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/* SCTP kernel reference Implementation
* ( C ) Copyright IBM Corp . 2001 , 2004
* Copyright ( c ) 1999 - 2000 Cisco , Inc .
* Copyright ( c ) 1999 - 2001 Motorola , Inc .
* Copyright ( c ) 2001 - 2003 Intel Corp .
* Copyright ( c ) 2001 - 2002 Nokia , Inc .
* Copyright ( c ) 2001 La Monte H . P . Yarroll
*
* This file is part of the SCTP kernel reference Implementation
*
* These functions interface with the sockets layer to implement the
* SCTP Extensions for the Sockets API .
*
* Note that the descriptions from the specification are USER level
* functions - - this file is the functions which populate the struct proto
* for SCTP which is the BOTTOM of the sockets interface .
*
* The SCTP reference implementation 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 , or ( at your option )
* any later version .
*
* The SCTP reference implementation 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 GNU CC ; see the file COPYING . If not , write to
* the Free Software Foundation , 59 Temple Place - Suite 330 ,
* Boston , MA 02111 - 1307 , USA .
*
* Please send any bug reports or fixes you make to the
* email address ( es ) :
* lksctp developers < lksctp - developers @ lists . sourceforge . net >
*
* Or submit a bug report through the following website :
* http : //www.sf.net/projects/lksctp
*
* Written or modified by :
* La Monte H . P . Yarroll < piggy @ acm . org >
* Narasimha Budihal < narsi @ refcode . org >
* Karl Knutson < karl @ athena . chicago . il . us >
* Jon Grimm < jgrimm @ us . ibm . com >
* Xingang Guo < xingang . guo @ intel . com >
* Daisy Chang < daisyc @ us . ibm . com >
* Sridhar Samudrala < samudrala @ us . ibm . com >
* Inaky Perez - Gonzalez < inaky . gonzalez @ intel . com >
* Ardelle Fan < ardelle . fan @ intel . com >
* Ryan Layer < rmlayer @ us . ibm . com >
* Anup Pemmaiah < pemmaiah @ cc . usu . edu >
* Kevin Gao < kevin . gao @ intel . com >
*
* Any bugs reported given to us we will try to fix . . . any fixes shared will
* be incorporated into the next SCTP release .
*/
# include <linux/config.h>
# include <linux/types.h>
# include <linux/kernel.h>
# include <linux/wait.h>
# include <linux/time.h>
# include <linux/ip.h>
# include <linux/fcntl.h>
# include <linux/poll.h>
# include <linux/init.h>
# include <linux/crypto.h>
# include <net/ip.h>
# include <net/icmp.h>
# include <net/route.h>
# include <net/ipv6.h>
# include <net/inet_common.h>
# include <linux/socket.h> /* for sa_family_t */
# include <net/sock.h>
# include <net/sctp/sctp.h>
# include <net/sctp/sm.h>
/* WARNING: Please do not remove the SCTP_STATIC attribute to
* any of the functions below as they are used to export functions
* used by a project regression testsuite .
*/
/* Forward declarations for internal helper functions. */
static int sctp_writeable ( struct sock * sk ) ;
static void sctp_wfree ( struct sk_buff * skb ) ;
static int sctp_wait_for_sndbuf ( struct sctp_association * , long * timeo_p ,
size_t msg_len ) ;
static int sctp_wait_for_packet ( struct sock * sk , int * err , long * timeo_p ) ;
static int sctp_wait_for_connect ( struct sctp_association * , long * timeo_p ) ;
static int sctp_wait_for_accept ( struct sock * sk , long timeo ) ;
static void sctp_wait_for_close ( struct sock * sk , long timeo ) ;
static struct sctp_af * sctp_sockaddr_af ( struct sctp_sock * opt ,
union sctp_addr * addr , int len ) ;
static int sctp_bindx_add ( struct sock * , struct sockaddr * , int ) ;
static int sctp_bindx_rem ( struct sock * , struct sockaddr * , int ) ;
static int sctp_send_asconf_add_ip ( struct sock * , struct sockaddr * , int ) ;
static int sctp_send_asconf_del_ip ( struct sock * , struct sockaddr * , int ) ;
static int sctp_send_asconf ( struct sctp_association * asoc ,
struct sctp_chunk * chunk ) ;
static int sctp_do_bind ( struct sock * , union sctp_addr * , int ) ;
static int sctp_autobind ( struct sock * sk ) ;
static void sctp_sock_migrate ( struct sock * , struct sock * ,
struct sctp_association * , sctp_socket_type_t ) ;
static char * sctp_hmac_alg = SCTP_COOKIE_HMAC_ALG ;
extern kmem_cache_t * sctp_bucket_cachep ;
/* Get the sndbuf space available at the time on the association. */
static inline int sctp_wspace ( struct sctp_association * asoc )
{
struct sock * sk = asoc - > base . sk ;
int amt = 0 ;
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if ( asoc - > ep - > sndbuf_policy ) {
/* make sure that no association uses more than sk_sndbuf */
amt = sk - > sk_sndbuf - asoc - > sndbuf_used ;
} else {
/* do socket level accounting */
amt = sk - > sk_sndbuf - atomic_read ( & sk - > sk_wmem_alloc ) ;
}
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if ( amt < 0 )
amt = 0 ;
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return amt ;
}
/* Increment the used sndbuf space count of the corresponding association by
* the size of the outgoing data chunk .
* Also , set the skb destructor for sndbuf accounting later .
*
* Since it is always 1 - 1 between chunk and skb , and also a new skb is always
* allocated for chunk bundling in sctp_packet_transmit ( ) , we can use the
* destructor in the data chunk skb for the purpose of the sndbuf space
* tracking .
*/
static inline void sctp_set_owner_w ( struct sctp_chunk * chunk )
{
struct sctp_association * asoc = chunk - > asoc ;
struct sock * sk = asoc - > base . sk ;
/* The sndbuf space is tracked per association. */
sctp_association_hold ( asoc ) ;
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skb_set_owner_w ( chunk - > skb , sk ) ;
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chunk - > skb - > destructor = sctp_wfree ;
/* Save the chunk pointer in skb for sctp_wfree to use later. */
* ( ( struct sctp_chunk * * ) ( chunk - > skb - > cb ) ) = chunk ;
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asoc - > sndbuf_used + = SCTP_DATA_SNDSIZE ( chunk ) +
sizeof ( struct sk_buff ) +
sizeof ( struct sctp_chunk ) ;
sk - > sk_wmem_queued + = SCTP_DATA_SNDSIZE ( chunk ) +
sizeof ( struct sk_buff ) +
sizeof ( struct sctp_chunk ) ;
atomic_add ( sizeof ( struct sctp_chunk ) , & sk - > sk_wmem_alloc ) ;
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}
/* Verify that this is a valid address. */
static inline int sctp_verify_addr ( struct sock * sk , union sctp_addr * addr ,
int len )
{
struct sctp_af * af ;
/* Verify basic sockaddr. */
af = sctp_sockaddr_af ( sctp_sk ( sk ) , addr , len ) ;
if ( ! af )
return - EINVAL ;
/* Is this a valid SCTP address? */
if ( ! af - > addr_valid ( addr , sctp_sk ( sk ) ) )
return - EINVAL ;
if ( ! sctp_sk ( sk ) - > pf - > send_verify ( sctp_sk ( sk ) , ( addr ) ) )
return - EINVAL ;
return 0 ;
}
/* Look up the association by its id. If this is not a UDP-style
* socket , the ID field is always ignored .
*/
struct sctp_association * sctp_id2assoc ( struct sock * sk , sctp_assoc_t id )
{
struct sctp_association * asoc = NULL ;
/* If this is not a UDP-style socket, assoc id should be ignored. */
if ( ! sctp_style ( sk , UDP ) ) {
/* Return NULL if the socket state is not ESTABLISHED. It
* could be a TCP - style listening socket or a socket which
* hasn ' t yet called connect ( ) to establish an association .
*/
if ( ! sctp_sstate ( sk , ESTABLISHED ) )
return NULL ;
/* Get the first and the only association from the list. */
if ( ! list_empty ( & sctp_sk ( sk ) - > ep - > asocs ) )
asoc = list_entry ( sctp_sk ( sk ) - > ep - > asocs . next ,
struct sctp_association , asocs ) ;
return asoc ;
}
/* Otherwise this is a UDP-style socket. */
if ( ! id | | ( id = = ( sctp_assoc_t ) - 1 ) )
return NULL ;
spin_lock_bh ( & sctp_assocs_id_lock ) ;
asoc = ( struct sctp_association * ) idr_find ( & sctp_assocs_id , ( int ) id ) ;
spin_unlock_bh ( & sctp_assocs_id_lock ) ;
if ( ! asoc | | ( asoc - > base . sk ! = sk ) | | asoc - > base . dead )
return NULL ;
return asoc ;
}
/* Look up the transport from an address and an assoc id. If both address and
* id are specified , the associations matching the address and the id should be
* the same .
*/
static struct sctp_transport * sctp_addr_id2transport ( struct sock * sk ,
struct sockaddr_storage * addr ,
sctp_assoc_t id )
{
struct sctp_association * addr_asoc = NULL , * id_asoc = NULL ;
struct sctp_transport * transport ;
union sctp_addr * laddr = ( union sctp_addr * ) addr ;
laddr - > v4 . sin_port = ntohs ( laddr - > v4 . sin_port ) ;
addr_asoc = sctp_endpoint_lookup_assoc ( sctp_sk ( sk ) - > ep ,
( union sctp_addr * ) addr ,
& transport ) ;
laddr - > v4 . sin_port = htons ( laddr - > v4 . sin_port ) ;
if ( ! addr_asoc )
return NULL ;
id_asoc = sctp_id2assoc ( sk , id ) ;
if ( id_asoc & & ( id_asoc ! = addr_asoc ) )
return NULL ;
sctp_get_pf_specific ( sk - > sk_family ) - > addr_v4map ( sctp_sk ( sk ) ,
( union sctp_addr * ) addr ) ;
return transport ;
}
/* API 3.1.2 bind() - UDP Style Syntax
* The syntax of bind ( ) is ,
*
* ret = bind ( int sd , struct sockaddr * addr , int addrlen ) ;
*
* sd - the socket descriptor returned by socket ( ) .
* addr - the address structure ( struct sockaddr_in or struct
* sockaddr_in6 [ RFC 2553 ] ) ,
* addr_len - the size of the address structure .
*/
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SCTP_STATIC int sctp_bind ( struct sock * sk , struct sockaddr * addr , int addr_len )
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{
int retval = 0 ;
sctp_lock_sock ( sk ) ;
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SCTP_DEBUG_PRINTK ( " sctp_bind(sk: %p, addr: %p, addr_len: %d) \n " ,
sk , addr , addr_len ) ;
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/* Disallow binding twice. */
if ( ! sctp_sk ( sk ) - > ep - > base . bind_addr . port )
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retval = sctp_do_bind ( sk , ( union sctp_addr * ) addr ,
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addr_len ) ;
else
retval = - EINVAL ;
sctp_release_sock ( sk ) ;
return retval ;
}
static long sctp_get_port_local ( struct sock * , union sctp_addr * ) ;
/* Verify this is a valid sockaddr. */
static struct sctp_af * sctp_sockaddr_af ( struct sctp_sock * opt ,
union sctp_addr * addr , int len )
{
struct sctp_af * af ;
/* Check minimum size. */
if ( len < sizeof ( struct sockaddr ) )
return NULL ;
/* Does this PF support this AF? */
if ( ! opt - > pf - > af_supported ( addr - > sa . sa_family , opt ) )
return NULL ;
/* If we get this far, af is valid. */
af = sctp_get_af_specific ( addr - > sa . sa_family ) ;
if ( len < af - > sockaddr_len )
return NULL ;
return af ;
}
/* Bind a local address either to an endpoint or to an association. */
SCTP_STATIC int sctp_do_bind ( struct sock * sk , union sctp_addr * addr , int len )
{
struct sctp_sock * sp = sctp_sk ( sk ) ;
struct sctp_endpoint * ep = sp - > ep ;
struct sctp_bind_addr * bp = & ep - > base . bind_addr ;
struct sctp_af * af ;
unsigned short snum ;
int ret = 0 ;
/* Common sockaddr verification. */
af = sctp_sockaddr_af ( sp , addr , len ) ;
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if ( ! af ) {
SCTP_DEBUG_PRINTK ( " sctp_do_bind(sk: %p, newaddr: %p, len: %d) EINVAL \n " ,
sk , addr , len ) ;
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return - EINVAL ;
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}
snum = ntohs ( addr - > v4 . sin_port ) ;
SCTP_DEBUG_PRINTK_IPADDR ( " sctp_do_bind(sk: %p, new addr: " ,
" , port: %d, new port: %d, len: %d) \n " ,
sk ,
addr ,
bp - > port , snum ,
len ) ;
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/* PF specific bind() address verification. */
if ( ! sp - > pf - > bind_verify ( sp , addr ) )
return - EADDRNOTAVAIL ;
/* We must either be unbound, or bind to the same port. */
if ( bp - > port & & ( snum ! = bp - > port ) ) {
SCTP_DEBUG_PRINTK ( " sctp_do_bind: "
" New port %d does not match existing port "
" %d. \n " , snum , bp - > port ) ;
return - EINVAL ;
}
if ( snum & & snum < PROT_SOCK & & ! capable ( CAP_NET_BIND_SERVICE ) )
return - EACCES ;
/* Make sure we are allowed to bind here.
* The function sctp_get_port_local ( ) does duplicate address
* detection .
*/
if ( ( ret = sctp_get_port_local ( sk , addr ) ) ) {
if ( ret = = ( long ) sk ) {
/* This endpoint has a conflicting address. */
return - EINVAL ;
} else {
return - EADDRINUSE ;
}
}
/* Refresh ephemeral port. */
if ( ! bp - > port )
bp - > port = inet_sk ( sk ) - > num ;
/* Add the address to the bind address list. */
sctp_local_bh_disable ( ) ;
sctp_write_lock ( & ep - > base . addr_lock ) ;
/* Use GFP_ATOMIC since BHs are disabled. */
addr - > v4 . sin_port = ntohs ( addr - > v4 . sin_port ) ;
ret = sctp_add_bind_addr ( bp , addr , GFP_ATOMIC ) ;
addr - > v4 . sin_port = htons ( addr - > v4 . sin_port ) ;
sctp_write_unlock ( & ep - > base . addr_lock ) ;
sctp_local_bh_enable ( ) ;
/* Copy back into socket for getsockname() use. */
if ( ! ret ) {
inet_sk ( sk ) - > sport = htons ( inet_sk ( sk ) - > num ) ;
af - > to_sk_saddr ( addr , sk ) ;
}
return ret ;
}
/* ADDIP Section 4.1.1 Congestion Control of ASCONF Chunks
*
* R1 ) One and only one ASCONF Chunk MAY be in transit and unacknowledged
* at any one time . If a sender , after sending an ASCONF chunk , decides
* it needs to transfer another ASCONF Chunk , it MUST wait until the
* ASCONF - ACK Chunk returns from the previous ASCONF Chunk before sending a
* subsequent ASCONF . Note this restriction binds each side , so at any
* time two ASCONF may be in - transit on any given association ( one sent
* from each endpoint ) .
*/
static int sctp_send_asconf ( struct sctp_association * asoc ,
struct sctp_chunk * chunk )
{
int retval = 0 ;
/* If there is an outstanding ASCONF chunk, queue it for later
* transmission .
*/
if ( asoc - > addip_last_asconf ) {
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list_add_tail ( & chunk - > list , & asoc - > addip_chunk_list ) ;
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goto out ;
}
/* Hold the chunk until an ASCONF_ACK is received. */
sctp_chunk_hold ( chunk ) ;
retval = sctp_primitive_ASCONF ( asoc , chunk ) ;
if ( retval )
sctp_chunk_free ( chunk ) ;
else
asoc - > addip_last_asconf = chunk ;
out :
return retval ;
}
/* Add a list of addresses as bind addresses to local endpoint or
* association .
*
* Basically run through each address specified in the addrs / addrcnt
* array / length pair , determine if it is IPv6 or IPv4 and call
* sctp_do_bind ( ) on it .
*
* If any of them fails , then the operation will be reversed and the
* ones that were added will be removed .
*
* Only sctp_setsockopt_bindx ( ) is supposed to call this function .
*/
int sctp_bindx_add ( struct sock * sk , struct sockaddr * addrs , int addrcnt )
{
int cnt ;
int retval = 0 ;
void * addr_buf ;
struct sockaddr * sa_addr ;
struct sctp_af * af ;
SCTP_DEBUG_PRINTK ( " sctp_bindx_add (sk: %p, addrs: %p, addrcnt: %d) \n " ,
sk , addrs , addrcnt ) ;
addr_buf = addrs ;
for ( cnt = 0 ; cnt < addrcnt ; cnt + + ) {
/* The list may contain either IPv4 or IPv6 address;
* determine the address length for walking thru the list .
*/
sa_addr = ( struct sockaddr * ) addr_buf ;
af = sctp_get_af_specific ( sa_addr - > sa_family ) ;
if ( ! af ) {
retval = - EINVAL ;
goto err_bindx_add ;
}
retval = sctp_do_bind ( sk , ( union sctp_addr * ) sa_addr ,
af - > sockaddr_len ) ;
addr_buf + = af - > sockaddr_len ;
err_bindx_add :
if ( retval < 0 ) {
/* Failed. Cleanup the ones that have been added */
if ( cnt > 0 )
sctp_bindx_rem ( sk , addrs , cnt ) ;
return retval ;
}
}
return retval ;
}
/* Send an ASCONF chunk with Add IP address parameters to all the peers of the
* associations that are part of the endpoint indicating that a list of local
* addresses are added to the endpoint .
*
* If any of the addresses is already in the bind address list of the
* association , we do not send the chunk for that association . But it will not
* affect other associations .
*
* Only sctp_setsockopt_bindx ( ) is supposed to call this function .
*/
static int sctp_send_asconf_add_ip ( struct sock * sk ,
struct sockaddr * addrs ,
int addrcnt )
{
struct sctp_sock * sp ;
struct sctp_endpoint * ep ;
struct sctp_association * asoc ;
struct sctp_bind_addr * bp ;
struct sctp_chunk * chunk ;
struct sctp_sockaddr_entry * laddr ;
union sctp_addr * addr ;
void * addr_buf ;
struct sctp_af * af ;
struct list_head * pos ;
struct list_head * p ;
int i ;
int retval = 0 ;
if ( ! sctp_addip_enable )
return retval ;
sp = sctp_sk ( sk ) ;
ep = sp - > ep ;
SCTP_DEBUG_PRINTK ( " %s: (sk: %p, addrs: %p, addrcnt: %d) \n " ,
__FUNCTION__ , sk , addrs , addrcnt ) ;
list_for_each ( pos , & ep - > asocs ) {
asoc = list_entry ( pos , struct sctp_association , asocs ) ;
if ( ! asoc - > peer . asconf_capable )
continue ;
if ( asoc - > peer . addip_disabled_mask & SCTP_PARAM_ADD_IP )
continue ;
if ( ! sctp_state ( asoc , ESTABLISHED ) )
continue ;
/* Check if any address in the packed array of addresses is
* in the bind address list of the association . If so ,
* do not send the asconf chunk to its peer , but continue with
* other associations .
*/
addr_buf = addrs ;
for ( i = 0 ; i < addrcnt ; i + + ) {
addr = ( union sctp_addr * ) addr_buf ;
af = sctp_get_af_specific ( addr - > v4 . sin_family ) ;
if ( ! af ) {
retval = - EINVAL ;
goto out ;
}
if ( sctp_assoc_lookup_laddr ( asoc , addr ) )
break ;
addr_buf + = af - > sockaddr_len ;
}
if ( i < addrcnt )
continue ;
/* Use the first address in bind addr list of association as
* Address Parameter of ASCONF CHUNK .
*/
sctp_read_lock ( & asoc - > base . addr_lock ) ;
bp = & asoc - > base . bind_addr ;
p = bp - > address_list . next ;
laddr = list_entry ( p , struct sctp_sockaddr_entry , list ) ;
sctp_read_unlock ( & asoc - > base . addr_lock ) ;
chunk = sctp_make_asconf_update_ip ( asoc , & laddr - > a , addrs ,
addrcnt , SCTP_PARAM_ADD_IP ) ;
if ( ! chunk ) {
retval = - ENOMEM ;
goto out ;
}
retval = sctp_send_asconf ( asoc , chunk ) ;
/* FIXME: After sending the add address ASCONF chunk, we
* cannot append the address to the association ' s binding
* address list , because the new address may be used as the
* source of a message sent to the peer before the ASCONF
* chunk is received by the peer . So we should wait until
* ASCONF_ACK is received .
*/
}
out :
return retval ;
}
/* Remove a list of addresses from bind addresses list. Do not remove the
* last address .
*
* Basically run through each address specified in the addrs / addrcnt
* array / length pair , determine if it is IPv6 or IPv4 and call
* sctp_del_bind ( ) on it .
*
* If any of them fails , then the operation will be reversed and the
* ones that were removed will be added back .
*
* At least one address has to be left ; if only one address is
* available , the operation will return - EBUSY .
*
* Only sctp_setsockopt_bindx ( ) is supposed to call this function .
*/
int sctp_bindx_rem ( struct sock * sk , struct sockaddr * addrs , int addrcnt )
{
struct sctp_sock * sp = sctp_sk ( sk ) ;
struct sctp_endpoint * ep = sp - > ep ;
int cnt ;
struct sctp_bind_addr * bp = & ep - > base . bind_addr ;
int retval = 0 ;
union sctp_addr saveaddr ;
void * addr_buf ;
struct sockaddr * sa_addr ;
struct sctp_af * af ;
SCTP_DEBUG_PRINTK ( " sctp_bindx_rem (sk: %p, addrs: %p, addrcnt: %d) \n " ,
sk , addrs , addrcnt ) ;
addr_buf = addrs ;
for ( cnt = 0 ; cnt < addrcnt ; cnt + + ) {
/* If the bind address list is empty or if there is only one
* bind address , there is nothing more to be removed ( we need
* at least one address here ) .
*/
if ( list_empty ( & bp - > address_list ) | |
( sctp_list_single_entry ( & bp - > address_list ) ) ) {
retval = - EBUSY ;
goto err_bindx_rem ;
}
/* The list may contain either IPv4 or IPv6 address;
* determine the address length to copy the address to
* saveaddr .
*/
sa_addr = ( struct sockaddr * ) addr_buf ;
af = sctp_get_af_specific ( sa_addr - > sa_family ) ;
if ( ! af ) {
retval = - EINVAL ;
goto err_bindx_rem ;
}
memcpy ( & saveaddr , sa_addr , af - > sockaddr_len ) ;
saveaddr . v4 . sin_port = ntohs ( saveaddr . v4 . sin_port ) ;
if ( saveaddr . v4 . sin_port ! = bp - > port ) {
retval = - EINVAL ;
goto err_bindx_rem ;
}
/* FIXME - There is probably a need to check if sk->sk_saddr and
* sk - > sk_rcv_addr are currently set to one of the addresses to
* be removed . This is something which needs to be looked into
* when we are fixing the outstanding issues with multi - homing
* socket routing and failover schemes . Refer to comments in
* sctp_do_bind ( ) . - daisy
*/
sctp_local_bh_disable ( ) ;
sctp_write_lock ( & ep - > base . addr_lock ) ;
retval = sctp_del_bind_addr ( bp , & saveaddr ) ;
sctp_write_unlock ( & ep - > base . addr_lock ) ;
sctp_local_bh_enable ( ) ;
addr_buf + = af - > sockaddr_len ;
err_bindx_rem :
if ( retval < 0 ) {
/* Failed. Add the ones that has been removed back */
if ( cnt > 0 )
sctp_bindx_add ( sk , addrs , cnt ) ;
return retval ;
}
}
return retval ;
}
/* Send an ASCONF chunk with Delete IP address parameters to all the peers of
* the associations that are part of the endpoint indicating that a list of
* local addresses are removed from the endpoint .
*
* If any of the addresses is already in the bind address list of the
* association , we do not send the chunk for that association . But it will not
* affect other associations .
*
* Only sctp_setsockopt_bindx ( ) is supposed to call this function .
*/
static int sctp_send_asconf_del_ip ( struct sock * sk ,
struct sockaddr * addrs ,
int addrcnt )
{
struct sctp_sock * sp ;
struct sctp_endpoint * ep ;
struct sctp_association * asoc ;
struct sctp_bind_addr * bp ;
struct sctp_chunk * chunk ;
union sctp_addr * laddr ;
void * addr_buf ;
struct sctp_af * af ;
struct list_head * pos ;
int i ;
int retval = 0 ;
if ( ! sctp_addip_enable )
return retval ;
sp = sctp_sk ( sk ) ;
ep = sp - > ep ;
SCTP_DEBUG_PRINTK ( " %s: (sk: %p, addrs: %p, addrcnt: %d) \n " ,
__FUNCTION__ , sk , addrs , addrcnt ) ;
list_for_each ( pos , & ep - > asocs ) {
asoc = list_entry ( pos , struct sctp_association , asocs ) ;
if ( ! asoc - > peer . asconf_capable )
continue ;
if ( asoc - > peer . addip_disabled_mask & SCTP_PARAM_DEL_IP )
continue ;
if ( ! sctp_state ( asoc , ESTABLISHED ) )
continue ;
/* Check if any address in the packed array of addresses is
* not present in the bind address list of the association .
* If so , do not send the asconf chunk to its peer , but
* continue with other associations .
*/
addr_buf = addrs ;
for ( i = 0 ; i < addrcnt ; i + + ) {
laddr = ( union sctp_addr * ) addr_buf ;
af = sctp_get_af_specific ( laddr - > v4 . sin_family ) ;
if ( ! af ) {
retval = - EINVAL ;
goto out ;
}
if ( ! sctp_assoc_lookup_laddr ( asoc , laddr ) )
break ;
addr_buf + = af - > sockaddr_len ;
}
if ( i < addrcnt )
continue ;
/* Find one address in the association's bind address list
* that is not in the packed array of addresses . This is to
* make sure that we do not delete all the addresses in the
* association .
*/
sctp_read_lock ( & asoc - > base . addr_lock ) ;
bp = & asoc - > base . bind_addr ;
laddr = sctp_find_unmatch_addr ( bp , ( union sctp_addr * ) addrs ,
addrcnt , sp ) ;
sctp_read_unlock ( & asoc - > base . addr_lock ) ;
if ( ! laddr )
continue ;
chunk = sctp_make_asconf_update_ip ( asoc , laddr , addrs , addrcnt ,
SCTP_PARAM_DEL_IP ) ;
if ( ! chunk ) {
retval = - ENOMEM ;
goto out ;
}
retval = sctp_send_asconf ( asoc , chunk ) ;
/* FIXME: After sending the delete address ASCONF chunk, we
* cannot remove the addresses from the association ' s bind
* address list , because there maybe some packet send to
* the delete addresses , so we should wait until ASCONF_ACK
* packet is received .
*/
}
out :
return retval ;
}
/* Helper for tunneling sctp_bindx() requests through sctp_setsockopt()
*
* API 8.1
* int sctp_bindx ( int sd , struct sockaddr * addrs , int addrcnt ,
* int flags ) ;
*
* If sd is an IPv4 socket , the addresses passed must be IPv4 addresses .
* If the sd is an IPv6 socket , the addresses passed can either be IPv4
* or IPv6 addresses .
*
* A single address may be specified as INADDR_ANY or IN6ADDR_ANY , see
* Section 3.1 .2 for this usage .
*
* addrs is a pointer to an array of one or more socket addresses . Each
* address is contained in its appropriate structure ( i . e . struct
* sockaddr_in or struct sockaddr_in6 ) the family of the address type
* must be used to distengish the address length ( note that this
* representation is termed a " packed array " of addresses ) . The caller
* specifies the number of addresses in the array with addrcnt .
*
* On success , sctp_bindx ( ) returns 0. On failure , sctp_bindx ( ) returns
* - 1 , and sets errno to the appropriate error code .
*
* For SCTP , the port given in each socket address must be the same , or
* sctp_bindx ( ) will fail , setting errno to EINVAL .
*
* The flags parameter is formed from the bitwise OR of zero or more of
* the following currently defined flags :
*
* SCTP_BINDX_ADD_ADDR
*
* SCTP_BINDX_REM_ADDR
*
* SCTP_BINDX_ADD_ADDR directs SCTP to add the given addresses to the
* association , and SCTP_BINDX_REM_ADDR directs SCTP to remove the given
* addresses from the association . The two flags are mutually exclusive ;
* if both are given , sctp_bindx ( ) will fail with EINVAL . A caller may
* not remove all addresses from an association ; sctp_bindx ( ) will
* reject such an attempt with EINVAL .
*
* An application can use sctp_bindx ( SCTP_BINDX_ADD_ADDR ) to associate
* additional addresses with an endpoint after calling bind ( ) . Or use
* sctp_bindx ( SCTP_BINDX_REM_ADDR ) to remove some addresses a listening
* socket is associated with so that no new association accepted will be
* associated with those addresses . If the endpoint supports dynamic
* address a SCTP_BINDX_REM_ADDR or SCTP_BINDX_ADD_ADDR may cause a
* endpoint to send the appropriate message to the peer to change the
* peers address lists .
*
* Adding and removing addresses from a connected association is
* optional functionality . Implementations that do not support this
* functionality should return EOPNOTSUPP .
*
* Basically do nothing but copying the addresses from user to kernel
* land and invoking either sctp_bindx_add ( ) or sctp_bindx_rem ( ) on the sk .
2005-06-21 00:14:57 +04:00
* This is used for tunneling the sctp_bindx ( ) request through sctp_setsockopt ( )
* from userspace .
2005-04-17 02:20:36 +04:00
*
* We don ' t use copy_from_user ( ) for optimization : we first do the
* sanity checks ( buffer size - fast - and access check - healthy
* pointer ) ; if all of those succeed , then we can alloc the memory
* ( expensive operation ) needed to copy the data to kernel . Then we do
* the copying without checking the user space area
* ( __copy_from_user ( ) ) .
*
* On exit there is no need to do sockfd_put ( ) , sys_setsockopt ( ) does
* it .
*
* sk The sk of the socket
* addrs The pointer to the addresses in user land
* addrssize Size of the addrs buffer
* op Operation to perform ( add or remove , see the flags of
* sctp_bindx )
*
* Returns 0 if ok , < 0 errno code on error .
*/
SCTP_STATIC int sctp_setsockopt_bindx ( struct sock * sk ,
struct sockaddr __user * addrs ,
int addrs_size , int op )
{
struct sockaddr * kaddrs ;
int err ;
int addrcnt = 0 ;
int walk_size = 0 ;
struct sockaddr * sa_addr ;
void * addr_buf ;
struct sctp_af * af ;
SCTP_DEBUG_PRINTK ( " sctp_setsocktopt_bindx: sk %p addrs %p "
" addrs_size %d opt %d \n " , sk , addrs , addrs_size , op ) ;
if ( unlikely ( addrs_size < = 0 ) )
return - EINVAL ;
/* Check the user passed a healthy pointer. */
if ( unlikely ( ! access_ok ( VERIFY_READ , addrs , addrs_size ) ) )
return - EFAULT ;
/* Alloc space for the address array in kernel memory. */
kaddrs = ( struct sockaddr * ) kmalloc ( addrs_size , GFP_KERNEL ) ;
if ( unlikely ( ! kaddrs ) )
return - ENOMEM ;
if ( __copy_from_user ( kaddrs , addrs , addrs_size ) ) {
kfree ( kaddrs ) ;
return - EFAULT ;
}
/* Walk through the addrs buffer and count the number of addresses. */
addr_buf = kaddrs ;
while ( walk_size < addrs_size ) {
sa_addr = ( struct sockaddr * ) addr_buf ;
af = sctp_get_af_specific ( sa_addr - > sa_family ) ;
/* If the address family is not supported or if this address
* causes the address buffer to overflow return EINVAL .
*/
if ( ! af | | ( walk_size + af - > sockaddr_len ) > addrs_size ) {
kfree ( kaddrs ) ;
return - EINVAL ;
}
addrcnt + + ;
addr_buf + = af - > sockaddr_len ;
walk_size + = af - > sockaddr_len ;
}
/* Do the work. */
switch ( op ) {
case SCTP_BINDX_ADD_ADDR :
err = sctp_bindx_add ( sk , kaddrs , addrcnt ) ;
if ( err )
goto out ;
err = sctp_send_asconf_add_ip ( sk , kaddrs , addrcnt ) ;
break ;
case SCTP_BINDX_REM_ADDR :
err = sctp_bindx_rem ( sk , kaddrs , addrcnt ) ;
if ( err )
goto out ;
err = sctp_send_asconf_del_ip ( sk , kaddrs , addrcnt ) ;
break ;
default :
err = - EINVAL ;
break ;
} ;
out :
kfree ( kaddrs ) ;
return err ;
}
2005-06-21 00:14:57 +04:00
/* __sctp_connect(struct sock* sk, struct sockaddr *kaddrs, int addrs_size)
*
* Common routine for handling connect ( ) and sctp_connectx ( ) .
* Connect will come in with just a single address .
*/
static int __sctp_connect ( struct sock * sk ,
struct sockaddr * kaddrs ,
int addrs_size )
{
struct sctp_sock * sp ;
struct sctp_endpoint * ep ;
struct sctp_association * asoc = NULL ;
struct sctp_association * asoc2 ;
struct sctp_transport * transport ;
union sctp_addr to ;
struct sctp_af * af ;
sctp_scope_t scope ;
long timeo ;
int err = 0 ;
int addrcnt = 0 ;
int walk_size = 0 ;
struct sockaddr * sa_addr ;
void * addr_buf ;
sp = sctp_sk ( sk ) ;
ep = sp - > ep ;
/* connect() cannot be done on a socket that is already in ESTABLISHED
* state - UDP - style peeled off socket or a TCP - style socket that
* is already connected .
* It cannot be done even on a TCP - style listening socket .
*/
if ( sctp_sstate ( sk , ESTABLISHED ) | |
( sctp_style ( sk , TCP ) & & sctp_sstate ( sk , LISTENING ) ) ) {
err = - EISCONN ;
goto out_free ;
}
/* Walk through the addrs buffer and count the number of addresses. */
addr_buf = kaddrs ;
while ( walk_size < addrs_size ) {
sa_addr = ( struct sockaddr * ) addr_buf ;
af = sctp_get_af_specific ( sa_addr - > sa_family ) ;
/* If the address family is not supported or if this address
* causes the address buffer to overflow return EINVAL .
*/
if ( ! af | | ( walk_size + af - > sockaddr_len ) > addrs_size ) {
err = - EINVAL ;
goto out_free ;
}
err = sctp_verify_addr ( sk , ( union sctp_addr * ) sa_addr ,
af - > sockaddr_len ) ;
if ( err )
goto out_free ;
memcpy ( & to , sa_addr , af - > sockaddr_len ) ;
to . v4 . sin_port = ntohs ( to . v4 . sin_port ) ;
/* Check if there already is a matching association on the
* endpoint ( other than the one created here ) .
*/
asoc2 = sctp_endpoint_lookup_assoc ( ep , & to , & transport ) ;
if ( asoc2 & & asoc2 ! = asoc ) {
if ( asoc2 - > state > = SCTP_STATE_ESTABLISHED )
err = - EISCONN ;
else
err = - EALREADY ;
goto out_free ;
}
/* If we could not find a matching association on the endpoint,
* make sure that there is no peeled - off association matching
* the peer address even on another socket .
*/
if ( sctp_endpoint_is_peeled_off ( ep , & to ) ) {
err = - EADDRNOTAVAIL ;
goto out_free ;
}
if ( ! asoc ) {
/* If a bind() or sctp_bindx() is not called prior to
* an sctp_connectx ( ) call , the system picks an
* ephemeral port and will choose an address set
* equivalent to binding with a wildcard address .
*/
if ( ! ep - > base . bind_addr . port ) {
if ( sctp_autobind ( sk ) ) {
err = - EAGAIN ;
goto out_free ;
}
2005-10-29 02:39:02 +04:00
} else {
/*
* If an unprivileged user inherits a 1 - many
* style socket with open associations on a
* privileged port , it MAY be permitted to
* accept new associations , but it SHOULD NOT
* be permitted to open new associations .
*/
if ( ep - > base . bind_addr . port < PROT_SOCK & &
! capable ( CAP_NET_BIND_SERVICE ) ) {
err = - EACCES ;
goto out_free ;
}
2005-06-21 00:14:57 +04:00
}
scope = sctp_scope ( & to ) ;
asoc = sctp_association_new ( ep , sk , scope , GFP_KERNEL ) ;
if ( ! asoc ) {
err = - ENOMEM ;
goto out_free ;
}
}
/* Prime the peer's transport structures. */
transport = sctp_assoc_add_peer ( asoc , & to , GFP_KERNEL ,
SCTP_UNKNOWN ) ;
if ( ! transport ) {
err = - ENOMEM ;
goto out_free ;
}
addrcnt + + ;
addr_buf + = af - > sockaddr_len ;
walk_size + = af - > sockaddr_len ;
}
err = sctp_assoc_set_bind_addr_from_ep ( asoc , GFP_KERNEL ) ;
if ( err < 0 ) {
goto out_free ;
}
err = sctp_primitive_ASSOCIATE ( asoc , NULL ) ;
if ( err < 0 ) {
goto out_free ;
}
/* Initialize sk's dport and daddr for getpeername() */
inet_sk ( sk ) - > dport = htons ( asoc - > peer . port ) ;
af = sctp_get_af_specific ( to . sa . sa_family ) ;
af - > to_sk_daddr ( & to , sk ) ;
timeo = sock_sndtimeo ( sk , sk - > sk_socket - > file - > f_flags & O_NONBLOCK ) ;
err = sctp_wait_for_connect ( asoc , & timeo ) ;
/* Don't free association on exit. */
asoc = NULL ;
out_free :
SCTP_DEBUG_PRINTK ( " About to exit __sctp_connect() free asoc: %p "
" kaddrs: %p err: %d \n " ,
asoc , kaddrs , err ) ;
if ( asoc )
sctp_association_free ( asoc ) ;
return err ;
}
/* Helper for tunneling sctp_connectx() requests through sctp_setsockopt()
*
* API 8.9
* int sctp_connectx ( int sd , struct sockaddr * addrs , int addrcnt ) ;
*
* If sd is an IPv4 socket , the addresses passed must be IPv4 addresses .
* If the sd is an IPv6 socket , the addresses passed can either be IPv4
* or IPv6 addresses .
*
* A single address may be specified as INADDR_ANY or IN6ADDR_ANY , see
* Section 3.1 .2 for this usage .
*
* addrs is a pointer to an array of one or more socket addresses . Each
* address is contained in its appropriate structure ( i . e . struct
* sockaddr_in or struct sockaddr_in6 ) the family of the address type
* must be used to distengish the address length ( note that this
* representation is termed a " packed array " of addresses ) . The caller
* specifies the number of addresses in the array with addrcnt .
*
* On success , sctp_connectx ( ) returns 0. On failure , sctp_connectx ( ) returns
* - 1 , and sets errno to the appropriate error code .
*
* For SCTP , the port given in each socket address must be the same , or
* sctp_connectx ( ) will fail , setting errno to EINVAL .
*
* An application can use sctp_connectx to initiate an association with
* an endpoint that is multi - homed . Much like sctp_bindx ( ) this call
* allows a caller to specify multiple addresses at which a peer can be
* reached . The way the SCTP stack uses the list of addresses to set up
* the association is implementation dependant . This function only
* specifies that the stack will try to make use of all the addresses in
* the list when needed .
*
* Note that the list of addresses passed in is only used for setting up
* the association . It does not necessarily equal the set of addresses
* the peer uses for the resulting association . If the caller wants to
* find out the set of peer addresses , it must use sctp_getpaddrs ( ) to
* retrieve them after the association has been set up .
*
* Basically do nothing but copying the addresses from user to kernel
* land and invoking either sctp_connectx ( ) . This is used for tunneling
* the sctp_connectx ( ) request through sctp_setsockopt ( ) from userspace .
*
* We don ' t use copy_from_user ( ) for optimization : we first do the
* sanity checks ( buffer size - fast - and access check - healthy
* pointer ) ; if all of those succeed , then we can alloc the memory
* ( expensive operation ) needed to copy the data to kernel . Then we do
* the copying without checking the user space area
* ( __copy_from_user ( ) ) .
*
* On exit there is no need to do sockfd_put ( ) , sys_setsockopt ( ) does
* it .
*
* sk The sk of the socket
* addrs The pointer to the addresses in user land
* addrssize Size of the addrs buffer
*
* Returns 0 if ok , < 0 errno code on error .
*/
SCTP_STATIC int sctp_setsockopt_connectx ( struct sock * sk ,
struct sockaddr __user * addrs ,
int addrs_size )
{
int err = 0 ;
struct sockaddr * kaddrs ;
SCTP_DEBUG_PRINTK ( " %s - sk %p addrs %p addrs_size %d \n " ,
__FUNCTION__ , sk , addrs , addrs_size ) ;
if ( unlikely ( addrs_size < = 0 ) )
return - EINVAL ;
/* Check the user passed a healthy pointer. */
if ( unlikely ( ! access_ok ( VERIFY_READ , addrs , addrs_size ) ) )
return - EFAULT ;
/* Alloc space for the address array in kernel memory. */
kaddrs = ( struct sockaddr * ) kmalloc ( addrs_size , GFP_KERNEL ) ;
if ( unlikely ( ! kaddrs ) )
return - ENOMEM ;
if ( __copy_from_user ( kaddrs , addrs , addrs_size ) ) {
err = - EFAULT ;
} else {
err = __sctp_connect ( sk , kaddrs , addrs_size ) ;
}
kfree ( kaddrs ) ;
return err ;
}
2005-04-17 02:20:36 +04:00
/* API 3.1.4 close() - UDP Style Syntax
* Applications use close ( ) to perform graceful shutdown ( as described in
* Section 10.1 of [ SCTP ] ) on ALL the associations currently represented
* by a UDP - style socket .
*
* The syntax is
*
* ret = close ( int sd ) ;
*
* sd - the socket descriptor of the associations to be closed .
*
* To gracefully shutdown a specific association represented by the
* UDP - style socket , an application should use the sendmsg ( ) call ,
* passing no user data , but including the appropriate flag in the
* ancillary data ( see Section xxxx ) .
*
* If sd in the close ( ) call is a branched - off socket representing only
* one association , the shutdown is performed on that association only .
*
* 4.1 .6 close ( ) - TCP Style Syntax
*
* Applications use close ( ) to gracefully close down an association .
*
* The syntax is :
*
* int close ( int sd ) ;
*
* sd - the socket descriptor of the association to be closed .
*
* After an application calls close ( ) on a socket descriptor , no further
* socket operations will succeed on that descriptor .
*
* API 7.1 .4 SO_LINGER
*
* An application using the TCP - style socket can use this option to
* perform the SCTP ABORT primitive . The linger option structure is :
*
* struct linger {
* int l_onoff ; // option on/off
* int l_linger ; // linger time
* } ;
*
* To enable the option , set l_onoff to 1. If the l_linger value is set
* to 0 , calling close ( ) is the same as the ABORT primitive . If the
* value is set to a negative value , the setsockopt ( ) call will return
* an error . If the value is set to a positive value linger_time , the
* close ( ) can be blocked for at most linger_time ms . If the graceful
* shutdown phase does not finish during this period , close ( ) will
* return but the graceful shutdown phase continues in the system .
*/
SCTP_STATIC void sctp_close ( struct sock * sk , long timeout )
{
struct sctp_endpoint * ep ;
struct sctp_association * asoc ;
struct list_head * pos , * temp ;
SCTP_DEBUG_PRINTK ( " sctp_close(sk: 0x%p, timeout:%ld) \n " , sk , timeout ) ;
sctp_lock_sock ( sk ) ;
sk - > sk_shutdown = SHUTDOWN_MASK ;
ep = sctp_sk ( sk ) - > ep ;
/* Walk all associations on a socket, not on an endpoint. */
list_for_each_safe ( pos , temp , & ep - > asocs ) {
asoc = list_entry ( pos , struct sctp_association , asocs ) ;
if ( sctp_style ( sk , TCP ) ) {
/* A closed association can still be in the list if
* it belongs to a TCP - style listening socket that is
* not yet accepted . If so , free it . If not , send an
* ABORT or SHUTDOWN based on the linger options .
*/
if ( sctp_state ( asoc , CLOSED ) ) {
sctp_unhash_established ( asoc ) ;
sctp_association_free ( asoc ) ;
} else if ( sock_flag ( sk , SOCK_LINGER ) & &
! sk - > sk_lingertime )
sctp_primitive_ABORT ( asoc , NULL ) ;
else
sctp_primitive_SHUTDOWN ( asoc , NULL ) ;
} else
sctp_primitive_SHUTDOWN ( asoc , NULL ) ;
}
/* Clean up any skbs sitting on the receive queue. */
sctp_queue_purge_ulpevents ( & sk - > sk_receive_queue ) ;
sctp_queue_purge_ulpevents ( & sctp_sk ( sk ) - > pd_lobby ) ;
/* On a TCP-style socket, block for at most linger_time if set. */
if ( sctp_style ( sk , TCP ) & & timeout )
sctp_wait_for_close ( sk , timeout ) ;
/* This will run the backlog queue. */
sctp_release_sock ( sk ) ;
/* Supposedly, no process has access to the socket, but
* the net layers still may .
*/
sctp_local_bh_disable ( ) ;
sctp_bh_lock_sock ( sk ) ;
/* Hold the sock, since sk_common_release() will put sock_put()
* and we have just a little more cleanup .
*/
sock_hold ( sk ) ;
sk_common_release ( sk ) ;
sctp_bh_unlock_sock ( sk ) ;
sctp_local_bh_enable ( ) ;
sock_put ( sk ) ;
SCTP_DBG_OBJCNT_DEC ( sock ) ;
}
/* Handle EPIPE error. */
static int sctp_error ( struct sock * sk , int flags , int err )
{
if ( err = = - EPIPE )
err = sock_error ( sk ) ? : - EPIPE ;
if ( err = = - EPIPE & & ! ( flags & MSG_NOSIGNAL ) )
send_sig ( SIGPIPE , current , 0 ) ;
return err ;
}
/* API 3.1.3 sendmsg() - UDP Style Syntax
*
* An application uses sendmsg ( ) and recvmsg ( ) calls to transmit data to
* and receive data from its peer .
*
* ssize_t sendmsg ( int socket , const struct msghdr * message ,
* int flags ) ;
*
* socket - the socket descriptor of the endpoint .
* message - pointer to the msghdr structure which contains a single
* user message and possibly some ancillary data .
*
* See Section 5 for complete description of the data
* structures .
*
* flags - flags sent or received with the user message , see Section
* 5 for complete description of the flags .
*
* Note : This function could use a rewrite especially when explicit
* connect support comes in .
*/
/* BUG: We do not implement the equivalent of sk_stream_wait_memory(). */
SCTP_STATIC int sctp_msghdr_parse ( const struct msghdr * , sctp_cmsgs_t * ) ;
SCTP_STATIC int sctp_sendmsg ( struct kiocb * iocb , struct sock * sk ,
struct msghdr * msg , size_t msg_len )
{
struct sctp_sock * sp ;
struct sctp_endpoint * ep ;
struct sctp_association * new_asoc = NULL , * asoc = NULL ;
struct sctp_transport * transport , * chunk_tp ;
struct sctp_chunk * chunk ;
union sctp_addr to ;
struct sockaddr * msg_name = NULL ;
struct sctp_sndrcvinfo default_sinfo = { 0 } ;
struct sctp_sndrcvinfo * sinfo ;
struct sctp_initmsg * sinit ;
sctp_assoc_t associd = 0 ;
sctp_cmsgs_t cmsgs = { NULL } ;
int err ;
sctp_scope_t scope ;
long timeo ;
__u16 sinfo_flags = 0 ;
struct sctp_datamsg * datamsg ;
struct list_head * pos ;
int msg_flags = msg - > msg_flags ;
SCTP_DEBUG_PRINTK ( " sctp_sendmsg(sk: %p, msg: %p, msg_len: %zu) \n " ,
sk , msg , msg_len ) ;
err = 0 ;
sp = sctp_sk ( sk ) ;
ep = sp - > ep ;
2005-06-21 00:14:57 +04:00
SCTP_DEBUG_PRINTK ( " Using endpoint: %p. \n " , ep ) ;
2005-04-17 02:20:36 +04:00
/* We cannot send a message over a TCP-style listening socket. */
if ( sctp_style ( sk , TCP ) & & sctp_sstate ( sk , LISTENING ) ) {
err = - EPIPE ;
goto out_nounlock ;
}
/* Parse out the SCTP CMSGs. */
err = sctp_msghdr_parse ( msg , & cmsgs ) ;
if ( err ) {
SCTP_DEBUG_PRINTK ( " msghdr parse err = %x \n " , err ) ;
goto out_nounlock ;
}
/* Fetch the destination address for this packet. This
* address only selects the association - - it is not necessarily
* the address we will send to .
* For a peeled - off socket , msg_name is ignored .
*/
if ( ! sctp_style ( sk , UDP_HIGH_BANDWIDTH ) & & msg - > msg_name ) {
int msg_namelen = msg - > msg_namelen ;
err = sctp_verify_addr ( sk , ( union sctp_addr * ) msg - > msg_name ,
msg_namelen ) ;
if ( err )
return err ;
if ( msg_namelen > sizeof ( to ) )
msg_namelen = sizeof ( to ) ;
memcpy ( & to , msg - > msg_name , msg_namelen ) ;
SCTP_DEBUG_PRINTK ( " Just memcpy'd. msg_name is "
" 0x%x:%u. \n " ,
to . v4 . sin_addr . s_addr , to . v4 . sin_port ) ;
to . v4 . sin_port = ntohs ( to . v4 . sin_port ) ;
msg_name = msg - > msg_name ;
}
sinfo = cmsgs . info ;
sinit = cmsgs . init ;
/* Did the user specify SNDRCVINFO? */
if ( sinfo ) {
sinfo_flags = sinfo - > sinfo_flags ;
associd = sinfo - > sinfo_assoc_id ;
}
SCTP_DEBUG_PRINTK ( " msg_len: %zu, sinfo_flags: 0x%x \n " ,
msg_len , sinfo_flags ) ;
2005-10-29 02:10:00 +04:00
/* SCTP_EOF or SCTP_ABORT cannot be set on a TCP-style socket. */
if ( sctp_style ( sk , TCP ) & & ( sinfo_flags & ( SCTP_EOF | SCTP_ABORT ) ) ) {
2005-04-17 02:20:36 +04:00
err = - EINVAL ;
goto out_nounlock ;
}
2005-10-29 02:10:00 +04:00
/* If SCTP_EOF is set, no data can be sent. Disallow sending zero
* length messages when SCTP_EOF | SCTP_ABORT is not set .
* If SCTP_ABORT is set , the message length could be non zero with
2005-04-17 02:20:36 +04:00
* the msg_iov set to the user abort reason .
*/
2005-10-29 02:10:00 +04:00
if ( ( ( sinfo_flags & SCTP_EOF ) & & ( msg_len > 0 ) ) | |
( ! ( sinfo_flags & ( SCTP_EOF | SCTP_ABORT ) ) & & ( msg_len = = 0 ) ) ) {
2005-04-17 02:20:36 +04:00
err = - EINVAL ;
goto out_nounlock ;
}
2005-10-29 02:10:00 +04:00
/* If SCTP_ADDR_OVER is set, there must be an address
2005-04-17 02:20:36 +04:00
* specified in msg_name .
*/
2005-10-29 02:10:00 +04:00
if ( ( sinfo_flags & SCTP_ADDR_OVER ) & & ( ! msg - > msg_name ) ) {
2005-04-17 02:20:36 +04:00
err = - EINVAL ;
goto out_nounlock ;
}
transport = NULL ;
SCTP_DEBUG_PRINTK ( " About to look up association. \n " ) ;
sctp_lock_sock ( sk ) ;
/* If a msg_name has been specified, assume this is to be used. */
if ( msg_name ) {
/* Look for a matching association on the endpoint. */
asoc = sctp_endpoint_lookup_assoc ( ep , & to , & transport ) ;
if ( ! asoc ) {
/* If we could not find a matching association on the
* endpoint , make sure that it is not a TCP - style
* socket that already has an association or there is
* no peeled - off association on another socket .
*/
if ( ( sctp_style ( sk , TCP ) & &
sctp_sstate ( sk , ESTABLISHED ) ) | |
sctp_endpoint_is_peeled_off ( ep , & to ) ) {
err = - EADDRNOTAVAIL ;
goto out_unlock ;
}
}
} else {
asoc = sctp_id2assoc ( sk , associd ) ;
if ( ! asoc ) {
err = - EPIPE ;
goto out_unlock ;
}
}
if ( asoc ) {
SCTP_DEBUG_PRINTK ( " Just looked up association: %p. \n " , asoc ) ;
/* We cannot send a message on a TCP-style SCTP_SS_ESTABLISHED
* socket that has an association in CLOSED state . This can
* happen when an accepted socket has an association that is
* already CLOSED .
*/
if ( sctp_state ( asoc , CLOSED ) & & sctp_style ( sk , TCP ) ) {
err = - EPIPE ;
goto out_unlock ;
}
2005-10-29 02:10:00 +04:00
if ( sinfo_flags & SCTP_EOF ) {
2005-04-17 02:20:36 +04:00
SCTP_DEBUG_PRINTK ( " Shutting down association: %p \n " ,
asoc ) ;
sctp_primitive_SHUTDOWN ( asoc , NULL ) ;
err = 0 ;
goto out_unlock ;
}
2005-10-29 02:10:00 +04:00
if ( sinfo_flags & SCTP_ABORT ) {
2005-04-17 02:20:36 +04:00
SCTP_DEBUG_PRINTK ( " Aborting association: %p \n " , asoc ) ;
sctp_primitive_ABORT ( asoc , msg ) ;
err = 0 ;
goto out_unlock ;
}
}
/* Do we need to create the association? */
if ( ! asoc ) {
SCTP_DEBUG_PRINTK ( " There is no association yet. \n " ) ;
2005-10-29 02:10:00 +04:00
if ( sinfo_flags & ( SCTP_EOF | SCTP_ABORT ) ) {
2005-04-17 02:20:36 +04:00
err = - EINVAL ;
goto out_unlock ;
}
/* Check for invalid stream against the stream counts,
* either the default or the user specified stream counts .
*/
if ( sinfo ) {
if ( ! sinit | | ( sinit & & ! sinit - > sinit_num_ostreams ) ) {
/* Check against the defaults. */
if ( sinfo - > sinfo_stream > =
sp - > initmsg . sinit_num_ostreams ) {
err = - EINVAL ;
goto out_unlock ;
}
} else {
/* Check against the requested. */
if ( sinfo - > sinfo_stream > =
sinit - > sinit_num_ostreams ) {
err = - EINVAL ;
goto out_unlock ;
}
}
}
/*
* API 3.1 .2 bind ( ) - UDP Style Syntax
* If a bind ( ) or sctp_bindx ( ) is not called prior to a
* sendmsg ( ) call that initiates a new association , the
* system picks an ephemeral port and will choose an address
* set equivalent to binding with a wildcard address .
*/
if ( ! ep - > base . bind_addr . port ) {
if ( sctp_autobind ( sk ) ) {
err = - EAGAIN ;
goto out_unlock ;
}
2005-10-29 02:39:02 +04:00
} else {
/*
* If an unprivileged user inherits a one - to - many
* style socket with open associations on a privileged
* port , it MAY be permitted to accept new associations ,
* but it SHOULD NOT be permitted to open new
* associations .
*/
if ( ep - > base . bind_addr . port < PROT_SOCK & &
! capable ( CAP_NET_BIND_SERVICE ) ) {
err = - EACCES ;
goto out_unlock ;
}
2005-04-17 02:20:36 +04:00
}
scope = sctp_scope ( & to ) ;
new_asoc = sctp_association_new ( ep , sk , scope , GFP_KERNEL ) ;
if ( ! new_asoc ) {
err = - ENOMEM ;
goto out_unlock ;
}
asoc = new_asoc ;
/* If the SCTP_INIT ancillary data is specified, set all
* the association init values accordingly .
*/
if ( sinit ) {
if ( sinit - > sinit_num_ostreams ) {
asoc - > c . sinit_num_ostreams =
sinit - > sinit_num_ostreams ;
}
if ( sinit - > sinit_max_instreams ) {
asoc - > c . sinit_max_instreams =
sinit - > sinit_max_instreams ;
}
if ( sinit - > sinit_max_attempts ) {
asoc - > max_init_attempts
= sinit - > sinit_max_attempts ;
}
if ( sinit - > sinit_max_init_timeo ) {
asoc - > max_init_timeo =
msecs_to_jiffies ( sinit - > sinit_max_init_timeo ) ;
}
}
/* Prime the peer's transport structures. */
2005-06-21 00:14:57 +04:00
transport = sctp_assoc_add_peer ( asoc , & to , GFP_KERNEL , SCTP_UNKNOWN ) ;
2005-04-17 02:20:36 +04:00
if ( ! transport ) {
err = - ENOMEM ;
goto out_free ;
}
err = sctp_assoc_set_bind_addr_from_ep ( asoc , GFP_KERNEL ) ;
if ( err < 0 ) {
err = - ENOMEM ;
goto out_free ;
}
}
/* ASSERT: we have a valid association at this point. */
SCTP_DEBUG_PRINTK ( " We have a valid association. \n " ) ;
if ( ! sinfo ) {
/* If the user didn't specify SNDRCVINFO, make up one with
* some defaults .
*/
default_sinfo . sinfo_stream = asoc - > default_stream ;
default_sinfo . sinfo_flags = asoc - > default_flags ;
default_sinfo . sinfo_ppid = asoc - > default_ppid ;
default_sinfo . sinfo_context = asoc - > default_context ;
default_sinfo . sinfo_timetolive = asoc - > default_timetolive ;
default_sinfo . sinfo_assoc_id = sctp_assoc2id ( asoc ) ;
sinfo = & default_sinfo ;
}
/* API 7.1.7, the sndbuf size per association bounds the
* maximum size of data that can be sent in a single send call .
*/
if ( msg_len > sk - > sk_sndbuf ) {
err = - EMSGSIZE ;
goto out_free ;
}
/* If fragmentation is disabled and the message length exceeds the
* association fragmentation point , return EMSGSIZE . The I - D
* does not specify what this error is , but this looks like
* a great fit .
*/
if ( sctp_sk ( sk ) - > disable_fragments & & ( msg_len > asoc - > frag_point ) ) {
err = - EMSGSIZE ;
goto out_free ;
}
if ( sinfo ) {
/* Check for invalid stream. */
if ( sinfo - > sinfo_stream > = asoc - > c . sinit_num_ostreams ) {
err = - EINVAL ;
goto out_free ;
}
}
timeo = sock_sndtimeo ( sk , msg - > msg_flags & MSG_DONTWAIT ) ;
if ( ! sctp_wspace ( asoc ) ) {
err = sctp_wait_for_sndbuf ( asoc , & timeo , msg_len ) ;
if ( err )
goto out_free ;
}
/* If an address is passed with the sendto/sendmsg call, it is used
* to override the primary destination address in the TCP model , or
2005-10-29 02:10:00 +04:00
* when SCTP_ADDR_OVER flag is set in the UDP model .
2005-04-17 02:20:36 +04:00
*/
if ( ( sctp_style ( sk , TCP ) & & msg_name ) | |
2005-10-29 02:10:00 +04:00
( sinfo_flags & SCTP_ADDR_OVER ) ) {
2005-04-17 02:20:36 +04:00
chunk_tp = sctp_assoc_lookup_paddr ( asoc , & to ) ;
if ( ! chunk_tp ) {
err = - EINVAL ;
goto out_free ;
}
} else
chunk_tp = NULL ;
/* Auto-connect, if we aren't connected already. */
if ( sctp_state ( asoc , CLOSED ) ) {
err = sctp_primitive_ASSOCIATE ( asoc , NULL ) ;
if ( err < 0 )
goto out_free ;
SCTP_DEBUG_PRINTK ( " We associated primitively. \n " ) ;
}
/* Break the message into multiple chunks of maximum size. */
datamsg = sctp_datamsg_from_user ( asoc , sinfo , msg , msg_len ) ;
if ( ! datamsg ) {
err = - ENOMEM ;
goto out_free ;
}
/* Now send the (possibly) fragmented message. */
list_for_each ( pos , & datamsg - > chunks ) {
chunk = list_entry ( pos , struct sctp_chunk , frag_list ) ;
sctp_datamsg_track ( chunk ) ;
/* Do accounting for the write space. */
sctp_set_owner_w ( chunk ) ;
chunk - > transport = chunk_tp ;
/* Send it to the lower layers. Note: all chunks
* must either fail or succeed . The lower layer
* works that way today . Keep it that way or this
* breaks .
*/
err = sctp_primitive_SEND ( asoc , chunk ) ;
/* Did the lower layer accept the chunk? */
if ( err )
sctp_chunk_free ( chunk ) ;
SCTP_DEBUG_PRINTK ( " We sent primitively. \n " ) ;
}
sctp_datamsg_free ( datamsg ) ;
if ( err )
goto out_free ;
else
err = msg_len ;
/* If we are already past ASSOCIATE, the lower
* layers are responsible for association cleanup .
*/
goto out_unlock ;
out_free :
if ( new_asoc )
sctp_association_free ( asoc ) ;
out_unlock :
sctp_release_sock ( sk ) ;
out_nounlock :
return sctp_error ( sk , msg_flags , err ) ;
#if 0
do_sock_err :
if ( msg_len )
err = msg_len ;
else
err = sock_error ( sk ) ;
goto out ;
do_interrupted :
if ( msg_len )
err = msg_len ;
goto out ;
# endif /* 0 */
}
/* This is an extended version of skb_pull() that removes the data from the
* start of a skb even when data is spread across the list of skb ' s in the
* frag_list . len specifies the total amount of data that needs to be removed .
* when ' len ' bytes could be removed from the skb , it returns 0.
* If ' len ' exceeds the total skb length , it returns the no . of bytes that
* could not be removed .
*/
static int sctp_skb_pull ( struct sk_buff * skb , int len )
{
struct sk_buff * list ;
int skb_len = skb_headlen ( skb ) ;
int rlen ;
if ( len < = skb_len ) {
__skb_pull ( skb , len ) ;
return 0 ;
}
len - = skb_len ;
__skb_pull ( skb , skb_len ) ;
for ( list = skb_shinfo ( skb ) - > frag_list ; list ; list = list - > next ) {
rlen = sctp_skb_pull ( list , len ) ;
skb - > len - = ( len - rlen ) ;
skb - > data_len - = ( len - rlen ) ;
if ( ! rlen )
return 0 ;
len = rlen ;
}
return len ;
}
/* API 3.1.3 recvmsg() - UDP Style Syntax
*
* ssize_t recvmsg ( int socket , struct msghdr * message ,
* int flags ) ;
*
* socket - the socket descriptor of the endpoint .
* message - pointer to the msghdr structure which contains a single
* user message and possibly some ancillary data .
*
* See Section 5 for complete description of the data
* structures .
*
* flags - flags sent or received with the user message , see Section
* 5 for complete description of the flags .
*/
static struct sk_buff * sctp_skb_recv_datagram ( struct sock * , int , int , int * ) ;
SCTP_STATIC int sctp_recvmsg ( struct kiocb * iocb , struct sock * sk ,
struct msghdr * msg , size_t len , int noblock ,
int flags , int * addr_len )
{
struct sctp_ulpevent * event = NULL ;
struct sctp_sock * sp = sctp_sk ( sk ) ;
struct sk_buff * skb ;
int copied ;
int err = 0 ;
int skb_len ;
SCTP_DEBUG_PRINTK ( " sctp_recvmsg(%s: %p, %s: %p, %s: %zd, %s: %d, %s: "
" 0x%x, %s: %p) \n " , " sk " , sk , " msghdr " , msg ,
" len " , len , " knoblauch " , noblock ,
" flags " , flags , " addr_len " , addr_len ) ;
sctp_lock_sock ( sk ) ;
if ( sctp_style ( sk , TCP ) & & ! sctp_sstate ( sk , ESTABLISHED ) ) {
err = - ENOTCONN ;
goto out ;
}
skb = sctp_skb_recv_datagram ( sk , flags , noblock , & err ) ;
if ( ! skb )
goto out ;
/* Get the total length of the skb including any skb's in the
* frag_list .
*/
skb_len = skb - > len ;
copied = skb_len ;
if ( copied > len )
copied = len ;
err = skb_copy_datagram_iovec ( skb , 0 , msg - > msg_iov , copied ) ;
event = sctp_skb2event ( skb ) ;
if ( err )
goto out_free ;
sock_recv_timestamp ( msg , sk , skb ) ;
if ( sctp_ulpevent_is_notification ( event ) ) {
msg - > msg_flags | = MSG_NOTIFICATION ;
sp - > pf - > event_msgname ( event , msg - > msg_name , addr_len ) ;
} else {
sp - > pf - > skb_msgname ( skb , msg - > msg_name , addr_len ) ;
}
/* Check if we allow SCTP_SNDRCVINFO. */
if ( sp - > subscribe . sctp_data_io_event )
sctp_ulpevent_read_sndrcvinfo ( event , msg ) ;
#if 0
/* FIXME: we should be calling IP/IPv6 layers. */
if ( sk - > sk_protinfo . af_inet . cmsg_flags )
ip_cmsg_recv ( msg , skb ) ;
# endif
err = copied ;
/* If skb's length exceeds the user's buffer, update the skb and
* push it back to the receive_queue so that the next call to
* recvmsg ( ) will return the remaining data . Don ' t set MSG_EOR .
*/
if ( skb_len > copied ) {
msg - > msg_flags & = ~ MSG_EOR ;
if ( flags & MSG_PEEK )
goto out_free ;
sctp_skb_pull ( skb , copied ) ;
skb_queue_head ( & sk - > sk_receive_queue , skb ) ;
/* When only partial message is copied to the user, increase
* rwnd by that amount . If all the data in the skb is read ,
* rwnd is updated when the event is freed .
*/
sctp_assoc_rwnd_increase ( event - > asoc , copied ) ;
goto out ;
} else if ( ( event - > msg_flags & MSG_NOTIFICATION ) | |
( event - > msg_flags & MSG_EOR ) )
msg - > msg_flags | = MSG_EOR ;
else
msg - > msg_flags & = ~ MSG_EOR ;
out_free :
if ( flags & MSG_PEEK ) {
/* Release the skb reference acquired after peeking the skb in
* sctp_skb_recv_datagram ( ) .
*/
kfree_skb ( skb ) ;
} else {
/* Free the event which includes releasing the reference to
* the owner of the skb , freeing the skb and updating the
* rwnd .
*/
sctp_ulpevent_free ( event ) ;
}
out :
sctp_release_sock ( sk ) ;
return err ;
}
/* 7.1.12 Enable/Disable message fragmentation (SCTP_DISABLE_FRAGMENTS)
*
* This option is a on / off flag . If enabled no SCTP message
* fragmentation will be performed . Instead if a message being sent
* exceeds the current PMTU size , the message will NOT be sent and
* instead a error will be indicated to the user .
*/
static int sctp_setsockopt_disable_fragments ( struct sock * sk ,
char __user * optval , int optlen )
{
int val ;
if ( optlen < sizeof ( int ) )
return - EINVAL ;
if ( get_user ( val , ( int __user * ) optval ) )
return - EFAULT ;
sctp_sk ( sk ) - > disable_fragments = ( val = = 0 ) ? 0 : 1 ;
return 0 ;
}
static int sctp_setsockopt_events ( struct sock * sk , char __user * optval ,
int optlen )
{
if ( optlen ! = sizeof ( struct sctp_event_subscribe ) )
return - EINVAL ;
if ( copy_from_user ( & sctp_sk ( sk ) - > subscribe , optval , optlen ) )
return - EFAULT ;
return 0 ;
}
/* 7.1.8 Automatic Close of associations (SCTP_AUTOCLOSE)
*
* This socket option is applicable to the UDP - style socket only . When
* set it will cause associations that are idle for more than the
* specified number of seconds to automatically close . An association
* being idle is defined an association that has NOT sent or received
* user data . The special value of ' 0 ' indicates that no automatic
* close of any associations should be performed . The option expects an
* integer defining the number of seconds of idle time before an
* association is closed .
*/
static int sctp_setsockopt_autoclose ( struct sock * sk , char __user * optval ,
int optlen )
{
struct sctp_sock * sp = sctp_sk ( sk ) ;
/* Applicable to UDP-style socket only */
if ( sctp_style ( sk , TCP ) )
return - EOPNOTSUPP ;
if ( optlen ! = sizeof ( int ) )
return - EINVAL ;
if ( copy_from_user ( & sp - > autoclose , optval , optlen ) )
return - EFAULT ;
return 0 ;
}
/* 7.1.13 Peer Address Parameters (SCTP_PEER_ADDR_PARAMS)
*
* Applications can enable or disable heartbeats for any peer address of
* an association , modify an address ' s heartbeat interval , force a
* heartbeat to be sent immediately , and adjust the address ' s maximum
* number of retransmissions sent before an address is considered
* unreachable . The following structure is used to access and modify an
* address ' s parameters :
*
* struct sctp_paddrparams {
* sctp_assoc_t spp_assoc_id ;
* struct sockaddr_storage spp_address ;
* uint32_t spp_hbinterval ;
* uint16_t spp_pathmaxrxt ;
* } ;
*
* spp_assoc_id - ( UDP style socket ) This is filled in the application ,
* and identifies the association for this query .
* spp_address - This specifies which address is of interest .
* spp_hbinterval - This contains the value of the heartbeat interval ,
* in milliseconds . A value of 0 , when modifying the
* parameter , specifies that the heartbeat on this
* address should be disabled . A value of UINT32_MAX
* ( 4294967295 ) , when modifying the parameter ,
* specifies that a heartbeat should be sent
* immediately to the peer address , and the current
* interval should remain unchanged .
* spp_pathmaxrxt - This contains the maximum number of
* retransmissions before this address shall be
* considered unreachable .
*/
static int sctp_setsockopt_peer_addr_params ( struct sock * sk ,
char __user * optval , int optlen )
{
struct sctp_paddrparams params ;
struct sctp_transport * trans ;
int error ;
if ( optlen ! = sizeof ( struct sctp_paddrparams ) )
return - EINVAL ;
if ( copy_from_user ( & params , optval , optlen ) )
return - EFAULT ;
/*
* API 7. Socket Options ( setting the default value for the endpoint )
* All options that support specific settings on an association by
* filling in either an association id variable or a sockaddr_storage
* SHOULD also support setting of the same value for the entire endpoint
* ( i . e . future associations ) . To accomplish this the following logic is
* used when setting one of these options :
* c ) If neither the sockaddr_storage or association identification is
* set i . e . the sockaddr_storage is set to all 0 ' s ( INADDR_ANY ) and
* the association identification is 0 , the settings are a default
* and to be applied to the endpoint ( all future associations ) .
*/
/* update default value for endpoint (all future associations) */
if ( ! params . spp_assoc_id & &
sctp_is_any ( ( union sctp_addr * ) & params . spp_address ) ) {
/* Manual heartbeat on an endpoint is invalid. */
if ( 0xffffffff = = params . spp_hbinterval )
return - EINVAL ;
else if ( params . spp_hbinterval )
sctp_sk ( sk ) - > paddrparam . spp_hbinterval =
params . spp_hbinterval ;
if ( params . spp_pathmaxrxt )
sctp_sk ( sk ) - > paddrparam . spp_pathmaxrxt =
params . spp_pathmaxrxt ;
return 0 ;
}
trans = sctp_addr_id2transport ( sk , & params . spp_address ,
params . spp_assoc_id ) ;
if ( ! trans )
return - EINVAL ;
/* Applications can enable or disable heartbeats for any peer address
* of an association , modify an address ' s heartbeat interval , force a
* heartbeat to be sent immediately , and adjust the address ' s maximum
* number of retransmissions sent before an address is considered
* unreachable .
*
* The value of the heartbeat interval , in milliseconds . A value of
* UINT32_MAX ( 4294967295 ) , when modifying the parameter , specifies
* that a heartbeat should be sent immediately to the peer address ,
* and the current interval should remain unchanged .
*/
if ( 0xffffffff = = params . spp_hbinterval ) {
error = sctp_primitive_REQUESTHEARTBEAT ( trans - > asoc , trans ) ;
if ( error )
return error ;
} else {
/* The value of the heartbeat interval, in milliseconds. A value of 0,
* when modifying the parameter , specifies that the heartbeat on this
* address should be disabled .
*/
if ( params . spp_hbinterval ) {
trans - > hb_allowed = 1 ;
trans - > hb_interval =
msecs_to_jiffies ( params . spp_hbinterval ) ;
} else
trans - > hb_allowed = 0 ;
}
/* spp_pathmaxrxt contains the maximum number of retransmissions
* before this address shall be considered unreachable .
*/
if ( params . spp_pathmaxrxt )
trans - > max_retrans = params . spp_pathmaxrxt ;
return 0 ;
}
/* 7.1.3 Initialization Parameters (SCTP_INITMSG)
*
* Applications can specify protocol parameters for the default association
* initialization . The option name argument to setsockopt ( ) and getsockopt ( )
* is SCTP_INITMSG .
*
* Setting initialization parameters is effective only on an unconnected
* socket ( for UDP - style sockets only future associations are effected
* by the change ) . With TCP - style sockets , this option is inherited by
* sockets derived from a listener socket .
*/
static int sctp_setsockopt_initmsg ( struct sock * sk , char __user * optval , int optlen )
{
struct sctp_initmsg sinit ;
struct sctp_sock * sp = sctp_sk ( sk ) ;
if ( optlen ! = sizeof ( struct sctp_initmsg ) )
return - EINVAL ;
if ( copy_from_user ( & sinit , optval , optlen ) )
return - EFAULT ;
if ( sinit . sinit_num_ostreams )
sp - > initmsg . sinit_num_ostreams = sinit . sinit_num_ostreams ;
if ( sinit . sinit_max_instreams )
sp - > initmsg . sinit_max_instreams = sinit . sinit_max_instreams ;
if ( sinit . sinit_max_attempts )
sp - > initmsg . sinit_max_attempts = sinit . sinit_max_attempts ;
if ( sinit . sinit_max_init_timeo )
sp - > initmsg . sinit_max_init_timeo = sinit . sinit_max_init_timeo ;
return 0 ;
}
/*
* 7.1 .14 Set default send parameters ( SCTP_DEFAULT_SEND_PARAM )
*
* Applications that wish to use the sendto ( ) system call may wish to
* specify a default set of parameters that would normally be supplied
* through the inclusion of ancillary data . This socket option allows
* such an application to set the default sctp_sndrcvinfo structure .
* The application that wishes to use this socket option simply passes
* in to this call the sctp_sndrcvinfo structure defined in Section
* 5.2 .2 ) The input parameters accepted by this call include
* sinfo_stream , sinfo_flags , sinfo_ppid , sinfo_context ,
* sinfo_timetolive . The user must provide the sinfo_assoc_id field in
* to this call if the caller is using the UDP model .
*/
static int sctp_setsockopt_default_send_param ( struct sock * sk ,
char __user * optval , int optlen )
{
struct sctp_sndrcvinfo info ;
struct sctp_association * asoc ;
struct sctp_sock * sp = sctp_sk ( sk ) ;
if ( optlen ! = sizeof ( struct sctp_sndrcvinfo ) )
return - EINVAL ;
if ( copy_from_user ( & info , optval , optlen ) )
return - EFAULT ;
asoc = sctp_id2assoc ( sk , info . sinfo_assoc_id ) ;
if ( ! asoc & & info . sinfo_assoc_id & & sctp_style ( sk , UDP ) )
return - EINVAL ;
if ( asoc ) {
asoc - > default_stream = info . sinfo_stream ;
asoc - > default_flags = info . sinfo_flags ;
asoc - > default_ppid = info . sinfo_ppid ;
asoc - > default_context = info . sinfo_context ;
asoc - > default_timetolive = info . sinfo_timetolive ;
} else {
sp - > default_stream = info . sinfo_stream ;
sp - > default_flags = info . sinfo_flags ;
sp - > default_ppid = info . sinfo_ppid ;
sp - > default_context = info . sinfo_context ;
sp - > default_timetolive = info . sinfo_timetolive ;
}
return 0 ;
}
/* 7.1.10 Set Primary Address (SCTP_PRIMARY_ADDR)
*
* Requests that the local SCTP stack use the enclosed peer address as
* the association primary . The enclosed address must be one of the
* association peer ' s addresses .
*/
static int sctp_setsockopt_primary_addr ( struct sock * sk , char __user * optval ,
int optlen )
{
struct sctp_prim prim ;
struct sctp_transport * trans ;
if ( optlen ! = sizeof ( struct sctp_prim ) )
return - EINVAL ;
if ( copy_from_user ( & prim , optval , sizeof ( struct sctp_prim ) ) )
return - EFAULT ;
trans = sctp_addr_id2transport ( sk , & prim . ssp_addr , prim . ssp_assoc_id ) ;
if ( ! trans )
return - EINVAL ;
sctp_assoc_set_primary ( trans - > asoc , trans ) ;
return 0 ;
}
/*
* 7.1 .5 SCTP_NODELAY
*
* Turn on / off any Nagle - like algorithm . This means that packets are
* generally sent as soon as possible and no unnecessary delays are
* introduced , at the cost of more packets in the network . Expects an
* integer boolean flag .
*/
static int sctp_setsockopt_nodelay ( struct sock * sk , char __user * optval ,
int optlen )
{
int val ;
if ( optlen < sizeof ( int ) )
return - EINVAL ;
if ( get_user ( val , ( int __user * ) optval ) )
return - EFAULT ;
sctp_sk ( sk ) - > nodelay = ( val = = 0 ) ? 0 : 1 ;
return 0 ;
}
/*
*
* 7.1 .1 SCTP_RTOINFO
*
* The protocol parameters used to initialize and bound retransmission
* timeout ( RTO ) are tunable . sctp_rtoinfo structure is used to access
* and modify these parameters .
* All parameters are time values , in milliseconds . A value of 0 , when
* modifying the parameters , indicates that the current value should not
* be changed .
*
*/
static int sctp_setsockopt_rtoinfo ( struct sock * sk , char __user * optval , int optlen ) {
struct sctp_rtoinfo rtoinfo ;
struct sctp_association * asoc ;
if ( optlen ! = sizeof ( struct sctp_rtoinfo ) )
return - EINVAL ;
if ( copy_from_user ( & rtoinfo , optval , optlen ) )
return - EFAULT ;
asoc = sctp_id2assoc ( sk , rtoinfo . srto_assoc_id ) ;
/* Set the values to the specific association */
if ( ! asoc & & rtoinfo . srto_assoc_id & & sctp_style ( sk , UDP ) )
return - EINVAL ;
if ( asoc ) {
if ( rtoinfo . srto_initial ! = 0 )
asoc - > rto_initial =
msecs_to_jiffies ( rtoinfo . srto_initial ) ;
if ( rtoinfo . srto_max ! = 0 )
asoc - > rto_max = msecs_to_jiffies ( rtoinfo . srto_max ) ;
if ( rtoinfo . srto_min ! = 0 )
asoc - > rto_min = msecs_to_jiffies ( rtoinfo . srto_min ) ;
} else {
/* If there is no association or the association-id = 0
* set the values to the endpoint .
*/
struct sctp_sock * sp = sctp_sk ( sk ) ;
if ( rtoinfo . srto_initial ! = 0 )
sp - > rtoinfo . srto_initial = rtoinfo . srto_initial ;
if ( rtoinfo . srto_max ! = 0 )
sp - > rtoinfo . srto_max = rtoinfo . srto_max ;
if ( rtoinfo . srto_min ! = 0 )
sp - > rtoinfo . srto_min = rtoinfo . srto_min ;
}
return 0 ;
}
/*
*
* 7.1 .2 SCTP_ASSOCINFO
*
* This option is used to tune the the maximum retransmission attempts
* of the association .
* Returns an error if the new association retransmission value is
* greater than the sum of the retransmission value of the peer .
* See [ SCTP ] for more information .
*
*/
static int sctp_setsockopt_associnfo ( struct sock * sk , char __user * optval , int optlen )
{
struct sctp_assocparams assocparams ;
struct sctp_association * asoc ;
if ( optlen ! = sizeof ( struct sctp_assocparams ) )
return - EINVAL ;
if ( copy_from_user ( & assocparams , optval , optlen ) )
return - EFAULT ;
asoc = sctp_id2assoc ( sk , assocparams . sasoc_assoc_id ) ;
if ( ! asoc & & assocparams . sasoc_assoc_id & & sctp_style ( sk , UDP ) )
return - EINVAL ;
/* Set the values to the specific association */
if ( asoc ) {
if ( assocparams . sasoc_asocmaxrxt ! = 0 )
asoc - > max_retrans = assocparams . sasoc_asocmaxrxt ;
if ( assocparams . sasoc_cookie_life ! = 0 ) {
asoc - > cookie_life . tv_sec =
assocparams . sasoc_cookie_life / 1000 ;
asoc - > cookie_life . tv_usec =
( assocparams . sasoc_cookie_life % 1000 )
* 1000 ;
}
} else {
/* Set the values to the endpoint */
struct sctp_sock * sp = sctp_sk ( sk ) ;
if ( assocparams . sasoc_asocmaxrxt ! = 0 )
sp - > assocparams . sasoc_asocmaxrxt =
assocparams . sasoc_asocmaxrxt ;
if ( assocparams . sasoc_cookie_life ! = 0 )
sp - > assocparams . sasoc_cookie_life =
assocparams . sasoc_cookie_life ;
}
return 0 ;
}
/*
* 7.1 .16 Set / clear IPv4 mapped addresses ( SCTP_I_WANT_MAPPED_V4_ADDR )
*
* This socket option is a boolean flag which turns on or off mapped V4
* addresses . If this option is turned on and the socket is type
* PF_INET6 , then IPv4 addresses will be mapped to V6 representation .
* If this option is turned off , then no mapping will be done of V4
* addresses and a user will receive both PF_INET6 and PF_INET type
* addresses on the socket .
*/
static int sctp_setsockopt_mappedv4 ( struct sock * sk , char __user * optval , int optlen )
{
int val ;
struct sctp_sock * sp = sctp_sk ( sk ) ;
if ( optlen < sizeof ( int ) )
return - EINVAL ;
if ( get_user ( val , ( int __user * ) optval ) )
return - EFAULT ;
if ( val )
sp - > v4mapped = 1 ;
else
sp - > v4mapped = 0 ;
return 0 ;
}
/*
* 7.1 .17 Set the maximum fragrmentation size ( SCTP_MAXSEG )
*
* This socket option specifies the maximum size to put in any outgoing
* SCTP chunk . If a message is larger than this size it will be
* fragmented by SCTP into the specified size . Note that the underlying
* SCTP implementation may fragment into smaller sized chunks when the
* PMTU of the underlying association is smaller than the value set by
* the user .
*/
static int sctp_setsockopt_maxseg ( struct sock * sk , char __user * optval , int optlen )
{
struct sctp_association * asoc ;
struct list_head * pos ;
struct sctp_sock * sp = sctp_sk ( sk ) ;
int val ;
if ( optlen < sizeof ( int ) )
return - EINVAL ;
if ( get_user ( val , ( int __user * ) optval ) )
return - EFAULT ;
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if ( ( val ! = 0 ) & & ( ( val < 8 ) | | ( val > SCTP_MAX_CHUNK_LEN ) ) )
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return - EINVAL ;
sp - > user_frag = val ;
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/* Update the frag_point of the existing associations. */
list_for_each ( pos , & ( sp - > ep - > asocs ) ) {
asoc = list_entry ( pos , struct sctp_association , asocs ) ;
asoc - > frag_point = sctp_frag_point ( sp , asoc - > pmtu ) ;
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}
return 0 ;
}
/*
* 7.1 .9 Set Peer Primary Address ( SCTP_SET_PEER_PRIMARY_ADDR )
*
* Requests that the peer mark the enclosed address as the association
* primary . The enclosed address must be one of the association ' s
* locally bound addresses . The following structure is used to make a
* set primary request :
*/
static int sctp_setsockopt_peer_primary_addr ( struct sock * sk , char __user * optval ,
int optlen )
{
struct sctp_sock * sp ;
struct sctp_endpoint * ep ;
struct sctp_association * asoc = NULL ;
struct sctp_setpeerprim prim ;
struct sctp_chunk * chunk ;
int err ;
sp = sctp_sk ( sk ) ;
ep = sp - > ep ;
if ( ! sctp_addip_enable )
return - EPERM ;
if ( optlen ! = sizeof ( struct sctp_setpeerprim ) )
return - EINVAL ;
if ( copy_from_user ( & prim , optval , optlen ) )
return - EFAULT ;
asoc = sctp_id2assoc ( sk , prim . sspp_assoc_id ) ;
if ( ! asoc )
return - EINVAL ;
if ( ! asoc - > peer . asconf_capable )
return - EPERM ;
if ( asoc - > peer . addip_disabled_mask & SCTP_PARAM_SET_PRIMARY )
return - EPERM ;
if ( ! sctp_state ( asoc , ESTABLISHED ) )
return - ENOTCONN ;
if ( ! sctp_assoc_lookup_laddr ( asoc , ( union sctp_addr * ) & prim . sspp_addr ) )
return - EADDRNOTAVAIL ;
/* Create an ASCONF chunk with SET_PRIMARY parameter */
chunk = sctp_make_asconf_set_prim ( asoc ,
( union sctp_addr * ) & prim . sspp_addr ) ;
if ( ! chunk )
return - ENOMEM ;
err = sctp_send_asconf ( asoc , chunk ) ;
SCTP_DEBUG_PRINTK ( " We set peer primary addr primitively. \n " ) ;
return err ;
}
static int sctp_setsockopt_adaption_layer ( struct sock * sk , char __user * optval ,
int optlen )
{
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struct sctp_setadaption adaption ;
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if ( optlen ! = sizeof ( struct sctp_setadaption ) )
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return - EINVAL ;
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if ( copy_from_user ( & adaption , optval , optlen ) )
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return - EFAULT ;
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sctp_sk ( sk ) - > adaption_ind = adaption . ssb_adaption_ind ;
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return 0 ;
}
/* API 6.2 setsockopt(), getsockopt()
*
* Applications use setsockopt ( ) and getsockopt ( ) to set or retrieve
* socket options . Socket options are used to change the default
* behavior of sockets calls . They are described in Section 7.
*
* The syntax is :
*
* ret = getsockopt ( int sd , int level , int optname , void __user * optval ,
* int __user * optlen ) ;
* ret = setsockopt ( int sd , int level , int optname , const void __user * optval ,
* int optlen ) ;
*
* sd - the socket descript .
* level - set to IPPROTO_SCTP for all SCTP options .
* optname - the option name .
* optval - the buffer to store the value of the option .
* optlen - the size of the buffer .
*/
SCTP_STATIC int sctp_setsockopt ( struct sock * sk , int level , int optname ,
char __user * optval , int optlen )
{
int retval = 0 ;
SCTP_DEBUG_PRINTK ( " sctp_setsockopt(sk: %p... optname: %d) \n " ,
sk , optname ) ;
/* I can hardly begin to describe how wrong this is. This is
* so broken as to be worse than useless . The API draft
* REALLY is NOT helpful here . . . I am not convinced that the
* semantics of setsockopt ( ) with a level OTHER THAN SOL_SCTP
* are at all well - founded .
*/
if ( level ! = SOL_SCTP ) {
struct sctp_af * af = sctp_sk ( sk ) - > pf - > af ;
retval = af - > setsockopt ( sk , level , optname , optval , optlen ) ;
goto out_nounlock ;
}
sctp_lock_sock ( sk ) ;
switch ( optname ) {
case SCTP_SOCKOPT_BINDX_ADD :
/* 'optlen' is the size of the addresses buffer. */
retval = sctp_setsockopt_bindx ( sk , ( struct sockaddr __user * ) optval ,
optlen , SCTP_BINDX_ADD_ADDR ) ;
break ;
case SCTP_SOCKOPT_BINDX_REM :
/* 'optlen' is the size of the addresses buffer. */
retval = sctp_setsockopt_bindx ( sk , ( struct sockaddr __user * ) optval ,
optlen , SCTP_BINDX_REM_ADDR ) ;
break ;
2005-06-21 00:14:57 +04:00
case SCTP_SOCKOPT_CONNECTX :
/* 'optlen' is the size of the addresses buffer. */
retval = sctp_setsockopt_connectx ( sk , ( struct sockaddr __user * ) optval ,
optlen ) ;
break ;
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case SCTP_DISABLE_FRAGMENTS :
retval = sctp_setsockopt_disable_fragments ( sk , optval , optlen ) ;
break ;
case SCTP_EVENTS :
retval = sctp_setsockopt_events ( sk , optval , optlen ) ;
break ;
case SCTP_AUTOCLOSE :
retval = sctp_setsockopt_autoclose ( sk , optval , optlen ) ;
break ;
case SCTP_PEER_ADDR_PARAMS :
retval = sctp_setsockopt_peer_addr_params ( sk , optval , optlen ) ;
break ;
case SCTP_INITMSG :
retval = sctp_setsockopt_initmsg ( sk , optval , optlen ) ;
break ;
case SCTP_DEFAULT_SEND_PARAM :
retval = sctp_setsockopt_default_send_param ( sk , optval ,
optlen ) ;
break ;
case SCTP_PRIMARY_ADDR :
retval = sctp_setsockopt_primary_addr ( sk , optval , optlen ) ;
break ;
case SCTP_SET_PEER_PRIMARY_ADDR :
retval = sctp_setsockopt_peer_primary_addr ( sk , optval , optlen ) ;
break ;
case SCTP_NODELAY :
retval = sctp_setsockopt_nodelay ( sk , optval , optlen ) ;
break ;
case SCTP_RTOINFO :
retval = sctp_setsockopt_rtoinfo ( sk , optval , optlen ) ;
break ;
case SCTP_ASSOCINFO :
retval = sctp_setsockopt_associnfo ( sk , optval , optlen ) ;
break ;
case SCTP_I_WANT_MAPPED_V4_ADDR :
retval = sctp_setsockopt_mappedv4 ( sk , optval , optlen ) ;
break ;
case SCTP_MAXSEG :
retval = sctp_setsockopt_maxseg ( sk , optval , optlen ) ;
break ;
case SCTP_ADAPTION_LAYER :
retval = sctp_setsockopt_adaption_layer ( sk , optval , optlen ) ;
break ;
default :
retval = - ENOPROTOOPT ;
break ;
} ;
sctp_release_sock ( sk ) ;
out_nounlock :
return retval ;
}
/* API 3.1.6 connect() - UDP Style Syntax
*
* An application may use the connect ( ) call in the UDP model to initiate an
* association without sending data .
*
* The syntax is :
*
* ret = connect ( int sd , const struct sockaddr * nam , socklen_t len ) ;
*
* sd : the socket descriptor to have a new association added to .
*
* nam : the address structure ( either struct sockaddr_in or struct
* sockaddr_in6 defined in RFC2553 [ 7 ] ) .
*
* len : the size of the address .
*/
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SCTP_STATIC int sctp_connect ( struct sock * sk , struct sockaddr * addr ,
2005-04-17 02:20:36 +04:00
int addr_len )
{
int err = 0 ;
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struct sctp_af * af ;
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sctp_lock_sock ( sk ) ;
2005-06-21 00:14:57 +04:00
SCTP_DEBUG_PRINTK ( " %s - sk: %p, sockaddr: %p, addr_len: %d \n " ,
__FUNCTION__ , sk , addr , addr_len ) ;
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2005-06-21 00:14:57 +04:00
/* Validate addr_len before calling common connect/connectx routine. */
af = sctp_get_af_specific ( addr - > sa_family ) ;
if ( ! af | | addr_len < af - > sockaddr_len ) {
err = - EINVAL ;
} else {
/* Pass correct addr len to common routine (so it knows there
* is only one address being passed .
*/
err = __sctp_connect ( sk , addr , af - > sockaddr_len ) ;
2005-04-17 02:20:36 +04:00
}
sctp_release_sock ( sk ) ;
return err ;
}
/* FIXME: Write comments. */
SCTP_STATIC int sctp_disconnect ( struct sock * sk , int flags )
{
return - EOPNOTSUPP ; /* STUB */
}
/* 4.1.4 accept() - TCP Style Syntax
*
* Applications use accept ( ) call to remove an established SCTP
* association from the accept queue of the endpoint . A new socket
* descriptor will be returned from accept ( ) to represent the newly
* formed association .
*/
SCTP_STATIC struct sock * sctp_accept ( struct sock * sk , int flags , int * err )
{
struct sctp_sock * sp ;
struct sctp_endpoint * ep ;
struct sock * newsk = NULL ;
struct sctp_association * asoc ;
long timeo ;
int error = 0 ;
sctp_lock_sock ( sk ) ;
sp = sctp_sk ( sk ) ;
ep = sp - > ep ;
if ( ! sctp_style ( sk , TCP ) ) {
error = - EOPNOTSUPP ;
goto out ;
}
if ( ! sctp_sstate ( sk , LISTENING ) ) {
error = - EINVAL ;
goto out ;
}
timeo = sock_rcvtimeo ( sk , sk - > sk_socket - > file - > f_flags & O_NONBLOCK ) ;
error = sctp_wait_for_accept ( sk , timeo ) ;
if ( error )
goto out ;
/* We treat the list of associations on the endpoint as the accept
* queue and pick the first association on the list .
*/
asoc = list_entry ( ep - > asocs . next , struct sctp_association , asocs ) ;
newsk = sp - > pf - > create_accept_sk ( sk , asoc ) ;
if ( ! newsk ) {
error = - ENOMEM ;
goto out ;
}
/* Populate the fields of the newsk from the oldsk and migrate the
* asoc to the newsk .
*/
sctp_sock_migrate ( sk , newsk , asoc , SCTP_SOCKET_TCP ) ;
out :
sctp_release_sock ( sk ) ;
* err = error ;
return newsk ;
}
/* The SCTP ioctl handler. */
SCTP_STATIC int sctp_ioctl ( struct sock * sk , int cmd , unsigned long arg )
{
return - ENOIOCTLCMD ;
}
/* This is the function which gets called during socket creation to
* initialized the SCTP - specific portion of the sock .
* The sock structure should already be zero - filled memory .
*/
SCTP_STATIC int sctp_init_sock ( struct sock * sk )
{
struct sctp_endpoint * ep ;
struct sctp_sock * sp ;
SCTP_DEBUG_PRINTK ( " sctp_init_sock(sk: %p) \n " , sk ) ;
sp = sctp_sk ( sk ) ;
/* Initialize the SCTP per socket area. */
switch ( sk - > sk_type ) {
case SOCK_SEQPACKET :
sp - > type = SCTP_SOCKET_UDP ;
break ;
case SOCK_STREAM :
sp - > type = SCTP_SOCKET_TCP ;
break ;
default :
return - ESOCKTNOSUPPORT ;
}
/* Initialize default send parameters. These parameters can be
* modified with the SCTP_DEFAULT_SEND_PARAM socket option .
*/
sp - > default_stream = 0 ;
sp - > default_ppid = 0 ;
sp - > default_flags = 0 ;
sp - > default_context = 0 ;
sp - > default_timetolive = 0 ;
/* Initialize default setup parameters. These parameters
* can be modified with the SCTP_INITMSG socket option or
* overridden by the SCTP_INIT CMSG .
*/
sp - > initmsg . sinit_num_ostreams = sctp_max_outstreams ;
sp - > initmsg . sinit_max_instreams = sctp_max_instreams ;
sp - > initmsg . sinit_max_attempts = sctp_max_retrans_init ;
sp - > initmsg . sinit_max_init_timeo = jiffies_to_msecs ( sctp_rto_max ) ;
/* Initialize default RTO related parameters. These parameters can
* be modified for with the SCTP_RTOINFO socket option .
*/
sp - > rtoinfo . srto_initial = jiffies_to_msecs ( sctp_rto_initial ) ;
sp - > rtoinfo . srto_max = jiffies_to_msecs ( sctp_rto_max ) ;
sp - > rtoinfo . srto_min = jiffies_to_msecs ( sctp_rto_min ) ;
/* Initialize default association related parameters. These parameters
* can be modified with the SCTP_ASSOCINFO socket option .
*/
sp - > assocparams . sasoc_asocmaxrxt = sctp_max_retrans_association ;
sp - > assocparams . sasoc_number_peer_destinations = 0 ;
sp - > assocparams . sasoc_peer_rwnd = 0 ;
sp - > assocparams . sasoc_local_rwnd = 0 ;
sp - > assocparams . sasoc_cookie_life =
jiffies_to_msecs ( sctp_valid_cookie_life ) ;
/* Initialize default event subscriptions. By default, all the
* options are off .
*/
memset ( & sp - > subscribe , 0 , sizeof ( struct sctp_event_subscribe ) ) ;
/* Default Peer Address Parameters. These defaults can
* be modified via SCTP_PEER_ADDR_PARAMS
*/
sp - > paddrparam . spp_hbinterval = jiffies_to_msecs ( sctp_hb_interval ) ;
sp - > paddrparam . spp_pathmaxrxt = sctp_max_retrans_path ;
/* If enabled no SCTP message fragmentation will be performed.
* Configure through SCTP_DISABLE_FRAGMENTS socket option .
*/
sp - > disable_fragments = 0 ;
/* Turn on/off any Nagle-like algorithm. */
sp - > nodelay = 1 ;
/* Enable by default. */
sp - > v4mapped = 1 ;
/* Auto-close idle associations after the configured
* number of seconds . A value of 0 disables this
* feature . Configure through the SCTP_AUTOCLOSE socket option ,
* for UDP - style sockets only .
*/
sp - > autoclose = 0 ;
/* User specified fragmentation limit. */
sp - > user_frag = 0 ;
sp - > adaption_ind = 0 ;
sp - > pf = sctp_get_pf_specific ( sk - > sk_family ) ;
/* Control variables for partial data delivery. */
sp - > pd_mode = 0 ;
skb_queue_head_init ( & sp - > pd_lobby ) ;
/* Create a per socket endpoint structure. Even if we
* change the data structure relationships , this may still
* be useful for storing pre - connect address information .
*/
ep = sctp_endpoint_new ( sk , GFP_KERNEL ) ;
if ( ! ep )
return - ENOMEM ;
sp - > ep = ep ;
sp - > hmac = NULL ;
SCTP_DBG_OBJCNT_INC ( sock ) ;
return 0 ;
}
/* Cleanup any SCTP per socket resources. */
SCTP_STATIC int sctp_destroy_sock ( struct sock * sk )
{
struct sctp_endpoint * ep ;
SCTP_DEBUG_PRINTK ( " sctp_destroy_sock(sk: %p) \n " , sk ) ;
/* Release our hold on the endpoint. */
ep = sctp_sk ( sk ) - > ep ;
sctp_endpoint_free ( ep ) ;
return 0 ;
}
/* API 4.1.7 shutdown() - TCP Style Syntax
* int shutdown ( int socket , int how ) ;
*
* sd - the socket descriptor of the association to be closed .
* how - Specifies the type of shutdown . The values are
* as follows :
* SHUT_RD
* Disables further receive operations . No SCTP
* protocol action is taken .
* SHUT_WR
* Disables further send operations , and initiates
* the SCTP shutdown sequence .
* SHUT_RDWR
* Disables further send and receive operations
* and initiates the SCTP shutdown sequence .
*/
SCTP_STATIC void sctp_shutdown ( struct sock * sk , int how )
{
struct sctp_endpoint * ep ;
struct sctp_association * asoc ;
if ( ! sctp_style ( sk , TCP ) )
return ;
if ( how & SEND_SHUTDOWN ) {
ep = sctp_sk ( sk ) - > ep ;
if ( ! list_empty ( & ep - > asocs ) ) {
asoc = list_entry ( ep - > asocs . next ,
struct sctp_association , asocs ) ;
sctp_primitive_SHUTDOWN ( asoc , NULL ) ;
}
}
}
/* 7.2.1 Association Status (SCTP_STATUS)
* Applications can retrieve current status information about an
* association , including association state , peer receiver window size ,
* number of unacked data chunks , and number of data chunks pending
* receipt . This information is read - only .
*/
static int sctp_getsockopt_sctp_status ( struct sock * sk , int len ,
char __user * optval ,
int __user * optlen )
{
struct sctp_status status ;
struct sctp_association * asoc = NULL ;
struct sctp_transport * transport ;
sctp_assoc_t associd ;
int retval = 0 ;
if ( len ! = sizeof ( status ) ) {
retval = - EINVAL ;
goto out ;
}
if ( copy_from_user ( & status , optval , sizeof ( status ) ) ) {
retval = - EFAULT ;
goto out ;
}
associd = status . sstat_assoc_id ;
asoc = sctp_id2assoc ( sk , associd ) ;
if ( ! asoc ) {
retval = - EINVAL ;
goto out ;
}
transport = asoc - > peer . primary_path ;
status . sstat_assoc_id = sctp_assoc2id ( asoc ) ;
status . sstat_state = asoc - > state ;
status . sstat_rwnd = asoc - > peer . rwnd ;
status . sstat_unackdata = asoc - > unack_data ;
status . sstat_penddata = sctp_tsnmap_pending ( & asoc - > peer . tsn_map ) ;
status . sstat_instrms = asoc - > c . sinit_max_instreams ;
status . sstat_outstrms = asoc - > c . sinit_num_ostreams ;
status . sstat_fragmentation_point = asoc - > frag_point ;
status . sstat_primary . spinfo_assoc_id = sctp_assoc2id ( transport - > asoc ) ;
memcpy ( & status . sstat_primary . spinfo_address ,
& ( transport - > ipaddr ) , sizeof ( union sctp_addr ) ) ;
/* Map ipv4 address into v4-mapped-on-v6 address. */
sctp_get_pf_specific ( sk - > sk_family ) - > addr_v4map ( sctp_sk ( sk ) ,
( union sctp_addr * ) & status . sstat_primary . spinfo_address ) ;
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status . sstat_primary . spinfo_state = transport - > state ;
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status . sstat_primary . spinfo_cwnd = transport - > cwnd ;
status . sstat_primary . spinfo_srtt = transport - > srtt ;
status . sstat_primary . spinfo_rto = jiffies_to_msecs ( transport - > rto ) ;
status . sstat_primary . spinfo_mtu = transport - > pmtu ;
2005-06-21 00:14:57 +04:00
if ( status . sstat_primary . spinfo_state = = SCTP_UNKNOWN )
status . sstat_primary . spinfo_state = SCTP_ACTIVE ;
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if ( put_user ( len , optlen ) ) {
retval = - EFAULT ;
goto out ;
}
SCTP_DEBUG_PRINTK ( " sctp_getsockopt_sctp_status(%d): %d %d %d \n " ,
len , status . sstat_state , status . sstat_rwnd ,
status . sstat_assoc_id ) ;
if ( copy_to_user ( optval , & status , len ) ) {
retval = - EFAULT ;
goto out ;
}
out :
return ( retval ) ;
}
/* 7.2.2 Peer Address Information (SCTP_GET_PEER_ADDR_INFO)
*
* Applications can retrieve information about a specific peer address
* of an association , including its reachability state , congestion
* window , and retransmission timer values . This information is
* read - only .
*/
static int sctp_getsockopt_peer_addr_info ( struct sock * sk , int len ,
char __user * optval ,
int __user * optlen )
{
struct sctp_paddrinfo pinfo ;
struct sctp_transport * transport ;
int retval = 0 ;
if ( len ! = sizeof ( pinfo ) ) {
retval = - EINVAL ;
goto out ;
}
if ( copy_from_user ( & pinfo , optval , sizeof ( pinfo ) ) ) {
retval = - EFAULT ;
goto out ;
}
transport = sctp_addr_id2transport ( sk , & pinfo . spinfo_address ,
pinfo . spinfo_assoc_id ) ;
if ( ! transport )
return - EINVAL ;
pinfo . spinfo_assoc_id = sctp_assoc2id ( transport - > asoc ) ;
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pinfo . spinfo_state = transport - > state ;
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pinfo . spinfo_cwnd = transport - > cwnd ;
pinfo . spinfo_srtt = transport - > srtt ;
pinfo . spinfo_rto = jiffies_to_msecs ( transport - > rto ) ;
pinfo . spinfo_mtu = transport - > pmtu ;
2005-06-21 00:14:57 +04:00
if ( pinfo . spinfo_state = = SCTP_UNKNOWN )
pinfo . spinfo_state = SCTP_ACTIVE ;
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if ( put_user ( len , optlen ) ) {
retval = - EFAULT ;
goto out ;
}
if ( copy_to_user ( optval , & pinfo , len ) ) {
retval = - EFAULT ;
goto out ;
}
out :
return ( retval ) ;
}
/* 7.1.12 Enable/Disable message fragmentation (SCTP_DISABLE_FRAGMENTS)
*
* This option is a on / off flag . If enabled no SCTP message
* fragmentation will be performed . Instead if a message being sent
* exceeds the current PMTU size , the message will NOT be sent and
* instead a error will be indicated to the user .
*/
static int sctp_getsockopt_disable_fragments ( struct sock * sk , int len ,
char __user * optval , int __user * optlen )
{
int val ;
if ( len < sizeof ( int ) )
return - EINVAL ;
len = sizeof ( int ) ;
val = ( sctp_sk ( sk ) - > disable_fragments = = 1 ) ;
if ( put_user ( len , optlen ) )
return - EFAULT ;
if ( copy_to_user ( optval , & val , len ) )
return - EFAULT ;
return 0 ;
}
/* 7.1.15 Set notification and ancillary events (SCTP_EVENTS)
*
* This socket option is used to specify various notifications and
* ancillary data the user wishes to receive .
*/
static int sctp_getsockopt_events ( struct sock * sk , int len , char __user * optval ,
int __user * optlen )
{
if ( len ! = sizeof ( struct sctp_event_subscribe ) )
return - EINVAL ;
if ( copy_to_user ( optval , & sctp_sk ( sk ) - > subscribe , len ) )
return - EFAULT ;
return 0 ;
}
/* 7.1.8 Automatic Close of associations (SCTP_AUTOCLOSE)
*
* This socket option is applicable to the UDP - style socket only . When
* set it will cause associations that are idle for more than the
* specified number of seconds to automatically close . An association
* being idle is defined an association that has NOT sent or received
* user data . The special value of ' 0 ' indicates that no automatic
* close of any associations should be performed . The option expects an
* integer defining the number of seconds of idle time before an
* association is closed .
*/
static int sctp_getsockopt_autoclose ( struct sock * sk , int len , char __user * optval , int __user * optlen )
{
/* Applicable to UDP-style socket only */
if ( sctp_style ( sk , TCP ) )
return - EOPNOTSUPP ;
if ( len ! = sizeof ( int ) )
return - EINVAL ;
if ( copy_to_user ( optval , & sctp_sk ( sk ) - > autoclose , len ) )
return - EFAULT ;
return 0 ;
}
/* Helper routine to branch off an association to a new socket. */
SCTP_STATIC int sctp_do_peeloff ( struct sctp_association * asoc ,
struct socket * * sockp )
{
struct sock * sk = asoc - > base . sk ;
struct socket * sock ;
int err = 0 ;
/* An association cannot be branched off from an already peeled-off
* socket , nor is this supported for tcp style sockets .
*/
if ( ! sctp_style ( sk , UDP ) )
return - EINVAL ;
/* Create a new socket. */
err = sock_create ( sk - > sk_family , SOCK_SEQPACKET , IPPROTO_SCTP , & sock ) ;
if ( err < 0 )
return err ;
/* Populate the fields of the newsk from the oldsk and migrate the
* asoc to the newsk .
*/
sctp_sock_migrate ( sk , sock - > sk , asoc , SCTP_SOCKET_UDP_HIGH_BANDWIDTH ) ;
* sockp = sock ;
return err ;
}
static int sctp_getsockopt_peeloff ( struct sock * sk , int len , char __user * optval , int __user * optlen )
{
sctp_peeloff_arg_t peeloff ;
struct socket * newsock ;
int retval = 0 ;
struct sctp_association * asoc ;
if ( len ! = sizeof ( sctp_peeloff_arg_t ) )
return - EINVAL ;
if ( copy_from_user ( & peeloff , optval , len ) )
return - EFAULT ;
asoc = sctp_id2assoc ( sk , peeloff . associd ) ;
if ( ! asoc ) {
retval = - EINVAL ;
goto out ;
}
SCTP_DEBUG_PRINTK ( " %s: sk: %p asoc: %p \n " , __FUNCTION__ , sk , asoc ) ;
retval = sctp_do_peeloff ( asoc , & newsock ) ;
if ( retval < 0 )
goto out ;
/* Map the socket to an unused fd that can be returned to the user. */
retval = sock_map_fd ( newsock ) ;
if ( retval < 0 ) {
sock_release ( newsock ) ;
goto out ;
}
SCTP_DEBUG_PRINTK ( " %s: sk: %p asoc: %p newsk: %p sd: %d \n " ,
__FUNCTION__ , sk , asoc , newsock - > sk , retval ) ;
/* Return the fd mapped to the new socket. */
peeloff . sd = retval ;
if ( copy_to_user ( optval , & peeloff , len ) )
retval = - EFAULT ;
out :
return retval ;
}
/* 7.1.13 Peer Address Parameters (SCTP_PEER_ADDR_PARAMS)
*
* Applications can enable or disable heartbeats for any peer address of
* an association , modify an address ' s heartbeat interval , force a
* heartbeat to be sent immediately , and adjust the address ' s maximum
* number of retransmissions sent before an address is considered
* unreachable . The following structure is used to access and modify an
* address ' s parameters :
*
* struct sctp_paddrparams {
* sctp_assoc_t spp_assoc_id ;
* struct sockaddr_storage spp_address ;
* uint32_t spp_hbinterval ;
* uint16_t spp_pathmaxrxt ;
* } ;
*
* spp_assoc_id - ( UDP style socket ) This is filled in the application ,
* and identifies the association for this query .
* spp_address - This specifies which address is of interest .
* spp_hbinterval - This contains the value of the heartbeat interval ,
* in milliseconds . A value of 0 , when modifying the
* parameter , specifies that the heartbeat on this
* address should be disabled . A value of UINT32_MAX
* ( 4294967295 ) , when modifying the parameter ,
* specifies that a heartbeat should be sent
* immediately to the peer address , and the current
* interval should remain unchanged .
* spp_pathmaxrxt - This contains the maximum number of
* retransmissions before this address shall be
* considered unreachable .
*/
static int sctp_getsockopt_peer_addr_params ( struct sock * sk , int len ,
char __user * optval , int __user * optlen )
{
struct sctp_paddrparams params ;
struct sctp_transport * trans ;
if ( len ! = sizeof ( struct sctp_paddrparams ) )
return - EINVAL ;
if ( copy_from_user ( & params , optval , len ) )
return - EFAULT ;
/* If no association id is specified retrieve the default value
* for the endpoint that will be used for all future associations
*/
if ( ! params . spp_assoc_id & &
sctp_is_any ( ( union sctp_addr * ) & params . spp_address ) ) {
params . spp_hbinterval = sctp_sk ( sk ) - > paddrparam . spp_hbinterval ;
params . spp_pathmaxrxt = sctp_sk ( sk ) - > paddrparam . spp_pathmaxrxt ;
goto done ;
}
trans = sctp_addr_id2transport ( sk , & params . spp_address ,
params . spp_assoc_id ) ;
if ( ! trans )
return - EINVAL ;
/* The value of the heartbeat interval, in milliseconds. A value of 0,
* when modifying the parameter , specifies that the heartbeat on this
* address should be disabled .
*/
if ( ! trans - > hb_allowed )
params . spp_hbinterval = 0 ;
else
params . spp_hbinterval = jiffies_to_msecs ( trans - > hb_interval ) ;
/* spp_pathmaxrxt contains the maximum number of retransmissions
* before this address shall be considered unreachable .
*/
params . spp_pathmaxrxt = trans - > max_retrans ;
done :
if ( copy_to_user ( optval , & params , len ) )
return - EFAULT ;
if ( put_user ( len , optlen ) )
return - EFAULT ;
return 0 ;
}
/* 7.1.3 Initialization Parameters (SCTP_INITMSG)
*
* Applications can specify protocol parameters for the default association
* initialization . The option name argument to setsockopt ( ) and getsockopt ( )
* is SCTP_INITMSG .
*
* Setting initialization parameters is effective only on an unconnected
* socket ( for UDP - style sockets only future associations are effected
* by the change ) . With TCP - style sockets , this option is inherited by
* sockets derived from a listener socket .
*/
static int sctp_getsockopt_initmsg ( struct sock * sk , int len , char __user * optval , int __user * optlen )
{
if ( len ! = sizeof ( struct sctp_initmsg ) )
return - EINVAL ;
if ( copy_to_user ( optval , & sctp_sk ( sk ) - > initmsg , len ) )
return - EFAULT ;
return 0 ;
}
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static int sctp_getsockopt_peer_addrs_num_old ( struct sock * sk , int len ,
char __user * optval ,
int __user * optlen )
2005-04-17 02:20:36 +04:00
{
sctp_assoc_t id ;
struct sctp_association * asoc ;
struct list_head * pos ;
int cnt = 0 ;
if ( len ! = sizeof ( sctp_assoc_t ) )
return - EINVAL ;
if ( copy_from_user ( & id , optval , sizeof ( sctp_assoc_t ) ) )
return - EFAULT ;
/* For UDP-style sockets, id specifies the association to query. */
asoc = sctp_id2assoc ( sk , id ) ;
if ( ! asoc )
return - EINVAL ;
list_for_each ( pos , & asoc - > peer . transport_addr_list ) {
cnt + + ;
}
return cnt ;
}
2005-10-07 08:36:17 +04:00
/*
* Old API for getting list of peer addresses . Does not work for 32 - bit
* programs running on a 64 - bit kernel
*/
static int sctp_getsockopt_peer_addrs_old ( struct sock * sk , int len ,
char __user * optval ,
int __user * optlen )
2005-04-17 02:20:36 +04:00
{
struct sctp_association * asoc ;
struct list_head * pos ;
int cnt = 0 ;
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struct sctp_getaddrs_old getaddrs ;
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struct sctp_transport * from ;
void __user * to ;
union sctp_addr temp ;
struct sctp_sock * sp = sctp_sk ( sk ) ;
int addrlen ;
2005-10-07 08:36:17 +04:00
if ( len ! = sizeof ( struct sctp_getaddrs_old ) )
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return - EINVAL ;
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if ( copy_from_user ( & getaddrs , optval , sizeof ( struct sctp_getaddrs_old ) ) )
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return - EFAULT ;
if ( getaddrs . addr_num < = 0 ) return - EINVAL ;
/* For UDP-style sockets, id specifies the association to query. */
asoc = sctp_id2assoc ( sk , getaddrs . assoc_id ) ;
if ( ! asoc )
return - EINVAL ;
to = ( void __user * ) getaddrs . addrs ;
list_for_each ( pos , & asoc - > peer . transport_addr_list ) {
from = list_entry ( pos , struct sctp_transport , transports ) ;
memcpy ( & temp , & from - > ipaddr , sizeof ( temp ) ) ;
sctp_get_pf_specific ( sk - > sk_family ) - > addr_v4map ( sp , & temp ) ;
addrlen = sctp_get_af_specific ( sk - > sk_family ) - > sockaddr_len ;
temp . v4 . sin_port = htons ( temp . v4 . sin_port ) ;
if ( copy_to_user ( to , & temp , addrlen ) )
return - EFAULT ;
to + = addrlen ;
cnt + + ;
if ( cnt > = getaddrs . addr_num ) break ;
}
getaddrs . addr_num = cnt ;
2005-10-07 08:36:17 +04:00
if ( copy_to_user ( optval , & getaddrs , sizeof ( struct sctp_getaddrs_old ) ) )
return - EFAULT ;
return 0 ;
}
static int sctp_getsockopt_peer_addrs ( struct sock * sk , int len ,
char __user * optval , int __user * optlen )
{
struct sctp_association * asoc ;
struct list_head * pos ;
int cnt = 0 ;
struct sctp_getaddrs getaddrs ;
struct sctp_transport * from ;
void __user * to ;
union sctp_addr temp ;
struct sctp_sock * sp = sctp_sk ( sk ) ;
int addrlen ;
size_t space_left ;
int bytes_copied ;
if ( len < sizeof ( struct sctp_getaddrs ) )
return - EINVAL ;
if ( copy_from_user ( & getaddrs , optval , sizeof ( struct sctp_getaddrs ) ) )
return - EFAULT ;
/* For UDP-style sockets, id specifies the association to query. */
asoc = sctp_id2assoc ( sk , getaddrs . assoc_id ) ;
if ( ! asoc )
return - EINVAL ;
to = optval + offsetof ( struct sctp_getaddrs , addrs ) ;
space_left = len - sizeof ( struct sctp_getaddrs ) -
offsetof ( struct sctp_getaddrs , addrs ) ;
list_for_each ( pos , & asoc - > peer . transport_addr_list ) {
from = list_entry ( pos , struct sctp_transport , transports ) ;
memcpy ( & temp , & from - > ipaddr , sizeof ( temp ) ) ;
sctp_get_pf_specific ( sk - > sk_family ) - > addr_v4map ( sp , & temp ) ;
addrlen = sctp_get_af_specific ( sk - > sk_family ) - > sockaddr_len ;
if ( space_left < addrlen )
return - ENOMEM ;
temp . v4 . sin_port = htons ( temp . v4 . sin_port ) ;
if ( copy_to_user ( to , & temp , addrlen ) )
return - EFAULT ;
to + = addrlen ;
cnt + + ;
space_left - = addrlen ;
}
if ( put_user ( cnt , & ( ( struct sctp_getaddrs __user * ) optval ) - > addr_num ) )
return - EFAULT ;
bytes_copied = ( ( char __user * ) to ) - optval ;
if ( put_user ( bytes_copied , optlen ) )
2005-04-17 02:20:36 +04:00
return - EFAULT ;
return 0 ;
}
2005-10-07 08:36:17 +04:00
static int sctp_getsockopt_local_addrs_num_old ( struct sock * sk , int len ,
char __user * optval ,
int __user * optlen )
2005-04-17 02:20:36 +04:00
{
sctp_assoc_t id ;
struct sctp_bind_addr * bp ;
struct sctp_association * asoc ;
struct list_head * pos ;
struct sctp_sockaddr_entry * addr ;
rwlock_t * addr_lock ;
unsigned long flags ;
int cnt = 0 ;
if ( len ! = sizeof ( sctp_assoc_t ) )
return - EINVAL ;
if ( copy_from_user ( & id , optval , sizeof ( sctp_assoc_t ) ) )
return - EFAULT ;
/*
* For UDP - style sockets , id specifies the association to query .
* If the id field is set to the value ' 0 ' then the locally bound
* addresses are returned without regard to any particular
* association .
*/
if ( 0 = = id ) {
bp = & sctp_sk ( sk ) - > ep - > base . bind_addr ;
addr_lock = & sctp_sk ( sk ) - > ep - > base . addr_lock ;
} else {
asoc = sctp_id2assoc ( sk , id ) ;
if ( ! asoc )
return - EINVAL ;
bp = & asoc - > base . bind_addr ;
addr_lock = & asoc - > base . addr_lock ;
}
sctp_read_lock ( addr_lock ) ;
/* If the endpoint is bound to 0.0.0.0 or ::0, count the valid
* addresses from the global local address list .
*/
if ( sctp_list_single_entry ( & bp - > address_list ) ) {
addr = list_entry ( bp - > address_list . next ,
struct sctp_sockaddr_entry , list ) ;
if ( sctp_is_any ( & addr - > a ) ) {
sctp_spin_lock_irqsave ( & sctp_local_addr_lock , flags ) ;
list_for_each ( pos , & sctp_local_addr_list ) {
addr = list_entry ( pos ,
struct sctp_sockaddr_entry ,
list ) ;
if ( ( PF_INET = = sk - > sk_family ) & &
( AF_INET6 = = addr - > a . sa . sa_family ) )
continue ;
cnt + + ;
}
sctp_spin_unlock_irqrestore ( & sctp_local_addr_lock ,
flags ) ;
} else {
cnt = 1 ;
}
goto done ;
}
list_for_each ( pos , & bp - > address_list ) {
cnt + + ;
}
done :
sctp_read_unlock ( addr_lock ) ;
return cnt ;
}
/* Helper function that copies local addresses to user and returns the number
* of addresses copied .
*/
2005-10-07 08:36:17 +04:00
static int sctp_copy_laddrs_to_user_old ( struct sock * sk , __u16 port , int max_addrs ,
void __user * to )
2005-04-17 02:20:36 +04:00
{
struct list_head * pos ;
struct sctp_sockaddr_entry * addr ;
unsigned long flags ;
union sctp_addr temp ;
int cnt = 0 ;
int addrlen ;
sctp_spin_lock_irqsave ( & sctp_local_addr_lock , flags ) ;
list_for_each ( pos , & sctp_local_addr_list ) {
addr = list_entry ( pos , struct sctp_sockaddr_entry , list ) ;
if ( ( PF_INET = = sk - > sk_family ) & &
( AF_INET6 = = addr - > a . sa . sa_family ) )
continue ;
memcpy ( & temp , & addr - > a , sizeof ( temp ) ) ;
sctp_get_pf_specific ( sk - > sk_family ) - > addr_v4map ( sctp_sk ( sk ) ,
& temp ) ;
addrlen = sctp_get_af_specific ( temp . sa . sa_family ) - > sockaddr_len ;
temp . v4 . sin_port = htons ( port ) ;
if ( copy_to_user ( to , & temp , addrlen ) ) {
sctp_spin_unlock_irqrestore ( & sctp_local_addr_lock ,
flags ) ;
return - EFAULT ;
}
to + = addrlen ;
cnt + + ;
if ( cnt > = max_addrs ) break ;
}
sctp_spin_unlock_irqrestore ( & sctp_local_addr_lock , flags ) ;
return cnt ;
}
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static int sctp_copy_laddrs_to_user ( struct sock * sk , __u16 port ,
void * __user * to , size_t space_left )
{
struct list_head * pos ;
struct sctp_sockaddr_entry * addr ;
unsigned long flags ;
union sctp_addr temp ;
int cnt = 0 ;
int addrlen ;
sctp_spin_lock_irqsave ( & sctp_local_addr_lock , flags ) ;
list_for_each ( pos , & sctp_local_addr_list ) {
addr = list_entry ( pos , struct sctp_sockaddr_entry , list ) ;
if ( ( PF_INET = = sk - > sk_family ) & &
( AF_INET6 = = addr - > a . sa . sa_family ) )
continue ;
memcpy ( & temp , & addr - > a , sizeof ( temp ) ) ;
sctp_get_pf_specific ( sk - > sk_family ) - > addr_v4map ( sctp_sk ( sk ) ,
& temp ) ;
addrlen = sctp_get_af_specific ( temp . sa . sa_family ) - > sockaddr_len ;
if ( space_left < addrlen )
return - ENOMEM ;
temp . v4 . sin_port = htons ( port ) ;
if ( copy_to_user ( * to , & temp , addrlen ) ) {
sctp_spin_unlock_irqrestore ( & sctp_local_addr_lock ,
flags ) ;
return - EFAULT ;
}
* to + = addrlen ;
cnt + + ;
space_left - = addrlen ;
}
sctp_spin_unlock_irqrestore ( & sctp_local_addr_lock , flags ) ;
return cnt ;
}
/* Old API for getting list of local addresses. Does not work for 32-bit
* programs running on a 64 - bit kernel
*/
static int sctp_getsockopt_local_addrs_old ( struct sock * sk , int len ,
char __user * optval , int __user * optlen )
2005-04-17 02:20:36 +04:00
{
struct sctp_bind_addr * bp ;
struct sctp_association * asoc ;
struct list_head * pos ;
int cnt = 0 ;
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struct sctp_getaddrs_old getaddrs ;
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struct sctp_sockaddr_entry * addr ;
void __user * to ;
union sctp_addr temp ;
struct sctp_sock * sp = sctp_sk ( sk ) ;
int addrlen ;
rwlock_t * addr_lock ;
int err = 0 ;
2005-10-07 08:36:17 +04:00
if ( len ! = sizeof ( struct sctp_getaddrs_old ) )
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return - EINVAL ;
2005-10-07 08:36:17 +04:00
if ( copy_from_user ( & getaddrs , optval , sizeof ( struct sctp_getaddrs_old ) ) )
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return - EFAULT ;
if ( getaddrs . addr_num < = 0 ) return - EINVAL ;
/*
* For UDP - style sockets , id specifies the association to query .
* If the id field is set to the value ' 0 ' then the locally bound
* addresses are returned without regard to any particular
* association .
*/
if ( 0 = = getaddrs . assoc_id ) {
bp = & sctp_sk ( sk ) - > ep - > base . bind_addr ;
addr_lock = & sctp_sk ( sk ) - > ep - > base . addr_lock ;
} else {
asoc = sctp_id2assoc ( sk , getaddrs . assoc_id ) ;
if ( ! asoc )
return - EINVAL ;
bp = & asoc - > base . bind_addr ;
addr_lock = & asoc - > base . addr_lock ;
}
to = getaddrs . addrs ;
sctp_read_lock ( addr_lock ) ;
/* If the endpoint is bound to 0.0.0.0 or ::0, get the valid
* addresses from the global local address list .
*/
if ( sctp_list_single_entry ( & bp - > address_list ) ) {
addr = list_entry ( bp - > address_list . next ,
struct sctp_sockaddr_entry , list ) ;
if ( sctp_is_any ( & addr - > a ) ) {
2005-10-07 08:36:17 +04:00
cnt = sctp_copy_laddrs_to_user_old ( sk , bp - > port ,
getaddrs . addr_num ,
to ) ;
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if ( cnt < 0 ) {
err = cnt ;
goto unlock ;
}
goto copy_getaddrs ;
}
}
list_for_each ( pos , & bp - > address_list ) {
addr = list_entry ( pos , struct sctp_sockaddr_entry , list ) ;
memcpy ( & temp , & addr - > a , sizeof ( temp ) ) ;
sctp_get_pf_specific ( sk - > sk_family ) - > addr_v4map ( sp , & temp ) ;
addrlen = sctp_get_af_specific ( temp . sa . sa_family ) - > sockaddr_len ;
temp . v4 . sin_port = htons ( temp . v4 . sin_port ) ;
if ( copy_to_user ( to , & temp , addrlen ) ) {
err = - EFAULT ;
goto unlock ;
}
to + = addrlen ;
cnt + + ;
if ( cnt > = getaddrs . addr_num ) break ;
}
copy_getaddrs :
getaddrs . addr_num = cnt ;
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if ( copy_to_user ( optval , & getaddrs , sizeof ( struct sctp_getaddrs_old ) ) )
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err = - EFAULT ;
unlock :
sctp_read_unlock ( addr_lock ) ;
return err ;
}
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static int sctp_getsockopt_local_addrs ( struct sock * sk , int len ,
char __user * optval , int __user * optlen )
{
struct sctp_bind_addr * bp ;
struct sctp_association * asoc ;
struct list_head * pos ;
int cnt = 0 ;
struct sctp_getaddrs getaddrs ;
struct sctp_sockaddr_entry * addr ;
void __user * to ;
union sctp_addr temp ;
struct sctp_sock * sp = sctp_sk ( sk ) ;
int addrlen ;
rwlock_t * addr_lock ;
int err = 0 ;
size_t space_left ;
int bytes_copied ;
if ( len < = sizeof ( struct sctp_getaddrs ) )
return - EINVAL ;
if ( copy_from_user ( & getaddrs , optval , sizeof ( struct sctp_getaddrs ) ) )
return - EFAULT ;
/*
* For UDP - style sockets , id specifies the association to query .
* If the id field is set to the value ' 0 ' then the locally bound
* addresses are returned without regard to any particular
* association .
*/
if ( 0 = = getaddrs . assoc_id ) {
bp = & sctp_sk ( sk ) - > ep - > base . bind_addr ;
addr_lock = & sctp_sk ( sk ) - > ep - > base . addr_lock ;
} else {
asoc = sctp_id2assoc ( sk , getaddrs . assoc_id ) ;
if ( ! asoc )
return - EINVAL ;
bp = & asoc - > base . bind_addr ;
addr_lock = & asoc - > base . addr_lock ;
}
to = optval + offsetof ( struct sctp_getaddrs , addrs ) ;
space_left = len - sizeof ( struct sctp_getaddrs ) -
offsetof ( struct sctp_getaddrs , addrs ) ;
sctp_read_lock ( addr_lock ) ;
/* If the endpoint is bound to 0.0.0.0 or ::0, get the valid
* addresses from the global local address list .
*/
if ( sctp_list_single_entry ( & bp - > address_list ) ) {
addr = list_entry ( bp - > address_list . next ,
struct sctp_sockaddr_entry , list ) ;
if ( sctp_is_any ( & addr - > a ) ) {
cnt = sctp_copy_laddrs_to_user ( sk , bp - > port ,
& to , space_left ) ;
if ( cnt < 0 ) {
err = cnt ;
goto unlock ;
}
goto copy_getaddrs ;
}
}
list_for_each ( pos , & bp - > address_list ) {
addr = list_entry ( pos , struct sctp_sockaddr_entry , list ) ;
memcpy ( & temp , & addr - > a , sizeof ( temp ) ) ;
sctp_get_pf_specific ( sk - > sk_family ) - > addr_v4map ( sp , & temp ) ;
addrlen = sctp_get_af_specific ( temp . sa . sa_family ) - > sockaddr_len ;
if ( space_left < addrlen )
return - ENOMEM ; /*fixme: right error?*/
temp . v4 . sin_port = htons ( temp . v4 . sin_port ) ;
if ( copy_to_user ( to , & temp , addrlen ) ) {
err = - EFAULT ;
goto unlock ;
}
to + = addrlen ;
cnt + + ;
space_left - = addrlen ;
}
copy_getaddrs :
if ( put_user ( cnt , & ( ( struct sctp_getaddrs __user * ) optval ) - > addr_num ) )
return - EFAULT ;
bytes_copied = ( ( char __user * ) to ) - optval ;
if ( put_user ( bytes_copied , optlen ) )
return - EFAULT ;
unlock :
sctp_read_unlock ( addr_lock ) ;
return err ;
}
2005-04-17 02:20:36 +04:00
/* 7.1.10 Set Primary Address (SCTP_PRIMARY_ADDR)
*
* Requests that the local SCTP stack use the enclosed peer address as
* the association primary . The enclosed address must be one of the
* association peer ' s addresses .
*/
static int sctp_getsockopt_primary_addr ( struct sock * sk , int len ,
char __user * optval , int __user * optlen )
{
struct sctp_prim prim ;
struct sctp_association * asoc ;
struct sctp_sock * sp = sctp_sk ( sk ) ;
if ( len ! = sizeof ( struct sctp_prim ) )
return - EINVAL ;
if ( copy_from_user ( & prim , optval , sizeof ( struct sctp_prim ) ) )
return - EFAULT ;
asoc = sctp_id2assoc ( sk , prim . ssp_assoc_id ) ;
if ( ! asoc )
return - EINVAL ;
if ( ! asoc - > peer . primary_path )
return - ENOTCONN ;
asoc - > peer . primary_path - > ipaddr . v4 . sin_port =
htons ( asoc - > peer . primary_path - > ipaddr . v4 . sin_port ) ;
memcpy ( & prim . ssp_addr , & asoc - > peer . primary_path - > ipaddr ,
sizeof ( union sctp_addr ) ) ;
asoc - > peer . primary_path - > ipaddr . v4 . sin_port =
ntohs ( asoc - > peer . primary_path - > ipaddr . v4 . sin_port ) ;
sctp_get_pf_specific ( sk - > sk_family ) - > addr_v4map ( sp ,
( union sctp_addr * ) & prim . ssp_addr ) ;
if ( copy_to_user ( optval , & prim , sizeof ( struct sctp_prim ) ) )
return - EFAULT ;
return 0 ;
}
/*
* 7.1 .11 Set Adaption Layer Indicator ( SCTP_ADAPTION_LAYER )
*
* Requests that the local endpoint set the specified Adaption Layer
* Indication parameter for all future INIT and INIT - ACK exchanges .
*/
static int sctp_getsockopt_adaption_layer ( struct sock * sk , int len ,
char __user * optval , int __user * optlen )
{
2005-10-29 02:33:24 +04:00
struct sctp_setadaption adaption ;
2005-04-17 02:20:36 +04:00
2005-10-29 02:33:24 +04:00
if ( len ! = sizeof ( struct sctp_setadaption ) )
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return - EINVAL ;
2005-10-29 02:33:24 +04:00
adaption . ssb_adaption_ind = sctp_sk ( sk ) - > adaption_ind ;
if ( copy_to_user ( optval , & adaption , len ) )
2005-04-17 02:20:36 +04:00
return - EFAULT ;
2005-10-29 02:33:24 +04:00
2005-04-17 02:20:36 +04:00
return 0 ;
}
/*
*
* 7.1 .14 Set default send parameters ( SCTP_DEFAULT_SEND_PARAM )
*
* Applications that wish to use the sendto ( ) system call may wish to
* specify a default set of parameters that would normally be supplied
* through the inclusion of ancillary data . This socket option allows
* such an application to set the default sctp_sndrcvinfo structure .
* The application that wishes to use this socket option simply passes
* in to this call the sctp_sndrcvinfo structure defined in Section
* 5.2 .2 ) The input parameters accepted by this call include
* sinfo_stream , sinfo_flags , sinfo_ppid , sinfo_context ,
* sinfo_timetolive . The user must provide the sinfo_assoc_id field in
* to this call if the caller is using the UDP model .
*
* For getsockopt , it get the default sctp_sndrcvinfo structure .
*/
static int sctp_getsockopt_default_send_param ( struct sock * sk ,
int len , char __user * optval ,
int __user * optlen )
{
struct sctp_sndrcvinfo info ;
struct sctp_association * asoc ;
struct sctp_sock * sp = sctp_sk ( sk ) ;
if ( len ! = sizeof ( struct sctp_sndrcvinfo ) )
return - EINVAL ;
if ( copy_from_user ( & info , optval , sizeof ( struct sctp_sndrcvinfo ) ) )
return - EFAULT ;
asoc = sctp_id2assoc ( sk , info . sinfo_assoc_id ) ;
if ( ! asoc & & info . sinfo_assoc_id & & sctp_style ( sk , UDP ) )
return - EINVAL ;
if ( asoc ) {
info . sinfo_stream = asoc - > default_stream ;
info . sinfo_flags = asoc - > default_flags ;
info . sinfo_ppid = asoc - > default_ppid ;
info . sinfo_context = asoc - > default_context ;
info . sinfo_timetolive = asoc - > default_timetolive ;
} else {
info . sinfo_stream = sp - > default_stream ;
info . sinfo_flags = sp - > default_flags ;
info . sinfo_ppid = sp - > default_ppid ;
info . sinfo_context = sp - > default_context ;
info . sinfo_timetolive = sp - > default_timetolive ;
}
if ( copy_to_user ( optval , & info , sizeof ( struct sctp_sndrcvinfo ) ) )
return - EFAULT ;
return 0 ;
}
/*
*
* 7.1 .5 SCTP_NODELAY
*
* Turn on / off any Nagle - like algorithm . This means that packets are
* generally sent as soon as possible and no unnecessary delays are
* introduced , at the cost of more packets in the network . Expects an
* integer boolean flag .
*/
static int sctp_getsockopt_nodelay ( struct sock * sk , int len ,
char __user * optval , int __user * optlen )
{
int val ;
if ( len < sizeof ( int ) )
return - EINVAL ;
len = sizeof ( int ) ;
val = ( sctp_sk ( sk ) - > nodelay = = 1 ) ;
if ( put_user ( len , optlen ) )
return - EFAULT ;
if ( copy_to_user ( optval , & val , len ) )
return - EFAULT ;
return 0 ;
}
/*
*
* 7.1 .1 SCTP_RTOINFO
*
* The protocol parameters used to initialize and bound retransmission
* timeout ( RTO ) are tunable . sctp_rtoinfo structure is used to access
* and modify these parameters .
* All parameters are time values , in milliseconds . A value of 0 , when
* modifying the parameters , indicates that the current value should not
* be changed .
*
*/
static int sctp_getsockopt_rtoinfo ( struct sock * sk , int len ,
char __user * optval ,
int __user * optlen ) {
struct sctp_rtoinfo rtoinfo ;
struct sctp_association * asoc ;
if ( len ! = sizeof ( struct sctp_rtoinfo ) )
return - EINVAL ;
if ( copy_from_user ( & rtoinfo , optval , sizeof ( struct sctp_rtoinfo ) ) )
return - EFAULT ;
asoc = sctp_id2assoc ( sk , rtoinfo . srto_assoc_id ) ;
if ( ! asoc & & rtoinfo . srto_assoc_id & & sctp_style ( sk , UDP ) )
return - EINVAL ;
/* Values corresponding to the specific association. */
if ( asoc ) {
rtoinfo . srto_initial = jiffies_to_msecs ( asoc - > rto_initial ) ;
rtoinfo . srto_max = jiffies_to_msecs ( asoc - > rto_max ) ;
rtoinfo . srto_min = jiffies_to_msecs ( asoc - > rto_min ) ;
} else {
/* Values corresponding to the endpoint. */
struct sctp_sock * sp = sctp_sk ( sk ) ;
rtoinfo . srto_initial = sp - > rtoinfo . srto_initial ;
rtoinfo . srto_max = sp - > rtoinfo . srto_max ;
rtoinfo . srto_min = sp - > rtoinfo . srto_min ;
}
if ( put_user ( len , optlen ) )
return - EFAULT ;
if ( copy_to_user ( optval , & rtoinfo , len ) )
return - EFAULT ;
return 0 ;
}
/*
*
* 7.1 .2 SCTP_ASSOCINFO
*
* This option is used to tune the the maximum retransmission attempts
* of the association .
* Returns an error if the new association retransmission value is
* greater than the sum of the retransmission value of the peer .
* See [ SCTP ] for more information .
*
*/
static int sctp_getsockopt_associnfo ( struct sock * sk , int len ,
char __user * optval ,
int __user * optlen )
{
struct sctp_assocparams assocparams ;
struct sctp_association * asoc ;
struct list_head * pos ;
int cnt = 0 ;
if ( len ! = sizeof ( struct sctp_assocparams ) )
return - EINVAL ;
if ( copy_from_user ( & assocparams , optval ,
sizeof ( struct sctp_assocparams ) ) )
return - EFAULT ;
asoc = sctp_id2assoc ( sk , assocparams . sasoc_assoc_id ) ;
if ( ! asoc & & assocparams . sasoc_assoc_id & & sctp_style ( sk , UDP ) )
return - EINVAL ;
/* Values correspoinding to the specific association */
2005-04-28 22:57:54 +04:00
if ( asoc ) {
2005-04-17 02:20:36 +04:00
assocparams . sasoc_asocmaxrxt = asoc - > max_retrans ;
assocparams . sasoc_peer_rwnd = asoc - > peer . rwnd ;
assocparams . sasoc_local_rwnd = asoc - > a_rwnd ;
assocparams . sasoc_cookie_life = ( asoc - > cookie_life . tv_sec
* 1000 ) +
( asoc - > cookie_life . tv_usec
/ 1000 ) ;
list_for_each ( pos , & asoc - > peer . transport_addr_list ) {
cnt + + ;
}
assocparams . sasoc_number_peer_destinations = cnt ;
} else {
/* Values corresponding to the endpoint */
struct sctp_sock * sp = sctp_sk ( sk ) ;
assocparams . sasoc_asocmaxrxt = sp - > assocparams . sasoc_asocmaxrxt ;
assocparams . sasoc_peer_rwnd = sp - > assocparams . sasoc_peer_rwnd ;
assocparams . sasoc_local_rwnd = sp - > assocparams . sasoc_local_rwnd ;
assocparams . sasoc_cookie_life =
sp - > assocparams . sasoc_cookie_life ;
assocparams . sasoc_number_peer_destinations =
sp - > assocparams .
sasoc_number_peer_destinations ;
}
if ( put_user ( len , optlen ) )
return - EFAULT ;
if ( copy_to_user ( optval , & assocparams , len ) )
return - EFAULT ;
return 0 ;
}
/*
* 7.1 .16 Set / clear IPv4 mapped addresses ( SCTP_I_WANT_MAPPED_V4_ADDR )
*
* This socket option is a boolean flag which turns on or off mapped V4
* addresses . If this option is turned on and the socket is type
* PF_INET6 , then IPv4 addresses will be mapped to V6 representation .
* If this option is turned off , then no mapping will be done of V4
* addresses and a user will receive both PF_INET6 and PF_INET type
* addresses on the socket .
*/
static int sctp_getsockopt_mappedv4 ( struct sock * sk , int len ,
char __user * optval , int __user * optlen )
{
int val ;
struct sctp_sock * sp = sctp_sk ( sk ) ;
if ( len < sizeof ( int ) )
return - EINVAL ;
len = sizeof ( int ) ;
val = sp - > v4mapped ;
if ( put_user ( len , optlen ) )
return - EFAULT ;
if ( copy_to_user ( optval , & val , len ) )
return - EFAULT ;
return 0 ;
}
/*
* 7.1 .17 Set the maximum fragrmentation size ( SCTP_MAXSEG )
*
* This socket option specifies the maximum size to put in any outgoing
* SCTP chunk . If a message is larger than this size it will be
* fragmented by SCTP into the specified size . Note that the underlying
* SCTP implementation may fragment into smaller sized chunks when the
* PMTU of the underlying association is smaller than the value set by
* the user .
*/
static int sctp_getsockopt_maxseg ( struct sock * sk , int len ,
char __user * optval , int __user * optlen )
{
int val ;
if ( len < sizeof ( int ) )
return - EINVAL ;
len = sizeof ( int ) ;
val = sctp_sk ( sk ) - > user_frag ;
if ( put_user ( len , optlen ) )
return - EFAULT ;
if ( copy_to_user ( optval , & val , len ) )
return - EFAULT ;
return 0 ;
}
SCTP_STATIC int sctp_getsockopt ( struct sock * sk , int level , int optname ,
char __user * optval , int __user * optlen )
{
int retval = 0 ;
int len ;
2005-06-21 00:14:57 +04:00
SCTP_DEBUG_PRINTK ( " sctp_getsockopt(sk: %p... optname: %d) \n " ,
sk , optname ) ;
2005-04-17 02:20:36 +04:00
/* I can hardly begin to describe how wrong this is. This is
* so broken as to be worse than useless . The API draft
* REALLY is NOT helpful here . . . I am not convinced that the
* semantics of getsockopt ( ) with a level OTHER THAN SOL_SCTP
* are at all well - founded .
*/
if ( level ! = SOL_SCTP ) {
struct sctp_af * af = sctp_sk ( sk ) - > pf - > af ;
retval = af - > getsockopt ( sk , level , optname , optval , optlen ) ;
return retval ;
}
if ( get_user ( len , optlen ) )
return - EFAULT ;
sctp_lock_sock ( sk ) ;
switch ( optname ) {
case SCTP_STATUS :
retval = sctp_getsockopt_sctp_status ( sk , len , optval , optlen ) ;
break ;
case SCTP_DISABLE_FRAGMENTS :
retval = sctp_getsockopt_disable_fragments ( sk , len , optval ,
optlen ) ;
break ;
case SCTP_EVENTS :
retval = sctp_getsockopt_events ( sk , len , optval , optlen ) ;
break ;
case SCTP_AUTOCLOSE :
retval = sctp_getsockopt_autoclose ( sk , len , optval , optlen ) ;
break ;
case SCTP_SOCKOPT_PEELOFF :
retval = sctp_getsockopt_peeloff ( sk , len , optval , optlen ) ;
break ;
case SCTP_PEER_ADDR_PARAMS :
retval = sctp_getsockopt_peer_addr_params ( sk , len , optval ,
optlen ) ;
break ;
case SCTP_INITMSG :
retval = sctp_getsockopt_initmsg ( sk , len , optval , optlen ) ;
break ;
2005-10-07 08:36:17 +04:00
case SCTP_GET_PEER_ADDRS_NUM_OLD :
retval = sctp_getsockopt_peer_addrs_num_old ( sk , len , optval ,
optlen ) ;
break ;
case SCTP_GET_LOCAL_ADDRS_NUM_OLD :
retval = sctp_getsockopt_local_addrs_num_old ( sk , len , optval ,
optlen ) ;
break ;
case SCTP_GET_PEER_ADDRS_OLD :
retval = sctp_getsockopt_peer_addrs_old ( sk , len , optval ,
2005-04-17 02:20:36 +04:00
optlen ) ;
break ;
2005-10-07 08:36:17 +04:00
case SCTP_GET_LOCAL_ADDRS_OLD :
retval = sctp_getsockopt_local_addrs_old ( sk , len , optval ,
2005-04-17 02:20:36 +04:00
optlen ) ;
break ;
case SCTP_GET_PEER_ADDRS :
retval = sctp_getsockopt_peer_addrs ( sk , len , optval ,
optlen ) ;
break ;
case SCTP_GET_LOCAL_ADDRS :
retval = sctp_getsockopt_local_addrs ( sk , len , optval ,
optlen ) ;
break ;
case SCTP_DEFAULT_SEND_PARAM :
retval = sctp_getsockopt_default_send_param ( sk , len ,
optval , optlen ) ;
break ;
case SCTP_PRIMARY_ADDR :
retval = sctp_getsockopt_primary_addr ( sk , len , optval , optlen ) ;
break ;
case SCTP_NODELAY :
retval = sctp_getsockopt_nodelay ( sk , len , optval , optlen ) ;
break ;
case SCTP_RTOINFO :
retval = sctp_getsockopt_rtoinfo ( sk , len , optval , optlen ) ;
break ;
case SCTP_ASSOCINFO :
retval = sctp_getsockopt_associnfo ( sk , len , optval , optlen ) ;
break ;
case SCTP_I_WANT_MAPPED_V4_ADDR :
retval = sctp_getsockopt_mappedv4 ( sk , len , optval , optlen ) ;
break ;
case SCTP_MAXSEG :
retval = sctp_getsockopt_maxseg ( sk , len , optval , optlen ) ;
break ;
case SCTP_GET_PEER_ADDR_INFO :
retval = sctp_getsockopt_peer_addr_info ( sk , len , optval ,
optlen ) ;
break ;
case SCTP_ADAPTION_LAYER :
retval = sctp_getsockopt_adaption_layer ( sk , len , optval ,
optlen ) ;
break ;
default :
retval = - ENOPROTOOPT ;
break ;
} ;
sctp_release_sock ( sk ) ;
return retval ;
}
static void sctp_hash ( struct sock * sk )
{
/* STUB */
}
static void sctp_unhash ( struct sock * sk )
{
/* STUB */
}
/* Check if port is acceptable. Possibly find first available port.
*
* The port hash table ( contained in the ' global ' SCTP protocol storage
* returned by struct sctp_protocol * sctp_get_protocol ( ) ) . The hash
* table is an array of 4096 lists ( sctp_bind_hashbucket ) . Each
* list ( the list number is the port number hashed out , so as you
* would expect from a hash function , all the ports in a given list have
* such a number that hashes out to the same list number ; you were
* expecting that , right ? ) ; so each list has a set of ports , with a
* link to the socket ( struct sock ) that uses it , the port number and
* a fastreuse flag ( FIXME : NPI ipg ) .
*/
static struct sctp_bind_bucket * sctp_bucket_create (
struct sctp_bind_hashbucket * head , unsigned short snum ) ;
static long sctp_get_port_local ( struct sock * sk , union sctp_addr * addr )
{
struct sctp_bind_hashbucket * head ; /* hash list */
struct sctp_bind_bucket * pp ; /* hash list port iterator */
unsigned short snum ;
int ret ;
/* NOTE: Remember to put this back to net order. */
addr - > v4 . sin_port = ntohs ( addr - > v4 . sin_port ) ;
snum = addr - > v4 . sin_port ;
SCTP_DEBUG_PRINTK ( " sctp_get_port() begins, snum=%d \n " , snum ) ;
sctp_local_bh_disable ( ) ;
if ( snum = = 0 ) {
/* Search for an available port.
*
* ' sctp_port_rover ' was the last port assigned , so
* we start to search from ' sctp_port_rover +
* 1 ' . What we do is first check if port ' rover ' is
* already in the hash table ; if not , we use that ; if
* it is , we try next .
*/
int low = sysctl_local_port_range [ 0 ] ;
int high = sysctl_local_port_range [ 1 ] ;
int remaining = ( high - low ) + 1 ;
int rover ;
int index ;
sctp_spin_lock ( & sctp_port_alloc_lock ) ;
rover = sctp_port_rover ;
do {
rover + + ;
if ( ( rover < low ) | | ( rover > high ) )
rover = low ;
index = sctp_phashfn ( rover ) ;
head = & sctp_port_hashtable [ index ] ;
sctp_spin_lock ( & head - > lock ) ;
for ( pp = head - > chain ; pp ; pp = pp - > next )
if ( pp - > port = = rover )
goto next ;
break ;
next :
sctp_spin_unlock ( & head - > lock ) ;
} while ( - - remaining > 0 ) ;
sctp_port_rover = rover ;
sctp_spin_unlock ( & sctp_port_alloc_lock ) ;
/* Exhausted local port range during search? */
ret = 1 ;
if ( remaining < = 0 )
goto fail ;
/* OK, here is the one we will use. HEAD (the port
* hash table list entry ) is non - NULL and we hold it ' s
* mutex .
*/
snum = rover ;
} else {
/* We are given an specific port number; we verify
* that it is not being used . If it is used , we will
* exahust the search in the hash list corresponding
* to the port number ( snum ) - we detect that with the
* port iterator , pp being NULL .
*/
head = & sctp_port_hashtable [ sctp_phashfn ( snum ) ] ;
sctp_spin_lock ( & head - > lock ) ;
for ( pp = head - > chain ; pp ; pp = pp - > next ) {
if ( pp - > port = = snum )
goto pp_found ;
}
}
pp = NULL ;
goto pp_not_found ;
pp_found :
if ( ! hlist_empty ( & pp - > owner ) ) {
/* We had a port hash table hit - there is an
* available port ( pp ! = NULL ) and it is being
* used by other socket ( pp - > owner not empty ) ; that other
* socket is going to be sk2 .
*/
int reuse = sk - > sk_reuse ;
struct sock * sk2 ;
struct hlist_node * node ;
SCTP_DEBUG_PRINTK ( " sctp_get_port() found a possible match \n " ) ;
if ( pp - > fastreuse & & sk - > sk_reuse )
goto success ;
/* Run through the list of sockets bound to the port
* ( pp - > port ) [ via the pointers bind_next and
* bind_pprev in the struct sock * sk2 ( pp - > sk ) ] . On each one ,
* we get the endpoint they describe and run through
* the endpoint ' s list of IP ( v4 or v6 ) addresses ,
* comparing each of the addresses with the address of
* the socket sk . If we find a match , then that means
* that this port / socket ( sk ) combination are already
* in an endpoint .
*/
sk_for_each_bound ( sk2 , node , & pp - > owner ) {
struct sctp_endpoint * ep2 ;
ep2 = sctp_sk ( sk2 ) - > ep ;
if ( reuse & & sk2 - > sk_reuse )
continue ;
if ( sctp_bind_addr_match ( & ep2 - > base . bind_addr , addr ,
sctp_sk ( sk ) ) ) {
ret = ( long ) sk2 ;
goto fail_unlock ;
}
}
SCTP_DEBUG_PRINTK ( " sctp_get_port(): Found a match \n " ) ;
}
pp_not_found :
/* If there was a hash table miss, create a new port. */
ret = 1 ;
if ( ! pp & & ! ( pp = sctp_bucket_create ( head , snum ) ) )
goto fail_unlock ;
/* In either case (hit or miss), make sure fastreuse is 1 only
* if sk - > sk_reuse is too ( that is , if the caller requested
* SO_REUSEADDR on this socket - sk - ) .
*/
if ( hlist_empty ( & pp - > owner ) )
pp - > fastreuse = sk - > sk_reuse ? 1 : 0 ;
else if ( pp - > fastreuse & & ! sk - > sk_reuse )
pp - > fastreuse = 0 ;
/* We are set, so fill up all the data in the hash table
* entry , tie the socket list information with the rest of the
* sockets FIXME : Blurry , NPI ( ipg ) .
*/
success :
inet_sk ( sk ) - > num = snum ;
if ( ! sctp_sk ( sk ) - > bind_hash ) {
sk_add_bind_node ( sk , & pp - > owner ) ;
sctp_sk ( sk ) - > bind_hash = pp ;
}
ret = 0 ;
fail_unlock :
sctp_spin_unlock ( & head - > lock ) ;
fail :
sctp_local_bh_enable ( ) ;
addr - > v4 . sin_port = htons ( addr - > v4 . sin_port ) ;
return ret ;
}
/* Assign a 'snum' port to the socket. If snum == 0, an ephemeral
* port is requested .
*/
static int sctp_get_port ( struct sock * sk , unsigned short snum )
{
long ret ;
union sctp_addr addr ;
struct sctp_af * af = sctp_sk ( sk ) - > pf - > af ;
/* Set up a dummy address struct from the sk. */
af - > from_sk ( & addr , sk ) ;
addr . v4 . sin_port = htons ( snum ) ;
/* Note: sk->sk_num gets filled in if ephemeral port request. */
ret = sctp_get_port_local ( sk , & addr ) ;
return ( ret ? 1 : 0 ) ;
}
/*
* 3.1 .3 listen ( ) - UDP Style Syntax
*
* By default , new associations are not accepted for UDP style sockets .
* An application uses listen ( ) to mark a socket as being able to
* accept new associations .
*/
SCTP_STATIC int sctp_seqpacket_listen ( struct sock * sk , int backlog )
{
struct sctp_sock * sp = sctp_sk ( sk ) ;
struct sctp_endpoint * ep = sp - > ep ;
/* Only UDP style sockets that are not peeled off are allowed to
* listen ( ) .
*/
if ( ! sctp_style ( sk , UDP ) )
return - EINVAL ;
/* If backlog is zero, disable listening. */
if ( ! backlog ) {
if ( sctp_sstate ( sk , CLOSED ) )
return 0 ;
sctp_unhash_endpoint ( ep ) ;
sk - > sk_state = SCTP_SS_CLOSED ;
}
/* Return if we are already listening. */
if ( sctp_sstate ( sk , LISTENING ) )
return 0 ;
/*
* If a bind ( ) or sctp_bindx ( ) is not called prior to a listen ( )
* call that allows new associations to be accepted , the system
* picks an ephemeral port and will choose an address set equivalent
* to binding with a wildcard address .
*
* This is not currently spelled out in the SCTP sockets
* extensions draft , but follows the practice as seen in TCP
* sockets .
*/
if ( ! ep - > base . bind_addr . port ) {
if ( sctp_autobind ( sk ) )
return - EAGAIN ;
}
sk - > sk_state = SCTP_SS_LISTENING ;
sctp_hash_endpoint ( ep ) ;
return 0 ;
}
/*
* 4.1 .3 listen ( ) - TCP Style Syntax
*
* Applications uses listen ( ) to ready the SCTP endpoint for accepting
* inbound associations .
*/
SCTP_STATIC int sctp_stream_listen ( struct sock * sk , int backlog )
{
struct sctp_sock * sp = sctp_sk ( sk ) ;
struct sctp_endpoint * ep = sp - > ep ;
/* If backlog is zero, disable listening. */
if ( ! backlog ) {
if ( sctp_sstate ( sk , CLOSED ) )
return 0 ;
sctp_unhash_endpoint ( ep ) ;
sk - > sk_state = SCTP_SS_CLOSED ;
}
if ( sctp_sstate ( sk , LISTENING ) )
return 0 ;
/*
* If a bind ( ) or sctp_bindx ( ) is not called prior to a listen ( )
* call that allows new associations to be accepted , the system
* picks an ephemeral port and will choose an address set equivalent
* to binding with a wildcard address .
*
* This is not currently spelled out in the SCTP sockets
* extensions draft , but follows the practice as seen in TCP
* sockets .
*/
if ( ! ep - > base . bind_addr . port ) {
if ( sctp_autobind ( sk ) )
return - EAGAIN ;
}
sk - > sk_state = SCTP_SS_LISTENING ;
sk - > sk_max_ack_backlog = backlog ;
sctp_hash_endpoint ( ep ) ;
return 0 ;
}
/*
* Move a socket to LISTENING state .
*/
int sctp_inet_listen ( struct socket * sock , int backlog )
{
struct sock * sk = sock - > sk ;
struct crypto_tfm * tfm = NULL ;
int err = - EINVAL ;
if ( unlikely ( backlog < 0 ) )
goto out ;
sctp_lock_sock ( sk ) ;
if ( sock - > state ! = SS_UNCONNECTED )
goto out ;
/* Allocate HMAC for generating cookie. */
if ( sctp_hmac_alg ) {
tfm = sctp_crypto_alloc_tfm ( sctp_hmac_alg , 0 ) ;
if ( ! tfm ) {
err = - ENOSYS ;
goto out ;
}
}
switch ( sock - > type ) {
case SOCK_SEQPACKET :
err = sctp_seqpacket_listen ( sk , backlog ) ;
break ;
case SOCK_STREAM :
err = sctp_stream_listen ( sk , backlog ) ;
break ;
default :
break ;
} ;
if ( err )
goto cleanup ;
/* Store away the transform reference. */
sctp_sk ( sk ) - > hmac = tfm ;
out :
sctp_release_sock ( sk ) ;
return err ;
cleanup :
2005-09-02 04:44:29 +04:00
sctp_crypto_free_tfm ( tfm ) ;
2005-04-17 02:20:36 +04:00
goto out ;
}
/*
* This function is done by modeling the current datagram_poll ( ) and the
* tcp_poll ( ) . Note that , based on these implementations , we don ' t
* lock the socket in this function , even though it seems that ,
* ideally , locking or some other mechanisms can be used to ensure
* the integrity of the counters ( sndbuf and wmem_queued ) used
* in this place . We assume that we don ' t need locks either until proven
* otherwise .
*
* Another thing to note is that we include the Async I / O support
* here , again , by modeling the current TCP / UDP code . We don ' t have
* a good way to test with it yet .
*/
unsigned int sctp_poll ( struct file * file , struct socket * sock , poll_table * wait )
{
struct sock * sk = sock - > sk ;
struct sctp_sock * sp = sctp_sk ( sk ) ;
unsigned int mask ;
poll_wait ( file , sk - > sk_sleep , wait ) ;
/* A TCP-style listening socket becomes readable when the accept queue
* is not empty .
*/
if ( sctp_style ( sk , TCP ) & & sctp_sstate ( sk , LISTENING ) )
return ( ! list_empty ( & sp - > ep - > asocs ) ) ?
( POLLIN | POLLRDNORM ) : 0 ;
mask = 0 ;
/* Is there any exceptional events? */
if ( sk - > sk_err | | ! skb_queue_empty ( & sk - > sk_error_queue ) )
mask | = POLLERR ;
if ( sk - > sk_shutdown = = SHUTDOWN_MASK )
mask | = POLLHUP ;
/* Is it readable? Reconsider this code with TCP-style support. */
if ( ! skb_queue_empty ( & sk - > sk_receive_queue ) | |
( sk - > sk_shutdown & RCV_SHUTDOWN ) )
mask | = POLLIN | POLLRDNORM ;
/* The association is either gone or not ready. */
if ( ! sctp_style ( sk , UDP ) & & sctp_sstate ( sk , CLOSED ) )
return mask ;
/* Is it writable? */
if ( sctp_writeable ( sk ) ) {
mask | = POLLOUT | POLLWRNORM ;
} else {
set_bit ( SOCK_ASYNC_NOSPACE , & sk - > sk_socket - > flags ) ;
/*
* Since the socket is not locked , the buffer
* might be made available after the writeable check and
* before the bit is set . This could cause a lost I / O
* signal . tcp_poll ( ) has a race breaker for this race
* condition . Based on their implementation , we put
* in the following code to cover it as well .
*/
if ( sctp_writeable ( sk ) )
mask | = POLLOUT | POLLWRNORM ;
}
return mask ;
}
/********************************************************************
* 2 nd Level Abstractions
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
static struct sctp_bind_bucket * sctp_bucket_create (
struct sctp_bind_hashbucket * head , unsigned short snum )
{
struct sctp_bind_bucket * pp ;
pp = kmem_cache_alloc ( sctp_bucket_cachep , SLAB_ATOMIC ) ;
SCTP_DBG_OBJCNT_INC ( bind_bucket ) ;
if ( pp ) {
pp - > port = snum ;
pp - > fastreuse = 0 ;
INIT_HLIST_HEAD ( & pp - > owner ) ;
if ( ( pp - > next = head - > chain ) ! = NULL )
pp - > next - > pprev = & pp - > next ;
head - > chain = pp ;
pp - > pprev = & head - > chain ;
}
return pp ;
}
/* Caller must hold hashbucket lock for this tb with local BH disabled */
static void sctp_bucket_destroy ( struct sctp_bind_bucket * pp )
{
if ( hlist_empty ( & pp - > owner ) ) {
if ( pp - > next )
pp - > next - > pprev = pp - > pprev ;
* ( pp - > pprev ) = pp - > next ;
kmem_cache_free ( sctp_bucket_cachep , pp ) ;
SCTP_DBG_OBJCNT_DEC ( bind_bucket ) ;
}
}
/* Release this socket's reference to a local port. */
static inline void __sctp_put_port ( struct sock * sk )
{
struct sctp_bind_hashbucket * head =
& sctp_port_hashtable [ sctp_phashfn ( inet_sk ( sk ) - > num ) ] ;
struct sctp_bind_bucket * pp ;
sctp_spin_lock ( & head - > lock ) ;
pp = sctp_sk ( sk ) - > bind_hash ;
__sk_del_bind_node ( sk ) ;
sctp_sk ( sk ) - > bind_hash = NULL ;
inet_sk ( sk ) - > num = 0 ;
sctp_bucket_destroy ( pp ) ;
sctp_spin_unlock ( & head - > lock ) ;
}
void sctp_put_port ( struct sock * sk )
{
sctp_local_bh_disable ( ) ;
__sctp_put_port ( sk ) ;
sctp_local_bh_enable ( ) ;
}
/*
* The system picks an ephemeral port and choose an address set equivalent
* to binding with a wildcard address .
* One of those addresses will be the primary address for the association .
* This automatically enables the multihoming capability of SCTP .
*/
static int sctp_autobind ( struct sock * sk )
{
union sctp_addr autoaddr ;
struct sctp_af * af ;
unsigned short port ;
/* Initialize a local sockaddr structure to INADDR_ANY. */
af = sctp_sk ( sk ) - > pf - > af ;
port = htons ( inet_sk ( sk ) - > num ) ;
af - > inaddr_any ( & autoaddr , port ) ;
return sctp_do_bind ( sk , & autoaddr , af - > sockaddr_len ) ;
}
/* Parse out IPPROTO_SCTP CMSG headers. Perform only minimal validation.
*
* From RFC 2292
* 4.2 The cmsghdr Structure *
*
* When ancillary data is sent or received , any number of ancillary data
* objects can be specified by the msg_control and msg_controllen members of
* the msghdr structure , because each object is preceded by
* a cmsghdr structure defining the object ' s length ( the cmsg_len member ) .
* Historically Berkeley - derived implementations have passed only one object
* at a time , but this API allows multiple objects to be
* passed in a single call to sendmsg ( ) or recvmsg ( ) . The following example
* shows two ancillary data objects in a control buffer .
*
* | < - - - - - - - - - - - - - - - - - - - - - - - - - - - msg_controllen - - - - - - - - - - - - - - - - - - - - - - - - - - > |
* | |
*
* | < - - - - - ancillary data object - - - - - > | < - - - - - ancillary data object - - - - - > |
*
* | < - - - - - - - - - - CMSG_SPACE ( ) - - - - - - - - - > | < - - - - - - - - - - CMSG_SPACE ( ) - - - - - - - - - > |
* | | |
*
* | < - - - - - - - - - - cmsg_len - - - - - - - - - - > | | < - - - - - - - - - cmsg_len - - - - - - - - - - - > | |
*
* | < - - - - - - - - - CMSG_LEN ( ) - - - - - - - - - > | | < - - - - - - - - CMSG_LEN ( ) - - - - - - - - - - > | |
* | | | | |
*
* + - - - - - + - - - - - + - - - - - + - - + - - - - - - - - - - - + - - + - - - - - + - - - - - + - - - - - + - - + - - - - - - - - - - - + - - +
* | cmsg_ | cmsg_ | cmsg_ | XX | | XX | cmsg_ | cmsg_ | cmsg_ | XX | | XX |
*
* | len | level | type | XX | cmsg_data [ ] | XX | len | level | type | XX | cmsg_data [ ] | XX |
*
* + - - - - - + - - - - - + - - - - - + - - + - - - - - - - - - - - + - - + - - - - - + - - - - - + - - - - - + - - + - - - - - - - - - - - + - - +
* ^
* |
*
* msg_control
* points here
*/
SCTP_STATIC int sctp_msghdr_parse ( const struct msghdr * msg ,
sctp_cmsgs_t * cmsgs )
{
struct cmsghdr * cmsg ;
for ( cmsg = CMSG_FIRSTHDR ( msg ) ;
cmsg ! = NULL ;
cmsg = CMSG_NXTHDR ( ( struct msghdr * ) msg , cmsg ) ) {
if ( ! CMSG_OK ( msg , cmsg ) )
return - EINVAL ;
/* Should we parse this header or ignore? */
if ( cmsg - > cmsg_level ! = IPPROTO_SCTP )
continue ;
/* Strictly check lengths following example in SCM code. */
switch ( cmsg - > cmsg_type ) {
case SCTP_INIT :
/* SCTP Socket API Extension
* 5.2 .1 SCTP Initiation Structure ( SCTP_INIT )
*
* This cmsghdr structure provides information for
* initializing new SCTP associations with sendmsg ( ) .
* The SCTP_INITMSG socket option uses this same data
* structure . This structure is not used for
* recvmsg ( ) .
*
* cmsg_level cmsg_type cmsg_data [ ]
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
* IPPROTO_SCTP SCTP_INIT struct sctp_initmsg
*/
if ( cmsg - > cmsg_len ! =
CMSG_LEN ( sizeof ( struct sctp_initmsg ) ) )
return - EINVAL ;
cmsgs - > init = ( struct sctp_initmsg * ) CMSG_DATA ( cmsg ) ;
break ;
case SCTP_SNDRCV :
/* SCTP Socket API Extension
* 5.2 .2 SCTP Header Information Structure ( SCTP_SNDRCV )
*
* This cmsghdr structure specifies SCTP options for
* sendmsg ( ) and describes SCTP header information
* about a received message through recvmsg ( ) .
*
* cmsg_level cmsg_type cmsg_data [ ]
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
* IPPROTO_SCTP SCTP_SNDRCV struct sctp_sndrcvinfo
*/
if ( cmsg - > cmsg_len ! =
CMSG_LEN ( sizeof ( struct sctp_sndrcvinfo ) ) )
return - EINVAL ;
cmsgs - > info =
( struct sctp_sndrcvinfo * ) CMSG_DATA ( cmsg ) ;
/* Minimally, validate the sinfo_flags. */
if ( cmsgs - > info - > sinfo_flags &
2005-10-29 02:10:00 +04:00
~ ( SCTP_UNORDERED | SCTP_ADDR_OVER |
SCTP_ABORT | SCTP_EOF ) )
2005-04-17 02:20:36 +04:00
return - EINVAL ;
break ;
default :
return - EINVAL ;
} ;
}
return 0 ;
}
/*
* Wait for a packet . .
* Note : This function is the same function as in core / datagram . c
* with a few modifications to make lksctp work .
*/
static int sctp_wait_for_packet ( struct sock * sk , int * err , long * timeo_p )
{
int error ;
DEFINE_WAIT ( wait ) ;
prepare_to_wait_exclusive ( sk - > sk_sleep , & wait , TASK_INTERRUPTIBLE ) ;
/* Socket errors? */
error = sock_error ( sk ) ;
if ( error )
goto out ;
if ( ! skb_queue_empty ( & sk - > sk_receive_queue ) )
goto ready ;
/* Socket shut down? */
if ( sk - > sk_shutdown & RCV_SHUTDOWN )
goto out ;
/* Sequenced packets can come disconnected. If so we report the
* problem .
*/
error = - ENOTCONN ;
/* Is there a good reason to think that we may receive some data? */
if ( list_empty ( & sctp_sk ( sk ) - > ep - > asocs ) & & ! sctp_sstate ( sk , LISTENING ) )
goto out ;
/* Handle signals. */
if ( signal_pending ( current ) )
goto interrupted ;
/* Let another process have a go. Since we are going to sleep
* anyway . Note : This may cause odd behaviors if the message
* does not fit in the user ' s buffer , but this seems to be the
* only way to honor MSG_DONTWAIT realistically .
*/
sctp_release_sock ( sk ) ;
* timeo_p = schedule_timeout ( * timeo_p ) ;
sctp_lock_sock ( sk ) ;
ready :
finish_wait ( sk - > sk_sleep , & wait ) ;
return 0 ;
interrupted :
error = sock_intr_errno ( * timeo_p ) ;
out :
finish_wait ( sk - > sk_sleep , & wait ) ;
* err = error ;
return error ;
}
/* Receive a datagram.
* Note : This is pretty much the same routine as in core / datagram . c
* with a few changes to make lksctp work .
*/
static struct sk_buff * sctp_skb_recv_datagram ( struct sock * sk , int flags ,
int noblock , int * err )
{
int error ;
struct sk_buff * skb ;
long timeo ;
timeo = sock_rcvtimeo ( sk , noblock ) ;
SCTP_DEBUG_PRINTK ( " Timeout: timeo: %ld, MAX: %ld. \n " ,
timeo , MAX_SCHEDULE_TIMEOUT ) ;
do {
/* Again only user level code calls this function,
* so nothing interrupt level
* will suddenly eat the receive_queue .
*
* Look at current nfs client by the way . . .
* However , this function was corrent in any case . 8 )
*/
if ( flags & MSG_PEEK ) {
2005-06-19 09:56:42 +04:00
spin_lock_bh ( & sk - > sk_receive_queue . lock ) ;
2005-04-17 02:20:36 +04:00
skb = skb_peek ( & sk - > sk_receive_queue ) ;
if ( skb )
atomic_inc ( & skb - > users ) ;
2005-06-19 09:56:42 +04:00
spin_unlock_bh ( & sk - > sk_receive_queue . lock ) ;
2005-04-17 02:20:36 +04:00
} else {
skb = skb_dequeue ( & sk - > sk_receive_queue ) ;
}
if ( skb )
return skb ;
2005-12-03 07:30:06 +03:00
/* Caller is allowed not to check sk->sk_err before calling. */
error = sock_error ( sk ) ;
if ( error )
goto no_packet ;
2005-04-17 02:20:36 +04:00
if ( sk - > sk_shutdown & RCV_SHUTDOWN )
break ;
/* User doesn't want to wait. */
error = - EAGAIN ;
if ( ! timeo )
goto no_packet ;
} while ( sctp_wait_for_packet ( sk , err , & timeo ) = = 0 ) ;
return NULL ;
no_packet :
* err = error ;
return NULL ;
}
/* If sndbuf has changed, wake up per association sndbuf waiters. */
static void __sctp_write_space ( struct sctp_association * asoc )
{
struct sock * sk = asoc - > base . sk ;
struct socket * sock = sk - > sk_socket ;
if ( ( sctp_wspace ( asoc ) > 0 ) & & sock ) {
if ( waitqueue_active ( & asoc - > wait ) )
wake_up_interruptible ( & asoc - > wait ) ;
if ( sctp_writeable ( sk ) ) {
if ( sk - > sk_sleep & & waitqueue_active ( sk - > sk_sleep ) )
wake_up_interruptible ( sk - > sk_sleep ) ;
/* Note that we try to include the Async I/O support
* here by modeling from the current TCP / UDP code .
* We have not tested with it yet .
*/
if ( sock - > fasync_list & &
! ( sk - > sk_shutdown & SEND_SHUTDOWN ) )
sock_wake_async ( sock , 2 , POLL_OUT ) ;
}
}
}
/* Do accounting for the sndbuf space.
* Decrement the used sndbuf space of the corresponding association by the
* data size which was just transmitted ( freed ) .
*/
static void sctp_wfree ( struct sk_buff * skb )
{
struct sctp_association * asoc ;
struct sctp_chunk * chunk ;
struct sock * sk ;
/* Get the saved chunk pointer. */
chunk = * ( ( struct sctp_chunk * * ) ( skb - > cb ) ) ;
asoc = chunk - > asoc ;
sk = asoc - > base . sk ;
2005-04-28 23:02:04 +04:00
asoc - > sndbuf_used - = SCTP_DATA_SNDSIZE ( chunk ) +
sizeof ( struct sk_buff ) +
sizeof ( struct sctp_chunk ) ;
sk - > sk_wmem_queued - = SCTP_DATA_SNDSIZE ( chunk ) +
sizeof ( struct sk_buff ) +
sizeof ( struct sctp_chunk ) ;
atomic_sub ( sizeof ( struct sctp_chunk ) , & sk - > sk_wmem_alloc ) ;
sock_wfree ( skb ) ;
2005-04-17 02:20:36 +04:00
__sctp_write_space ( asoc ) ;
sctp_association_put ( asoc ) ;
}
/* Helper function to wait for space in the sndbuf. */
static int sctp_wait_for_sndbuf ( struct sctp_association * asoc , long * timeo_p ,
size_t msg_len )
{
struct sock * sk = asoc - > base . sk ;
int err = 0 ;
long current_timeo = * timeo_p ;
DEFINE_WAIT ( wait ) ;
SCTP_DEBUG_PRINTK ( " wait_for_sndbuf: asoc=%p, timeo=%ld, msg_len=%zu \n " ,
asoc , ( long ) ( * timeo_p ) , msg_len ) ;
/* Increment the association's refcnt. */
sctp_association_hold ( asoc ) ;
/* Wait on the association specific sndbuf space. */
for ( ; ; ) {
prepare_to_wait_exclusive ( & asoc - > wait , & wait ,
TASK_INTERRUPTIBLE ) ;
if ( ! * timeo_p )
goto do_nonblock ;
if ( sk - > sk_err | | asoc - > state > = SCTP_STATE_SHUTDOWN_PENDING | |
asoc - > base . dead )
goto do_error ;
if ( signal_pending ( current ) )
goto do_interrupted ;
if ( msg_len < = sctp_wspace ( asoc ) )
break ;
/* Let another process have a go. Since we are going
* to sleep anyway .
*/
sctp_release_sock ( sk ) ;
current_timeo = schedule_timeout ( current_timeo ) ;
sctp_lock_sock ( sk ) ;
* timeo_p = current_timeo ;
}
out :
finish_wait ( & asoc - > wait , & wait ) ;
/* Release the association's refcnt. */
sctp_association_put ( asoc ) ;
return err ;
do_error :
err = - EPIPE ;
goto out ;
do_interrupted :
err = sock_intr_errno ( * timeo_p ) ;
goto out ;
do_nonblock :
err = - EAGAIN ;
goto out ;
}
/* If socket sndbuf has changed, wake up all per association waiters. */
void sctp_write_space ( struct sock * sk )
{
struct sctp_association * asoc ;
struct list_head * pos ;
/* Wake up the tasks in each wait queue. */
list_for_each ( pos , & ( ( sctp_sk ( sk ) ) - > ep - > asocs ) ) {
asoc = list_entry ( pos , struct sctp_association , asocs ) ;
__sctp_write_space ( asoc ) ;
}
}
/* Is there any sndbuf space available on the socket?
*
* Note that wmem_queued is the sum of the send buffers on all of the
* associations on the same socket . For a UDP - style socket with
* multiple associations , it is possible for it to be " unwriteable "
* prematurely . I assume that this is acceptable because
* a premature " unwriteable " is better than an accidental " writeable " which
* would cause an unwanted block under certain circumstances . For the 1 - 1
* UDP - style sockets or TCP - style sockets , this code should work .
* - Daisy
*/
static int sctp_writeable ( struct sock * sk )
{
int amt = 0 ;
amt = sk - > sk_sndbuf - sk - > sk_wmem_queued ;
if ( amt < 0 )
amt = 0 ;
return amt ;
}
/* Wait for an association to go into ESTABLISHED state. If timeout is 0,
* returns immediately with EINPROGRESS .
*/
static int sctp_wait_for_connect ( struct sctp_association * asoc , long * timeo_p )
{
struct sock * sk = asoc - > base . sk ;
int err = 0 ;
long current_timeo = * timeo_p ;
DEFINE_WAIT ( wait ) ;
SCTP_DEBUG_PRINTK ( " %s: asoc=%p, timeo=%ld \n " , __FUNCTION__ , asoc ,
( long ) ( * timeo_p ) ) ;
/* Increment the association's refcnt. */
sctp_association_hold ( asoc ) ;
for ( ; ; ) {
prepare_to_wait_exclusive ( & asoc - > wait , & wait ,
TASK_INTERRUPTIBLE ) ;
if ( ! * timeo_p )
goto do_nonblock ;
if ( sk - > sk_shutdown & RCV_SHUTDOWN )
break ;
if ( sk - > sk_err | | asoc - > state > = SCTP_STATE_SHUTDOWN_PENDING | |
asoc - > base . dead )
goto do_error ;
if ( signal_pending ( current ) )
goto do_interrupted ;
if ( sctp_state ( asoc , ESTABLISHED ) )
break ;
/* Let another process have a go. Since we are going
* to sleep anyway .
*/
sctp_release_sock ( sk ) ;
current_timeo = schedule_timeout ( current_timeo ) ;
sctp_lock_sock ( sk ) ;
* timeo_p = current_timeo ;
}
out :
finish_wait ( & asoc - > wait , & wait ) ;
/* Release the association's refcnt. */
sctp_association_put ( asoc ) ;
return err ;
do_error :
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if ( asoc - > init_err_counter + 1 > = asoc - > max_init_attempts )
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err = - ETIMEDOUT ;
else
err = - ECONNREFUSED ;
goto out ;
do_interrupted :
err = sock_intr_errno ( * timeo_p ) ;
goto out ;
do_nonblock :
err = - EINPROGRESS ;
goto out ;
}
static int sctp_wait_for_accept ( struct sock * sk , long timeo )
{
struct sctp_endpoint * ep ;
int err = 0 ;
DEFINE_WAIT ( wait ) ;
ep = sctp_sk ( sk ) - > ep ;
for ( ; ; ) {
prepare_to_wait_exclusive ( sk - > sk_sleep , & wait ,
TASK_INTERRUPTIBLE ) ;
if ( list_empty ( & ep - > asocs ) ) {
sctp_release_sock ( sk ) ;
timeo = schedule_timeout ( timeo ) ;
sctp_lock_sock ( sk ) ;
}
err = - EINVAL ;
if ( ! sctp_sstate ( sk , LISTENING ) )
break ;
err = 0 ;
if ( ! list_empty ( & ep - > asocs ) )
break ;
err = sock_intr_errno ( timeo ) ;
if ( signal_pending ( current ) )
break ;
err = - EAGAIN ;
if ( ! timeo )
break ;
}
finish_wait ( sk - > sk_sleep , & wait ) ;
return err ;
}
void sctp_wait_for_close ( struct sock * sk , long timeout )
{
DEFINE_WAIT ( wait ) ;
do {
prepare_to_wait ( sk - > sk_sleep , & wait , TASK_INTERRUPTIBLE ) ;
if ( list_empty ( & sctp_sk ( sk ) - > ep - > asocs ) )
break ;
sctp_release_sock ( sk ) ;
timeout = schedule_timeout ( timeout ) ;
sctp_lock_sock ( sk ) ;
} while ( ! signal_pending ( current ) & & timeout ) ;
finish_wait ( sk - > sk_sleep , & wait ) ;
}
/* Populate the fields of the newsk from the oldsk and migrate the assoc
* and its messages to the newsk .
*/
static void sctp_sock_migrate ( struct sock * oldsk , struct sock * newsk ,
struct sctp_association * assoc ,
sctp_socket_type_t type )
{
struct sctp_sock * oldsp = sctp_sk ( oldsk ) ;
struct sctp_sock * newsp = sctp_sk ( newsk ) ;
struct sctp_bind_bucket * pp ; /* hash list port iterator */
struct sctp_endpoint * newep = newsp - > ep ;
struct sk_buff * skb , * tmp ;
struct sctp_ulpevent * event ;
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int flags = 0 ;
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/* Migrate socket buffer sizes and all the socket level options to the
* new socket .
*/
newsk - > sk_sndbuf = oldsk - > sk_sndbuf ;
newsk - > sk_rcvbuf = oldsk - > sk_rcvbuf ;
/* Brute force copy old sctp opt. */
inet_sk_copy_descendant ( newsk , oldsk ) ;
/* Restore the ep value that was overwritten with the above structure
* copy .
*/
newsp - > ep = newep ;
newsp - > hmac = NULL ;
/* Hook this new socket in to the bind_hash list. */
pp = sctp_sk ( oldsk ) - > bind_hash ;
sk_add_bind_node ( newsk , & pp - > owner ) ;
sctp_sk ( newsk ) - > bind_hash = pp ;
inet_sk ( newsk ) - > num = inet_sk ( oldsk ) - > num ;
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/* Copy the bind_addr list from the original endpoint to the new
* endpoint so that we can handle restarts properly
*/
if ( assoc - > peer . ipv4_address )
flags | = SCTP_ADDR4_PEERSUPP ;
if ( assoc - > peer . ipv6_address )
flags | = SCTP_ADDR6_PEERSUPP ;
sctp_bind_addr_copy ( & newsp - > ep - > base . bind_addr ,
& oldsp - > ep - > base . bind_addr ,
SCTP_SCOPE_GLOBAL , GFP_KERNEL , flags ) ;
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/* Move any messages in the old socket's receive queue that are for the
* peeled off association to the new socket ' s receive queue .
*/
sctp_skb_for_each ( skb , & oldsk - > sk_receive_queue , tmp ) {
event = sctp_skb2event ( skb ) ;
if ( event - > asoc = = assoc ) {
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sock_rfree ( skb ) ;
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__skb_unlink ( skb , & oldsk - > sk_receive_queue ) ;
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__skb_queue_tail ( & newsk - > sk_receive_queue , skb ) ;
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skb_set_owner_r ( skb , newsk ) ;
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}
}
/* Clean up any messages pending delivery due to partial
* delivery . Three cases :
* 1 ) No partial deliver ; no work .
* 2 ) Peeling off partial delivery ; keep pd_lobby in new pd_lobby .
* 3 ) Peeling off non - partial delivery ; move pd_lobby to receive_queue .
*/
skb_queue_head_init ( & newsp - > pd_lobby ) ;
sctp_sk ( newsk ) - > pd_mode = assoc - > ulpq . pd_mode ;
if ( sctp_sk ( oldsk ) - > pd_mode ) {
struct sk_buff_head * queue ;
/* Decide which queue to move pd_lobby skbs to. */
if ( assoc - > ulpq . pd_mode ) {
queue = & newsp - > pd_lobby ;
} else
queue = & newsk - > sk_receive_queue ;
/* Walk through the pd_lobby, looking for skbs that
* need moved to the new socket .
*/
sctp_skb_for_each ( skb , & oldsp - > pd_lobby , tmp ) {
event = sctp_skb2event ( skb ) ;
if ( event - > asoc = = assoc ) {
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sock_rfree ( skb ) ;
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__skb_unlink ( skb , & oldsp - > pd_lobby ) ;
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__skb_queue_tail ( queue , skb ) ;
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skb_set_owner_r ( skb , newsk ) ;
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}
}
/* Clear up any skbs waiting for the partial
* delivery to finish .
*/
if ( assoc - > ulpq . pd_mode )
sctp_clear_pd ( oldsk ) ;
}
/* Set the type of socket to indicate that it is peeled off from the
* original UDP - style socket or created with the accept ( ) call on a
* TCP - style socket . .
*/
newsp - > type = type ;
/* Migrate the association to the new socket. */
sctp_assoc_migrate ( assoc , newsk ) ;
/* If the association on the newsk is already closed before accept()
* is called , set RCV_SHUTDOWN flag .
*/
if ( sctp_state ( assoc , CLOSED ) & & sctp_style ( newsk , TCP ) )
newsk - > sk_shutdown | = RCV_SHUTDOWN ;
newsk - > sk_state = SCTP_SS_ESTABLISHED ;
}
/* This proto struct describes the ULP interface for SCTP. */
struct proto sctp_prot = {
. name = " SCTP " ,
. owner = THIS_MODULE ,
. close = sctp_close ,
. connect = sctp_connect ,
. disconnect = sctp_disconnect ,
. accept = sctp_accept ,
. ioctl = sctp_ioctl ,
. init = sctp_init_sock ,
. destroy = sctp_destroy_sock ,
. shutdown = sctp_shutdown ,
. setsockopt = sctp_setsockopt ,
. getsockopt = sctp_getsockopt ,
. sendmsg = sctp_sendmsg ,
. recvmsg = sctp_recvmsg ,
. bind = sctp_bind ,
. backlog_rcv = sctp_backlog_rcv ,
. hash = sctp_hash ,
. unhash = sctp_unhash ,
. get_port = sctp_get_port ,
. obj_size = sizeof ( struct sctp_sock ) ,
} ;
# if defined(CONFIG_IPV6) || defined(CONFIG_IPV6_MODULE)
struct proto sctpv6_prot = {
. name = " SCTPv6 " ,
. owner = THIS_MODULE ,
. close = sctp_close ,
. connect = sctp_connect ,
. disconnect = sctp_disconnect ,
. accept = sctp_accept ,
. ioctl = sctp_ioctl ,
. init = sctp_init_sock ,
. destroy = sctp_destroy_sock ,
. shutdown = sctp_shutdown ,
. setsockopt = sctp_setsockopt ,
. getsockopt = sctp_getsockopt ,
. sendmsg = sctp_sendmsg ,
. recvmsg = sctp_recvmsg ,
. bind = sctp_bind ,
. backlog_rcv = sctp_backlog_rcv ,
. hash = sctp_hash ,
. unhash = sctp_unhash ,
. get_port = sctp_get_port ,
. obj_size = sizeof ( struct sctp6_sock ) ,
} ;
# endif /* defined(CONFIG_IPV6) || defined(CONFIG_IPV6_MODULE) */