* 6.1.3.d.3 - Prune the tree.
*/
else
rtCrX509CpvPolicyTreePrune(pThis, iDepth - 1);
}
else
{
/*
* 6.1.3.e - No policy extension present, set tree to NULL.
*/
rtCrX509CpvPolicyTreeDestroy(pThis);
}
/*
* 6.1.3.f - NULL tree check.
*/
if ( pThis->v.pValidPolicyTree == NULL
&& pThis->v.cExplicitPolicy == 0)
return rtCrX509CpvFailed(pThis, VERR_CR_X509_CPV_NO_VALID_POLICY,
"An explicit policy is called for but the valid policy tree is NULL.");
return RT_SUCCESS(pThis->rc);
}
/**
* Step 6.1.4.a-b.
*/
static bool rtCrX509CpvSoakUpPolicyMappings(PRTCRX509CERTPATHSINT pThis, uint32_t iDepth,
PCRTCRX509POLICYMAPPINGS pPolicyMappings)
{
/*
* 6.1.4.a - The anyPolicy is not allowed in policy mappings as it would
* allow an evil intermediate certificate to expand the policy
* scope of a certiciate chain without regard to upstream.
*/
uint32_t i = pPolicyMappings->cItems;
while (i-- > 0)
{
PCRTCRX509POLICYMAPPING const pOne = pPolicyMappings->papItems[i];
if (RTAsn1ObjId_CompareWithString(&pOne->IssuerDomainPolicy, RTCRX509_ID_CE_CP_ANY_POLICY_OID) == 0)
return rtCrX509CpvFailed(pThis, VERR_CR_X509_CPV_INVALID_POLICY_MAPPING,
"Invalid policy mapping %#u: IssuerDomainPolicy is anyPolicy.", i);
if (RTAsn1ObjId_CompareWithString(&pOne->SubjectDomainPolicy, RTCRX509_ID_CE_CP_ANY_POLICY_OID) == 0)
return rtCrX509CpvFailed(pThis, VERR_CR_X509_CPV_INVALID_POLICY_MAPPING,
"Invalid policy mapping %#u: SubjectDomainPolicy is anyPolicy.", i);
}
PRTCRX509CERTPATHSPOLICYNODE pCur, pNext;
if (pThis->v.cInhibitPolicyMapping > 0)
{
/*
* 6.1.4.b.1 - Do the policy mapping.
*/
i = pPolicyMappings->cItems;
while (i-- > 0)
{
PCRTCRX509POLICYMAPPING const pOne = pPolicyMappings->papItems[i];
uint32_t cFound = 0;
RTListForEach(&pThis->v.paValidPolicyDepthLists[iDepth], pCur, RTCRX509CERTPATHSPOLICYNODE, DepthEntry)
{
if (RTAsn1ObjId_Compare(pCur->pValidPolicy, &pOne->IssuerDomainPolicy))
{
if (!pCur->fAlreadyMapped)
{
pCur->fAlreadyMapped = true;
pCur->pExpectedPolicyFirst = &pOne->SubjectDomainPolicy;
}
else
{
uint32_t iExpected = pCur->cMoreExpectedPolicySet;
void *pvNew = RTMemRealloc(pCur->papMoreExpectedPolicySet,
sizeof(pCur->papMoreExpectedPolicySet[0]) * (iExpected + 1));
if (!pvNew)
return rtCrX509CpvFailed(pThis, VERR_NO_MEMORY,
"Error growing papMoreExpectedPolicySet array (cur %u, depth %u)",
pCur->cMoreExpectedPolicySet, iDepth);
pCur->papMoreExpectedPolicySet = (PCRTASN1OBJID *)pvNew;
pCur->papMoreExpectedPolicySet[iExpected] = &pOne->SubjectDomainPolicy;
pCur->cMoreExpectedPolicySet = iExpected + 1;
}
cFound++;
}
}
/*
* If no mapping took place, look for an anyPolicy node.
*/
if (!cFound)
{
RTListForEach(&pThis->v.paValidPolicyDepthLists[iDepth], pCur, RTCRX509CERTPATHSPOLICYNODE, DepthEntry)
{
if (RTAsn1ObjId_CompareWithString(pCur->pValidPolicy, RTCRX509_ID_CE_CP_ANY_POLICY_OID) == 0)
{
if (!rtCrX509CpvPolicyTreeInsertNew(pThis, pCur->pParent, iDepth,
&pOne->IssuerDomainPolicy,
pCur->pPolicyQualifiers,
&pOne->SubjectDomainPolicy))
return false;
break;
}
}
}
}
}
else
{
/*
* 6.1.4.b.2 - Remove matching policies from the tree if mapping is
* inhibited and prune the tree.
*/
uint32_t cRemoved = 0;
i = pPolicyMappings->cItems;
while (i-- > 0)
{
PCRTCRX509POLICYMAPPING const pOne = pPolicyMappings->papItems[i];
RTListForEachSafe(&pThis->v.paValidPolicyDepthLists[iDepth], pCur, pNext, RTCRX509CERTPATHSPOLICYNODE, DepthEntry)
{
if (RTAsn1ObjId_Compare(pCur->pValidPolicy, &pOne->IssuerDomainPolicy))
{
rtCrX509CpvPolicyTreeDestroyNode(pThis, pCur);
cRemoved++;
}
}
}
if (cRemoved)
rtCrX509CpvPolicyTreePrune(pThis, iDepth - 1);
}
return true;
}
/**
* Step 6.1.4.d-f & 6.1.5.c-e.
*/
static void rtCrX509CpvSetWorkingPublicKeyInfo(PRTCRX509CERTPATHSINT pThis, PRTCRX509CERTPATHNODE pNode)
{
PCRTCRX509TBSCERTIFICATE const pTbsCert = &pNode->pCert->TbsCertificate;
/*
* 6.1.4.d - The public key.
*/
pThis->v.pWorkingPublicKey = &pTbsCert->SubjectPublicKeyInfo.SubjectPublicKey;
/*
* 6.1.4.e - The public key parameters. Use new ones if present, keep old
* if the algorithm remains the same.
*/
if ( RTASN1CORE_IS_PRESENT(&pTbsCert->SubjectPublicKeyInfo.Algorithm.Parameters.u.Core)
&& pTbsCert->SubjectPublicKeyInfo.Algorithm.Parameters.enmType != RTASN1TYPE_NULL)
pThis->v.pWorkingPublicKeyParameters = &pTbsCert->SubjectPublicKeyInfo.Algorithm.Parameters;
else if ( pThis->v.pWorkingPublicKeyParameters
&& RTAsn1ObjId_Compare(pThis->v.pWorkingPublicKeyAlgorithm, &pTbsCert->SubjectPublicKeyInfo.Algorithm.Algorithm) != 0)
pThis->v.pWorkingPublicKeyParameters = NULL;
/*
* 6.1.4.f - The public algorithm.
*/
pThis->v.pWorkingPublicKeyAlgorithm = &pTbsCert->SubjectPublicKeyInfo.Algorithm.Algorithm;
}
/**
* Step 6.1.4.g.
*/
static bool rtCrX509CpvSoakUpNameConstraints(PRTCRX509CERTPATHSINT pThis, PCRTCRX509NAMECONSTRAINTS pNameConstraints)
{
if (pNameConstraints->T0.PermittedSubtrees.cItems > 0)
if (!rtCrX509CpvIntersectionPermittedSubtrees(pThis, &pNameConstraints->T0.PermittedSubtrees))
return false;
if (pNameConstraints->T1.ExcludedSubtrees.cItems > 0)
if (!rtCrX509CpvAddExcludedSubtrees(pThis, &pNameConstraints->T1.ExcludedSubtrees))
return false;
return true;
}
/**
* Step 6.1.4.i.
*/
static bool rtCrX509CpvSoakUpPolicyConstraints(PRTCRX509CERTPATHSINT pThis, PCRTCRX509POLICYCONSTRAINTS pPolicyConstraints)
{
if (RTAsn1Integer_IsPresent(&pPolicyConstraints->RequireExplicitPolicy))
{
if (RTAsn1Integer_UnsignedCompareWithU32(&pPolicyConstraints->RequireExplicitPolicy, pThis->v.cExplicitPolicy) < 0)
pThis->v.cExplicitPolicy = pPolicyConstraints->RequireExplicitPolicy.uValue.s.Lo;
}
if (RTAsn1Integer_IsPresent(&pPolicyConstraints->InhibitPolicyMapping))
{
if (RTAsn1Integer_UnsignedCompareWithU32(&pPolicyConstraints->InhibitPolicyMapping, pThis->v.cInhibitPolicyMapping) < 0)
pThis->v.cInhibitPolicyMapping = pPolicyConstraints->InhibitPolicyMapping.uValue.s.Lo;
}
return true;
}
/**
* Step 6.1.4.j.
*/
static bool rtCrX509CpvSoakUpInhibitAnyPolicy(PRTCRX509CERTPATHSINT pThis, PCRTASN1INTEGER pInhibitAnyPolicy)
{
if (RTAsn1Integer_UnsignedCompareWithU32(pInhibitAnyPolicy, pThis->v.cInhibitAnyPolicy) < 0)
pThis->v.cInhibitAnyPolicy = pInhibitAnyPolicy->uValue.s.Lo;
return true;
}
/**
* Steps 6.1.4.k, 6.1.4.l, 6.1.4.m, and 6.1.4.n.
*/
static bool rtCrX509CpvCheckAndSoakUpBasicConstraintsAndKeyUsage(PRTCRX509CERTPATHSINT pThis, PRTCRX509CERTPATHNODE pNode,
bool fSelfIssued)
{
/* 6.1.4.k - If basic constraints present, CA must be set. */
if (RTAsn1Integer_UnsignedCompareWithU32(&pNode->pCert->TbsCertificate.T0.Version, RTCRX509TBSCERTIFICATE_V3) != 0)
{
/* Note! Add flags if support for older certificates is needed later. */
return rtCrX509CpvFailed(pThis, VERR_CR_X509_CPV_NOT_V3_CERT,
"Only version 3 certificates are supported (Version=%llu)",
pNode->pCert->TbsCertificate.T0.Version.uValue);
}
PCRTCRX509BASICCONSTRAINTS pBasicConstraints = pNode->pCert->TbsCertificate.T3.pBasicConstraints;
if (pBasicConstraints)
{
if (!pBasicConstraints->CA.fValue)
return rtCrX509CpvFailed(pThis, VERR_CR_X509_CPV_NOT_CA_CERT,
"Intermediate certificate (#%u) is not marked as a CA", pThis->v.iNode);
}
/* 6.1.4.l - Work cMaxPathLength. */
if (!fSelfIssued)
{
if (pThis->v.cMaxPathLength > 0)
pThis->v.cMaxPathLength--;
else
return rtCrX509CpvFailed(pThis, VERR_CR_X509_CPV_MAX_PATH_LENGTH,
"Hit max path length at node #%u", pThis->v.iNode);
}
/* 6.1.4.m - Update cMaxPathLength if basic constrain field is present and smaller. */
if (pBasicConstraints)
{
if (RTAsn1Integer_IsPresent(&pBasicConstraints->PathLenConstraint))
if (RTAsn1Integer_UnsignedCompareWithU32(&pBasicConstraints->PathLenConstraint, pThis->v.cMaxPathLength) < 0)
pThis->v.cMaxPathLength = pBasicConstraints->PathLenConstraint.uValue.s.Lo;
}
/* 6.1.4.n - Require keyCertSign in key usage if the extension is present. */
PCRTCRX509TBSCERTIFICATE const pTbsCert = &pNode->pCert->TbsCertificate;
if ( (pTbsCert->T3.fFlags & RTCRX509TBSCERTIFICATE_F_PRESENT_KEY_USAGE)
&& !(pTbsCert->T3.fKeyUsage & RTCRX509CERT_KEY_USAGE_F_KEY_CERT_SIGN))
return rtCrX509CpvFailed(pThis, VERR_CR_X509_CPV_MISSING_KEY_CERT_SIGN,
"Node #%u does not have KeyCertSign set (keyUsage=%#x)",
pThis->v.iNode, pTbsCert->T3.fKeyUsage);
return true;
}
/**
* Step 6.1.4.o - check out critical extensions.
*/
static bool rtCrX509CpvCheckCriticalExtensions(PRTCRX509CERTPATHSINT pThis, PRTCRX509CERTPATHNODE pNode)
{
uint32_t cLeft = pNode->pCert->TbsCertificate.T3.Extensions.cItems;
PRTCRX509EXTENSION const *ppCur = pNode->pCert->TbsCertificate.T3.Extensions.papItems;
while (cLeft-- > 0)
{
PCRTCRX509EXTENSION const pCur = *ppCur;
if (pCur->Critical.fValue)
{
if ( RTAsn1ObjId_CompareWithString(&pCur->ExtnId, RTCRX509_ID_CE_KEY_USAGE_OID) != 0
&& RTAsn1ObjId_CompareWithString(&pCur->ExtnId, RTCRX509_ID_CE_SUBJECT_ALT_NAME_OID) != 0
&& RTAsn1ObjId_CompareWithString(&pCur->ExtnId, RTCRX509_ID_CE_ISSUER_ALT_NAME_OID) != 0
&& RTAsn1ObjId_CompareWithString(&pCur->ExtnId, RTCRX509_ID_CE_BASIC_CONSTRAINTS_OID) != 0
&& RTAsn1ObjId_CompareWithString(&pCur->ExtnId, RTCRX509_ID_CE_NAME_CONSTRAINTS_OID) != 0
&& RTAsn1ObjId_CompareWithString(&pCur->ExtnId, RTCRX509_ID_CE_CERTIFICATE_POLICIES_OID) != 0
&& RTAsn1ObjId_CompareWithString(&pCur->ExtnId, RTCRX509_ID_CE_POLICY_MAPPINGS_OID) != 0
&& RTAsn1ObjId_CompareWithString(&pCur->ExtnId, RTCRX509_ID_CE_POLICY_CONSTRAINTS_OID) != 0
&& RTAsn1ObjId_CompareWithString(&pCur->ExtnId, RTCRX509_ID_CE_EXT_KEY_USAGE_OID) != 0
&& RTAsn1ObjId_CompareWithString(&pCur->ExtnId, RTCRX509_ID_CE_INHIBIT_ANY_POLICY_OID) != 0
&& RTAsn1ObjId_CompareWithString(&pCur->ExtnId, RTCR_APPLE_CS_DEVID_APPLICATION_OID) != 0
&& RTAsn1ObjId_CompareWithString(&pCur->ExtnId, RTCR_APPLE_CS_DEVID_INSTALLER_OID) != 0
&& RTAsn1ObjId_CompareWithString(&pCur->ExtnId, RTCR_APPLE_CS_DEVID_KEXT_OID) != 0
)
return rtCrX509CpvFailed(pThis, VERR_CR_X509_CPV_UNKNOWN_CRITICAL_EXTENSION,
"Node #%u has an unknown critical extension: %s", pThis->v.iNode, pCur->ExtnId.szObjId);
}
ppCur++;
}
return true;
}
/**
* Step 6.1.5 - The wrapping up.
*/
static bool rtCrX509CpvWrapUp(PRTCRX509CERTPATHSINT pThis, PRTCRX509CERTPATHNODE pNode)
{
Assert(!pNode->pParent); Assert(pThis->pTarget == pNode->pCert);
/*
* 6.1.5.a - Decrement explicit policy.
*/
if (pThis->v.cExplicitPolicy > 0)
pThis->v.cExplicitPolicy--;
/*
* 6.1.5.b - Policy constraints and explicit policy.
*/
PCRTCRX509POLICYCONSTRAINTS pPolicyConstraints = pNode->pCert->TbsCertificate.T3.pPolicyConstraints;
if ( pPolicyConstraints
&& RTAsn1Integer_IsPresent(&pPolicyConstraints->RequireExplicitPolicy)
&& RTAsn1Integer_UnsignedCompareWithU32(&pPolicyConstraints->RequireExplicitPolicy, 0) == 0)
pThis->v.cExplicitPolicy = 0;
/*
* 6.1.5.c-e - Update working public key info.
*/
rtCrX509CpvSetWorkingPublicKeyInfo(pThis, pNode);
/*
* 6.1.5.f - Critical extensions.
*/
if (!rtCrX509CpvCheckCriticalExtensions(pThis, pNode))
return false;
/*
* 6.1.5.g - Calculate the intersection between the user initial policy set
* and the valid policy tree.
*/
rtCrX509CpvPolicyTreeIntersect(pThis, pThis->cInitialUserPolicySet, pThis->papInitialUserPolicySet);
if ( pThis->v.cExplicitPolicy == 0
&& pThis->v.pValidPolicyTree == NULL)
return rtCrX509CpvFailed(pThis, VERR_CR_X509_CPV_NO_VALID_POLICY, "No valid policy (wrap-up).");
return true;
}
/**
* Worker that validates one path.
*
* This implements the algorithm in RFC-5280, section 6.1, with exception of
* the CRL checks in 6.1.3.a.3.
*
* @returns success indicator.
* @param pThis The path builder & validator instance.
* @param pTrustAnchor The trust anchor node.
*/
static bool rtCrX509CpvOneWorker(PRTCRX509CERTPATHSINT pThis, PRTCRX509CERTPATHNODE pTrustAnchor)
{
/*
* Special case, target certificate is trusted.
*/
if (!pTrustAnchor->pParent)
return rtCrX509CpvFailed(pThis, VERR_CR_X509_CERTPATHS_INTERNAL_ERROR, "Target certificate is trusted.");
/*
* Normal processing.
*/
rtCrX509CpvInit(pThis, pTrustAnchor);
if (RT_SUCCESS(pThis->rc))
{
PRTCRX509CERTPATHNODE pNode = pTrustAnchor->pParent;
uint32_t iNode = pThis->v.iNode = 1; /* We count to cNode (inclusive). Same a validation tree depth. */
while (pNode && RT_SUCCESS(pThis->rc))
{
/*
* Basic certificate processing.
*/
if (!rtCrX509CpvCheckBasicCertInfo(pThis, pNode)) /* Step 6.1.3.a */
break;
bool const fSelfIssued = rtCrX509CertPathsIsSelfIssued(pNode);
if (!fSelfIssued || !pNode->pParent) /* Step 6.1.3.b-c */
if (!rtCrX509CpvCheckNameConstraints(pThis, pNode))
break;
if (!rtCrX509CpvWorkValidPolicyTree(pThis, iNode, pNode, fSelfIssued)) /* Step 6.1.3.d-f */
break;
/*
* If it's the last certificate in the path, do wrap-ups.
*/
if (!pNode->pParent) /* Step 6.1.5 */
{
Assert(iNode == pThis->v.cNodes);
if (!rtCrX509CpvWrapUp(pThis, pNode))
break;
AssertRCBreak(pThis->rc);
return true;
}
/*
* Preparations for the next certificate.
*/
PCRTCRX509TBSCERTIFICATE const pTbsCert = &pNode->pCert->TbsCertificate;
if ( pTbsCert->T3.pPolicyMappings
&& !rtCrX509CpvSoakUpPolicyMappings(pThis, iNode, pTbsCert->T3.pPolicyMappings)) /* Step 6.1.4.a-b */
break;
pThis->v.pWorkingIssuer = &pTbsCert->Subject; /* Step 6.1.4.c */
rtCrX509CpvSetWorkingPublicKeyInfo(pThis, pNode); /* Step 6.1.4.d-f */
if ( pTbsCert->T3.pNameConstraints /* Step 6.1.4.g */
&& !rtCrX509CpvSoakUpNameConstraints(pThis, pTbsCert->T3.pNameConstraints))
break;
if (!fSelfIssued) /* Step 6.1.4.h */
{
if (pThis->v.cExplicitPolicy > 0)
pThis->v.cExplicitPolicy--;
if (pThis->v.cInhibitPolicyMapping > 0)
pThis->v.cInhibitPolicyMapping--;
if (pThis->v.cInhibitAnyPolicy > 0)
pThis->v.cInhibitAnyPolicy--;
}
if ( pTbsCert->T3.pPolicyConstraints /* Step 6.1.4.j */
&& !rtCrX509CpvSoakUpPolicyConstraints(pThis, pTbsCert->T3.pPolicyConstraints))
break;
if ( pTbsCert->T3.pInhibitAnyPolicy /* Step 6.1.4.j */
&& !rtCrX509CpvSoakUpInhibitAnyPolicy(pThis, pTbsCert->T3.pInhibitAnyPolicy))
break;
if (!rtCrX509CpvCheckAndSoakUpBasicConstraintsAndKeyUsage(pThis, pNode, fSelfIssued)) /* Step 6.1.4.k-n */
break;
if (!rtCrX509CpvCheckCriticalExtensions(pThis, pNode)) /* Step 6.1.4.o */
break;
/*
* Advance to the next certificate.
*/
pNode = pNode->pParent;
pThis->v.iNode = ++iNode;
}
AssertStmt(RT_FAILURE_NP(pThis->rc), pThis->rc = VERR_CR_X509_CERTPATHS_INTERNAL_ERROR);
}
return false;
}
RTDECL(int) RTCrX509CertPathsValidateOne(RTCRX509CERTPATHS hCertPaths, uint32_t iPath, PRTERRINFO pErrInfo)
{
/*
* Validate the input.
*/
PRTCRX509CERTPATHSINT pThis = hCertPaths;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
AssertReturn(pThis->u32Magic == RTCRX509CERTPATHSINT_MAGIC, VERR_INVALID_HANDLE);
AssertReturn(!(pThis->fFlags & ~RTCRX509CERTPATHSINT_F_VALID_MASK), VERR_INVALID_PARAMETER);
AssertPtrReturn(pThis->pTarget, VERR_INVALID_PARAMETER);
AssertPtrReturn(pThis->pRoot, VERR_INVALID_PARAMETER);
AssertReturn(pThis->rc == VINF_SUCCESS, VERR_INVALID_PARAMETER);
/*
* Locate the path and validate it.
*/
int rc;
if (iPath < pThis->cPaths)
{
PRTCRX509CERTPATHNODE pLeaf = rtCrX509CertPathsGetLeafByIndex(pThis, iPath);
if (pLeaf)
{
if (RTCRX509CERTPATHNODE_SRC_IS_TRUSTED(pLeaf->uSrc))
{
pThis->pErrInfo = pErrInfo;
rtCrX509CpvOneWorker(pThis, pLeaf);
pThis->pErrInfo = NULL;
rc = pThis->rc;
pThis->rc = VINF_SUCCESS;
}
else
rc = RTErrInfoSetF(pErrInfo, VERR_CR_X509_NO_TRUST_ANCHOR, "Path #%u is does not have a trust anchor: uSrc=%s",
iPath, rtCrX509CertPathsNodeGetSourceName(pLeaf));
pLeaf->rcVerify = rc;
}
else
rc = VERR_CR_X509_CERTPATHS_INTERNAL_ERROR;
}
else
rc = VERR_NOT_FOUND;
return rc;
}
RTDECL(int) RTCrX509CertPathsValidateAll(RTCRX509CERTPATHS hCertPaths, uint32_t *pcValidPaths, PRTERRINFO pErrInfo)
{
/*
* Validate the input.
*/
PRTCRX509CERTPATHSINT pThis = hCertPaths;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
AssertReturn(pThis->u32Magic == RTCRX509CERTPATHSINT_MAGIC, VERR_INVALID_HANDLE);
AssertReturn(!(pThis->fFlags & ~RTCRX509CERTPATHSINT_F_VALID_MASK), VERR_INVALID_PARAMETER);
AssertPtrReturn(pThis->pTarget, VERR_INVALID_PARAMETER);
AssertPtrReturn(pThis->pRoot, VERR_INVALID_PARAMETER);
AssertReturn(pThis->rc == VINF_SUCCESS, VERR_INVALID_PARAMETER);
AssertPtrNullReturn(pcValidPaths, VERR_INVALID_POINTER);
/*
* Validate the paths.
*/
pThis->pErrInfo = pErrInfo;
int rcLastFailure = VINF_SUCCESS;
uint32_t cValidPaths = 0;
PRTCRX509CERTPATHNODE pCurLeaf;
RTListForEach(&pThis->LeafList, pCurLeaf, RTCRX509CERTPATHNODE, ChildListOrLeafEntry)
{
if (RTCRX509CERTPATHNODE_SRC_IS_TRUSTED(pCurLeaf->uSrc))
{
rtCrX509CpvOneWorker(hCertPaths, pCurLeaf);
if (RT_SUCCESS(pThis->rc))
cValidPaths++;
else
rcLastFailure = pThis->rc;
pCurLeaf->rcVerify = pThis->rc;
pThis->rc = VINF_SUCCESS;
}
else
pCurLeaf->rcVerify = VERR_CR_X509_NO_TRUST_ANCHOR;
}
pThis->pErrInfo = NULL;
if (pcValidPaths)
*pcValidPaths = cValidPaths;
if (cValidPaths > 0)
return VINF_SUCCESS;
if (RT_SUCCESS_NP(rcLastFailure))
return RTErrInfoSetF(pErrInfo, VERR_CR_X509_CPV_NO_TRUSTED_PATHS,
"None of the %u path(s) have a trust anchor.", pThis->cPaths);
return rcLastFailure;
}
RTDECL(uint32_t) RTCrX509CertPathsGetPathCount(RTCRX509CERTPATHS hCertPaths)
{
/*
* Validate the input.
*/
PRTCRX509CERTPATHSINT pThis = hCertPaths;
AssertPtrReturn(pThis, UINT32_MAX);
AssertReturn(pThis->u32Magic == RTCRX509CERTPATHSINT_MAGIC, UINT32_MAX);
AssertPtrReturn(pThis->pRoot, UINT32_MAX);
/*
* Return data.
*/
return pThis->cPaths;
}
RTDECL(int) RTCrX509CertPathsQueryPathInfo(RTCRX509CERTPATHS hCertPaths, uint32_t iPath,
bool *pfTrusted, uint32_t *pcNodes, PCRTCRX509NAME *ppSubject,
PCRTCRX509SUBJECTPUBLICKEYINFO *ppPublicKeyInfo,
PCRTCRX509CERTIFICATE *ppCert, PCRTCRCERTCTX *ppCertCtx,
int *prcVerify)
{
/*
* Validate the input.
*/
PRTCRX509CERTPATHSINT pThis = hCertPaths;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
AssertReturn(pThis->u32Magic == RTCRX509CERTPATHSINT_MAGIC, VERR_INVALID_HANDLE);
AssertPtrReturn(pThis->pRoot, VERR_WRONG_ORDER);
AssertReturn(iPath < pThis->cPaths, VERR_NOT_FOUND);
/*
* Get the data.
*/
PRTCRX509CERTPATHNODE pLeaf = rtCrX509CertPathsGetLeafByIndex(pThis, iPath);
AssertReturn(pLeaf, VERR_CR_X509_INTERNAL_ERROR);
if (pfTrusted)
*pfTrusted = RTCRX509CERTPATHNODE_SRC_IS_TRUSTED(pLeaf->uSrc);
if (pcNodes)
*pcNodes = pLeaf->uDepth + 1; /* Includes both trust anchor and target. */
if (ppSubject)
*ppSubject = pLeaf->pCert ? &pLeaf->pCert->TbsCertificate.Subject : &pLeaf->pCertCtx->pTaInfo->CertPath.TaName;
if (ppPublicKeyInfo)
*ppPublicKeyInfo = pLeaf->pCert ? &pLeaf->pCert->TbsCertificate.SubjectPublicKeyInfo : &pLeaf->pCertCtx->pTaInfo->PubKey;
if (ppCert)
*ppCert = pLeaf->pCert;
if (ppCertCtx)
{
if (pLeaf->pCertCtx)
{
uint32_t cRefs = RTCrCertCtxRetain(pLeaf->pCertCtx);
AssertReturn(cRefs != UINT32_MAX, VERR_CR_X509_INTERNAL_ERROR);
}
*ppCertCtx = pLeaf->pCertCtx;
}
if (prcVerify)
*prcVerify = pLeaf->rcVerify;
return VINF_SUCCESS;
}
RTDECL(uint32_t) RTCrX509CertPathsGetPathLength(RTCRX509CERTPATHS hCertPaths, uint32_t iPath)
{
/*
* Validate the input.
*/
PRTCRX509CERTPATHSINT pThis = hCertPaths;
AssertPtrReturn(pThis, UINT32_MAX);
AssertReturn(pThis->u32Magic == RTCRX509CERTPATHSINT_MAGIC, UINT32_MAX);
AssertPtrReturn(pThis->pRoot, UINT32_MAX);
AssertReturn(iPath < pThis->cPaths, UINT32_MAX);
/*
* Get the data.
*/
PRTCRX509CERTPATHNODE pLeaf = rtCrX509CertPathsGetLeafByIndex(pThis, iPath);
AssertReturn(pLeaf, UINT32_MAX);
return pLeaf->uDepth + 1;
}
RTDECL(int) RTCrX509CertPathsGetPathVerifyResult(RTCRX509CERTPATHS hCertPaths, uint32_t iPath)
{
/*
* Validate the input.
*/
PRTCRX509CERTPATHSINT pThis = hCertPaths;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
AssertReturn(pThis->u32Magic == RTCRX509CERTPATHSINT_MAGIC, VERR_INVALID_HANDLE);
AssertPtrReturn(pThis->pRoot, VERR_WRONG_ORDER);
AssertReturn(iPath < pThis->cPaths, VERR_NOT_FOUND);
/*
* Get the data.
*/
PRTCRX509CERTPATHNODE pLeaf = rtCrX509CertPathsGetLeafByIndex(pThis, iPath);
AssertReturn(pLeaf, VERR_CR_X509_INTERNAL_ERROR);
return pLeaf->rcVerify;
}
static PRTCRX509CERTPATHNODE rtCrX509CertPathsGetPathNodeByIndexes(PRTCRX509CERTPATHSINT pThis, uint32_t iPath, uint32_t iNode)
{
PRTCRX509CERTPATHNODE pNode = rtCrX509CertPathsGetLeafByIndex(pThis, iPath);
Assert(pNode);
if (pNode)
{
if (iNode <= pNode->uDepth)
{
uint32_t uCertDepth = pNode->uDepth - iNode;
while (pNode->uDepth > uCertDepth)
pNode = pNode->pParent;
Assert(pNode);
Assert(pNode && pNode->uDepth == uCertDepth);
return pNode;
}
}
return NULL;
}
RTDECL(PCRTCRX509CERTIFICATE) RTCrX509CertPathsGetPathNodeCert(RTCRX509CERTPATHS hCertPaths, uint32_t iPath, uint32_t iNode)
{
/*
* Validate the input.
*/
PRTCRX509CERTPATHSINT pThis = hCertPaths;
AssertPtrReturn(pThis, NULL);
AssertReturn(pThis->u32Magic == RTCRX509CERTPATHSINT_MAGIC, NULL);
AssertPtrReturn(pThis->pRoot, NULL);
AssertReturn(iPath < pThis->cPaths, NULL);
/*
* Get the data.
*/
PRTCRX509CERTPATHNODE pNode = rtCrX509CertPathsGetPathNodeByIndexes(pThis, iPath, iNode);
if (pNode)
return pNode->pCert;
return NULL;
}
/** @} */
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