sbin/iscsid/iscsid_driverif.c

1.9   mlelstv /*	$NetBSD: iscsid_driverif.c,v 1.9 2023/11/25 08:06:02 mlelstv Exp $	*/
1.1       agc
1.1       agc /*-
1.1       agc  * Copyright (c) 2005,2006,2011 The NetBSD Foundation, Inc.
1.1       agc  * All rights reserved.
1.1       agc  *
1.1       agc  * This code is derived from software contributed to The NetBSD Foundation
1.1       agc  * by Wasabi Systems, Inc.
1.1       agc  *
1.1       agc  * Redistribution and use in source and binary forms, with or without
1.1       agc  * modification, are permitted provided that the following conditions
1.1       agc  * are met:
1.1       agc  * 1. Redistributions of source code must retain the above copyright
1.1       agc  *    notice, this list of conditions and the following disclaimer.
1.1       agc  * 2. Redistributions in binary form must reproduce the above copyright
1.1       agc  *    notice, this list of conditions and the following disclaimer in the
1.1       agc  *    documentation and/or other materials provided with the distribution.
1.1       agc  *
1.1       agc  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
1.1       agc  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.1       agc  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.1       agc  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
1.1       agc  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.1       agc  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.1       agc  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.1       agc  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.1       agc  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.1       agc  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1       agc  * POSSIBILITY OF SUCH DAMAGE.
1.1       agc  */
1.1       agc #include "iscsid_globals.h"
1.1       agc
1.1       agc #include <sys/socket.h>
1.1       agc #include <netinet/in.h>
1.1       agc #include <netinet/tcp.h>
1.1       agc #include <netdb.h>
1.1       agc
1.1       agc
1.1       agc /* Global node name (Initiator Name and Alias) */
1.1       agc iscsid_set_node_name_req_t node_name;
1.1       agc
1.1       agc /* -------------------------------------------------------------------------- */
1.1       agc
1.1       agc /*
1.1       agc  * set_node_name:
1.1       agc  *    Handle set_node_name request. Copy names into our own buffers and
1.1       agc  *    set the driver's info as well.
1.1       agc  *
1.1       agc  *    Parameter:
1.1       agc  *          par         The request parameter
1.1       agc  *
1.1       agc  *    Returns: Status.
1.1       agc  */
1.1       agc
1.1       agc uint32_t
1.1       agc set_node_name(iscsid_set_node_name_req_t * par)
1.1       agc {
1.1       agc 	iscsi_set_node_name_parameters_t snp;
1.1       agc
1.1       agc 	(void) memset(&snp, 0x0, sizeof(snp));
1.1       agc 	if (!par->InitiatorName[0])
1.1       agc 		return ISCSID_STATUS_NO_INITIATOR_NAME;
1.1       agc
1.1       agc 	if (strlen((char *)par->InitiatorName) > ISCSI_STRING_LENGTH
1.1       agc 		|| strlen((char *)par->InitiatorAlias) > ISCSI_STRING_LENGTH)
1.1       agc 		return ISCSID_STATUS_PARAMETER_INVALID;
1.1       agc
1.1       agc 	if (!par->InitiatorAlias[0])
1.1       agc 		gethostname((char *)node_name.InitiatorAlias, sizeof(node_name.InitiatorAlias));
1.1       agc
1.1       agc 	node_name = *par;
1.1       agc
1.1       agc 	strlcpy((char *)snp.InitiatorName, (char *)par->InitiatorName,
1.1       agc 		sizeof(snp.InitiatorName));
1.1       agc 	strlcpy((char *)snp.InitiatorAlias, (char *)par->InitiatorAlias,
1.1       agc 		sizeof(snp.InitiatorAlias));
1.1       agc 	memcpy(snp.ISID, par->ISID, 6);
1.1       agc
1.8   mlelstv 	DEB(10, ("Setting Node Name: %s (%s)",
1.1       agc 			 snp.InitiatorName, snp.InitiatorAlias));
1.2  christos 	(void)ioctl(driver, ISCSI_SET_NODE_NAME, &snp);
1.1       agc 	return snp.status;
1.1       agc }
1.1       agc
1.1       agc
1.1       agc /*
1.1       agc  * bind_socket:
1.1       agc  *    Bind socket to initiator portal.
1.1       agc  *
1.1       agc  *    Parameter:
1.1       agc  *       sock     The socket
1.1       agc  *       addr     The initiator portal address
1.1       agc  *
1.1       agc  *    Returns:
1.1       agc  *       TRUE on success, FALSE on error.
1.1       agc  */
1.1       agc
1.3       agc static int
1.1       agc bind_socket(int sock, uint8_t * addr)
1.1       agc {
1.9   mlelstv 	struct addrinfo hints, *ai, *ai0;
1.9   mlelstv 	int ret = FALSE;
1.1       agc
1.8   mlelstv 	DEB(8, ("Binding to <%s>", addr));
1.9   mlelstv
1.9   mlelstv 	memset(&hints, 0, sizeof(hints));
1.9   mlelstv 	hints.ai_family = AF_UNSPEC;
1.9   mlelstv 	hints.ai_socktype = SOCK_STREAM;
1.9   mlelstv 	hints.ai_flags = AI_PASSIVE;
1.9   mlelstv 	if (getaddrinfo((char *)addr, NULL, &hints, &ai0))
1.9   mlelstv 		return ret;
1.9   mlelstv
1.9   mlelstv 	for (ai = ai0; ai; ai = ai->ai_next) {
1.9   mlelstv 		if (bind(sock, ai->ai_addr, ai->ai_addrlen) < 0)
1.9   mlelstv 			continue;
1.9   mlelstv
1.9   mlelstv 		listen(sock, 5);
1.9   mlelstv 		ret = TRUE;
1.9   mlelstv 		break;
1.9   mlelstv 	}
1.9   mlelstv 	freeaddrinfo(ai0);
1.1       agc
1.9   mlelstv 	return ret;
1.1       agc }
1.1       agc
1.1       agc
1.1       agc /* -------------------------------------------------------------------------- */
1.1       agc
1.1       agc /*
1.1       agc  * find_free_portal:
1.1       agc  *    Find the Portal with the least number of connections.
1.1       agc  *
1.1       agc  *    Parameter:  the portal group
1.1       agc  *
1.1       agc  *    Returns:    The pointer to the first free portal (or NULL if none found)
1.1       agc  */
1.1       agc
1.3       agc static portal_t *
1.1       agc find_free_portal(portal_group_t * group)
1.1       agc {
1.1       agc 	portal_t *curr, *m;
1.1       agc 	uint32_t n;
1.1       agc
1.1       agc 	if ((curr = TAILQ_FIRST(&group->portals)) == NULL)
1.1       agc 		return NULL;
1.1       agc
1.1       agc 	m = curr;
1.1       agc 	n = curr->active_connections;
1.1       agc
1.1       agc 	while ((curr = TAILQ_NEXT(curr, group_list)) != NULL)
1.1       agc 		if (curr->active_connections < n) {
1.1       agc 			m = curr;
1.1       agc 			n = curr->active_connections;
1.1       agc 		}
1.1       agc
1.1       agc 	return m;
1.1       agc }
1.1       agc
1.1       agc
1.1       agc /*
1.1       agc  * make_connection:
1.1       agc  *    Common routine for login and add_connection. Creates the connection
1.1       agc  *    structure, connects the socket, and executes the login.
1.1       agc  *
1.1       agc  *    Parameter:
1.1       agc  *          sess        The associated session. NULL for a send_targets request.
1.1       agc  *          req         The request parameters. NULL for send_targets.
1.1       agc  *          res         The response buffer. For SendTargets, only the status
1.1       agc  *                      is set. For a "real" login, the login response
1.1       agc  *                      is filled in.
1.1       agc  *          stid        Send target request only, else NULL. Pointer to uint32:
1.1       agc  *                         On Input, contains send target ID
1.1       agc  *                         On Output, receives session ID
1.1       agc  *
1.1       agc  *    Returns:    The connection structure on successful login, else NULL.
1.1       agc  *
1.1       agc  *    NOTE: Session list must be locked on entry.
1.1       agc  */
1.1       agc
1.3       agc static connection_t *
1.1       agc make_connection(session_t * sess, iscsid_login_req_t * req,
1.1       agc 				iscsid_response_t * res, uint32_t * stid)
1.1       agc {
1.1       agc 	connection_t *conn;
1.1       agc 	iscsi_login_parameters_t loginp;
1.1       agc 	int sock;
1.1       agc 	int ret;
1.1       agc 	int yes = 1;
1.1       agc 	target_t *target;
1.1       agc 	portal_t *portal = NULL;
1.1       agc 	iscsi_portal_address_t *addr;
1.9   mlelstv 	struct addrinfo hints, *ai, *ai0;
1.9   mlelstv 	char portnum[6];
1.1       agc 	initiator_t *init;
1.1       agc
1.8   mlelstv 	DEB(9, ("Make Connection sess=%p, req=%p, res=%p, stid=%p",
1.4       riz 			 sess, req, res, stid));
1.1       agc 	(void) memset(&loginp, 0x0, sizeof(loginp));
1.1       agc
1.1       agc 	/* find the target portal */
1.1       agc 	if (stid != NULL) {
1.1       agc 		send_target_t *starget;
1.1       agc
1.1       agc 		if ((starget = find_send_target_id(*stid)) == NULL) {
1.1       agc 			res->status = ISCSID_STATUS_INVALID_TARGET_ID;
1.1       agc 			return NULL;
1.1       agc 		}
1.1       agc 		addr = &starget->addr;
1.2  christos 		target = (target_t *)(void *)starget;
1.1       agc 	} else {
1.1       agc 		if (NO_ID(&req->portal_id)
1.1       agc 			|| (portal = find_portal(&req->portal_id)) == NULL) {
1.1       agc 			portal_group_t *group;
1.1       agc
1.1       agc 			/* if no ID was specified, use target from existing session */
1.1       agc 			if (NO_ID(&req->portal_id)) {
1.1       agc 				if (!sess->num_connections ||
1.2  christos 					((target = find_target_id(TARGET_LIST,
1.2  christos 					sess->target.sid.id)) == NULL)) {
1.1       agc 					res->status = ISCSID_STATUS_INVALID_PORTAL_ID;
1.1       agc 					return NULL;
1.1       agc 				}
1.1       agc 			}
1.1       agc 			/* if a target was given instead, use it */
1.1       agc 			else if ((target =
1.1       agc 							  find_target(TARGET_LIST, &req->portal_id)) == NULL) {
1.1       agc 				res->status = ISCSID_STATUS_INVALID_PORTAL_ID;
1.1       agc 				return NULL;
1.1       agc 			}
1.1       agc 			/* now get from target to portal - if this is the first connection, */
1.1       agc 			/* just use the first portal group. */
1.1       agc 			if (!sess->num_connections) {
1.1       agc 				group = TAILQ_FIRST(&target->group_list);
1.1       agc 			}
1.1       agc 			/* if it's a second connection, use an available portal in the same */
1.1       agc 			/* portal group */
1.1       agc 			else {
1.2  christos 				conn = (connection_t *)(void *)
1.2  christos 				    TAILQ_FIRST(&sess->connections);
1.1       agc
1.1       agc 				if (conn == NULL ||
1.1       agc 					(portal = find_portal_id(conn->portal.sid.id)) == NULL) {
1.1       agc 					res->status = ISCSID_STATUS_INVALID_PORTAL_ID;
1.1       agc 					return NULL;
1.1       agc 				}
1.1       agc 				group = portal->group;
1.1       agc 			}
1.1       agc
1.1       agc 			if ((portal = find_free_portal(group)) == NULL) {
1.1       agc 				res->status = ISCSID_STATUS_INVALID_PORTAL_ID;
1.1       agc 				return NULL;
1.1       agc 			}
1.8   mlelstv 			DEB(1, ("find_free_portal returns pid=%d", portal->entry.sid.id));
1.1       agc 		} else
1.1       agc 			target = portal->target;
1.1       agc
1.1       agc 		addr = &portal->addr;
1.1       agc
1.1       agc 		/* symbolic name for connection? check for duplicates */
1.1       agc 		if (req->sym_name[0]) {
1.1       agc 			void *p;
1.1       agc
1.1       agc 			if (sess->num_connections)
1.1       agc 				p = find_connection_name(sess, req->sym_name);
1.1       agc 			else
1.1       agc 				p = find_session_name(req->sym_name);
1.1       agc 			if (p) {
1.1       agc 				res->status = ISCSID_STATUS_DUPLICATE_NAME;
1.1       agc 				return NULL;
1.1       agc 			}
1.1       agc 		}
1.1       agc 	}
1.1       agc
1.1       agc 	if (req != NULL && !NO_ID(&req->initiator_id)) {
1.1       agc 		if ((init = find_initiator(&req->initiator_id)) == NULL) {
1.1       agc 			res->status = ISCSID_STATUS_INVALID_INITIATOR_ID;
1.1       agc 			return NULL;
1.1       agc 		}
1.1       agc 	} else
1.1       agc 		init = select_initiator();
1.1       agc
1.1       agc 	/* translate target address */
1.8   mlelstv 	DEB(8, ("Connecting to <%s>, port %d", addr->address, addr->port));
1.1       agc
1.9   mlelstv 	memset(&hints, 0, sizeof(hints));
1.9   mlelstv 	hints.ai_family = AF_UNSPEC;
1.9   mlelstv 	hints.ai_socktype = SOCK_STREAM;
1.9   mlelstv 	snprintf(portnum, sizeof(portnum), "%u", addr->port);
1.9   mlelstv 	ret = getaddrinfo((char *)addr->address, portnum, &hints, &ai0);
1.9   mlelstv 	switch (ret) {
1.9   mlelstv 	case 0:
1.9   mlelstv 		break;
1.9   mlelstv 	case EAI_NODATA:
1.9   mlelstv 		res->status = ISCSID_STATUS_HOST_NOT_FOUND;
1.9   mlelstv 		break;
1.9   mlelstv 	case EAI_AGAIN:
1.9   mlelstv 		res->status = ISCSID_STATUS_HOST_TRY_AGAIN;
1.9   mlelstv 		break;
1.9   mlelstv 	default:
1.1       agc 		res->status = ISCSID_STATUS_HOST_ERROR;
1.9   mlelstv 		break;
1.1       agc 	}
1.1       agc
1.1       agc 	/* alloc the connection structure */
1.1       agc 	conn = calloc(1, sizeof(*conn));
1.1       agc 	if (conn == NULL) {
1.9   mlelstv 		freeaddrinfo(ai0);
1.1       agc 		res->status = ISCSID_STATUS_NO_RESOURCES;
1.1       agc 		return NULL;
1.1       agc 	}
1.1       agc
1.9   mlelstv 	res->status = ISCSID_STATUS_HOST_ERROR;
1.9   mlelstv 	sock = -1;
1.9   mlelstv 	for (ai = ai0; ai; ai = ai->ai_next) {
1.9   mlelstv 		/* create and connect the socket */
1.9   mlelstv 		sock = socket(ai->ai_family, ai->ai_socktype, ai->ai_protocol);
1.9   mlelstv 		if (sock < 0) {
1.9   mlelstv 			res->status = ISCSID_STATUS_SOCKET_ERROR;
1.9   mlelstv 			break;
1.9   mlelstv 		}
1.9   mlelstv
1.9   mlelstv 		if (init) {
1.9   mlelstv 			if (!bind_socket(sock, init->address)) {
1.9   mlelstv 				close(sock);
1.9   mlelstv 				res->status = ISCSID_STATUS_INITIATOR_BIND_ERROR;
1.9   mlelstv 				break;
1.9   mlelstv 			}
1.9   mlelstv 		}
1.9   mlelstv
1.9   mlelstv 		DEB(8, ("Connecting socket"));
1.9   mlelstv 		if (connect(sock, ai->ai_addr, ai->ai_addrlen) < 0) {
1.1       agc 			close(sock);
1.9   mlelstv 			res->status = ISCSID_STATUS_CONNECT_ERROR;
1.9   mlelstv 			continue;
1.1       agc 		}
1.9   mlelstv
1.9   mlelstv 		res->status = ISCSID_STATUS_SUCCESS;
1.9   mlelstv 		break;
1.1       agc 	}
1.9   mlelstv 	freeaddrinfo(ai0);
1.1       agc
1.9   mlelstv 	if (sock < 0) {
1.1       agc 		free(conn);
1.8   mlelstv 		DEB(1, ("Connecting to socket failed (error %d), returning %d",
1.1       agc 				errno, res->status));
1.1       agc 		return NULL;
1.1       agc 	}
1.9   mlelstv
1.1       agc 	/* speed up socket processing */
1.2  christos 	setsockopt(sock, IPPROTO_TCP, TCP_NODELAY, &yes, (socklen_t)sizeof(yes));
1.1       agc 	/* setup login parameter structure */
1.1       agc 	loginp.socket = sock;
1.1       agc 	if (target->TargetName[0]) {
1.1       agc 		loginp.is_present.TargetName = 1;
1.1       agc 		loginp.TargetName = target->TargetName;
1.1       agc 	}
1.1       agc 	if (target->options.is_present.MaxConnections) {
1.1       agc 		loginp.is_present.MaxConnections = 1;
1.1       agc 		loginp.MaxConnections = target->options.MaxConnections;
1.1       agc 	}
1.1       agc 	if (target->options.is_present.DataDigest) {
1.1       agc 		loginp.is_present.DataDigest = 1;
1.1       agc 		loginp.DataDigest = target->options.DataDigest;
1.1       agc 	}
1.1       agc 	if (target->options.is_present.HeaderDigest) {
1.1       agc 		loginp.is_present.HeaderDigest = 1;
1.1       agc 		loginp.HeaderDigest = target->options.HeaderDigest;
1.1       agc 	}
1.1       agc 	if (target->options.is_present.DefaultTime2Retain) {
1.1       agc 		loginp.is_present.DefaultTime2Retain = 1;
1.1       agc 		loginp.DefaultTime2Retain = target->options.DefaultTime2Retain;
1.1       agc 	}
1.1       agc 	if (target->options.is_present.DefaultTime2Wait) {
1.1       agc 		loginp.is_present.DefaultTime2Wait = 1;
1.1       agc 		loginp.DefaultTime2Wait = target->options.DefaultTime2Wait;
1.1       agc 	}
1.1       agc 	if (target->options.is_present.ErrorRecoveryLevel) {
1.1       agc 		loginp.is_present.ErrorRecoveryLevel = 1;
1.1       agc 		loginp.ErrorRecoveryLevel = target->options.ErrorRecoveryLevel;
1.1       agc 	}
1.1       agc 	if (target->options.is_present.MaxRecvDataSegmentLength) {
1.1       agc 		loginp.is_present.MaxRecvDataSegmentLength = 1;
1.1       agc 		loginp.MaxRecvDataSegmentLength =
1.1       agc 			target->options.MaxRecvDataSegmentLength;
1.1       agc 	}
1.1       agc 	if (target->auth.auth_info.auth_number) {
1.1       agc 		loginp.is_present.auth_info = 1;
1.1       agc 		loginp.auth_info = target->auth.auth_info;
1.1       agc 		if (target->auth.password[0]) {
1.1       agc 			loginp.is_present.password = 1;
1.1       agc 			loginp.password = target->auth.password;
1.1       agc 		}
1.1       agc 		if (target->auth.target_password[0]) {
1.1       agc 			loginp.is_present.target_password = 1;
1.1       agc 			loginp.target_password = target->auth.target_password;
1.1       agc 		}
1.1       agc 		if (target->auth.user_name[0]) {
1.1       agc 			loginp.is_present.user_name = 1;
1.1       agc 			loginp.user_name = target->auth.user_name;
1.1       agc 		}
1.1       agc 	}
1.1       agc 	loginp.is_present.TargetAlias = 1;
1.1       agc 	loginp.TargetAlias = target->TargetAlias;
1.1       agc
1.1       agc 	if (portal != NULL) {
1.1       agc 		/* override general target options with portal options (if specified) */
1.1       agc 		if (portal->options.is_present.DataDigest) {
1.1       agc 			loginp.is_present.DataDigest = 1;
1.1       agc 			loginp.DataDigest = portal->options.DataDigest;
1.1       agc 		}
1.1       agc 		if (portal->options.is_present.HeaderDigest) {
1.1       agc 			loginp.is_present.HeaderDigest = 1;
1.1       agc 			loginp.HeaderDigest = portal->options.HeaderDigest;
1.1       agc 		}
1.1       agc 		if (portal->options.is_present.MaxRecvDataSegmentLength) {
1.1       agc 			loginp.is_present.MaxRecvDataSegmentLength = 1;
1.1       agc 			loginp.MaxRecvDataSegmentLength =
1.1       agc 				portal->options.MaxRecvDataSegmentLength;
1.1       agc 		}
1.1       agc 	}
1.1       agc
1.1       agc 	if (req != NULL) {
1.1       agc 		loginp.session_id = get_id(&list[SESSION_LIST].list, &req->session_id);
1.1       agc 		loginp.login_type = req->login_type;
1.1       agc 	} else
1.1       agc 		loginp.login_type = ISCSI_LOGINTYPE_DISCOVERY;
1.1       agc
1.8   mlelstv 	DEB(5, ("Calling Login..."));
1.1       agc
1.1       agc 	ret = ioctl(driver, (sess != NULL && sess->num_connections)
1.1       agc 				? ISCSI_ADD_CONNECTION : ISCSI_LOGIN, &loginp);
1.1       agc
1.1       agc 	res->status = loginp.status;
1.1       agc
1.1       agc 	if (ret)
1.1       agc 		close(sock);
1.1       agc
1.1       agc 	if (ret || loginp.status) {
1.1       agc 		free(conn);
1.1       agc 		if (!res->status)
1.1       agc 			res->status = ISCSID_STATUS_GENERAL_ERROR;
1.1       agc 		return NULL;
1.1       agc 	}
1.1       agc 	/* connection established! link connection into session and return IDs */
1.1       agc
1.1       agc 	conn->loginp = loginp;
1.1       agc 	conn->entry.sid.id = loginp.connection_id;
1.1       agc 	if (req != NULL) {
1.1       agc 		strlcpy((char *)conn->entry.sid.name, (char *)req->sym_name,
1.1       agc 			sizeof(conn->entry.sid.name));
1.1       agc 	}
1.1       agc
1.1       agc 	/*
1.1       agc 	   Copy important target information
1.1       agc 	 */
1.1       agc 	conn->target.sid = target->entry.sid;
1.1       agc 	strlcpy((char *)conn->target.TargetName, (char *)target->TargetName,
1.1       agc 		sizeof(conn->target.TargetName));
1.1       agc 	strlcpy((char *)conn->target.TargetAlias, (char *)target->TargetAlias,
1.1       agc 		sizeof(conn->target.TargetAlias));
1.1       agc 	conn->target.options = target->options;
1.1       agc 	conn->target.auth = target->auth;
1.1       agc 	conn->portal.addr = *addr;
1.1       agc
1.1       agc 	conn->session = sess;
1.1       agc
1.1       agc 	if (stid == NULL) {
1.2  christos 		iscsid_login_rsp_t *rsp = (iscsid_login_rsp_t *)(void *)
1.2  christos 		    res->parameter;
1.1       agc
1.1       agc 		sess->entry.sid.id = loginp.session_id;
1.1       agc 		TAILQ_INSERT_TAIL(&sess->connections, &conn->entry, link);
1.1       agc 		sess->num_connections++;
1.1       agc
1.1       agc 		res->parameter_length = sizeof(*rsp);
1.1       agc 		rsp->connection_id = conn->entry.sid;
1.1       agc 		rsp->session_id = sess->entry.sid;
1.1       agc
1.1       agc 		if (init != NULL) {
1.1       agc 			conn->initiator_id = init->entry.sid.id;
1.1       agc 			init->active_connections++;
1.1       agc 		}
1.1       agc 	} else
1.1       agc 		*stid = loginp.session_id;
1.1       agc
1.1       agc 	/*
1.1       agc 	   Copy important portal information
1.1       agc 	 */
1.1       agc 	if (portal != NULL) {
1.1       agc 		conn->portal.sid = portal->entry.sid;
1.1       agc 		portal->active_connections++;
1.1       agc 	}
1.1       agc
1.1       agc 	return conn;
1.1       agc }
1.1       agc
1.1       agc
1.1       agc /*
1.1       agc  * event_recover_connection:
1.1       agc  *    Handle RECOVER_CONNECTION event: Attempt to re-establish connection.
1.1       agc  *
1.1       agc  *    Parameter:
1.1       agc  *          sid         Session ID
1.1       agc  *          cid         Connection ID
1.1       agc  */
1.1       agc
1.3       agc static void
1.1       agc event_recover_connection(uint32_t sid, uint32_t cid)
1.1       agc {
1.1       agc 	int sock, ret;
1.1       agc 	int yes = 1;
1.1       agc 	session_t *sess;
1.1       agc 	connection_t *conn;
1.1       agc 	portal_t *portal;
1.1       agc 	initiator_t *init;
1.1       agc 	iscsi_portal_address_t *addr;
1.9   mlelstv 	struct addrinfo hints, *ai, *ai0;
1.9   mlelstv 	char portnum[6];
1.1       agc
1.8   mlelstv 	DEB(1, ("Event_Recover_Connection sid=%d, cid=%d", sid, cid));
1.1       agc
1.1       agc 	LOCK_SESSIONS;
1.1       agc
1.1       agc 	sess = find_session_id(sid);
1.1       agc 	if (sess == NULL) {
1.1       agc 		UNLOCK_SESSIONS;
1.1       agc 		return;
1.1       agc 	}
1.1       agc
1.1       agc 	conn = find_connection_id(sess, cid);
1.1       agc 	if (conn == NULL) {
1.1       agc 		UNLOCK_SESSIONS;
1.1       agc 		return;
1.1       agc 	}
1.1       agc
1.1       agc 	UNLOCK_SESSIONS;
1.1       agc
1.1       agc 	conn->loginp.status = ISCSI_STATUS_CONNECTION_FAILED;
1.1       agc
1.1       agc 	/* If we can't find the portal to connect to, abort. */
1.1       agc
1.1       agc 	if ((portal = find_portal_id(conn->portal.sid.id)) == NULL)
1.1       agc 		return;
1.1       agc
1.1       agc 	init = find_initiator_id(conn->initiator_id);
1.1       agc 	addr = &portal->addr;
1.1       agc 	conn->portal.addr = *addr;
1.1       agc
1.1       agc 	/* translate target address */
1.8   mlelstv 	DEB(1, ("Event_Recover_Connection Connecting to <%s>, port %d",
1.1       agc 			addr->address, addr->port));
1.1       agc
1.9   mlelstv 	memset(&hints, 0, sizeof(hints));
1.9   mlelstv 	hints.ai_family = AF_UNSPEC;
1.9   mlelstv 	hints.ai_socktype = SOCK_STREAM;
1.9   mlelstv 	snprintf(portnum, sizeof(portnum), "%u", addr->port);
1.9   mlelstv 	ret = getaddrinfo((char *)addr->address, portnum, &hints, &ai0);
1.9   mlelstv 	if (ret) {
1.9   mlelstv 		DEB(1, ("getaddrinfo failed (%s)", gai_strerror(ret)));
1.1       agc 		return;
1.1       agc 	}
1.1       agc
1.9   mlelstv 	sock = -1;
1.9   mlelstv 	for (ai = ai0; ai; ai = ai->ai_next) {
1.9   mlelstv
1.9   mlelstv 		/* create and connect the socket */
1.9   mlelstv 		sock = socket(ai->ai_family, ai->ai_socktype, ai->ai_protocol);
1.9   mlelstv 		if (sock < 0) {
1.9   mlelstv 			DEB(1, ("Creating socket failed (error %d)", errno));
1.9   mlelstv 			break;
1.9   mlelstv 		}
1.1       agc
1.9   mlelstv 		DEB(1, ("recover_connection: Socket = %d", sock));
1.1       agc
1.9   mlelstv 		if (init) {
1.9   mlelstv 			if (!bind_socket(sock, init->address)) {
1.9   mlelstv 				DEB(1, ("Binding to interface failed (error %d)", errno));
1.9   mlelstv 				close(sock);
1.9   mlelstv 				sock = -1;
1.9   mlelstv 				continue;
1.9   mlelstv 			}
1.9   mlelstv 		}
1.1       agc
1.9   mlelstv 		if (connect(sock, ai->ai_addr, ai->ai_addrlen) < 0) {
1.1       agc 			close(sock);
1.9   mlelstv 			sock = -1;
1.9   mlelstv 			DEB(1, ("Connecting to socket failed (error %d)", errno));
1.9   mlelstv 			continue;
1.1       agc 		}
1.9   mlelstv
1.9   mlelstv 		break;
1.1       agc 	}
1.9   mlelstv 	freeaddrinfo(ai0);
1.1       agc
1.9   mlelstv 	if (sock < 0)
1.1       agc 		return;
1.9   mlelstv
1.1       agc 	/* speed up socket processing */
1.2  christos 	setsockopt(sock, IPPROTO_TCP, TCP_NODELAY, &yes, (socklen_t)sizeof(yes));
1.1       agc 	conn->loginp.socket = sock;
1.1       agc 	conn->loginp.status = 0;
1.1       agc 	ret = ioctl(driver, ISCSI_RESTORE_CONNECTION, &conn->loginp);
1.1       agc
1.1       agc 	if (ret)
1.1       agc 		close(sock);
1.1       agc }
1.1       agc
1.1       agc
1.1       agc /*
1.1       agc  * login:
1.1       agc  *    Handle LOGIN request: Log into given portal. Create session, then
1.1       agc  *    let make_connection do the rest.
1.1       agc  *
1.1       agc  *    Parameter:
1.1       agc  *          req         The request parameters
1.1       agc  *          res         The response buffer
1.1       agc  */
1.1       agc
1.1       agc void
1.8   mlelstv log_in(iscsid_login_req_t * req, iscsid_response_t * res)
1.1       agc {
1.1       agc 	session_t *sess;
1.1       agc 	connection_t *conn;
1.1       agc
1.1       agc 	sess = calloc(1, sizeof(*sess));
1.1       agc 	if (sess == NULL) {
1.1       agc 		res->status = ISCSID_STATUS_NO_RESOURCES;
1.1       agc 		return;
1.1       agc 	}
1.1       agc 	TAILQ_INIT(&sess->connections);
1.1       agc 	strlcpy((char *)sess->entry.sid.name, (char *)req->sym_name,
1.1       agc 			sizeof(sess->entry.sid.name));
1.1       agc
1.1       agc 	LOCK_SESSIONS;
1.1       agc 	conn = make_connection(sess, req, res, 0);
1.1       agc
1.1       agc 	if (conn == NULL)
1.1       agc 		free(sess);
1.1       agc 	else {
1.1       agc 		sess->target = conn->target;
1.1       agc 		TAILQ_INSERT_TAIL(&list[SESSION_LIST].list, &sess->entry, link);
1.1       agc 		list[SESSION_LIST].num_entries++;
1.1       agc 	}
1.1       agc 	UNLOCK_SESSIONS;
1.1       agc }
1.1       agc
1.1       agc /*
1.1       agc  * add_connection:
1.1       agc  *    Handle ADD_CONNECTION request: Log secondary connection into given portal.
1.1       agc  *    Find the session, then let make_connection do the rest.
1.1       agc  *
1.1       agc  *    Parameter:
1.1       agc  *          req         The request parameters
1.1       agc  *          res         The response buffer
1.1       agc  */
1.1       agc
1.1       agc void
1.1       agc add_connection(iscsid_login_req_t * req, iscsid_response_t * res)
1.1       agc {
1.1       agc 	session_t *sess;
1.1       agc
1.1       agc 	LOCK_SESSIONS;
1.1       agc 	sess = find_session(&req->session_id);
1.1       agc 	if (sess == NULL) {
1.1       agc 		UNLOCK_SESSIONS;
1.1       agc 		res->status = ISCSID_STATUS_INVALID_SESSION_ID;
1.1       agc 		return;
1.1       agc 	}
1.1       agc
1.1       agc 	make_connection(sess, req, res, 0);
1.1       agc 	UNLOCK_SESSIONS;
1.1       agc }
1.1       agc
1.1       agc
1.1       agc /*
1.1       agc  * logout:
1.1       agc  *    Handle LOGOUT request: Log out the given session.
1.1       agc  *
1.1       agc  *    Parameter:
1.1       agc  *          req         The request parameters
1.1       agc  *
1.1       agc  *    Returns: Response status
1.1       agc  */
1.1       agc
1.1       agc uint32_t
1.8   mlelstv log_out(iscsid_sym_id_t * req)
1.1       agc {
1.1       agc 	iscsi_logout_parameters_t logoutp;
1.1       agc 	session_t *sess;
1.1       agc 	int ret;
1.1       agc
1.1       agc 	(void) memset(&logoutp, 0x0, sizeof(logoutp));
1.1       agc 	LOCK_SESSIONS;
1.1       agc 	sess = find_session(req);
1.1       agc 	if (sess == NULL) {
1.1       agc 		UNLOCK_SESSIONS;
1.1       agc 		return ISCSID_STATUS_INVALID_SESSION_ID;
1.1       agc 	}
1.1       agc
1.1       agc 	logoutp.session_id = sess->entry.sid.id;
1.1       agc 	UNLOCK_SESSIONS;
1.1       agc
1.1       agc 	ret = ioctl(driver, ISCSI_LOGOUT, &logoutp);
1.8   mlelstv 	DEB(9, ("Logout returns %d, status = %d", ret, logoutp.status));
1.1       agc
1.1       agc 	return logoutp.status;
1.1       agc }
1.1       agc
1.1       agc
1.1       agc /*
1.1       agc  * remove_connection:
1.1       agc  *    Handle REMOVE_CONNECTION request: Log out the given connection.
1.1       agc  *
1.1       agc  *    Parameter:
1.1       agc  *          req         The request parameters
1.1       agc  *
1.1       agc  *    Returns: Response status
1.1       agc  */
1.1       agc
1.1       agc uint32_t
1.1       agc remove_connection(iscsid_remove_connection_req_t * req)
1.1       agc {
1.1       agc 	iscsi_remove_parameters_t removep;
1.1       agc 	session_t *sess;
1.1       agc 	connection_t *conn;
1.1       agc 	int ret;
1.1       agc
1.1       agc 	LOCK_SESSIONS;
1.1       agc 	sess = find_session(&req->session_id);
1.1       agc 	if (sess == NULL) {
1.1       agc 		UNLOCK_SESSIONS;
1.1       agc 		return ISCSID_STATUS_INVALID_SESSION_ID;
1.1       agc 	}
1.1       agc 	conn = find_connection(sess, &req->connection_id);
1.1       agc 	if (conn == NULL) {
1.1       agc 		UNLOCK_SESSIONS;
1.1       agc 		return ISCSID_STATUS_INVALID_CONNECTION_ID;
1.1       agc 	}
1.1       agc
1.1       agc 	removep.session_id = sess->entry.sid.id;
1.1       agc 	removep.connection_id = conn->entry.sid.id;
1.1       agc 	UNLOCK_SESSIONS;
1.1       agc
1.1       agc 	ret = ioctl(driver, ISCSI_REMOVE_CONNECTION, &removep);
1.8   mlelstv 	DEB(9, ("Remove Connection returns %d, status=%d", ret, removep.status));
1.1       agc
1.1       agc 	return removep.status;
1.1       agc }
1.1       agc
1.1       agc /*
1.1       agc  * send_targets:
1.1       agc  *    Handle SEND_TARGETS request:
1.1       agc  *       First login with type = discovery.
1.1       agc  *       Then send the SendTargets iSCSI request to the target, which will
1.1       agc  *       return a list of target portals.
1.1       agc  *       Then logout.
1.1       agc  *
1.1       agc  *    Parameter:
1.1       agc  *          stid              The send target ID
1.1       agc  *          response_buffer   Pointer to pointer to buffer containing response
1.1       agc  *                            The response contains the list of the target
1.1       agc  *							  portals. The caller frees the buffer after it
1.1       agc  *							  is done with it.
1.1       agc  *          response_size     Pointer to variable which upon return will hold
1.1       agc  *							  the size of the response buffer.
1.1       agc  *
1.1       agc  *    Returns: Response status
1.1       agc  */
1.1       agc
1.1       agc uint32_t
1.1       agc send_targets(uint32_t stid, uint8_t **response_buffer, uint32_t *response_size)
1.1       agc {
1.1       agc 	iscsi_send_targets_parameters_t sendt;
1.1       agc 	iscsi_logout_parameters_t logoutp;
1.1       agc 	int ret;
1.1       agc 	connection_t *conn;
1.1       agc 	iscsid_response_t res;
1.1       agc 	uint32_t rc = ISCSID_STATUS_SUCCESS;
1.1       agc
1.1       agc 	(void) memset(&sendt, 0x0, sizeof(sendt));
1.1       agc 	(void) memset(&logoutp, 0x0, sizeof(logoutp));
1.1       agc 	(void) memset(&res, 0x0, sizeof(res));
1.1       agc 	conn = make_connection(NULL, NULL, &res, &stid);
1.8   mlelstv 	DEB(9, ("Make connection returns, status = %d", res.status));
1.1       agc
1.1       agc 	if (conn == NULL)
1.1       agc 		return res.status;
1.1       agc
1.1       agc 	sendt.session_id = stid;
1.1       agc 	sendt.response_buffer = NULL;
1.1       agc 	sendt.response_size = 0;
1.1       agc 	sendt.response_used = sendt.response_total = 0;
1.1       agc 	strlcpy((char *)sendt.key, "All", sizeof(sendt.key));
1.1       agc
1.1       agc 	/*Call once to get the size of the buffer necessary */
1.1       agc 	ret = ioctl(driver, ISCSI_SEND_TARGETS, &sendt);
1.1       agc
1.1       agc 	if (!ret && !sendt.status) {
1.1       agc 		/* Allocate buffer required and call again to retrieve data */
1.1       agc 		/* We allocate one extra byte so we can place a terminating 0 */
1.1       agc 		/* at the end of the buffer. */
1.1       agc
1.1       agc 		sendt.response_size = sendt.response_total;
1.1       agc 		sendt.response_buffer = calloc(1, sendt.response_size + 1);
1.1       agc 		if (sendt.response_buffer == NULL)
1.1       agc 			rc = ISCSID_STATUS_NO_RESOURCES;
1.1       agc 		else {
1.1       agc 			ret = ioctl(driver, ISCSI_SEND_TARGETS, &sendt);
1.1       agc 			((uint8_t *)sendt.response_buffer)[sendt.response_size] = 0;
1.1       agc
1.1       agc 			if (ret || sendt.status) {
1.1       agc 				free(sendt.response_buffer);
1.1       agc 				sendt.response_buffer = NULL;
1.1       agc 				sendt.response_used = 0;
1.1       agc 				if ((rc = sendt.status) == 0)
1.1       agc 					rc = ISCSID_STATUS_GENERAL_ERROR;
1.1       agc 			}
1.1       agc 		}
1.1       agc 	} else if ((rc = sendt.status) == 0)
1.1       agc 		rc = ISCSID_STATUS_GENERAL_ERROR;
1.1       agc
1.1       agc 	*response_buffer = sendt.response_buffer;
1.1       agc 	*response_size = sendt.response_used;
1.1       agc
1.1       agc 	logoutp.session_id = stid;
1.1       agc 	ret = ioctl(driver, ISCSI_LOGOUT, &logoutp);
1.1       agc 	/* ignore logout status */
1.1       agc
1.1       agc 	free(conn);
1.1       agc
1.1       agc 	return rc;
1.1       agc }
1.1       agc
1.1       agc
1.1       agc
1.1       agc /*
1.1       agc  * get_version:
1.1       agc  *    Handle GET_VERSION request.
1.1       agc  *
1.1       agc  *    Returns: Filled get_version_rsp structure.
1.1       agc  */
1.1       agc
1.1       agc void
1.1       agc get_version(iscsid_response_t ** prsp, int *prsp_temp)
1.1       agc {
1.1       agc 	iscsid_response_t *rsp = *prsp;
1.1       agc 	iscsid_get_version_rsp_t *ver;
1.1       agc 	iscsi_get_version_parameters_t drv_ver;
1.1       agc
1.1       agc 	rsp = make_rsp(sizeof(iscsid_get_version_rsp_t), prsp, prsp_temp);
1.1       agc 	if (rsp == NULL)
1.1       agc 		return;
1.2  christos 	ver = (iscsid_get_version_rsp_t *)(void *)rsp->parameter;
1.1       agc
1.1       agc 	ver->interface_version = INTERFACE_VERSION;
1.1       agc 	ver->major = VERSION_MAJOR;
1.1       agc 	ver->minor = VERSION_MINOR;
1.1       agc 	strlcpy ((char *)ver->version_string, VERSION_STRING, sizeof(ver->version_string));
1.1       agc
1.1       agc 	ioctl(driver, ISCSI_GET_VERSION, &drv_ver);
1.1       agc 	ver->driver_interface_version = drv_ver.interface_version;
1.1       agc 	ver->driver_major = drv_ver.major;
1.1       agc 	ver->driver_minor = drv_ver.minor;
1.1       agc 	strlcpy ((char *)ver->driver_version_string, (char *)drv_ver.version_string,
1.1       agc 			 sizeof (ver->driver_version_string));
1.1       agc }
1.1       agc
1.1       agc
1.1       agc /* -------------------------------------------------------------------------- */
1.1       agc
1.1       agc iscsi_register_event_parameters_t event_reg;	/* registered event ID */
1.1       agc
1.1       agc
1.1       agc /*
1.1       agc  * register_event_handler:
1.1       agc  *    Call driver to register the event handler.
1.1       agc  *
1.1       agc  *    Returns:
1.1       agc  *       TRUE on success.
1.1       agc  */
1.1       agc
1.1       agc boolean_t
1.1       agc register_event_handler(void)
1.1       agc {
1.1       agc 	ioctl(driver, ISCSI_REGISTER_EVENT, &event_reg);
1.1       agc 	return event_reg.event_id != 0;
1.1       agc }
1.1       agc
1.1       agc
1.1       agc /*
1.1       agc  * deregister_event_handler:
1.1       agc  *    Call driver to deregister the event handler. If the event handler thread
1.1       agc  *    is waiting for an event, this will wake it up and cause it to exit.
1.1       agc  */
1.1       agc
1.1       agc void
1.1       agc deregister_event_handler(void)
1.1       agc {
1.1       agc 	if (event_reg.event_id) {
1.1       agc 		ioctl(driver, ISCSI_DEREGISTER_EVENT, &event_reg);
1.1       agc 		event_reg.event_id = 0;
1.1       agc 	}
1.1       agc }
1.1       agc
1.1       agc
1.1       agc /*
1.1       agc  * event_handler:
1.1       agc  *    Event handler thread. Wait for the driver to generate an event and
1.1       agc  *    process it appropriately. Exits when the driver terminates or the
1.1       agc  *    handler is deregistered because the daemon is terminating.
1.1       agc  *
1.1       agc  *    Parameter:
1.1       agc  *          par         Not used.
1.1       agc  */
1.1       agc
1.1       agc void *
1.2  christos /*ARGSUSED*/
1.1       agc event_handler(void *par)
1.1       agc {
1.8   mlelstv 	void (*termf)(void) = par;
1.1       agc 	iscsi_wait_event_parameters_t evtp;
1.1       agc 	int rc;
1.1       agc
1.8   mlelstv 	DEB(10, ("Event handler starts"));
1.1       agc 	(void) memset(&evtp, 0x0, sizeof(evtp));
1.1       agc
1.1       agc 	evtp.event_id = event_reg.event_id;
1.1       agc
1.1       agc 	do {
1.8   mlelstv 		rc = ioctl(driver, ISCSI_WAIT_EVENT, &evtp);
1.6   mlelstv 		if (rc != 0) {
1.8   mlelstv 			DEB(10, ("event_handler ioctl failed: %s",
1.8   mlelstv 				strerror(errno)));
1.1       agc 			break;
1.6   mlelstv 		}
1.1       agc
1.8   mlelstv 		DEB(10, ("Got Event: kind %d, status %d, sid %d, cid %d, reason %d",
1.1       agc 				evtp.event_kind, evtp.status, evtp.session_id,
1.1       agc 				evtp.connection_id, evtp.reason));
1.1       agc
1.6   mlelstv 		if (evtp.status)
1.6   mlelstv 			break;
1.6   mlelstv
1.1       agc 		switch (evtp.event_kind) {
1.1       agc 		case ISCSI_SESSION_TERMINATED:
1.1       agc 			event_kill_session(evtp.session_id);
1.1       agc 			break;
1.1       agc
1.1       agc 		case ISCSI_CONNECTION_TERMINATED:
1.1       agc 			event_kill_connection(evtp.session_id, evtp.connection_id);
1.1       agc 			break;
1.1       agc
1.1       agc 		case ISCSI_RECOVER_CONNECTION:
1.1       agc 			event_recover_connection(evtp.session_id, evtp.connection_id);
1.1       agc 			break;
1.1       agc 		default:
1.1       agc 			break;
1.1       agc 		}
1.1       agc 	} while (evtp.event_kind != ISCSI_DRIVER_TERMINATING);
1.1       agc
1.8   mlelstv 	if (termf != NULL)
1.8   mlelstv 		(*termf)();
1.8   mlelstv
1.8   mlelstv 	DEB(10, ("Event handler exits"));
1.1       agc
1.1       agc 	return NULL;
1.1       agc }
1.1       agc
1.1       agc #if 0
1.1       agc /*
1.1       agc  * verify_connection:
1.1       agc  *    Verify that a specific connection still exists, delete it if not.
1.1       agc  *
1.1       agc  * Parameter:  The connection pointer.
1.1       agc  *
1.1       agc  * Returns:    The status returned by the driver.
1.1       agc  */
1.1       agc
1.1       agc uint32_t
1.1       agc verify_connection(connection_t * conn)
1.1       agc {
1.1       agc 	iscsi_conn_status_parameters_t req;
1.1       agc 	session_t *sess = conn->session;
1.1       agc
1.1       agc 	req.connection_id = conn->entry.sid.id;
1.1       agc 	req.session_id = sess->entry.sid.id;
1.1       agc
1.1       agc 	ioctl(driver, ISCSI_CONNECTION_STATUS, &req);
1.1       agc
1.1       agc 	if (req.status) {
1.1       agc 		TAILQ_REMOVE(&sess->connections, &conn->entry, link);
1.1       agc 		sess->num_connections--;
1.1       agc 		free(conn);
1.1       agc 	}
1.8   mlelstv 	DEB(9, ("Verify connection returns status %d", req.status));
1.1       agc 	return req.status;
1.1       agc }
1.1       agc
1.1       agc #endif