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[/] [or1k/] [trunk/] [linux/] [linux-2.4/] [drivers/] [net/] [rcpci45.c] - Blame information for rev 1275

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1 1275 phoenix
/*
2
**
3
**  RCpci45.c
4
**
5
**
6
**
7
**  ---------------------------------------------------------------------
8
**  ---     Copyright (c) 1998, 1999, RedCreek Communications Inc.    ---
9
**  ---                   All rights reserved.                        ---
10
**  ---------------------------------------------------------------------
11
**
12
** Written by Pete Popov and Brian Moyle.
13
**
14
** Known Problems
15
**
16
** None known at this time.
17
**
18
**  This program is free software; you can redistribute it and/or modify
19
**  it under the terms of the GNU General Public License as published by
20
**  the Free Software Foundation; either version 2 of the License, or
21
**  (at your option) any later version.
22
 
23
**  This program is distributed in the hope that it will be useful,
24
**  but WITHOUT ANY WARRANTY; without even the implied warranty of
25
**  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
26
**  GNU General Public License for more details.
27
 
28
**  You should have received a copy of the GNU General Public License
29
**  along with this program; if not, write to the Free Software
30
**  Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
31
**
32
**  Pete Popov, Oct 2001: Fixed a few bugs to make the driver functional
33
**  again. Note that this card is not supported or manufactured by
34
**  RedCreek anymore.
35
**
36
**  Rasmus Andersen, December 2000: Converted to new PCI API and general
37
**  cleanup.
38
**
39
**  Pete Popov, January 11,99: Fixed a couple of 2.1.x problems
40
**  (virt_to_bus() not called), tested it under 2.2pre5 (as a module), and
41
**  added a #define(s) to enable the use of the same file for both, the 2.0.x
42
**  kernels as well as the 2.1.x.
43
**
44
**  Ported to 2.1.x by Alan Cox 1998/12/9.
45
**
46
**  Sometime in mid 1998, written by Pete Popov and Brian Moyle.
47
**
48
***************************************************************************/
49
 
50
#include <linux/module.h>
51
#include <linux/kernel.h>
52
#include <linux/sched.h>
53
#include <linux/string.h>
54
#include <linux/ptrace.h>
55
#include <linux/errno.h>
56
#include <linux/in.h>
57
#include <linux/init.h>
58
#include <linux/ioport.h>
59
#include <linux/slab.h>
60
#include <linux/interrupt.h>
61
#include <linux/pci.h>
62
#include <linux/timer.h>
63
#include <asm/irq.h>            /* For NR_IRQS only. */
64
#include <asm/bitops.h>
65
#include <asm/uaccess.h>
66
 
67
static char version[] __initdata =
68
    "RedCreek Communications PCI linux driver version 2.20\n";
69
 
70
#define RC_LINUX_MODULE
71
#include "rclanmtl.h"
72
#include "rcif.h"
73
 
74
#define RUN_AT(x) (jiffies + (x))
75
 
76
#define NEW_MULTICAST
77
 
78
#define MAX_ETHER_SIZE        1520
79
#define MAX_NMBR_RCV_BUFFERS    96
80
#define RC_POSTED_BUFFERS_LOW_MARK MAX_NMBR_RCV_BUFFERS-16
81
#define BD_SIZE 3               /* Bucket Descriptor size */
82
#define BD_LEN_OFFSET 2         /* Bucket Descriptor offset to length field */
83
 
84
/* RedCreek LAN device Target ID */
85
#define RC_LAN_TARGET_ID  0x10
86
/* RedCreek's OSM default LAN receive Initiator */
87
#define DEFAULT_RECV_INIT_CONTEXT  0xA17
88
 
89
/* minimum msg buffer size needed by the card
90
 * Note that the size of this buffer is hard code in the
91
 * ipsec card's firmware. Thus, the size MUST be a minimum
92
 * of 16K. Otherwise the card will end up using memory
93
 * that does not belong to it.
94
 */
95
#define MSG_BUF_SIZE  16384
96
 
97
static U32 DriverControlWord;
98
 
99
static void rc_timer (unsigned long);
100
 
101
static int RCopen (struct net_device *);
102
static int RC_xmit_packet (struct sk_buff *, struct net_device *);
103
static void RCinterrupt (int, void *, struct pt_regs *);
104
static int RCclose (struct net_device *dev);
105
static struct net_device_stats *RCget_stats (struct net_device *);
106
static int RCioctl (struct net_device *, struct ifreq *, int);
107
static int RCconfig (struct net_device *, struct ifmap *);
108
static void RCxmit_callback (U32, U16, PU32, struct net_device *);
109
static void RCrecv_callback (U32, U8, U32, PU32, struct net_device *);
110
static void RCreset_callback (U32, U32, U32, struct net_device *);
111
static void RCreboot_callback (U32, U32, U32, struct net_device *);
112
static int RC_allocate_and_post_buffers (struct net_device *, int);
113
 
114
static struct pci_device_id rcpci45_pci_table[] __devinitdata = {
115
        { PCI_VENDOR_ID_REDCREEK, PCI_DEVICE_ID_RC45, PCI_ANY_ID, PCI_ANY_ID,},
116
        {}
117
};
118
MODULE_DEVICE_TABLE (pci, rcpci45_pci_table);
119
MODULE_LICENSE("GPL");
120
 
121
static void __devexit
122
rcpci45_remove_one (struct pci_dev *pdev)
123
{
124
        struct net_device *dev = pci_get_drvdata (pdev);
125
        PDPA pDpa = dev->priv;
126
 
127
        if (!dev) {
128
                printk (KERN_ERR "%s: remove non-existent device\n",
129
                                dev->name);
130
                return;
131
        }
132
 
133
        RCResetIOP (dev);
134
        unregister_netdev (dev);
135
        free_irq (dev->irq, dev);
136
        iounmap ((void *) dev->base_addr);
137
        pci_release_regions (pdev);
138
        if (pDpa->msgbuf)
139
                kfree (pDpa->msgbuf);
140
        if (pDpa->pPab)
141
                kfree (pDpa->pPab);
142
        kfree (dev);
143
        pci_set_drvdata (pdev, NULL);
144
}
145
 
146
static int
147
rcpci45_init_one (struct pci_dev *pdev, const struct pci_device_id *ent)
148
{
149
        unsigned long *vaddr;
150
        PDPA pDpa;
151
        int error;
152
        static int card_idx = -1;
153
        struct net_device *dev;
154
        unsigned long pci_start, pci_len;
155
 
156
        card_idx++;
157
 
158
        /*
159
         * Allocate and fill new device structure.
160
         * We need enough for struct net_device plus DPA plus the LAN
161
         * API private area, which requires a minimum of 16KB.  The top
162
         * of the allocated area will be assigned to struct net_device;
163
         * the next chunk will be assigned to DPA; and finally, the rest
164
         * will be assigned to the LAN API layer.
165
         */
166
 
167
        dev = init_etherdev (NULL, sizeof (*pDpa));
168
        if (!dev) {
169
                printk (KERN_ERR
170
                        "(rcpci45 driver:) init_etherdev alloc failed\n");
171
                error = -ENOMEM;
172
                goto err_out;
173
        }
174
 
175
        error = pci_enable_device (pdev);
176
        if (error) {
177
                printk (KERN_ERR
178
                        "(rcpci45 driver:) %d: pci enable device error\n",
179
                        card_idx);
180
                goto err_out;
181
        }
182
        error = -ENOMEM;
183
        pci_start = pci_resource_start (pdev, 0);
184
        pci_len = pci_resource_len (pdev, 0);
185
        printk("pci_start %lx pci_len %lx\n", pci_start, pci_len);
186
 
187
        pci_set_drvdata (pdev, dev);
188
 
189
        pDpa = dev->priv;
190
        pDpa->id = card_idx;
191
        pDpa->pci_addr = pci_start;
192
 
193
        if (!pci_start || !(pci_resource_flags (pdev, 0) & IORESOURCE_MEM)) {
194
                printk (KERN_ERR
195
                        "(rcpci45 driver:) No PCI mem resources! Aborting\n");
196
                error = -EBUSY;
197
                goto err_out_free_dev;
198
        }
199
 
200
        /*
201
         * pDpa->msgbuf is where the card will dma the I2O
202
         * messages. Thus, we need contiguous physical pages of
203
         * memory.
204
         */
205
        pDpa->msgbuf = kmalloc (MSG_BUF_SIZE, GFP_DMA | GFP_KERNEL);
206
        if (!pDpa->msgbuf) {
207
                printk (KERN_ERR "(rcpci45 driver:) \
208
                        Could not allocate %d byte memory for the \
209
                                private msgbuf!\n", MSG_BUF_SIZE);
210
                goto err_out_free_dev;
211
        }
212
 
213
        /*
214
         * Save the starting address of the LAN API private area.  We'll
215
         * pass that to RCInitI2OMsgLayer().
216
         *
217
         */
218
        pDpa->PLanApiPA = (void *) (((long) pDpa->msgbuf + 0xff) & ~0xff);
219
 
220
        /* The adapter is accessible through memory-access read/write, not
221
         * I/O read/write.  Thus, we need to map it to some virtual address
222
         * area in order to access the registers as normal memory.
223
         */
224
        error = pci_request_regions (pdev, dev->name);
225
        if (error)
226
                goto err_out_free_msgbuf;
227
 
228
        vaddr = (ulong *) ioremap (pci_start, pci_len);
229
        if (!vaddr) {
230
                printk (KERN_ERR
231
                        "(rcpci45 driver:) \
232
                        Unable to remap address range from %lu to %lu\n",
233
                        pci_start, pci_start + pci_len);
234
                goto err_out_free_region;
235
        }
236
 
237
        dev->base_addr = (unsigned long) vaddr;
238
        dev->irq = pdev->irq;
239
        dev->open = &RCopen;
240
        dev->hard_start_xmit = &RC_xmit_packet;
241
        dev->stop = &RCclose;
242
        dev->get_stats = &RCget_stats;
243
        dev->do_ioctl = &RCioctl;
244
        dev->set_config = &RCconfig;
245
 
246
        return 0;                /* success */
247
 
248
err_out_free_region:
249
        pci_release_regions (pdev);
250
err_out_free_msgbuf:
251
        kfree (pDpa->msgbuf);
252
err_out_free_dev:
253
        unregister_netdev (dev);
254
        kfree (dev);
255
err_out:
256
        card_idx--;
257
        return -ENODEV;
258
}
259
 
260
static struct pci_driver rcpci45_driver = {
261
        name:           "rcpci45",
262
        id_table:       rcpci45_pci_table,
263
        probe:          rcpci45_init_one,
264
        remove:         __devexit_p(rcpci45_remove_one),
265
};
266
 
267
static int __init
268
rcpci_init_module (void)
269
{
270
        int rc = pci_module_init (&rcpci45_driver);
271
        if (!rc)
272
                printk (KERN_ERR "%s", version);
273
        return rc;
274
}
275
 
276
static int
277
RCopen (struct net_device *dev)
278
{
279
        int post_buffers = MAX_NMBR_RCV_BUFFERS;
280
        PDPA pDpa = dev->priv;
281
        int count = 0;
282
        int requested = 0;
283
        int error;
284
 
285
        MOD_INC_USE_COUNT;
286
        if (pDpa->nexus) {
287
                /* This is not the first time RCopen is called.  Thus,
288
                 * the interface was previously opened and later closed
289
                 * by RCclose().  RCclose() does a Shutdown; to wake up
290
                 * the adapter, a reset is mandatory before we can post
291
                 * receive buffers.  However, if the adapter initiated
292
                 * a reboot while the interface was closed -- and interrupts
293
                 * were turned off -- we need will need to reinitialize
294
                 * the adapter, rather than simply waking it up.
295
                 */
296
                printk (KERN_INFO "Waking up adapter...\n");
297
                RCResetLANCard (dev, 0, 0, 0);
298
        } else {
299
                pDpa->nexus = 1;
300
                /*
301
                 * RCInitI2OMsgLayer is done only once, unless the
302
                 * adapter was sent a warm reboot
303
                 */
304
                error = RCInitI2OMsgLayer (dev, (PFNTXCALLBACK) RCxmit_callback,
305
                                           (PFNRXCALLBACK) RCrecv_callback,
306
                                           (PFNCALLBACK) RCreboot_callback);
307
                if (error) {
308
                        printk (KERN_ERR "%s: Unable to init msg layer (%x)\n",
309
                                        dev->name, error);
310
                        goto err_out;
311
                }
312
                if ((error = RCGetMAC (dev, NULL))) {
313
                        printk (KERN_ERR "%s: Unable to get adapter MAC\n",
314
                                        dev->name);
315
                        goto err_out;
316
                }
317
        }
318
 
319
        /* Request a shared interrupt line. */
320
        error = request_irq (dev->irq, RCinterrupt, SA_SHIRQ, dev->name, dev);
321
        if (error) {
322
                printk (KERN_ERR "%s: unable to get IRQ %d\n",
323
                                dev->name, dev->irq);
324
                goto err_out;
325
        }
326
 
327
        DriverControlWord |= WARM_REBOOT_CAPABLE;
328
        RCReportDriverCapability (dev, DriverControlWord);
329
 
330
        printk (KERN_INFO "%s: RedCreek Communications IPSEC VPN adapter\n",
331
                dev->name);
332
 
333
        RCEnableI2OInterrupts (dev);
334
 
335
        while (post_buffers) {
336
                if (post_buffers > MAX_NMBR_POST_BUFFERS_PER_MSG)
337
                        requested = MAX_NMBR_POST_BUFFERS_PER_MSG;
338
                else
339
                        requested = post_buffers;
340
                count = RC_allocate_and_post_buffers (dev, requested);
341
 
342
                if (count < requested) {
343
                        /*
344
                         * Check to see if we were able to post
345
                         * any buffers at all.
346
                         */
347
                        if (post_buffers == MAX_NMBR_RCV_BUFFERS) {
348
                                printk (KERN_ERR "%s: \
349
                                        unable to allocate any buffers\n",
350
                                                dev->name);
351
                                goto err_out_free_irq;
352
                        }
353
                        printk (KERN_WARNING "%s: \
354
                        unable to allocate all requested buffers\n", dev->name);
355
                        break;  /* we'll try to post more buffers later */
356
                } else
357
                        post_buffers -= count;
358
        }
359
        pDpa->numOutRcvBuffers = MAX_NMBR_RCV_BUFFERS - post_buffers;
360
        pDpa->shutdown = 0;      /* just in case */
361
        netif_start_queue (dev);
362
        return 0;
363
 
364
err_out_free_irq:
365
        free_irq (dev->irq, dev);
366
err_out:
367
        MOD_DEC_USE_COUNT;
368
        return error;
369
}
370
 
371
static int
372
RC_xmit_packet (struct sk_buff *skb, struct net_device *dev)
373
{
374
 
375
        PDPA pDpa = dev->priv;
376
        singleTCB tcb;
377
        psingleTCB ptcb = &tcb;
378
        RC_RETURN status = 0;
379
 
380
        netif_stop_queue (dev);
381
 
382
        if (pDpa->shutdown || pDpa->reboot) {
383
                printk ("RC_xmit_packet: tbusy!\n");
384
                return 1;
385
        }
386
 
387
        /*
388
         * The user is free to reuse the TCB after RCI2OSendPacket()
389
         * returns, since the function copies the necessary info into its
390
         * own private space.  Thus, our TCB can be a local structure.
391
         * The skb, on the other hand, will be freed up in our interrupt
392
         * handler.
393
         */
394
 
395
        ptcb->bcount = 1;
396
 
397
        /*
398
         * we'll get the context when the adapter interrupts us to tell us that
399
         * the transmission is done. At that time, we can free skb.
400
         */
401
        ptcb->b.context = (U32) skb;
402
        ptcb->b.scount = 1;
403
        ptcb->b.size = skb->len;
404
        ptcb->b.addr = virt_to_bus ((void *) skb->data);
405
 
406
        if ((status = RCI2OSendPacket (dev, (U32) NULL, (PRCTCB) ptcb))
407
            != RC_RTN_NO_ERROR) {
408
                printk ("%s: send error 0x%x\n", dev->name, (uint) status);
409
                return 1;
410
        } else {
411
                dev->trans_start = jiffies;
412
                netif_wake_queue (dev);
413
        }
414
        /*
415
         * That's it!
416
         */
417
        return 0;
418
}
419
 
420
/*
421
 * RCxmit_callback()
422
 *
423
 * The transmit callback routine. It's called by RCProcI2OMsgQ()
424
 * because the adapter is done with one or more transmit buffers and
425
 * it's returning them to us, or we asked the adapter to return the
426
 * outstanding transmit buffers by calling RCResetLANCard() with
427
 * RC_RESOURCE_RETURN_PEND_TX_BUFFERS flag.
428
 * All we need to do is free the buffers.
429
 */
430
static void
431
RCxmit_callback (U32 Status,
432
                 U16 PcktCount, PU32 BufferContext, struct net_device *dev)
433
{
434
        struct sk_buff *skb;
435
        PDPA pDpa = dev->priv;
436
 
437
        if (!pDpa) {
438
                printk (KERN_ERR "%s: Fatal Error in xmit callback, !pDpa\n",
439
                                dev->name);
440
                return;
441
        }
442
 
443
        if (Status != I2O_REPLY_STATUS_SUCCESS)
444
                printk (KERN_INFO "%s: xmit_callback: Status = 0x%x\n",
445
                                dev->name, (uint) Status);
446
        if (pDpa->shutdown || pDpa->reboot)
447
                printk (KERN_INFO "%s: xmit callback: shutdown||reboot\n",
448
                                dev->name);
449
 
450
        while (PcktCount--) {
451
                skb = (struct sk_buff *) (BufferContext[0]);
452
                BufferContext++;
453
                dev_kfree_skb_irq (skb);
454
        }
455
        netif_wake_queue (dev);
456
}
457
 
458
static void
459
RCreset_callback (U32 Status, U32 p1, U32 p2, struct net_device *dev)
460
{
461
        PDPA pDpa = dev->priv;
462
 
463
        printk ("RCreset_callback Status 0x%x\n", (uint) Status);
464
        /*
465
         * Check to see why we were called.
466
         */
467
        if (pDpa->shutdown) {
468
                printk (KERN_INFO "%s: shutting down interface\n",
469
                                dev->name);
470
                pDpa->shutdown = 0;
471
                pDpa->reboot = 0;
472
        } else if (pDpa->reboot) {
473
                printk (KERN_INFO "%s: reboot, shutdown adapter\n",
474
                                dev->name);
475
                /*
476
                 * We don't set any of the flags in RCShutdownLANCard()
477
                 * and we don't pass a callback routine to it.
478
                 * The adapter will have already initiated the reboot by
479
                 * the time the function returns.
480
                 */
481
                RCDisableI2OInterrupts (dev);
482
                RCShutdownLANCard (dev, 0, 0, 0);
483
                printk (KERN_INFO "%s: scheduling timer...\n", dev->name);
484
                init_timer (&pDpa->timer);
485
                pDpa->timer.expires = RUN_AT ((40 * HZ) / 10);  /* 4 sec. */
486
                pDpa->timer.data = (unsigned long) dev;
487
                pDpa->timer.function = &rc_timer;       /* timer handler */
488
                add_timer (&pDpa->timer);
489
        }
490
}
491
 
492
static void
493
RCreboot_callback (U32 Status, U32 p1, U32 p2, struct net_device *dev)
494
{
495
        PDPA pDpa = dev->priv;
496
 
497
        printk (KERN_INFO "%s: reboot: rcv buffers outstanding = %d\n",
498
                 dev->name, (uint) pDpa->numOutRcvBuffers);
499
 
500
        if (pDpa->shutdown) {
501
                printk (KERN_INFO "%s: skip reboot, shutdown initiated\n",
502
                                dev->name);
503
                return;
504
        }
505
        pDpa->reboot = 1;
506
        /*
507
         * OK, we reset the adapter and ask it to return all
508
         * outstanding transmit buffers as well as the posted
509
         * receive buffers.  When the adapter is done returning
510
         * those buffers, it will call our RCreset_callback()
511
         * routine.  In that routine, we'll call RCShutdownLANCard()
512
         * to tell the adapter that it's OK to start the reboot and
513
         * schedule a timer callback routine to execute 3 seconds
514
         * later; this routine will reinitialize the adapter at that time.
515
         */
516
        RCResetLANCard (dev, RC_RESOURCE_RETURN_POSTED_RX_BUCKETS |
517
                        RC_RESOURCE_RETURN_PEND_TX_BUFFERS, 0,
518
                        (PFNCALLBACK) RCreset_callback);
519
}
520
 
521
int
522
broadcast_packet (unsigned char *address)
523
{
524
        int i;
525
        for (i = 0; i < 6; i++)
526
                if (address[i] != 0xff)
527
                        return 0;
528
 
529
        return 1;
530
}
531
 
532
/*
533
 * RCrecv_callback()
534
 *
535
 * The receive packet callback routine.  This is called by
536
 * RCProcI2OMsgQ() after the adapter posts buffers which have been
537
 * filled (one ethernet packet per buffer).
538
 */
539
static void
540
RCrecv_callback (U32 Status,
541
                 U8 PktCount,
542
                 U32 BucketsRemain,
543
                 PU32 PacketDescBlock, struct net_device *dev)
544
{
545
 
546
        U32 len, count;
547
        PDPA pDpa = dev->priv;
548
        struct sk_buff *skb;
549
        singleTCB tcb;
550
        psingleTCB ptcb = &tcb;
551
 
552
        ptcb->bcount = 1;
553
 
554
        if ((pDpa->shutdown || pDpa->reboot) && !Status)
555
                printk (KERN_INFO "%s: shutdown||reboot && !Status (%d)\n",
556
                                dev->name, PktCount);
557
 
558
        if ((Status != I2O_REPLY_STATUS_SUCCESS) || pDpa->shutdown) {
559
                /*
560
                 * Free whatever buffers the adapter returned, but don't
561
                 * pass them to the kernel.
562
                 */
563
 
564
                if (!pDpa->shutdown && !pDpa->reboot)
565
                        printk (KERN_INFO "%s: recv error status = 0x%x\n",
566
                                        dev->name, (uint) Status);
567
                else
568
                        printk (KERN_DEBUG "%s: Returning %d buffs stat 0x%x\n",
569
                                        dev->name, PktCount, (uint) Status);
570
                /*
571
                 * TO DO: check the nature of the failure and put the
572
                 * adapter in failed mode if it's a hard failure.
573
                 * Send a reset to the adapter and free all outstanding memory.
574
                 */
575
                if (PacketDescBlock) {
576
                        while (PktCount--) {
577
                                skb = (struct sk_buff *) PacketDescBlock[0];
578
                                dev_kfree_skb (skb);
579
                                pDpa->numOutRcvBuffers--;
580
                                /* point to next context field */
581
                                PacketDescBlock += BD_SIZE;
582
                        }
583
                }
584
                return;
585
        } else {
586
                while (PktCount--) {
587
                        skb = (struct sk_buff *) PacketDescBlock[0];
588
                        len = PacketDescBlock[2];
589
                        skb->dev = dev;
590
                        skb_put (skb, len);     /* adjust length and tail */
591
                        skb->protocol = eth_type_trans (skb, dev);
592
                        netif_rx (skb); /* send the packet to the kernel */
593
                        dev->last_rx = jiffies;
594
                        pDpa->numOutRcvBuffers--;
595
                        /* point to next context field */
596
                        PacketDescBlock += BD_SIZE;
597
                }
598
        }
599
 
600
        /*
601
         * Replenish the posted receive buffers.
602
         * DO NOT replenish buffers if the driver has already
603
         * initiated a reboot or shutdown!
604
         */
605
 
606
        if (!pDpa->shutdown && !pDpa->reboot) {
607
                count = RC_allocate_and_post_buffers (dev,
608
                                                      MAX_NMBR_RCV_BUFFERS -
609
                                                      pDpa->numOutRcvBuffers);
610
                pDpa->numOutRcvBuffers += count;
611
        }
612
 
613
}
614
 
615
/*
616
 * RCinterrupt()
617
 *
618
 * Interrupt handler.
619
 * This routine sets up a couple of pointers and calls
620
 * RCProcI2OMsgQ(), which in turn process the message and
621
 * calls one of our callback functions.
622
 */
623
static void
624
RCinterrupt (int irq, void *dev_id, struct pt_regs *regs)
625
{
626
 
627
        PDPA pDpa;
628
        struct net_device *dev = dev_id;
629
 
630
        pDpa = dev->priv;
631
 
632
        if (pDpa->shutdown)
633
                printk (KERN_DEBUG "%s: shutdown, service irq\n",
634
                                dev->name);
635
 
636
        RCProcI2OMsgQ (dev);
637
}
638
 
639
#define REBOOT_REINIT_RETRY_LIMIT 4
640
static void
641
rc_timer (unsigned long data)
642
{
643
        struct net_device *dev = (struct net_device *) data;
644
        PDPA pDpa = dev->priv;
645
        int init_status;
646
        static int retry;
647
        int post_buffers = MAX_NMBR_RCV_BUFFERS;
648
        int count = 0;
649
        int requested = 0;
650
 
651
        if (pDpa->reboot) {
652
                init_status =
653
                    RCInitI2OMsgLayer (dev, (PFNTXCALLBACK) RCxmit_callback,
654
                                       (PFNRXCALLBACK) RCrecv_callback,
655
                                       (PFNCALLBACK) RCreboot_callback);
656
 
657
                switch (init_status) {
658
                case RC_RTN_NO_ERROR:
659
 
660
                        pDpa->reboot = 0;
661
                        pDpa->shutdown = 0;      /* just in case */
662
                        RCReportDriverCapability (dev, DriverControlWord);
663
                        RCEnableI2OInterrupts (dev);
664
 
665
 
666
                        if (!(dev->flags & IFF_UP)) {
667
                                retry = 0;
668
                                return;
669
                        }
670
                        while (post_buffers) {
671
                                if (post_buffers >
672
                                                MAX_NMBR_POST_BUFFERS_PER_MSG)
673
                                        requested =
674
                                                MAX_NMBR_POST_BUFFERS_PER_MSG;
675
                                else
676
                                        requested = post_buffers;
677
                                count =
678
                                    RC_allocate_and_post_buffers (dev,
679
                                                                  requested);
680
                                post_buffers -= count;
681
                                if (count < requested)
682
                                        break;
683
                        }
684
                        pDpa->numOutRcvBuffers =
685
                            MAX_NMBR_RCV_BUFFERS - post_buffers;
686
                        printk ("Initialization done.\n");
687
                        netif_wake_queue (dev);
688
                        retry = 0;
689
                        return;
690
                case RC_RTN_FREE_Q_EMPTY:
691
                        retry++;
692
                        printk (KERN_WARNING "%s inbound free q empty\n",
693
                                        dev->name);
694
                        break;
695
                default:
696
                        retry++;
697
                        printk (KERN_WARNING "%s bad stat after reboot: %d\n",
698
                                        dev->name, init_status);
699
                        break;
700
                }
701
 
702
                if (retry > REBOOT_REINIT_RETRY_LIMIT) {
703
                        printk (KERN_WARNING "%s unable to reinitialize adapter after reboot\n", dev->name);
704
                        printk (KERN_WARNING "%s decrementing driver and closing interface\n", dev->name);
705
                        RCDisableI2OInterrupts (dev);
706
                        dev->flags &= ~IFF_UP;
707
                        MOD_DEC_USE_COUNT;
708
                } else {
709
                        printk (KERN_INFO "%s: rescheduling timer...\n",
710
                                        dev->name);
711
                        init_timer (&pDpa->timer);
712
                        pDpa->timer.expires = RUN_AT ((40 * HZ) / 10);
713
                        pDpa->timer.data = (unsigned long) dev;
714
                        pDpa->timer.function = &rc_timer;
715
                        add_timer (&pDpa->timer);
716
                }
717
        } else
718
                printk (KERN_WARNING "%s: unexpected timer irq\n", dev->name);
719
}
720
 
721
static int
722
RCclose (struct net_device *dev)
723
{
724
        PDPA pDpa = dev->priv;
725
 
726
        printk("RCclose\n");
727
        netif_stop_queue (dev);
728
 
729
        if (pDpa->reboot) {
730
                printk (KERN_INFO "%s skipping reset -- adapter already in reboot mode\n", dev->name);
731
                dev->flags &= ~IFF_UP;
732
                pDpa->shutdown = 1;
733
                MOD_DEC_USE_COUNT;
734
                return 0;
735
        }
736
 
737
        pDpa->shutdown = 1;
738
 
739
        /*
740
         * We can't allow the driver to be unloaded until the adapter returns
741
         * all posted receive buffers.  It doesn't hurt to tell the adapter
742
         * to return all posted receive buffers and outstanding xmit buffers,
743
         * even if there are none.
744
         */
745
 
746
        RCShutdownLANCard (dev, RC_RESOURCE_RETURN_POSTED_RX_BUCKETS |
747
                           RC_RESOURCE_RETURN_PEND_TX_BUFFERS, 0,
748
                           (PFNCALLBACK) RCreset_callback);
749
 
750
        dev->flags &= ~IFF_UP;
751
        MOD_DEC_USE_COUNT;
752
        return 0;
753
}
754
 
755
static struct net_device_stats *
756
RCget_stats (struct net_device *dev)
757
{
758
        RCLINKSTATS RCstats;
759
 
760
        PDPA pDpa = dev->priv;
761
 
762
        if (!pDpa) {
763
                return 0;
764
        } else if (!(dev->flags & IFF_UP)) {
765
                return 0;
766
        }
767
 
768
        memset (&RCstats, 0, sizeof (RCLINKSTATS));
769
        if ((RCGetLinkStatistics (dev, &RCstats, (void *) 0)) ==
770
            RC_RTN_NO_ERROR) {
771
 
772
                /* total packets received    */
773
                pDpa->stats.rx_packets = RCstats.Rcv_good
774
                /* total packets transmitted    */;
775
                pDpa->stats.tx_packets = RCstats.TX_good;
776
 
777
                pDpa->stats.rx_errors = RCstats.Rcv_CRCerr +
778
                        RCstats.Rcv_alignerr + RCstats.Rcv_reserr +
779
                        RCstats.Rcv_orun + RCstats.Rcv_cdt + RCstats.Rcv_runt;
780
 
781
                pDpa->stats.tx_errors = RCstats.TX_urun + RCstats.TX_crs +
782
                        RCstats.TX_def + RCstats.TX_totcol;
783
 
784
                /*
785
                 * This needs improvement.
786
                 */
787
                pDpa->stats.rx_dropped = 0; /* no space in linux buffers   */
788
                pDpa->stats.tx_dropped = 0; /* no space available in linux */
789
                pDpa->stats.multicast = 0;  /* multicast packets received  */
790
                pDpa->stats.collisions = RCstats.TX_totcol;
791
 
792
                /* detailed rx_errors: */
793
                pDpa->stats.rx_length_errors = 0;
794
                pDpa->stats.rx_over_errors = RCstats.Rcv_orun;
795
                pDpa->stats.rx_crc_errors = RCstats.Rcv_CRCerr;
796
                pDpa->stats.rx_frame_errors = 0;
797
                pDpa->stats.rx_fifo_errors = 0;
798
                pDpa->stats.rx_missed_errors = 0;
799
 
800
                /* detailed tx_errors */
801
                pDpa->stats.tx_aborted_errors = 0;
802
                pDpa->stats.tx_carrier_errors = 0;
803
                pDpa->stats.tx_fifo_errors = 0;
804
                pDpa->stats.tx_heartbeat_errors = 0;
805
                pDpa->stats.tx_window_errors = 0;
806
 
807
                return ((struct net_device_stats *) &(pDpa->stats));
808
        }
809
        return 0;
810
}
811
 
812
static int
813
RCioctl (struct net_device *dev, struct ifreq *rq, int cmd)
814
{
815
        RCuser_struct RCuser;
816
        PDPA pDpa = dev->priv;
817
 
818
        if (!capable (CAP_NET_ADMIN))
819
                return -EPERM;
820
 
821
        switch (cmd) {
822
 
823
        case RCU_PROTOCOL_REV:
824
                /*
825
                 * Assign user protocol revision, to tell user-level
826
                 * controller program whether or not it's in sync.
827
                 */
828
                rq->ifr_ifru.ifru_data = (caddr_t) USER_PROTOCOL_REV;
829
                break;
830
 
831
        case RCU_COMMAND:
832
                {
833
                        if (copy_from_user
834
                            (&RCuser, rq->ifr_data, sizeof (RCuser)))
835
                                return -EFAULT;
836
 
837
                        dprintk ("RCioctl: RCuser_cmd = 0x%x\n", RCuser.cmd);
838
 
839
                        switch (RCuser.cmd) {
840
                        case RCUC_GETFWVER:
841
                                RCUD_GETFWVER = &RCuser.RCUS_GETFWVER;
842
                                RCGetFirmwareVer (dev,
843
                                                  (PU8) & RCUD_GETFWVER->
844
                                                  FirmString, NULL);
845
                                break;
846
                        case RCUC_GETINFO:
847
                                RCUD_GETINFO = &RCuser.RCUS_GETINFO;
848
                                RCUD_GETINFO->mem_start = dev->base_addr;
849
                                RCUD_GETINFO->mem_end =
850
                                    dev->base_addr + pDpa->pci_addr_len;
851
                                RCUD_GETINFO->base_addr = pDpa->pci_addr;
852
                                RCUD_GETINFO->irq = dev->irq;
853
                                break;
854
                        case RCUC_GETIPANDMASK:
855
                                RCUD_GETIPANDMASK = &RCuser.RCUS_GETIPANDMASK;
856
                                RCGetRavlinIPandMask (dev,
857
                                                      (PU32) &
858
                                                      RCUD_GETIPANDMASK->IpAddr,
859
                                                      (PU32) &
860
                                                      RCUD_GETIPANDMASK->
861
                                                      NetMask, NULL);
862
                                break;
863
                        case RCUC_GETLINKSTATISTICS:
864
                                RCUD_GETLINKSTATISTICS =
865
                                    &RCuser.RCUS_GETLINKSTATISTICS;
866
                                RCGetLinkStatistics (dev,
867
                                                     (P_RCLINKSTATS) &
868
                                                     RCUD_GETLINKSTATISTICS->
869
                                                     StatsReturn, NULL);
870
                                break;
871
                        case RCUC_GETLINKSTATUS:
872
                                RCUD_GETLINKSTATUS = &RCuser.RCUS_GETLINKSTATUS;
873
                                RCGetLinkStatus (dev,
874
                                                 (PU32) & RCUD_GETLINKSTATUS->
875
                                                 ReturnStatus, NULL);
876
                                break;
877
                        case RCUC_GETMAC:
878
                                RCUD_GETMAC = &RCuser.RCUS_GETMAC;
879
                                RCGetMAC (dev, NULL);
880
                                memcpy(RCUD_GETMAC, dev->dev_addr, 8);
881
                                break;
882
                        case RCUC_GETPROM:
883
                                RCUD_GETPROM = &RCuser.RCUS_GETPROM;
884
                                RCGetPromiscuousMode (dev,
885
                                                      (PU32) & RCUD_GETPROM->
886
                                                      PromMode, NULL);
887
                                break;
888
                        case RCUC_GETBROADCAST:
889
                                RCUD_GETBROADCAST = &RCuser.RCUS_GETBROADCAST;
890
                                RCGetBroadcastMode (dev,
891
                                                    (PU32) & RCUD_GETBROADCAST->
892
                                                    BroadcastMode, NULL);
893
                                break;
894
                        case RCUC_GETSPEED:
895
                                if (!(dev->flags & IFF_UP)) {
896
                                        return -ENODATA;
897
                                }
898
                                RCUD_GETSPEED = &RCuser.RCUS_GETSPEED;
899
                                RCGetLinkSpeed (dev,
900
                                                (PU32) & RCUD_GETSPEED->
901
                                                LinkSpeedCode, NULL);
902
                                break;
903
                        case RCUC_SETIPANDMASK:
904
                                RCUD_SETIPANDMASK = &RCuser.RCUS_SETIPANDMASK;
905
                                RCSetRavlinIPandMask (dev,
906
                                                      (U32) RCUD_SETIPANDMASK->
907
                                                      IpAddr,
908
                                                      (U32) RCUD_SETIPANDMASK->
909
                                                      NetMask);
910
                                break;
911
                        case RCUC_SETMAC:
912
                                RCSetMAC (dev, (PU8) & RCUD_SETMAC->mac);
913
                                break;
914
                        case RCUC_SETSPEED:
915
                                RCUD_SETSPEED = &RCuser.RCUS_SETSPEED;
916
                                RCSetLinkSpeed (dev,
917
                                                (U16) RCUD_SETSPEED->
918
                                                LinkSpeedCode);
919
                                break;
920
                        case RCUC_SETPROM:
921
                                RCUD_SETPROM = &RCuser.RCUS_SETPROM;
922
                                RCSetPromiscuousMode (dev,
923
                                                      (U16) RCUD_SETPROM->
924
                                                      PromMode);
925
                                break;
926
                        case RCUC_SETBROADCAST:
927
                                RCUD_SETBROADCAST = &RCuser.RCUS_SETBROADCAST;
928
                                RCSetBroadcastMode (dev,
929
                                                    (U16) RCUD_SETBROADCAST->
930
                                                    BroadcastMode);
931
                                break;
932
                        default:
933
                                RCUD_DEFAULT = &RCuser.RCUS_DEFAULT;
934
                                RCUD_DEFAULT->rc = 0x11223344;
935
                                break;
936
                        }
937
                        if (copy_to_user (rq->ifr_data, &RCuser,
938
                                                sizeof (RCuser)))
939
                                return -EFAULT;
940
                        break;
941
                }               /* RCU_COMMAND */
942
 
943
        default:
944
                rq->ifr_ifru.ifru_data = (caddr_t) 0x12345678;
945
                return -EINVAL;
946
        }
947
        return 0;
948
}
949
 
950
static int
951
RCconfig (struct net_device *dev, struct ifmap *map)
952
{
953
        /*
954
         * To be completed ...
955
         */
956
        return 0;
957
        if (dev->flags & IFF_UP)        /* can't act on a running interface */
958
                return -EBUSY;
959
 
960
        /* Don't allow changing the I/O address */
961
        if (map->base_addr != dev->base_addr) {
962
                printk (KERN_WARNING "%s Change I/O address not implemented\n",
963
                                dev->name);
964
                return -EOPNOTSUPP;
965
        }
966
        return 0;
967
}
968
 
969
static void __exit
970
rcpci_cleanup_module (void)
971
{
972
        pci_unregister_driver (&rcpci45_driver);
973
}
974
 
975
module_init (rcpci_init_module);
976
module_exit (rcpci_cleanup_module);
977
 
978
static int
979
RC_allocate_and_post_buffers (struct net_device *dev, int numBuffers)
980
{
981
 
982
        int i;
983
        PU32 p;
984
        psingleB pB;
985
        struct sk_buff *skb;
986
        RC_RETURN status;
987
        U32 res;
988
 
989
        if (!numBuffers)
990
                return 0;
991
        else if (numBuffers > MAX_NMBR_POST_BUFFERS_PER_MSG) {
992
                printk (KERN_ERR "%s: Too many buffers requested!\n",
993
                                dev->name);
994
                numBuffers = 32;
995
        }
996
 
997
        p = (PU32) kmalloc (sizeof (U32) + numBuffers * sizeof (singleB),
998
                            GFP_DMA | GFP_ATOMIC);
999
 
1000
        if (!p) {
1001
                printk (KERN_WARNING "%s unable to allocate TCB\n",
1002
                                dev->name);
1003
                return 0;
1004
        }
1005
 
1006
        p[0] = 0;         /* Buffer Count */
1007
        pB = (psingleB) ((U32) p + sizeof (U32));/* point to the first buffer */
1008
 
1009
        for (i = 0; i < numBuffers; i++) {
1010
                skb = dev_alloc_skb (MAX_ETHER_SIZE + 2);
1011
                if (!skb) {
1012
                        printk (KERN_WARNING
1013
                                        "%s: unable to allocate enough skbs!\n",
1014
                                        dev->name);
1015
                        if (*p != 0) {   /* did we allocate any buffers */
1016
                                break;
1017
                        } else {
1018
                                kfree (p);      /* Free the TCB */
1019
                                return 0;
1020
                        }
1021
                }
1022
                skb_reserve (skb, 2);   /* Align IP on 16 byte boundaries */
1023
                pB->context = (U32) skb;
1024
                pB->scount = 1; /* segment count */
1025
                pB->size = MAX_ETHER_SIZE;
1026
                pB->addr = virt_to_bus ((void *) skb->data);
1027
                p[0]++;
1028
                pB++;
1029
        }
1030
 
1031
        if ((status = RCPostRecvBuffers (dev, (PRCTCB) p)) != RC_RTN_NO_ERROR) {
1032
                printk (KERN_WARNING "%s: Post buffer failed, error 0x%x\n",
1033
                                dev->name, status);
1034
                /* point to the first buffer */
1035
                pB = (psingleB) ((U32) p + sizeof (U32));
1036
                while (p[0]) {
1037
                        skb = (struct sk_buff *) pB->context;
1038
                        dev_kfree_skb (skb);
1039
                        p[0]--;
1040
                        pB++;
1041
                }
1042
        }
1043
        res = p[0];
1044
        kfree (p);
1045
        return (res);           /* return the number of posted buffers */
1046
}

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