/* * (MPSAFE) * * Copyright (c) 1995 Ugen J.S.Antsilevich * * Redistribution and use in source forms, with and without modification, * are permitted provided that this entire comment appears intact. * * Redistribution in binary form may occur without any restrictions. * Obviously, it would be nice if you gave credit where credit is due * but requiring it would be too onerous. * * This software is provided ``AS IS'' without any warranties of any kind. * * Snoop stuff. * * $FreeBSD: src/sys/dev/snp/snp.c,v 1.69.2.2 2002/05/06 07:30:02 dd Exp $ */ #include "use_snp.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include static l_close_t snplclose; static l_write_t snplwrite; static d_open_t snpopen; static d_close_t snpclose; static d_read_t snpread; static d_write_t snpwrite; static d_ioctl_t snpioctl; static d_kqfilter_t snpkqfilter; static d_clone_t snpclone; DEVFS_DEFINE_CLONE_BITMAP(snp); static void snpfilter_detach(struct knote *); static int snpfilter_rd(struct knote *, long); static int snpfilter_wr(struct knote *, long); #if NSNP <= 1 #define SNP_PREALLOCATED_UNITS 4 #else #define SNP_PREALLOCATED_UNITS NSNP #endif static struct dev_ops snp_ops = { { "snp", 0, 0 }, .d_open = snpopen, .d_close = snpclose, .d_read = snpread, .d_write = snpwrite, .d_ioctl = snpioctl, .d_kqfilter = snpkqfilter }; static struct linesw snpdisc = { ttyopen, snplclose, ttread, snplwrite, l_nullioctl, ttyinput, ttstart, ttymodem }; /* * This is the main snoop per-device structure. */ struct snoop { LIST_ENTRY(snoop) snp_list; /* List glue. */ cdev_t snp_target; /* Target tty device. */ struct tty *snp_tty; /* Target tty pointer. */ u_long snp_len; /* Possible length. */ u_long snp_base; /* Data base. */ u_long snp_blen; /* Used length. */ caddr_t snp_buf; /* Allocation pointer. */ int snp_flags; /* Flags. */ struct kqinfo snp_kq; /* Kqueue info. */ int snp_olddisc; /* Old line discipline. */ }; /* * Possible flags. */ #define SNOOP_ASYNC 0x0002 #define SNOOP_OPEN 0x0004 #define SNOOP_RWAIT 0x0008 #define SNOOP_OFLOW 0x0010 #define SNOOP_DOWN 0x0020 /* * Other constants. */ #define SNOOP_MINLEN (4*1024) /* This should be power of 2. * 4K tested to be the minimum * for which on normal tty * usage there is no need to * allocate more. */ #define SNOOP_MAXLEN (64*1024) /* This one also,64K enough * If we grow more,something * really bad in this world.. */ static MALLOC_DEFINE(M_SNP, "snp", "Snoop device data"); /* * The number of the "snoop" line discipline. This gets determined at * module load time. */ static int snooplinedisc; static LIST_HEAD(, snoop) snp_sclist = LIST_HEAD_INITIALIZER(&snp_sclist); static struct lwkt_token snp_token = LWKT_TOKEN_INITIALIZER(snp_token); static struct tty *snpdevtotty (cdev_t dev); static int snp_detach (struct snoop *snp); static int snp_down (struct snoop *snp); static int snp_in (struct snoop *snp, char *buf, int n); static int snp_modevent (module_t mod, int what, void *arg); static int snplclose(struct tty *tp, int flag) { struct snoop *snp; int error; lwkt_gettoken(&snp_token); snp = tp->t_sc; error = snp_down(snp); if (error != 0) { lwkt_reltoken(&snp_token); return (error); } lwkt_gettoken(&tp->t_token); error = ttylclose(tp, flag); lwkt_reltoken(&tp->t_token); lwkt_reltoken(&snp_token); return (error); } static int snplwrite(struct tty *tp, struct uio *uio, int flag) { struct iovec iov; struct uio uio2; struct snoop *snp; int error, ilen; char *ibuf; lwkt_gettoken(&tp->t_token); error = 0; ibuf = NULL; snp = tp->t_sc; while (uio->uio_resid > 0) { ilen = (int)szmin(512, uio->uio_resid); ibuf = kmalloc(ilen, M_SNP, M_WAITOK); error = uiomove(ibuf, (size_t)ilen, uio); if (error != 0) break; snp_in(snp, ibuf, ilen); /* Hackish, but probably the least of all evils. */ iov.iov_base = ibuf; iov.iov_len = ilen; uio2.uio_iov = &iov; uio2.uio_iovcnt = 1; uio2.uio_offset = 0; uio2.uio_resid = ilen; uio2.uio_segflg = UIO_SYSSPACE; uio2.uio_rw = UIO_WRITE; uio2.uio_td = uio->uio_td; error = ttwrite(tp, &uio2, flag); if (error != 0) break; kfree(ibuf, M_SNP); ibuf = NULL; } if (ibuf != NULL) kfree(ibuf, M_SNP); lwkt_reltoken(&tp->t_token); return (error); } static struct tty * snpdevtotty(cdev_t dev) { if ((dev_dflags(dev) & D_TTY) == 0) return (NULL); return (dev->si_tty); } #define SNP_INPUT_BUF 5 /* This is even too much, the maximal * interactive mode write is 3 bytes * length for function keys... */ static int snpwrite(struct dev_write_args *ap) { cdev_t dev = ap->a_head.a_dev; struct uio *uio = ap->a_uio; struct snoop *snp; struct tty *tp; int error, i, len; unsigned char c[SNP_INPUT_BUF]; snp = dev->si_drv1; tp = snp->snp_tty; if (tp == NULL) return (EIO); lwkt_gettoken(&tp->t_token); if ((tp->t_sc == snp) && (tp->t_state & TS_SNOOP) && tp->t_line == snooplinedisc) goto tty_input; kprintf("Snoop: attempt to write to bad tty.\n"); lwkt_reltoken(&tp->t_token); return (EIO); tty_input: if (!(tp->t_state & TS_ISOPEN)) { lwkt_reltoken(&tp->t_token); return (EIO); } while (uio->uio_resid > 0) { len = (int)szmin(uio->uio_resid, SNP_INPUT_BUF); if ((error = uiomove(c, (size_t)len, uio)) != 0) { lwkt_reltoken(&tp->t_token); return (error); } for (i=0; i < len; i++) { if (ttyinput(c[i], tp)) { lwkt_reltoken(&tp->t_token); return (EIO); } } } lwkt_reltoken(&tp->t_token); return (0); } static int snpread(struct dev_read_args *ap) { cdev_t dev = ap->a_head.a_dev; struct uio *uio = ap->a_uio; struct snoop *snp; struct tty *tp; int error, len, n, nblen; caddr_t from; char *nbuf; snp = dev->si_drv1; tp = snp->snp_tty; lwkt_gettoken(&tp->t_token); KASSERT(snp->snp_len + snp->snp_base <= snp->snp_blen, ("snoop buffer error")); if (snp->snp_tty == NULL) { lwkt_reltoken(&tp->t_token); return (EIO); } snp->snp_flags &= ~SNOOP_RWAIT; do { if (snp->snp_len == 0) { if (ap->a_ioflag & IO_NDELAY) { lwkt_reltoken(&tp->t_token); return (EWOULDBLOCK); } snp->snp_flags |= SNOOP_RWAIT; error = tsleep((caddr_t)snp, PCATCH, "snprd", 0); if (error != 0) { lwkt_reltoken(&tp->t_token); return (error); } } } while (snp->snp_len == 0); n = snp->snp_len; error = 0; while (snp->snp_len > 0 && uio->uio_resid > 0 && error == 0) { len = (int)szmin(uio->uio_resid, snp->snp_len); from = (caddr_t)(snp->snp_buf + snp->snp_base); if (len == 0) break; error = uiomove(from, (size_t)len, uio); snp->snp_base += len; snp->snp_len -= len; } if ((snp->snp_flags & SNOOP_OFLOW) && (n < snp->snp_len)) { snp->snp_flags &= ~SNOOP_OFLOW; } nblen = snp->snp_blen; if (((nblen / 2) >= SNOOP_MINLEN) && (nblen / 2) >= snp->snp_len) { while (nblen / 2 >= snp->snp_len && nblen / 2 >= SNOOP_MINLEN) nblen = nblen / 2; if ((nbuf = kmalloc(nblen, M_SNP, M_NOWAIT)) != NULL) { bcopy(snp->snp_buf + snp->snp_base, nbuf, snp->snp_len); kfree(snp->snp_buf, M_SNP); snp->snp_buf = nbuf; snp->snp_blen = nblen; snp->snp_base = 0; } } lwkt_reltoken(&tp->t_token); return (error); } /* * NOTE: Must be called with tp->t_token held */ static int snp_in(struct snoop *snp, char *buf, int n) { int s_free, s_tail; int len, nblen; caddr_t from, to; char *nbuf; KASSERT(n >= 0, ("negative snoop char count")); if (n == 0) return (0); if (snp->snp_flags & SNOOP_DOWN) { kprintf("Snoop: more data to down interface.\n"); return (0); } if (snp->snp_flags & SNOOP_OFLOW) { kprintf("Snoop: buffer overflow.\n"); /* * On overflow we just repeat the standart close * procedure...yes , this is waste of space but.. Then next * read from device will fail if one would recall he is * snooping and retry... */ return (snp_down(snp)); } s_tail = snp->snp_blen - (snp->snp_len + snp->snp_base); s_free = snp->snp_blen - snp->snp_len; if (n > s_free) { nblen = snp->snp_blen; while ((n > s_free) && ((nblen * 2) <= SNOOP_MAXLEN)) { nblen = snp->snp_blen * 2; s_free = nblen - (snp->snp_len + snp->snp_base); } if ((n <= s_free) && (nbuf = kmalloc(nblen, M_SNP, M_NOWAIT))) { bcopy(snp->snp_buf + snp->snp_base, nbuf, snp->snp_len); kfree(snp->snp_buf, M_SNP); snp->snp_buf = nbuf; snp->snp_blen = nblen; snp->snp_base = 0; } else { snp->snp_flags |= SNOOP_OFLOW; if (snp->snp_flags & SNOOP_RWAIT) { snp->snp_flags &= ~SNOOP_RWAIT; wakeup((caddr_t)snp); } return (0); } } if (n > s_tail) { from = (caddr_t)(snp->snp_buf + snp->snp_base); to = (caddr_t)(snp->snp_buf); len = snp->snp_len; bcopy(from, to, len); snp->snp_base = 0; } to = (caddr_t)(snp->snp_buf + snp->snp_base + snp->snp_len); bcopy(buf, to, n); snp->snp_len += n; if (snp->snp_flags & SNOOP_RWAIT) { snp->snp_flags &= ~SNOOP_RWAIT; wakeup((caddr_t)snp); } KNOTE(&snp->snp_kq.ki_note, 0); return (n); } static int snpopen(struct dev_open_args *ap) { cdev_t dev = ap->a_head.a_dev; struct snoop *snp; lwkt_gettoken(&snp_token); if (dev->si_drv1 == NULL) { #if 0 make_dev(&snp_ops, minor(dev), UID_ROOT, GID_WHEEL, 0600, "snp%d", minor(dev)); #endif dev->si_drv1 = snp = kmalloc(sizeof(*snp), M_SNP, M_WAITOK | M_ZERO); } else { lwkt_reltoken(&snp_token); return (EBUSY); } /* * We intentionally do not OR flags with SNOOP_OPEN, but set them so * all previous settings (especially SNOOP_OFLOW) will be cleared. */ snp->snp_flags = SNOOP_OPEN; snp->snp_buf = kmalloc(SNOOP_MINLEN, M_SNP, M_WAITOK); snp->snp_blen = SNOOP_MINLEN; snp->snp_base = 0; snp->snp_len = 0; /* * snp_tty == NULL is for inactive snoop devices. */ snp->snp_tty = NULL; snp->snp_target = NULL; LIST_INSERT_HEAD(&snp_sclist, snp, snp_list); lwkt_reltoken(&snp_token); return (0); } /* * NOTE: Must be called with snp_token held */ static int snp_detach(struct snoop *snp) { struct tty *tp; ASSERT_LWKT_TOKEN_HELD(&snp_token); snp->snp_base = 0; snp->snp_len = 0; /* * If line disc. changed we do not touch this pointer, SLIP/PPP will * change it anyway. */ tp = snp->snp_tty; if (tp == NULL) goto detach_notty; lwkt_gettoken(&tp->t_token); if ((tp->t_sc == snp) && (tp->t_state & TS_SNOOP) && tp->t_line == snooplinedisc) { tp->t_sc = NULL; tp->t_state &= ~TS_SNOOP; tp->t_line = snp->snp_olddisc; } else { kprintf("Snoop: bad attached tty data.\n"); } lwkt_reltoken(&tp->t_token); snp->snp_tty = NULL; snp->snp_target = NULL; detach_notty: KNOTE(&snp->snp_kq.ki_note, 0); if ((snp->snp_flags & SNOOP_OPEN) == 0) kfree(snp, M_SNP); return (0); } static int snpclose(struct dev_close_args *ap) { cdev_t dev = ap->a_head.a_dev; struct snoop *snp; int unit; int ret; lwkt_gettoken(&snp_token); snp = dev->si_drv1; snp->snp_blen = 0; LIST_REMOVE(snp, snp_list); kfree(snp->snp_buf, M_SNP); snp->snp_flags &= ~SNOOP_OPEN; dev->si_drv1 = NULL; unit = dev->si_uminor; if (unit >= SNP_PREALLOCATED_UNITS) { destroy_dev(dev); devfs_clone_bitmap_put(&DEVFS_CLONE_BITMAP(snp), unit); } ret = snp_detach(snp); lwkt_reltoken(&snp_token); return ret; } /* * NOTE: Must be called with snp_token held */ static int snp_down(struct snoop *snp) { ASSERT_LWKT_TOKEN_HELD(&snp_token); if (snp->snp_blen != SNOOP_MINLEN) { kfree(snp->snp_buf, M_SNP); snp->snp_buf = kmalloc(SNOOP_MINLEN, M_SNP, M_WAITOK); snp->snp_blen = SNOOP_MINLEN; } snp->snp_flags |= SNOOP_DOWN; return (snp_detach(snp)); } static int snpioctl(struct dev_ioctl_args *ap) { cdev_t dev = ap->a_head.a_dev; struct snoop *snp; struct tty *tp, *tpo; cdev_t tdev; int ret; lwkt_gettoken(&snp_token); snp = dev->si_drv1; switch (ap->a_cmd) { case SNPSTTY: tdev = dev_from_devid(*((dev_t *)ap->a_data), 0); if (tdev == NULL) { lwkt_reltoken(&snp_token); ret = snp_down(snp); return ret; } tp = snpdevtotty(tdev); if (!tp) { lwkt_reltoken(&snp_token); return (EINVAL); } lwkt_gettoken(&tp->t_token); if (tp->t_state & TS_SNOOP) { lwkt_reltoken(&tp->t_token); lwkt_reltoken(&snp_token); return (EBUSY); } if (snp->snp_target == NULL) { tpo = snp->snp_tty; if (tpo) tpo->t_state &= ~TS_SNOOP; } tp->t_sc = (caddr_t)snp; tp->t_state |= TS_SNOOP; snp->snp_olddisc = tp->t_line; tp->t_line = snooplinedisc; snp->snp_tty = tp; snp->snp_target = tdev; /* * Clean overflow and down flags - * we'll have a chance to get them in the future :))) */ snp->snp_flags &= ~SNOOP_OFLOW; snp->snp_flags &= ~SNOOP_DOWN; lwkt_reltoken(&tp->t_token); break; case SNPGTTY: /* * We keep snp_target field specially to make * SNPGTTY happy, else we can't know what is device * major/minor for tty. */ *((cdev_t *)ap->a_data) = snp->snp_target; break; case FIOASYNC: if (*(int *)ap->a_data) snp->snp_flags |= SNOOP_ASYNC; else snp->snp_flags &= ~SNOOP_ASYNC; break; case FIONREAD: if (snp->snp_tty != NULL) { *(int *)ap->a_data = snp->snp_len; } else { if (snp->snp_flags & SNOOP_DOWN) { if (snp->snp_flags & SNOOP_OFLOW) *(int *)ap->a_data = SNP_OFLOW; else *(int *)ap->a_data = SNP_TTYCLOSE; } else { *(int *)ap->a_data = SNP_DETACH; } } break; default: lwkt_reltoken(&snp_token); return (ENOTTY); } lwkt_reltoken(&snp_token); return (0); } static struct filterops snpfiltops_rd = { FILTEROP_ISFD, NULL, snpfilter_detach, snpfilter_rd }; static struct filterops snpfiltops_wr = { FILTEROP_ISFD, NULL, snpfilter_detach, snpfilter_wr }; static int snpkqfilter(struct dev_kqfilter_args *ap) { cdev_t dev = ap->a_head.a_dev; struct snoop *snp = dev->si_drv1; struct knote *kn = ap->a_kn; struct klist *klist; struct tty *tp = snp->snp_tty; lwkt_gettoken(&tp->t_token); ap->a_result = 0; switch (kn->kn_filter) { case EVFILT_READ: kn->kn_fop = &snpfiltops_rd; kn->kn_hook = (caddr_t)snp; break; case EVFILT_WRITE: kn->kn_fop = &snpfiltops_wr; kn->kn_hook = (caddr_t)snp; break; default: ap->a_result = EOPNOTSUPP; lwkt_reltoken(&tp->t_token); return (0); } klist = &snp->snp_kq.ki_note; knote_insert(klist, kn); lwkt_reltoken(&tp->t_token); return (0); } static void snpfilter_detach(struct knote *kn) { struct snoop *snp = (struct snoop *)kn->kn_hook; struct klist *klist; klist = &snp->snp_kq.ki_note; knote_remove(klist, kn); } static int snpfilter_rd(struct knote *kn, long hint) { struct snoop *snp = (struct snoop *)kn->kn_hook; struct tty *tp = snp->snp_tty; int ready = 0; lwkt_gettoken(&tp->t_token); /* * If snoop is down, we don't want to poll forever so we return 1. * Caller should see if we down via FIONREAD ioctl(). The last should * return -1 to indicate down state. */ if (snp->snp_flags & SNOOP_DOWN || snp->snp_len > 0) ready = 1; lwkt_reltoken(&tp->t_token); return (ready); } static int snpfilter_wr(struct knote *kn, long hint) { /* Writing is always OK */ return (1); } static int snpclone(struct dev_clone_args *ap) { int unit; lwkt_gettoken(&snp_token); unit = devfs_clone_bitmap_get(&DEVFS_CLONE_BITMAP(snp), 0); ap->a_dev = make_only_dev(&snp_ops, unit, UID_ROOT, GID_WHEEL, 0600, "snp%d", unit); lwkt_reltoken(&snp_token); return 0; } static int snp_modevent(module_t mod, int type, void *data) { int i; lwkt_gettoken(&snp_token); switch (type) { case MOD_LOAD: snooplinedisc = ldisc_register(LDISC_LOAD, &snpdisc); make_autoclone_dev(&snp_ops, &DEVFS_CLONE_BITMAP(snp), snpclone, UID_ROOT, GID_WHEEL, 0600, "snp"); for (i = 0; i < SNP_PREALLOCATED_UNITS; i++) { make_dev(&snp_ops, i, UID_ROOT, GID_WHEEL, 0600, "snp%d", i); devfs_clone_bitmap_set(&DEVFS_CLONE_BITMAP(snp), i); } break; case MOD_UNLOAD: if (!LIST_EMPTY(&snp_sclist)) { lwkt_reltoken(&snp_token); return (EBUSY); } ldisc_deregister(snooplinedisc); devfs_clone_handler_del("snp"); dev_ops_remove_all(&snp_ops); devfs_clone_bitmap_uninit(&DEVFS_CLONE_BITMAP(snp)); break; default: break; } lwkt_reltoken(&snp_token); return (0); } static moduledata_t snp_mod = { "snp", snp_modevent, NULL }; DECLARE_MODULE(snp, snp_mod, SI_SUB_DRIVERS, SI_ORDER_MIDDLE);