sasl-server.c revision 7a94f950fd1dcc81537acfc8adb030b5e703d722
/* Copyright (c) 2002-2012 Dovecot authors, see the included COPYING file */
#include "login-common.h"
#include "base64.h"
#include "buffer.h"
#include "hex-binary.h"
#include "ioloop.h"
#include "istream.h"
#include "write-full.h"
#include "strescape.h"
#include "str-sanitize.h"
#include "anvil-client.h"
#include "auth-client.h"
#include "ssl-proxy.h"
#include "master-service.h"
#include "master-interface.h"
#include "master-auth.h"
#include "client-common.h"
#include <stdlib.h>
#include <unistd.h>
#define ERR_TOO_MANY_USERIP_CONNECTIONS \
"Maximum number of connections from user+IP exceeded " \
"(mail_max_userip_connections=%u)"
struct anvil_request {
struct client *client;
unsigned int auth_pid, auth_id;
unsigned char cookie[MASTER_AUTH_COOKIE_SIZE];
};
const struct auth_mech_desc *
sasl_server_get_advertised_mechs(struct client *client, unsigned int *count_r)
{
const struct auth_mech_desc *mech;
struct auth_mech_desc *ret_mech;
unsigned int i, j, count;
mech = auth_client_get_available_mechs(auth_client, &count);
if (count == 0) {
*count_r = 0;
return NULL;
}
ret_mech = t_new(struct auth_mech_desc, count);
for (i = j = 0; i < count; i++) {
/* a) transport is secured
b) auth mechanism isn't plaintext
c) we allow insecure authentication
*/
if ((mech[i].flags & MECH_SEC_PRIVATE) == 0 &&
(client->secured || !client->set->disable_plaintext_auth ||
(mech[i].flags & MECH_SEC_PLAINTEXT) == 0))
ret_mech[j++] = mech[i];
}
*count_r = j;
return ret_mech;
}
static enum auth_request_flags
client_get_auth_flags(struct client *client)
{
enum auth_request_flags auth_flags = 0;
if (client->ssl_proxy != NULL &&
ssl_proxy_has_valid_client_cert(client->ssl_proxy))
auth_flags |= AUTH_REQUEST_FLAG_VALID_CLIENT_CERT;
if (client->secured)
auth_flags |= AUTH_REQUEST_FLAG_SECURED;
if (client->trusted) {
/* e.g. webmail */
auth_flags |= AUTH_REQUEST_FLAG_NO_PENALTY;
}
if (login_binary->sasl_support_final_reply)
auth_flags |= AUTH_REQUEST_FLAG_SUPPORT_FINAL_RESP;
return auth_flags;
}
static void
call_client_callback(struct client *client, enum sasl_server_reply reply,
const char *data, const char *const *args)
{
sasl_server_callback_t *sasl_callback;
i_assert(reply != SASL_SERVER_REPLY_CONTINUE);
sasl_callback = client->sasl_callback;
client->sasl_callback = NULL;
sasl_callback(client, reply, data, args);
/* NOTE: client may be destroyed now */
}
static void
master_auth_callback(const struct master_auth_reply *reply, void *context)
{
struct client *client = context;
enum sasl_server_reply sasl_reply = SASL_SERVER_REPLY_MASTER_FAILED;
const char *data = NULL;
client->master_tag = 0;
client->authenticating = FALSE;
if (reply != NULL) {
switch (reply->status) {
case MASTER_AUTH_STATUS_OK:
sasl_reply = SASL_SERVER_REPLY_SUCCESS;
break;
case MASTER_AUTH_STATUS_INTERNAL_ERROR:
sasl_reply = SASL_SERVER_REPLY_MASTER_FAILED;
break;
}
client->mail_pid = reply->mail_pid;
} else {
auth_client_send_cancel(auth_client, client->master_auth_id);
}
call_client_callback(client, sasl_reply, data, NULL);
}
static void master_send_request(struct anvil_request *anvil_request)
{
struct client *client = anvil_request->client;
struct master_auth_request req;
const unsigned char *data;
size_t size;
buffer_t *buf;
memset(&req, 0, sizeof(req));
req.auth_pid = anvil_request->auth_pid;
req.auth_id = anvil_request->auth_id;
req.local_ip = client->local_ip;
req.remote_ip = client->ip;
req.client_pid = getpid();
if (client->ssl_proxy != NULL &&
ssl_proxy_get_compression(client->ssl_proxy))
req.flags |= MAIL_AUTH_REQUEST_FLAG_TLS_COMPRESSION;
memcpy(req.cookie, anvil_request->cookie, sizeof(req.cookie));
buf = buffer_create_dynamic(pool_datastack_create(), 256);
buffer_append(buf, client->master_data_prefix,
client->master_data_prefix_len);
data = i_stream_get_data(client->input, &size);
buffer_append(buf, data, size);
req.data_size = buf->used;
client->auth_finished = ioloop_time;
client->master_auth_id = req.auth_id;
master_auth_request(master_auth, client->fd, &req, buf->data,
master_auth_callback, client, &client->master_tag);
}
static void anvil_lookup_callback(const char *reply, void *context)
{
struct anvil_request *req = context;
struct client *client = req->client;
const struct login_settings *set = client->set;
const char *errmsg;
if (reply == NULL ||
strtoul(reply, NULL, 10) < set->mail_max_userip_connections)
master_send_request(req);
else {
client->authenticating = FALSE;
auth_client_send_cancel(auth_client, req->auth_id);
errmsg = t_strdup_printf(ERR_TOO_MANY_USERIP_CONNECTIONS,
set->mail_max_userip_connections);
call_client_callback(client, SASL_SERVER_REPLY_MASTER_FAILED,
errmsg, NULL);
}
i_free(req);
}
static void
anvil_check_too_many_connections(struct client *client,
struct auth_client_request *request)
{
struct anvil_request *req;
const char *query, *cookie;
buffer_t buf;
req = i_new(struct anvil_request, 1);
req->client = client;
req->auth_pid = auth_client_request_get_server_pid(request);
req->auth_id = auth_client_request_get_id(request);
buffer_create_data(&buf, req->cookie, sizeof(req->cookie));
cookie = auth_client_request_get_cookie(request);
if (strlen(cookie) == MASTER_AUTH_COOKIE_SIZE*2)
(void)hex_to_binary(cookie, &buf);
if (client->virtual_user == NULL ||
client->set->mail_max_userip_connections == 0) {
anvil_lookup_callback(NULL, req);
return;
}
query = t_strconcat("LOOKUP\t", login_binary->protocol, "/",
net_ip2addr(&client->ip), "/",
str_tabescape(client->virtual_user), NULL);
anvil_client_query(anvil, query, anvil_lookup_callback, req);
}
static void
authenticate_callback(struct auth_client_request *request,
enum auth_request_status status, const char *data_base64,
const char *const *args, void *context)
{
struct client *client = context;
unsigned int i;
bool nologin;
if (!client->authenticating) {
/* client aborted */
i_assert(status < 0);
return;
}
client->auth_waiting = FALSE;
i_assert(client->auth_request == request);
switch (status) {
case AUTH_REQUEST_STATUS_CONTINUE:
/* continue */
client->sasl_callback(client, SASL_SERVER_REPLY_CONTINUE,
data_base64, NULL);
break;
case AUTH_REQUEST_STATUS_OK:
client->auth_request = NULL;
client->auth_successes++;
nologin = FALSE;
for (i = 0; args[i] != NULL; i++) {
if (strncmp(args[i], "user=", 5) == 0) {
i_free(client->virtual_user);
client->virtual_user = i_strdup(args[i] + 5);
} else if (strcmp(args[i], "nologin") == 0 ||
strcmp(args[i], "proxy") == 0) {
/* user can't login */
nologin = TRUE;
} else if (strncmp(args[i], "resp=", 5) == 0 &&
login_binary->sasl_support_final_reply) {
client->sasl_final_resp =
p_strdup(client->pool, args[i] + 5);
}
}
if (nologin) {
client->authenticating = FALSE;
call_client_callback(client, SASL_SERVER_REPLY_SUCCESS,
NULL, args);
} else {
anvil_check_too_many_connections(client, request);
}
break;
case AUTH_REQUEST_STATUS_INTERNAL_FAIL:
client->auth_process_comm_fail = TRUE;
/* fall through */
case AUTH_REQUEST_STATUS_FAIL:
case AUTH_REQUEST_STATUS_ABORT:
client->auth_request = NULL;
if (args != NULL) {
/* parse our username if it's there */
for (i = 0; args[i] != NULL; i++) {
if (strncmp(args[i], "user=", 5) == 0) {
i_free(client->virtual_user);
client->virtual_user =
i_strdup(args[i] + 5);
}
}
}
client->authenticating = FALSE;
call_client_callback(client, SASL_SERVER_REPLY_AUTH_FAILED,
NULL, args);
break;
}
}
void sasl_server_auth_begin(struct client *client,
const char *service, const char *mech_name,
const char *initial_resp_base64,
sasl_server_callback_t *callback)
{
struct auth_request_info info;
const struct auth_mech_desc *mech;
i_assert(auth_client_is_connected(auth_client));
client->auth_attempts++;
client->authenticating = TRUE;
if (client->auth_first_started == 0)
client->auth_first_started = ioloop_time;
i_free(client->auth_mech_name);
client->auth_mech_name = str_ucase(i_strdup(mech_name));
client->sasl_callback = callback;
mech = auth_client_find_mech(auth_client, mech_name);
if (mech == NULL) {
client->auth_tried_unsupported_mech = TRUE;
sasl_server_auth_failed(client,
"Unsupported authentication mechanism.");
return;
}
if (!client->secured && client->set->disable_plaintext_auth &&
(mech->flags & MECH_SEC_PLAINTEXT) != 0) {
client->auth_tried_disabled_plaintext = TRUE;
sasl_server_auth_failed(client,
"Plaintext authentication disabled.");
return;
}
memset(&info, 0, sizeof(info));
info.mech = mech->name;
info.service = service;
info.cert_username = client->ssl_proxy == NULL ? NULL :
ssl_proxy_get_peer_name(client->ssl_proxy);
info.flags = client_get_auth_flags(client);
info.local_ip = client->local_ip;
info.remote_ip = client->ip;
info.local_port = client->local_port;
info.remote_port = client->remote_port;
info.initial_resp_base64 = initial_resp_base64;
client->auth_request =
auth_client_request_new(auth_client, &info,
authenticate_callback, client);
}
static void sasl_server_auth_cancel(struct client *client, const char *reason,
enum sasl_server_reply reply)
{
i_assert(client->authenticating);
if (client->set->auth_verbose && reason != NULL) {
const char *auth_name =
str_sanitize(client->auth_mech_name, MAX_MECH_NAME);
client_log(client, t_strdup_printf(
"Authenticate %s failed: %s", auth_name, reason));
}
client->authenticating = FALSE;
if (client->auth_request != NULL)
auth_client_request_abort(&client->auth_request);
call_client_callback(client, reply, reason, NULL);
}
void sasl_server_auth_failed(struct client *client, const char *reason)
{
sasl_server_auth_cancel(client, reason, SASL_SERVER_REPLY_AUTH_FAILED);
}
void sasl_server_auth_abort(struct client *client)
{
client->auth_try_aborted = TRUE;
sasl_server_auth_cancel(client, NULL, SASL_SERVER_REPLY_AUTH_ABORTED);
}