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Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/s3/@/amd64/compile/hs32/modules/usr/src/sys/modules/mxge/mxge_eth_z8e/@/dev/ctau/if_ct.c |
/*- * Cronyx-Tau adapter driver for FreeBSD. * Supports PPP/HDLC and Cisco/HDLC protocol in synchronous mode, * and asyncronous channels with full modem control. * Keepalive protocol implemented in both Cisco and PPP modes. * * Copyright (C) 1994-2002 Cronyx Engineering. * Author: Serge Vakulenko, <vak@cronyx.ru> * * Copyright (C) 1999-2004 Cronyx Engineering. * Author: Roman Kurakin, <rik@cronyx.ru> * * This software is distributed with NO WARRANTIES, not even the implied * warranties for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * * Authors grant any other persons or organisations a permission to use, * modify and redistribute this software in source and binary forms, * as long as this message is kept with the software, all derivative * works or modified versions. * * Cronyx Id: if_ct.c,v 1.1.2.31 2004/06/23 17:09:13 rik Exp $ */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/dev/ctau/if_ct.c 207554 2010-05-03 07:32:50Z sobomax $"); #include <sys/param.h> #include <sys/proc.h> #include <sys/systm.h> #include <sys/kernel.h> #include <sys/module.h> #include <sys/mbuf.h> #include <sys/sockio.h> #include <sys/malloc.h> #include <sys/priv.h> #include <sys/socket.h> #include <sys/sysctl.h> #include <sys/conf.h> #include <sys/errno.h> #include <sys/tty.h> #include <sys/bus.h> #include <machine/bus.h> #include <sys/rman.h> #include <isa/isavar.h> #include <sys/interrupt.h> #include <vm/vm.h> #include <vm/pmap.h> #include <net/if.h> #include <machine/cpufunc.h> #include <machine/cserial.h> #include <machine/resource.h> #include <dev/cx/machdep.h> #include <dev/ctau/ctddk.h> #include <dev/cx/cronyxfw.h> #include "opt_ng_cronyx.h" #ifdef NETGRAPH_CRONYX # include "opt_netgraph.h" # include <netgraph/ng_message.h> # include <netgraph/netgraph.h> # include <dev/ctau/ng_ct.h> #else # include <net/if_types.h> # include <net/if_sppp.h> # define PP_CISCO IFF_LINK2 # include <net/bpf.h> #endif #define NCTAU 1 /* If we don't have Cronyx's sppp version, we don't have fr support via sppp */ #ifndef PP_FR #define PP_FR 0 #endif #define CT_DEBUG(d,s) ({if (d->chan->debug) {\ printf ("%s: ", d->name); printf s;}}) #define CT_DEBUG2(d,s) ({if (d->chan->debug>1) {\ printf ("%s: ", d->name); printf s;}}) #define CT_LOCK_NAME "ctX" #define CT_LOCK(_bd) mtx_lock (&(_bd)->ct_mtx) #define CT_UNLOCK(_bd) mtx_unlock (&(_bd)->ct_mtx) #define CT_LOCK_ASSERT(_bd) mtx_assert (&(_bd)->ct_mtx, MA_OWNED) static void ct_identify __P((driver_t *, device_t)); static int ct_probe __P((device_t)); static int ct_attach __P((device_t)); static int ct_detach __P((device_t)); static device_method_t ct_isa_methods [] = { DEVMETHOD(device_identify, ct_identify), DEVMETHOD(device_probe, ct_probe), DEVMETHOD(device_attach, ct_attach), DEVMETHOD(device_detach, ct_detach), {0, 0} }; typedef struct _ct_dma_mem_t { unsigned long phys; void *virt; size_t size; bus_dma_tag_t dmat; bus_dmamap_t mapp; } ct_dma_mem_t; typedef struct _drv_t { char name [8]; ct_chan_t *chan; ct_board_t *board; struct _bdrv_t *bd; ct_dma_mem_t dmamem; int running; #ifdef NETGRAPH char nodename [NG_NODESIZ]; hook_p hook; hook_p debug_hook; node_p node; struct ifqueue queue; struct ifqueue hi_queue; #else struct ifqueue queue; struct ifnet *ifp; #endif short timeout; struct callout timeout_handle; struct cdev *devt; } drv_t; typedef struct _bdrv_t { ct_board_t *board; struct resource *base_res; struct resource *drq_res; struct resource *irq_res; int base_rid; int drq_rid; int irq_rid; void *intrhand; drv_t channel [NCHAN]; struct mtx ct_mtx; } bdrv_t; static driver_t ct_isa_driver = { "ct", ct_isa_methods, sizeof (bdrv_t), }; static devclass_t ct_devclass; static void ct_receive (ct_chan_t *c, char *data, int len); static void ct_transmit (ct_chan_t *c, void *attachment, int len); static void ct_error (ct_chan_t *c, int data); static void ct_up (drv_t *d); static void ct_start (drv_t *d); static void ct_down (drv_t *d); static void ct_watchdog (drv_t *d); static void ct_watchdog_timer (void *arg); #ifdef NETGRAPH extern struct ng_type typestruct; #else static void ct_ifstart (struct ifnet *ifp); static void ct_tlf (struct sppp *sp); static void ct_tls (struct sppp *sp); static int ct_sioctl (struct ifnet *ifp, u_long cmd, caddr_t data); static void ct_initialize (void *softc); #endif static ct_board_t *adapter [NCTAU]; static drv_t *channel [NCTAU*NCHAN]; static struct callout led_timo [NCTAU]; static struct callout timeout_handle; static int ct_open (struct cdev *dev, int oflags, int devtype, struct thread *td); static int ct_close (struct cdev *dev, int fflag, int devtype, struct thread *td); static int ct_ioctl (struct cdev *dev, u_long cmd, caddr_t data, int flag, struct thread *td); static struct cdevsw ct_cdevsw = { .d_version = D_VERSION, .d_open = ct_open, .d_close = ct_close, .d_ioctl = ct_ioctl, .d_name = "ct", }; /* * Print the mbuf chain, for debug purposes only. */ static void printmbuf (struct mbuf *m) { printf ("mbuf:"); for (; m; m=m->m_next) { if (m->m_flags & M_PKTHDR) printf (" HDR %d:", m->m_pkthdr.len); if (m->m_flags & M_EXT) printf (" EXT:"); printf (" %d", m->m_len); } printf ("\n"); } /* * Make an mbuf from data. */ static struct mbuf *makembuf (void *buf, u_int len) { struct mbuf *m; MGETHDR (m, M_DONTWAIT, MT_DATA); if (! m) return 0; MCLGET (m, M_DONTWAIT); if (! (m->m_flags & M_EXT)) { m_freem (m); return 0; } m->m_pkthdr.len = m->m_len = len; bcopy (buf, mtod (m, caddr_t), len); return m; } static void ct_timeout (void *arg) { drv_t *d; int s, i, k; for (i = 0; i < NCTAU; ++i) { if (adapter[i] == NULL) continue; for (k = 0; k < NCHAN; k++) { d = channel[i * NCHAN + k]; if (! d) continue; if (d->chan->mode != M_G703) continue; s = splimp (); CT_LOCK ((bdrv_t *)d->bd); ct_g703_timer (d->chan); CT_UNLOCK ((bdrv_t *)d->bd); splx (s); } } callout_reset (&timeout_handle, hz, ct_timeout, 0); } static void ct_led_off (void *arg) { ct_board_t *b = arg; bdrv_t *bd = ((drv_t *)b->chan->sys)->bd; int s = splimp (); CT_LOCK (bd); ct_led (b, 0); CT_UNLOCK (bd); splx (s); } /* * Activate interrupt handler from DDK. */ static void ct_intr (void *arg) { bdrv_t *bd = arg; ct_board_t *b = bd->board; #ifndef NETGRAPH int i; #endif int s = splimp (); CT_LOCK (bd); /* Turn LED on. */ ct_led (b, 1); ct_int_handler (b); /* Turn LED off 50 msec later. */ callout_reset (&led_timo[b->num], hz/20, ct_led_off, b); CT_UNLOCK (bd); splx (s); #ifndef NETGRAPH /* Pass packets in a lock-free state */ for (i = 0; i < NCHAN && b->chan[i].type; i++) { drv_t *d = b->chan[i].sys; struct mbuf *m; if (!d || !d->running) continue; while (_IF_QLEN(&d->queue)) { IF_DEQUEUE (&d->queue,m); if (!m) continue; sppp_input (d->ifp, m); } } #endif } static int probe_irq (ct_board_t *b, int irq) { int mask, busy, cnt; /* Clear pending irq, if any. */ ct_probe_irq (b, -irq); DELAY (100); for (cnt=0; cnt<5; ++cnt) { /* Get the mask of pending irqs, assuming they are busy. * Activate the adapter on given irq. */ busy = ct_probe_irq (b, irq); DELAY (1000); /* Get the mask of active irqs. * Deactivate our irq. */ mask = ct_probe_irq (b, -irq); DELAY (100); if ((mask & ~busy) == 1 << irq) { ct_probe_irq (b, 0); /* printf ("ct%d: irq %d ok, mask=0x%04x, busy=0x%04x\n", b->num, irq, mask, busy); */ return 1; } } /* printf ("ct%d: irq %d not functional, mask=0x%04x, busy=0x%04x\n", b->num, irq, mask, busy); */ ct_probe_irq (b, 0); return 0; } static short porttab [] = { 0x200, 0x220, 0x240, 0x260, 0x280, 0x2a0, 0x2c0, 0x2e0, 0x300, 0x320, 0x340, 0x360, 0x380, 0x3a0, 0x3c0, 0x3e0, 0 }; static char dmatab [] = { 7, 6, 5, 0 }; static char irqtab [] = { 5, 10, 11, 7, 3, 15, 12, 0 }; static int ct_is_free_res (device_t dev, int rid, int type, u_long start, u_long end, u_long count) { struct resource *res; if (!(res = bus_alloc_resource (dev, type, &rid, start, end, count, RF_ALLOCATED))) return 0; bus_release_resource (dev, type, rid, res); return 1; } static void ct_identify (driver_t *driver, device_t dev) { u_long iobase, rescount; int devcount; device_t *devices; device_t child; devclass_t my_devclass; int i, k; if ((my_devclass = devclass_find ("ct")) == NULL) return; devclass_get_devices (my_devclass, &devices, &devcount); if (devcount == 0) { /* We should find all devices by our self. We could alter other * devices, but we don't have a choise */ for (i = 0; (iobase = porttab [i]) != 0; i++) { if (!ct_is_free_res (dev, 0, SYS_RES_IOPORT, iobase, iobase + NPORT, NPORT)) continue; if (ct_probe_board (iobase, -1, -1) == 0) continue; devcount++; child = BUS_ADD_CHILD (dev, ISA_ORDER_SPECULATIVE, "ct", -1); if (child == NULL) return; device_set_desc_copy (child, "Cronyx Tau-ISA"); device_set_driver (child, driver); bus_set_resource (child, SYS_RES_IOPORT, 0, iobase, NPORT); if (devcount >= NCTAU) break; } } else { static short porttab [] = { 0x200, 0x220, 0x240, 0x260, 0x280, 0x2a0, 0x2c0, 0x2e0, 0x300, 0x320, 0x340, 0x360, 0x380, 0x3a0, 0x3c0, 0x3e0, 0 }; /* Lets check user choise. */ for (k = 0; k < devcount; k++) { if (bus_get_resource (devices[k], SYS_RES_IOPORT, 0, &iobase, &rescount) != 0) continue; for (i = 0; porttab [i] != 0; i++) { if (porttab [i] != iobase) continue; if (!ct_is_free_res (devices[k], 0, SYS_RES_IOPORT, iobase, iobase + NPORT, NPORT)) continue; if (ct_probe_board (iobase, -1, -1) == 0) continue; porttab [i] = -1; device_set_desc_copy (devices[k], "Cronyx Tau-ISA"); break; } if (porttab [i] == 0) { device_delete_child ( device_get_parent (devices[k]), devices [k]); devices[k] = 0; continue; } } for (k = 0; k < devcount; k++) { if (devices[k] == 0) continue; if (bus_get_resource (devices[k], SYS_RES_IOPORT, 0, &iobase, &rescount) == 0) continue; for (i = 0; (iobase = porttab [i]) != 0; i++) { if (porttab [i] == -1) continue; if (!ct_is_free_res (devices[k], 0, SYS_RES_IOPORT, iobase, iobase + NPORT, NPORT)) continue; if (ct_probe_board (iobase, -1, -1) == 0) continue; bus_set_resource (devices[k], SYS_RES_IOPORT, 0, iobase, NPORT); porttab [i] = -1; device_set_desc_copy (devices[k], "Cronyx Tau-ISA"); break; } if (porttab [i] == 0) { device_delete_child ( device_get_parent (devices[k]), devices [k]); } } free (devices, M_TEMP); } return; } static int ct_probe (device_t dev) { int unit = device_get_unit (dev); u_long iobase, rescount; if (!device_get_desc (dev) || strcmp (device_get_desc (dev), "Cronyx Tau-ISA")) return ENXIO; /* KASSERT ((bd != NULL), ("ct%d: NULL device softc\n", unit));*/ if (bus_get_resource (dev, SYS_RES_IOPORT, 0, &iobase, &rescount) != 0) { printf ("ct%d: Couldn't get IOPORT\n", unit); return ENXIO; } if (!ct_is_free_res (dev, 0, SYS_RES_IOPORT, iobase, iobase + NPORT, NPORT)) { printf ("ct%d: Resource IOPORT isn't free\n", unit); return ENXIO; } if (!ct_probe_board (iobase, -1, -1)) { printf ("ct%d: probing for Tau-ISA at %lx faild\n", unit, iobase); return ENXIO; } return 0; } static void ct_bus_dmamap_addr (void *arg, bus_dma_segment_t *segs, int nseg, int error) { unsigned long *addr; if (error) return; KASSERT(nseg == 1, ("too many DMA segments, %d should be 1", nseg)); addr = arg; *addr = segs->ds_addr; } static int ct_bus_dma_mem_alloc (int bnum, int cnum, ct_dma_mem_t *dmem) { int error; error = bus_dma_tag_create (NULL, 16, 0, BUS_SPACE_MAXADDR_24BIT, BUS_SPACE_MAXADDR, NULL, NULL, dmem->size, 1, dmem->size, 0, NULL, NULL, &dmem->dmat); if (error) { if (cnum >= 0) printf ("ct%d-%d: ", bnum, cnum); else printf ("ct%d: ", bnum); printf ("couldn't allocate tag for dma memory\n"); return 0; } error = bus_dmamem_alloc (dmem->dmat, (void **)&dmem->virt, BUS_DMA_NOWAIT | BUS_DMA_ZERO, &dmem->mapp); if (error) { if (cnum >= 0) printf ("ct%d-%d: ", bnum, cnum); else printf ("ct%d: ", bnum); printf ("couldn't allocate mem for dma memory\n"); bus_dma_tag_destroy (dmem->dmat); return 0; } error = bus_dmamap_load (dmem->dmat, dmem->mapp, dmem->virt, dmem->size, ct_bus_dmamap_addr, &dmem->phys, 0); if (error) { if (cnum >= 0) printf ("ct%d-%d: ", bnum, cnum); else printf ("ct%d: ", bnum); printf ("couldn't load mem map for dma memory\n"); bus_dmamem_free (dmem->dmat, dmem->virt, dmem->mapp); bus_dma_tag_destroy (dmem->dmat); return 0; } return 1; } static void ct_bus_dma_mem_free (ct_dma_mem_t *dmem) { bus_dmamap_unload (dmem->dmat, dmem->mapp); bus_dmamem_free (dmem->dmat, dmem->virt, dmem->mapp); bus_dma_tag_destroy (dmem->dmat); } /* * The adapter is present, initialize the driver structures. */ static int ct_attach (device_t dev) { bdrv_t *bd = device_get_softc (dev); u_long iobase, drq, irq, rescount; int unit = device_get_unit (dev); char *ct_ln = CT_LOCK_NAME; ct_board_t *b; ct_chan_t *c; drv_t *d; int i; int s; KASSERT ((bd != NULL), ("ct%d: NULL device softc\n", unit)); bus_get_resource (dev, SYS_RES_IOPORT, 0, &iobase, &rescount); bd->base_rid = 0; bd->base_res = bus_alloc_resource (dev, SYS_RES_IOPORT, &bd->base_rid, iobase, iobase + NPORT, NPORT, RF_ACTIVE); if (! bd->base_res) { printf ("ct%d: cannot alloc base address\n", unit); return ENXIO; } if (bus_get_resource (dev, SYS_RES_DRQ, 0, &drq, &rescount) != 0) { for (i = 0; (drq = dmatab [i]) != 0; i++) { if (!ct_is_free_res (dev, 0, SYS_RES_DRQ, drq, drq + 1, 1)) continue; bus_set_resource (dev, SYS_RES_DRQ, 0, drq, 1); break; } if (dmatab[i] == 0) { bus_release_resource (dev, SYS_RES_IOPORT, bd->base_rid, bd->base_res); printf ("ct%d: Couldn't get DRQ\n", unit); return ENXIO; } } bd->drq_rid = 0; bd->drq_res = bus_alloc_resource (dev, SYS_RES_DRQ, &bd->drq_rid, drq, drq + 1, 1, RF_ACTIVE); if (! bd->drq_res) { printf ("ct%d: cannot allocate drq\n", unit); bus_release_resource (dev, SYS_RES_IOPORT, bd->base_rid, bd->base_res); return ENXIO; } if (bus_get_resource (dev, SYS_RES_IRQ, 0, &irq, &rescount) != 0) { for (i = 0; (irq = irqtab [i]) != 0; i++) { if (!ct_is_free_res (dev, 0, SYS_RES_IRQ, irq, irq + 1, 1)) continue; bus_set_resource (dev, SYS_RES_IRQ, 0, irq, 1); break; } if (irqtab[i] == 0) { bus_release_resource (dev, SYS_RES_DRQ, bd->drq_rid, bd->drq_res); bus_release_resource (dev, SYS_RES_IOPORT, bd->base_rid, bd->base_res); printf ("ct%d: Couldn't get IRQ\n", unit); return ENXIO; } } bd->irq_rid = 0; bd->irq_res = bus_alloc_resource (dev, SYS_RES_IRQ, &bd->irq_rid, irq, irq + 1, 1, RF_ACTIVE); if (! bd->irq_res) { printf ("ct%d: Couldn't allocate irq\n", unit); bus_release_resource (dev, SYS_RES_DRQ, bd->drq_rid, bd->drq_res); bus_release_resource (dev, SYS_RES_IOPORT, bd->base_rid, bd->base_res); return ENXIO; } b = malloc (sizeof (ct_board_t), M_DEVBUF, M_WAITOK); if (!b) { printf ("ct:%d: Couldn't allocate memory\n", unit); return (ENXIO); } adapter[unit] = b; bzero (b, sizeof(ct_board_t)); if (! ct_open_board (b, unit, iobase, irq, drq)) { printf ("ct%d: error loading firmware\n", unit); free (b, M_DEVBUF); bus_release_resource (dev, SYS_RES_IRQ, bd->irq_rid, bd->irq_res); bus_release_resource (dev, SYS_RES_DRQ, bd->drq_rid, bd->drq_res); bus_release_resource (dev, SYS_RES_IOPORT, bd->base_rid, bd->base_res); return ENXIO; } bd->board = b; ct_ln[2] = '0' + unit; mtx_init (&bd->ct_mtx, ct_ln, MTX_NETWORK_LOCK, MTX_DEF|MTX_RECURSE); if (! probe_irq (b, irq)) { printf ("ct%d: irq %ld not functional\n", unit, irq); bd->board = 0; adapter [unit] = 0; free (b, M_DEVBUF); bus_release_resource (dev, SYS_RES_IRQ, bd->irq_rid, bd->irq_res); bus_release_resource (dev, SYS_RES_DRQ, bd->drq_rid, bd->drq_res); bus_release_resource (dev, SYS_RES_IOPORT, bd->base_rid, bd->base_res); mtx_destroy (&bd->ct_mtx); return ENXIO; } callout_init (&led_timo[unit], CALLOUT_MPSAFE); s = splimp (); if (bus_setup_intr (dev, bd->irq_res, INTR_TYPE_NET|INTR_MPSAFE, NULL, ct_intr, bd, &bd->intrhand)) { printf ("ct%d: Can't setup irq %ld\n", unit, irq); bd->board = 0; adapter [unit] = 0; free (b, M_DEVBUF); bus_release_resource (dev, SYS_RES_IRQ, bd->irq_rid, bd->irq_res); bus_release_resource (dev, SYS_RES_DRQ, bd->drq_rid, bd->drq_res); bus_release_resource (dev, SYS_RES_IOPORT, bd->base_rid, bd->base_res); mtx_destroy (&bd->ct_mtx); splx (s); return ENXIO; } CT_LOCK (bd); ct_init_board (b, b->num, b->port, irq, drq, b->type, b->osc); ct_setup_board (b, 0, 0, 0); CT_UNLOCK (bd); printf ("ct%d: <Cronyx-%s>, clock %s MHz\n", b->num, b->name, b->osc == 20000000 ? "20" : "16.384"); for (c = b->chan; c < b->chan + NCHAN; ++c) { d = &bd->channel[c->num]; d->dmamem.size = sizeof(ct_buf_t); if (! ct_bus_dma_mem_alloc (unit, c->num, &d->dmamem)) continue; d->board = b; d->chan = c; d->bd = bd; c->sys = d; channel [b->num*NCHAN + c->num] = d; sprintf (d->name, "ct%d.%d", b->num, c->num); callout_init (&d->timeout_handle, CALLOUT_MPSAFE); #ifdef NETGRAPH if (ng_make_node_common (&typestruct, &d->node) != 0) { printf ("%s: cannot make common node\n", d->name); channel [b->num*NCHAN + c->num] = 0; c->sys = 0; ct_bus_dma_mem_free (&d->dmamem); continue; } NG_NODE_SET_PRIVATE (d->node, d); sprintf (d->nodename, "%s%d", NG_CT_NODE_TYPE, c->board->num*NCHAN + c->num); if (ng_name_node (d->node, d->nodename)) { printf ("%s: cannot name node\n", d->nodename); NG_NODE_UNREF (d->node); channel [b->num*NCHAN + c->num] = 0; c->sys = 0; ct_bus_dma_mem_free (&d->dmamem); continue; } d->queue.ifq_maxlen = ifqmaxlen; d->hi_queue.ifq_maxlen = ifqmaxlen; mtx_init (&d->queue.ifq_mtx, "ct_queue", NULL, MTX_DEF); mtx_init (&d->hi_queue.ifq_mtx, "ct_queue_hi", NULL, MTX_DEF); #else /*NETGRAPH*/ d->ifp = if_alloc(IFT_PPP); if (d->ifp == NULL) { printf ("%s: cannot if_alloc common interface\n", d->name); channel [b->num*NCHAN + c->num] = 0; c->sys = 0; ct_bus_dma_mem_free (&d->dmamem); continue; } d->ifp->if_softc = d; if_initname (d->ifp, "ct", b->num * NCHAN + c->num); d->ifp->if_mtu = PP_MTU; d->ifp->if_flags = IFF_POINTOPOINT | IFF_MULTICAST; d->ifp->if_ioctl = ct_sioctl; d->ifp->if_start = ct_ifstart; d->ifp->if_init = ct_initialize; d->queue.ifq_maxlen = NBUF; mtx_init (&d->queue.ifq_mtx, "ct_queue", NULL, MTX_DEF); sppp_attach (d->ifp); if_attach (d->ifp); IFP2SP(d->ifp)->pp_tlf = ct_tlf; IFP2SP(d->ifp)->pp_tls = ct_tls; /* If BPF is in the kernel, call the attach for it. * Header size is 4 bytes. */ bpfattach (d->ifp, DLT_PPP, 4); #endif /*NETGRAPH*/ CT_LOCK (bd); ct_start_chan (c, d->dmamem.virt, d->dmamem.phys); ct_register_receive (c, &ct_receive); ct_register_transmit (c, &ct_transmit); ct_register_error (c, &ct_error); CT_UNLOCK (bd); d->devt = make_dev (&ct_cdevsw, b->num*NCHAN+c->num, UID_ROOT, GID_WHEEL, 0600, "ct%d", b->num*NCHAN+c->num); } splx (s); return 0; } static int ct_detach (device_t dev) { bdrv_t *bd = device_get_softc (dev); ct_board_t *b = bd->board; ct_chan_t *c; int s; KASSERT (mtx_initialized (&bd->ct_mtx), ("ct mutex not initialized")); s = splimp (); CT_LOCK (bd); /* Check if the device is busy (open). */ for (c = b->chan; c < b->chan + NCHAN; ++c) { drv_t *d = (drv_t*) c->sys; if (!d || !d->chan->type) continue; if (d->running) { CT_UNLOCK (bd); splx (s); return EBUSY; } } /* Deactivate the timeout routine. */ callout_stop (&led_timo[b->num]); CT_UNLOCK (bd); bus_teardown_intr (dev, bd->irq_res, bd->intrhand); bus_release_resource (dev, SYS_RES_IRQ, bd->irq_rid, bd->irq_res); bus_release_resource (dev, SYS_RES_DRQ, bd->drq_rid, bd->drq_res); bus_release_resource (dev, SYS_RES_IOPORT, bd->base_rid, bd->base_res); CT_LOCK (bd); ct_close_board (b); CT_UNLOCK (bd); /* Detach the interfaces, free buffer memory. */ for (c = b->chan; c < b->chan + NCHAN; ++c) { drv_t *d = (drv_t*) c->sys; if (!d || !d->chan->type) continue; callout_stop (&d->timeout_handle); #ifdef NETGRAPH if (d->node) { ng_rmnode_self (d->node); NG_NODE_UNREF (d->node); d->node = NULL; } mtx_destroy (&d->queue.ifq_mtx); mtx_destroy (&d->hi_queue.ifq_mtx); #else /* Detach from the packet filter list of interfaces. */ bpfdetach (d->ifp); /* Detach from the sync PPP list. */ sppp_detach (d->ifp); if_detach (d->ifp); if_free (d->ifp); IF_DRAIN (&d->queue); mtx_destroy (&d->queue.ifq_mtx); #endif destroy_dev (d->devt); } CT_LOCK (bd); ct_led_off (b); CT_UNLOCK (bd); callout_drain (&led_timo[b->num]); splx (s); for (c = b->chan; c < b->chan + NCHAN; ++c) { drv_t *d = (drv_t*) c->sys; if (!d || !d->chan->type) continue; callout_drain(&d->timeout_handle); /* Deallocate buffers. */ ct_bus_dma_mem_free (&d->dmamem); } bd->board = 0; adapter [b->num] = 0; free (b, M_DEVBUF); mtx_destroy (&bd->ct_mtx); return 0; } #ifndef NETGRAPH static void ct_ifstart (struct ifnet *ifp) { drv_t *d = ifp->if_softc; bdrv_t *bd = d->bd; CT_LOCK (bd); ct_start (d); CT_UNLOCK (bd); } static void ct_tlf (struct sppp *sp) { drv_t *d = SP2IFP(sp)->if_softc; CT_DEBUG (d, ("ct_tlf\n")); /* ct_set_dtr (d->chan, 0);*/ /* ct_set_rts (d->chan, 0);*/ if (!(sp->pp_flags & PP_FR) && !(d->ifp->if_flags & PP_CISCO)) sp->pp_down (sp); } static void ct_tls (struct sppp *sp) { drv_t *d = SP2IFP(sp)->if_softc; CT_DEBUG (d, ("ct_tls\n")); if (!(sp->pp_flags & PP_FR) && !(d->ifp->if_flags & PP_CISCO)) sp->pp_up (sp); } /* * Initialization of interface. * Ii seems to be never called by upper level. */ static void ct_initialize (void *softc) { drv_t *d = softc; CT_DEBUG (d, ("ct_initialize\n")); } /* * Process an ioctl request. */ static int ct_sioctl (struct ifnet *ifp, u_long cmd, caddr_t data) { drv_t *d = ifp->if_softc; bdrv_t *bd = d->bd; int error, s, was_up, should_be_up; was_up = (ifp->if_drv_flags & IFF_DRV_RUNNING) != 0; error = sppp_ioctl (ifp, cmd, data); if (error) return error; if (! (ifp->if_flags & IFF_DEBUG)) d->chan->debug = 0; else d->chan->debug = d->chan->debug_shadow; switch (cmd) { default: CT_DEBUG2 (d, ("ioctl 0x%lx\n", cmd)); return 0; case SIOCADDMULTI: CT_DEBUG2 (d, ("SIOCADDMULTI\n")); return 0; case SIOCDELMULTI: CT_DEBUG2 (d, ("SIOCDELMULTI\n")); return 0; case SIOCSIFFLAGS: CT_DEBUG2 (d, ("SIOCSIFFLAGS\n")); break; case SIOCSIFADDR: CT_DEBUG2 (d, ("SIOCSIFADDR\n")); break; } /* We get here only in case of SIFFLAGS or SIFADDR. */ s = splimp (); CT_LOCK (bd); should_be_up = (ifp->if_drv_flags & IFF_DRV_RUNNING) != 0; if (! was_up && should_be_up) { /* Interface goes up -- start it. */ ct_up (d); ct_start (d); } else if (was_up && ! should_be_up) { /* Interface is going down -- stop it. */ /* if ((IFP2SP(d->ifp)->pp_flags & PP_FR) || (ifp->if_flags & PP_CISCO))*/ ct_down (d); } CT_UNLOCK (bd); splx (s); return 0; } #endif /*NETGRAPH*/ /* * Stop the interface. Called on splimp(). */ static void ct_down (drv_t *d) { int s = splimp (); CT_DEBUG (d, ("ct_down\n")); ct_set_dtr (d->chan, 0); ct_set_rts (d->chan, 0); d->running = 0; callout_stop (&d->timeout_handle); splx (s); } /* * Start the interface. Called on splimp(). */ static void ct_up (drv_t *d) { int s = splimp (); CT_DEBUG (d, ("ct_up\n")); ct_set_dtr (d->chan, 1); ct_set_rts (d->chan, 1); d->running = 1; splx (s); } /* * Start output on the (slave) interface. Get another datagram to send * off of the interface queue, and copy it to the interface * before starting the output. */ static void ct_send (drv_t *d) { struct mbuf *m; u_short len; CT_DEBUG2 (d, ("ct_send, tn=%d\n", d->chan->tn)); /* No output if the interface is down. */ if (! d->running) return; /* No output if the modem is off. */ if (! ct_get_dsr (d->chan) && !ct_get_loop (d->chan)) return; while (ct_buf_free (d->chan)) { /* Get the packet to send. */ #ifdef NETGRAPH IF_DEQUEUE (&d->hi_queue, m); if (! m) IF_DEQUEUE (&d->queue, m); #else m = sppp_dequeue (d->ifp); #endif if (! m) return; #ifndef NETGRAPH BPF_MTAP (d->ifp, m); #endif len = m_length (m, NULL); if (! m->m_next) ct_send_packet (d->chan, (u_char*)mtod (m, caddr_t), len, 0); else { m_copydata (m, 0, len, d->chan->tbuf[d->chan->te]); ct_send_packet (d->chan, d->chan->tbuf[d->chan->te], len, 0); } m_freem (m); /* Set up transmit timeout, if the transmit ring is not empty. * Transmit timeout is 10 seconds. */ d->timeout = 10; } #ifndef NETGRAPH d->ifp->if_drv_flags |= IFF_DRV_OACTIVE; #endif } /* * Start output on the interface. * Always called on splimp(). */ static void ct_start (drv_t *d) { int s = splimp (); if (d->running) { if (! d->chan->dtr) ct_set_dtr (d->chan, 1); if (! d->chan->rts) ct_set_rts (d->chan, 1); ct_send (d); callout_reset (&d->timeout_handle, hz, ct_watchdog_timer, d); } splx (s); } /* * Handle transmit timeouts. * Recover after lost transmit interrupts. * Always called on splimp(). */ static void ct_watchdog (drv_t *d) { CT_DEBUG (d, ("device timeout\n")); if (d->running) { ct_setup_chan (d->chan); ct_start_chan (d->chan, 0, 0); ct_set_dtr (d->chan, 1); ct_set_rts (d->chan, 1); ct_start (d); } } static void ct_watchdog_timer (void *arg) { drv_t *d = arg; bdrv_t *bd = d->bd; CT_LOCK (bd); if (d->timeout == 1) ct_watchdog (d); if (d->timeout) d->timeout--; callout_reset (&d->timeout_handle, hz, ct_watchdog_timer, d); CT_UNLOCK (bd); } /* * Transmit callback function. */ static void ct_transmit (ct_chan_t *c, void *attachment, int len) { drv_t *d = c->sys; if (!d) return; d->timeout = 0; #ifndef NETGRAPH ++d->ifp->if_opackets; d->ifp->if_drv_flags &= ~IFF_DRV_OACTIVE; #endif ct_start (d); } /* * Process the received packet. */ static void ct_receive (ct_chan_t *c, char *data, int len) { drv_t *d = c->sys; struct mbuf *m; #ifdef NETGRAPH int error; #endif if (!d || !d->running) return; m = makembuf (data, len); if (! m) { CT_DEBUG (d, ("no memory for packet\n")); #ifndef NETGRAPH ++d->ifp->if_iqdrops; #endif return; } if (c->debug > 1) printmbuf (m); #ifdef NETGRAPH m->m_pkthdr.rcvif = 0; NG_SEND_DATA_ONLY (error, d->hook, m); #else ++d->ifp->if_ipackets; m->m_pkthdr.rcvif = d->ifp; /* Check if there's a BPF listener on this interface. * If so, hand off the raw packet to bpf. */ BPF_TAP (d->ifp, data, len); IF_ENQUEUE (&d->queue, m); #endif } /* * Error callback function. */ static void ct_error (ct_chan_t *c, int data) { drv_t *d = c->sys; if (!d) return; switch (data) { case CT_FRAME: CT_DEBUG (d, ("frame error\n")); #ifndef NETGRAPH ++d->ifp->if_ierrors; #endif break; case CT_CRC: CT_DEBUG (d, ("crc error\n")); #ifndef NETGRAPH ++d->ifp->if_ierrors; #endif break; case CT_OVERRUN: CT_DEBUG (d, ("overrun error\n")); #ifndef NETGRAPH ++d->ifp->if_collisions; ++d->ifp->if_ierrors; #endif break; case CT_OVERFLOW: CT_DEBUG (d, ("overflow error\n")); #ifndef NETGRAPH ++d->ifp->if_ierrors; #endif break; case CT_UNDERRUN: CT_DEBUG (d, ("underrun error\n")); d->timeout = 0; #ifndef NETGRAPH ++d->ifp->if_oerrors; d->ifp->if_drv_flags &= ~IFF_DRV_OACTIVE; #endif ct_start (d); break; default: CT_DEBUG (d, ("error #%d\n", data)); } } static int ct_open (struct cdev *dev, int oflags, int devtype, struct thread *td) { drv_t *d; if (dev2unit(dev) >= NCTAU*NCHAN || ! (d = channel[dev2unit(dev)])) return ENXIO; CT_DEBUG2 (d, ("ct_open\n")); return 0; } static int ct_close (struct cdev *dev, int fflag, int devtype, struct thread *td) { drv_t *d = channel [dev2unit(dev)]; if (!d) return 0; CT_DEBUG2 (d, ("ct_close\n")); return 0; } static int ct_modem_status (ct_chan_t *c) { drv_t *d = c->sys; bdrv_t *bd; int status, s; if (!d) return 0; bd = d->bd; status = d->running ? TIOCM_LE : 0; s = splimp (); CT_LOCK (bd); if (ct_get_cd (c)) status |= TIOCM_CD; if (ct_get_cts (c)) status |= TIOCM_CTS; if (ct_get_dsr (c)) status |= TIOCM_DSR; if (c->dtr) status |= TIOCM_DTR; if (c->rts) status |= TIOCM_RTS; CT_UNLOCK (bd); splx (s); return status; } /* * Process an ioctl request on /dev/cronyx/ctauN. */ static int ct_ioctl (struct cdev *dev, u_long cmd, caddr_t data, int flag, struct thread *td) { drv_t *d = channel [dev2unit (dev)]; bdrv_t *bd; ct_chan_t *c; struct serial_statistics *st; struct e1_statistics *opte1; int error, s; char mask[16]; if (!d || !d->chan) return 0; bd = d->bd; c = d->chan; switch (cmd) { case SERIAL_GETREGISTERED: bzero (mask, sizeof(mask)); for (s=0; s<NCTAU*NCHAN; ++s) if (channel [s]) mask [s/8] |= 1 << (s & 7); bcopy (mask, data, sizeof (mask)); return 0; #ifndef NETGRAPH case SERIAL_GETPROTO: strcpy ((char*)data, (IFP2SP(d->ifp)->pp_flags & PP_FR) ? "fr" : (d->ifp->if_flags & PP_CISCO) ? "cisco" : "ppp"); return 0; case SERIAL_SETPROTO: /* Only for superuser! */ error = priv_check (td, PRIV_DRIVER); if (error) return error; if (d->ifp->if_drv_flags & IFF_DRV_RUNNING) return EBUSY; if (! strcmp ("cisco", (char*)data)) { IFP2SP(d->ifp)->pp_flags &= ~(PP_FR); IFP2SP(d->ifp)->pp_flags |= PP_KEEPALIVE; d->ifp->if_flags |= PP_CISCO; } else if (! strcmp ("fr", (char*)data)) { d->ifp->if_flags &= ~(PP_CISCO); IFP2SP(d->ifp)->pp_flags |= PP_FR | PP_KEEPALIVE; } else if (! strcmp ("ppp", (char*)data)) { IFP2SP(d->ifp)->pp_flags &= ~(PP_FR | PP_KEEPALIVE); d->ifp->if_flags &= ~(PP_CISCO); } else return EINVAL; return 0; case SERIAL_GETKEEPALIVE: if ((IFP2SP(d->ifp)->pp_flags & PP_FR) || (d->ifp->if_flags & PP_CISCO)) return EINVAL; *(int*)data = (IFP2SP(d->ifp)->pp_flags & PP_KEEPALIVE) ? 1 : 0; return 0; case SERIAL_SETKEEPALIVE: /* Only for superuser! */ error = priv_check (td, PRIV_DRIVER); if (error) return error; if ((IFP2SP(d->ifp)->pp_flags & PP_FR) || (d->ifp->if_flags & PP_CISCO)) return EINVAL; if (*(int*)data) IFP2SP(d->ifp)->pp_flags |= PP_KEEPALIVE; else IFP2SP(d->ifp)->pp_flags &= ~PP_KEEPALIVE; return 0; #endif /*NETGRAPH*/ case SERIAL_GETMODE: *(int*)data = SERIAL_HDLC; return 0; case SERIAL_GETCFG: if (c->mode == M_HDLC) return EINVAL; switch (ct_get_config (c->board)) { default: *(char*)data = 'a'; break; case CFG_B: *(char*)data = 'b'; break; case CFG_C: *(char*)data = 'c'; break; } return 0; case SERIAL_SETCFG: /* Only for superuser! */ error = priv_check (td, PRIV_DRIVER); if (error) return error; if (c->mode == M_HDLC) return EINVAL; s = splimp (); CT_LOCK (bd); switch (*(char*)data) { case 'a': ct_set_config (c->board, CFG_A); break; case 'b': ct_set_config (c->board, CFG_B); break; case 'c': ct_set_config (c->board, CFG_C); break; } CT_UNLOCK (bd); splx (s); return 0; case SERIAL_GETSTAT: st = (struct serial_statistics*) data; st->rintr = c->rintr; st->tintr = c->tintr; st->mintr = c->mintr; st->ibytes = c->ibytes; st->ipkts = c->ipkts; st->ierrs = c->ierrs; st->obytes = c->obytes; st->opkts = c->opkts; st->oerrs = c->oerrs; return 0; case SERIAL_GETESTAT: opte1 = (struct e1_statistics*)data; opte1->status = c->status; opte1->cursec = c->cursec; opte1->totsec = c->totsec + c->cursec; opte1->currnt.bpv = c->currnt.bpv; opte1->currnt.fse = c->currnt.fse; opte1->currnt.crce = c->currnt.crce; opte1->currnt.rcrce = c->currnt.rcrce; opte1->currnt.uas = c->currnt.uas; opte1->currnt.les = c->currnt.les; opte1->currnt.es = c->currnt.es; opte1->currnt.bes = c->currnt.bes; opte1->currnt.ses = c->currnt.ses; opte1->currnt.oofs = c->currnt.oofs; opte1->currnt.css = c->currnt.css; opte1->currnt.dm = c->currnt.dm; opte1->total.bpv = c->total.bpv + c->currnt.bpv; opte1->total.fse = c->total.fse + c->currnt.fse; opte1->total.crce = c->total.crce + c->currnt.crce; opte1->total.rcrce = c->total.rcrce + c->currnt.rcrce; opte1->total.uas = c->total.uas + c->currnt.uas; opte1->total.les = c->total.les + c->currnt.les; opte1->total.es = c->total.es + c->currnt.es; opte1->total.bes = c->total.bes + c->currnt.bes; opte1->total.ses = c->total.ses + c->currnt.ses; opte1->total.oofs = c->total.oofs + c->currnt.oofs; opte1->total.css = c->total.css + c->currnt.css; opte1->total.dm = c->total.dm + c->currnt.dm; for (s=0; s<48; ++s) { opte1->interval[s].bpv = c->interval[s].bpv; opte1->interval[s].fse = c->interval[s].fse; opte1->interval[s].crce = c->interval[s].crce; opte1->interval[s].rcrce = c->interval[s].rcrce; opte1->interval[s].uas = c->interval[s].uas; opte1->interval[s].les = c->interval[s].les; opte1->interval[s].es = c->interval[s].es; opte1->interval[s].bes = c->interval[s].bes; opte1->interval[s].ses = c->interval[s].ses; opte1->interval[s].oofs = c->interval[s].oofs; opte1->interval[s].css = c->interval[s].css; opte1->interval[s].dm = c->interval[s].dm; } return 0; case SERIAL_CLRSTAT: /* Only for superuser! */ error = priv_check (td, PRIV_DRIVER); if (error) return error; c->rintr = 0; c->tintr = 0; c->mintr = 0; c->ibytes = 0; c->ipkts = 0; c->ierrs = 0; c->obytes = 0; c->opkts = 0; c->oerrs = 0; bzero (&c->currnt, sizeof (c->currnt)); bzero (&c->total, sizeof (c->total)); bzero (c->interval, sizeof (c->interval)); return 0; case SERIAL_GETBAUD: *(long*)data = ct_get_baud(c); return 0; case SERIAL_SETBAUD: /* Only for superuser! */ error = priv_check (td, PRIV_DRIVER); if (error) return error; s = splimp (); CT_LOCK (bd); ct_set_baud (c, *(long*)data); CT_UNLOCK (bd); splx (s); return 0; case SERIAL_GETLOOP: *(int*)data = ct_get_loop (c); return 0; case SERIAL_SETLOOP: /* Only for superuser! */ error = priv_check (td, PRIV_DRIVER); if (error) return error; s = splimp (); CT_LOCK (bd); ct_set_loop (c, *(int*)data); CT_UNLOCK (bd); splx (s); return 0; case SERIAL_GETDPLL: if (c->mode == M_E1 || c->mode == M_G703) return EINVAL; *(int*)data = ct_get_dpll (c); return 0; case SERIAL_SETDPLL: /* Only for superuser! */ error = priv_check (td, PRIV_DRIVER); if (error) return error; if (c->mode == M_E1 || c->mode == M_G703) return EINVAL; s = splimp (); CT_LOCK (bd); ct_set_dpll (c, *(int*)data); CT_UNLOCK (bd); splx (s); return 0; case SERIAL_GETNRZI: if (c->mode == M_E1 || c->mode == M_G703) return EINVAL; *(int*)data = ct_get_nrzi (c); return 0; case SERIAL_SETNRZI: /* Only for superuser! */ error = priv_check (td, PRIV_DRIVER); if (error) return error; if (c->mode == M_E1 || c->mode == M_G703) return EINVAL; s = splimp (); CT_LOCK (bd); ct_set_nrzi (c, *(int*)data); CT_UNLOCK (bd); splx (s); return 0; case SERIAL_GETDEBUG: *(int*)data = c->debug; return 0; case SERIAL_SETDEBUG: /* Only for superuser! */ error = priv_check (td, PRIV_DRIVER); if (error) return error; #ifndef NETGRAPH /* * The debug_shadow is always greater than zero for logic * simplicity. For switching debug off the IFF_DEBUG is * responsible. */ c->debug_shadow = (*(int*)data) ? (*(int*)data) : 1; if (d->ifp->if_flags & IFF_DEBUG) c->debug = c->debug_shadow; #else c->debug = *(int*)data; #endif return 0; case SERIAL_GETHIGAIN: if (c->mode != M_E1) return EINVAL; *(int*)data = ct_get_higain (c); return 0; case SERIAL_SETHIGAIN: /* Only for superuser! */ error = priv_check (td, PRIV_DRIVER); if (error) return error; s = splimp (); CT_LOCK (bd); ct_set_higain (c, *(int*)data); CT_UNLOCK (bd); splx (s); return 0; case SERIAL_GETPHONY: CT_DEBUG2 (d, ("ioctl: getphony\n")); if (c->mode != M_E1) return EINVAL; *(int*)data = c->gopt.phony; return 0; case SERIAL_SETPHONY: CT_DEBUG2 (d, ("ioctl: setphony\n")); if (c->mode != M_E1) return EINVAL; /* Only for superuser! */ error = priv_check (td, PRIV_DRIVER); if (error) return error; s = splimp (); CT_LOCK (bd); ct_set_phony (c, *(int*)data); CT_UNLOCK (bd); splx (s); return 0; case SERIAL_GETCLK: if (c->mode != M_E1 && c->mode != M_G703) return EINVAL; switch (ct_get_clk(c)) { default: *(int*)data = E1CLK_INTERNAL; break; case GCLK_RCV: *(int*)data = E1CLK_RECEIVE; break; case GCLK_RCLKO: *(int*)data = c->num ? E1CLK_RECEIVE_CHAN0 : E1CLK_RECEIVE_CHAN1; break; } return 0; case SERIAL_SETCLK: /* Only for superuser! */ error = priv_check (td, PRIV_DRIVER); if (error) return error; s = splimp (); CT_LOCK (bd); switch (*(int*)data) { default: ct_set_clk (c, GCLK_INT); break; case E1CLK_RECEIVE: ct_set_clk (c, GCLK_RCV); break; case E1CLK_RECEIVE_CHAN0: case E1CLK_RECEIVE_CHAN1: ct_set_clk (c, GCLK_RCLKO); break; } CT_UNLOCK (bd); splx (s); return 0; case SERIAL_GETTIMESLOTS: if (c->mode != M_E1) return EINVAL; *(long*)data = ct_get_ts (c); return 0; case SERIAL_SETTIMESLOTS: /* Only for superuser! */ error = priv_check (td, PRIV_DRIVER); if (error) return error; s = splimp (); CT_LOCK (bd); ct_set_ts (c, *(long*)data); CT_UNLOCK (bd); splx (s); return 0; case SERIAL_GETSUBCHAN: if (c->mode != M_E1) return EINVAL; *(long*)data = ct_get_subchan (c->board); return 0; case SERIAL_SETSUBCHAN: /* Only for superuser! */ error = priv_check (td, PRIV_DRIVER); if (error) return error; s = splimp (); CT_LOCK (bd); ct_set_subchan (c->board, *(long*)data); CT_UNLOCK (bd); splx (s); return 0; case SERIAL_GETINVCLK: case SERIAL_GETINVTCLK: if (c->mode == M_E1 || c->mode == M_G703) return EINVAL; *(int*)data = ct_get_invtxc (c); return 0; case SERIAL_GETINVRCLK: if (c->mode == M_E1 || c->mode == M_G703) return EINVAL; *(int*)data = ct_get_invrxc (c); return 0; case SERIAL_SETINVCLK: case SERIAL_SETINVTCLK: /* Only for superuser! */ error = priv_check (td, PRIV_DRIVER); if (error) return error; if (c->mode == M_E1 || c->mode == M_G703) return EINVAL; s = splimp (); CT_LOCK (bd); ct_set_invtxc (c, *(int*)data); CT_UNLOCK (bd); splx (s); return 0; case SERIAL_SETINVRCLK: /* Only for superuser! */ error = priv_check (td, PRIV_DRIVER); if (error) return error; if (c->mode == M_E1 || c->mode == M_G703) return EINVAL; s = splimp (); CT_LOCK (bd); ct_set_invrxc (c, *(int*)data); CT_UNLOCK (bd); splx (s); return 0; case SERIAL_GETLEVEL: if (c->mode != M_G703) return EINVAL; s = splimp (); CT_LOCK (bd); *(int*)data = ct_get_lq (c); CT_UNLOCK (bd); splx (s); return 0; case TIOCSDTR: /* Set DTR */ s = splimp (); CT_LOCK (bd); ct_set_dtr (c, 1); CT_UNLOCK (bd); splx (s); return 0; case TIOCCDTR: /* Clear DTR */ s = splimp (); CT_LOCK (bd); ct_set_dtr (c, 0); CT_UNLOCK (bd); splx (s); return 0; case TIOCMSET: /* Set DTR/RTS */ s = splimp (); CT_LOCK (bd); ct_set_dtr (c, (*(int*)data & TIOCM_DTR) ? 1 : 0); ct_set_rts (c, (*(int*)data & TIOCM_RTS) ? 1 : 0); CT_UNLOCK (bd); splx (s); return 0; case TIOCMBIS: /* Add DTR/RTS */ s = splimp (); CT_LOCK (bd); if (*(int*)data & TIOCM_DTR) ct_set_dtr (c, 1); if (*(int*)data & TIOCM_RTS) ct_set_rts (c, 1); CT_UNLOCK (bd); splx (s); return 0; case TIOCMBIC: /* Clear DTR/RTS */ s = splimp (); CT_LOCK (bd); if (*(int*)data & TIOCM_DTR) ct_set_dtr (c, 0); if (*(int*)data & TIOCM_RTS) ct_set_rts (c, 0); CT_UNLOCK (bd); splx (s); return 0; case TIOCMGET: /* Get modem status */ *(int*)data = ct_modem_status (c); return 0; } return ENOTTY; } #ifdef NETGRAPH static int ng_ct_constructor (node_p node) { drv_t *d = NG_NODE_PRIVATE (node); CT_DEBUG (d, ("Constructor\n")); return EINVAL; } static int ng_ct_newhook (node_p node, hook_p hook, const char *name) { int s; drv_t *d = NG_NODE_PRIVATE (node); if (!d) return EINVAL; bdrv_t *bd = d->bd; /* Attach debug hook */ if (strcmp (name, NG_CT_HOOK_DEBUG) == 0) { NG_HOOK_SET_PRIVATE (hook, NULL); d->debug_hook = hook; return 0; } /* Check for raw hook */ if (strcmp (name, NG_CT_HOOK_RAW) != 0) return EINVAL; NG_HOOK_SET_PRIVATE (hook, d); d->hook = hook; s = splimp (); CT_LOCK (bd); ct_up (d); CT_UNLOCK (bd); splx (s); return 0; } static char *format_timeslots (u_long s) { static char buf [100]; char *p = buf; int i; for (i=1; i<32; ++i) if ((s >> i) & 1) { int prev = (i > 1) & (s >> (i-1)); int next = (i < 31) & (s >> (i+1)); if (prev) { if (next) continue; *p++ = '-'; } else if (p > buf) *p++ = ','; if (i >= 10) *p++ = '0' + i / 10; *p++ = '0' + i % 10; } *p = 0; return buf; } static int print_modems (char *s, ct_chan_t *c, int need_header) { int status = ct_modem_status (c); int length = 0; if (need_header) length += sprintf (s + length, " LE DTR DSR RTS CTS CD\n"); length += sprintf (s + length, "%4s %4s %4s %4s %4s %4s\n", status & TIOCM_LE ? "On" : "-", status & TIOCM_DTR ? "On" : "-", status & TIOCM_DSR ? "On" : "-", status & TIOCM_RTS ? "On" : "-", status & TIOCM_CTS ? "On" : "-", status & TIOCM_CD ? "On" : "-"); return length; } static int print_stats (char *s, ct_chan_t *c, int need_header) { struct serial_statistics st; int length = 0; st.rintr = c->rintr; st.tintr = c->tintr; st.mintr = c->mintr; st.ibytes = c->ibytes; st.ipkts = c->ipkts; st.ierrs = c->ierrs; st.obytes = c->obytes; st.opkts = c->opkts; st.oerrs = c->oerrs; if (need_header) length += sprintf (s + length, " Rintr Tintr Mintr Ibytes Ipkts Ierrs Obytes Opkts Oerrs\n"); length += sprintf (s + length, "%7ld %7ld %7ld %8ld %7ld %7ld %8ld %7ld %7ld\n", st.rintr, st.tintr, st.mintr, st.ibytes, st.ipkts, st.ierrs, st.obytes, st.opkts, st.oerrs); return length; } static char *format_e1_status (u_char status) { static char buf [80]; if (status & E1_NOALARM) return "Ok"; buf[0] = 0; if (status & E1_LOS) strcat (buf, ",LOS"); if (status & E1_AIS) strcat (buf, ",AIS"); if (status & E1_LOF) strcat (buf, ",LOF"); if (status & E1_LOMF) strcat (buf, ",LOMF"); if (status & E1_FARLOF) strcat (buf, ",FARLOF"); if (status & E1_AIS16) strcat (buf, ",AIS16"); if (status & E1_FARLOMF) strcat (buf, ",FARLOMF"); if (status & E1_TSTREQ) strcat (buf, ",TSTREQ"); if (status & E1_TSTERR) strcat (buf, ",TSTERR"); if (buf[0] == ',') return buf+1; return "Unknown"; } static int print_frac (char *s, int leftalign, u_long numerator, u_long divider) { int n, length = 0; if (numerator < 1 || divider < 1) { length += sprintf (s+length, leftalign ? "/- " : " -"); return length; } n = (int) (0.5 + 1000.0 * numerator / divider); if (n < 1000) { length += sprintf (s+length, leftalign ? "/.%-3d" : " .%03d", n); return length; } *(s + length) = leftalign ? '/' : ' '; length ++; if (n >= 1000000) n = (n+500) / 1000 * 1000; else if (n >= 100000) n = (n+50) / 100 * 100; else if (n >= 10000) n = (n+5) / 10 * 10; switch (n) { case 1000: length += printf (s+length, ".999"); return length; case 10000: n = 9990; break; case 100000: n = 99900; break; case 1000000: n = 999000; break; } if (n < 10000) length += sprintf (s+length, "%d.%d", n/1000, n/10%100); else if (n < 100000) length += sprintf (s+length, "%d.%d", n/1000, n/100%10); else if (n < 1000000) length += sprintf (s+length, "%d.", n/1000); else length += sprintf (s+length, "%d", n/1000); return length; } static int print_e1_stats (char *s, ct_chan_t *c) { struct e1_counters total; u_long totsec; int length = 0; totsec = c->totsec + c->cursec; total.bpv = c->total.bpv + c->currnt.bpv; total.fse = c->total.fse + c->currnt.fse; total.crce = c->total.crce + c->currnt.crce; total.rcrce = c->total.rcrce + c->currnt.rcrce; total.uas = c->total.uas + c->currnt.uas; total.les = c->total.les + c->currnt.les; total.es = c->total.es + c->currnt.es; total.bes = c->total.bes + c->currnt.bes; total.ses = c->total.ses + c->currnt.ses; total.oofs = c->total.oofs + c->currnt.oofs; total.css = c->total.css + c->currnt.css; total.dm = c->total.dm + c->currnt.dm; length += sprintf (s + length, " Unav/Degr Bpv/Fsyn CRC/RCRC Err/Lerr Sev/Bur Oof/Slp Status\n"); /* Unavailable seconds, degraded minutes */ length += print_frac (s + length, 0, c->currnt.uas, c->cursec); length += print_frac (s + length, 1, 60 * c->currnt.dm, c->cursec); /* Bipolar violations, frame sync errors */ length += print_frac (s + length, 0, c->currnt.bpv, c->cursec); length += print_frac (s + length, 1, c->currnt.fse, c->cursec); /* CRC errors, remote CRC errors (E-bit) */ length += print_frac (s + length, 0, c->currnt.crce, c->cursec); length += print_frac (s + length, 1, c->currnt.rcrce, c->cursec); /* Errored seconds, line errored seconds */ length += print_frac (s + length, 0, c->currnt.es, c->cursec); length += print_frac (s + length, 1, c->currnt.les, c->cursec); /* Severely errored seconds, burst errored seconds */ length += print_frac (s + length, 0, c->currnt.ses, c->cursec); length += print_frac (s + length, 1, c->currnt.bes, c->cursec); /* Out of frame seconds, controlled slip seconds */ length += print_frac (s + length, 0, c->currnt.oofs, c->cursec); length += print_frac (s + length, 1, c->currnt.css, c->cursec); length += sprintf (s + length, " %s\n", format_e1_status (c->status)); /* Print total statistics. */ length += print_frac (s + length, 0, total.uas, totsec); length += print_frac (s + length, 1, 60 * total.dm, totsec); length += print_frac (s + length, 0, total.bpv, totsec); length += print_frac (s + length, 1, total.fse, totsec); length += print_frac (s + length, 0, total.crce, totsec); length += print_frac (s + length, 1, total.rcrce, totsec); length += print_frac (s + length, 0, total.es, totsec); length += print_frac (s + length, 1, total.les, totsec); length += print_frac (s + length, 0, total.ses, totsec); length += print_frac (s + length, 1, total.bes, totsec); length += print_frac (s + length, 0, total.oofs, totsec); length += print_frac (s + length, 1, total.css, totsec); length += sprintf (s + length, " -- Total\n"); return length; } static int print_chan (char *s, ct_chan_t *c) { drv_t *d = c->sys; bdrv_t *bd = d->bd; int length = 0; length += sprintf (s + length, "ct%d", c->board->num * NCHAN + c->num); if (d->chan->debug) length += sprintf (s + length, " debug=%d", d->chan->debug); switch (ct_get_config (c->board)) { case CFG_A: length += sprintf (s + length, " cfg=A"); break; case CFG_B: length += sprintf (s + length, " cfg=B"); break; case CFG_C: length += sprintf (s + length, " cfg=C"); break; default: length += sprintf (s + length, " cfg=unknown"); break; } if (ct_get_baud (c)) length += sprintf (s + length, " %ld", ct_get_baud (c)); else length += sprintf (s + length, " extclock"); if (c->mode == M_E1 || c->mode == M_G703) switch (ct_get_clk(c)) { case GCLK_INT : length += sprintf (s + length, " syn=int"); break; case GCLK_RCV : length += sprintf (s + length, " syn=rcv"); break; case GCLK_RCLKO : length += sprintf (s + length, " syn=xrcv"); break; } if (c->mode == M_HDLC) { length += sprintf (s + length, " dpll=%s", ct_get_dpll (c) ? "on" : "off"); length += sprintf (s + length, " nrzi=%s", ct_get_nrzi (c) ? "on" : "off"); length += sprintf (s + length, " invtclk=%s", ct_get_invtxc (c) ? "on" : "off"); length += sprintf (s + length, " invrclk=%s", ct_get_invrxc (c) ? "on" : "off"); } if (c->mode == M_E1) length += sprintf (s + length, " higain=%s", ct_get_higain (c)? "on" : "off"); length += sprintf (s + length, " loop=%s", ct_get_loop (c) ? "on" : "off"); if (c->mode == M_E1) length += sprintf (s + length, " ts=%s", format_timeslots (ct_get_ts(c))); if (c->mode == M_E1 && ct_get_config (c->board) != CFG_A) length += sprintf (s + length, " pass=%s", format_timeslots (ct_get_subchan(c->board))); if (c->mode == M_G703) { int lq, x; x = splimp (); CT_LOCK (bd); lq = ct_get_lq (c); CT_UNLOCK (bd); splx (x); length += sprintf (s + length, " (level=-%.1fdB)", lq / 10.0); } length += sprintf (s + length, "\n"); return length; } static int ng_ct_rcvmsg (node_p node, item_p item, hook_p lasthook) { drv_t *d = NG_NODE_PRIVATE (node); struct ng_mesg *msg; struct ng_mesg *resp = NULL; int error = 0; if (!d) return EINVAL; CT_DEBUG (d, ("Rcvmsg\n")); NGI_GET_MSG (item, msg); switch (msg->header.typecookie) { default: error = EINVAL; break; case NGM_CT_COOKIE: printf ("Don't forget to implement\n"); error = EINVAL; break; case NGM_GENERIC_COOKIE: switch (msg->header.cmd) { default: error = EINVAL; break; case NGM_TEXT_STATUS: { char *s; int l = 0; int dl = sizeof (struct ng_mesg) + 730; NG_MKRESPONSE (resp, msg, dl, M_NOWAIT); if (! resp) { error = ENOMEM; break; } s = (resp)->data; l += print_chan (s + l, d->chan); l += print_stats (s + l, d->chan, 1); l += print_modems (s + l, d->chan, 1); l += print_e1_stats (s + l, d->chan); strncpy ((resp)->header.cmdstr, "status", NG_CMDSTRSIZ); } break; } break; } NG_RESPOND_MSG (error, node, item, resp); NG_FREE_MSG (msg); return error; } static int ng_ct_rcvdata (hook_p hook, item_p item) { drv_t *d = NG_NODE_PRIVATE (NG_HOOK_NODE(hook)); struct mbuf *m; struct ng_tag_prio *ptag; bdrv_t *bd; struct ifqueue *q; int s; if (!d) return ENETDOWN; bd = d->bd; NGI_GET_M (item, m); NG_FREE_ITEM (item); if (! NG_HOOK_PRIVATE (hook) || ! d) { NG_FREE_M (m); return ENETDOWN; } /* Check for high priority data */ if ((ptag = (struct ng_tag_prio *)m_tag_locate(m, NGM_GENERIC_COOKIE, NG_TAG_PRIO, NULL)) != NULL && (ptag->priority > NG_PRIO_CUTOFF) ) q = &d->hi_queue; else q = &d->queue; s = splimp (); CT_LOCK (bd); IF_LOCK (q); if (_IF_QFULL (q)) { _IF_DROP (q); IF_UNLOCK (q); CT_UNLOCK (bd); splx (s); NG_FREE_M (m); return ENOBUFS; } _IF_ENQUEUE (q, m); IF_UNLOCK (q); ct_start (d); CT_UNLOCK (bd); splx (s); return 0; } static int ng_ct_rmnode (node_p node) { drv_t *d = NG_NODE_PRIVATE (node); bdrv_t *bd; CT_DEBUG (d, ("Rmnode\n")); if (d && d->running) { bd = d->bd; int s = splimp (); CT_LOCK (bd); ct_down (d); CT_UNLOCK (bd); splx (s); } #ifdef KLD_MODULE if (node->nd_flags & NGF_REALLY_DIE) { NG_NODE_SET_PRIVATE (node, NULL); NG_NODE_UNREF (node); } NG_NODE_REVIVE(node); /* Persistant node */ #endif return 0; } static int ng_ct_connect (hook_p hook) { drv_t *d = NG_NODE_PRIVATE (NG_HOOK_NODE (hook)); if (!d) return 0; callout_reset (&d->timeout_handle, hz, ct_watchdog_timer, d); return 0; } static int ng_ct_disconnect (hook_p hook) { drv_t *d = NG_NODE_PRIVATE (NG_HOOK_NODE (hook)); bdrv_t *bd; if (!d) return 0; bd = d->bd; CT_LOCK (bd); if (NG_HOOK_PRIVATE (hook)) ct_down (d); CT_UNLOCK (bd); /* If we were wait it than it reasserted now, just stop it. */ if (!callout_drain (&d->timeout_handle)) callout_stop (&d->timeout_handle); return 0; } #endif static int ct_modevent (module_t mod, int type, void *unused) { static int load_count = 0; switch (type) { case MOD_LOAD: #ifdef NETGRAPH if (ng_newtype (&typestruct)) printf ("Failed to register ng_ct\n"); #endif ++load_count; callout_init (&timeout_handle, CALLOUT_MPSAFE); callout_reset (&timeout_handle, hz*5, ct_timeout, 0); break; case MOD_UNLOAD: if (load_count == 1) { printf ("Removing device entry for Tau-ISA\n"); #ifdef NETGRAPH ng_rmtype (&typestruct); #endif } /* If we were wait it than it reasserted now, just stop it. */ if (!callout_drain (&timeout_handle)) callout_stop (&timeout_handle); --load_count; break; case MOD_SHUTDOWN: break; } return 0; } #ifdef NETGRAPH static struct ng_type typestruct = { .version = NG_ABI_VERSION, .name = NG_CT_NODE_TYPE, .constructor = ng_ct_constructor, .rcvmsg = ng_ct_rcvmsg, .shutdown = ng_ct_rmnode, .newhook = ng_ct_newhook, .connect = ng_ct_connect, .rcvdata = ng_ct_rcvdata, .disconnect = ng_ct_disconnect, }; #endif /*NETGRAPH*/ #ifdef NETGRAPH MODULE_DEPEND (ng_ct, netgraph, NG_ABI_VERSION, NG_ABI_VERSION, NG_ABI_VERSION); #else MODULE_DEPEND (ct, sppp, 1, 1, 1); #endif DRIVER_MODULE (ct, isa, ct_isa_driver, ct_devclass, ct_modevent, NULL); MODULE_VERSION (ct, 1);