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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/. */
/*
* Stuff specific to S/MIME policy and interoperability.
*/
#include "secmime.h"
#include "secoid.h"
#include "pk11func.h"
#include "ciferfam.h" /* for CIPHER_FAMILY symbols */
#include "secasn1.h"
#include "secitem.h"
#include "cert.h"
#include "key.h"
#include "secerr.h"
#include "cms.h"
#include "nss.h"
SEC_ASN1_MKSUB(CERT_IssuerAndSNTemplate)
SEC_ASN1_MKSUB(SEC_OctetStringTemplate)
SEC_ASN1_CHOOSER_DECLARE(CERT_IssuerAndSNTemplate)
/* various integer's ASN.1 encoding */
static unsigned char asn1_int40[] = { SEC_ASN1_INTEGER, 0x01, 0x28 };
static unsigned char asn1_int64[] = { SEC_ASN1_INTEGER, 0x01, 0x40 };
static unsigned char asn1_int128[] = { SEC_ASN1_INTEGER, 0x02, 0x00, 0x80 };
/* RC2 algorithm parameters (used in smime_cipher_map) */
static SECItem param_int40 = { siBuffer, asn1_int40, sizeof(asn1_int40) };
static SECItem param_int64 = { siBuffer, asn1_int64, sizeof(asn1_int64) };
static SECItem param_int128 = { siBuffer, asn1_int128, sizeof(asn1_int128) };
/*
* XXX Would like the "parameters" field to be a SECItem *, but the
* encoder is having trouble with optional pointers to an ANY. Maybe
* once that is fixed, can change this back...
*/
typedef struct {
SECItem capabilityID;
SECItem parameters;
long cipher; /* optimization */
} NSSSMIMECapability;
static const SEC_ASN1Template NSSSMIMECapabilityTemplate[] = {
{ SEC_ASN1_SEQUENCE,
0, NULL, sizeof(NSSSMIMECapability) },
{ SEC_ASN1_OBJECT_ID,
offsetof(NSSSMIMECapability, capabilityID) },
{ SEC_ASN1_OPTIONAL | SEC_ASN1_ANY,
offsetof(NSSSMIMECapability, parameters) },
{ 0 }
};
static const SEC_ASN1Template NSSSMIMECapabilitiesTemplate[] = {
{ SEC_ASN1_SEQUENCE_OF, 0, NSSSMIMECapabilityTemplate }
};
/*
* NSSSMIMEEncryptionKeyPreference - if we find one of these, it needs to prompt us
* to store this and only this certificate permanently for the sender email address.
*/
typedef enum {
NSSSMIMEEncryptionKeyPref_IssuerSN,
NSSSMIMEEncryptionKeyPref_RKeyID,
NSSSMIMEEncryptionKeyPref_SubjectKeyID
} NSSSMIMEEncryptionKeyPrefSelector;
typedef struct {
NSSSMIMEEncryptionKeyPrefSelector selector;
union {
CERTIssuerAndSN *issuerAndSN;
NSSCMSRecipientKeyIdentifier *recipientKeyID;
SECItem *subjectKeyID;
} id;
} NSSSMIMEEncryptionKeyPreference;
extern const SEC_ASN1Template NSSCMSRecipientKeyIdentifierTemplate[];
static const SEC_ASN1Template smime_encryptionkeypref_template[] = {
{ SEC_ASN1_CHOICE,
offsetof(NSSSMIMEEncryptionKeyPreference, selector), NULL,
sizeof(NSSSMIMEEncryptionKeyPreference) },
{ SEC_ASN1_POINTER | SEC_ASN1_CONTEXT_SPECIFIC | SEC_ASN1_XTRN | 0 | SEC_ASN1_CONSTRUCTED,
offsetof(NSSSMIMEEncryptionKeyPreference, id.issuerAndSN),
SEC_ASN1_SUB(CERT_IssuerAndSNTemplate),
NSSSMIMEEncryptionKeyPref_IssuerSN },
{ SEC_ASN1_POINTER | SEC_ASN1_CONTEXT_SPECIFIC | 1 | SEC_ASN1_CONSTRUCTED,
offsetof(NSSSMIMEEncryptionKeyPreference, id.recipientKeyID),
NSSCMSRecipientKeyIdentifierTemplate,
NSSSMIMEEncryptionKeyPref_RKeyID },
{ SEC_ASN1_POINTER | SEC_ASN1_CONTEXT_SPECIFIC | SEC_ASN1_XTRN | 2 | SEC_ASN1_CONSTRUCTED,
offsetof(NSSSMIMEEncryptionKeyPreference, id.subjectKeyID),
SEC_ASN1_SUB(SEC_OctetStringTemplate),
NSSSMIMEEncryptionKeyPref_SubjectKeyID },
{ 0 }
};
/* smime_cipher_map - map of SMIME symmetric "ciphers" to algtag & parameters */
typedef struct {
unsigned long cipher;
SECOidTag algtag;
SECItem *parms;
PRBool enabled; /* in the user's preferences */
PRBool allowed; /* per export policy */
} smime_cipher_map_entry;
/* global: list of supported SMIME symmetric ciphers, ordered roughly by increasing strength */
static smime_cipher_map_entry smime_cipher_map[] = {
/* cipher, algtag, parms, enabled, allowed */
/* --------------------------------------- */
{ SMIME_RC2_CBC_40, SEC_OID_RC2_CBC, ¶m_int40, PR_TRUE, PR_TRUE },
{ SMIME_DES_CBC_56, SEC_OID_DES_CBC, NULL, PR_TRUE, PR_TRUE },
{ SMIME_RC2_CBC_64, SEC_OID_RC2_CBC, ¶m_int64, PR_TRUE, PR_TRUE },
{ SMIME_RC2_CBC_128, SEC_OID_RC2_CBC, ¶m_int128, PR_TRUE, PR_TRUE },
{ SMIME_DES_EDE3_168, SEC_OID_DES_EDE3_CBC, NULL, PR_TRUE, PR_TRUE },
{ SMIME_AES_CBC_128, SEC_OID_AES_128_CBC, NULL, PR_TRUE, PR_TRUE },
{ SMIME_AES_CBC_256, SEC_OID_AES_256_CBC, NULL, PR_TRUE, PR_TRUE }
};
static const int smime_cipher_map_count = sizeof(smime_cipher_map) / sizeof(smime_cipher_map_entry);
/*
* smime_mapi_by_cipher - find index into smime_cipher_map by cipher
*/
static int
smime_mapi_by_cipher(unsigned long cipher)
{
int i;
for (i = 0; i < smime_cipher_map_count; i++) {
if (smime_cipher_map[i].cipher == cipher)
return i; /* bingo */
}
return -1; /* should not happen if we're consistent, right? */
}
/*
* NSS_SMIME_EnableCipher - this function locally records the user's preference
*/
SECStatus
NSS_SMIMEUtil_EnableCipher(unsigned long which, PRBool on)
{
unsigned long mask;
int mapi;
mask = which & CIPHER_FAMILYID_MASK;
PORT_Assert(mask == CIPHER_FAMILYID_SMIME);
if (mask != CIPHER_FAMILYID_SMIME)
/* XXX set an error! */
return SECFailure;
mapi = smime_mapi_by_cipher(which);
if (mapi < 0)
/* XXX set an error */
return SECFailure;
/* do we try to turn on a forbidden cipher? */
if (!smime_cipher_map[mapi].allowed && on) {
PORT_SetError(SEC_ERROR_BAD_EXPORT_ALGORITHM);
return SECFailure;
}
if (smime_cipher_map[mapi].enabled != on)
smime_cipher_map[mapi].enabled = on;
return SECSuccess;
}
/*
* this function locally records the export policy
*/
SECStatus
NSS_SMIMEUtil_AllowCipher(unsigned long which, PRBool on)
{
unsigned long mask;
int mapi;
mask = which & CIPHER_FAMILYID_MASK;
PORT_Assert(mask == CIPHER_FAMILYID_SMIME);
if (mask != CIPHER_FAMILYID_SMIME)
/* XXX set an error! */
return SECFailure;
mapi = smime_mapi_by_cipher(which);
if (mapi < 0)
/* XXX set an error */
return SECFailure;
if (smime_cipher_map[mapi].allowed != on)
smime_cipher_map[mapi].allowed = on;
return SECSuccess;
}
/*
* Based on the given algorithm (including its parameters, in some cases!)
* and the given key (may or may not be inspected, depending on the
* algorithm), find the appropriate policy algorithm specification
* and return it. If no match can be made, -1 is returned.
*/
static SECStatus
nss_smime_get_cipher_for_alg_and_key(SECAlgorithmID *algid, PK11SymKey *key,
unsigned long *cipher)
{
SECOidTag algtag;
unsigned int keylen_bits;
unsigned long c;
algtag = SECOID_GetAlgorithmTag(algid);
switch (algtag) {
case SEC_OID_RC2_CBC:
keylen_bits = PK11_GetKeyStrength(key, algid);
switch (keylen_bits) {
case 40:
c = SMIME_RC2_CBC_40;
break;
case 64:
c = SMIME_RC2_CBC_64;
break;
case 128:
c = SMIME_RC2_CBC_128;
break;
default:
return SECFailure;
}
break;
case SEC_OID_DES_CBC:
c = SMIME_DES_CBC_56;
break;
case SEC_OID_DES_EDE3_CBC:
c = SMIME_DES_EDE3_168;
break;
case SEC_OID_AES_128_CBC:
c = SMIME_AES_CBC_128;
break;
case SEC_OID_AES_256_CBC:
c = SMIME_AES_CBC_256;
break;
default:
PORT_SetError(SEC_ERROR_INVALID_ALGORITHM);
return SECFailure;
}
*cipher = c;
return SECSuccess;
}
static PRBool
nss_smime_cipher_allowed(unsigned long which)
{
int mapi;
mapi = smime_mapi_by_cipher(which);
if (mapi < 0)
return PR_FALSE;
return smime_cipher_map[mapi].allowed;
}
PRBool
NSS_SMIMEUtil_DecryptionAllowed(SECAlgorithmID *algid, PK11SymKey *key)
{
unsigned long which;
if (nss_smime_get_cipher_for_alg_and_key(algid, key, &which) != SECSuccess)
return PR_FALSE;
return nss_smime_cipher_allowed(which);
}
/*
* NSS_SMIME_EncryptionPossible - check if any encryption is allowed
*
* This tells whether or not *any* S/MIME encryption can be done,
* according to policy. Callers may use this to do nicer user interface
* (say, greying out a checkbox so a user does not even try to encrypt
* a message when they are not allowed to) or for any reason they want
* to check whether S/MIME encryption (or decryption, for that matter)
* may be done.
*
* It takes no arguments. The return value is a simple boolean:
* PR_TRUE means encryption (or decryption) is *possible*
* (but may still fail due to other reasons, like because we cannot
* find all the necessary certs, etc.; PR_TRUE is *not* a guarantee)
* PR_FALSE means encryption (or decryption) is not permitted
*
* There are no errors from this routine.
*/
PRBool
NSS_SMIMEUtil_EncryptionPossible(void)
{
int i;
for (i = 0; i < smime_cipher_map_count; i++) {
if (smime_cipher_map[i].allowed)
return PR_TRUE;
}
return PR_FALSE;
}
static int
nss_SMIME_FindCipherForSMIMECap(NSSSMIMECapability *cap)
{
int i;
SECOidTag capIDTag;
/* we need the OIDTag here */
capIDTag = SECOID_FindOIDTag(&(cap->capabilityID));
/* go over all the SMIME ciphers we know and see if we find a match */
for (i = 0; i < smime_cipher_map_count; i++) {
if (smime_cipher_map[i].algtag != capIDTag)
continue;
/*
* XXX If SECITEM_CompareItem allowed NULLs as arguments (comparing
* 2 NULLs as equal and NULL and non-NULL as not equal), we could
* use that here instead of all of the following comparison code.
*/
if (!smime_cipher_map[i].parms) {
if (!cap->parameters.data || !cap->parameters.len)
break; /* both empty: bingo */
if (cap->parameters.len == 2 &&
cap->parameters.data[0] == SEC_ASN1_NULL &&
cap->parameters.data[1] == 0)
break; /* DER NULL == NULL, bingo */
} else if (cap->parameters.data != NULL &&
cap->parameters.len == smime_cipher_map[i].parms->len &&
PORT_Memcmp(cap->parameters.data, smime_cipher_map[i].parms->data,
cap->parameters.len) == 0) {
break; /* both not empty, same length & equal content: bingo */
}
}
if (i == smime_cipher_map_count)
return 0; /* no match found */
return smime_cipher_map[i].cipher; /* match found, point to cipher */
}
/*
* smime_choose_cipher - choose a cipher that works for all the recipients
*
* "scert" - sender's certificate
* "rcerts" - recipient's certificates
*/
static long
smime_choose_cipher(CERTCertificate *scert, CERTCertificate **rcerts)
{
PLArenaPool *poolp;
long cipher;
long chosen_cipher;
int *cipher_abilities;
int *cipher_votes;
int weak_mapi;
int strong_mapi;
int aes128_mapi;
int aes256_mapi;
int rcount, mapi, max, i;
chosen_cipher = SMIME_RC2_CBC_40; /* the default, LCD */
weak_mapi = smime_mapi_by_cipher(chosen_cipher);
aes128_mapi = smime_mapi_by_cipher(SMIME_AES_CBC_128);
aes256_mapi = smime_mapi_by_cipher(SMIME_AES_CBC_256);
poolp = PORT_NewArena(1024); /* XXX what is right value? */
if (poolp == NULL)
goto done;
cipher_abilities = (int *)PORT_ArenaZAlloc(poolp, smime_cipher_map_count * sizeof(int));
cipher_votes = (int *)PORT_ArenaZAlloc(poolp, smime_cipher_map_count * sizeof(int));
if (cipher_votes == NULL || cipher_abilities == NULL)
goto done;
/* Make triple-DES the strong cipher. */
strong_mapi = smime_mapi_by_cipher(SMIME_DES_EDE3_168);
/* walk all the recipient's certs */
for (rcount = 0; rcerts[rcount] != NULL; rcount++) {
SECItem *profile;
NSSSMIMECapability **caps;
int pref;
/* the first cipher that matches in the user's SMIME profile gets
* "smime_cipher_map_count" votes; the next one gets "smime_cipher_map_count" - 1
* and so on. If every cipher matches, the last one gets 1 (one) vote */
pref = smime_cipher_map_count;
/* find recipient's SMIME profile */
profile = CERT_FindSMimeProfile(rcerts[rcount]);
if (profile != NULL && profile->data != NULL && profile->len > 0) {
/* we have a profile (still DER-encoded) */
caps = NULL;
/* decode it */
if (SEC_QuickDERDecodeItem(poolp, &caps,
NSSSMIMECapabilitiesTemplate, profile) == SECSuccess &&
caps != NULL) {
/* walk the SMIME capabilities for this recipient */
for (i = 0; caps[i] != NULL; i++) {
cipher = nss_SMIME_FindCipherForSMIMECap(caps[i]);
mapi = smime_mapi_by_cipher(cipher);
if (mapi >= 0) {
/* found the cipher */
cipher_abilities[mapi]++;
cipher_votes[mapi] += pref;
--pref;
}
}
}
} else {
/* no profile found - so we can only assume that the user can do
* the mandatory algorithms which are RC2-40 (weak crypto) and
* 3DES (strong crypto), unless the user has an elliptic curve
* key. For elliptic curve keys, RFC 5753 mandates support
* for AES 128 CBC. */
SECKEYPublicKey *key;
unsigned int pklen_bits;
KeyType key_type;
/*
* if recipient's public key length is > 512, vote for a strong cipher
* please not that the side effect of this is that if only one recipient
* has an export-level public key, the strong cipher is disabled.
*
* XXX This is probably only good for RSA keys. What I would
* really like is a function to just say; Is the public key in
* this cert an export-length key? Then I would not have to
* know things like the value 512, or the kind of key, or what
* a subjectPublicKeyInfo is, etc.
*/
key = CERT_ExtractPublicKey(rcerts[rcount]);
pklen_bits = 0;
key_type = nullKey;
if (key != NULL) {
pklen_bits = SECKEY_PublicKeyStrengthInBits(key);
key_type = SECKEY_GetPublicKeyType(key);
SECKEY_DestroyPublicKey(key);
key = NULL;
}
if (key_type == ecKey) {
/* While RFC 5753 mandates support for AES-128 CBC, should use
* AES 256 if user's key provides more than 128 bits of
* security strength so that symmetric key is not weak link. */
/* RC2-40 is not compatible with elliptic curve keys. */
chosen_cipher = SMIME_DES_EDE3_168;
if (pklen_bits > 256) {
cipher_abilities[aes256_mapi]++;
cipher_votes[aes256_mapi] += pref;
pref--;
}
cipher_abilities[aes128_mapi]++;
cipher_votes[aes128_mapi] += pref;
pref--;
cipher_abilities[strong_mapi]++;
cipher_votes[strong_mapi] += pref;
pref--;
} else {
if (pklen_bits > 512) {
/* cast votes for the strong algorithm */
cipher_abilities[strong_mapi]++;
cipher_votes[strong_mapi] += pref;
pref--;
}
/* always cast (possibly less) votes for the weak algorithm */
cipher_abilities[weak_mapi]++;
cipher_votes[weak_mapi] += pref;
}
}
if (profile != NULL)
SECITEM_FreeItem(profile, PR_TRUE);
}
/* find cipher that is agreeable by all recipients and that has the most votes */
max = 0;
for (mapi = 0; mapi < smime_cipher_map_count; mapi++) {
/* if not all of the recipients can do this, forget it */
if (cipher_abilities[mapi] != rcount)
continue;
/* if cipher is not enabled or not allowed by policy, forget it */
if (!smime_cipher_map[mapi].enabled || !smime_cipher_map[mapi].allowed)
continue;
/* now see if this one has more votes than the last best one */
if (cipher_votes[mapi] >= max) {
/* if equal number of votes, prefer the ones further down in the list */
/* with the expectation that these are higher rated ciphers */
chosen_cipher = smime_cipher_map[mapi].cipher;
max = cipher_votes[mapi];
}
}
/* if no common cipher was found, chosen_cipher stays at the default */
done:
if (poolp != NULL)
PORT_FreeArena(poolp, PR_FALSE);
return chosen_cipher;
}
/*
* XXX This is a hack for now to satisfy our current interface.
* Eventually, with more parameters needing to be specified, just
* looking up the keysize is not going to be sufficient.
*/
static int
smime_keysize_by_cipher(unsigned long which)
{
int keysize;
switch (which) {
case SMIME_RC2_CBC_40:
keysize = 40;
break;
case SMIME_RC2_CBC_64:
keysize = 64;
break;
case SMIME_RC2_CBC_128:
case SMIME_AES_CBC_128:
keysize = 128;
break;
case SMIME_AES_CBC_256:
keysize = 256;
break;
case SMIME_DES_CBC_56:
case SMIME_DES_EDE3_168:
/*
* These are special; since the key size is fixed, we actually
* want to *avoid* specifying a key size.
*/
keysize = 0;
break;
default:
keysize = -1;
break;
}
return keysize;
}
/*
* NSS_SMIMEUtil_FindBulkAlgForRecipients - find bulk algorithm suitable for all recipients
*
* it would be great for UI purposes if there would be a way to find out which recipients
* prevented a strong cipher from being used...
*/
SECStatus
NSS_SMIMEUtil_FindBulkAlgForRecipients(CERTCertificate **rcerts,
SECOidTag *bulkalgtag, int *keysize)
{
unsigned long cipher;
int mapi;
cipher = smime_choose_cipher(NULL, rcerts);
mapi = smime_mapi_by_cipher(cipher);
*bulkalgtag = smime_cipher_map[mapi].algtag;
*keysize = smime_keysize_by_cipher(smime_cipher_map[mapi].cipher);
return SECSuccess;
}
/*
* NSS_SMIMEUtil_CreateSMIMECapabilities - get S/MIME capabilities for this instance of NSS
*
* scans the list of allowed and enabled ciphers and construct a PKCS9-compliant
* S/MIME capabilities attribute value.
*
* XXX Please note that, in contradiction to RFC2633 2.5.2, the capabilities only include
* symmetric ciphers, NO signature algorithms or key encipherment algorithms.
*
* "poolp" - arena pool to create the S/MIME capabilities data on
* "dest" - SECItem to put the data in
*/
SECStatus
NSS_SMIMEUtil_CreateSMIMECapabilities(PLArenaPool *poolp, SECItem *dest)
{
NSSSMIMECapability *cap;
NSSSMIMECapability **smime_capabilities;
smime_cipher_map_entry *map;
SECOidData *oiddata;
SECItem *dummy;
int i, capIndex;
/* if we have an old NSSSMIMECapability array, we'll reuse it (has the right size) */
/* smime_cipher_map_count + 1 is an upper bound - we might end up with less */
smime_capabilities = (NSSSMIMECapability **)PORT_ZAlloc((smime_cipher_map_count + 1) * sizeof(NSSSMIMECapability *));
if (smime_capabilities == NULL)
return SECFailure;
capIndex = 0;
/* Add all the symmetric ciphers
* We walk the cipher list backwards, as it is ordered by increasing strength,
* we prefer the stronger cipher over a weaker one, and we have to list the
* preferred algorithm first */
for (i = smime_cipher_map_count - 1; i >= 0; i--) {
/* Find the corresponding entry in the cipher map. */
map = &(smime_cipher_map[i]);
if (!map->enabled)
continue;
/* get next SMIME capability */
cap = (NSSSMIMECapability *)PORT_ZAlloc(sizeof(NSSSMIMECapability));
if (cap == NULL)
break;
smime_capabilities[capIndex++] = cap;
oiddata = SECOID_FindOIDByTag(map->algtag);
if (oiddata == NULL)
break;
cap->capabilityID.data = oiddata->oid.data;
cap->capabilityID.len = oiddata->oid.len;
cap->parameters.data = map->parms ? map->parms->data : NULL;
cap->parameters.len = map->parms ? map->parms->len : 0;
cap->cipher = smime_cipher_map[i].cipher;
}
/* XXX add signature algorithms */
/* XXX add key encipherment algorithms */
smime_capabilities[capIndex] = NULL; /* last one - now encode */
dummy = SEC_ASN1EncodeItem(poolp, dest, &smime_capabilities, NSSSMIMECapabilitiesTemplate);
/* now that we have the proper encoded SMIMECapabilities (or not),
* free the work data */
for (i = 0; smime_capabilities[i] != NULL; i++)
PORT_Free(smime_capabilities[i]);
PORT_Free(smime_capabilities);
return (dummy == NULL) ? SECFailure : SECSuccess;
}
/*
* NSS_SMIMEUtil_CreateSMIMEEncKeyPrefs - create S/MIME encryption key preferences attr value
*
* "poolp" - arena pool to create the attr value on
* "dest" - SECItem to put the data in
* "cert" - certificate that should be marked as preferred encryption key
* cert is expected to have been verified for EmailRecipient usage.
*/
SECStatus
NSS_SMIMEUtil_CreateSMIMEEncKeyPrefs(PLArenaPool *poolp, SECItem *dest, CERTCertificate *cert)
{
NSSSMIMEEncryptionKeyPreference ekp;
SECItem *dummy = NULL;
PLArenaPool *tmppoolp = NULL;
if (cert == NULL)
goto loser;
tmppoolp = PORT_NewArena(1024);
if (tmppoolp == NULL)
goto loser;
/* XXX hardcoded IssuerSN choice for now */
ekp.selector = NSSSMIMEEncryptionKeyPref_IssuerSN;
ekp.id.issuerAndSN = CERT_GetCertIssuerAndSN(tmppoolp, cert);
if (ekp.id.issuerAndSN == NULL)
goto loser;
dummy = SEC_ASN1EncodeItem(poolp, dest, &ekp, smime_encryptionkeypref_template);
loser:
if (tmppoolp)
PORT_FreeArena(tmppoolp, PR_FALSE);
return (dummy == NULL) ? SECFailure : SECSuccess;
}
/*
* NSS_SMIMEUtil_CreateSMIMEEncKeyPrefs - create S/MIME encryption key preferences attr value using MS oid
*
* "poolp" - arena pool to create the attr value on
* "dest" - SECItem to put the data in
* "cert" - certificate that should be marked as preferred encryption key
* cert is expected to have been verified for EmailRecipient usage.
*/
SECStatus
NSS_SMIMEUtil_CreateMSSMIMEEncKeyPrefs(PLArenaPool *poolp, SECItem *dest, CERTCertificate *cert)
{
SECItem *dummy = NULL;
PLArenaPool *tmppoolp = NULL;
CERTIssuerAndSN *isn;
if (cert == NULL)
goto loser;
tmppoolp = PORT_NewArena(1024);
if (tmppoolp == NULL)
goto loser;
isn = CERT_GetCertIssuerAndSN(tmppoolp, cert);
if (isn == NULL)
goto loser;
dummy = SEC_ASN1EncodeItem(poolp, dest, isn, SEC_ASN1_GET(CERT_IssuerAndSNTemplate));
loser:
if (tmppoolp)
PORT_FreeArena(tmppoolp, PR_FALSE);
return (dummy == NULL) ? SECFailure : SECSuccess;
}
/*
* NSS_SMIMEUtil_GetCertFromEncryptionKeyPreference -
* find cert marked by EncryptionKeyPreference attribute
*
* "certdb" - handle for the cert database to look in
* "DERekp" - DER-encoded value of S/MIME Encryption Key Preference attribute
*
* if certificate is supposed to be found among the message's included certificates,
* they are assumed to have been imported already.
*/
CERTCertificate *
NSS_SMIMEUtil_GetCertFromEncryptionKeyPreference(CERTCertDBHandle *certdb, SECItem *DERekp)
{
PLArenaPool *tmppoolp = NULL;
CERTCertificate *cert = NULL;
NSSSMIMEEncryptionKeyPreference ekp;
tmppoolp = PORT_NewArena(1024);
if (tmppoolp == NULL)
return NULL;
/* decode DERekp */
if (SEC_QuickDERDecodeItem(tmppoolp, &ekp, smime_encryptionkeypref_template,
DERekp) != SECSuccess)
goto loser;
/* find cert */
switch (ekp.selector) {
case NSSSMIMEEncryptionKeyPref_IssuerSN:
cert = CERT_FindCertByIssuerAndSN(certdb, ekp.id.issuerAndSN);
break;
case NSSSMIMEEncryptionKeyPref_RKeyID:
case NSSSMIMEEncryptionKeyPref_SubjectKeyID:
/* XXX not supported yet - we need to be able to look up certs by SubjectKeyID */
break;
default:
PORT_Assert(0);
}
loser:
if (tmppoolp)
PORT_FreeArena(tmppoolp, PR_FALSE);
return cert;
}
extern const char __nss_smime_version[];
PRBool
NSSSMIME_VersionCheck(const char *importedVersion)
{
#define NSS_VERSION_VARIABLE __nss_smime_version
#include "verref.h"
/*
* This is the secret handshake algorithm.
*
* This release has a simple version compatibility
* check algorithm. This release is not backward
* compatible with previous major releases. It is
* not compatible with future major, minor, or
* patch releases.
*/
return NSS_VersionCheck(importedVersion);
}
const char *
NSSSMIME_GetVersion(void)
{
return NSS_VERSION;
}
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