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glib/gio/gtlscertificate.c
Sophie Herold 0d268c4825 Remove all nicks and blurbs from param specs 
Nicks and blurbs don't have any practical use for gio/gobject libraries.
Leaving tests untouched since this features is still used by other libraries.

Closes #2991
2023-11-29 13:41:34 +00:00

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/* GIO - GLib Input, Output and Certificateing Library
*
* Copyright (C) 2010 Red Hat, Inc.
*
* SPDX-License-Identifier: LGPL-2.1-or-later
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General
* Public License along with this library; if not, see <http://www.gnu.org/licenses/>.
*/
#include "config.h"
#include "gtlscertificate.h"
#include <string.h>
#include "ginitable.h"
#include "gtlsbackend.h"
#include "gtlsconnection.h"
#include "glibintl.h"
/**
* GTlsCertificate:
*
* A certificate used for TLS authentication and encryption.
* This can represent either a certificate only (eg, the certificate
* received by a client from a server), or the combination of
* a certificate and a private key (which is needed when acting as a
* [iface@Gio.TlsServerConnection]).
*
* Since: 2.28
*/
struct _GTlsCertificatePrivate {
gboolean pkcs12_properties_not_overridden;
};
G_DEFINE_ABSTRACT_TYPE_WITH_PRIVATE (GTlsCertificate, g_tls_certificate, G_TYPE_OBJECT)
enum
{
PROP_0,
PROP_CERTIFICATE,
PROP_CERTIFICATE_PEM,
PROP_PRIVATE_KEY,
PROP_PRIVATE_KEY_PEM,
PROP_ISSUER,
PROP_PKCS11_URI,
PROP_PRIVATE_KEY_PKCS11_URI,
PROP_NOT_VALID_BEFORE,
PROP_NOT_VALID_AFTER,
PROP_SUBJECT_NAME,
PROP_ISSUER_NAME,
PROP_DNS_NAMES,
PROP_IP_ADDRESSES,
PROP_PKCS12_DATA,
PROP_PASSWORD,
};
static void
g_tls_certificate_init (GTlsCertificate *cert)
{
}
static void
g_tls_certificate_get_property (GObject *object,
guint prop_id,
GValue *value,
GParamSpec *pspec)
{
switch (prop_id)
{
/* Subclasses must override these properties but this allows older backends to not fatally error */
case PROP_PRIVATE_KEY:
case PROP_PRIVATE_KEY_PEM:
case PROP_PKCS11_URI:
case PROP_PRIVATE_KEY_PKCS11_URI:
g_value_set_static_string (value, NULL);
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec);
}
}
static void
g_tls_certificate_set_property (GObject *object,
guint prop_id,
const GValue *value,
GParamSpec *pspec)
{
GTlsCertificate *cert = (GTlsCertificate*)object;
GTlsCertificatePrivate *priv = g_tls_certificate_get_instance_private (cert);
switch (prop_id)
{
case PROP_PKCS11_URI:
case PROP_PRIVATE_KEY_PKCS11_URI:
/* Subclasses must override these properties but this allows older backends to not fatally error. */
break;
case PROP_PKCS12_DATA:
case PROP_PASSWORD:
/* We don't error on setting these properties however we track that they were not overridden. */
priv->pkcs12_properties_not_overridden = TRUE;
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec);
}
}
static void
g_tls_certificate_class_init (GTlsCertificateClass *class)
{
GObjectClass *gobject_class = G_OBJECT_CLASS (class);
gobject_class->set_property = g_tls_certificate_set_property;
gobject_class->get_property = g_tls_certificate_get_property;
/**
* GTlsCertificate:pkcs12-data: (nullable)
*
* The PKCS #12 formatted data used to construct the object.
*
* See also: g_tls_certificate_new_from_pkcs12()
*
* Since: 2.72
*/
g_object_class_install_property (gobject_class, PROP_PKCS12_DATA,
g_param_spec_boxed ("pkcs12-data", NULL, NULL,
G_TYPE_BYTE_ARRAY,
G_PARAM_WRITABLE |
G_PARAM_CONSTRUCT_ONLY |
G_PARAM_STATIC_STRINGS));
/**
* GTlsCertificate:password: (nullable)
*
* An optional password used when constructed with GTlsCertificate:pkcs12-data.
*
* Since: 2.72
*/
g_object_class_install_property (gobject_class, PROP_PASSWORD,
g_param_spec_string ("password", NULL, NULL,
NULL,
G_PARAM_WRITABLE |
G_PARAM_CONSTRUCT_ONLY |
G_PARAM_STATIC_STRINGS));
/**
* GTlsCertificate:certificate:
*
* The DER (binary) encoded representation of the certificate.
* This property and the #GTlsCertificate:certificate-pem property
* represent the same data, just in different forms.
*
* Since: 2.28
*/
g_object_class_install_property (gobject_class, PROP_CERTIFICATE,
g_param_spec_boxed ("certificate", NULL, NULL,
G_TYPE_BYTE_ARRAY,
G_PARAM_READWRITE |
G_PARAM_CONSTRUCT_ONLY |
G_PARAM_STATIC_STRINGS));
/**
* GTlsCertificate:certificate-pem:
*
* The PEM (ASCII) encoded representation of the certificate.
* This property and the #GTlsCertificate:certificate
* property represent the same data, just in different forms.
*
* Since: 2.28
*/
g_object_class_install_property (gobject_class, PROP_CERTIFICATE_PEM,
g_param_spec_string ("certificate-pem", NULL, NULL,
NULL,
G_PARAM_READWRITE |
G_PARAM_CONSTRUCT_ONLY |
G_PARAM_STATIC_STRINGS));
/**
* GTlsCertificate:private-key: (nullable)
*
* The DER (binary) encoded representation of the certificate's
* private key, in either [PKCS \#1 format](https://datatracker.ietf.org/doc/html/rfc8017)
* or unencrypted [PKCS \#8 format.](https://datatracker.ietf.org/doc/html/rfc5208)
* PKCS \#8 format is supported since 2.32; earlier releases only
* support PKCS \#1. You can use the `openssl rsa` tool to convert
* PKCS \#8 keys to PKCS \#1.
*
* This property (or the #GTlsCertificate:private-key-pem property)
* can be set when constructing a key (for example, from a file).
* Since GLib 2.70, it is now also readable; however, be aware that if
* the private key is backed by a PKCS \#11 URI for example, if it
* is stored on a smartcard then this property will be %NULL. If so,
* the private key must be referenced via its PKCS \#11 URI,
* #GTlsCertificate:private-key-pkcs11-uri. You must check both
* properties to see if the certificate really has a private key.
* When this property is read, the output format will be unencrypted
* PKCS \#8.
*
* Since: 2.28
*/
g_object_class_install_property (gobject_class, PROP_PRIVATE_KEY,
g_param_spec_boxed ("private-key", NULL, NULL,
G_TYPE_BYTE_ARRAY,
G_PARAM_READWRITE |
G_PARAM_CONSTRUCT_ONLY |
G_PARAM_STATIC_STRINGS));
/**
* GTlsCertificate:private-key-pem: (nullable)
*
* The PEM (ASCII) encoded representation of the certificate's
* private key in either [PKCS \#1 format](https://datatracker.ietf.org/doc/html/rfc8017)
* ("`BEGIN RSA PRIVATE KEY`") or unencrypted
* [PKCS \#8 format](https://datatracker.ietf.org/doc/html/rfc5208)
* ("`BEGIN PRIVATE KEY`"). PKCS \#8 format is supported since 2.32;
* earlier releases only support PKCS \#1. You can use the `openssl rsa`
* tool to convert PKCS \#8 keys to PKCS \#1.
*
* This property (or the #GTlsCertificate:private-key property)
* can be set when constructing a key (for example, from a file).
* Since GLib 2.70, it is now also readable; however, be aware that if
* the private key is backed by a PKCS \#11 URI - for example, if it
* is stored on a smartcard - then this property will be %NULL. If so,
* the private key must be referenced via its PKCS \#11 URI,
* #GTlsCertificate:private-key-pkcs11-uri. You must check both
* properties to see if the certificate really has a private key.
* When this property is read, the output format will be unencrypted
* PKCS \#8.
*
* Since: 2.28
*/
g_object_class_install_property (gobject_class, PROP_PRIVATE_KEY_PEM,
g_param_spec_string ("private-key-pem", NULL, NULL,
NULL,
G_PARAM_READWRITE |
G_PARAM_CONSTRUCT_ONLY |
G_PARAM_STATIC_STRINGS));
/**
* GTlsCertificate:issuer:
*
* A #GTlsCertificate representing the entity that issued this
* certificate. If %NULL, this means that the certificate is either
* self-signed, or else the certificate of the issuer is not
* available.
*
* Beware the issuer certificate may not be the same as the
* certificate that would actually be used to construct a valid
* certification path during certificate verification.
* [RFC 4158](https://datatracker.ietf.org/doc/html/rfc4158) explains
* why an issuer certificate cannot be naively assumed to be part of the
* the certification path (though GLib's TLS backends may not follow the
* path building strategies outlined in this RFC). Due to the complexity
* of certification path building, GLib does not provide any way to know
* which certification path will actually be used. Accordingly, this
* property cannot be used to make security-related decisions. Only
* GLib itself should make security decisions about TLS certificates.
*
* Since: 2.28
*/
g_object_class_install_property (gobject_class, PROP_ISSUER,
g_param_spec_object ("issuer", NULL, NULL,
G_TYPE_TLS_CERTIFICATE,
G_PARAM_READWRITE |
G_PARAM_CONSTRUCT_ONLY |
G_PARAM_STATIC_STRINGS));
/**
* GTlsCertificate:pkcs11-uri: (nullable)
*
* A URI referencing the [PKCS \#11](https://docs.oasis-open.org/pkcs11/pkcs11-base/v3.0/os/pkcs11-base-v3.0-os.html)
* objects containing an X.509 certificate and optionally a private key.
*
* If %NULL, the certificate is either not backed by PKCS \#11 or the
* #GTlsBackend does not support PKCS \#11.
*
* Since: 2.68
*/
g_object_class_install_property (gobject_class, PROP_PKCS11_URI,
g_param_spec_string ("pkcs11-uri", NULL, NULL,
NULL,
G_PARAM_READWRITE |
G_PARAM_CONSTRUCT_ONLY |
G_PARAM_STATIC_STRINGS));
/**
* GTlsCertificate:private-key-pkcs11-uri: (nullable)
*
* A URI referencing a [PKCS \#11](https://docs.oasis-open.org/pkcs11/pkcs11-base/v3.0/os/pkcs11-base-v3.0-os.html)
* object containing a private key.
*
* Since: 2.68
*/
g_object_class_install_property (gobject_class, PROP_PRIVATE_KEY_PKCS11_URI,
g_param_spec_string ("private-key-pkcs11-uri", NULL, NULL,
NULL,
G_PARAM_READWRITE |
G_PARAM_CONSTRUCT_ONLY |
G_PARAM_STATIC_STRINGS));
/**
* GTlsCertificate:not-valid-before: (nullable)
*
* The time at which this cert is considered to be valid,
* %NULL if unavailable.
*
* Since: 2.70
*/
g_object_class_install_property (gobject_class, PROP_NOT_VALID_BEFORE,
g_param_spec_boxed ("not-valid-before", NULL, NULL,
G_TYPE_DATE_TIME,
G_PARAM_READABLE |
G_PARAM_STATIC_STRINGS));
/**
* GTlsCertificate:not-valid-after: (nullable)
*
* The time at which this cert is no longer valid,
* %NULL if unavailable.
*
* Since: 2.70
*/
g_object_class_install_property (gobject_class, PROP_NOT_VALID_AFTER,
g_param_spec_boxed ("not-valid-after", NULL, NULL,
G_TYPE_DATE_TIME,
G_PARAM_READABLE |
G_PARAM_STATIC_STRINGS));
/**
* GTlsCertificate:subject-name: (nullable)
*
* The subject from the cert,
* %NULL if unavailable.
*
* Since: 2.70
*/
g_object_class_install_property (gobject_class, PROP_SUBJECT_NAME,
g_param_spec_string ("subject-name", NULL, NULL,
NULL,
G_PARAM_READABLE |
G_PARAM_STATIC_STRINGS));
/**
* GTlsCertificate:issuer-name: (nullable)
*
* The issuer from the certificate,
* %NULL if unavailable.
*
* Since: 2.70
*/
g_object_class_install_property (gobject_class, PROP_ISSUER_NAME,
g_param_spec_string ("issuer-name", NULL, NULL,
NULL,
G_PARAM_READABLE |
G_PARAM_STATIC_STRINGS));
/**
* GTlsCertificate:dns-names: (nullable) (element-type GBytes) (transfer container)
*
* The DNS names from the certificate's Subject Alternative Names (SANs),
* %NULL if unavailable.
*
* Since: 2.70
*/
g_object_class_install_property (gobject_class, PROP_DNS_NAMES,
g_param_spec_boxed ("dns-names", NULL, NULL,
G_TYPE_PTR_ARRAY,
G_PARAM_READABLE |
G_PARAM_STATIC_STRINGS));
/**
* GTlsCertificate:ip-addresses: (nullable) (element-type GInetAddress) (transfer container)
*
* The IP addresses from the certificate's Subject Alternative Names (SANs),
* %NULL if unavailable.
*
* Since: 2.70
*/
g_object_class_install_property (gobject_class, PROP_IP_ADDRESSES,
g_param_spec_boxed ("ip-addresses", NULL, NULL,
G_TYPE_PTR_ARRAY,
G_PARAM_READABLE |
G_PARAM_STATIC_STRINGS));
}
static GTlsCertificate *
g_tls_certificate_new_internal (const gchar *certificate_pem,
const gchar *private_key_pem,
GTlsCertificate *issuer,
GError **error)
{
GObject *cert;
GTlsBackend *backend;
backend = g_tls_backend_get_default ();
cert = g_initable_new (g_tls_backend_get_certificate_type (backend),
NULL, error,
"certificate-pem", certificate_pem,
"private-key-pem", private_key_pem,
"issuer", issuer,
NULL);
return G_TLS_CERTIFICATE (cert);
}
#define PEM_CERTIFICATE_HEADER "-----BEGIN CERTIFICATE-----"
#define PEM_CERTIFICATE_FOOTER "-----END CERTIFICATE-----"
#define PEM_PRIVKEY_HEADER_BEGIN "-----BEGIN "
#define PEM_PRIVKEY_HEADER_END "PRIVATE KEY-----"
#define PEM_PRIVKEY_FOOTER_BEGIN "-----END "
#define PEM_PRIVKEY_FOOTER_END "PRIVATE KEY-----"
#define PEM_PKCS8_ENCRYPTED_HEADER "-----BEGIN ENCRYPTED PRIVATE KEY-----"
static gchar *
parse_private_key (const gchar *data,
gsize data_len,
gboolean required,
GError **error)
{
const gchar *header_start = NULL, *header_end, *footer_start = NULL, *footer_end;
const gchar *data_end = data + data_len;
header_end = g_strstr_len (data, data_len, PEM_PRIVKEY_HEADER_END);
if (header_end)
header_start = g_strrstr_len (data, header_end - data, PEM_PRIVKEY_HEADER_BEGIN);
if (!header_start)
{
if (required)
g_set_error_literal (error, G_TLS_ERROR, G_TLS_ERROR_BAD_CERTIFICATE,
_("No PEM-encoded private key found"));
return NULL;
}
header_end += strlen (PEM_PRIVKEY_HEADER_END);
if (strncmp (header_start, PEM_PKCS8_ENCRYPTED_HEADER, header_end - header_start) == 0)
{
g_set_error_literal (error, G_TLS_ERROR, G_TLS_ERROR_BAD_CERTIFICATE,
_("Cannot decrypt PEM-encoded private key"));
return NULL;
}
footer_end = g_strstr_len (header_end, data_len - (header_end - data), PEM_PRIVKEY_FOOTER_END);
if (footer_end)
footer_start = g_strrstr_len (header_end, footer_end - header_end, PEM_PRIVKEY_FOOTER_BEGIN);
if (!footer_start)
{
g_set_error_literal (error, G_TLS_ERROR, G_TLS_ERROR_BAD_CERTIFICATE,
_("Could not parse PEM-encoded private key"));
return NULL;
}
footer_end += strlen (PEM_PRIVKEY_FOOTER_END);
while ((footer_end < data_end) && (*footer_end == '\r' || *footer_end == '\n'))
footer_end++;
return g_strndup (header_start, footer_end - header_start);
}
static gchar *
parse_next_pem_certificate (const gchar **data,
const gchar *data_end,
gboolean required,
GError **error)
{
const gchar *start, *end;
start = g_strstr_len (*data, data_end - *data, PEM_CERTIFICATE_HEADER);
if (!start)
{
if (required)
{
g_set_error_literal (error, G_TLS_ERROR, G_TLS_ERROR_BAD_CERTIFICATE,
_("No PEM-encoded certificate found"));
}
return NULL;
}
end = g_strstr_len (start, data_end - start, PEM_CERTIFICATE_FOOTER);
if (!end)
{
g_set_error_literal (error, G_TLS_ERROR, G_TLS_ERROR_BAD_CERTIFICATE,
_("Could not parse PEM-encoded certificate"));
return NULL;
}
end += strlen (PEM_CERTIFICATE_FOOTER);
while ((end < data_end) && (*end == '\r' || *end == '\n'))
end++;
*data = end;
return g_strndup (start, end - start);
}
static GSList *
parse_and_create_certificate_list (const gchar *data,
gsize data_len,
GError **error)
{
GSList *first_pem_list = NULL, *pem_list = NULL;
gchar *first_pem;
const gchar *p, *end;
p = data;
end = p + data_len;
/* Make sure we can load, at least, one certificate. */
first_pem = parse_next_pem_certificate (&p, end, TRUE, error);
if (!first_pem)
return NULL;
/* Create a list with a single element. If we load more certificates
* below, we will concatenate the two lists at the end. */
first_pem_list = g_slist_prepend (first_pem_list, first_pem);
/* If we read one certificate successfully, let's see if we can read
* some more. If not, we will simply return a list with the first one.
*/
while (p < end && p && *p)
{
gchar *cert_pem;
GError *my_error = NULL;
cert_pem = parse_next_pem_certificate (&p, end, FALSE, &my_error);
if (my_error)
{
g_slist_free_full (pem_list, g_free);
g_error_free (my_error);
return first_pem_list;
}
else if (!cert_pem)
{
break;
}
pem_list = g_slist_prepend (pem_list, cert_pem);
}
pem_list = g_slist_concat (pem_list, first_pem_list);
return pem_list;
}
static GTlsCertificate *
create_certificate_chain_from_list (GSList *pem_list,
const gchar *key_pem)
{
GTlsCertificate *cert = NULL, *issuer = NULL, *root = NULL;
GTlsCertificateFlags flags;
GSList *pem;
pem = pem_list;
while (pem)
{
const gchar *key = NULL;
/* Private key belongs only to the first certificate. */
if (!pem->next)
key = key_pem;
/* We assume that the whole file is a certificate chain, so we use
* each certificate as the issuer of the next one (list is in
* reverse order).
*/
issuer = cert;
cert = g_tls_certificate_new_internal (pem->data, key, issuer, NULL);
if (issuer)
g_object_unref (issuer);
if (!cert)
return NULL;
/* root will point to the last certificate in the file. */
if (!root)
root = g_object_ref (cert);
pem = g_slist_next (pem);
}
/* Verify that the certificates form a chain. (We don't care at this
* point if there are other problems with it.)
*/
flags = g_tls_certificate_verify (cert, NULL, root);
if (flags & G_TLS_CERTIFICATE_UNKNOWN_CA)
{
/* It wasn't a chain, it's just a bunch of unrelated certs. */
g_clear_object (&cert);
}
g_clear_object (&root);
return cert;
}
static GTlsCertificate *
parse_and_create_certificate (const gchar *data,
gsize data_len,
const gchar *key_pem,
GError **error)
{
GSList *pem_list;
GTlsCertificate *cert;
pem_list = parse_and_create_certificate_list (data, data_len, error);
if (!pem_list)
return NULL;
/* We don't pass the error here because, if it fails, we still want to
* load and return the first certificate.
*/
cert = create_certificate_chain_from_list (pem_list, key_pem);
if (!cert)
{
GSList *last = NULL;
/* Get the first certificate (which is the last one as the list is
* in reverse order).
*/
last = g_slist_last (pem_list);
cert = g_tls_certificate_new_internal (last->data, key_pem, NULL, error);
}
g_slist_free_full (pem_list, g_free);
return cert;
}
/**
* g_tls_certificate_new_from_pem:
* @data: PEM-encoded certificate data
* @length: the length of @data, or -1 if it's 0-terminated.
* @error: #GError for error reporting, or %NULL to ignore.
*
* Creates a #GTlsCertificate from the PEM-encoded data in @data. If
* @data includes both a certificate and a private key, then the
* returned certificate will include the private key data as well. (See
* the #GTlsCertificate:private-key-pem property for information about
* supported formats.)
*
* The returned certificate will be the first certificate found in
* @data. As of GLib 2.44, if @data contains more certificates it will
* try to load a certificate chain. All certificates will be verified in
* the order found (top-level certificate should be the last one in the
* file) and the #GTlsCertificate:issuer property of each certificate
* will be set accordingly if the verification succeeds. If any
* certificate in the chain cannot be verified, the first certificate in
* the file will still be returned.
*
* Returns: the new certificate, or %NULL if @data is invalid
*
* Since: 2.28
*/
GTlsCertificate *
g_tls_certificate_new_from_pem (const gchar *data,
gssize length,
GError **error)
{
GError *child_error = NULL;
gchar *key_pem;
GTlsCertificate *cert;
g_return_val_if_fail (data != NULL, NULL);
g_return_val_if_fail (error == NULL || *error == NULL, NULL);
if (length == -1)
length = strlen (data);
key_pem = parse_private_key (data, length, FALSE, &child_error);
if (child_error != NULL)
{
g_propagate_error (error, child_error);
return NULL;
}
cert = parse_and_create_certificate (data, length, key_pem, error);
g_free (key_pem);
return cert;
}
/**
* g_tls_certificate_new_from_pkcs12:
* @data: (array length=length): DER-encoded PKCS #12 format certificate data
* @length: the length of @data
* @password: (nullable): optional password for encrypted certificate data
* @error: #GError for error reporting, or %NULL to ignore.
*
* Creates a #GTlsCertificate from the data in @data. It must contain
* a certificate and matching private key.
*
* If extra certificates are included they will be verified as a chain
* and the #GTlsCertificate:issuer property will be set.
* All other data will be ignored.
*
* You can pass as single password for all of the data which will be
* used both for the PKCS #12 container as well as encrypted
* private keys. If decryption fails it will error with
* %G_TLS_ERROR_BAD_CERTIFICATE_PASSWORD.
*
* This constructor requires support in the current #GTlsBackend.
* If support is missing it will error with
* %G_IO_ERROR_NOT_SUPPORTED.
*
* Other parsing failures will error with %G_TLS_ERROR_BAD_CERTIFICATE.
*
* Returns: the new certificate, or %NULL if @data is invalid
*
* Since: 2.72
*/
GTlsCertificate *
g_tls_certificate_new_from_pkcs12 (const guint8 *data,
gsize length,
const gchar *password,
GError **error)
{
GObject *cert;
GTlsBackend *backend;
GByteArray *bytes;
g_return_val_if_fail (data != NULL || length == 0, NULL);
g_return_val_if_fail (error == NULL || *error == NULL, NULL);
backend = g_tls_backend_get_default ();
bytes = g_byte_array_new ();
g_byte_array_append (bytes, data, length);
cert = g_initable_new (g_tls_backend_get_certificate_type (backend),
NULL, error,
"pkcs12-data", bytes,
"password", password,
NULL);
g_byte_array_unref (bytes);
if (cert)
{
GTlsCertificatePrivate *priv = g_tls_certificate_get_instance_private (G_TLS_CERTIFICATE (cert));
if (priv->pkcs12_properties_not_overridden)
{
g_clear_object (&cert);
g_set_error_literal (error, G_IO_ERROR, G_IO_ERROR_NOT_SUPPORTED,
_("The current TLS backend does not support PKCS #12"));
return NULL;
}
}
return G_TLS_CERTIFICATE (cert);
}
/**
* g_tls_certificate_new_from_file_with_password:
* @file: (type filename): file containing a certificate to import
* @password: (not nullable): password for PKCS #12 files
* @error: #GError for error reporting, or %NULL to ignore
*
* Creates a #GTlsCertificate from the data in @file.
*
* If @file cannot be read or parsed, the function will return %NULL and
* set @error.
*
* Any unknown file types will error with %G_IO_ERROR_NOT_SUPPORTED.
* Currently only `.p12` and `.pfx` files are supported.
* See g_tls_certificate_new_from_pkcs12() for more details.
*
* Returns: the new certificate, or %NULL on error
*
* Since: 2.72
*/
GTlsCertificate *
g_tls_certificate_new_from_file_with_password (const gchar *file,
const gchar *password,
GError **error)
{
GTlsCertificate *cert;
gchar *contents;
gsize length;
g_return_val_if_fail (file != NULL, NULL);
g_return_val_if_fail (password != NULL, NULL);
g_return_val_if_fail (error == NULL || *error == NULL, NULL);
if (!g_str_has_suffix (file, ".p12") && !g_str_has_suffix (file, ".pfx"))
{
g_set_error (error, G_IO_ERROR, G_IO_ERROR_NOT_SUPPORTED,
"The file type of \"%s\" is unknown. Only .p12 and .pfx files are supported currently.", file);
return NULL;
}
if (!g_file_get_contents (file, &contents, &length, error))
return NULL;
cert = g_tls_certificate_new_from_pkcs12 ((guint8 *)contents, length, password, error);
g_free (contents);
return cert;
}
/**
* g_tls_certificate_new_from_file:
* @file: (type filename): file containing a certificate to import
* @error: #GError for error reporting, or %NULL to ignore
*
* Creates a #GTlsCertificate from the data in @file.
*
* As of 2.72, if the filename ends in `.p12` or `.pfx` the data is loaded by
* g_tls_certificate_new_from_pkcs12() otherwise it is loaded by
* g_tls_certificate_new_from_pem(). See those functions for
* exact details.
*
* If @file cannot be read or parsed, the function will return %NULL and
* set @error.
*
* Returns: the new certificate, or %NULL on error
*
* Since: 2.28
*/
GTlsCertificate *
g_tls_certificate_new_from_file (const gchar *file,
GError **error)
{
GTlsCertificate *cert;
gchar *contents;
gsize length;
g_return_val_if_fail (file != NULL, NULL);
g_return_val_if_fail (error == NULL || *error == NULL, NULL);
if (!g_file_get_contents (file, &contents, &length, error))
return NULL;
if (g_str_has_suffix (file, ".p12") || g_str_has_suffix (file, ".pfx"))
cert = g_tls_certificate_new_from_pkcs12 ((guint8 *)contents, length, NULL, error);
else
cert = g_tls_certificate_new_from_pem (contents, length, error);
g_free (contents);
return cert;
}
/**
* g_tls_certificate_new_from_files:
* @cert_file: (type filename): file containing one or more PEM-encoded
* certificates to import
* @key_file: (type filename): file containing a PEM-encoded private key
* to import
* @error: #GError for error reporting, or %NULL to ignore.
*
* Creates a #GTlsCertificate from the PEM-encoded data in @cert_file
* and @key_file. The returned certificate will be the first certificate
* found in @cert_file. As of GLib 2.44, if @cert_file contains more
* certificates it will try to load a certificate chain. All
* certificates will be verified in the order found (top-level
* certificate should be the last one in the file) and the
* #GTlsCertificate:issuer property of each certificate will be set
* accordingly if the verification succeeds. If any certificate in the
* chain cannot be verified, the first certificate in the file will
* still be returned.
*
* If either file cannot be read or parsed, the function will return
* %NULL and set @error. Otherwise, this behaves like
* g_tls_certificate_new_from_pem().
*
* Returns: the new certificate, or %NULL on error
*
* Since: 2.28
*/
GTlsCertificate *
g_tls_certificate_new_from_files (const gchar *cert_file,
const gchar *key_file,
GError **error)
{
GTlsCertificate *cert;
gchar *cert_data, *key_data;
gsize cert_len, key_len;
gchar *key_pem;
if (!g_file_get_contents (key_file, &key_data, &key_len, error))
return NULL;
key_pem = parse_private_key (key_data, key_len, TRUE, error);
g_free (key_data);
if (!key_pem)
return NULL;
if (!g_file_get_contents (cert_file, &cert_data, &cert_len, error))
{
g_free (key_pem);
return NULL;
}
cert = parse_and_create_certificate (cert_data, cert_len, key_pem, error);
g_free (cert_data);
g_free (key_pem);
return cert;
}
/**
* g_tls_certificate_new_from_pkcs11_uris:
* @pkcs11_uri: A PKCS \#11 URI
* @private_key_pkcs11_uri: (nullable): A PKCS \#11 URI
* @error: #GError for error reporting, or %NULL to ignore.
*
* Creates a #GTlsCertificate from a
* [PKCS \#11](https://docs.oasis-open.org/pkcs11/pkcs11-base/v3.0/os/pkcs11-base-v3.0-os.html) URI.
*
* An example @pkcs11_uri would be `pkcs11:model=Model;manufacturer=Manufacture;serial=1;token=My%20Client%20Certificate;id=%01`
*
* Where the tokens layout is:
*
* |[
* Object 0:
* URL: pkcs11:model=Model;manufacturer=Manufacture;serial=1;token=My%20Client%20Certificate;id=%01;object=private%20key;type=private
* Type: Private key (RSA-2048)
* ID: 01
*
* Object 1:
* URL: pkcs11:model=Model;manufacturer=Manufacture;serial=1;token=My%20Client%20Certificate;id=%01;object=Certificate%20for%20Authentication;type=cert
* Type: X.509 Certificate (RSA-2048)
* ID: 01
* ]|
*
* In this case the certificate and private key would both be detected and used as expected.
* @pkcs_uri may also just reference an X.509 certificate object and then optionally
* @private_key_pkcs11_uri allows using a private key exposed under a different URI.
*
* Note that the private key is not accessed until usage and may fail or require a PIN later.
*
* Returns: (transfer full): the new certificate, or %NULL on error
*
* Since: 2.68
*/
GTlsCertificate *
g_tls_certificate_new_from_pkcs11_uris (const gchar *pkcs11_uri,
const gchar *private_key_pkcs11_uri,
GError **error)
{
GObject *cert;
GTlsBackend *backend;
g_return_val_if_fail (error == NULL || *error == NULL, NULL);
g_return_val_if_fail (pkcs11_uri, NULL);
backend = g_tls_backend_get_default ();
cert = g_initable_new (g_tls_backend_get_certificate_type (backend),
NULL, error,
"pkcs11-uri", pkcs11_uri,
"private-key-pkcs11-uri", private_key_pkcs11_uri,
NULL);
if (cert != NULL)
{
gchar *objects_uri;
/* Old implementations might not override this property */
g_object_get (cert, "pkcs11-uri", &objects_uri, NULL);
if (objects_uri == NULL)
{
g_set_error_literal (error, G_IO_ERROR, G_IO_ERROR_NOT_SUPPORTED, _("This GTlsBackend does not support creating PKCS #11 certificates"));
g_object_unref (cert);
return NULL;
}
g_free (objects_uri);
}
return G_TLS_CERTIFICATE (cert);
}
/**
* g_tls_certificate_list_new_from_file:
* @file: (type filename): file containing PEM-encoded certificates to import
* @error: #GError for error reporting, or %NULL to ignore.
*
* Creates one or more #GTlsCertificates from the PEM-encoded
* data in @file. If @file cannot be read or parsed, the function will
* return %NULL and set @error. If @file does not contain any
* PEM-encoded certificates, this will return an empty list and not
* set @error.
*
* Returns: (element-type Gio.TlsCertificate) (transfer full): a
* #GList containing #GTlsCertificate objects. You must free the list
* and its contents when you are done with it.
*
* Since: 2.28
*/
GList *
g_tls_certificate_list_new_from_file (const gchar *file,
GError **error)
{
GQueue queue = G_QUEUE_INIT;
gchar *contents, *end;
const gchar *p;
gsize length;
if (!g_file_get_contents (file, &contents, &length, error))
return NULL;
end = contents + length;
p = contents;
while (p && *p)
{
gchar *cert_pem;
GTlsCertificate *cert = NULL;
GError *parse_error = NULL;
cert_pem = parse_next_pem_certificate (&p, end, FALSE, &parse_error);
if (cert_pem)
{
cert = g_tls_certificate_new_internal (cert_pem, NULL, NULL, &parse_error);
g_free (cert_pem);
}
if (!cert)
{
if (parse_error)
{
g_propagate_error (error, parse_error);
g_list_free_full (queue.head, g_object_unref);
queue.head = NULL;
}
break;
}
g_queue_push_tail (&queue, cert);
}
g_free (contents);
return queue.head;
}
/**
* g_tls_certificate_get_issuer:
* @cert: a #GTlsCertificate
*
* Gets the #GTlsCertificate representing @cert's issuer, if known
*
* Returns: (nullable) (transfer none): The certificate of @cert's issuer,
* or %NULL if @cert is self-signed or signed with an unknown
* certificate.
*
* Since: 2.28
*/
GTlsCertificate *
g_tls_certificate_get_issuer (GTlsCertificate *cert)
{
GTlsCertificate *issuer;
g_object_get (G_OBJECT (cert), "issuer", &issuer, NULL);
if (issuer)
g_object_unref (issuer);
return issuer;
}
/**
* g_tls_certificate_verify:
* @cert: a #GTlsCertificate
* @identity: (nullable): the expected peer identity
* @trusted_ca: (nullable): the certificate of a trusted authority
*
* This verifies @cert and returns a set of #GTlsCertificateFlags
* indicating any problems found with it. This can be used to verify a
* certificate outside the context of making a connection, or to
* check a certificate against a CA that is not part of the system
* CA database.
*
* If @cert is valid, %G_TLS_CERTIFICATE_NO_FLAGS is returned.
*
* If @identity is not %NULL, @cert's name(s) will be compared against
* it, and %G_TLS_CERTIFICATE_BAD_IDENTITY will be set in the return
* value if it does not match. If @identity is %NULL, that bit will
* never be set in the return value.
*
* If @trusted_ca is not %NULL, then @cert (or one of the certificates
* in its chain) must be signed by it, or else
* %G_TLS_CERTIFICATE_UNKNOWN_CA will be set in the return value. If
* @trusted_ca is %NULL, that bit will never be set in the return
* value.
*
* GLib guarantees that if certificate verification fails, at least one
* error will be set in the return value, but it does not guarantee
* that all possible errors will be set. Accordingly, you may not safely
* decide to ignore any particular type of error. For example, it would
* be incorrect to mask %G_TLS_CERTIFICATE_EXPIRED if you want to allow
* expired certificates, because this could potentially be the only
* error flag set even if other problems exist with the certificate.
*
* Because TLS session context is not used, #GTlsCertificate may not
* perform as many checks on the certificates as #GTlsConnection would.
* For example, certificate constraints may not be honored, and
* revocation checks may not be performed. The best way to verify TLS
* certificates used by a TLS connection is to let #GTlsConnection
* handle the verification.
*
* Returns: the appropriate #GTlsCertificateFlags
*
* Since: 2.28
*/
GTlsCertificateFlags
g_tls_certificate_verify (GTlsCertificate *cert,
GSocketConnectable *identity,
GTlsCertificate *trusted_ca)
{
return G_TLS_CERTIFICATE_GET_CLASS (cert)->verify (cert, identity, trusted_ca);
}
/**
* g_tls_certificate_is_same:
* @cert_one: first certificate to compare
* @cert_two: second certificate to compare
*
* Check if two #GTlsCertificate objects represent the same certificate.
* The raw DER byte data of the two certificates are checked for equality.
* This has the effect that two certificates may compare equal even if
* their #GTlsCertificate:issuer, #GTlsCertificate:private-key, or
* #GTlsCertificate:private-key-pem properties differ.
*
* Returns: whether the same or not
*
* Since: 2.34
*/
gboolean
g_tls_certificate_is_same (GTlsCertificate *cert_one,
GTlsCertificate *cert_two)
{
GByteArray *b1, *b2;
gboolean equal;
g_return_val_if_fail (G_IS_TLS_CERTIFICATE (cert_one), FALSE);
g_return_val_if_fail (G_IS_TLS_CERTIFICATE (cert_two), FALSE);
g_object_get (cert_one, "certificate", &b1, NULL);
g_object_get (cert_two, "certificate", &b2, NULL);
equal = (b1->len == b2->len &&
memcmp (b1->data, b2->data, b1->len) == 0);
g_byte_array_unref (b1);
g_byte_array_unref (b2);
return equal;
}
/**
* g_tls_certificate_get_not_valid_before:
* @cert: a #GTlsCertificate
*
* Returns the time at which the certificate became or will become valid.
*
* Returns: (nullable) (transfer full): The not-valid-before date, or %NULL if it's not available.
*
* Since: 2.70
*/
GDateTime *
g_tls_certificate_get_not_valid_before (GTlsCertificate *cert)
{
GDateTime *not_valid_before = NULL;
g_return_val_if_fail (G_IS_TLS_CERTIFICATE (cert), NULL);
g_object_get (G_OBJECT (cert), "not-valid-before", &not_valid_before, NULL);
return g_steal_pointer (&not_valid_before);
}
/**
* g_tls_certificate_get_not_valid_after:
* @cert: a #GTlsCertificate
*
* Returns the time at which the certificate became or will become invalid.
*
* Returns: (nullable) (transfer full): The not-valid-after date, or %NULL if it's not available.
*
* Since: 2.70
*/
GDateTime *
g_tls_certificate_get_not_valid_after (GTlsCertificate *cert)
{
GDateTime *not_valid_after = NULL;
g_return_val_if_fail (G_IS_TLS_CERTIFICATE (cert), NULL);
g_object_get (G_OBJECT (cert), "not-valid-after", &not_valid_after, NULL);
return g_steal_pointer (&not_valid_after);
}
/**
* g_tls_certificate_get_subject_name:
* @cert: a #GTlsCertificate
*
* Returns the subject name from the certificate.
*
* Returns: (nullable) (transfer full): The subject name, or %NULL if it's not available.
*
* Since: 2.70
*/
gchar *
g_tls_certificate_get_subject_name (GTlsCertificate *cert)
{
gchar *subject_name = NULL;
g_return_val_if_fail (G_IS_TLS_CERTIFICATE (cert), NULL);
g_object_get (G_OBJECT (cert), "subject-name", &subject_name, NULL);
return g_steal_pointer (&subject_name);
}
/**
* g_tls_certificate_get_issuer_name:
* @cert: a #GTlsCertificate
*
* Returns the issuer name from the certificate.
*
* Returns: (nullable) (transfer full): The issuer name, or %NULL if it's not available.
*
* Since: 2.70
*/
gchar *
g_tls_certificate_get_issuer_name (GTlsCertificate *cert)
{
gchar *issuer_name = NULL;
g_return_val_if_fail (G_IS_TLS_CERTIFICATE (cert), NULL);
g_object_get (G_OBJECT (cert), "issuer-name", &issuer_name, NULL);
return g_steal_pointer (&issuer_name);
}
/**
* g_tls_certificate_get_dns_names:
* @cert: a #GTlsCertificate
*
* Gets the value of #GTlsCertificate:dns-names.
*
* Returns: (nullable) (element-type GBytes) (transfer container): A #GPtrArray of
* #GBytes elements, or %NULL if it's not available.
*
* Since: 2.70
*/
GPtrArray *
g_tls_certificate_get_dns_names (GTlsCertificate *cert)
{
GPtrArray *dns_names = NULL;
g_return_val_if_fail (G_IS_TLS_CERTIFICATE (cert), NULL);
g_object_get (G_OBJECT (cert), "dns-names", &dns_names, NULL);
return g_steal_pointer (&dns_names);
}
/**
* g_tls_certificate_get_ip_addresses:
* @cert: a #GTlsCertificate
*
* Gets the value of #GTlsCertificate:ip-addresses.
*
* Returns: (nullable) (element-type GInetAddress) (transfer container): A #GPtrArray
* of #GInetAddress elements, or %NULL if it's not available.
*
* Since: 2.70
*/
GPtrArray *
g_tls_certificate_get_ip_addresses (GTlsCertificate *cert)
{
GPtrArray *ip_addresses = NULL;
g_return_val_if_fail (G_IS_TLS_CERTIFICATE (cert), NULL);
g_object_get (G_OBJECT (cert), "ip-addresses", &ip_addresses, NULL);
return g_steal_pointer (&ip_addresses);
}
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