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2622 2623 2624 2625 2626 2627 2628 2629 2630 2631 2632 2633 2634 2635 2636 2637 2638 2639 2640 2641 2642 2643 2644 2645 2646 2647 2648 2649 2650 2651 2652 2653 2654 2655 2656 2657 2658 2659 2660 2661 2662 2663 2664 2665 2666 2667 2668 2669 2670 2671 2672 2673 2674 2675 2676 2677 2678 2679 2680 2681 2682 2683 2684 2685 2686 2687 2688 2689 2690 2691 2692 2693 2694 2695 2696 2697 2698 2699 2700 2701 2702 2703 2704 2705 2706 2707 2708 2709 2710 2711 2712 2713 2714 2715 2716 2717 | /********************************************************************* * * Filename: af_irda.c * Version: 0.9 * Description: IrDA sockets implementation * Status: Stable * Author: Dag Brattli <dagb@cs.uit.no> * Created at: Sun May 31 10:12:43 1998 * Modified at: Sat Dec 25 21:10:23 1999 * Modified by: Dag Brattli <dag@brattli.net> * Sources: af_netroom.c, af_ax25.c, af_rose.c, af_x25.c etc. * * Copyright (c) 1999 Dag Brattli <dagb@cs.uit.no> * Copyright (c) 1999-2003 Jean Tourrilhes <jt@hpl.hp.com> * All Rights Reserved. * * 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 (at your option) 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, see <http://www.gnu.org/licenses/>. * * Linux-IrDA now supports four different types of IrDA sockets: * * o SOCK_STREAM: TinyTP connections with SAR disabled. The * max SDU size is 0 for conn. of this type * o SOCK_SEQPACKET: TinyTP connections with SAR enabled. TTP may * fragment the messages, but will preserve * the message boundaries * o SOCK_DGRAM: IRDAPROTO_UNITDATA: TinyTP connections with Unitdata * (unreliable) transfers * IRDAPROTO_ULTRA: Connectionless and unreliable data * ********************************************************************/ #include <linux/capability.h> #include <linux/module.h> #include <linux/types.h> #include <linux/socket.h> #include <linux/sockios.h> #include <linux/slab.h> #include <linux/init.h> #include <linux/net.h> #include <linux/irda.h> #include <linux/poll.h> #include <asm/ioctls.h> /* TIOCOUTQ, TIOCINQ */ #include <asm/uaccess.h> #include <net/sock.h> #include <net/tcp_states.h> #include <net/irda/af_irda.h> static int irda_create(struct net *net, struct socket *sock, int protocol, int kern); static const struct proto_ops irda_stream_ops; static const struct proto_ops irda_seqpacket_ops; static const struct proto_ops irda_dgram_ops; #ifdef CONFIG_IRDA_ULTRA static const struct proto_ops irda_ultra_ops; #define ULTRA_MAX_DATA 382 #endif /* CONFIG_IRDA_ULTRA */ #define IRDA_MAX_HEADER (TTP_MAX_HEADER) /* * Function irda_data_indication (instance, sap, skb) * * Received some data from TinyTP. Just queue it on the receive queue * */ static int irda_data_indication(void *instance, void *sap, struct sk_buff *skb) { struct irda_sock *self; struct sock *sk; int err; self = instance; sk = instance; err = sock_queue_rcv_skb(sk, skb); if (err) { pr_debug("%s(), error: no more mem!\n", __func__); self->rx_flow = FLOW_STOP; /* When we return error, TTP will need to requeue the skb */ return err; } return 0; } /* * Function irda_disconnect_indication (instance, sap, reason, skb) * * Connection has been closed. Check reason to find out why * */ static void irda_disconnect_indication(void *instance, void *sap, LM_REASON reason, struct sk_buff *skb) { struct irda_sock *self; struct sock *sk; self = instance; pr_debug("%s(%p)\n", __func__, self); /* Don't care about it, but let's not leak it */ if(skb) dev_kfree_skb(skb); sk = instance; if (sk == NULL) { pr_debug("%s(%p) : BUG : sk is NULL\n", __func__, self); return; } /* Prevent race conditions with irda_release() and irda_shutdown() */ bh_lock_sock(sk); if (!sock_flag(sk, SOCK_DEAD) && sk->sk_state != TCP_CLOSE) { sk->sk_state = TCP_CLOSE; sk->sk_shutdown |= SEND_SHUTDOWN; sk->sk_state_change(sk); /* Close our TSAP. * If we leave it open, IrLMP put it back into the list of * unconnected LSAPs. The problem is that any incoming request * can then be matched to this socket (and it will be, because * it is at the head of the list). This would prevent any * listening socket waiting on the same TSAP to get those * requests. Some apps forget to close sockets, or hang to it * a bit too long, so we may stay in this dead state long * enough to be noticed... * Note : all socket function do check sk->sk_state, so we are * safe... * Jean II */ if (self->tsap) { irttp_close_tsap(self->tsap); self->tsap = NULL; } } bh_unlock_sock(sk); /* Note : once we are there, there is not much you want to do * with the socket anymore, apart from closing it. * For example, bind() and connect() won't reset sk->sk_err, * sk->sk_shutdown and sk->sk_flags to valid values... * Jean II */ } /* * Function irda_connect_confirm (instance, sap, qos, max_sdu_size, skb) * * Connections has been confirmed by the remote device * */ static void irda_connect_confirm(void *instance, void *sap, struct qos_info *qos, __u32 max_sdu_size, __u8 max_header_size, struct sk_buff *skb) { struct irda_sock *self; struct sock *sk; self = instance; pr_debug("%s(%p)\n", __func__, self); sk = instance; if (sk == NULL) { dev_kfree_skb(skb); return; } dev_kfree_skb(skb); // Should be ??? skb_queue_tail(&sk->sk_receive_queue, skb); /* How much header space do we need to reserve */ self->max_header_size = max_header_size; /* IrTTP max SDU size in transmit direction */ self->max_sdu_size_tx = max_sdu_size; /* Find out what the largest chunk of data that we can transmit is */ switch (sk->sk_type) { case SOCK_STREAM: if (max_sdu_size != 0) { net_err_ratelimited("%s: max_sdu_size must be 0\n", __func__); return; } self->max_data_size = irttp_get_max_seg_size(self->tsap); break; case SOCK_SEQPACKET: if (max_sdu_size == 0) { net_err_ratelimited("%s: max_sdu_size cannot be 0\n", __func__); return; } self->max_data_size = max_sdu_size; break; default: self->max_data_size = irttp_get_max_seg_size(self->tsap); } pr_debug("%s(), max_data_size=%d\n", __func__, self->max_data_size); memcpy(&self->qos_tx, qos, sizeof(struct qos_info)); /* We are now connected! */ sk->sk_state = TCP_ESTABLISHED; sk->sk_state_change(sk); } /* * Function irda_connect_indication(instance, sap, qos, max_sdu_size, userdata) * * Incoming connection * */ static void irda_connect_indication(void *instance, void *sap, struct qos_info *qos, __u32 max_sdu_size, __u8 max_header_size, struct sk_buff *skb) { struct irda_sock *self; struct sock *sk; self = instance; pr_debug("%s(%p)\n", __func__, self); sk = instance; if (sk == NULL) { dev_kfree_skb(skb); return; } /* How much header space do we need to reserve */ self->max_header_size = max_header_size; /* IrTTP max SDU size in transmit direction */ self->max_sdu_size_tx = max_sdu_size; /* Find out what the largest chunk of data that we can transmit is */ switch (sk->sk_type) { case SOCK_STREAM: if (max_sdu_size != 0) { net_err_ratelimited("%s: max_sdu_size must be 0\n", __func__); kfree_skb(skb); return; } self->max_data_size = irttp_get_max_seg_size(self->tsap); break; case SOCK_SEQPACKET: if (max_sdu_size == 0) { net_err_ratelimited("%s: max_sdu_size cannot be 0\n", __func__); kfree_skb(skb); return; } self->max_data_size = max_sdu_size; break; default: self->max_data_size = irttp_get_max_seg_size(self->tsap); } pr_debug("%s(), max_data_size=%d\n", __func__, self->max_data_size); memcpy(&self->qos_tx, qos, sizeof(struct qos_info)); skb_queue_tail(&sk->sk_receive_queue, skb); sk->sk_state_change(sk); } /* * Function irda_connect_response (handle) * * Accept incoming connection * */ static void irda_connect_response(struct irda_sock *self) { struct sk_buff *skb; skb = alloc_skb(TTP_MAX_HEADER + TTP_SAR_HEADER, GFP_KERNEL); if (skb == NULL) { pr_debug("%s() Unable to allocate sk_buff!\n", __func__); return; } /* Reserve space for MUX_CONTROL and LAP header */ skb_reserve(skb, IRDA_MAX_HEADER); irttp_connect_response(self->tsap, self->max_sdu_size_rx, skb); } /* * Function irda_flow_indication (instance, sap, flow) * * Used by TinyTP to tell us if it can accept more data or not * */ static void irda_flow_indication(void *instance, void *sap, LOCAL_FLOW flow) { struct irda_sock *self; struct sock *sk; self = instance; sk = instance; BUG_ON(sk == NULL); switch (flow) { case FLOW_STOP: pr_debug("%s(), IrTTP wants us to slow down\n", __func__); self->tx_flow = flow; break; case FLOW_START: self->tx_flow = flow; pr_debug("%s(), IrTTP wants us to start again\n", __func__); wake_up_interruptible(sk_sleep(sk)); break; default: pr_debug("%s(), Unknown flow command!\n", __func__); /* Unknown flow command, better stop */ self->tx_flow = flow; break; } } /* * Function irda_getvalue_confirm (obj_id, value, priv) * * Got answer from remote LM-IAS, just pass object to requester... * * Note : duplicate from above, but we need our own version that * doesn't touch the dtsap_sel and save the full value structure... */ static void irda_getvalue_confirm(int result, __u16 obj_id, struct ias_value *value, void *priv) { struct irda_sock *self; self = priv; if (!self) { net_warn_ratelimited("%s: lost myself!\n", __func__); return; } pr_debug("%s(%p)\n", __func__, self); /* We probably don't need to make any more queries */ iriap_close(self->iriap); self->iriap = NULL; /* Check if request succeeded */ if (result != IAS_SUCCESS) { pr_debug("%s(), IAS query failed! (%d)\n", __func__, result); self->errno = result; /* We really need it later */ /* Wake up any processes waiting for result */ wake_up_interruptible(&self->query_wait); return; } /* Pass the object to the caller (so the caller must delete it) */ self->ias_result = value; self->errno = 0; /* Wake up any processes waiting for result */ wake_up_interruptible(&self->query_wait); } /* * Function irda_selective_discovery_indication (discovery) * * Got a selective discovery indication from IrLMP. * * IrLMP is telling us that this node is new and matching our hint bit * filter. Wake up any process waiting for answer... */ static void irda_selective_discovery_indication(discinfo_t *discovery, DISCOVERY_MODE mode, void *priv) { struct irda_sock *self; self = priv; if (!self) { net_warn_ratelimited("%s: lost myself!\n", __func__); return; } /* Pass parameter to the caller */ self->cachedaddr = discovery->daddr; /* Wake up process if its waiting for device to be discovered */ wake_up_interruptible(&self->query_wait); } /* * Function irda_discovery_timeout (priv) * * Timeout in the selective discovery process * * We were waiting for a node to be discovered, but nothing has come up * so far. Wake up the user and tell him that we failed... */ static void irda_discovery_timeout(u_long priv) { struct irda_sock *self; self = (struct irda_sock *) priv; BUG_ON(self == NULL); /* Nothing for the caller */ self->cachelog = NULL; self->cachedaddr = 0; self->errno = -ETIME; /* Wake up process if its still waiting... */ wake_up_interruptible(&self->query_wait); } /* * Function irda_open_tsap (self) * * Open local Transport Service Access Point (TSAP) * */ static int irda_open_tsap(struct irda_sock *self, __u8 tsap_sel, char *name) { notify_t notify; if (self->tsap) { pr_debug("%s: busy!\n", __func__); return -EBUSY; } /* Initialize callbacks to be used by the IrDA stack */ irda_notify_init(¬ify); notify.connect_confirm = irda_connect_confirm; notify.connect_indication = irda_connect_indication; notify.disconnect_indication = irda_disconnect_indication; notify.data_indication = irda_data_indication; notify.udata_indication = irda_data_indication; notify.flow_indication = irda_flow_indication; notify.instance = self; strncpy(notify.name, name, NOTIFY_MAX_NAME); self->tsap = irttp_open_tsap(tsap_sel, DEFAULT_INITIAL_CREDIT, ¬ify); if (self->tsap == NULL) { pr_debug("%s(), Unable to allocate TSAP!\n", __func__); return -ENOMEM; } /* Remember which TSAP selector we actually got */ self->stsap_sel = self->tsap->stsap_sel; return 0; } /* * Function irda_open_lsap (self) * * Open local Link Service Access Point (LSAP). Used for opening Ultra * sockets */ #ifdef CONFIG_IRDA_ULTRA static int irda_open_lsap(struct irda_sock *self, int pid) { notify_t notify; if (self->lsap) { net_warn_ratelimited("%s(), busy!\n", __func__); return -EBUSY; } /* Initialize callbacks to be used by the IrDA stack */ irda_notify_init(¬ify); notify.udata_indication = irda_data_indication; notify.instance = self; strncpy(notify.name, "Ultra", NOTIFY_MAX_NAME); self->lsap = irlmp_open_lsap(LSAP_CONNLESS, ¬ify, pid); if (self->lsap == NULL) { pr_debug("%s(), Unable to allocate LSAP!\n", __func__); return -ENOMEM; } return 0; } #endif /* CONFIG_IRDA_ULTRA */ /* * Function irda_find_lsap_sel (self, name) * * Try to lookup LSAP selector in remote LM-IAS * * Basically, we start a IAP query, and then go to sleep. When the query * return, irda_getvalue_confirm will wake us up, and we can examine the * result of the query... * Note that in some case, the query fail even before we go to sleep, * creating some races... */ static int irda_find_lsap_sel(struct irda_sock *self, char *name) { pr_debug("%s(%p, %s)\n", __func__, self, name); if (self->iriap) { net_warn_ratelimited("%s(): busy with a previous query\n", __func__); return -EBUSY; } self->iriap = iriap_open(LSAP_ANY, IAS_CLIENT, self, irda_getvalue_confirm); if(self->iriap == NULL) return -ENOMEM; /* Treat unexpected wakeup as disconnect */ self->errno = -EHOSTUNREACH; /* Query remote LM-IAS */ iriap_getvaluebyclass_request(self->iriap, self->saddr, self->daddr, name, "IrDA:TinyTP:LsapSel"); /* Wait for answer, if not yet finished (or failed) */ if (wait_event_interruptible(self->query_wait, (self->iriap==NULL))) /* Treat signals as disconnect */ return -EHOSTUNREACH; /* Check what happened */ if (self->errno) { /* Requested object/attribute doesn't exist */ if((self->errno == IAS_CLASS_UNKNOWN) || (self->errno == IAS_ATTRIB_UNKNOWN)) return -EADDRNOTAVAIL; else return -EHOSTUNREACH; } /* Get the remote TSAP selector */ switch (self->ias_result->type) { case IAS_INTEGER: pr_debug("%s() int=%d\n", __func__, self->ias_result->t.integer); if (self->ias_result->t.integer != -1) self->dtsap_sel = self->ias_result->t.integer; else self->dtsap_sel = 0; break; default: self->dtsap_sel = 0; pr_debug("%s(), bad type!\n", __func__); break; } if (self->ias_result) irias_delete_value(self->ias_result); if (self->dtsap_sel) return 0; return -EADDRNOTAVAIL; } /* * Function irda_discover_daddr_and_lsap_sel (self, name) * * This try to find a device with the requested service. * * It basically look into the discovery log. For each address in the list, * it queries the LM-IAS of the device to find if this device offer * the requested service. * If there is more than one node supporting the service, we complain * to the user (it should move devices around). * The, we set both the destination address and the lsap selector to point * on the service on the unique device we have found. * * Note : this function fails if there is more than one device in range, * because IrLMP doesn't disconnect the LAP when the last LSAP is closed. * Moreover, we would need to wait the LAP disconnection... */ static int irda_discover_daddr_and_lsap_sel(struct irda_sock *self, char *name) { discinfo_t *discoveries; /* Copy of the discovery log */ int number; /* Number of nodes in the log */ int i; int err = -ENETUNREACH; __u32 daddr = DEV_ADDR_ANY; /* Address we found the service on */ __u8 dtsap_sel = 0x0; /* TSAP associated with it */ pr_debug("%s(), name=%s\n", __func__, name); /* Ask lmp for the current discovery log * Note : we have to use irlmp_get_discoveries(), as opposed * to play with the cachelog directly, because while we are * making our ias query, le log might change... */ discoveries = irlmp_get_discoveries(&number, self->mask.word, self->nslots); /* Check if the we got some results */ if (discoveries == NULL) return -ENETUNREACH; /* No nodes discovered */ /* * Now, check all discovered devices (if any), and connect * client only about the services that the client is * interested in... */ for(i = 0; i < number; i++) { /* Try the address in the log */ self->daddr = discoveries[i].daddr; self->saddr = 0x0; pr_debug("%s(), trying daddr = %08x\n", __func__, self->daddr); /* Query remote LM-IAS for this service */ err = irda_find_lsap_sel(self, name); switch (err) { case 0: /* We found the requested service */ if(daddr != DEV_ADDR_ANY) { pr_debug("%s(), discovered service ''%s'' in two different devices !!!\n", __func__, name); self->daddr = DEV_ADDR_ANY; kfree(discoveries); return -ENOTUNIQ; } /* First time we found that one, save it ! */ daddr = self->daddr; dtsap_sel = self->dtsap_sel; break; case -EADDRNOTAVAIL: /* Requested service simply doesn't exist on this node */ break; default: /* Something bad did happen :-( */ pr_debug("%s(), unexpected IAS query failure\n", __func__); self->daddr = DEV_ADDR_ANY; kfree(discoveries); return -EHOSTUNREACH; } } /* Cleanup our copy of the discovery log */ kfree(discoveries); /* Check out what we found */ if(daddr == DEV_ADDR_ANY) { pr_debug("%s(), cannot discover service ''%s'' in any device !!!\n", __func__, name); self->daddr = DEV_ADDR_ANY; return -EADDRNOTAVAIL; } /* Revert back to discovered device & service */ self->daddr = daddr; self->saddr = 0x0; self->dtsap_sel = dtsap_sel; pr_debug("%s(), discovered requested service ''%s'' at address %08x\n", __func__, name, self->daddr); return 0; } /* * Function irda_getname (sock, uaddr, uaddr_len, peer) * * Return the our own, or peers socket address (sockaddr_irda) * */ static int irda_getname(struct socket *sock, struct sockaddr *uaddr, int *uaddr_len, int peer) { struct sockaddr_irda saddr; struct sock *sk = sock->sk; struct irda_sock *self = irda_sk(sk); memset(&saddr, 0, sizeof(saddr)); if (peer) { if (sk->sk_state != TCP_ESTABLISHED) return -ENOTCONN; saddr.sir_family = AF_IRDA; saddr.sir_lsap_sel = self->dtsap_sel; saddr.sir_addr = self->daddr; } else { saddr.sir_family = AF_IRDA; saddr.sir_lsap_sel = self->stsap_sel; saddr.sir_addr = self->saddr; } pr_debug("%s(), tsap_sel = %#x\n", __func__, saddr.sir_lsap_sel); pr_debug("%s(), addr = %08x\n", __func__, saddr.sir_addr); /* uaddr_len come to us uninitialised */ *uaddr_len = sizeof (struct sockaddr_irda); memcpy(uaddr, &saddr, *uaddr_len); return 0; } /* * Function irda_listen (sock, backlog) * * Just move to the listen state * */ static int irda_listen(struct socket *sock, int backlog) { struct sock *sk = sock->sk; int err = -EOPNOTSUPP; lock_sock(sk); if ((sk->sk_type != SOCK_STREAM) && (sk->sk_type != SOCK_SEQPACKET) && (sk->sk_type != SOCK_DGRAM)) goto out; if (sk->sk_state != TCP_LISTEN) { sk->sk_max_ack_backlog = backlog; sk->sk_state = TCP_LISTEN; err = 0; } out: release_sock(sk); return err; } /* * Function irda_bind (sock, uaddr, addr_len) * * Used by servers to register their well known TSAP * */ static int irda_bind(struct socket *sock, struct sockaddr *uaddr, int addr_len) { struct sock *sk = sock->sk; struct sockaddr_irda *addr = (struct sockaddr_irda *) uaddr; struct irda_sock *self = irda_sk(sk); int err; pr_debug("%s(%p)\n", __func__, self); if (addr_len != sizeof(struct sockaddr_irda)) return -EINVAL; lock_sock(sk); #ifdef CONFIG_IRDA_ULTRA /* Special care for Ultra sockets */ if ((sk->sk_type == SOCK_DGRAM) && (sk->sk_protocol == IRDAPROTO_ULTRA)) { self->pid = addr->sir_lsap_sel; err = -EOPNOTSUPP; if (self->pid & 0x80) { pr_debug("%s(), extension in PID not supp!\n", __func__); goto out; } err = irda_open_lsap(self, self->pid); if (err < 0) goto out; /* Pretend we are connected */ sock->state = SS_CONNECTED; sk->sk_state = TCP_ESTABLISHED; err = 0; goto out; } #endif /* CONFIG_IRDA_ULTRA */ self->ias_obj = irias_new_object(addr->sir_name, jiffies); err = -ENOMEM; if (self->ias_obj == NULL) goto out; err = irda_open_tsap(self, addr->sir_lsap_sel, addr->sir_name); if (err < 0) { irias_delete_object(self->ias_obj); self->ias_obj = NULL; goto out; } /* Register with LM-IAS */ irias_add_integer_attrib(self->ias_obj, "IrDA:TinyTP:LsapSel", self->stsap_sel, IAS_KERNEL_ATTR); irias_insert_object(self->ias_obj); err = 0; out: release_sock(sk); return err; } /* * Function irda_accept (sock, newsock, flags) * * Wait for incoming connection * */ static int irda_accept(struct socket *sock, struct socket *newsock, int flags) { struct sock *sk = sock->sk; struct irda_sock *new, *self = irda_sk(sk); struct sock *newsk; struct sk_buff *skb = NULL; int err; err = irda_create(sock_net(sk), newsock, sk->sk_protocol, 0); if (err) return err; err = -EINVAL; lock_sock(sk); if (sock->state != SS_UNCONNECTED) goto out; err = -EOPNOTSUPP; if ((sk->sk_type != SOCK_STREAM) && (sk->sk_type != SOCK_SEQPACKET) && (sk->sk_type != SOCK_DGRAM)) goto out; err = -EINVAL; if (sk->sk_state != TCP_LISTEN) goto out; /* * The read queue this time is holding sockets ready to use * hooked into the SABM we saved */ /* * We can perform the accept only if there is incoming data * on the listening socket. * So, we will block the caller until we receive any data. * If the caller was waiting on select() or poll() before * calling us, the data is waiting for us ;-) * Jean II */ while (1) { skb = skb_dequeue(&sk->sk_receive_queue); if (skb) break; /* Non blocking operation */ err = -EWOULDBLOCK; if (flags & O_NONBLOCK) goto out; err = wait_event_interruptible(*(sk_sleep(sk)), skb_peek(&sk->sk_receive_queue)); if (err) goto out; } newsk = newsock->sk; err = -EIO; if (newsk == NULL) goto out; newsk->sk_state = TCP_ESTABLISHED; new = irda_sk(newsk); /* Now attach up the new socket */ new->tsap = irttp_dup(self->tsap, new); err = -EPERM; /* value does not seem to make sense. -arnd */ if (!new->tsap) { pr_debug("%s(), dup failed!\n", __func__); goto out; } new->stsap_sel = new->tsap->stsap_sel; new->dtsap_sel = new->tsap->dtsap_sel; new->saddr = irttp_get_saddr(new->tsap); new->daddr = irttp_get_daddr(new->tsap); new->max_sdu_size_tx = self->max_sdu_size_tx; new->max_sdu_size_rx = self->max_sdu_size_rx; new->max_data_size = self->max_data_size; new->max_header_size = self->max_header_size; memcpy(&new->qos_tx, &self->qos_tx, sizeof(struct qos_info)); /* Clean up the original one to keep it in listen state */ irttp_listen(self->tsap); sk->sk_ack_backlog--; newsock->state = SS_CONNECTED; irda_connect_response(new); err = 0; out: kfree_skb(skb); release_sock(sk); return err; } /* * Function irda_connect (sock, uaddr, addr_len, flags) * * Connect to a IrDA device * * The main difference with a "standard" connect is that with IrDA we need * to resolve the service name into a TSAP selector (in TCP, port number * doesn't have to be resolved). * Because of this service name resolution, we can offer "auto-connect", * where we connect to a service without specifying a destination address. * * Note : by consulting "errno", the user space caller may learn the cause * of the failure. Most of them are visible in the function, others may come * from subroutines called and are listed here : * o EBUSY : already processing a connect * o EHOSTUNREACH : bad addr->sir_addr argument * o EADDRNOTAVAIL : bad addr->sir_name argument * o ENOTUNIQ : more than one node has addr->sir_name (auto-connect) * o ENETUNREACH : no node found on the network (auto-connect) */ static int irda_connect(struct socket *sock, struct sockaddr *uaddr, int addr_len, int flags) { struct sock *sk = sock->sk; struct sockaddr_irda *addr = (struct sockaddr_irda *) uaddr; struct irda_sock *self = irda_sk(sk); int err; pr_debug("%s(%p)\n", __func__, self); lock_sock(sk); /* Don't allow connect for Ultra sockets */ err = -ESOCKTNOSUPPORT; if ((sk->sk_type == SOCK_DGRAM) && (sk->sk_protocol == IRDAPROTO_ULTRA)) goto out; if (sk->sk_state == TCP_ESTABLISHED && sock->state == SS_CONNECTING) { sock->state = SS_CONNECTED; err = 0; goto out; /* Connect completed during a ERESTARTSYS event */ } if (sk->sk_state == TCP_CLOSE && sock->state == SS_CONNECTING) { sock->state = SS_UNCONNECTED; err = -ECONNREFUSED; goto out; } err = -EISCONN; /* No reconnect on a seqpacket socket */ if (sk->sk_state == TCP_ESTABLISHED) goto out; sk->sk_state = TCP_CLOSE; sock->state = SS_UNCONNECTED; err = -EINVAL; if (addr_len != sizeof(struct sockaddr_irda)) goto out; /* Check if user supplied any destination device address */ if ((!addr->sir_addr) || (addr->sir_addr == DEV_ADDR_ANY)) { /* Try to find one suitable */ err = irda_discover_daddr_and_lsap_sel(self, addr->sir_name); if (err) { pr_debug("%s(), auto-connect failed!\n", __func__); goto out; } } else { /* Use the one provided by the user */ self->daddr = addr->sir_addr; pr_debug("%s(), daddr = %08x\n", __func__, self->daddr); /* If we don't have a valid service name, we assume the * user want to connect on a specific LSAP. Prevent * the use of invalid LSAPs (IrLMP 1.1 p10). Jean II */ if((addr->sir_name[0] != '\0') || (addr->sir_lsap_sel >= 0x70)) { /* Query remote LM-IAS using service name */ err = irda_find_lsap_sel(self, addr->sir_name); if (err) { pr_debug("%s(), connect failed!\n", __func__); goto out; } } else { /* Directly connect to the remote LSAP * specified by the sir_lsap field. * Please use with caution, in IrDA LSAPs are * dynamic and there is no "well-known" LSAP. */ self->dtsap_sel = addr->sir_lsap_sel; } } /* Check if we have opened a local TSAP */ if (!self->tsap) { err = irda_open_tsap(self, LSAP_ANY, addr->sir_name); if (err) goto out; } /* Move to connecting socket, start sending Connect Requests */ sock->state = SS_CONNECTING; sk->sk_state = TCP_SYN_SENT; /* Connect to remote device */ err = irttp_connect_request(self->tsap, self->dtsap_sel, self->saddr, self->daddr, NULL, self->max_sdu_size_rx, NULL); if (err) { pr_debug("%s(), connect failed!\n", __func__); goto out; } /* Now the loop */ err = -EINPROGRESS; if (sk->sk_state != TCP_ESTABLISHED && (flags & O_NONBLOCK)) goto out; err = -ERESTARTSYS; if (wait_event_interruptible(*(sk_sleep(sk)), (sk->sk_state != TCP_SYN_SENT))) goto out; if (sk->sk_state != TCP_ESTABLISHED) { sock->state = SS_UNCONNECTED; err = sock_error(sk); if (!err) err = -ECONNRESET; goto out; } sock->state = SS_CONNECTED; /* At this point, IrLMP has assigned our source address */ self->saddr = irttp_get_saddr(self->tsap); err = 0; out: release_sock(sk); return err; } static struct proto irda_proto = { .name = "IRDA", .owner = THIS_MODULE, .obj_size = sizeof(struct irda_sock), }; /* * Function irda_create (sock, protocol) * * Create IrDA socket * */ static int irda_create(struct net *net, struct socket *sock, int protocol, int kern) { struct sock *sk; struct irda_sock *self; if (protocol < 0 || protocol > SK_PROTOCOL_MAX) return -EINVAL; if (net != &init_net) return -EAFNOSUPPORT; /* Check for valid socket type */ switch (sock->type) { case SOCK_STREAM: /* For TTP connections with SAR disabled */ case SOCK_SEQPACKET: /* For TTP connections with SAR enabled */ case SOCK_DGRAM: /* For TTP Unitdata or LMP Ultra transfers */ break; default: return -ESOCKTNOSUPPORT; } /* Allocate networking socket */ sk = sk_alloc(net, PF_IRDA, GFP_KERNEL, &irda_proto, kern); if (sk == NULL) return -ENOMEM; self = irda_sk(sk); pr_debug("%s() : self is %p\n", __func__, self); init_waitqueue_head(&self->query_wait); switch (sock->type) { case SOCK_STREAM: sock->ops = &irda_stream_ops; self->max_sdu_size_rx = TTP_SAR_DISABLE; break; case SOCK_SEQPACKET: sock->ops = &irda_seqpacket_ops; self->max_sdu_size_rx = TTP_SAR_UNBOUND; break; case SOCK_DGRAM: switch (protocol) { #ifdef CONFIG_IRDA_ULTRA case IRDAPROTO_ULTRA: sock->ops = &irda_ultra_ops; /* Initialise now, because we may send on unbound * sockets. Jean II */ self->max_data_size = ULTRA_MAX_DATA - LMP_PID_HEADER; self->max_header_size = IRDA_MAX_HEADER + LMP_PID_HEADER; break; #endif /* CONFIG_IRDA_ULTRA */ case IRDAPROTO_UNITDATA: sock->ops = &irda_dgram_ops; /* We let Unitdata conn. be like seqpack conn. */ self->max_sdu_size_rx = TTP_SAR_UNBOUND; break; default: sk_free(sk); return -ESOCKTNOSUPPORT; } break; default: sk_free(sk); return -ESOCKTNOSUPPORT; } /* Initialise networking socket struct */ sock_init_data(sock, sk); /* Note : set sk->sk_refcnt to 1 */ sk->sk_family = PF_IRDA; sk->sk_protocol = protocol; /* Register as a client with IrLMP */ self->ckey = irlmp_register_client(0, NULL, NULL, NULL); self->mask.word = 0xffff; self->rx_flow = self->tx_flow = FLOW_START; self->nslots = DISCOVERY_DEFAULT_SLOTS; self->daddr = DEV_ADDR_ANY; /* Until we get connected */ self->saddr = 0x0; /* so IrLMP assign us any link */ return 0; } /* * Function irda_destroy_socket (self) * * Destroy socket * */ static void irda_destroy_socket(struct irda_sock *self) { pr_debug("%s(%p)\n", __func__, self); /* Unregister with IrLMP */ irlmp_unregister_client(self->ckey); irlmp_unregister_service(self->skey); /* Unregister with LM-IAS */ if (self->ias_obj) { irias_delete_object(self->ias_obj); self->ias_obj = NULL; } if (self->iriap) { iriap_close(self->iriap); self->iriap = NULL; } if (self->tsap) { irttp_disconnect_request(self->tsap, NULL, P_NORMAL); irttp_close_tsap(self->tsap); self->tsap = NULL; } #ifdef CONFIG_IRDA_ULTRA if (self->lsap) { irlmp_close_lsap(self->lsap); self->lsap = NULL; } #endif /* CONFIG_IRDA_ULTRA */ } /* * Function irda_release (sock) */ static int irda_release(struct socket *sock) { struct sock *sk = sock->sk; if (sk == NULL) return 0; lock_sock(sk); sk->sk_state = TCP_CLOSE; sk->sk_shutdown |= SEND_SHUTDOWN; sk->sk_state_change(sk); /* Destroy IrDA socket */ irda_destroy_socket(irda_sk(sk)); sock_orphan(sk); sock->sk = NULL; release_sock(sk); /* Purge queues (see sock_init_data()) */ skb_queue_purge(&sk->sk_receive_queue); /* Destroy networking socket if we are the last reference on it, * i.e. if(sk->sk_refcnt == 0) -> sk_free(sk) */ sock_put(sk); /* Notes on socket locking and deallocation... - Jean II * In theory we should put pairs of sock_hold() / sock_put() to * prevent the socket to be destroyed whenever there is an * outstanding request or outstanding incoming packet or event. * * 1) This may include IAS request, both in connect and getsockopt. * Unfortunately, the situation is a bit more messy than it looks, * because we close iriap and kfree(self) above. * * 2) This may include selective discovery in getsockopt. * Same stuff as above, irlmp registration and self are gone. * * Probably 1 and 2 may not matter, because it's all triggered * by a process and the socket layer already prevent the * socket to go away while a process is holding it, through * sockfd_put() and fput()... * * 3) This may include deferred TSAP closure. In particular, * we may receive a late irda_disconnect_indication() * Fortunately, (tsap_cb *)->close_pend should protect us * from that. * * I did some testing on SMP, and it looks solid. And the socket * memory leak is now gone... - Jean II */ return 0; } /* * Function irda_sendmsg (sock, msg, len) * * Send message down to TinyTP. This function is used for both STREAM and * SEQPACK services. This is possible since it forces the client to * fragment the message if necessary */ static int irda_sendmsg(struct socket *sock, struct msghdr *msg, size_t len) { struct sock *sk = sock->sk; struct irda_sock *self; struct sk_buff *skb; int err = -EPIPE; pr_debug("%s(), len=%zd\n", __func__, len); /* Note : socket.c set MSG_EOR on SEQPACKET sockets */ if (msg->msg_flags & ~(MSG_DONTWAIT | MSG_EOR | MSG_CMSG_COMPAT | MSG_NOSIGNAL)) { return -EINVAL; } lock_sock(sk); if (sk->sk_shutdown & SEND_SHUTDOWN) goto out_err; if (sk->sk_state != TCP_ESTABLISHED) { err = -ENOTCONN; goto out; } self = irda_sk(sk); /* Check if IrTTP is wants us to slow down */ if (wait_event_interruptible(*(sk_sleep(sk)), (self->tx_flow != FLOW_STOP || sk->sk_state != TCP_ESTABLISHED))) { err = -ERESTARTSYS; goto out; } /* Check if we are still connected */ if (sk->sk_state != TCP_ESTABLISHED) { err = -ENOTCONN; goto out; } /* Check that we don't send out too big frames */ if (len > self->max_data_size) { pr_debug("%s(), Chopping frame from %zd to %d bytes!\n", __func__, len, self->max_data_size); len = self->max_data_size; } skb = sock_alloc_send_skb(sk, len + self->max_header_size + 16, msg->msg_flags & MSG_DONTWAIT, &err); if (!skb) goto out_err; skb_reserve(skb, self->max_header_size + 16); skb_reset_transport_header(skb); skb_put(skb, len); err = memcpy_from_msg(skb_transport_header(skb), msg, len); if (err) { kfree_skb(skb); goto out_err; } /* * Just send the message to TinyTP, and let it deal with possible * errors. No need to duplicate all that here */ err = irttp_data_request(self->tsap, skb); if (err) { pr_debug("%s(), err=%d\n", __func__, err); goto out_err; } release_sock(sk); /* Tell client how much data we actually sent */ return len; out_err: err = sk_stream_error(sk, msg->msg_flags, err); out: release_sock(sk); return err; } /* * Function irda_recvmsg_dgram (sock, msg, size, flags) * * Try to receive message and copy it to user. The frame is discarded * after being read, regardless of how much the user actually read */ static int irda_recvmsg_dgram(struct socket *sock, struct msghdr *msg, size_t size, int flags) { struct sock *sk = sock->sk; struct irda_sock *self = irda_sk(sk); struct sk_buff *skb; size_t copied; int err; skb = skb_recv_datagram(sk, flags & ~MSG_DONTWAIT, flags & MSG_DONTWAIT, &err); if (!skb) return err; skb_reset_transport_header(skb); copied = skb->len; if (copied > size) { pr_debug("%s(), Received truncated frame (%zd < %zd)!\n", __func__, copied, size); copied = size; msg->msg_flags |= MSG_TRUNC; } skb_copy_datagram_msg(skb, 0, msg, copied); skb_free_datagram(sk, skb); /* * Check if we have previously stopped IrTTP and we know * have more free space in our rx_queue. If so tell IrTTP * to start delivering frames again before our rx_queue gets * empty */ if (self->rx_flow == FLOW_STOP) { if ((atomic_read(&sk->sk_rmem_alloc) << 2) <= sk->sk_rcvbuf) { pr_debug("%s(), Starting IrTTP\n", __func__); self->rx_flow = FLOW_START; irttp_flow_request(self->tsap, FLOW_START); } } return copied; } /* * Function irda_recvmsg_stream (sock, msg, size, flags) */ static int irda_recvmsg_stream(struct socket *sock, struct msghdr *msg, size_t size, int flags) { struct sock *sk = sock->sk; struct irda_sock *self = irda_sk(sk); int noblock = flags & MSG_DONTWAIT; size_t copied = 0; int target, err; long timeo; if ((err = sock_error(sk)) < 0) return err; if (sock->flags & __SO_ACCEPTCON) return -EINVAL; err =-EOPNOTSUPP; if (flags & MSG_OOB) return -EOPNOTSUPP; err = 0; target = sock_rcvlowat(sk, flags & MSG_WAITALL, size); timeo = sock_rcvtimeo(sk, noblock); do { int chunk; struct sk_buff *skb = skb_dequeue(&sk->sk_receive_queue); if (skb == NULL) { DEFINE_WAIT(wait); err = 0; if (copied >= target) break; prepare_to_wait_exclusive(sk_sleep(sk), &wait, TASK_INTERRUPTIBLE); /* * POSIX 1003.1g mandates this order. */ err = sock_error(sk); if (err) ; else if (sk->sk_shutdown & RCV_SHUTDOWN) ; else if (noblock) err = -EAGAIN; else if (signal_pending(current)) err = sock_intr_errno(timeo); else if (sk->sk_state != TCP_ESTABLISHED) err = -ENOTCONN; else if (skb_peek(&sk->sk_receive_queue) == NULL) /* Wait process until data arrives */ schedule(); finish_wait(sk_sleep(sk), &wait); if (err) return err; if (sk->sk_shutdown & RCV_SHUTDOWN) break; continue; } chunk = min_t(unsigned int, skb->len, size); if (memcpy_to_msg(msg, skb->data, chunk)) { skb_queue_head(&sk->sk_receive_queue, skb); if (copied == 0) copied = -EFAULT; break; } copied += chunk; size -= chunk; /* Mark read part of skb as used */ if (!(flags & MSG_PEEK)) { skb_pull(skb, chunk); /* put the skb back if we didn't use it up.. */ if (skb->len) { pr_debug("%s(), back on q!\n", __func__); skb_queue_head(&sk->sk_receive_queue, skb); break; } kfree_skb(skb); } else { pr_debug("%s() questionable!?\n", __func__); /* put message back and return */ skb_queue_head(&sk->sk_receive_queue, skb); break; } } while (size); /* * Check if we have previously stopped IrTTP and we know * have more free space in our rx_queue. If so tell IrTTP * to start delivering frames again before our rx_queue gets * empty */ if (self->rx_flow == FLOW_STOP) { if ((atomic_read(&sk->sk_rmem_alloc) << 2) <= sk->sk_rcvbuf) { pr_debug("%s(), Starting IrTTP\n", __func__); self->rx_flow = FLOW_START; irttp_flow_request(self->tsap, FLOW_START); } } return copied; } /* * Function irda_sendmsg_dgram (sock, msg, len) * * Send message down to TinyTP for the unreliable sequenced * packet service... * */ static int irda_sendmsg_dgram(struct socket *sock, struct msghdr *msg, size_t len) { struct sock *sk = sock->sk; struct irda_sock *self; struct sk_buff *skb; int err; pr_debug("%s(), len=%zd\n", __func__, len); if (msg->msg_flags & ~(MSG_DONTWAIT|MSG_CMSG_COMPAT)) return -EINVAL; lock_sock(sk); if (sk->sk_shutdown & SEND_SHUTDOWN) { send_sig(SIGPIPE, current, 0); err = -EPIPE; goto out; } err = -ENOTCONN; if (sk->sk_state != TCP_ESTABLISHED) goto out; self = irda_sk(sk); /* * Check that we don't send out too big frames. This is an unreliable * service, so we have no fragmentation and no coalescence */ if (len > self->max_data_size) { pr_debug("%s(), Warning too much data! Chopping frame from %zd to %d bytes!\n", __func__, len, self->max_data_size); len = self->max_data_size; } skb = sock_alloc_send_skb(sk, len + self->max_header_size, msg->msg_flags & MSG_DONTWAIT, &err); err = -ENOBUFS; if (!skb) goto out; skb_reserve(skb, self->max_header_size); skb_reset_transport_header(skb); pr_debug("%s(), appending user data\n", __func__); skb_put(skb, len); err = memcpy_from_msg(skb_transport_header(skb), msg, len); if (err) { kfree_skb(skb); goto out; } /* * Just send the message to TinyTP, and let it deal with possible * errors. No need to duplicate all that here */ err = irttp_udata_request(self->tsap, skb); if (err) { pr_debug("%s(), err=%d\n", __func__, err); goto out; } release_sock(sk); return len; out: release_sock(sk); return err; } /* * Function irda_sendmsg_ultra (sock, msg, len) * * Send message down to IrLMP for the unreliable Ultra * packet service... */ #ifdef CONFIG_IRDA_ULTRA static int irda_sendmsg_ultra(struct socket *sock, struct msghdr *msg, size_t len) { struct sock *sk = sock->sk; struct irda_sock *self; __u8 pid = 0; int bound = 0; struct sk_buff *skb; int err; pr_debug("%s(), len=%zd\n", __func__, len); err = -EINVAL; if (msg->msg_flags & ~(MSG_DONTWAIT|MSG_CMSG_COMPAT)) return -EINVAL; lock_sock(sk); err = -EPIPE; if (sk->sk_shutdown & SEND_SHUTDOWN) { send_sig(SIGPIPE, current, 0); goto out; } self = irda_sk(sk); /* Check if an address was specified with sendto. Jean II */ if (msg->msg_name) { DECLARE_SOCKADDR(struct sockaddr_irda *, addr, msg->msg_name); err = -EINVAL; /* Check address, extract pid. Jean II */ if (msg->msg_namelen < sizeof(*addr)) goto out; if (addr->sir_family != AF_IRDA) goto out; pid = addr->sir_lsap_sel; if (pid & 0x80) { pr_debug("%s(), extension in PID not supp!\n", __func__); err = -EOPNOTSUPP; goto out; } } else { /* Check that the socket is properly bound to an Ultra * port. Jean II */ if ((self->lsap == NULL) || (sk->sk_state != TCP_ESTABLISHED)) { pr_debug("%s(), socket not bound to Ultra PID.\n", __func__); err = -ENOTCONN; goto out; } /* Use PID from socket */ bound = 1; } /* * Check that we don't send out too big frames. This is an unreliable * service, so we have no fragmentation and no coalescence */ if (len > self->max_data_size) { pr_debug("%s(), Warning too much data! Chopping frame from %zd to %d bytes!\n", __func__, len, self->max_data_size); len = self->max_data_size; } skb = sock_alloc_send_skb(sk, len + self->max_header_size, msg->msg_flags & MSG_DONTWAIT, &err); err = -ENOBUFS; if (!skb) goto out; skb_reserve(skb, self->max_header_size); skb_reset_transport_header(skb); pr_debug("%s(), appending user data\n", __func__); skb_put(skb, len); err = memcpy_from_msg(skb_transport_header(skb), msg, len); if (err) { kfree_skb(skb); goto out; } err = irlmp_connless_data_request((bound ? self->lsap : NULL), skb, pid); if (err) pr_debug("%s(), err=%d\n", __func__, err); out: release_sock(sk); return err ? : len; } #endif /* CONFIG_IRDA_ULTRA */ /* * Function irda_shutdown (sk, how) */ static int irda_shutdown(struct socket *sock, int how) { struct sock *sk = sock->sk; struct irda_sock *self = irda_sk(sk); pr_debug("%s(%p)\n", __func__, self); lock_sock(sk); sk->sk_state = TCP_CLOSE; sk->sk_shutdown |= SEND_SHUTDOWN; sk->sk_state_change(sk); if (self->iriap) { iriap_close(self->iriap); self->iriap = NULL; } if (self->tsap) { irttp_disconnect_request(self->tsap, NULL, P_NORMAL); irttp_close_tsap(self->tsap); self->tsap = NULL; } /* A few cleanup so the socket look as good as new... */ self->rx_flow = self->tx_flow = FLOW_START; /* needed ??? */ self->daddr = DEV_ADDR_ANY; /* Until we get re-connected */ self->saddr = 0x0; /* so IrLMP assign us any link */ release_sock(sk); return 0; } /* * Function irda_poll (file, sock, wait) */ static unsigned int irda_poll(struct file * file, struct socket *sock, poll_table *wait) { struct sock *sk = sock->sk; struct irda_sock *self = irda_sk(sk); unsigned int mask; poll_wait(file, sk_sleep(sk), wait); mask = 0; /* Exceptional events? */ if (sk->sk_err) mask |= POLLERR; if (sk->sk_shutdown & RCV_SHUTDOWN) { pr_debug("%s(), POLLHUP\n", __func__); mask |= POLLHUP; } /* Readable? */ if (!skb_queue_empty(&sk->sk_receive_queue)) { pr_debug("Socket is readable\n"); mask |= POLLIN | POLLRDNORM; } /* Connection-based need to check for termination and startup */ switch (sk->sk_type) { case SOCK_STREAM: if (sk->sk_state == TCP_CLOSE) { pr_debug("%s(), POLLHUP\n", __func__); mask |= POLLHUP; } if (sk->sk_state == TCP_ESTABLISHED) { if ((self->tx_flow == FLOW_START) && sock_writeable(sk)) { mask |= POLLOUT | POLLWRNORM | POLLWRBAND; } } break; case SOCK_SEQPACKET: if ((self->tx_flow == FLOW_START) && sock_writeable(sk)) { mask |= POLLOUT | POLLWRNORM | POLLWRBAND; } break; case SOCK_DGRAM: if (sock_writeable(sk)) mask |= POLLOUT | POLLWRNORM | POLLWRBAND; break; default: break; } return mask; } /* * Function irda_ioctl (sock, cmd, arg) */ static int irda_ioctl(struct socket *sock, unsigned int cmd, unsigned long arg) { struct sock *sk = sock->sk; int err; pr_debug("%s(), cmd=%#x\n", __func__, cmd); err = -EINVAL; switch (cmd) { case TIOCOUTQ: { long amount; amount = sk->sk_sndbuf - sk_wmem_alloc_get(sk); if (amount < 0) amount = 0; err = put_user(amount, (unsigned int __user *)arg); break; } case TIOCINQ: { struct sk_buff *skb; long amount = 0L; /* These two are safe on a single CPU system as only user tasks fiddle here */ if ((skb = skb_peek(&sk->sk_receive_queue)) != NULL) amount = skb->len; err = put_user(amount, (unsigned int __user *)arg); break; } case SIOCGSTAMP: if (sk != NULL) err = sock_get_timestamp(sk, (struct timeval __user *)arg); break; case SIOCGIFADDR: case SIOCSIFADDR: case SIOCGIFDSTADDR: case SIOCSIFDSTADDR: case SIOCGIFBRDADDR: case SIOCSIFBRDADDR: case SIOCGIFNETMASK: case SIOCSIFNETMASK: case SIOCGIFMETRIC: case SIOCSIFMETRIC: break; default: pr_debug("%s(), doing device ioctl!\n", __func__); err = -ENOIOCTLCMD; } return err; } #ifdef CONFIG_COMPAT /* * Function irda_ioctl (sock, cmd, arg) */ static int irda_compat_ioctl(struct socket *sock, unsigned int cmd, unsigned long arg) { /* * All IRDA's ioctl are standard ones. */ return -ENOIOCTLCMD; } #endif /* * Function irda_setsockopt (sock, level, optname, optval, optlen) * * Set some options for the socket * */ static int irda_setsockopt(struct socket *sock, int level, int optname, char __user *optval, unsigned int optlen) { struct sock *sk = sock->sk; struct irda_sock *self = irda_sk(sk); struct irda_ias_set *ias_opt; struct ias_object *ias_obj; struct ias_attrib * ias_attr; /* Attribute in IAS object */ int opt, free_ias = 0, err = 0; pr_debug("%s(%p)\n", __func__, self); if (level != SOL_IRLMP) return -ENOPROTOOPT; lock_sock(sk); switch (optname) { case IRLMP_IAS_SET: /* The user want to add an attribute to an existing IAS object * (in the IAS database) or to create a new object with this * attribute. * We first query IAS to know if the object exist, and then * create the right attribute... */ if (optlen != sizeof(struct irda_ias_set)) { err = -EINVAL; goto out; } ias_opt = kmalloc(sizeof(struct irda_ias_set), GFP_ATOMIC); if (ias_opt == NULL) { err = -ENOMEM; goto out; } /* Copy query to the driver. */ if (copy_from_user(ias_opt, optval, optlen)) { kfree(ias_opt); err = -EFAULT; goto out; } /* Find the object we target. * If the user gives us an empty string, we use the object * associated with this socket. This will workaround * duplicated class name - Jean II */ if(ias_opt->irda_class_name[0] == '\0') { if(self->ias_obj == NULL) { kfree(ias_opt); err = -EINVAL; goto out; } ias_obj = self->ias_obj; } else ias_obj = irias_find_object(ias_opt->irda_class_name); /* Only ROOT can mess with the global IAS database. * Users can only add attributes to the object associated * with the socket they own - Jean II */ if((!capable(CAP_NET_ADMIN)) && ((ias_obj == NULL) || (ias_obj != self->ias_obj))) { kfree(ias_opt); err = -EPERM; goto out; } /* If the object doesn't exist, create it */ if(ias_obj == (struct ias_object *) NULL) { /* Create a new object */ ias_obj = irias_new_object(ias_opt->irda_class_name, jiffies); if (ias_obj == NULL) { kfree(ias_opt); err = -ENOMEM; goto out; } free_ias = 1; } /* Do we have the attribute already ? */ if(irias_find_attrib(ias_obj, ias_opt->irda_attrib_name)) { kfree(ias_opt); if (free_ias) { kfree(ias_obj->name); kfree(ias_obj); } err = -EINVAL; goto out; } /* Look at the type */ switch(ias_opt->irda_attrib_type) { case IAS_INTEGER: /* Add an integer attribute */ irias_add_integer_attrib( ias_obj, ias_opt->irda_attrib_name, ias_opt->attribute.irda_attrib_int, IAS_USER_ATTR); break; case IAS_OCT_SEQ: /* Check length */ if(ias_opt->attribute.irda_attrib_octet_seq.len > IAS_MAX_OCTET_STRING) { kfree(ias_opt); if (free_ias) { kfree(ias_obj->name); kfree(ias_obj); } err = -EINVAL; goto out; } /* Add an octet sequence attribute */ irias_add_octseq_attrib( ias_obj, ias_opt->irda_attrib_name, ias_opt->attribute.irda_attrib_octet_seq.octet_seq, ias_opt->attribute.irda_attrib_octet_seq.len, IAS_USER_ATTR); break; case IAS_STRING: /* Should check charset & co */ /* Check length */ /* The length is encoded in a __u8, and * IAS_MAX_STRING == 256, so there is no way * userspace can pass us a string too large. * Jean II */ /* NULL terminate the string (avoid troubles) */ ias_opt->attribute.irda_attrib_string.string[ias_opt->attribute.irda_attrib_string.len] = '\0'; /* Add a string attribute */ irias_add_string_attrib( ias_obj, ias_opt->irda_attrib_name, ias_opt->attribute.irda_attrib_string.string, IAS_USER_ATTR); break; default : kfree(ias_opt); if (free_ias) { kfree(ias_obj->name); kfree(ias_obj); } err = -EINVAL; goto out; } irias_insert_object(ias_obj); kfree(ias_opt); break; case IRLMP_IAS_DEL: /* The user want to delete an object from our local IAS * database. We just need to query the IAS, check is the * object is not owned by the kernel and delete it. */ if (optlen != sizeof(struct irda_ias_set)) { err = -EINVAL; goto out; } ias_opt = kmalloc(sizeof(struct irda_ias_set), GFP_ATOMIC); if (ias_opt == NULL) { err = -ENOMEM; goto out; } /* Copy query to the driver. */ if (copy_from_user(ias_opt, optval, optlen)) { kfree(ias_opt); err = -EFAULT; goto out; } /* Find the object we target. * If the user gives us an empty string, we use the object * associated with this socket. This will workaround * duplicated class name - Jean II */ if(ias_opt->irda_class_name[0] == '\0') ias_obj = self->ias_obj; else ias_obj = irias_find_object(ias_opt->irda_class_name); if(ias_obj == (struct ias_object *) NULL) { kfree(ias_opt); err = -EINVAL; goto out; } /* Only ROOT can mess with the global IAS database. * Users can only del attributes from the object associated * with the socket they own - Jean II */ if((!capable(CAP_NET_ADMIN)) && ((ias_obj == NULL) || (ias_obj != self->ias_obj))) { kfree(ias_opt); err = -EPERM; goto out; } /* Find the attribute (in the object) we target */ ias_attr = irias_find_attrib(ias_obj, ias_opt->irda_attrib_name); if(ias_attr == (struct ias_attrib *) NULL) { kfree(ias_opt); err = -EINVAL; goto out; } /* Check is the user space own the object */ if(ias_attr->value->owner != IAS_USER_ATTR) { pr_debug("%s(), attempting to delete a kernel attribute\n", __func__); kfree(ias_opt); err = -EPERM; goto out; } /* Remove the attribute (and maybe the object) */ irias_delete_attrib(ias_obj, ias_attr, 1); kfree(ias_opt); break; case IRLMP_MAX_SDU_SIZE: if (optlen < sizeof(int)) { err = -EINVAL; goto out; } if (get_user(opt, (int __user *)optval)) { err = -EFAULT; goto out; } /* Only possible for a seqpacket service (TTP with SAR) */ if (sk->sk_type != SOCK_SEQPACKET) { pr_debug("%s(), setting max_sdu_size = %d\n", __func__, opt); self->max_sdu_size_rx = opt; } else { net_warn_ratelimited("%s: not allowed to set MAXSDUSIZE for this socket type!\n", __func__); err = -ENOPROTOOPT; goto out; } break; case IRLMP_HINTS_SET: if (optlen < sizeof(int)) { err = -EINVAL; goto out; } /* The input is really a (__u8 hints[2]), easier as an int */ if (get_user(opt, (int __user *)optval)) { err = -EFAULT; goto out; } /* Unregister any old registration */ irlmp_unregister_service(self->skey); self->skey = irlmp_register_service((__u16) opt); break; case IRLMP_HINT_MASK_SET: /* As opposed to the previous case which set the hint bits * that we advertise, this one set the filter we use when * making a discovery (nodes which don't match any hint * bit in the mask are not reported). */ if (optlen < sizeof(int)) { err = -EINVAL; goto out; } /* The input is really a (__u8 hints[2]), easier as an int */ if (get_user(opt, (int __user *)optval)) { err = -EFAULT; goto out; } /* Set the new hint mask */ self->mask.word = (__u16) opt; /* Mask out extension bits */ self->mask.word &= 0x7f7f; /* Check if no bits */ if(!self->mask.word) self->mask.word = 0xFFFF; break; default: err = -ENOPROTOOPT; break; } out: release_sock(sk); return err; } /* * Function irda_extract_ias_value(ias_opt, ias_value) * * Translate internal IAS value structure to the user space representation * * The external representation of IAS values, as we exchange them with * user space program is quite different from the internal representation, * as stored in the IAS database (because we need a flat structure for * crossing kernel boundary). * This function transform the former in the latter. We also check * that the value type is valid. */ static int irda_extract_ias_value(struct irda_ias_set *ias_opt, struct ias_value *ias_value) { /* Look at the type */ switch (ias_value->type) { case IAS_INTEGER: /* Copy the integer */ ias_opt->attribute.irda_attrib_int = ias_value->t.integer; break; case IAS_OCT_SEQ: /* Set length */ ias_opt->attribute.irda_attrib_octet_seq.len = ias_value->len; /* Copy over */ memcpy(ias_opt->attribute.irda_attrib_octet_seq.octet_seq, ias_value->t.oct_seq, ias_value->len); break; case IAS_STRING: /* Set length */ ias_opt->attribute.irda_attrib_string.len = ias_value->len; ias_opt->attribute.irda_attrib_string.charset = ias_value->charset; /* Copy over */ memcpy(ias_opt->attribute.irda_attrib_string.string, ias_value->t.string, ias_value->len); /* NULL terminate the string (avoid troubles) */ ias_opt->attribute.irda_attrib_string.string[ias_value->len] = '\0'; break; case IAS_MISSING: default : return -EINVAL; } /* Copy type over */ ias_opt->irda_attrib_type = ias_value->type; return 0; } /* * Function irda_getsockopt (sock, level, optname, optval, optlen) */ static int irda_getsockopt(struct socket *sock, int level, int optname, char __user *optval, int __user *optlen) { struct sock *sk = sock->sk; struct irda_sock *self = irda_sk(sk); struct irda_device_list list; struct irda_device_info *discoveries; struct irda_ias_set * ias_opt; /* IAS get/query params */ struct ias_object * ias_obj; /* Object in IAS */ struct ias_attrib * ias_attr; /* Attribute in IAS object */ int daddr = DEV_ADDR_ANY; /* Dest address for IAS queries */ int val = 0; int len = 0; int err = 0; int offset, total; pr_debug("%s(%p)\n", __func__, self); if (level != SOL_IRLMP) return -ENOPROTOOPT; if (get_user(len, optlen)) return -EFAULT; if(len < 0) return -EINVAL; lock_sock(sk); switch (optname) { case IRLMP_ENUMDEVICES: /* Offset to first device entry */ offset = sizeof(struct irda_device_list) - sizeof(struct irda_device_info); if (len < offset) { err = -EINVAL; goto out; } /* Ask lmp for the current discovery log */ discoveries = irlmp_get_discoveries(&list.len, self->mask.word, self->nslots); /* Check if the we got some results */ if (discoveries == NULL) { err = -EAGAIN; goto out; /* Didn't find any devices */ } /* Write total list length back to client */ if (copy_to_user(optval, &list, offset)) err = -EFAULT; /* Copy the list itself - watch for overflow */ if (list.len > 2048) { err = -EINVAL; goto bed; } total = offset + (list.len * sizeof(struct irda_device_info)); if (total > len) total = len; if (copy_to_user(optval+offset, discoveries, total - offset)) err = -EFAULT; /* Write total number of bytes used back to client */ if (put_user(total, optlen)) err = -EFAULT; bed: /* Free up our buffer */ kfree(discoveries); break; case IRLMP_MAX_SDU_SIZE: val = self->max_data_size; len = sizeof(int); if (put_user(len, optlen)) { err = -EFAULT; goto out; } if (copy_to_user(optval, &val, len)) { err = -EFAULT; goto out; } break; case IRLMP_IAS_GET: /* The user want an object from our local IAS database. * We just need to query the IAS and return the value * that we found */ /* Check that the user has allocated the right space for us */ if (len != sizeof(struct irda_ias_set)) { err = -EINVAL; goto out; } ias_opt = kmalloc(sizeof(struct irda_ias_set), GFP_ATOMIC); if (ias_opt == NULL) { err = -ENOMEM; goto out; } /* Copy query to the driver. */ if (copy_from_user(ias_opt, optval, len)) { kfree(ias_opt); err = -EFAULT; goto out; } /* Find the object we target. * If the user gives us an empty string, we use the object * associated with this socket. This will workaround * duplicated class name - Jean II */ if(ias_opt->irda_class_name[0] == '\0') ias_obj = self->ias_obj; else ias_obj = irias_find_object(ias_opt->irda_class_name); if(ias_obj == (struct ias_object *) NULL) { kfree(ias_opt); err = -EINVAL; goto out; } /* Find the attribute (in the object) we target */ ias_attr = irias_find_attrib(ias_obj, ias_opt->irda_attrib_name); if(ias_attr == (struct ias_attrib *) NULL) { kfree(ias_opt); err = -EINVAL; goto out; } /* Translate from internal to user structure */ err = irda_extract_ias_value(ias_opt, ias_attr->value); if(err) { kfree(ias_opt); goto out; } /* Copy reply to the user */ if (copy_to_user(optval, ias_opt, sizeof(struct irda_ias_set))) { kfree(ias_opt); err = -EFAULT; goto out; } /* Note : don't need to put optlen, we checked it */ kfree(ias_opt); break; case IRLMP_IAS_QUERY: /* The user want an object from a remote IAS database. * We need to use IAP to query the remote database and * then wait for the answer to come back. */ /* Check that the user has allocated the right space for us */ if (len != sizeof(struct irda_ias_set)) { err = -EINVAL; goto out; } ias_opt = kmalloc(sizeof(struct irda_ias_set), GFP_ATOMIC); if (ias_opt == NULL) { err = -ENOMEM; goto out; } /* Copy query to the driver. */ if (copy_from_user(ias_opt, optval, len)) { kfree(ias_opt); err = -EFAULT; goto out; } /* At this point, there are two cases... * 1) the socket is connected - that's the easy case, we * just query the device we are connected to... * 2) the socket is not connected - the user doesn't want * to connect and/or may not have a valid service name * (so can't create a fake connection). In this case, * we assume that the user pass us a valid destination * address in the requesting structure... */ if(self->daddr != DEV_ADDR_ANY) { /* We are connected - reuse known daddr */ daddr = self->daddr; } else { /* We are not connected, we must specify a valid * destination address */ daddr = ias_opt->daddr; if((!daddr) || (daddr == DEV_ADDR_ANY)) { kfree(ias_opt); err = -EINVAL; goto out; } } /* Check that we can proceed with IAP */ if (self->iriap) { net_warn_ratelimited("%s: busy with a previous query\n", __func__); kfree(ias_opt); err = -EBUSY; goto out; } self->iriap = iriap_open(LSAP_ANY, IAS_CLIENT, self, irda_getvalue_confirm); if (self->iriap == NULL) { kfree(ias_opt); err = -ENOMEM; goto out; } /* Treat unexpected wakeup as disconnect */ self->errno = -EHOSTUNREACH; /* Query remote LM-IAS */ iriap_getvaluebyclass_request(self->iriap, self->saddr, daddr, ias_opt->irda_class_name, ias_opt->irda_attrib_name); /* Wait for answer, if not yet finished (or failed) */ if (wait_event_interruptible(self->query_wait, (self->iriap == NULL))) { /* pending request uses copy of ias_opt-content * we can free it regardless! */ kfree(ias_opt); /* Treat signals as disconnect */ err = -EHOSTUNREACH; goto out; } /* Check what happened */ if (self->errno) { kfree(ias_opt); /* Requested object/attribute doesn't exist */ if((self->errno == IAS_CLASS_UNKNOWN) || (self->errno == IAS_ATTRIB_UNKNOWN)) err = -EADDRNOTAVAIL; else err = -EHOSTUNREACH; goto out; } /* Translate from internal to user structure */ err = irda_extract_ias_value(ias_opt, self->ias_result); if (self->ias_result) irias_delete_value(self->ias_result); if (err) { kfree(ias_opt); goto out; } /* Copy reply to the user */ if (copy_to_user(optval, ias_opt, sizeof(struct irda_ias_set))) { kfree(ias_opt); err = -EFAULT; goto out; } /* Note : don't need to put optlen, we checked it */ kfree(ias_opt); break; case IRLMP_WAITDEVICE: /* This function is just another way of seeing life ;-) * IRLMP_ENUMDEVICES assumes that you have a static network, * and that you just want to pick one of the devices present. * On the other hand, in here we assume that no device is * present and that at some point in the future a device will * come into range. When this device arrive, we just wake * up the caller, so that he has time to connect to it before * the device goes away... * Note : once the node has been discovered for more than a * few second, it won't trigger this function, unless it * goes away and come back changes its hint bits (so we * might call it IRLMP_WAITNEWDEVICE). */ /* Check that the user is passing us an int */ if (len != sizeof(int)) { err = -EINVAL; goto out; } /* Get timeout in ms (max time we block the caller) */ if (get_user(val, (int __user *)optval)) { err = -EFAULT; goto out; } /* Tell IrLMP we want to be notified */ irlmp_update_client(self->ckey, self->mask.word, irda_selective_discovery_indication, NULL, (void *) self); /* Do some discovery (and also return cached results) */ irlmp_discovery_request(self->nslots); /* Wait until a node is discovered */ if (!self->cachedaddr) { pr_debug("%s(), nothing discovered yet, going to sleep...\n", __func__); /* Set watchdog timer to expire in <val> ms. */ self->errno = 0; setup_timer(&self->watchdog, irda_discovery_timeout, (unsigned long)self); mod_timer(&self->watchdog, jiffies + msecs_to_jiffies(val)); /* Wait for IR-LMP to call us back */ err = __wait_event_interruptible(self->query_wait, (self->cachedaddr != 0 || self->errno == -ETIME)); /* If watchdog is still activated, kill it! */ del_timer(&(self->watchdog)); pr_debug("%s(), ...waking up !\n", __func__); if (err != 0) goto out; } else pr_debug("%s(), found immediately !\n", __func__); /* Tell IrLMP that we have been notified */ irlmp_update_client(self->ckey, self->mask.word, NULL, NULL, NULL); /* Check if the we got some results */ if (!self->cachedaddr) { err = -EAGAIN; /* Didn't find any devices */ goto out; } daddr = self->cachedaddr; /* Cleanup */ self->cachedaddr = 0; /* We return the daddr of the device that trigger the * wakeup. As irlmp pass us only the new devices, we * are sure that it's not an old device. * If the user want more details, he should query * the whole discovery log and pick one device... */ if (put_user(daddr, (int __user *)optval)) { err = -EFAULT; goto out; } break; default: err = -ENOPROTOOPT; } out: release_sock(sk); return err; } static const struct net_proto_family irda_family_ops = { .family = PF_IRDA, .create = irda_create, .owner = THIS_MODULE, }; static const struct proto_ops irda_stream_ops = { .family = PF_IRDA, .owner = THIS_MODULE, .release = irda_release, .bind = irda_bind, .connect = irda_connect, .socketpair = sock_no_socketpair, .accept = irda_accept, .getname = irda_getname, .poll = irda_poll, .ioctl = irda_ioctl, #ifdef CONFIG_COMPAT .compat_ioctl = irda_compat_ioctl, #endif .listen = irda_listen, .shutdown = irda_shutdown, .setsockopt = irda_setsockopt, .getsockopt = irda_getsockopt, .sendmsg = irda_sendmsg, .recvmsg = irda_recvmsg_stream, .mmap = sock_no_mmap, .sendpage = sock_no_sendpage, }; static const struct proto_ops irda_seqpacket_ops = { .family = PF_IRDA, .owner = THIS_MODULE, .release = irda_release, .bind = irda_bind, .connect = irda_connect, .socketpair = sock_no_socketpair, .accept = irda_accept, .getname = irda_getname, .poll = datagram_poll, .ioctl = irda_ioctl, #ifdef CONFIG_COMPAT .compat_ioctl = irda_compat_ioctl, #endif .listen = irda_listen, .shutdown = irda_shutdown, .setsockopt = irda_setsockopt, .getsockopt = irda_getsockopt, .sendmsg = irda_sendmsg, .recvmsg = irda_recvmsg_dgram, .mmap = sock_no_mmap, .sendpage = sock_no_sendpage, }; static const struct proto_ops irda_dgram_ops = { .family = PF_IRDA, .owner = THIS_MODULE, .release = irda_release, .bind = irda_bind, .connect = irda_connect, .socketpair = sock_no_socketpair, .accept = irda_accept, .getname = irda_getname, .poll = datagram_poll, .ioctl = irda_ioctl, #ifdef CONFIG_COMPAT .compat_ioctl = irda_compat_ioctl, #endif .listen = irda_listen, .shutdown = irda_shutdown, .setsockopt = irda_setsockopt, .getsockopt = irda_getsockopt, .sendmsg = irda_sendmsg_dgram, .recvmsg = irda_recvmsg_dgram, .mmap = sock_no_mmap, .sendpage = sock_no_sendpage, }; #ifdef CONFIG_IRDA_ULTRA static const struct proto_ops irda_ultra_ops = { .family = PF_IRDA, .owner = THIS_MODULE, .release = irda_release, .bind = irda_bind, .connect = sock_no_connect, .socketpair = sock_no_socketpair, .accept = sock_no_accept, .getname = irda_getname, .poll = datagram_poll, .ioctl = irda_ioctl, #ifdef CONFIG_COMPAT .compat_ioctl = irda_compat_ioctl, #endif .listen = sock_no_listen, .shutdown = irda_shutdown, .setsockopt = irda_setsockopt, .getsockopt = irda_getsockopt, .sendmsg = irda_sendmsg_ultra, .recvmsg = irda_recvmsg_dgram, .mmap = sock_no_mmap, .sendpage = sock_no_sendpage, }; #endif /* CONFIG_IRDA_ULTRA */ /* * Function irsock_init (pro) * * Initialize IrDA protocol * */ int __init irsock_init(void) { int rc = proto_register(&irda_proto, 0); if (rc == 0) rc = sock_register(&irda_family_ops); return rc; } /* * Function irsock_cleanup (void) * * Remove IrDA protocol * */ void irsock_cleanup(void) { sock_unregister(PF_IRDA); proto_unregister(&irda_proto); } |