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[/] [or1k/] [trunk/] [linux/] [linux-2.4/] [drivers/] [char/] [moxa.c] - Rev 1765
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/*****************************************************************************/ /* * moxa.c -- MOXA Intellio family multiport serial driver. * * Copyright (C) 1999-2000 Moxa Technologies (support@moxa.com.tw). * * This code is loosely based on the Linux serial driver, written by * Linus Torvalds, Theodore T'so and others. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ /* * MOXA Intellio Series Driver * for : LINUX * date : 1999/1/7 * version : 5.1 */ #include <linux/config.h> #include <linux/module.h> #include <linux/types.h> #include <linux/version.h> #include <linux/mm.h> #include <linux/ioport.h> #include <linux/errno.h> #include <linux/signal.h> #include <linux/sched.h> #include <linux/timer.h> #include <linux/interrupt.h> #include <linux/tty.h> #include <linux/tty_flip.h> #include <linux/major.h> #include <linux/string.h> #include <linux/fcntl.h> #include <linux/ptrace.h> #include <linux/serial.h> #include <linux/tty_driver.h> #include <linux/delay.h> #include <linux/pci.h> #include <asm/system.h> #include <asm/io.h> #include <asm/segment.h> #include <asm/bitops.h> #include <asm/uaccess.h> #define MOXA_VERSION "5.1k" #define MOXAMAJOR 172 #define MOXACUMAJOR 173 #define put_to_user(arg1, arg2) put_user(arg1, (unsigned long *)arg2) #define get_from_user(arg1, arg2) get_user(arg1, (unsigned int *)arg2) #define MAX_BOARDS 4 /* Don't change this value */ #define MAX_PORTS_PER_BOARD 32 /* Don't change this value */ #define MAX_PORTS 128 /* Don't change this value */ /* * Define the Moxa PCI vendor and device IDs. */ #define MOXA_BUS_TYPE_ISA 0 #define MOXA_BUS_TYPE_PCI 1 #ifndef PCI_VENDOR_ID_MOXA #define PCI_VENDOR_ID_MOXA 0x1393 #endif #ifndef PCI_DEVICE_ID_CP204J #define PCI_DEVICE_ID_CP204J 0x2040 #endif #ifndef PCI_DEVICE_ID_C218 #define PCI_DEVICE_ID_C218 0x2180 #endif #ifndef PCI_DEVICE_ID_C320 #define PCI_DEVICE_ID_C320 0x3200 #endif enum { MOXA_BOARD_C218_PCI = 1, MOXA_BOARD_C218_ISA, MOXA_BOARD_C320_PCI, MOXA_BOARD_C320_ISA, MOXA_BOARD_CP204J, }; static char *moxa_brdname[] = { "C218 Turbo PCI series", "C218 Turbo ISA series", "C320 Turbo PCI series", "C320 Turbo ISA series", "CP-204J series", }; static struct pci_device_id moxa_pcibrds[] = { { PCI_VENDOR_ID_MOXA, PCI_DEVICE_ID_C218, PCI_ANY_ID, PCI_ANY_ID, 0, 0, MOXA_BOARD_C218_PCI }, { PCI_VENDOR_ID_MOXA, PCI_DEVICE_ID_C320, PCI_ANY_ID, PCI_ANY_ID, 0, 0, MOXA_BOARD_C320_PCI }, { PCI_VENDOR_ID_MOXA, PCI_DEVICE_ID_CP204J, PCI_ANY_ID, PCI_ANY_ID, 0, 0, MOXA_BOARD_CP204J }, { 0 } }; MODULE_DEVICE_TABLE(pci, moxa_pcibrds); typedef struct _moxa_isa_board_conf { int boardType; int numPorts; unsigned long baseAddr; } moxa_isa_board_conf; static moxa_isa_board_conf moxa_isa_boards[] = { /* {MOXA_BOARD_C218_ISA,8,0xDC000}, */ }; typedef struct _moxa_pci_devinfo { ushort busNum; ushort devNum; } moxa_pci_devinfo; typedef struct _moxa_board_conf { int boardType; int numPorts; unsigned long baseAddr; int busType; moxa_pci_devinfo pciInfo; } moxa_board_conf; static moxa_board_conf moxa_boards[MAX_BOARDS]; static unsigned long moxaBaseAddr[MAX_BOARDS]; struct moxa_str { int type; int port; int close_delay; unsigned short closing_wait; int count; int blocked_open; long event; /* long req'd for set_bit --RR */ int asyncflags; long session; long pgrp; unsigned long statusflags; struct tty_struct *tty; struct termios normal_termios; struct termios callout_termios; wait_queue_head_t open_wait; wait_queue_head_t close_wait; struct tq_struct tqueue; }; struct mxser_mstatus { tcflag_t cflag; int cts; int dsr; int ri; int dcd; }; static struct mxser_mstatus GMStatus[MAX_PORTS]; /* statusflags */ #define TXSTOPPED 0x1 #define LOWWAIT 0x2 #define EMPTYWAIT 0x4 #define THROTTLE 0x8 /* event */ #define MOXA_EVENT_HANGUP 1 #define SERIAL_DO_RESTART #define SERIAL_TYPE_NORMAL 1 #define SERIAL_TYPE_CALLOUT 2 #define WAKEUP_CHARS 256 #define PORTNO(x) (MINOR((x)->device) - (x)->driver.minor_start) static int verbose = 0; static int ttymajor = MOXAMAJOR; static int calloutmajor = MOXACUMAJOR; #ifdef MODULE /* Variables for insmod */ static int baseaddr[] = {0, 0, 0, 0}; static int type[] = {0, 0, 0, 0}; static int numports[] = {0, 0, 0, 0}; MODULE_AUTHOR("William Chen"); MODULE_DESCRIPTION("MOXA Intellio Family Multiport Board Device Driver"); MODULE_LICENSE("GPL"); MODULE_PARM(type, "1-4i"); MODULE_PARM(baseaddr, "1-4i"); MODULE_PARM(numports, "1-4i"); MODULE_PARM(ttymajor, "i"); MODULE_PARM(calloutmajor, "i"); MODULE_PARM(verbose, "i"); EXPORT_NO_SYMBOLS; #endif //MODULE static struct tty_driver moxaDriver; static struct tty_driver moxaCallout; static struct tty_struct *moxaTable[MAX_PORTS + 1]; static struct termios *moxaTermios[MAX_PORTS + 1]; static struct termios *moxaTermiosLocked[MAX_PORTS + 1]; static struct moxa_str moxaChannels[MAX_PORTS]; static int moxaRefcount; static unsigned char *moxaXmitBuff; static int moxaTimer_on; static struct timer_list moxaTimer; static int moxaEmptyTimer_on[MAX_PORTS]; static struct timer_list moxaEmptyTimer[MAX_PORTS]; static struct semaphore moxaBuffSem; int moxa_init(void); #ifdef MODULE int init_module(void); void cleanup_module(void); #endif /* * static functions: */ static int moxa_get_PCI_conf(struct pci_dev *, int, moxa_board_conf *); static void do_moxa_softint(void *); static int moxa_open(struct tty_struct *, struct file *); static void moxa_close(struct tty_struct *, struct file *); static int moxa_write(struct tty_struct *, int, const unsigned char *, int); static int moxa_write_room(struct tty_struct *); static void moxa_flush_buffer(struct tty_struct *); static int moxa_chars_in_buffer(struct tty_struct *); static void moxa_flush_chars(struct tty_struct *); static void moxa_put_char(struct tty_struct *, unsigned char); static int moxa_ioctl(struct tty_struct *, struct file *, unsigned int, unsigned long); static void moxa_throttle(struct tty_struct *); static void moxa_unthrottle(struct tty_struct *); static void moxa_set_termios(struct tty_struct *, struct termios *); static void moxa_stop(struct tty_struct *); static void moxa_start(struct tty_struct *); static void moxa_hangup(struct tty_struct *); static void moxa_poll(unsigned long); static void set_tty_param(struct tty_struct *); static int block_till_ready(struct tty_struct *, struct file *, struct moxa_str *); static void setup_empty_event(struct tty_struct *); static void check_xmit_empty(unsigned long); static void shut_down(struct moxa_str *); static void receive_data(struct moxa_str *); /* * moxa board interface functions: */ static void MoxaDriverInit(void); static int MoxaDriverIoctl(unsigned int, unsigned long, int); static int MoxaDriverPoll(void); static int MoxaPortsOfCard(int); static int MoxaPortIsValid(int); static void MoxaPortEnable(int); static void MoxaPortDisable(int); static long MoxaPortGetMaxBaud(int); static long MoxaPortSetBaud(int, long); static int MoxaPortSetTermio(int, struct termios *); static int MoxaPortGetLineOut(int, int *, int *); static void MoxaPortLineCtrl(int, int, int); static void MoxaPortFlowCtrl(int, int, int, int, int, int); static int MoxaPortLineStatus(int); static int MoxaPortDCDChange(int); static int MoxaPortDCDON(int); static void MoxaPortFlushData(int, int); static int MoxaPortWriteData(int, unsigned char *, int); static int MoxaPortReadData(int, unsigned char *, int); static int MoxaPortTxQueue(int); static int MoxaPortRxQueue(int); static int MoxaPortTxFree(int); static void MoxaPortTxDisable(int); static void MoxaPortTxEnable(int); static int MoxaPortResetBrkCnt(int); static void MoxaPortSendBreak(int, int); static int moxa_get_serial_info(struct moxa_str *, struct serial_struct *); static int moxa_set_serial_info(struct moxa_str *, struct serial_struct *); static void MoxaSetFifo(int port, int enable); #ifdef MODULE int init_module(void) { int ret; if (verbose) printk("Loading module moxa ...\n"); ret = moxa_init(); if (verbose) printk("Done\n"); return (ret); } void cleanup_module(void) { int i; if (verbose) printk("Unloading module moxa ...\n"); if (moxaTimer_on) del_timer(&moxaTimer); for (i = 0; i < MAX_PORTS; i++) if (moxaEmptyTimer_on[i]) del_timer(&moxaEmptyTimer[i]); if (tty_unregister_driver(&moxaCallout)) printk("Couldn't unregister MOXA Intellio family callout driver\n"); if (tty_unregister_driver(&moxaDriver)) printk("Couldn't unregister MOXA Intellio family serial driver\n"); if (verbose) printk("Done\n"); } #endif int moxa_init(void) { int i, n, numBoards; struct moxa_str *ch; int ret1, ret2; printk(KERN_INFO "MOXA Intellio family driver version %s\n", MOXA_VERSION); init_MUTEX(&moxaBuffSem); memset(&moxaDriver, 0, sizeof(struct tty_driver)); memset(&moxaCallout, 0, sizeof(struct tty_driver)); moxaDriver.magic = TTY_DRIVER_MAGIC; moxaDriver.name = "ttya"; moxaDriver.major = ttymajor; moxaDriver.minor_start = 0; moxaDriver.num = MAX_PORTS + 1; moxaDriver.type = TTY_DRIVER_TYPE_SERIAL; moxaDriver.subtype = SERIAL_TYPE_NORMAL; moxaDriver.init_termios = tty_std_termios; moxaDriver.init_termios.c_iflag = 0; moxaDriver.init_termios.c_oflag = 0; moxaDriver.init_termios.c_cflag = B9600 | CS8 | CREAD | CLOCAL | HUPCL; moxaDriver.init_termios.c_lflag = 0; moxaDriver.flags = TTY_DRIVER_REAL_RAW; moxaDriver.refcount = &moxaRefcount; moxaDriver.table = moxaTable; moxaDriver.termios = moxaTermios; moxaDriver.termios_locked = moxaTermiosLocked; moxaDriver.open = moxa_open; moxaDriver.close = moxa_close; moxaDriver.write = moxa_write; moxaDriver.write_room = moxa_write_room; moxaDriver.flush_buffer = moxa_flush_buffer; moxaDriver.chars_in_buffer = moxa_chars_in_buffer; moxaDriver.flush_chars = moxa_flush_chars; moxaDriver.put_char = moxa_put_char; moxaDriver.ioctl = moxa_ioctl; moxaDriver.throttle = moxa_throttle; moxaDriver.unthrottle = moxa_unthrottle; moxaDriver.set_termios = moxa_set_termios; moxaDriver.stop = moxa_stop; moxaDriver.start = moxa_start; moxaDriver.hangup = moxa_hangup; moxaCallout = moxaDriver; moxaCallout.name = "ttyA"; moxaCallout.major = calloutmajor; moxaCallout.subtype = SERIAL_TYPE_CALLOUT; moxaXmitBuff = 0; for (i = 0, ch = moxaChannels; i < MAX_PORTS; i++, ch++) { ch->type = PORT_16550A; ch->port = i; ch->tqueue.routine = do_moxa_softint; ch->tqueue.data = ch; ch->tty = 0; ch->close_delay = 5 * HZ / 10; ch->closing_wait = 30 * HZ; ch->count = 0; ch->blocked_open = 0; ch->callout_termios = moxaCallout.init_termios; ch->normal_termios = moxaDriver.init_termios; init_waitqueue_head(&ch->open_wait); init_waitqueue_head(&ch->close_wait); } for (i = 0; i < MAX_BOARDS; i++) { moxa_boards[i].boardType = 0; moxa_boards[i].numPorts = 0; moxa_boards[i].baseAddr = 0; moxa_boards[i].busType = 0; moxa_boards[i].pciInfo.busNum = 0; moxa_boards[i].pciInfo.devNum = 0; } MoxaDriverInit(); printk("Tty devices major number = %d, callout devices major number = %d\n", ttymajor, calloutmajor); ret1 = 0; ret2 = 0; if ((ret1 = tty_register_driver(&moxaDriver))) { printk(KERN_ERR "Couldn't install MOXA Smartio family driver !\n"); } else if ((ret2 = tty_register_driver(&moxaCallout))) { tty_unregister_driver(&moxaDriver); printk(KERN_ERR "Couldn't install MOXA Smartio family callout driver !\n"); } if (ret1 || ret2) { return -1; } for (i = 0; i < MAX_PORTS; i++) { init_timer(&moxaEmptyTimer[i]); moxaEmptyTimer[i].function = check_xmit_empty; moxaEmptyTimer[i].data = (unsigned long) & moxaChannels[i]; moxaEmptyTimer_on[i] = 0; } init_timer(&moxaTimer); moxaTimer.function = moxa_poll; moxaTimer.expires = jiffies + (HZ / 50); moxaTimer_on = 1; add_timer(&moxaTimer); /* Find the boards defined in source code */ numBoards = 0; for (i = 0; i < MAX_BOARDS; i++) { if ((moxa_isa_boards[i].boardType == MOXA_BOARD_C218_ISA) || (moxa_isa_boards[i].boardType == MOXA_BOARD_C320_ISA)) { moxa_boards[numBoards].boardType = moxa_isa_boards[i].boardType; if (moxa_isa_boards[i].boardType == MOXA_BOARD_C218_ISA) moxa_boards[numBoards].numPorts = 8; else moxa_boards[numBoards].numPorts = moxa_isa_boards[i].numPorts; moxa_boards[numBoards].busType = MOXA_BUS_TYPE_ISA; moxa_boards[numBoards].baseAddr = moxa_isa_boards[i].baseAddr; if (verbose) printk("Board %2d: %s board(baseAddr=%lx)\n", numBoards + 1, moxa_brdname[moxa_boards[numBoards].boardType - 1], moxa_boards[numBoards].baseAddr); numBoards++; } } /* Find the boards defined form module args. */ #ifdef MODULE for (i = 0; i < MAX_BOARDS; i++) { if ((type[i] == MOXA_BOARD_C218_ISA) || (type[i] == MOXA_BOARD_C320_ISA)) { if (verbose) printk("Board %2d: %s board(baseAddr=%lx)\n", numBoards + 1, moxa_brdname[type[i] - 1], (unsigned long) baseaddr[i]); if (numBoards >= MAX_BOARDS) { if (verbose) printk("More than %d MOXA Intellio family boards found. Board is ignored.", MAX_BOARDS); continue; } moxa_boards[numBoards].boardType = type[i]; if (moxa_isa_boards[i].boardType == MOXA_BOARD_C218_ISA) moxa_boards[numBoards].numPorts = 8; else moxa_boards[numBoards].numPorts = numports[i]; moxa_boards[numBoards].busType = MOXA_BUS_TYPE_ISA; moxa_boards[numBoards].baseAddr = baseaddr[i]; numBoards++; } } #endif /* Find PCI boards here */ #ifdef CONFIG_PCI { struct pci_dev *p = NULL; n = (sizeof(moxa_pcibrds) / sizeof(moxa_pcibrds[0])) - 1; i = 0; while (i < n) { while ((p = pci_find_device(moxa_pcibrds[i].vendor, moxa_pcibrds[i].device, p))!=NULL) { if (pci_enable_device(p)) continue; if (numBoards >= MAX_BOARDS) { if (verbose) printk("More than %d MOXA Intellio family boards found. Board is ignored.", MAX_BOARDS); } else { moxa_get_PCI_conf(p, moxa_pcibrds[i].driver_data, &moxa_boards[numBoards]); numBoards++; } } i++; } } #endif for (i = 0; i < numBoards; i++) { moxaBaseAddr[i] = (unsigned long) ioremap((unsigned long) moxa_boards[i].baseAddr, 0x4000); } return (0); } static int moxa_get_PCI_conf(struct pci_dev *p, int board_type, moxa_board_conf * board) { board->baseAddr = pci_resource_start (p, 2); board->boardType = board_type; switch (board_type) { case MOXA_BOARD_C218_ISA: case MOXA_BOARD_C218_PCI: board->numPorts = 8; break; case MOXA_BOARD_CP204J: board->numPorts = 4; break; default: board->numPorts = 0; break; } board->busType = MOXA_BUS_TYPE_PCI; board->pciInfo.busNum = p->bus->number; board->pciInfo.devNum = p->devfn >> 3; return (0); } static void do_moxa_softint(void *private_) { struct moxa_str *ch = (struct moxa_str *) private_; struct tty_struct *tty; if (ch && (tty = ch->tty)) { if (test_and_clear_bit(MOXA_EVENT_HANGUP, &ch->event)) { tty_hangup(tty); /* FIXME: module removal race here - AKPM */ wake_up_interruptible(&ch->open_wait); ch->asyncflags &= ~(ASYNC_NORMAL_ACTIVE | ASYNC_CALLOUT_ACTIVE); } } MOD_DEC_USE_COUNT; } static int moxa_open(struct tty_struct *tty, struct file *filp) { struct moxa_str *ch; int port; int retval; unsigned long page; port = PORTNO(tty); if (port == MAX_PORTS) { MOD_INC_USE_COUNT; return (0); } if (!MoxaPortIsValid(port)) { tty->driver_data = NULL; return (-ENODEV); } down(&moxaBuffSem); if (!moxaXmitBuff) { page = get_free_page(GFP_KERNEL); if (!page) { up(&moxaBuffSem); return (-ENOMEM); } /* This test is guarded by the BuffSem so no longer needed delete me in 2.5 */ if (moxaXmitBuff) free_page(page); else moxaXmitBuff = (unsigned char *) page; } up(&moxaBuffSem); MOD_INC_USE_COUNT; ch = &moxaChannels[port]; ch->count++; tty->driver_data = ch; ch->tty = tty; if (ch->count == 1 && (ch->asyncflags & ASYNC_SPLIT_TERMIOS)) { if (tty->driver.subtype == SERIAL_TYPE_NORMAL) *tty->termios = ch->normal_termios; else *tty->termios = ch->callout_termios; } ch->session = current->session; ch->pgrp = current->pgrp; if (!(ch->asyncflags & ASYNC_INITIALIZED)) { ch->statusflags = 0; set_tty_param(tty); MoxaPortLineCtrl(ch->port, 1, 1); MoxaPortEnable(ch->port); ch->asyncflags |= ASYNC_INITIALIZED; } retval = block_till_ready(tty, filp, ch); moxa_unthrottle(tty); if (ch->type == PORT_16550A) { MoxaSetFifo(ch->port, 1); } else { MoxaSetFifo(ch->port, 0); } return (retval); } static void moxa_close(struct tty_struct *tty, struct file *filp) { struct moxa_str *ch; int port; port = PORTNO(tty); if (port == MAX_PORTS) { MOD_DEC_USE_COUNT; return; } if (!MoxaPortIsValid(port)) { #ifdef SERIAL_DEBUG_CLOSE printk("Invalid portno in moxa_close\n"); #endif tty->driver_data = NULL; return; } if (tty->driver_data == NULL) { return; } if (tty_hung_up_p(filp)) { MOD_DEC_USE_COUNT; return; } ch = (struct moxa_str *) tty->driver_data; if ((tty->count == 1) && (ch->count != 1)) { printk("moxa_close: bad serial port count; tty->count is 1, " "ch->count is %d\n", ch->count); ch->count = 1; } if (--ch->count < 0) { printk("moxa_close: bad serial port count, minor=%d\n", MINOR(tty->device)); ch->count = 0; } if (ch->count) { MOD_DEC_USE_COUNT; return; } ch->asyncflags |= ASYNC_CLOSING; /* * Save the termios structure, since this port may have * separate termios for callout and dialin. */ if (ch->asyncflags & ASYNC_NORMAL_ACTIVE) ch->normal_termios = *tty->termios; if (ch->asyncflags & ASYNC_CALLOUT_ACTIVE) ch->callout_termios = *tty->termios; if (ch->asyncflags & ASYNC_INITIALIZED) { setup_empty_event(tty); tty_wait_until_sent(tty, 30 * HZ); /* 30 seconds timeout */ moxaEmptyTimer_on[ch->port] = 0; del_timer(&moxaEmptyTimer[ch->port]); } shut_down(ch); MoxaPortFlushData(port, 2); if (tty->driver.flush_buffer) tty->driver.flush_buffer(tty); if (tty->ldisc.flush_buffer) tty->ldisc.flush_buffer(tty); tty->closing = 0; ch->event = 0; ch->tty = 0; if (ch->blocked_open) { if (ch->close_delay) { set_current_state(TASK_INTERRUPTIBLE); schedule_timeout(ch->close_delay); } wake_up_interruptible(&ch->open_wait); } ch->asyncflags &= ~(ASYNC_NORMAL_ACTIVE | ASYNC_CALLOUT_ACTIVE | ASYNC_CLOSING); wake_up_interruptible(&ch->close_wait); MOD_DEC_USE_COUNT; } static int moxa_write(struct tty_struct *tty, int from_user, const unsigned char *buf, int count) { struct moxa_str *ch; int len, port; unsigned long flags; ch = (struct moxa_str *) tty->driver_data; if (ch == NULL) return (0); port = ch->port; save_flags(flags); if (from_user) { if (count > PAGE_SIZE) count = PAGE_SIZE; down(&moxaBuffSem); if (copy_from_user(moxaXmitBuff, buf, count)) { len = -EFAULT; } else { cli(); len = MoxaPortWriteData(port, moxaXmitBuff, count); restore_flags(flags); } up(&moxaBuffSem); if (len < 0) return len; } else { cli(); len = MoxaPortWriteData(port, (unsigned char *) buf, count); restore_flags(flags); } /********************************************* if ( !(ch->statusflags & LOWWAIT) && ((len != count) || (MoxaPortTxFree(port) <= 100)) ) ************************************************/ ch->statusflags |= LOWWAIT; return (len); } static int moxa_write_room(struct tty_struct *tty) { struct moxa_str *ch; if (tty->stopped) return (0); ch = (struct moxa_str *) tty->driver_data; if (ch == NULL) return (0); return (MoxaPortTxFree(ch->port)); } static void moxa_flush_buffer(struct tty_struct *tty) { struct moxa_str *ch = (struct moxa_str *) tty->driver_data; if (ch == NULL) return; MoxaPortFlushData(ch->port, 1); if ((tty->flags & (1 << TTY_DO_WRITE_WAKEUP)) && tty->ldisc.write_wakeup) (tty->ldisc.write_wakeup) (tty); wake_up_interruptible(&tty->write_wait); } static int moxa_chars_in_buffer(struct tty_struct *tty) { int chars; struct moxa_str *ch = (struct moxa_str *) tty->driver_data; /* * Sigh...I have to check if driver_data is NULL here, because * if an open() fails, the TTY subsystem eventually calls * tty_wait_until_sent(), which calls the driver's chars_in_buffer() * routine. And since the open() failed, we return 0 here. TDJ */ if (ch == NULL) return (0); chars = MoxaPortTxQueue(ch->port); if (chars) { /* * Make it possible to wakeup anything waiting for output * in tty_ioctl.c, etc. */ if (!(ch->statusflags & EMPTYWAIT)) setup_empty_event(tty); } return (chars); } static void moxa_flush_chars(struct tty_struct *tty) { /* * Don't think I need this, because this is called to empty the TX * buffer for the 16450, 16550, etc. */ } static void moxa_put_char(struct tty_struct *tty, unsigned char c) { struct moxa_str *ch; int port; unsigned long flags; ch = (struct moxa_str *) tty->driver_data; if (ch == NULL) return; port = ch->port; save_flags(flags); cli(); moxaXmitBuff[0] = c; MoxaPortWriteData(port, moxaXmitBuff, 1); restore_flags(flags); /************************************************ if ( !(ch->statusflags & LOWWAIT) && (MoxaPortTxFree(port) <= 100) ) *************************************************/ ch->statusflags |= LOWWAIT; } static int moxa_ioctl(struct tty_struct *tty, struct file *file, unsigned int cmd, unsigned long arg) { struct moxa_str *ch = (struct moxa_str *) tty->driver_data; register int port; int retval, dtr, rts; unsigned long flag; port = PORTNO(tty); if ((port != MAX_PORTS) && (!ch)) return (-EINVAL); switch (cmd) { case TCSBRK: /* SVID version: non-zero arg --> no break */ retval = tty_check_change(tty); if (retval) return (retval); setup_empty_event(tty); tty_wait_until_sent(tty, 0); if (!arg) MoxaPortSendBreak(ch->port, 0); return (0); case TCSBRKP: /* support for POSIX tcsendbreak() */ retval = tty_check_change(tty); if (retval) return (retval); setup_empty_event(tty); tty_wait_until_sent(tty, 0); MoxaPortSendBreak(ch->port, arg); return (0); case TIOCGSOFTCAR: return put_user(C_CLOCAL(tty) ? 1 : 0, (unsigned long *) arg); case TIOCSSOFTCAR: if(get_user(retval, (unsigned long *) arg)) return -EFAULT; arg = retval; tty->termios->c_cflag = ((tty->termios->c_cflag & ~CLOCAL) | (arg ? CLOCAL : 0)); if (C_CLOCAL(tty)) ch->asyncflags &= ~ASYNC_CHECK_CD; else ch->asyncflags |= ASYNC_CHECK_CD; return (0); case TIOCMGET: flag = 0; MoxaPortGetLineOut(ch->port, &dtr, &rts); if (dtr) flag |= TIOCM_DTR; if (rts) flag |= TIOCM_RTS; dtr = MoxaPortLineStatus(ch->port); if (dtr & 1) flag |= TIOCM_CTS; if (dtr & 2) flag |= TIOCM_DSR; if (dtr & 4) flag |= TIOCM_CD; return put_user(flag, (unsigned int *) arg); case TIOCMBIS: if(get_user(retval, (unsigned int *) arg)) return -EFAULT; MoxaPortGetLineOut(ch->port, &dtr, &rts); if (retval & TIOCM_RTS) rts = 1; if (retval & TIOCM_DTR) dtr = 1; MoxaPortLineCtrl(ch->port, dtr, rts); return (0); case TIOCMBIC: if(get_user(retval, (unsigned int *) arg)) return -EFAULT; MoxaPortGetLineOut(ch->port, &dtr, &rts); if (retval & TIOCM_RTS) rts = 0; if (retval & TIOCM_DTR) dtr = 0; MoxaPortLineCtrl(ch->port, dtr, rts); return (0); case TIOCMSET: if(get_user(retval, (unsigned long *) arg)) return -EFAULT; dtr = rts = 0; if (retval & TIOCM_RTS) rts = 1; if (retval & TIOCM_DTR) dtr = 1; MoxaPortLineCtrl(ch->port, dtr, rts); return (0); case TIOCGSERIAL: return (moxa_get_serial_info(ch, (struct serial_struct *) arg)); case TIOCSSERIAL: return (moxa_set_serial_info(ch, (struct serial_struct *) arg)); default: retval = MoxaDriverIoctl(cmd, arg, port); } return (retval); } static void moxa_throttle(struct tty_struct *tty) { struct moxa_str *ch = (struct moxa_str *) tty->driver_data; ch->statusflags |= THROTTLE; } static void moxa_unthrottle(struct tty_struct *tty) { struct moxa_str *ch = (struct moxa_str *) tty->driver_data; ch->statusflags &= ~THROTTLE; } static void moxa_set_termios(struct tty_struct *tty, struct termios *old_termios) { struct moxa_str *ch = (struct moxa_str *) tty->driver_data; if (ch == NULL) return; set_tty_param(tty); if (!(old_termios->c_cflag & CLOCAL) && (tty->termios->c_cflag & CLOCAL)) wake_up_interruptible(&ch->open_wait); } static void moxa_stop(struct tty_struct *tty) { struct moxa_str *ch = (struct moxa_str *) tty->driver_data; if (ch == NULL) return; MoxaPortTxDisable(ch->port); ch->statusflags |= TXSTOPPED; } static void moxa_start(struct tty_struct *tty) { struct moxa_str *ch = (struct moxa_str *) tty->driver_data; if (ch == NULL) return; if (!(ch->statusflags & TXSTOPPED)) return; MoxaPortTxEnable(ch->port); ch->statusflags &= ~TXSTOPPED; } static void moxa_hangup(struct tty_struct *tty) { struct moxa_str *ch = (struct moxa_str *) tty->driver_data; moxa_flush_buffer(tty); shut_down(ch); ch->event = 0; ch->count = 0; ch->asyncflags &= ~(ASYNC_NORMAL_ACTIVE | ASYNC_CALLOUT_ACTIVE); ch->tty = 0; wake_up_interruptible(&ch->open_wait); } static void moxa_poll(unsigned long ignored) { register int card; struct moxa_str *ch; struct tty_struct *tp; int i, ports; moxaTimer_on = 0; del_timer(&moxaTimer); if (MoxaDriverPoll() < 0) { moxaTimer.function = moxa_poll; moxaTimer.expires = jiffies + (HZ / 50); moxaTimer_on = 1; add_timer(&moxaTimer); return; } for (card = 0; card < MAX_BOARDS; card++) { if ((ports = MoxaPortsOfCard(card)) <= 0) continue; ch = &moxaChannels[card * MAX_PORTS_PER_BOARD]; for (i = 0; i < ports; i++, ch++) { if ((ch->asyncflags & ASYNC_INITIALIZED) == 0) continue; if (!(ch->statusflags & THROTTLE) && (MoxaPortRxQueue(ch->port) > 0)) receive_data(ch); if ((tp = ch->tty) == 0) continue; if (ch->statusflags & LOWWAIT) { if (MoxaPortTxQueue(ch->port) <= WAKEUP_CHARS) { if (!tp->stopped) { ch->statusflags &= ~LOWWAIT; if ((tp->flags & (1 << TTY_DO_WRITE_WAKEUP)) && tp->ldisc.write_wakeup) (tp->ldisc.write_wakeup) (tp); wake_up_interruptible(&tp->write_wait); } } } if (!I_IGNBRK(tp) && (MoxaPortResetBrkCnt(ch->port) > 0)) { tty_insert_flip_char(tp, 0, TTY_BREAK); tty_schedule_flip(tp); } if (MoxaPortDCDChange(ch->port)) { if (ch->asyncflags & ASYNC_CHECK_CD) { if (MoxaPortDCDON(ch->port)) wake_up_interruptible(&ch->open_wait); else { set_bit(MOXA_EVENT_HANGUP, &ch->event); MOD_DEC_USE_COUNT; if (schedule_task(&ch->tqueue) == 0) MOD_INC_USE_COUNT; } } } } } moxaTimer.function = moxa_poll; moxaTimer.expires = jiffies + (HZ / 50); moxaTimer_on = 1; add_timer(&moxaTimer); } /******************************************************************************/ static void set_tty_param(struct tty_struct *tty) { register struct termios *ts; struct moxa_str *ch; int rts, cts, txflow, rxflow, xany; ch = (struct moxa_str *) tty->driver_data; ts = tty->termios; if (ts->c_cflag & CLOCAL) ch->asyncflags &= ~ASYNC_CHECK_CD; else ch->asyncflags |= ASYNC_CHECK_CD; rts = cts = txflow = rxflow = xany = 0; if (ts->c_cflag & CRTSCTS) rts = cts = 1; if (ts->c_iflag & IXON) txflow = 1; if (ts->c_iflag & IXOFF) rxflow = 1; if (ts->c_iflag & IXANY) xany = 1; MoxaPortFlowCtrl(ch->port, rts, cts, txflow, rxflow, xany); MoxaPortSetTermio(ch->port, ts); } static int block_till_ready(struct tty_struct *tty, struct file *filp, struct moxa_str *ch) { DECLARE_WAITQUEUE(wait,current); unsigned long flags; int retval; int do_clocal = C_CLOCAL(tty); /* * If the device is in the middle of being closed, then block * until it's done, and then try again. */ if (tty_hung_up_p(filp) || (ch->asyncflags & ASYNC_CLOSING)) { if (ch->asyncflags & ASYNC_CLOSING) interruptible_sleep_on(&ch->close_wait); #ifdef SERIAL_DO_RESTART if (ch->asyncflags & ASYNC_HUP_NOTIFY) return (-EAGAIN); else return (-ERESTARTSYS); #else return (-EAGAIN); #endif } /* * If this is a callout device, then just make sure the normal * device isn't being used. */ if (tty->driver.subtype == SERIAL_TYPE_CALLOUT) { if (ch->asyncflags & ASYNC_NORMAL_ACTIVE) return (-EBUSY); if ((ch->asyncflags & ASYNC_CALLOUT_ACTIVE) && (ch->asyncflags & ASYNC_SESSION_LOCKOUT) && (ch->session != current->session)) return (-EBUSY); if ((ch->asyncflags & ASYNC_CALLOUT_ACTIVE) && (ch->asyncflags & ASYNC_PGRP_LOCKOUT) && (ch->pgrp != current->pgrp)) return (-EBUSY); ch->asyncflags |= ASYNC_CALLOUT_ACTIVE; return (0); } /* * If non-blocking mode is set, then make the check up front * and then exit. */ if (filp->f_flags & O_NONBLOCK) { if (ch->asyncflags & ASYNC_CALLOUT_ACTIVE) return (-EBUSY); ch->asyncflags |= ASYNC_NORMAL_ACTIVE; return (0); } /* * Block waiting for the carrier detect and the line to become free */ retval = 0; add_wait_queue(&ch->open_wait, &wait); #ifdef SERIAL_DEBUG_OPEN printk("block_til_ready before block: ttys%d, count = %d\n", ch->line, ch->count); #endif save_flags(flags); cli(); if (!tty_hung_up_p(filp)) ch->count--; restore_flags(flags); ch->blocked_open++; while (1) { set_current_state(TASK_INTERRUPTIBLE); if (tty_hung_up_p(filp) || !(ch->asyncflags & ASYNC_INITIALIZED)) { #ifdef SERIAL_DO_RESTART if (ch->asyncflags & ASYNC_HUP_NOTIFY) retval = -EAGAIN; else retval = -ERESTARTSYS; #else retval = -EAGAIN; #endif break; } if (!(ch->asyncflags & ASYNC_CALLOUT_ACTIVE) && !(ch->asyncflags & ASYNC_CLOSING) && (do_clocal || MoxaPortDCDON(ch->port))) break; if (signal_pending(current)) { retval = -ERESTARTSYS; break; } schedule(); } set_current_state(TASK_RUNNING); remove_wait_queue(&ch->open_wait, &wait); if (!tty_hung_up_p(filp)) ch->count++; ch->blocked_open--; #ifdef SERIAL_DEBUG_OPEN printk("block_til_ready after blocking: ttys%d, count = %d\n", ch->line, ch->count); #endif if (retval) return (retval); ch->asyncflags |= ASYNC_NORMAL_ACTIVE; return (0); } static void setup_empty_event(struct tty_struct *tty) { struct moxa_str *ch = tty->driver_data; unsigned long flags; save_flags(flags); cli(); ch->statusflags |= EMPTYWAIT; moxaEmptyTimer_on[ch->port] = 0; del_timer(&moxaEmptyTimer[ch->port]); moxaEmptyTimer[ch->port].expires = jiffies + HZ; moxaEmptyTimer_on[ch->port] = 1; add_timer(&moxaEmptyTimer[ch->port]); restore_flags(flags); } static void check_xmit_empty(unsigned long data) { struct moxa_str *ch; ch = (struct moxa_str *) data; moxaEmptyTimer_on[ch->port] = 0; del_timer(&moxaEmptyTimer[ch->port]); if (ch->tty && (ch->statusflags & EMPTYWAIT)) { if (MoxaPortTxQueue(ch->port) == 0) { ch->statusflags &= ~EMPTYWAIT; if ((ch->tty->flags & (1 << TTY_DO_WRITE_WAKEUP)) && ch->tty->ldisc.write_wakeup) (ch->tty->ldisc.write_wakeup) (ch->tty); wake_up_interruptible(&ch->tty->write_wait); return; } moxaEmptyTimer[ch->port].expires = jiffies + HZ; moxaEmptyTimer_on[ch->port] = 1; add_timer(&moxaEmptyTimer[ch->port]); } else ch->statusflags &= ~EMPTYWAIT; } static void shut_down(struct moxa_str *ch) { struct tty_struct *tp; if (!(ch->asyncflags & ASYNC_INITIALIZED)) return; tp = ch->tty; MoxaPortDisable(ch->port); /* * If we're a modem control device and HUPCL is on, drop RTS & DTR. */ if (tp->termios->c_cflag & HUPCL) MoxaPortLineCtrl(ch->port, 0, 0); ch->asyncflags &= ~ASYNC_INITIALIZED; } static void receive_data(struct moxa_str *ch) { struct tty_struct *tp; struct termios *ts; int i, count, rc, space; unsigned char *charptr, *flagptr; unsigned long flags; ts = 0; tp = ch->tty; if (tp) ts = tp->termios; /************************************************** if ( !tp || !ts || !(ts->c_cflag & CREAD) ) { *****************************************************/ if (!tp || !ts) { MoxaPortFlushData(ch->port, 0); return; } space = TTY_FLIPBUF_SIZE - tp->flip.count; if (space <= 0) return; charptr = tp->flip.char_buf_ptr; flagptr = tp->flip.flag_buf_ptr; rc = tp->flip.count; save_flags(flags); cli(); count = MoxaPortReadData(ch->port, charptr, space); restore_flags(flags); for (i = 0; i < count; i++) *flagptr++ = 0; charptr += count; rc += count; tp->flip.count = rc; tp->flip.char_buf_ptr = charptr; tp->flip.flag_buf_ptr = flagptr; tty_schedule_flip(ch->tty); } #define Magic_code 0x404 /* * System Configuration */ /* * for C218 BIOS initialization */ #define C218_ConfBase 0x800 #define C218_status (C218_ConfBase + 0) /* BIOS running status */ #define C218_diag (C218_ConfBase + 2) /* diagnostic status */ #define C218_key (C218_ConfBase + 4) /* WORD (0x218 for C218) */ #define C218DLoad_len (C218_ConfBase + 6) /* WORD */ #define C218check_sum (C218_ConfBase + 8) /* BYTE */ #define C218chksum_ok (C218_ConfBase + 0x0a) /* BYTE (1:ok) */ #define C218_TestRx (C218_ConfBase + 0x10) /* 8 bytes for 8 ports */ #define C218_TestTx (C218_ConfBase + 0x18) /* 8 bytes for 8 ports */ #define C218_RXerr (C218_ConfBase + 0x20) /* 8 bytes for 8 ports */ #define C218_ErrFlag (C218_ConfBase + 0x28) /* 8 bytes for 8 ports */ #define C218_LoadBuf 0x0F00 #define C218_KeyCode 0x218 #define CP204J_KeyCode 0x204 /* * for C320 BIOS initialization */ #define C320_ConfBase 0x800 #define C320_LoadBuf 0x0f00 #define STS_init 0x05 /* for C320_status */ #define C320_status C320_ConfBase + 0 /* BIOS running status */ #define C320_diag C320_ConfBase + 2 /* diagnostic status */ #define C320_key C320_ConfBase + 4 /* WORD (0320H for C320) */ #define C320DLoad_len C320_ConfBase + 6 /* WORD */ #define C320check_sum C320_ConfBase + 8 /* WORD */ #define C320chksum_ok C320_ConfBase + 0x0a /* WORD (1:ok) */ #define C320bapi_len C320_ConfBase + 0x0c /* WORD */ #define C320UART_no C320_ConfBase + 0x0e /* WORD */ #define C320_KeyCode 0x320 #define FixPage_addr 0x0000 /* starting addr of static page */ #define DynPage_addr 0x2000 /* starting addr of dynamic page */ #define C218_start 0x3000 /* starting addr of C218 BIOS prg */ #define Control_reg 0x1ff0 /* select page and reset control */ #define HW_reset 0x80 /* * Function Codes */ #define FC_CardReset 0x80 #define FC_ChannelReset 1 /* C320 firmware not supported */ #define FC_EnableCH 2 #define FC_DisableCH 3 #define FC_SetParam 4 #define FC_SetMode 5 #define FC_SetRate 6 #define FC_LineControl 7 #define FC_LineStatus 8 #define FC_XmitControl 9 #define FC_FlushQueue 10 #define FC_SendBreak 11 #define FC_StopBreak 12 #define FC_LoopbackON 13 #define FC_LoopbackOFF 14 #define FC_ClrIrqTable 15 #define FC_SendXon 16 #define FC_SetTermIrq 17 /* C320 firmware not supported */ #define FC_SetCntIrq 18 /* C320 firmware not supported */ #define FC_SetBreakIrq 19 #define FC_SetLineIrq 20 #define FC_SetFlowCtl 21 #define FC_GenIrq 22 #define FC_InCD180 23 #define FC_OutCD180 24 #define FC_InUARTreg 23 #define FC_OutUARTreg 24 #define FC_SetXonXoff 25 #define FC_OutCD180CCR 26 #define FC_ExtIQueue 27 #define FC_ExtOQueue 28 #define FC_ClrLineIrq 29 #define FC_HWFlowCtl 30 #define FC_GetClockRate 35 #define FC_SetBaud 36 #define FC_SetDataMode 41 #define FC_GetCCSR 43 #define FC_GetDataError 45 #define FC_RxControl 50 #define FC_ImmSend 51 #define FC_SetXonState 52 #define FC_SetXoffState 53 #define FC_SetRxFIFOTrig 54 #define FC_SetTxFIFOCnt 55 #define FC_UnixRate 56 #define FC_UnixResetTimer 57 #define RxFIFOTrig1 0 #define RxFIFOTrig4 1 #define RxFIFOTrig8 2 #define RxFIFOTrig14 3 /* * Dual-Ported RAM */ #define DRAM_global 0 #define INT_data (DRAM_global + 0) #define Config_base (DRAM_global + 0x108) #define IRQindex (INT_data + 0) #define IRQpending (INT_data + 4) #define IRQtable (INT_data + 8) /* * Interrupt Status */ #define IntrRx 0x01 /* receiver data O.K. */ #define IntrTx 0x02 /* transmit buffer empty */ #define IntrFunc 0x04 /* function complete */ #define IntrBreak 0x08 /* received break */ #define IntrLine 0x10 /* line status change for transmitter */ #define IntrIntr 0x20 /* received INTR code */ #define IntrQuit 0x40 /* received QUIT code */ #define IntrEOF 0x80 /* received EOF code */ #define IntrRxTrigger 0x100 /* rx data count reach tigger value */ #define IntrTxTrigger 0x200 /* tx data count below trigger value */ #define Magic_no (Config_base + 0) #define Card_model_no (Config_base + 2) #define Total_ports (Config_base + 4) #define Module_cnt (Config_base + 8) #define Module_no (Config_base + 10) #define Timer_10ms (Config_base + 14) #define Disable_IRQ (Config_base + 20) #define TMS320_PORT1 (Config_base + 22) #define TMS320_PORT2 (Config_base + 24) #define TMS320_CLOCK (Config_base + 26) /* * DATA BUFFER in DRAM */ #define Extern_table 0x400 /* Base address of the external table (24 words * 64) total 3K bytes (24 words * 128) total 6K bytes */ #define Extern_size 0x60 /* 96 bytes */ #define RXrptr 0x00 /* read pointer for RX buffer */ #define RXwptr 0x02 /* write pointer for RX buffer */ #define TXrptr 0x04 /* read pointer for TX buffer */ #define TXwptr 0x06 /* write pointer for TX buffer */ #define HostStat 0x08 /* IRQ flag and general flag */ #define FlagStat 0x0A #define FlowControl 0x0C /* B7 B6 B5 B4 B3 B2 B1 B0 */ /* x x x x | | | | */ /* | | | + CTS flow */ /* | | +--- RTS flow */ /* | +------ TX Xon/Xoff */ /* +--------- RX Xon/Xoff */ #define Break_cnt 0x0E /* received break count */ #define CD180TXirq 0x10 /* if non-0: enable TX irq */ #define RX_mask 0x12 #define TX_mask 0x14 #define Ofs_rxb 0x16 #define Ofs_txb 0x18 #define Page_rxb 0x1A #define Page_txb 0x1C #define EndPage_rxb 0x1E #define EndPage_txb 0x20 #define Data_error 0x22 #define RxTrigger 0x28 #define TxTrigger 0x2a #define rRXwptr 0x34 #define Low_water 0x36 #define FuncCode 0x40 #define FuncArg 0x42 #define FuncArg1 0x44 #define C218rx_size 0x2000 /* 8K bytes */ #define C218tx_size 0x8000 /* 32K bytes */ #define C218rx_mask (C218rx_size - 1) #define C218tx_mask (C218tx_size - 1) #define C320p8rx_size 0x2000 #define C320p8tx_size 0x8000 #define C320p8rx_mask (C320p8rx_size - 1) #define C320p8tx_mask (C320p8tx_size - 1) #define C320p16rx_size 0x2000 #define C320p16tx_size 0x4000 #define C320p16rx_mask (C320p16rx_size - 1) #define C320p16tx_mask (C320p16tx_size - 1) #define C320p24rx_size 0x2000 #define C320p24tx_size 0x2000 #define C320p24rx_mask (C320p24rx_size - 1) #define C320p24tx_mask (C320p24tx_size - 1) #define C320p32rx_size 0x1000 #define C320p32tx_size 0x1000 #define C320p32rx_mask (C320p32rx_size - 1) #define C320p32tx_mask (C320p32tx_size - 1) #define Page_size 0x2000 #define Page_mask (Page_size - 1) #define C218rx_spage 3 #define C218tx_spage 4 #define C218rx_pageno 1 #define C218tx_pageno 4 #define C218buf_pageno 5 #define C320p8rx_spage 3 #define C320p8tx_spage 4 #define C320p8rx_pgno 1 #define C320p8tx_pgno 4 #define C320p8buf_pgno 5 #define C320p16rx_spage 3 #define C320p16tx_spage 4 #define C320p16rx_pgno 1 #define C320p16tx_pgno 2 #define C320p16buf_pgno 3 #define C320p24rx_spage 3 #define C320p24tx_spage 4 #define C320p24rx_pgno 1 #define C320p24tx_pgno 1 #define C320p24buf_pgno 2 #define C320p32rx_spage 3 #define C320p32tx_ofs C320p32rx_size #define C320p32tx_spage 3 #define C320p32buf_pgno 1 /* * Host Status */ #define WakeupRx 0x01 #define WakeupTx 0x02 #define WakeupBreak 0x08 #define WakeupLine 0x10 #define WakeupIntr 0x20 #define WakeupQuit 0x40 #define WakeupEOF 0x80 /* used in VTIME control */ #define WakeupRxTrigger 0x100 #define WakeupTxTrigger 0x200 /* * Flag status */ #define Rx_over 0x01 #define Xoff_state 0x02 #define Tx_flowOff 0x04 #define Tx_enable 0x08 #define CTS_state 0x10 #define DSR_state 0x20 #define DCD_state 0x80 /* * FlowControl */ #define CTS_FlowCtl 1 #define RTS_FlowCtl 2 #define Tx_FlowCtl 4 #define Rx_FlowCtl 8 #define IXM_IXANY 0x10 #define LowWater 128 #define DTR_ON 1 #define RTS_ON 2 #define CTS_ON 1 #define DSR_ON 2 #define DCD_ON 8 /* mode definition */ #define MX_CS8 0x03 #define MX_CS7 0x02 #define MX_CS6 0x01 #define MX_CS5 0x00 #define MX_STOP1 0x00 #define MX_STOP15 0x04 #define MX_STOP2 0x08 #define MX_PARNONE 0x00 #define MX_PAREVEN 0x40 #define MX_PARODD 0xC0 /* * Query */ #define QueryPort MAX_PORTS struct mon_str { int tick; int rxcnt[MAX_PORTS]; int txcnt[MAX_PORTS]; }; typedef struct mon_str mon_st; #define DCD_changed 0x01 #define DCD_oldstate 0x80 static unsigned char moxaBuff[10240]; static unsigned long moxaIntNdx[MAX_BOARDS]; static unsigned long moxaIntPend[MAX_BOARDS]; static unsigned long moxaIntTable[MAX_BOARDS]; static char moxaChkPort[MAX_PORTS]; static char moxaLineCtrl[MAX_PORTS]; static unsigned long moxaTableAddr[MAX_PORTS]; static long moxaCurBaud[MAX_PORTS]; static char moxaDCDState[MAX_PORTS]; static char moxaLowChkFlag[MAX_PORTS]; static int moxaLowWaterChk; static int moxaCard; static mon_st moxaLog; static int moxaFuncTout; static ushort moxaBreakCnt[MAX_PORTS]; static void moxadelay(int); static void moxafunc(unsigned long, int, ushort); static void wait_finish(unsigned long); static void low_water_check(unsigned long); static int moxaloadbios(int, unsigned char *, int); static int moxafindcard(int); static int moxaload320b(int, unsigned char *, int); static int moxaloadcode(int, unsigned char *, int); static int moxaloadc218(int, unsigned long, int); static int moxaloadc320(int, unsigned long, int, int *); /***************************************************************************** * Driver level functions: * * 1. MoxaDriverInit(void); * * 2. MoxaDriverIoctl(unsigned int cmd, unsigned long arg, int port); * * 3. MoxaDriverPoll(void); * *****************************************************************************/ void MoxaDriverInit(void) { int i; moxaFuncTout = HZ / 2; /* 500 mini-seconds */ moxaCard = 0; moxaLog.tick = 0; moxaLowWaterChk = 0; for (i = 0; i < MAX_PORTS; i++) { moxaChkPort[i] = 0; moxaLowChkFlag[i] = 0; moxaLineCtrl[i] = 0; moxaLog.rxcnt[i] = 0; moxaLog.txcnt[i] = 0; } } #define MOXA 0x400 #define MOXA_GET_IQUEUE (MOXA + 1) /* get input buffered count */ #define MOXA_GET_OQUEUE (MOXA + 2) /* get output buffered count */ #define MOXA_INIT_DRIVER (MOXA + 6) /* moxaCard=0 */ #define MOXA_LOAD_BIOS (MOXA + 9) /* download BIOS */ #define MOXA_FIND_BOARD (MOXA + 10) /* Check if MOXA card exist? */ #define MOXA_LOAD_C320B (MOXA + 11) /* download 320B firmware */ #define MOXA_LOAD_CODE (MOXA + 12) /* download firmware */ #define MOXA_GETDATACOUNT (MOXA + 23) #define MOXA_GET_IOQUEUE (MOXA + 27) #define MOXA_FLUSH_QUEUE (MOXA + 28) #define MOXA_GET_CONF (MOXA + 35) /* configuration */ #define MOXA_GET_MAJOR (MOXA + 63) #define MOXA_GET_CUMAJOR (MOXA + 64) #define MOXA_GETMSTATUS (MOXA + 65) struct moxaq_str { int inq; int outq; }; struct dl_str { char *buf; int len; int cardno; }; static struct moxaq_str temp_queue[MAX_PORTS]; static struct dl_str dltmp; void MoxaPortFlushData(int port, int mode) { unsigned long ofsAddr; if ((mode < 0) || (mode > 2)) return; ofsAddr = moxaTableAddr[port]; moxafunc(ofsAddr, FC_FlushQueue, mode); if (mode != 1) { moxaLowChkFlag[port] = 0; low_water_check(ofsAddr); } } int MoxaDriverIoctl(unsigned int cmd, unsigned long arg, int port) { int i; int status; int MoxaPortTxQueue(int), MoxaPortRxQueue(int); if (port == QueryPort) { if ((cmd != MOXA_GET_CONF) && (cmd != MOXA_INIT_DRIVER) && (cmd != MOXA_LOAD_BIOS) && (cmd != MOXA_FIND_BOARD) && (cmd != MOXA_LOAD_C320B) && (cmd != MOXA_LOAD_CODE) && (cmd != MOXA_GETDATACOUNT) && (cmd != MOXA_GET_IOQUEUE) && (cmd != MOXA_GET_MAJOR) && (cmd != MOXA_GET_CUMAJOR) && (cmd != MOXA_GETMSTATUS)) return (-EINVAL); } switch (cmd) { case MOXA_GET_CONF: if(copy_to_user((void *)arg, &moxa_boards, MAX_BOARDS * sizeof(moxa_board_conf))) return -EFAULT; return (0); case MOXA_INIT_DRIVER: if ((int) arg == 0x404) MoxaDriverInit(); return (0); case MOXA_GETDATACOUNT: moxaLog.tick = jiffies; if(copy_to_user((void *)arg, &moxaLog, sizeof(mon_st))) return -EFAULT; return (0); case MOXA_FLUSH_QUEUE: MoxaPortFlushData(port, arg); return (0); case MOXA_GET_IOQUEUE: for (i = 0; i < MAX_PORTS; i++) { if (moxaChkPort[i]) { temp_queue[i].inq = MoxaPortRxQueue(i); temp_queue[i].outq = MoxaPortTxQueue(i); } } if(copy_to_user((void *)arg, temp_queue, sizeof(struct moxaq_str) * MAX_PORTS)) return -EFAULT; return (0); case MOXA_GET_OQUEUE: i = MoxaPortTxQueue(port); return put_user(i, (unsigned long *) arg); case MOXA_GET_IQUEUE: i = MoxaPortRxQueue(port); return put_user(i, (unsigned long *) arg); case MOXA_GET_MAJOR: if(copy_to_user((void *)arg, &ttymajor, sizeof(int))) return -EFAULT; return 0; case MOXA_GET_CUMAJOR: if(copy_to_user((void *)arg, &calloutmajor, sizeof(int))) return -EFAULT; return 0; case MOXA_GETMSTATUS: for (i = 0; i < MAX_PORTS; i++) { GMStatus[i].ri = 0; GMStatus[i].dcd = 0; GMStatus[i].dsr = 0; GMStatus[i].cts = 0; if (!moxaChkPort[i]) { continue; } else { status = MoxaPortLineStatus(moxaChannels[i].port); if (status & 1) GMStatus[i].cts = 1; if (status & 2) GMStatus[i].dsr = 1; if (status & 4) GMStatus[i].dcd = 1; } if (!moxaChannels[i].tty || !moxaChannels[i].tty->termios) GMStatus[i].cflag = moxaChannels[i].normal_termios.c_cflag; else GMStatus[i].cflag = moxaChannels[i].tty->termios->c_cflag; } if(copy_to_user((void *)arg, GMStatus, sizeof(struct mxser_mstatus) * MAX_PORTS)) return -EFAULT; return 0; default: return (-ENOIOCTLCMD); case MOXA_LOAD_BIOS: case MOXA_FIND_BOARD: case MOXA_LOAD_C320B: case MOXA_LOAD_CODE: break; } if(copy_from_user(&dltmp, (void *)arg, sizeof(struct dl_str))) return -EFAULT; if(dltmp.cardno < 0 || dltmp.cardno >= MAX_BOARDS) return -EINVAL; switch(cmd) { case MOXA_LOAD_BIOS: i = moxaloadbios(dltmp.cardno, dltmp.buf, dltmp.len); return (i); case MOXA_FIND_BOARD: return moxafindcard(dltmp.cardno); case MOXA_LOAD_C320B: moxaload320b(dltmp.cardno, dltmp.buf, dltmp.len); default: /* to keep gcc happy */ return (0); case MOXA_LOAD_CODE: i = moxaloadcode(dltmp.cardno, dltmp.buf, dltmp.len); if (i == -1) return (-EFAULT); return (i); } } int MoxaDriverPoll(void) { register ushort temp; register int card; unsigned long ip, ofsAddr; int port, p, ports; if (moxaCard == 0) return (-1); for (card = 0; card < MAX_BOARDS; card++) { if ((ports = moxa_boards[card].numPorts) == 0) continue; if (readb(moxaIntPend[card]) == 0xff) { ip = moxaIntTable[card] + readb(moxaIntNdx[card]); p = card * MAX_PORTS_PER_BOARD; ports <<= 1; for (port = 0; port < ports; port += 2, p++) { if ((temp = readw(ip + port)) != 0) { writew(0, ip + port); ofsAddr = moxaTableAddr[p]; if (temp & IntrTx) writew(readw(ofsAddr + HostStat) & ~WakeupTx, ofsAddr + HostStat); if (temp & IntrBreak) { moxaBreakCnt[p]++; } if (temp & IntrLine) { if (readb(ofsAddr + FlagStat) & DCD_state) { if ((moxaDCDState[p] & DCD_oldstate) == 0) moxaDCDState[p] = (DCD_oldstate | DCD_changed); } else { if (moxaDCDState[p] & DCD_oldstate) moxaDCDState[p] = DCD_changed; } } } } writeb(0, moxaIntPend[card]); } if (moxaLowWaterChk) { p = card * MAX_PORTS_PER_BOARD; for (port = 0; port < ports; port++, p++) { if (moxaLowChkFlag[p]) { moxaLowChkFlag[p] = 0; ofsAddr = moxaTableAddr[p]; low_water_check(ofsAddr); } } } } moxaLowWaterChk = 0; return (0); } /***************************************************************************** * Card level function: * * 1. MoxaPortsOfCard(int cardno); * *****************************************************************************/ int MoxaPortsOfCard(int cardno) { if (moxa_boards[cardno].boardType == 0) return (0); return (moxa_boards[cardno].numPorts); } /***************************************************************************** * Port level functions: * * 1. MoxaPortIsValid(int port); * * 2. MoxaPortEnable(int port); * * 3. MoxaPortDisable(int port); * * 4. MoxaPortGetMaxBaud(int port); * * 5. MoxaPortGetCurBaud(int port); * * 6. MoxaPortSetBaud(int port, long baud); * * 7. MoxaPortSetMode(int port, int databit, int stopbit, int parity); * * 8. MoxaPortSetTermio(int port, unsigned char *termio); * * 9. MoxaPortGetLineOut(int port, int *dtrState, int *rtsState); * * 10. MoxaPortLineCtrl(int port, int dtrState, int rtsState); * * 11. MoxaPortFlowCtrl(int port, int rts, int cts, int rx, int tx,int xany); * * 12. MoxaPortLineStatus(int port); * * 13. MoxaPortDCDChange(int port); * * 14. MoxaPortDCDON(int port); * * 15. MoxaPortFlushData(int port, int mode); * * 16. MoxaPortWriteData(int port, unsigned char * buffer, int length); * * 17. MoxaPortReadData(int port, unsigned char * buffer, int length); * * 18. MoxaPortTxBufSize(int port); * * 19. MoxaPortRxBufSize(int port); * * 20. MoxaPortTxQueue(int port); * * 21. MoxaPortTxFree(int port); * * 22. MoxaPortRxQueue(int port); * * 23. MoxaPortRxFree(int port); * * 24. MoxaPortTxDisable(int port); * * 25. MoxaPortTxEnable(int port); * * 26. MoxaPortGetBrkCnt(int port); * * 27. MoxaPortResetBrkCnt(int port); * * 28. MoxaPortSetXonXoff(int port, int xonValue, int xoffValue); * * 29. MoxaPortIsTxHold(int port); * * 30. MoxaPortSendBreak(int port, int ticks); * *****************************************************************************/ /* * Moxa Port Number Description: * * MOXA serial driver supports up to 4 MOXA-C218/C320 boards. And, * the port number using in MOXA driver functions will be 0 to 31 for * first MOXA board, 32 to 63 for second, 64 to 95 for third and 96 * to 127 for fourth. For example, if you setup three MOXA boards, * first board is C218, second board is C320-16 and third board is * C320-32. The port number of first board (C218 - 8 ports) is from * 0 to 7. The port number of second board (C320 - 16 ports) is form * 32 to 47. The port number of third board (C320 - 32 ports) is from * 64 to 95. And those port numbers form 8 to 31, 48 to 63 and 96 to * 127 will be invalid. * * * Moxa Functions Description: * * Function 1: Driver initialization routine, this routine must be * called when initialized driver. * Syntax: * void MoxaDriverInit(); * * * Function 2: Moxa driver private IOCTL command processing. * Syntax: * int MoxaDriverIoctl(unsigned int cmd, unsigned long arg, int port); * * unsigned int cmd : IOCTL command * unsigned long arg : IOCTL argument * int port : port number (0 - 127) * * return: 0 (OK) * -EINVAL * -ENOIOCTLCMD * * * Function 3: Moxa driver polling process routine. * Syntax: * int MoxaDriverPoll(void); * * return: 0 ; polling O.K. * -1 : no any Moxa card. * * * Function 4: Get the ports of this card. * Syntax: * int MoxaPortsOfCard(int cardno); * * int cardno : card number (0 - 3) * * return: 0 : this card is invalid * 8/16/24/32 * * * Function 5: Check this port is valid or invalid * Syntax: * int MoxaPortIsValid(int port); * int port : port number (0 - 127, ref port description) * * return: 0 : this port is invalid * 1 : this port is valid * * * Function 6: Enable this port to start Tx/Rx data. * Syntax: * void MoxaPortEnable(int port); * int port : port number (0 - 127) * * * Function 7: Disable this port * Syntax: * void MoxaPortDisable(int port); * int port : port number (0 - 127) * * * Function 8: Get the maximun available baud rate of this port. * Syntax: * long MoxaPortGetMaxBaud(int port); * int port : port number (0 - 127) * * return: 0 : this port is invalid * 38400/57600/115200 bps * * * Function 9: Get the current baud rate of this port. * Syntax: * long MoxaPortGetCurBaud(int port); * int port : port number (0 - 127) * * return: 0 : this port is invalid * 50 - 115200 bps * * * Function 10: Setting baud rate of this port. * Syntax: * long MoxaPortSetBaud(int port, long baud); * int port : port number (0 - 127) * long baud : baud rate (50 - 115200) * * return: 0 : this port is invalid or baud < 50 * 50 - 115200 : the real baud rate set to the port, if * the argument baud is large than maximun * available baud rate, the real setting * baud rate will be the maximun baud rate. * * * Function 11: Setting the data-bits/stop-bits/parity of this port * Syntax: * int MoxaPortSetMode(int port, int databits, int stopbits, int parity); * int port : port number (0 - 127) * int databits : data bits (8/7/6/5) * int stopbits : stop bits (2/1/0, 0 show 1.5 stop bits) int parity : parity (0:None,1:Odd,2:Even,3:Mark,4:Space) * * return: -1 : invalid parameter * 0 : setting O.K. * * * Function 12: Configure the port. * Syntax: * int MoxaPortSetTermio(int port, struct termios *termio); * int port : port number (0 - 127) * struct termios * termio : termio structure pointer * * return: -1 : this port is invalid or termio == NULL * 0 : setting O.K. * * * Function 13: Get the DTR/RTS state of this port. * Syntax: * int MoxaPortGetLineOut(int port, int *dtrState, int *rtsState); * int port : port number (0 - 127) * int * dtrState : pointer to INT to receive the current DTR * state. (if NULL, this function will not * write to this address) * int * rtsState : pointer to INT to receive the current RTS * state. (if NULL, this function will not * write to this address) * * return: -1 : this port is invalid * 0 : O.K. * * * Function 14: Setting the DTR/RTS output state of this port. * Syntax: * void MoxaPortLineCtrl(int port, int dtrState, int rtsState); * int port : port number (0 - 127) * int dtrState : DTR output state (0: off, 1: on) * int rtsState : RTS output state (0: off, 1: on) * * * Function 15: Setting the flow control of this port. * Syntax: * void MoxaPortFlowCtrl(int port, int rtsFlow, int ctsFlow, int rxFlow, * int txFlow,int xany); * int port : port number (0 - 127) * int rtsFlow : H/W RTS flow control (0: no, 1: yes) * int ctsFlow : H/W CTS flow control (0: no, 1: yes) * int rxFlow : S/W Rx XON/XOFF flow control (0: no, 1: yes) * int txFlow : S/W Tx XON/XOFF flow control (0: no, 1: yes) * int xany : S/W XANY flow control (0: no, 1: yes) * * * Function 16: Get ths line status of this port * Syntax: * int MoxaPortLineStatus(int port); * int port : port number (0 - 127) * * return: Bit 0 - CTS state (0: off, 1: on) * Bit 1 - DSR state (0: off, 1: on) * Bit 2 - DCD state (0: off, 1: on) * * * Function 17: Check the DCD state has changed since the last read * of this function. * Syntax: * int MoxaPortDCDChange(int port); * int port : port number (0 - 127) * * return: 0 : no changed * 1 : DCD has changed * * * Function 18: Check ths current DCD state is ON or not. * Syntax: * int MoxaPortDCDON(int port); * int port : port number (0 - 127) * * return: 0 : DCD off * 1 : DCD on * * * Function 19: Flush the Rx/Tx buffer data of this port. * Syntax: * void MoxaPortFlushData(int port, int mode); * int port : port number (0 - 127) * int mode * 0 : flush the Rx buffer * 1 : flush the Tx buffer * 2 : flush the Rx and Tx buffer * * * Function 20: Write data. * Syntax: * int MoxaPortWriteData(int port, unsigned char * buffer, int length); * int port : port number (0 - 127) * unsigned char * buffer : pointer to write data buffer. * int length : write data length * * return: 0 - length : real write data length * * * Function 21: Read data. * Syntax: * int MoxaPortReadData(int port, unsigned char * buffer, int length); * int port : port number (0 - 127) * unsigned char * buffer : pointer to read data buffer. * int length : read data buffer length * * return: 0 - length : real read data length * * * Function 22: Get the Tx buffer size of this port * Syntax: * int MoxaPortTxBufSize(int port); * int port : port number (0 - 127) * * return: .. : Tx buffer size * * * Function 23: Get the Rx buffer size of this port * Syntax: * int MoxaPortRxBufSize(int port); * int port : port number (0 - 127) * * return: .. : Rx buffer size * * * Function 24: Get the Tx buffer current queued data bytes * Syntax: * int MoxaPortTxQueue(int port); * int port : port number (0 - 127) * * return: .. : Tx buffer current queued data bytes * * * Function 25: Get the Tx buffer current free space * Syntax: * int MoxaPortTxFree(int port); * int port : port number (0 - 127) * * return: .. : Tx buffer current free space * * * Function 26: Get the Rx buffer current queued data bytes * Syntax: * int MoxaPortRxQueue(int port); * int port : port number (0 - 127) * * return: .. : Rx buffer current queued data bytes * * * Function 27: Get the Rx buffer current free space * Syntax: * int MoxaPortRxFree(int port); * int port : port number (0 - 127) * * return: .. : Rx buffer current free space * * * Function 28: Disable port data transmission. * Syntax: * void MoxaPortTxDisable(int port); * int port : port number (0 - 127) * * * Function 29: Enable port data transmission. * Syntax: * void MoxaPortTxEnable(int port); * int port : port number (0 - 127) * * * Function 30: Get the received BREAK signal count. * Syntax: * int MoxaPortGetBrkCnt(int port); * int port : port number (0 - 127) * * return: 0 - .. : BREAK signal count * * * Function 31: Get the received BREAK signal count and reset it. * Syntax: * int MoxaPortResetBrkCnt(int port); * int port : port number (0 - 127) * * return: 0 - .. : BREAK signal count * * * Function 32: Set the S/W flow control new XON/XOFF value, default * XON is 0x11 & XOFF is 0x13. * Syntax: * void MoxaPortSetXonXoff(int port, int xonValue, int xoffValue); * int port : port number (0 - 127) * int xonValue : new XON value (0 - 255) * int xoffValue : new XOFF value (0 - 255) * * * Function 33: Check this port's transmission is hold by remote site * because the flow control. * Syntax: * int MoxaPortIsTxHold(int port); * int port : port number (0 - 127) * * return: 0 : normal * 1 : hold by remote site * * * Function 34: Send out a BREAK signal. * Syntax: * void MoxaPortSendBreak(int port, int ms100); * int port : port number (0 - 127) * int ms100 : break signal time interval. * unit: 100 mini-second. if ms100 == 0, it will * send out a about 250 ms BREAK signal. * */ int MoxaPortIsValid(int port) { if (moxaCard == 0) return (0); if (moxaChkPort[port] == 0) return (0); return (1); } void MoxaPortEnable(int port) { unsigned long ofsAddr; int MoxaPortLineStatus(int); short lowwater = 512; ofsAddr = moxaTableAddr[port]; writew(lowwater, ofsAddr + Low_water); moxaBreakCnt[port] = 0; if ((moxa_boards[port / MAX_PORTS_PER_BOARD].boardType == MOXA_BOARD_C320_ISA) || (moxa_boards[port / MAX_PORTS_PER_BOARD].boardType == MOXA_BOARD_C320_PCI)) { moxafunc(ofsAddr, FC_SetBreakIrq, 0); } else { writew(readw(ofsAddr + HostStat) | WakeupBreak, ofsAddr + HostStat); } moxafunc(ofsAddr, FC_SetLineIrq, Magic_code); moxafunc(ofsAddr, FC_FlushQueue, 2); moxafunc(ofsAddr, FC_EnableCH, Magic_code); MoxaPortLineStatus(port); } void MoxaPortDisable(int port) { unsigned long ofsAddr; ofsAddr = moxaTableAddr[port]; moxafunc(ofsAddr, FC_SetFlowCtl, 0); /* disable flow control */ moxafunc(ofsAddr, FC_ClrLineIrq, Magic_code); writew(0, ofsAddr + HostStat); moxafunc(ofsAddr, FC_DisableCH, Magic_code); } long MoxaPortGetMaxBaud(int port) { if ((moxa_boards[port / MAX_PORTS_PER_BOARD].boardType == MOXA_BOARD_C320_ISA) || (moxa_boards[port / MAX_PORTS_PER_BOARD].boardType == MOXA_BOARD_C320_PCI)) return (460800L); else return (921600L); } long MoxaPortSetBaud(int port, long baud) { unsigned long ofsAddr; long max, clock; unsigned int val; if ((baud < 50L) || ((max = MoxaPortGetMaxBaud(port)) == 0)) return (0); ofsAddr = moxaTableAddr[port]; if (baud > max) baud = max; if (max == 38400L) clock = 614400L; /* for 9.8304 Mhz : max. 38400 bps */ else if (max == 57600L) clock = 691200L; /* for 11.0592 Mhz : max. 57600 bps */ else clock = 921600L; /* for 14.7456 Mhz : max. 115200 bps */ val = clock / baud; moxafunc(ofsAddr, FC_SetBaud, val); baud = clock / val; moxaCurBaud[port] = baud; return (baud); } int MoxaPortSetTermio(int port, struct termios *termio) { unsigned long ofsAddr; tcflag_t cflag; long baud; tcflag_t mode = 0; if (moxaChkPort[port] == 0 || termio == 0) return (-1); ofsAddr = moxaTableAddr[port]; cflag = termio->c_cflag; /* termio->c_cflag */ mode = termio->c_cflag & CSIZE; if (mode == CS5) mode = MX_CS5; else if (mode == CS6) mode = MX_CS6; else if (mode == CS7) mode = MX_CS7; else if (mode == CS8) mode = MX_CS8; if (termio->c_cflag & CSTOPB) { if (mode == MX_CS5) mode |= MX_STOP15; else mode |= MX_STOP2; } else mode |= MX_STOP1; if (termio->c_cflag & PARENB) { if (termio->c_cflag & PARODD) mode |= MX_PARODD; else mode |= MX_PAREVEN; } else mode |= MX_PARNONE; moxafunc(ofsAddr, FC_SetDataMode, (ushort) mode); cflag &= (CBAUD | CBAUDEX); #ifndef B921600 #define B921600 (B460800+1) #endif switch (cflag) { case B921600: baud = 921600L; break; case B460800: baud = 460800L; break; case B230400: baud = 230400L; break; case B115200: baud = 115200L; break; case B57600: baud = 57600L; break; case B38400: baud = 38400L; break; case B19200: baud = 19200L; break; case B9600: baud = 9600L; break; case B4800: baud = 4800L; break; case B2400: baud = 2400L; break; case B1800: baud = 1800L; break; case B1200: baud = 1200L; break; case B600: baud = 600L; break; case B300: baud = 300L; break; case B200: baud = 200L; break; case B150: baud = 150L; break; case B134: baud = 134L; break; case B110: baud = 110L; break; case B75: baud = 75L; break; case B50: baud = 50L; break; default: baud = 0; } if ((moxa_boards[port / MAX_PORTS_PER_BOARD].boardType == MOXA_BOARD_C320_ISA) || (moxa_boards[port / MAX_PORTS_PER_BOARD].boardType == MOXA_BOARD_C320_PCI)) { if (baud == 921600L) return (-1); } MoxaPortSetBaud(port, baud); if (termio->c_iflag & (IXON | IXOFF | IXANY)) { writeb(termio->c_cc[VSTART], ofsAddr + FuncArg); writeb(termio->c_cc[VSTOP], ofsAddr + FuncArg1); writeb(FC_SetXonXoff, ofsAddr + FuncCode); wait_finish(ofsAddr); } return (0); } int MoxaPortGetLineOut(int port, int *dtrState, int *rtsState) { if (!MoxaPortIsValid(port)) return (-1); if (dtrState) { if (moxaLineCtrl[port] & DTR_ON) *dtrState = 1; else *dtrState = 0; } if (rtsState) { if (moxaLineCtrl[port] & RTS_ON) *rtsState = 1; else *rtsState = 0; } return (0); } void MoxaPortLineCtrl(int port, int dtr, int rts) { unsigned long ofsAddr; int mode; ofsAddr = moxaTableAddr[port]; mode = 0; if (dtr) mode |= DTR_ON; if (rts) mode |= RTS_ON; moxaLineCtrl[port] = mode; moxafunc(ofsAddr, FC_LineControl, mode); } void MoxaPortFlowCtrl(int port, int rts, int cts, int txflow, int rxflow, int txany) { unsigned long ofsAddr; int mode; ofsAddr = moxaTableAddr[port]; mode = 0; if (rts) mode |= RTS_FlowCtl; if (cts) mode |= CTS_FlowCtl; if (txflow) mode |= Tx_FlowCtl; if (rxflow) mode |= Rx_FlowCtl; if (txany) mode |= IXM_IXANY; moxafunc(ofsAddr, FC_SetFlowCtl, mode); } int MoxaPortLineStatus(int port) { unsigned long ofsAddr; int val; ofsAddr = moxaTableAddr[port]; if ((moxa_boards[port / MAX_PORTS_PER_BOARD].boardType == MOXA_BOARD_C320_ISA) || (moxa_boards[port / MAX_PORTS_PER_BOARD].boardType == MOXA_BOARD_C320_PCI)) { moxafunc(ofsAddr, FC_LineStatus, 0); val = readw(ofsAddr + FuncArg); } else { val = readw(ofsAddr + FlagStat) >> 4; } val &= 0x0B; if (val & 8) { val |= 4; if ((moxaDCDState[port] & DCD_oldstate) == 0) moxaDCDState[port] = (DCD_oldstate | DCD_changed); } else { if (moxaDCDState[port] & DCD_oldstate) moxaDCDState[port] = DCD_changed; } val &= 7; return (val); } int MoxaPortDCDChange(int port) { int n; if (moxaChkPort[port] == 0) return (0); n = moxaDCDState[port]; moxaDCDState[port] &= ~DCD_changed; n &= DCD_changed; return (n); } int MoxaPortDCDON(int port) { int n; if (moxaChkPort[port] == 0) return (0); if (moxaDCDState[port] & DCD_oldstate) n = 1; else n = 0; return (n); } /* int MoxaDumpMem(int port, unsigned char * buffer, int len) { int i; unsigned long baseAddr,ofsAddr,ofs; baseAddr = moxaBaseAddr[port / MAX_PORTS_PER_BOARD]; ofs = baseAddr + DynPage_addr + pageofs; if (len > 0x2000L) len = 0x2000L; for (i = 0; i < len; i++) buffer[i] = readb(ofs+i); } */ int MoxaPortWriteData(int port, unsigned char * buffer, int len) { int c, total, i; ushort tail; int cnt; ushort head, tx_mask, spage, epage; ushort pageno, pageofs, bufhead; unsigned long baseAddr, ofsAddr, ofs; ofsAddr = moxaTableAddr[port]; baseAddr = moxaBaseAddr[port / MAX_PORTS_PER_BOARD]; tx_mask = readw(ofsAddr + TX_mask); spage = readw(ofsAddr + Page_txb); epage = readw(ofsAddr + EndPage_txb); tail = readw(ofsAddr + TXwptr); head = readw(ofsAddr + TXrptr); c = (head > tail) ? (head - tail - 1) : (head - tail + tx_mask); if (c > len) c = len; moxaLog.txcnt[port] += c; total = c; if (spage == epage) { bufhead = readw(ofsAddr + Ofs_txb); writew(spage, baseAddr + Control_reg); while (c > 0) { if (head > tail) len = head - tail - 1; else len = tx_mask + 1 - tail; len = (c > len) ? len : c; ofs = baseAddr + DynPage_addr + bufhead + tail; for (i = 0; i < len; i++) writeb(*buffer++, ofs + i); tail = (tail + len) & tx_mask; c -= len; } writew(tail, ofsAddr + TXwptr); } else { len = c; pageno = spage + (tail >> 13); pageofs = tail & Page_mask; do { cnt = Page_size - pageofs; if (cnt > c) cnt = c; c -= cnt; writeb(pageno, baseAddr + Control_reg); ofs = baseAddr + DynPage_addr + pageofs; for (i = 0; i < cnt; i++) writeb(*buffer++, ofs + i); if (c == 0) { writew((tail + len) & tx_mask, ofsAddr + TXwptr); break; } if (++pageno == epage) pageno = spage; pageofs = 0; } while (1); } writeb(1, ofsAddr + CD180TXirq); /* start to send */ return (total); } int MoxaPortReadData(int port, unsigned char * buffer, int space) { register ushort head, pageofs; int i, count, cnt, len, total, remain; ushort tail, rx_mask, spage, epage; ushort pageno, bufhead; unsigned long baseAddr, ofsAddr, ofs; ofsAddr = moxaTableAddr[port]; baseAddr = moxaBaseAddr[port / MAX_PORTS_PER_BOARD]; head = readw(ofsAddr + RXrptr); tail = readw(ofsAddr + RXwptr); rx_mask = readw(ofsAddr + RX_mask); spage = readw(ofsAddr + Page_rxb); epage = readw(ofsAddr + EndPage_rxb); count = (tail >= head) ? (tail - head) : (tail - head + rx_mask + 1); if (count == 0) return (0); total = (space > count) ? count : space; remain = count - total; moxaLog.rxcnt[port] += total; count = total; if (spage == epage) { bufhead = readw(ofsAddr + Ofs_rxb); writew(spage, baseAddr + Control_reg); while (count > 0) { if (tail >= head) len = tail - head; else len = rx_mask + 1 - head; len = (count > len) ? len : count; ofs = baseAddr + DynPage_addr + bufhead + head; for (i = 0; i < len; i++) *buffer++ = readb(ofs + i); head = (head + len) & rx_mask; count -= len; } writew(head, ofsAddr + RXrptr); } else { len = count; pageno = spage + (head >> 13); pageofs = head & Page_mask; do { cnt = Page_size - pageofs; if (cnt > count) cnt = count; count -= cnt; writew(pageno, baseAddr + Control_reg); ofs = baseAddr + DynPage_addr + pageofs; for (i = 0; i < cnt; i++) *buffer++ = readb(ofs + i); if (count == 0) { writew((head + len) & rx_mask, ofsAddr + RXrptr); break; } if (++pageno == epage) pageno = spage; pageofs = 0; } while (1); } if ((readb(ofsAddr + FlagStat) & Xoff_state) && (remain < LowWater)) { moxaLowWaterChk = 1; moxaLowChkFlag[port] = 1; } return (total); } int MoxaPortTxQueue(int port) { unsigned long ofsAddr; ushort rptr, wptr, mask; int len; ofsAddr = moxaTableAddr[port]; rptr = readw(ofsAddr + TXrptr); wptr = readw(ofsAddr + TXwptr); mask = readw(ofsAddr + TX_mask); len = (wptr - rptr) & mask; return (len); } int MoxaPortTxFree(int port) { unsigned long ofsAddr; ushort rptr, wptr, mask; int len; ofsAddr = moxaTableAddr[port]; rptr = readw(ofsAddr + TXrptr); wptr = readw(ofsAddr + TXwptr); mask = readw(ofsAddr + TX_mask); len = mask - ((wptr - rptr) & mask); return (len); } int MoxaPortRxQueue(int port) { unsigned long ofsAddr; ushort rptr, wptr, mask; int len; ofsAddr = moxaTableAddr[port]; rptr = readw(ofsAddr + RXrptr); wptr = readw(ofsAddr + RXwptr); mask = readw(ofsAddr + RX_mask); len = (wptr - rptr) & mask; return (len); } void MoxaPortTxDisable(int port) { unsigned long ofsAddr; ofsAddr = moxaTableAddr[port]; moxafunc(ofsAddr, FC_SetXoffState, Magic_code); } void MoxaPortTxEnable(int port) { unsigned long ofsAddr; ofsAddr = moxaTableAddr[port]; moxafunc(ofsAddr, FC_SetXonState, Magic_code); } int MoxaPortResetBrkCnt(int port) { ushort cnt; cnt = moxaBreakCnt[port]; moxaBreakCnt[port] = 0; return (cnt); } void MoxaPortSendBreak(int port, int ms100) { unsigned long ofsAddr; ofsAddr = moxaTableAddr[port]; if (ms100) { moxafunc(ofsAddr, FC_SendBreak, Magic_code); moxadelay(ms100 * (HZ / 10)); } else { moxafunc(ofsAddr, FC_SendBreak, Magic_code); moxadelay(HZ / 4); /* 250 ms */ } moxafunc(ofsAddr, FC_StopBreak, Magic_code); } static int moxa_get_serial_info(struct moxa_str *info, struct serial_struct *retinfo) { struct serial_struct tmp; if (!retinfo) return (-EFAULT); memset(&tmp, 0, sizeof(tmp)); tmp.type = info->type; tmp.line = info->port; tmp.port = 0; tmp.irq = 0; tmp.flags = info->asyncflags; tmp.baud_base = 921600; tmp.close_delay = info->close_delay; tmp.closing_wait = info->closing_wait; tmp.custom_divisor = 0; tmp.hub6 = 0; if(copy_to_user(retinfo, &tmp, sizeof(*retinfo))) return -EFAULT; return (0); } static int moxa_set_serial_info(struct moxa_str *info, struct serial_struct *new_info) { struct serial_struct new_serial; if(copy_from_user(&new_serial, new_info, sizeof(new_serial))) return -EFAULT; if ((new_serial.irq != 0) || (new_serial.port != 0) || // (new_serial.type != info->type) || (new_serial.custom_divisor != 0) || (new_serial.baud_base != 921600)) return (-EPERM); if (!suser()) { if (((new_serial.flags & ~ASYNC_USR_MASK) != (info->asyncflags & ~ASYNC_USR_MASK))) return (-EPERM); } else { info->close_delay = new_serial.close_delay * HZ / 100; info->closing_wait = new_serial.closing_wait * HZ / 100; } new_serial.flags = (new_serial.flags & ~ASYNC_FLAGS); new_serial.flags |= (info->asyncflags & ASYNC_FLAGS); if (new_serial.type == PORT_16550A) { MoxaSetFifo(info->port, 1); } else { MoxaSetFifo(info->port, 0); } info->type = new_serial.type; return (0); } /***************************************************************************** * Static local functions: * *****************************************************************************/ /* * moxadelay - delays a specified number ticks */ static void moxadelay(int tick) { unsigned long st, et; st = jiffies; et = st + tick; while (jiffies < et); } static void moxafunc(unsigned long ofsAddr, int cmd, ushort arg) { writew(arg, ofsAddr + FuncArg); writew(cmd, ofsAddr + FuncCode); wait_finish(ofsAddr); } static void wait_finish(unsigned long ofsAddr) { unsigned long i, j; i = jiffies; while (readw(ofsAddr + FuncCode) != 0) { j = jiffies; if ((j - i) > moxaFuncTout) { return; } } } static void low_water_check(unsigned long ofsAddr) { int len; ushort rptr, wptr, mask; if (readb(ofsAddr + FlagStat) & Xoff_state) { rptr = readw(ofsAddr + RXrptr); wptr = readw(ofsAddr + RXwptr); mask = readw(ofsAddr + RX_mask); len = (wptr - rptr) & mask; if (len <= Low_water) moxafunc(ofsAddr, FC_SendXon, 0); } } static int moxaloadbios(int cardno, unsigned char *tmp, int len) { unsigned long baseAddr; int i; if(copy_from_user(moxaBuff, tmp, len)) return -EFAULT; baseAddr = moxaBaseAddr[cardno]; writeb(HW_reset, baseAddr + Control_reg); /* reset */ moxadelay(1); /* delay 10 ms */ for (i = 0; i < 4096; i++) writeb(0, baseAddr + i); /* clear fix page */ for (i = 0; i < len; i++) writeb(moxaBuff[i], baseAddr + i); /* download BIOS */ writeb(0, baseAddr + Control_reg); /* restart */ return (0); } static int moxafindcard(int cardno) { unsigned long baseAddr; ushort tmp; baseAddr = moxaBaseAddr[cardno]; switch (moxa_boards[cardno].boardType) { case MOXA_BOARD_C218_ISA: case MOXA_BOARD_C218_PCI: if ((tmp = readw(baseAddr + C218_key)) != C218_KeyCode) { return (-1); } break; case MOXA_BOARD_CP204J: if ((tmp = readw(baseAddr + C218_key)) != CP204J_KeyCode) { return (-1); } break; default: if ((tmp = readw(baseAddr + C320_key)) != C320_KeyCode) { return (-1); } if ((tmp = readw(baseAddr + C320_status)) != STS_init) { return (-2); } } return (0); } static int moxaload320b(int cardno, unsigned char * tmp, int len) { unsigned long baseAddr; int i; if(len > sizeof(moxaBuff)) return -EINVAL; if(copy_from_user(moxaBuff, tmp, len)) return -EFAULT; baseAddr = moxaBaseAddr[cardno]; writew(len - 7168 - 2, baseAddr + C320bapi_len); writeb(1, baseAddr + Control_reg); /* Select Page 1 */ for (i = 0; i < 7168; i++) writeb(moxaBuff[i], baseAddr + DynPage_addr + i); writeb(2, baseAddr + Control_reg); /* Select Page 2 */ for (i = 0; i < (len - 7168); i++) writeb(moxaBuff[i + 7168], baseAddr + DynPage_addr + i); return (0); } static int moxaloadcode(int cardno, unsigned char * tmp, int len) { unsigned long baseAddr, ofsAddr; int retval, port, i; if(copy_from_user(moxaBuff, tmp, len)) return -EFAULT; baseAddr = moxaBaseAddr[cardno]; switch (moxa_boards[cardno].boardType) { case MOXA_BOARD_C218_ISA: case MOXA_BOARD_C218_PCI: case MOXA_BOARD_CP204J: retval = moxaloadc218(cardno, baseAddr, len); if (retval) return (retval); port = cardno * MAX_PORTS_PER_BOARD; for (i = 0; i < moxa_boards[cardno].numPorts; i++, port++) { moxaChkPort[port] = 1; moxaCurBaud[port] = 9600L; moxaDCDState[port] = 0; moxaTableAddr[port] = baseAddr + Extern_table + Extern_size * i; ofsAddr = moxaTableAddr[port]; writew(C218rx_mask, ofsAddr + RX_mask); writew(C218tx_mask, ofsAddr + TX_mask); writew(C218rx_spage + i * C218buf_pageno, ofsAddr + Page_rxb); writew(readw(ofsAddr + Page_rxb) + C218rx_pageno, ofsAddr + EndPage_rxb); writew(C218tx_spage + i * C218buf_pageno, ofsAddr + Page_txb); writew(readw(ofsAddr + Page_txb) + C218tx_pageno, ofsAddr + EndPage_txb); } break; default: retval = moxaloadc320(cardno, baseAddr, len, &moxa_boards[cardno].numPorts); if (retval) return (retval); port = cardno * MAX_PORTS_PER_BOARD; for (i = 0; i < moxa_boards[cardno].numPorts; i++, port++) { moxaChkPort[port] = 1; moxaCurBaud[port] = 9600L; moxaDCDState[port] = 0; moxaTableAddr[port] = baseAddr + Extern_table + Extern_size * i; ofsAddr = moxaTableAddr[port]; if (moxa_boards[cardno].numPorts == 8) { writew(C320p8rx_mask, ofsAddr + RX_mask); writew(C320p8tx_mask, ofsAddr + TX_mask); writew(C320p8rx_spage + i * C320p8buf_pgno, ofsAddr + Page_rxb); writew(readw(ofsAddr + Page_rxb) + C320p8rx_pgno, ofsAddr + EndPage_rxb); writew(C320p8tx_spage + i * C320p8buf_pgno, ofsAddr + Page_txb); writew(readw(ofsAddr + Page_txb) + C320p8tx_pgno, ofsAddr + EndPage_txb); } else if (moxa_boards[cardno].numPorts == 16) { writew(C320p16rx_mask, ofsAddr + RX_mask); writew(C320p16tx_mask, ofsAddr + TX_mask); writew(C320p16rx_spage + i * C320p16buf_pgno, ofsAddr + Page_rxb); writew(readw(ofsAddr + Page_rxb) + C320p16rx_pgno, ofsAddr + EndPage_rxb); writew(C320p16tx_spage + i * C320p16buf_pgno, ofsAddr + Page_txb); writew(readw(ofsAddr + Page_txb) + C320p16tx_pgno, ofsAddr + EndPage_txb); } else if (moxa_boards[cardno].numPorts == 24) { writew(C320p24rx_mask, ofsAddr + RX_mask); writew(C320p24tx_mask, ofsAddr + TX_mask); writew(C320p24rx_spage + i * C320p24buf_pgno, ofsAddr + Page_rxb); writew(readw(ofsAddr + Page_rxb) + C320p24rx_pgno, ofsAddr + EndPage_rxb); writew(C320p24tx_spage + i * C320p24buf_pgno, ofsAddr + Page_txb); writew(readw(ofsAddr + Page_txb), ofsAddr + EndPage_txb); } else if (moxa_boards[cardno].numPorts == 32) { writew(C320p32rx_mask, ofsAddr + RX_mask); writew(C320p32tx_mask, ofsAddr + TX_mask); writew(C320p32tx_ofs, ofsAddr + Ofs_txb); writew(C320p32rx_spage + i * C320p32buf_pgno, ofsAddr + Page_rxb); writew(readb(ofsAddr + Page_rxb), ofsAddr + EndPage_rxb); writew(C320p32tx_spage + i * C320p32buf_pgno, ofsAddr + Page_txb); writew(readw(ofsAddr + Page_txb), ofsAddr + EndPage_txb); } } break; } return (0); } static int moxaloadc218(int cardno, unsigned long baseAddr, int len) { char retry; int i, j, len1, len2; ushort usum, *ptr, keycode; if (moxa_boards[cardno].boardType == MOXA_BOARD_CP204J) keycode = CP204J_KeyCode; else keycode = C218_KeyCode; usum = 0; len1 = len >> 1; ptr = (ushort *) moxaBuff; for (i = 0; i < len1; i++) usum += *(ptr + i); retry = 0; do { len1 = len >> 1; j = 0; while (len1) { len2 = (len1 > 2048) ? 2048 : len1; len1 -= len2; for (i = 0; i < len2 << 1; i++) writeb(moxaBuff[i + j], baseAddr + C218_LoadBuf + i); j += i; writew(len2, baseAddr + C218DLoad_len); writew(0, baseAddr + C218_key); for (i = 0; i < 100; i++) { if (readw(baseAddr + C218_key) == keycode) break; moxadelay(1); /* delay 10 ms */ } if (readw(baseAddr + C218_key) != keycode) { return (-1); } } writew(0, baseAddr + C218DLoad_len); writew(usum, baseAddr + C218check_sum); writew(0, baseAddr + C218_key); for (i = 0; i < 100; i++) { if (readw(baseAddr + C218_key) == keycode) break; moxadelay(1); /* delay 10 ms */ } retry++; } while ((readb(baseAddr + C218chksum_ok) != 1) && (retry < 3)); if (readb(baseAddr + C218chksum_ok) != 1) { return (-1); } writew(0, baseAddr + C218_key); for (i = 0; i < 100; i++) { if (readw(baseAddr + Magic_no) == Magic_code) break; moxadelay(1); /* delay 10 ms */ } if (readw(baseAddr + Magic_no) != Magic_code) { return (-1); } writew(1, baseAddr + Disable_IRQ); writew(0, baseAddr + Magic_no); for (i = 0; i < 100; i++) { if (readw(baseAddr + Magic_no) == Magic_code) break; moxadelay(1); /* delay 10 ms */ } if (readw(baseAddr + Magic_no) != Magic_code) { return (-1); } moxaCard = 1; moxaIntNdx[cardno] = baseAddr + IRQindex; moxaIntPend[cardno] = baseAddr + IRQpending; moxaIntTable[cardno] = baseAddr + IRQtable; return (0); } static int moxaloadc320(int cardno, unsigned long baseAddr, int len, int *numPorts) { ushort usum; int i, j, wlen, len2, retry; ushort *uptr; usum = 0; wlen = len >> 1; uptr = (ushort *) moxaBuff; for (i = 0; i < wlen; i++) usum += uptr[i]; retry = 0; j = 0; do { while (wlen) { if (wlen > 2048) len2 = 2048; else len2 = wlen; wlen -= len2; len2 <<= 1; for (i = 0; i < len2; i++) writeb(moxaBuff[j + i], baseAddr + C320_LoadBuf + i); len2 >>= 1; j += i; writew(len2, baseAddr + C320DLoad_len); writew(0, baseAddr + C320_key); for (i = 0; i < 10; i++) { if (readw(baseAddr + C320_key) == C320_KeyCode) break; moxadelay(1); } if (readw(baseAddr + C320_key) != C320_KeyCode) return (-1); } writew(0, baseAddr + C320DLoad_len); writew(usum, baseAddr + C320check_sum); writew(0, baseAddr + C320_key); for (i = 0; i < 10; i++) { if (readw(baseAddr + C320_key) == C320_KeyCode) break; moxadelay(1); } retry++; } while ((readb(baseAddr + C320chksum_ok) != 1) && (retry < 3)); if (readb(baseAddr + C320chksum_ok) != 1) return (-1); writew(0, baseAddr + C320_key); for (i = 0; i < 600; i++) { if (readw(baseAddr + Magic_no) == Magic_code) break; moxadelay(1); } if (readw(baseAddr + Magic_no) != Magic_code) return (-100); if (moxa_boards[cardno].busType == MOXA_BUS_TYPE_PCI) { /* ASIC board */ writew(0x3800, baseAddr + TMS320_PORT1); writew(0x3900, baseAddr + TMS320_PORT2); writew(28499, baseAddr + TMS320_CLOCK); } else { writew(0x3200, baseAddr + TMS320_PORT1); writew(0x3400, baseAddr + TMS320_PORT2); writew(19999, baseAddr + TMS320_CLOCK); } writew(1, baseAddr + Disable_IRQ); writew(0, baseAddr + Magic_no); for (i = 0; i < 500; i++) { if (readw(baseAddr + Magic_no) == Magic_code) break; moxadelay(1); } if (readw(baseAddr + Magic_no) != Magic_code) return (-102); j = readw(baseAddr + Module_cnt); if (j <= 0) return (-101); *numPorts = j * 8; writew(j, baseAddr + Module_no); writew(0, baseAddr + Magic_no); for (i = 0; i < 600; i++) { if (readw(baseAddr + Magic_no) == Magic_code) break; moxadelay(1); } if (readw(baseAddr + Magic_no) != Magic_code) return (-102); moxaCard = 1; moxaIntNdx[cardno] = baseAddr + IRQindex; moxaIntPend[cardno] = baseAddr + IRQpending; moxaIntTable[cardno] = baseAddr + IRQtable; return (0); } long MoxaPortGetCurBaud(int port) { if (moxaChkPort[port] == 0) return (0); return (moxaCurBaud[port]); } static void MoxaSetFifo(int port, int enable) { unsigned long ofsAddr = moxaTableAddr[port]; if (!enable) { moxafunc(ofsAddr, FC_SetRxFIFOTrig, 0); moxafunc(ofsAddr, FC_SetTxFIFOCnt, 1); } else { moxafunc(ofsAddr, FC_SetRxFIFOTrig, 3); moxafunc(ofsAddr, FC_SetTxFIFOCnt, 16); } } #if 0 int MoxaPortSetMode(int port, int databits, int stopbits, int parity) { unsigned long ofsAddr; int val; val = 0; switch (databits) { case 5: val |= 0; break; case 6: val |= 1; break; case 7: val |= 2; break; case 8: val |= 3; break; default: return (-1); } switch (stopbits) { case 0: val |= 0; break; /* stop bits 1.5 */ case 1: val |= 0; break; case 2: val |= 4; break; default: return (-1); } switch (parity) { case 0: val |= 0x00; break; /* None */ case 1: val |= 0x08; break; /* Odd */ case 2: val |= 0x18; break; /* Even */ case 3: val |= 0x28; break; /* Mark */ case 4: val |= 0x38; break; /* Space */ default: return (-1); } ofsAddr = moxaTableAddr[port]; moxafunc(ofsAddr, FC_SetMode, val); return (0); } int MoxaPortTxBufSize(int port) { unsigned long ofsAddr; int size; ofsAddr = moxaTableAddr[port]; size = readw(ofsAddr + TX_mask); return (size); } int MoxaPortRxBufSize(int port) { unsigned long ofsAddr; int size; ofsAddr = moxaTableAddr[port]; size = readw(ofsAddr + RX_mask); return (size); } int MoxaPortRxFree(int port) { unsigned long ofsAddr; ushort rptr, wptr, mask; int len; ofsAddr = moxaTableAddr[port]; rptr = readw(ofsAddr + RXrptr); wptr = readw(ofsAddr + RXwptr); mask = readw(ofsAddr + RX_mask); len = mask - ((wptr - rptr) & mask); return (len); } int MoxaPortGetBrkCnt(int port) { return (moxaBreakCnt[port]); } void MoxaPortSetXonXoff(int port, int xonValue, int xoffValue) { unsigned long ofsAddr; ofsAddr = moxaTableAddr[port]; writew(xonValue, ofsAddr + FuncArg); writew(xoffValue, ofsAddr + FuncArg1); writew(FC_SetXonXoff, ofsAddr + FuncCode); wait_finish(ofsAddr); } int MoxaPortIsTxHold(int port) { unsigned long ofsAddr; int val; ofsAddr = moxaTableAddr[port]; if ((moxa_boards[port / MAX_PORTS_PER_BOARD].boardType == MOXA_BOARD_C320_ISA) || (moxa_boards[port / MAX_PORTS_PER_BOARD].boardType == MOXA_BOARD_C320_PCI)) { moxafunc(ofsAddr, FC_GetCCSR, 0); val = readw(ofsAddr + FuncArg); if (val & 0x04) return (1); } else { if (readw(ofsAddr + FlagStat) & Tx_flowOff) return (1); } return (0); } #endif