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9 f9daq 1
//****************************************************************************
2
// Copyright (C) 2000-2006  ARW Elektronik Germany
3
//
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 as published by
7
// the Free Software Foundation; either version 2 of the License, or
8
// (at your option) any later version.
9
//
10
// This program is distributed in the hope that it will be useful,
11
// but WITHOUT ANY WARRANTY; without even the implied warranty of
12
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
13
// GNU General Public License for more details.
14
//
15
// You should have received a copy of the GNU General Public License
16
// along with this program; if not, write to the Free Software
17
// Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
18
//
19
// This product is not authorized for use as critical component in 
20
// life support systems without the express written approval of 
21
// ARW Elektronik Germany.
22
//  
23
// Please announce changes and hints to ARW Elektronik
24
//
25
// Maintainer(s): Klaus Hitschler (klaus.hitschler@gmx.de)
26
//
27
//****************************************************************************
28
 
29
//****************************************************************************
30
//
31
// main.c -- the main driver module for the PCIVME PCI to VME Interface
32
//           Thanks to A.Rubini's Book and Dirk Muelhlenberg and H.J.Mathes 
33
//           for their arwvme driver
34
//
35
// $Log: main.c,v $
36
// Revision 1.10  2006/06/04 12:20:46  klaus
37
// release_20060604; Version 3.2; pci_{en|dis}able_device() added
38
//
39
// Revision 1.9  2004/08/13 19:23:26  klaus
40
// conversion to kernel-version 2.6, released version 3.0
41
//
42
// Revision 1.8  2003/06/27 17:25:52  klaus
43
// incomplete try to get mmap() with nopage() running for automatic page switch
44
//
45
// Revision 1.7  2002/10/18 21:56:28  klaus
46
// completed functional features, untested
47
//
48
// Revision 1.6  2002/10/18 21:56:28  klaus
49
// completed functional features, untested
50
//
51
// Revision 1.5  2002/10/17 19:05:03  klaus
52
// VME access is working through test to lib to driver
53
//
54
//****************************************************************************
55
#define NOPAGE_SIGBUS   (NULL)
56
 
57
#define VERSION_HI 3
58
#define VERSION_LO 2
59
 
60
/*--- INCLUDES ---------------------------------------------------------------------------*/
61
#include "common.h"  /* must be the first include */
62
#include <linux/module.h>
63
 
64
#include <linux/sched.h>
65
#include <linux/proc_fs.h>
66
#include <linux/pci.h>
67
#include <asm/types.h>
68
#include <linux/mm.h>
69
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,0)
70
#include <linux/interrupt.h>
71
#endif
72
 
73
#include "askpci.h"
74
#include "plxbug.h"
75
#include "plx9050.h"
76
#include "fops.h"
77
#include "pcivme.h"
78
#include "pciif.h"
79
#include "vic.h"
80
#include "main.h"
81
 
82
/*--- DEFINES -----------------------------------------------------------------------------*/
83
MODULE_AUTHOR("klaus.hitschler@gmx.de");
84
MODULE_DESCRIPTION("Driver for ARW Elektronik PCI VME interface.");
85
MODULE_SUPPORTED_DEVICE("PCIVME");
86
MODULE_LICENSE("GPL");
87
 
88
#define MAJOR_NO               0                         /* use dynamic assignment */
89
 
90
#define PCIVME_VENDOR_ID  0x10B5
91
#define PCIVME_DEVICE_ID  0x9050
92
#define PCIVME_SUBSYS_ID  0x1167
93
#define PCIVME_SUBVEN_ID  0x9050
94
 
95
/*--- TYPEDEFS ----------------------------------------------------------------------------*/
96
 
97
/*--- GLOBALS -----------------------------------------------------------------------------*/
98
DRIVER_OBJ drv;
99
 
100
/*--- LOCALS ------------------------------------------------------------------------------*/
101
 
102
/*--- FUNCTIONS ---------------------------------------------------------------------------*/
103
static int my_interrupt(u16 intCSR)
104
{
105
    int result = NOT_MY_INTERRUPT;
106
 
107
    if (intCSR & 0x0040)  // it is global enabled
108
    {
109
        if ((intCSR & 0x0028) == 0x0028) // it is a enabled PCIADA interrupt
110
            result = PCIADA_INTERRUPT;
111
        else
112
            if ((intCSR & 0x0005) == 0x0005) // it is a enabled VMEMM interrupt
113
            result = VMEMM_INTERRUPT;
114
    }
115
 
116
    return result;
117
}
118
 
43 f9daq 119
static irqreturn_t pcivme_irqhandler(int irq, void *dev_id )
9 f9daq 120
{
121
    DEVICE_OBJ *pd = (DEVICE_OBJ *)dev_id;
122
 
123
    if (pd)
124
    {
125
        // evaluate the reason of the interrupt - if it is mine
126
        u16 intCSR          = readw((const volatile void *) (pd->pPCIADAIntCSR));
127
        int which_interrupt = my_interrupt(intCSR);
128
 
129
        if (which_interrupt)
130
        {
131
            writew(intCSR & ~0x40, (volatile void *) pd->pPCIADAIntCSR); /* disable global interrupts */
132
            pd->wIrqStatus = (u16)which_interrupt;
133
            pd->dwInterruptCount++;
134
            wake_up_interruptible(&pd->event_queue);   /* stop blocking if any */
135
 
136
                        return IRQ_RETVAL(1);
137
        }
138
    }
139
 
140
        return IRQ_RETVAL(0);
141
}
142
 
143
static int request_io_memory(PCIConfig *pPch)
144
{
145
    if (check_mem_region(pci_resource_start(pPch->pciDev, 0),  LCR_SPACE))
146
    {
11 f9daq 147
        PRINTK(KERN_DEBUG "%s : LCR 0x%08lx\n", DEVICE_NAME, (long unsigned int) pci_resource_start(pPch->pciDev, 0));
9 f9daq 148
        return -EBUSY;
149
    }
150
 
151
    if (check_mem_region(pci_resource_start(pPch->pciDev, 2),  CTL_SPACE))
152
    {
11 f9daq 153
        PRINTK(KERN_DEBUG "%s : CTL 0x%08lx\n", DEVICE_NAME, (long unsigned int) pci_resource_start(pPch->pciDev, 2));
9 f9daq 154
        return -EBUSY;
155
    }
156
 
157
    if (check_mem_region(pci_resource_start(pPch->pciDev, 2) + CTL_SPACE, VME_SPACE))
158
    {
11 f9daq 159
        PRINTK(KERN_DEBUG "%s : VME 0x%08lx\n", DEVICE_NAME, (long unsigned int) pci_resource_start(pPch->pciDev, 2) + CTL_SPACE);
9 f9daq 160
        return -EBUSY;
161
    }
162
 
163
    request_mem_region(pci_resource_start(pPch->pciDev, 0),  LCR_SPACE, DEVICE_NAME);
164
    request_mem_region(pci_resource_start(pPch->pciDev, 2),  CTL_SPACE, DEVICE_NAME);
165
    request_mem_region(pci_resource_start(pPch->pciDev, 2) + CTL_SPACE, VME_SPACE, DEVICE_NAME);
166
 
167
    return 0;
168
}
169
 
170
static void release_io_memory(PCIConfig *pPch)
171
{
172
    release_mem_region(pci_resource_start(pPch->pciDev, 0),  LCR_SPACE);
173
    release_mem_region(pci_resource_start(pPch->pciDev, 2),  CTL_SPACE);
174
    release_mem_region(pci_resource_start(pPch->pciDev, 2) + CTL_SPACE, VME_SPACE);
175
}
176
 
177
static int translate_addresses(DEVICE_OBJ *pd, PCIConfig *pPch)    /* differs from PCICC32 */
178
{
179
    if (pci_resource_start(pPch->pciDev, 0) < LOW_MEMORY)  /* LCR ISA base addresses */
180
        pd->pLCR = (u32)bus_to_virt(pci_resource_start(pPch->pciDev, 0));
181
    else
182
        pd->pLCR = (u32)ioremap(pci_resource_start(pPch->pciDev, 0), LCR_SPACE);
183
 
184
    if (pci_resource_start(pPch->pciDev, 2) < LOW_MEMORY)  /* User ISA base addresses */
185
    {
186
        pd->pCtl = (u32)bus_to_virt(pci_resource_start(pPch->pciDev, 2)            );
187
        pd->pVME = (u32)bus_to_virt(pci_resource_start(pPch->pciDev, 2) + CTL_SPACE);
188
    }
189
    else
190
    {
191
        pd->pPhysVME = pci_resource_start(pPch->pciDev, 2) + CTL_SPACE;
192
 
193
        pd->pCtl = (u32)ioremap(pci_resource_start(pPch->pciDev, 2)            , CTL_SPACE);
194
        pd->pVME = (u32)ioremap(pci_resource_start(pPch->pciDev, 2) + CTL_SPACE, VME_SPACE);
195
    }
196
 
197
    return 0;
198
}
199
 
200
static void un_translate_addresses(DEVICE_OBJ *pd, PCIConfig *pPch)
201
{
202
    if (pci_resource_start(pPch->pciDev, 0) >= LOW_MEMORY)  /* no LCR ISA base addresses */
203
        iounmap((void *)pd->pLCR);
204
 
205
    if (pci_resource_start(pPch->pciDev, 2) >= LOW_MEMORY)
206
    {
207
        pd->pPhysVME = 0;
208
 
209
        iounmap((void *)pd->pCtl);
210
        iounmap((void *)pd->pVME);
211
    }
212
}
213
 
214
static void soft_init(DEVICE_OBJ *pd)
215
{
216
    if (pd)
217
    {
218
        init_waitqueue_head(&pd->event_queue);
219
 
220
        pd->pLCR = pd->pCtl = pd->pVME = 0;
221
        pd->pPch = (PCIConfig *)NULL;
222
        pd->bConnected = 0;
223
        pd->wInitStep = 0;    
224
        pd->wIrq = 0xFFFF;          
225
        pd->dwInterruptCount = 0;
226
        pd->wIrqStatus = 0;
227
        pd->nOpenCounter = 0;
228
 
229
        pd->cModuleNumber = 255;
230
        pd->cFPGAVersion = 255;
231
        pd->cSystemController = 0;
232
        pd->cWordMode         = 0;
233
 
234
        pd->pAdrMod = 0;
235
        pd->pAdrReg = 0;
236
        pd->pCSR    = 0;
237
 
238
        pd->pPCIADACntrl  = 0;
239
        pd->pPCIADAIntCSR = 0;      
240
 
241
        pd->bCurrentModifier     = 0;
242
        pd->dwCurrentPageAddress = -1;
243
                                pd->currentMap.pageptr = NOPAGE_SIGBUS;
244
                                pd->currentMap.addr = 0;
245
    }
246
}
247
 
248
int test_connection(DEVICE_OBJ *pd)
249
{
250
    u16 intCSR_store;
251
    u16 cntrl_store;
252
    int i;      
253
    int error   = 0;
254
    u32 dwADRH  = pd->pCtl + ADRH;
255
    u32 dwADRL  = pd->pCtl + ADRL;
256
    u32 dwADRHL = pd->pCtl + ADRHL;
257
    u32 dwStore;
258
    u16 wRet;
259
 
260
    cntrl_store  = readw((const volatile void *) pd->pPCIADACntrl);         /* read CONTROL register */
261
    intCSR_store = readw((const volatile void *) pd->pPCIADAIntCSR);        /* read interrupt + CSR register */
262
 
263
    writew(0, (volatile void *) pd->pPCIADAIntCSR);                   /* disable interrupts */
264
    writew(cntrl_store | 0x0180, (volatile void *) pd->pPCIADACntrl); /* enable access */
265
 
266
    // save adr register
267
    dwStore = readl((const volatile void *) dwADRHL);
268
    for (i = 1000; i; i--)
269
    {
270
        writew(0x5555, (volatile void *) dwADRH);
271
        writew(0xAAAA, (volatile void *) dwADRL);
272
        wRet   = readw((const volatile void *) dwADRH);
273
        if (wRet != 0x5555)
274
        {
275
            error = 1;
276
            break;
277
        }
278
 
279
        writew(0xAAAA, (volatile void *) dwADRH);
280
        writew(0x5555, (volatile void *) dwADRL);
281
        wRet   = readw((const volatile void *) dwADRH);
282
        if (wRet != 0xAAAA)
283
        {
284
            error = 1;
285
            break;
286
        }
287
 
288
        writew(0x0000, (volatile void *) dwADRH);
289
        writew(0xFFFF, (volatile void *) dwADRL);
290
        wRet   = readw((const volatile void *) dwADRH);
291
        if (wRet != 0x0000)
292
        {
293
            error = 1;
294
            break;
295
        }
296
 
297
        writew(0xFFFF, (volatile void *) dwADRH);
298
        writew(0x0000, (volatile void *) dwADRL);
299
        wRet   = readw((const volatile void *) dwADRH);
300
        if (wRet != 0xFFFF)
301
        {
302
            error = 1;
303
            break;
304
        }
305
    }
306
 
307
    // restore register
308
    writel(dwStore, (volatile void *) dwADRHL);
309
 
310
    //clear possible interrupts
311
    writew(cntrl_store & ~0x0100, (volatile void *) pd->pPCIADACntrl); /* clear potential interrupt */
312
 
313
    // restore LCR registers
314
    writew(cntrl_store,  (volatile void *) pd->pPCIADACntrl);
315
    writew(intCSR_store, (volatile void *) pd->pPCIADAIntCSR);
316
 
317
    return error;  
318
}
319
 
320
int get_module_info(DEVICE_OBJ *pd)
321
{
322
    u16 intCSR_store;
323
    u16 cntrl_store;
324
    int found = 0;
325
    u16 data;
326
 
327
    cntrl_store  = readw((const volatile void *) pd->pPCIADACntrl);  /* read CONTROL register */
328
    intCSR_store = readw((const volatile void *) pd->pPCIADAIntCSR); /* read interrupt + CSR register */
329
 
330
    PRINTK(KERN_DEBUG "%s : cntrl=0x%04x, intCSR=0x%04x\n", DEVICE_NAME, cntrl_store, intCSR_store);
331
 
332
    if (cntrl_store & 0x0800) /* a VMEMM is connected */
333
    {
334
        u16 bla = cntrl_store | 0x0180;
335
 
336
        writew(0,   (volatile void *) pd->pPCIADAIntCSR); /* disable interrupts */
337
        writew(bla, (volatile void *) pd->pPCIADACntrl);  /* enable access */
338
 
339
        // read main status register
340
        data = readw((const volatile void *) pd->pCSR);
341
 
342
        if ((data & 0xF000) != VMEMM_MODULE_TYPE)
343
        {
344
            pd->cModuleNumber = pd->cFPGAVersion = 255;
345
            printk(KERN_ERR "%s : Wrong module type connected @ index %d!\n", DEVICE_NAME, pd->wIndex);
346
        }
347
        else
348
        {
349
            found = 1;
350
            pd->cModuleNumber     = (data >> 4) & 0xF;
351
            pd->cFPGAVersion      = (data >> 8) & 0xF;
352
            pd->cSystemController = (data & 0x0008);
353
            pd->cWordMode         = (data & 0x0004);
354
        }
355
 
356
        // clear possible interrupts
357
        writew(cntrl_store & ~0x0100, (volatile void *) pd->pPCIADACntrl); /* clear potential interrupt */
358
 
359
        /* restore all contents */
360
        writew(cntrl_store,  (volatile void *) pd->pPCIADACntrl);
361
        writew(intCSR_store, (volatile void *) pd->pPCIADAIntCSR);
362
    }
363
 
364
    return found;  
365
}
366
 
367
#if LINUX_VERSION_CODE < KERNEL_VERSION(2,3,0)
368
static int pcivme_read_proc(char *buf, char **start, off_t offset, int len)
369
#else
43 f9daq 370
//static int pcivme_read_proc(char *buf, char **start, off_t offset, int len, int *eof, void *data)
371
static int pcivme_read_proc(struct file *filp,char *buf,size_t count,loff_t *offp )
9 f9daq 372
#endif
373
    {
374
    int              pos = 0;
375
    DEVICE_OBJ       *pd;
376
    PCIConfig        *ch;
377
    u16                cntrl;
378
    char             *cause = "none";
379
    struct list_head *ptr;
380
 
381
    pos += sprintf(buf + pos, "\nPCIVME information. Version %d.%d of %s from Klaus Hitschler.\n", VERSION_HI, VERSION_LO, __DATE__);
382
 
383
    pos += sprintf(buf + pos, " ---------------------\n");
384
    pos += sprintf(buf + pos, " Interfaces found : %d\n", drv.count);
385
    pos += sprintf(buf + pos, " Major Number     : %d\n", drv.nMajor);
386
 
387
    for (ptr = drv.devList.next; ptr != &drv.devList; ptr = ptr->next)
388
    {
389
        pd = list_entry(ptr, DEVICE_OBJ, list);
390
        ch = pd->pPch;
391
        cntrl = readw((const volatile void *)(pd->pLCR + PLX9050_CNTRL));
392
        pos += sprintf(buf + pos, " --- %d ---------------\n", pd->wIndex + 1);
393
        pos += sprintf(buf + pos, " LCR     phys/virt/size : 0x%08lx/0x%08x/%d\n",(long unsigned int) pci_resource_start(ch->pciDev, 0),             pd->pLCR, LCR_SPACE);
394
        pos += sprintf(buf + pos, " Control phys/virt/size : 0x%08lx/0x%08x/%d\n",(long unsigned int)  pci_resource_start(ch->pciDev, 2),             pd->pCtl, CTL_SPACE);
395
        pos += sprintf(buf + pos, " VME     phys/virt/size : 0x%08lx/0x%08x/%d\n",(long unsigned int)  pci_resource_start(ch->pciDev, 2) + CTL_SPACE, pd->pVME, VME_SPACE);
396
        pos += sprintf(buf + pos, " Irq                    : %d\n", pd->wIrq);
397
 
398
        if (pd->bConnected)
399
        {
400
            pos += sprintf(buf + pos, " VMEMM is or was        : (software) connected.\n");
401
            pos += sprintf(buf + pos, " Module-Number          : %d\n", pd->cModuleNumber);
402
            pos += sprintf(buf + pos, " FPGA-Version           : %d\n", pd->cFPGAVersion);
403
            pos += sprintf(buf + pos, " Systemcontroller       : %s\n", (pd->cSystemController) ? "yes" : "no");
404
            pos += sprintf(buf + pos, " Word Mode              : %s\n", (pd->cWordMode) ? "yes" : "no");
405
        }
406
        else
407
            pos += sprintf(buf + pos, " VMEMM is or was        : not (software) connected.\n");      
408
 
409
        if (!((cntrl & 0x0800) && (!(cntrl & 0x0600))))
410
            pos += sprintf(buf + pos, " VMEMM is               : powered off or cable disconnected.\n");
411
 
412
        pos += sprintf(buf + pos, " IrqCount               : %d\n", pd->dwInterruptCount);
413
        if (pd->wIrqStatus & PCIADA_INTERRUPT)
414
            cause = "Timeout";
415
        else
416
            if (pd->wIrqStatus & VMEMM_INTERRUPT)
417
                cause = "VME";
418
        pos += sprintf(buf + pos, " Pending IrqStatus      : %s\n", cause);
419
    }
420
 
421
    pos += sprintf(buf + pos, "\n");
422
 
423
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,3,0)
43 f9daq 424
    //*eof = 1;
9 f9daq 425
#endif
426
 
427
    return pos;
428
}
429
 
43 f9daq 430
 
431
 
432
 
9 f9daq 433
#if LINUX_VERSION_CODE < KERNEL_VERSION(2,3,0)
434
struct proc_dir_entry pcimod_proc_entry =
435
{
436
    namelen:    7,                  /* len of name */
437
    name:       DEVICE_NAME,        /* entry  name */
438
    mode:       S_IFREG | S_IRUGO,  /* mode */
439
    nlink:      1,                  /* nlinks */
440
    get_info:   pcivme_read_proc,  /* function used to read data */
441
};
43 f9daq 442
#else 
443
struct file_operations proc_fops = {
444
read: pcivme_read_proc
445
};
9 f9daq 446
#endif
447
 
448
static void deleteMyLists(void)
449
{
450
    DEVICE_OBJ      *pd;
451
 
452
    /* delete my lists */
453
    while (!list_empty(&drv.devList))                 // cycle through the list of pci devices and remove them
454
    {
455
        pd = (DEVICE_OBJ *)drv.devList.prev;            // empty in reverse order
456
        list_del(&pd->list);
457
        kfree(pd);
458
    }
459
 
460
    DeletePCIConfig(&drv);
461
}
462
 
463
int init_module(void)
464
{
465
    PCIConfig        *ch;
466
    DEVICE_OBJ       *pd;
467
    int              result = 0;
468
    struct list_head *ptr;
469
 
470
    PRINTK(KERN_DEBUG "%s : init_module\n", DEVICE_NAME);
471
 
472
    /* create list of PCIADAs and work devices */
473
    INIT_LIST_HEAD(&drv.devList);
474
    INIT_LIST_HEAD(&drv.pciList);
475
 
476
    drv.count = 0;
477
 
478
    /* search for all PCIADA modules */
479
    if ((result = GetPCIConfig(&drv, PCIVME_DEVICE_ID, PCIVME_VENDOR_ID, PCIVME_SUBSYS_ID, PCIVME_SUBVEN_ID)))
480
    {
481
        deleteMyLists();
482
        return result;
483
    }
484
 
485
    /* fix the PLX bug in all PCIADAs */
486
    for (ptr = drv.pciList.next; ptr != &drv.pciList; ptr = ptr->next)
487
    {
488
        ch = list_entry(ptr, PCIConfig, list);
489
        PLX9050BugFix(ch);
490
    }
491
 
492
    /* create work_devices and translate the access addresses */
493
    for (ptr = drv.pciList.next; ptr != &drv.pciList; ptr = ptr->next)
494
    {
495
        ch = list_entry(ptr, PCIConfig, list);
496
 
497
        pd = (DEVICE_OBJ *)kmalloc(sizeof(DEVICE_OBJ), GFP_ATOMIC);
498
        soft_init(pd);
499
        pd->pPch = ch;
500
        pd->wIndex = drv.count;
501
 
502
        if (!request_io_memory(ch))
503
        {
504
            pd->wInitStep = 1;
505
 
506
            if (translate_addresses(pd, ch))
507
            {
508
                printk(KERN_ERR "%s : translation of addresses failed!\n", DEVICE_NAME);
509
                kfree_s(pd, sizeof(*pd));       // FREE(pd);
510
            }
511
            else
512
            {
513
                // successful translate_addresses
514
                pd->wInitStep = 2;
515
 
516
                // create some 'fast access' addresses
517
                pd->pAdrMod = pd->pCtl + VICBASE + AMSR;
518
                pd->pAdrReg = pd->pCtl + ADRHL;
519
                pd->pCSR    = pd->pCtl + CSR;
520
 
521
                pd->pPCIADACntrl  = pd->pLCR + PLX9050_CNTRL;
522
                pd->pPCIADAIntCSR = pd->pLCR + PLX9050_INTCSR;
523
 
524
                if (request_irq(pd->pPch->pciDev->irq, pcivme_irqhandler, IRQF_DISABLED| IRQF_SHARED, DEVICE_NAME, pd))
525
                {
526
                    printk(KERN_ERR "%s : can't get irq @ %d\n", DEVICE_NAME, pd->pPch->pciDev->irq);
527
                    kfree_s(pd, sizeof(*pd));       // FREE(pd);
528
                }
529
                else
530
                {
531
                    // successful request_irq
532
                    pd->wInitStep = 3;
533
                    pd->wIrq = pd->pPch->pciDev->irq;
534
 
535
                    list_add_tail(&pd->list, &drv.devList);  /* add this device to list of working devices*/
536
                    drv.count++;
537
 
538
                    pd->bConnected =  get_module_info(pd);
539
                    if (pd->bConnected && test_connection(pd))
540
                    {
541
                        printk(KERN_ERR "%s : connection test @ driver install failed!\n", DEVICE_NAME);
542
                        pd->bConnected = 0;
543
                    }
544
                }
545
            }
546
        }
547
        else
548
            printk(KERN_ERR "%s : requested io-memory still claimed!\n", DEVICE_NAME);
549
    }
550
 
551
    drv.nMajor = MAJOR_NO;
552
    result = register_chrdev(drv.nMajor, DEVICE_NAME, &pcivme_fops);
553
    if (result < 0)
554
    {
555
        printk(KERN_ERR "%s: Can't install driver (%d)\n", DEVICE_NAME, result);
556
 
557
        /* untranslate translated addresses */
558
        for (ptr = drv.devList.next; ptr != &drv.devList; ptr = ptr->next)
559
        {
560
            pd = list_entry(ptr, DEVICE_OBJ, list);
561
            ch = pd->pPch;
562
            un_translate_addresses(pd, ch);
563
        }
564
 
565
        /* delete my lists */
566
        deleteMyLists();
567
 
568
        return result;
569
    }
570
    else
571
    {
572
        if (drv.nMajor == 0)
573
            drv.nMajor = result;
574
 
575
        printk(KERN_DEBUG "%s : major #%d assigned.\n", DEVICE_NAME, drv.nMajor);
576
    }
577
 
578
    /* register the proc device */
579
#if LINUX_VERSION_CODE < KERNEL_VERSION(2,3,0)  
580
    proc_register_dynamic(&proc_root, &pcimod_proc_entry);
581
 
582
    return 0;
583
#else
43 f9daq 584
    // create_proc_read_entry is depricated since kernel 3.10
585
    //return create_proc_read_entry(DEVICE_NAME, 0, NULL, pcivme_read_proc, NULL) ? 0 : -ENODEV; 
586
    return proc_create_data(DEVICE_NAME, 0, NULL, &pcivme_fops, NULL) ? 0 : -ENODEV;
9 f9daq 587
#endif
588
}
589
 
590
void cleanup_module(void)
591
{
592
    PCIConfig        *ch;
593
    DEVICE_OBJ       *pd;
594
    struct list_head *ptr;
595
 
596
    PRINTK(KERN_DEBUG "%s : cleanup_module.\n", DEVICE_NAME);
597
 
598
    unregister_chrdev(drv.nMajor, DEVICE_NAME);
599
 
600
    /* unregister the proc device */
601
#if LINUX_VERSION_CODE < KERNEL_VERSION(2,3,0)
602
    proc_unregister(&proc_root, pcimod_proc_entry.low_ino);
603
#else
604
    remove_proc_entry(DEVICE_NAME, NULL);
605
#endif
606
 
607
    /* redo all */
608
    for (ptr = drv.devList.next; ptr != &drv.devList; ptr = ptr->next)
609
    {
610
        pd = list_entry(ptr, DEVICE_OBJ, list);
611
        ch = pd->pPch;
612
        switch (pd->wInitStep)
613
        {
614
            case 3:  writew(readw((const volatile void *)(pd->pLCR + PLX9050_INTCSR)) & ~0x40, (volatile void *) (pd->pLCR + PLX9050_INTCSR));  // disable global interrupts
615
                     free_irq(pd->wIrq, pd);  
616
            case 2:  un_translate_addresses(pd, ch);
617
            case 1:  release_io_memory(ch);
618
            default: pd->wInitStep = 0;
619
        }
620
 
621
        drv.count--;
622
    }
623
 
624
    deleteMyLists();
625
 
626
    return;
627
}
628