Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/dtrace/dtrace_test/@/dev/sio/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/dtrace/dtrace_test/@/dev/sio/sio.c |
/*- * Copyright (c) 1991 The Regents of the University of California. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * from: @(#)com.c 7.5 (Berkeley) 5/16/91 * from: i386/isa sio.c,v 1.234 */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/dev/sio/sio.c 235405 2012-05-13 17:04:46Z avg $"); #include "opt_compat.h" #include "opt_gdb.h" #include "opt_kdb.h" #include "opt_sio.h" /* * Serial driver, based on 386BSD-0.1 com driver. * Mostly rewritten to use pseudo-DMA. * Works for National Semiconductor NS8250-NS16550AF UARTs. * COM driver, based on HP dca driver. * * Changes for PC Card integration: * - Added PC Card driver table and handlers */ #include <sys/param.h> #include <sys/systm.h> #include <sys/bus.h> #include <sys/conf.h> #include <sys/fcntl.h> #include <sys/interrupt.h> #include <sys/kdb.h> #include <sys/kernel.h> #include <sys/limits.h> #include <sys/lock.h> #include <sys/malloc.h> #include <sys/module.h> #include <sys/mutex.h> #include <sys/proc.h> #include <sys/reboot.h> #include <sys/serial.h> #include <sys/sysctl.h> #include <sys/syslog.h> #include <sys/tty.h> #include <machine/bus.h> #include <sys/rman.h> #include <sys/timepps.h> #include <sys/uio.h> #include <sys/cons.h> #include <isa/isavar.h> #include <machine/resource.h> #include <dev/sio/sioreg.h> #include <dev/sio/siovar.h> #ifdef COM_ESP #include <dev/ic/esp.h> #endif #include <dev/ic/ns16550.h> #define LOTS_OF_EVENTS 64 /* helps separate urgent events from input */ #ifdef COM_MULTIPORT /* checks in flags for multiport and which is multiport "master chip" * for a given card */ #define COM_ISMULTIPORT(flags) ((flags) & 0x01) #define COM_MPMASTER(flags) (((flags) >> 8) & 0x0ff) #define COM_NOTAST4(flags) ((flags) & 0x04) #else #define COM_ISMULTIPORT(flags) (0) #endif /* COM_MULTIPORT */ #define COM_C_IIR_TXRDYBUG 0x80000 #define COM_CONSOLE(flags) ((flags) & 0x10) #define COM_DEBUGGER(flags) ((flags) & 0x80) #define COM_FIFOSIZE(flags) (((flags) & 0xff000000) >> 24) #define COM_FORCECONSOLE(flags) ((flags) & 0x20) #define COM_IIR_TXRDYBUG(flags) ((flags) & COM_C_IIR_TXRDYBUG) #define COM_LLCONSOLE(flags) ((flags) & 0x40) #define COM_LOSESOUTINTS(flags) ((flags) & 0x08) #define COM_NOFIFO(flags) ((flags) & 0x02) #define COM_NOPROBE(flags) ((flags) & 0x40000) #define COM_NOSCR(flags) ((flags) & 0x100000) #define COM_PPSCTS(flags) ((flags) & 0x10000) #define COM_ST16650A(flags) ((flags) & 0x20000) #define COM_TI16754(flags) ((flags) & 0x200000) #define sio_getreg(com, off) \ (bus_space_read_1((com)->bst, (com)->bsh, (off))) #define sio_setreg(com, off, value) \ (bus_space_write_1((com)->bst, (com)->bsh, (off), (value))) /* * com state bits. * (CS_BUSY | CS_TTGO) and (CS_BUSY | CS_TTGO | CS_ODEVREADY) must be higher * than the other bits so that they can be tested as a group without masking * off the low bits. * * The following com and tty flags correspond closely: * CS_BUSY = TS_BUSY (maintained by comstart(), siopoll() and * comstop()) * CS_TTGO = ~TS_TTSTOP (maintained by comparam() and comstart()) * CS_CTS_OFLOW = CCTS_OFLOW (maintained by comparam()) * CS_RTS_IFLOW = CRTS_IFLOW (maintained by comparam()) * TS_FLUSH is not used. * XXX I think TIOCSETA doesn't clear TS_TTSTOP when it clears IXON. * XXX CS_*FLOW should be CF_*FLOW in com->flags (control flags not state). */ #define CS_BUSY 0x80 /* output in progress */ #define CS_TTGO 0x40 /* output not stopped by XOFF */ #define CS_ODEVREADY 0x20 /* external device h/w ready (CTS) */ #define CS_CHECKMSR 1 /* check of MSR scheduled */ #define CS_CTS_OFLOW 2 /* use CTS output flow control */ #define CS_ODONE 4 /* output completed */ #define CS_RTS_IFLOW 8 /* use RTS input flow control */ #define CSE_BUSYCHECK 1 /* siobusycheck() scheduled */ static char const * const error_desc[] = { #define CE_OVERRUN 0 "silo overflow", #define CE_INTERRUPT_BUF_OVERFLOW 1 "interrupt-level buffer overflow", #define CE_TTY_BUF_OVERFLOW 2 "tty-level buffer overflow", }; #define CE_NTYPES 3 #define CE_RECORD(com, errnum) (++(com)->delta_error_counts[errnum]) /* types. XXX - should be elsewhere */ typedef u_int Port_t; /* hardware port */ typedef u_char bool_t; /* boolean */ /* queue of linear buffers */ struct lbq { u_char *l_head; /* next char to process */ u_char *l_tail; /* one past the last char to process */ struct lbq *l_next; /* next in queue */ bool_t l_queued; /* nonzero if queued */ }; /* com device structure */ struct com_s { u_char state; /* miscellaneous flag bits */ u_char cfcr_image; /* copy of value written to CFCR */ #ifdef COM_ESP bool_t esp; /* is this unit a hayes esp board? */ #endif u_char extra_state; /* more flag bits, separate for order trick */ u_char fifo_image; /* copy of value written to FIFO */ bool_t hasfifo; /* nonzero for 16550 UARTs */ bool_t loses_outints; /* nonzero if device loses output interrupts */ u_char mcr_image; /* copy of value written to MCR */ #ifdef COM_MULTIPORT bool_t multiport; /* is this unit part of a multiport device? */ #endif /* COM_MULTIPORT */ bool_t no_irq; /* nonzero if irq is not attached */ bool_t gone; /* hardware disappeared */ bool_t poll; /* nonzero if polling is required */ bool_t poll_output; /* nonzero if polling for output is required */ bool_t st16650a; /* nonzero if Startech 16650A compatible */ int unit; /* unit number */ u_int flags; /* copy of device flags */ u_int tx_fifo_size; /* * The high level of the driver never reads status registers directly * because there would be too many side effects to handle conveniently. * Instead, it reads copies of the registers stored here by the * interrupt handler. */ u_char last_modem_status; /* last MSR read by intr handler */ u_char prev_modem_status; /* last MSR handled by high level */ u_char *ibuf; /* start of input buffer */ u_char *ibufend; /* end of input buffer */ u_char *ibufold; /* old input buffer, to be freed */ u_char *ihighwater; /* threshold in input buffer */ u_char *iptr; /* next free spot in input buffer */ int ibufsize; /* size of ibuf (not include error bytes) */ int ierroff; /* offset of error bytes in ibuf */ struct lbq obufq; /* head of queue of output buffers */ struct lbq obufs[2]; /* output buffers */ bus_space_tag_t bst; bus_space_handle_t bsh; Port_t data_port; /* i/o ports */ #ifdef COM_ESP Port_t esp_port; #endif Port_t int_ctl_port; Port_t int_id_port; Port_t modem_ctl_port; Port_t line_status_port; Port_t modem_status_port; struct tty *tp; /* cross reference */ struct pps_state pps; int pps_bit; #ifdef KDB int alt_brk_state; #endif u_long bytes_in; /* statistics */ u_long bytes_out; u_int delta_error_counts[CE_NTYPES]; u_long error_counts[CE_NTYPES]; u_long rclk; struct resource *irqres; struct resource *ioportres; int ioportrid; void *cookie; /* * Data area for output buffers. Someday we should build the output * buffer queue without copying data. */ u_char obuf1[256]; u_char obuf2[256]; }; #ifdef COM_ESP static int espattach(struct com_s *com, Port_t esp_port); #endif static void combreak(struct tty *tp, int sig); static timeout_t siobusycheck; static u_int siodivisor(u_long rclk, speed_t speed); static void comclose(struct tty *tp); static int comopen(struct tty *tp, struct cdev *dev); static void sioinput(struct com_s *com); static void siointr1(struct com_s *com); static int siointr(void *arg); static int commodem(struct tty *tp, int sigon, int sigoff); static int comparam(struct tty *tp, struct termios *t); static void siopoll(void *); static void siosettimeout(void); static int siosetwater(struct com_s *com, speed_t speed); static void comstart(struct tty *tp); static void comstop(struct tty *tp, int rw); static timeout_t comwakeup; char sio_driver_name[] = "sio"; static struct mtx sio_lock; static int sio_inited; /* table and macro for fast conversion from a unit number to its com struct */ devclass_t sio_devclass; #define com_addr(unit) ((struct com_s *) \ devclass_get_softc(sio_devclass, unit)) /* XXX */ int comconsole = -1; static volatile speed_t comdefaultrate = CONSPEED; static u_long comdefaultrclk = DEFAULT_RCLK; SYSCTL_ULONG(_machdep, OID_AUTO, conrclk, CTLFLAG_RW, &comdefaultrclk, 0, ""); static speed_t gdbdefaultrate = GDBSPEED; SYSCTL_UINT(_machdep, OID_AUTO, gdbspeed, CTLFLAG_RW, &gdbdefaultrate, GDBSPEED, ""); static u_int com_events; /* input chars + weighted output completions */ static Port_t siocniobase; static int siocnunit = -1; static void *sio_slow_ih; static void *sio_fast_ih; static int sio_timeout; static int sio_timeouts_until_log; static struct callout_handle sio_timeout_handle = CALLOUT_HANDLE_INITIALIZER(&sio_timeout_handle); static int sio_numunits; #ifdef GDB static Port_t siogdbiobase = 0; #endif #ifdef COM_ESP /* XXX configure this properly. */ /* XXX quite broken for new-bus. */ static Port_t likely_com_ports[] = { 0x3f8, 0x2f8, 0x3e8, 0x2e8, }; static Port_t likely_esp_ports[] = { 0x140, 0x180, 0x280, 0 }; #endif /* * handle sysctl read/write requests for console speed * * In addition to setting comdefaultrate for I/O through /dev/console, * also set the initial and lock values for the /dev/ttyXX device * if there is one associated with the console. Finally, if the /dev/tty * device has already been open, change the speed on the open running port * itself. */ static int sysctl_machdep_comdefaultrate(SYSCTL_HANDLER_ARGS) { int error, s; speed_t newspeed; struct com_s *com; struct tty *tp; newspeed = comdefaultrate; error = sysctl_handle_opaque(oidp, &newspeed, sizeof newspeed, req); if (error || !req->newptr) return (error); comdefaultrate = newspeed; if (comconsole < 0) /* serial console not selected? */ return (0); com = com_addr(comconsole); if (com == NULL) return (ENXIO); tp = com->tp; if (tp == NULL) return (ENXIO); /* * set the initial and lock rates for /dev/ttydXX and /dev/cuaXX * (note, the lock rates really are boolean -- if non-zero, disallow * speed changes) */ tp->t_init_in.c_ispeed = tp->t_init_in.c_ospeed = tp->t_lock_in.c_ispeed = tp->t_lock_in.c_ospeed = tp->t_init_out.c_ispeed = tp->t_init_out.c_ospeed = tp->t_lock_out.c_ispeed = tp->t_lock_out.c_ospeed = comdefaultrate; if (tp->t_state & TS_ISOPEN) { tp->t_termios.c_ispeed = tp->t_termios.c_ospeed = comdefaultrate; s = spltty(); error = comparam(tp, &tp->t_termios); splx(s); } return error; } SYSCTL_PROC(_machdep, OID_AUTO, conspeed, CTLTYPE_INT | CTLFLAG_RW, 0, 0, sysctl_machdep_comdefaultrate, "I", ""); TUNABLE_INT("machdep.conspeed", __DEVOLATILE(int *, &comdefaultrate)); #define SET_FLAG(dev, bit) device_set_flags(dev, device_get_flags(dev) | (bit)) #define CLR_FLAG(dev, bit) device_set_flags(dev, device_get_flags(dev) & ~(bit)) /* * Unload the driver and clear the table. * XXX this is mostly wrong. * XXX TODO: * This is usually called when the card is ejected, but * can be caused by a kldunload of a controller driver. * The idea is to reset the driver's view of the device * and ensure that any driver entry points such as * read and write do not hang. */ int siodetach(device_t dev) { struct com_s *com; com = (struct com_s *) device_get_softc(dev); if (com == NULL) { device_printf(dev, "NULL com in siounload\n"); return (0); } com->gone = TRUE; if (com->tp) ttyfree(com->tp); if (com->irqres) { bus_teardown_intr(dev, com->irqres, com->cookie); bus_release_resource(dev, SYS_RES_IRQ, 0, com->irqres); } if (com->ioportres) bus_release_resource(dev, SYS_RES_IOPORT, com->ioportrid, com->ioportres); if (com->ibuf != NULL) free(com->ibuf, M_DEVBUF); device_set_softc(dev, NULL); free(com, M_DEVBUF); return (0); } int sioprobe(dev, xrid, rclk, noprobe) device_t dev; int xrid; u_long rclk; int noprobe; { #if 0 static bool_t already_init; device_t xdev; #endif struct com_s *com; u_int divisor; bool_t failures[10]; int fn; device_t idev; Port_t iobase; intrmask_t irqmap[4]; intrmask_t irqs; u_char mcr_image; int result; u_long xirq; u_int flags = device_get_flags(dev); int rid; struct resource *port; rid = xrid; port = bus_alloc_resource(dev, SYS_RES_IOPORT, &rid, 0, ~0, IO_COMSIZE, RF_ACTIVE); if (!port) return (ENXIO); com = malloc(sizeof(*com), M_DEVBUF, M_NOWAIT | M_ZERO); if (com == NULL) { bus_release_resource(dev, SYS_RES_IOPORT, rid, port); return (ENOMEM); } device_set_softc(dev, com); com->bst = rman_get_bustag(port); com->bsh = rman_get_bushandle(port); if (rclk == 0) rclk = DEFAULT_RCLK; com->rclk = rclk; while (sio_inited != 2) if (atomic_cmpset_int(&sio_inited, 0, 1)) { mtx_init(&sio_lock, sio_driver_name, NULL, (comconsole != -1) ? MTX_SPIN | MTX_QUIET : MTX_SPIN); atomic_store_rel_int(&sio_inited, 2); } #if 0 /* * XXX this is broken - when we are first called, there are no * previously configured IO ports. We could hard code * 0x3f8, 0x2f8, 0x3e8, 0x2e8 etc but that's probably worse. * This code has been doing nothing since the conversion since * "count" is zero the first time around. */ if (!already_init) { /* * Turn off MCR_IENABLE for all likely serial ports. An unused * port with its MCR_IENABLE gate open will inhibit interrupts * from any used port that shares the interrupt vector. * XXX the gate enable is elsewhere for some multiports. */ device_t *devs; int count, i, xioport; devclass_get_devices(sio_devclass, &devs, &count); for (i = 0; i < count; i++) { xdev = devs[i]; if (device_is_enabled(xdev) && bus_get_resource(xdev, SYS_RES_IOPORT, 0, &xioport, NULL) == 0) outb(xioport + com_mcr, 0); } free(devs, M_TEMP); already_init = TRUE; } #endif if (COM_LLCONSOLE(flags)) { printf("sio%d: reserved for low-level i/o\n", device_get_unit(dev)); bus_release_resource(dev, SYS_RES_IOPORT, rid, port); device_set_softc(dev, NULL); free(com, M_DEVBUF); return (ENXIO); } /* * If the device is on a multiport card and has an AST/4 * compatible interrupt control register, initialize this * register and prepare to leave MCR_IENABLE clear in the mcr. * Otherwise, prepare to set MCR_IENABLE in the mcr. * Point idev to the device struct giving the correct id_irq. * This is the struct for the master device if there is one. */ idev = dev; mcr_image = MCR_IENABLE; #ifdef COM_MULTIPORT if (COM_ISMULTIPORT(flags)) { Port_t xiobase; u_long io; idev = devclass_get_device(sio_devclass, COM_MPMASTER(flags)); if (idev == NULL) { printf("sio%d: master device %d not configured\n", device_get_unit(dev), COM_MPMASTER(flags)); idev = dev; } if (!COM_NOTAST4(flags)) { if (bus_get_resource(idev, SYS_RES_IOPORT, 0, &io, NULL) == 0) { xiobase = io; if (bus_get_resource(idev, SYS_RES_IRQ, 0, NULL, NULL) == 0) outb(xiobase + com_scr, 0x80); else outb(xiobase + com_scr, 0); } mcr_image = 0; } } #endif /* COM_MULTIPORT */ if (bus_get_resource(idev, SYS_RES_IRQ, 0, NULL, NULL) != 0) mcr_image = 0; bzero(failures, sizeof failures); iobase = rman_get_start(port); /* * We don't want to get actual interrupts, just masked ones. * Interrupts from this line should already be masked in the ICU, * but mask them in the processor as well in case there are some * (misconfigured) shared interrupts. */ mtx_lock_spin(&sio_lock); /* EXTRA DELAY? */ /* * For the TI16754 chips, set prescaler to 1 (4 is often the * default after-reset value) as otherwise it's impossible to * get highest baudrates. */ if (COM_TI16754(flags)) { u_char cfcr, efr; cfcr = sio_getreg(com, com_cfcr); sio_setreg(com, com_cfcr, CFCR_EFR_ENABLE); efr = sio_getreg(com, com_efr); /* Unlock extended features to turn off prescaler. */ sio_setreg(com, com_efr, efr | EFR_EFE); /* Disable EFR. */ sio_setreg(com, com_cfcr, (cfcr != CFCR_EFR_ENABLE) ? cfcr : 0); /* Turn off prescaler. */ sio_setreg(com, com_mcr, sio_getreg(com, com_mcr) & ~MCR_PRESCALE); sio_setreg(com, com_cfcr, CFCR_EFR_ENABLE); sio_setreg(com, com_efr, efr); sio_setreg(com, com_cfcr, cfcr); } /* * Initialize the speed and the word size and wait long enough to * drain the maximum of 16 bytes of junk in device output queues. * The speed is undefined after a master reset and must be set * before relying on anything related to output. There may be * junk after a (very fast) soft reboot and (apparently) after * master reset. * XXX what about the UART bug avoided by waiting in comparam()? * We don't want to to wait long enough to drain at 2 bps. */ if (iobase == siocniobase) DELAY((16 + 1) * 1000000 / (comdefaultrate / 10)); else { sio_setreg(com, com_cfcr, CFCR_DLAB | CFCR_8BITS); divisor = siodivisor(rclk, SIO_TEST_SPEED); sio_setreg(com, com_dlbl, divisor & 0xff); sio_setreg(com, com_dlbh, divisor >> 8); sio_setreg(com, com_cfcr, CFCR_8BITS); DELAY((16 + 1) * 1000000 / (SIO_TEST_SPEED / 10)); } /* * Enable the interrupt gate and disable device interrupts. This * should leave the device driving the interrupt line low and * guarantee an edge trigger if an interrupt can be generated. */ /* EXTRA DELAY? */ sio_setreg(com, com_mcr, mcr_image); sio_setreg(com, com_ier, 0); DELAY(1000); /* XXX */ irqmap[0] = isa_irq_pending(); /* * Attempt to set loopback mode so that we can send a null byte * without annoying any external device. */ /* EXTRA DELAY? */ sio_setreg(com, com_mcr, mcr_image | MCR_LOOPBACK); /* * Attempt to generate an output interrupt. On 8250's, setting * IER_ETXRDY generates an interrupt independent of the current * setting and independent of whether the THR is empty. On 16450's, * setting IER_ETXRDY generates an interrupt independent of the * current setting. On 16550A's, setting IER_ETXRDY only * generates an interrupt when IER_ETXRDY is not already set. */ sio_setreg(com, com_ier, IER_ETXRDY); /* * On some 16x50 incompatibles, setting IER_ETXRDY doesn't generate * an interrupt. They'd better generate one for actually doing * output. Loopback may be broken on the same incompatibles but * it's unlikely to do more than allow the null byte out. */ sio_setreg(com, com_data, 0); if (iobase == siocniobase) DELAY((1 + 2) * 1000000 / (comdefaultrate / 10)); else DELAY((1 + 2) * 1000000 / (SIO_TEST_SPEED / 10)); /* * Turn off loopback mode so that the interrupt gate works again * (MCR_IENABLE was hidden). This should leave the device driving * an interrupt line high. It doesn't matter if the interrupt * line oscillates while we are not looking at it, since interrupts * are disabled. */ /* EXTRA DELAY? */ sio_setreg(com, com_mcr, mcr_image); /* * It seems my Xircom CBEM56G Cardbus modem wants to be reset * to 8 bits *again*, or else probe test 0 will fail. * gwk@sgi.com, 4/19/2001 */ sio_setreg(com, com_cfcr, CFCR_8BITS); /* * Some PCMCIA cards (Palido 321s, DC-1S, ...) have the "TXRDY bug", * so we probe for a buggy IIR_TXRDY implementation even in the * noprobe case. We don't probe for it in the !noprobe case because * noprobe is always set for PCMCIA cards and the problem is not * known to affect any other cards. */ if (noprobe) { /* Read IIR a few times. */ for (fn = 0; fn < 2; fn ++) { DELAY(10000); failures[6] = sio_getreg(com, com_iir); } /* IIR_TXRDY should be clear. Is it? */ result = 0; if (failures[6] & IIR_TXRDY) { /* * No. We seem to have the bug. Does our fix for * it work? */ sio_setreg(com, com_ier, 0); if (sio_getreg(com, com_iir) & IIR_NOPEND) { /* Yes. We discovered the TXRDY bug! */ SET_FLAG(dev, COM_C_IIR_TXRDYBUG); } else { /* No. Just fail. XXX */ result = ENXIO; sio_setreg(com, com_mcr, 0); } } else { /* Yes. No bug. */ CLR_FLAG(dev, COM_C_IIR_TXRDYBUG); } sio_setreg(com, com_ier, 0); sio_setreg(com, com_cfcr, CFCR_8BITS); mtx_unlock_spin(&sio_lock); bus_release_resource(dev, SYS_RES_IOPORT, rid, port); if (iobase == siocniobase) result = 0; /* * XXX: Since we don't return 0, we shouldn't be relying on * the softc that we set to persist to the call to attach * since other probe routines may be called, and the malloc * here causes subr_bus to not allocate anything for the * other probes. Instead, this softc is preserved and other * probe routines can corrupt it. */ if (result != 0) { device_set_softc(dev, NULL); free(com, M_DEVBUF); } return (result == 0 ? BUS_PROBE_DEFAULT + 1 : result); } /* * Check that * o the CFCR, IER and MCR in UART hold the values written to them * (the values happen to be all distinct - this is good for * avoiding false positive tests from bus echoes). * o an output interrupt is generated and its vector is correct. * o the interrupt goes away when the IIR in the UART is read. */ /* EXTRA DELAY? */ failures[0] = sio_getreg(com, com_cfcr) - CFCR_8BITS; failures[1] = sio_getreg(com, com_ier) - IER_ETXRDY; failures[2] = sio_getreg(com, com_mcr) - mcr_image; DELAY(10000); /* Some internal modems need this time */ irqmap[1] = isa_irq_pending(); failures[4] = (sio_getreg(com, com_iir) & IIR_IMASK) - IIR_TXRDY; DELAY(1000); /* XXX */ irqmap[2] = isa_irq_pending(); failures[6] = (sio_getreg(com, com_iir) & IIR_IMASK) - IIR_NOPEND; /* * Turn off all device interrupts and check that they go off properly. * Leave MCR_IENABLE alone. For ports without a master port, it gates * the OUT2 output of the UART to * the ICU input. Closing the gate would give a floating ICU input * (unless there is another device driving it) and spurious interrupts. * (On the system that this was first tested on, the input floats high * and gives a (masked) interrupt as soon as the gate is closed.) */ sio_setreg(com, com_ier, 0); sio_setreg(com, com_cfcr, CFCR_8BITS); /* dummy to avoid bus echo */ failures[7] = sio_getreg(com, com_ier); DELAY(1000); /* XXX */ irqmap[3] = isa_irq_pending(); failures[9] = (sio_getreg(com, com_iir) & IIR_IMASK) - IIR_NOPEND; mtx_unlock_spin(&sio_lock); irqs = irqmap[1] & ~irqmap[0]; if (bus_get_resource(idev, SYS_RES_IRQ, 0, &xirq, NULL) == 0 && ((1 << xirq) & irqs) == 0) { printf( "sio%d: configured irq %ld not in bitmap of probed irqs %#x\n", device_get_unit(dev), xirq, irqs); printf( "sio%d: port may not be enabled\n", device_get_unit(dev)); } if (bootverbose) printf("sio%d: irq maps: %#x %#x %#x %#x\n", device_get_unit(dev), irqmap[0], irqmap[1], irqmap[2], irqmap[3]); result = 0; for (fn = 0; fn < sizeof failures; ++fn) if (failures[fn]) { sio_setreg(com, com_mcr, 0); result = ENXIO; if (bootverbose) { printf("sio%d: probe failed test(s):", device_get_unit(dev)); for (fn = 0; fn < sizeof failures; ++fn) if (failures[fn]) printf(" %d", fn); printf("\n"); } break; } bus_release_resource(dev, SYS_RES_IOPORT, rid, port); if (iobase == siocniobase) result = 0; /* * XXX: Since we don't return 0, we shouldn't be relying on the softc * that we set to persist to the call to attach since other probe * routines may be called, and the malloc here causes subr_bus to not * allocate anything for the other probes. Instead, this softc is * preserved and other probe routines can corrupt it. */ if (result != 0) { device_set_softc(dev, NULL); free(com, M_DEVBUF); } return (result == 0 ? BUS_PROBE_DEFAULT + 1 : result); } #ifdef COM_ESP static int espattach(com, esp_port) struct com_s *com; Port_t esp_port; { u_char dips; u_char val; /* * Check the ESP-specific I/O port to see if we're an ESP * card. If not, return failure immediately. */ if ((inb(esp_port) & 0xf3) == 0) { printf(" port 0x%x is not an ESP board?\n", esp_port); return (0); } /* * We've got something that claims to be a Hayes ESP card. * Let's hope so. */ /* Get the dip-switch configuration */ outb(esp_port + ESP_CMD1, ESP_GETDIPS); dips = inb(esp_port + ESP_STATUS1); /* * Bits 0,1 of dips say which COM port we are. */ if (rman_get_start(com->ioportres) == likely_com_ports[dips & 0x03]) printf(" : ESP"); else { printf(" esp_port has com %d\n", dips & 0x03); return (0); } /* * Check for ESP version 2.0 or later: bits 4,5,6 = 010. */ outb(esp_port + ESP_CMD1, ESP_GETTEST); val = inb(esp_port + ESP_STATUS1); /* clear reg 1 */ val = inb(esp_port + ESP_STATUS2); if ((val & 0x70) < 0x20) { printf("-old (%o)", val & 0x70); return (0); } /* * Check for ability to emulate 16550: bit 7 == 1 */ if ((dips & 0x80) == 0) { printf(" slave"); return (0); } /* * Okay, we seem to be a Hayes ESP card. Whee. */ com->esp = TRUE; com->esp_port = esp_port; return (1); } #endif /* COM_ESP */ int sioattach(dev, xrid, rclk) device_t dev; int xrid; u_long rclk; { struct com_s *com; #ifdef COM_ESP Port_t *espp; #endif Port_t iobase; int unit; u_int flags; int rid; struct resource *port; int ret; int error; struct tty *tp; rid = xrid; port = bus_alloc_resource(dev, SYS_RES_IOPORT, &rid, 0, ~0, IO_COMSIZE, RF_ACTIVE); if (!port) return (ENXIO); iobase = rman_get_start(port); unit = device_get_unit(dev); com = device_get_softc(dev); flags = device_get_flags(dev); if (unit >= sio_numunits) sio_numunits = unit + 1; /* * sioprobe() has initialized the device registers as follows: * o cfcr = CFCR_8BITS. * It is most important that CFCR_DLAB is off, so that the * data port is not hidden when we enable interrupts. * o ier = 0. * Interrupts are only enabled when the line is open. * o mcr = MCR_IENABLE, or 0 if the port has AST/4 compatible * interrupt control register or the config specifies no irq. * Keeping MCR_DTR and MCR_RTS off might stop the external * device from sending before we are ready. */ bzero(com, sizeof *com); com->unit = unit; com->ioportres = port; com->ioportrid = rid; com->bst = rman_get_bustag(port); com->bsh = rman_get_bushandle(port); com->cfcr_image = CFCR_8BITS; com->loses_outints = COM_LOSESOUTINTS(flags) != 0; com->no_irq = bus_get_resource(dev, SYS_RES_IRQ, 0, NULL, NULL) != 0; com->tx_fifo_size = 1; com->obufs[0].l_head = com->obuf1; com->obufs[1].l_head = com->obuf2; com->data_port = iobase + com_data; com->int_ctl_port = iobase + com_ier; com->int_id_port = iobase + com_iir; com->modem_ctl_port = iobase + com_mcr; com->mcr_image = inb(com->modem_ctl_port); com->line_status_port = iobase + com_lsr; com->modem_status_port = iobase + com_msr; tp = com->tp = ttyalloc(); tp->t_oproc = comstart; tp->t_param = comparam; tp->t_stop = comstop; tp->t_modem = commodem; tp->t_break = combreak; tp->t_close = comclose; tp->t_open = comopen; tp->t_sc = com; if (rclk == 0) rclk = DEFAULT_RCLK; com->rclk = rclk; if (unit == comconsole) ttyconsolemode(tp, comdefaultrate); error = siosetwater(com, tp->t_init_in.c_ispeed); mtx_unlock_spin(&sio_lock); if (error) { /* * Leave i/o resources allocated if this is a `cn'-level * console, so that other devices can't snarf them. */ if (iobase != siocniobase) bus_release_resource(dev, SYS_RES_IOPORT, rid, port); return (ENOMEM); } /* attempt to determine UART type */ printf("sio%d: type", unit); if (!COM_ISMULTIPORT(flags) && !COM_IIR_TXRDYBUG(flags) && !COM_NOSCR(flags)) { u_char scr; u_char scr1; u_char scr2; scr = sio_getreg(com, com_scr); sio_setreg(com, com_scr, 0xa5); scr1 = sio_getreg(com, com_scr); sio_setreg(com, com_scr, 0x5a); scr2 = sio_getreg(com, com_scr); sio_setreg(com, com_scr, scr); if (scr1 != 0xa5 || scr2 != 0x5a) { printf(" 8250 or not responding"); goto determined_type; } } sio_setreg(com, com_fifo, FIFO_ENABLE | FIFO_RX_HIGH); DELAY(100); switch (inb(com->int_id_port) & IIR_FIFO_MASK) { case FIFO_RX_LOW: printf(" 16450"); break; case FIFO_RX_MEDL: printf(" 16450?"); break; case FIFO_RX_MEDH: printf(" 16550?"); break; case FIFO_RX_HIGH: if (COM_NOFIFO(flags)) { printf(" 16550A fifo disabled"); break; } com->hasfifo = TRUE; if (COM_ST16650A(flags)) { printf(" ST16650A"); com->st16650a = TRUE; com->tx_fifo_size = 32; break; } if (COM_TI16754(flags)) { printf(" TI16754"); com->tx_fifo_size = 64; break; } printf(" 16550A"); #ifdef COM_ESP for (espp = likely_esp_ports; *espp != 0; espp++) if (espattach(com, *espp)) { com->tx_fifo_size = 1024; break; } if (com->esp) break; #endif com->tx_fifo_size = COM_FIFOSIZE(flags); if (com->tx_fifo_size == 0) com->tx_fifo_size = 16; else printf(" lookalike with %u bytes FIFO", com->tx_fifo_size); break; } #ifdef COM_ESP if (com->esp) { /* * Set 16550 compatibility mode. * We don't use the ESP_MODE_SCALE bit to increase the * fifo trigger levels because we can't handle large * bursts of input. * XXX flow control should be set in comparam(), not here. */ outb(com->esp_port + ESP_CMD1, ESP_SETMODE); outb(com->esp_port + ESP_CMD2, ESP_MODE_RTS | ESP_MODE_FIFO); /* Set RTS/CTS flow control. */ outb(com->esp_port + ESP_CMD1, ESP_SETFLOWTYPE); outb(com->esp_port + ESP_CMD2, ESP_FLOW_RTS); outb(com->esp_port + ESP_CMD2, ESP_FLOW_CTS); /* Set flow-control levels. */ outb(com->esp_port + ESP_CMD1, ESP_SETRXFLOW); outb(com->esp_port + ESP_CMD2, HIBYTE(768)); outb(com->esp_port + ESP_CMD2, LOBYTE(768)); outb(com->esp_port + ESP_CMD2, HIBYTE(512)); outb(com->esp_port + ESP_CMD2, LOBYTE(512)); } #endif /* COM_ESP */ sio_setreg(com, com_fifo, 0); determined_type: ; #ifdef COM_MULTIPORT if (COM_ISMULTIPORT(flags)) { device_t masterdev; com->multiport = TRUE; printf(" (multiport"); if (unit == COM_MPMASTER(flags)) printf(" master"); printf(")"); masterdev = devclass_get_device(sio_devclass, COM_MPMASTER(flags)); com->no_irq = (masterdev == NULL || bus_get_resource(masterdev, SYS_RES_IRQ, 0, NULL, NULL) != 0); } #endif /* COM_MULTIPORT */ if (unit == comconsole) printf(", console"); if (COM_IIR_TXRDYBUG(flags)) printf(" with a buggy IIR_TXRDY implementation"); printf("\n"); if (sio_fast_ih == NULL) { swi_add(&tty_intr_event, "sio", siopoll, NULL, SWI_TTY, 0, &sio_fast_ih); swi_add(&clk_intr_event, "sio", siopoll, NULL, SWI_CLOCK, 0, &sio_slow_ih); } com->flags = flags; com->pps.ppscap = PPS_CAPTUREASSERT | PPS_CAPTURECLEAR; tp->t_pps = &com->pps; if (COM_PPSCTS(flags)) com->pps_bit = MSR_CTS; else com->pps_bit = MSR_DCD; pps_init(&com->pps); rid = 0; com->irqres = bus_alloc_resource_any(dev, SYS_RES_IRQ, &rid, RF_ACTIVE); if (com->irqres) { ret = bus_setup_intr(dev, com->irqres, INTR_TYPE_TTY, siointr, NULL, com, &com->cookie); if (ret) { ret = bus_setup_intr(dev, com->irqres, INTR_TYPE_TTY, NULL, (driver_intr_t *)siointr, com, &com->cookie); if (ret == 0) device_printf(dev, "unable to activate interrupt in fast mode - using normal mode\n"); } if (ret) device_printf(dev, "could not activate interrupt\n"); #if defined(KDB) /* * Enable interrupts for early break-to-debugger support * on the console. */ if (ret == 0 && unit == comconsole) outb(siocniobase + com_ier, IER_ERXRDY | IER_ERLS | IER_EMSC); #endif } /* We're ready, open the doors... */ ttycreate(tp, TS_CALLOUT, "d%r", unit); return (0); } static int comopen(struct tty *tp, struct cdev *dev) { struct com_s *com; int i; com = tp->t_sc; com->poll = com->no_irq; com->poll_output = com->loses_outints; if (com->hasfifo) { /* * (Re)enable and drain fifos. * * Certain SMC chips cause problems if the fifos * are enabled while input is ready. Turn off the * fifo if necessary to clear the input. We test * the input ready bit after enabling the fifos * since we've already enabled them in comparam() * and to handle races between enabling and fresh * input. */ for (i = 0; i < 500; i++) { sio_setreg(com, com_fifo, FIFO_RCV_RST | FIFO_XMT_RST | com->fifo_image); /* * XXX the delays are for superstitious * historical reasons. It must be less than * the character time at the maximum * supported speed (87 usec at 115200 bps * 8N1). Otherwise we might loop endlessly * if data is streaming in. We used to use * delays of 100. That usually worked * because DELAY(100) used to usually delay * for about 85 usec instead of 100. */ DELAY(50); if (!(inb(com->line_status_port) & LSR_RXRDY)) break; sio_setreg(com, com_fifo, 0); DELAY(50); (void) inb(com->data_port); } if (i == 500) return (EIO); } mtx_lock_spin(&sio_lock); (void) inb(com->line_status_port); (void) inb(com->data_port); com->prev_modem_status = com->last_modem_status = inb(com->modem_status_port); outb(com->int_ctl_port, IER_ERXRDY | IER_ERLS | IER_EMSC | (COM_IIR_TXRDYBUG(com->flags) ? 0 : IER_ETXRDY)); mtx_unlock_spin(&sio_lock); siosettimeout(); /* XXX: should be generic ? */ if (com->prev_modem_status & MSR_DCD || ISCALLOUT(dev)) ttyld_modem(tp, 1); return (0); } static void comclose(tp) struct tty *tp; { int s; struct com_s *com; s = spltty(); com = tp->t_sc; com->poll = FALSE; com->poll_output = FALSE; sio_setreg(com, com_cfcr, com->cfcr_image &= ~CFCR_SBREAK); #if defined(KDB) /* * Leave interrupts enabled and don't clear DTR if this is the * console. This allows us to detect break-to-debugger events * while the console device is closed. */ if (com->unit != comconsole) #endif { sio_setreg(com, com_ier, 0); if (tp->t_cflag & HUPCL /* * XXX we will miss any carrier drop between here and the * next open. Perhaps we should watch DCD even when the * port is closed; it is not sufficient to check it at * the next open because it might go up and down while * we're not watching. */ || (!tp->t_actout && !(com->prev_modem_status & MSR_DCD) && !(tp->t_init_in.c_cflag & CLOCAL)) || !(tp->t_state & TS_ISOPEN)) { (void)commodem(tp, 0, SER_DTR); ttydtrwaitstart(tp); } } if (com->hasfifo) { /* * Disable fifos so that they are off after controlled * reboots. Some BIOSes fail to detect 16550s when the * fifos are enabled. */ sio_setreg(com, com_fifo, 0); } tp->t_actout = FALSE; wakeup(&tp->t_actout); wakeup(TSA_CARR_ON(tp)); /* restart any wopeners */ siosettimeout(); splx(s); } static void siobusycheck(chan) void *chan; { struct com_s *com; int s; com = (struct com_s *)chan; /* * Clear TS_BUSY if low-level output is complete. * spl locking is sufficient because siointr1() does not set CS_BUSY. * If siointr1() clears CS_BUSY after we look at it, then we'll get * called again. Reading the line status port outside of siointr1() * is safe because CS_BUSY is clear so there are no output interrupts * to lose. */ s = spltty(); if (com->state & CS_BUSY) com->extra_state &= ~CSE_BUSYCHECK; /* False alarm. */ else if ((inb(com->line_status_port) & (LSR_TSRE | LSR_TXRDY)) == (LSR_TSRE | LSR_TXRDY)) { com->tp->t_state &= ~TS_BUSY; ttwwakeup(com->tp); com->extra_state &= ~CSE_BUSYCHECK; } else timeout(siobusycheck, com, hz / 100); splx(s); } static u_int siodivisor(rclk, speed) u_long rclk; speed_t speed; { long actual_speed; u_int divisor; int error; if (speed == 0) return (0); #if UINT_MAX > (ULONG_MAX - 1) / 8 if (speed > (ULONG_MAX - 1) / 8) return (0); #endif divisor = (rclk / (8UL * speed) + 1) / 2; if (divisor == 0 || divisor >= 65536) return (0); actual_speed = rclk / (16UL * divisor); /* 10 times error in percent: */ error = ((actual_speed - (long)speed) * 2000 / (long)speed + 1) / 2; /* 3.0% maximum error tolerance: */ if (error < -30 || error > 30) return (0); return (divisor); } /* * Call this function with the sio_lock mutex held. It will return with the * lock still held. */ static void sioinput(com) struct com_s *com; { u_char *buf; int incc; u_char line_status; int recv_data; struct tty *tp; buf = com->ibuf; tp = com->tp; if (!(tp->t_state & TS_ISOPEN) || !(tp->t_cflag & CREAD)) { com_events -= (com->iptr - com->ibuf); com->iptr = com->ibuf; return; } if (tp->t_state & TS_CAN_BYPASS_L_RINT) { /* * Avoid the grotesquely inefficient lineswitch routine * (ttyinput) in "raw" mode. It usually takes about 450 * instructions (that's without canonical processing or echo!). * slinput is reasonably fast (usually 40 instructions plus * call overhead). */ do { /* * This may look odd, but it is using save-and-enable * semantics instead of the save-and-disable semantics * that are used everywhere else. */ mtx_unlock_spin(&sio_lock); incc = com->iptr - buf; if (tp->t_rawq.c_cc + incc > tp->t_ihiwat && (com->state & CS_RTS_IFLOW || tp->t_iflag & IXOFF) && !(tp->t_state & TS_TBLOCK)) ttyblock(tp); com->delta_error_counts[CE_TTY_BUF_OVERFLOW] += b_to_q((char *)buf, incc, &tp->t_rawq); buf += incc; tk_nin += incc; tk_rawcc += incc; tp->t_rawcc += incc; ttwakeup(tp); if (tp->t_state & TS_TTSTOP && (tp->t_iflag & IXANY || tp->t_cc[VSTART] == tp->t_cc[VSTOP])) { tp->t_state &= ~TS_TTSTOP; tp->t_lflag &= ~FLUSHO; comstart(tp); } mtx_lock_spin(&sio_lock); } while (buf < com->iptr); } else { do { /* * This may look odd, but it is using save-and-enable * semantics instead of the save-and-disable semantics * that are used everywhere else. */ mtx_unlock_spin(&sio_lock); line_status = buf[com->ierroff]; recv_data = *buf++; if (line_status & (LSR_BI | LSR_FE | LSR_OE | LSR_PE)) { if (line_status & LSR_BI) recv_data |= TTY_BI; if (line_status & LSR_FE) recv_data |= TTY_FE; if (line_status & LSR_OE) recv_data |= TTY_OE; if (line_status & LSR_PE) recv_data |= TTY_PE; } ttyld_rint(tp, recv_data); mtx_lock_spin(&sio_lock); } while (buf < com->iptr); } com_events -= (com->iptr - com->ibuf); com->iptr = com->ibuf; /* * There is now room for another low-level buffer full of input, * so enable RTS if it is now disabled and there is room in the * high-level buffer. */ if ((com->state & CS_RTS_IFLOW) && !(com->mcr_image & MCR_RTS) && !(tp->t_state & TS_TBLOCK)) outb(com->modem_ctl_port, com->mcr_image |= MCR_RTS); } static int siointr(arg) void *arg; { struct com_s *com; #ifndef COM_MULTIPORT com = (struct com_s *)arg; mtx_lock_spin(&sio_lock); siointr1(com); mtx_unlock_spin(&sio_lock); #else /* COM_MULTIPORT */ bool_t possibly_more_intrs; int unit; /* * Loop until there is no activity on any port. This is necessary * to get an interrupt edge more than to avoid another interrupt. * If the IRQ signal is just an OR of the IRQ signals from several * devices, then the edge from one may be lost because another is * on. */ mtx_lock_spin(&sio_lock); do { possibly_more_intrs = FALSE; for (unit = 0; unit < sio_numunits; ++unit) { com = com_addr(unit); /* * XXX COM_LOCK(); * would it work here, or be counter-productive? */ if (com != NULL && !com->gone && (inb(com->int_id_port) & IIR_IMASK) != IIR_NOPEND) { siointr1(com); possibly_more_intrs = TRUE; } /* XXX COM_UNLOCK(); */ } } while (possibly_more_intrs); mtx_unlock_spin(&sio_lock); #endif /* COM_MULTIPORT */ return(FILTER_HANDLED); } static struct timespec siots[8]; static int siotso; static int volatile siotsunit = -1; static int sysctl_siots(SYSCTL_HANDLER_ARGS) { char buf[128]; long long delta; size_t len; int error, i, tso; for (i = 1, tso = siotso; i < tso; i++) { delta = (long long)(siots[i].tv_sec - siots[i - 1].tv_sec) * 1000000000 + (siots[i].tv_nsec - siots[i - 1].tv_nsec); len = sprintf(buf, "%lld\n", delta); if (delta >= 110000) len += sprintf(buf + len - 1, ": *** %ld.%09ld\n", (long)siots[i].tv_sec, siots[i].tv_nsec) - 1; if (i == tso - 1) buf[len - 1] = '\0'; error = SYSCTL_OUT(req, buf, len); if (error != 0) return (error); } return (0); } SYSCTL_PROC(_machdep, OID_AUTO, siots, CTLTYPE_STRING | CTLFLAG_RD, 0, 0, sysctl_siots, "A", "sio timestamps"); static void siointr1(com) struct com_s *com; { u_char int_ctl; u_char int_ctl_new; u_char line_status; u_char modem_status; u_char *ioptr; u_char recv_data; #ifdef KDB again: #endif if (COM_IIR_TXRDYBUG(com->flags)) { int_ctl = inb(com->int_ctl_port); int_ctl_new = int_ctl; } else { int_ctl = 0; int_ctl_new = 0; } while (!com->gone) { if (com->pps.ppsparam.mode & PPS_CAPTUREBOTH) { modem_status = inb(com->modem_status_port); if ((modem_status ^ com->last_modem_status) & com->pps_bit) { pps_capture(&com->pps); pps_event(&com->pps, (modem_status & com->pps_bit) ? PPS_CAPTUREASSERT : PPS_CAPTURECLEAR); } } line_status = inb(com->line_status_port); /* input event? (check first to help avoid overruns) */ while (line_status & LSR_RCV_MASK) { /* break/unnattached error bits or real input? */ if (!(line_status & LSR_RXRDY)) recv_data = 0; else recv_data = inb(com->data_port); #ifdef KDB if (com->unit == comconsole && kdb_alt_break(recv_data, &com->alt_brk_state) != 0) goto again; #endif /* KDB */ if (line_status & (LSR_BI | LSR_FE | LSR_PE)) { /* * Don't store BI if IGNBRK or FE/PE if IGNPAR. * Otherwise, push the work to a higher level * (to handle PARMRK) if we're bypassing. * Otherwise, convert BI/FE and PE+INPCK to 0. * * This makes bypassing work right in the * usual "raw" case (IGNBRK set, and IGNPAR * and INPCK clear). * * Note: BI together with FE/PE means just BI. */ if (line_status & LSR_BI) { #if defined(KDB) if (com->unit == comconsole) { kdb_break(); goto cont; } #endif if (com->tp == NULL || com->tp->t_iflag & IGNBRK) goto cont; } else { if (com->tp == NULL || com->tp->t_iflag & IGNPAR) goto cont; } if (com->tp->t_state & TS_CAN_BYPASS_L_RINT && (line_status & (LSR_BI | LSR_FE) || com->tp->t_iflag & INPCK)) recv_data = 0; } ++com->bytes_in; if (com->tp != NULL && com->tp->t_hotchar != 0 && recv_data == com->tp->t_hotchar) swi_sched(sio_fast_ih, 0); ioptr = com->iptr; if (ioptr >= com->ibufend) CE_RECORD(com, CE_INTERRUPT_BUF_OVERFLOW); else { if (com->tp != NULL && com->tp->t_do_timestamp) microtime(&com->tp->t_timestamp); ++com_events; swi_sched(sio_slow_ih, SWI_DELAY); #if 0 /* for testing input latency vs efficiency */ if (com->iptr - com->ibuf == 8) swi_sched(sio_fast_ih, 0); #endif ioptr[0] = recv_data; ioptr[com->ierroff] = line_status; com->iptr = ++ioptr; if (ioptr == com->ihighwater && com->state & CS_RTS_IFLOW) outb(com->modem_ctl_port, com->mcr_image &= ~MCR_RTS); if (line_status & LSR_OE) CE_RECORD(com, CE_OVERRUN); } cont: if (line_status & LSR_TXRDY && com->state >= (CS_BUSY | CS_TTGO | CS_ODEVREADY)) goto txrdy; /* * "& 0x7F" is to avoid the gcc-1.40 generating a slow * jump from the top of the loop to here */ line_status = inb(com->line_status_port) & 0x7F; } /* modem status change? (always check before doing output) */ modem_status = inb(com->modem_status_port); if (modem_status != com->last_modem_status) { /* * Schedule high level to handle DCD changes. Note * that we don't use the delta bits anywhere. Some * UARTs mess them up, and it's easy to remember the * previous bits and calculate the delta. */ com->last_modem_status = modem_status; if (!(com->state & CS_CHECKMSR)) { com_events += LOTS_OF_EVENTS; com->state |= CS_CHECKMSR; swi_sched(sio_fast_ih, 0); } /* handle CTS change immediately for crisp flow ctl */ if (com->state & CS_CTS_OFLOW) { if (modem_status & MSR_CTS) com->state |= CS_ODEVREADY; else com->state &= ~CS_ODEVREADY; } } txrdy: /* output queued and everything ready? */ if (line_status & LSR_TXRDY && com->state >= (CS_BUSY | CS_TTGO | CS_ODEVREADY)) { ioptr = com->obufq.l_head; if (com->tx_fifo_size > 1 && com->unit != siotsunit) { u_int ocount; ocount = com->obufq.l_tail - ioptr; if (ocount > com->tx_fifo_size) ocount = com->tx_fifo_size; com->bytes_out += ocount; do outb(com->data_port, *ioptr++); while (--ocount != 0); } else { outb(com->data_port, *ioptr++); ++com->bytes_out; if (com->unit == siotsunit && siotso < sizeof siots / sizeof siots[0]) nanouptime(&siots[siotso++]); } com->obufq.l_head = ioptr; if (COM_IIR_TXRDYBUG(com->flags)) int_ctl_new = int_ctl | IER_ETXRDY; if (ioptr >= com->obufq.l_tail) { struct lbq *qp; qp = com->obufq.l_next; qp->l_queued = FALSE; qp = qp->l_next; if (qp != NULL) { com->obufq.l_head = qp->l_head; com->obufq.l_tail = qp->l_tail; com->obufq.l_next = qp; } else { /* output just completed */ if (COM_IIR_TXRDYBUG(com->flags)) int_ctl_new = int_ctl & ~IER_ETXRDY; com->state &= ~CS_BUSY; } if (!(com->state & CS_ODONE)) { com_events += LOTS_OF_EVENTS; com->state |= CS_ODONE; /* handle at high level ASAP */ swi_sched(sio_fast_ih, 0); } } if (COM_IIR_TXRDYBUG(com->flags) && int_ctl != int_ctl_new) outb(com->int_ctl_port, int_ctl_new); } /* finished? */ #ifndef COM_MULTIPORT if ((inb(com->int_id_port) & IIR_IMASK) == IIR_NOPEND) #endif /* COM_MULTIPORT */ return; } } /* software interrupt handler for SWI_TTY */ static void siopoll(void *dummy) { int unit; if (com_events == 0) return; repeat: for (unit = 0; unit < sio_numunits; ++unit) { struct com_s *com; int incc; struct tty *tp; com = com_addr(unit); if (com == NULL) continue; tp = com->tp; if (tp == NULL || com->gone) { /* * Discard any events related to never-opened or * going-away devices. */ mtx_lock_spin(&sio_lock); incc = com->iptr - com->ibuf; com->iptr = com->ibuf; if (com->state & CS_CHECKMSR) { incc += LOTS_OF_EVENTS; com->state &= ~CS_CHECKMSR; } com_events -= incc; mtx_unlock_spin(&sio_lock); continue; } if (com->iptr != com->ibuf) { mtx_lock_spin(&sio_lock); sioinput(com); mtx_unlock_spin(&sio_lock); } if (com->state & CS_CHECKMSR) { u_char delta_modem_status; mtx_lock_spin(&sio_lock); delta_modem_status = com->last_modem_status ^ com->prev_modem_status; com->prev_modem_status = com->last_modem_status; com_events -= LOTS_OF_EVENTS; com->state &= ~CS_CHECKMSR; mtx_unlock_spin(&sio_lock); if (delta_modem_status & MSR_DCD) ttyld_modem(tp, com->prev_modem_status & MSR_DCD); } if (com->state & CS_ODONE) { mtx_lock_spin(&sio_lock); com_events -= LOTS_OF_EVENTS; com->state &= ~CS_ODONE; mtx_unlock_spin(&sio_lock); if (!(com->state & CS_BUSY) && !(com->extra_state & CSE_BUSYCHECK)) { timeout(siobusycheck, com, hz / 100); com->extra_state |= CSE_BUSYCHECK; } ttyld_start(tp); } if (com_events == 0) break; } if (com_events >= LOTS_OF_EVENTS) goto repeat; } static void combreak(tp, sig) struct tty *tp; int sig; { struct com_s *com; com = tp->t_sc; if (sig) sio_setreg(com, com_cfcr, com->cfcr_image |= CFCR_SBREAK); else sio_setreg(com, com_cfcr, com->cfcr_image &= ~CFCR_SBREAK); } static int comparam(tp, t) struct tty *tp; struct termios *t; { u_int cfcr; int cflag; struct com_s *com; u_int divisor; u_char dlbh; u_char dlbl; u_char efr_flowbits; int s; com = tp->t_sc; if (com == NULL) return (ENODEV); /* check requested parameters */ if (t->c_ispeed != (t->c_ospeed != 0 ? t->c_ospeed : tp->t_ospeed)) return (EINVAL); divisor = siodivisor(com->rclk, t->c_ispeed); if (divisor == 0) return (EINVAL); /* parameters are OK, convert them to the com struct and the device */ s = spltty(); if (t->c_ospeed == 0) (void)commodem(tp, 0, SER_DTR); /* hang up line */ else (void)commodem(tp, SER_DTR, 0); cflag = t->c_cflag; switch (cflag & CSIZE) { case CS5: cfcr = CFCR_5BITS; break; case CS6: cfcr = CFCR_6BITS; break; case CS7: cfcr = CFCR_7BITS; break; default: cfcr = CFCR_8BITS; break; } if (cflag & PARENB) { cfcr |= CFCR_PENAB; if (!(cflag & PARODD)) cfcr |= CFCR_PEVEN; } if (cflag & CSTOPB) cfcr |= CFCR_STOPB; if (com->hasfifo) { /* * Use a fifo trigger level low enough so that the input * latency from the fifo is less than about 16 msec and * the total latency is less than about 30 msec. These * latencies are reasonable for humans. Serial comms * protocols shouldn't expect anything better since modem * latencies are larger. * * The fifo trigger level cannot be set at RX_HIGH for high * speed connections without further work on reducing * interrupt disablement times in other parts of the system, * without producing silo overflow errors. */ com->fifo_image = com->unit == siotsunit ? 0 : t->c_ispeed <= 4800 ? FIFO_ENABLE : FIFO_ENABLE | FIFO_RX_MEDH; #ifdef COM_ESP /* * The Hayes ESP card needs the fifo DMA mode bit set * in compatibility mode. If not, it will interrupt * for each character received. */ if (com->esp) com->fifo_image |= FIFO_DMA_MODE; #endif sio_setreg(com, com_fifo, com->fifo_image); } /* * This returns with interrupts disabled so that we can complete * the speed change atomically. Keeping interrupts disabled is * especially important while com_data is hidden. */ (void) siosetwater(com, t->c_ispeed); sio_setreg(com, com_cfcr, cfcr | CFCR_DLAB); /* * Only set the divisor registers if they would change, since on * some 16550 incompatibles (UMC8669F), setting them while input * is arriving loses sync until data stops arriving. */ dlbl = divisor & 0xFF; if (sio_getreg(com, com_dlbl) != dlbl) sio_setreg(com, com_dlbl, dlbl); dlbh = divisor >> 8; if (sio_getreg(com, com_dlbh) != dlbh) sio_setreg(com, com_dlbh, dlbh); efr_flowbits = 0; if (cflag & CRTS_IFLOW) { com->state |= CS_RTS_IFLOW; efr_flowbits |= EFR_AUTORTS; /* * If CS_RTS_IFLOW just changed from off to on, the change * needs to be propagated to MCR_RTS. This isn't urgent, * so do it later by calling comstart() instead of repeating * a lot of code from comstart() here. */ } else if (com->state & CS_RTS_IFLOW) { com->state &= ~CS_RTS_IFLOW; /* * CS_RTS_IFLOW just changed from on to off. Force MCR_RTS * on here, since comstart() won't do it later. */ outb(com->modem_ctl_port, com->mcr_image |= MCR_RTS); } /* * Set up state to handle output flow control. * XXX - worth handling MDMBUF (DCD) flow control at the lowest level? * Now has 10+ msec latency, while CTS flow has 50- usec latency. */ com->state |= CS_ODEVREADY; com->state &= ~CS_CTS_OFLOW; if (cflag & CCTS_OFLOW) { com->state |= CS_CTS_OFLOW; efr_flowbits |= EFR_AUTOCTS; if (!(com->last_modem_status & MSR_CTS)) com->state &= ~CS_ODEVREADY; } if (com->st16650a) { sio_setreg(com, com_lcr, LCR_EFR_ENABLE); sio_setreg(com, com_efr, (sio_getreg(com, com_efr) & ~(EFR_AUTOCTS | EFR_AUTORTS)) | efr_flowbits); } sio_setreg(com, com_cfcr, com->cfcr_image = cfcr); /* XXX shouldn't call functions while intrs are disabled. */ ttyldoptim(tp); mtx_unlock_spin(&sio_lock); splx(s); comstart(tp); if (com->ibufold != NULL) { free(com->ibufold, M_DEVBUF); com->ibufold = NULL; } return (0); } /* * This function must be called with the sio_lock mutex released and will * return with it obtained. */ static int siosetwater(com, speed) struct com_s *com; speed_t speed; { int cp4ticks; u_char *ibuf; int ibufsize; struct tty *tp; /* * Make the buffer size large enough to handle a softtty interrupt * latency of about 2 ticks without loss of throughput or data * (about 3 ticks if input flow control is not used or not honoured, * but a bit less for CS5-CS7 modes). */ cp4ticks = speed / 10 / hz * 4; for (ibufsize = 128; ibufsize < cp4ticks;) ibufsize <<= 1; if (ibufsize == com->ibufsize) { mtx_lock_spin(&sio_lock); return (0); } /* * Allocate input buffer. The extra factor of 2 in the size is * to allow for an error byte for each input byte. */ ibuf = malloc(2 * ibufsize, M_DEVBUF, M_NOWAIT); if (ibuf == NULL) { mtx_lock_spin(&sio_lock); return (ENOMEM); } /* Initialize non-critical variables. */ com->ibufold = com->ibuf; com->ibufsize = ibufsize; tp = com->tp; if (tp != NULL) { tp->t_ififosize = 2 * ibufsize; tp->t_ispeedwat = (speed_t)-1; tp->t_ospeedwat = (speed_t)-1; } /* * Read current input buffer, if any. Continue with interrupts * disabled. */ mtx_lock_spin(&sio_lock); if (com->iptr != com->ibuf) sioinput(com); /*- * Initialize critical variables, including input buffer watermarks. * The external device is asked to stop sending when the buffer * exactly reaches high water, or when the high level requests it. * The high level is notified immediately (rather than at a later * clock tick) when this watermark is reached. * The buffer size is chosen so the watermark should almost never * be reached. * The low watermark is invisibly 0 since the buffer is always * emptied all at once. */ com->iptr = com->ibuf = ibuf; com->ibufend = ibuf + ibufsize; com->ierroff = ibufsize; com->ihighwater = ibuf + 3 * ibufsize / 4; return (0); } static void comstart(tp) struct tty *tp; { struct com_s *com; int s; com = tp->t_sc; if (com == NULL) return; s = spltty(); mtx_lock_spin(&sio_lock); if (tp->t_state & TS_TTSTOP) com->state &= ~CS_TTGO; else com->state |= CS_TTGO; if (tp->t_state & TS_TBLOCK) { if (com->mcr_image & MCR_RTS && com->state & CS_RTS_IFLOW) outb(com->modem_ctl_port, com->mcr_image &= ~MCR_RTS); } else { if (!(com->mcr_image & MCR_RTS) && com->iptr < com->ihighwater && com->state & CS_RTS_IFLOW) outb(com->modem_ctl_port, com->mcr_image |= MCR_RTS); } mtx_unlock_spin(&sio_lock); if (tp->t_state & (TS_TIMEOUT | TS_TTSTOP)) { ttwwakeup(tp); splx(s); return; } if (tp->t_outq.c_cc != 0) { struct lbq *qp; struct lbq *next; if (!com->obufs[0].l_queued) { com->obufs[0].l_tail = com->obuf1 + q_to_b(&tp->t_outq, com->obuf1, sizeof com->obuf1); com->obufs[0].l_next = NULL; com->obufs[0].l_queued = TRUE; mtx_lock_spin(&sio_lock); if (com->state & CS_BUSY) { qp = com->obufq.l_next; while ((next = qp->l_next) != NULL) qp = next; qp->l_next = &com->obufs[0]; } else { com->obufq.l_head = com->obufs[0].l_head; com->obufq.l_tail = com->obufs[0].l_tail; com->obufq.l_next = &com->obufs[0]; com->state |= CS_BUSY; } mtx_unlock_spin(&sio_lock); } if (tp->t_outq.c_cc != 0 && !com->obufs[1].l_queued) { com->obufs[1].l_tail = com->obuf2 + q_to_b(&tp->t_outq, com->obuf2, sizeof com->obuf2); com->obufs[1].l_next = NULL; com->obufs[1].l_queued = TRUE; mtx_lock_spin(&sio_lock); if (com->state & CS_BUSY) { qp = com->obufq.l_next; while ((next = qp->l_next) != NULL) qp = next; qp->l_next = &com->obufs[1]; } else { com->obufq.l_head = com->obufs[1].l_head; com->obufq.l_tail = com->obufs[1].l_tail; com->obufq.l_next = &com->obufs[1]; com->state |= CS_BUSY; } mtx_unlock_spin(&sio_lock); } tp->t_state |= TS_BUSY; } mtx_lock_spin(&sio_lock); if (com->state >= (CS_BUSY | CS_TTGO)) siointr1(com); /* fake interrupt to start output */ mtx_unlock_spin(&sio_lock); ttwwakeup(tp); splx(s); } static void comstop(tp, rw) struct tty *tp; int rw; { struct com_s *com; com = tp->t_sc; if (com == NULL || com->gone) return; mtx_lock_spin(&sio_lock); if (rw & FWRITE) { if (com->hasfifo) #ifdef COM_ESP /* XXX avoid h/w bug. */ if (!com->esp) #endif sio_setreg(com, com_fifo, FIFO_XMT_RST | com->fifo_image); com->obufs[0].l_queued = FALSE; com->obufs[1].l_queued = FALSE; if (com->state & CS_ODONE) com_events -= LOTS_OF_EVENTS; com->state &= ~(CS_ODONE | CS_BUSY); com->tp->t_state &= ~TS_BUSY; } if (rw & FREAD) { if (com->hasfifo) #ifdef COM_ESP /* XXX avoid h/w bug. */ if (!com->esp) #endif sio_setreg(com, com_fifo, FIFO_RCV_RST | com->fifo_image); com_events -= (com->iptr - com->ibuf); com->iptr = com->ibuf; } mtx_unlock_spin(&sio_lock); comstart(tp); } static int commodem(struct tty *tp, int sigon, int sigoff) { struct com_s *com; int bitand, bitor, msr; com = tp->t_sc; if (com->gone) return(0); if (sigon != 0 || sigoff != 0) { bitand = bitor = 0; if (sigoff & SER_DTR) bitand |= MCR_DTR; if (sigoff & SER_RTS) bitand |= MCR_RTS; if (sigon & SER_DTR) bitor |= MCR_DTR; if (sigon & SER_RTS) bitor |= MCR_RTS; bitand = ~bitand; mtx_lock_spin(&sio_lock); com->mcr_image &= bitand; com->mcr_image |= bitor; outb(com->modem_ctl_port, com->mcr_image); mtx_unlock_spin(&sio_lock); return (0); } else { bitor = 0; if (com->mcr_image & MCR_DTR) bitor |= SER_DTR; if (com->mcr_image & MCR_RTS) bitor |= SER_RTS; msr = com->prev_modem_status; if (msr & MSR_CTS) bitor |= SER_CTS; if (msr & MSR_DCD) bitor |= SER_DCD; if (msr & MSR_DSR) bitor |= SER_DSR; if (msr & MSR_DSR) bitor |= SER_DSR; if (msr & (MSR_RI | MSR_TERI)) bitor |= SER_RI; return (bitor); } } static void siosettimeout() { struct com_s *com; bool_t someopen; int unit; /* * Set our timeout period to 1 second if no polled devices are open. * Otherwise set it to max(1/200, 1/hz). * Enable timeouts iff some device is open. */ untimeout(comwakeup, (void *)NULL, sio_timeout_handle); sio_timeout = hz; someopen = FALSE; for (unit = 0; unit < sio_numunits; ++unit) { com = com_addr(unit); if (com != NULL && com->tp != NULL && com->tp->t_state & TS_ISOPEN && !com->gone) { someopen = TRUE; if (com->poll || com->poll_output) { sio_timeout = hz > 200 ? hz / 200 : 1; break; } } } if (someopen) { sio_timeouts_until_log = hz / sio_timeout; sio_timeout_handle = timeout(comwakeup, (void *)NULL, sio_timeout); } else { /* Flush error messages, if any. */ sio_timeouts_until_log = 1; comwakeup((void *)NULL); untimeout(comwakeup, (void *)NULL, sio_timeout_handle); } } static void comwakeup(chan) void *chan; { struct com_s *com; int unit; sio_timeout_handle = timeout(comwakeup, (void *)NULL, sio_timeout); /* * Recover from lost output interrupts. * Poll any lines that don't use interrupts. */ for (unit = 0; unit < sio_numunits; ++unit) { com = com_addr(unit); if (com != NULL && !com->gone && (com->state >= (CS_BUSY | CS_TTGO) || com->poll)) { mtx_lock_spin(&sio_lock); siointr1(com); mtx_unlock_spin(&sio_lock); } } /* * Check for and log errors, but not too often. */ if (--sio_timeouts_until_log > 0) return; sio_timeouts_until_log = hz / sio_timeout; for (unit = 0; unit < sio_numunits; ++unit) { int errnum; com = com_addr(unit); if (com == NULL) continue; if (com->gone) continue; for (errnum = 0; errnum < CE_NTYPES; ++errnum) { u_int delta; u_long total; mtx_lock_spin(&sio_lock); delta = com->delta_error_counts[errnum]; com->delta_error_counts[errnum] = 0; mtx_unlock_spin(&sio_lock); if (delta == 0) continue; total = com->error_counts[errnum] += delta; log(LOG_ERR, "sio%d: %u more %s%s (total %lu)\n", unit, delta, error_desc[errnum], delta == 1 ? "" : "s", total); } } } /* * Following are all routines needed for SIO to act as console */ struct siocnstate { u_char dlbl; u_char dlbh; u_char ier; u_char cfcr; u_char mcr; }; /* * This is a function in order to not replicate "ttyd%d" more * places than absolutely necessary. */ static void siocnset(struct consdev *cd, int unit) { cd->cn_unit = unit; sprintf(cd->cn_name, "ttyd%d", unit); } static speed_t siocngetspeed(Port_t, u_long rclk); static void siocnclose(struct siocnstate *sp, Port_t iobase); static void siocnopen(struct siocnstate *sp, Port_t iobase, int speed); static void siocntxwait(Port_t iobase); static cn_probe_t sio_cnprobe; static cn_init_t sio_cninit; static cn_term_t sio_cnterm; static cn_getc_t sio_cngetc; static cn_putc_t sio_cnputc; static cn_grab_t sio_cngrab; static cn_ungrab_t sio_cnungrab; CONSOLE_DRIVER(sio); static void siocntxwait(iobase) Port_t iobase; { int timo; /* * Wait for any pending transmission to finish. Required to avoid * the UART lockup bug when the speed is changed, and for normal * transmits. */ timo = 100000; while ((inb(iobase + com_lsr) & (LSR_TSRE | LSR_TXRDY)) != (LSR_TSRE | LSR_TXRDY) && --timo != 0) ; } /* * Read the serial port specified and try to figure out what speed * it's currently running at. We're assuming the serial port has * been initialized and is basicly idle. This routine is only intended * to be run at system startup. * * If the value read from the serial port doesn't make sense, return 0. */ static speed_t siocngetspeed(iobase, rclk) Port_t iobase; u_long rclk; { u_int divisor; u_char dlbh; u_char dlbl; u_char cfcr; cfcr = inb(iobase + com_cfcr); outb(iobase + com_cfcr, CFCR_DLAB | cfcr); dlbl = inb(iobase + com_dlbl); dlbh = inb(iobase + com_dlbh); outb(iobase + com_cfcr, cfcr); divisor = dlbh << 8 | dlbl; /* XXX there should be more sanity checking. */ if (divisor == 0) return (CONSPEED); return (rclk / (16UL * divisor)); } static void siocnopen(sp, iobase, speed) struct siocnstate *sp; Port_t iobase; int speed; { u_int divisor; u_char dlbh; u_char dlbl; /* * Save all the device control registers except the fifo register * and set our default ones (cs8 -parenb speed=comdefaultrate). * We can't save the fifo register since it is read-only. */ sp->ier = inb(iobase + com_ier); outb(iobase + com_ier, 0); /* spltty() doesn't stop siointr() */ siocntxwait(iobase); sp->cfcr = inb(iobase + com_cfcr); outb(iobase + com_cfcr, CFCR_DLAB | CFCR_8BITS); sp->dlbl = inb(iobase + com_dlbl); sp->dlbh = inb(iobase + com_dlbh); /* * Only set the divisor registers if they would change, since on * some 16550 incompatibles (Startech), setting them clears the * data input register. This also reduces the effects of the * UMC8669F bug. */ divisor = siodivisor(comdefaultrclk, speed); dlbl = divisor & 0xFF; if (sp->dlbl != dlbl) outb(iobase + com_dlbl, dlbl); dlbh = divisor >> 8; if (sp->dlbh != dlbh) outb(iobase + com_dlbh, dlbh); outb(iobase + com_cfcr, CFCR_8BITS); sp->mcr = inb(iobase + com_mcr); /* * We don't want interrupts, but must be careful not to "disable" * them by clearing the MCR_IENABLE bit, since that might cause * an interrupt by floating the IRQ line. */ outb(iobase + com_mcr, (sp->mcr & MCR_IENABLE) | MCR_DTR | MCR_RTS); } static void siocnclose(sp, iobase) struct siocnstate *sp; Port_t iobase; { /* * Restore the device control registers. */ siocntxwait(iobase); outb(iobase + com_cfcr, CFCR_DLAB | CFCR_8BITS); if (sp->dlbl != inb(iobase + com_dlbl)) outb(iobase + com_dlbl, sp->dlbl); if (sp->dlbh != inb(iobase + com_dlbh)) outb(iobase + com_dlbh, sp->dlbh); outb(iobase + com_cfcr, sp->cfcr); /* * XXX damp oscillations of MCR_DTR and MCR_RTS by not restoring them. */ outb(iobase + com_mcr, sp->mcr | MCR_DTR | MCR_RTS); outb(iobase + com_ier, sp->ier); } static void sio_cnprobe(cp) struct consdev *cp; { speed_t boot_speed; u_char cfcr; u_int divisor; int s, unit; struct siocnstate sp; /* * Find our first enabled console, if any. If it is a high-level * console device, then initialize it and return successfully. * If it is a low-level console device, then initialize it and * return unsuccessfully. It must be initialized in both cases * for early use by console drivers and debuggers. Initializing * the hardware is not necessary in all cases, since the i/o * routines initialize it on the fly, but it is necessary if * input might arrive while the hardware is switched back to an * uninitialized state. We can't handle multiple console devices * yet because our low-level routines don't take a device arg. * We trust the user to set the console flags properly so that we * don't need to probe. */ cp->cn_pri = CN_DEAD; for (unit = 0; unit < 16; unit++) { /* XXX need to know how many */ int flags; if (resource_disabled("sio", unit)) continue; if (resource_int_value("sio", unit, "flags", &flags)) continue; if (COM_CONSOLE(flags) || COM_DEBUGGER(flags)) { int port; Port_t iobase; if (resource_int_value("sio", unit, "port", &port)) continue; iobase = port; s = spltty(); if ((boothowto & RB_SERIAL) && COM_CONSOLE(flags)) { boot_speed = siocngetspeed(iobase, comdefaultrclk); if (boot_speed) comdefaultrate = boot_speed; } /* * Initialize the divisor latch. We can't rely on * siocnopen() to do this the first time, since it * avoids writing to the latch if the latch appears * to have the correct value. Also, if we didn't * just read the speed from the hardware, then we * need to set the speed in hardware so that * switching it later is null. */ cfcr = inb(iobase + com_cfcr); outb(iobase + com_cfcr, CFCR_DLAB | cfcr); divisor = siodivisor(comdefaultrclk, comdefaultrate); outb(iobase + com_dlbl, divisor & 0xff); outb(iobase + com_dlbh, divisor >> 8); outb(iobase + com_cfcr, cfcr); siocnopen(&sp, iobase, comdefaultrate); splx(s); if (COM_CONSOLE(flags) && !COM_LLCONSOLE(flags)) { siocnset(cp, unit); cp->cn_pri = COM_FORCECONSOLE(flags) || boothowto & RB_SERIAL ? CN_REMOTE : CN_NORMAL; siocniobase = iobase; siocnunit = unit; } #ifdef GDB if (COM_DEBUGGER(flags)) siogdbiobase = iobase; #endif } } } static void sio_cninit(cp) struct consdev *cp; { comconsole = cp->cn_unit; } static void sio_cnterm(cp) struct consdev *cp; { comconsole = -1; } static void sio_cngrab(struct consdev *cp) { } static void sio_cnungrab(struct consdev *cp) { } static int sio_cngetc(struct consdev *cd) { int c; Port_t iobase; int s; struct siocnstate sp; speed_t speed; if (cd != NULL && cd->cn_unit == siocnunit) { iobase = siocniobase; speed = comdefaultrate; } else { #ifdef GDB iobase = siogdbiobase; speed = gdbdefaultrate; #else return (-1); #endif } s = spltty(); siocnopen(&sp, iobase, speed); if (inb(iobase + com_lsr) & LSR_RXRDY) c = inb(iobase + com_data); else c = -1; siocnclose(&sp, iobase); splx(s); return (c); } static void sio_cnputc(struct consdev *cd, int c) { int need_unlock; int s; struct siocnstate sp; Port_t iobase; speed_t speed; if (cd != NULL && cd->cn_unit == siocnunit) { iobase = siocniobase; speed = comdefaultrate; } else { #ifdef GDB iobase = siogdbiobase; speed = gdbdefaultrate; #else return; #endif } s = spltty(); need_unlock = 0; if (!kdb_active && sio_inited == 2 && !mtx_owned(&sio_lock)) { mtx_lock_spin(&sio_lock); need_unlock = 1; } siocnopen(&sp, iobase, speed); siocntxwait(iobase); outb(iobase + com_data, c); siocnclose(&sp, iobase); if (need_unlock) mtx_unlock_spin(&sio_lock); splx(s); } /* * Remote gdb(1) support. */ #if defined(GDB) #include <gdb/gdb.h> static gdb_probe_f siogdbprobe; static gdb_init_f siogdbinit; static gdb_term_f siogdbterm; static gdb_getc_f siogdbgetc; static gdb_putc_f siogdbputc; GDB_DBGPORT(sio, siogdbprobe, siogdbinit, siogdbterm, siogdbgetc, siogdbputc); static int siogdbprobe(void) { return ((siogdbiobase != 0) ? 0 : -1); } static void siogdbinit(void) { } static void siogdbterm(void) { } static void siogdbputc(int c) { sio_cnputc(NULL, c); } static int siogdbgetc(void) { return (sio_cngetc(NULL)); } #endif