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# include "ceph_debug.h"
# include <linux/crc32c.h>
# include <linux/ctype.h>
# include <linux/highmem.h>
# include <linux/inet.h>
# include <linux/kthread.h>
# include <linux/net.h>
# include <linux/socket.h>
# include <linux/string.h>
# include <net/tcp.h>
# include "super.h"
# include "messenger.h"
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# include "decode.h"
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# include "pagelist.h"
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/*
* Ceph uses the messenger to exchange ceph_msg messages with other
* hosts in the system . The messenger provides ordered and reliable
* delivery . We tolerate TCP disconnects by reconnecting ( with
* exponential backoff ) in the case of a fault ( disconnection , bad
* crc , protocol error ) . Acks allow sent messages to be discarded by
* the sender .
*/
/* static tag bytes (protocol control messages) */
static char tag_msg = CEPH_MSGR_TAG_MSG ;
static char tag_ack = CEPH_MSGR_TAG_ACK ;
static char tag_keepalive = CEPH_MSGR_TAG_KEEPALIVE ;
static void queue_con ( struct ceph_connection * con ) ;
static void con_work ( struct work_struct * ) ;
static void ceph_fault ( struct ceph_connection * con ) ;
const char * ceph_name_type_str ( int t )
{
switch ( t ) {
case CEPH_ENTITY_TYPE_MON : return " mon " ;
case CEPH_ENTITY_TYPE_MDS : return " mds " ;
case CEPH_ENTITY_TYPE_OSD : return " osd " ;
case CEPH_ENTITY_TYPE_CLIENT : return " client " ;
case CEPH_ENTITY_TYPE_ADMIN : return " admin " ;
default : return " ??? " ;
}
}
/*
* nicely render a sockaddr as a string .
*/
# define MAX_ADDR_STR 20
static char addr_str [ MAX_ADDR_STR ] [ 40 ] ;
static DEFINE_SPINLOCK ( addr_str_lock ) ;
static int last_addr_str ;
const char * pr_addr ( const struct sockaddr_storage * ss )
{
int i ;
char * s ;
struct sockaddr_in * in4 = ( void * ) ss ;
unsigned char * quad = ( void * ) & in4 - > sin_addr . s_addr ;
struct sockaddr_in6 * in6 = ( void * ) ss ;
spin_lock ( & addr_str_lock ) ;
i = last_addr_str + + ;
if ( last_addr_str = = MAX_ADDR_STR )
last_addr_str = 0 ;
spin_unlock ( & addr_str_lock ) ;
s = addr_str [ i ] ;
switch ( ss - > ss_family ) {
case AF_INET :
sprintf ( s , " %u.%u.%u.%u:%u " ,
( unsigned int ) quad [ 0 ] ,
( unsigned int ) quad [ 1 ] ,
( unsigned int ) quad [ 2 ] ,
( unsigned int ) quad [ 3 ] ,
( unsigned int ) ntohs ( in4 - > sin_port ) ) ;
break ;
case AF_INET6 :
sprintf ( s , " %04x:%04x:%04x:%04x:%04x:%04x:%04x:%04x:%u " ,
in6 - > sin6_addr . s6_addr16 [ 0 ] ,
in6 - > sin6_addr . s6_addr16 [ 1 ] ,
in6 - > sin6_addr . s6_addr16 [ 2 ] ,
in6 - > sin6_addr . s6_addr16 [ 3 ] ,
in6 - > sin6_addr . s6_addr16 [ 4 ] ,
in6 - > sin6_addr . s6_addr16 [ 5 ] ,
in6 - > sin6_addr . s6_addr16 [ 6 ] ,
in6 - > sin6_addr . s6_addr16 [ 7 ] ,
( unsigned int ) ntohs ( in6 - > sin6_port ) ) ;
break ;
default :
sprintf ( s , " (unknown sockaddr family %d) " , ( int ) ss - > ss_family ) ;
}
return s ;
}
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static void encode_my_addr ( struct ceph_messenger * msgr )
{
memcpy ( & msgr - > my_enc_addr , & msgr - > inst . addr , sizeof ( msgr - > my_enc_addr ) ) ;
ceph_encode_addr ( & msgr - > my_enc_addr ) ;
}
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/*
* work queue for all reading and writing to / from the socket .
*/
struct workqueue_struct * ceph_msgr_wq ;
int __init ceph_msgr_init ( void )
{
ceph_msgr_wq = create_workqueue ( " ceph-msgr " ) ;
if ( IS_ERR ( ceph_msgr_wq ) ) {
int ret = PTR_ERR ( ceph_msgr_wq ) ;
pr_err ( " msgr_init failed to create workqueue: %d \n " , ret ) ;
ceph_msgr_wq = NULL ;
return ret ;
}
return 0 ;
}
void ceph_msgr_exit ( void )
{
destroy_workqueue ( ceph_msgr_wq ) ;
}
/*
* socket callback functions
*/
/* data available on socket, or listen socket received a connect */
static void ceph_data_ready ( struct sock * sk , int count_unused )
{
struct ceph_connection * con =
( struct ceph_connection * ) sk - > sk_user_data ;
if ( sk - > sk_state ! = TCP_CLOSE_WAIT ) {
dout ( " ceph_data_ready on %p state = %lu, queueing work \n " ,
con , con - > state ) ;
queue_con ( con ) ;
}
}
/* socket has buffer space for writing */
static void ceph_write_space ( struct sock * sk )
{
struct ceph_connection * con =
( struct ceph_connection * ) sk - > sk_user_data ;
/* only queue to workqueue if there is data we want to write. */
if ( test_bit ( WRITE_PENDING , & con - > state ) ) {
dout ( " ceph_write_space %p queueing write work \n " , con ) ;
queue_con ( con ) ;
} else {
dout ( " ceph_write_space %p nothing to write \n " , con ) ;
}
/* since we have our own write_space, clear the SOCK_NOSPACE flag */
clear_bit ( SOCK_NOSPACE , & sk - > sk_socket - > flags ) ;
}
/* socket's state has changed */
static void ceph_state_change ( struct sock * sk )
{
struct ceph_connection * con =
( struct ceph_connection * ) sk - > sk_user_data ;
dout ( " ceph_state_change %p state = %lu sk_state = %u \n " ,
con , con - > state , sk - > sk_state ) ;
if ( test_bit ( CLOSED , & con - > state ) )
return ;
switch ( sk - > sk_state ) {
case TCP_CLOSE :
dout ( " ceph_state_change TCP_CLOSE \n " ) ;
case TCP_CLOSE_WAIT :
dout ( " ceph_state_change TCP_CLOSE_WAIT \n " ) ;
if ( test_and_set_bit ( SOCK_CLOSED , & con - > state ) = = 0 ) {
if ( test_bit ( CONNECTING , & con - > state ) )
con - > error_msg = " connection failed " ;
else
con - > error_msg = " socket closed " ;
queue_con ( con ) ;
}
break ;
case TCP_ESTABLISHED :
dout ( " ceph_state_change TCP_ESTABLISHED \n " ) ;
queue_con ( con ) ;
break ;
}
}
/*
* set up socket callbacks
*/
static void set_sock_callbacks ( struct socket * sock ,
struct ceph_connection * con )
{
struct sock * sk = sock - > sk ;
sk - > sk_user_data = ( void * ) con ;
sk - > sk_data_ready = ceph_data_ready ;
sk - > sk_write_space = ceph_write_space ;
sk - > sk_state_change = ceph_state_change ;
}
/*
* socket helpers
*/
/*
* initiate connection to a remote socket .
*/
static struct socket * ceph_tcp_connect ( struct ceph_connection * con )
{
struct sockaddr * paddr = ( struct sockaddr * ) & con - > peer_addr . in_addr ;
struct socket * sock ;
int ret ;
BUG_ON ( con - > sock ) ;
ret = sock_create_kern ( AF_INET , SOCK_STREAM , IPPROTO_TCP , & sock ) ;
if ( ret )
return ERR_PTR ( ret ) ;
con - > sock = sock ;
sock - > sk - > sk_allocation = GFP_NOFS ;
set_sock_callbacks ( sock , con ) ;
dout ( " connect %s \n " , pr_addr ( & con - > peer_addr . in_addr ) ) ;
ret = sock - > ops - > connect ( sock , paddr , sizeof ( * paddr ) , O_NONBLOCK ) ;
if ( ret = = - EINPROGRESS ) {
dout ( " connect %s EINPROGRESS sk_state = %u \n " ,
pr_addr ( & con - > peer_addr . in_addr ) ,
sock - > sk - > sk_state ) ;
ret = 0 ;
}
if ( ret < 0 ) {
pr_err ( " connect %s error %d \n " ,
pr_addr ( & con - > peer_addr . in_addr ) , ret ) ;
sock_release ( sock ) ;
con - > sock = NULL ;
con - > error_msg = " connect error " ;
}
if ( ret < 0 )
return ERR_PTR ( ret ) ;
return sock ;
}
static int ceph_tcp_recvmsg ( struct socket * sock , void * buf , size_t len )
{
struct kvec iov = { buf , len } ;
struct msghdr msg = { . msg_flags = MSG_DONTWAIT | MSG_NOSIGNAL } ;
return kernel_recvmsg ( sock , & msg , & iov , 1 , len , msg . msg_flags ) ;
}
/*
* write something . @ more is true if caller will be sending more data
* shortly .
*/
static int ceph_tcp_sendmsg ( struct socket * sock , struct kvec * iov ,
size_t kvlen , size_t len , int more )
{
struct msghdr msg = { . msg_flags = MSG_DONTWAIT | MSG_NOSIGNAL } ;
if ( more )
msg . msg_flags | = MSG_MORE ;
else
msg . msg_flags | = MSG_EOR ; /* superfluous, but what the hell */
return kernel_sendmsg ( sock , & msg , iov , kvlen , len ) ;
}
/*
* Shutdown / close the socket for the given connection .
*/
static int con_close_socket ( struct ceph_connection * con )
{
int rc ;
dout ( " con_close_socket on %p sock %p \n " , con , con - > sock ) ;
if ( ! con - > sock )
return 0 ;
set_bit ( SOCK_CLOSED , & con - > state ) ;
rc = con - > sock - > ops - > shutdown ( con - > sock , SHUT_RDWR ) ;
sock_release ( con - > sock ) ;
con - > sock = NULL ;
clear_bit ( SOCK_CLOSED , & con - > state ) ;
return rc ;
}
/*
* Reset a connection . Discard all incoming and outgoing messages
* and clear * _seq state .
*/
static void ceph_msg_remove ( struct ceph_msg * msg )
{
list_del_init ( & msg - > list_head ) ;
ceph_msg_put ( msg ) ;
}
static void ceph_msg_remove_list ( struct list_head * head )
{
while ( ! list_empty ( head ) ) {
struct ceph_msg * msg = list_first_entry ( head , struct ceph_msg ,
list_head ) ;
ceph_msg_remove ( msg ) ;
}
}
static void reset_connection ( struct ceph_connection * con )
{
/* reset connection, out_queue, msg_ and connect_seq */
/* discard existing out_queue and msg_seq */
ceph_msg_remove_list ( & con - > out_queue ) ;
ceph_msg_remove_list ( & con - > out_sent ) ;
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if ( con - > in_msg ) {
ceph_msg_put ( con - > in_msg ) ;
con - > in_msg = NULL ;
}
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con - > connect_seq = 0 ;
con - > out_seq = 0 ;
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if ( con - > out_msg ) {
ceph_msg_put ( con - > out_msg ) ;
con - > out_msg = NULL ;
}
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con - > in_seq = 0 ;
}
/*
* mark a peer down . drop any open connections .
*/
void ceph_con_close ( struct ceph_connection * con )
{
dout ( " con_close %p peer %s \n " , con , pr_addr ( & con - > peer_addr . in_addr ) ) ;
set_bit ( CLOSED , & con - > state ) ; /* in case there's queued work */
clear_bit ( STANDBY , & con - > state ) ; /* avoid connect_seq bump */
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mutex_lock ( & con - > mutex ) ;
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reset_connection ( con ) ;
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mutex_unlock ( & con - > mutex ) ;
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queue_con ( con ) ;
}
/*
* Reopen a closed connection , with a new peer address .
*/
void ceph_con_open ( struct ceph_connection * con , struct ceph_entity_addr * addr )
{
dout ( " con_open %p %s \n " , con , pr_addr ( & addr - > in_addr ) ) ;
set_bit ( OPENING , & con - > state ) ;
clear_bit ( CLOSED , & con - > state ) ;
memcpy ( & con - > peer_addr , addr , sizeof ( * addr ) ) ;
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con - > delay = 0 ; /* reset backoff memory */
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queue_con ( con ) ;
}
/*
* generic get / put
*/
struct ceph_connection * ceph_con_get ( struct ceph_connection * con )
{
dout ( " con_get %p nref = %d -> %d \n " , con ,
atomic_read ( & con - > nref ) , atomic_read ( & con - > nref ) + 1 ) ;
if ( atomic_inc_not_zero ( & con - > nref ) )
return con ;
return NULL ;
}
void ceph_con_put ( struct ceph_connection * con )
{
dout ( " con_put %p nref = %d -> %d \n " , con ,
atomic_read ( & con - > nref ) , atomic_read ( & con - > nref ) - 1 ) ;
BUG_ON ( atomic_read ( & con - > nref ) = = 0 ) ;
if ( atomic_dec_and_test ( & con - > nref ) ) {
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BUG_ON ( con - > sock ) ;
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kfree ( con ) ;
}
}
/*
* initialize a new connection .
*/
void ceph_con_init ( struct ceph_messenger * msgr , struct ceph_connection * con )
{
dout ( " con_init %p \n " , con ) ;
memset ( con , 0 , sizeof ( * con ) ) ;
atomic_set ( & con - > nref , 1 ) ;
con - > msgr = msgr ;
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mutex_init ( & con - > mutex ) ;
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INIT_LIST_HEAD ( & con - > out_queue ) ;
INIT_LIST_HEAD ( & con - > out_sent ) ;
INIT_DELAYED_WORK ( & con - > work , con_work ) ;
}
/*
* We maintain a global counter to order connection attempts . Get
* a unique seq greater than @ gt .
*/
static u32 get_global_seq ( struct ceph_messenger * msgr , u32 gt )
{
u32 ret ;
spin_lock ( & msgr - > global_seq_lock ) ;
if ( msgr - > global_seq < gt )
msgr - > global_seq = gt ;
ret = + + msgr - > global_seq ;
spin_unlock ( & msgr - > global_seq_lock ) ;
return ret ;
}
/*
* Prepare footer for currently outgoing message , and finish things
* off . Assumes out_kvec * are already valid . . we just add on to the end .
*/
static void prepare_write_message_footer ( struct ceph_connection * con , int v )
{
struct ceph_msg * m = con - > out_msg ;
dout ( " prepare_write_message_footer %p \n " , con ) ;
con - > out_kvec_is_msg = true ;
con - > out_kvec [ v ] . iov_base = & m - > footer ;
con - > out_kvec [ v ] . iov_len = sizeof ( m - > footer ) ;
con - > out_kvec_bytes + = sizeof ( m - > footer ) ;
con - > out_kvec_left + + ;
con - > out_more = m - > more_to_follow ;
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con - > out_msg_done = true ;
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}
/*
* Prepare headers for the next outgoing message .
*/
static void prepare_write_message ( struct ceph_connection * con )
{
struct ceph_msg * m ;
int v = 0 ;
con - > out_kvec_bytes = 0 ;
con - > out_kvec_is_msg = true ;
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con - > out_msg_done = false ;
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/* Sneak an ack in there first? If we can get it into the same
* TCP packet that ' s a good thing . */
if ( con - > in_seq > con - > in_seq_acked ) {
con - > in_seq_acked = con - > in_seq ;
con - > out_kvec [ v ] . iov_base = & tag_ack ;
con - > out_kvec [ v + + ] . iov_len = 1 ;
con - > out_temp_ack = cpu_to_le64 ( con - > in_seq_acked ) ;
con - > out_kvec [ v ] . iov_base = & con - > out_temp_ack ;
con - > out_kvec [ v + + ] . iov_len = sizeof ( con - > out_temp_ack ) ;
con - > out_kvec_bytes = 1 + sizeof ( con - > out_temp_ack ) ;
}
m = list_first_entry ( & con - > out_queue ,
struct ceph_msg , list_head ) ;
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con - > out_msg = m ;
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if ( test_bit ( LOSSYTX , & con - > state ) ) {
/* put message on sent list */
ceph_msg_get ( m ) ;
list_move_tail ( & m - > list_head , & con - > out_sent ) ;
} else {
list_del_init ( & m - > list_head ) ;
}
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m - > hdr . seq = cpu_to_le64 ( + + con - > out_seq ) ;
dout ( " prepare_write_message %p seq %lld type %d len %d+%d+%d %d pgs \n " ,
m , con - > out_seq , le16_to_cpu ( m - > hdr . type ) ,
le32_to_cpu ( m - > hdr . front_len ) , le32_to_cpu ( m - > hdr . middle_len ) ,
le32_to_cpu ( m - > hdr . data_len ) ,
m - > nr_pages ) ;
BUG_ON ( le32_to_cpu ( m - > hdr . front_len ) ! = m - > front . iov_len ) ;
/* tag + hdr + front + middle */
con - > out_kvec [ v ] . iov_base = & tag_msg ;
con - > out_kvec [ v + + ] . iov_len = 1 ;
con - > out_kvec [ v ] . iov_base = & m - > hdr ;
con - > out_kvec [ v + + ] . iov_len = sizeof ( m - > hdr ) ;
con - > out_kvec [ v + + ] = m - > front ;
if ( m - > middle )
con - > out_kvec [ v + + ] = m - > middle - > vec ;
con - > out_kvec_left = v ;
con - > out_kvec_bytes + = 1 + sizeof ( m - > hdr ) + m - > front . iov_len +
( m - > middle ? m - > middle - > vec . iov_len : 0 ) ;
con - > out_kvec_cur = con - > out_kvec ;
/* fill in crc (except data pages), footer */
con - > out_msg - > hdr . crc =
cpu_to_le32 ( crc32c ( 0 , ( void * ) & m - > hdr ,
sizeof ( m - > hdr ) - sizeof ( m - > hdr . crc ) ) ) ;
con - > out_msg - > footer . flags = CEPH_MSG_FOOTER_COMPLETE ;
con - > out_msg - > footer . front_crc =
cpu_to_le32 ( crc32c ( 0 , m - > front . iov_base , m - > front . iov_len ) ) ;
if ( m - > middle )
con - > out_msg - > footer . middle_crc =
cpu_to_le32 ( crc32c ( 0 , m - > middle - > vec . iov_base ,
m - > middle - > vec . iov_len ) ) ;
else
con - > out_msg - > footer . middle_crc = 0 ;
con - > out_msg - > footer . data_crc = 0 ;
dout ( " prepare_write_message front_crc %u data_crc %u \n " ,
le32_to_cpu ( con - > out_msg - > footer . front_crc ) ,
le32_to_cpu ( con - > out_msg - > footer . middle_crc ) ) ;
/* is there a data payload? */
if ( le32_to_cpu ( m - > hdr . data_len ) > 0 ) {
/* initialize page iterator */
con - > out_msg_pos . page = 0 ;
con - > out_msg_pos . page_pos =
le16_to_cpu ( m - > hdr . data_off ) & ~ PAGE_MASK ;
con - > out_msg_pos . data_pos = 0 ;
con - > out_msg_pos . did_page_crc = 0 ;
con - > out_more = 1 ; /* data + footer will follow */
} else {
/* no, queue up footer too and be done */
prepare_write_message_footer ( con , v ) ;
}
set_bit ( WRITE_PENDING , & con - > state ) ;
}
/*
* Prepare an ack .
*/
static void prepare_write_ack ( struct ceph_connection * con )
{
dout ( " prepare_write_ack %p %llu -> %llu \n " , con ,
con - > in_seq_acked , con - > in_seq ) ;
con - > in_seq_acked = con - > in_seq ;
con - > out_kvec [ 0 ] . iov_base = & tag_ack ;
con - > out_kvec [ 0 ] . iov_len = 1 ;
con - > out_temp_ack = cpu_to_le64 ( con - > in_seq_acked ) ;
con - > out_kvec [ 1 ] . iov_base = & con - > out_temp_ack ;
con - > out_kvec [ 1 ] . iov_len = sizeof ( con - > out_temp_ack ) ;
con - > out_kvec_left = 2 ;
con - > out_kvec_bytes = 1 + sizeof ( con - > out_temp_ack ) ;
con - > out_kvec_cur = con - > out_kvec ;
con - > out_more = 1 ; /* more will follow.. eventually.. */
set_bit ( WRITE_PENDING , & con - > state ) ;
}
/*
* Prepare to write keepalive byte .
*/
static void prepare_write_keepalive ( struct ceph_connection * con )
{
dout ( " prepare_write_keepalive %p \n " , con ) ;
con - > out_kvec [ 0 ] . iov_base = & tag_keepalive ;
con - > out_kvec [ 0 ] . iov_len = 1 ;
con - > out_kvec_left = 1 ;
con - > out_kvec_bytes = 1 ;
con - > out_kvec_cur = con - > out_kvec ;
set_bit ( WRITE_PENDING , & con - > state ) ;
}
/*
* Connection negotiation .
*/
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static void prepare_connect_authorizer ( struct ceph_connection * con )
{
void * auth_buf ;
int auth_len = 0 ;
int auth_protocol = 0 ;
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mutex_unlock ( & con - > mutex ) ;
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if ( con - > ops - > get_authorizer )
con - > ops - > get_authorizer ( con , & auth_buf , & auth_len ,
& auth_protocol , & con - > auth_reply_buf ,
& con - > auth_reply_buf_len ,
con - > auth_retry ) ;
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mutex_lock ( & con - > mutex ) ;
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con - > out_connect . authorizer_protocol = cpu_to_le32 ( auth_protocol ) ;
con - > out_connect . authorizer_len = cpu_to_le32 ( auth_len ) ;
con - > out_kvec [ con - > out_kvec_left ] . iov_base = auth_buf ;
con - > out_kvec [ con - > out_kvec_left ] . iov_len = auth_len ;
con - > out_kvec_left + + ;
con - > out_kvec_bytes + = auth_len ;
}
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/*
* We connected to a peer and are saying hello .
*/
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static void prepare_write_banner ( struct ceph_messenger * msgr ,
struct ceph_connection * con )
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{
int len = strlen ( CEPH_BANNER ) ;
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con - > out_kvec [ 0 ] . iov_base = CEPH_BANNER ;
con - > out_kvec [ 0 ] . iov_len = len ;
con - > out_kvec [ 1 ] . iov_base = & msgr - > my_enc_addr ;
con - > out_kvec [ 1 ] . iov_len = sizeof ( msgr - > my_enc_addr ) ;
con - > out_kvec_left = 2 ;
con - > out_kvec_bytes = len + sizeof ( msgr - > my_enc_addr ) ;
con - > out_kvec_cur = con - > out_kvec ;
con - > out_more = 0 ;
set_bit ( WRITE_PENDING , & con - > state ) ;
}
static void prepare_write_connect ( struct ceph_messenger * msgr ,
struct ceph_connection * con ,
int after_banner )
{
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unsigned global_seq = get_global_seq ( con - > msgr , 0 ) ;
int proto ;
switch ( con - > peer_name . type ) {
case CEPH_ENTITY_TYPE_MON :
proto = CEPH_MONC_PROTOCOL ;
break ;
case CEPH_ENTITY_TYPE_OSD :
proto = CEPH_OSDC_PROTOCOL ;
break ;
case CEPH_ENTITY_TYPE_MDS :
proto = CEPH_MDSC_PROTOCOL ;
break ;
default :
BUG ( ) ;
}
dout ( " prepare_write_connect %p cseq=%d gseq=%d proto=%d \n " , con ,
con - > connect_seq , global_seq , proto ) ;
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con - > out_connect . features = CEPH_FEATURE_SUPPORTED ;
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con - > out_connect . host_type = cpu_to_le32 ( CEPH_ENTITY_TYPE_CLIENT ) ;
con - > out_connect . connect_seq = cpu_to_le32 ( con - > connect_seq ) ;
con - > out_connect . global_seq = cpu_to_le32 ( global_seq ) ;
con - > out_connect . protocol_version = cpu_to_le32 ( proto ) ;
con - > out_connect . flags = 0 ;
2009-11-11 01:34:36 +03:00
if ( ! after_banner ) {
con - > out_kvec_left = 0 ;
con - > out_kvec_bytes = 0 ;
}
con - > out_kvec [ con - > out_kvec_left ] . iov_base = & con - > out_connect ;
con - > out_kvec [ con - > out_kvec_left ] . iov_len = sizeof ( con - > out_connect ) ;
con - > out_kvec_left + + ;
con - > out_kvec_bytes + = sizeof ( con - > out_connect ) ;
2009-10-06 22:31:13 +04:00
con - > out_kvec_cur = con - > out_kvec ;
con - > out_more = 0 ;
set_bit ( WRITE_PENDING , & con - > state ) ;
2009-11-19 03:19:57 +03:00
prepare_connect_authorizer ( con ) ;
2009-10-06 22:31:13 +04:00
}
/*
* write as much of pending kvecs to the socket as we can .
* 1 - > done
* 0 - > socket full , but more to do
* < 0 - > error
*/
static int write_partial_kvec ( struct ceph_connection * con )
{
int ret ;
dout ( " write_partial_kvec %p %d left \n " , con , con - > out_kvec_bytes ) ;
while ( con - > out_kvec_bytes > 0 ) {
ret = ceph_tcp_sendmsg ( con - > sock , con - > out_kvec_cur ,
con - > out_kvec_left , con - > out_kvec_bytes ,
con - > out_more ) ;
if ( ret < = 0 )
goto out ;
con - > out_kvec_bytes - = ret ;
if ( con - > out_kvec_bytes = = 0 )
break ; /* done */
while ( ret > 0 ) {
if ( ret > = con - > out_kvec_cur - > iov_len ) {
ret - = con - > out_kvec_cur - > iov_len ;
con - > out_kvec_cur + + ;
con - > out_kvec_left - - ;
} else {
con - > out_kvec_cur - > iov_len - = ret ;
con - > out_kvec_cur - > iov_base + = ret ;
ret = 0 ;
break ;
}
}
}
con - > out_kvec_left = 0 ;
con - > out_kvec_is_msg = false ;
ret = 1 ;
out :
dout ( " write_partial_kvec %p %d left in %d kvecs ret = %d \n " , con ,
con - > out_kvec_bytes , con - > out_kvec_left , ret ) ;
return ret ; /* done! */
}
/*
* Write as much message data payload as we can . If we finish , queue
* up the footer .
* 1 - > done , footer is now queued in out_kvec [ ] .
* 0 - > socket full , but more to do
* < 0 - > error
*/
static int write_partial_msg_pages ( struct ceph_connection * con )
{
struct ceph_msg * msg = con - > out_msg ;
unsigned data_len = le32_to_cpu ( msg - > hdr . data_len ) ;
size_t len ;
int crc = con - > msgr - > nocrc ;
int ret ;
dout ( " write_partial_msg_pages %p msg %p page %d/%d offset %d \n " ,
con , con - > out_msg , con - > out_msg_pos . page , con - > out_msg - > nr_pages ,
con - > out_msg_pos . page_pos ) ;
while ( con - > out_msg_pos . page < con - > out_msg - > nr_pages ) {
struct page * page = NULL ;
void * kaddr = NULL ;
/*
* if we are calculating the data crc ( the default ) , we need
* to map the page . if our pages [ ] has been revoked , use the
* zero page .
*/
if ( msg - > pages ) {
page = msg - > pages [ con - > out_msg_pos . page ] ;
if ( crc )
kaddr = kmap ( page ) ;
2009-12-23 23:12:31 +03:00
} else if ( msg - > pagelist ) {
page = list_first_entry ( & msg - > pagelist - > head ,
struct page , lru ) ;
if ( crc )
kaddr = kmap ( page ) ;
2009-10-06 22:31:13 +04:00
} else {
page = con - > msgr - > zero_page ;
if ( crc )
kaddr = page_address ( con - > msgr - > zero_page ) ;
}
len = min ( ( int ) ( PAGE_SIZE - con - > out_msg_pos . page_pos ) ,
( int ) ( data_len - con - > out_msg_pos . data_pos ) ) ;
if ( crc & & ! con - > out_msg_pos . did_page_crc ) {
void * base = kaddr + con - > out_msg_pos . page_pos ;
u32 tmpcrc = le32_to_cpu ( con - > out_msg - > footer . data_crc ) ;
BUG_ON ( kaddr = = NULL ) ;
con - > out_msg - > footer . data_crc =
cpu_to_le32 ( crc32c ( tmpcrc , base , len ) ) ;
con - > out_msg_pos . did_page_crc = 1 ;
}
ret = kernel_sendpage ( con - > sock , page ,
con - > out_msg_pos . page_pos , len ,
MSG_DONTWAIT | MSG_NOSIGNAL |
MSG_MORE ) ;
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if ( crc & & ( msg - > pages | | msg - > pagelist ) )
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kunmap ( page ) ;
if ( ret < = 0 )
goto out ;
con - > out_msg_pos . data_pos + = ret ;
con - > out_msg_pos . page_pos + = ret ;
if ( ret = = len ) {
con - > out_msg_pos . page_pos = 0 ;
con - > out_msg_pos . page + + ;
con - > out_msg_pos . did_page_crc = 0 ;
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if ( msg - > pagelist )
list_move_tail ( & page - > lru ,
& msg - > pagelist - > head ) ;
2009-10-06 22:31:13 +04:00
}
}
dout ( " write_partial_msg_pages %p msg %p done \n " , con , msg ) ;
/* prepare and queue up footer, too */
if ( ! crc )
con - > out_msg - > footer . flags | = CEPH_MSG_FOOTER_NOCRC ;
con - > out_kvec_bytes = 0 ;
con - > out_kvec_left = 0 ;
con - > out_kvec_cur = con - > out_kvec ;
prepare_write_message_footer ( con , 0 ) ;
ret = 1 ;
out :
return ret ;
}
/*
* write some zeros
*/
static int write_partial_skip ( struct ceph_connection * con )
{
int ret ;
while ( con - > out_skip > 0 ) {
struct kvec iov = {
. iov_base = page_address ( con - > msgr - > zero_page ) ,
. iov_len = min ( con - > out_skip , ( int ) PAGE_CACHE_SIZE )
} ;
ret = ceph_tcp_sendmsg ( con - > sock , & iov , 1 , iov . iov_len , 1 ) ;
if ( ret < = 0 )
goto out ;
con - > out_skip - = ret ;
}
ret = 1 ;
out :
return ret ;
}
/*
* Prepare to read connection handshake , or an ack .
*/
2009-11-11 01:34:36 +03:00
static void prepare_read_banner ( struct ceph_connection * con )
{
dout ( " prepare_read_banner %p \n " , con ) ;
con - > in_base_pos = 0 ;
}
2009-10-06 22:31:13 +04:00
static void prepare_read_connect ( struct ceph_connection * con )
{
dout ( " prepare_read_connect %p \n " , con ) ;
con - > in_base_pos = 0 ;
}
2009-11-19 03:19:57 +03:00
static void prepare_read_connect_retry ( struct ceph_connection * con )
{
dout ( " prepare_read_connect_retry %p \n " , con ) ;
con - > in_base_pos = strlen ( CEPH_BANNER ) + sizeof ( con - > actual_peer_addr )
+ sizeof ( con - > peer_addr_for_me ) ;
}
2009-10-06 22:31:13 +04:00
static void prepare_read_ack ( struct ceph_connection * con )
{
dout ( " prepare_read_ack %p \n " , con ) ;
con - > in_base_pos = 0 ;
}
static void prepare_read_tag ( struct ceph_connection * con )
{
dout ( " prepare_read_tag %p \n " , con ) ;
con - > in_base_pos = 0 ;
con - > in_tag = CEPH_MSGR_TAG_READY ;
}
/*
* Prepare to read a message .
*/
static int prepare_read_message ( struct ceph_connection * con )
{
dout ( " prepare_read_message %p \n " , con ) ;
BUG_ON ( con - > in_msg ! = NULL ) ;
con - > in_base_pos = 0 ;
con - > in_front_crc = con - > in_middle_crc = con - > in_data_crc = 0 ;
return 0 ;
}
static int read_partial ( struct ceph_connection * con ,
int * to , int size , void * object )
{
* to + = size ;
while ( con - > in_base_pos < * to ) {
int left = * to - con - > in_base_pos ;
int have = size - left ;
int ret = ceph_tcp_recvmsg ( con - > sock , object + have , left ) ;
if ( ret < = 0 )
return ret ;
con - > in_base_pos + = ret ;
}
return 1 ;
}
/*
* Read all or part of the connect - side handshake on a new connection
*/
2009-11-11 01:34:36 +03:00
static int read_partial_banner ( struct ceph_connection * con )
2009-10-06 22:31:13 +04:00
{
int ret , to = 0 ;
2009-11-11 01:34:36 +03:00
dout ( " read_partial_banner %p at %d \n " , con , con - > in_base_pos ) ;
2009-10-06 22:31:13 +04:00
/* peer's banner */
ret = read_partial ( con , & to , strlen ( CEPH_BANNER ) , con - > in_banner ) ;
if ( ret < = 0 )
goto out ;
ret = read_partial ( con , & to , sizeof ( con - > actual_peer_addr ) ,
& con - > actual_peer_addr ) ;
if ( ret < = 0 )
goto out ;
ret = read_partial ( con , & to , sizeof ( con - > peer_addr_for_me ) ,
& con - > peer_addr_for_me ) ;
if ( ret < = 0 )
goto out ;
2009-11-11 01:34:36 +03:00
out :
return ret ;
}
static int read_partial_connect ( struct ceph_connection * con )
{
int ret , to = 0 ;
dout ( " read_partial_connect %p at %d \n " , con , con - > in_base_pos ) ;
2009-10-06 22:31:13 +04:00
ret = read_partial ( con , & to , sizeof ( con - > in_reply ) , & con - > in_reply ) ;
if ( ret < = 0 )
goto out ;
2009-11-19 03:19:57 +03:00
ret = read_partial ( con , & to , le32_to_cpu ( con - > in_reply . authorizer_len ) ,
con - > auth_reply_buf ) ;
if ( ret < = 0 )
goto out ;
2009-10-06 22:31:13 +04:00
2009-11-19 03:19:57 +03:00
dout ( " read_partial_connect %p tag %d, con_seq = %u, g_seq = %u \n " ,
con , ( int ) con - > in_reply . tag ,
le32_to_cpu ( con - > in_reply . connect_seq ) ,
2009-10-06 22:31:13 +04:00
le32_to_cpu ( con - > in_reply . global_seq ) ) ;
out :
return ret ;
2009-11-11 01:34:36 +03:00
2009-10-06 22:31:13 +04:00
}
/*
* Verify the hello banner looks okay .
*/
static int verify_hello ( struct ceph_connection * con )
{
if ( memcmp ( con - > in_banner , CEPH_BANNER , strlen ( CEPH_BANNER ) ) ) {
2009-10-10 03:36:34 +04:00
pr_err ( " connect to %s got bad banner \n " ,
2009-10-06 22:31:13 +04:00
pr_addr ( & con - > peer_addr . in_addr ) ) ;
con - > error_msg = " protocol error, bad banner " ;
return - 1 ;
}
return 0 ;
}
static bool addr_is_blank ( struct sockaddr_storage * ss )
{
switch ( ss - > ss_family ) {
case AF_INET :
return ( ( struct sockaddr_in * ) ss ) - > sin_addr . s_addr = = 0 ;
case AF_INET6 :
return
( ( struct sockaddr_in6 * ) ss ) - > sin6_addr . s6_addr32 [ 0 ] = = 0 & &
( ( struct sockaddr_in6 * ) ss ) - > sin6_addr . s6_addr32 [ 1 ] = = 0 & &
( ( struct sockaddr_in6 * ) ss ) - > sin6_addr . s6_addr32 [ 2 ] = = 0 & &
( ( struct sockaddr_in6 * ) ss ) - > sin6_addr . s6_addr32 [ 3 ] = = 0 ;
}
return false ;
}
static int addr_port ( struct sockaddr_storage * ss )
{
switch ( ss - > ss_family ) {
case AF_INET :
2009-11-04 22:46:35 +03:00
return ntohs ( ( ( struct sockaddr_in * ) ss ) - > sin_port ) ;
2009-10-06 22:31:13 +04:00
case AF_INET6 :
2009-11-04 22:46:35 +03:00
return ntohs ( ( ( struct sockaddr_in6 * ) ss ) - > sin6_port ) ;
2009-10-06 22:31:13 +04:00
}
return 0 ;
}
static void addr_set_port ( struct sockaddr_storage * ss , int p )
{
switch ( ss - > ss_family ) {
case AF_INET :
( ( struct sockaddr_in * ) ss ) - > sin_port = htons ( p ) ;
case AF_INET6 :
( ( struct sockaddr_in6 * ) ss ) - > sin6_port = htons ( p ) ;
}
}
/*
* Parse an ip [ : port ] list into an addr array . Use the default
* monitor port if a port isn ' t specified .
*/
int ceph_parse_ips ( const char * c , const char * end ,
struct ceph_entity_addr * addr ,
int max_count , int * count )
{
int i ;
const char * p = c ;
dout ( " parse_ips on '%.*s' \n " , ( int ) ( end - c ) , c ) ;
for ( i = 0 ; i < max_count ; i + + ) {
const char * ipend ;
struct sockaddr_storage * ss = & addr [ i ] . in_addr ;
struct sockaddr_in * in4 = ( void * ) ss ;
struct sockaddr_in6 * in6 = ( void * ) ss ;
int port ;
memset ( ss , 0 , sizeof ( * ss ) ) ;
if ( in4_pton ( p , end - p , ( u8 * ) & in4 - > sin_addr . s_addr ,
' , ' , & ipend ) ) {
ss - > ss_family = AF_INET ;
} else if ( in6_pton ( p , end - p , ( u8 * ) & in6 - > sin6_addr . s6_addr ,
' , ' , & ipend ) ) {
ss - > ss_family = AF_INET6 ;
} else {
goto bad ;
}
p = ipend ;
/* port? */
if ( p < end & & * p = = ' : ' ) {
port = 0 ;
p + + ;
while ( p < end & & * p > = ' 0 ' & & * p < = ' 9 ' ) {
port = ( port * 10 ) + ( * p - ' 0 ' ) ;
p + + ;
}
if ( port > 65535 | | port = = 0 )
goto bad ;
} else {
port = CEPH_MON_PORT ;
}
addr_set_port ( ss , port ) ;
dout ( " parse_ips got %s \n " , pr_addr ( ss ) ) ;
if ( p = = end )
break ;
if ( * p ! = ' , ' )
goto bad ;
p + + ;
}
if ( p ! = end )
goto bad ;
if ( count )
* count = i + 1 ;
return 0 ;
bad :
pr_err ( " parse_ips bad ip '%s' \n " , c ) ;
return - EINVAL ;
}
2009-11-11 01:34:36 +03:00
static int process_banner ( struct ceph_connection * con )
2009-10-06 22:31:13 +04:00
{
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dout ( " process_banner on %p \n " , con ) ;
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if ( verify_hello ( con ) < 0 )
return - 1 ;
2009-11-04 02:17:56 +03:00
ceph_decode_addr ( & con - > actual_peer_addr ) ;
ceph_decode_addr ( & con - > peer_addr_for_me ) ;
2009-10-06 22:31:13 +04:00
/*
* Make sure the other end is who we wanted . note that the other
* end may not yet know their ip address , so if it ' s 0.0 .0 .0 , give
* them the benefit of the doubt .
*/
2010-01-08 03:12:36 +03:00
if ( memcmp ( & con - > peer_addr , & con - > actual_peer_addr ,
sizeof ( con - > peer_addr ) ) ! = 0 & &
2009-10-06 22:31:13 +04:00
! ( addr_is_blank ( & con - > actual_peer_addr . in_addr ) & &
con - > actual_peer_addr . nonce = = con - > peer_addr . nonce ) ) {
2010-01-08 03:12:36 +03:00
pr_warning ( " wrong peer, want %s/%lld, got %s/%lld \n " ,
pr_addr ( & con - > peer_addr . in_addr ) ,
le64_to_cpu ( con - > peer_addr . nonce ) ,
pr_addr ( & con - > actual_peer_addr . in_addr ) ,
le64_to_cpu ( con - > actual_peer_addr . nonce ) ) ;
2009-12-23 23:12:31 +03:00
con - > error_msg = " wrong peer at address " ;
2009-10-06 22:31:13 +04:00
return - 1 ;
}
/*
* did we learn our address ?
*/
if ( addr_is_blank ( & con - > msgr - > inst . addr . in_addr ) ) {
int port = addr_port ( & con - > msgr - > inst . addr . in_addr ) ;
memcpy ( & con - > msgr - > inst . addr . in_addr ,
& con - > peer_addr_for_me . in_addr ,
sizeof ( con - > peer_addr_for_me . in_addr ) ) ;
addr_set_port ( & con - > msgr - > inst . addr . in_addr , port ) ;
2009-11-04 02:17:56 +03:00
encode_my_addr ( con - > msgr ) ;
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dout ( " process_banner learned my addr is %s \n " ,
2009-10-06 22:31:13 +04:00
pr_addr ( & con - > msgr - > inst . addr . in_addr ) ) ;
}
2009-11-11 01:34:36 +03:00
set_bit ( NEGOTIATING , & con - > state ) ;
prepare_read_connect ( con ) ;
return 0 ;
}
2009-12-23 20:30:21 +03:00
static void fail_protocol ( struct ceph_connection * con )
{
reset_connection ( con ) ;
set_bit ( CLOSED , & con - > state ) ; /* in case there's queued work */
mutex_unlock ( & con - > mutex ) ;
if ( con - > ops - > bad_proto )
con - > ops - > bad_proto ( con ) ;
mutex_lock ( & con - > mutex ) ;
}
2009-11-11 01:34:36 +03:00
static int process_connect ( struct ceph_connection * con )
{
2009-12-23 20:30:21 +03:00
u64 sup_feat = CEPH_FEATURE_SUPPORTED ;
u64 req_feat = CEPH_FEATURE_REQUIRED ;
u64 server_feat = le64_to_cpu ( con - > in_reply . features ) ;
2009-11-11 01:34:36 +03:00
dout ( " process_connect on %p tag %d \n " , con , ( int ) con - > in_tag ) ;
2009-10-06 22:31:13 +04:00
switch ( con - > in_reply . tag ) {
2009-12-23 20:30:21 +03:00
case CEPH_MSGR_TAG_FEATURES :
pr_err ( " %s%lld %s feature set mismatch, "
" my %llx < server's %llx, missing %llx \n " ,
ENTITY_NAME ( con - > peer_name ) ,
pr_addr ( & con - > peer_addr . in_addr ) ,
sup_feat , server_feat , server_feat & ~ sup_feat ) ;
con - > error_msg = " missing required protocol features " ;
fail_protocol ( con ) ;
return - 1 ;
2009-10-06 22:31:13 +04:00
case CEPH_MSGR_TAG_BADPROTOVER :
pr_err ( " %s%lld %s protocol version mismatch, "
" my %d != server's %d \n " ,
ENTITY_NAME ( con - > peer_name ) ,
pr_addr ( & con - > peer_addr . in_addr ) ,
le32_to_cpu ( con - > out_connect . protocol_version ) ,
le32_to_cpu ( con - > in_reply . protocol_version ) ) ;
con - > error_msg = " protocol version mismatch " ;
2009-12-23 20:30:21 +03:00
fail_protocol ( con ) ;
2009-10-06 22:31:13 +04:00
return - 1 ;
2009-11-19 03:19:57 +03:00
case CEPH_MSGR_TAG_BADAUTHORIZER :
con - > auth_retry + + ;
dout ( " process_connect %p got BADAUTHORIZER attempt %d \n " , con ,
con - > auth_retry ) ;
if ( con - > auth_retry = = 2 ) {
con - > error_msg = " connect authorization failure " ;
reset_connection ( con ) ;
set_bit ( CLOSED , & con - > state ) ;
return - 1 ;
}
con - > auth_retry = 1 ;
prepare_write_connect ( con - > msgr , con , 0 ) ;
prepare_read_connect_retry ( con ) ;
break ;
2009-10-06 22:31:13 +04:00
case CEPH_MSGR_TAG_RESETSESSION :
/*
* If we connected with a large connect_seq but the peer
* has no record of a session with us ( no connection , or
* connect_seq = = 0 ) , they will send RESETSESION to indicate
* that they must have reset their session , and may have
* dropped messages .
*/
dout ( " process_connect got RESET peer seq %u \n " ,
le32_to_cpu ( con - > in_connect . connect_seq ) ) ;
pr_err ( " %s%lld %s connection reset \n " ,
ENTITY_NAME ( con - > peer_name ) ,
pr_addr ( & con - > peer_addr . in_addr ) ) ;
reset_connection ( con ) ;
2009-11-11 01:34:36 +03:00
prepare_write_connect ( con - > msgr , con , 0 ) ;
2009-10-06 22:31:13 +04:00
prepare_read_connect ( con ) ;
/* Tell ceph about it. */
2009-12-22 21:43:42 +03:00
mutex_unlock ( & con - > mutex ) ;
2009-10-06 22:31:13 +04:00
pr_info ( " reset on %s%lld \n " , ENTITY_NAME ( con - > peer_name ) ) ;
if ( con - > ops - > peer_reset )
con - > ops - > peer_reset ( con ) ;
2009-12-22 21:43:42 +03:00
mutex_lock ( & con - > mutex ) ;
2009-10-06 22:31:13 +04:00
break ;
case CEPH_MSGR_TAG_RETRY_SESSION :
/*
* If we sent a smaller connect_seq than the peer has , try
* again with a larger value .
*/
dout ( " process_connect got RETRY my seq = %u, peer_seq = %u \n " ,
le32_to_cpu ( con - > out_connect . connect_seq ) ,
le32_to_cpu ( con - > in_connect . connect_seq ) ) ;
con - > connect_seq = le32_to_cpu ( con - > in_connect . connect_seq ) ;
2009-11-11 01:34:36 +03:00
prepare_write_connect ( con - > msgr , con , 0 ) ;
2009-10-06 22:31:13 +04:00
prepare_read_connect ( con ) ;
break ;
case CEPH_MSGR_TAG_RETRY_GLOBAL :
/*
* If we sent a smaller global_seq than the peer has , try
* again with a larger value .
*/
2009-11-11 01:34:36 +03:00
dout ( " process_connect got RETRY_GLOBAL my %u peer_gseq %u \n " ,
2009-10-06 22:31:13 +04:00
con - > peer_global_seq ,
le32_to_cpu ( con - > in_connect . global_seq ) ) ;
get_global_seq ( con - > msgr ,
le32_to_cpu ( con - > in_connect . global_seq ) ) ;
2009-11-11 01:34:36 +03:00
prepare_write_connect ( con - > msgr , con , 0 ) ;
2009-10-06 22:31:13 +04:00
prepare_read_connect ( con ) ;
break ;
case CEPH_MSGR_TAG_READY :
2009-12-23 20:30:21 +03:00
if ( req_feat & ~ server_feat ) {
pr_err ( " %s%lld %s protocol feature mismatch, "
" my required %llx > server's %llx, need %llx \n " ,
ENTITY_NAME ( con - > peer_name ) ,
pr_addr ( & con - > peer_addr . in_addr ) ,
req_feat , server_feat , req_feat & ~ server_feat ) ;
con - > error_msg = " missing required protocol features " ;
fail_protocol ( con ) ;
return - 1 ;
}
2009-10-06 22:31:13 +04:00
clear_bit ( CONNECTING , & con - > state ) ;
con - > peer_global_seq = le32_to_cpu ( con - > in_reply . global_seq ) ;
con - > connect_seq + + ;
dout ( " process_connect got READY gseq %d cseq %d (%d) \n " ,
con - > peer_global_seq ,
le32_to_cpu ( con - > in_reply . connect_seq ) ,
con - > connect_seq ) ;
WARN_ON ( con - > connect_seq ! =
le32_to_cpu ( con - > in_reply . connect_seq ) ) ;
2009-12-15 01:56:56 +03:00
if ( con - > in_reply . flags & CEPH_MSG_CONNECT_LOSSY )
set_bit ( LOSSYTX , & con - > state ) ;
2009-10-06 22:31:13 +04:00
prepare_read_tag ( con ) ;
break ;
case CEPH_MSGR_TAG_WAIT :
/*
* If there is a connection race ( we are opening
* connections to each other ) , one of us may just have
* to WAIT . This shouldn ' t happen if we are the
* client .
*/
pr_err ( " process_connect peer connecting WAIT \n " ) ;
default :
pr_err ( " connect protocol error, will retry \n " ) ;
con - > error_msg = " protocol error, garbage tag during connect " ;
return - 1 ;
}
return 0 ;
}
/*
* read ( part of ) an ack
*/
static int read_partial_ack ( struct ceph_connection * con )
{
int to = 0 ;
return read_partial ( con , & to , sizeof ( con - > in_temp_ack ) ,
& con - > in_temp_ack ) ;
}
/*
* We can finally discard anything that ' s been acked .
*/
static void process_ack ( struct ceph_connection * con )
{
struct ceph_msg * m ;
u64 ack = le64_to_cpu ( con - > in_temp_ack ) ;
u64 seq ;
while ( ! list_empty ( & con - > out_sent ) ) {
m = list_first_entry ( & con - > out_sent , struct ceph_msg ,
list_head ) ;
seq = le64_to_cpu ( m - > hdr . seq ) ;
if ( seq > ack )
break ;
dout ( " got ack for seq %llu type %d at %p \n " , seq ,
le16_to_cpu ( m - > hdr . type ) , m ) ;
ceph_msg_remove ( m ) ;
}
prepare_read_tag ( con ) ;
}
2010-01-09 00:58:34 +03:00
static int read_partial_message_section ( struct ceph_connection * con ,
struct kvec * section , unsigned int sec_len ,
u32 * crc )
{
int left ;
int ret ;
BUG_ON ( ! section ) ;
while ( section - > iov_len < sec_len ) {
BUG_ON ( section - > iov_base = = NULL ) ;
left = sec_len - section - > iov_len ;
ret = ceph_tcp_recvmsg ( con - > sock , ( char * ) section - > iov_base +
section - > iov_len , left ) ;
if ( ret < = 0 )
return ret ;
section - > iov_len + = ret ;
if ( section - > iov_len = = sec_len )
* crc = crc32c ( 0 , section - > iov_base ,
section - > iov_len ) ;
}
2009-10-06 22:31:13 +04:00
2010-01-09 00:58:34 +03:00
return 1 ;
}
2009-10-06 22:31:13 +04:00
2010-01-09 00:58:34 +03:00
static struct ceph_msg * ceph_alloc_msg ( struct ceph_connection * con ,
struct ceph_msg_header * hdr ,
int * skip ) ;
2009-10-06 22:31:13 +04:00
/*
* read ( part of ) a message .
*/
static int read_partial_message ( struct ceph_connection * con )
{
struct ceph_msg * m = con - > in_msg ;
void * p ;
int ret ;
2010-01-11 21:32:02 +03:00
int to , left ;
2009-10-06 22:31:13 +04:00
unsigned front_len , middle_len , data_len , data_off ;
int datacrc = con - > msgr - > nocrc ;
2010-01-09 00:58:34 +03:00
int skip ;
2009-10-06 22:31:13 +04:00
dout ( " read_partial_message con %p msg %p \n " , con , m ) ;
/* header */
while ( con - > in_base_pos < sizeof ( con - > in_hdr ) ) {
left = sizeof ( con - > in_hdr ) - con - > in_base_pos ;
ret = ceph_tcp_recvmsg ( con - > sock ,
( char * ) & con - > in_hdr + con - > in_base_pos ,
left ) ;
if ( ret < = 0 )
return ret ;
con - > in_base_pos + = ret ;
if ( con - > in_base_pos = = sizeof ( con - > in_hdr ) ) {
u32 crc = crc32c ( 0 , ( void * ) & con - > in_hdr ,
sizeof ( con - > in_hdr ) - sizeof ( con - > in_hdr . crc ) ) ;
if ( crc ! = le32_to_cpu ( con - > in_hdr . crc ) ) {
pr_err ( " read_partial_message bad hdr "
" crc %u != expected %u \n " ,
crc , con - > in_hdr . crc ) ;
return - EBADMSG ;
}
}
}
front_len = le32_to_cpu ( con - > in_hdr . front_len ) ;
if ( front_len > CEPH_MSG_MAX_FRONT_LEN )
return - EIO ;
middle_len = le32_to_cpu ( con - > in_hdr . middle_len ) ;
if ( middle_len > CEPH_MSG_MAX_DATA_LEN )
return - EIO ;
data_len = le32_to_cpu ( con - > in_hdr . data_len ) ;
if ( data_len > CEPH_MSG_MAX_DATA_LEN )
return - EIO ;
2010-01-11 21:32:02 +03:00
data_off = le16_to_cpu ( con - > in_hdr . data_off ) ;
2009-10-06 22:31:13 +04:00
/* allocate message? */
if ( ! con - > in_msg ) {
dout ( " got hdr type %d front %d data %d \n " , con - > in_hdr . type ,
con - > in_hdr . front_len , con - > in_hdr . data_len ) ;
2010-01-09 00:58:34 +03:00
con - > in_msg = ceph_alloc_msg ( con , & con - > in_hdr , & skip ) ;
if ( skip ) {
2009-10-06 22:31:13 +04:00
/* skip this message */
2009-12-11 20:48:05 +03:00
pr_err ( " alloc_msg returned NULL, skipping message \n " ) ;
2009-10-06 22:31:13 +04:00
con - > in_base_pos = - front_len - middle_len - data_len -
sizeof ( m - > footer ) ;
con - > in_tag = CEPH_MSGR_TAG_READY ;
return 0 ;
}
if ( IS_ERR ( con - > in_msg ) ) {
ret = PTR_ERR ( con - > in_msg ) ;
con - > in_msg = NULL ;
2010-01-09 00:58:34 +03:00
con - > error_msg = " error allocating memory for incoming message " ;
2009-10-06 22:31:13 +04:00
return ret ;
}
m = con - > in_msg ;
m - > front . iov_len = 0 ; /* haven't read it yet */
2010-01-09 00:58:34 +03:00
if ( m - > middle )
m - > middle - > vec . iov_len = 0 ;
2010-01-11 21:32:02 +03:00
con - > in_msg_pos . page = 0 ;
con - > in_msg_pos . page_pos = data_off & ~ PAGE_MASK ;
con - > in_msg_pos . data_pos = 0 ;
2009-10-06 22:31:13 +04:00
}
/* front */
2010-01-09 00:58:34 +03:00
ret = read_partial_message_section ( con , & m - > front , front_len ,
& con - > in_front_crc ) ;
if ( ret < = 0 )
return ret ;
2009-10-06 22:31:13 +04:00
/* middle */
2010-01-09 00:58:34 +03:00
if ( m - > middle ) {
ret = read_partial_message_section ( con , & m - > middle - > vec , middle_len ,
& con - > in_middle_crc ) ;
2009-10-06 22:31:13 +04:00
if ( ret < = 0 )
return ret ;
}
/* (page) data */
while ( con - > in_msg_pos . data_pos < data_len ) {
left = min ( ( int ) ( data_len - con - > in_msg_pos . data_pos ) ,
( int ) ( PAGE_SIZE - con - > in_msg_pos . page_pos ) ) ;
BUG_ON ( m - > pages = = NULL ) ;
p = kmap ( m - > pages [ con - > in_msg_pos . page ] ) ;
ret = ceph_tcp_recvmsg ( con - > sock , p + con - > in_msg_pos . page_pos ,
left ) ;
if ( ret > 0 & & datacrc )
con - > in_data_crc =
crc32c ( con - > in_data_crc ,
p + con - > in_msg_pos . page_pos , ret ) ;
kunmap ( m - > pages [ con - > in_msg_pos . page ] ) ;
if ( ret < = 0 )
return ret ;
con - > in_msg_pos . data_pos + = ret ;
con - > in_msg_pos . page_pos + = ret ;
if ( con - > in_msg_pos . page_pos = = PAGE_SIZE ) {
con - > in_msg_pos . page_pos = 0 ;
con - > in_msg_pos . page + + ;
}
}
/* footer */
to = sizeof ( m - > hdr ) + sizeof ( m - > footer ) ;
while ( con - > in_base_pos < to ) {
left = to - con - > in_base_pos ;
ret = ceph_tcp_recvmsg ( con - > sock , ( char * ) & m - > footer +
( con - > in_base_pos - sizeof ( m - > hdr ) ) ,
left ) ;
if ( ret < = 0 )
return ret ;
con - > in_base_pos + = ret ;
}
dout ( " read_partial_message got msg %p %d (%u) + %d (%u) + %d (%u) \n " ,
m , front_len , m - > footer . front_crc , middle_len ,
m - > footer . middle_crc , data_len , m - > footer . data_crc ) ;
/* crc ok? */
if ( con - > in_front_crc ! = le32_to_cpu ( m - > footer . front_crc ) ) {
pr_err ( " read_partial_message %p front crc %u != exp. %u \n " ,
m , con - > in_front_crc , m - > footer . front_crc ) ;
return - EBADMSG ;
}
if ( con - > in_middle_crc ! = le32_to_cpu ( m - > footer . middle_crc ) ) {
pr_err ( " read_partial_message %p middle crc %u != exp %u \n " ,
m , con - > in_middle_crc , m - > footer . middle_crc ) ;
return - EBADMSG ;
}
if ( datacrc & &
( m - > footer . flags & CEPH_MSG_FOOTER_NOCRC ) = = 0 & &
con - > in_data_crc ! = le32_to_cpu ( m - > footer . data_crc ) ) {
pr_err ( " read_partial_message %p data crc %u != exp. %u \n " , m ,
con - > in_data_crc , le32_to_cpu ( m - > footer . data_crc ) ) ;
return - EBADMSG ;
}
return 1 ; /* done! */
}
/*
* Process message . This happens in the worker thread . The callback should
* be careful not to do anything that waits on other incoming messages or it
* may deadlock .
*/
static void process_message ( struct ceph_connection * con )
{
2009-12-15 01:30:34 +03:00
struct ceph_msg * msg ;
2009-10-06 22:31:13 +04:00
2009-12-15 01:30:34 +03:00
msg = con - > in_msg ;
2009-10-06 22:31:13 +04:00
con - > in_msg = NULL ;
/* if first message, set peer_name */
if ( con - > peer_name . type = = 0 )
con - > peer_name = msg - > hdr . src . name ;
con - > in_seq + + ;
2009-12-22 21:43:42 +03:00
mutex_unlock ( & con - > mutex ) ;
2009-10-06 22:31:13 +04:00
dout ( " ===== %p %llu from %s%lld %d=%s len %d+%d (%u %u %u) ===== \n " ,
msg , le64_to_cpu ( msg - > hdr . seq ) ,
ENTITY_NAME ( msg - > hdr . src . name ) ,
le16_to_cpu ( msg - > hdr . type ) ,
ceph_msg_type_name ( le16_to_cpu ( msg - > hdr . type ) ) ,
le32_to_cpu ( msg - > hdr . front_len ) ,
le32_to_cpu ( msg - > hdr . data_len ) ,
con - > in_front_crc , con - > in_middle_crc , con - > in_data_crc ) ;
con - > ops - > dispatch ( con , msg ) ;
2009-12-22 21:43:42 +03:00
mutex_lock ( & con - > mutex ) ;
2009-10-06 22:31:13 +04:00
prepare_read_tag ( con ) ;
}
/*
* Write something to the socket . Called in a worker thread when the
* socket appears to be writeable and we have something ready to send .
*/
static int try_write ( struct ceph_connection * con )
{
struct ceph_messenger * msgr = con - > msgr ;
int ret = 1 ;
dout ( " try_write start %p state %lu nref %d \n " , con , con - > state ,
atomic_read ( & con - > nref ) ) ;
2009-12-22 21:43:42 +03:00
mutex_lock ( & con - > mutex ) ;
2009-10-06 22:31:13 +04:00
more :
dout ( " try_write out_kvec_bytes %d \n " , con - > out_kvec_bytes ) ;
/* open the socket first? */
if ( con - > sock = = NULL ) {
/*
* if we were STANDBY and are reconnecting _this_
* connection , bump connect_seq now . Always bump
* global_seq .
*/
if ( test_and_clear_bit ( STANDBY , & con - > state ) )
con - > connect_seq + + ;
2009-11-11 01:34:36 +03:00
prepare_write_banner ( msgr , con ) ;
prepare_write_connect ( msgr , con , 1 ) ;
prepare_read_banner ( con ) ;
2009-10-06 22:31:13 +04:00
set_bit ( CONNECTING , & con - > state ) ;
2009-11-11 01:34:36 +03:00
clear_bit ( NEGOTIATING , & con - > state ) ;
2009-10-06 22:31:13 +04:00
2009-12-11 20:48:05 +03:00
BUG_ON ( con - > in_msg ) ;
2009-10-06 22:31:13 +04:00
con - > in_tag = CEPH_MSGR_TAG_READY ;
dout ( " try_write initiating connect on %p new state %lu \n " ,
con , con - > state ) ;
con - > sock = ceph_tcp_connect ( con ) ;
if ( IS_ERR ( con - > sock ) ) {
con - > sock = NULL ;
con - > error_msg = " connect error " ;
ret = - 1 ;
goto out ;
}
}
more_kvec :
/* kvec data queued? */
if ( con - > out_skip ) {
ret = write_partial_skip ( con ) ;
if ( ret < = 0 )
goto done ;
if ( ret < 0 ) {
dout ( " try_write write_partial_skip err %d \n " , ret ) ;
goto done ;
}
}
if ( con - > out_kvec_left ) {
ret = write_partial_kvec ( con ) ;
if ( ret < = 0 )
goto done ;
}
/* msg pages? */
if ( con - > out_msg ) {
2009-12-15 01:04:30 +03:00
if ( con - > out_msg_done ) {
ceph_msg_put ( con - > out_msg ) ;
con - > out_msg = NULL ; /* we're done with this one */
goto do_next ;
}
2009-10-06 22:31:13 +04:00
ret = write_partial_msg_pages ( con ) ;
if ( ret = = 1 )
goto more_kvec ; /* we need to send the footer, too! */
if ( ret = = 0 )
goto done ;
if ( ret < 0 ) {
dout ( " try_write write_partial_msg_pages err %d \n " ,
ret ) ;
goto done ;
}
}
2009-12-15 01:04:30 +03:00
do_next :
2009-10-06 22:31:13 +04:00
if ( ! test_bit ( CONNECTING , & con - > state ) ) {
/* is anything else pending? */
if ( ! list_empty ( & con - > out_queue ) ) {
prepare_write_message ( con ) ;
goto more ;
}
if ( con - > in_seq > con - > in_seq_acked ) {
prepare_write_ack ( con ) ;
goto more ;
}
if ( test_and_clear_bit ( KEEPALIVE_PENDING , & con - > state ) ) {
prepare_write_keepalive ( con ) ;
goto more ;
}
}
/* Nothing to do! */
clear_bit ( WRITE_PENDING , & con - > state ) ;
dout ( " try_write nothing else to write. \n " ) ;
done :
ret = 0 ;
out :
2009-12-22 21:43:42 +03:00
mutex_unlock ( & con - > mutex ) ;
2009-10-06 22:31:13 +04:00
dout ( " try_write done on %p \n " , con ) ;
return ret ;
}
/*
* Read what we can from the socket .
*/
static int try_read ( struct ceph_connection * con )
{
struct ceph_messenger * msgr ;
int ret = - 1 ;
if ( ! con - > sock )
return 0 ;
if ( test_bit ( STANDBY , & con - > state ) )
return 0 ;
dout ( " try_read start on %p \n " , con ) ;
msgr = con - > msgr ;
2009-12-22 21:43:42 +03:00
mutex_lock ( & con - > mutex ) ;
2009-10-06 22:31:13 +04:00
more :
dout ( " try_read tag %d in_base_pos %d \n " , ( int ) con - > in_tag ,
con - > in_base_pos ) ;
if ( test_bit ( CONNECTING , & con - > state ) ) {
2009-11-11 01:34:36 +03:00
if ( ! test_bit ( NEGOTIATING , & con - > state ) ) {
dout ( " try_read connecting \n " ) ;
ret = read_partial_banner ( con ) ;
if ( ret < = 0 )
goto done ;
if ( process_banner ( con ) < 0 ) {
ret = - 1 ;
goto out ;
}
}
2009-10-06 22:31:13 +04:00
ret = read_partial_connect ( con ) ;
if ( ret < = 0 )
goto done ;
if ( process_connect ( con ) < 0 ) {
ret = - 1 ;
goto out ;
}
goto more ;
}
if ( con - > in_base_pos < 0 ) {
/*
* skipping + discarding content .
*
* FIXME : there must be a better way to do this !
*/
static char buf [ 1024 ] ;
int skip = min ( 1024 , - con - > in_base_pos ) ;
dout ( " skipping %d / %d bytes \n " , skip , - con - > in_base_pos ) ;
ret = ceph_tcp_recvmsg ( con - > sock , buf , skip ) ;
if ( ret < = 0 )
goto done ;
con - > in_base_pos + = ret ;
if ( con - > in_base_pos )
goto more ;
}
if ( con - > in_tag = = CEPH_MSGR_TAG_READY ) {
/*
* what ' s next ?
*/
ret = ceph_tcp_recvmsg ( con - > sock , & con - > in_tag , 1 ) ;
if ( ret < = 0 )
goto done ;
dout ( " try_read got tag %d \n " , ( int ) con - > in_tag ) ;
switch ( con - > in_tag ) {
case CEPH_MSGR_TAG_MSG :
prepare_read_message ( con ) ;
break ;
case CEPH_MSGR_TAG_ACK :
prepare_read_ack ( con ) ;
break ;
case CEPH_MSGR_TAG_CLOSE :
set_bit ( CLOSED , & con - > state ) ; /* fixme */
goto done ;
default :
goto bad_tag ;
}
}
if ( con - > in_tag = = CEPH_MSGR_TAG_MSG ) {
ret = read_partial_message ( con ) ;
if ( ret < = 0 ) {
switch ( ret ) {
case - EBADMSG :
con - > error_msg = " bad crc " ;
ret = - EIO ;
goto out ;
case - EIO :
con - > error_msg = " io error " ;
goto out ;
default :
goto done ;
}
}
if ( con - > in_tag = = CEPH_MSGR_TAG_READY )
goto more ;
process_message ( con ) ;
goto more ;
}
if ( con - > in_tag = = CEPH_MSGR_TAG_ACK ) {
ret = read_partial_ack ( con ) ;
if ( ret < = 0 )
goto done ;
process_ack ( con ) ;
goto more ;
}
done :
ret = 0 ;
out :
2009-12-22 21:43:42 +03:00
mutex_unlock ( & con - > mutex ) ;
2009-10-06 22:31:13 +04:00
dout ( " try_read done on %p \n " , con ) ;
return ret ;
bad_tag :
pr_err ( " try_read bad con->in_tag = %d \n " , ( int ) con - > in_tag ) ;
con - > error_msg = " protocol error, garbage tag " ;
ret = - 1 ;
goto out ;
}
/*
* Atomically queue work on a connection . Bump @ con reference to
* avoid races with connection teardown .
*
* There is some trickery going on with QUEUED and BUSY because we
* only want a _single_ thread operating on each connection at any
* point in time , but we want to use all available CPUs .
*
* The worker thread only proceeds if it can atomically set BUSY . It
* clears QUEUED and does it ' s thing . When it thinks it ' s done , it
* clears BUSY , then rechecks QUEUED . . if it ' s set again , it loops
* ( tries again to set BUSY ) .
*
* To queue work , we first set QUEUED , _then_ if BUSY isn ' t set , we
* try to queue work . If that fails ( work is already queued , or BUSY )
* we give up ( work also already being done or is queued ) but leave QUEUED
* set so that the worker thread will loop if necessary .
*/
static void queue_con ( struct ceph_connection * con )
{
if ( test_bit ( DEAD , & con - > state ) ) {
dout ( " queue_con %p ignoring: DEAD \n " ,
con ) ;
return ;
}
if ( ! con - > ops - > get ( con ) ) {
dout ( " queue_con %p ref count 0 \n " , con ) ;
return ;
}
set_bit ( QUEUED , & con - > state ) ;
if ( test_bit ( BUSY , & con - > state ) ) {
dout ( " queue_con %p - already BUSY \n " , con ) ;
con - > ops - > put ( con ) ;
} else if ( ! queue_work ( ceph_msgr_wq , & con - > work . work ) ) {
dout ( " queue_con %p - already queued \n " , con ) ;
con - > ops - > put ( con ) ;
} else {
dout ( " queue_con %p \n " , con ) ;
}
}
/*
* Do some work on a connection . Drop a connection ref when we ' re done .
*/
static void con_work ( struct work_struct * work )
{
struct ceph_connection * con = container_of ( work , struct ceph_connection ,
work . work ) ;
int backoff = 0 ;
more :
if ( test_and_set_bit ( BUSY , & con - > state ) ! = 0 ) {
dout ( " con_work %p BUSY already set \n " , con ) ;
goto out ;
}
dout ( " con_work %p start, clearing QUEUED \n " , con ) ;
clear_bit ( QUEUED , & con - > state ) ;
if ( test_bit ( CLOSED , & con - > state ) ) { /* e.g. if we are replaced */
dout ( " con_work CLOSED \n " ) ;
con_close_socket ( con ) ;
goto done ;
}
if ( test_and_clear_bit ( OPENING , & con - > state ) ) {
/* reopen w/ new peer */
dout ( " con_work OPENING \n " ) ;
con_close_socket ( con ) ;
}
if ( test_and_clear_bit ( SOCK_CLOSED , & con - > state ) | |
try_read ( con ) < 0 | |
try_write ( con ) < 0 ) {
backoff = 1 ;
ceph_fault ( con ) ; /* error/fault path */
}
done :
clear_bit ( BUSY , & con - > state ) ;
dout ( " con->state=%lu \n " , con - > state ) ;
if ( test_bit ( QUEUED , & con - > state ) ) {
if ( ! backoff ) {
dout ( " con_work %p QUEUED reset, looping \n " , con ) ;
goto more ;
}
dout ( " con_work %p QUEUED reset, but just faulted \n " , con ) ;
clear_bit ( QUEUED , & con - > state ) ;
}
dout ( " con_work %p done \n " , con ) ;
out :
con - > ops - > put ( con ) ;
}
/*
* Generic error / fault handler . A retry mechanism is used with
* exponential backoff
*/
static void ceph_fault ( struct ceph_connection * con )
{
pr_err ( " %s%lld %s %s \n " , ENTITY_NAME ( con - > peer_name ) ,
pr_addr ( & con - > peer_addr . in_addr ) , con - > error_msg ) ;
dout ( " fault %p state %lu to peer %s \n " ,
con , con - > state , pr_addr ( & con - > peer_addr . in_addr ) ) ;
if ( test_bit ( LOSSYTX , & con - > state ) ) {
dout ( " fault on LOSSYTX channel \n " ) ;
goto out ;
}
clear_bit ( BUSY , & con - > state ) ; /* to avoid an improbable race */
2009-12-22 21:43:42 +03:00
mutex_lock ( & con - > mutex ) ;
2009-10-06 22:31:13 +04:00
con_close_socket ( con ) ;
2009-12-15 01:30:34 +03:00
if ( con - > in_msg ) {
ceph_msg_put ( con - > in_msg ) ;
con - > in_msg = NULL ;
}
2009-10-06 22:31:13 +04:00
2010-02-03 03:21:06 +03:00
/*
* in case we faulted due to authentication , invalidate our
* current tickets so that we can get new ones .
*/
if ( con - > auth_retry & & con - > ops - > invalidate_authorizer ) {
dout ( " calling invalidate_authorizer() \n " ) ;
con - > ops - > invalidate_authorizer ( con ) ;
}
2009-10-06 22:31:13 +04:00
/* If there are no messages in the queue, place the connection
* in a STANDBY state ( i . e . , don ' t try to reconnect just yet ) . */
if ( list_empty ( & con - > out_queue ) & & ! con - > out_keepalive_pending ) {
dout ( " fault setting STANDBY \n " ) ;
set_bit ( STANDBY , & con - > state ) ;
2009-12-22 21:43:42 +03:00
mutex_unlock ( & con - > mutex ) ;
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goto out ;
}
/* Requeue anything that hasn't been acked, and retry after a
* delay . */
list_splice_init ( & con - > out_sent , & con - > out_queue ) ;
if ( con - > delay = = 0 )
con - > delay = BASE_DELAY_INTERVAL ;
else if ( con - > delay < MAX_DELAY_INTERVAL )
con - > delay * = 2 ;
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mutex_unlock ( & con - > mutex ) ;
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/* explicitly schedule work to try to reconnect again later. */
dout ( " fault queueing %p delay %lu \n " , con , con - > delay ) ;
con - > ops - > get ( con ) ;
if ( queue_delayed_work ( ceph_msgr_wq , & con - > work ,
round_jiffies_relative ( con - > delay ) ) = = 0 )
con - > ops - > put ( con ) ;
out :
if ( con - > ops - > fault )
con - > ops - > fault ( con ) ;
}
/*
* create a new messenger instance
*/
struct ceph_messenger * ceph_messenger_create ( struct ceph_entity_addr * myaddr )
{
struct ceph_messenger * msgr ;
msgr = kzalloc ( sizeof ( * msgr ) , GFP_KERNEL ) ;
if ( msgr = = NULL )
return ERR_PTR ( - ENOMEM ) ;
spin_lock_init ( & msgr - > global_seq_lock ) ;
/* the zero page is needed if a request is "canceled" while the message
* is being written over the socket */
msgr - > zero_page = alloc_page ( GFP_KERNEL | __GFP_ZERO ) ;
if ( ! msgr - > zero_page ) {
kfree ( msgr ) ;
return ERR_PTR ( - ENOMEM ) ;
}
kmap ( msgr - > zero_page ) ;
if ( myaddr )
msgr - > inst . addr = * myaddr ;
/* select a random nonce */
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msgr - > inst . addr . type = 0 ;
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get_random_bytes ( & msgr - > inst . addr . nonce , sizeof ( msgr - > inst . addr . nonce ) ) ;
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encode_my_addr ( msgr ) ;
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dout ( " messenger_create %p \n " , msgr ) ;
return msgr ;
}
void ceph_messenger_destroy ( struct ceph_messenger * msgr )
{
dout ( " destroy %p \n " , msgr ) ;
kunmap ( msgr - > zero_page ) ;
__free_page ( msgr - > zero_page ) ;
kfree ( msgr ) ;
dout ( " destroyed messenger %p \n " , msgr ) ;
}
/*
* Queue up an outgoing message on the given connection .
*/
void ceph_con_send ( struct ceph_connection * con , struct ceph_msg * msg )
{
if ( test_bit ( CLOSED , & con - > state ) ) {
dout ( " con_send %p closed, dropping %p \n " , con , msg ) ;
ceph_msg_put ( msg ) ;
return ;
}
/* set src+dst */
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msg - > hdr . src . name = con - > msgr - > inst . name ;
msg - > hdr . src . addr = con - > msgr - > my_enc_addr ;
msg - > hdr . orig_src = msg - > hdr . src ;
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/* queue */
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mutex_lock ( & con - > mutex ) ;
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BUG_ON ( ! list_empty ( & msg - > list_head ) ) ;
list_add_tail ( & msg - > list_head , & con - > out_queue ) ;
dout ( " ----- %p to %s%lld %d=%s len %d+%d+%d ----- \n " , msg ,
ENTITY_NAME ( con - > peer_name ) , le16_to_cpu ( msg - > hdr . type ) ,
ceph_msg_type_name ( le16_to_cpu ( msg - > hdr . type ) ) ,
le32_to_cpu ( msg - > hdr . front_len ) ,
le32_to_cpu ( msg - > hdr . middle_len ) ,
le32_to_cpu ( msg - > hdr . data_len ) ) ;
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mutex_unlock ( & con - > mutex ) ;
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/* if there wasn't anything waiting to send before, queue
* new work */
if ( test_and_set_bit ( WRITE_PENDING , & con - > state ) = = 0 )
queue_con ( con ) ;
}
/*
* Revoke a message that was previously queued for send
*/
void ceph_con_revoke ( struct ceph_connection * con , struct ceph_msg * msg )
{
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mutex_lock ( & con - > mutex ) ;
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if ( ! list_empty ( & msg - > list_head ) ) {
dout ( " con_revoke %p msg %p \n " , con , msg ) ;
list_del_init ( & msg - > list_head ) ;
ceph_msg_put ( msg ) ;
msg - > hdr . seq = 0 ;
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if ( con - > out_msg = = msg ) {
ceph_msg_put ( con - > out_msg ) ;
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con - > out_msg = NULL ;
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}
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if ( con - > out_kvec_is_msg ) {
con - > out_skip = con - > out_kvec_bytes ;
con - > out_kvec_is_msg = false ;
}
} else {
dout ( " con_revoke %p msg %p - not queued (sent?) \n " , con , msg ) ;
}
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mutex_unlock ( & con - > mutex ) ;
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}
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/*
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* Revoke a message that we may be reading data into
2009-12-22 21:45:45 +03:00
*/
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void ceph_con_revoke_message ( struct ceph_connection * con , struct ceph_msg * msg )
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{
mutex_lock ( & con - > mutex ) ;
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if ( con - > in_msg & & con - > in_msg = = msg ) {
unsigned front_len = le32_to_cpu ( con - > in_hdr . front_len ) ;
unsigned middle_len = le32_to_cpu ( con - > in_hdr . middle_len ) ;
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unsigned data_len = le32_to_cpu ( con - > in_hdr . data_len ) ;
/* skip rest of message */
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dout ( " con_revoke_pages %p msg %p revoked \n " , con , msg ) ;
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con - > in_base_pos = con - > in_base_pos -
sizeof ( struct ceph_msg_header ) -
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front_len -
middle_len -
data_len -
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sizeof ( struct ceph_msg_footer ) ;
ceph_msg_put ( con - > in_msg ) ;
con - > in_msg = NULL ;
con - > in_tag = CEPH_MSGR_TAG_READY ;
} else {
dout ( " con_revoke_pages %p msg %p pages %p no-op \n " ,
2010-01-14 04:03:23 +03:00
con , con - > in_msg , msg ) ;
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}
mutex_unlock ( & con - > mutex ) ;
}
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/*
* Queue a keepalive byte to ensure the tcp connection is alive .
*/
void ceph_con_keepalive ( struct ceph_connection * con )
{
if ( test_and_set_bit ( KEEPALIVE_PENDING , & con - > state ) = = 0 & &
test_and_set_bit ( WRITE_PENDING , & con - > state ) = = 0 )
queue_con ( con ) ;
}
/*
* construct a new message with given type , size
* the new msg has a ref count of 1.
*/
struct ceph_msg * ceph_msg_new ( int type , int front_len ,
int page_len , int page_off , struct page * * pages )
{
struct ceph_msg * m ;
m = kmalloc ( sizeof ( * m ) , GFP_NOFS ) ;
if ( m = = NULL )
goto out ;
2009-12-08 02:55:05 +03:00
kref_init ( & m - > kref ) ;
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INIT_LIST_HEAD ( & m - > list_head ) ;
m - > hdr . type = cpu_to_le16 ( type ) ;
m - > hdr . front_len = cpu_to_le32 ( front_len ) ;
m - > hdr . middle_len = 0 ;
m - > hdr . data_len = cpu_to_le32 ( page_len ) ;
m - > hdr . data_off = cpu_to_le16 ( page_off ) ;
m - > hdr . priority = cpu_to_le16 ( CEPH_MSG_PRIO_DEFAULT ) ;
m - > footer . front_crc = 0 ;
m - > footer . middle_crc = 0 ;
m - > footer . data_crc = 0 ;
m - > front_max = front_len ;
m - > front_is_vmalloc = false ;
m - > more_to_follow = false ;
m - > pool = NULL ;
/* front */
if ( front_len ) {
if ( front_len > PAGE_CACHE_SIZE ) {
m - > front . iov_base = __vmalloc ( front_len , GFP_NOFS ,
PAGE_KERNEL ) ;
m - > front_is_vmalloc = true ;
} else {
m - > front . iov_base = kmalloc ( front_len , GFP_NOFS ) ;
}
if ( m - > front . iov_base = = NULL ) {
pr_err ( " msg_new can't allocate %d bytes \n " ,
front_len ) ;
goto out2 ;
}
} else {
m - > front . iov_base = NULL ;
}
m - > front . iov_len = front_len ;
/* middle */
m - > middle = NULL ;
/* data */
m - > nr_pages = calc_pages_for ( page_off , page_len ) ;
m - > pages = pages ;
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m - > pagelist = NULL ;
2009-10-06 22:31:13 +04:00
dout ( " ceph_msg_new %p page %d~%d -> %d \n " , m , page_off , page_len ,
m - > nr_pages ) ;
return m ;
out2 :
ceph_msg_put ( m ) ;
out :
pr_err ( " msg_new can't create type %d len %d \n " , type , front_len ) ;
return ERR_PTR ( - ENOMEM ) ;
}
/*
* Allocate " middle " portion of a message , if it is needed and wasn ' t
* allocated by alloc_msg . This allows us to read a small fixed - size
* per - type header in the front and then gracefully fail ( i . e . ,
* propagate the error to the caller based on info in the front ) when
* the middle is too large .
*/
2010-01-09 00:58:34 +03:00
static int ceph_alloc_middle ( struct ceph_connection * con , struct ceph_msg * msg )
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{
int type = le16_to_cpu ( msg - > hdr . type ) ;
int middle_len = le32_to_cpu ( msg - > hdr . middle_len ) ;
dout ( " alloc_middle %p type %d %s middle_len %d \n " , msg , type ,
ceph_msg_type_name ( type ) , middle_len ) ;
BUG_ON ( ! middle_len ) ;
BUG_ON ( msg - > middle ) ;
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msg - > middle = ceph_buffer_new ( middle_len , GFP_NOFS ) ;
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if ( ! msg - > middle )
return - ENOMEM ;
return 0 ;
}
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/*
* Generic message allocator , for incoming messages .
*/
static struct ceph_msg * ceph_alloc_msg ( struct ceph_connection * con ,
struct ceph_msg_header * hdr ,
int * skip )
{
int type = le16_to_cpu ( hdr - > type ) ;
int front_len = le32_to_cpu ( hdr - > front_len ) ;
int middle_len = le32_to_cpu ( hdr - > middle_len ) ;
struct ceph_msg * msg = NULL ;
int ret ;
if ( con - > ops - > alloc_msg ) {
2010-01-12 01:47:13 +03:00
mutex_unlock ( & con - > mutex ) ;
2010-01-09 00:58:34 +03:00
msg = con - > ops - > alloc_msg ( con , hdr , skip ) ;
2010-01-12 01:47:13 +03:00
mutex_lock ( & con - > mutex ) ;
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if ( IS_ERR ( msg ) )
return msg ;
if ( * skip )
return NULL ;
}
if ( ! msg ) {
* skip = 0 ;
msg = ceph_msg_new ( type , front_len , 0 , 0 , NULL ) ;
if ( ! msg ) {
pr_err ( " unable to allocate msg type %d len %d \n " ,
type , front_len ) ;
return ERR_PTR ( - ENOMEM ) ;
}
}
2010-01-11 21:32:02 +03:00
memcpy ( & msg - > hdr , & con - > in_hdr , sizeof ( con - > in_hdr ) ) ;
2010-01-09 00:58:34 +03:00
if ( middle_len ) {
ret = ceph_alloc_middle ( con , msg ) ;
if ( ret < 0 ) {
ceph_msg_put ( msg ) ;
return msg ;
}
}
2010-01-11 21:32:02 +03:00
2010-01-09 00:58:34 +03:00
return msg ;
}
2009-10-06 22:31:13 +04:00
/*
* Free a generically kmalloc ' d message .
*/
void ceph_msg_kfree ( struct ceph_msg * m )
{
dout ( " msg_kfree %p \n " , m ) ;
if ( m - > front_is_vmalloc )
vfree ( m - > front . iov_base ) ;
else
kfree ( m - > front . iov_base ) ;
kfree ( m ) ;
}
/*
* Drop a msg ref . Destroy as needed .
*/
2009-12-08 02:55:05 +03:00
void ceph_msg_last_put ( struct kref * kref )
{
struct ceph_msg * m = container_of ( kref , struct ceph_msg , kref ) ;
2009-10-06 22:31:13 +04:00
2009-12-08 02:55:05 +03:00
dout ( " ceph_msg_put last one on %p \n " , m ) ;
WARN_ON ( ! list_empty ( & m - > list_head ) ) ;
/* drop middle, data, if any */
if ( m - > middle ) {
ceph_buffer_put ( m - > middle ) ;
m - > middle = NULL ;
2009-10-06 22:31:13 +04:00
}
2009-12-08 02:55:05 +03:00
m - > nr_pages = 0 ;
m - > pages = NULL ;
2009-12-23 23:12:31 +03:00
if ( m - > pagelist ) {
ceph_pagelist_release ( m - > pagelist ) ;
kfree ( m - > pagelist ) ;
m - > pagelist = NULL ;
}
2009-12-08 02:55:05 +03:00
if ( m - > pool )
ceph_msgpool_put ( m - > pool , m ) ;
else
ceph_msg_kfree ( m ) ;
2009-10-06 22:31:13 +04:00
}
2009-12-15 02:13:47 +03:00
void ceph_msg_dump ( struct ceph_msg * msg )
{
pr_debug ( " msg_dump %p (front_max %d nr_pages %d) \n " , msg ,
msg - > front_max , msg - > nr_pages ) ;
print_hex_dump ( KERN_DEBUG , " header: " ,
DUMP_PREFIX_OFFSET , 16 , 1 ,
& msg - > hdr , sizeof ( msg - > hdr ) , true ) ;
print_hex_dump ( KERN_DEBUG , " front: " ,
DUMP_PREFIX_OFFSET , 16 , 1 ,
msg - > front . iov_base , msg - > front . iov_len , true ) ;
if ( msg - > middle )
print_hex_dump ( KERN_DEBUG , " middle: " ,
DUMP_PREFIX_OFFSET , 16 , 1 ,
msg - > middle - > vec . iov_base ,
msg - > middle - > vec . iov_len , true ) ;
print_hex_dump ( KERN_DEBUG , " footer: " ,
DUMP_PREFIX_OFFSET , 16 , 1 ,
& msg - > footer , sizeof ( msg - > footer ) , true ) ;
}