root/drivers/net/pi2.c

/* [previous][next][first][last][top][bottom][index][help] */

DEFINITIONS

This source file includes following definitions.
  1. pi0_preprobe
  2. random
  3. wrtscc
  4. rdscc
  5. switchbuffers
  6. hardware_send_packet
  7. setup_rx_dma
  8. setup_tx_dma
  9. tdelay
  10. free_p
  11. a_txint
  12. a_exint
  13. a_rxint
  14. b_rxint
  15. b_txint
  16. b_exint
  17. hw_probe
  18. rts
  19. pi_header
  20. pi_rebuild_header
  21. scc_init
  22. chipset_init
  23. pi_init
  24. valid_dma_page
  25. pi_set_mac_address
  26. get_dma_buffer
  27. pi_probe
  28. pi_open
  29. pi_send_packet
  30. pi_interrupt
  31. pi_close
  32. pi_ioctl
  33. pi_get_stats

   1 /*
   2    pi2.c: Driver for the Ottawa Amateur Radio Club PI and PI2 interface.
   3    Copyright (c) 1994 David Perry
   4 
   5    This program is free software; you can redistribute it and/or modify
   6    it under the terms of the GNU General Public License version 2, as
   7    published by the Free Software Foundation.
   8 
   9    This program is distributed in the hope that it will be useful, but
  10    WITHOUT ANY WARRANTY; without even the implied warranty of
  11    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
  12    General Public License for more details.
  13 
  14    You should have received a copy of the GNU General Public License
  15    along with this program; if not, write to the Free Software Foundation,
  16    Inc., 675 Mass Ave, Cambridge MA 02139, USA.
  17 
  18    The file skeleton.c by Donald Becker was used as a starting point
  19    for this driver.
  20 
  21    Revision History
  22 
  23    April 6, 1994  (dp) Created
  24                        version 0.0 ALPHA
  25    April 10, 1994 (dp) Included cleanup, suggestions from J. P. Morrison.
  26                        version 0.1 ALPHA
  27    April 13, 1994 (dp) Included address probing from JPM, autoirq
  28                        version 0.2 ALPHA
  29    April 14, 1994 (ac) Sketched in the NET3 changes.
  30    April 17, 1994 (dp) Finished the NET3 changes. Used init_etherdev()
  31                        instead of kmalloc() to ensure that DMA buffers will
  32                        reside under the 16 meg line.
  33                        version 0.4 ALPHA
  34    April 18, 1994 (dp) Now using the kernel provided sk_buff handling functions.
  35                        Fixed a nasty problem with DMA.
  36                        version 0.5 ALPHA
  37    June 6, 1994 (ac)   Fixed to match the buffer locking changes. Added a hack to
  38                        fix a funny I see (search for HACK) and fixed the calls in
  39                        init() so it doesn't migrate module based ethernet cards up
  40                        to eth2 Took out the old module ideas as they are no longer
  41                        relevant to the PI driver.
  42    July 16, 1994 (dp)  Fixed the B channel rx overrun problem ac referred to 
  43                        above. Also added a bit of a hack to improve the maximum
  44                        baud rate on the B channel (Search for STUFF2). Included
  45                        ioctl stuff from John Paul Morrison. version 0.6 ALPHA
  46    Feb 9, 1995 (dp)    Updated for 1.1.90 kernel
  47                        version 0.7 ALPHA
  48    Apr 6, 1995 (ac)    Tweaks for NET3 pre snapshot 002 AX.25
  49    April 23, 1995 (dp) Fixed ioctl so it works properly with piconfig program
  50                        when changing the baud rate or clock mode.
  51                        version 0.8 ALPHA
  52    July 17, 1995 (ac)  Finally polishing of AX25.030+ support
  53          
  54 */
  55 
  56 /* The following #define invokes a hack that will improve performance (baud)
  57    for the B port. The up side is it makes 9600 baud work ok on the B port.
  58    It may do 38400, depending on the host. The down side is it burns up
  59    CPU cycles with ints locked for up to 1 character time, at the beginning
  60    of each transmitted packet. If this causes you to lose sleep, #undefine it.
  61 */
  62 
  63 /*#define STUFF2 1*/
  64 
  65 /* The default configuration */
  66 #define PI_DMA 3
  67 
  68 #define DEF_A_SPEED 0           /* 0 means external clock */
  69 #define DEF_A_TXDELAY 15        /* 15 mS transmit delay */
  70 #define DEF_A_PERSIST 128       /* 50% persistence */
  71 #define DEF_A_SLOTIME 15        /* 15 mS slot time */
  72 #define DEF_A_SQUELDELAY 1      /* 1 mS squelch delay - allows fcs and flag */
  73 #define DEF_A_CLOCKMODE 0       /* clock mode - 0 is normal */
  74 
  75 #define DEF_B_SPEED 1200        /* 1200 baud */
  76 #define DEF_B_TXDELAY 40        /* 400 mS */
  77 #define DEF_B_PERSIST 128       /* 50% */
  78 #define DEF_B_SLOTIME 30        /* 300 mS */
  79 #define DEF_B_SQUELDELAY 3      /* 30 mS */
  80 #define DEF_B_CLOCKMODE 0       /* Normal clock mode */
  81 
  82 struct device *init_etherdev(struct device *dev, int sizeof_private,
  83                              unsigned long *mem_startp);
  84 
  85 static const char *version =
  86 "PI: V0.8 ALPHA April 23 1995 David Perry (dp@hydra.carleton.ca)\n";
  87 
  88 /* The following #define is only really required for the PI card, not
  89    the PI2 - but it's safer to leave it in. */
  90 #define REALLY_SLOW_IO 1
  91 
  92 #define PI2_MODULE 0
  93 
  94 #if PI2_MODULE > 0
  95 #include <linux/modules.h>
  96 #endif
  97 
  98 #include <linux/config.h>
  99 #include <linux/kernel.h>
 100 #include <linux/sched.h>
 101 #include <linux/types.h>
 102 #include <linux/fcntl.h>
 103 #include <linux/interrupt.h>
 104 #include <linux/ptrace.h>
 105 #include <linux/ioport.h>
 106 #include <linux/in.h>
 107 #include <linux/malloc.h>
 108 #include <linux/string.h>
 109 #include <linux/errno.h>
 110 #include <asm/system.h>
 111 #include <asm/bitops.h>
 112 #include <asm/io.h>
 113 #include <asm/dma.h>
 114 #include <asm/segment.h>
 115 #include <linux/inet.h>
 116 #include <linux/netdevice.h>
 117 #include <linux/etherdevice.h>
 118 #include <linux/skbuff.h>
 119 #include <linux/timer.h>
 120 #include "pi2.h"
 121 #include "z8530.h"
 122 #include <net/ax25.h>
 123 
 124 
 125 struct mbuf {
 126     struct mbuf *next;
 127     int cnt;
 128     char data[0];
 129 };
 130 
 131 /*
 132  *      The actual devices we will use
 133  */
 134  
 135 /*
 136  *      PI device declarations.
 137  */
 138  
 139 static int pi0_preprobe(struct device *dev){return 0;}  /* Dummy probe function */
     /* [previous][next][first][last][top][bottom][index][help] */
 140 static struct device pi0a = { "pi0a", 0, 0, 0, 0, 0, 0, 0, 0, 0, NULL, pi0_preprobe };
 141 static struct device pi0b = { "pi0b", 0, 0, 0, 0, 0, 0, 0, 0, 0, NULL, pi0_preprobe };
 142 
 143  
 144 /* The number of low I/O ports used by the card. */
 145 #define PI_TOTAL_SIZE   8
 146 
 147 
 148 /* Index to functions, as function prototypes. */
 149 
 150 static int pi_probe(struct device *dev, int card_type);
 151 static int pi_open(struct device *dev);
 152 static int pi_send_packet(struct sk_buff *skb, struct device *dev);
 153 static void pi_interrupt(int reg_ptr, struct pt_regs *regs);
 154 static int pi_close(struct device *dev);
 155 static int pi_ioctl(struct device *dev, struct ifreq *ifr, int cmd);
 156 static struct enet_statistics *pi_get_stats(struct device *dev);
 157 static void rts(struct pi_local *lp, int x);
 158 static void b_rxint(struct device *dev, struct pi_local *lp);
 159 static void b_txint(struct pi_local *lp);
 160 static void b_exint(struct pi_local *lp);
 161 static void a_rxint(struct device *dev, struct pi_local *lp);
 162 static void a_txint(struct pi_local *lp);
 163 static void a_exint(struct pi_local *lp);
 164 static char *get_dma_buffer(unsigned long *mem_ptr);
 165 static int valid_dma_page(unsigned long addr, unsigned long dev_buffsize);
 166 
 167 static char ax25_bcast[7] =
 168 {'Q' << 1, 'S' << 1, 'T' << 1, ' ' << 1, ' ' << 1, ' ' << 1, '0' << 1};
 169 static char ax25_test[7] =
 170 {'L' << 1, 'I' << 1, 'N' << 1, 'U' << 1, 'X' << 1, ' ' << 1, '1' << 1};
 171 
 172 static int ext2_secrm_seed = 152;       /* Random generator base */
 173 
 174 static inline unsigned char random(void)
     /* [previous][next][first][last][top][bottom][index][help] */
 175 {
 176     return (unsigned char) (ext2_secrm_seed = ext2_secrm_seed
 177                             * 69069l + 1);
 178 }
 179 
 180 static inline void wrtscc(int cbase, int ctl, int sccreg, int val)
     /* [previous][next][first][last][top][bottom][index][help] */
 181 {
 182     /* assume caller disables interrupts! */
 183     outb_p(0, cbase + DMAEN);   /* Disable DMA while we touch the scc */
 184     outb_p(sccreg, ctl);        /* Select register */
 185     outb_p(val, ctl);           /* Output value */
 186     outb_p(1, cbase + DMAEN);   /* Enable DMA */
 187 }
 188 
 189 static inline int rdscc(int cbase, int ctl, int sccreg)
     /* [previous][next][first][last][top][bottom][index][help] */
 190 {
 191     int retval;
 192 
 193     /* assume caller disables interrupts! */
 194     outb_p(0, cbase + DMAEN);   /* Disable DMA while we touch the scc */
 195     outb_p(sccreg, ctl);        /* Select register */
 196     retval = inb_p(ctl);
 197     outb_p(1, cbase + DMAEN);   /* Enable DMA */
 198     return retval;
 199 }
 200 
 201 static void switchbuffers(struct pi_local *lp)
     /* [previous][next][first][last][top][bottom][index][help] */
 202 {
 203     if (lp->rcvbuf == lp->rxdmabuf1)
 204         lp->rcvbuf = lp->rxdmabuf2;
 205     else
 206         lp->rcvbuf = lp->rxdmabuf1;
 207 }
 208 
 209 static void hardware_send_packet(struct pi_local *lp, struct sk_buff *skb)
     /* [previous][next][first][last][top][bottom][index][help] */
 210 {
 211     char kickflag;
 212     unsigned long flags;
 213 
 214     lp->stats.tx_packets++;
 215 
 216     save_flags(flags);
 217     cli();
 218     kickflag = (skb_peek(&lp->sndq) == NULL) && (lp->sndbuf == NULL);
 219     restore_flags(flags);
 220 
 221     skb_queue_tail(&lp->sndq, skb);
 222     if (kickflag) {
 223         /* simulate interrupt to xmit */
 224         switch (lp->base & 2) {
 225         case 2:
 226             a_txint(lp);        /* process interrupt */
 227             break;
 228         case 0:
 229             save_flags(flags);
 230             cli();
 231             if (lp->tstate == IDLE)
 232                 b_txint(lp);
 233             restore_flags(flags);
 234             break;
 235         }
 236     }
 237 }
 238 
 239 static void setup_rx_dma(struct pi_local *lp)
     /* [previous][next][first][last][top][bottom][index][help] */
 240 {
 241     unsigned long flags;
 242     int cmd;
 243     unsigned long dma_abs;
 244     unsigned dmachan;
 245 
 246     save_flags(flags);
 247     cli();
 248 
 249     dma_abs = (unsigned long) (lp->rcvbuf->data);
 250     dmachan = lp->dmachan;
 251     cmd = lp->base + CTL;
 252 
 253     if(!valid_dma_page(dma_abs, DMA_BUFF_SIZE + sizeof(struct mbuf)))
 254         panic("PI: RX buffer violates DMA boundary!");
 255 
 256     /* Get ready for RX DMA */
 257     wrtscc(lp->cardbase, cmd, R1, WT_FN_RDYFN | WT_RDY_RT | INT_ERR_Rx | EXT_INT_ENAB);
 258 
 259     disable_dma(dmachan);
 260     clear_dma_ff(dmachan);
 261 
 262     /* Set DMA mode register to single transfers, incrementing address,
 263      *  auto init, writes
 264      */
 265     set_dma_mode(dmachan, DMA_MODE_READ | 0x10);
 266     set_dma_addr(dmachan, dma_abs);
 267     set_dma_count(dmachan, lp->bufsiz);
 268     enable_dma(dmachan);
 269 
 270     /* If a packet is already coming in, this line is supposed to
 271            avoid receiving a partial packet.
 272      */
 273     wrtscc(lp->cardbase, cmd, R0, RES_Rx_CRC);
 274 
 275     /* Enable RX dma */
 276     wrtscc(lp->cardbase, cmd, R1,
 277       WT_RDY_ENAB | WT_FN_RDYFN | WT_RDY_RT | INT_ERR_Rx | EXT_INT_ENAB);
 278 
 279     restore_flags(flags);
 280 }
 281 
 282 static void setup_tx_dma(struct pi_local *lp, int length)
     /* [previous][next][first][last][top][bottom][index][help] */
 283 {
 284     unsigned long dma_abs;
 285     unsigned long flags;
 286     unsigned long dmachan;
 287 
 288     save_flags(flags);
 289     cli();
 290 
 291     dmachan = lp->dmachan;
 292     dma_abs = (unsigned long) (lp->txdmabuf);
 293 
 294     if(!valid_dma_page(dma_abs, DMA_BUFF_SIZE + sizeof(struct mbuf)))
 295         panic("PI: TX buffer violates DMA boundary!");
 296 
 297     disable_dma(dmachan);
 298     /* Set DMA mode register to single transfers, incrementing address,
 299      *  no auto init, reads
 300      */
 301     set_dma_mode(dmachan, DMA_MODE_WRITE);
 302     clear_dma_ff(dmachan);
 303     set_dma_addr(dmachan, dma_abs);
 304     /* output byte count */
 305     set_dma_count(dmachan, length);
 306 
 307     restore_flags(flags);
 308 }
 309 
 310 static void tdelay(struct pi_local *lp, int time)
     /* [previous][next][first][last][top][bottom][index][help] */
 311 {
 312     int port;
 313     unsigned int t1;
 314     unsigned char sc;
 315 
 316     if (lp->base & 2) {         /* If A channel */
 317         sc = SC1;
 318         t1 = time;
 319         port = lp->cardbase + TMR1;
 320     } else {
 321         sc = SC2;
 322         t1 = 10 * time;         /* 10s of milliseconds for the B channel */
 323         port = lp->cardbase + TMR2;
 324         wrtscc(lp->cardbase, lp->base + CTL, R1, INT_ALL_Rx | EXT_INT_ENAB);
 325     }
 326 
 327     /* Setup timer sc */
 328     outb_p(sc | LSB_MSB | MODE0, lp->cardbase + TMRCMD);
 329 
 330     /* times 2 to make millisecs */
 331     outb_p((t1 << 1) & 0xFF, port);
 332     outb_p((t1 >> 7) & 0xFF, port);
 333 
 334     /* Enable correct int for timeout */
 335     wrtscc(lp->cardbase, lp->base + CTL, R15, CTSIE);
 336     wrtscc(lp->cardbase, lp->base + CTL, R0, RES_EXT_INT);
 337 }
 338 
 339 static void free_p(struct sk_buff *skb)
     /* [previous][next][first][last][top][bottom][index][help] */
 340 {
 341         dev_kfree_skb(skb, FREE_WRITE);
 342 }
 343 
 344 static void a_txint(struct pi_local *lp)
     /* [previous][next][first][last][top][bottom][index][help] */
 345 {
 346     int cmd;
 347     unsigned long flags;
 348 
 349     save_flags(flags);
 350     cli();
 351 
 352     cmd = CTL + lp->base;
 353 
 354     switch (lp->tstate) {
 355     case IDLE:
 356         /* Transmitter idle. Find a frame for transmission */
 357         if ((lp->sndbuf = skb_dequeue(&lp->sndq)) == NULL) {
 358             rts(lp, OFF);
 359             restore_flags(flags);
 360             return;
 361         }
 362         /* If a buffer to send, we drop thru here */
 363     case DEFER:
 364         /* we may have deferred prev xmit attempt */
 365         /* Check DCD - debounce it
 366          * See Intel Microcommunications Handbook, p2-308
 367          */
 368         wrtscc(lp->cardbase, cmd, R0, RES_EXT_INT);
 369         wrtscc(lp->cardbase, cmd, R0, RES_EXT_INT);
 370         if ((rdscc(lp->cardbase, cmd, R0) & DCD) != 0) {
 371             lp->tstate = DEFER;
 372             tdelay(lp, 100);
 373             /* defer until DCD transition or timeout */
 374             wrtscc(lp->cardbase, cmd, R15, CTSIE | DCDIE);
 375             restore_flags(flags);
 376             return;
 377         }
 378         if (random() > lp->persist) {
 379             lp->tstate = DEFER;
 380             tdelay(lp, lp->slotime);
 381             restore_flags(flags);
 382             return;
 383         }
 384         /* Assert RTS early minimize collision window */
 385         wrtscc(lp->cardbase, cmd, R5, TxCRC_ENAB | RTS | Tx8);
 386         rts(lp, ON);            /* Transmitter on */
 387         lp->tstate = ST_TXDELAY;
 388         tdelay(lp, lp->txdelay);
 389         restore_flags(flags);
 390         return;
 391     default:
 392         break;
 393     }                           /* end switch(lp->state) */
 394 
 395     restore_flags(flags);
 396 }                               /*a_txint */
 397 
 398 static void a_exint(struct pi_local *lp)
     /* [previous][next][first][last][top][bottom][index][help] */
 399 {
 400     unsigned long flags;
 401     int cmd;
 402     char st;
 403     int length;
 404 
 405     save_flags(flags);
 406     cli();                      /* disable interrupts */
 407 
 408     st = rdscc(lp->cardbase, lp->base + CTL, R0);       /* Fetch status */
 409 
 410     /* reset external status latch */
 411     wrtscc(lp->cardbase, CTL + lp->base, R0, RES_EXT_INT);
 412     cmd = lp->base + CTL;
 413 
 414     if ((lp->rstate >= ACTIVE) && (st & BRK_ABRT)) {
 415         setup_rx_dma(lp);
 416         lp->rstate = ACTIVE;
 417     }
 418     switch (lp->tstate) {
 419     case ACTIVE:
 420         free_p(lp->sndbuf);
 421         lp->sndbuf = NULL;
 422         lp->tstate = FLAGOUT;
 423         tdelay(lp, lp->squeldelay);
 424         break;
 425     case FLAGOUT:
 426         if ((lp->sndbuf = skb_dequeue(&lp->sndq)) == NULL) {
 427             /* Nothing to send - return to receive mode */
 428             lp->tstate = IDLE;
 429             rts(lp, OFF);
 430             restore_flags(flags);
 431             return;
 432         }
 433         /* NOTE - fall through if more to send */
 434     case ST_TXDELAY:
 435         /* Disable DMA chan */
 436         disable_dma(lp->dmachan);
 437 
 438         /* Set up for TX dma */
 439         wrtscc(lp->cardbase, cmd, R1, WT_FN_RDYFN | EXT_INT_ENAB);
 440 
 441 
 442         /* Get all chars */
 443         /* Strip KISS control byte */
 444         length = lp->sndbuf->len - 1;
 445         memcpy(lp->txdmabuf, &lp->sndbuf->data[1], length);
 446 
 447 
 448         /* Setup DMA controller for tx */
 449         setup_tx_dma(lp, length);
 450 
 451         /* select transmit interrupts to enable */
 452         /* Allow DMA on chan */
 453         enable_dma(lp->dmachan);
 454 
 455         /* reset CRC, Txint pend*/
 456         wrtscc(lp->cardbase, cmd, R0, RES_Tx_CRC | RES_Tx_P);
 457 
 458         /* allow Underrun int only */
 459         wrtscc(lp->cardbase, cmd, R15, TxUIE);
 460 
 461         /* Enable TX DMA */
 462         wrtscc(lp->cardbase, cmd, R1, WT_RDY_ENAB | WT_FN_RDYFN | EXT_INT_ENAB);
 463 
 464         /* Send CRC on underrun */
 465         wrtscc(lp->cardbase, cmd, R0, RES_EOM_L);
 466 
 467 
 468         /* packet going out now */
 469         lp->tstate = ACTIVE;
 470         break;
 471     case DEFER:
 472         /* we have deferred prev xmit attempt
 473          * See Intel Microcommunications Handbook, p2-308
 474          */
 475         wrtscc(lp->cardbase, cmd, R0, RES_EXT_INT);
 476         wrtscc(lp->cardbase, cmd, R0, RES_EXT_INT);
 477         if ((rdscc(lp->cardbase, cmd, R0) & DCD) != 0) {
 478             lp->tstate = DEFER;
 479             tdelay(lp, 100);
 480             /* Defer until dcd transition or 100mS timeout */
 481             wrtscc(lp->cardbase, CTL + lp->base, R15, CTSIE | DCDIE);
 482             restore_flags(flags);
 483             return;
 484         }
 485         if (random() > lp->persist) {
 486             lp->tstate = DEFER;
 487             tdelay(lp, lp->slotime);
 488             restore_flags(flags);
 489             return;
 490         }
 491         /* Assert RTS early minimize collision window */
 492         wrtscc(lp->cardbase, cmd, R5, TxCRC_ENAB | RTS | Tx8);
 493         rts(lp, ON);            /* Transmitter on */
 494         lp->tstate = ST_TXDELAY;
 495         tdelay(lp, lp->txdelay);
 496         restore_flags(flags);
 497         return;
 498     }                           /* switch(lp->tstate) */
 499 
 500     restore_flags(flags);
 501 }                               /* a_exint() */
 502 
 503 /* Receive interrupt handler for the A channel
 504  */
 505 static void a_rxint(struct device *dev, struct pi_local *lp)
     /* [previous][next][first][last][top][bottom][index][help] */
 506 {
 507     unsigned long flags;
 508     int cmd;
 509     int bytecount;
 510     char rse;
 511     struct sk_buff *skb;
 512     int sksize, pkt_len;
 513     struct mbuf *cur_buf;
 514     unsigned char *cfix;
 515 
 516     save_flags(flags);
 517     cli();                      /* disable interrupts */
 518     cmd = lp->base + CTL;
 519 
 520     rse = rdscc(lp->cardbase, cmd, R1); /* Get special condition bits from R1 */
 521     if (rse & Rx_OVR)
 522         lp->rstate = RXERROR;
 523 
 524     if (rse & END_FR) {
 525         /* If end of frame */
 526         /* figure length of frame from 8237 */
 527         clear_dma_ff(lp->dmachan);
 528         bytecount = lp->bufsiz - get_dma_residue(lp->dmachan);
 529 
 530         if ((rse & CRC_ERR) || (lp->rstate > ACTIVE) || (bytecount < 10)) {
 531             if ((bytecount >= 10) && (rse & CRC_ERR)) {
 532                 lp->stats.rx_crc_errors++;
 533             }
 534             if (lp->rstate == RXERROR) {
 535                 lp->stats.rx_errors++;
 536                 lp->stats.rx_over_errors++;
 537             }
 538             /* Reset buffer pointers */
 539             lp->rstate = ACTIVE;
 540             setup_rx_dma(lp);
 541         } else {
 542             /* Here we have a valid frame */
 543             /* Toss 2 crc bytes , add one for KISS */
 544             pkt_len = lp->rcvbuf->cnt = bytecount - 2 + 1;
 545 
 546             /* Get buffer for next frame */
 547             cur_buf = lp->rcvbuf;
 548             switchbuffers(lp);
 549             setup_rx_dma(lp);
 550 
 551 
 552             /* Malloc up new buffer. */
 553             sksize = pkt_len;
 554 
 555             skb = dev_alloc_skb(sksize);
 556             if (skb == NULL) {
 557                 printk("PI: %s: Memory squeeze, dropping packet.\n", dev->name);
 558                 lp->stats.rx_dropped++;
 559                 restore_flags(flags);
 560                 return;
 561             }
 562             skb->dev = dev;
 563 
 564             /* KISS kludge -  prefix with a 0 byte */
 565             cfix=skb_put(skb,pkt_len);
 566             *cfix++=0;
 567             /* 'skb->data' points to the start of sk_buff data area. */
 568             memcpy(cfix, (char *) cur_buf->data,
 569                    pkt_len - 1);
 570             skb->protocol=htons(ETH_P_AX25);
 571             skb->mac.raw=skb->data;
 572             IS_SKB(skb);
 573             netif_rx(skb);
 574             lp->stats.rx_packets++;
 575         }                       /* end good frame */
 576     }                           /* end EOF check */
 577     wrtscc(lp->cardbase, lp->base + CTL, R0, ERR_RES);  /* error reset */
 578     restore_flags(flags);
 579 }
 580 
 581 static void b_rxint(struct device *dev, struct pi_local *lp)
     /* [previous][next][first][last][top][bottom][index][help] */
 582 {
 583     unsigned long flags;
 584     int cmd;
 585     char rse;
 586     struct sk_buff *skb;
 587     int sksize;
 588     int pkt_len;
 589     unsigned char *cfix;
 590 
 591     save_flags(flags);
 592     cli();                      /* disable interrupts */
 593     cmd = CTL + lp->base;
 594 
 595     rse = rdscc(lp->cardbase, cmd, R1); /* get status byte from R1 */
 596 
 597     if ((rdscc(lp->cardbase, cmd, R0)) & Rx_CH_AV) {
 598         /* there is a char to be stored
 599          * read special condition bits before reading the data char
 600          */
 601         if (rse & Rx_OVR) {
 602             /* Rx overrun - toss buffer */
 603             /* reset buffer pointers */
 604             lp->rcp = lp->rcvbuf->data;
 605             lp->rcvbuf->cnt = 0;
 606 
 607             lp->rstate = RXERROR;       /* set error flag */
 608             lp->stats.rx_errors++;
 609             lp->stats.rx_over_errors++;
 610         } else if (lp->rcvbuf->cnt >= lp->bufsiz) {
 611             /* Too large -- toss buffer */
 612             /* reset buffer pointers */
 613             lp->rcp = lp->rcvbuf->data;
 614             lp->rcvbuf->cnt = 0;
 615             lp->rstate = TOOBIG;/* when set, chars are not stored */
 616         }
 617         /* ok, we can store the received character now */
 618         if (lp->rstate == ACTIVE) {     /* If no errors... */
 619             *lp->rcp++ = rdscc(lp->cardbase, cmd, R8);  /* char to rcv buff */
 620             lp->rcvbuf->cnt++;  /* bump count */
 621         } else {
 622             /* got to empty FIFO */
 623             (void) rdscc(lp->cardbase, cmd, R8);
 624             wrtscc(lp->cardbase, cmd, R0, ERR_RES);     /* reset err latch */
 625             lp->rstate = ACTIVE;
 626         }
 627     }
 628     if (rse & END_FR) {
 629         /* END OF FRAME -- Make sure Rx was active */
 630         if (lp->rcvbuf->cnt > 0) {
 631             if ((rse & CRC_ERR) || (lp->rstate > ACTIVE) || (lp->rcvbuf->cnt < 10)) {
 632                 if ((lp->rcvbuf->cnt >= 10) && (rse & CRC_ERR)) {
 633                     lp->stats.rx_crc_errors++;
 634                 }
 635                 lp->rcp = lp->rcvbuf->data;
 636                 lp->rcvbuf->cnt = 0;
 637             } else {
 638                 /* Here we have a valid frame */
 639                 pkt_len = lp->rcvbuf->cnt -= 2; /* Toss 2 crc bytes */
 640                 pkt_len += 1;   /* Make room for KISS control byte */
 641 
 642                 /* Malloc up new buffer. */
 643                 sksize = pkt_len;
 644                 skb = dev_alloc_skb(sksize);
 645                 if (skb == NULL) {
 646                     printk("PI: %s: Memory squeeze, dropping packet.\n", dev->name);
 647                     lp->stats.rx_dropped++;
 648                     restore_flags(flags);
 649                     return;
 650                 }
 651                 skb->dev = dev;
 652 
 653                 /* KISS kludge -  prefix with a 0 byte */
 654                 cfix=skb_put(skb,pkt_len);
 655                 *cfix++=0;
 656                 /* 'skb->data' points to the start of sk_buff data area. */
 657                 memcpy(cfix, lp->rcvbuf->data, pkt_len - 1);
 658                 skb->protocol=ntohs(ETH_P_AX25);
 659                 IS_SKB(skb);
 660                 netif_rx(skb);
 661                 lp->stats.rx_packets++;
 662                 /* packet queued - initialize buffer for next frame */
 663                 lp->rcp = lp->rcvbuf->data;
 664                 lp->rcvbuf->cnt = 0;
 665 
 666             }                   /* end good frame queued */
 667         }                       /* end check for active receive upon EOF */
 668         lp->rstate = ACTIVE;    /* and clear error status */
 669     }                           /* end EOF check */
 670     restore_flags(flags);
 671 }
 672 
 673 
 674 static void b_txint(struct pi_local *lp)
     /* [previous][next][first][last][top][bottom][index][help] */
 675 {
 676     unsigned long flags;
 677     int cmd;
 678     unsigned char c;
 679 
 680     save_flags(flags);
 681     cli();
 682     cmd = CTL + lp->base;
 683 
 684     switch (lp->tstate) {
 685     case CRCOUT:
 686         lp->tstate = FLAGOUT;
 687         tdelay(lp, lp->squeldelay);
 688         restore_flags(flags);
 689         return;
 690     case IDLE:
 691         /* Transmitter idle. Find a frame for transmission */
 692         if ((lp->sndbuf = skb_dequeue(&lp->sndq)) == NULL) {
 693             /* Nothing to send - return to receive mode
 694              * Tx OFF now - flag should have gone
 695              */
 696             rts(lp, OFF);
 697          
 698             restore_flags(flags);
 699             return;
 700         }
 701         lp->txptr = lp->sndbuf->data;
 702         lp->txptr++;            /* Ignore KISS control byte */
 703         lp->txcnt = (int) lp->sndbuf->len - 1;
 704         /* If a buffer to send, we drop thru here */
 705     case DEFER:         /* we may have deferred prev xmit attempt */
 706         /* Check DCD - debounce it */
 707         /* See Intel Microcommunications Handbook, p2-308 */
 708         wrtscc(lp->cardbase, cmd, R0, RES_EXT_INT);
 709         wrtscc(lp->cardbase, cmd, R0, RES_EXT_INT);
 710         if ((rdscc(lp->cardbase, cmd, R0) & DCD) != 0) {
 711             lp->tstate = DEFER;
 712             tdelay(lp, 100);
 713             /* defer until DCD transition or timeout */
 714             wrtscc(lp->cardbase, cmd, R15, CTSIE | DCDIE);
 715             restore_flags(flags);
 716             return;
 717         }
 718         if (random() > lp->persist) {
 719             lp->tstate = DEFER;
 720             tdelay(lp, lp->slotime);
 721             restore_flags(flags);
 722             return;
 723         }
 724         rts(lp, ON);            /* Transmitter on */
 725         lp->tstate = ST_TXDELAY;
 726         tdelay(lp, lp->txdelay);
 727         restore_flags(flags);
 728         return;
 729 
 730     case ACTIVE:
 731         /* Here we are actively sending a frame */
 732         if (lp->txcnt--) {
 733             c = *lp->txptr++;
 734             /* next char is gone */
 735             wrtscc(lp->cardbase, cmd, R8, c);
 736             /* stuffing a char satisfies Interrupt condition */
 737         } else {
 738             /* No more to send */
 739             free_p(lp->sndbuf);
 740             lp->sndbuf = NULL;
 741             if ((rdscc(lp->cardbase, cmd, R0) & 0x40)) {
 742                 /* Did we underrun? */
 743                 /* unexpected underrun */
 744                 lp->stats.tx_errors++;
 745                 lp->stats.tx_fifo_errors++;
 746                 wrtscc(lp->cardbase, cmd, R0, SEND_ABORT);
 747                 lp->tstate = FLAGOUT;
 748                 tdelay(lp, lp->squeldelay);
 749                 restore_flags(flags);
 750                 return;
 751             }
 752             lp->tstate = UNDERRUN;      /* Now we expect to underrun */
 753             /* Send flags on underrun */
 754             if (lp->speed) {    /* If internally clocked */
 755                 wrtscc(lp->cardbase, cmd, R10, CRCPS | NRZI);
 756             } else {
 757                 wrtscc(lp->cardbase, cmd, R10, CRCPS);
 758             }
 759             wrtscc(lp->cardbase, cmd, R0, RES_Tx_P);    /* reset Tx Int Pend */
 760         }
 761         restore_flags(flags);
 762         return;                 /* back to wait for interrupt */
 763     }                           /* end switch */
 764     restore_flags(flags);
 765 }
 766 
 767 /* Pi SIO External/Status interrupts (for the B channel)
 768  * This can be caused by a receiver abort, or a Tx UNDERRUN/EOM.
 769  * Receiver automatically goes to Hunt on an abort.
 770  *
 771  * If the Tx Underrun interrupt hits, change state and
 772  * issue a reset command for it, and return.
 773  */
 774 static void b_exint(struct pi_local *lp)
     /* [previous][next][first][last][top][bottom][index][help] */
 775 {
 776     unsigned long flags;
 777     char st;
 778     int cmd;
 779     char c;
 780 
 781     cmd = CTL + lp->base;
 782     save_flags(flags);
 783     cli();                      /* disable interrupts */
 784     st = rdscc(lp->cardbase, cmd, R0);  /* Fetch status */
 785     /* reset external status latch */
 786     wrtscc(lp->cardbase, cmd, R0, RES_EXT_INT);
 787 
 788 
 789     switch (lp->tstate) {
 790     case ACTIVE:                /* Unexpected underrun */
 791         free_p(lp->sndbuf);
 792         lp->sndbuf = NULL;
 793         wrtscc(lp->cardbase, cmd, R0, SEND_ABORT);
 794         lp->tstate = FLAGOUT;
 795         lp->stats.tx_errors++;
 796         lp->stats.tx_fifo_errors++;
 797         tdelay(lp, lp->squeldelay);
 798         restore_flags(flags);
 799         return;
 800     case UNDERRUN:
 801         lp->tstate = CRCOUT;
 802         restore_flags(flags);
 803         return;
 804     case FLAGOUT:
 805         /* Find a frame for transmission */
 806         if ((lp->sndbuf = skb_dequeue(&lp->sndq)) == NULL) {
 807             /* Nothing to send - return to receive mode
 808              * Tx OFF now - flag should have gone
 809              */
 810             rts(lp, OFF);
 811             lp->tstate = IDLE;
 812             restore_flags(flags);
 813             return;
 814         }
 815         lp->txptr = lp->sndbuf->data;
 816         lp->txptr++;            /* Ignore KISS control byte */
 817         lp->txcnt = (int) lp->sndbuf->len - 1;
 818         /* Get first char to send */
 819         lp->txcnt--;
 820         c = *lp->txptr++;
 821         wrtscc(lp->cardbase, cmd, R0, RES_Tx_CRC);      /* reset for next frame */
 822 
 823         /* Send abort on underrun */
 824         if (lp->speed) {        /* If internally clocked */
 825             wrtscc(lp->cardbase, cmd, R10, CRCPS | NRZI | ABUNDER);
 826         } else {
 827             wrtscc(lp->cardbase, cmd, R10, CRCPS | ABUNDER);
 828         }
 829 
 830         wrtscc(lp->cardbase, cmd, R8, c);       /* First char out now */
 831         wrtscc(lp->cardbase, cmd, R0, RES_EOM_L);       /* Reset end of message latch */
 832 
 833 #ifdef STUFF2
 834         /* stuff an extra one if we can */
 835         if (lp->txcnt) {
 836             lp->txcnt--;
 837             c = *lp->txptr++;
 838             /* Wait for tx buffer empty */
 839             while((rdscc(lp->cardbase, cmd, R0) & 0x04) == 0)
 840                 ;   
 841             wrtscc(lp->cardbase, cmd, R8, c);
 842         }
 843 #endif
 844 
 845         /* select transmit interrupts to enable */
 846 
 847         wrtscc(lp->cardbase, cmd, R15, TxUIE);  /* allow Underrun int only */
 848         wrtscc(lp->cardbase, cmd, R0, RES_EXT_INT);
 849         wrtscc(lp->cardbase, cmd, R1, TxINT_ENAB | EXT_INT_ENAB);       /* Tx/Ext ints */
 850 
 851         lp->tstate = ACTIVE;    /* char going out now */
 852         restore_flags(flags);
 853         return;
 854 
 855     case DEFER:
 856         /* Check DCD - debounce it
 857          * See Intel Microcommunications Handbook, p2-308
 858          */
 859         wrtscc(lp->cardbase, cmd, R0, RES_EXT_INT);
 860         wrtscc(lp->cardbase, cmd, R0, RES_EXT_INT);
 861         if ((rdscc(lp->cardbase, cmd, R0) & DCD) != 0) {
 862             lp->tstate = DEFER;
 863             tdelay(lp, 100);
 864             /* defer until DCD transition or timeout */
 865             wrtscc(lp->cardbase, cmd, R15, CTSIE | DCDIE);
 866             restore_flags(flags);
 867             return;
 868         }
 869         if (random() > lp->persist) {
 870             lp->tstate = DEFER;
 871             tdelay(lp, lp->slotime);
 872             restore_flags(flags);
 873             return;
 874         }
 875         rts(lp, ON);            /* Transmitter on */
 876         lp->tstate = ST_TXDELAY;
 877         tdelay(lp, lp->txdelay);
 878         restore_flags(flags);
 879         return;
 880 
 881     case ST_TXDELAY:
 882 
 883         /* Get first char to send */
 884         lp->txcnt--;
 885         c = *lp->txptr++;
 886         wrtscc(lp->cardbase, cmd, R0, RES_Tx_CRC);      /* reset for next frame */
 887 
 888         /* Send abort on underrun */
 889         if (lp->speed) {        /* If internally clocked */
 890             wrtscc(lp->cardbase, cmd, R10, CRCPS | NRZI | ABUNDER);
 891         } else {
 892             wrtscc(lp->cardbase, cmd, R10, CRCPS | ABUNDER);
 893         }
 894 
 895         wrtscc(lp->cardbase, cmd, R8, c);       /* First char out now */
 896         wrtscc(lp->cardbase, cmd, R0, RES_EOM_L);       /* Reset end of message latch */
 897 
 898 #ifdef STUFF2
 899         /* stuff an extra one if we can */
 900         if (lp->txcnt) {
 901             lp->txcnt--;
 902             c = *lp->txptr++;
 903             /* Wait for tx buffer empty */
 904             while((rdscc(lp->cardbase, cmd, R0) & 0x04) == 0)
 905                 ;   
 906             wrtscc(lp->cardbase, cmd, R8, c);
 907         }
 908 #endif
 909 
 910         /* select transmit interrupts to enable */
 911 
 912         wrtscc(lp->cardbase, cmd, R15, TxUIE);  /* allow Underrun int only */
 913         wrtscc(lp->cardbase, cmd, R0, RES_EXT_INT);
 914         /* Tx/Extern ints on */
 915         wrtscc(lp->cardbase, cmd, R1, TxINT_ENAB | EXT_INT_ENAB);
 916 
 917         lp->tstate = ACTIVE;    /* char going out now */
 918         restore_flags(flags);
 919         return;
 920     }
 921 
 922     /* Receive Mode only
 923      * This triggers when hunt mode is entered, & since an ABORT
 924      * automatically enters hunt mode, we use that to clean up
 925      * any waiting garbage
 926      */
 927     if ((lp->rstate == ACTIVE) && (st & BRK_ABRT)) {
 928         (void) rdscc(lp->cardbase, cmd, R8);
 929         (void) rdscc(lp->cardbase, cmd, R8);
 930         (void) rdscc(lp->cardbase, cmd, R8);
 931         lp->rcp = lp->rcvbuf->data;
 932         lp->rcvbuf->cnt = 0;    /* rewind on DCD transition */
 933     }
 934     restore_flags(flags);
 935 }
 936 
 937 /* Probe for a PI card. */
 938 /* This routine also initializes the timer chip */
 939 
 940 static int hw_probe(int ioaddr)
     /* [previous][next][first][last][top][bottom][index][help] */
 941 {
 942     int time = 1000;            /* Number of milliseconds for test */
 943     unsigned long start_time, end_time;
 944 
 945     int base, tmr0, tmr1, tmrcmd;
 946     int a = 1;
 947     int b = 1;
 948 
 949     base = ioaddr & 0x3f0;
 950     tmr0 = TMR0 + base;
 951     tmr1 = TMR1 + base;
 952     tmrcmd = TMRCMD + base;
 953 
 954     /* Set up counter chip timer 0 for 500 uS period square wave */
 955     /* assuming a 3.68 mhz clock for now */
 956     outb_p(SC0 | LSB_MSB | MODE3, tmrcmd);
 957     outb_p(922 & 0xFF, tmr0);
 958     outb_p(922 >> 8, tmr0);
 959 
 960     /* Setup timer control word for timer 1*/
 961     outb_p(SC1 | LSB_MSB | MODE0, tmrcmd);
 962     outb_p((time << 1) & 0xFF, tmr1);
 963     outb_p((time >> 7) & 0XFF, tmr1);
 964 
 965     /* wait until counter reg is loaded */
 966     do {
 967         /* Latch count for reading */
 968         outb_p(SC1, tmrcmd);
 969         a = inb_p(tmr1);
 970         b = inb_p(tmr1);
 971     } while (b == 0);
 972     start_time = jiffies;
 973     while (b != 0) {
 974         /* Latch count for reading */
 975         outb_p(SC1, tmrcmd);
 976         a = inb_p(tmr1);
 977         b = inb_p(tmr1);
 978         end_time = jiffies;
 979         /* Don't wait forever - there may be no card here */
 980         if ((end_time - start_time) > 200)
 981             return 0;           /* No card found */
 982     }
 983     end_time = jiffies;
 984     /* 87 jiffies, for a 3.68 mhz clock, half that for a double speed clock */
 985     if ((end_time - start_time) > 65) {
 986         return (1);             /* PI card found */
 987     } else {
 988         /* Faster crystal - tmr0 needs adjusting */
 989         /* Set up counter chip */
 990         /* 500 uS square wave */
 991         outb_p(SC0 | LSB_MSB | MODE3, tmrcmd);
 992         outb_p(1844 & 0xFF, tmr0);
 993         outb_p(1844 >> 8, tmr0);
 994         return (2);             /* PI2 card found */
 995     }
 996 }
 997 
 998 static void rts(struct pi_local *lp, int x)
     /* [previous][next][first][last][top][bottom][index][help] */
 999 {
1000     int tc;
1001     long br;
1002     int cmd;
1003     int dummy;
1004 
1005     /* assumes interrupts are off */
1006     cmd = CTL + lp->base;
1007 
1008     /* Reprogram BRG and turn on transmitter to send flags */
1009     if (x == ON) {              /* Turn Tx ON and Receive OFF */
1010         /* Exints off first to avoid abort int */
1011         wrtscc(lp->cardbase, cmd, R15, 0);
1012         wrtscc(lp->cardbase, cmd, R3, Rx8);     /* Rx off */
1013         lp->rstate = IDLE;
1014         if (cmd & 2) {          /* if channel a */
1015             /* Set up for TX dma */
1016             wrtscc(lp->cardbase, cmd, R1, WT_FN_RDYFN | EXT_INT_ENAB);
1017         } else {
1018             wrtscc(lp->cardbase, cmd, R1, 0);   /* No interrupts */
1019         }
1020 
1021         if (!lp->clockmode) {
1022             if (lp->speed) {    /* if internally clocked */
1023                 br = lp->speed; /* get desired speed */
1024                 tc = (lp->xtal / br) - 2;       /* calc 1X BRG divisor */
1025                 wrtscc(lp->cardbase, cmd, R12, tc & 0xFF);      /* lower byte */
1026                 wrtscc(lp->cardbase, cmd, R13, (tc >> 8) & 0xFF);       /* upper byte */
1027             }
1028         }
1029         wrtscc(lp->cardbase, cmd, R5, TxCRC_ENAB | RTS | TxENAB | Tx8 | DTR);
1030         /* Transmitter now on */
1031     } else {                    /* Tx OFF and Rx ON */
1032         lp->tstate = IDLE;
1033         wrtscc(lp->cardbase, cmd, R5, Tx8 | DTR);       /*  TX off */
1034 
1035         if (!lp->clockmode) {
1036             if (lp->speed) {    /* if internally clocked */
1037                 /* Reprogram BRG for 32x clock for receive DPLL */
1038                 /* BRG off, keep Pclk source */
1039                 wrtscc(lp->cardbase, cmd, R14, BRSRC);
1040                 br = lp->speed; /* get desired speed */
1041                 /* calc 32X BRG divisor */
1042                 tc = ((lp->xtal / 32) / br) - 2;
1043                 wrtscc(lp->cardbase, cmd, R12, tc & 0xFF);      /* lower byte */
1044                 wrtscc(lp->cardbase, cmd, R13, (tc >> 8) & 0xFF);       /* upper byte */
1045                 /* SEARCH mode, BRG source */
1046                 wrtscc(lp->cardbase, cmd, R14, BRSRC | SEARCH);
1047                 /* Enable the BRG */
1048                 wrtscc(lp->cardbase, cmd, R14, BRSRC | BRENABL);
1049             }
1050         }
1051         /* Flush rx fifo */
1052         wrtscc(lp->cardbase, cmd, R3, Rx8);     /* Make sure rx is off */
1053         wrtscc(lp->cardbase, cmd, R0, ERR_RES); /* reset err latch */
1054         dummy = rdscc(lp->cardbase, cmd, R1);   /* get status byte from R1 */
1055         (void) rdscc(lp->cardbase, cmd, R8);
1056         (void) rdscc(lp->cardbase, cmd, R8);
1057 
1058         (void) rdscc(lp->cardbase, cmd, R8);
1059 
1060         /* Now, turn on the receiver and hunt for a flag */
1061         wrtscc(lp->cardbase, cmd, R3, RxENABLE | Rx8);
1062         lp->rstate = ACTIVE;    /* Normal state */
1063 
1064         if (cmd & 2) {          /* if channel a */
1065             setup_rx_dma(lp);
1066         } else {
1067             /* reset buffer pointers */
1068             lp->rcp = lp->rcvbuf->data;
1069             lp->rcvbuf->cnt = 0;
1070             wrtscc(lp->cardbase, cmd, R1, (INT_ALL_Rx | EXT_INT_ENAB));
1071         }
1072         wrtscc(lp->cardbase, cmd, R15, BRKIE);  /* allow ABORT int */
1073     }
1074 }
1075 
1076 /* Fill in the MAC-level header. */
1077 static int pi_header(struct sk_buff *skb, struct device *dev, unsigned short type,
     /* [previous][next][first][last][top][bottom][index][help] */
1078              void *daddr, void *saddr, unsigned len)
1079 {
1080     return ax25_encapsulate(skb, dev, type, daddr, saddr, len);
1081 }
1082 
1083 /* Rebuild the MAC-level header. */
1084 static int pi_rebuild_header(void *buff, struct device *dev, unsigned long raddr,
     /* [previous][next][first][last][top][bottom][index][help] */
1085                              struct sk_buff *skb)
1086 {
1087     return ax25_rebuild_header(buff, dev, raddr, skb);
1088 }
1089 
1090 static void scc_init(struct device *dev)
     /* [previous][next][first][last][top][bottom][index][help] */
1091 {
1092     unsigned long flags;
1093     struct pi_local *lp = (struct pi_local *) dev->priv;
1094 
1095     int tc;
1096     long br;
1097     register int cmd;
1098 
1099     /* Initialize 8530 channel for SDLC operation */
1100 
1101     cmd = CTL + lp->base;
1102     save_flags(flags);
1103     cli();
1104 
1105     switch (cmd & CHANA) {
1106     case CHANA:
1107         wrtscc(lp->cardbase, cmd, R9, CHRA);    /* Reset channel A */
1108         wrtscc(lp->cardbase, cmd, R2, 0xff);    /* Initialize interrupt vector */
1109         break;
1110     default:
1111         wrtscc(lp->cardbase, cmd, R9, CHRB);    /* Reset channel B */
1112         break;
1113     }
1114 
1115     /* Deselect all Rx and Tx interrupts */
1116     wrtscc(lp->cardbase, cmd, R1, 0);
1117 
1118     /* Turn off external interrupts (like CTS/CD) */
1119     wrtscc(lp->cardbase, cmd, R15, 0);
1120 
1121     /* X1 clock, SDLC mode */
1122     wrtscc(lp->cardbase, cmd, R4, SDLC | X1CLK);
1123 
1124     /* Tx/Rx parameters */
1125     if (lp->speed) {            /* Use internal clocking */
1126         wrtscc(lp->cardbase, cmd, R10, CRCPS | NRZI);
1127         if (!lp->clockmode)
1128             /* Tx Clk from BRG. Rcv Clk from DPLL, TRxC pin outputs DPLL */
1129             wrtscc(lp->cardbase, cmd, R11, TCBR | RCDPLL | TRxCDP | TRxCOI);
1130         else
1131             /* Tx Clk from DPLL, Rcv Clk from DPLL, TRxC Outputs BRG */
1132             wrtscc(lp->cardbase, cmd, R11, TCDPLL | RCDPLL | TRxCBR | TRxCOI);
1133     } else {                    /* Use external clocking */
1134         wrtscc(lp->cardbase, cmd, R10, CRCPS);
1135         /* Tx Clk from Trxcl. Rcv Clk from Rtxcl, TRxC pin is input */
1136         wrtscc(lp->cardbase, cmd, R11, TCTRxCP);
1137     }
1138 
1139     /* Null out SDLC start address */
1140     wrtscc(lp->cardbase, cmd, R6, 0);
1141 
1142     /* SDLC flag */
1143     wrtscc(lp->cardbase, cmd, R7, FLAG);
1144 
1145     /* Set up the Transmitter but don't enable it
1146      *  DTR, 8 bit TX chars only
1147      */
1148     wrtscc(lp->cardbase, cmd, R5, Tx8 | DTR);
1149 
1150     /* Receiver initial setup */
1151     wrtscc(lp->cardbase, cmd, R3, Rx8); /* 8 bits/char */
1152 
1153     /* Setting up BRG now - turn it off first */
1154     wrtscc(lp->cardbase, cmd, R14, BRSRC);      /* BRG off, keep Pclk source */
1155 
1156     /* set the 32x time constant for the BRG in Receive mode */
1157 
1158     if (lp->speed) {
1159         br = lp->speed;         /* get desired speed */
1160         tc = ((lp->xtal / 32) / br) - 2;        /* calc 32X BRG divisor */
1161     } else {
1162         tc = 14;
1163     }
1164 
1165     wrtscc(lp->cardbase, cmd, R12, tc & 0xFF);  /* lower byte */
1166     wrtscc(lp->cardbase, cmd, R13, (tc >> 8) & 0xFF);   /* upper byte */
1167 
1168     /* Following subroutine sets up and ENABLES the receiver */
1169     rts(lp, OFF);               /* TX OFF and RX ON */
1170 
1171     if (lp->speed) {
1172         /* DPLL frm BRG, BRG src PCLK */
1173         wrtscc(lp->cardbase, cmd, R14, BRSRC | SSBR);
1174     } else {
1175         /* DPLL frm rtxc,BRG src PCLK */
1176         wrtscc(lp->cardbase, cmd, R14, BRSRC | SSRTxC);
1177     }
1178     wrtscc(lp->cardbase, cmd, R14, BRSRC | SEARCH);     /* SEARCH mode, keep BRG src */
1179     wrtscc(lp->cardbase, cmd, R14, BRSRC | BRENABL);    /* Enable the BRG */
1180 
1181     if (!(cmd & 2))             /* if channel b */
1182         wrtscc(lp->cardbase, cmd, R1, (INT_ALL_Rx | EXT_INT_ENAB));
1183 
1184     wrtscc(lp->cardbase, cmd, R15, BRKIE);      /* ABORT int */
1185 
1186     /* Now, turn on the receiver and hunt for a flag */
1187     wrtscc(lp->cardbase, cmd, R3, RxENABLE | RxCRC_ENAB | Rx8);
1188 
1189     restore_flags(flags);
1190 }
1191 
1192 static void chipset_init(struct device *dev)
     /* [previous][next][first][last][top][bottom][index][help] */
1193 {
1194     int cardbase;
1195     unsigned long flags;
1196 
1197     cardbase = dev->base_addr & 0x3f0;
1198 
1199     save_flags(flags);
1200     cli();
1201     wrtscc(cardbase, dev->base_addr + CTL, R9, FHWRES); /* Hardware reset */
1202     /* Disable interrupts with master interrupt ctrl reg */
1203     wrtscc(cardbase, dev->base_addr + CTL, R9, 0);
1204     restore_flags(flags);
1205 
1206 }
1207 
1208 
1209 unsigned long pi_init(unsigned long mem_start, unsigned long mem_end)
     /* [previous][next][first][last][top][bottom][index][help] */
1210 {
1211     int *port;
1212     int ioaddr = 0;
1213     int card_type = 0;
1214     int ports[] =
1215     {0x380, 0x300, 0x320, 0x340, 0x360, 0x3a0, 0};
1216 
1217     printk(version);
1218 
1219     /* Only one card supported for now */
1220     for (port = &ports[0]; *port && !card_type; port++) {
1221         ioaddr = *port;
1222 
1223         if (check_region(ioaddr, PI_TOTAL_SIZE) == 0) {
1224             printk("PI: Probing for card at address %#3x\n",ioaddr);
1225             card_type = hw_probe(ioaddr);
1226         }
1227     }
1228 
1229     switch (card_type) {
1230     case 1:
1231         printk("PI: Found a PI card at address %#3x\n", ioaddr);
1232         break;
1233     case 2:
1234         printk("PI: Found a PI2 card at address %#3x\n", ioaddr);
1235         break;
1236     default:
1237         printk("PI: ERROR: No card found\n");
1238         return mem_start;
1239     }
1240 
1241     /* Link a couple of device structures into the chain */
1242     /* For the A port */
1243     /* Allocate space for 4 buffers even though we only need 3,
1244        because one of them may cross a DMA page boundary and
1245        be rejected by get_dma_buffer().
1246     */
1247     register_netdev(&pi0a);
1248     
1249     pi0a.priv=(void *)mem_start;
1250     mem_start+=sizeof(struct pi_local) + (DMA_BUFF_SIZE + sizeof(struct mbuf)) * 4
1251                          + 8;   /* for alignment */
1252                         
1253     pi0a.dma = PI_DMA;
1254     pi0a.base_addr = ioaddr + 2;
1255     pi0a.irq = 0;
1256 
1257     /* And the B port */
1258     register_netdev(&pi0b);
1259     pi0b.base_addr = ioaddr;
1260     pi0b.irq = 0;
1261     pi0b.priv=(void *)mem_start;
1262     mem_start+=sizeof(struct pi_local) + (DMA_BUFF_SIZE + sizeof(struct mbuf)) * 4
1263                          + 8;   /* for alignment */
1264 
1265     /* Now initialize them */
1266     pi_probe(&pi0a, card_type);
1267     pi_probe(&pi0b, card_type);
1268 
1269     pi0b.irq = pi0a.irq;        /* IRQ is shared */
1270     
1271     return mem_start;
1272 }
1273 
1274 static int valid_dma_page(unsigned long addr, unsigned long dev_buffsize)
     /* [previous][next][first][last][top][bottom][index][help] */
1275 {
1276     if (((addr & 0xffff) + dev_buffsize) <= 0x10000)
1277         return 1;
1278     else
1279         return 0;
1280 }
1281 
1282 static int pi_set_mac_address(struct device *dev, void *addr)
     /* [previous][next][first][last][top][bottom][index][help] */
1283 {
1284     memcpy(dev->dev_addr, addr, 7);     /* addr is an AX.25 shifted ASCII */
1285     return 0;                   /* mac address */
1286 }
1287 
1288 /* Allocate a buffer which does not cross a DMA page boundary */
1289 static char *
1290 get_dma_buffer(unsigned long *mem_ptr)
     /* [previous][next][first][last][top][bottom][index][help] */
1291 {
1292     char *ret;
1293 
1294     ret = (char *)*mem_ptr;
1295 
1296     if(!valid_dma_page(*mem_ptr, DMA_BUFF_SIZE + sizeof(struct mbuf))){
1297         *mem_ptr += (DMA_BUFF_SIZE + sizeof(struct mbuf));
1298         ret = (char *)*mem_ptr;
1299     }
1300     *mem_ptr += (DMA_BUFF_SIZE + sizeof(struct mbuf));
1301     return (ret);
1302 }
1303 
1304 static int pi_probe(struct device *dev, int card_type)
     /* [previous][next][first][last][top][bottom][index][help] */
1305 {
1306     short ioaddr;
1307     struct pi_local *lp;
1308     int i;
1309     unsigned long flags;
1310     unsigned long mem_ptr;
1311 
1312     ioaddr = dev->base_addr;
1313 
1314     /* Initialize the device structure. */
1315     /* Must be done before chipset_init */
1316     /* Make certain the data structures used by the PI2 are aligned. */
1317     dev->priv = (void *) (((int) dev->priv + 7) & ~7);
1318     lp = (struct pi_local *) dev->priv;
1319 
1320     memset(dev->priv, 0, sizeof(struct pi_local));
1321 
1322     /* Allocate some buffers which do not cross DMA page boundaries */
1323     mem_ptr = (unsigned long) dev->priv + sizeof(struct pi_local);
1324     lp->txdmabuf = get_dma_buffer(&mem_ptr);
1325     lp->rxdmabuf1 = (struct mbuf *) get_dma_buffer(&mem_ptr);
1326     lp->rxdmabuf2 = (struct mbuf *) get_dma_buffer(&mem_ptr);
1327 
1328     /* Initialize rx buffer */
1329     lp->rcvbuf = lp->rxdmabuf1;
1330     lp->rcp = lp->rcvbuf->data;
1331     lp->rcvbuf->cnt = 0;
1332 
1333     /* Initialize the transmit queue head structure */
1334     skb_queue_head_init(&lp->sndq);
1335 
1336     /* These need to be initialized before scc_init is called. */
1337     if (card_type == 1)
1338         lp->xtal = (unsigned long) SINGLE / 2;
1339     else
1340         lp->xtal = (unsigned long) DOUBLE / 2;
1341     lp->base = dev->base_addr;
1342     lp->cardbase = dev->base_addr & 0x3f0;
1343     if (dev->base_addr & CHANA) {
1344         lp->speed = DEF_A_SPEED;
1345         /* default channel access Params */
1346         lp->txdelay = DEF_A_TXDELAY;
1347         lp->persist = DEF_A_PERSIST;
1348         lp->slotime = DEF_A_SLOTIME;
1349         lp->squeldelay = DEF_A_SQUELDELAY;
1350         lp->clockmode = DEF_A_CLOCKMODE;
1351 
1352     } else {
1353         lp->speed = DEF_B_SPEED;
1354         /* default channel access Params */
1355         lp->txdelay = DEF_B_TXDELAY;
1356         lp->persist = DEF_B_PERSIST;
1357         lp->slotime = DEF_B_SLOTIME;
1358         lp->squeldelay = DEF_B_SQUELDELAY;
1359         lp->clockmode = DEF_B_CLOCKMODE;
1360     }
1361     lp->bufsiz = DMA_BUFF_SIZE;
1362     lp->tstate = IDLE;
1363 
1364     chipset_init(dev);
1365 
1366     if (dev->base_addr & CHANA) {       /* Do these things only for the A port */
1367         /* Note that a single IRQ services 2 devices (A and B channels) */
1368 
1369         lp->dmachan = dev->dma;
1370         if (lp->dmachan < 1 || lp->dmachan > 3)
1371             printk("PI: DMA channel %d out of range\n", lp->dmachan);
1372 
1373         /* chipset_init() was already called */
1374 
1375         if (dev->irq < 2) {
1376             autoirq_setup(0);
1377             save_flags(flags);
1378             cli();
1379             wrtscc(lp->cardbase, CTL + lp->base, R1, EXT_INT_ENAB);
1380             /* enable PI card interrupts */
1381             wrtscc(lp->cardbase, CTL + lp->base, R9, MIE | NV);
1382             restore_flags(flags);
1383             /* request a timer interrupt for 1 mS hence */
1384             tdelay(lp, 1);
1385             /* 20 "jiffies" should be plenty of time... */
1386             dev->irq = autoirq_report(20);
1387             if (!dev->irq) {
1388                 printk(". Failed to detect IRQ line.\n");
1389             }
1390             save_flags(flags);
1391             cli();
1392             wrtscc(lp->cardbase, dev->base_addr + CTL, R9, FHWRES);     /* Hardware reset */
1393             /* Disable interrupts with master interrupt ctrl reg */
1394             wrtscc(lp->cardbase, dev->base_addr + CTL, R9, 0);
1395             restore_flags(flags);
1396         }
1397 
1398         printk("PI: Autodetected IRQ %d, assuming DMA %d.\n",
1399                dev->irq, dev->dma);
1400 
1401         /* This board has jumpered interrupts. Snarf the interrupt vector
1402                    now.  There is no point in waiting since no other device can use
1403                    the interrupt, and this marks the 'irqaction' as busy. */
1404         {
1405             int irqval = request_irq(dev->irq, &pi_interrupt,0, "pi2");
1406             if (irqval) {
1407                 printk("PI: unable to get IRQ %d (irqval=%d).\n",
1408                        dev->irq, irqval);
1409                 return EAGAIN;
1410             }
1411         }
1412 
1413         /* Grab the region */
1414         snarf_region(ioaddr & 0x3f0, PI_TOTAL_SIZE);
1415 
1416 
1417     }                           /* Only for A port */
1418     dev->open = pi_open;
1419     dev->stop = pi_close;
1420     dev->do_ioctl = pi_ioctl;
1421     dev->hard_start_xmit = pi_send_packet;
1422     dev->get_stats = pi_get_stats;
1423 
1424     /* Fill in the fields of the device structure */
1425     for (i = 0; i < DEV_NUMBUFFS; i++)
1426         skb_queue_head_init(&dev->buffs[i]);
1427 
1428 
1429     dev->hard_header = pi_header;
1430     dev->rebuild_header = pi_rebuild_header;
1431     dev->set_mac_address = pi_set_mac_address;
1432 
1433     dev->type = ARPHRD_AX25;                    /* AF_AX25 device */
1434     dev->hard_header_len = 73;                  /* We do digipeaters now */
1435     dev->mtu = 1500;                            /* eth_mtu is the default */
1436     dev->addr_len = 7;                          /* sizeof an ax.25 address */
1437     memcpy(dev->broadcast, ax25_bcast, 7);
1438     memcpy(dev->dev_addr, ax25_test, 7);
1439 
1440     /* New-style flags. */
1441     dev->flags = 0;
1442     dev->family = AF_INET;
1443     dev->pa_addr = 0;
1444     dev->pa_brdaddr = 0;
1445     dev->pa_mask = 0;
1446     dev->pa_alen = 4;
1447 
1448     return 0;
1449 }
1450 
1451 /* Open/initialize the board.  This is called (in the current kernel)
1452    sometime after booting when the 'ifconfig' program is run.
1453 
1454    This routine should set everything up anew at each open, even
1455    registers that "should" only need to be set once at boot, so that
1456    there is non-reboot way to recover if something goes wrong.
1457    */
1458 static int pi_open(struct device *dev)
     /* [previous][next][first][last][top][bottom][index][help] */
1459 {
1460     unsigned long flags;
1461     static first_time = 1;
1462 
1463     struct pi_local *lp = (struct pi_local *) dev->priv;
1464 
1465     if (dev->base_addr & 2) {   /* if A channel */
1466         if (first_time) {
1467             if (request_dma(dev->dma,"pi2")) {
1468                 free_irq(dev->irq);
1469                 return -EAGAIN;
1470             }
1471             irq2dev_map[dev->irq] = dev;
1472         }
1473         /* Reset the hardware here. */
1474         chipset_init(dev);
1475     }
1476     lp->tstate = IDLE;
1477 
1478     if (dev->base_addr & 2) {   /* if A channel */
1479         scc_init(dev);          /* Called once for each channel */
1480         scc_init(dev->next);
1481     }
1482     /* master interrupt enable */
1483     save_flags(flags);
1484     cli();
1485     wrtscc(lp->cardbase, CTL + lp->base, R9, MIE | NV);
1486     restore_flags(flags);
1487 
1488     lp->open_time = jiffies;
1489 
1490     dev->tbusy = 0;
1491     dev->interrupt = 0;
1492     dev->start = 1;
1493     first_time = 0;
1494     return 0;
1495 }
1496 
1497 static int pi_send_packet(struct sk_buff *skb, struct device *dev)
     /* [previous][next][first][last][top][bottom][index][help] */
1498 {
1499     struct pi_local *lp = (struct pi_local *) dev->priv;
1500 
1501     /* If some higher layer thinks we've missed an tx-done interrupt
1502            we are passed NULL. Caution: dev_tint() handles the cli()/sti()
1503            itself. */
1504     if (skb == NULL) {
1505         dev_tint(dev);
1506         return 0;
1507     }
1508     hardware_send_packet(lp, skb);
1509     dev->trans_start = jiffies;
1510 
1511     return 0;
1512 }
1513 
1514 /* The typical workload of the driver:
1515    Handle the network interface interrupts. */
1516 static void pi_interrupt(int reg_ptr, struct pt_regs *regs)
     /* [previous][next][first][last][top][bottom][index][help] */
1517 {
1518 /*    int irq = -(((struct pt_regs *) reg_ptr)->orig_eax + 2);*/
1519     struct pi_local *lp;
1520     int st;
1521     unsigned long flags;
1522 
1523 /*    dev_b = dev_a->next;       Relies on the order defined in Space.c */
1524 
1525 #if 0
1526     if (dev_a == NULL) {
1527         printk("PI: pi_interrupt(): irq %d for unknown device.\n", irq);
1528         return;
1529     }
1530 #endif    
1531     /* Read interrupt status register (only valid from channel A)
1532      * Process all pending interrupts in while loop
1533      */
1534     lp = (struct pi_local *) pi0a.priv; /* Assume channel A */
1535     while ((st = rdscc(lp->cardbase, pi0a.base_addr | CHANA | CTL, R3)) != 0) {
1536         if (st & CHBTxIP) {
1537             /* Channel B Transmit Int Pending */
1538             lp = (struct pi_local *) pi0b.priv;
1539             b_txint(lp);
1540         } else if (st & CHARxIP) {
1541             /* Channel A Rcv Interrupt Pending */
1542             lp = (struct pi_local *) pi0a.priv;
1543             a_rxint(&pi0a, lp);
1544         } else if (st & CHATxIP) {
1545             /* Channel A Transmit Int Pending */
1546             lp = (struct pi_local *) pi0a.priv;
1547             a_txint(lp);
1548         } else if (st & CHAEXT) {
1549             /* Channel A External Status Int */
1550             lp = (struct pi_local *) pi0a.priv;
1551             a_exint(lp);
1552         } else if (st & CHBRxIP) {
1553             /* Channel B Rcv Interrupt Pending */
1554             lp = (struct pi_local *) pi0b.priv;
1555             b_rxint(&pi0b, lp);
1556         } else if (st & CHBEXT) {
1557             /* Channel B External Status Int */
1558             lp = (struct pi_local *) pi0b.priv;
1559             b_exint(lp);
1560         }
1561         /* Reset highest interrupt under service */
1562         save_flags(flags);
1563         cli();
1564         wrtscc(lp->cardbase, lp->base + CTL, R0, RES_H_IUS);
1565         restore_flags(flags);
1566     }                           /* End of while loop on int processing */
1567     return;
1568 }
1569 
1570 /* The inverse routine to pi_open(). */
1571 static int pi_close(struct device *dev)
     /* [previous][next][first][last][top][bottom][index][help] */
1572 {
1573     unsigned long flags;
1574     struct pi_local *lp;
1575     struct sk_buff *ptr;
1576 
1577     save_flags(flags);
1578     cli();
1579 
1580     lp = (struct pi_local *) dev->priv;
1581     ptr = NULL;
1582 
1583     chipset_init(dev);          /* reset the scc */
1584     disable_dma(lp->dmachan);
1585 
1586     lp->open_time = 0;
1587 
1588     dev->tbusy = 1;
1589     dev->start = 0;
1590 
1591     /* Free any buffers left in the hardware transmit queue */
1592     while ((ptr = skb_dequeue(&lp->sndq)) != NULL)
1593         free_p(ptr);
1594 
1595     restore_flags(flags);
1596     return 0;
1597 }
1598 
1599 static int pi_ioctl(struct device *dev, struct ifreq *ifr, int cmd)
     /* [previous][next][first][last][top][bottom][index][help] */
1600 {
1601     unsigned long flags;
1602     struct pi_req rq;
1603     struct pi_local *lp = (struct pi_local *) dev->priv;
1604 
1605     int ret = verify_area(VERIFY_WRITE, ifr->ifr_data, sizeof(struct pi_req));
1606     if (ret)
1607         return ret;
1608         
1609     if(cmd!=SIOCDEVPRIVATE)
1610         return -EINVAL;
1611 
1612     memcpy_fromfs(&rq, ifr->ifr_data, sizeof(struct pi_req));
1613 
1614     switch (rq.cmd) {
1615     case SIOCSPIPARAM:
1616 
1617         if (!suser())
1618             return -EPERM;
1619         save_flags(flags);
1620         cli();
1621         lp->txdelay = rq.txdelay;
1622         lp->persist = rq.persist;
1623         lp->slotime = rq.slotime;
1624         lp->squeldelay = rq.squeldelay;
1625         lp->clockmode = rq.clockmode;
1626         lp->speed = rq.speed;
1627         pi_open(&pi0a); /* both channels get reset %%% */
1628         restore_flags(flags);
1629         ret = 0;
1630         break;
1631 
1632     case SIOCSPIDMA:
1633 
1634         if (!suser())
1635             return -EPERM;
1636         ret = 0;
1637         if (dev->base_addr & 2) {   /* if A channel */
1638            if (rq.dmachan < 1 || rq.dmachan > 3)
1639                 return -EINVAL;
1640            save_flags(flags);
1641            cli();
1642            pi_close(dev);
1643            free_dma(lp->dmachan);
1644            dev->dma = lp->dmachan = rq.dmachan;
1645            if (request_dma(lp->dmachan,"pi2")) 
1646                 ret = -EAGAIN;
1647            pi_open(dev);
1648            restore_flags(flags);
1649         }
1650         break;
1651 
1652     case SIOCSPIIRQ:
1653         ret = -EINVAL;      /* add this later */
1654         break;
1655 
1656     case SIOCGPIPARAM:
1657     case SIOCGPIDMA:
1658     case SIOCGPIIRQ:
1659 
1660         rq.speed = lp->speed;
1661         rq.txdelay = lp->txdelay;
1662         rq.persist = lp->persist;
1663         rq.slotime = lp->slotime;
1664         rq.squeldelay = lp->squeldelay;
1665         rq.clockmode = lp->clockmode;
1666         rq.dmachan = lp->dmachan;
1667         rq.irq = dev->irq;
1668         memcpy_tofs(ifr->ifr_data, &rq, sizeof(struct pi_req));
1669         ret = 0;
1670         break;
1671 
1672     default:
1673         ret = -EINVAL;
1674     }
1675     return ret;
1676 }
1677 
1678 /* Get the current statistics.  This may be called with the card open or
1679    closed. */
1680 static struct netstats *
1681  pi_get_stats(struct device *dev)
     /* [previous][next][first][last][top][bottom][index][help] */
1682 {
1683     struct pi_local *lp = (struct pi_local *) dev->priv;
1684 
1685     return &lp->stats;
1686 }
1687 
1688 
1689 /*
1690  * Local variables:
1691  *  compile-command: "gcc -D__KERNEL__ -I/usr/src/linux/net/inet -Wall -Wstrict-prototypes -O6 -m486 -c skeleton.c"
1692  *  version-control: t
1693  *  kept-new-versions: 5
1694  *  tab-width: 4
1695  * End:
1696  */

/* [previous][next][first][last][top][bottom][index][help] */