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/*
* Copyright (C) 2016 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 <string.h>
#include <stdio.h>
#include <errno.h>
#include <byteswap.h>
#include <ipxe/version.h>
#include <ipxe/timer.h>
#include <ipxe/malloc.h>
#include <ipxe/iobuf.h>
#include <ipxe/retry.h>
#include <ipxe/process.h>
#include <ipxe/settings.h>
#include <ipxe/infiniband.h>
#include <ipxe/ib_service.h>
#include <ipxe/ib_cmrc.h>
#include <ipxe/if_ether.h>
#include <ipxe/ethernet.h>
#include <ipxe/eoib.h>
#include <ipxe/xsigo.h>
/** @file
*
* Xsigo virtual Ethernet devices
*
*/
/** A Xsigo device */
struct xsigo_device {
/** Reference count */
struct refcnt refcnt;
/** Underlying Infiniband device */
struct ib_device *ibdev;
/** List of Xsigo devices */
struct list_head list;
/** Device name */
const char *name;
/** Link opener timer */
struct retry_timer opener;
/** Discovery timer */
struct retry_timer discovery;
/** Discovery management transaction (if any) */
struct ib_mad_transaction *madx;
/** List of configuration managers */
struct list_head managers;
};
/** A Xsigo configuration manager */
struct xsigo_manager {
/** Reference count */
struct refcnt refcnt;
/** Xsigo device */
struct xsigo_device *xdev;
/** List of managers */
struct list_head list;
/** Device name */
char name[16];
/** Manager ID */
struct xsigo_manager_id id;
/** Data transfer interface */
struct interface xfer;
/** Connection timer */
struct retry_timer reopen;
/** Keepalive timer */
struct retry_timer keepalive;
/** Transmission process */
struct process process;
/** Pending transmissions */
unsigned int pending;
/** Transmit sequence number */
uint32_t seq;
/** List of virtual Ethernet devices */
struct list_head nics;
};
/** Configuration manager pending transmissions */
enum xsigo_manager_pending {
/** Send connection request */
XCM_TX_CONNECT = 0x0001,
/** Send registration message */
XCM_TX_REGISTER = 0x0002,
};
/** A Xsigo virtual Ethernet device */
struct xsigo_nic {
/** Configuration manager */
struct xsigo_manager *xcm;
/** List of virtual Ethernet devices */
struct list_head list;
/** Device name */
char name[16];
/** Resource identifier */
union ib_guid resource;
/** MAC address */
uint8_t mac[ETH_ALEN];
/** Network ID */
unsigned long network;
};
/** Configuration manager service ID */
static union ib_guid xcm_service_id = {
.bytes = XCM_SERVICE_ID,
};
/** List of all Xsigo devices */
static LIST_HEAD ( xsigo_devices );
/**
* Free Xsigo device
*
* @v refcnt Reference count
*/
static void xsigo_free ( struct refcnt *refcnt ) {
struct xsigo_device *xdev =
container_of ( refcnt, struct xsigo_device, refcnt );
/* Sanity checks */
assert ( ! timer_running ( &xdev->opener ) );
assert ( ! timer_running ( &xdev->discovery ) );
assert ( xdev->madx == NULL );
assert ( list_empty ( &xdev->managers ) );
/* Drop reference to Infiniband device */
ibdev_put ( xdev->ibdev );
/* Free device */
free ( xdev );
}
/**
* Free configuration manager
*
* @v refcnt Reference count
*/
static void xcm_free ( struct refcnt *refcnt ) {
struct xsigo_manager *xcm =
container_of ( refcnt, struct xsigo_manager, refcnt );
/* Sanity checks */
assert ( ! timer_running ( &xcm->reopen ) );
assert ( ! timer_running ( &xcm->keepalive ) );
assert ( ! process_running ( &xcm->process ) );
assert ( list_empty ( &xcm->nics ) );
/* Drop reference to Xsigo device */
ref_put ( &xcm->xdev->refcnt );
/* Free manager */
free ( xcm );
}
/****************************************************************************
*
* Virtual Ethernet (XVE) devices
*
****************************************************************************
*/
/**
* Create virtual Ethernet device
*
* @v xcm Configuration manager
* @v resource Resource identifier
* @v mac Ethernet MAC
* @v network Network identifier
* @v name Device name
* @ret rc Return status code
*/
static int xve_create ( struct xsigo_manager *xcm, union ib_guid *resource,
const uint8_t *mac, unsigned long network,
unsigned long qkey, const char *name ) {
struct xsigo_device *xdev = xcm->xdev;
struct ib_device *ibdev = xdev->ibdev;
struct xsigo_nic *xve;
struct ib_address_vector broadcast;
int rc;
/* Allocate and initialise structure */
xve = zalloc ( sizeof ( *xve ) );
if ( ! xve ) {
rc = -ENOMEM;
goto err_alloc;
}
xve->xcm = xcm;
snprintf ( xve->name, sizeof ( xve->name ), "%s", name );
memcpy ( &xve->resource, resource, sizeof ( xve->resource ) );
memcpy ( xve->mac, mac, ETH_ALEN );
xve->network = network;
DBGC ( xve, "XVE %s created for %s " IB_GUID_FMT "\n",
xve->name, xcm->name, IB_GUID_ARGS ( resource ) );
DBGC ( xve, "XVE %s is MAC %s on network %ld\n",
xve->name, eth_ntoa ( mac ), network );
/* Construct broadcast address vector */
memset ( &broadcast, 0, sizeof ( broadcast ) );
broadcast.qpn = IB_QPN_BROADCAST;
broadcast.qkey = qkey;
broadcast.gid_present = 1;
broadcast.gid.dwords[0] = htonl ( XVE_PREFIX );
broadcast.gid.words[2] = htons ( ibdev->pkey );
broadcast.gid.dwords[3] = htonl ( network );
/* Create EoIB device */
if ( ( rc = eoib_create ( ibdev, xve->mac, &broadcast,
xve->name ) ) != 0 ) {
DBGC ( xve, "XVE %s could not create EoIB device: %s\n",
xve->name, strerror ( rc ) );
goto err_create;
}
/* Add to list of virtual Ethernet devices. Do this only
* after creating the EoIB device, so that our net device
* notifier won't attempt to send an operational state update
* before we have acknowledged the installation.
*/
list_add ( &xve->list, &xcm->nics );
return 0;
list_del ( &xve->list );
err_create:
free ( xve );
err_alloc:
return rc;
}
/**
* Find virtual Ethernet device
*
* @v xcm Configuration manager
* @v resource Resource identifier
* @ret xve Virtual Ethernet device, or NULL
*/
static struct xsigo_nic * xve_find ( struct xsigo_manager *xcm,
union ib_guid *resource ) {
struct xsigo_nic *xve;
list_for_each_entry ( xve, &xcm->nics, list ) {
if ( memcmp ( resource, &xve->resource,
sizeof ( *resource ) ) == 0 )
return xve;
}
return NULL;
}
/**
* Destroy virtual Ethernet device
*
* @v xve Virtual Ethernet device
*/
static void xve_destroy ( struct xsigo_nic *xve ) {
struct xsigo_manager *xcm = xve->xcm;
struct xsigo_device *xdev = xcm->xdev;
struct ib_device *ibdev = xdev->ibdev;
struct eoib_device *eoib;
/* Destroy corresponding EoIB device, if any */
if ( ( eoib = eoib_find ( ibdev, xve->mac ) ) )
eoib_destroy ( eoib );
/* Remove from list of virtual Ethernet devices */
list_del ( &xve->list );
/* Free virtual Ethernet device */
DBGC ( xve, "XVE %s destroyed\n", xve->name );
free ( xve );
}
/**
* Update virtual Ethernet device MTU
*
* @v xve Virtual Ethernet device
* @v eoib EoIB device
* @v mtu New MTU (excluding Ethernet and EoIB headers)
* @ret rc Return status code
*/
static int xve_update_mtu ( struct xsigo_nic *xve, struct eoib_device *eoib,
size_t mtu ) {
struct net_device *netdev = eoib->netdev;
size_t max;
/* Check that we can support this MTU */
max = ( IB_MAX_PAYLOAD_SIZE - ( sizeof ( struct ethhdr ) +
sizeof ( struct eoib_header ) ) );
if ( mtu > max ) {
DBGC ( xve, "XVE %s cannot support MTU %zd (max %zd)\n",
xve->name, mtu, max );
return -ERANGE;
}
/* Update MTU. No need to close/reopen the network device,
* since our Infiniband stack uses a fixed MTU anyway. Note
* that the network device sees the Ethernet frame header but
* not the EoIB header.
*/
netdev->max_pkt_len = ( mtu + sizeof ( struct ethhdr ) );
netdev->mtu = mtu;
DBGC ( xve, "XVE %s has MTU %zd\n", xve->name, mtu );
return 0;
}
/**
* Open virtual Ethernet device
*
* @v xve Virtual Ethernet device
* @v eoib EoIB device
* @v open New administrative state
* @ret rc Return status code
*/
static int xve_open ( struct xsigo_nic *xve, struct eoib_device *eoib ) {
struct net_device *netdev = eoib->netdev;
int rc;
/* Do nothing if network device is already open */
if ( netdev_is_open ( netdev ) )
return 0;
DBGC ( xve, "XVE %s opening network device\n", xve->name );
/* Open network device */
if ( ( rc = netdev_open ( netdev ) ) != 0 ) {
DBGC ( xve, "XVE %s could not open: %s\n",
xve->name, strerror ( rc ) );
return rc;
}
return 0;
}
/**
* Close virtual Ethernet device
*
* @v xve Virtual Ethernet device
* @v eoib EoIB device
*/
static void xve_close ( struct xsigo_nic *xve, struct eoib_device *eoib ) {
struct net_device *netdev = eoib->netdev;
/* Do nothing if network device is already closed */
if ( ! netdev_is_open ( netdev ) )
return;
/* Close network device */
netdev_close ( netdev );
DBGC ( xve, "XVE %s closed network device\n", xve->name );
}
/**
* Update virtual Ethernet device administrative state
*
* @v xve Virtual Ethernet device
* @v eoib EoIB device
* @v open New administrative state
* @ret rc Return status code
*/
static int xve_update_state ( struct xsigo_nic *xve, struct eoib_device *eoib,
int open ) {
/* Open or close device, as applicable */
if ( open ) {
return xve_open ( xve, eoib );
} else {
xve_close ( xve, eoib );
return 0;
}
}
/**
* Update gateway (TCA)
*
* @v xve Virtual Ethernet device
* @v eoib EoIB device
* @v av Address vector, or NULL if no gateway
* @ret rc Return status code
*/
static int xve_update_tca ( struct xsigo_nic *xve, struct eoib_device *eoib,
struct ib_address_vector *av ) {
/* Update gateway address */
eoib_set_gateway ( eoib, av );
if ( av ) {
DBGC ( xve, "XVE %s has TCA " IB_GID_FMT " data %#lx qkey "
"%#lx\n", xve->name, IB_GID_ARGS ( &av->gid ), av->qpn,
av->qkey );
} else {
DBGC ( xve, "XVE %s has no TCA\n", xve->name );
}
/* The Linux driver will modify the local device's link state
* to reflect the EoIB-to-Ethernet gateway's link state, but
* this seems philosophically incorrect since communication
* within the EoIB broadcast domain still works regardless of
* the state of the gateway.
*/
return 0;
}
/****************************************************************************
*
* Server management protocol (XSMP) session messages
*
****************************************************************************
*/
/**
* Get session message name (for debugging)
*
* @v type Message type
* @ret name Message name
*/
static const char * xsmp_session_type ( unsigned int type ) {
static char buf[16];
switch ( type ) {
case XSMP_SESSION_TYPE_HELLO: return "HELLO";
case XSMP_SESSION_TYPE_REGISTER: return "REGISTER";
case XSMP_SESSION_TYPE_CONFIRM: return "CONFIRM";
case XSMP_SESSION_TYPE_REJECT: return "REJECT";
case XSMP_SESSION_TYPE_SHUTDOWN: return "SHUTDOWN";
default:
snprintf ( buf, sizeof ( buf ), "UNKNOWN<%d>", type );
return buf;
}
}
/**
* Extract chassis name (for debugging)
*
* @v msg Session message
* @ret chassis Chassis name
*/
static const char * xsmp_chassis_name ( struct xsmp_session_message *msg ) {
static char chassis[ sizeof ( msg->chassis ) + 1 /* NUL */ ];
memcpy ( chassis, msg->chassis, sizeof ( msg->chassis ) );
return chassis;
}
/**
* Extract session name (for debugging)
*
* @v msg Session message
* @ret session Session name
*/
static const char * xsmp_session_name ( struct xsmp_session_message *msg ) {
static char session[ sizeof ( msg->session ) + 1 /* NUL */ ];
memcpy ( session, msg->session, sizeof ( msg->session ) );
return session;
}
/**
* Send session message
*
* @v xcm Configuration manager
* @v type Message type
* @ret rc Return status code
*/
static int xsmp_tx_session ( struct xsigo_manager *xcm, unsigned int type ) {
struct xsigo_device *xdev = xcm->xdev;
struct ib_device *ibdev = xdev->ibdev;
struct xsmp_session_message msg;
int rc;
/* Construct session message */
memset ( &msg, 0, sizeof ( msg ) );
msg.hdr.type = XSMP_TYPE_SESSION;
msg.hdr.len = htons ( sizeof ( msg ) );
msg.hdr.seq = htonl ( ++xcm->seq );
memcpy ( &msg.hdr.src.guid, &ibdev->gid.s.guid,
sizeof ( msg.hdr.src.guid ) );
memcpy ( &msg.hdr.dst.guid, &xcm->id.guid,
sizeof ( msg.hdr.dst.guid ) );
msg.type = type;
msg.len = htons ( sizeof ( msg ) - sizeof ( msg.hdr ) );
msg.os_type = XSIGO_OS_TYPE_GENERIC;
msg.resources = htons ( XSIGO_RESOURCE_XVE |
XSIGO_RESOURCE_NO_HA );
msg.boot = htonl ( XSMP_BOOT_PXE );
DBGCP ( xcm, "XCM %s TX[%d] session %s\n", xcm->name,
ntohl ( msg.hdr.seq ), xsmp_session_type ( msg.type ) );
DBGCP_HDA ( xcm, 0, &msg, sizeof ( msg ) );
/* Send session message */
if ( ( rc = xfer_deliver_raw ( &xcm->xfer, &msg,
sizeof ( msg ) ) ) != 0 ) {
DBGC ( xcm, "XCM %s TX session %s failed: %s\n", xcm->name,
xsmp_session_type ( msg.type ), strerror ( rc ) );
return rc;
}
return 0;
}
/**
* Send registration message
*
* @v xcm Configuration manager
* @ret rc Return status code
*/
static inline int xsmp_tx_session_register ( struct xsigo_manager *xcm ) {
DBGC ( xcm, "XCM %s registering with " IB_GUID_FMT "\n",
xcm->name, IB_GUID_ARGS ( &xcm->id.guid ) );
/* Send registration message */
return xsmp_tx_session ( xcm, XSMP_SESSION_TYPE_REGISTER );
}
/**
* Send keepalive message
*
* @v xcm Configuration manager
* @ret rc Return status code
*/
static int xsmp_tx_session_hello ( struct xsigo_manager *xcm ) {
/* Send keepalive message */
return xsmp_tx_session ( xcm, XSMP_SESSION_TYPE_HELLO );
}
/**
* Handle received keepalive message
*
* @v xcm Configuration manager
* @v msg Keepalive message
* @ret rc Return status code
*/
static int xsmp_rx_session_hello ( struct xsigo_manager *xcm,
struct xsmp_session_message *msg __unused ) {
/* Respond to keepalive message. Note that the XCM doesn't
* seem to actually ever send these.
*/
return xsmp_tx_session_hello ( xcm );
}
/**
* Handle received registration confirmation message
*
* @v xcm Configuration manager
* @v msg Registration confirmation message
* @ret rc Return status code
*/
static int xsmp_rx_session_confirm ( struct xsigo_manager *xcm,
struct xsmp_session_message *msg ) {
DBGC ( xcm, "XCM %s registered with \"%s\" as \"%s\"\n", xcm->name,
xsmp_chassis_name ( msg ), xsmp_session_name ( msg ) );
return 0;
}
/**
* Handle received registration rejection message
*
* @v xcm Configuration manager
* @v msg Registration confirmation message
* @ret rc Return status code
*/
static int xsmp_rx_session_reject ( struct xsigo_manager *xcm,
struct xsmp_session_message *msg ) {
DBGC ( xcm, "XCM %s rejected by \"%s\":\n",
xcm->name, xsmp_chassis_name ( msg ) );
DBGC_HDA ( xcm, 0, msg, sizeof ( *msg ) );
return -EPERM;
}
/**
* Handle received shutdown message
*
* @v xcm Configuration manager
* @v msg Registration confirmation message
* @ret rc Return status code
*/
static int xsmp_rx_session_shutdown ( struct xsigo_manager *xcm,
struct xsmp_session_message *msg ) {
DBGC ( xcm, "XCM %s shut down by \"%s\":\n",
xcm->name, xsmp_chassis_name ( msg ) );
DBGC_HDA ( xcm, 0, msg, sizeof ( *msg ) );
return -ENOTCONN;
}
/**
* Handle received session message
*
* @v xcm Configuration manager
* @v msg Session message
* @ret rc Return status code
*/
static int xsmp_rx_session ( struct xsigo_manager *xcm,
struct xsmp_session_message *msg ) {
DBGCP ( xcm, "XCM %s RX[%d] session %s\n", xcm->name,
ntohl ( msg->hdr.seq ), xsmp_session_type ( msg->type ) );
DBGCP_HDA ( xcm, 0, msg, sizeof ( *msg ) );
/* Handle message according to type */
switch ( msg->type ) {
case XSMP_SESSION_TYPE_HELLO:
return xsmp_rx_session_hello ( xcm, msg );
case XSMP_SESSION_TYPE_CONFIRM:
return xsmp_rx_session_confirm ( xcm, msg );
case XSMP_SESSION_TYPE_REJECT:
return xsmp_rx_session_reject ( xcm, msg );
case XSMP_SESSION_TYPE_SHUTDOWN:
return xsmp_rx_session_shutdown ( xcm, msg );
default:
DBGC ( xcm, "XCM %s RX[%d] session unexpected %s:\n", xcm->name,
ntohl ( msg->hdr.seq ), xsmp_session_type ( msg->type ));
DBGC_HDA ( xcm, 0, msg, sizeof ( *msg ) );
return -EPROTO;
}
}
/****************************************************************************
*
* Server management protocol (XSMP) virtual Ethernet (XVE) messages
*
****************************************************************************
*/
/**
* Get virtual Ethernet message name (for debugging)
*
* @v type Message type
* @ret name Message name
*/
static const char * xsmp_xve_type ( unsigned int type ) {
static char buf[16];
switch ( type ) {
case XSMP_XVE_TYPE_INSTALL: return "INSTALL";
case XSMP_XVE_TYPE_DELETE: return "DELETE";
case XSMP_XVE_TYPE_UPDATE: return "UPDATE";
case XSMP_XVE_TYPE_OPER_UP: return "OPER_UP";
case XSMP_XVE_TYPE_OPER_DOWN: return "OPER_DOWN";
case XSMP_XVE_TYPE_OPER_REQ: return "OPER_REQ";
case XSMP_XVE_TYPE_READY: return "READY";
default:
snprintf ( buf, sizeof ( buf ), "UNKNOWN<%d>", type );
return buf;
}
}
/**
* Send virtual Ethernet message
*
* @v xcm Configuration manager
* @v msg Partial message
* @ret rc Return status code
*/
static int xsmp_tx_xve ( struct xsigo_manager *xcm,
struct xsmp_xve_message *msg ) {
struct xsigo_device *xdev = xcm->xdev;
struct ib_device *ibdev = xdev->ibdev;
int rc;
/* Fill in common header fields */
msg->hdr.type = XSMP_TYPE_XVE;
msg->hdr.len = htons ( sizeof ( *msg ) );
msg->hdr.seq = htonl ( ++xcm->seq );
memcpy ( &msg->hdr.src.guid, &ibdev->gid.s.guid,
sizeof ( msg->hdr.src.guid ) );
memcpy ( &msg->hdr.dst.guid, &xcm->id.guid,
sizeof ( msg->hdr.dst.guid ) );
msg->len = htons ( sizeof ( *msg ) - sizeof ( msg->hdr ) );
DBGCP ( xcm, "XCM %s TX[%d] xve %s code %#02x\n", xcm->name,
ntohl ( msg->hdr.seq ), xsmp_xve_type ( msg->type ),
msg->code );
DBGCP_HDA ( xcm, 0, msg, sizeof ( *msg ) );
/* Send virtual Ethernet message */
if ( ( rc = xfer_deliver_raw ( &xcm->xfer, msg,
sizeof ( *msg ) ) ) != 0 ) {
DBGC ( xcm, "XCM %s TX xve %s failed: %s\n", xcm->name,
xsmp_xve_type ( msg->type ), strerror ( rc ) );
return rc;
}
return 0;
}
/**
* Send virtual Ethernet message including current device parameters
*
* @v xcm Configuration manager
* @v msg Partial virtual Ethernet message
* @v xve Virtual Ethernet device
* @v eoib EoIB device
* @ret rc Return status code
*/
static int xsmp_tx_xve_params ( struct xsigo_manager *xcm,
struct xsmp_xve_message *msg,
struct xsigo_nic *xve,
struct eoib_device *eoib ) {
struct xsigo_device *xdev = xcm->xdev;
struct ib_device *ibdev = xdev->ibdev;
struct net_device *netdev = eoib->netdev;
/* Set successful response code */
msg->code = 0;
/* Include network identifier, MTU, and current HCA parameters */
msg->network = htonl ( xve->network );
msg->mtu = htons ( netdev->max_pkt_len - sizeof ( struct ethhdr ) );
msg->hca.prefix_le.qword = bswap_64 ( ibdev->gid.s.prefix.qword );
msg->hca.pkey = htons ( ibdev->pkey );
msg->hca.qkey = msg->tca.qkey;
if ( eoib->qp ) {
msg->hca.data = htonl ( eoib->qp->ext_qpn );
msg->hca.qkey = htons ( eoib->qp->qkey );
}
/* The message type field is (ab)used to return the current
* operational status.
*/
if ( msg->type == XSMP_XVE_TYPE_OPER_REQ ) {
msg->type = ( netdev_is_open ( netdev ) ?
XSMP_XVE_TYPE_OPER_UP : XSMP_XVE_TYPE_OPER_DOWN );
}
/* Send message */
DBGC ( xve, "XVE %s network %d MTU %d ctrl %#x data %#x qkey %#04x "
"%s\n", xve->name, ntohl ( msg->network ), ntohs ( msg->mtu ),
ntohl ( msg->hca.ctrl ), ntohl ( msg->hca.data ),
ntohs ( msg->hca.qkey ), xsmp_xve_type ( msg->type ) );
return xsmp_tx_xve ( xcm, msg );
}
/**
* Send virtual Ethernet error response
*
* @v xcm Configuration manager
* @v msg Partial virtual Ethernet message
* @ret rc Return status code
*/
static inline int xsmp_tx_xve_nack ( struct xsigo_manager *xcm,
struct xsmp_xve_message *msg ) {
/* Set error response code. (There aren't any meaningful
* detailed response codes defined by the wire protocol.)
*/
msg->code = XSMP_XVE_CODE_ERROR;
/* Send message */
return xsmp_tx_xve ( xcm, msg );
}
/**
* Send virtual Ethernet notification
*
* @v xcm Configuration manager
* @v type Message type
* @v xve Virtual Ethernet device
* @v eoib EoIB device
* @ret rc Return status code
*/
static int xsmp_tx_xve_notify ( struct xsigo_manager *xcm,
unsigned int type,
struct xsigo_nic *xve,
struct eoib_device *eoib ) {
struct xsmp_xve_message msg;
/* Construct message */
memset ( &msg, 0, sizeof ( msg ) );
msg.type = type;
memcpy ( &msg.resource, &xve->resource, sizeof ( msg.resource ) );
/* Send message */
return xsmp_tx_xve_params ( xcm, &msg, xve, eoib );
}
/**
* Send virtual Ethernet current operational state
*
* @v xcm Configuration manager
* @v xve Virtual Ethernet device
* @v eoib EoIB device
* @ret rc Return status code
*/
static inline int xsmp_tx_xve_oper ( struct xsigo_manager *xcm,
struct xsigo_nic *xve,
struct eoib_device *eoib ) {
/* Send notification */
return xsmp_tx_xve_notify ( xcm, XSMP_XVE_TYPE_OPER_REQ, xve, eoib );
}
/**
* Handle received virtual Ethernet modification message
*
* @v xcm Configuration manager
* @v msg Virtual Ethernet message
* @v update Update bitmask
* @ret rc Return status code
*/
static int xsmp_rx_xve_modify ( struct xsigo_manager *xcm,
struct xsmp_xve_message *msg,
unsigned int update ) {
struct xsigo_device *xdev = xcm->xdev;
struct ib_device *ibdev = xdev->ibdev;
struct xsigo_nic *xve;
struct eoib_device *eoib;
struct ib_address_vector tca;
size_t mtu;
int rc;
/* Avoid returning uninitialised HCA parameters in response */
memset ( &msg->hca, 0, sizeof ( msg->hca ) );
/* Find virtual Ethernet device */
xve = xve_find ( xcm, &msg->resource );
if ( ! xve ) {
DBGC ( xcm, "XCM %s unrecognised resource " IB_GUID_FMT "\n",
xcm->name, IB_GUID_ARGS ( &msg->resource ) );
rc = -ENOENT;
goto err_no_xve;
}
/* Find corresponding EoIB device */
eoib = eoib_find ( ibdev, xve->mac );
if ( ! eoib ) {
DBGC ( xve, "XVE %s has no EoIB device\n", xve->name );
rc = -EPIPE;
goto err_no_eoib;
}
/* The Xsigo management software fails to create the EoIB
* multicast group. This is a fundamental design flaw.
*/
eoib_force_group_creation ( eoib );
/* Extract modifiable parameters. Note that the TCA GID is
* erroneously transmitted as little-endian.
*/
mtu = ntohs ( msg->mtu );
memset ( &tca, 0, sizeof ( tca ) );
tca.qpn = ntohl ( msg->tca.data );
tca.qkey = ntohs ( msg->tca.qkey );
tca.gid_present = 1;
tca.gid.s.prefix.qword = bswap_64 ( msg->tca.prefix_le.qword );
tca.gid.s.guid.qword = bswap_64 ( msg->guid_le.qword );
/* Update MTU, if applicable */
if ( ( update & XSMP_XVE_UPDATE_MTU ) &&
( ( rc = xve_update_mtu ( xve, eoib, mtu ) ) != 0 ) )
goto err_mtu;
update &= ~XSMP_XVE_UPDATE_MTU;
/* Update admin state, if applicable */
if ( ( update & XSMP_XVE_UPDATE_STATE ) &&
( ( rc = xve_update_state ( xve, eoib, msg->state ) ) != 0 ) )
goto err_state;
update &= ~XSMP_XVE_UPDATE_STATE;
/* Remove gateway, if applicable */
if ( ( update & XSMP_XVE_UPDATE_GW_DOWN ) &&
( ( rc = xve_update_tca ( xve, eoib, NULL ) ) != 0 ) )
goto err_gw_down;
update &= ~XSMP_XVE_UPDATE_GW_DOWN;
/* Update gateway, if applicable */
if ( ( update & XSMP_XVE_UPDATE_GW_CHANGE ) &&
( ( rc = xve_update_tca ( xve, eoib, &tca ) ) != 0 ) )
goto err_gw_change;
update &= ~XSMP_XVE_UPDATE_GW_CHANGE;
/* Warn about unexpected updates */
if ( update ) {
DBGC ( xve, "XVE %s unrecognised update(s) %#08x\n",
xve->name, update );
}
xsmp_tx_xve_params ( xcm, msg, xve, eoib );
return 0;
err_gw_change:
err_gw_down:
err_state:
err_mtu:
err_no_eoib:
err_no_xve:
/* Send NACK */
xsmp_tx_xve_nack ( xcm, msg );
return rc;
}
/**
* Handle received virtual Ethernet installation message
*
* @v xcm Configuration manager
* @v msg Virtual Ethernet message
* @ret rc Return status code
*/
static int xsmp_rx_xve_install ( struct xsigo_manager *xcm,
struct xsmp_xve_message *msg ) {
union {
struct xsmp_xve_mac msg;
uint8_t raw[ETH_ALEN];
} mac;
char name[ sizeof ( msg->name ) + 1 /* NUL */ ];
unsigned long network;
unsigned long qkey;
unsigned int update;
int rc;
/* Demangle MAC address (which is erroneously transmitted as
* little-endian).
*/
mac.msg.high = bswap_16 ( msg->mac_le.high );
mac.msg.low = bswap_32 ( msg->mac_le.low );
/* Extract interface name (which may not be NUL-terminated) */
memcpy ( name, msg->name, ( sizeof ( name ) - 1 /* NUL */ ) );
name[ sizeof ( name ) - 1 /* NUL */ ] = '\0';
/* Extract remaining message parameters */
network = ntohl ( msg->network );
qkey = ntohs ( msg->tca.qkey );
DBGC2 ( xcm, "XCM %s " IB_GUID_FMT " install \"%s\" %s net %ld qkey "
"%#lx\n", xcm->name, IB_GUID_ARGS ( &msg->resource ), name,
eth_ntoa ( mac.raw ), network, qkey );
/* Create virtual Ethernet device, if applicable */
if ( ( xve_find ( xcm, &msg->resource ) == NULL ) &&
( ( rc = xve_create ( xcm, &msg->resource, mac.raw, network,
qkey, name ) ) != 0 ) )
goto err_create;
/* Handle remaining parameters as for a modification message */
update = XSMP_XVE_UPDATE_MTU;
if ( msg->uplink == XSMP_XVE_UPLINK )
update |= XSMP_XVE_UPDATE_GW_CHANGE;
return xsmp_rx_xve_modify ( xcm, msg, update );
err_create:
/* Send NACK */
xsmp_tx_xve_nack ( xcm, msg );
return rc;
}
/**
* Handle received virtual Ethernet deletion message
*
* @v xcm Configuration manager
* @v msg Virtual Ethernet message
* @ret rc Return status code
*/
static int xsmp_rx_xve_delete ( struct xsigo_manager *xcm,
struct xsmp_xve_message *msg ) {
struct xsigo_nic *xve;
DBGC2 ( xcm, "XCM %s " IB_GUID_FMT " delete\n",
xcm->name, IB_GUID_ARGS ( &msg->resource ) );
/* Destroy virtual Ethernet device (if any) */
if ( ( xve = xve_find ( xcm, &msg->resource ) ) )
xve_destroy ( xve );
/* Send ACK */
msg->code = 0;
xsmp_tx_xve ( xcm, msg );
return 0;
}
/**
* Handle received virtual Ethernet update message
*
* @v xcm Configuration manager
* @v msg Virtual Ethernet message
* @ret rc Return status code
*/
static int xsmp_rx_xve_update ( struct xsigo_manager *xcm,
struct xsmp_xve_message *msg ) {
unsigned int update = ntohl ( msg->update );
DBGC2 ( xcm, "XCM %s " IB_GUID_FMT " update (%08x)\n",
xcm->name, IB_GUID_ARGS ( &msg->resource ), update );
/* Handle as a modification message */
return xsmp_rx_xve_modify ( xcm, msg, update );
}
/**
* Handle received virtual Ethernet operational request message
*
* @v xcm Configuration manager
* @v msg Virtual Ethernet message
* @ret rc Return status code
*/
static int xsmp_rx_xve_oper_req ( struct xsigo_manager *xcm,
struct xsmp_xve_message *msg ) {
DBGC2 ( xcm, "XCM %s " IB_GUID_FMT " operational request\n",
xcm->name, IB_GUID_ARGS ( &msg->resource ) );
/* Handle as a nullipotent modification message */
return xsmp_rx_xve_modify ( xcm, msg, 0 );
}
/**
* Handle received virtual Ethernet readiness message
*
* @v xcm Configuration manager
* @v msg Virtual Ethernet message
* @ret rc Return status code
*/
static int xsmp_rx_xve_ready ( struct xsigo_manager *xcm,
struct xsmp_xve_message *msg ) {
int rc;
DBGC2 ( xcm, "XCM %s " IB_GUID_FMT " ready\n",
xcm->name, IB_GUID_ARGS ( &msg->resource ) );
/* Handle as a nullipotent modification message */
if ( ( rc = xsmp_rx_xve_modify ( xcm, msg, 0 ) ) != 0 )
return rc;
/* Send an unsolicited operational state update, since there
* is no other way to convey the current operational state.
*/
msg->type = XSMP_XVE_TYPE_OPER_REQ;
if ( ( rc = xsmp_rx_xve_modify ( xcm, msg, 0 ) ) != 0 )
return rc;
return 0;
}
/**
* Handle received virtual Ethernet message
*
* @v xcm Configuration manager
* @v msg Virtual Ethernet message
* @ret rc Return status code
*/
static int xsmp_rx_xve ( struct xsigo_manager *xcm,
struct xsmp_xve_message *msg ) {
DBGCP ( xcm, "XCM %s RX[%d] xve %s\n", xcm->name,
ntohl ( msg->hdr.seq ), xsmp_xve_type ( msg->type ) );
DBGCP_HDA ( xcm, 0, msg, sizeof ( *msg ) );
/* Handle message according to type */
switch ( msg->type ) {
case XSMP_XVE_TYPE_INSTALL:
return xsmp_rx_xve_install ( xcm, msg );
case XSMP_XVE_TYPE_DELETE:
return xsmp_rx_xve_delete ( xcm, msg );
case XSMP_XVE_TYPE_UPDATE:
return xsmp_rx_xve_update ( xcm, msg );
case XSMP_XVE_TYPE_OPER_REQ:
return xsmp_rx_xve_oper_req ( xcm, msg );
case XSMP_XVE_TYPE_READY:
return xsmp_rx_xve_ready ( xcm, msg );
default:
DBGC ( xcm, "XCM %s RX[%d] xve unexpected %s:\n", xcm->name,
ntohl ( msg->hdr.seq ), xsmp_xve_type ( msg->type ) );
DBGC_HDA ( xcm, 0, msg, sizeof ( *msg ) );
return -EPROTO;
}
}
/****************************************************************************
*
* Configuration managers (XCM)
*
****************************************************************************
*/
/**
* Close configuration manager connection
*
* @v xcm Configuration manager
* @v rc Reason for close
*/
static void xcm_close ( struct xsigo_manager *xcm, int rc ) {
DBGC ( xcm, "XCM %s closed: %s\n", xcm->name, strerror ( rc ) );
/* Stop transmission process */
process_del ( &xcm->process );
/* Stop keepalive timer */
stop_timer ( &xcm->keepalive );
/* Restart data transfer interface */
intf_restart ( &xcm->xfer, rc );
/* Schedule reconnection attempt */
start_timer ( &xcm->reopen );
}
/**
* Send data to configuration manager
*
* @v xcm Configuration manager
*/
static void xcm_step ( struct xsigo_manager *xcm ) {
int rc;
/* Do nothing unless we have something to send */
if ( ! xcm->pending )
return;
/* Send (empty) connection request, if applicable */
if ( xcm->pending & XCM_TX_CONNECT ) {
if ( ( rc = xfer_deliver_raw ( &xcm->xfer, NULL, 0 ) ) != 0 ) {
DBGC ( xcm, "XCM %s could not send connection request: "
"%s\n", xcm->name, strerror ( rc ) );
goto err;
}
xcm->pending &= ~XCM_TX_CONNECT;
return;
}
/* Wait until data transfer interface is connected */
if ( ! xfer_window ( &xcm->xfer ) )
return;
/* Send registration message, if applicable */
if ( xcm->pending & XCM_TX_REGISTER ) {
if ( ( rc = xsmp_tx_session_register ( xcm ) ) != 0 )
goto err;
xcm->pending &= ~XCM_TX_REGISTER;
return;
}
return;
err:
xcm_close ( xcm, rc );
}
/**
* Receive data from configuration manager
*
* @v xcm Configuration manager
* @v iobuf I/O buffer
* @v meta Data transfer metadata
* @ret rc Return status code
*/
static int xcm_deliver ( struct xsigo_manager *xcm, struct io_buffer *iobuf,
struct xfer_metadata *meta __unused ) {
union xsmp_message *msg;
size_t len = iob_len ( iobuf );
int rc;
/* Sanity check */
if ( len < sizeof ( msg->hdr ) ) {
DBGC ( xcm, "XCM %s underlength message:\n", xcm->name );
DBGC_HDA ( xcm, 0, iobuf->data, iob_len ( iobuf ) );
rc = -EPROTO;
goto out;
}
msg = iobuf->data;
/* Handle message according to type */
if ( ! msg->hdr.type ) {
/* Ignore unused communication manager private data blocks */
rc = 0;
} else if ( ( msg->hdr.type == XSMP_TYPE_SESSION ) &&
( len >= sizeof ( msg->sess ) ) ) {
/* Session message */
rc = xsmp_rx_session ( xcm, &msg->sess );
} else if ( ( msg->hdr.type == XSMP_TYPE_XVE ) &&
( len >= sizeof ( msg->xve ) ) ) {
/* Virtual Ethernet message */
xsmp_rx_xve ( xcm, &msg->xve );
/* Virtual Ethernet message errors are non-fatal */
rc = 0;
} else {
/* Unknown message */
DBGC ( xcm, "XCM %s unexpected message type %d:\n",
xcm->name, msg->hdr.type );
DBGC_HDA ( xcm, 0, iobuf->data, iob_len ( iobuf ) );
rc = -EPROTO;
}
out:
free_iob ( iobuf );
if ( rc != 0 )
xcm_close ( xcm, rc );
return rc;
}
/** Configuration manager data transfer interface operations */
static struct interface_operation xcm_xfer_op[] = {
INTF_OP ( xfer_deliver, struct xsigo_manager *, xcm_deliver ),
INTF_OP ( xfer_window_changed, struct xsigo_manager *, xcm_step ),
INTF_OP ( intf_close, struct xsigo_manager *, xcm_close ),
};
/** Configuration manager data transfer interface descriptor */
static struct interface_descriptor xcm_xfer_desc =
INTF_DESC ( struct xsigo_manager, xfer, xcm_xfer_op );
/** Configuration manager process descriptor */
static struct process_descriptor xcm_process_desc =
PROC_DESC_ONCE ( struct xsigo_manager, process, xcm_step );
/**
* Handle configuration manager connection timer expiry
*
* @v timer Connection timer
* @v fail Failure indicator
*/
static void xcm_reopen ( struct retry_timer *timer, int fail __unused ) {
struct xsigo_manager *xcm =
container_of ( timer, struct xsigo_manager, reopen );
struct xsigo_device *xdev = xcm->xdev;
struct ib_device *ibdev = xdev->ibdev;
union ib_gid gid;
int rc;
/* Stop transmission process */
process_del ( &xcm->process );
/* Stop keepalive timer */
stop_timer ( &xcm->keepalive );
/* Restart data transfer interface */
intf_restart ( &xcm->xfer, -ECANCELED );
/* Reset sequence number */
xcm->seq = 0;
/* Construct GID */
memcpy ( &gid.s.prefix, &ibdev->gid.s.prefix, sizeof ( gid.s.prefix ) );
memcpy ( &gid.s.guid, &xcm->id.guid, sizeof ( gid.s.guid ) );
DBGC ( xcm, "XCM %s connecting to " IB_GID_FMT "\n",
xcm->name, IB_GID_ARGS ( &gid ) );
/* Open CMRC connection */
if ( ( rc = ib_cmrc_open ( &xcm->xfer, ibdev, &gid,
&xcm_service_id, xcm->name ) ) != 0 ) {
DBGC ( xcm, "XCM %s could not open CMRC connection: %s\n",
xcm->name, strerror ( rc ) );
start_timer ( &xcm->reopen );
return;
}
/* Schedule transmissions */
xcm->pending |= ( XCM_TX_CONNECT | XCM_TX_REGISTER );
process_add ( &xcm->process );
/* Start keepalive timer */
start_timer_fixed ( &xcm->keepalive, XSIGO_KEEPALIVE_INTERVAL );
return;
}
/**
* Handle configuration manager keepalive timer expiry
*
* @v timer Connection timer
* @v fail Failure indicator
*/
static void xcm_keepalive ( struct retry_timer *timer, int fail __unused ) {
struct xsigo_manager *xcm =
container_of ( timer, struct xsigo_manager, keepalive );
int rc;
/* Send keepalive message. The server won't actually respond
* to these, but it gives the RC queue pair a chance to
* complain if it doesn't ever at least get an ACK.
*/
if ( ( rc = xsmp_tx_session_hello ( xcm ) ) != 0 ) {
xcm_close ( xcm, rc );
return;
}
/* Restart keepalive timer */
start_timer_fixed ( &xcm->keepalive, XSIGO_KEEPALIVE_INTERVAL );
}
/**
* Create configuration manager
*
* @v xsigo Xsigo device
* @v id Configuration manager ID
* @ret rc Return status code
*/
static int xcm_create ( struct xsigo_device *xdev,
struct xsigo_manager_id *id ) {
struct xsigo_manager *xcm;
/* Allocate and initialise structure */
xcm = zalloc ( sizeof ( *xcm ) );
if ( ! xcm )
return -ENOMEM;
ref_init ( &xcm->refcnt, xcm_free );
xcm->xdev = xdev;
ref_get ( &xcm->xdev->refcnt );
snprintf ( xcm->name, sizeof ( xcm->name ), "%s:xcm-%d",
xdev->name, ntohs ( id->lid ) );
memcpy ( &xcm->id, id, sizeof ( xcm->id ) );
intf_init ( &xcm->xfer, &xcm_xfer_desc, &xcm->refcnt );
timer_init ( &xcm->keepalive, xcm_keepalive, &xcm->refcnt );
timer_init ( &xcm->reopen, xcm_reopen, &xcm->refcnt );
process_init_stopped ( &xcm->process, &xcm_process_desc, &xcm->refcnt );
INIT_LIST_HEAD ( &xcm->nics );
/* Start timer to open connection */
start_timer_nodelay ( &xcm->reopen );
/* Add to list of managers and transfer reference to list */
list_add ( &xcm->list, &xdev->managers );
DBGC ( xcm, "XCM %s created for " IB_GUID_FMT " (LID %d)\n", xcm->name,
IB_GUID_ARGS ( &xcm->id.guid ), ntohs ( id->lid ) );
return 0;
}
/**
* Find configuration manager
*
* @v xsigo Xsigo device
* @v id Configuration manager ID
* @ret xcm Configuration manager, or NULL
*/
static struct xsigo_manager * xcm_find ( struct xsigo_device *xdev,
struct xsigo_manager_id *id ) {
struct xsigo_manager *xcm;
union ib_guid *guid = &id->guid;
/* Find configuration manager */
list_for_each_entry ( xcm, &xdev->managers, list ) {
if ( memcmp ( guid, &xcm->id.guid, sizeof ( *guid ) ) == 0 )
return xcm;
}
return NULL;
}
/**
* Destroy configuration manager
*
* @v xcm Configuration manager
*/
static void xcm_destroy ( struct xsigo_manager *xcm ) {
struct xsigo_nic *xve;
/* Remove all EoIB NICs */
while ( ( xve = list_first_entry ( &xcm->nics, struct xsigo_nic,
list ) ) ) {
xve_destroy ( xve );
}
/* Stop transmission process */
process_del ( &xcm->process );
/* Stop timers */
stop_timer ( &xcm->keepalive );
stop_timer ( &xcm->reopen );
/* Shut down data transfer interface */
intf_shutdown ( &xcm->xfer, 0 );
/* Remove from list of managers and drop list's reference */
DBGC ( xcm, "XCM %s destroyed\n", xcm->name );
list_del ( &xcm->list );
ref_put ( &xcm->refcnt );
}
/**
* Synchronise list of configuration managers
*
* @v xdev Xsigo device
* @v ids List of manager IDs
* @v count Number of manager IDs
* @ret rc Return status code
*/
static int xcm_list ( struct xsigo_device *xdev, struct xsigo_manager_id *ids,
unsigned int count ) {
struct xsigo_manager_id *id;
struct xsigo_manager *xcm;
struct xsigo_manager *tmp;
struct list_head list;
unsigned int i;
int rc;
/* Create list of managers to be retained */
INIT_LIST_HEAD ( &list );
for ( i = 0, id = ids ; i < count ; i++, id++ ) {
if ( ( xcm = xcm_find ( xdev, id ) ) ) {
list_del ( &xcm->list );
list_add_tail ( &xcm->list, &list );
}
}
/* Destroy any managers not in the list */
list_for_each_entry_safe ( xcm, tmp, &xdev->managers, list )
xcm_destroy ( xcm );
list_splice ( &list, &xdev->managers );
/* Create any new managers in the list, and force reconnection
* for any changed LIDs.
*/
for ( i = 0, id = ids ; i < count ; i++, id++ ) {
if ( ( xcm = xcm_find ( xdev, id ) ) ) {
if ( xcm->id.lid != id->lid )
start_timer_nodelay ( &xcm->reopen );
continue;
}
if ( ( rc = xcm_create ( xdev, id ) ) != 0 ) {
DBGC ( xdev, "XDEV %s could not create manager: %s\n",
xdev->name, strerror ( rc ) );
return rc;
}
}
return 0;
}
/****************************************************************************
*
* Configuration manager discovery
*
****************************************************************************
*/
/** A stage of discovery */
struct xsigo_discovery {
/** Name */
const char *name;
/** Management transaction operations */
struct ib_mad_transaction_operations op;
};
/**
* Handle configuration manager lookup completion
*
* @v ibdev Infiniband device
* @v mi Management interface
* @v madx Management transaction
* @v rc Status code
* @v mad Received MAD (or NULL on error)
* @v av Source address vector (or NULL on error)
*/
static void xsigo_xcm_complete ( struct ib_device *ibdev,
struct ib_mad_interface *mi __unused,
struct ib_mad_transaction *madx,
int rc, union ib_mad *mad,
struct ib_address_vector *av __unused ) {
struct xsigo_device *xdev = ib_madx_get_ownerdata ( madx );
union xsigo_mad *xsmad = container_of ( mad, union xsigo_mad, mad );
struct xsigo_managers_reply *reply = &xsmad->reply;
/* Check for failures */
if ( ( rc == 0 ) && ( mad->hdr.status != htons ( IB_MGMT_STATUS_OK ) ) )
rc = -ENODEV;
if ( rc != 0 ) {
DBGC ( xdev, "XDEV %s manager lookup failed: %s\n",
xdev->name, strerror ( rc ) );
goto out;
}
/* Sanity checks */
if ( reply->count > ( sizeof ( reply->manager ) /
sizeof ( reply->manager[0] ) ) ) {
DBGC ( xdev, "XDEV %s has too many managers (%d)\n",
xdev->name, reply->count );
goto out;
}
/* Synchronise list of managers */
if ( ( rc = xcm_list ( xdev, reply->manager, reply->count ) ) != 0 )
goto out;
/* Report an empty list of managers */
if ( reply->count == 0 )
DBGC ( xdev, "XDEV %s has no managers\n", xdev->name );
/* Delay next discovery attempt */
start_timer_fixed ( &xdev->discovery, XSIGO_DISCOVERY_SUCCESS_DELAY );
out:
/* Destroy the completed transaction */
ib_destroy_madx ( ibdev, ibdev->gsi, madx );
xdev->madx = NULL;
}
/** Configuration manager lookup discovery stage */
static struct xsigo_discovery xsigo_xcm_discovery = {
.name = "manager",
.op = {
.complete = xsigo_xcm_complete,
},
};
/**
* Handle directory service lookup completion
*
* @v ibdev Infiniband device
* @v mi Management interface
* @v madx Management transaction
* @v rc Status code
* @v mad Received MAD (or NULL on error)
* @v av Source address vector (or NULL on error)
*/
static void xsigo_xds_complete ( struct ib_device *ibdev,
struct ib_mad_interface *mi __unused,
struct ib_mad_transaction *madx,
int rc, union ib_mad *mad,
struct ib_address_vector *av __unused ) {
struct xsigo_device *xdev = ib_madx_get_ownerdata ( madx );
union xsigo_mad *xsmad = container_of ( mad, union xsigo_mad, mad );
struct xsigo_managers_request *request = &xsmad->request;
struct ib_service_record *svc;
struct ib_address_vector dest;
union ib_guid *guid;
/* Allow for reuse of transaction pointer */
xdev->madx = NULL;
/* Check for failures */
if ( ( rc == 0 ) && ( mad->hdr.status != htons ( IB_MGMT_STATUS_OK ) ) )
rc = -ENODEV;
if ( rc != 0 ) {
DBGC ( xdev, "XDEV %s directory lookup failed: %s\n",
xdev->name, strerror ( rc ) );
goto out;
}
/* Construct address vector */
memset ( &dest, 0, sizeof ( dest ) );
svc = &mad->sa.sa_data.service_record;
dest.lid = ntohs ( svc->data16[0] );
dest.sl = ibdev->sm_sl;
dest.qpn = IB_QPN_GSI;
dest.qkey = IB_QKEY_GSI;
guid = ( ( union ib_guid * ) &svc->data64[0] );
DBGC2 ( xdev, "XDEV %s found directory at LID %d GUID " IB_GUID_FMT
"\n", xdev->name, dest.lid, IB_GUID_ARGS ( guid ) );
/* Construct request (reusing MAD buffer) */
memset ( request, 0, sizeof ( *request ) );
request->mad_hdr.mgmt_class = XSIGO_MGMT_CLASS;
request->mad_hdr.class_version = XSIGO_MGMT_CLASS_VERSION;
request->mad_hdr.method = IB_MGMT_METHOD_GET;
request->mad_hdr.attr_id = htons ( XSIGO_ATTR_XCM_REQUEST );
memcpy ( &request->server.guid, &ibdev->gid.s.guid,
sizeof ( request->server.guid ) );
snprintf ( request->os_version, sizeof ( request->os_version ),
"%s %s", product_short_name, product_version );
snprintf ( request->arch, sizeof ( request->arch ), _S2 ( ARCH ) );
request->os_type = XSIGO_OS_TYPE_GENERIC;
request->resources = htons ( XSIGO_RESOURCES_PRESENT |
XSIGO_RESOURCE_XVE |
XSIGO_RESOURCE_NO_HA );
/* The handling of this request on the server side is a
* textbook example of how not to design a wire protocol. The
* server uses the _driver_ version number to determine which
* fields are present.
*/
request->driver_version = htonl ( 0x2a2a2a );
/* The build version field is ignored unless it happens to
* contain the substring "xg-".
*/
snprintf ( request->build, sizeof ( request->build ),
"not-xg-%08lx", build_id );
/* The server side user interface occasionally has no way to
* refer to an entry with an empty hostname.
*/
fetch_string_setting ( NULL, &hostname_setting, request->hostname,
sizeof ( request->hostname ) );
if ( ! request->hostname[0] ) {
snprintf ( request->hostname, sizeof ( request->hostname ),
"%s-" IB_GUID_FMT, product_short_name,
IB_GUID_ARGS ( &ibdev->gid.s.guid ) );
}
/* Start configuration manager lookup */
xdev->madx = ib_create_madx ( ibdev, ibdev->gsi, mad, &dest,
&xsigo_xcm_discovery.op );
if ( ! xdev->madx ) {
DBGC ( xdev, "XDEV %s could not start manager lookup\n",
xdev->name );
goto out;
}
ib_madx_set_ownerdata ( xdev->madx, xdev );
out:
/* Destroy the completed transaction */
ib_destroy_madx ( ibdev, ibdev->gsi, madx );
}
/** Directory service lookup discovery stage */
static struct xsigo_discovery xsigo_xds_discovery = {
.name = "directory",
.op = {
.complete = xsigo_xds_complete,
},
};
/**
* Discover configuration managers
*
* @v timer Retry timer
* @v over Failure indicator
*/
static void xsigo_discover ( struct retry_timer *timer, int over __unused ) {
struct xsigo_device *xdev =
container_of ( timer, struct xsigo_device, discovery );
struct ib_device *ibdev = xdev->ibdev;
struct xsigo_discovery *discovery;
/* Restart timer */
start_timer_fixed ( &xdev->discovery, XSIGO_DISCOVERY_FAILURE_DELAY );
/* Cancel any pending discovery transaction */
if ( xdev->madx ) {
discovery = container_of ( xdev->madx->op,
struct xsigo_discovery, op );
DBGC ( xdev, "XDEV %s timed out waiting for %s lookup\n",
xdev->name, discovery->name );
ib_destroy_madx ( ibdev, ibdev->gsi, xdev->madx );
xdev->madx = NULL;
}
/* Start directory service lookup */
xdev->madx = ib_create_service_madx ( ibdev, ibdev->gsi,
XDS_SERVICE_NAME,
&xsigo_xds_discovery.op );
if ( ! xdev->madx ) {
DBGC ( xdev, "XDEV %s could not start directory lookup\n",
xdev->name );
return;
}
ib_madx_set_ownerdata ( xdev->madx, xdev );
}
/****************************************************************************
*
* Infiniband device driver
*
****************************************************************************
*/
/**
* Open link and start discovery
*
* @v opener Link opener
* @v over Failure indicator
*/
static void xsigo_ib_open ( struct retry_timer *opener, int over __unused ) {
struct xsigo_device *xdev =
container_of ( opener, struct xsigo_device, opener );
struct ib_device *ibdev = xdev->ibdev;
int rc;
/* Open Infiniband device */
if ( ( rc = ib_open ( ibdev ) ) != 0 ) {
DBGC ( xdev, "XDEV %s could not open: %s\n",
xdev->name, strerror ( rc ) );
/* Delay and try again */
start_timer_fixed ( &xdev->opener, XSIGO_OPEN_RETRY_DELAY );
return;
}
/* If link is already up, then start discovery */
if ( ib_link_ok ( ibdev ) )
start_timer_nodelay ( &xdev->discovery );
}
/**
* Probe Xsigo device
*
* @v ibdev Infiniband device
* @ret rc Return status code
*/
static int xsigo_ib_probe ( struct ib_device *ibdev ) {
struct xsigo_device *xdev;
/* Allocate and initialise structure */
xdev = zalloc ( sizeof ( *xdev ) );
if ( ! xdev )
return -ENOMEM;
ref_init ( &xdev->refcnt, xsigo_free );
xdev->ibdev = ibdev_get ( ibdev );
xdev->name = ibdev->name;
timer_init ( &xdev->opener, xsigo_ib_open, &xdev->refcnt );
timer_init ( &xdev->discovery, xsigo_discover, &xdev->refcnt );
INIT_LIST_HEAD ( &xdev->managers );
/* Start timer to open Infiniband device. (We are currently
* within the Infiniband device probe callback list; opening
* the device here would have interesting side-effects.)
*/
start_timer_nodelay ( &xdev->opener );
/* Add to list of devices and transfer reference to list */
list_add_tail ( &xdev->list, &xsigo_devices );
DBGC ( xdev, "XDEV %s created for " IB_GUID_FMT "\n",
xdev->name, IB_GUID_ARGS ( &ibdev->gid.s.guid ) );
return 0;
}
/**
* Handle device or link status change
*
* @v ibdev Infiniband device
*/
static void xsigo_ib_notify ( struct ib_device *ibdev ) {
struct xsigo_device *xdev;
/* Stop/restart discovery on any attached devices */
list_for_each_entry ( xdev, &xsigo_devices, list ) {
/* Skip non-attached devices */
if ( xdev->ibdev != ibdev )
continue;
/* Stop any ongoing discovery */
if ( xdev->madx ) {
ib_destroy_madx ( ibdev, ibdev->gsi, xdev->madx );
xdev->madx = NULL;
}
stop_timer ( &xdev->discovery );
/* If link is up, then start discovery */
if ( ib_link_ok ( ibdev ) )
start_timer_nodelay ( &xdev->discovery );
}
}
/**
* Remove Xsigo device
*
* @v ibdev Infiniband device
*/
static void xsigo_ib_remove ( struct ib_device *ibdev ) {
struct xsigo_device *xdev;
struct xsigo_device *tmp;
/* Remove any attached Xsigo devices */
list_for_each_entry_safe ( xdev, tmp, &xsigo_devices, list ) {
/* Skip non-attached devices */
if ( xdev->ibdev != ibdev )
continue;
/* Stop any ongoing discovery */
if ( xdev->madx ) {
ib_destroy_madx ( ibdev, ibdev->gsi, xdev->madx );
xdev->madx = NULL;
}
stop_timer ( &xdev->discovery );
/* Destroy all configuration managers */
xcm_list ( xdev, NULL, 0 );
/* Close Infiniband device, if applicable */
if ( ! timer_running ( &xdev->opener ) )
ib_close ( xdev->ibdev );
/* Stop link opener */
stop_timer ( &xdev->opener );
/* Remove from list of devices and drop list's reference */
DBGC ( xdev, "XDEV %s destroyed\n", xdev->name );
list_del ( &xdev->list );
ref_put ( &xdev->refcnt );
}
}
/** Xsigo Infiniband driver */
struct ib_driver xsigo_ib_driver __ib_driver = {
.name = "Xsigo",
.probe = xsigo_ib_probe,
.notify = xsigo_ib_notify,
.remove = xsigo_ib_remove,
};
/****************************************************************************
*
* Network device driver
*
****************************************************************************
*/
/**
* Handle device or link status change
*
* @v netdev Network device
*/
static void xsigo_net_notify ( struct net_device *netdev ) {
struct xsigo_device *xdev;
struct ib_device *ibdev;
struct xsigo_manager *xcm;
struct xsigo_nic *xve;
struct eoib_device *eoib;
/* Send current operational state to XCM, if applicable */
list_for_each_entry ( xdev, &xsigo_devices, list ) {
ibdev = xdev->ibdev;
list_for_each_entry ( xcm, &xdev->managers, list ) {
list_for_each_entry ( xve, &xcm->nics, list ) {
eoib = eoib_find ( ibdev, xve->mac );
if ( ! eoib )
continue;
if ( eoib->netdev != netdev )
continue;
xsmp_tx_xve_oper ( xcm, xve, eoib );
}
}
}
}
/** Xsigo network driver */
struct net_driver xsigo_net_driver __net_driver = {
.name = "Xsigo",
.notify = xsigo_net_notify,
};