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1622 1623 1624 1625 1626 1627 1628 1629 1630 1631 1632 1633 1634 1635 1636 1637 1638 1639 1640 1641 1642 1643 1644 1645 1646 1647 1648 1649 1650 1651 1652 1653 1654 1655 1656 1657 1658 1659 1660 1661 1662 1663 1664 1665 1666 1667 1668 1669 1670 1671 1672 1673 1674 1675 1676 1677 1678 1679 1680 1681 1682 1683 1684 1685 1686 1687 1688 1689 1690 1691 1692 1693 1694 1695 1696 1697 1698 1699 1700 1701 1702 1703 1704 1705 1706 1707 1708 1709 1710 1711 1712 1713 1714 1715 1716 1717 1718 1719 1720 1721 1722 1723 1724 1725 1726 1727 1728 1729 1730 1731 1732 1733 1734 1735 1736 1737 1738 1739 1740 1741 1742 1743 1744 1745 1746 1747 1748 1749 1750 1751 1752 1753 1754 1755 1756 1757 | /* * NET An implementation of the SOCKET network access protocol. * * Version: @(#)socket.c 1.1.93 18/02/95 * * Authors: Orest Zborowski, <obz@Kodak.COM> * Ross Biro, <bir7@leland.Stanford.Edu> * Fred N. van Kempen, <waltje@uWalt.NL.Mugnet.ORG> * * Fixes: * Anonymous : NOTSOCK/BADF cleanup. Error fix in * shutdown() * Alan Cox : verify_area() fixes * Alan Cox : Removed DDI * Jonathan Kamens : SOCK_DGRAM reconnect bug * Alan Cox : Moved a load of checks to the very * top level. * Alan Cox : Move address structures to/from user * mode above the protocol layers. * Rob Janssen : Allow 0 length sends. * Alan Cox : Asynchronous I/O support (cribbed from the * tty drivers). * Niibe Yutaka : Asynchronous I/O for writes (4.4BSD style) * Jeff Uphoff : Made max number of sockets command-line * configurable. * Matti Aarnio : Made the number of sockets dynamic, * to be allocated when needed, and mr. * Uphoff's max is used as max to be * allowed to allocate. * Linus : Argh. removed all the socket allocation * altogether: it's in the inode now. * Alan Cox : Made sock_alloc()/sock_release() public * for NetROM and future kernel nfsd type * stuff. * Alan Cox : sendmsg/recvmsg basics. * Tom Dyas : Export net symbols. * Marcin Dalecki : Fixed problems with CONFIG_NET="n". * Alan Cox : Added thread locking to sys_* calls * for sockets. May have errors at the * moment. * Kevin Buhr : Fixed the dumb errors in the above. * Andi Kleen : Some small cleanups, optimizations, * and fixed a copy_from_user() bug. * Tigran Aivazian : sys_send(args) calls sys_sendto(args, NULL, 0) * Tigran Aivazian : Made listen(2) backlog sanity checks * protocol-independent * * * 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 module is effectively the top level interface to the BSD socket * paradigm. * */ #include <linux/config.h> #include <linux/mm.h> #include <linux/smp_lock.h> #include <linux/socket.h> #include <linux/file.h> #include <linux/net.h> #include <linux/interrupt.h> #include <linux/netdevice.h> #include <linux/proc_fs.h> #include <linux/wanrouter.h> #include <linux/init.h> #include <linux/poll.h> #include <linux/cache.h> #include <linux/module.h> #include <linux/highmem.h> #if defined(CONFIG_KMOD) && defined(CONFIG_NET) #include <linux/kmod.h> #endif #include <asm/uaccess.h> #include <linux/inet.h> #include <net/ip.h> #include <net/sock.h> #include <net/tcp.h> #include <net/udp.h> #include <net/scm.h> #include <linux/netfilter.h> static int sock_no_open(struct inode *irrelevant, struct file *dontcare); static loff_t sock_lseek(struct file *file, loff_t offset, int whence); static ssize_t sock_read(struct file *file, char *buf, size_t size, loff_t *ppos); static ssize_t sock_write(struct file *file, const char *buf, size_t size, loff_t *ppos); static int sock_mmap(struct file *file, struct vm_area_struct * vma); static int sock_close(struct inode *inode, struct file *file); static unsigned int sock_poll(struct file *file, struct poll_table_struct *wait); static int sock_ioctl(struct inode *inode, struct file *file, unsigned int cmd, unsigned long arg); static int sock_fasync(int fd, struct file *filp, int on); static ssize_t sock_readv(struct file *file, const struct iovec *vector, unsigned long count, loff_t *ppos); static ssize_t sock_writev(struct file *file, const struct iovec *vector, unsigned long count, loff_t *ppos); static ssize_t sock_sendpage(struct file *file, struct page *page, int offset, size_t size, loff_t *ppos, int more); /* * Socket files have a set of 'special' operations as well as the generic file ones. These don't appear * in the operation structures but are done directly via the socketcall() multiplexor. */ static struct file_operations socket_file_ops = { llseek: sock_lseek, read: sock_read, write: sock_write, poll: sock_poll, ioctl: sock_ioctl, mmap: sock_mmap, open: sock_no_open, /* special open code to disallow open via /proc */ release: sock_close, fasync: sock_fasync, readv: sock_readv, writev: sock_writev, sendpage: sock_sendpage }; /* * The protocol list. Each protocol is registered in here. */ static struct net_proto_family *net_families[NPROTO]; #ifdef CONFIG_SMP static atomic_t net_family_lockct = ATOMIC_INIT(0); static spinlock_t net_family_lock = SPIN_LOCK_UNLOCKED; /* The strategy is: modifications net_family vector are short, do not sleep and veeery rare, but read access should be free of any exclusive locks. */ static void net_family_write_lock(void) { spin_lock(&net_family_lock); while (atomic_read(&net_family_lockct) != 0) { spin_unlock(&net_family_lock); current->policy |= SCHED_YIELD; schedule(); spin_lock(&net_family_lock); } } static __inline__ void net_family_write_unlock(void) { spin_unlock(&net_family_lock); } static __inline__ void net_family_read_lock(void) { atomic_inc(&net_family_lockct); spin_unlock_wait(&net_family_lock); } static __inline__ void net_family_read_unlock(void) { atomic_dec(&net_family_lockct); } #else #define net_family_write_lock() do { } while(0) #define net_family_write_unlock() do { } while(0) #define net_family_read_lock() do { } while(0) #define net_family_read_unlock() do { } while(0) #endif /* * Statistics counters of the socket lists */ static union { int counter; char __pad[SMP_CACHE_BYTES]; } sockets_in_use[NR_CPUS] __cacheline_aligned = {{0}}; /* * Support routines. Move socket addresses back and forth across the kernel/user * divide and look after the messy bits. */ #define MAX_SOCK_ADDR 128 /* 108 for Unix domain - 16 for IP, 16 for IPX, 24 for IPv6, about 80 for AX.25 must be at least one bigger than the AF_UNIX size (see net/unix/af_unix.c :unix_mkname()). */ /** * move_addr_to_kernel - copy a socket address into kernel space * @uaddr: Address in user space * @kaddr: Address in kernel space * @ulen: Length in user space * * The address is copied into kernel space. If the provided address is * too long an error code of -EINVAL is returned. If the copy gives * invalid addresses -EFAULT is returned. On a success 0 is returned. */ int move_addr_to_kernel(void *uaddr, int ulen, void *kaddr) { if(ulen<0||ulen>MAX_SOCK_ADDR) return -EINVAL; if(ulen==0) return 0; if(copy_from_user(kaddr,uaddr,ulen)) return -EFAULT; return 0; } /** * move_addr_to_user - copy an address to user space * @kaddr: kernel space address * @klen: length of address in kernel * @uaddr: user space address * @ulen: pointer to user length field * * The value pointed to by ulen on entry is the buffer length available. * This is overwritten with the buffer space used. -EINVAL is returned * if an overlong buffer is specified or a negative buffer size. -EFAULT * is returned if either the buffer or the length field are not * accessible. * After copying the data up to the limit the user specifies, the true * length of the data is written over the length limit the user * specified. Zero is returned for a success. */ int move_addr_to_user(void *kaddr, int klen, void *uaddr, int *ulen) { int err; int len; if((err=get_user(len, ulen))) return err; if(len>klen) len=klen; if(len<0 || len> MAX_SOCK_ADDR) return -EINVAL; if(len) { if(copy_to_user(uaddr,kaddr,len)) return -EFAULT; } /* * "fromlen shall refer to the value before truncation.." * 1003.1g */ return __put_user(klen, ulen); } #define SOCKFS_MAGIC 0x534F434B static int sockfs_statfs(struct super_block *sb, struct statfs *buf) { buf->f_type = SOCKFS_MAGIC; buf->f_bsize = 1024; buf->f_namelen = 255; return 0; } static struct super_operations sockfs_ops = { statfs: sockfs_statfs, }; static struct super_block * sockfs_read_super(struct super_block *sb, void *data, int silent) { struct inode *root = new_inode(sb); if (!root) return NULL; root->i_mode = S_IFDIR | S_IRUSR | S_IWUSR; root->i_uid = root->i_gid = 0; root->i_atime = root->i_mtime = root->i_ctime = CURRENT_TIME; sb->s_blocksize = 1024; sb->s_blocksize_bits = 10; sb->s_magic = SOCKFS_MAGIC; sb->s_op = &sockfs_ops; sb->s_root = d_alloc(NULL, &(const struct qstr) { "socket:", 7, 0 }); if (!sb->s_root) { iput(root); return NULL; } sb->s_root->d_sb = sb; sb->s_root->d_parent = sb->s_root; d_instantiate(sb->s_root, root); return sb; } static struct vfsmount *sock_mnt; static DECLARE_FSTYPE(sock_fs_type, "sockfs", sockfs_read_super, FS_NOMOUNT|FS_SINGLE); static int sockfs_delete_dentry(struct dentry *dentry) { return 1; } static struct dentry_operations sockfs_dentry_operations = { d_delete: sockfs_delete_dentry, }; /* * Obtains the first available file descriptor and sets it up for use. * * This functions creates file structure and maps it to fd space * of current process. On success it returns file descriptor * and file struct implicitly stored in sock->file. * Note that another thread may close file descriptor before we return * from this function. We use the fact that now we do not refer * to socket after mapping. If one day we will need it, this * function will inincrement ref. count on file by 1. * * In any case returned fd MAY BE not valid! * This race condition is inavoidable * with shared fd spaces, we cannot solve is inside kernel, * but we take care of internal coherence yet. */ static int sock_map_fd(struct socket *sock) { int fd; struct qstr this; char name[32]; /* * Find a file descriptor suitable for return to the user. */ fd = get_unused_fd(); if (fd >= 0) { struct file *file = get_empty_filp(); if (!file) { put_unused_fd(fd); fd = -ENFILE; goto out; } sprintf(name, "[%lu]", sock->inode->i_ino); this.name = name; this.len = strlen(name); this.hash = sock->inode->i_ino; file->f_dentry = d_alloc(sock_mnt->mnt_sb->s_root, &this); if (!file->f_dentry) { put_filp(file); put_unused_fd(fd); fd = -ENOMEM; goto out; } file->f_dentry->d_op = &sockfs_dentry_operations; d_add(file->f_dentry, sock->inode); file->f_vfsmnt = mntget(sock_mnt); sock->file = file; file->f_op = sock->inode->i_fop = &socket_file_ops; file->f_mode = 3; file->f_flags = O_RDWR; file->f_pos = 0; fd_install(fd, file); } out: return fd; } extern __inline__ struct socket *socki_lookup(struct inode *inode) { return &inode->u.socket_i; } /** * sockfd_lookup - Go from a file number to its socket slot * @fd: file handle * @err: pointer to an error code return * * The file handle passed in is locked and the socket it is bound * too is returned. If an error occurs the err pointer is overwritten * with a negative errno code and NULL is returned. The function checks * for both invalid handles and passing a handle which is not a socket. * * On a success the socket object pointer is returned. */ struct socket *sockfd_lookup(int fd, int *err) { struct file *file; struct inode *inode; struct socket *sock; if (!(file = fget(fd))) { *err = -EBADF; return NULL; } inode = file->f_dentry->d_inode; if (!inode->i_sock || !(sock = socki_lookup(inode))) { *err = -ENOTSOCK; fput(file); return NULL; } if (sock->file != file) { printk(KERN_ERR "socki_lookup: socket file changed!\n"); sock->file = file; } return sock; } extern __inline__ void sockfd_put(struct socket *sock) { fput(sock->file); } /** * sock_alloc - allocate a socket * * Allocate a new inode and socket object. The two are bound together * and initialised. The socket is then returned. If we are out of inodes * NULL is returned. */ struct socket *sock_alloc(void) { struct inode * inode; struct socket * sock; inode = get_empty_inode(); if (!inode) return NULL; inode->i_sb = sock_mnt->mnt_sb; sock = socki_lookup(inode); inode->i_mode = S_IFSOCK|S_IRWXUGO; inode->i_sock = 1; inode->i_uid = current->fsuid; inode->i_gid = current->fsgid; sock->inode = inode; init_waitqueue_head(&sock->wait); sock->fasync_list = NULL; sock->state = SS_UNCONNECTED; sock->flags = 0; sock->ops = NULL; sock->sk = NULL; sock->file = NULL; sockets_in_use[smp_processor_id()].counter++; return sock; } /* * In theory you can't get an open on this inode, but /proc provides * a back door. Remember to keep it shut otherwise you'll let the * creepy crawlies in. */ static int sock_no_open(struct inode *irrelevant, struct file *dontcare) { return -ENXIO; } /** * sock_release - close a socket * @sock: socket to close * * The socket is released from the protocol stack if it has a release * callback, and the inode is then released if the socket is bound to * an inode not a file. */ void sock_release(struct socket *sock) { if (sock->ops) sock->ops->release(sock); if (sock->fasync_list) printk(KERN_ERR "sock_release: fasync list not empty!\n"); sockets_in_use[smp_processor_id()].counter--; if (!sock->file) { iput(sock->inode); return; } sock->file=NULL; } int sock_sendmsg(struct socket *sock, struct msghdr *msg, int size) { int err; struct scm_cookie scm; err = scm_send(sock, msg, &scm); if (err >= 0) { err = sock->ops->sendmsg(sock, msg, size, &scm); scm_destroy(&scm); } return err; } int sock_recvmsg(struct socket *sock, struct msghdr *msg, int size, int flags) { struct scm_cookie scm; memset(&scm, 0, sizeof(scm)); size = sock->ops->recvmsg(sock, msg, size, flags, &scm); if (size >= 0) scm_recv(sock, msg, &scm, flags); return size; } /* * Sockets are not seekable. */ static loff_t sock_lseek(struct file *file, loff_t offset, int whence) { return -ESPIPE; } /* * Read data from a socket. ubuf is a user mode pointer. We make sure the user * area ubuf...ubuf+size-1 is writable before asking the protocol. */ static ssize_t sock_read(struct file *file, char *ubuf, size_t size, loff_t *ppos) { struct socket *sock; struct iovec iov; struct msghdr msg; int flags; if (ppos != &file->f_pos) return -ESPIPE; if (size==0) /* Match SYS5 behaviour */ return 0; sock = socki_lookup(file->f_dentry->d_inode); msg.msg_name=NULL; msg.msg_namelen=0; msg.msg_iov=&iov; msg.msg_iovlen=1; msg.msg_control=NULL; msg.msg_controllen=0; iov.iov_base=ubuf; iov.iov_len=size; flags = !(file->f_flags & O_NONBLOCK) ? 0 : MSG_DONTWAIT; return sock_recvmsg(sock, &msg, size, flags); } /* * Write data to a socket. We verify that the user area ubuf..ubuf+size-1 * is readable by the user process. */ static ssize_t sock_write(struct file *file, const char *ubuf, size_t size, loff_t *ppos) { struct socket *sock; struct msghdr msg; struct iovec iov; if (ppos != &file->f_pos) return -ESPIPE; if(size==0) /* Match SYS5 behaviour */ return 0; sock = socki_lookup(file->f_dentry->d_inode); msg.msg_name=NULL; msg.msg_namelen=0; msg.msg_iov=&iov; msg.msg_iovlen=1; msg.msg_control=NULL; msg.msg_controllen=0; msg.msg_flags=!(file->f_flags & O_NONBLOCK) ? 0 : MSG_DONTWAIT; if (sock->type == SOCK_SEQPACKET) msg.msg_flags |= MSG_EOR; iov.iov_base=(void *)ubuf; iov.iov_len=size; return sock_sendmsg(sock, &msg, size); } ssize_t sock_sendpage(struct file *file, struct page *page, int offset, size_t size, loff_t *ppos, int more) { struct socket *sock; int flags; if (ppos != &file->f_pos) return -ESPIPE; sock = socki_lookup(file->f_dentry->d_inode); flags = !(file->f_flags & O_NONBLOCK) ? 0 : MSG_DONTWAIT; if (more) flags |= MSG_MORE; return sock->ops->sendpage(sock, page, offset, size, flags); } int sock_readv_writev(int type, struct inode * inode, struct file * file, const struct iovec * iov, long count, long size) { struct msghdr msg; struct socket *sock; sock = socki_lookup(inode); msg.msg_name = NULL; msg.msg_namelen = 0; msg.msg_control = NULL; msg.msg_controllen = 0; msg.msg_iov = (struct iovec *) iov; msg.msg_iovlen = count; msg.msg_flags = (file->f_flags & O_NONBLOCK) ? MSG_DONTWAIT : 0; /* read() does a VERIFY_WRITE */ if (type == VERIFY_WRITE) return sock_recvmsg(sock, &msg, size, msg.msg_flags); if (sock->type == SOCK_SEQPACKET) msg.msg_flags |= MSG_EOR; return sock_sendmsg(sock, &msg, size); } static ssize_t sock_readv(struct file *file, const struct iovec *vector, unsigned long count, loff_t *ppos) { size_t tot_len = 0; int i; for (i = 0 ; i < count ; i++) tot_len += vector[i].iov_len; return sock_readv_writev(VERIFY_WRITE, file->f_dentry->d_inode, file, vector, count, tot_len); } static ssize_t sock_writev(struct file *file, const struct iovec *vector, unsigned long count, loff_t *ppos) { size_t tot_len = 0; int i; for (i = 0 ; i < count ; i++) tot_len += vector[i].iov_len; return sock_readv_writev(VERIFY_READ, file->f_dentry->d_inode, file, vector, count, tot_len); } /* * With an ioctl arg may well be a user mode pointer, but we don't know what to do * with it - that's up to the protocol still. */ int sock_ioctl(struct inode *inode, struct file *file, unsigned int cmd, unsigned long arg) { struct socket *sock; int err; unlock_kernel(); sock = socki_lookup(inode); err = sock->ops->ioctl(sock, cmd, arg); lock_kernel(); return err; } /* No kernel lock held - perfect */ static unsigned int sock_poll(struct file *file, poll_table * wait) { struct socket *sock; /* * We can't return errors to poll, so it's either yes or no. */ sock = socki_lookup(file->f_dentry->d_inode); return sock->ops->poll(file, sock, wait); } static int sock_mmap(struct file * file, struct vm_area_struct * vma) { struct socket *sock = socki_lookup(file->f_dentry->d_inode); return sock->ops->mmap(file, sock, vma); } int sock_close(struct inode *inode, struct file *filp) { /* * It was possible the inode is NULL we were * closing an unfinished socket. */ if (!inode) { printk(KERN_DEBUG "sock_close: NULL inode\n"); return 0; } sock_fasync(-1, filp, 0); sock_release(socki_lookup(inode)); return 0; } /* * Update the socket async list * * Fasync_list locking strategy. * * 1. fasync_list is modified only under process context socket lock * i.e. under semaphore. * 2. fasync_list is used under read_lock(&sk->callback_lock) * or under socket lock. * 3. fasync_list can be used from softirq context, so that * modification under socket lock have to be enhanced with * write_lock_bh(&sk->callback_lock). * --ANK (990710) */ static int sock_fasync(int fd, struct file *filp, int on) { struct fasync_struct *fa, *fna=NULL, **prev; struct socket *sock; struct sock *sk; if (on) { fna=(struct fasync_struct *)kmalloc(sizeof(struct fasync_struct), GFP_KERNEL); if(fna==NULL) return -ENOMEM; } sock = socki_lookup(filp->f_dentry->d_inode); if ((sk=sock->sk) == NULL) return -EINVAL; lock_sock(sk); prev=&(sock->fasync_list); for (fa=*prev; fa!=NULL; prev=&fa->fa_next,fa=*prev) if (fa->fa_file==filp) break; if(on) { if(fa!=NULL) { write_lock_bh(&sk->callback_lock); fa->fa_fd=fd; write_unlock_bh(&sk->callback_lock); kfree(fna); goto out; } fna->fa_file=filp; fna->fa_fd=fd; fna->magic=FASYNC_MAGIC; fna->fa_next=sock->fasync_list; write_lock_bh(&sk->callback_lock); sock->fasync_list=fna; write_unlock_bh(&sk->callback_lock); } else { if (fa!=NULL) { write_lock_bh(&sk->callback_lock); *prev=fa->fa_next; write_unlock_bh(&sk->callback_lock); kfree(fa); } } out: release_sock(sock->sk); return 0; } /* This function may be called only under socket lock or callback_lock */ int sock_wake_async(struct socket *sock, int how, int band) { if (!sock || !sock->fasync_list) return -1; switch (how) { case 1: if (test_bit(SOCK_ASYNC_WAITDATA, &sock->flags)) break; goto call_kill; case 2: if (!test_and_clear_bit(SOCK_ASYNC_NOSPACE, &sock->flags)) break; /* fall through */ case 0: call_kill: __kill_fasync(sock->fasync_list, SIGIO, band); break; case 3: __kill_fasync(sock->fasync_list, SIGURG, band); } return 0; } int sock_create(int family, int type, int protocol, struct socket **res) { int i; struct socket *sock; /* * Check protocol is in range */ if(family<0 || family>=NPROTO) return -EAFNOSUPPORT; /* Compatibility. This uglymoron is moved from INET layer to here to avoid deadlock in module load. */ if (family == PF_INET && type == SOCK_PACKET) { static int warned; if (!warned) { warned = 1; printk(KERN_INFO "%s uses obsolete (PF_INET,SOCK_PACKET)\n", current->comm); } family = PF_PACKET; } #if defined(CONFIG_KMOD) && defined(CONFIG_NET) /* Attempt to load a protocol module if the find failed. * * 12/09/1996 Marcin: But! this makes REALLY only sense, if the user * requested real, full-featured networking support upon configuration. * Otherwise module support will break! */ if (net_families[family]==NULL) { char module_name[30]; sprintf(module_name,"net-pf-%d",family); request_module(module_name); } #endif net_family_read_lock(); if (net_families[family] == NULL) { i = -EAFNOSUPPORT; goto out; } /* * Allocate the socket and allow the family to set things up. if * the protocol is 0, the family is instructed to select an appropriate * default. */ if (!(sock = sock_alloc())) { printk(KERN_WARNING "socket: no more sockets\n"); i = -ENFILE; /* Not exactly a match, but its the closest posix thing */ goto out; } sock->type = type; if ((i = net_families[family]->create(sock, protocol)) < 0) { sock_release(sock); goto out; } *res = sock; out: net_family_read_unlock(); return i; } asmlinkage long sys_socket(int family, int type, int protocol) { int retval; struct socket *sock; retval = sock_create(family, type, protocol, &sock); if (retval < 0) goto out; retval = sock_map_fd(sock); if (retval < 0) goto out_release; out: /* It may be already another descriptor 8) Not kernel problem. */ return retval; out_release: sock_release(sock); return retval; } /* * Create a pair of connected sockets. */ asmlinkage long sys_socketpair(int family, int type, int protocol, int usockvec[2]) { struct socket *sock1, *sock2; int fd1, fd2, err; /* * Obtain the first socket and check if the underlying protocol * supports the socketpair call. */ err = sock_create(family, type, protocol, &sock1); if (err < 0) goto out; err = sock_create(family, type, protocol, &sock2); if (err < 0) goto out_release_1; err = sock1->ops->socketpair(sock1, sock2); if (err < 0) goto out_release_both; fd1 = fd2 = -1; err = sock_map_fd(sock1); if (err < 0) goto out_release_both; fd1 = err; err = sock_map_fd(sock2); if (err < 0) goto out_close_1; fd2 = err; /* fd1 and fd2 may be already another descriptors. * Not kernel problem. */ err = put_user(fd1, &usockvec[0]); if (!err) err = put_user(fd2, &usockvec[1]); if (!err) return 0; sys_close(fd2); sys_close(fd1); return err; out_close_1: sock_release(sock2); sys_close(fd1); return err; out_release_both: sock_release(sock2); out_release_1: sock_release(sock1); out: return err; } /* * Bind a name to a socket. Nothing much to do here since it's * the protocol's responsibility to handle the local address. * * We move the socket address to kernel space before we call * the protocol layer (having also checked the address is ok). */ asmlinkage long sys_bind(int fd, struct sockaddr *umyaddr, int addrlen) { struct socket *sock; char address[MAX_SOCK_ADDR]; int err; if((sock = sockfd_lookup(fd,&err))!=NULL) { if((err=move_addr_to_kernel(umyaddr,addrlen,address))>=0) err = sock->ops->bind(sock, (struct sockaddr *)address, addrlen); sockfd_put(sock); } return err; } /* * Perform a listen. Basically, we allow the protocol to do anything * necessary for a listen, and if that works, we mark the socket as * ready for listening. */ asmlinkage long sys_listen(int fd, int backlog) { struct socket *sock; int err; if ((sock = sockfd_lookup(fd, &err)) != NULL) { if ((unsigned) backlog > SOMAXCONN) backlog = SOMAXCONN; err=sock->ops->listen(sock, backlog); sockfd_put(sock); } return err; } /* * For accept, we attempt to create a new socket, set up the link * with the client, wake up the client, then return the new * connected fd. We collect the address of the connector in kernel * space and move it to user at the very end. This is unclean because * we open the socket then return an error. * * 1003.1g adds the ability to recvmsg() to query connection pending * status to recvmsg. We need to add that support in a way thats * clean when we restucture accept also. */ asmlinkage long sys_accept(int fd, struct sockaddr *upeer_sockaddr, int *upeer_addrlen) { struct socket *sock, *newsock; int err, len; char address[MAX_SOCK_ADDR]; sock = sockfd_lookup(fd, &err); if (!sock) goto out; err = -EMFILE; if (!(newsock = sock_alloc())) goto out_put; newsock->type = sock->type; newsock->ops = sock->ops; err = sock->ops->accept(sock, newsock, sock->file->f_flags); if (err < 0) goto out_release; if (upeer_sockaddr) { if(newsock->ops->getname(newsock, (struct sockaddr *)address, &len, 2)<0) { err = -ECONNABORTED; goto out_release; } err = move_addr_to_user(address, len, upeer_sockaddr, upeer_addrlen); if (err < 0) goto out_release; } /* File flags are not inherited via accept() unlike another OSes. */ if ((err = sock_map_fd(newsock)) < 0) goto out_release; out_put: sockfd_put(sock); out: return err; out_release: sock_release(newsock); goto out_put; } /* * Attempt to connect to a socket with the server address. The address * is in user space so we verify it is OK and move it to kernel space. * * For 1003.1g we need to add clean support for a bind to AF_UNSPEC to * break bindings * * NOTE: 1003.1g draft 6.3 is broken with respect to AX.25/NetROM and * other SEQPACKET protocols that take time to connect() as it doesn't * include the -EINPROGRESS status for such sockets. */ asmlinkage long sys_connect(int fd, struct sockaddr *uservaddr, int addrlen) { struct socket *sock; char address[MAX_SOCK_ADDR]; int err; sock = sockfd_lookup(fd, &err); if (!sock) goto out; err = move_addr_to_kernel(uservaddr, addrlen, address); if (err < 0) goto out_put; err = sock->ops->connect(sock, (struct sockaddr *) address, addrlen, sock->file->f_flags); out_put: sockfd_put(sock); out: return err; } /* * Get the local address ('name') of a socket object. Move the obtained * name to user space. */ asmlinkage long sys_getsockname(int fd, struct sockaddr *usockaddr, int *usockaddr_len) { struct socket *sock; char address[MAX_SOCK_ADDR]; int len, err; sock = sockfd_lookup(fd, &err); if (!sock) goto out; err = sock->ops->getname(sock, (struct sockaddr *)address, &len, 0); if (err) goto out_put; err = move_addr_to_user(address, len, usockaddr, usockaddr_len); out_put: sockfd_put(sock); out: return err; } /* * Get the remote address ('name') of a socket object. Move the obtained * name to user space. */ asmlinkage long sys_getpeername(int fd, struct sockaddr *usockaddr, int *usockaddr_len) { struct socket *sock; char address[MAX_SOCK_ADDR]; int len, err; if ((sock = sockfd_lookup(fd, &err))!=NULL) { err = sock->ops->getname(sock, (struct sockaddr *)address, &len, 1); if (!err) err=move_addr_to_user(address,len, usockaddr, usockaddr_len); sockfd_put(sock); } return err; } /* * Send a datagram to a given address. We move the address into kernel * space and check the user space data area is readable before invoking * the protocol. */ asmlinkage long sys_sendto(int fd, void * buff, size_t len, unsigned flags, struct sockaddr *addr, int addr_len) { struct socket *sock; char address[MAX_SOCK_ADDR]; int err; struct msghdr msg; struct iovec iov; sock = sockfd_lookup(fd, &err); if (!sock) goto out; iov.iov_base=buff; iov.iov_len=len; msg.msg_name=NULL; msg.msg_iov=&iov; msg.msg_iovlen=1; msg.msg_control=NULL; msg.msg_controllen=0; msg.msg_namelen=addr_len; if(addr) { err = move_addr_to_kernel(addr, addr_len, address); if (err < 0) goto out_put; msg.msg_name=address; } if (sock->file->f_flags & O_NONBLOCK) flags |= MSG_DONTWAIT; msg.msg_flags = flags; err = sock_sendmsg(sock, &msg, len); out_put: sockfd_put(sock); out: return err; } /* * Send a datagram down a socket. */ asmlinkage long sys_send(int fd, void * buff, size_t len, unsigned flags) { return sys_sendto(fd, buff, len, flags, NULL, 0); } /* * Receive a frame from the socket and optionally record the address of the * sender. We verify the buffers are writable and if needed move the * sender address from kernel to user space. */ asmlinkage long sys_recvfrom(int fd, void * ubuf, size_t size, unsigned flags, struct sockaddr *addr, int *addr_len) { struct socket *sock; struct iovec iov; struct msghdr msg; char address[MAX_SOCK_ADDR]; int err,err2; sock = sockfd_lookup(fd, &err); if (!sock) goto out; msg.msg_control=NULL; msg.msg_controllen=0; msg.msg_iovlen=1; msg.msg_iov=&iov; iov.iov_len=size; iov.iov_base=ubuf; msg.msg_name=address; msg.msg_namelen=MAX_SOCK_ADDR; if (sock->file->f_flags & O_NONBLOCK) flags |= MSG_DONTWAIT; err=sock_recvmsg(sock, &msg, size, flags); if(err >= 0 && addr != NULL && msg.msg_namelen) { err2=move_addr_to_user(address, msg.msg_namelen, addr, addr_len); if(err2<0) err=err2; } sockfd_put(sock); out: return err; } /* * Receive a datagram from a socket. */ asmlinkage long sys_recv(int fd, void * ubuf, size_t size, unsigned flags) { return sys_recvfrom(fd, ubuf, size, flags, NULL, NULL); } /* * Set a socket option. Because we don't know the option lengths we have * to pass the user mode parameter for the protocols to sort out. */ asmlinkage long sys_setsockopt(int fd, int level, int optname, char *optval, int optlen) { int err; struct socket *sock; if (optlen < 0) return -EINVAL; if ((sock = sockfd_lookup(fd, &err))!=NULL) { if (level == SOL_SOCKET) err=sock_setsockopt(sock,level,optname,optval,optlen); else err=sock->ops->setsockopt(sock, level, optname, optval, optlen); sockfd_put(sock); } return err; } /* * Get a socket option. Because we don't know the option lengths we have * to pass a user mode parameter for the protocols to sort out. */ asmlinkage long sys_getsockopt(int fd, int level, int optname, char *optval, int *optlen) { int err; struct socket *sock; if ((sock = sockfd_lookup(fd, &err))!=NULL) { if (level == SOL_SOCKET) err=sock_getsockopt(sock,level,optname,optval,optlen); else err=sock->ops->getsockopt(sock, level, optname, optval, optlen); sockfd_put(sock); } return err; } /* * Shutdown a socket. */ asmlinkage long sys_shutdown(int fd, int how) { int err; struct socket *sock; if ((sock = sockfd_lookup(fd, &err))!=NULL) { err=sock->ops->shutdown(sock, how); sockfd_put(sock); } return err; } /* * BSD sendmsg interface */ asmlinkage long sys_sendmsg(int fd, struct msghdr *msg, unsigned flags) { struct socket *sock; char address[MAX_SOCK_ADDR]; struct iovec iovstack[UIO_FASTIOV], *iov = iovstack; unsigned char ctl[sizeof(struct cmsghdr) + 20]; /* 20 is size of ipv6_pktinfo */ unsigned char *ctl_buf = ctl; struct msghdr msg_sys; int err, ctl_len, iov_size, total_len; err = -EFAULT; if (copy_from_user(&msg_sys,msg,sizeof(struct msghdr))) goto out; sock = sockfd_lookup(fd, &err); if (!sock) goto out; /* do not move before msg_sys is valid */ err = -EINVAL; if (msg_sys.msg_iovlen > UIO_MAXIOV) goto out_put; /* Check whether to allocate the iovec area*/ err = -ENOMEM; iov_size = msg_sys.msg_iovlen * sizeof(struct iovec); if (msg_sys.msg_iovlen > UIO_FASTIOV) { iov = sock_kmalloc(sock->sk, iov_size, GFP_KERNEL); if (!iov) goto out_put; } /* This will also move the address data into kernel space */ err = verify_iovec(&msg_sys, iov, address, VERIFY_READ); if (err < 0) goto out_freeiov; total_len = err; err = -ENOBUFS; if (msg_sys.msg_controllen > INT_MAX) goto out_freeiov; ctl_len = msg_sys.msg_controllen; if (ctl_len) { if (ctl_len > sizeof(ctl)) { ctl_buf = sock_kmalloc(sock->sk, ctl_len, GFP_KERNEL); if (ctl_buf == NULL) goto out_freeiov; } err = -EFAULT; if (copy_from_user(ctl_buf, msg_sys.msg_control, ctl_len)) goto out_freectl; msg_sys.msg_control = ctl_buf; } msg_sys.msg_flags = flags; if (sock->file->f_flags & O_NONBLOCK) msg_sys.msg_flags |= MSG_DONTWAIT; err = sock_sendmsg(sock, &msg_sys, total_len); out_freectl: if (ctl_buf != ctl) sock_kfree_s(sock->sk, ctl_buf, ctl_len); out_freeiov: if (iov != iovstack) sock_kfree_s(sock->sk, iov, iov_size); out_put: sockfd_put(sock); out: return err; } /* * BSD recvmsg interface */ asmlinkage long sys_recvmsg(int fd, struct msghdr *msg, unsigned int flags) { struct socket *sock; struct iovec iovstack[UIO_FASTIOV]; struct iovec *iov=iovstack; struct msghdr msg_sys; unsigned long cmsg_ptr; int err, iov_size, total_len, len; /* kernel mode address */ char addr[MAX_SOCK_ADDR]; /* user mode address pointers */ struct sockaddr *uaddr; int *uaddr_len; err=-EFAULT; if (copy_from_user(&msg_sys,msg,sizeof(struct msghdr))) goto out; sock = sockfd_lookup(fd, &err); if (!sock) goto out; err = -EINVAL; if (msg_sys.msg_iovlen > UIO_MAXIOV) goto out_put; /* Check whether to allocate the iovec area*/ err = -ENOMEM; iov_size = msg_sys.msg_iovlen * sizeof(struct iovec); if (msg_sys.msg_iovlen > UIO_FASTIOV) { iov = sock_kmalloc(sock->sk, iov_size, GFP_KERNEL); if (!iov) goto out_put; } /* * Save the user-mode address (verify_iovec will change the * kernel msghdr to use the kernel address space) */ uaddr = msg_sys.msg_name; uaddr_len = &msg->msg_namelen; err = verify_iovec(&msg_sys, iov, addr, VERIFY_WRITE); if (err < 0) goto out_freeiov; total_len=err; cmsg_ptr = (unsigned long)msg_sys.msg_control; msg_sys.msg_flags = 0; if (sock->file->f_flags & O_NONBLOCK) flags |= MSG_DONTWAIT; err = sock_recvmsg(sock, &msg_sys, total_len, flags); if (err < 0) goto out_freeiov; len = err; if (uaddr != NULL && msg_sys.msg_namelen) { err = move_addr_to_user(addr, msg_sys.msg_namelen, uaddr, uaddr_len); if (err < 0) goto out_freeiov; } err = __put_user(msg_sys.msg_flags, &msg->msg_flags); if (err) goto out_freeiov; err = __put_user((unsigned long)msg_sys.msg_control-cmsg_ptr, &msg->msg_controllen); if (err) goto out_freeiov; err = len; out_freeiov: if (iov != iovstack) sock_kfree_s(sock->sk, iov, iov_size); out_put: sockfd_put(sock); out: return err; } /* * Perform a file control on a socket file descriptor. * * Doesn't acquire a fd lock, because no network fcntl * function sleeps currently. */ int sock_fcntl(struct file *filp, unsigned int cmd, unsigned long arg) { struct socket *sock; sock = socki_lookup (filp->f_dentry->d_inode); if (sock && sock->ops) return sock_no_fcntl(sock, cmd, arg); return(-EINVAL); } /* Argument list sizes for sys_socketcall */ #define AL(x) ((x) * sizeof(unsigned long)) static unsigned char nargs[18]={AL(0),AL(3),AL(3),AL(3),AL(2),AL(3), AL(3),AL(3),AL(4),AL(4),AL(4),AL(6), AL(6),AL(2),AL(5),AL(5),AL(3),AL(3)}; #undef AL /* * System call vectors. * * Argument checking cleaned up. Saved 20% in size. * This function doesn't need to set the kernel lock because * it is set by the callees. */ asmlinkage long sys_socketcall(int call, unsigned long *args) { unsigned long a[6]; unsigned long a0,a1; int err; if(call<1||call>SYS_RECVMSG) return -EINVAL; /* copy_from_user should be SMP safe. */ if (copy_from_user(a, args, nargs[call])) return -EFAULT; a0=a[0]; a1=a[1]; switch(call) { case SYS_SOCKET: err = sys_socket(a0,a1,a[2]); break; case SYS_BIND: err = sys_bind(a0,(struct sockaddr *)a1, a[2]); break; case SYS_CONNECT: err = sys_connect(a0, (struct sockaddr *)a1, a[2]); break; case SYS_LISTEN: err = sys_listen(a0,a1); break; case SYS_ACCEPT: err = sys_accept(a0,(struct sockaddr *)a1, (int *)a[2]); break; case SYS_GETSOCKNAME: err = sys_getsockname(a0,(struct sockaddr *)a1, (int *)a[2]); break; case SYS_GETPEERNAME: err = sys_getpeername(a0, (struct sockaddr *)a1, (int *)a[2]); break; case SYS_SOCKETPAIR: err = sys_socketpair(a0,a1, a[2], (int *)a[3]); break; case SYS_SEND: err = sys_send(a0, (void *)a1, a[2], a[3]); break; case SYS_SENDTO: err = sys_sendto(a0,(void *)a1, a[2], a[3], (struct sockaddr *)a[4], a[5]); break; case SYS_RECV: err = sys_recv(a0, (void *)a1, a[2], a[3]); break; case SYS_RECVFROM: err = sys_recvfrom(a0, (void *)a1, a[2], a[3], (struct sockaddr *)a[4], (int *)a[5]); break; case SYS_SHUTDOWN: err = sys_shutdown(a0,a1); break; case SYS_SETSOCKOPT: err = sys_setsockopt(a0, a1, a[2], (char *)a[3], a[4]); break; case SYS_GETSOCKOPT: err = sys_getsockopt(a0, a1, a[2], (char *)a[3], (int *)a[4]); break; case SYS_SENDMSG: err = sys_sendmsg(a0, (struct msghdr *) a1, a[2]); break; case SYS_RECVMSG: err = sys_recvmsg(a0, (struct msghdr *) a1, a[2]); break; default: err = -EINVAL; break; } return err; } /* * This function is called by a protocol handler that wants to * advertise its address family, and have it linked into the * SOCKET module. */ int sock_register(struct net_proto_family *ops) { int err; if (ops->family >= NPROTO) { printk(KERN_CRIT "protocol %d >= NPROTO(%d)\n", ops->family, NPROTO); return -ENOBUFS; } net_family_write_lock(); err = -EEXIST; if (net_families[ops->family] == NULL) { net_families[ops->family]=ops; err = 0; } net_family_write_unlock(); return err; } /* * This function is called by a protocol handler that wants to * remove its address family, and have it unlinked from the * SOCKET module. */ int sock_unregister(int family) { if (family < 0 || family >= NPROTO) return -1; net_family_write_lock(); net_families[family]=NULL; net_family_write_unlock(); return 0; } extern void sk_init(void); #ifdef CONFIG_WAN_ROUTER extern void wanrouter_init(void); #endif void __init sock_init(void) { int i; printk(KERN_INFO "Linux NET4.0 for Linux 2.4\n"); printk(KERN_INFO "Based upon Swansea University Computer Society NET3.039\n"); /* * Initialize all address (protocol) families. */ for (i = 0; i < NPROTO; i++) net_families[i] = NULL; /* * Initialize sock SLAB cache. */ sk_init(); #ifdef SLAB_SKB /* * Initialize skbuff SLAB cache */ skb_init(); #endif /* * Wan router layer. */ #ifdef CONFIG_WAN_ROUTER wanrouter_init(); #endif /* * Initialize the protocols module. */ register_filesystem(&sock_fs_type); sock_mnt = kern_mount(&sock_fs_type); /* The real protocol initialization is performed when * do_initcalls is run. */ /* * The netlink device handler may be needed early. */ #ifdef CONFIG_RTNETLINK rtnetlink_init(); #endif #ifdef CONFIG_NETLINK_DEV init_netlink(); #endif #ifdef CONFIG_NETFILTER netfilter_init(); #endif } int socket_get_info(char *buffer, char **start, off_t offset, int length) { int len, cpu; int counter = 0; for (cpu=0; cpu<smp_num_cpus; cpu++) counter += sockets_in_use[cpu_logical_map(cpu)].counter; /* It can be negative, by the way. 8) */ if (counter < 0) counter = 0; len = sprintf(buffer, "sockets: used %d\n", counter); if (offset >= len) { *start = buffer; return 0; } *start = buffer + offset; len -= offset; if (len > length) len = length; if (len < 0) len = 0; return len; } |