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|
/* ***** BEGIN LICENSE BLOCK *****
* 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 Sun LDAP C SDK.
*
* The Initial Developer of the Original Code is Sun Microsystems, Inc.
*
* Portions created by Sun Microsystems, Inc are Copyright (C) 2005
* Sun Microsystems, Inc. All Rights Reserved.
*
* Contributor(s):
*
* 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.
*
* ***** END LICENSE BLOCK ***** */
#ifdef LDAP_SASLIO_HOOKS
#include <assert.h>
#include "ldap-int.h"
#include "../liblber/lber-int.h"
#include <sasl.h>
/* Should be pulled in from lber-int.h */
#define READBUFSIZ 8192
#define SEARCH_TIMEOUT_SECS 120
#define NSLDAPI_SM_BUF 128
/*
* Data structures:
*/
/* data structure that populates the I/O callback socket-specific arg. */
typedef struct lextiof_socket_private {
struct ldap_x_ext_io_fns sess_io_fns; /* the saved layered ld fns from the layer we are "pushing" */
struct lber_x_ext_io_fns sock_io_fns; /* the saved layered ber fns from the layer we are "pushing" */
sasl_conn_t *sasl_ctx; /* the sasl context - pointer to the one from the connection */
char *sb_sasl_ibuf; /* sasl decrypted input buffer */
char *sb_sasl_iptr; /* current location in buffer */
int sb_sasl_bfsz; /* Alloc'd size of input buffer */
int sb_sasl_ilen; /* remaining length to process */
LDAP *ld; /* used to set errno */
Sockbuf *sb; /* pointer to our associated sockbuf */
} SASLIOSocketArg;
static void
destroy_SASLIOSocketArg(SASLIOSocketArg** sockarg)
{
if (sockarg && *sockarg) {
NSLDAPI_FREE((*sockarg)->sb_sasl_ibuf);
NSLDAPI_FREE((*sockarg));
*sockarg = NULL;
}
}
static SASLIOSocketArg*
new_SASLIOSocketArg(sasl_conn_t *ctx, int bufsiz, LDAP *ld, Sockbuf *sb)
{
SASLIOSocketArg *sockarg = NULL;
if (bufsiz <= 0) {
return sockarg;
}
sockarg = (SASLIOSocketArg*)NSLDAPI_CALLOC(1, sizeof(SASLIOSocketArg));
if (sockarg) {
sockarg->sasl_ctx = ctx;
sockarg->sb_sasl_ibuf = NSLDAPI_MALLOC(bufsiz);
if (!sockarg->sb_sasl_ibuf) {
destroy_SASLIOSocketArg(&sockarg);
return sockarg;
}
sockarg->sb_sasl_iptr = NULL;
sockarg->sb_sasl_bfsz = bufsiz;
sockarg->sb_sasl_ilen = 0;
sockarg->ld = ld;
sockarg->sb = sb;
}
return sockarg;
}
/*
* SASL Dependent routines
*
* SASL security and integrity options are supported through the
* use of the extended I/O functionality. Because the extended
* I/O functions may already be in use prior to enabling encryption,
* when SASL encryption si enabled, these routine interpose themselves
* over the exitng extended I/O routines and add an additional level
* of indirection.
* IE: Before SASL: client->libldap->lber->extio
* After SASL: client->libldap->lber->saslio->extio
* Any extio function are stilled used for the raw i/O [IE prldap]
* but SASL will decrypt before passing to lber.
* SASL cannot decrypt a stream so full packaets must be read
* before proceeding.
*/
/*
* Get the 4 octet header [size] for a sasl encrypted buffer.
* See RFC222 [section 3].
*/
static int
nsldapi_sasl_pktlen( char *buf, int maxbufsize )
{
int size;
#if defined( _WINDOWS ) || defined( _WIN32 )
size = ntohl(*(u_long *)buf);
#else
size = ntohl(*(uint32_t *)buf);
#endif
if ( size < 0 || size > maxbufsize ) {
return (-1 );
}
return( size + 4 ); /* include the first 4 bytes */
}
/*
* SASL encryption routines
*/
static int
nsldapi_sasl_read( int s, void *buf, int len,
struct lextiof_socket_private *arg)
{
LDAP *ld;
const char *dbuf;
char *cp;
int ret;
unsigned dlen, blen;
ld = (LDAP *)arg->ld;
/* Is there anything left in the existing buffer? */
if ((ret = arg->sb_sasl_ilen) > 0) {
ret = (ret > len ? len : ret);
SAFEMEMCPY( buf, arg->sb_sasl_iptr, ret );
if (ret == arg->sb_sasl_ilen) {
arg->sb_sasl_ilen = 0;
arg->sb_sasl_iptr = NULL;
} else {
arg->sb_sasl_ilen -= ret;
arg->sb_sasl_iptr += ret;
}
return( ret );
}
/* buffer is empty - fill it */
cp = arg->sb_sasl_ibuf;
dlen = 0;
/* Read the length of the packet */
while ( dlen < 4 ) {
if (arg->sock_io_fns.lbextiofn_read != NULL) {
ret = arg->sock_io_fns.lbextiofn_read(
s, cp, 4 - dlen,
arg->sock_io_fns.lbextiofn_socket_arg);
} else {
ret = read( s, cp, 4 - dlen );
}
#ifdef EINTR
if ( ( ret < 0 ) && ( LDAP_GET_ERRNO(ld) == EINTR ) )
continue;
#endif
if ( ret <= 0 )
return( ret );
cp += ret;
dlen += ret;
}
blen = 4;
ret = nsldapi_sasl_pktlen( arg->sb_sasl_ibuf, arg->sb_sasl_bfsz );
if (ret < 0) {
LDAP_SET_ERRNO(ld, EIO);
return( -1 );
}
dlen = ret - dlen;
/* read the rest of the encrypted packet */
while ( dlen > 0 ) {
if (arg->sock_io_fns.lbextiofn_read != NULL) {
ret = arg->sock_io_fns.lbextiofn_read(
s, cp, dlen,
arg->sock_io_fns.lbextiofn_socket_arg);
} else {
ret = read( s, cp, dlen );
}
#ifdef EINTR
if ( ( ret < 0 ) && ( LDAP_GET_ERRNO(ld) == EINTR ) )
continue;
#endif
if ( ret <= 0 )
return( ret );
cp += ret;
blen += ret;
dlen -= ret;
}
/* Decode the packet */
ret = sasl_decode( arg->sasl_ctx,
arg->sb_sasl_ibuf, blen,
&dbuf, &dlen);
if ( ret != SASL_OK ) {
/* sb_sasl_read: failed to decode packet, drop it, error */
arg->sb_sasl_iptr = NULL;
arg->sb_sasl_ilen = 0;
LDAP_SET_ERRNO(ld, EIO);
return( -1 );
}
/* copy decrypted packet to the input buffer */
SAFEMEMCPY( arg->sb_sasl_ibuf, dbuf, dlen );
arg->sb_sasl_iptr = arg->sb_sasl_ibuf;
arg->sb_sasl_ilen = dlen;
ret = (dlen > (unsigned) len ? len : dlen);
SAFEMEMCPY( buf, arg->sb_sasl_iptr, ret );
if (ret == arg->sb_sasl_ilen) {
arg->sb_sasl_ilen = 0;
arg->sb_sasl_iptr = NULL;
} else {
arg->sb_sasl_ilen -= ret;
arg->sb_sasl_iptr += ret;
}
return( ret );
}
static int
nsldapi_sasl_write( int s, const void *buf, int len,
struct lextiof_socket_private *arg)
{
int ret = 0;
const char *obuf, *optr, *cbuf = (const char *)buf;
unsigned olen, clen, tlen = 0;
unsigned *maxbuf;
ret = sasl_getprop(arg->sasl_ctx, SASL_MAXOUTBUF,
(const void **)&maxbuf);
if ( ret != SASL_OK ) {
/* just a sanity check, should never happen */
return( -1 );
}
while (len > 0) {
clen = (len > *maxbuf) ? *maxbuf : len;
/* encode the next packet. */
ret = sasl_encode( arg->sasl_ctx, cbuf, clen, &obuf, &olen);
if ( ret != SASL_OK ) {
/* XXX Log error? "sb_sasl_write: failed to encode packet..." */
return( -1 );
}
/* Write everything now, buffer is only good until next sasl_encode */
optr = obuf;
while (olen > 0) {
if (arg->sock_io_fns.lbextiofn_write != NULL) {
ret = arg->sock_io_fns.lbextiofn_write(
s, optr, olen,
arg->sock_io_fns.lbextiofn_socket_arg);
} else {
ret = write( s, optr, olen);
}
if ( ret < 0 )
return( ret );
optr += ret;
olen -= ret;
}
len -= clen;
cbuf += clen;
tlen += clen;
}
return( tlen );
}
/*
* What's all this then?
* First, take a look at os-ip.c:nsldapi_add_to_cb_pollfds(). When a new descriptor is
* added to the pollfds array, the lpoll_socketarg field is initialized to the value from
* the socketarg field - sb->sb_ext_io_fns.lbextiofn_socket_arg. In our case, since we
* override this with our sasl data (see below nsldapi_sasl_install), we need to restore
* the previous value so that the layer below us (i.e. prldap) can use the lpoll_socketarg
* which it sets.
* So how do which know which fds[i] is a "sasl" fd?
* We initialize the lextiof_session_private *arg (see nsldapi_sasl_install) to point to
* the socket_private data in sb->sb_ext_io_fns.lbextiofn_socket_arg for "sasl" sockets,
* which is then used to initialize lpoll_socketarg (see above).
* So, if the arg which gets passed into nsldapi_sasl_poll is the same as the
* fds[i].lpoll_socketarg, we know it is a "sasl" socket and we need to "pop" the sasl
* layer. We do this by replacing lpoll_socketarg with the one we saved when we "pushed"
* the sasl layer.
* So why the loop to restore the sasl lpoll_socketarg?
* The lower layer only uses lpoll_socketarg during poll(). See ldappr-io.c:prldap_poll()
* for more information about how that works. However, after the polling is done, there
* is some special magic in os-ip.c in the functions nsldapi_add_to_cb_pollfds(),
* nsldapi_clear_from_cb_pollfds(), and nsldapi_find_in_cb_pollfds() to find the correct
* Sockbuf to operate on. This is the macro NSLDAPI_CB_POLL_MATCH(). For the extended
* io function callbacks to work correctly, it is not sufficient to say that the file
* descriptor in the Sockbuf matches the one that poll says has activity - we also need
* to match the lpoll_socketarg with the sb->sb_ext_io_fns.lbextiofn_socket_arg to make
* sure this really is the Sockbuf we want to use. So we have to restore the
* lpoll_socketarg with the original one.
* Why have origarg and staticorigarg?
* To avoid malloc. The sizeof staticorigarg should be large enough to accomodate almost
* all clients without incurring too much additional overhead. However, if we need more
* room, origarg will grow to nfds. If this proves to be inadequate, the size of the
* staticorigarg is a good candidate for a #define set by configure.
*/
static int
nsldapi_sasl_poll(
LDAP_X_PollFD fds[], int nfds, int timeout,
struct lextiof_session_private *arg )
{
LDAP_X_EXTIOF_POLL_CALLBACK *origpoll; /* poll fn from the pushed layer */
struct lextiof_session_private *origsess = NULL; /* session arg from the pushed layer */
SASLIOSocketArg **origarg = NULL; /* list of saved original socket args */
SASLIOSocketArg *staticorigarg[1024]; /* default list to avoid malloc */
int origargsize = sizeof(staticorigarg)/sizeof(staticorigarg[0]);
int rc = -1; /* the return code - -1 means failure */
if (arg == NULL) { /* should not happen */
return( rc );
}
origarg = staticorigarg;
/* if the static array is not large enough, alloc a dynamic one */
if (origargsize < nfds) {
origarg = (SASLIOSocketArg **)NSLDAPI_MALLOC(nfds*sizeof(SASLIOSocketArg *));
}
if (fds && nfds > 0) {
int i;
for(i = 0; i < nfds; i++) {
/* save the original socket arg */
origarg[i] = fds[i].lpoll_socketarg;
if (arg == (struct lextiof_session_private *)fds[i].lpoll_socketarg) {
/* lpoll_socketarg is a sasl socket arg - we need to replace it
with the one from the layer we pushed (i.e. prldap) */
SASLIOSocketArg *sockarg = (SASLIOSocketArg *)fds[i].lpoll_socketarg;
/* reset to pushed layer's socket arg */
fds[i].lpoll_socketarg = sockarg->sock_io_fns.lbextiofn_socket_arg;
/* grab the pushed layers' poll fn and its session arg */
if (!origsess) {
origpoll = sockarg->sess_io_fns.lextiof_poll;
origsess = sockarg->sess_io_fns.lextiof_session_arg;
}
}
}
}
if (origsess == NULL) { /* should not happen */
goto done;
}
/* call the "real" poll function */
rc = origpoll( fds, nfds, timeout, origsess );
/* reset the lpoll_socketarg values to their original values because
they must match what's in sb->iofns->lbextiofn_socket_arg in order
for NSLDAPI_CB_POLL_MATCH to work - see os-ip.c */
if (fds && nfds > 0) {
int i;
for(i = 0; i < nfds; i++) {
if ((SASLIOSocketArg *)arg == origarg[i]) {
fds[i].lpoll_socketarg = origarg[i];
}
}
}
done:
/* if we had to use a dynamic array, free it */
if (origarg != staticorigarg) {
NSLDAPI_FREE(origarg);
}
return rc;
}
int
nsldapi_sasl_open( LDAP *ld, LDAPConn *lconn, sasl_conn_t **ctx, sasl_ssf_t ssf )
{
int saslrc;
char *host = NULL;
if ( !NSLDAPI_VALID_LDAP_POINTER( ld )) {
LDAP_SET_LDERRNO( ld, LDAP_LOCAL_ERROR, NULL, NULL );
return( LDAP_LOCAL_ERROR );
}
if ( lconn == NULL ) {
if ( ld->ld_defconn == NULL ||
ld->ld_defconn->lconn_status != LDAP_CONNST_CONNECTED) {
int rc = nsldapi_open_ldap_defconn( ld );
if( rc < 0 ) {
return( LDAP_GET_LDERRNO( ld, NULL, NULL ) );
}
}
lconn = ld->ld_defconn;
}
/* need to clear out the old context for this connection, if any */
/* client may have re-bind-ed this connection without closing first */
if (lconn->lconn_sasl_ctx) {
sasl_dispose(&lconn->lconn_sasl_ctx);
lconn->lconn_sasl_ctx = NULL;
}
if ( 0 != ldap_get_option( ld, LDAP_OPT_HOST_NAME, &host ) ) {
LDAP_SET_LDERRNO( ld, LDAP_LOCAL_ERROR, NULL, NULL );
return( LDAP_LOCAL_ERROR );
}
saslrc = sasl_client_new( "ldap", host,
NULL, NULL, /* iplocalport, ipremoteport - use defaults */
NULL, 0, ctx );
ldap_memfree(host);
if ( (saslrc != SASL_OK) || (!*ctx) ) {
return( nsldapi_sasl_cvterrno( ld, saslrc, NULL ) );
}
if( ssf ) {
sasl_ssf_t extprops;
memset(&extprops, 0L, sizeof(extprops));
extprops = ssf;
(void) sasl_setprop( *ctx, SASL_SSF_EXTERNAL,
(void *) &extprops );
}
/* (re)set security properties */
sasl_setprop( *ctx, SASL_SEC_PROPS, &ld->ld_sasl_secprops );
/* set the connection context */
lconn->lconn_sasl_ctx = *ctx;
return( LDAP_SUCCESS );
}
static int
nsldapi_sasl_close( struct lextiof_socket_private *arg )
{
/* undo function pointer interposing */
ldap_set_option( arg->ld, LDAP_X_OPT_EXTIO_FN_PTRS, &arg->sess_io_fns );
/* have to do this separately to make sure the socketarg is set correctly */
ber_sockbuf_set_option( arg->sb,
LBER_SOCKBUF_OPT_EXT_IO_FNS,
(void *)&arg->sock_io_fns );
destroy_SASLIOSocketArg(&arg);
return( LDAP_SUCCESS );
}
static int
nsldapi_sasl_close_socket(int s, struct lextiof_socket_private *arg )
{
LDAP_X_EXTIOF_CLOSE_CALLBACK *origclose;
struct lextiof_socket_private *origsock;
if (arg == NULL) {
return( -1 );
}
origclose = arg->sess_io_fns.lextiof_close;
origsock = arg->sock_io_fns.lbextiofn_socket_arg;
/* undo SASL */
nsldapi_sasl_close( arg );
arg = NULL;
/* arg is destroyed at this point - do not use it */
if (origclose )
return ( origclose( s, origsock ) );
else {
/* This is a copy of nsldapi_os_closesocket()
* from os-ip.c. It is declared static there,
* hence the copy of it.
*/
int rc;
#ifdef NSLDAPI_AVOID_OS_SOCKETS
rc = -1;
#else /* NSLDAPI_AVOID_OS_SOCKETS */
#ifdef _WINDOWS
rc = closesocket( s );
#else /* _WINDOWS */
rc = close( s );
#endif /* _WINDOWS */
#endif /* NSLDAPI_AVOID_OS_SOCKETS */
return( rc );
}
}
/*
* install encryption routines if security has been negotiated
*/
int
nsldapi_sasl_install( LDAP *ld, LDAPConn *lconn )
{
struct lber_x_ext_io_fns fns;
struct ldap_x_ext_io_fns iofns;
sasl_security_properties_t *secprops;
int rc, value;
int bufsiz;
Sockbuf *sb = NULL;
sasl_conn_t *ctx = NULL;
SASLIOSocketArg *sockarg = NULL;
if ( lconn == NULL ) {
lconn = ld->ld_defconn;
if ( lconn == NULL ) {
return( LDAP_LOCAL_ERROR );
}
}
if ( (sb = lconn->lconn_sb) == NULL ) {
return( LDAP_LOCAL_ERROR );
}
rc = ber_sockbuf_get_option( sb,
LBER_SOCKBUF_OPT_TO_FILE_ONLY,
(void *) &value);
if (rc != 0 || value != 0) {
return( LDAP_LOCAL_ERROR );
}
/* the sasl context in the lconn must have been set prior to this */
ctx = lconn->lconn_sasl_ctx;
rc = sasl_getprop( ctx, SASL_SEC_PROPS,
(const void **)&secprops );
if (rc != SASL_OK)
return( LDAP_LOCAL_ERROR );
bufsiz = secprops->maxbufsize;
if (bufsiz <= 0) {
return( LDAP_LOCAL_ERROR );
}
/* create our socket specific context */
sockarg = new_SASLIOSocketArg(ctx, bufsiz, ld, sb);
if (!sockarg) {
return( LDAP_LOCAL_ERROR );
}
/* save a copy of the existing io fns and the session arg */
memset( &sockarg->sess_io_fns, 0, LDAP_X_EXTIO_FNS_SIZE );
sockarg->sess_io_fns.lextiof_size = LDAP_X_EXTIO_FNS_SIZE;
rc = ldap_get_option( ld, LDAP_X_OPT_EXTIO_FN_PTRS,
&sockarg->sess_io_fns );
if (rc != 0) {
destroy_SASLIOSocketArg(&sockarg);
return( LDAP_LOCAL_ERROR );
}
/* save a copy of the existing ber io fns and the socket arg */
memset( &sockarg->sock_io_fns, 0, LBER_X_EXTIO_FNS_SIZE );
sockarg->sock_io_fns.lbextiofn_size = LBER_X_EXTIO_FNS_SIZE;
rc = ber_sockbuf_get_option( sb,
LBER_SOCKBUF_OPT_EXT_IO_FNS,
(void *)&sockarg->sock_io_fns);
if (rc != 0) {
destroy_SASLIOSocketArg(&sockarg);
return( LDAP_LOCAL_ERROR );
}
/* Always set the ext io close fn pointer to ensure we
* clean up our sockarg context */
memset( &iofns, 0, sizeof(iofns));
/* first, copy struct - sets defaults */
iofns = sockarg->sess_io_fns;
iofns.lextiof_close = nsldapi_sasl_close_socket;
iofns.lextiof_session_arg = sockarg; /* needed for close and poll */
/* Set new values for the other ext io funcs if there are any -
when using the native io fns (as opposed to prldap) there
won't be any */
if ( sockarg->sess_io_fns.lextiof_read != NULL ||
sockarg->sess_io_fns.lextiof_write != NULL ||
sockarg->sess_io_fns.lextiof_poll != NULL ||
sockarg->sess_io_fns.lextiof_connect != NULL ) {
/* next, just reset those functions we want to override */
iofns.lextiof_read = nsldapi_sasl_read;
iofns.lextiof_write = nsldapi_sasl_write;
iofns.lextiof_poll = nsldapi_sasl_poll;
}
/* set the ext io funcs */
rc = ldap_set_option( ld, LDAP_X_OPT_EXTIO_FN_PTRS, &iofns );
if (rc != 0) {
/* frees everything and resets fns above */
nsldapi_sasl_close(sockarg);
return( LDAP_LOCAL_ERROR );
}
/* set the new ber io funcs and socket arg */
(void) memset( &fns, 0, LBER_X_EXTIO_FNS_SIZE);
fns.lbextiofn_size = LBER_X_EXTIO_FNS_SIZE;
fns.lbextiofn_read = nsldapi_sasl_read;
fns.lbextiofn_write = nsldapi_sasl_write;
fns.lbextiofn_socket_arg = sockarg;
rc = ber_sockbuf_set_option( sb,
LBER_SOCKBUF_OPT_EXT_IO_FNS,
(void *)&fns);
if (rc != 0) {
/* frees everything and resets fns above */
nsldapi_sasl_close(sockarg);
return( LDAP_LOCAL_ERROR );
}
return( LDAP_SUCCESS );
}
#endif
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