/* 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/. */ /* * cmsutil -- A command to work with CMS data */ #include "nspr.h" #include "secutil.h" #include "plgetopt.h" #include "secpkcs7.h" #include "cert.h" #include "certdb.h" #include "secoid.h" #include "cms.h" #include "nss.h" #include "smime.h" #include "pk11func.h" #if defined(XP_UNIX) #include #endif #if defined(_WIN32) #include "fcntl.h" #include "io.h" #endif #include #include char *progName = NULL; static int cms_verbose = 0; static secuPWData pwdata = { PW_NONE, 0 }; static PK11PasswordFunc pwcb = NULL; static void *pwcb_arg = NULL; /* XXX stolen from cmsarray.c * nss_CMSArray_Count - count number of elements in array */ int nss_CMSArray_Count(void **array) { int n = 0; if (array == NULL) return 0; while (*array++ != NULL) n++; return n; } static SECStatus DigestFile(PLArenaPool *poolp, SECItem ***digests, SECItem *input, SECAlgorithmID **algids) { NSSCMSDigestContext *digcx; SECStatus rv; digcx = NSS_CMSDigestContext_StartMultiple(algids); if (digcx == NULL) return SECFailure; NSS_CMSDigestContext_Update(digcx, input->data, input->len); rv = NSS_CMSDigestContext_FinishMultiple(digcx, poolp, digests); return rv; } static void Usage(char *progName) { fprintf(stderr, "Usage: %s [-C|-D|-E|-O|-S] [] [-d dbdir] [-u certusage]\n" " -C create a CMS encrypted data message\n" " -D decode a CMS message\n" " -b decode a batch of files named in infile\n" " -c content use this detached content\n" " -n suppress output of content\n" " -h num display num levels of CMS message info as email headers\n" " -k keep decoded encryption certs in perm cert db\n" " -E create a CMS enveloped data message\n" " -r id,... create envelope for these recipients,\n" " where id can be a certificate nickname or email address\n" " -S create a CMS signed data message\n" " -G include a signing time attribute\n" " -H hash use hash (default:SHA1)\n" " -N nick use certificate named \"nick\" for signing\n" " -P include a SMIMECapabilities attribute\n" " -T do not include content in CMS message\n" " -Y nick include a EncryptionKeyPreference attribute with cert\n" " (use \"NONE\" to omit)\n" " -O create a CMS signed message containing only certificates\n" " General Options:\n" " -d dbdir key/cert database directory (default: ~/.netscape)\n" " -e envelope enveloped data message in this file is used for bulk key\n" " -i infile use infile as source of data (default: stdin)\n" " -o outfile use outfile as destination of data (default: stdout)\n" " -p password use password as key db password (default: prompt)\n" " -f pwfile use password file to set password on all PKCS#11 tokens)\n" " -u certusage set type of certificate usage (default: certUsageEmailSigner)\n" " -v print debugging information\n" "\n" "Cert usage codes:\n", progName); fprintf(stderr, "%-25s 0 - certUsageSSLClient\n", " "); fprintf(stderr, "%-25s 1 - certUsageSSLServer\n", " "); fprintf(stderr, "%-25s 2 - certUsageSSLServerWithStepUp\n", " "); fprintf(stderr, "%-25s 3 - certUsageSSLCA\n", " "); fprintf(stderr, "%-25s 4 - certUsageEmailSigner\n", " "); fprintf(stderr, "%-25s 5 - certUsageEmailRecipient\n", " "); fprintf(stderr, "%-25s 6 - certUsageObjectSigner\n", " "); fprintf(stderr, "%-25s 7 - certUsageUserCertImport\n", " "); fprintf(stderr, "%-25s 8 - certUsageVerifyCA\n", " "); fprintf(stderr, "%-25s 9 - certUsageProtectedObjectSigner\n", " "); fprintf(stderr, "%-25s 10 - certUsageStatusResponder\n", " "); fprintf(stderr, "%-25s 11 - certUsageAnyCA\n", " "); exit(-1); } struct optionsStr { char *pwfile; char *password; SECCertUsage certUsage; CERTCertDBHandle *certHandle; }; struct decodeOptionsStr { struct optionsStr *options; SECItem content; int headerLevel; PRBool suppressContent; NSSCMSGetDecryptKeyCallback dkcb; PK11SymKey *bulkkey; PRBool keepCerts; }; struct signOptionsStr { struct optionsStr *options; char *nickname; char *encryptionKeyPreferenceNick; PRBool signingTime; PRBool smimeProfile; PRBool detached; SECOidTag hashAlgTag; }; struct envelopeOptionsStr { struct optionsStr *options; char **recipients; }; struct certsonlyOptionsStr { struct optionsStr *options; char **recipients; }; struct encryptOptionsStr { struct optionsStr *options; char **recipients; NSSCMSMessage *envmsg; SECItem *input; FILE *outfile; PRFileDesc *envFile; PK11SymKey *bulkkey; SECOidTag bulkalgtag; int keysize; }; static NSSCMSMessage * decode(FILE *out, SECItem *input, const struct decodeOptionsStr *decodeOptions) { NSSCMSDecoderContext *dcx; SECStatus rv; NSSCMSMessage *cmsg; int nlevels, i; SECItem sitem = { 0, 0, 0 }; PORT_SetError(0); dcx = NSS_CMSDecoder_Start(NULL, NULL, NULL, /* content callback */ pwcb, pwcb_arg, /* password callback */ decodeOptions->dkcb, /* decrypt key callback */ decodeOptions->bulkkey); if (dcx == NULL) { fprintf(stderr, "%s: failed to set up message decoder.\n", progName); return NULL; } rv = NSS_CMSDecoder_Update(dcx, (char *)input->data, input->len); if (rv != SECSuccess) { fprintf(stderr, "%s: failed to decode message.\n", progName); NSS_CMSDecoder_Cancel(dcx); return NULL; } cmsg = NSS_CMSDecoder_Finish(dcx); if (cmsg == NULL) { fprintf(stderr, "%s: failed to decode message.\n", progName); return NULL; } if (decodeOptions->headerLevel >= 0) { /*fprintf(out, "SMIME: ", decodeOptions->headerLevel, i);*/ fprintf(out, "SMIME: "); } nlevels = NSS_CMSMessage_ContentLevelCount(cmsg); for (i = 0; i < nlevels; i++) { NSSCMSContentInfo *cinfo; SECOidTag typetag; cinfo = NSS_CMSMessage_ContentLevel(cmsg, i); typetag = NSS_CMSContentInfo_GetContentTypeTag(cinfo); if (decodeOptions->headerLevel >= 0) fprintf(out, "\tlevel=%d.%d; ", decodeOptions->headerLevel, nlevels - i); switch (typetag) { case SEC_OID_PKCS7_SIGNED_DATA: { NSSCMSSignedData *sigd = NULL; SECItem **digests; int nsigners; int j; if (decodeOptions->headerLevel >= 0) fprintf(out, "type=signedData; "); sigd = (NSSCMSSignedData *)NSS_CMSContentInfo_GetContent(cinfo); if (sigd == NULL) { SECU_PrintError(progName, "signedData component missing"); goto loser; } /* if we have a content file, but no digests for this signedData */ if (decodeOptions->content.data != NULL && !NSS_CMSSignedData_HasDigests(sigd)) { PLArenaPool *poolp; SECAlgorithmID **digestalgs; /* detached content: grab content file */ sitem = decodeOptions->content; if ((poolp = PORT_NewArena(1024)) == NULL) { fprintf(stderr, "cmsutil: Out of memory.\n"); goto loser; } digestalgs = NSS_CMSSignedData_GetDigestAlgs(sigd); if (DigestFile (poolp, &digests, &sitem, digestalgs) != SECSuccess) { SECU_PrintError(progName, "problem computing message digest"); PORT_FreeArena(poolp, PR_FALSE); goto loser; } if (NSS_CMSSignedData_SetDigests(sigd, digestalgs, digests) != SECSuccess) { SECU_PrintError(progName, "problem setting message digests"); PORT_FreeArena(poolp, PR_FALSE); goto loser; } PORT_FreeArena(poolp, PR_FALSE); } /* import the certificates */ if (NSS_CMSSignedData_ImportCerts(sigd, decodeOptions->options->certHandle, decodeOptions->options->certUsage, decodeOptions->keepCerts) != SECSuccess) { SECU_PrintError(progName, "cert import failed"); goto loser; } /* find out about signers */ nsigners = NSS_CMSSignedData_SignerInfoCount(sigd); if (decodeOptions->headerLevel >= 0) fprintf(out, "nsigners=%d; ", nsigners); if (nsigners == 0) { /* Might be a cert transport message ** or might be an invalid message, such as a QA test message ** or a message from an attacker. */ SECStatus rv; rv = NSS_CMSSignedData_VerifyCertsOnly(sigd, decodeOptions->options->certHandle, decodeOptions->options->certUsage); if (rv != SECSuccess) { fprintf(stderr, "cmsutil: Verify certs-only failed!\n"); goto loser; } return cmsg; } /* still no digests? */ if (!NSS_CMSSignedData_HasDigests(sigd)) { SECU_PrintError(progName, "no message digests"); goto loser; } for (j = 0; j < nsigners; j++) { const char * svs; NSSCMSSignerInfo *si; NSSCMSVerificationStatus vs; SECStatus bad; si = NSS_CMSSignedData_GetSignerInfo(sigd, j); if (decodeOptions->headerLevel >= 0) { char *signercn; static char empty[] = { "" }; signercn = NSS_CMSSignerInfo_GetSignerCommonName(si); if (signercn == NULL) signercn = empty; fprintf(out, "\n\t\tsigner%d.id=\"%s\"; ", j, signercn); if (signercn != empty) PORT_Free(signercn); } bad = NSS_CMSSignedData_VerifySignerInfo(sigd, j, decodeOptions->options->certHandle, decodeOptions->options->certUsage); vs = NSS_CMSSignerInfo_GetVerificationStatus(si); svs = NSS_CMSUtil_VerificationStatusToString(vs); if (decodeOptions->headerLevel >= 0) { fprintf(out, "signer%d.status=%s; ", j, svs); /* goto loser ? */ } else if (bad && out) { fprintf(stderr, "signer %d status = %s\n", j, svs); goto loser; } } } break; case SEC_OID_PKCS7_ENVELOPED_DATA: { NSSCMSEnvelopedData *envd; if (decodeOptions->headerLevel >= 0) fprintf(out, "type=envelopedData; "); envd = (NSSCMSEnvelopedData *)NSS_CMSContentInfo_GetContent(cinfo); if (envd == NULL) { SECU_PrintError(progName, "envelopedData component missing"); goto loser; } } break; case SEC_OID_PKCS7_ENCRYPTED_DATA: { NSSCMSEncryptedData *encd; if (decodeOptions->headerLevel >= 0) fprintf(out, "type=encryptedData; "); encd = (NSSCMSEncryptedData *)NSS_CMSContentInfo_GetContent(cinfo); if (encd == NULL) { SECU_PrintError(progName, "encryptedData component missing"); goto loser; } } break; case SEC_OID_PKCS7_DATA: if (decodeOptions->headerLevel >= 0) fprintf(out, "type=data; "); break; default: break; } if (decodeOptions->headerLevel >= 0) fprintf(out, "\n"); } if (!decodeOptions->suppressContent && out) { SECItem *item = (sitem.data ? &sitem : NSS_CMSMessage_GetContent(cmsg)); if (item && item->data && item->len) { fwrite(item->data, item->len, 1, out); } } return cmsg; loser: if (cmsg) NSS_CMSMessage_Destroy(cmsg); return NULL; } /* example of a callback function to use with encoder */ /* static void writeout(void *arg, const char *buf, unsigned long len) { FILE *f = (FILE *)arg; if (f != NULL && buf != NULL) (void)fwrite(buf, len, 1, f); } */ static NSSCMSMessage * signed_data(struct signOptionsStr *signOptions) { NSSCMSMessage *cmsg = NULL; NSSCMSContentInfo *cinfo; NSSCMSSignedData *sigd; NSSCMSSignerInfo *signerinfo; CERTCertificate *cert= NULL, *ekpcert = NULL; if (cms_verbose) { fprintf(stderr, "Input to signed_data:\n"); if (signOptions->options->password) fprintf(stderr, "password [%s]\n", signOptions->options->password); else if (signOptions->options->pwfile) fprintf(stderr, "password file [%s]\n", signOptions->options->pwfile); else fprintf(stderr, "password [NULL]\n"); fprintf(stderr, "certUsage [%d]\n", signOptions->options->certUsage); if (signOptions->options->certHandle) fprintf(stderr, "certdb [%p]\n", signOptions->options->certHandle); else fprintf(stderr, "certdb [NULL]\n"); if (signOptions->nickname) fprintf(stderr, "nickname [%s]\n", signOptions->nickname); else fprintf(stderr, "nickname [NULL]\n"); } if (signOptions->nickname == NULL) { fprintf(stderr, "ERROR: please indicate the nickname of a certificate to sign with.\n"); return NULL; } if ((cert = CERT_FindUserCertByUsage(signOptions->options->certHandle, signOptions->nickname, signOptions->options->certUsage, PR_FALSE, &pwdata)) == NULL) { SECU_PrintError(progName, "the corresponding cert for key \"%s\" does not exist", signOptions->nickname); return NULL; } if (cms_verbose) { fprintf(stderr, "Found certificate for %s\n", signOptions->nickname); } /* * create the message object */ cmsg = NSS_CMSMessage_Create(NULL); /* create a message on its own pool */ if (cmsg == NULL) { fprintf(stderr, "ERROR: cannot create CMS message.\n"); return NULL; } /* * build chain of objects: message->signedData->data */ if ((sigd = NSS_CMSSignedData_Create(cmsg)) == NULL) { fprintf(stderr, "ERROR: cannot create CMS signedData object.\n"); goto loser; } cinfo = NSS_CMSMessage_GetContentInfo(cmsg); if (NSS_CMSContentInfo_SetContent_SignedData(cmsg, cinfo, sigd) != SECSuccess) { fprintf(stderr, "ERROR: cannot attach CMS signedData object.\n"); goto loser; } cinfo = NSS_CMSSignedData_GetContentInfo(sigd); /* we're always passing data in and detaching optionally */ if (NSS_CMSContentInfo_SetContent_Data(cmsg, cinfo, NULL, signOptions->detached) != SECSuccess) { fprintf(stderr, "ERROR: cannot attach CMS data object.\n"); goto loser; } /* * create & attach signer information */ signerinfo = NSS_CMSSignerInfo_Create(cmsg, cert, signOptions->hashAlgTag); if (signerinfo == NULL) { fprintf(stderr, "ERROR: cannot create CMS signerInfo object.\n"); goto loser; } if (cms_verbose) { fprintf(stderr, "Created CMS message, added signed data w/ signerinfo\n"); } /* we want the cert chain included for this one */ if (NSS_CMSSignerInfo_IncludeCerts(signerinfo, NSSCMSCM_CertChain, signOptions->options->certUsage) != SECSuccess) { fprintf(stderr, "ERROR: cannot find cert chain.\n"); goto loser; } if (cms_verbose) { fprintf(stderr, "imported certificate\n"); } if (signOptions->signingTime) { if (NSS_CMSSignerInfo_AddSigningTime(signerinfo, PR_Now()) != SECSuccess) { fprintf(stderr, "ERROR: cannot add signingTime attribute.\n"); goto loser; } } if (signOptions->smimeProfile) { if (NSS_CMSSignerInfo_AddSMIMECaps(signerinfo) != SECSuccess) { fprintf(stderr, "ERROR: cannot add SMIMECaps attribute.\n"); goto loser; } } if (!signOptions->encryptionKeyPreferenceNick) { /* check signing cert for fitness as encryption cert */ SECStatus FitForEncrypt = CERT_CheckCertUsage(cert, certUsageEmailRecipient); if (SECSuccess == FitForEncrypt) { /* if yes, add signing cert as EncryptionKeyPreference */ if (NSS_CMSSignerInfo_AddSMIMEEncKeyPrefs(signerinfo, cert, signOptions->options->certHandle) != SECSuccess) { fprintf(stderr, "ERROR: cannot add default SMIMEEncKeyPrefs attribute.\n"); goto loser; } if (NSS_CMSSignerInfo_AddMSSMIMEEncKeyPrefs(signerinfo, cert, signOptions->options->certHandle) != SECSuccess) { fprintf(stderr, "ERROR: cannot add default MS SMIMEEncKeyPrefs attribute.\n"); goto loser; } } else { /* this is a dual-key cert case, we need to look for the encryption certificate under the same nickname as the signing cert */ /* get the cert, add it to the message */ if ((ekpcert = CERT_FindUserCertByUsage( signOptions->options->certHandle, signOptions->nickname, certUsageEmailRecipient, PR_FALSE, &pwdata)) == NULL) { SECU_PrintError(progName, "the corresponding cert for key \"%s\" does not exist", signOptions->encryptionKeyPreferenceNick); goto loser; } if (NSS_CMSSignerInfo_AddSMIMEEncKeyPrefs(signerinfo, ekpcert, signOptions->options->certHandle) != SECSuccess) { fprintf(stderr, "ERROR: cannot add SMIMEEncKeyPrefs attribute.\n"); goto loser; } if (NSS_CMSSignerInfo_AddMSSMIMEEncKeyPrefs(signerinfo, ekpcert, signOptions->options->certHandle) != SECSuccess) { fprintf(stderr, "ERROR: cannot add MS SMIMEEncKeyPrefs attribute.\n"); goto loser; } if (NSS_CMSSignedData_AddCertificate(sigd, ekpcert) != SECSuccess) { fprintf(stderr, "ERROR: cannot add encryption certificate.\n"); goto loser; } } } else if (PL_strcmp(signOptions->encryptionKeyPreferenceNick, "NONE") == 0) { /* No action */ } else { /* get the cert, add it to the message */ if ((ekpcert = CERT_FindUserCertByUsage( signOptions->options->certHandle, signOptions->encryptionKeyPreferenceNick, certUsageEmailRecipient, PR_FALSE, &pwdata)) == NULL) { SECU_PrintError(progName, "the corresponding cert for key \"%s\" does not exist", signOptions->encryptionKeyPreferenceNick); goto loser; } if (NSS_CMSSignerInfo_AddSMIMEEncKeyPrefs(signerinfo, ekpcert, signOptions->options->certHandle) != SECSuccess) { fprintf(stderr, "ERROR: cannot add SMIMEEncKeyPrefs attribute.\n"); goto loser; } if (NSS_CMSSignerInfo_AddMSSMIMEEncKeyPrefs(signerinfo, ekpcert, signOptions->options->certHandle) != SECSuccess) { fprintf(stderr, "ERROR: cannot add MS SMIMEEncKeyPrefs attribute.\n"); goto loser; } if (NSS_CMSSignedData_AddCertificate(sigd, ekpcert) != SECSuccess) { fprintf(stderr, "ERROR: cannot add encryption certificate.\n"); goto loser; } } if (NSS_CMSSignedData_AddSignerInfo(sigd, signerinfo) != SECSuccess) { fprintf(stderr, "ERROR: cannot add CMS signerInfo object.\n"); goto loser; } if (cms_verbose) { fprintf(stderr, "created signed-data message\n"); } if (ekpcert) { CERT_DestroyCertificate(ekpcert); } if (cert) { CERT_DestroyCertificate(cert); } return cmsg; loser: if (ekpcert) { CERT_DestroyCertificate(ekpcert); } if (cert) { CERT_DestroyCertificate(cert); } NSS_CMSMessage_Destroy(cmsg); return NULL; } static NSSCMSMessage * enveloped_data(struct envelopeOptionsStr *envelopeOptions) { NSSCMSMessage *cmsg = NULL; NSSCMSContentInfo *cinfo; NSSCMSEnvelopedData *envd; NSSCMSRecipientInfo *recipientinfo; CERTCertificate **recipientcerts = NULL; CERTCertDBHandle *dbhandle; PLArenaPool *tmppoolp = NULL; SECOidTag bulkalgtag; int keysize, i = 0; int cnt; dbhandle = envelopeOptions->options->certHandle; /* count the recipients */ if ((cnt = nss_CMSArray_Count((void **)envelopeOptions->recipients)) == 0) { fprintf(stderr, "ERROR: please name at least one recipient.\n"); goto loser; } if ((tmppoolp = PORT_NewArena (1024)) == NULL) { fprintf(stderr, "ERROR: out of memory.\n"); goto loser; } /* XXX find the recipient's certs by email address or nickname */ if ((recipientcerts = (CERTCertificate **)PORT_ArenaZAlloc(tmppoolp, (cnt+1)*sizeof(CERTCertificate*))) == NULL) { fprintf(stderr, "ERROR: out of memory.\n"); goto loser; } for (i=0; envelopeOptions->recipients[i] != NULL; i++) { if ((recipientcerts[i] = CERT_FindCertByNicknameOrEmailAddr(dbhandle, envelopeOptions->recipients[i])) == NULL) { SECU_PrintError(progName, "cannot find certificate for \"%s\"", envelopeOptions->recipients[i]); i=0; goto loser; } } recipientcerts[i] = NULL; i=0; /* find a nice bulk algorithm */ if (NSS_SMIMEUtil_FindBulkAlgForRecipients(recipientcerts, &bulkalgtag, &keysize) != SECSuccess) { fprintf(stderr, "ERROR: cannot find common bulk algorithm.\n"); goto loser; } /* * create the message object */ cmsg = NSS_CMSMessage_Create(NULL); /* create a message on its own pool */ if (cmsg == NULL) { fprintf(stderr, "ERROR: cannot create CMS message.\n"); goto loser; } /* * build chain of objects: message->envelopedData->data */ if ((envd = NSS_CMSEnvelopedData_Create(cmsg, bulkalgtag, keysize)) == NULL) { fprintf(stderr, "ERROR: cannot create CMS envelopedData object.\n"); goto loser; } cinfo = NSS_CMSMessage_GetContentInfo(cmsg); if (NSS_CMSContentInfo_SetContent_EnvelopedData(cmsg, cinfo, envd) != SECSuccess) { fprintf(stderr, "ERROR: cannot attach CMS envelopedData object.\n"); goto loser; } cinfo = NSS_CMSEnvelopedData_GetContentInfo(envd); /* we're always passing data in, so the content is NULL */ if (NSS_CMSContentInfo_SetContent_Data(cmsg, cinfo, NULL, PR_FALSE) != SECSuccess) { fprintf(stderr, "ERROR: cannot attach CMS data object.\n"); goto loser; } /* * create & attach recipient information */ for (i = 0; recipientcerts[i] != NULL; i++) { if ((recipientinfo = NSS_CMSRecipientInfo_Create(cmsg, recipientcerts[i])) == NULL) { fprintf(stderr, "ERROR: cannot create CMS recipientInfo object.\n"); goto loser; } if (NSS_CMSEnvelopedData_AddRecipient(envd, recipientinfo) != SECSuccess) { fprintf(stderr, "ERROR: cannot add CMS recipientInfo object.\n"); goto loser; } CERT_DestroyCertificate(recipientcerts[i]); } if (tmppoolp) PORT_FreeArena(tmppoolp, PR_FALSE); return cmsg; loser: if (recipientcerts) { for (; recipientcerts[i] != NULL; i++) { CERT_DestroyCertificate(recipientcerts[i]); } } if (cmsg) NSS_CMSMessage_Destroy(cmsg); if (tmppoolp) PORT_FreeArena(tmppoolp, PR_FALSE); return NULL; } PK11SymKey *dkcb(void *arg, SECAlgorithmID *algid) { return (PK11SymKey*)arg; } static SECStatus get_enc_params(struct encryptOptionsStr *encryptOptions) { struct envelopeOptionsStr envelopeOptions; SECStatus rv = SECFailure; NSSCMSMessage *env_cmsg; NSSCMSContentInfo *cinfo; int i, nlevels; /* * construct an enveloped data message to obtain bulk keys */ if (encryptOptions->envmsg) { env_cmsg = encryptOptions->envmsg; /* get it from an old message */ } else { SECItem dummyOut = { 0, 0, 0 }; SECItem dummyIn = { 0, 0, 0 }; char str[] = "Hello!"; PLArenaPool *tmparena = PORT_NewArena(1024); dummyIn.data = (unsigned char *)str; dummyIn.len = strlen(str); envelopeOptions.options = encryptOptions->options; envelopeOptions.recipients = encryptOptions->recipients; env_cmsg = enveloped_data(&envelopeOptions); NSS_CMSDEREncode(env_cmsg, &dummyIn, &dummyOut, tmparena); PR_Write(encryptOptions->envFile, dummyOut.data, dummyOut.len); PORT_FreeArena(tmparena, PR_FALSE); } /* * get the content info for the enveloped data */ nlevels = NSS_CMSMessage_ContentLevelCount(env_cmsg); for (i = 0; i < nlevels; i++) { SECOidTag typetag; cinfo = NSS_CMSMessage_ContentLevel(env_cmsg, i); typetag = NSS_CMSContentInfo_GetContentTypeTag(cinfo); if (typetag == SEC_OID_PKCS7_DATA) { /* * get the symmetric key */ encryptOptions->bulkalgtag = NSS_CMSContentInfo_GetContentEncAlgTag(cinfo); encryptOptions->keysize = NSS_CMSContentInfo_GetBulkKeySize(cinfo); encryptOptions->bulkkey = NSS_CMSContentInfo_GetBulkKey(cinfo); rv = SECSuccess; break; } } if (i == nlevels) { fprintf(stderr, "%s: could not retrieve enveloped data.", progName); } if (env_cmsg) NSS_CMSMessage_Destroy(env_cmsg); return rv; } static NSSCMSMessage * encrypted_data(struct encryptOptionsStr *encryptOptions) { SECStatus rv = SECFailure; NSSCMSMessage *cmsg = NULL; NSSCMSContentInfo *cinfo; NSSCMSEncryptedData *encd; NSSCMSEncoderContext *ecx = NULL; PLArenaPool *tmppoolp = NULL; SECItem derOut = { 0, 0, 0 }; /* arena for output */ tmppoolp = PORT_NewArena(1024); if (!tmppoolp) { fprintf(stderr, "%s: out of memory.\n", progName); return NULL; } /* * create the message object */ cmsg = NSS_CMSMessage_Create(NULL); if (cmsg == NULL) { fprintf(stderr, "ERROR: cannot create CMS message.\n"); goto loser; } /* * build chain of objects: message->encryptedData->data */ if ((encd = NSS_CMSEncryptedData_Create(cmsg, encryptOptions->bulkalgtag, encryptOptions->keysize)) == NULL) { fprintf(stderr, "ERROR: cannot create CMS encryptedData object.\n"); goto loser; } cinfo = NSS_CMSMessage_GetContentInfo(cmsg); if (NSS_CMSContentInfo_SetContent_EncryptedData(cmsg, cinfo, encd) != SECSuccess) { fprintf(stderr, "ERROR: cannot attach CMS encryptedData object.\n"); goto loser; } cinfo = NSS_CMSEncryptedData_GetContentInfo(encd); /* we're always passing data in, so the content is NULL */ if (NSS_CMSContentInfo_SetContent_Data(cmsg, cinfo, NULL, PR_FALSE) != SECSuccess) { fprintf(stderr, "ERROR: cannot attach CMS data object.\n"); goto loser; } ecx = NSS_CMSEncoder_Start(cmsg, NULL, NULL, &derOut, tmppoolp, NULL, NULL, dkcb, encryptOptions->bulkkey, NULL, NULL); if (!ecx) { fprintf(stderr, "%s: cannot create encoder context.\n", progName); goto loser; } rv = NSS_CMSEncoder_Update(ecx, (char *)encryptOptions->input->data, encryptOptions->input->len); if (rv) { fprintf(stderr, "%s: failed to add data to encoder.\n", progName); goto loser; } rv = NSS_CMSEncoder_Finish(ecx); if (rv) { fprintf(stderr, "%s: failed to encrypt data.\n", progName); goto loser; } fwrite(derOut.data, derOut.len, 1, encryptOptions->outfile); /* if (bulkkey) PK11_FreeSymKey(bulkkey); */ if (tmppoolp) PORT_FreeArena(tmppoolp, PR_FALSE); return cmsg; loser: /* if (bulkkey) PK11_FreeSymKey(bulkkey); */ if (tmppoolp) PORT_FreeArena(tmppoolp, PR_FALSE); if (cmsg) NSS_CMSMessage_Destroy(cmsg); return NULL; } static NSSCMSMessage * signed_data_certsonly(struct certsonlyOptionsStr *certsonlyOptions) { NSSCMSMessage *cmsg = NULL; NSSCMSContentInfo *cinfo; NSSCMSSignedData *sigd; CERTCertificate **certs = NULL; CERTCertDBHandle *dbhandle; PLArenaPool *tmppoolp = NULL; int i = 0, cnt; dbhandle = certsonlyOptions->options->certHandle; if ((cnt = nss_CMSArray_Count((void**)certsonlyOptions->recipients)) == 0) { fprintf(stderr, "ERROR: please indicate the nickname of a certificate to sign with.\n"); goto loser; } if (!(tmppoolp = PORT_NewArena(1024))) { fprintf(stderr, "ERROR: out of memory.\n"); goto loser; } if (!(certs = PORT_ArenaZNewArray(tmppoolp, CERTCertificate *, cnt + 1))) { fprintf(stderr, "ERROR: out of memory.\n"); goto loser; } for (i=0; certsonlyOptions->recipients[i] != NULL; i++) { if ((certs[i] = CERT_FindCertByNicknameOrEmailAddr(dbhandle, certsonlyOptions->recipients[i])) == NULL) { SECU_PrintError(progName, "cannot find certificate for \"%s\"", certsonlyOptions->recipients[i]); i=0; goto loser; } } certs[i] = NULL; i=0; /* * create the message object */ cmsg = NSS_CMSMessage_Create(NULL); if (cmsg == NULL) { fprintf(stderr, "ERROR: cannot create CMS message.\n"); goto loser; } /* * build chain of objects: message->signedData->data */ if ((sigd = NSS_CMSSignedData_CreateCertsOnly(cmsg, certs[0], PR_TRUE)) == NULL) { fprintf(stderr, "ERROR: cannot create CMS signedData object.\n"); goto loser; } CERT_DestroyCertificate(certs[0]); for (i=1; irecipients[i]); goto loser; } CERT_DestroyCertificate(certs[i]); } cinfo = NSS_CMSMessage_GetContentInfo(cmsg); if (NSS_CMSContentInfo_SetContent_SignedData(cmsg, cinfo, sigd) != SECSuccess) { fprintf(stderr, "ERROR: cannot attach CMS signedData object.\n"); goto loser; } cinfo = NSS_CMSSignedData_GetContentInfo(sigd); if (NSS_CMSContentInfo_SetContent_Data(cmsg, cinfo, NULL, PR_FALSE) != SECSuccess) { fprintf(stderr, "ERROR: cannot attach CMS data object.\n"); goto loser; } if (tmppoolp) PORT_FreeArena(tmppoolp, PR_FALSE); return cmsg; loser: if (certs) { for (; i 1) { nb = PR_Read(fd, bp, 1); if (nb < 0) { /* deal with error */ return NULL; } else if (nb == 0) { /* deal with EOF */ return NULL; } else if (*bp == '\n') { /* deal with EOL */ ++bp; /* keep EOL character */ break; } else { /* ordinary character */ ++bp; --size; } } *bp = '\0'; return buf; } typedef enum { UNKNOWN, DECODE, SIGN, ENCRYPT, ENVELOPE, CERTSONLY } Mode; static int doBatchDecode(FILE *outFile, PRFileDesc *batchFile, const struct decodeOptionsStr *decodeOptions) { char * str; int exitStatus = 0; char batchLine[512]; while (NULL != (str = pl_fgets(batchLine, sizeof batchLine, batchFile))) { NSSCMSMessage *cmsg = NULL; PRFileDesc * inFile; int len = strlen(str); SECStatus rv; SECItem input = {0, 0, 0}; char cc; while (len > 0 && ((cc = str[len - 1]) == '\n' || cc == '\r')) { str[--len] = '\0'; } if (!len) /* skip empty line */ continue; if (str[0] == '#') continue; /* skip comment line */ fprintf(outFile, "========== %s ==========\n", str); inFile = PR_Open(str, PR_RDONLY, 00660); if (inFile == NULL) { fprintf(outFile, "%s: unable to open \"%s\" for reading\n", progName, str); exitStatus = 1; continue; } rv = SECU_FileToItem(&input, inFile); PR_Close(inFile); if (rv != SECSuccess) { SECU_PrintError(progName, "unable to read infile"); exitStatus = 1; continue; } cmsg = decode(outFile, &input, decodeOptions); SECITEM_FreeItem(&input, PR_FALSE); if (cmsg) NSS_CMSMessage_Destroy(cmsg); else { SECU_PrintError(progName, "problem decoding"); exitStatus = 1; } } return exitStatus; } int main(int argc, char **argv) { FILE *outFile; NSSCMSMessage *cmsg = NULL; PRFileDesc *inFile; PLOptState *optstate; PLOptStatus status; Mode mode = UNKNOWN; struct decodeOptionsStr decodeOptions = { 0 }; struct signOptionsStr signOptions = { 0 }; struct envelopeOptionsStr envelopeOptions = { 0 }; struct certsonlyOptionsStr certsonlyOptions = { 0 }; struct encryptOptionsStr encryptOptions = { 0 }; struct optionsStr options = { 0 }; int exitstatus; static char *ptrarray[128] = { 0 }; int nrecipients = 0; char *str, *tok; char *envFileName; SECItem input = { 0, 0, 0}; SECItem envmsg = { 0, 0, 0 }; SECStatus rv; PRFileDesc *contentFile = NULL; PRBool batch = PR_FALSE; #ifdef NISCC_TEST const char *ev = PR_GetEnv("NSS_DISABLE_ARENA_FREE_LIST"); PORT_Assert(ev); ev = PR_GetEnv("NSS_STRICT_SHUTDOWN"); PORT_Assert(ev); #endif progName = strrchr(argv[0], '/'); if (!progName) progName = strrchr(argv[0], '\\'); progName = progName ? progName+1 : argv[0]; inFile = PR_STDIN; outFile = stdout; envFileName = NULL; mode = UNKNOWN; decodeOptions.content.data = NULL; decodeOptions.content.len = 0; decodeOptions.suppressContent = PR_FALSE; decodeOptions.headerLevel = -1; decodeOptions.keepCerts = PR_FALSE; options.certUsage = certUsageEmailSigner; options.password = NULL; options.pwfile = NULL; signOptions.nickname = NULL; signOptions.detached = PR_FALSE; signOptions.signingTime = PR_FALSE; signOptions.smimeProfile = PR_FALSE; signOptions.encryptionKeyPreferenceNick = NULL; signOptions.hashAlgTag = SEC_OID_SHA1; envelopeOptions.recipients = NULL; encryptOptions.recipients = NULL; encryptOptions.envmsg = NULL; encryptOptions.envFile = NULL; encryptOptions.bulkalgtag = SEC_OID_UNKNOWN; encryptOptions.bulkkey = NULL; encryptOptions.keysize = -1; /* * Parse command line arguments */ optstate = PL_CreateOptState(argc, argv, "CDEGH:N:OPSTY:bc:d:e:f:h:i:kno:p:r:s:u:v"); while ((status = PL_GetNextOpt(optstate)) == PL_OPT_OK) { switch (optstate->option) { case 'C': mode = ENCRYPT; break; case 'D': mode = DECODE; break; case 'E': mode = ENVELOPE; break; case 'G': if (mode != SIGN) { fprintf(stderr, "%s: option -G only supported with option -S.\n", progName); Usage(progName); exit(1); } signOptions.signingTime = PR_TRUE; break; case 'H': if (mode != SIGN) { fprintf(stderr, "%s: option -H only supported with option -S.\n", progName); Usage(progName); exit(1); } decodeOptions.suppressContent = PR_TRUE; if (!strcmp(optstate->value, "MD2")) signOptions.hashAlgTag = SEC_OID_MD2; else if (!strcmp(optstate->value, "MD4")) signOptions.hashAlgTag = SEC_OID_MD4; else if (!strcmp(optstate->value, "MD5")) signOptions.hashAlgTag = SEC_OID_MD5; else if (!strcmp(optstate->value, "SHA1")) signOptions.hashAlgTag = SEC_OID_SHA1; else if (!strcmp(optstate->value, "SHA256")) signOptions.hashAlgTag = SEC_OID_SHA256; else if (!strcmp(optstate->value, "SHA384")) signOptions.hashAlgTag = SEC_OID_SHA384; else if (!strcmp(optstate->value, "SHA512")) signOptions.hashAlgTag = SEC_OID_SHA512; else { fprintf(stderr, "%s: -H requires one of MD2,MD4,MD5,SHA1,SHA256,SHA384,SHA512\n", progName); exit(1); } break; case 'N': if (mode != SIGN) { fprintf(stderr, "%s: option -N only supported with option -S.\n", progName); Usage(progName); exit(1); } signOptions.nickname = strdup(optstate->value); break; case 'O': mode = CERTSONLY; break; case 'P': if (mode != SIGN) { fprintf(stderr, "%s: option -P only supported with option -S.\n", progName); Usage(progName); exit(1); } signOptions.smimeProfile = PR_TRUE; break; case 'S': mode = SIGN; break; case 'T': if (mode != SIGN) { fprintf(stderr, "%s: option -T only supported with option -S.\n", progName); Usage(progName); exit(1); } signOptions.detached = PR_TRUE; break; case 'Y': if (mode != SIGN) { fprintf(stderr, "%s: option -Y only supported with option -S.\n", progName); Usage(progName); exit(1); } signOptions.encryptionKeyPreferenceNick = strdup(optstate->value); break; case 'b': if (mode != DECODE) { fprintf(stderr, "%s: option -b only supported with option -D.\n", progName); Usage(progName); exit(1); } batch = PR_TRUE; break; case 'c': if (mode != DECODE) { fprintf(stderr, "%s: option -c only supported with option -D.\n", progName); Usage(progName); exit(1); } contentFile = PR_Open(optstate->value, PR_RDONLY, 006600); if (contentFile == NULL) { fprintf(stderr, "%s: unable to open \"%s\" for reading.\n", progName, optstate->value); exit(1); } rv = SECU_FileToItem(&decodeOptions.content, contentFile); PR_Close(contentFile); if (rv != SECSuccess) { SECU_PrintError(progName, "problem reading content file"); exit(1); } if (!decodeOptions.content.data) { /* file was zero length */ decodeOptions.content.data = (unsigned char *)PORT_Strdup(""); decodeOptions.content.len = 0; } break; case 'd': SECU_ConfigDirectory(optstate->value); break; case 'e': envFileName = strdup(optstate->value); encryptOptions.envFile = PR_Open(envFileName, PR_RDONLY, 00660); break; case 'h': if (mode != DECODE) { fprintf(stderr, "%s: option -h only supported with option -D.\n", progName); Usage(progName); exit(1); } decodeOptions.headerLevel = atoi(optstate->value); if (decodeOptions.headerLevel < 0) { fprintf(stderr, "option -h cannot have a negative value.\n"); exit(1); } break; case 'i': if (!optstate->value) { fprintf(stderr, "-i option requires filename argument\n"); exit(1); } inFile = PR_Open(optstate->value, PR_RDONLY, 00660); if (inFile == NULL) { fprintf(stderr, "%s: unable to open \"%s\" for reading\n", progName, optstate->value); exit(1); } break; case 'k': if (mode != DECODE) { fprintf(stderr, "%s: option -k only supported with option -D.\n", progName); Usage(progName); exit(1); } decodeOptions.keepCerts = PR_TRUE; break; case 'n': if (mode != DECODE) { fprintf(stderr, "%s: option -n only supported with option -D.\n", progName); Usage(progName); exit(1); } decodeOptions.suppressContent = PR_TRUE; break; case 'o': outFile = fopen(optstate->value, "wb"); if (outFile == NULL) { fprintf(stderr, "%s: unable to open \"%s\" for writing\n", progName, optstate->value); exit(1); } break; case 'p': if (!optstate->value) { fprintf(stderr, "%s: option -p must have a value.\n", progName); Usage(progName); exit(1); } options.password = strdup(optstate->value); break; case 'f': if (!optstate->value) { fprintf(stderr, "%s: option -f must have a value.\n", progName); Usage(progName); exit(1); } options.pwfile = strdup(optstate->value); break; case 'r': if (!optstate->value) { fprintf(stderr, "%s: option -r must have a value.\n", progName); Usage(progName); exit(1); } envelopeOptions.recipients = ptrarray; str = (char *)optstate->value; do { tok = strchr(str, ','); if (tok) *tok = '\0'; envelopeOptions.recipients[nrecipients++] = strdup(str); if (tok) str = tok + 1; } while (tok); envelopeOptions.recipients[nrecipients] = NULL; encryptOptions.recipients = envelopeOptions.recipients; certsonlyOptions.recipients = envelopeOptions.recipients; break; case 'u': { int usageType; usageType = atoi (strdup(optstate->value)); if (usageType < certUsageSSLClient || usageType > certUsageAnyCA) return -1; options.certUsage = (SECCertUsage)usageType; break; } case 'v': cms_verbose = 1; break; } } if (status == PL_OPT_BAD) Usage(progName); PL_DestroyOptState(optstate); if (mode == UNKNOWN) Usage(progName); if (mode != CERTSONLY && !batch) { rv = SECU_FileToItem(&input, inFile); if (rv != SECSuccess) { SECU_PrintError(progName, "unable to read infile"); exit(1); } if (inFile != PR_STDIN) { PR_Close(inFile); } } if (cms_verbose) { fprintf(stderr, "received commands\n"); } /* Call the NSS initialization routines */ PR_Init(PR_SYSTEM_THREAD, PR_PRIORITY_NORMAL, 1); rv = NSS_InitReadWrite(SECU_ConfigDirectory(NULL)); if (SECSuccess != rv) { SECU_PrintError(progName, "NSS_Init failed"); exit(1); } if (cms_verbose) { fprintf(stderr, "NSS has been initialized.\n"); } options.certHandle = CERT_GetDefaultCertDB(); if (!options.certHandle) { SECU_PrintError(progName, "No default cert DB"); exit(1); } if (cms_verbose) { fprintf(stderr, "Got default certdb\n"); } if (options.password) { pwdata.source = PW_PLAINTEXT; pwdata.data = options.password; } if (options.pwfile) { pwdata.source = PW_FROMFILE; pwdata.data = options.pwfile; } pwcb = SECU_GetModulePassword; pwcb_arg = (void *)&pwdata; PK11_SetPasswordFunc(&SECU_GetModulePassword); #if defined(_WIN32) if (outFile == stdout) { /* If we're going to write binary data to stdout, we must put stdout ** into O_BINARY mode or else outgoing \n's will become \r\n's. */ int smrv = _setmode(_fileno(stdout), _O_BINARY); if (smrv == -1) { fprintf(stderr, "%s: Cannot change stdout to binary mode. Use -o option instead.\n", progName); return smrv; } } #endif exitstatus = 0; switch (mode) { case DECODE: /* -D */ decodeOptions.options = &options; if (encryptOptions.envFile) { /* Decoding encrypted-data, so get the bulkkey from an * enveloped-data message. */ SECU_FileToItem(&envmsg, encryptOptions.envFile); decodeOptions.options = &options; encryptOptions.envmsg = decode(NULL, &envmsg, &decodeOptions); if (!encryptOptions.envmsg) { SECU_PrintError(progName, "problem decoding env msg"); exitstatus = 1; break; } rv = get_enc_params(&encryptOptions); decodeOptions.dkcb = dkcb; decodeOptions.bulkkey = encryptOptions.bulkkey; } if (!batch) { cmsg = decode(outFile, &input, &decodeOptions); if (!cmsg) { SECU_PrintError(progName, "problem decoding"); exitstatus = 1; } } else { exitstatus = doBatchDecode(outFile, inFile, &decodeOptions); if (inFile != PR_STDIN) { PR_Close(inFile); } } break; case SIGN: /* -S */ signOptions.options = &options; cmsg = signed_data(&signOptions); if (!cmsg) { SECU_PrintError(progName, "problem signing"); exitstatus = 1; } break; case ENCRYPT: /* -C */ if (!envFileName) { fprintf(stderr, "%s: you must specify an envelope file with -e.\n", progName); exit(1); } encryptOptions.options = &options; encryptOptions.input = &input; encryptOptions.outfile = outFile; /* decode an enveloped-data message to get the bulkkey (create * a new one if neccessary) */ if (!encryptOptions.envFile) { encryptOptions.envFile = PR_Open(envFileName, PR_WRONLY|PR_CREATE_FILE, 00660); if (!encryptOptions.envFile) { fprintf(stderr, "%s: failed to create file %s.\n", progName, envFileName); exit(1); } } else { SECU_FileToItem(&envmsg, encryptOptions.envFile); decodeOptions.options = &options; encryptOptions.envmsg = decode(NULL, &envmsg, &decodeOptions); if (encryptOptions.envmsg == NULL) { SECU_PrintError(progName, "problem decrypting env msg"); exitstatus = 1; break; } } rv = get_enc_params(&encryptOptions); /* create the encrypted-data message */ cmsg = encrypted_data(&encryptOptions); if (!cmsg) { SECU_PrintError(progName, "problem encrypting"); exitstatus = 1; } if (encryptOptions.bulkkey) { PK11_FreeSymKey(encryptOptions.bulkkey); encryptOptions.bulkkey = NULL; } break; case ENVELOPE: /* -E */ envelopeOptions.options = &options; cmsg = enveloped_data(&envelopeOptions); if (!cmsg) { SECU_PrintError(progName, "problem enveloping"); exitstatus = 1; } break; case CERTSONLY: /* -O */ certsonlyOptions.options = &options; cmsg = signed_data_certsonly(&certsonlyOptions); if (!cmsg) { SECU_PrintError(progName, "problem with certs-only"); exitstatus = 1; } break; default: fprintf(stderr, "One of options -D, -S or -E must be set.\n"); Usage(progName); exitstatus = 1; } if ( (mode == SIGN || mode == ENVELOPE || mode == CERTSONLY) && (!exitstatus) ) { PLArenaPool *arena = PORT_NewArena(1024); NSSCMSEncoderContext *ecx; SECItem output = { 0, 0, 0 }; if (!arena) { fprintf(stderr, "%s: out of memory.\n", progName); exit(1); } if (cms_verbose) { fprintf(stderr, "cmsg [%p]\n", cmsg); fprintf(stderr, "arena [%p]\n", arena); if (pwcb_arg && (PW_PLAINTEXT == ((secuPWData*)pwcb_arg)->source)) fprintf(stderr, "password [%s]\n", ((secuPWData*)pwcb_arg)->data); else fprintf(stderr, "password [NULL]\n"); } ecx = NSS_CMSEncoder_Start(cmsg, NULL, NULL, /* DER output callback */ &output, arena, /* destination storage */ pwcb, pwcb_arg, /* password callback */ NULL, NULL, /* decrypt key callback */ NULL, NULL ); /* detached digests */ if (!ecx) { fprintf(stderr, "%s: cannot create encoder context.\n", progName); exit(1); } if (cms_verbose) { fprintf(stderr, "input len [%d]\n", input.len); { unsigned int j; for(j=0;j0&&j%35==0)?'\n':' '); } } if (input.len > 0) { /* skip if certs-only (or other zero content) */ rv = NSS_CMSEncoder_Update(ecx, (char *)input.data, input.len); if (rv) { fprintf(stderr, "%s: failed to add data to encoder.\n", progName); exit(1); } } rv = NSS_CMSEncoder_Finish(ecx); if (rv) { SECU_PrintError(progName, "failed to encode data"); exit(1); } if (cms_verbose) { fprintf(stderr, "encoding passed\n"); } fwrite(output.data, output.len, 1, outFile); if (cms_verbose) { fprintf(stderr, "wrote to file\n"); } PORT_FreeArena(arena, PR_FALSE); } if (cmsg) NSS_CMSMessage_Destroy(cmsg); if (outFile != stdout) fclose(outFile); SECITEM_FreeItem(&decodeOptions.content, PR_FALSE); SECITEM_FreeItem(&envmsg, PR_FALSE); SECITEM_FreeItem(&input, PR_FALSE); if (NSS_Shutdown() != SECSuccess) { SECU_PrintError(progName, "NSS_Shutdown failed"); exitstatus = 1; } PR_Cleanup(); return exitstatus; }