/* 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/. */ /* * Interface to the PKCS7 implementation. * * $Id$ */ #ifndef _SECPKCS7_H_ #define _SECPKCS7_H_ #include "seccomon.h" #include "secoidt.h" #include "certt.h" #include "keyt.h" #include "hasht.h" #include "pkcs7t.h" extern const SEC_ASN1Template sec_PKCS7ContentInfoTemplate[]; /************************************************************************/ SEC_BEGIN_PROTOS /************************************************************************ * Miscellaneous ************************************************************************/ /* * Returns the content type of the given contentInfo. */ extern SECOidTag SEC_PKCS7ContentType (SEC_PKCS7ContentInfo *cinfo); /* * Destroy a PKCS7 contentInfo and all of its sub-pieces. */ extern void SEC_PKCS7DestroyContentInfo(SEC_PKCS7ContentInfo *contentInfo); /* * Copy a PKCS7 contentInfo. A Destroy is needed on *each* copy. */ extern SEC_PKCS7ContentInfo * SEC_PKCS7CopyContentInfo(SEC_PKCS7ContentInfo *contentInfo); /* * Return a pointer to the actual content. In the case of those types * which are encrypted, this returns the *plain* content. */ extern SECItem *SEC_PKCS7GetContent(SEC_PKCS7ContentInfo *cinfo); /************************************************************************ * PKCS7 Decoding, Verification, etc.. ************************************************************************/ extern SEC_PKCS7DecoderContext * SEC_PKCS7DecoderStart(SEC_PKCS7DecoderContentCallback callback, void *callback_arg, SECKEYGetPasswordKey pwfn, void *pwfn_arg, SEC_PKCS7GetDecryptKeyCallback decrypt_key_cb, void *decrypt_key_cb_arg, SEC_PKCS7DecryptionAllowedCallback decrypt_allowed_cb); extern SECStatus SEC_PKCS7DecoderUpdate(SEC_PKCS7DecoderContext *p7dcx, const char *buf, unsigned long len); extern SEC_PKCS7ContentInfo * SEC_PKCS7DecoderFinish(SEC_PKCS7DecoderContext *p7dcx); /* Abort the underlying ASN.1 stream & set an error */ void SEC_PKCS7DecoderAbort(SEC_PKCS7DecoderContext *p7dcx, int error); extern SEC_PKCS7ContentInfo * SEC_PKCS7DecodeItem(SECItem *p7item, SEC_PKCS7DecoderContentCallback cb, void *cb_arg, SECKEYGetPasswordKey pwfn, void *pwfn_arg, SEC_PKCS7GetDecryptKeyCallback decrypt_key_cb, void *decrypt_key_cb_arg, SEC_PKCS7DecryptionAllowedCallback decrypt_allowed_cb); extern PRBool SEC_PKCS7ContainsCertsOrCrls(SEC_PKCS7ContentInfo *cinfo); /* checks to see if the contents of the content info is * empty. it so, PR_TRUE is returned. PR_FALSE, otherwise. * * minLen is used to specify a minimum size. if content size <= minLen, * content is assumed empty. */ extern PRBool SEC_PKCS7IsContentEmpty(SEC_PKCS7ContentInfo *cinfo, unsigned int minLen); extern PRBool SEC_PKCS7ContentIsEncrypted(SEC_PKCS7ContentInfo *cinfo); /* * If the PKCS7 content has a signature (not just *could* have a signature) * return true; false otherwise. This can/should be called before calling * VerifySignature, which will always indicate failure if no signature is * present, but that does not mean there even was a signature! * Note that the content itself can be empty (detached content was sent * another way); it is the presence of the signature that matters. */ extern PRBool SEC_PKCS7ContentIsSigned(SEC_PKCS7ContentInfo *cinfo); /* * SEC_PKCS7VerifySignature * Look at a PKCS7 contentInfo and check if the signature is good. * The verification checks that the signing cert is valid and trusted * for the purpose specified by "certusage". * * In addition, if "keepcerts" is true, add any new certificates found * into our local database. */ extern PRBool SEC_PKCS7VerifySignature(SEC_PKCS7ContentInfo *cinfo, SECCertUsage certusage, PRBool keepcerts); /* * SEC_PKCS7VerifyDetachedSignature * Look at a PKCS7 contentInfo and check if the signature matches * a passed-in digest (calculated, supposedly, from detached contents). * The verification checks that the signing cert is valid and trusted * for the purpose specified by "certusage". * * In addition, if "keepcerts" is true, add any new certificates found * into our local database. */ extern PRBool SEC_PKCS7VerifyDetachedSignature(SEC_PKCS7ContentInfo *cinfo, SECCertUsage certusage, const SECItem *detached_digest, HASH_HashType digest_type, PRBool keepcerts); /* * SEC_PKCS7VerifyDetachedSignatureAtTime * Look at a PKCS7 contentInfo and check if the signature matches * a passed-in digest (calculated, supposedly, from detached contents). * The verification checks that the signing cert is valid and trusted * for the purpose specified by "certusage" at time "atTime". * * In addition, if "keepcerts" is true, add any new certificates found * into our local database. */ extern PRBool SEC_PKCS7VerifyDetachedSignatureAtTime(SEC_PKCS7ContentInfo *cinfo, SECCertUsage certusage, const SECItem *detached_digest, HASH_HashType digest_type, PRBool keepcerts, PRTime atTime); /* * SEC_PKCS7GetSignerCommonName, SEC_PKCS7GetSignerEmailAddress * The passed-in contentInfo is espected to be Signed, and these * functions return the specified portion of the full signer name. * * Returns a pointer to allocated memory, which must be freed. * A NULL return value is an error. */ extern char *SEC_PKCS7GetSignerCommonName(SEC_PKCS7ContentInfo *cinfo); extern char *SEC_PKCS7GetSignerEmailAddress(SEC_PKCS7ContentInfo *cinfo); /* * Return the the signing time, in UTCTime format, of a PKCS7 contentInfo. */ extern SECItem *SEC_PKCS7GetSigningTime(SEC_PKCS7ContentInfo *cinfo); /************************************************************************ * PKCS7 Creation and Encoding. ************************************************************************/ /* * Start a PKCS7 signing context. * * "cert" is the cert that will be used to sign the data. It will be * checked for validity. * * "certusage" describes the signing usage (e.g. certUsageEmailSigner) * XXX Maybe SECCertUsage should be split so that our caller just says * "email" and *we* add the "signing" part -- otherwise our caller * could be lying about the usage; we do not want to allow encryption * certs for signing or vice versa. * * "certdb" is the cert database to use for verifying the cert. * It can be NULL if a default database is available (like in the client). * * "digestalg" names the digest algorithm (e.g. SEC_OID_SHA1). * * "digest" is the actual digest of the data. It must be provided in * the case of detached data or NULL if the content will be included. * * The return value can be passed to functions which add things to * it like attributes, then eventually to SEC_PKCS7Encode() or to * SEC_PKCS7EncoderStart() to create the encoded data, and finally to * SEC_PKCS7DestroyContentInfo(). * * An error results in a return value of NULL and an error set. * (Retrieve specific errors via PORT_GetError()/XP_GetError().) */ extern SEC_PKCS7ContentInfo * SEC_PKCS7CreateSignedData (CERTCertificate *cert, SECCertUsage certusage, CERTCertDBHandle *certdb, SECOidTag digestalg, SECItem *digest, SECKEYGetPasswordKey pwfn, void *pwfn_arg); /* * Create a PKCS7 certs-only container. * * "cert" is the (first) cert that will be included. * * "include_chain" specifies whether the entire chain for "cert" should * be included. * * "certdb" is the cert database to use for finding the chain. * It can be NULL in when "include_chain" is false, or when meaning * use the default database. * * More certs and chains can be added via AddCertficate and AddCertChain. * * An error results in a return value of NULL and an error set. * (Retrieve specific errors via PORT_GetError()/XP_GetError().) */ extern SEC_PKCS7ContentInfo * SEC_PKCS7CreateCertsOnly (CERTCertificate *cert, PRBool include_chain, CERTCertDBHandle *certdb); /* * Start a PKCS7 enveloping context. * * "cert" is the cert for the recipient. It will be checked for validity. * * "certusage" describes the encryption usage (e.g. certUsageEmailRecipient) * XXX Maybe SECCertUsage should be split so that our caller just says * "email" and *we* add the "recipient" part -- otherwise our caller * could be lying about the usage; we do not want to allow encryption * certs for signing or vice versa. * * "certdb" is the cert database to use for verifying the cert. * It can be NULL if a default database is available (like in the client). * * "encalg" specifies the bulk encryption algorithm to use (e.g. SEC_OID_RC2). * * "keysize" specifies the bulk encryption key size, in bits. * * The return value can be passed to functions which add things to * it like more recipients, then eventually to SEC_PKCS7Encode() or to * SEC_PKCS7EncoderStart() to create the encoded data, and finally to * SEC_PKCS7DestroyContentInfo(). * * An error results in a return value of NULL and an error set. * (Retrieve specific errors via PORT_GetError()/XP_GetError().) */ extern SEC_PKCS7ContentInfo * SEC_PKCS7CreateEnvelopedData (CERTCertificate *cert, SECCertUsage certusage, CERTCertDBHandle *certdb, SECOidTag encalg, int keysize, SECKEYGetPasswordKey pwfn, void *pwfn_arg); /* * XXX There will be a similar routine for creating signedAndEnvelopedData. * But its parameters will be different and I have no plans to implement * it any time soon because we have no current need for it. */ /* * Create an empty PKCS7 data content info. * * An error results in a return value of NULL and an error set. * (Retrieve specific errors via PORT_GetError()/XP_GetError().) */ extern SEC_PKCS7ContentInfo *SEC_PKCS7CreateData (void); /* * Create an empty PKCS7 encrypted content info. * * "algorithm" specifies the bulk encryption algorithm to use. * * An error results in a return value of NULL and an error set. * (Retrieve specific errors via PORT_GetError()/XP_GetError().) */ extern SEC_PKCS7ContentInfo * SEC_PKCS7CreateEncryptedData (SECOidTag algorithm, int keysize, SECKEYGetPasswordKey pwfn, void *pwfn_arg); /* * All of the following things return SECStatus to signal success or failure. * Failure should have a more specific error status available via * PORT_GetError()/XP_GetError(). */ /* * Add the specified attribute to the authenticated (i.e. signed) attributes * of "cinfo" -- "oidtag" describes the attribute and "value" is the * value to be associated with it. NOTE! "value" must already be encoded; * no interpretation of "oidtag" is done. Also, it is assumed that this * signedData has only one signer -- if we ever need to add attributes * when there is more than one signature, we need a way to specify *which* * signature should get the attribute. * * XXX Technically, a signed attribute can have multiple values; if/when * we ever need to support an attribute which takes multiple values, we * either need to change this interface or create an AddSignedAttributeValue * which can be called subsequently, and would then append a value. * * "cinfo" should be of type signedData (the only kind of pkcs7 data * that is allowed authenticated attributes); SECFailure will be returned * if it is not. */ extern SECStatus SEC_PKCS7AddSignedAttribute (SEC_PKCS7ContentInfo *cinfo, SECOidTag oidtag, SECItem *value); /* * Add "cert" and its entire chain to the set of certs included in "cinfo". * * "certdb" is the cert database to use for finding the chain. * It can be NULL, meaning use the default database. * * "cinfo" should be of type signedData or signedAndEnvelopedData; * SECFailure will be returned if it is not. */ extern SECStatus SEC_PKCS7AddCertChain (SEC_PKCS7ContentInfo *cinfo, CERTCertificate *cert, CERTCertDBHandle *certdb); /* * Add "cert" to the set of certs included in "cinfo". * * "cinfo" should be of type signedData or signedAndEnvelopedData; * SECFailure will be returned if it is not. */ extern SECStatus SEC_PKCS7AddCertificate (SEC_PKCS7ContentInfo *cinfo, CERTCertificate *cert); /* * Add another recipient to an encrypted message. * * "cinfo" should be of type envelopedData or signedAndEnvelopedData; * SECFailure will be returned if it is not. * * "cert" is the cert for the recipient. It will be checked for validity. * * "certusage" describes the encryption usage (e.g. certUsageEmailRecipient) * XXX Maybe SECCertUsage should be split so that our caller just says * "email" and *we* add the "recipient" part -- otherwise our caller * could be lying about the usage; we do not want to allow encryption * certs for signing or vice versa. * * "certdb" is the cert database to use for verifying the cert. * It can be NULL if a default database is available (like in the client). */ extern SECStatus SEC_PKCS7AddRecipient (SEC_PKCS7ContentInfo *cinfo, CERTCertificate *cert, SECCertUsage certusage, CERTCertDBHandle *certdb); /* * Add the signing time to the authenticated (i.e. signed) attributes * of "cinfo". This is expected to be included in outgoing signed * messages for email (S/MIME) but is likely useful in other situations. * * This should only be added once; a second call will either do * nothing or replace an old signing time with a newer one. * * XXX This will probably just shove the current time into "cinfo" * but it will not actually get signed until the entire item is * processed for encoding. Is this (expected to be small) delay okay? * * "cinfo" should be of type signedData (the only kind of pkcs7 data * that is allowed authenticated attributes); SECFailure will be returned * if it is not. */ extern SECStatus SEC_PKCS7AddSigningTime (SEC_PKCS7ContentInfo *cinfo); /* * Add the signer's symmetric capabilities to the authenticated * (i.e. signed) attributes of "cinfo". This is expected to be * included in outgoing signed messages for email (S/MIME). * * This can only be added once; a second call will return SECFailure. * * "cinfo" should be of type signedData or signedAndEnvelopedData; * SECFailure will be returned if it is not. */ extern SECStatus SEC_PKCS7AddSymmetricCapabilities(SEC_PKCS7ContentInfo *cinfo); /* * Mark that the signer's certificate and its issuing chain should * be included in the encoded data. This is expected to be used * in outgoing signed messages for email (S/MIME). * * "certdb" is the cert database to use for finding the chain. * It can be NULL, meaning use the default database. * * "cinfo" should be of type signedData or signedAndEnvelopedData; * SECFailure will be returned if it is not. */ extern SECStatus SEC_PKCS7IncludeCertChain (SEC_PKCS7ContentInfo *cinfo, CERTCertDBHandle *certdb); /* * Set the content; it will be included and also hashed and/or encrypted * as appropriate. This is for in-memory content (expected to be "small") * that will be included in the PKCS7 object. All others should stream the * content through when encoding (see SEC_PKCS7Encoder{Start,Update,Finish}). * * "buf" points to data of length "len"; it will be copied. */ extern SECStatus SEC_PKCS7SetContent (SEC_PKCS7ContentInfo *cinfo, const char *buf, unsigned long len); /* * Encode a PKCS7 object, in one shot. All necessary components * of the object must already be specified. Either the data has * already been included (via SetContent), or the data is detached, * or there is no data at all (certs-only). * * "cinfo" specifies the object to be encoded. * * "outputfn" is where the encoded bytes will be passed. * * "outputarg" is an opaque argument to the above callback. * * "bulkkey" specifies the bulk encryption key to use. This argument * can be NULL if no encryption is being done, or if the bulk key should * be generated internally (usually the case for EnvelopedData but never * for EncryptedData, which *must* provide a bulk encryption key). * * "pwfn" is a callback for getting the password which protects the * private key of the signer. This argument can be NULL if it is known * that no signing is going to be done. * * "pwfnarg" is an opaque argument to the above callback. */ extern SECStatus SEC_PKCS7Encode (SEC_PKCS7ContentInfo *cinfo, SEC_PKCS7EncoderOutputCallback outputfn, void *outputarg, PK11SymKey *bulkkey, SECKEYGetPasswordKey pwfn, void *pwfnarg); /* * Encode a PKCS7 object, in one shot. All necessary components * of the object must already be specified. Either the data has * already been included (via SetContent), or the data is detached, * or there is no data at all (certs-only). The output, rather than * being passed to an output function as is done above, is all put * into a SECItem. * * "pool" specifies a pool from which to allocate the result. * It can be NULL, in which case memory is allocated generically. * * "dest" specifies a SECItem in which to put the result data. * It can be NULL, in which case the entire item is allocated, too. * * "cinfo" specifies the object to be encoded. * * "bulkkey" specifies the bulk encryption key to use. This argument * can be NULL if no encryption is being done, or if the bulk key should * be generated internally (usually the case for EnvelopedData but never * for EncryptedData, which *must* provide a bulk encryption key). * * "pwfn" is a callback for getting the password which protects the * private key of the signer. This argument can be NULL if it is known * that no signing is going to be done. * * "pwfnarg" is an opaque argument to the above callback. */ extern SECItem *SEC_PKCS7EncodeItem (PLArenaPool *pool, SECItem *dest, SEC_PKCS7ContentInfo *cinfo, PK11SymKey *bulkkey, SECKEYGetPasswordKey pwfn, void *pwfnarg); /* * For those who want to simply point to the pkcs7 contentInfo ASN.1 * template, and *not* call the encoding functions directly, the * following function can be used -- after it is called, the entire * PKCS7 contentInfo is ready to be encoded. */ extern SECStatus SEC_PKCS7PrepareForEncode (SEC_PKCS7ContentInfo *cinfo, PK11SymKey *bulkkey, SECKEYGetPasswordKey pwfn, void *pwfnarg); /* * Start the process of encoding a PKCS7 object. The first part of * the encoded object will be passed to the output function right away; * after that it is expected that SEC_PKCS7EncoderUpdate will be called, * streaming in the actual content that is getting included as well as * signed or encrypted (or both). * * "cinfo" specifies the object to be encoded. * * "outputfn" is where the encoded bytes will be passed. * * "outputarg" is an opaque argument to the above callback. * * "bulkkey" specifies the bulk encryption key to use. This argument * can be NULL if no encryption is being done, or if the bulk key should * be generated internally (usually the case for EnvelopedData but never * for EncryptedData, which *must* provide a bulk encryption key). * * Returns an object to be passed to EncoderUpdate and EncoderFinish. */ extern SEC_PKCS7EncoderContext * SEC_PKCS7EncoderStart (SEC_PKCS7ContentInfo *cinfo, SEC_PKCS7EncoderOutputCallback outputfn, void *outputarg, PK11SymKey *bulkkey); /* * Encode more contents, hashing and/or encrypting along the way. */ extern SECStatus SEC_PKCS7EncoderUpdate (SEC_PKCS7EncoderContext *p7ecx, const char *buf, unsigned long len); /* * No more contents; finish the signature creation, if appropriate, * and then the encoding. * * "pwfn" is a callback for getting the password which protects the * signer's private key. This argument can be NULL if it is known * that no signing is going to be done. * * "pwfnarg" is an opaque argument to the above callback. */ extern SECStatus SEC_PKCS7EncoderFinish (SEC_PKCS7EncoderContext *p7ecx, SECKEYGetPasswordKey pwfn, void *pwfnarg); /* Abort the underlying ASN.1 stream & set an error */ void SEC_PKCS7EncoderAbort(SEC_PKCS7EncoderContext *p7dcx, int error); /* retrieve the algorithm ID used to encrypt the content info * for encrypted and enveloped data. The SECAlgorithmID pointer * returned needs to be freed as it is a copy of the algorithm * id in the content info. */ extern SECAlgorithmID * SEC_PKCS7GetEncryptionAlgorithm(SEC_PKCS7ContentInfo *cinfo); /* the content of an encrypted data content info is encrypted. * it is assumed that for encrypted data, that the data has already * been set and is in the "plainContent" field of the content info. * * cinfo is the content info to encrypt * * key is the key with which to perform the encryption. if the * algorithm is a password based encryption algorithm, the * key is actually a password which will be processed per * PKCS #5. * * in the event of an error, SECFailure is returned. SECSuccess * indicates a success. */ extern SECStatus SEC_PKCS7EncryptContents(PLArenaPool *poolp, SEC_PKCS7ContentInfo *cinfo, SECItem *key, void *wincx); /* the content of an encrypted data content info is decrypted. * it is assumed that for encrypted data, that the data has already * been set and is in the "encContent" field of the content info. * * cinfo is the content info to decrypt * * key is the key with which to perform the decryption. if the * algorithm is a password based encryption algorithm, the * key is actually a password which will be processed per * PKCS #5. * * in the event of an error, SECFailure is returned. SECSuccess * indicates a success. */ extern SECStatus SEC_PKCS7DecryptContents(PLArenaPool *poolp, SEC_PKCS7ContentInfo *cinfo, SECItem *key, void *wincx); /* retrieve the certificate list from the content info. the list * is a pointer to the list in the content info. this should not * be deleted or freed in any way short of calling * SEC_PKCS7DestroyContentInfo */ extern SECItem ** SEC_PKCS7GetCertificateList(SEC_PKCS7ContentInfo *cinfo); /* Returns the key length (in bits) of the algorithm used to encrypt this object. Returns 0 if it's not encrypted, or the key length is irrelevant. */ extern int SEC_PKCS7GetKeyLength(SEC_PKCS7ContentInfo *cinfo); /************************************************************************/ SEC_END_PROTOS #endif /* _SECPKCS7_H_ */