blob: 2e8070272431575fc1a297efaafd0effc6cac729 [file] [log] [blame]
/*
* Copyright (C) 2010 Michael Brown <mbrown@fensystems.co.uk>.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of the
* License, or any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
* 02110-1301, USA.
*
* You can also choose to distribute this program under the terms of
* the Unmodified Binary Distribution Licence (as given in the file
* COPYING.UBDL), provided that you have satisfied its requirements.
*/
FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );
#include <stddef.h>
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <errno.h>
#include <assert.h>
#include <byteswap.h>
#include <ipxe/refcnt.h>
#include <ipxe/list.h>
#include <ipxe/tables.h>
#include <ipxe/timer.h>
#include <ipxe/retry.h>
#include <ipxe/interface.h>
#include <ipxe/xfer.h>
#include <ipxe/iobuf.h>
#include <ipxe/fc.h>
#include <ipxe/fcels.h>
#include <ipxe/fcns.h>
/** @file
*
* Fibre Channel
*
*/
/** List of Fibre Channel ports */
LIST_HEAD ( fc_ports );
/** List of Fibre Channel peers */
LIST_HEAD ( fc_peers );
/******************************************************************************
*
* Well-known addresses
*
******************************************************************************
*/
/** Unassigned port ID */
struct fc_port_id fc_empty_port_id = { .bytes = { 0x00, 0x00, 0x00 } };
/** F_Port contoller port ID */
struct fc_port_id fc_f_port_id = { .bytes = { 0xff, 0xff, 0xfe } };
/** Generic services port ID */
struct fc_port_id fc_gs_port_id = { .bytes = { 0xff, 0xff, 0xfc } };
/** Point-to-point low port ID */
struct fc_port_id fc_ptp_low_port_id = { .bytes = { 0x01, 0x01, 0x01 } };
/** Point-to-point high port ID */
struct fc_port_id fc_ptp_high_port_id = { .bytes = { 0x01, 0x01, 0x02 } };
/******************************************************************************
*
* Utility functions
*
******************************************************************************
*/
/**
* Format Fibre Channel port ID
*
* @v id Fibre Channel port ID
* @ret id_text Port ID text
*/
const char * fc_id_ntoa ( const struct fc_port_id *id ) {
static char id_text[ FC_PORT_ID_STRLEN + 1 /* NUL */ ];
snprintf ( id_text, sizeof ( id_text ), "%02x.%02x.%02x",
id->bytes[0], id->bytes[1], id->bytes[2] );
return id_text;
}
/**
* Parse Fibre Channel port ID
*
* @v id_text Port ID text
* @ret id Fibre Channel port ID
* @ret rc Return status code
*/
int fc_id_aton ( const char *id_text, struct fc_port_id *id ) {
char *ptr = ( ( char * ) id_text );
unsigned int i = 0;
while ( 1 ) {
id->bytes[i++] = strtoul ( ptr, &ptr, 16 );
if ( i == sizeof ( id->bytes ) )
return ( ( *ptr == '\0' ) ? 0 : -EINVAL );
if ( *ptr != '.' )
return -EINVAL;
ptr++;
}
}
/**
* Format Fibre Channel WWN
*
* @v wwn Fibre Channel WWN
* @ret wwn_text WWN text
*/
const char * fc_ntoa ( const struct fc_name *wwn ) {
static char wwn_text[ FC_NAME_STRLEN + 1 /* NUL */ ];
snprintf ( wwn_text, sizeof ( wwn_text ),
"%02x:%02x:%02x:%02x:%02x:%02x:%02x:%02x",
wwn->bytes[0], wwn->bytes[1], wwn->bytes[2], wwn->bytes[3],
wwn->bytes[4], wwn->bytes[5], wwn->bytes[6], wwn->bytes[7] );
return wwn_text;
}
/**
* Parse Fibre Channel WWN
*
* @v wwn_text WWN text
* @ret wwn Fibre Channel WWN
* @ret rc Return status code
*/
int fc_aton ( const char *wwn_text, struct fc_name *wwn ) {
char *ptr = ( ( char * ) wwn_text );
unsigned int i = 0;
while ( 1 ) {
wwn->bytes[i++] = strtoul ( ptr, &ptr, 16 );
if ( i == sizeof ( wwn->bytes ) )
return ( ( *ptr == '\0' ) ? 0 : -EINVAL );
if ( *ptr != ':' )
return -EINVAL;
ptr++;
}
}
/**
* Fill Fibre Channel socket address
*
* @v sa_fc Fibre Channel socket address to fill in
* @v id Fibre Channel port ID
* @ret sa Socket address
*/
struct sockaddr * fc_fill_sockaddr ( struct sockaddr_fc *sa_fc,
struct fc_port_id *id ) {
union {
struct sockaddr sa;
struct sockaddr_fc fc;
} *u = container_of ( sa_fc, typeof ( *u ), fc );
memset ( sa_fc, 0, sizeof ( *sa_fc ) );
sa_fc->sfc_family = AF_FC;
memcpy ( &sa_fc->sfc_port_id, id, sizeof ( sa_fc->sfc_port_id ) );
return &u->sa;
}
/******************************************************************************
*
* Fibre Channel link state
*
******************************************************************************
*/
/** Default link status code */
#define EUNKNOWN_LINK_STATUS __einfo_error ( EINFO_EUNKNOWN_LINK_STATUS )
#define EINFO_EUNKNOWN_LINK_STATUS \
__einfo_uniqify ( EINFO_EINPROGRESS, 0x01, "Unknown" )
/**
* Mark Fibre Channel link as up
*
* @v link Fibre Channel link state monitor
*/
static void fc_link_up ( struct fc_link_state *link ) {
/* Stop retry timer */
stop_timer ( &link->timer );
/* Record link state */
link->rc = 0;
}
/**
* Mark Fibre Channel link as down
*
* @v link Fibre Channel link state monitor
* @v rc Link state
*/
static void fc_link_err ( struct fc_link_state *link, int rc ) {
/* Record link state */
if ( rc == 0 )
rc = -EUNKNOWN_LINK_STATUS;
link->rc = rc;
/* Schedule another link examination */
start_timer_fixed ( &link->timer, FC_LINK_RETRY_DELAY );
}
/**
* Examine Fibre Channel link state
*
* @v link Fibre Channel link state monitor
*/
static void fc_link_examine ( struct fc_link_state *link ) {
link->examine ( link );
}
/**
* Handle Fibre Channel link retry timer expiry
*/
static void fc_link_expired ( struct retry_timer *timer, int over __unused ) {
struct fc_link_state *link =
container_of ( timer, struct fc_link_state, timer );
/* Schedule another link examination */
start_timer_fixed ( &link->timer, FC_LINK_RETRY_DELAY );
/* Examine link */
fc_link_examine ( link );
}
/**
* Initialise Fibre Channel link state monitor
*
* @v link Fibre Channel link state monitor
* @v examine Examine link state method
* @v refcnt Reference counter
*/
static void fc_link_init ( struct fc_link_state *link,
void ( * examine ) ( struct fc_link_state *link ),
struct refcnt *refcnt ) {
link->rc = -EUNKNOWN_LINK_STATUS;
timer_init ( &link->timer, fc_link_expired, refcnt );
link->examine = examine;
}
/**
* Start monitoring Fibre Channel link state
*
* @v link Fibre Channel link state monitor
*/
static void fc_link_start ( struct fc_link_state *link ) {
start_timer_nodelay ( &link->timer );
}
/**
* Stop monitoring Fibre Channel link state
*
* @v link Fibre Channel link state monitor
*/
static void fc_link_stop ( struct fc_link_state *link ) {
stop_timer ( &link->timer );
}
/******************************************************************************
*
* Fibre Channel exchanges
*
******************************************************************************
*/
/** A Fibre Channel exchange */
struct fc_exchange {
/** Reference count */
struct refcnt refcnt;
/** Fibre Channel port */
struct fc_port *port;
/** List of active exchanges within this port */
struct list_head list;
/** Peer port ID */
struct fc_port_id peer_port_id;
/** Data structure type */
unsigned int type;
/** Flags */
unsigned int flags;
/** Local exchange ID */
uint16_t xchg_id;
/** Peer exchange ID */
uint16_t peer_xchg_id;
/** Active sequence ID */
uint8_t seq_id;
/** Active sequence count */
uint16_t seq_cnt;
/** Timeout timer */
struct retry_timer timer;
/** Upper-layer protocol interface */
struct interface ulp;
};
/** Fibre Channel exchange flags */
enum fc_exchange_flags {
/** We are the exchange originator */
FC_XCHG_ORIGINATOR = 0x0001,
/** We have the sequence initiative */
FC_XCHG_SEQ_INITIATIVE = 0x0002,
/** This is the first sequence of the exchange */
FC_XCHG_SEQ_FIRST = 0x0004,
};
/** Fibre Channel timeout */
#define FC_TIMEOUT ( 1 * TICKS_PER_SEC )
/**
* Create local Fibre Channel exchange identifier
*
* @ret xchg_id Local exchange ID
*/
static unsigned int fc_new_xchg_id ( void ) {
static uint16_t next_id = 0x0000;
/* We must avoid using FC_RX_ID_UNKNOWN (0xffff) */
next_id += 2;
return next_id;
}
/**
* Create local Fibre Channel sequence identifier
*
* @ret seq_id Local sequence identifier
*/
static unsigned int fc_new_seq_id ( void ) {
static uint8_t seq_id = 0x00;
return (++seq_id);
}
/**
* Free Fibre Channel exchange
*
* @v refcnt Reference count
*/
static void fc_xchg_free ( struct refcnt *refcnt ) {
struct fc_exchange *xchg =
container_of ( refcnt, struct fc_exchange, refcnt );
assert ( ! timer_running ( &xchg->timer ) );
assert ( list_empty ( &xchg->list ) );
fc_port_put ( xchg->port );
free ( xchg );
}
/**
* Close Fibre Channel exchange
*
* @v xchg Fibre Channel exchange
* @v rc Reason for close
*/
static void fc_xchg_close ( struct fc_exchange *xchg, int rc ) {
struct fc_port *port = xchg->port;
if ( rc != 0 ) {
DBGC2 ( port, "FCXCHG %s/%04x closed: %s\n",
port->name, xchg->xchg_id, strerror ( rc ) );
}
/* Stop timer */
stop_timer ( &xchg->timer );
/* If list still holds a reference, remove from list of open
* exchanges and drop list's reference.
*/
if ( ! list_empty ( &xchg->list ) ) {
list_del ( &xchg->list );
INIT_LIST_HEAD ( &xchg->list );
ref_put ( &xchg->refcnt );
}
/* Shutdown interfaces */
intf_shutdown ( &xchg->ulp, rc );
}
/**
* Handle exchange timeout
*
* @v timer Timeout timer
* @v over Failure indicator
*/
static void fc_xchg_expired ( struct retry_timer *timer, int over __unused ) {
struct fc_exchange *xchg =
container_of ( timer, struct fc_exchange, timer );
struct fc_port *port = xchg->port;
DBGC ( port, "FCXCHG %s/%04x timed out\n", port->name, xchg->xchg_id );
/* Terminate the exchange */
fc_xchg_close ( xchg, -ETIMEDOUT );
}
/**
* Check Fibre Channel exchange window
*
* @v xchg Fibre Channel exchange
* @ret len Length opf window
*/
static size_t fc_xchg_window ( struct fc_exchange *xchg __unused ) {
/* We don't currently store the path MTU */
return FC_LOGIN_DEFAULT_MTU;
}
/**
* Allocate Fibre Channel I/O buffer
*
* @v xchg Fibre Channel exchange
* @v len Payload length
* @ret iobuf I/O buffer, or NULL
*/
static struct io_buffer * fc_xchg_alloc_iob ( struct fc_exchange *xchg,
size_t len ) {
struct fc_port *port = xchg->port;
struct io_buffer *iobuf;
iobuf = xfer_alloc_iob ( &port->transport,
( sizeof ( struct fc_frame_header ) + len ) );
if ( iobuf ) {
iob_reserve ( iobuf, sizeof ( struct fc_frame_header ) );
}
return iobuf;
}
/**
* Transmit data as part of a Fibre Channel exchange
*
* @v xchg Fibre Channel exchange
* @v iobuf I/O buffer
* @v meta Data transfer metadata
* @ret rc Return status code
*/
static int fc_xchg_tx ( struct fc_exchange *xchg, struct io_buffer *iobuf,
struct xfer_metadata *meta ) {
struct fc_port *port = xchg->port;
struct sockaddr_fc *dest = ( ( struct sockaddr_fc * ) meta->dest );
struct fc_frame_header *fchdr;
unsigned int r_ctl;
unsigned int f_ctl_es;
int rc;
/* Sanity checks */
if ( ! ( xchg->flags & FC_XCHG_SEQ_INITIATIVE ) ) {
DBGC ( port, "FCXCHG %s/%04x cannot transmit while not "
"holding sequence initiative\n",
port->name, xchg->xchg_id );
rc = -EBUSY;
goto done;
}
/* Calculate routing control */
switch ( xchg->type ) {
case FC_TYPE_ELS:
r_ctl = FC_R_CTL_ELS;
if ( meta->flags & XFER_FL_RESPONSE ) {
r_ctl |= FC_R_CTL_SOL_CTRL;
} else {
r_ctl |= FC_R_CTL_UNSOL_CTRL;
}
break;
case FC_TYPE_CT:
r_ctl = FC_R_CTL_DATA;
if ( meta->flags & XFER_FL_RESPONSE ) {
r_ctl |= FC_R_CTL_SOL_CTRL;
} else {
r_ctl |= FC_R_CTL_UNSOL_CTRL;
}
break;
default:
r_ctl = FC_R_CTL_DATA;
switch ( meta->flags &
( XFER_FL_CMD_STAT | XFER_FL_RESPONSE ) ) {
case ( XFER_FL_CMD_STAT | XFER_FL_RESPONSE ):
r_ctl |= FC_R_CTL_CMD_STAT;
break;
case ( XFER_FL_CMD_STAT ):
r_ctl |= FC_R_CTL_UNSOL_CMD;
break;
case ( XFER_FL_RESPONSE ):
r_ctl |= FC_R_CTL_SOL_DATA;
break;
default:
r_ctl |= FC_R_CTL_UNSOL_DATA;
break;
}
break;
}
/* Calculate exchange and sequence control */
f_ctl_es = 0;
if ( ! ( xchg->flags & FC_XCHG_ORIGINATOR ) )
f_ctl_es |= FC_F_CTL_ES_RESPONDER;
if ( xchg->flags & FC_XCHG_SEQ_FIRST )
f_ctl_es |= FC_F_CTL_ES_FIRST;
if ( meta->flags & XFER_FL_OUT )
f_ctl_es |= ( FC_F_CTL_ES_END | FC_F_CTL_ES_LAST );
if ( meta->flags & XFER_FL_OVER )
f_ctl_es |= ( FC_F_CTL_ES_END | FC_F_CTL_ES_TRANSFER );
/* Create frame header */
fchdr = iob_push ( iobuf, sizeof ( *fchdr ) );
memset ( fchdr, 0, sizeof ( *fchdr ) );
fchdr->r_ctl = r_ctl;
memcpy ( &fchdr->d_id,
( dest ? &dest->sfc_port_id : &xchg->peer_port_id ),
sizeof ( fchdr->d_id ) );
memcpy ( &fchdr->s_id, &port->port_id, sizeof ( fchdr->s_id ) );
fchdr->type = xchg->type;
fchdr->f_ctl_es = f_ctl_es;
fchdr->seq_id = xchg->seq_id;
fchdr->seq_cnt = htons ( xchg->seq_cnt++ );
fchdr->ox_id = htons ( ( xchg->flags & FC_XCHG_ORIGINATOR ) ?
xchg->xchg_id : xchg->peer_xchg_id );
fchdr->rx_id = htons ( ( xchg->flags & FC_XCHG_ORIGINATOR ) ?
xchg->peer_xchg_id : xchg->xchg_id );
if ( meta->flags & XFER_FL_ABS_OFFSET ) {
fchdr->f_ctl_misc |= FC_F_CTL_MISC_REL_OFF;
fchdr->parameter = htonl ( meta->offset );
}
/* Relinquish sequence initiative if applicable */
if ( meta->flags & XFER_FL_OVER ) {
xchg->flags &= ~( FC_XCHG_SEQ_INITIATIVE | FC_XCHG_SEQ_FIRST );
xchg->seq_cnt = 0;
}
/* Reset timeout */
start_timer_fixed ( &xchg->timer, FC_TIMEOUT );
/* Deliver frame */
if ( ( rc = xfer_deliver_iob ( &port->transport,
iob_disown ( iobuf ) ) ) != 0 ) {
DBGC ( port, "FCXCHG %s/%04x cannot transmit: %s\n",
port->name, xchg->xchg_id, strerror ( rc ) );
goto done;
}
done:
free_iob ( iobuf );
return rc;
}
/** Mapping from Fibre Channel routing control information to xfer metadata */
static const uint8_t fc_r_ctl_info_meta_flags[ FC_R_CTL_INFO_MASK + 1 ] = {
[FC_R_CTL_UNCAT] = ( 0 ),
[FC_R_CTL_SOL_DATA] = ( XFER_FL_RESPONSE ),
[FC_R_CTL_UNSOL_CTRL] = ( XFER_FL_CMD_STAT ),
[FC_R_CTL_SOL_CTRL] = ( XFER_FL_CMD_STAT ),
[FC_R_CTL_UNSOL_DATA] = ( 0 ),
[FC_R_CTL_DATA_DESC] = ( XFER_FL_CMD_STAT ),
[FC_R_CTL_UNSOL_CMD] = ( XFER_FL_CMD_STAT ),
[FC_R_CTL_CMD_STAT] = ( XFER_FL_CMD_STAT | XFER_FL_RESPONSE ),
};
/**
* Receive data as part of a Fibre Channel exchange
*
* @v xchg Fibre Channel exchange
* @v iobuf I/O buffer
* @v meta Data transfer metadata
* @ret rc Return status code
*/
static int fc_xchg_rx ( struct fc_exchange *xchg, struct io_buffer *iobuf,
struct xfer_metadata *meta __unused ) {
struct fc_port *port = xchg->port;
struct fc_frame_header *fchdr = iobuf->data;
struct xfer_metadata fc_meta;
struct sockaddr_fc src;
struct sockaddr_fc dest;
int rc;
/* Record peer exchange ID */
xchg->peer_xchg_id =
ntohs ( ( fchdr->f_ctl_es & FC_F_CTL_ES_RESPONDER ) ?
fchdr->rx_id : fchdr->ox_id );
/* Sequence checks */
if ( xchg->flags & FC_XCHG_SEQ_INITIATIVE ) {
DBGC ( port, "FCXCHG %s/%04x received frame while holding "
"sequence initiative\n", port->name, xchg->xchg_id );
rc = -EBUSY;
goto done;
}
if ( ntohs ( fchdr->seq_cnt ) != xchg->seq_cnt ) {
DBGC ( port, "FCXCHG %s/%04x received out-of-order frame %d "
"(expected %d)\n", port->name, xchg->xchg_id,
ntohs ( fchdr->seq_cnt ), xchg->seq_cnt );
rc = -EPIPE;
goto done;
}
if ( xchg->seq_cnt == 0 )
xchg->seq_id = fchdr->seq_id;
xchg->seq_cnt++;
if ( fchdr->seq_id != xchg->seq_id ) {
DBGC ( port, "FCXCHG %s/%04x received frame for incorrect "
"sequence %02x (expected %02x)\n", port->name,
xchg->xchg_id, fchdr->seq_id, xchg->seq_id );
rc = -EPIPE;
goto done;
}
/* Check for end of sequence and transfer of sequence initiative */
if ( fchdr->f_ctl_es & FC_F_CTL_ES_END ) {
xchg->seq_cnt = 0;
if ( fchdr->f_ctl_es & FC_F_CTL_ES_TRANSFER ) {
xchg->flags |= FC_XCHG_SEQ_INITIATIVE;
xchg->seq_id = fc_new_seq_id();
}
}
/* Construct metadata */
memset ( &fc_meta, 0, sizeof ( fc_meta ) );
fc_meta.flags =
fc_r_ctl_info_meta_flags[ fchdr->r_ctl & FC_R_CTL_INFO_MASK ];
if ( fchdr->f_ctl_es & FC_F_CTL_ES_TRANSFER ) {
fc_meta.flags |= XFER_FL_OVER;
}
if ( ( fchdr->f_ctl_es & FC_F_CTL_ES_LAST ) &&
( fchdr->f_ctl_es & FC_F_CTL_ES_END ) ) {
fc_meta.flags |= XFER_FL_OUT;
}
if ( fchdr->f_ctl_misc & FC_F_CTL_MISC_REL_OFF ) {
fc_meta.flags |= XFER_FL_ABS_OFFSET;
fc_meta.offset = ntohl ( fchdr->parameter );
}
fc_meta.src = fc_fill_sockaddr ( &src, &fchdr->s_id );
fc_meta.dest = fc_fill_sockaddr ( &dest, &fchdr->d_id );
/* Reset timeout */
start_timer_fixed ( &xchg->timer, FC_TIMEOUT );
/* Deliver via exchange's ULP interface */
iob_pull ( iobuf, sizeof ( *fchdr ) );
if ( ( rc = xfer_deliver ( &xchg->ulp, iob_disown ( iobuf ),
&fc_meta ) ) != 0 ) {
DBGC ( port, "FCXCHG %s/%04x cannot deliver frame: %s\n",
port->name, xchg->xchg_id, strerror ( rc ) );
goto done;
}
/* Close exchange if applicable */
if ( ( fchdr->f_ctl_es & FC_F_CTL_ES_LAST ) &&
( fchdr->f_ctl_es & FC_F_CTL_ES_END ) ) {
fc_xchg_close ( xchg, 0 );
}
done:
free_iob ( iobuf );
return rc;
}
/** Fibre Channel exchange ULP interface operations */
static struct interface_operation fc_xchg_ulp_op[] = {
INTF_OP ( xfer_deliver, struct fc_exchange *, fc_xchg_tx ),
INTF_OP ( xfer_alloc_iob, struct fc_exchange *, fc_xchg_alloc_iob ),
INTF_OP ( xfer_window, struct fc_exchange *, fc_xchg_window ),
INTF_OP ( intf_close, struct fc_exchange *, fc_xchg_close ),
};
/** Fibre Channel exchange ULP interface descriptor */
static struct interface_descriptor fc_xchg_ulp_desc =
INTF_DESC ( struct fc_exchange, ulp, fc_xchg_ulp_op );
/**
* Create new Fibre Channel exchange
*
* @v port Fibre Channel port
* @v peer_port_id Peer port ID
* @ret xchg Exchange, or NULL
*/
static struct fc_exchange * fc_xchg_create ( struct fc_port *port,
struct fc_port_id *peer_port_id,
unsigned int type ) {
struct fc_exchange *xchg;
/* Allocate and initialise structure */
xchg = zalloc ( sizeof ( *xchg ) );
if ( ! xchg )
return NULL;
ref_init ( &xchg->refcnt, fc_xchg_free );
intf_init ( &xchg->ulp, &fc_xchg_ulp_desc, &xchg->refcnt );
timer_init ( &xchg->timer, fc_xchg_expired, &xchg->refcnt );
xchg->port = fc_port_get ( port );
memcpy ( &xchg->peer_port_id, peer_port_id,
sizeof ( xchg->peer_port_id ) );
xchg->type = type;
xchg->xchg_id = fc_new_xchg_id();
xchg->peer_xchg_id = FC_RX_ID_UNKNOWN;
xchg->seq_id = fc_new_seq_id();
/* Transfer reference to list of exchanges and return */
list_add ( &xchg->list, &port->xchgs );
return xchg;
}
/**
* Originate a new Fibre Channel exchange
*
* @v parent Interface to which to attach
* @v port Fibre Channel port
* @v peer_port_id Peer port ID
* @ret xchg_id Exchange ID, or negative error
*/
int fc_xchg_originate ( struct interface *parent, struct fc_port *port,
struct fc_port_id *peer_port_id, unsigned int type ) {
struct fc_exchange *xchg;
/* Allocate and initialise structure */
xchg = fc_xchg_create ( port, peer_port_id, type );
if ( ! xchg )
return -ENOMEM;
xchg->flags = ( FC_XCHG_ORIGINATOR | FC_XCHG_SEQ_INITIATIVE |
FC_XCHG_SEQ_FIRST );
DBGC2 ( port, "FCXCHG %s/%04x originating to %s (type %02x)\n",
port->name, xchg->xchg_id, fc_id_ntoa ( &xchg->peer_port_id ),
xchg->type );
/* Attach to parent interface and return */
intf_plug_plug ( &xchg->ulp, parent );
return xchg->xchg_id;
}
/**
* Open a new responder Fibre Channel exchange
*
* @v port Fibre Channel port
* @v fchdr Fibre Channel frame header
* @ret xchg Fibre Channel exchange, or NULL
*/
static struct fc_exchange * fc_xchg_respond ( struct fc_port *port,
struct fc_frame_header *fchdr ) {
struct fc_exchange *xchg;
struct fc_responder *responder;
unsigned int type = fchdr->type;
int rc;
/* Allocate and initialise structure */
xchg = fc_xchg_create ( port, &fchdr->s_id, type );
if ( ! xchg )
return NULL;
xchg->seq_id = fchdr->seq_id;
DBGC2 ( port, "FCXCHG %s/%04x responding to %s xchg %04x (type "
"%02x)\n", port->name, xchg->xchg_id,
fc_id_ntoa ( &xchg->peer_port_id ),
ntohs ( fchdr->ox_id ), xchg->type );
/* Find a responder, if any */
for_each_table_entry ( responder, FC_RESPONDERS ) {
if ( responder->type == type ) {
if ( ( rc = responder->respond ( &xchg->ulp, port,
&fchdr->d_id,
&fchdr->s_id ) ) !=0 ){
DBGC ( port, "FCXCHG %s/%04x could not "
"respond: %s\n", port->name,
xchg->xchg_id, strerror ( rc ) );
}
}
break;
}
/* We may or may not have a ULP attached at this point, but
* the exchange does exist.
*/
return xchg;
}
/******************************************************************************
*
* Fibre Channel ports
*
******************************************************************************
*/
/**
* Close Fibre Channel port
*
* @v port Fibre Channel port
* @v rc Reason for close
*/
static void fc_port_close ( struct fc_port *port, int rc ) {
struct fc_exchange *xchg;
struct fc_exchange *tmp;
DBGC ( port, "FCPORT %s closed\n", port->name );
/* Log out port, if necessary */
if ( fc_link_ok ( &port->link ) )
fc_port_logout ( port, rc );
/* Stop link monitor */
fc_link_stop ( &port->link );
/* Shut down interfaces */
intf_shutdown ( &port->transport, rc );
intf_shutdown ( &port->flogi, rc );
intf_shutdown ( &port->ns_plogi, rc );
/* Shut down any remaining exchanges */
list_for_each_entry_safe ( xchg, tmp, &port->xchgs, list )
fc_xchg_close ( xchg, rc );
/* Remove from list of ports */
list_del ( &port->list );
INIT_LIST_HEAD ( &port->list );
}
/**
* Identify Fibre Channel exchange by local exchange ID
*
* @v port Fibre Channel port
* @v xchg_id Local exchange ID
* @ret xchg Fibre Channel exchange, or NULL
*/
static struct fc_exchange * fc_port_demux ( struct fc_port *port,
unsigned int xchg_id ) {
struct fc_exchange *xchg;
list_for_each_entry ( xchg, &port->xchgs, list ) {
if ( xchg->xchg_id == xchg_id )
return xchg;
}
return NULL;
}
/**
* Handle received frame from Fibre Channel port
*
* @v port Fibre Channel port
* @v iobuf I/O buffer
* @v meta Data transfer metadata
* @ret rc Return status code
*/
static int fc_port_deliver ( struct fc_port *port, struct io_buffer *iobuf,
struct xfer_metadata *meta ) {
struct fc_frame_header *fchdr = iobuf->data;
unsigned int xchg_id;
struct fc_exchange *xchg;
int rc;
/* Sanity check */
if ( iob_len ( iobuf ) < sizeof ( *fchdr ) ) {
DBGC ( port, "FCPORT %s received underlength frame (%zd "
"bytes)\n", port->name, iob_len ( iobuf ) );
rc = -EINVAL;
goto err_sanity;
}
/* Verify local port ID */
if ( ( memcmp ( &fchdr->d_id, &port->port_id,
sizeof ( fchdr->d_id ) ) != 0 ) &&
( memcmp ( &fchdr->d_id, &fc_f_port_id,
sizeof ( fchdr->d_id ) ) != 0 ) &&
( memcmp ( &port->port_id, &fc_empty_port_id,
sizeof ( port->port_id ) ) != 0 ) ) {
DBGC ( port, "FCPORT %s received frame for incorrect port ID "
"%s\n", port->name, fc_id_ntoa ( &fchdr->d_id ) );
rc = -ENOTCONN;
goto err_port_id;
}
/* Demultiplex amongst active exchanges */
xchg_id = ntohs ( ( fchdr->f_ctl_es & FC_F_CTL_ES_RESPONDER ) ?
fchdr->ox_id : fchdr->rx_id );
xchg = fc_port_demux ( port, xchg_id );
/* If we have no active exchange and this frame starts a new
* exchange, try to create a new responder exchange
*/
if ( ( fchdr->f_ctl_es & FC_F_CTL_ES_FIRST ) &&
( fchdr->seq_cnt == 0 ) ) {
/* Create new exchange */
xchg = fc_xchg_respond ( port, fchdr );
if ( ! xchg ) {
DBGC ( port, "FCPORT %s cannot create new exchange\n",
port->name );
rc = -ENOMEM;
goto err_respond;
}
}
/* Fail if no exchange exists */
if ( ! xchg ) {
DBGC ( port, "FCPORT %s xchg %04x unknown\n",
port->name, xchg_id );
rc = -ENOTCONN;
goto err_no_xchg;
}
/* Pass received frame to exchange */
ref_get ( &xchg->refcnt );
if ( ( rc = fc_xchg_rx ( xchg, iob_disown ( iobuf ), meta ) ) != 0 )
goto err_xchg_rx;
err_xchg_rx:
ref_put ( &xchg->refcnt );
err_no_xchg:
err_respond:
err_port_id:
err_sanity:
free_iob ( iobuf );
return rc;
}
/**
* Log in Fibre Channel port
*
* @v port Fibre Channel port
* @v port_id Local port ID
* @v link_node_wwn Link node name
* @v link_port_wwn Link port name
* @v has_fabric Link is to a fabric
* @ret rc Return status code
*/
int fc_port_login ( struct fc_port *port, struct fc_port_id *port_id,
const struct fc_name *link_node_wwn,
const struct fc_name *link_port_wwn, int has_fabric ) {
struct fc_peer *peer;
struct fc_peer *tmp;
int rc;
/* Perform implicit logout if logged in and details differ */
if ( fc_link_ok ( &port->link ) &&
( ( ( !! ( port->flags & FC_PORT_HAS_FABRIC ) ) !=
( !! has_fabric ) ) ||
( memcmp ( &port->link_node_wwn, link_node_wwn,
sizeof ( port->link_node_wwn ) ) != 0 ) ||
( memcmp ( &port->link_port_wwn, link_port_wwn,
sizeof ( port->link_port_wwn ) ) != 0 ) ||
( has_fabric &&
( memcmp ( &port->port_id, port_id,
sizeof ( port->port_id ) ) != 0 ) ) ) ) {
fc_port_logout ( port, 0 );
}
/* Log in, if applicable */
if ( ! fc_link_ok ( &port->link ) ) {
/* Record link port name */
memcpy ( &port->link_node_wwn, link_node_wwn,
sizeof ( port->link_node_wwn ) );
memcpy ( &port->link_port_wwn, link_port_wwn,
sizeof ( port->link_port_wwn ) );
DBGC ( port, "FCPORT %s logged in to %s",
port->name, fc_ntoa ( &port->link_node_wwn ) );
DBGC ( port, " port %s\n", fc_ntoa ( &port->link_port_wwn ) );
/* Calculate local (and possibly remote) port IDs */
if ( has_fabric ) {
port->flags |= FC_PORT_HAS_FABRIC;
memcpy ( &port->port_id, port_id,
sizeof ( port->port_id ) );
} else {
port->flags &= ~FC_PORT_HAS_FABRIC;
if ( memcmp ( &port->port_wwn, link_port_wwn,
sizeof ( port->port_wwn ) ) > 0 ) {
memcpy ( &port->port_id, &fc_ptp_high_port_id,
sizeof ( port->port_id ) );
memcpy ( &port->ptp_link_port_id,
&fc_ptp_low_port_id,
sizeof ( port->ptp_link_port_id ) );
} else {
memcpy ( &port->port_id, &fc_ptp_low_port_id,
sizeof ( port->port_id ) );
memcpy ( &port->ptp_link_port_id,
&fc_ptp_high_port_id,
sizeof ( port->ptp_link_port_id ) );
}
}
DBGC ( port, "FCPORT %s logged in via a %s, with local ID "
"%s\n", port->name,
( ( port->flags & FC_PORT_HAS_FABRIC ) ?
"fabric" : "point-to-point link" ),
fc_id_ntoa ( &port->port_id ) );
}
/* Log in to name server, if attached to a fabric */
if ( has_fabric && ! ( port->flags & FC_PORT_HAS_NS ) ) {
DBGC ( port, "FCPORT %s attempting login to name server\n",
port->name );
intf_restart ( &port->ns_plogi, -ECANCELED );
if ( ( rc = fc_els_plogi ( &port->ns_plogi, port,
&fc_gs_port_id ) ) != 0 ) {
DBGC ( port, "FCPORT %s could not initiate name "
"server PLOGI: %s\n",
port->name, strerror ( rc ) );
fc_port_logout ( port, rc );
return rc;
}
}
/* Record login */
fc_link_up ( &port->link );
/* Notify peers of link state change */
list_for_each_entry_safe ( peer, tmp, &fc_peers, list ) {
fc_peer_get ( peer );
fc_link_examine ( &peer->link );
fc_peer_put ( peer );
}
return 0;
}
/**
* Log out Fibre Channel port
*
* @v port Fibre Channel port
* @v rc Reason for logout
*/
void fc_port_logout ( struct fc_port *port, int rc ) {
struct fc_peer *peer;
struct fc_peer *tmp;
DBGC ( port, "FCPORT %s logged out: %s\n",
port->name, strerror ( rc ) );
/* Erase port details */
memset ( &port->port_id, 0, sizeof ( port->port_id ) );
port->flags = 0;
/* Record logout */
fc_link_err ( &port->link, rc );
/* Notify peers of link state change */
list_for_each_entry_safe ( peer, tmp, &fc_peers, list ) {
fc_peer_get ( peer );
fc_link_examine ( &peer->link );
fc_peer_put ( peer );
}
}
/**
* Handle FLOGI completion
*
* @v port Fibre Channel port
* @v rc Reason for completion
*/
static void fc_port_flogi_done ( struct fc_port *port, int rc ) {
intf_restart ( &port->flogi, rc );
if ( rc != 0 )
fc_port_logout ( port, rc );
}
/**
* Handle name server PLOGI completion
*
* @v port Fibre Channel port
* @v rc Reason for completion
*/
static void fc_port_ns_plogi_done ( struct fc_port *port, int rc ) {
intf_restart ( &port->ns_plogi, rc );
if ( rc == 0 ) {
port->flags |= FC_PORT_HAS_NS;
DBGC ( port, "FCPORT %s logged in to name server\n",
port->name );
} else {
DBGC ( port, "FCPORT %s could not log in to name server: %s\n",
port->name, strerror ( rc ) );
/* Absence of a name server is not a fatal error */
}
}
/**
* Examine Fibre Channel port link state
*
* @ link Fibre Channel link state monitor
*/
static void fc_port_examine ( struct fc_link_state *link ) {
struct fc_port *port = container_of ( link, struct fc_port, link );
int rc;
/* Do nothing if already logged in */
if ( fc_link_ok ( &port->link ) )
return;
DBGC ( port, "FCPORT %s attempting login\n", port->name );
/* Try to create FLOGI ELS */
intf_restart ( &port->flogi, -ECANCELED );
if ( ( rc = fc_els_flogi ( &port->flogi, port ) ) != 0 ) {
DBGC ( port, "FCPORT %s could not initiate FLOGI: %s\n",
port->name, strerror ( rc ) );
fc_port_logout ( port, rc );
return;
}
}
/**
* Handle change of flow control window
*
* @v port Fibre Channel port
*/
static void fc_port_window_changed ( struct fc_port *port ) {
size_t window;
/* Check if transport layer is ready */
window = xfer_window ( &port->transport );
if ( window > 0 ) {
/* Transport layer is ready. Start login if the link
* is not already up.
*/
if ( ! fc_link_ok ( &port->link ) )
fc_link_start ( &port->link );
} else {
/* Transport layer is not ready. Log out port and
* wait for transport layer before attempting log in
* again.
*/
fc_port_logout ( port, -ENOTCONN );
fc_link_stop ( &port->link );
}
}
/** Fibre Channel port transport interface operations */
static struct interface_operation fc_port_transport_op[] = {
INTF_OP ( xfer_deliver, struct fc_port *, fc_port_deliver ),
INTF_OP ( xfer_window_changed, struct fc_port *,
fc_port_window_changed ),
INTF_OP ( intf_close, struct fc_port *, fc_port_close ),
};
/** Fibre Channel port transport interface descriptor */
static struct interface_descriptor fc_port_transport_desc =
INTF_DESC ( struct fc_port, transport, fc_port_transport_op );
/** Fibre Channel port FLOGI interface operations */
static struct interface_operation fc_port_flogi_op[] = {
INTF_OP ( intf_close, struct fc_port *, fc_port_flogi_done ),
};
/** Fibre Channel port FLOGI interface descriptor */
static struct interface_descriptor fc_port_flogi_desc =
INTF_DESC ( struct fc_port, flogi, fc_port_flogi_op );
/** Fibre Channel port name server PLOGI interface operations */
static struct interface_operation fc_port_ns_plogi_op[] = {
INTF_OP ( intf_close, struct fc_port *, fc_port_ns_plogi_done ),
};
/** Fibre Channel port name server PLOGI interface descriptor */
static struct interface_descriptor fc_port_ns_plogi_desc =
INTF_DESC ( struct fc_port, ns_plogi, fc_port_ns_plogi_op );
/**
* Create Fibre Channel port
*
* @v transport Transport interface
* @v node Fibre Channel node name
* @v port Fibre Channel port name
* @v name Symbolic port name
* @ret rc Return status code
*/
int fc_port_open ( struct interface *transport, const struct fc_name *node_wwn,
const struct fc_name *port_wwn, const char *name ) {
struct fc_port *port;
/* Allocate and initialise structure */
port = zalloc ( sizeof ( *port ) );
if ( ! port )
return -ENOMEM;
ref_init ( &port->refcnt, NULL );
intf_init ( &port->transport, &fc_port_transport_desc, &port->refcnt );
fc_link_init ( &port->link, fc_port_examine, &port->refcnt );
intf_init ( &port->flogi, &fc_port_flogi_desc, &port->refcnt );
intf_init ( &port->ns_plogi, &fc_port_ns_plogi_desc, &port->refcnt );
list_add_tail ( &port->list, &fc_ports );
INIT_LIST_HEAD ( &port->xchgs );
memcpy ( &port->node_wwn, node_wwn, sizeof ( port->node_wwn ) );
memcpy ( &port->port_wwn, port_wwn, sizeof ( port->port_wwn ) );
snprintf ( port->name, sizeof ( port->name ), "%s", name );
DBGC ( port, "FCPORT %s opened as %s",
port->name, fc_ntoa ( &port->node_wwn ) );
DBGC ( port, " port %s\n", fc_ntoa ( &port->port_wwn ) );
/* Attach to transport layer, mortalise self, and return */
intf_plug_plug ( &port->transport, transport );
ref_put ( &port->refcnt );
return 0;
}
/**
* Find Fibre Channel port by name
*
* @v name Fibre Channel port name
* @ret port Fibre Channel port, or NULL
*/
struct fc_port * fc_port_find ( const char *name ) {
struct fc_port *port;
list_for_each_entry ( port, &fc_ports, list ) {
if ( strcmp ( name, port->name ) == 0 )
return port;
}
return NULL;
}
/******************************************************************************
*
* Fibre Channel peers
*
******************************************************************************
*/
/**
* Close Fibre Channel peer
*
* @v peer Fibre Channel peer
* @v rc Reason for close
*/
static void fc_peer_close ( struct fc_peer *peer, int rc ) {
DBGC ( peer, "FCPEER %s closed: %s\n",
fc_ntoa ( &peer->port_wwn ) , strerror ( rc ) );
/* Sanity check */
assert ( list_empty ( &peer->ulps ) );
/* Stop link timer */
fc_link_stop ( &peer->link );
/* Shut down interfaces */
intf_shutdown ( &peer->plogi, rc );
/* Remove from list of peers */
list_del ( &peer->list );
INIT_LIST_HEAD ( &peer->list );
}
/**
* Increment Fibre Channel peer active usage count
*
* @v peer Fibre Channel peer
*/
static void fc_peer_increment ( struct fc_peer *peer ) {
/* Increment our usage count */
peer->usage++;
}
/**
* Decrement Fibre Channel peer active usage count
*
* @v peer Fibre Channel peer
*/
static void fc_peer_decrement ( struct fc_peer *peer ) {
/* Sanity check */
assert ( peer->usage > 0 );
/* Decrement our usage count and log out if we reach zero */
if ( --(peer->usage) == 0 )
fc_peer_logout ( peer, 0 );
}
/**
* Log in Fibre Channel peer
*
* @v peer Fibre Channel peer
* @v port Fibre Channel port
* @v port_id Port ID
* @ret rc Return status code
*/
int fc_peer_login ( struct fc_peer *peer, struct fc_port *port,
struct fc_port_id *port_id ) {
struct fc_ulp *ulp;
struct fc_ulp *tmp;
/* Perform implicit logout if logged in and details differ */
if ( fc_link_ok ( &peer->link ) &&
( ( peer->port != port ) ||
( memcmp ( &peer->port_id, port_id,
sizeof ( peer->port_id ) ) !=0 ) ) ) {
fc_peer_logout ( peer, 0 );
}
/* Log in, if applicable */
if ( ! fc_link_ok ( &peer->link ) ) {
/* Record peer details */
assert ( peer->port == NULL );
peer->port = fc_port_get ( port );
memcpy ( &peer->port_id, port_id, sizeof ( peer->port_id ) );
DBGC ( peer, "FCPEER %s logged in via %s as %s\n",
fc_ntoa ( &peer->port_wwn ), peer->port->name,
fc_id_ntoa ( &peer->port_id ) );
/* Add login reference */
fc_peer_get ( peer );
}
/* Record login */
fc_link_up ( &peer->link );
/* Notify ULPs of link state change */
list_for_each_entry_safe ( ulp, tmp, &peer->ulps, list ) {
fc_ulp_get ( ulp );
fc_link_examine ( &ulp->link );
fc_ulp_put ( ulp );
}
return 0;
}
/**
* Log out Fibre Channel peer
*
* @v peer Fibre Channel peer
* @v rc Reason for logout
*/
void fc_peer_logout ( struct fc_peer *peer, int rc ) {
struct fc_ulp *ulp;
struct fc_ulp *tmp;
DBGC ( peer, "FCPEER %s logged out: %s\n",
fc_ntoa ( &peer->port_wwn ), strerror ( rc ) );
/* Drop login reference, if applicable */
if ( fc_link_ok ( &peer->link ) )
fc_peer_put ( peer );
/* Erase peer details */
fc_port_put ( peer->port );
peer->port = NULL;
/* Record logout */
fc_link_err ( &peer->link, rc );
/* Notify ULPs of link state change */
list_for_each_entry_safe ( ulp, tmp, &peer->ulps, list ) {
fc_ulp_get ( ulp );
fc_link_examine ( &ulp->link );
fc_ulp_put ( ulp );
}
/* Close peer if there are no active users */
if ( peer->usage == 0 )
fc_peer_close ( peer, rc );
}
/**
* Handle PLOGI completion
*
* @v peer Fibre Channel peer
* @v rc Reason for completion
*/
static void fc_peer_plogi_done ( struct fc_peer *peer, int rc ) {
intf_restart ( &peer->plogi, rc );
if ( rc != 0 )
fc_peer_logout ( peer, rc );
}
/**
* Initiate PLOGI
*
* @v peer Fibre Channel peer
* @v port Fibre Channel port
* @v peer_port_id Peer port ID
* @ret rc Return status code
*/
static int fc_peer_plogi ( struct fc_peer *peer, struct fc_port *port,
struct fc_port_id *peer_port_id ) {
int rc;
/* Try to create PLOGI ELS */
intf_restart ( &peer->plogi, -ECANCELED );
if ( ( rc = fc_els_plogi ( &peer->plogi, port, peer_port_id ) ) != 0 ) {
DBGC ( peer, "FCPEER %s could not initiate PLOGI: %s\n",
fc_ntoa ( &peer->port_wwn ), strerror ( rc ) );
fc_peer_logout ( peer, rc );
return rc;
}
return 0;
}
/**
* Examine Fibre Channel peer link state
*
* @ link Fibre Channel link state monitor
*/
static void fc_peer_examine ( struct fc_link_state *link ) {
struct fc_peer *peer = container_of ( link, struct fc_peer, link );
struct fc_port *port;
int rc;
/* Check to see if underlying port link has gone down */
if ( peer->port && ( ! fc_link_ok ( &peer->port->link ) ) ) {
fc_peer_logout ( peer, -ENOTCONN );
return;
}
/* Do nothing if already logged in */
if ( fc_link_ok ( &peer->link ) )
return;
DBGC ( peer, "FCPEER %s attempting login\n",
fc_ntoa ( &peer->port_wwn ) );
/* Sanity check */
assert ( peer->port == NULL );
/* First, look for a port with the peer attached via a
* point-to-point link.
*/
list_for_each_entry ( port, &fc_ports, list ) {
if ( fc_link_ok ( &port->link ) &&
( ! ( port->flags & FC_PORT_HAS_FABRIC ) ) &&
( memcmp ( &peer->port_wwn, &port->link_port_wwn,
sizeof ( peer->port_wwn ) ) == 0 ) ) {
/* Use this peer port ID, and stop looking */
fc_peer_plogi ( peer, port, &port->ptp_link_port_id );
return;
}
}
/* If the peer is not directly attached, try initiating a name
* server lookup on any suitable ports.
*/
list_for_each_entry ( port, &fc_ports, list ) {
if ( fc_link_ok ( &port->link ) &&
( port->flags & FC_PORT_HAS_FABRIC ) &&
( port->flags & FC_PORT_HAS_NS ) ) {
if ( ( rc = fc_ns_query ( peer, port,
fc_peer_plogi ) ) != 0 ) {
DBGC ( peer, "FCPEER %s could not attempt "
"name server lookup on %s: %s\n",
fc_ntoa ( &peer->port_wwn ), port->name,
strerror ( rc ) );
/* Non-fatal */
}
}
}
}
/** Fibre Channel peer PLOGI interface operations */
static struct interface_operation fc_peer_plogi_op[] = {
INTF_OP ( intf_close, struct fc_peer *, fc_peer_plogi_done ),
};
/** Fibre Channel peer PLOGI interface descriptor */
static struct interface_descriptor fc_peer_plogi_desc =
INTF_DESC ( struct fc_peer, plogi, fc_peer_plogi_op );
/**
* Create Fibre Channel peer
*
* @v port_wwn Node name
* @ret peer Fibre Channel peer, or NULL
*/
static struct fc_peer * fc_peer_create ( const struct fc_name *port_wwn ) {
struct fc_peer *peer;
/* Allocate and initialise structure */
peer = zalloc ( sizeof ( *peer ) );
if ( ! peer )
return NULL;
ref_init ( &peer->refcnt, NULL );
fc_link_init ( &peer->link, fc_peer_examine, &peer->refcnt );
intf_init ( &peer->plogi, &fc_peer_plogi_desc, &peer->refcnt );
list_add_tail ( &peer->list, &fc_peers );
memcpy ( &peer->port_wwn, port_wwn, sizeof ( peer->port_wwn ) );
INIT_LIST_HEAD ( &peer->ulps );
/* Start link monitor */
fc_link_start ( &peer->link );
DBGC ( peer, "FCPEER %s created\n", fc_ntoa ( &peer->port_wwn ) );
return peer;
}
/**
* Get Fibre Channel peer by node name
*
* @v port_wwn Node name
* @ret peer Fibre Channel peer, or NULL
*/
struct fc_peer * fc_peer_get_wwn ( const struct fc_name *port_wwn ) {
struct fc_peer *peer;
/* Look for an existing peer */
list_for_each_entry ( peer, &fc_peers, list ) {
if ( memcmp ( &peer->port_wwn, port_wwn,
sizeof ( peer->port_wwn ) ) == 0 )
return fc_peer_get ( peer );
}
/* Create a new peer */
peer = fc_peer_create ( port_wwn );
if ( ! peer )
return NULL;
return peer;
}
/**
* Get Fibre Channel peer by port ID
*
* @v port Fibre Channel port
* @v peer_port_id Peer port ID
* @ret peer Fibre Channel peer, or NULL
*/
struct fc_peer * fc_peer_get_port_id ( struct fc_port *port,
const struct fc_port_id *peer_port_id ){
struct fc_peer *peer;
/* Look for an existing peer */
list_for_each_entry ( peer, &fc_peers, list ) {
if ( ( peer->port == port ) &&
( memcmp ( &peer->port_id, peer_port_id,
sizeof ( peer->port_id ) ) == 0 ) )
return fc_peer_get ( peer );
}
/* Cannot create a new peer, since we have no port name to use */
return NULL;
}
/******************************************************************************
*
* Fibre Channel upper-layer protocols
*
******************************************************************************
*/
/**
* Free Fibre Channel upper-layer protocol
*
* @v refcnt Reference count
*/
static void fc_ulp_free ( struct refcnt *refcnt ) {
struct fc_ulp *ulp = container_of ( refcnt, struct fc_ulp, refcnt );
fc_peer_put ( ulp->peer );
free ( ulp );
}
/**
* Close Fibre Channel upper-layer protocol
*
* @v ulp Fibre Channel upper-layer protocol
* @v rc Reason for close
*/
static void fc_ulp_close ( struct fc_ulp *ulp, int rc ) {
DBGC ( ulp, "FCULP %s/%02x closed: %s\n",
fc_ntoa ( &ulp->peer->port_wwn ), ulp->type, strerror ( rc ) );
/* Sanity check */
assert ( list_empty ( &ulp->users ) );
/* Stop link monitor */
fc_link_stop ( &ulp->link );
/* Shut down interfaces */
intf_shutdown ( &ulp->prli, rc );
/* Remove from list of ULPs */
list_del ( &ulp->list );
INIT_LIST_HEAD ( &ulp->list );
}
/**
* Attach Fibre Channel upper-layer protocol user
*
* @v ulp Fibre Channel upper-layer protocol
* @v user Fibre Channel upper-layer protocol user
*/
void fc_ulp_attach ( struct fc_ulp *ulp, struct fc_ulp_user *user ) {
/* Sanity check */
assert ( user->ulp == NULL );
/* Increment peer's usage count */
fc_peer_increment ( ulp->peer );
/* Attach user */
user->ulp = fc_ulp_get ( ulp );
list_add ( &user->list, &ulp->users );
}
/**
* Detach Fibre Channel upper-layer protocol user
*
* @v user Fibre Channel upper-layer protocol user
*/
void fc_ulp_detach ( struct fc_ulp_user *user ) {
struct fc_ulp *ulp = user->ulp;
/* Do nothing if not attached */
if ( ! ulp )
return;
/* Sanity checks */
list_check_contains_entry ( user, &ulp->users, list );
/* Detach user and log out if no users remain */
list_del ( &user->list );
if ( list_empty ( &ulp->users ) )
fc_ulp_logout ( ulp, 0 );
/* Decrement our peer's usage count */
fc_peer_decrement ( ulp->peer );
/* Drop reference */
user->ulp = NULL;
fc_ulp_put ( ulp );
}
/**
* Log in Fibre Channel upper-layer protocol
*
* @v ulp Fibre Channel upper-layer protocol
* @v param Service parameters
* @v param_len Length of service parameters
* @v originated Login was originated by us
* @ret rc Return status code
*/
int fc_ulp_login ( struct fc_ulp *ulp, const void *param, size_t param_len,
int originated ) {
struct fc_ulp_user *user;
struct fc_ulp_user *tmp;
/* Perform implicit logout if logged in and service parameters differ */
if ( fc_link_ok ( &ulp->link ) &&
( ( ulp->param_len != param_len ) ||
( memcmp ( ulp->param, param, ulp->param_len ) != 0 ) ) ) {
fc_ulp_logout ( ulp, 0 );
}
/* Work around a bug in some versions of the Linux Fibre
* Channel stack, which fail to fully initialise image pairs
* established via a PRLI originated by the Linux stack
* itself.
*/
if ( originated )
ulp->flags |= FC_ULP_ORIGINATED_LOGIN_OK;
if ( ! ( ulp->flags & FC_ULP_ORIGINATED_LOGIN_OK ) ) {
DBGC ( ulp, "FCULP %s/%02x sending extra PRLI to work around "
"Linux bug\n",
fc_ntoa ( &ulp->peer->port_wwn ), ulp->type );
fc_link_stop ( &ulp->link );
fc_link_start ( &ulp->link );
return 0;
}
/* Log in, if applicable */
if ( ! fc_link_ok ( &ulp->link ) ) {
/* Record service parameters */
assert ( ulp->param == NULL );
assert ( ulp->param_len == 0 );
ulp->param = malloc ( param_len );
if ( ! ulp->param ) {
DBGC ( ulp, "FCULP %s/%02x could not record "
"parameters\n",
fc_ntoa ( &ulp->peer->port_wwn ), ulp->type );
return -ENOMEM;
}
memcpy ( ulp->param, param, param_len );
ulp->param_len = param_len;
DBGC ( ulp, "FCULP %s/%02x logged in with parameters:\n",
fc_ntoa ( &ulp->peer->port_wwn ), ulp->type );
DBGC_HDA ( ulp, 0, ulp->param, ulp->param_len );
/* Add login reference */
fc_ulp_get ( ulp );
}
/* Record login */
fc_link_up ( &ulp->link );
/* Notify users of link state change */
list_for_each_entry_safe ( user, tmp, &ulp->users, list ) {
fc_ulp_user_get ( user );
user->examine ( user );
fc_ulp_user_put ( user );
}
return 0;
}
/**
* Log out Fibre Channel upper-layer protocol
*
* @v ulp Fibre Channel upper-layer protocol
* @v rc Reason for logout
*/
void fc_ulp_logout ( struct fc_ulp *ulp, int rc ) {
struct fc_ulp_user *user;
struct fc_ulp_user *tmp;
DBGC ( ulp, "FCULP %s/%02x logged out: %s\n",
fc_ntoa ( &ulp->peer->port_wwn ), ulp->type, strerror ( rc ) );
/* Drop login reference, if applicable */
if ( fc_link_ok ( &ulp->link ) )
fc_ulp_put ( ulp );
/* Discard service parameters */
free ( ulp->param );
ulp->param = NULL;
ulp->param_len = 0;
ulp->flags = 0;
/* Record logout */
fc_link_err ( &ulp->link, rc );
/* Notify users of link state change */
list_for_each_entry_safe ( user, tmp, &ulp->users, list ) {
fc_ulp_user_get ( user );
user->examine ( user );
fc_ulp_user_put ( user );
}
/* Close ULP if there are no clients attached */
if ( list_empty ( &ulp->users ) )
fc_ulp_close ( ulp, rc );
}
/**
* Handle PRLI completion
*
* @v ulp Fibre Channel upper-layer protocol
* @v rc Reason for completion
*/
static void fc_ulp_prli_done ( struct fc_ulp *ulp, int rc ) {
intf_restart ( &ulp->prli, rc );
if ( rc != 0 )
fc_ulp_logout ( ulp, rc );
}
/**
* Examine Fibre Channel upper-layer protocol link state
*
* @ link Fibre Channel link state monitor
*/
static void fc_ulp_examine ( struct fc_link_state *link ) {
struct fc_ulp *ulp = container_of ( link, struct fc_ulp, link );
int rc;
/* Check to see if underlying peer link has gone down */
if ( ! fc_link_ok ( &ulp->peer->link ) ) {
fc_ulp_logout ( ulp, -ENOTCONN );
return;
}
/* Do nothing if already logged in */
if ( fc_link_ok ( &ulp->link ) &&
( ulp->flags & FC_ULP_ORIGINATED_LOGIN_OK ) )
return;
DBGC ( ulp, "FCULP %s/%02x attempting login\n",
fc_ntoa ( &ulp->peer->port_wwn ), ulp->type );
/* Try to create PRLI ELS */
intf_restart ( &ulp->prli, -ECANCELED );
if ( ( rc = fc_els_prli ( &ulp->prli, ulp->peer->port,
&ulp->peer->port_id, ulp->type ) ) != 0 ) {
DBGC ( ulp, "FCULP %s/%02x could not initiate PRLI: %s\n",
fc_ntoa ( &ulp->peer->port_wwn ), ulp->type,
strerror ( rc ) );
fc_ulp_logout ( ulp, rc );
return;
}
}
/** Fibre Channel upper-layer protocol PRLI interface operations */
static struct interface_operation fc_ulp_prli_op[] = {
INTF_OP ( intf_close, struct fc_ulp *, fc_ulp_prli_done ),
};
/** Fibre Channel upper-layer protocol PRLI interface descriptor */
static struct interface_descriptor fc_ulp_prli_desc =
INTF_DESC ( struct fc_ulp, prli, fc_ulp_prli_op );
/**
* Create Fibre Channel upper-layer protocl
*
* @v peer Fibre Channel peer
* @v type Type
* @ret ulp Fibre Channel upper-layer protocol, or NULL
*/
static struct fc_ulp * fc_ulp_create ( struct fc_peer *peer,
unsigned int type ) {
struct fc_ulp *ulp;
/* Allocate and initialise structure */
ulp = zalloc ( sizeof ( *ulp ) );
if ( ! ulp )
return NULL;
ref_init ( &ulp->refcnt, fc_ulp_free );
fc_link_init ( &ulp->link, fc_ulp_examine, &ulp->refcnt );
intf_init ( &ulp->prli, &fc_ulp_prli_desc, &ulp->refcnt );
ulp->peer = fc_peer_get ( peer );
list_add_tail ( &ulp->list, &peer->ulps );
ulp->type = type;
INIT_LIST_HEAD ( &ulp->users );
/* Start link state monitor */
fc_link_start ( &ulp->link );
DBGC ( ulp, "FCULP %s/%02x created\n",
fc_ntoa ( &ulp->peer->port_wwn ), ulp->type );
return ulp;
}
/**
* Get Fibre Channel upper-layer protocol by peer and type
*
* @v peer Fibre Channel peer
* @v type Type
* @ret ulp Fibre Channel upper-layer protocol, or NULL
*/
static struct fc_ulp * fc_ulp_get_type ( struct fc_peer *peer,
unsigned int type ) {
struct fc_ulp *ulp;
/* Look for an existing ULP */
list_for_each_entry ( ulp, &peer->ulps, list ) {
if ( ulp->type == type )
return fc_ulp_get ( ulp );
}
/* Create a new ULP */
ulp = fc_ulp_create ( peer, type );
if ( ! ulp )
return NULL;
return ulp;
}
/**
* Get Fibre Channel upper-layer protocol by port name and type
*
* @v port_wwn Port name
* @v type Type
* @ret ulp Fibre Channel upper-layer protocol, or NULL
*/
struct fc_ulp * fc_ulp_get_wwn_type ( const struct fc_name *port_wwn,
unsigned int type ) {
struct fc_ulp *ulp;
struct fc_peer *peer;
/* Get peer */
peer = fc_peer_get_wwn ( port_wwn );
if ( ! peer )
goto err_peer_get_wwn;
/* Get ULP */
ulp = fc_ulp_get_type ( peer, type );
if ( ! ulp )
goto err_ulp_get_type;
/* Drop temporary reference to peer */
fc_peer_put ( peer );
return ulp;
fc_ulp_put ( ulp );
err_ulp_get_type:
fc_peer_put ( peer );
err_peer_get_wwn:
return NULL;
}
/**
* Get Fibre Channel upper-layer protocol by port ID and type
*
* @v port Fibre Channel port
* @v peer_port_id Peer port ID
* @v type Type
* @ret ulp Fibre Channel upper-layer protocol, or NULL
*/
struct fc_ulp * fc_ulp_get_port_id_type ( struct fc_port *port,
const struct fc_port_id *peer_port_id,
unsigned int type ) {
struct fc_ulp *ulp;
struct fc_peer *peer;
/* Get peer */
peer = fc_peer_get_port_id ( port, peer_port_id );
if ( ! peer )
goto err_peer_get_wwn;
/* Get ULP */
ulp = fc_ulp_get_type ( peer, type );
if ( ! ulp )
goto err_ulp_get_type;
/* Drop temporary reference to peer */
fc_peer_put ( peer );
return ulp;
fc_ulp_put ( ulp );
err_ulp_get_type:
fc_peer_put ( peer );
err_peer_get_wwn:
return NULL;
}
/* Drag in objects via fc_ports */
REQUIRING_SYMBOL ( fc_ports );
/* Drag in Fibre Channel configuration */
REQUIRE_OBJECT ( config_fc );