Mercurial > trustbridge > nss-cmake-static
view nss/lib/certdb/certt.h @ 1:247cffdc9b89
Add a pesodo config file for inlcude directories and library names
| author | Andre Heinecke <andre.heinecke@intevation.de> |
|---|---|
| date | Mon, 28 Jul 2014 13:00:06 +0200 |
| parents | 1e5118fa0cb1 |
| children |
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/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ /* * certt.h - public data structures for the certificate library */ #ifndef _CERTT_H_ #define _CERTT_H_ #include "prclist.h" #include "pkcs11t.h" #include "seccomon.h" #include "secmodt.h" #include "secoidt.h" #include "plarena.h" #include "prcvar.h" #include "nssilock.h" #include "prio.h" #include "prmon.h" /* Stan data types */ struct NSSCertificateStr; struct NSSTrustDomainStr; /* Non-opaque objects */ typedef struct CERTAVAStr CERTAVA; typedef struct CERTAttributeStr CERTAttribute; typedef struct CERTAuthInfoAccessStr CERTAuthInfoAccess; typedef struct CERTAuthKeyIDStr CERTAuthKeyID; typedef struct CERTBasicConstraintsStr CERTBasicConstraints; typedef struct NSSTrustDomainStr CERTCertDBHandle; typedef struct CERTCertExtensionStr CERTCertExtension; typedef struct CERTCertKeyStr CERTCertKey; typedef struct CERTCertListStr CERTCertList; typedef struct CERTCertListNodeStr CERTCertListNode; typedef struct CERTCertNicknamesStr CERTCertNicknames; typedef struct CERTCertTrustStr CERTCertTrust; typedef struct CERTCertificateStr CERTCertificate; typedef struct CERTCertificateListStr CERTCertificateList; typedef struct CERTCertificateRequestStr CERTCertificateRequest; typedef struct CERTCrlStr CERTCrl; typedef struct CERTCrlDistributionPointsStr CERTCrlDistributionPoints; typedef struct CERTCrlEntryStr CERTCrlEntry; typedef struct CERTCrlHeadNodeStr CERTCrlHeadNode; typedef struct CERTCrlKeyStr CERTCrlKey; typedef struct CERTCrlNodeStr CERTCrlNode; typedef struct CERTDERCertsStr CERTDERCerts; typedef struct CERTDistNamesStr CERTDistNames; typedef struct CERTGeneralNameStr CERTGeneralName; typedef struct CERTGeneralNameListStr CERTGeneralNameList; typedef struct CERTIssuerAndSNStr CERTIssuerAndSN; typedef struct CERTNameStr CERTName; typedef struct CERTNameConstraintStr CERTNameConstraint; typedef struct CERTNameConstraintsStr CERTNameConstraints; typedef struct CERTOKDomainNameStr CERTOKDomainName; typedef struct CERTPrivKeyUsagePeriodStr CERTPrivKeyUsagePeriod; typedef struct CERTPublicKeyAndChallengeStr CERTPublicKeyAndChallenge; typedef struct CERTRDNStr CERTRDN; typedef struct CERTSignedCrlStr CERTSignedCrl; typedef struct CERTSignedDataStr CERTSignedData; typedef struct CERTStatusConfigStr CERTStatusConfig; typedef struct CERTSubjectListStr CERTSubjectList; typedef struct CERTSubjectNodeStr CERTSubjectNode; typedef struct CERTSubjectPublicKeyInfoStr CERTSubjectPublicKeyInfo; typedef struct CERTValidityStr CERTValidity; typedef struct CERTVerifyLogStr CERTVerifyLog; typedef struct CERTVerifyLogNodeStr CERTVerifyLogNode; typedef struct CRLDistributionPointStr CRLDistributionPoint; /* CRL extensions type */ typedef unsigned long CERTCrlNumber; /* ** An X.500 AVA object */ struct CERTAVAStr { SECItem type; SECItem value; }; /* ** An X.500 RDN object */ struct CERTRDNStr { CERTAVA **avas; }; /* ** An X.500 name object */ struct CERTNameStr { PLArenaPool *arena; CERTRDN **rdns; }; /* ** An X.509 validity object */ struct CERTValidityStr { PLArenaPool *arena; SECItem notBefore; SECItem notAfter; }; /* * A serial number and issuer name, which is used as a database key */ struct CERTCertKeyStr { SECItem serialNumber; SECItem derIssuer; }; /* ** A signed data object. Used to implement the "signed" macro used ** in the X.500 specs. */ struct CERTSignedDataStr { SECItem data; SECAlgorithmID signatureAlgorithm; SECItem signature; }; /* ** An X.509 subject-public-key-info object */ struct CERTSubjectPublicKeyInfoStr { PLArenaPool *arena; SECAlgorithmID algorithm; SECItem subjectPublicKey; }; struct CERTPublicKeyAndChallengeStr { SECItem spki; SECItem challenge; }; struct CERTCertTrustStr { unsigned int sslFlags; unsigned int emailFlags; unsigned int objectSigningFlags; }; /* * defined the types of trust that exist */ typedef enum SECTrustTypeEnum { trustSSL = 0, trustEmail = 1, trustObjectSigning = 2, trustTypeNone = 3 } SECTrustType; #define SEC_GET_TRUST_FLAGS(trust,type) \ (((type)==trustSSL)?((trust)->sslFlags): \ (((type)==trustEmail)?((trust)->emailFlags): \ (((type)==trustObjectSigning)?((trust)->objectSigningFlags):0))) /* ** An X.509.3 certificate extension */ struct CERTCertExtensionStr { SECItem id; SECItem critical; SECItem value; }; struct CERTSubjectNodeStr { struct CERTSubjectNodeStr *next; struct CERTSubjectNodeStr *prev; SECItem certKey; SECItem keyID; }; struct CERTSubjectListStr { PLArenaPool *arena; int ncerts; char *emailAddr; CERTSubjectNode *head; CERTSubjectNode *tail; /* do we need tail? */ void *entry; }; /* ** An X.509 certificate object (the unsigned form) */ struct CERTCertificateStr { /* the arena is used to allocate any data structures that have the same * lifetime as the cert. This is all stuff that hangs off of the cert * structure, and is all freed at the same time. I is used when the * cert is decoded, destroyed, and at some times when it changes * state */ PLArenaPool *arena; /* The following fields are static after the cert has been decoded */ char *subjectName; char *issuerName; CERTSignedData signatureWrap; /* XXX */ SECItem derCert; /* original DER for the cert */ SECItem derIssuer; /* DER for issuer name */ SECItem derSubject; /* DER for subject name */ SECItem derPublicKey; /* DER for the public key */ SECItem certKey; /* database key for this cert */ SECItem version; SECItem serialNumber; SECAlgorithmID signature; CERTName issuer; CERTValidity validity; CERTName subject; CERTSubjectPublicKeyInfo subjectPublicKeyInfo; SECItem issuerID; SECItem subjectID; CERTCertExtension **extensions; char *emailAddr; CERTCertDBHandle *dbhandle; SECItem subjectKeyID; /* x509v3 subject key identifier */ PRBool keyIDGenerated; /* was the keyid generated? */ unsigned int keyUsage; /* what uses are allowed for this cert */ unsigned int rawKeyUsage; /* value of the key usage extension */ PRBool keyUsagePresent; /* was the key usage extension present */ PRUint32 nsCertType; /* value of the ns cert type extension */ /* must be 32-bit for PR_ATOMIC_SET */ /* these values can be set by the application to bypass certain checks * or to keep the cert in memory for an entire session. * XXX - need an api to set these */ PRBool keepSession; /* keep this cert for entire session*/ PRBool timeOK; /* is the bad validity time ok? */ CERTOKDomainName *domainOK; /* these domain names are ok */ /* * these values can change when the cert changes state. These state * changes include transitions from temp to perm or vice-versa, and * changes of trust flags */ PRBool isperm; PRBool istemp; char *nickname; char *dbnickname; struct NSSCertificateStr *nssCertificate; /* This is Stan stuff. */ CERTCertTrust *trust; /* the reference count is modified whenever someone looks up, dups * or destroys a certificate */ int referenceCount; /* The subject list is a list of all certs with the same subject name. * It can be modified any time a cert is added or deleted from either * the in-memory(temporary) or on-disk(permanent) database. */ CERTSubjectList *subjectList; /* these belong in the static section, but are here to maintain * the structure's integrity */ CERTAuthKeyID * authKeyID; /* x509v3 authority key identifier */ PRBool isRoot; /* cert is the end of a chain */ /* these fields are used by client GUI code to keep track of ssl sockets * that are blocked waiting on GUI feedback related to this cert. * XXX - these should be moved into some sort of application specific * data structure. They are only used by the browser right now. */ union { void* apointer; /* was struct SECSocketNode* authsocketlist */ struct { unsigned int hasUnsupportedCriticalExt :1; /* add any new option bits needed here */ } bits; } options; int series; /* was int authsocketcount; record the series of the pkcs11ID */ /* This is PKCS #11 stuff. */ PK11SlotInfo *slot; /*if this cert came of a token, which is it*/ CK_OBJECT_HANDLE pkcs11ID; /*and which object on that token is it */ PRBool ownSlot; /*true if the cert owns the slot reference */ }; #define SEC_CERTIFICATE_VERSION_1 0 /* default created */ #define SEC_CERTIFICATE_VERSION_2 1 /* v2 */ #define SEC_CERTIFICATE_VERSION_3 2 /* v3 extensions */ #define SEC_CRL_VERSION_1 0 /* default */ #define SEC_CRL_VERSION_2 1 /* v2 extensions */ /* * used to identify class of cert in mime stream code */ #define SEC_CERT_CLASS_CA 1 #define SEC_CERT_CLASS_SERVER 2 #define SEC_CERT_CLASS_USER 3 #define SEC_CERT_CLASS_EMAIL 4 struct CERTDERCertsStr { PLArenaPool *arena; int numcerts; SECItem *rawCerts; }; /* ** A PKCS ? Attribute ** XXX this is duplicated through out the code, it *should* be moved ** to a central location. Where would be appropriate? */ struct CERTAttributeStr { SECItem attrType; SECItem **attrValue; }; /* ** A PKCS#10 certificate-request object (the unsigned form) */ struct CERTCertificateRequestStr { PLArenaPool *arena; SECItem version; CERTName subject; CERTSubjectPublicKeyInfo subjectPublicKeyInfo; CERTAttribute **attributes; }; #define SEC_CERTIFICATE_REQUEST_VERSION 0 /* what we *create* */ /* ** A certificate list object. */ struct CERTCertificateListStr { SECItem *certs; int len; /* number of certs */ PLArenaPool *arena; }; struct CERTCertListNodeStr { PRCList links; CERTCertificate *cert; void *appData; }; struct CERTCertListStr { PRCList list; PLArenaPool *arena; }; #define CERT_LIST_HEAD(l) ((CERTCertListNode *)PR_LIST_HEAD(&l->list)) #define CERT_LIST_TAIL(l) ((CERTCertListNode *)PR_LIST_TAIL(&l->list)) #define CERT_LIST_NEXT(n) ((CERTCertListNode *)n->links.next) #define CERT_LIST_END(n,l) (((void *)n) == ((void *)&l->list)) #define CERT_LIST_EMPTY(l) CERT_LIST_END(CERT_LIST_HEAD(l), l) struct CERTCrlEntryStr { SECItem serialNumber; SECItem revocationDate; CERTCertExtension **extensions; }; struct CERTCrlStr { PLArenaPool *arena; SECItem version; SECAlgorithmID signatureAlg; SECItem derName; CERTName name; SECItem lastUpdate; SECItem nextUpdate; /* optional for x.509 CRL */ CERTCrlEntry **entries; CERTCertExtension **extensions; /* can't add anything there for binary backwards compatibility reasons */ }; struct CERTCrlKeyStr { SECItem derName; SECItem dummy; /* The decoder can not skip a primitive, this serves as a place holder for the decoder to finish its task only */ }; struct CERTSignedCrlStr { PLArenaPool *arena; CERTCrl crl; void *reserved1; PRBool reserved2; PRBool isperm; PRBool istemp; int referenceCount; CERTCertDBHandle *dbhandle; CERTSignedData signatureWrap; /* XXX */ char *url; SECItem *derCrl; PK11SlotInfo *slot; CK_OBJECT_HANDLE pkcs11ID; void* opaque; /* do not touch */ }; struct CERTCrlHeadNodeStr { PLArenaPool *arena; CERTCertDBHandle *dbhandle; CERTCrlNode *first; CERTCrlNode *last; }; struct CERTCrlNodeStr { CERTCrlNode *next; int type; CERTSignedCrl *crl; }; /* * Array of X.500 Distinguished Names */ struct CERTDistNamesStr { PLArenaPool *arena; int nnames; SECItem *names; void *head; /* private */ }; #define NS_CERT_TYPE_SSL_CLIENT (0x80) /* bit 0 */ #define NS_CERT_TYPE_SSL_SERVER (0x40) /* bit 1 */ #define NS_CERT_TYPE_EMAIL (0x20) /* bit 2 */ #define NS_CERT_TYPE_OBJECT_SIGNING (0x10) /* bit 3 */ #define NS_CERT_TYPE_RESERVED (0x08) /* bit 4 */ #define NS_CERT_TYPE_SSL_CA (0x04) /* bit 5 */ #define NS_CERT_TYPE_EMAIL_CA (0x02) /* bit 6 */ #define NS_CERT_TYPE_OBJECT_SIGNING_CA (0x01) /* bit 7 */ #define EXT_KEY_USAGE_TIME_STAMP (0x8000) #define EXT_KEY_USAGE_STATUS_RESPONDER (0x4000) #define NS_CERT_TYPE_APP ( NS_CERT_TYPE_SSL_CLIENT | \ NS_CERT_TYPE_SSL_SERVER | \ NS_CERT_TYPE_EMAIL | \ NS_CERT_TYPE_OBJECT_SIGNING ) #define NS_CERT_TYPE_CA ( NS_CERT_TYPE_SSL_CA | \ NS_CERT_TYPE_EMAIL_CA | \ NS_CERT_TYPE_OBJECT_SIGNING_CA | \ EXT_KEY_USAGE_STATUS_RESPONDER ) typedef enum SECCertUsageEnum { certUsageSSLClient = 0, certUsageSSLServer = 1, certUsageSSLServerWithStepUp = 2, certUsageSSLCA = 3, certUsageEmailSigner = 4, certUsageEmailRecipient = 5, certUsageObjectSigner = 6, certUsageUserCertImport = 7, certUsageVerifyCA = 8, certUsageProtectedObjectSigner = 9, certUsageStatusResponder = 10, certUsageAnyCA = 11 } SECCertUsage; typedef PRInt64 SECCertificateUsage; #define certificateUsageCheckAllUsages (0x0000) #define certificateUsageSSLClient (0x0001) #define certificateUsageSSLServer (0x0002) #define certificateUsageSSLServerWithStepUp (0x0004) #define certificateUsageSSLCA (0x0008) #define certificateUsageEmailSigner (0x0010) #define certificateUsageEmailRecipient (0x0020) #define certificateUsageObjectSigner (0x0040) #define certificateUsageUserCertImport (0x0080) #define certificateUsageVerifyCA (0x0100) #define certificateUsageProtectedObjectSigner (0x0200) #define certificateUsageStatusResponder (0x0400) #define certificateUsageAnyCA (0x0800) #define certificateUsageHighest certificateUsageAnyCA /* * Does the cert belong to the user, a peer, or a CA. */ typedef enum CERTCertOwnerEnum { certOwnerUser = 0, certOwnerPeer = 1, certOwnerCA = 2 } CERTCertOwner; /* * This enum represents the state of validity times of a certificate */ typedef enum SECCertTimeValidityEnum { secCertTimeValid = 0, secCertTimeExpired = 1, secCertTimeNotValidYet = 2, secCertTimeUndetermined = 3 /* validity could not be decoded from the cert, most likely because it was NULL */ } SECCertTimeValidity; /* * This is used as return status in functions that compare the validity * periods of two certificates A and B, currently only * CERT_CompareValidityTimes. */ typedef enum CERTCompareValidityStatusEnum { certValidityUndetermined = 0, /* the function is unable to select one cert over another */ certValidityChooseB = 1, /* cert B should be preferred */ certValidityEqual = 2, /* both certs have the same validity period */ certValidityChooseA = 3 /* cert A should be preferred */ } CERTCompareValidityStatus; /* * Interface for getting certificate nickname strings out of the database */ /* these are values for the what argument below */ #define SEC_CERT_NICKNAMES_ALL 1 #define SEC_CERT_NICKNAMES_USER 2 #define SEC_CERT_NICKNAMES_SERVER 3 #define SEC_CERT_NICKNAMES_CA 4 struct CERTCertNicknamesStr { PLArenaPool *arena; void *head; int numnicknames; char **nicknames; int what; int totallen; }; struct CERTIssuerAndSNStr { SECItem derIssuer; CERTName issuer; SECItem serialNumber; }; /* X.509 v3 Key Usage Extension flags */ #define KU_DIGITAL_SIGNATURE (0x80) /* bit 0 */ #define KU_NON_REPUDIATION (0x40) /* bit 1 */ #define KU_KEY_ENCIPHERMENT (0x20) /* bit 2 */ #define KU_DATA_ENCIPHERMENT (0x10) /* bit 3 */ #define KU_KEY_AGREEMENT (0x08) /* bit 4 */ #define KU_KEY_CERT_SIGN (0x04) /* bit 5 */ #define KU_CRL_SIGN (0x02) /* bit 6 */ #define KU_ENCIPHER_ONLY (0x01) /* bit 7 */ #define KU_ALL (KU_DIGITAL_SIGNATURE | \ KU_NON_REPUDIATION | \ KU_KEY_ENCIPHERMENT | \ KU_DATA_ENCIPHERMENT | \ KU_KEY_AGREEMENT | \ KU_KEY_CERT_SIGN | \ KU_CRL_SIGN | \ KU_ENCIPHER_ONLY) /* This value will not occur in certs. It is used internally for the case * when either digital signature or non-repudiation is the correct value. */ #define KU_DIGITAL_SIGNATURE_OR_NON_REPUDIATION (0x2000) /* This value will not occur in certs. It is used internally for the case * when the key type is not know ahead of time and either key agreement or * key encipherment are the correct value based on key type */ #define KU_KEY_AGREEMENT_OR_ENCIPHERMENT (0x4000) /* internal bits that do not match bits in the x509v3 spec, but are used * for similar purposes */ #define KU_NS_GOVT_APPROVED (0x8000) /*don't make part of KU_ALL!*/ /* * x.509 v3 Basic Constraints Extension * If isCA is false, the pathLenConstraint is ignored. * Otherwise, the following pathLenConstraint values will apply: * < 0 - there is no limit to the certificate path * 0 - CA can issues end-entity certificates only * > 0 - the number of certificates in the certificate path is * limited to this number */ #define CERT_UNLIMITED_PATH_CONSTRAINT -2 struct CERTBasicConstraintsStr { PRBool isCA; /* on if is CA */ int pathLenConstraint; /* maximum number of certificates that can be in the cert path. Only applies to a CA certificate; otherwise, it's ignored. */ }; /* Maximum length of a certificate chain */ #define CERT_MAX_CERT_CHAIN 20 #define CERT_MAX_SERIAL_NUMBER_BYTES 20 /* from RFC 3280 */ #define CERT_MAX_DN_BYTES 4096 /* arbitrary */ /* x.509 v3 Reason Flags, used in CRLDistributionPoint Extension */ #define RF_UNUSED (0x80) /* bit 0 */ #define RF_KEY_COMPROMISE (0x40) /* bit 1 */ #define RF_CA_COMPROMISE (0x20) /* bit 2 */ #define RF_AFFILIATION_CHANGED (0x10) /* bit 3 */ #define RF_SUPERSEDED (0x08) /* bit 4 */ #define RF_CESSATION_OF_OPERATION (0x04) /* bit 5 */ #define RF_CERTIFICATE_HOLD (0x02) /* bit 6 */ /* enum for CRL Entry Reason Code */ typedef enum CERTCRLEntryReasonCodeEnum { crlEntryReasonUnspecified = 0, crlEntryReasonKeyCompromise = 1, crlEntryReasonCaCompromise = 2, crlEntryReasonAffiliationChanged = 3, crlEntryReasonSuperseded = 4, crlEntryReasonCessationOfOperation = 5, crlEntryReasoncertificatedHold = 6, crlEntryReasonRemoveFromCRL = 8, crlEntryReasonPrivilegeWithdrawn = 9, crlEntryReasonAaCompromise = 10 } CERTCRLEntryReasonCode; /* If we needed to extract the general name field, use this */ /* General Name types */ typedef enum CERTGeneralNameTypeEnum { certOtherName = 1, certRFC822Name = 2, certDNSName = 3, certX400Address = 4, certDirectoryName = 5, certEDIPartyName = 6, certURI = 7, certIPAddress = 8, certRegisterID = 9 } CERTGeneralNameType; typedef struct OtherNameStr { SECItem name; SECItem oid; }OtherName; struct CERTGeneralNameStr { CERTGeneralNameType type; /* name type */ union { CERTName directoryName; /* distinguish name */ OtherName OthName; /* Other Name */ SECItem other; /* the rest of the name forms */ }name; SECItem derDirectoryName; /* this is saved to simplify directory name comparison */ PRCList l; }; struct CERTGeneralNameListStr { PLArenaPool *arena; CERTGeneralName *name; int refCount; int len; PZLock *lock; }; struct CERTNameConstraintStr { CERTGeneralName name; SECItem DERName; SECItem min; SECItem max; PRCList l; }; struct CERTNameConstraintsStr { CERTNameConstraint *permited; CERTNameConstraint *excluded; SECItem **DERPermited; SECItem **DERExcluded; }; /* Private Key Usage Period extension struct. */ struct CERTPrivKeyUsagePeriodStr { SECItem notBefore; SECItem notAfter; PLArenaPool *arena; }; /* X.509 v3 Authority Key Identifier extension. For the authority certificate issuer field, we only support URI now. */ struct CERTAuthKeyIDStr { SECItem keyID; /* unique key identifier */ CERTGeneralName *authCertIssuer; /* CA's issuer name. End with a NULL */ SECItem authCertSerialNumber; /* CA's certificate serial number */ SECItem **DERAuthCertIssuer; /* This holds the DER encoded format of the authCertIssuer field. It is used by the encoding engine. It should be used as a read only field by the caller. */ }; /* x.509 v3 CRL Distributeion Point */ /* * defined the types of CRL Distribution points */ typedef enum DistributionPointTypesEnum { generalName = 1, /* only support this for now */ relativeDistinguishedName = 2 } DistributionPointTypes; struct CRLDistributionPointStr { DistributionPointTypes distPointType; union { CERTGeneralName *fullName; CERTRDN relativeName; } distPoint; SECItem reasons; CERTGeneralName *crlIssuer; /* Reserved for internal use only*/ SECItem derDistPoint; SECItem derRelativeName; SECItem **derCrlIssuer; SECItem **derFullName; SECItem bitsmap; }; struct CERTCrlDistributionPointsStr { CRLDistributionPoint **distPoints; }; /* * This structure is used to keep a log of errors when verifying * a cert chain. This allows multiple errors to be reported all at * once. */ struct CERTVerifyLogNodeStr { CERTCertificate *cert; /* what cert had the error */ long error; /* what error was it? */ unsigned int depth; /* how far up the chain are we */ void *arg; /* error specific argument */ struct CERTVerifyLogNodeStr *next; /* next in the list */ struct CERTVerifyLogNodeStr *prev; /* next in the list */ }; struct CERTVerifyLogStr { PLArenaPool *arena; unsigned int count; struct CERTVerifyLogNodeStr *head; struct CERTVerifyLogNodeStr *tail; }; struct CERTOKDomainNameStr { CERTOKDomainName *next; char name[1]; /* actual length may be longer. */ }; typedef SECStatus (PR_CALLBACK *CERTStatusChecker) (CERTCertDBHandle *handle, CERTCertificate *cert, PRTime time, void *pwArg); typedef SECStatus (PR_CALLBACK *CERTStatusDestroy) (CERTStatusConfig *handle); struct CERTStatusConfigStr { CERTStatusChecker statusChecker; /* NULL means no checking enabled */ CERTStatusDestroy statusDestroy; /* enabled or no, will clean up */ void *statusContext; /* cx specific to checking protocol */ }; struct CERTAuthInfoAccessStr { SECItem method; SECItem derLocation; CERTGeneralName *location; /* decoded location */ }; /* This is the typedef for the callback passed to CERT_OpenCertDB() */ /* callback to return database name based on version number */ typedef char * (*CERTDBNameFunc)(void *arg, int dbVersion); /* * types of cert packages that we can decode */ typedef enum CERTPackageTypeEnum { certPackageNone = 0, certPackageCert = 1, certPackagePKCS7 = 2, certPackageNSCertSeq = 3, certPackageNSCertWrap = 4 } CERTPackageType; /* * these types are for the PKIX Certificate Policies extension */ typedef struct { SECOidTag oid; SECItem qualifierID; SECItem qualifierValue; } CERTPolicyQualifier; typedef struct { SECOidTag oid; SECItem policyID; CERTPolicyQualifier **policyQualifiers; } CERTPolicyInfo; typedef struct { PLArenaPool *arena; CERTPolicyInfo **policyInfos; } CERTCertificatePolicies; typedef struct { SECItem organization; SECItem **noticeNumbers; } CERTNoticeReference; typedef struct { PLArenaPool *arena; CERTNoticeReference noticeReference; SECItem derNoticeReference; SECItem displayText; } CERTUserNotice; typedef struct { PLArenaPool *arena; SECItem **oids; } CERTOidSequence; /* * these types are for the PKIX Policy Mappings extension */ typedef struct { SECItem issuerDomainPolicy; SECItem subjectDomainPolicy; } CERTPolicyMap; typedef struct { PLArenaPool *arena; CERTPolicyMap **policyMaps; } CERTCertificatePolicyMappings; /* * these types are for the PKIX inhibitAnyPolicy extension */ typedef struct { SECItem inhibitAnySkipCerts; } CERTCertificateInhibitAny; /* * these types are for the PKIX Policy Constraints extension */ typedef struct { SECItem explicitPolicySkipCerts; SECItem inhibitMappingSkipCerts; } CERTCertificatePolicyConstraints; /* * These types are for the validate chain callback param. * * CERTChainVerifyCallback is an application-supplied callback that can be used * to augment libpkix's certificate chain validation with additional * application-specific checks. It may be called multiple times if there are * multiple potentially-valid paths for the certificate being validated. This * callback is called before revocation checking is done on the certificates in * the given chain. * * - isValidChainArg contains the application-provided opaque argument * - currentChain is the currently validated chain. It is ordered with the leaf * certificate at the head and the trust anchor at the tail. * * The callback should set *chainOK = PR_TRUE and return SECSuccess if the * certificate chain is acceptable. It should set *chainOK = PR_FALSE and * return SECSuccess if the chain is unacceptable, to indicate that the given * chain is bad and path building should continue. It should return SECFailure * to indicate an fatal error that will cause path validation to fail * immediately. */ typedef SECStatus (*CERTChainVerifyCallbackFunc) (void *isChainValidArg, const CERTCertList *currentChain, PRBool *chainOK); /* * Note: If extending this structure, it will be necessary to change the * associated CERTValParamInType */ typedef struct { CERTChainVerifyCallbackFunc isChainValid; void *isChainValidArg; } CERTChainVerifyCallback; /* * these types are for the CERT_PKIX* Verification functions * These are all optional parameters. */ typedef enum { cert_pi_end = 0, /* SPECIAL: signifies end of array of * CERTValParam* */ cert_pi_nbioContext = 1, /* specify a non-blocking IO context used to * resume a session. If this argument is * specified, no other arguments should be. * Specified in value.pointer.p. If the * operation completes the context will be * freed. */ cert_pi_nbioAbort = 2, /* specify a non-blocking IO context for an * existing operation which the caller wants * to abort. If this argument is * specified, no other arguments should be. * Specified in value.pointer.p. If the * operation succeeds the context will be * freed. */ cert_pi_certList = 3, /* specify the chain to validate against. If * this value is given, then the path * construction step in the validation is * skipped. Specified in value.pointer.chain */ cert_pi_policyOID = 4, /* validate certificate for policy OID. * Specified in value.array.oids. Cert must * be good for at least one OID in order * to validate. Default is that the user is not * concerned about certificate policy. */ cert_pi_policyFlags = 5, /* flags for each policy specified in policyOID. * Specified in value.scalar.ul. Policy flags * apply to all specified oids. * Use CERT_POLICY_FLAG_* macros below. If not * specified policy flags default to 0 */ cert_pi_keyusage = 6, /* specify what the keyusages the certificate * will be evaluated against, specified in * value.scalar.ui. The cert must validate for * at least one of the specified key usages. * Values match the KU_ bit flags defined * in this file. Default is derived from * the 'usages' function argument */ cert_pi_extendedKeyusage= 7, /* specify what the required extended key * usage of the certificate. Specified as * an array of oidTags in value.array.oids. * The cert must validate for at least one * of the specified extended key usages. * If not specified, no extended key usages * will be checked. */ cert_pi_date = 8, /* validate certificate is valid as of date * specified in value.scalar.time. A special * value '0' indicates 'now'. default is '0' */ cert_pi_revocationFlags = 9, /* Specify what revocation checking to do. * See CERT_REV_FLAG_* macros below * Set in value.pointer.revocation */ cert_pi_certStores = 10,/* Bitmask of Cert Store flags (see below) * Set in value.scalar.ui */ cert_pi_trustAnchors = 11,/* Specify the list of trusted roots to * validate against. * The default set of trusted roots, these are * root CA certs from libnssckbi.so or CA * certs trusted by user, are used in any of * the following cases: * * when the parameter is not set. * * when the list of trust anchors is empty. * Note that this handling can be further altered by altering the * cert_pi_useOnlyTrustAnchors flag * Specified in value.pointer.chain */ cert_pi_useAIACertFetch = 12, /* Enables cert fetching using AIA extension. * In NSS 3.12.1 or later. Default is off. * Value is in value.scalar.b */ cert_pi_chainVerifyCallback = 13, /* The callback container for doing extra * validation on the currently calculated chain. * Value is in value.pointer.chainVerifyCallback */ cert_pi_useOnlyTrustAnchors = 14,/* If true, disables trusting any * certificates other than the ones passed in via cert_pi_trustAnchors. * If false, then the certificates specified via cert_pi_trustAnchors * will be combined with the pre-existing trusted roots, but only for * the certificate validation being performed. * If no value has been supplied via cert_pi_trustAnchors, this has no * effect. * The default value is true, meaning if this is not supplied, only * trust anchors supplied via cert_pi_trustAnchors are trusted. * Specified in value.scalar.b */ cert_pi_max /* SPECIAL: signifies maximum allowed value, * can increase in future releases */ } CERTValParamInType; /* * for all out parameters: * out parameters are only returned if the caller asks for them in * the CERTValOutParam array. Caller is responsible for the CERTValOutParam * array itself. The pkix verify function will allocate and other arrays * pointers, or objects. The Caller is responsible for freeing those results. * If SECWouldBlock is returned, only cert_pi_nbioContext is returned. */ typedef enum { cert_po_end = 0, /* SPECIAL: signifies end of array of * CERTValParam* */ cert_po_nbioContext = 1, /* Return a nonblocking context. If no * non-blocking context is specified, then * blocking IO will be used. * Returned in value.pointer.p. The context is * freed after an abort or a complete operation. * This value is only returned on SECWouldBlock. */ cert_po_trustAnchor = 2, /* Return the trust anchor for the chain that * was validated. Returned in * value.pointer.cert, this value is only * returned on SECSuccess. */ cert_po_certList = 3, /* Return the entire chain that was validated. * Returned in value.pointer.certList. If no * chain could be constructed, this value * would be NULL. */ cert_po_policyOID = 4, /* Return the policies that were found to be * valid. Returned in value.array.oids as an * array. This is only returned on * SECSuccess. */ cert_po_errorLog = 5, /* Return a log of problems with the chain. * Returned in value.pointer.log */ cert_po_usages = 6, /* Return what usages the certificate is valid for. Returned in value.scalar.usages */ cert_po_keyUsage = 7, /* Return what key usages the certificate * is valid for. * Returned in value.scalar.usage */ cert_po_extendedKeyusage= 8, /* Return what extended key usages the * certificate is valid for. * Returned in value.array.oids */ cert_po_max /* SPECIAL: signifies maximum allowed value, * can increase in future releases */ } CERTValParamOutType; typedef enum { cert_revocation_method_crl = 0, cert_revocation_method_ocsp, cert_revocation_method_count } CERTRevocationMethodIndex; /* * The following flags are supposed to be used to control bits in * each integer contained in the array pointed to be: * CERTRevocationTests.cert_rev_flags_per_method * All Flags are prefixed by CERT_REV_M_, where _M_ indicates * this is a method dependent flag. */ /* * Whether or not to use a method for revocation testing. * If set to "do not test", then all other flags are ignored. */ #define CERT_REV_M_DO_NOT_TEST_USING_THIS_METHOD 0UL #define CERT_REV_M_TEST_USING_THIS_METHOD 1UL /* * Whether or not NSS is allowed to attempt to fetch fresh information * from the network. * (Although fetching will never happen if fresh information for the * method is already locally available.) */ #define CERT_REV_M_ALLOW_NETWORK_FETCHING 0UL #define CERT_REV_M_FORBID_NETWORK_FETCHING 2UL /* * Example for an implicit default source: * The globally configured default OCSP responder. * IGNORE means: * ignore the implicit default source, whether it's configured or not. * ALLOW means: * if an implicit default source is configured, * then it overrides any available or missing source in the cert. * if no implicit default source is configured, * then we continue to use what's available (or not available) * in the certs. */ #define CERT_REV_M_ALLOW_IMPLICIT_DEFAULT_SOURCE 0UL #define CERT_REV_M_IGNORE_IMPLICIT_DEFAULT_SOURCE 4UL /* * Defines the behavior if no fresh information is available, * fetching from the network is allowed, but the source of revocation * information is unknown (even after considering implicit sources, * if allowed by other flags). * SKIPT_TEST means: * We ignore that no fresh information is available and * skip this test. * REQUIRE_INFO means: * We still require that fresh information is available. * Other flags define what happens on missing fresh info. */ #define CERT_REV_M_SKIP_TEST_ON_MISSING_SOURCE 0UL #define CERT_REV_M_REQUIRE_INFO_ON_MISSING_SOURCE 8UL /* * Defines the behavior if we are unable to obtain fresh information. * INGORE means: * Return "cert status unknown" * FAIL means: * Return "cert revoked". */ #define CERT_REV_M_IGNORE_MISSING_FRESH_INFO 0UL #define CERT_REV_M_FAIL_ON_MISSING_FRESH_INFO 16UL /* * What should happen if we were able to find fresh information using * this method, and the data indicated the cert is good? * STOP_TESTING means: * Our success is sufficient, do not continue testing * other methods. * CONTINUE_TESTING means: * We will continue and test the next allowed * specified method. */ #define CERT_REV_M_STOP_TESTING_ON_FRESH_INFO 0UL #define CERT_REV_M_CONTINUE_TESTING_ON_FRESH_INFO 32UL /* When this flag is used, libpkix will never attempt to use the GET HTTP * method for OCSP requests; it will always use POST. */ #define CERT_REV_M_FORCE_POST_METHOD_FOR_OCSP 64UL /* * The following flags are supposed to be used to control bits in * CERTRevocationTests.cert_rev_method_independent_flags * All Flags are prefixed by CERT_REV_M_, where _M_ indicates * this is a method independent flag. */ /* * This defines the order to checking. * EACH_METHOD_SEPARATELY means: * Do all tests related to a particular allowed method * (both local information and network fetching) in a single step. * Only after testing for a particular method is done, * then switching to the next method will happen. * ALL_LOCAL_INFORMATION_FIRST means: * Start by testing the information for all allowed methods * which are already locally available. Only after that is done * consider to fetch from the network (as allowed by other flags). */ #define CERT_REV_MI_TEST_EACH_METHOD_SEPARATELY 0UL #define CERT_REV_MI_TEST_ALL_LOCAL_INFORMATION_FIRST 1UL /* * Use this flag to specify that it's necessary that fresh information * is available for at least one of the allowed methods, but it's * irrelevant which of the mechanisms succeeded. * NO_OVERALL_INFO_REQUIREMENT means: * We strictly follow the requirements for each individual method. * REQUIRE_SOME_FRESH_INFO_AVAILABLE means: * After the individual tests have been executed, we must have * been able to find fresh information using at least one method. * If we were unable to find fresh info, it's a failure. * This setting overrides the CERT_REV_M_FAIL_ON_MISSING_FRESH_INFO * flag on all methods. */ #define CERT_REV_MI_NO_OVERALL_INFO_REQUIREMENT 0UL #define CERT_REV_MI_REQUIRE_SOME_FRESH_INFO_AVAILABLE 2UL typedef struct { /* * The size of the array that cert_rev_flags_per_method points to, * meaning, the number of methods that are known and defined * by the caller. */ PRUint32 number_of_defined_methods; /* * A pointer to an array of integers. * Each integer defines revocation checking for a single method, * by having individual CERT_REV_M_* bits set or not set. * The meaning of index numbers into this array are defined by * enum CERTRevocationMethodIndex * The size of the array must be specified by the caller in the separate * variable number_of_defined_methods. * The size of the array may be smaller than * cert_revocation_method_count, it can happen if a caller * is not yet aware of the latest revocation methods * (or does not want to use them). */ PRUint64 *cert_rev_flags_per_method; /* * How many preferred methods are specified? * This is equivalent to the size of the array that * preferred_revocation_methods points to. * It's allowed to set this value to zero, * then NSS will decide which methods to prefer. */ PRUint32 number_of_preferred_methods; /* Array that may specify an optional order of preferred methods. * Each array entry shall contain a method identifier as defined * by CERTRevocationMethodIndex. * The entry at index [0] specifies the method with highest preferrence. * These methods will be tested first for locally available information. * Methods allowed for downloading will be attempted in the same order. */ CERTRevocationMethodIndex *preferred_methods; /* * An integer which defines certain aspects of revocation checking * (independent of individual methods) by having individual * CERT_REV_MI_* bits set or not set. */ PRUint64 cert_rev_method_independent_flags; } CERTRevocationTests; typedef struct { CERTRevocationTests leafTests; CERTRevocationTests chainTests; } CERTRevocationFlags; typedef struct CERTValParamInValueStr { union { PRBool b; PRInt32 i; PRUint32 ui; PRInt64 l; PRUint64 ul; PRTime time; } scalar; union { const void* p; const char* s; const CERTCertificate* cert; const CERTCertList *chain; const CERTRevocationFlags *revocation; const CERTChainVerifyCallback *chainVerifyCallback; } pointer; union { const PRInt32 *pi; const PRUint32 *pui; const PRInt64 *pl; const PRUint64 *pul; const SECOidTag *oids; } array; int arraySize; } CERTValParamInValue; typedef struct CERTValParamOutValueStr { union { PRBool b; PRInt32 i; PRUint32 ui; PRInt64 l; PRUint64 ul; SECCertificateUsage usages; } scalar; union { void* p; char* s; CERTVerifyLog *log; CERTCertificate* cert; CERTCertList *chain; } pointer; union { void *p; SECOidTag *oids; } array; int arraySize; } CERTValParamOutValue; typedef struct { CERTValParamInType type; CERTValParamInValue value; } CERTValInParam; typedef struct { CERTValParamOutType type; CERTValParamOutValue value; } CERTValOutParam; /* * Levels of standards conformance strictness for CERT_NameToAsciiInvertible */ typedef enum CertStrictnessLevels { CERT_N2A_READABLE = 0, /* maximum human readability */ CERT_N2A_STRICT = 10, /* strict RFC compliance */ CERT_N2A_INVERTIBLE = 20 /* maximum invertibility, all DirectoryStrings encoded in hex */ } CertStrictnessLevel; /* * policy flag defines */ #define CERT_POLICY_FLAG_NO_MAPPING 1 #define CERT_POLICY_FLAG_EXPLICIT 2 #define CERT_POLICY_FLAG_NO_ANY 4 /* * CertStore flags */ #define CERT_ENABLE_LDAP_FETCH 1 #define CERT_ENABLE_HTTP_FETCH 2 /* This functin pointer type may be used for any function that takes * a CERTCertificate * and returns an allocated string, which must be * freed by a call to PORT_Free. */ typedef char * (*CERT_StringFromCertFcn)(CERTCertificate *cert); /* XXX Lisa thinks the template declarations belong in cert.h, not here? */ #include "secasn1t.h" /* way down here because I expect template stuff to * move out of here anyway */ SEC_BEGIN_PROTOS extern const SEC_ASN1Template CERT_CertificateRequestTemplate[]; extern const SEC_ASN1Template CERT_CertificateTemplate[]; extern const SEC_ASN1Template SEC_SignedCertificateTemplate[]; extern const SEC_ASN1Template CERT_CertExtensionTemplate[]; extern const SEC_ASN1Template CERT_SequenceOfCertExtensionTemplate[]; extern const SEC_ASN1Template SECKEY_PublicKeyTemplate[]; extern const SEC_ASN1Template CERT_SubjectPublicKeyInfoTemplate[]; extern const SEC_ASN1Template CERT_TimeChoiceTemplate[]; extern const SEC_ASN1Template CERT_ValidityTemplate[]; extern const SEC_ASN1Template CERT_PublicKeyAndChallengeTemplate[]; extern const SEC_ASN1Template SEC_CertSequenceTemplate[]; extern const SEC_ASN1Template CERT_IssuerAndSNTemplate[]; extern const SEC_ASN1Template CERT_NameTemplate[]; extern const SEC_ASN1Template CERT_SetOfSignedCrlTemplate[]; extern const SEC_ASN1Template CERT_RDNTemplate[]; extern const SEC_ASN1Template CERT_SignedDataTemplate[]; extern const SEC_ASN1Template CERT_CrlTemplate[]; extern const SEC_ASN1Template CERT_SignedCrlTemplate[]; /* ** XXX should the attribute stuff be centralized for all of ns/security? */ extern const SEC_ASN1Template CERT_AttributeTemplate[]; extern const SEC_ASN1Template CERT_SetOfAttributeTemplate[]; /* These functions simply return the address of the above-declared templates. ** This is necessary for Windows DLLs. Sigh. */ SEC_ASN1_CHOOSER_DECLARE(CERT_CertificateRequestTemplate) SEC_ASN1_CHOOSER_DECLARE(CERT_CertificateTemplate) SEC_ASN1_CHOOSER_DECLARE(CERT_CrlTemplate) SEC_ASN1_CHOOSER_DECLARE(CERT_IssuerAndSNTemplate) SEC_ASN1_CHOOSER_DECLARE(CERT_NameTemplate) SEC_ASN1_CHOOSER_DECLARE(CERT_SequenceOfCertExtensionTemplate) SEC_ASN1_CHOOSER_DECLARE(CERT_SetOfSignedCrlTemplate) SEC_ASN1_CHOOSER_DECLARE(CERT_SignedDataTemplate) SEC_ASN1_CHOOSER_DECLARE(CERT_SubjectPublicKeyInfoTemplate) SEC_ASN1_CHOOSER_DECLARE(SEC_SignedCertificateTemplate) SEC_ASN1_CHOOSER_DECLARE(CERT_SignedCrlTemplate) SEC_ASN1_CHOOSER_DECLARE(CERT_TimeChoiceTemplate) SEC_END_PROTOS #endif /* _CERTT_H_ */