| blob | 72f289279d8ff0af1c2601d0fb68197faaede9f4 |
1 /*
2 * RocketPort device driver for Linux
3 *
4 * Written by Theodore Ts'o, 1995, 1996, 1997, 1998, 1999, 2000.
5 *
6 * Copyright (C) 1995, 1996, 1997, 1998, 1999, 2000, 2003 by Comtrol, Inc.
7 *
8 * This program is free software; you can redistribute it and/or
9 * modify it under the terms of the GNU General Public License as
10 * published by the Free Software Foundation; either version 2 of the
11 * License, or (at your option) any later version.
12 *
13 * This program is distributed in the hope that it will be useful, but
14 * WITHOUT ANY WARRANTY; without even the implied warranty of
15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
16 * General Public License for more details.
17 *
18 * You should have received a copy of the GNU General Public License
19 * along with this program; if not, write to the Free Software
20 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
21 */
23 /*
24 * Kernel Synchronization:
25 *
26 * This driver has 2 kernel control paths - exception handlers (calls into the driver
27 * from user mode) and the timer bottom half (tasklet). This is a polled driver, interrupts
28 * are not used.
29 *
30 * Critical data:
31 * - rp_table[], accessed through passed "info" pointers, is a global (static) array of
32 * serial port state information and the xmit_buf circular buffer. Protected by
33 * a per port spinlock.
34 * - xmit_flags[], an array of ints indexed by line (port) number, indicating that there
35 * is data to be transmitted. Protected by atomic bit operations.
36 * - rp_num_ports, int indicating number of open ports, protected by atomic operations.
37 *
38 * rp_write() and rp_write_char() functions use a per port semaphore to protect against
39 * simultaneous access to the same port by more than one process.
40 */
42 /****** Defines ******/
43 #define ROCKET_PARANOIA_CHECK
44 #define ROCKET_DISABLE_SIMUSAGE
46 #undef ROCKET_SOFT_FLOW
47 #undef ROCKET_DEBUG_OPEN
48 #undef ROCKET_DEBUG_INTR
49 #undef ROCKET_DEBUG_WRITE
50 #undef ROCKET_DEBUG_FLOW
51 #undef ROCKET_DEBUG_THROTTLE
52 #undef ROCKET_DEBUG_WAIT_UNTIL_SENT
53 #undef ROCKET_DEBUG_RECEIVE
54 #undef ROCKET_DEBUG_HANGUP
55 #undef REV_PCI_ORDER
56 #undef ROCKET_DEBUG_IO
60 /****** Kernel includes ******/
62 #include <linux/module.h>
63 #include <linux/errno.h>
64 #include <linux/major.h>
65 #include <linux/kernel.h>
66 #include <linux/signal.h>
67 #include <linux/slab.h>
68 #include <linux/mm.h>
69 #include <linux/sched.h>
70 #include <linux/timer.h>
71 #include <linux/interrupt.h>
72 #include <linux/tty.h>
73 #include <linux/tty_driver.h>
74 #include <linux/tty_flip.h>
75 #include <linux/string.h>
76 #include <linux/fcntl.h>
77 #include <linux/ptrace.h>
78 #include <linux/mutex.h>
79 #include <linux/ioport.h>
80 #include <linux/delay.h>
81 #include <linux/completion.h>
82 #include <linux/wait.h>
83 #include <linux/pci.h>
84 #include <asm/uaccess.h>
85 #include <asm/atomic.h>
86 #include <linux/bitops.h>
87 #include <linux/spinlock.h>
88 #include <linux/init.h>
90 /****** RocketPort includes ******/
98 /****** RocketPort Local Variables ******/
105 ROCKET_VERSION, ROCKET_DATE
106 };
108 static struct r_port *rp_table[MAX_RP_PORTS]; /* The main repository of serial port state information. */
109 static unsigned int xmit_flags[NUM_BOARDS]; /* Bit significant, indicates port had data to transmit. */
110 /* eg. Bit 0 indicates port 0 has xmit data, ... */
130 static int rp_baud_base[NUM_BOARDS]; /* Board config info (Someday make a per-board structure) */
137 /*
138 * The following arrays define the interrupt bits corresponding to each AIOP.
139 * These bits are different between the ISA and regular PCI boards and the
140 * Universal PCI boards.
141 */
144 AIOP_INTR_BIT_0,
145 AIOP_INTR_BIT_1,
146 AIOP_INTR_BIT_2,
147 AIOP_INTR_BIT_3
148 };
151 UPCI_AIOP_INTR_BIT_0,
152 UPCI_AIOP_INTR_BIT_1,
153 UPCI_AIOP_INTR_BIT_2,
154 UPCI_AIOP_INTR_BIT_3
155 };
176 };
192 };
203 };
207 };
211 };
215 /*
216 * Line number is the ttySIx number (x), the Minor number. We
217 * assign them sequentially, starting at zero. The following
218 * array keeps track of the line number assigned to a given board/aiop/channel.
219 */
223 /***** RocketPort Static Prototypes *********/
275 MODULE_PARM_DESC(pc104_1, "set interface types for ISA(PC104) board #1 (e.g. pc104_1=232,232,485,485,...");
277 MODULE_PARM_DESC(pc104_2, "set interface types for ISA(PC104) board #2 (e.g. pc104_2=232,232,485,485,...");
279 MODULE_PARM_DESC(pc104_3, "set interface types for ISA(PC104) board #3 (e.g. pc104_3=232,232,485,485,...");
281 MODULE_PARM_DESC(pc104_4, "set interface types for ISA(PC104) board #4 (e.g. pc104_4=232,232,485,485,...");
292 /*************************************************************************/
293 /* Module code starts here */
297 {
298 #ifdef ROCKET_PARANOIA_CHECK
305 }
306 #endif
308 }
311 /* Serial port receive data function. Called (from timer poll) when an AIOPIC signals
312 * that receive data is present on a serial port. Pulls data from FIFO, moves it into the
313 * tty layer.
314 */
318 {
324 #ifdef ROCKET_DEBUG_INTR
326 #endif
330 /*
331 * if status indicates there are errored characters in the
332 * FIFO, then enter status mode (a word in FIFO holds
333 * character and status).
334 */
337 #ifdef ROCKET_DEBUG_RECEIVE
339 #endif
342 }
343 }
345 /*
346 * if we previously entered status mode, then read down the
347 * FIFO one word at a time, pulling apart the character and
348 * the status. Update error counters depending on status
349 */
351 #ifdef ROCKET_DEBUG_RECEIVE
354 #endif
359 #ifdef ROCKET_DEBUG_RECEIVE
361 #endif
365 ToRecv--;
367 }
377 else
380 ToRecv--;
381 }
383 /*
384 * after we've emptied the FIFO in status mode, turn
385 * status mode back off
386 */
388 #ifdef ROCKET_DEBUG_RECEIVE
390 #endif
392 }
394 /*
395 * we aren't in status mode, so read down the FIFO two
396 * characters at time by doing repeated word IO
397 * transfer.
398 */
401 #ifdef ROCKET_DEBUG_RECEIVE
403 #endif
407 }
413 }
414 /* Push the data up to the tty layer */
416 }
418 /*
419 * Serial port transmit data function. Called from the timer polling loop as a
420 * result of a bit set in xmit_flags[], indicating data (from the tty layer) is ready
421 * to be sent out the serial port. Data is buffered in rp_table[line].xmit_buf, it is
422 * moved to the port's xmit FIFO. *info is critical data, protected by spinlocks.
423 */
425 {
431 #ifdef ROCKET_DEBUG_INTR
433 #endif
441 }
447 /* Loop sending data to FIFO until done or FIFO full */
461 #ifdef ROCKET_DEBUG_INTR
463 #endif
464 }
471 #ifdef ROCKETPORT_HAVE_POLL_WAIT
473 #endif
474 }
478 #ifdef ROCKET_DEBUG_INTR
481 #endif
482 }
484 /*
485 * Called when a serial port signals it has read data in it's RX FIFO.
486 * It checks what interrupts are pending and services them, including
487 * receiving serial data.
488 */
490 {
502 }
507 }
512 #ifdef ROCKET_DEBUG_INTR
514 #endif
518 }
520 #if (defined(ROCKET_DEBUG_OPEN) || defined(ROCKET_DEBUG_INTR) || defined(ROCKET_DEBUG_HANGUP))
523 #endif
525 #ifdef ROCKET_DEBUG_HANGUP
527 #endif
529 }
532 }
533 #ifdef ROCKET_DEBUG_INTR
536 }
539 }
540 #endif
541 }
543 /*
544 * The top level polling routine. Repeats every 1/100 HZ (10ms).
545 */
547 {
553 Word_t bit;
555 /* Walk through all the boards (ctrl's) */
560 /* Get a ptr to the board's control struct */
563 /* Get the interrupt status from the board */
564 #ifdef CONFIG_PCI
567 else
568 #endif
571 /* Check if any AIOP read bits are set */
578 /* Check if any port read bits are set */
582 /* Get the line number (/dev/ttyRx number). */
583 /* Read the data from the port. */
586 }
587 }
588 }
589 }
593 /*
594 * xmit_flags contains bit-significant flags, indicating there is data
595 * to xmit on the port. Bit 0 is port 0 on this board, bit 1 is port
596 * 1, ... (32 total possible). The variable i has the aiop and ch
597 * numbers encoded in it (port 0-7 are aiop0, 8-15 are aiop1, etc).
598 */
606 }
607 }
608 }
609 }
611 /*
612 * Reset the timer so we get called at the next clock tick (10ms).
613 */
616 }
618 /*
619 * Initializes the r_port structure for a port, as well as enabling the port on
620 * the board.
621 * Inputs: board, aiop, chan numbers
622 */
624 {
630 /* Get the next available line number */
635 /* Get a r_port struct for the port, fill it in and save it globally, indexed by line number */
639 line);
641 }
665 }
673 }
679 else
694 else
697 }
698 }
703 NULL);
704 }
706 /*
707 * Configures a rocketport port according to its termio settings. Called from
708 * user mode into the driver (exception handler). *info CD manipulation is spinlock protected.
709 */
712 {
723 /* Byte size and parity */
730 }
733 bits++;
736 }
740 bits++;
745 }
748 }
750 /* baud rate */
760 }
764 }
768 /* FIXME: Should really back compute a baud rate from the divisor */
777 }
784 else
788 }
790 /*
791 * Handle software flow control in the board
792 */
793 #ifdef ROCKET_SOFT_FLOW
800 }
807 }
808 #endif
810 /*
811 * Set up ignore/read mask words
812 */
819 /*
820 * Characters to ignore
821 */
827 /*
828 * If we're ignoring parity and break indicators,
829 * ignore overruns too. (For real raw support).
830 */
833 }
840 else
857 else
860 }
861 }
862 }
864 /* info->count is considered critical, protected by spinlocks. */
867 {
873 /*
874 * If the device is in the middle of being closed, then block
875 * until it's done, and then try again.
876 */
883 }
885 /*
886 * If non-blocking mode is set, or the port is not enabled,
887 * then make the check up front and then exit.
888 */
892 }
896 /*
897 * Block waiting for the carrier detect and the line to become free. While we are in
898 * this loop, info->count is dropped by one, so that rp_close() knows when to free things.
899 * We restore it upon exit, either normal or abnormal.
900 */
903 #ifdef ROCKET_DEBUG_OPEN
904 printk(KERN_INFO "block_til_ready before block: ttyR%d, count = %d\n", info->line, info->count);
905 #endif
908 #ifdef ROCKET_DISABLE_SIMUSAGE
910 #else
914 }
915 #endif
924 }
929 else
932 }
933 if (!(info->flags & ROCKET_CLOSING) && (do_clocal || (sGetChanStatusLo(&info->channel) & CD_ACT)))
938 }
939 #ifdef ROCKET_DEBUG_OPEN
942 #endif
944 }
956 #ifdef ROCKET_DEBUG_OPEN
959 #endif
964 }
966 /*
967 * Exception handler that opens a serial port. Creates xmit_buf storage, fills in
968 * port's r_port struct. Initializes the port hardware.
969 */
971 {
991 }
993 /*
994 * We must not sleep from here until the port is marked fully in use.
995 */
998 else
1007 #ifdef ROCKET_DEBUG_OPEN
1010 #endif
1011 }
1012 #ifdef ROCKET_DEBUG_OPEN
1014 #endif
1016 /*
1017 * Info->count is now 1; so it's safe to sleep now.
1018 */
1024 else
1045 /*
1046 * Set up the tty->alt_speed kludge
1047 */
1061 }
1062 }
1063 /* Starts (or resets) the maint polling loop */
1068 #ifdef ROCKET_DEBUG_OPEN
1070 #endif
1072 }
1074 }
1076 /*
1077 * Exception handler that closes a serial port. info->count is considered critical.
1078 */
1080 {
1089 #ifdef ROCKET_DEBUG_OPEN
1091 #endif
1098 /*
1099 * Uh, oh. tty->count is 1, which means that the tty
1100 * structure will be freed. Info->count should always
1101 * be one in these conditions. If it's greater than
1102 * one, we've got real problems, since it means the
1103 * serial port won't be shutdown.
1104 */
1108 }
1113 }
1117 }
1123 /*
1124 * Notify the line discpline to only process XON/XOFF characters
1125 */
1128 /*
1129 * If transmission was throttled by the application request,
1130 * just flush the xmit buffer.
1131 */
1135 /*
1136 * Wait for the transmit buffer to clear
1137 */
1140 /*
1141 * Before we drop DTR, make sure the UART transmitter
1142 * has completely drained; this is especially
1143 * important if there is a transmit FIFO!
1144 */
1171 }
1177 }
1178 }
1184 #ifdef ROCKET_DEBUG_OPEN
1188 #endif
1190 }
1194 {
1204 /*
1205 * This driver doesn't support CS5 or CS6
1206 */
1210 /* Or CMSPAR */
1217 /* Handle transition to B0 status */
1221 }
1223 /* Handle transition away from B0 status */
1228 }
1233 }
1234 }
1237 {
1247 else
1250 }
1252 /*
1253 * sGetChanRI used to be a macro in rocket_int.h. When the functionality for
1254 * the UPCI boards was added, it was decided to make this a function because
1255 * the macro was getting too complicated. All cases except the first one
1256 * (UPCIRingInd) are taken directly from the original macro.
1257 */
1259 {
1272 }
1274 /********************************************************************************************/
1275 /* Here are the routines used by rp_ioctl. These are all called from exception handlers. */
1277 /*
1278 * Returns the state of the serial modem control lines. These next 2 functions
1279 * are the way kernel versions > 2.5 handle modem control lines rather than IOCTLs.
1280 */
1282 {
1296 }
1298 /*
1299 * Sets the modem control lines
1300 */
1303 {
1317 }
1320 {
1335 }
1338 {
1345 {
1351 }
1368 }
1370 /*
1371 * This function fills in a rocket_ports struct with information
1372 * about what boards/ports are in the system. This info is passed
1373 * to user space. See setrocket.c where the info is used to create
1374 * the /dev/ttyRx ports.
1375 */
1377 {
1392 }
1396 }
1399 {
1416 else
1420 }
1423 {
1427 }
1429 /* IOCTL call handler into the driver */
1432 {
1456 }
1458 }
1461 {
1471 else
1473 }
1476 {
1480 #ifdef ROCKET_DEBUG_THROTTLE
1483 #endif
1493 }
1496 {
1499 #ifdef ROCKET_DEBUG_THROTTLE
1502 #endif
1512 }
1514 /*
1515 * ------------------------------------------------------------
1516 * rp_stop() and rp_start()
1517 *
1518 * This routines are called before setting or resetting tty->stopped.
1519 * They enable or disable transmitter interrupts, as necessary.
1520 * ------------------------------------------------------------
1521 */
1523 {
1526 #ifdef ROCKET_DEBUG_FLOW
1529 #endif
1536 }
1539 {
1542 #ifdef ROCKET_DEBUG_FLOW
1545 #endif
1553 }
1555 /*
1556 * rp_wait_until_sent() --- wait until the transmitter is empty
1557 */
1559 {
1572 #ifdef ROCKET_DEBUG_WAIT_UNTIL_SENT
1574 jiffies);
1576 #endif
1585 }
1592 }
1595 #ifdef ROCKET_DEBUG_WAIT_UNTIL_SENT
1598 #endif
1602 }
1604 #ifdef ROCKET_DEBUG_WAIT_UNTIL_SENT
1606 #endif
1607 }
1609 /*
1610 * rp_hangup() --- called by tty_hangup() when a hangup is signaled.
1611 */
1613 {
1620 #if (defined(ROCKET_DEBUG_OPEN) || defined(ROCKET_DEBUG_HANGUP))
1622 #endif
1644 }
1646 /*
1647 * Exception handler - write char routine. The RocketPort driver uses a
1648 * double-buffering strategy, with the twist that if the in-memory CPU
1649 * buffer is empty, and there's space in the transmit FIFO, the
1650 * writing routines will write directly to transmit FIFO.
1651 * Write buffer and counters protected by spinlocks
1652 */
1654 {
1662 /*
1663 * Grab the port write mutex, locking out other processes that try to
1664 * write to this port
1665 */
1668 #ifdef ROCKET_DEBUG_WRITE
1670 #endif
1686 }
1689 }
1691 /*
1692 * Exception handler - write routine, called when user app writes to the device.
1693 * A per port write mutex is used to protect from another process writing to
1694 * this port at the same time. This other process could be running on the other CPU
1695 * or get control of the CPU if the copy_from_user() blocks due to a page fault (swapped out).
1696 * Spinlocks protect the info xmit members.
1697 */
1700 {
1713 #ifdef ROCKET_DEBUG_WRITE
1715 #endif
1721 /*
1722 * If the write queue for the port is empty, and there is FIFO space, stuff bytes
1723 * into FIFO. Use the write queue for temp storage.
1724 */
1729 /* Push data into FIFO, 2 bytes at a time */
1732 /* If there is a byte remaining, write it */
1743 }
1745 /* If count is zero, we wrote it all and are done */
1749 /* Write remaining data into the port's xmit_buf */
1770 }
1775 end:
1778 #ifdef ROCKETPORT_HAVE_POLL_WAIT
1780 #endif
1781 }
1784 }
1786 /*
1787 * Return the number of characters that can be sent. We estimate
1788 * only using the in-memory transmit buffer only, and ignore the
1789 * potential space in the transmit FIFO.
1790 */
1792 {
1802 #ifdef ROCKET_DEBUG_WRITE
1804 #endif
1806 }
1808 /*
1809 * Return the number of characters in the buffer. Again, this only
1810 * counts those characters in the in-memory transmit buffer.
1811 */
1813 {
1822 #ifdef ROCKET_DEBUG_WRITE
1824 #endif
1826 }
1828 /*
1829 * Flushes the TX fifo for a port, deletes data in the xmit_buf stored in the
1830 * r_port struct for the port. Note that spinlock are used to protect info members,
1831 * do not call this function if the spinlock is already held.
1832 */
1834 {
1846 #ifdef ROCKETPORT_HAVE_POLL_WAIT
1848 #endif
1853 }
1855 #ifdef CONFIG_PCI
1859 { }
1860 };
1863 /*
1864 * Called when a PCI card is found. Retrieves and stores model information,
1865 * init's aiopic and serial port hardware.
1866 * Inputs: i is the board number (0-n)
1867 */
1869 {
1890 /* Depending on the model, set up some config variables */
1996 altChanRingIndicator++;
1997 fast_clock++;
2006 altChanRingIndicator++;
2007 fast_clock++;
2016 altChanRingIndicator++;
2017 fast_clock++;
2026 altChanRingIndicator++;
2027 fast_clock++;
2038 /* If revision is 1, the rocketmodem flash must be loaded.
2039 * If it is 2 it is a "socketed" version. */
2045 }
2060 }
2070 }
2072 /*
2073 * Check for UPCI boards.
2074 */
2087 /*
2088 * Check for octa or quad cable.
2089 */
2092 PCI_GPIO_CTRL_8PORT)) {
2096 }
2097 }
2123 }
2138 }
2144 /*
2145 * If support_low_speed is set, use the slow clock
2146 * prescale, which supports 50 bps
2147 */
2149 /* mod 9 (divide by 10) prescale */
2153 /* mod 4 (devide by 5) prescale */
2156 }
2157 }
2162 num_aiops = sPCIInitController(ctlp, i, aiopio, max_num_aiops, ConfigIO, 0, FREQ_DIS, 0, altChanRingIndicator, UPCIRingInd);
2175 }
2178 /* Reset the AIOPIC, init the serial ports */
2184 }
2186 /* Rocket modems must be reset */
2198 }
2200 }
2202 /*
2203 * Probes for PCI cards, inits them if found
2204 * Input: board_found = number of ISA boards already found, or the
2205 * starting board number
2206 * Returns: Number of PCI boards found
2207 */
2209 {
2213 /* Work through the PCI device list, pulling out ours */
2216 count++;
2217 }
2219 }
2223 /*
2224 * Probes for ISA cards
2225 * Input: i = the board number to look for
2226 * Returns: 1 if board found, 0 else
2227 */
2229 {
2236 /* If io_addr is zero, no board configured */
2240 /* Reserve the IO region */
2243 "ISA RocketPort at address 0x%lx, board not "
2247 }
2266 }
2268 /*
2269 * If support_low_speed is set, use the slow clock prescale,
2270 * which supports 50 bps
2271 */
2278 }
2283 num_aiops = sInitController(ctlp, i, controller + (i * 0x400), aiopio, MAX_AIOPS_PER_BOARD, 0, FREQ_DIS, 0);
2288 }
2290 /* If something went wrong initing the AIOP's release the ISA IO memory */
2295 }
2306 }
2320 }
2334 }
2356 };
2358 /*
2359 * The module "startup" routine; it's run when the module is loaded.
2360 */
2362 {
2372 /*
2373 * If board 1 is non-zero, there is at least one ISA configured. If controller is
2374 * zero, use the default controller IO address of board1 + 0x40.
2375 */
2381 }
2383 /* If an ISA card is configured, reserve the 4 byte IO space for the Mudbac controller */
2386 "configured ISA RocketPort controller 0x%lx. "
2390 }
2392 /* Store ISA variable retrieved from command line or .conf file. */
2407 /*
2408 * Set up the tty driver structure and then register this
2409 * driver with the tty layer.
2410 */
2425 #ifdef ROCKET_SOFT_FLOW
2427 #endif
2434 }
2436 #ifdef ROCKET_DEBUG_OPEN
2438 #endif
2440 /*
2441 * OK, let's probe each of the controllers looking for boards. Any boards found
2442 * will be initialized here.
2443 */
2449 isa_boards_found++;
2450 }
2452 #ifdef CONFIG_PCI
2455 #endif
2463 }
2466 err_ttyu:
2468 err_tty:
2470 err:
2472 }
2476 {
2491 }
2499 }
2502 }
2504 /***************************************************************************
2505 Function: sInitController
2506 Purpose: Initialization of controller global registers and controller
2507 structure.
2508 Call: sInitController(CtlP,CtlNum,MudbacIO,AiopIOList,AiopIOListSize,
2509 IRQNum,Frequency,PeriodicOnly)
2510 CONTROLLER_T *CtlP; Ptr to controller structure
2511 int CtlNum; Controller number
2512 ByteIO_t MudbacIO; Mudbac base I/O address.
2513 ByteIO_t *AiopIOList; List of I/O addresses for each AIOP.
2514 This list must be in the order the AIOPs will be found on the
2515 controller. Once an AIOP in the list is not found, it is
2516 assumed that there are no more AIOPs on the controller.
2517 int AiopIOListSize; Number of addresses in AiopIOList
2518 int IRQNum; Interrupt Request number. Can be any of the following:
2519 0: Disable global interrupts
2520 3: IRQ 3
2521 4: IRQ 4
2522 5: IRQ 5
2523 9: IRQ 9
2524 10: IRQ 10
2525 11: IRQ 11
2526 12: IRQ 12
2527 15: IRQ 15
2528 Byte_t Frequency: A flag identifying the frequency
2529 of the periodic interrupt, can be any one of the following:
2530 FREQ_DIS - periodic interrupt disabled
2531 FREQ_137HZ - 137 Hertz
2532 FREQ_69HZ - 69 Hertz
2533 FREQ_34HZ - 34 Hertz
2534 FREQ_17HZ - 17 Hertz
2535 FREQ_9HZ - 9 Hertz
2536 FREQ_4HZ - 4 Hertz
2537 If IRQNum is set to 0 the Frequency parameter is
2538 overidden, it is forced to a value of FREQ_DIS.
2539 int PeriodicOnly: 1 if all interrupts except the periodic
2540 interrupt are to be blocked.
2541 0 is both the periodic interrupt and
2542 other channel interrupts are allowed.
2543 If IRQNum is set to 0 the PeriodicOnly parameter is
2544 overidden, it is forced to a value of 0.
2545 Return: int: Number of AIOPs on the controller, or CTLID_NULL if controller
2546 initialization failed.
2548 Comments:
2549 If periodic interrupts are to be disabled but AIOP interrupts
2550 are allowed, set Frequency to FREQ_DIS and PeriodicOnly to 0.
2552 If interrupts are to be completely disabled set IRQNum to 0.
2554 Setting Frequency to FREQ_DIS and PeriodicOnly to 1 is an
2555 invalid combination.
2557 This function performs initialization of global interrupt modes,
2558 but it does not actually enable global interrupts. To enable
2559 and disable global interrupts use functions sEnGlobalInt() and
2560 sDisGlobalInt(). Enabling of global interrupts is normally not
2561 done until all other initializations are complete.
2563 Even if interrupts are globally enabled, they must also be
2564 individually enabled for each channel that is to generate
2565 interrupts.
2567 Warnings: No range checking on any of the parameters is done.
2569 No context switches are allowed while executing this function.
2571 After this function all AIOPs on the controller are disabled,
2572 they can be enabled with sEnAiop().
2573 */
2577 {
2579 ByteIO_t io;
2591 #if 1
2594 #else
2603 }
2604 }
2605 #endif
2609 /* Init AIOPs */
2628 }
2630 }
2634 else
2636 }
2638 /***************************************************************************
2639 Function: sPCIInitController
2640 Purpose: Initialization of controller global registers and controller
2641 structure.
2642 Call: sPCIInitController(CtlP,CtlNum,AiopIOList,AiopIOListSize,
2643 IRQNum,Frequency,PeriodicOnly)
2644 CONTROLLER_T *CtlP; Ptr to controller structure
2645 int CtlNum; Controller number
2646 ByteIO_t *AiopIOList; List of I/O addresses for each AIOP.
2647 This list must be in the order the AIOPs will be found on the
2648 controller. Once an AIOP in the list is not found, it is
2649 assumed that there are no more AIOPs on the controller.
2650 int AiopIOListSize; Number of addresses in AiopIOList
2651 int IRQNum; Interrupt Request number. Can be any of the following:
2652 0: Disable global interrupts
2653 3: IRQ 3
2654 4: IRQ 4
2655 5: IRQ 5
2656 9: IRQ 9
2657 10: IRQ 10
2658 11: IRQ 11
2659 12: IRQ 12
2660 15: IRQ 15
2661 Byte_t Frequency: A flag identifying the frequency
2662 of the periodic interrupt, can be any one of the following:
2663 FREQ_DIS - periodic interrupt disabled
2664 FREQ_137HZ - 137 Hertz
2665 FREQ_69HZ - 69 Hertz
2666 FREQ_34HZ - 34 Hertz
2667 FREQ_17HZ - 17 Hertz
2668 FREQ_9HZ - 9 Hertz
2669 FREQ_4HZ - 4 Hertz
2670 If IRQNum is set to 0 the Frequency parameter is
2671 overidden, it is forced to a value of FREQ_DIS.
2672 int PeriodicOnly: 1 if all interrupts except the periodic
2673 interrupt are to be blocked.
2674 0 is both the periodic interrupt and
2675 other channel interrupts are allowed.
2676 If IRQNum is set to 0 the PeriodicOnly parameter is
2677 overidden, it is forced to a value of 0.
2678 Return: int: Number of AIOPs on the controller, or CTLID_NULL if controller
2679 initialization failed.
2681 Comments:
2682 If periodic interrupts are to be disabled but AIOP interrupts
2683 are allowed, set Frequency to FREQ_DIS and PeriodicOnly to 0.
2685 If interrupts are to be completely disabled set IRQNum to 0.
2687 Setting Frequency to FREQ_DIS and PeriodicOnly to 1 is an
2688 invalid combination.
2690 This function performs initialization of global interrupt modes,
2691 but it does not actually enable global interrupts. To enable
2692 and disable global interrupts use functions sEnGlobalInt() and
2693 sDisGlobalInt(). Enabling of global interrupts is normally not
2694 done until all other initializations are complete.
2696 Even if interrupts are globally enabled, they must also be
2697 individually enabled for each channel that is to generate
2698 interrupts.
2700 Warnings: No range checking on any of the parameters is done.
2702 No context switches are allowed while executing this function.
2704 After this function all AIOPs on the controller are disabled,
2705 they can be enabled with sEnAiop().
2706 */
2712 {
2714 ByteIO_t io;
2732 }
2735 /* Init AIOPs */
2750 }
2754 else
2756 }
2758 /***************************************************************************
2759 Function: sReadAiopID
2760 Purpose: Read the AIOP idenfication number directly from an AIOP.
2761 Call: sReadAiopID(io)
2762 ByteIO_t io: AIOP base I/O address
2763 Return: int: Flag AIOPID_XXXX if a valid AIOP is found, where X
2764 is replace by an identifying number.
2765 Flag AIOPID_NULL if no valid AIOP is found
2766 Warnings: No context switches are allowed while executing this function.
2768 */
2770 {
2780 }
2782 /***************************************************************************
2783 Function: sReadAiopNumChan
2784 Purpose: Read the number of channels available in an AIOP directly from
2785 an AIOP.
2786 Call: sReadAiopNumChan(io)
2787 WordIO_t io: AIOP base I/O address
2788 Return: int: The number of channels available
2789 Comments: The number of channels is determined by write/reads from identical
2790 offsets within the SRAM address spaces for channels 0 and 4.
2791 If the channel 4 space is mirrored to channel 0 it is a 4 channel
2792 AIOP, otherwise it is an 8 channel.
2793 Warnings: No context switches are allowed while executing this function.
2794 */
2796 {
2797 Word_t x;
2800 /* write to chan 0 SRAM */
2807 else
2809 }
2811 /***************************************************************************
2812 Function: sInitChan
2813 Purpose: Initialization of a channel and channel structure
2814 Call: sInitChan(CtlP,ChP,AiopNum,ChanNum)
2815 CONTROLLER_T *CtlP; Ptr to controller structure
2816 CHANNEL_T *ChP; Ptr to channel structure
2817 int AiopNum; AIOP number within controller
2818 int ChanNum; Channel number within AIOP
2819 Return: int: 1 if initialization succeeded, 0 if it fails because channel
2820 number exceeds number of channels available in AIOP.
2821 Comments: This function must be called before a channel can be used.
2822 Warnings: No range checking on any of the parameters is done.
2824 No context switches are allowed while executing this function.
2825 */
2828 {
2830 WordIO_t AiopIO;
2831 WordIO_t ChIOOff;
2833 Word_t ChOff;
2840 /* Channel, AIOP, and controller identifiers */
2846 /* Global direct addresses */
2854 /* Channel direct addresses */
2861 /* Initialize the channel from the RData array */
2868 }
2876 }
2878 /* Indexed registers */
2883 else
2954 }
2956 /***************************************************************************
2957 Function: sStopRxProcessor
2958 Purpose: Stop the receive processor from processing a channel.
2959 Call: sStopRxProcessor(ChP)
2960 CHANNEL_T *ChP; Ptr to channel structure
2962 Comments: The receive processor can be started again with sStartRxProcessor().
2963 This function causes the receive processor to skip over the
2964 stopped channel. It does not stop it from processing other channels.
2966 Warnings: No context switches are allowed while executing this function.
2968 Do not leave the receive processor stopped for more than one
2969 character time.
2971 After calling this function a delay of 4 uS is required to ensure
2972 that the receive processor is no longer processing this channel.
2973 */
2975 {
2983 }
2985 /***************************************************************************
2986 Function: sFlushRxFIFO
2987 Purpose: Flush the Rx FIFO
2988 Call: sFlushRxFIFO(ChP)
2989 CHANNEL_T *ChP; Ptr to channel structure
2990 Return: void
2991 Comments: To prevent data from being enqueued or dequeued in the Tx FIFO
2992 while it is being flushed the receive processor is stopped
2993 and the transmitter is disabled. After these operations a
2994 4 uS delay is done before clearing the pointers to allow
2995 the receive processor to stop. These items are handled inside
2996 this function.
2997 Warnings: No context switches are allowed while executing this function.
2998 */
3000 {
3014 }
3025 }
3027 /***************************************************************************
3028 Function: sFlushTxFIFO
3029 Purpose: Flush the Tx FIFO
3030 Call: sFlushTxFIFO(ChP)
3031 CHANNEL_T *ChP; Ptr to channel structure
3032 Return: void
3033 Comments: To prevent data from being enqueued or dequeued in the Tx FIFO
3034 while it is being flushed the receive processor is stopped
3035 and the transmitter is disabled. After these operations a
3036 4 uS delay is done before clearing the pointers to allow
3037 the receive processor to stop. These items are handled inside
3038 this function.
3039 Warnings: No context switches are allowed while executing this function.
3040 */
3042 {
3054 }
3066 }
3068 /***************************************************************************
3069 Function: sWriteTxPrioByte
3070 Purpose: Write a byte of priority transmit data to a channel
3071 Call: sWriteTxPrioByte(ChP,Data)
3072 CHANNEL_T *ChP; Ptr to channel structure
3073 Byte_t Data; The transmit data byte
3075 Return: int: 1 if the bytes is successfully written, otherwise 0.
3077 Comments: The priority byte is transmitted before any data in the Tx FIFO.
3079 Warnings: No context switches are allowed while executing this function.
3080 */
3082 {
3107 }
3109 }
3111 /***************************************************************************
3112 Function: sEnInterrupts
3113 Purpose: Enable one or more interrupts for a channel
3114 Call: sEnInterrupts(ChP,Flags)
3115 CHANNEL_T *ChP; Ptr to channel structure
3116 Word_t Flags: Interrupt enable flags, can be any combination
3117 of the following flags:
3118 TXINT_EN: Interrupt on Tx FIFO empty
3119 RXINT_EN: Interrupt on Rx FIFO at trigger level (see
3120 sSetRxTrigger())
3121 SRCINT_EN: Interrupt on SRC (Special Rx Condition)
3122 MCINT_EN: Interrupt on modem input change
3123 CHANINT_EN: Allow channel interrupt signal to the AIOP's
3124 Interrupt Channel Register.
3125 Return: void
3126 Comments: If an interrupt enable flag is set in Flags, that interrupt will be
3127 enabled. If an interrupt enable flag is not set in Flags, that
3128 interrupt will not be changed. Interrupts can be disabled with
3129 function sDisInterrupts().
3131 This function sets the appropriate bit for the channel in the AIOP's
3132 Interrupt Mask Register if the CHANINT_EN flag is set. This allows
3133 this channel's bit to be set in the AIOP's Interrupt Channel Register.
3135 Interrupts must also be globally enabled before channel interrupts
3136 will be passed on to the host. This is done with function
3137 sEnGlobalInt().
3139 In some cases it may be desirable to disable interrupts globally but
3140 enable channel interrupts. This would allow the global interrupt
3141 status register to be used to determine which AIOPs need service.
3142 */
3144 {
3159 }
3160 }
3162 /***************************************************************************
3163 Function: sDisInterrupts
3164 Purpose: Disable one or more interrupts for a channel
3165 Call: sDisInterrupts(ChP,Flags)
3166 CHANNEL_T *ChP; Ptr to channel structure
3167 Word_t Flags: Interrupt flags, can be any combination
3168 of the following flags:
3169 TXINT_EN: Interrupt on Tx FIFO empty
3170 RXINT_EN: Interrupt on Rx FIFO at trigger level (see
3171 sSetRxTrigger())
3172 SRCINT_EN: Interrupt on SRC (Special Rx Condition)
3173 MCINT_EN: Interrupt on modem input change
3174 CHANINT_EN: Disable channel interrupt signal to the
3175 AIOP's Interrupt Channel Register.
3176 Return: void
3177 Comments: If an interrupt flag is set in Flags, that interrupt will be
3178 disabled. If an interrupt flag is not set in Flags, that
3179 interrupt will not be changed. Interrupts can be enabled with
3180 function sEnInterrupts().
3182 This function clears the appropriate bit for the channel in the AIOP's
3183 Interrupt Mask Register if the CHANINT_EN flag is set. This blocks
3184 this channel's bit from being set in the AIOP's Interrupt Channel
3185 Register.
3186 */
3188 {
3200 }
3201 }
3204 {
3206 }
3208 /*
3209 * Not an official SSCI function, but how to reset RocketModems.
3210 * ISA bus version
3211 */
3213 {
3214 ByteIO_t addr;
3215 Byte_t val;
3219 /* if AIOP[1] is not enabled, enable it */
3224 }
3231 }
3233 /*
3234 * Not an official SSCI function, but how to reset RocketModems.
3235 * PCI bus version
3236 */
3238 {
3239 ByteIO_t addr;
3245 }
3247 /* Resets the speaker controller on RocketModem II and III devices */
3249 {
3250 ByteIO_t addr;
3252 /* RocketModem II speaker control is at the 8th port location of offset 0x40 */
3256 }
3258 /* RocketModem III speaker control is at the 1st port location of offset 0x80 */
3263 }
3264 }
3266 /* Returns the line number given the controller (board), aiop and channel number */
3268 {
3270 }
3272 /*
3273 * Stores the line number associated with a given controller (board), aiop
3274 * and channel number.
3275 * Returns: The line number assigned
3276 */
3278 {
3281 }