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/*
* Copyright (C) 2000-2001 Vsevolod Volkov <vvv@mutt.org.ua>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#if HAVE_CONFIG_H
# include "config.h"
#endif
#include "mutt.h"
#include "mx.h"
#include "md5.h"
#include "pop.h"
#include <string.h>
#include <unistd.h>
#ifdef USE_SASL
#include <sasl/sasl.h>
#include <sasl/saslutil.h>
#include "mutt_sasl.h"
#endif
#ifdef USE_SASL
/* SASL authenticator */
static pop_auth_res_t pop_auth_sasl (POP_DATA *pop_data, const char *method)
{
sasl_conn_t *saslconn;
sasl_interact_t *interaction = NULL;
int rc;
char *buf = NULL;
size_t bufsize = 0;
char inbuf[LONG_STRING];
const char* mech;
const char *pc = NULL;
unsigned int len, olen, client_start;
if (mutt_account_getpass (&pop_data->conn->account) ||
!pop_data->conn->account.pass[0])
return POP_A_FAILURE;
if (mutt_sasl_client_new (pop_data->conn, &saslconn) < 0)
{
dprint (1, (debugfile, "pop_auth_sasl: Error allocating SASL connection.\n"));
return POP_A_FAILURE;
}
if (!method)
method = pop_data->auth_list;
FOREVER
{
rc = sasl_client_start(saslconn, method, &interaction, &pc, &olen, &mech);
if (rc != SASL_INTERACT)
break;
mutt_sasl_interact (interaction);
}
if (rc != SASL_OK && rc != SASL_CONTINUE)
{
dprint (1, (debugfile, "pop_auth_sasl: Failure starting authentication exchange. No shared mechanisms?\n"));
/* SASL doesn't support suggested mechanisms, so fall back */
sasl_dispose (&saslconn);
return POP_A_UNAVAIL;
}
/* About client_start: If sasl_client_start() returns data via pc/olen,
* the client is expected to send this first (after the AUTH string is sent).
* sasl_client_start() may in fact return SASL_OK in this case.
*/
client_start = olen;
mutt_message _("Authenticating (SASL)...");
bufsize = ((olen * 2) > LONG_STRING) ? (olen * 2) : LONG_STRING;
buf = safe_malloc (bufsize);
snprintf (buf, bufsize, "AUTH %s", mech);
olen = strlen (buf);
/* looping protocol */
FOREVER
{
strfcpy (buf + olen, "\r\n", bufsize - olen);
mutt_socket_write (pop_data->conn, buf);
if (mutt_socket_readln (inbuf, sizeof (inbuf), pop_data->conn) < 0)
{
sasl_dispose (&saslconn);
pop_data->status = POP_DISCONNECTED;
FREE (&buf);
return POP_A_SOCKET;
}
/* Note we don't exit if rc==SASL_OK when client_start is true.
* This is because the first loop has only sent the AUTH string, we
* need to loop at least once more to send the pc/olen returned
* by sasl_client_start().
*/
if (!client_start && rc != SASL_CONTINUE)
break;
if (!mutt_strncmp (inbuf, "+ ", 2)
&& sasl_decode64 (inbuf+2, strlen (inbuf+2), buf, bufsize - 1, &len) != SASL_OK)
{
dprint (1, (debugfile, "pop_auth_sasl: error base64-decoding server response.\n"));
goto bail;
}
if (!client_start)
FOREVER
{
rc = sasl_client_step (saslconn, buf, len, &interaction, &pc, &olen);
if (rc != SASL_INTERACT)
break;
mutt_sasl_interact (interaction);
}
else
{
olen = client_start;
client_start = 0;
}
/* Even if sasl_client_step() returns SASL_OK, we should send at
* least one more line to the server. See #3862.
*/
if (rc != SASL_CONTINUE && rc != SASL_OK)
break;
/* send out response, or line break if none needed */
if (pc)
{
if ((olen * 2) > bufsize)
{
bufsize = olen * 2;
safe_realloc (&buf, bufsize);
}
if (sasl_encode64 (pc, olen, buf, bufsize, &olen) != SASL_OK)
{
dprint (1, (debugfile, "pop_auth_sasl: error base64-encoding client response.\n"));
goto bail;
}
}
}
if (rc != SASL_OK)
goto bail;
if (!mutt_strncmp (inbuf, "+OK", 3))
{
mutt_sasl_setup_conn (pop_data->conn, saslconn);
FREE (&buf);
return POP_A_SUCCESS;
}
bail:
sasl_dispose (&saslconn);
/* terminate SASL session if the last response is not +OK nor -ERR */
if (!mutt_strncmp (inbuf, "+ ", 2))
{
snprintf (buf, bufsize, "*\r\n");
if (pop_query (pop_data, buf, sizeof (buf)) == -1)
{
FREE (&buf);
return POP_A_SOCKET;
}
}
FREE (&buf);
mutt_error _("SASL authentication failed.");
mutt_sleep (2);
return POP_A_FAILURE;
}
#endif
/* Get the server timestamp for APOP authentication */
void pop_apop_timestamp (POP_DATA *pop_data, char *buf)
{
char *p1, *p2;
FREE (&pop_data->timestamp);
if ((p1 = strchr (buf, '<')) && (p2 = strchr (p1, '>')))
{
p2[1] = '\0';
pop_data->timestamp = safe_strdup (p1);
}
}
/* APOP authenticator */
static pop_auth_res_t pop_auth_apop (POP_DATA *pop_data, const char *method)
{
struct md5_ctx ctx;
unsigned char digest[16];
char hash[33];
char buf[LONG_STRING];
size_t i;
if (mutt_account_getpass (&pop_data->conn->account) ||
!pop_data->conn->account.pass[0])
return POP_A_FAILURE;
if (!pop_data->timestamp)
return POP_A_UNAVAIL;
if (rfc822_valid_msgid (pop_data->timestamp) < 0)
{
mutt_error _("POP timestamp is invalid!");
mutt_sleep (2);
return POP_A_UNAVAIL;
}
mutt_message _("Authenticating (APOP)...");
/* Compute the authentication hash to send to the server */
md5_init_ctx (&ctx);
md5_process_bytes (pop_data->timestamp, strlen (pop_data->timestamp), &ctx);
md5_process_bytes (pop_data->conn->account.pass,
strlen (pop_data->conn->account.pass), &ctx);
md5_finish_ctx (&ctx, digest);
for (i = 0; i < sizeof (digest); i++)
sprintf (hash + 2 * i, "%02x", digest[i]);
/* Send APOP command to server */
snprintf (buf, sizeof (buf), "APOP %s %s\r\n", pop_data->conn->account.user, hash);
switch (pop_query (pop_data, buf, sizeof (buf)))
{
case 0:
return POP_A_SUCCESS;
case -1:
return POP_A_SOCKET;
}
mutt_error _("APOP authentication failed.");
mutt_sleep (2);
return POP_A_FAILURE;
}
/* USER authenticator */
static pop_auth_res_t pop_auth_user (POP_DATA *pop_data, const char *method)
{
char buf[LONG_STRING];
int ret;
if (!pop_data->cmd_user)
return POP_A_UNAVAIL;
if (mutt_account_getpass (&pop_data->conn->account) ||
!pop_data->conn->account.pass[0])
return POP_A_FAILURE;
mutt_message _("Logging in...");
snprintf (buf, sizeof (buf), "USER %s\r\n", pop_data->conn->account.user);
ret = pop_query (pop_data, buf, sizeof (buf));
if (pop_data->cmd_user == 2)
{
if (ret == 0)
{
pop_data->cmd_user = 1;
dprint (1, (debugfile, "pop_auth_user: set USER capability\n"));
}
if (ret == -2)
{
pop_data->cmd_user = 0;
dprint (1, (debugfile, "pop_auth_user: unset USER capability\n"));
snprintf (pop_data->err_msg, sizeof (pop_data->err_msg), "%s",
_("Command USER is not supported by server."));
}
}
if (ret == 0)
{
snprintf (buf, sizeof (buf), "PASS %s\r\n", pop_data->conn->account.pass);
ret = pop_query_d (pop_data, buf, sizeof (buf),
#ifdef DEBUG
/* don't print the password unless we're at the ungodly debugging level */
debuglevel < MUTT_SOCK_LOG_FULL ? "PASS *\r\n" :
#endif
NULL);
}
switch (ret)
{
case 0:
return POP_A_SUCCESS;
case -1:
return POP_A_SOCKET;
}
mutt_error ("%s %s", _("Login failed."), pop_data->err_msg);
mutt_sleep (2);
return POP_A_FAILURE;
}
/* OAUTHBEARER/XOAUTH2 authenticator */
static pop_auth_res_t pop_auth_oauth (POP_DATA *pop_data, int xoauth2)
{
int rc = POP_A_FAILURE;
BUFFER *bearertoken = NULL, *authline = NULL;
const char *authtype;
char decoded_err[LONG_STRING];
char *err = NULL;
int ret, len;
authtype = xoauth2 ? "XOAUTH2" : "OAUTHBEARER";
mutt_message (_("Authenticating (%s)..."), authtype);
bearertoken = mutt_buffer_pool_get ();
authline = mutt_buffer_pool_get ();
if (mutt_account_getoauthbearer (&pop_data->conn->account, bearertoken, xoauth2))
goto cleanup;
mutt_buffer_printf (authline, "AUTH %s\r\n", authtype);
ret = pop_query (pop_data, authline->data, authline->dsize);
if (ret == 0 ||
(ret == -2 && !mutt_strncmp (authline->data, "+", 1)))
{
mutt_buffer_printf (authline, "%s\r\n", mutt_b2s (bearertoken));
ret = pop_query_d (pop_data, authline->data, authline->dsize,
#ifdef DEBUG
/* don't print the bearer token unless we're at the ungodly debugging level */
debuglevel < MUTT_SOCK_LOG_FULL ?
(xoauth2 ? "*\r\n" : "*\r\n")
:
#endif
NULL);
}
switch (ret)
{
case 0:
rc = POP_A_SUCCESS;
goto cleanup;
case -1:
rc = POP_A_SOCKET;
goto cleanup;
}
/* The error response was a SASL continuation, so "continue" it.
* See RFC 7628 3.2.3. "AQ==" is Base64 encoded ^A (0x01) .
*/
err = pop_data->err_msg;
len = mutt_from_base64 (decoded_err, pop_data->err_msg, sizeof(decoded_err) - 1);
if (len >= 0)
{
decoded_err[len] = '\0';
err = decoded_err;
}
mutt_buffer_strcpy (authline, "AQ==\r\n");
pop_query_d (pop_data, authline->data, authline->dsize, NULL);
mutt_error ("%s %s", _("Authentication failed."), err);
mutt_sleep (2);
cleanup:
mutt_buffer_pool_release (&bearertoken);
mutt_buffer_pool_release (&authline);
return rc;
}
/* OAUTHBEARER/XOAUTH2 authenticator */
static pop_auth_res_t pop_auth_oauthbearer (POP_DATA *pop_data, const char *method)
{
if (!PopOauthRefreshCmd)
return POP_A_UNAVAIL;
return pop_auth_oauth (pop_data, 0);
}
/* OAUTHBEARER/XOAUTH2 authenticator */
static pop_auth_res_t pop_auth_xoauth2 (POP_DATA *pop_data, const char *method)
{
/* If they did not explicitly request XOAUTH2 then fail quietly */
if (!(method && PopOauthRefreshCmd))
return POP_A_UNAVAIL;
return pop_auth_oauth (pop_data, 1);
}
static const pop_auth_t pop_authenticators[] = {
{ pop_auth_oauthbearer, "oauthbearer" },
{ pop_auth_xoauth2, "xoauth2" },
#ifdef USE_SASL
{ pop_auth_sasl, NULL },
#endif
{ pop_auth_apop, "apop" },
{ pop_auth_user, "user" },
{ NULL, NULL }
};
/*
* Authentication
* 0 - successful,
* -1 - connection lost,
* -2 - login failed,
* -3 - authentication canceled.
*/
int pop_authenticate (POP_DATA* pop_data)
{
ACCOUNT *acct = &pop_data->conn->account;
const pop_auth_t* authenticator;
char* methods;
char* comma;
char* method;
int attempts = 0;
int ret = POP_A_UNAVAIL;
if (mutt_account_getuser (acct) || !acct->user[0])
return -3;
if (PopAuthenticators)
{
/* Try user-specified list of authentication methods */
methods = safe_strdup (PopAuthenticators);
method = methods;
while (method)
{
comma = strchr (method, ':');
if (comma)
*comma++ = '\0';
dprint (2, (debugfile, "pop_authenticate: Trying method %s\n", method));
authenticator = pop_authenticators;
while (authenticator->authenticate)
{
if (!authenticator->method ||
!ascii_strcasecmp (authenticator->method, method))
{
ret = authenticator->authenticate (pop_data, method);
if (ret == POP_A_SOCKET)
switch (pop_connect (pop_data))
{
case 0:
{
ret = authenticator->authenticate (pop_data, method);
break;
}
case -2:
ret = POP_A_FAILURE;
}
if (ret != POP_A_UNAVAIL)
attempts++;
if (ret == POP_A_SUCCESS || ret == POP_A_SOCKET ||
(ret == POP_A_FAILURE && !option (OPTPOPAUTHTRYALL)))
{
comma = NULL;
break;
}
}
authenticator++;
}
method = comma;
}
FREE (&methods);
}
else
{
/* Fall back to default: any authenticator */
dprint (2, (debugfile, "pop_authenticate: Using any available method.\n"));
authenticator = pop_authenticators;
while (authenticator->authenticate)
{
ret = authenticator->authenticate (pop_data, NULL);
if (ret == POP_A_SOCKET)
switch (pop_connect (pop_data))
{
case 0:
{
ret = authenticator->authenticate (pop_data, NULL);
break;
}
case -2:
ret = POP_A_FAILURE;
}
if (ret != POP_A_UNAVAIL)
attempts++;
if (ret == POP_A_SUCCESS || ret == POP_A_SOCKET ||
(ret == POP_A_FAILURE && !option (OPTPOPAUTHTRYALL)))
break;
authenticator++;
}
}
switch (ret)
{
case POP_A_SUCCESS:
return 0;
case POP_A_SOCKET:
return -1;
case POP_A_UNAVAIL:
if (!attempts)
mutt_error (_("No authenticators available"));
}
return -2;
}
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