gpxe/src/net/udp/slam.c - platform/external/syslinux - Git at Google

 /*
  * Copyright (C) 2008 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., 675 Mass Ave, Cambridge, MA 02139, USA.
  */

 FILE_LICENCE ( GPL2_OR_LATER );

 #include <stdint.h>
 #include <stdlib.h>
 #include <string.h>
 #include <strings.h>
 #include <errno.h>
 #include <assert.h>
 #include <byteswap.h>
 #include <gpxe/features.h>
 #include <gpxe/iobuf.h>
 #include <gpxe/bitmap.h>
 #include <gpxe/xfer.h>
 #include <gpxe/open.h>
 #include <gpxe/uri.h>
 #include <gpxe/tcpip.h>
 #include <gpxe/timer.h>
 #include <gpxe/retry.h>

 /** @file
  *
  * Scalable Local Area Multicast protocol
  *
  * The SLAM protocol is supported only by Etherboot; it was designed
  * and implemented by Eric Biederman.  A server implementation is
  * available in contrib/mini-slamd.  There does not appear to be any
  * documentation beyond a few sparse comments in Etherboot's
  * proto_slam.c.
  *
  * SLAM packets use three types of data field:
  *
  *  Nul : A single NUL (0) byte, used as a list terminator
  *
  *  Raw : A block of raw data
  *
  *  Int : A variable-length integer, in big-endian order.  The length
  *        of the integer is encoded in the most significant three bits.
  *
  * Packets received by the client have the following layout:
  *
  *  Int : Transaction identifier.  This is an opaque value.
  *
  *  Int : Total number of bytes in the transfer.
  *
  *  Int : Block size, in bytes.
  *
  *  Int : Packet sequence number within the transfer (if this packet
  *        contains data).
  *
  *  Raw : Packet data (if this packet contains data).
  *
  * Packets transmitted by the client consist of a run-length-encoded
  * representation of the received-blocks bitmap, looking something
  * like:
  *
  *  Int : Number of consecutive successfully-received packets
  *  Int : Number of consecutive missing packets
  *  Int : Number of consecutive successfully-received packets
  *  Int : Number of consecutive missing packets
  *  ....
  *  Nul
  *
  */

 FEATURE ( FEATURE_PROTOCOL, "SLAM", DHCP_EB_FEATURE_SLAM, 1 );

 /** Default SLAM server port */
 #define SLAM_DEFAULT_PORT 10000

 /** Default SLAM multicast IP address */
 #define SLAM_DEFAULT_MULTICAST_IP \
 	( ( 239 << 24 ) | ( 255 << 16 ) | ( 1 << 8 ) | ( 1 << 0 ) )

 /** Default SLAM multicast port */
 #define SLAM_DEFAULT_MULTICAST_PORT 10000

 /** Maximum SLAM header length */
 #define SLAM_MAX_HEADER_LEN ( 7 /* transaction id */ + 7 /* total_bytes */ + \
 			      7 /* block_size */ )

 /** Maximum number of blocks to request per NACK
  *
  * This is a policy decision equivalent to selecting a TCP window
  * size.
  */
 #define SLAM_MAX_BLOCKS_PER_NACK 4

 /** Maximum SLAM NACK length
  *
  * We only ever send a NACK for a single range of up to @c
  * SLAM_MAX_BLOCKS_PER_NACK blocks.
  */
 #define SLAM_MAX_NACK_LEN ( 7 /* block */ + 7 /* #blocks */ + 1 /* NUL */ )

 /** SLAM slave timeout */
 #define SLAM_SLAVE_TIMEOUT ( 1 * TICKS_PER_SEC )

 /** A SLAM request */
 struct slam_request {
 	/** Reference counter */
 	struct refcnt refcnt;

 	/** Data transfer interface */
 	struct xfer_interface xfer;
 	/** Unicast socket */
 	struct xfer_interface socket;
 	/** Multicast socket */
 	struct xfer_interface mc_socket;

 	/** Master client retry timer */
 	struct retry_timer master_timer;
 	/** Slave client retry timer */
 	struct retry_timer slave_timer;

 	/** Cached header */
 	uint8_t header[SLAM_MAX_HEADER_LEN];
 	/** Size of cached header */
 	size_t header_len;
 	/** Total number of bytes in transfer */
 	unsigned long total_bytes;
 	/** Transfer block size */
 	unsigned long block_size;
 	/** Number of blocks in transfer */
 	unsigned long num_blocks;
 	/** Block bitmap */
 	struct bitmap bitmap;
 	/** NACK sent flag */
 	int nack_sent;
 };

 /**
  * Free a SLAM request
  *
  * @v refcnt		Reference counter
  */
 static void slam_free ( struct refcnt *refcnt ) {
 	struct slam_request *slam =
 		container_of ( refcnt, struct slam_request, refcnt );

 	bitmap_free ( &slam->bitmap );
 	free ( slam );
 }

 /**
  * Mark SLAM request as complete
  *
  * @v slam		SLAM request
  * @v rc		Return status code
  */
 static void slam_finished ( struct slam_request *slam, int rc ) {
 	static const uint8_t slam_disconnect[] = { 0 };

 	DBGC ( slam, "SLAM %p finished with status code %d (%s)\n",
 	       slam, rc, strerror ( rc ) );

 	/* Send a disconnect message if we ever sent anything to the
 	 * server.
 	 */
 	if ( slam->nack_sent ) {
 		xfer_deliver_raw ( &slam->socket, slam_disconnect,
 				   sizeof ( slam_disconnect ) );
 	}

 	/* Stop the retry timers */
 	stop_timer ( &slam->master_timer );
 	stop_timer ( &slam->slave_timer );

 	/* Close all data transfer interfaces */
 	xfer_nullify ( &slam->socket );
 	xfer_close ( &slam->socket, rc );
 	xfer_nullify ( &slam->mc_socket );
 	xfer_close ( &slam->mc_socket, rc );
 	xfer_nullify ( &slam->xfer );
 	xfer_close ( &slam->xfer, rc );
 }

 /****************************************************************************
  *
  * TX datapath
  *
  */

 /**
  * Add a variable-length value to a SLAM packet
  *
  * @v slam		SLAM request
  * @v iobuf		I/O buffer
  * @v value		Value to add
  * @ret rc		Return status code
  *
  * Adds a variable-length value to the end of an I/O buffer.  Will
  * always leave at least one byte of tailroom in the I/O buffer (to
  * allow space for the terminating NUL).
  */
 static int slam_put_value ( struct slam_request *slam,
 			    struct io_buffer *iobuf, unsigned long value ) {
 	uint8_t *data;
 	size_t len;
 	unsigned int i;

 	/* Calculate variable length required to store value.  Always
 	 * leave at least one byte in the I/O buffer.
 	 */
 	len = ( ( flsl ( value ) + 10 ) / 8 );
 	if ( len >= iob_tailroom ( iobuf ) ) {
 		DBGC2 ( slam, "SLAM %p cannot add %zd-byte value\n",
 			slam, len );
 		return -ENOBUFS;
 	}
 	/* There is no valid way within the protocol that we can end
 	 * up trying to push a full-sized long (i.e. without space for
 	 * the length encoding).
 	 */
 	assert ( len <= sizeof ( value ) );

 	/* Add value */
 	data = iob_put ( iobuf, len );
 	for ( i = len ; i-- ; ) {
 		data[i] = value;
 		value >>= 8;
 	}
 	*data |= ( len << 5 );
 	assert ( value == 0 );

 	return 0;
 }

 /**
  * Send SLAM NACK packet
  *
  * @v slam		SLAM request
  * @ret rc		Return status code
  */
 static int slam_tx_nack ( struct slam_request *slam ) {
 	struct io_buffer *iobuf;
 	unsigned long first_block;
 	unsigned long num_blocks;
 	uint8_t *nul;
 	int rc;

 	/* Mark NACK as sent, so that we know we have to disconnect later */
 	slam->nack_sent = 1;

 	/* Allocate I/O buffer */
 	iobuf = xfer_alloc_iob ( &slam->socket,	SLAM_MAX_NACK_LEN );
 	if ( ! iobuf ) {
 		DBGC ( slam, "SLAM %p could not allocate I/O buffer\n",
 		       slam );
 		return -ENOMEM;
 	}

 	/* Construct NACK.  We always request only a single packet;
 	 * this allows us to force multicast-TFTP-style flow control
 	 * on the SLAM server, which will otherwise just blast the
 	 * data out as fast as it can.  On a gigabit network, without
 	 * RX checksumming, this would inevitably cause packet drops.
 	 */
 	first_block = bitmap_first_gap ( &slam->bitmap );
 	for ( num_blocks = 1 ; ; num_blocks++ ) {
 		if ( num_blocks >= SLAM_MAX_BLOCKS_PER_NACK )
 			break;
 		if ( ( first_block + num_blocks ) >= slam->num_blocks )
 			break;
 		if ( bitmap_test ( &slam->bitmap,
 				   ( first_block + num_blocks ) ) )
 			break;
 	}
 	if ( first_block ) {
 		DBGCP ( slam, "SLAM %p transmitting NACK for blocks "
 			"%ld-%ld\n", slam, first_block,
 			( first_block + num_blocks - 1 ) );
 	} else {
 		DBGC ( slam, "SLAM %p transmitting initial NACK for blocks "
 		       "0-%ld\n", slam, ( num_blocks - 1 ) );
 	}
 	if ( ( rc = slam_put_value ( slam, iobuf, first_block ) ) != 0 )
 		return rc;
 	if ( ( rc = slam_put_value ( slam, iobuf, num_blocks ) ) != 0 )
 		return rc;
 	nul = iob_put ( iobuf, 1 );
 	*nul = 0;

 	/* Transmit packet */
 	return xfer_deliver_iob ( &slam->socket, iobuf );
 }

 /**
  * Handle SLAM master client retry timer expiry
  *
  * @v timer		Master retry timer
  * @v fail		Failure indicator
  */
 static void slam_master_timer_expired ( struct retry_timer *timer,
 					int fail ) {
 	struct slam_request *slam =
 		container_of ( timer, struct slam_request, master_timer );

 	if ( fail ) {
 		/* Allow timer to stop running.  We will terminate the
 		 * connection only if the slave timer times out.
 		 */
 		DBGC ( slam, "SLAM %p giving up acting as master client\n",
 		       slam );
 	} else {
 		/* Retransmit NACK */
 		start_timer ( timer );
 		slam_tx_nack ( slam );
 	}
 }

 /**
  * Handle SLAM slave client retry timer expiry
  *
  * @v timer		Master retry timer
  * @v fail		Failure indicator
  */
 static void slam_slave_timer_expired ( struct retry_timer *timer,
 					int fail ) {
 	struct slam_request *slam =
 		container_of ( timer, struct slam_request, slave_timer );

 	if ( fail ) {
 		/* Terminate connection */
 		slam_finished ( slam, -ETIMEDOUT );
 	} else {
 		/* Try sending a NACK */
 		DBGC ( slam, "SLAM %p trying to become master client\n",
 		       slam );
 		start_timer ( timer );
 		slam_tx_nack ( slam );
 	}
 }

 /****************************************************************************
  *
  * RX datapath
  *
  */

 /**
  * Read and strip a variable-length value from a SLAM packet
  *
  * @v slam		SLAM request
  * @v iobuf		I/O buffer
  * @v value		Value to fill in, or NULL to ignore value
  * @ret rc		Return status code
  *
  * Reads a variable-length value from the start of the I/O buffer.
  */
 static int slam_pull_value ( struct slam_request *slam,
 			     struct io_buffer *iobuf,
 			     unsigned long *value ) {
 	uint8_t *data;
 	size_t len;

 	/* Sanity check */
 	if ( iob_len ( iobuf ) == 0 ) {
 		DBGC ( slam, "SLAM %p empty value\n", slam );
 		return -EINVAL;
 	}

 	/* Read and verify length of value */
 	data = iobuf->data;
 	len = ( *data >> 5 );
 	if ( ( len == 0 ) ||
 	     ( value && ( len > sizeof ( *value ) ) ) ) {
 		DBGC ( slam, "SLAM %p invalid value length %zd bytes\n",
 		       slam, len );
 		return -EINVAL;
 	}
 	if ( len > iob_len ( iobuf ) ) {
 		DBGC ( slam, "SLAM %p value extends beyond I/O buffer\n",
 		       slam );
 		return -EINVAL;
 	}

 	/* Read value */
 	iob_pull ( iobuf, len );
 	*value = ( *data & 0x1f );
 	while ( --len ) {
 		*value <<= 8;
 		*value |= *(++data);
 	}

 	return 0;
 }

 /**
  * Read and strip SLAM header
  *
  * @v slam		SLAM request
  * @v iobuf		I/O buffer
  * @ret rc		Return status code
  */
 static int slam_pull_header ( struct slam_request *slam,
 			      struct io_buffer *iobuf ) {
 	void *header = iobuf->data;
 	int rc;

 	/* If header matches cached header, just pull it and return */
 	if ( ( slam->header_len <= iob_len ( iobuf ) ) &&
 	     ( memcmp ( slam->header, iobuf->data, slam->header_len ) == 0 )){
 		iob_pull ( iobuf, slam->header_len );
 		return 0;
 	}

 	DBGC ( slam, "SLAM %p detected changed header; resetting\n", slam );

 	/* Read and strip transaction ID, total number of bytes, and
 	 * block size.
 	 */
 	if ( ( rc = slam_pull_value ( slam, iobuf, NULL ) ) != 0 )
 		return rc;
 	if ( ( rc = slam_pull_value ( slam, iobuf,
 				      &slam->total_bytes ) ) != 0 )
 		return rc;
 	if ( ( rc = slam_pull_value ( slam, iobuf,
 				      &slam->block_size ) ) != 0 )
 		return rc;

 	/* Update the cached header */
 	slam->header_len = ( iobuf->data - header );
 	assert ( slam->header_len <= sizeof ( slam->header ) );
 	memcpy ( slam->header, header, slam->header_len );

 	/* Calculate number of blocks */
 	slam->num_blocks = ( ( slam->total_bytes + slam->block_size - 1 ) /
 			     slam->block_size );

 	DBGC ( slam, "SLAM %p has total bytes %ld, block size %ld, num "
 	       "blocks %ld\n", slam, slam->total_bytes, slam->block_size,
 	       slam->num_blocks );

 	/* Discard and reset the bitmap */
 	bitmap_free ( &slam->bitmap );
 	memset ( &slam->bitmap, 0, sizeof ( slam->bitmap ) );

 	/* Allocate a new bitmap */
 	if ( ( rc = bitmap_resize ( &slam->bitmap,
 				    slam->num_blocks ) ) != 0 ) {
 		/* Failure to allocate a bitmap is fatal */
 		DBGC ( slam, "SLAM %p could not allocate bitmap for %ld "
 		       "blocks: %s\n", slam, slam->num_blocks,
 		       strerror ( rc ) );
 		slam_finished ( slam, rc );
 		return rc;
 	}

 	/* Notify recipient of file size */
 	xfer_seek ( &slam->xfer, slam->total_bytes, SEEK_SET );

 	return 0;
 }

 /**
  * Receive SLAM data packet
  *
  * @v mc_socket		SLAM multicast socket
  * @v iobuf		I/O buffer
  * @ret rc		Return status code
  */
 static int slam_mc_socket_deliver ( struct xfer_interface *mc_socket,
 				    struct io_buffer *iobuf,
 				    struct xfer_metadata *rx_meta __unused ) {
 	struct slam_request *slam =
 		container_of ( mc_socket, struct slam_request, mc_socket );
 	struct xfer_metadata meta;
 	unsigned long packet;
 	size_t len;
 	int rc;

 	/* Stop the master client timer.  Restart the slave client timer. */
 	stop_timer ( &slam->master_timer );
 	stop_timer ( &slam->slave_timer );
 	start_timer_fixed ( &slam->slave_timer, SLAM_SLAVE_TIMEOUT );

 	/* Read and strip packet header */
 	if ( ( rc = slam_pull_header ( slam, iobuf ) ) != 0 )
 		goto err_discard;

 	/* Read and strip packet number */
 	if ( ( rc = slam_pull_value ( slam, iobuf, &packet ) ) != 0 )
 		goto err_discard;

 	/* Sanity check packet number */
 	if ( packet >= slam->num_blocks ) {
 		DBGC ( slam, "SLAM %p received out-of-range packet %ld "
 		       "(num_blocks=%ld)\n", slam, packet, slam->num_blocks );
 		rc = -EINVAL;
 		goto err_discard;
 	}

 	/* Sanity check length */
 	len = iob_len ( iobuf );
 	if ( len > slam->block_size ) {
 		DBGC ( slam, "SLAM %p received oversize packet of %zd bytes "
 		       "(block_size=%ld)\n", slam, len, slam->block_size );
 		rc = -EINVAL;
 		goto err_discard;
 	}
 	if ( ( packet != ( slam->num_blocks - 1 ) ) &&
 	     ( len < slam->block_size ) ) {
 		DBGC ( slam, "SLAM %p received short packet of %zd bytes "
 		       "(block_size=%ld)\n", slam, len, slam->block_size );
 		rc = -EINVAL;
 		goto err_discard;
 	}

 	/* If we have already seen this packet, discard it */
 	if ( bitmap_test ( &slam->bitmap, packet ) ) {
 		goto discard;
 	}

 	/* Pass to recipient */
 	memset ( &meta, 0, sizeof ( meta ) );
 	meta.whence = SEEK_SET;
 	meta.offset = ( packet * slam->block_size );
 	if ( ( rc = xfer_deliver_iob_meta ( &slam->xfer, iobuf,
 					    &meta ) ) != 0 )
 		goto err;

 	/* Mark block as received */
 	bitmap_set ( &slam->bitmap, packet );

 	/* If we have received all blocks, terminate */
 	if ( bitmap_full ( &slam->bitmap ) )
 		slam_finished ( slam, 0 );

 	return 0;

  err_discard:
  discard:
 	free_iob ( iobuf );
  err:
 	return rc;
 }

 /**
  * Receive SLAM non-data packet
  *
  * @v socket		SLAM unicast socket
  * @v iobuf		I/O buffer
  * @ret rc		Return status code
  */
 static int slam_socket_deliver ( struct xfer_interface *socket,
 				 struct io_buffer *iobuf,
 				 struct xfer_metadata *rx_meta __unused ) {
 	struct slam_request *slam =
 		container_of ( socket, struct slam_request, socket );
 	int rc;

 	/* Restart the master client timer */
 	stop_timer ( &slam->master_timer );
 	start_timer ( &slam->master_timer );

 	/* Read and strip packet header */
 	if ( ( rc = slam_pull_header ( slam, iobuf ) ) != 0 )
 		goto discard;

 	/* Sanity check */
 	if ( iob_len ( iobuf ) != 0 ) {
 		DBGC ( slam, "SLAM %p received trailing garbage:\n", slam );
 		DBGC_HD ( slam, iobuf->data, iob_len ( iobuf ) );
 		rc = -EINVAL;
 		goto discard;
 	}

 	/* Discard packet */
 	free_iob ( iobuf );

 	/* Send NACK in reply */
 	slam_tx_nack ( slam );

 	return 0;

  discard:
 	free_iob ( iobuf );
 	return rc;

 }

 /**
  * Close SLAM unicast socket
  *
  * @v socket		SLAM unicast socket
  * @v rc		Reason for close
  */
 static void slam_socket_close ( struct xfer_interface *socket, int rc ) {
 	struct slam_request *slam =
 		container_of ( socket, struct slam_request, socket );

 	DBGC ( slam, "SLAM %p unicast socket closed: %s\n",
 	       slam, strerror ( rc ) );

 	slam_finished ( slam, rc );
 }

 /** SLAM unicast socket data transfer operations */
 static struct xfer_interface_operations slam_socket_operations = {
 	.close		= slam_socket_close,
 	.vredirect	= xfer_vreopen,
 	.window		= unlimited_xfer_window,
 	.alloc_iob	= default_xfer_alloc_iob,
 	.deliver_iob	= slam_socket_deliver,
 	.deliver_raw	= xfer_deliver_as_iob,
 };

 /**
  * Close SLAM multicast socket
  *
  * @v mc_socket		SLAM multicast socket
  * @v rc		Reason for close
  */
 static void slam_mc_socket_close ( struct xfer_interface *mc_socket, int rc ){
 	struct slam_request *slam =
 		container_of ( mc_socket, struct slam_request, mc_socket );

 	DBGC ( slam, "SLAM %p multicast socket closed: %s\n",
 	       slam, strerror ( rc ) );

 	slam_finished ( slam, rc );
 }

 /** SLAM multicast socket data transfer operations */
 static struct xfer_interface_operations slam_mc_socket_operations = {
 	.close		= slam_mc_socket_close,
 	.vredirect	= xfer_vreopen,
 	.window		= unlimited_xfer_window,
 	.alloc_iob	= default_xfer_alloc_iob,
 	.deliver_iob	= slam_mc_socket_deliver,
 	.deliver_raw	= xfer_deliver_as_iob,
 };

 /****************************************************************************
  *
  * Data transfer interface
  *
  */

 /**
  * Close SLAM data transfer interface
  *
  * @v xfer		SLAM data transfer interface
  * @v rc		Reason for close
  */
 static void slam_xfer_close ( struct xfer_interface *xfer, int rc ) {
 	struct slam_request *slam =
 		container_of ( xfer, struct slam_request, xfer );

 	DBGC ( slam, "SLAM %p data transfer interface closed: %s\n",
 	       slam, strerror ( rc ) );

 	slam_finished ( slam, rc );
 }

 /** SLAM data transfer operations */
 static struct xfer_interface_operations slam_xfer_operations = {
 	.close		= slam_xfer_close,
 	.vredirect	= ignore_xfer_vredirect,
 	.window		= unlimited_xfer_window,
 	.alloc_iob	= default_xfer_alloc_iob,
 	.deliver_iob	= xfer_deliver_as_raw,
 	.deliver_raw	= ignore_xfer_deliver_raw,
 };

 /**
  * Parse SLAM URI multicast address
  *
  * @v slam		SLAM request
  * @v path		Path portion of x-slam:// URI
  * @v address		Socket address to fill in
  * @ret rc		Return status code
  */
 static int slam_parse_multicast_address ( struct slam_request *slam,
 					  const char *path,
 					  struct sockaddr_in *address ) {
 	char path_dup[ strlen ( path ) /* no +1 */ ];
 	char *sep;
 	char *end;

 	/* Create temporary copy of path, minus the leading '/' */
 	assert ( *path == '/' );
 	memcpy ( path_dup, ( path + 1 ) , sizeof ( path_dup ) );

 	/* Parse port, if present */
 	sep = strchr ( path_dup, ':' );
 	if ( sep ) {
 		*(sep++) = '\0';
 		address->sin_port = htons ( strtoul ( sep, &end, 0 ) );
 		if ( *end != '\0' ) {
 			DBGC ( slam, "SLAM %p invalid multicast port "
 			       "\"%s\"\n", slam, sep );
 			return -EINVAL;
 		}
 	}

 	/* Parse address */
 	if ( inet_aton ( path_dup, &address->sin_addr ) == 0 ) {
 		DBGC ( slam, "SLAM %p invalid multicast address \"%s\"\n",
 		       slam, path_dup );
 		return -EINVAL;
 	}

 	return 0;
 }

 /**
  * Initiate a SLAM request
  *
  * @v xfer		Data transfer interface
  * @v uri		Uniform Resource Identifier
  * @ret rc		Return status code
  */
 static int slam_open ( struct xfer_interface *xfer, struct uri *uri ) {
 	static const struct sockaddr_in default_multicast = {
 		.sin_family = AF_INET,
 		.sin_port = htons ( SLAM_DEFAULT_MULTICAST_PORT ),
 		.sin_addr = { htonl ( SLAM_DEFAULT_MULTICAST_IP ) },
 	};
 	struct slam_request *slam;
 	struct sockaddr_tcpip server;
 	struct sockaddr_in multicast;
 	int rc;

 	/* Sanity checks */
 	if ( ! uri->host )
 		return -EINVAL;

 	/* Allocate and populate structure */
 	slam = zalloc ( sizeof ( *slam ) );
 	if ( ! slam )
 		return -ENOMEM;
 	slam->refcnt.free = slam_free;
 	xfer_init ( &slam->xfer, &slam_xfer_operations, &slam->refcnt );
 	xfer_init ( &slam->socket, &slam_socket_operations, &slam->refcnt );
 	xfer_init ( &slam->mc_socket, &slam_mc_socket_operations,
 		    &slam->refcnt );
 	slam->master_timer.expired = slam_master_timer_expired;
 	slam->slave_timer.expired = slam_slave_timer_expired;
 	/* Fake an invalid cached header of { 0x00, ... } */
 	slam->header_len = 1;
 	/* Fake parameters for initial NACK */
 	slam->num_blocks = 1;
 	if ( ( rc = bitmap_resize ( &slam->bitmap, 1 ) ) != 0 ) {
 		DBGC ( slam, "SLAM %p could not allocate initial bitmap: "
 		       "%s\n", slam, strerror ( rc ) );
 		goto err;
 	}

 	/* Open unicast socket */
 	memset ( &server, 0, sizeof ( server ) );
 	server.st_port = htons ( uri_port ( uri, SLAM_DEFAULT_PORT ) );
 	if ( ( rc = xfer_open_named_socket ( &slam->socket, SOCK_DGRAM,
 					     ( struct sockaddr * ) &server,
 					     uri->host, NULL ) ) != 0 ) {
 		DBGC ( slam, "SLAM %p could not open unicast socket: %s\n",
 		       slam, strerror ( rc ) );
 		goto err;
 	}

 	/* Open multicast socket */
 	memcpy ( &multicast, &default_multicast, sizeof ( multicast ) );
 	if ( uri->path &&
 	     ( ( rc = slam_parse_multicast_address ( slam, uri->path,
 						     &multicast ) ) != 0 ) ) {
 		goto err;
 	}
 	if ( ( rc = xfer_open_socket ( &slam->mc_socket, SOCK_DGRAM,
 				 ( struct sockaddr * ) &multicast,
 				 ( struct sockaddr * ) &multicast ) ) != 0 ) {
 		DBGC ( slam, "SLAM %p could not open multicast socket: %s\n",
 		       slam, strerror ( rc ) );
 		goto err;
 	}

 	/* Start slave retry timer */
 	start_timer_fixed ( &slam->slave_timer, SLAM_SLAVE_TIMEOUT );

 	/* Attach to parent interface, mortalise self, and return */
 	xfer_plug_plug ( &slam->xfer, xfer );
 	ref_put ( &slam->refcnt );
 	return 0;

  err:
 	slam_finished ( slam, rc );
 	ref_put ( &slam->refcnt );
 	return rc;
 }

 /** SLAM URI opener */
 struct uri_opener slam_uri_opener __uri_opener = {
 	.scheme	= "x-slam",
 	.open	= slam_open,
 };
	/*
	* Copyright (C) 2008 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., 675 Mass Ave, Cambridge, MA 02139, USA.
	*/

	FILE_LICENCE ( GPL2_OR_LATER );

	#include <stdint.h>
	#include <stdlib.h>
	#include <string.h>
	#include <strings.h>
	#include <errno.h>
	#include <assert.h>
	#include <byteswap.h>
	#include <gpxe/features.h>
	#include <gpxe/iobuf.h>
	#include <gpxe/bitmap.h>
	#include <gpxe/xfer.h>
	#include <gpxe/open.h>
	#include <gpxe/uri.h>
	#include <gpxe/tcpip.h>
	#include <gpxe/timer.h>
	#include <gpxe/retry.h>

	/** @file
	*
	* Scalable Local Area Multicast protocol
	*
	* The SLAM protocol is supported only by Etherboot; it was designed
	* and implemented by Eric Biederman. A server implementation is
	* available in contrib/mini-slamd. There does not appear to be any
	* documentation beyond a few sparse comments in Etherboot's
	* proto_slam.c.
	*
	* SLAM packets use three types of data field:
	*
	* Nul : A single NUL (0) byte, used as a list terminator
	*
	* Raw : A block of raw data
	*
	* Int : A variable-length integer, in big-endian order. The length
	* of the integer is encoded in the most significant three bits.
	*
	* Packets received by the client have the following layout:
	*
	* Int : Transaction identifier. This is an opaque value.
	*
	* Int : Total number of bytes in the transfer.
	*
	* Int : Block size, in bytes.
	*
	* Int : Packet sequence number within the transfer (if this packet
	* contains data).
	*
	* Raw : Packet data (if this packet contains data).
	*
	* Packets transmitted by the client consist of a run-length-encoded
	* representation of the received-blocks bitmap, looking something
	* like:
	*
	* Int : Number of consecutive successfully-received packets
	* Int : Number of consecutive missing packets
	* Int : Number of consecutive successfully-received packets
	* Int : Number of consecutive missing packets
	* ....
	* Nul
	*
	*/

	FEATURE ( FEATURE_PROTOCOL, "SLAM", DHCP_EB_FEATURE_SLAM, 1 );

	/** Default SLAM server port */
	#define SLAM_DEFAULT_PORT 10000

	/** Default SLAM multicast IP address */
	#define SLAM_DEFAULT_MULTICAST_IP \
	( ( 239 << 24 ) \| ( 255 << 16 ) \| ( 1 << 8 ) \| ( 1 << 0 ) )

	/** Default SLAM multicast port */
	#define SLAM_DEFAULT_MULTICAST_PORT 10000

	/** Maximum SLAM header length */
	#define SLAM_MAX_HEADER_LEN ( 7 /* transaction id / + 7 / total_bytes */ + \
	7 /* block_size */ )

	/** Maximum number of blocks to request per NACK
	*
	* This is a policy decision equivalent to selecting a TCP window
	* size.
	*/
	#define SLAM_MAX_BLOCKS_PER_NACK 4

	/** Maximum SLAM NACK length
	*
	* We only ever send a NACK for a single range of up to @c
	* SLAM_MAX_BLOCKS_PER_NACK blocks.
	*/
	#define SLAM_MAX_NACK_LEN ( 7 /* block / + 7 / #blocks / + 1 / NUL */ )

	/** SLAM slave timeout */
	#define SLAM_SLAVE_TIMEOUT ( 1 * TICKS_PER_SEC )

	/** A SLAM request */
	struct slam_request {
	/** Reference counter */
	struct refcnt refcnt;

	/** Data transfer interface */
	struct xfer_interface xfer;
	/** Unicast socket */
	struct xfer_interface socket;
	/** Multicast socket */
	struct xfer_interface mc_socket;

	/** Master client retry timer */
	struct retry_timer master_timer;
	/** Slave client retry timer */
	struct retry_timer slave_timer;

	/** Cached header */
	uint8_t header[SLAM_MAX_HEADER_LEN];
	/** Size of cached header */
	size_t header_len;
	/** Total number of bytes in transfer */
	unsigned long total_bytes;
	/** Transfer block size */
	unsigned long block_size;
	/** Number of blocks in transfer */
	unsigned long num_blocks;
	/** Block bitmap */
	struct bitmap bitmap;
	/** NACK sent flag */
	int nack_sent;
	};

	/**
	* Free a SLAM request
	*
	* @v refcnt Reference counter
	*/
	static void slam_free ( struct refcnt *refcnt ) {
	struct slam_request *slam =
	container_of ( refcnt, struct slam_request, refcnt );

	bitmap_free ( &slam->bitmap );
	free ( slam );
	}

	/**
	* Mark SLAM request as complete
	*
	* @v slam SLAM request
	* @v rc Return status code
	*/
	static void slam_finished ( struct slam_request *slam, int rc ) {
	static const uint8_t slam_disconnect[] = { 0 };

	DBGC ( slam, "SLAM %p finished with status code %d (%s)\n",
	slam, rc, strerror ( rc ) );

	/* Send a disconnect message if we ever sent anything to the
	* server.
	*/
	if ( slam->nack_sent ) {
	xfer_deliver_raw ( &slam->socket, slam_disconnect,
	sizeof ( slam_disconnect ) );
	}

	/* Stop the retry timers */
	stop_timer ( &slam->master_timer );
	stop_timer ( &slam->slave_timer );

	/* Close all data transfer interfaces */
	xfer_nullify ( &slam->socket );
	xfer_close ( &slam->socket, rc );
	xfer_nullify ( &slam->mc_socket );
	xfer_close ( &slam->mc_socket, rc );
	xfer_nullify ( &slam->xfer );
	xfer_close ( &slam->xfer, rc );
	}

	/****************************************************************************
	*
	* TX datapath
	*
	*/

	/**
	* Add a variable-length value to a SLAM packet
	*
	* @v slam SLAM request
	* @v iobuf I/O buffer
	* @v value Value to add
	* @ret rc Return status code
	*
	* Adds a variable-length value to the end of an I/O buffer. Will
	* always leave at least one byte of tailroom in the I/O buffer (to
	* allow space for the terminating NUL).
	*/
	static int slam_put_value ( struct slam_request *slam,
	struct io_buffer *iobuf, unsigned long value ) {
	uint8_t *data;
	size_t len;
	unsigned int i;

	/* Calculate variable length required to store value. Always
	* leave at least one byte in the I/O buffer.
	*/
	len = ( ( flsl ( value ) + 10 ) / 8 );
	if ( len >= iob_tailroom ( iobuf ) ) {
	DBGC2 ( slam, "SLAM %p cannot add %zd-byte value\n",
	slam, len );
	return -ENOBUFS;
	}
	/* There is no valid way within the protocol that we can end
	* up trying to push a full-sized long (i.e. without space for
	* the length encoding).
	*/
	assert ( len <= sizeof ( value ) );

	/* Add value */
	data = iob_put ( iobuf, len );
	for ( i = len ; i-- ; ) {
	data[i] = value;
	value >>= 8;
	}
	*data \|= ( len << 5 );
	assert ( value == 0 );

	return 0;
	}

	/**
	* Send SLAM NACK packet
	*
	* @v slam SLAM request
	* @ret rc Return status code
	*/
	static int slam_tx_nack ( struct slam_request *slam ) {
	struct io_buffer *iobuf;
	unsigned long first_block;
	unsigned long num_blocks;
	uint8_t *nul;
	int rc;

	/* Mark NACK as sent, so that we know we have to disconnect later */
	slam->nack_sent = 1;

	/* Allocate I/O buffer */
	iobuf = xfer_alloc_iob ( &slam->socket, SLAM_MAX_NACK_LEN );
	if ( ! iobuf ) {
	DBGC ( slam, "SLAM %p could not allocate I/O buffer\n",
	slam );
	return -ENOMEM;
	}

	/* Construct NACK. We always request only a single packet;
	* this allows us to force multicast-TFTP-style flow control
	* on the SLAM server, which will otherwise just blast the
	* data out as fast as it can. On a gigabit network, without
	* RX checksumming, this would inevitably cause packet drops.
	*/
	first_block = bitmap_first_gap ( &slam->bitmap );
	for ( num_blocks = 1 ; ; num_blocks++ ) {
	if ( num_blocks >= SLAM_MAX_BLOCKS_PER_NACK )
	break;
	if ( ( first_block + num_blocks ) >= slam->num_blocks )
	break;
	if ( bitmap_test ( &slam->bitmap,
	( first_block + num_blocks ) ) )
	break;
	}
	if ( first_block ) {
	DBGCP ( slam, "SLAM %p transmitting NACK for blocks "
	"%ld-%ld\n", slam, first_block,
	( first_block + num_blocks - 1 ) );
	} else {
	DBGC ( slam, "SLAM %p transmitting initial NACK for blocks "
	"0-%ld\n", slam, ( num_blocks - 1 ) );
	}
	if ( ( rc = slam_put_value ( slam, iobuf, first_block ) ) != 0 )
	return rc;
	if ( ( rc = slam_put_value ( slam, iobuf, num_blocks ) ) != 0 )
	return rc;
	nul = iob_put ( iobuf, 1 );
	*nul = 0;

	/* Transmit packet */
	return xfer_deliver_iob ( &slam->socket, iobuf );
	}

	/**
	* Handle SLAM master client retry timer expiry
	*
	* @v timer Master retry timer
	* @v fail Failure indicator
	*/
	static void slam_master_timer_expired ( struct retry_timer *timer,
	int fail ) {
	struct slam_request *slam =
	container_of ( timer, struct slam_request, master_timer );

	if ( fail ) {
	/* Allow timer to stop running. We will terminate the
	* connection only if the slave timer times out.
	*/
	DBGC ( slam, "SLAM %p giving up acting as master client\n",
	slam );
	} else {
	/* Retransmit NACK */
	start_timer ( timer );
	slam_tx_nack ( slam );
	}
	}

	/**
	* Handle SLAM slave client retry timer expiry
	*
	* @v timer Master retry timer
	* @v fail Failure indicator
	*/
	static void slam_slave_timer_expired ( struct retry_timer *timer,
	int fail ) {
	struct slam_request *slam =
	container_of ( timer, struct slam_request, slave_timer );

	if ( fail ) {
	/* Terminate connection */
	slam_finished ( slam, -ETIMEDOUT );
	} else {
	/* Try sending a NACK */
	DBGC ( slam, "SLAM %p trying to become master client\n",
	slam );
	start_timer ( timer );
	slam_tx_nack ( slam );
	}
	}

	/****************************************************************************
	*
	* RX datapath
	*
	*/

	/**
	* Read and strip a variable-length value from a SLAM packet
	*
	* @v slam SLAM request
	* @v iobuf I/O buffer
	* @v value Value to fill in, or NULL to ignore value
	* @ret rc Return status code
	*
	* Reads a variable-length value from the start of the I/O buffer.
	*/
	static int slam_pull_value ( struct slam_request *slam,
	struct io_buffer *iobuf,
	unsigned long *value ) {
	uint8_t *data;
	size_t len;

	/* Sanity check */
	if ( iob_len ( iobuf ) == 0 ) {
	DBGC ( slam, "SLAM %p empty value\n", slam );
	return -EINVAL;
	}

	/* Read and verify length of value */
	data = iobuf->data;
	len = ( *data >> 5 );
	if ( ( len == 0 ) \|\|
	( value && ( len > sizeof ( *value ) ) ) ) {
	DBGC ( slam, "SLAM %p invalid value length %zd bytes\n",
	slam, len );
	return -EINVAL;
	}
	if ( len > iob_len ( iobuf ) ) {
	DBGC ( slam, "SLAM %p value extends beyond I/O buffer\n",
	slam );
	return -EINVAL;
	}

	/* Read value */
	iob_pull ( iobuf, len );
	value = ( data & 0x1f );
	while ( --len ) {
	*value <<= 8;
	value \|= (++data);
	}

	return 0;
	}

	/**
	* Read and strip SLAM header
	*
	* @v slam SLAM request
	* @v iobuf I/O buffer
	* @ret rc Return status code
	*/
	static int slam_pull_header ( struct slam_request *slam,
	struct io_buffer *iobuf ) {
	void *header = iobuf->data;
	int rc;

	/* If header matches cached header, just pull it and return */
	if ( ( slam->header_len <= iob_len ( iobuf ) ) &&
	( memcmp ( slam->header, iobuf->data, slam->header_len ) == 0 )){
	iob_pull ( iobuf, slam->header_len );
	return 0;
	}

	DBGC ( slam, "SLAM %p detected changed header; resetting\n", slam );

	/* Read and strip transaction ID, total number of bytes, and
	* block size.
	*/
	if ( ( rc = slam_pull_value ( slam, iobuf, NULL ) ) != 0 )
	return rc;
	if ( ( rc = slam_pull_value ( slam, iobuf,
	&slam->total_bytes ) ) != 0 )
	return rc;
	if ( ( rc = slam_pull_value ( slam, iobuf,
	&slam->block_size ) ) != 0 )
	return rc;

	/* Update the cached header */
	slam->header_len = ( iobuf->data - header );
	assert ( slam->header_len <= sizeof ( slam->header ) );
	memcpy ( slam->header, header, slam->header_len );

	/* Calculate number of blocks */
	slam->num_blocks = ( ( slam->total_bytes + slam->block_size - 1 ) /
	slam->block_size );

	DBGC ( slam, "SLAM %p has total bytes %ld, block size %ld, num "
	"blocks %ld\n", slam, slam->total_bytes, slam->block_size,
	slam->num_blocks );

	/* Discard and reset the bitmap */
	bitmap_free ( &slam->bitmap );
	memset ( &slam->bitmap, 0, sizeof ( slam->bitmap ) );

	/* Allocate a new bitmap */
	if ( ( rc = bitmap_resize ( &slam->bitmap,
	slam->num_blocks ) ) != 0 ) {
	/* Failure to allocate a bitmap is fatal */
	DBGC ( slam, "SLAM %p could not allocate bitmap for %ld "
	"blocks: %s\n", slam, slam->num_blocks,
	strerror ( rc ) );
	slam_finished ( slam, rc );
	return rc;
	}

	/* Notify recipient of file size */
	xfer_seek ( &slam->xfer, slam->total_bytes, SEEK_SET );

	return 0;
	}

	/**
	* Receive SLAM data packet
	*
	* @v mc_socket SLAM multicast socket
	* @v iobuf I/O buffer
	* @ret rc Return status code
	*/
	static int slam_mc_socket_deliver ( struct xfer_interface *mc_socket,
	struct io_buffer *iobuf,
	struct xfer_metadata *rx_meta __unused ) {
	struct slam_request *slam =
	container_of ( mc_socket, struct slam_request, mc_socket );
	struct xfer_metadata meta;
	unsigned long packet;
	size_t len;
	int rc;

	/* Stop the master client timer. Restart the slave client timer. */
	stop_timer ( &slam->master_timer );
	stop_timer ( &slam->slave_timer );
	start_timer_fixed ( &slam->slave_timer, SLAM_SLAVE_TIMEOUT );

	/* Read and strip packet header */
	if ( ( rc = slam_pull_header ( slam, iobuf ) ) != 0 )
	goto err_discard;

	/* Read and strip packet number */
	if ( ( rc = slam_pull_value ( slam, iobuf, &packet ) ) != 0 )
	goto err_discard;

	/* Sanity check packet number */
	if ( packet >= slam->num_blocks ) {
	DBGC ( slam, "SLAM %p received out-of-range packet %ld "
	"(num_blocks=%ld)\n", slam, packet, slam->num_blocks );
	rc = -EINVAL;
	goto err_discard;
	}

	/* Sanity check length */
	len = iob_len ( iobuf );
	if ( len > slam->block_size ) {
	DBGC ( slam, "SLAM %p received oversize packet of %zd bytes "
	"(block_size=%ld)\n", slam, len, slam->block_size );
	rc = -EINVAL;
	goto err_discard;
	}
	if ( ( packet != ( slam->num_blocks - 1 ) ) &&
	( len < slam->block_size ) ) {
	DBGC ( slam, "SLAM %p received short packet of %zd bytes "
	"(block_size=%ld)\n", slam, len, slam->block_size );
	rc = -EINVAL;
	goto err_discard;
	}

	/* If we have already seen this packet, discard it */
	if ( bitmap_test ( &slam->bitmap, packet ) ) {
	goto discard;
	}

	/* Pass to recipient */
	memset ( &meta, 0, sizeof ( meta ) );
	meta.whence = SEEK_SET;
	meta.offset = ( packet * slam->block_size );
	if ( ( rc = xfer_deliver_iob_meta ( &slam->xfer, iobuf,
	&meta ) ) != 0 )
	goto err;

	/* Mark block as received */
	bitmap_set ( &slam->bitmap, packet );

	/* If we have received all blocks, terminate */
	if ( bitmap_full ( &slam->bitmap ) )
	slam_finished ( slam, 0 );

	return 0;

	err_discard:
	discard:
	free_iob ( iobuf );
	err:
	return rc;
	}

	/**
	* Receive SLAM non-data packet
	*
	* @v socket SLAM unicast socket
	* @v iobuf I/O buffer
	* @ret rc Return status code
	*/
	static int slam_socket_deliver ( struct xfer_interface *socket,
	struct io_buffer *iobuf,
	struct xfer_metadata *rx_meta __unused ) {
	struct slam_request *slam =
	container_of ( socket, struct slam_request, socket );
	int rc;

	/* Restart the master client timer */
	stop_timer ( &slam->master_timer );
	start_timer ( &slam->master_timer );

	/* Read and strip packet header */
	if ( ( rc = slam_pull_header ( slam, iobuf ) ) != 0 )
	goto discard;

	/* Sanity check */
	if ( iob_len ( iobuf ) != 0 ) {
	DBGC ( slam, "SLAM %p received trailing garbage:\n", slam );
	DBGC_HD ( slam, iobuf->data, iob_len ( iobuf ) );
	rc = -EINVAL;
	goto discard;
	}

	/* Discard packet */
	free_iob ( iobuf );

	/* Send NACK in reply */
	slam_tx_nack ( slam );

	return 0;

	discard:
	free_iob ( iobuf );
	return rc;

	}

	/**
	* Close SLAM unicast socket
	*
	* @v socket SLAM unicast socket
	* @v rc Reason for close
	*/
	static void slam_socket_close ( struct xfer_interface *socket, int rc ) {
	struct slam_request *slam =
	container_of ( socket, struct slam_request, socket );

	DBGC ( slam, "SLAM %p unicast socket closed: %s\n",
	slam, strerror ( rc ) );

	slam_finished ( slam, rc );
	}

	/** SLAM unicast socket data transfer operations */
	static struct xfer_interface_operations slam_socket_operations = {
	.close = slam_socket_close,
	.vredirect = xfer_vreopen,
	.window = unlimited_xfer_window,
	.alloc_iob = default_xfer_alloc_iob,
	.deliver_iob = slam_socket_deliver,
	.deliver_raw = xfer_deliver_as_iob,
	};

	/**
	* Close SLAM multicast socket
	*
	* @v mc_socket SLAM multicast socket
	* @v rc Reason for close
	*/
	static void slam_mc_socket_close ( struct xfer_interface *mc_socket, int rc ){
	struct slam_request *slam =
	container_of ( mc_socket, struct slam_request, mc_socket );

	DBGC ( slam, "SLAM %p multicast socket closed: %s\n",
	slam, strerror ( rc ) );

	slam_finished ( slam, rc );
	}

	/** SLAM multicast socket data transfer operations */
	static struct xfer_interface_operations slam_mc_socket_operations = {
	.close = slam_mc_socket_close,
	.vredirect = xfer_vreopen,
	.window = unlimited_xfer_window,
	.alloc_iob = default_xfer_alloc_iob,
	.deliver_iob = slam_mc_socket_deliver,
	.deliver_raw = xfer_deliver_as_iob,
	};

	/****************************************************************************
	*
	* Data transfer interface
	*
	*/

	/**
	* Close SLAM data transfer interface
	*
	* @v xfer SLAM data transfer interface
	* @v rc Reason for close
	*/
	static void slam_xfer_close ( struct xfer_interface *xfer, int rc ) {
	struct slam_request *slam =
	container_of ( xfer, struct slam_request, xfer );

	DBGC ( slam, "SLAM %p data transfer interface closed: %s\n",
	slam, strerror ( rc ) );

	slam_finished ( slam, rc );
	}

	/** SLAM data transfer operations */
	static struct xfer_interface_operations slam_xfer_operations = {
	.close = slam_xfer_close,
	.vredirect = ignore_xfer_vredirect,
	.window = unlimited_xfer_window,
	.alloc_iob = default_xfer_alloc_iob,
	.deliver_iob = xfer_deliver_as_raw,
	.deliver_raw = ignore_xfer_deliver_raw,
	};

	/**
	* Parse SLAM URI multicast address
	*
	* @v slam SLAM request
	* @v path Path portion of x-slam:// URI
	* @v address Socket address to fill in
	* @ret rc Return status code
	*/
	static int slam_parse_multicast_address ( struct slam_request *slam,
	const char *path,
	struct sockaddr_in *address ) {
	char path_dup[ strlen ( path ) /* no +1 */ ];
	char *sep;
	char *end;

	/* Create temporary copy of path, minus the leading '/' */
	assert ( *path == '/' );
	memcpy ( path_dup, ( path + 1 ) , sizeof ( path_dup ) );

	/* Parse port, if present */
	sep = strchr ( path_dup, ':' );
	if ( sep ) {
	*(sep++) = '\0';
	address->sin_port = htons ( strtoul ( sep, &end, 0 ) );
	if ( *end != '\0' ) {
	DBGC ( slam, "SLAM %p invalid multicast port "
	"\"%s\"\n", slam, sep );
	return -EINVAL;
	}
	}

	/* Parse address */
	if ( inet_aton ( path_dup, &address->sin_addr ) == 0 ) {
	DBGC ( slam, "SLAM %p invalid multicast address \"%s\"\n",
	slam, path_dup );
	return -EINVAL;
	}

	return 0;
	}

	/**
	* Initiate a SLAM request
	*
	* @v xfer Data transfer interface
	* @v uri Uniform Resource Identifier
	* @ret rc Return status code
	*/
	static int slam_open ( struct xfer_interface xfer, struct uri uri ) {
	static const struct sockaddr_in default_multicast = {
	.sin_family = AF_INET,
	.sin_port = htons ( SLAM_DEFAULT_MULTICAST_PORT ),
	.sin_addr = { htonl ( SLAM_DEFAULT_MULTICAST_IP ) },
	};
	struct slam_request *slam;
	struct sockaddr_tcpip server;
	struct sockaddr_in multicast;
	int rc;

	/* Sanity checks */
	if ( ! uri->host )
	return -EINVAL;

	/* Allocate and populate structure */
	slam = zalloc ( sizeof ( *slam ) );
	if ( ! slam )
	return -ENOMEM;
	slam->refcnt.free = slam_free;
	xfer_init ( &slam->xfer, &slam_xfer_operations, &slam->refcnt );
	xfer_init ( &slam->socket, &slam_socket_operations, &slam->refcnt );
	xfer_init ( &slam->mc_socket, &slam_mc_socket_operations,
	&slam->refcnt );
	slam->master_timer.expired = slam_master_timer_expired;
	slam->slave_timer.expired = slam_slave_timer_expired;
	/* Fake an invalid cached header of { 0x00, ... } */
	slam->header_len = 1;
	/* Fake parameters for initial NACK */
	slam->num_blocks = 1;
	if ( ( rc = bitmap_resize ( &slam->bitmap, 1 ) ) != 0 ) {
	DBGC ( slam, "SLAM %p could not allocate initial bitmap: "
	"%s\n", slam, strerror ( rc ) );
	goto err;
	}

	/* Open unicast socket */
	memset ( &server, 0, sizeof ( server ) );
	server.st_port = htons ( uri_port ( uri, SLAM_DEFAULT_PORT ) );
	if ( ( rc = xfer_open_named_socket ( &slam->socket, SOCK_DGRAM,
	( struct sockaddr * ) &server,
	uri->host, NULL ) ) != 0 ) {
	DBGC ( slam, "SLAM %p could not open unicast socket: %s\n",
	slam, strerror ( rc ) );
	goto err;
	}

	/* Open multicast socket */
	memcpy ( &multicast, &default_multicast, sizeof ( multicast ) );
	if ( uri->path &&
	( ( rc = slam_parse_multicast_address ( slam, uri->path,
	&multicast ) ) != 0 ) ) {
	goto err;
	}
	if ( ( rc = xfer_open_socket ( &slam->mc_socket, SOCK_DGRAM,
	( struct sockaddr * ) &multicast,
	( struct sockaddr * ) &multicast ) ) != 0 ) {
	DBGC ( slam, "SLAM %p could not open multicast socket: %s\n",
	slam, strerror ( rc ) );
	goto err;
	}

	/* Start slave retry timer */
	start_timer_fixed ( &slam->slave_timer, SLAM_SLAVE_TIMEOUT );

	/* Attach to parent interface, mortalise self, and return */
	xfer_plug_plug ( &slam->xfer, xfer );
	ref_put ( &slam->refcnt );
	return 0;

	err:
	slam_finished ( slam, rc );
	ref_put ( &slam->refcnt );
	return rc;
	}

	/** SLAM URI opener */
	struct uri_opener slam_uri_opener __uri_opener = {
	.scheme = "x-slam",
	.open = slam_open,
	};