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|
/* -*- Mode: C; tab-width: 8; indent-tabs-mode: t; c-basic-offset: 8 -*- */
/* The following is the mozilla license blurb, as the bodies some of
* these functions were derived from the mozilla source. */
/*
* Version: MPL 1.1/GPL 2.0/LGPL 2.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is the Netscape security libraries.
*
* The Initial Developer of the Original Code is
* Netscape Communications Corporation.
* Portions created by the Initial Developer are Copyright (C) 1994-2000
* the Initial Developer. All Rights Reserved.
*
* Alternatively, the contents of this file may be used under the terms of
* either the GNU General Public License Version 2 or later (the "GPL"), or
* the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
* in which case the provisions of the GPL or the LGPL are applicable instead
* of those above. If you wish to allow use of your version of this file only
* under the terms of either the GPL or the LGPL, and not to allow others to
* use your version of this file under the terms of the MPL, indicate your
* decision by deleting the provisions above and replace them with the notice
* and other provisions required by the GPL or the LGPL. If you do not delete
* the provisions above, a recipient may use your version of this file under
* the terms of any one of the MPL, the GPL or the LGPL.
*/
/*
* Author: Chris Toshok (toshok@ximian.com)
*
* Copyright (C) 1999-2008 Novell, Inc. (www.novell.com)
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <time.h>
#include <glib/gi18n.h>
/* for e_utf8_strftime, what about e_time_format_time? */
#include <e-util/e-util.h>
#include "e-cert.h"
#include "e-cert-trust.h"
#include "pk11func.h"
#include "certdb.h"
#include "hasht.h"
#define E_CERT_GET_PRIVATE(obj) \
(G_TYPE_INSTANCE_GET_PRIVATE \
((obj), E_TYPE_CERT, ECertPrivate))
struct _ECertPrivate {
CERTCertificate *cert;
/* pointers we cache since the nss implementation allocs the
* string */
gchar *org_name;
gchar *org_unit_name;
gchar *cn;
gchar *issuer_org_name;
gchar *issuer_org_unit_name;
gchar *issuer_cn;
PRTime issued_on;
PRTime expires_on;
gchar *issued_on_string;
gchar *expires_on_string;
gchar *serial_number;
gchar *usage_string;
gchar *sha1_fingerprint;
gchar *md5_fingerprint;
EASN1Object *asn1;
gboolean delete;
};
G_DEFINE_TYPE (ECert, e_cert, G_TYPE_OBJECT)
static void
e_cert_finalize (GObject *object)
{
ECertPrivate *priv;
priv = E_CERT_GET_PRIVATE (object);
if (priv->org_name)
PORT_Free (priv->org_name);
if (priv->org_unit_name)
PORT_Free (priv->org_unit_name);
if (priv->cn)
PORT_Free (priv->cn);
if (priv->issuer_org_name)
PORT_Free (priv->issuer_org_name);
if (priv->issuer_org_unit_name)
PORT_Free (priv->issuer_org_unit_name);
if (priv->issuer_cn)
PORT_Free (priv->issuer_cn);
if (priv->issued_on_string)
PORT_Free (priv->issued_on_string);
if (priv->expires_on_string)
PORT_Free (priv->expires_on_string);
if (priv->serial_number)
PORT_Free (priv->serial_number);
g_free (priv->usage_string);
if (priv->sha1_fingerprint)
PORT_Free (priv->sha1_fingerprint);
if (priv->md5_fingerprint)
PORT_Free (priv->md5_fingerprint);
if (priv->asn1)
g_object_unref (priv->asn1);
if (priv->delete) {
printf ("attempting to delete cert marked for deletion\n");
if (e_cert_get_cert_type (E_CERT (object)) == E_CERT_USER) {
PK11_DeleteTokenCertAndKey (priv->cert, NULL);
} else if (!PK11_IsReadOnly (priv->cert->slot)) {
/* If the list of built-ins does contain a non-removable
* copy of this certificate, our call will not remove
* the certificate permanently, but rather remove all trust. */
SEC_DeletePermCertificate (priv->cert);
}
}
if (priv->cert)
CERT_DestroyCertificate (priv->cert);
/* Chain up to parent's finalize() method. */
G_OBJECT_CLASS (e_cert_parent_class)->finalize (object);
}
static void
e_cert_class_init (ECertClass *class)
{
GObjectClass *object_class;
g_type_class_add_private (class, sizeof (ECertPrivate));
object_class = G_OBJECT_CLASS (class);
object_class->finalize = e_cert_finalize;
}
static void
e_cert_init (ECert *ec)
{
ec->priv = E_CERT_GET_PRIVATE (ec);
}
static void
e_cert_populate (ECert *cert)
{
CERTCertificate *c = cert->priv->cert;
guchar fingerprint[20];
SECItem fpItem;
cert->priv->org_name = CERT_GetOrgName (&c->subject);
cert->priv->org_unit_name = CERT_GetOrgUnitName (&c->subject);
cert->priv->issuer_org_name = CERT_GetOrgName (&c->issuer);
cert->priv->issuer_org_unit_name = CERT_GetOrgUnitName (&c->issuer);
cert->priv->cn = CERT_GetCommonName (&c->subject);
cert->priv->issuer_cn = CERT_GetCommonName (&c->issuer);
if (SECSuccess == CERT_GetCertTimes (
c, &cert->priv->issued_on, &cert->priv->expires_on)) {
PRExplodedTime explodedTime;
struct tm exploded_tm;
gchar buf[32];
PR_ExplodeTime (
cert->priv->issued_on,
PR_LocalTimeParameters, &explodedTime);
exploded_tm.tm_sec = explodedTime.tm_sec;
exploded_tm.tm_min = explodedTime.tm_min;
exploded_tm.tm_hour = explodedTime.tm_hour;
exploded_tm.tm_mday = explodedTime.tm_mday;
exploded_tm.tm_mon = explodedTime.tm_month;
exploded_tm.tm_year = explodedTime.tm_year - 1900;
e_utf8_strftime (buf, sizeof (buf), _("%d/%m/%Y"), &exploded_tm);
cert->priv->issued_on_string = g_strdup (buf);
PR_ExplodeTime (
cert->priv->expires_on,
PR_LocalTimeParameters, &explodedTime);
exploded_tm.tm_sec = explodedTime.tm_sec;
exploded_tm.tm_min = explodedTime.tm_min;
exploded_tm.tm_hour = explodedTime.tm_hour;
exploded_tm.tm_mday = explodedTime.tm_mday;
exploded_tm.tm_mon = explodedTime.tm_month;
exploded_tm.tm_year = explodedTime.tm_year - 1900;
e_utf8_strftime (buf, sizeof (buf), _("%d/%m/%Y"), &exploded_tm);
cert->priv->expires_on_string = g_strdup (buf);
}
cert->priv->serial_number = CERT_Hexify (&cert->priv->cert->serialNumber, TRUE);
memset (fingerprint, 0, sizeof fingerprint);
PK11_HashBuf (SEC_OID_SHA1, fingerprint,
cert->priv->cert->derCert.data,
cert->priv->cert->derCert.len);
fpItem.data = fingerprint;
fpItem.len = SHA1_LENGTH;
cert->priv->sha1_fingerprint = CERT_Hexify (&fpItem, TRUE);
memset (fingerprint, 0, sizeof fingerprint);
PK11_HashBuf (SEC_OID_MD5, fingerprint,
cert->priv->cert->derCert.data,
cert->priv->cert->derCert.len);
fpItem.data = fingerprint;
fpItem.len = MD5_LENGTH;
cert->priv->md5_fingerprint = CERT_Hexify (&fpItem, TRUE);
}
ECert *
e_cert_new (CERTCertificate *cert)
{
ECert *ecert = E_CERT (g_object_new (E_TYPE_CERT, NULL));
/* ECert owns a reference to the 'cert', which will be freed on ECert finalize */
ecert->priv->cert = cert;
e_cert_populate (ecert);
return ecert;
}
ECert *
e_cert_new_from_der (gchar *data,
guint32 len)
{
CERTCertificate *cert = CERT_DecodeCertFromPackage (data, len);
if (!cert)
return NULL;
if (cert->dbhandle == NULL)
cert->dbhandle = CERT_GetDefaultCertDB ();
return e_cert_new (cert);
}
CERTCertificate *
e_cert_get_internal_cert (ECert *cert)
{
/* XXX should this refcnt it? */
return cert->priv->cert;
}
gboolean
e_cert_get_raw_der (ECert *cert,
gchar **data,
guint32 *len)
{
/* XXX do we really need to check if cert->priv->cert is NULL
* here? it should always be non - null if we have the
* ECert.. */
if (cert->priv->cert) {
*data = (gchar *)cert->priv->cert->derCert.data;
*len = (guint32)cert->priv->cert->derCert.len;
return TRUE;
}
*len = 0;
return FALSE;
}
const gchar *
e_cert_get_window_title (ECert *cert)
{
if (cert->priv->cert->nickname)
return cert->priv->cert->nickname;
else if (cert->priv->cn)
return cert->priv->cn;
else
return cert->priv->cert->subjectName;
}
const gchar *
e_cert_get_nickname (ECert *cert)
{
return cert->priv->cert->nickname;
}
const gchar *
e_cert_get_email (ECert *cert)
{
return cert->priv->cert->emailAddr;
}
const gchar *
e_cert_get_org (ECert *cert)
{
return cert->priv->org_name;
}
const gchar *
e_cert_get_org_unit (ECert *cert)
{
return cert->priv->org_unit_name;
}
const gchar *
e_cert_get_cn (ECert *cert)
{
return cert->priv->cn;
}
const gchar *
e_cert_get_issuer_name (ECert *cert)
{
return cert->priv->cert->issuerName;
}
const gchar *
e_cert_get_issuer_cn (ECert *cert)
{
return cert->priv->issuer_cn;
}
const gchar *
e_cert_get_issuer_org (ECert *cert)
{
return cert->priv->issuer_org_name;
}
const gchar *
e_cert_get_issuer_org_unit (ECert *cert)
{
return cert->priv->issuer_org_unit_name;
}
const gchar *
e_cert_get_subject_name (ECert *cert)
{
return cert->priv->cert->subjectName;
}
PRTime
e_cert_get_issued_on_time (ECert *cert)
{
return cert->priv->issued_on;
}
const gchar *
e_cert_get_issued_on (ECert *cert)
{
return cert->priv->issued_on_string;
}
PRTime
e_cert_get_expires_on_time (ECert *cert)
{
return cert->priv->expires_on;
}
const gchar *
e_cert_get_expires_on (ECert *cert)
{
return cert->priv->expires_on_string;
}
static struct {
gint bit;
const gchar *text;
} usageinfo[] = {
/* x509 certificate usage types */
{ certificateUsageEmailSigner, N_("Sign") },
{ certificateUsageEmailRecipient, N_("Encrypt") },
};
const gchar *
e_cert_get_usage (ECert *cert)
{
if (cert->priv->usage_string == NULL) {
gint i;
GString *str = g_string_new ("");
CERTCertificate *icert = e_cert_get_internal_cert (cert);
for (i = 0; i < G_N_ELEMENTS (usageinfo); i++) {
if (icert->keyUsage & usageinfo[i].bit) {
if (str->len != 0)
g_string_append (str, ", ");
g_string_append (str, _(usageinfo[i].text));
}
}
cert->priv->usage_string = str->str;
g_string_free (str, FALSE);
}
return cert->priv->usage_string;
}
const gchar *
e_cert_get_serial_number (ECert *cert)
{
return cert->priv->serial_number;
}
const gchar *
e_cert_get_sha1_fingerprint (ECert *cert)
{
return cert->priv->sha1_fingerprint;
}
const gchar *
e_cert_get_md5_fingerprint (ECert *cert)
{
return cert->priv->md5_fingerprint;
}
GList *
e_cert_get_chain (ECert *ecert)
{
GList *l = NULL;
g_object_ref (ecert);
while (ecert) {
CERTCertificate *cert = e_cert_get_internal_cert (ecert);
CERTCertificate *next_cert;
l = g_list_append (l, ecert);
if (SECITEM_CompareItem (&cert->derIssuer, &cert->derSubject) == SECEqual)
break;
next_cert = CERT_FindCertIssuer (cert, PR_Now (), certUsageSSLClient);
if (!next_cert)
break;
/* next_cert has a reference already */
ecert = e_cert_new (next_cert);
}
return l;
}
ECert *
e_cert_get_ca_cert (ECert *ecert)
{
CERTCertificate *cert, *next = e_cert_get_internal_cert (ecert), *internal;
cert = next;
internal = cert;
do {
if (cert != next && cert != internal)
CERT_DestroyCertificate (cert);
cert = next;
next = CERT_FindCertIssuer (cert, PR_Now (), certUsageAnyCA);
} while (next && next != cert);
if (cert == internal)
return g_object_ref (ecert);
else
return e_cert_new (cert);
}
static gboolean
get_int_value (SECItem *versionItem,
gulong *version)
{
SECStatus srv;
srv = SEC_ASN1DecodeInteger (versionItem,version);
if (srv != SECSuccess) {
g_warning ("could not decode version of cert");
return FALSE;
}
return TRUE;
}
static gboolean
process_version (SECItem *versionItem,
EASN1Object **retItem)
{
EASN1Object *item = e_asn1_object_new ();
gulong version;
e_asn1_object_set_display_name (item, _("Version"));
/* Now to figure out what version this certificate is. */
if (versionItem->data) {
if (!get_int_value (versionItem, &version))
return FALSE;
} else {
/* If there is no version present in the cert, then rfc2459
* says we default to v1 (0) */
version = 0;
}
switch (version) {
case 0:
e_asn1_object_set_display_value (item, _("Version 1"));
break;
case 1:
e_asn1_object_set_display_value (item, _("Version 2"));
break;
case 2:
e_asn1_object_set_display_value (item, _("Version 3"));
break;
default:
g_warning ("Bad value for cert version");
return FALSE;
}
*retItem = item;
return TRUE;
}
static gboolean
process_serial_number_der (SECItem *serialItem,
EASN1Object **retItem)
{
gchar *serialNumber;
EASN1Object *item = e_asn1_object_new ();
e_asn1_object_set_display_name (item, _("Serial Number"));
serialNumber = CERT_Hexify (serialItem, 1);
e_asn1_object_set_display_value (item, serialNumber);
PORT_Free (serialNumber); /* XXX the right free to use? */
*retItem = item;
return TRUE;
}
static gboolean
get_default_oid_format (SECItem *oid,
gchar **text)
{
gchar buf[300];
guint len;
gint written;
gulong val = oid->data[0];
guint i = val % 40;
val /= 40;
written = PR_snprintf (buf, 300, "%lu %u ", val, i);
if (written < 0)
return FALSE;
len = written;
val = 0;
for (i = 1; i < oid->len; ++i) {
/* In this loop, we have to parse a DER formatted
* If the first bit is a 1, then the integer is
* represented by more than one byte. If the
* first bit is set then we continue on and add
* the values of the later bytes until we get
* a byte without the first bit set.
*/
gulong j;
j = oid->data[i];
val = (val << 7) | (j & 0x7f);
if (j & 0x80)
continue;
written = PR_snprintf (&buf[len], sizeof (buf) - len, "%lu ", val);
if (written < 0)
return FALSE;
len += written;
if (len >= sizeof (buf))
g_warning ("OID data to big to display in 300 chars.");
val = 0;
}
*text = g_strdup (buf);
return TRUE;
}
static gboolean
get_oid_text (SECItem *oid,
gchar **text)
{
SECOidTag oidTag = SECOID_FindOIDTag (oid);
gchar *temp;
switch (oidTag) {
case SEC_OID_PKCS1_MD2_WITH_RSA_ENCRYPTION:
*text = g_strdup (_("PKCS #1 MD2 With RSA Encryption"));
break;
case SEC_OID_PKCS1_MD5_WITH_RSA_ENCRYPTION:
*text = g_strdup (_("PKCS #1 MD5 With RSA Encryption"));
break;
case SEC_OID_PKCS1_SHA1_WITH_RSA_ENCRYPTION:
*text = g_strdup (_("PKCS #1 SHA-1 With RSA Encryption"));
break;
case SEC_OID_PKCS1_SHA256_WITH_RSA_ENCRYPTION:
*text = g_strdup (_("PKCS #1 SHA-256 With RSA Encryption"));
break;
case SEC_OID_PKCS1_SHA384_WITH_RSA_ENCRYPTION:
*text = g_strdup (_("PKCS #1 SHA-384 With RSA Encryption"));
break;
case SEC_OID_PKCS1_SHA512_WITH_RSA_ENCRYPTION:
*text = g_strdup (_("PKCS #1 SHA-512 With RSA Encryption"));
break;
case SEC_OID_AVA_COUNTRY_NAME:
*text = g_strdup ("C");
break;
case SEC_OID_AVA_COMMON_NAME:
*text = g_strdup ("CN");
break;
case SEC_OID_AVA_ORGANIZATIONAL_UNIT_NAME:
*text = g_strdup ("OU");
break;
case SEC_OID_AVA_ORGANIZATION_NAME:
*text = g_strdup ("O");
break;
case SEC_OID_AVA_LOCALITY:
*text = g_strdup ("L");
break;
case SEC_OID_AVA_DN_QUALIFIER:
*text = g_strdup ("DN");
break;
case SEC_OID_AVA_DC:
*text = g_strdup ("DC");
break;
case SEC_OID_AVA_STATE_OR_PROVINCE:
*text = g_strdup ("ST");
break;
case SEC_OID_PKCS1_RSA_ENCRYPTION:
*text = g_strdup (_("PKCS #1 RSA Encryption"));
break;
case SEC_OID_X509_KEY_USAGE:
*text = g_strdup (_("Certificate Key Usage"));
break;
case SEC_OID_NS_CERT_EXT_CERT_TYPE:
*text = g_strdup (_("Netscape Certificate Type"));
break;
case SEC_OID_X509_AUTH_KEY_ID:
*text = g_strdup (_("Certificate Authority Key Identifier"));
break;
case SEC_OID_RFC1274_UID:
*text = g_strdup ("UID");
break;
case SEC_OID_PKCS9_EMAIL_ADDRESS:
*text = g_strdup ("E");
break;
default:
if (!get_default_oid_format (oid, &temp))
return FALSE;
*text = g_strdup_printf (_("Object Identifier (%s)"), temp);
g_free (temp);
break;
}
return TRUE;
}
static gboolean
process_raw_bytes (SECItem *data,
gchar **text)
{
/* This function is used to display some DER bytes
* that we have not added support for decoding.
* It prints the value of the byte out into a
* string that can later be displayed as a byte
* string. We place a new line after 24 bytes
* to break up extermaly long sequence of bytes.
*/
GString *str = g_string_new ("");
PRUint32 i;
gchar buffer[5];
for (i = 0; i < data->len; i++) {
PR_snprintf (buffer, 5, "%02x ", data->data[i]);
g_string_append (str, buffer);
if ((i + 1) % 16 == 0) {
g_string_append (str, "\n");
}
}
*text = g_string_free (str, FALSE);
return TRUE;
}
static gboolean
process_sec_algorithm_id (SECAlgorithmID *algID,
EASN1Object **retSequence)
{
EASN1Object *sequence = e_asn1_object_new ();
gchar *text;
*retSequence = NULL;
get_oid_text (&algID->algorithm, &text);
if (!algID->parameters.len ||
algID->parameters.data[0] == E_ASN1_OBJECT_TYPE_NULL) {
e_asn1_object_set_display_value (sequence, text);
e_asn1_object_set_valid_container (sequence, FALSE);
} else {
EASN1Object *subitem;
subitem = e_asn1_object_new ();
e_asn1_object_set_display_name (subitem, _("Algorithm Identifier"));
e_asn1_object_set_display_value (subitem, text);
e_asn1_object_append_child (sequence, subitem);
g_object_unref (subitem);
g_free (text);
subitem = e_asn1_object_new ();
e_asn1_object_set_display_name (subitem, _("Algorithm Parameters"));
process_raw_bytes (&algID->parameters, &text);
e_asn1_object_set_display_value (subitem, text);
e_asn1_object_append_child (sequence, subitem);
g_object_unref (subitem);
}
g_free (text);
*retSequence = sequence;
return TRUE;
}
static gboolean
process_subject_public_key_info (CERTSubjectPublicKeyInfo *spki,
EASN1Object *parentSequence)
{
EASN1Object *spkiSequence = e_asn1_object_new ();
EASN1Object *sequenceItem;
EASN1Object *printableItem;
SECItem data;
gchar *text;
e_asn1_object_set_display_name (spkiSequence, _("Subject Public Key Info"));
if (!process_sec_algorithm_id (&spki->algorithm, &sequenceItem))
return FALSE;
e_asn1_object_set_display_name (sequenceItem, _("Subject Public Key Algorithm"));
e_asn1_object_append_child (spkiSequence, sequenceItem);
/* The subjectPublicKey field is encoded as a bit string.
* ProcessRawBytes expects the lenght to be in bytes, so
* let's convert the lenght into a temporary SECItem.
*/
data.data = spki->subjectPublicKey.data;
data.len = spki->subjectPublicKey.len / 8;
process_raw_bytes (&data, &text);
printableItem = e_asn1_object_new ();
e_asn1_object_set_display_value (printableItem, text);
e_asn1_object_set_display_name (printableItem, _("Subject's Public Key"));
e_asn1_object_append_child (spkiSequence, printableItem);
g_object_unref (printableItem);
e_asn1_object_append_child (parentSequence, spkiSequence);
g_object_unref (spkiSequence);
return TRUE;
}
static gboolean
process_ns_cert_type_extensions (SECItem *extData,
GString *text)
{
SECItem decoded;
guchar nsCertType;
decoded.data = NULL;
decoded.len = 0;
if (SECSuccess != SEC_ASN1DecodeItem (NULL, &decoded,
SEC_ASN1_GET (SEC_BitStringTemplate), extData)) {
g_string_append (text, _("Error: Unable to process extension"));
return TRUE;
}
nsCertType = decoded.data[0];
PORT_Free (decoded.data); /* XXX right free? */
if (nsCertType & NS_CERT_TYPE_SSL_CLIENT) {
g_string_append (text, _("SSL Client Certificate"));
g_string_append (text, "\n");
}
if (nsCertType & NS_CERT_TYPE_SSL_SERVER) {
g_string_append (text, _("SSL Server Certificate"));
g_string_append (text, "\n");
}
if (nsCertType & NS_CERT_TYPE_EMAIL) {
g_string_append (text, _("Email"));
g_string_append (text, "\n");
}
if (nsCertType & NS_CERT_TYPE_OBJECT_SIGNING) {
g_string_append (text, _("Object Signer"));
g_string_append (text, "\n");
}
if (nsCertType & NS_CERT_TYPE_SSL_CA) {
g_string_append (text, _("SSL Certificate Authority"));
g_string_append (text, "\n");
}
if (nsCertType & NS_CERT_TYPE_EMAIL_CA) {
g_string_append (text, _("Email Certificate Authority"));
g_string_append (text, "\n");
}
if (nsCertType & NS_CERT_TYPE_OBJECT_SIGNING_CA) {
g_string_append (text, _("Object Signer"));
g_string_append (text, "\n");
}
return TRUE;
}
static gboolean
process_key_usage_extensions (SECItem *extData,
GString *text)
{
SECItem decoded;
guchar keyUsage;
decoded.data = NULL;
decoded.len = 0;
if (SECSuccess != SEC_ASN1DecodeItem (NULL, &decoded,
SEC_ASN1_GET (SEC_BitStringTemplate), extData)) {
g_string_append (text, _("Error: Unable to process extension"));
return TRUE;
}
keyUsage = decoded.data[0];
PORT_Free (decoded.data); /* XXX right free? */
if (keyUsage & KU_DIGITAL_SIGNATURE) {
g_string_append (text, _("Signing"));
g_string_append (text, "\n");
}
if (keyUsage & KU_NON_REPUDIATION) {
g_string_append (text, _("Non-repudiation"));
g_string_append (text, "\n");
}
if (keyUsage & KU_KEY_ENCIPHERMENT) {
g_string_append (text, _("Key Encipherment"));
g_string_append (text, "\n");
}
if (keyUsage & KU_DATA_ENCIPHERMENT) {
g_string_append (text, _("Data Encipherment"));
g_string_append (text, "\n");
}
if (keyUsage & KU_KEY_AGREEMENT) {
g_string_append (text, _("Key Agreement"));
g_string_append (text, "\n");
}
if (keyUsage & KU_KEY_CERT_SIGN) {
g_string_append (text, _("Certificate Signer"));
g_string_append (text, "\n");
}
if (keyUsage & KU_CRL_SIGN) {
g_string_append (text, _("CRL Signer"));
g_string_append (text, "\n");
}
return TRUE;
}
static gboolean
process_extension_data (SECOidTag oidTag,
SECItem *extData,
GString *str)
{
gboolean rv;
switch (oidTag) {
case SEC_OID_NS_CERT_EXT_CERT_TYPE:
rv = process_ns_cert_type_extensions (extData, str);
break;
case SEC_OID_X509_KEY_USAGE:
rv = process_key_usage_extensions (extData, str);
break;
default: {
gchar *text;
rv = process_raw_bytes (extData, &text);
g_string_append (str, text);
g_free (text);
break;
}
}
return rv;
}
static gboolean
process_single_extension (CERTCertExtension *extension,
EASN1Object **retExtension)
{
GString *str = g_string_new ("");
gchar *text;
EASN1Object *extensionItem;
SECOidTag oidTag = SECOID_FindOIDTag (&extension->id);
get_oid_text (&extension->id, &text);
extensionItem = e_asn1_object_new ();
e_asn1_object_set_display_name (extensionItem, text);
g_free (text);
if (extension->critical.data != NULL) {
if (extension->critical.data[0]) {
g_string_append (str, _("Critical"));
} else {
g_string_append (str, _("Not Critical"));
}
} else {
g_string_append (str, _("Not Critical"));
}
g_string_append (str, "\n");
if (!process_extension_data (oidTag, &extension->value, str)) {
g_string_free (str, TRUE);
return FALSE;
}
e_asn1_object_set_display_value (extensionItem, str->str);
g_string_free (str, TRUE);
*retExtension = extensionItem;
return TRUE;
}
static gboolean
process_extensions (CERTCertExtension **extensions,
EASN1Object *parentSequence)
{
EASN1Object *extensionSequence = e_asn1_object_new ();
PRInt32 i;
e_asn1_object_set_display_name (extensionSequence, _("Extensions"));
for (i = 0; extensions[i] != NULL; i++) {
EASN1Object *newExtension;
if (!process_single_extension (extensions[i],
&newExtension))
return FALSE;
e_asn1_object_append_child (extensionSequence, newExtension);
}
e_asn1_object_append_child (parentSequence, extensionSequence);
return TRUE;
}
static gboolean
process_name (CERTName *name,
gchar **value)
{
CERTRDN ** rdns;
CERTRDN ** rdn;
CERTAVA ** avas;
CERTAVA * ava;
SECItem *decodeItem = NULL;
GString *final_string = g_string_new ("");
gchar *type;
GString *avavalue;
gchar *temp;
CERTRDN **lastRdn;
rdns = name->rdns;
/* find last RDN */
lastRdn = rdns;
while (*lastRdn) lastRdn++;
/* The above whille loop will put us at the last member
* of the array which is a NULL pointer. So let's back
* up one spot so that we have the last non-NULL entry in
* the array in preparation for traversing the
* RDN's (Relative Distinguished Name) in reverse order.
*/
lastRdn--;
/*
* Loop over name contents in _reverse_ RDN order appending to string
* When building the Ascii string, NSS loops over these entries in
* reverse order, so I will as well. The difference is that NSS
* will always place them in a one line string separated by commas,
* where I want each entry on a single line. I can't just use a comma
* as my delimitter because it is a valid character to have in the
* value portion of the AVA and could cause trouble when parsing.
*/
for (rdn = lastRdn; rdn >= rdns; rdn--) {
avas = (*rdn)->avas;
while ((ava = *avas++) != 0) {
if (!get_oid_text (&ava->type, &type))
return FALSE;
/* This function returns a string in UTF8 format. */
decodeItem = CERT_DecodeAVAValue (&ava->value);
if (!decodeItem) {
return FALSE;
}
avavalue = g_string_new_len (
(gchar *) decodeItem->data, decodeItem->len);
SECITEM_FreeItem (decodeItem, PR_TRUE);
/* Translators: This string is used in Certificate
* details for fields like Issuer or Subject, which
* shows the field name on the left and its respective
* value on the right, both as stored in the
* certificate itself. You probably do not need to
* change this string, unless changing the order of
* name and value. As a result example:
* "OU = VeriSign Trust Network" */
temp = g_strdup_printf (_("%s = %s"), type, avavalue->str);
g_string_append (final_string, temp);
g_string_append (final_string, "\n");
g_string_free (avavalue, TRUE);
g_free (temp);
}
}
*value = g_string_free (final_string, FALSE);
return TRUE;
}
static gboolean
create_tbs_certificate_asn1_struct (ECert *cert,
EASN1Object **seq)
{
/*
** TBSCertificate ::= SEQUENCE {
** version [0] EXPLICIT Version DEFAULT v1,
** serialNumber CertificateSerialNumber,
** signature AlgorithmIdentifier,
** issuer Name,
** validity Validity,
** subject Name,
** subjectPublicKeyInfo SubjectPublicKeyInfo,
** issuerUniqueID [1] IMPLICIT UniqueIdentifier OPTIONAL,
** -- If present, version shall be v2 or v3
** subjectUniqueID [2] IMPLICIT UniqueIdentifier OPTIONAL,
** -- If present, version shall be v2 or v3
** extensions [3] EXPLICIT Extensions OPTIONAL
** -- If present, version shall be v3
** }
**
** This is the ASN1 structure we should be dealing with at this point.
** The code in this method will assert this is the structure we're dealing
** and then add more user friendly text for that field.
*/
EASN1Object *sequence = e_asn1_object_new ();
gchar *text;
EASN1Object *subitem;
SECItem data;
e_asn1_object_set_display_name (sequence, _("Certificate"));
if (!process_version (&cert->priv->cert->version, &subitem))
return FALSE;
e_asn1_object_append_child (sequence, subitem);
g_object_unref (subitem);
if (!process_serial_number_der (&cert->priv->cert->serialNumber, &subitem))
return FALSE;
e_asn1_object_append_child (sequence, subitem);
g_object_unref (subitem);
if (!process_sec_algorithm_id (&cert->priv->cert->signature, &subitem))
return FALSE;
e_asn1_object_set_display_name (subitem, _("Certificate Signature Algorithm"));
e_asn1_object_append_child (sequence, subitem);
g_object_unref (subitem);
process_name (&cert->priv->cert->issuer, &text);
subitem = e_asn1_object_new ();
e_asn1_object_set_display_value (subitem, text);
g_free (text);
e_asn1_object_set_display_name (subitem, _("Issuer"));
e_asn1_object_append_child (sequence, subitem);
g_object_unref (subitem);
#ifdef notyet
nsCOMPtr < nsIASN1Sequence> validitySequence = new nsNSSASN1Sequence ();
nssComponent->GetPIPNSSBundleString (NS_LITERAL_STRING ("CertDumpValidity").get (),
text);
validitySequence->SetDisplayName (text);
asn1Objects->AppendElement (validitySequence, PR_FALSE);
nssComponent->GetPIPNSSBundleString (NS_LITERAL_STRING ("CertDumpNotBefore").get (),
text);
nsCOMPtr < nsIX509CertValidity> validityData;
GetValidity (getter_AddRefs (validityData));
PRTime notBefore, notAfter;
validityData->GetNotBefore (¬Before);
validityData->GetNotAfter (¬After);
validityData = 0;
rv = ProcessTime (notBefore, text.get (), validitySequence);
if (NS_FAILED (rv))
return rv;
nssComponent->GetPIPNSSBundleString (NS_LITERAL_STRING ("CertDumpNotAfter").get (),
text);
rv = ProcessTime (notAfter, text.get (), validitySequence);
if (NS_FAILED (rv))
return rv;
#endif
subitem = e_asn1_object_new ();
e_asn1_object_set_display_name (subitem, _("Subject"));
process_name (&cert->priv->cert->subject, &text);
e_asn1_object_set_display_value (subitem, text);
g_free (text);
e_asn1_object_append_child (sequence, subitem);
g_object_unref (subitem);
if (!process_subject_public_key_info (
&cert->priv->cert->subjectPublicKeyInfo, sequence))
return FALSE;
/* Is there an issuerUniqueID? */
if (cert->priv->cert->issuerID.data) {
/* The issuerID is encoded as a bit string.
* The function ProcessRawBytes expects the
* length to be in bytes, so let's convert the
* length in a temporary SECItem
*/
data.data = cert->priv->cert->issuerID.data;
data.len = cert->priv->cert->issuerID.len / 8;
subitem = e_asn1_object_new ();
e_asn1_object_set_display_name (subitem, _("Issuer Unique ID"));
process_raw_bytes (&data, &text);
e_asn1_object_set_display_value (subitem, text);
g_free (text);
e_asn1_object_append_child (sequence, subitem);
}
if (cert->priv->cert->subjectID.data) {
/* The subjectID is encoded as a bit string.
* The function ProcessRawBytes expects the
* length to be in bytes, so let's convert the
* length in a temporary SECItem
*/
data.data = cert->priv->cert->issuerID.data;
data.len = cert->priv->cert->issuerID.len / 8;
subitem = e_asn1_object_new ();
e_asn1_object_set_display_name (subitem, _("Subject Unique ID"));
process_raw_bytes (&data, &text);
e_asn1_object_set_display_value (subitem, text);
g_free (text);
e_asn1_object_append_child (sequence, subitem);
}
if (cert->priv->cert->extensions) {
if (!process_extensions (cert->priv->cert->extensions, sequence))
return FALSE;
}
*seq = sequence;
return TRUE;
}
static gboolean
create_asn1_struct (ECert *cert)
{
EASN1Object *sequence;
SECItem temp;
gchar *text;
cert->priv->asn1 = e_asn1_object_new ();
e_asn1_object_set_display_name (cert->priv->asn1, e_cert_get_window_title (cert));
/* This sequence will be contain the tbsCertificate, signatureAlgorithm,
* and signatureValue. */
if (!create_tbs_certificate_asn1_struct (cert, &sequence))
return FALSE;
e_asn1_object_append_child (cert->priv->asn1, sequence);
g_object_unref (sequence);
if (!process_sec_algorithm_id (
&cert->priv->cert->signatureWrap.signatureAlgorithm, &sequence))
return FALSE;
e_asn1_object_set_display_name (
sequence, _("Certificate Signature Algorithm"));
e_asn1_object_append_child (cert->priv->asn1, sequence);
g_object_unref (sequence);
sequence = e_asn1_object_new ();
e_asn1_object_set_display_name (
sequence, _("Certificate Signature Value"));
/* The signatureWrap is encoded as a bit string.
* The function ProcessRawBytes expects the
* length to be in bytes, so let's convert the
* length in a temporary SECItem */
temp.data = cert->priv->cert->signatureWrap.signature.data;
temp.len = cert->priv->cert->signatureWrap.signature.len / 8;
process_raw_bytes (&temp, &text);
e_asn1_object_set_display_value (sequence, text);
e_asn1_object_append_child (cert->priv->asn1, sequence);
g_free (text);
return TRUE;
}
EASN1Object *
e_cert_get_asn1_struct (ECert *cert)
{
if (!cert->priv->asn1)
create_asn1_struct (cert);
return g_object_ref (cert->priv->asn1);
}
gboolean
e_cert_mark_for_deletion (ECert *cert)
{
/* nsNSSShutDownPreventionLock locker; */
#if 0
/* make sure user is logged in to the token */
nsCOMPtr < nsIInterfaceRequestor> ctx = new PipUIContext ();
#endif
if (PK11_NeedLogin (cert->priv->cert->slot)
&& !PK11_NeedUserInit (cert->priv->cert->slot)
&& !PK11_IsInternal (cert->priv->cert->slot)) {
if (PK11_Authenticate (
cert->priv->cert->slot, PR_TRUE, NULL) != SECSuccess) {
return FALSE;
}
}
cert->priv->delete = TRUE;
return TRUE;
}
ECertType
e_cert_get_cert_type (ECert *ecert)
{
const gchar *nick = e_cert_get_nickname (ecert);
const gchar *email = e_cert_get_email (ecert);
CERTCertificate *cert = ecert->priv->cert;
if (nick) {
if (e_cert_trust_has_any_user (cert->trust))
return E_CERT_USER;
if (e_cert_trust_has_any_ca (cert->trust)
|| CERT_IsCACert (cert,NULL))
return E_CERT_CA;
if (e_cert_trust_has_peer (cert->trust, PR_TRUE, PR_FALSE, PR_FALSE))
return E_CERT_SITE;
}
if (email && e_cert_trust_has_peer (cert->trust, PR_FALSE, PR_TRUE, PR_FALSE))
return E_CERT_CONTACT;
return E_CERT_UNKNOWN;
}
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