aboutsummaryrefslogtreecommitdiffstats
diff options
context:
space:
mode:
authorMaciej W. Rozycki <macro@linux-mips.org>2007-02-05 19:28:27 -0500
committerRalf Baechle <ralf@linux-mips.org>2007-02-09 11:23:17 -0500
commite89a2cfb7d7b5a658295fef9be84b12e813163bd (patch)
tree2e5e3efd3f27b58965b4e47aaa079bbd13ed6d20
parent33cf45b90eb73e1f3b784b50691d74f7ea381b21 (diff)
[TC] defxx: TURBOchannel support
This is a set of changes to add TURBOchannel support to the defxx driver. As at this point the EISA support in the driver has become the only not having been converted to the driver model, I took the opportunity to convert it as well. Plus support for MMIO in addition to PIO operation as TURBOchannel requires it anyway. Signed-off-by: Maciej W. Rozycki <macro@linux-mips.org> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Acked-by: Jeff Garzik <jeff@garzik.org> Signed-off-by: Ralf Baechle <ralf@linux-mips.org>
-rw-r--r--drivers/net/Kconfig32
-rw-r--r--drivers/net/defxx.c928
-rw-r--r--drivers/net/defxx.h58
3 files changed, 664 insertions, 354 deletions
diff --git a/drivers/net/Kconfig b/drivers/net/Kconfig
index ad92b6a76ee6..b79711d441a4 100644
--- a/drivers/net/Kconfig
+++ b/drivers/net/Kconfig
@@ -2534,7 +2534,7 @@ config RIONET_RX_SIZE
2534 2534
2535config FDDI 2535config FDDI
2536 bool "FDDI driver support" 2536 bool "FDDI driver support"
2537 depends on (PCI || EISA) 2537 depends on (PCI || EISA || TC)
2538 help 2538 help
2539 Fiber Distributed Data Interface is a high speed local area network 2539 Fiber Distributed Data Interface is a high speed local area network
2540 design; essentially a replacement for high speed Ethernet. FDDI can 2540 design; essentially a replacement for high speed Ethernet. FDDI can
@@ -2544,11 +2544,31 @@ config FDDI
2544 will say N. 2544 will say N.
2545 2545
2546config DEFXX 2546config DEFXX
2547 tristate "Digital DEFEA and DEFPA adapter support" 2547 tristate "Digital DEFTA/DEFEA/DEFPA adapter support"
2548 depends on FDDI && (PCI || EISA) 2548 depends on FDDI && (PCI || EISA || TC)
2549 help 2549 ---help---
2550 This is support for the DIGITAL series of EISA (DEFEA) and PCI 2550 This is support for the DIGITAL series of TURBOchannel (DEFTA),
2551 (DEFPA) controllers which can connect you to a local FDDI network. 2551 EISA (DEFEA) and PCI (DEFPA) controllers which can connect you
2552 to a local FDDI network.
2553
2554 To compile this driver as a module, choose M here: the module
2555 will be called defxx. If unsure, say N.
2556
2557config DEFXX_MMIO
2558 bool
2559 prompt "Use MMIO instead of PIO" if PCI || EISA
2560 depends on DEFXX
2561 default n if PCI || EISA
2562 default y
2563 ---help---
2564 This instructs the driver to use EISA or PCI memory-mapped I/O
2565 (MMIO) as appropriate instead of programmed I/O ports (PIO).
2566 Enabling this gives an improvement in processing time in parts
2567 of the driver, but it may cause problems with EISA (DEFEA)
2568 adapters. TURBOchannel does not have the concept of I/O ports,
2569 so MMIO is always used for these (DEFTA) adapters.
2570
2571 If unsure, say N.
2552 2572
2553config SKFP 2573config SKFP
2554 tristate "SysKonnect FDDI PCI support" 2574 tristate "SysKonnect FDDI PCI support"
diff --git a/drivers/net/defxx.c b/drivers/net/defxx.c
index dc3ab3b5c8cb..07d2731c1aa8 100644
--- a/drivers/net/defxx.c
+++ b/drivers/net/defxx.c
@@ -10,10 +10,12 @@
10 * 10 *
11 * Abstract: 11 * Abstract:
12 * A Linux device driver supporting the Digital Equipment Corporation 12 * A Linux device driver supporting the Digital Equipment Corporation
13 * FDDI EISA and PCI controller families. Supported adapters include: 13 * FDDI TURBOchannel, EISA and PCI controller families. Supported
14 * adapters include:
14 * 15 *
15 * DEC FDDIcontroller/EISA (DEFEA) 16 * DEC FDDIcontroller/TURBOchannel (DEFTA)
16 * DEC FDDIcontroller/PCI (DEFPA) 17 * DEC FDDIcontroller/EISA (DEFEA)
18 * DEC FDDIcontroller/PCI (DEFPA)
17 * 19 *
18 * The original author: 20 * The original author:
19 * LVS Lawrence V. Stefani <lstefani@yahoo.com> 21 * LVS Lawrence V. Stefani <lstefani@yahoo.com>
@@ -193,24 +195,27 @@
193 * 14 Aug 2004 macro Fix device names reported. 195 * 14 Aug 2004 macro Fix device names reported.
194 * 14 Jun 2005 macro Use irqreturn_t. 196 * 14 Jun 2005 macro Use irqreturn_t.
195 * 23 Oct 2006 macro Big-endian host support. 197 * 23 Oct 2006 macro Big-endian host support.
198 * 14 Dec 2006 macro TURBOchannel support.
196 */ 199 */
197 200
198/* Include files */ 201/* Include files */
199 202#include <linux/bitops.h>
200#include <linux/module.h>
201#include <linux/kernel.h>
202#include <linux/string.h>
203#include <linux/errno.h>
204#include <linux/ioport.h>
205#include <linux/slab.h>
206#include <linux/interrupt.h>
207#include <linux/pci.h>
208#include <linux/delay.h> 203#include <linux/delay.h>
204#include <linux/dma-mapping.h>
205#include <linux/eisa.h>
206#include <linux/errno.h>
207#include <linux/fddidevice.h>
209#include <linux/init.h> 208#include <linux/init.h>
209#include <linux/interrupt.h>
210#include <linux/ioport.h>
211#include <linux/kernel.h>
212#include <linux/module.h>
210#include <linux/netdevice.h> 213#include <linux/netdevice.h>
211#include <linux/fddidevice.h> 214#include <linux/pci.h>
212#include <linux/skbuff.h> 215#include <linux/skbuff.h>
213#include <linux/bitops.h> 216#include <linux/slab.h>
217#include <linux/string.h>
218#include <linux/tc.h>
214 219
215#include <asm/byteorder.h> 220#include <asm/byteorder.h>
216#include <asm/io.h> 221#include <asm/io.h>
@@ -219,8 +224,8 @@
219 224
220/* Version information string should be updated prior to each new release! */ 225/* Version information string should be updated prior to each new release! */
221#define DRV_NAME "defxx" 226#define DRV_NAME "defxx"
222#define DRV_VERSION "v1.09" 227#define DRV_VERSION "v1.10"
223#define DRV_RELDATE "2006/10/23" 228#define DRV_RELDATE "2006/12/14"
224 229
225static char version[] __devinitdata = 230static char version[] __devinitdata =
226 DRV_NAME ": " DRV_VERSION " " DRV_RELDATE 231 DRV_NAME ": " DRV_VERSION " " DRV_RELDATE
@@ -235,12 +240,41 @@ static char version[] __devinitdata =
235 */ 240 */
236#define NEW_SKB_SIZE (PI_RCV_DATA_K_SIZE_MAX+128) 241#define NEW_SKB_SIZE (PI_RCV_DATA_K_SIZE_MAX+128)
237 242
243#define __unused __attribute__ ((unused))
244
245#ifdef CONFIG_PCI
246#define DFX_BUS_PCI(dev) (dev->bus == &pci_bus_type)
247#else
248#define DFX_BUS_PCI(dev) 0
249#endif
250
251#ifdef CONFIG_EISA
252#define DFX_BUS_EISA(dev) (dev->bus == &eisa_bus_type)
253#else
254#define DFX_BUS_EISA(dev) 0
255#endif
256
257#ifdef CONFIG_TC
258#define DFX_BUS_TC(dev) (dev->bus == &tc_bus_type)
259#else
260#define DFX_BUS_TC(dev) 0
261#endif
262
263#ifdef CONFIG_DEFXX_MMIO
264#define DFX_MMIO 1
265#else
266#define DFX_MMIO 0
267#endif
268
238/* Define module-wide (static) routines */ 269/* Define module-wide (static) routines */
239 270
240static void dfx_bus_init(struct net_device *dev); 271static void dfx_bus_init(struct net_device *dev);
272static void dfx_bus_uninit(struct net_device *dev);
241static void dfx_bus_config_check(DFX_board_t *bp); 273static void dfx_bus_config_check(DFX_board_t *bp);
242 274
243static int dfx_driver_init(struct net_device *dev, const char *print_name); 275static int dfx_driver_init(struct net_device *dev,
276 const char *print_name,
277 resource_size_t bar_start);
244static int dfx_adap_init(DFX_board_t *bp, int get_buffers); 278static int dfx_adap_init(DFX_board_t *bp, int get_buffers);
245 279
246static int dfx_open(struct net_device *dev); 280static int dfx_open(struct net_device *dev);
@@ -273,13 +307,13 @@ static void dfx_xmt_flush(DFX_board_t *bp);
273 307
274/* Define module-wide (static) variables */ 308/* Define module-wide (static) variables */
275 309
276static struct net_device *root_dfx_eisa_dev; 310static struct pci_driver dfx_pci_driver;
311static struct eisa_driver dfx_eisa_driver;
312static struct tc_driver dfx_tc_driver;
277 313
278 314
279/* 315/*
280 * ======================= 316 * =======================
281 * = dfx_port_write_byte =
282 * = dfx_port_read_byte =
283 * = dfx_port_write_long = 317 * = dfx_port_write_long =
284 * = dfx_port_read_long = 318 * = dfx_port_read_long =
285 * ======================= 319 * =======================
@@ -291,12 +325,11 @@ static struct net_device *root_dfx_eisa_dev;
291 * None 325 * None
292 * 326 *
293 * Arguments: 327 * Arguments:
294 * bp - pointer to board information 328 * bp - pointer to board information
295 * offset - register offset from base I/O address 329 * offset - register offset from base I/O address
296 * data - for dfx_port_write_byte and dfx_port_write_long, this 330 * data - for dfx_port_write_long, this is a value to write;
297 * is a value to write. 331 * for dfx_port_read_long, this is a pointer to store
298 * for dfx_port_read_byte and dfx_port_read_byte, this 332 * the read value
299 * is a pointer to store the read value.
300 * 333 *
301 * Functional Description: 334 * Functional Description:
302 * These routines perform the correct operation to read or write 335 * These routines perform the correct operation to read or write
@@ -310,7 +343,7 @@ static struct net_device *root_dfx_eisa_dev;
310 * registers using the register offsets defined in DEFXX.H. 343 * registers using the register offsets defined in DEFXX.H.
311 * 344 *
312 * PCI port block base addresses are assigned by the PCI BIOS or system 345 * PCI port block base addresses are assigned by the PCI BIOS or system
313 * firmware. There is one 128 byte port block which can be accessed. It 346 * firmware. There is one 128 byte port block which can be accessed. It
314 * allows for I/O mapping of both PDQ and PFI registers using the register 347 * allows for I/O mapping of both PDQ and PFI registers using the register
315 * offsets defined in DEFXX.H. 348 * offsets defined in DEFXX.H.
316 * 349 *
@@ -318,7 +351,7 @@ static struct net_device *root_dfx_eisa_dev;
318 * None 351 * None
319 * 352 *
320 * Assumptions: 353 * Assumptions:
321 * bp->base_addr is a valid base I/O address for this adapter. 354 * bp->base is a valid base I/O address for this adapter.
322 * offset is a valid register offset for this adapter. 355 * offset is a valid register offset for this adapter.
323 * 356 *
324 * Side Effects: 357 * Side Effects:
@@ -329,69 +362,135 @@ static struct net_device *root_dfx_eisa_dev;
329 * advantage of strict data type checking. 362 * advantage of strict data type checking.
330 */ 363 */
331 364
332static inline void dfx_port_write_byte( 365static inline void dfx_writel(DFX_board_t *bp, int offset, u32 data)
333 DFX_board_t *bp, 366{
334 int offset, 367 writel(data, bp->base.mem + offset);
335 u8 data 368 mb();
336 ) 369}
337 370
338 { 371static inline void dfx_outl(DFX_board_t *bp, int offset, u32 data)
339 u16 port = bp->base_addr + offset; 372{
373 outl(data, bp->base.port + offset);
374}
340 375
341 outb(data, port); 376static void dfx_port_write_long(DFX_board_t *bp, int offset, u32 data)
342 } 377{
378 struct device __unused *bdev = bp->bus_dev;
379 int dfx_bus_tc = DFX_BUS_TC(bdev);
380 int dfx_use_mmio = DFX_MMIO || dfx_bus_tc;
343 381
344static inline void dfx_port_read_byte( 382 if (dfx_use_mmio)
345 DFX_board_t *bp, 383 dfx_writel(bp, offset, data);
346 int offset, 384 else
347 u8 *data 385 dfx_outl(bp, offset, data);
348 ) 386}
349 387
350 {
351 u16 port = bp->base_addr + offset;
352 388
353 *data = inb(port); 389static inline void dfx_readl(DFX_board_t *bp, int offset, u32 *data)
354 } 390{
391 mb();
392 *data = readl(bp->base.mem + offset);
393}
355 394
356static inline void dfx_port_write_long( 395static inline void dfx_inl(DFX_board_t *bp, int offset, u32 *data)
357 DFX_board_t *bp, 396{
358 int offset, 397 *data = inl(bp->base.port + offset);
359 u32 data 398}
360 )
361 399
362 { 400static void dfx_port_read_long(DFX_board_t *bp, int offset, u32 *data)
363 u16 port = bp->base_addr + offset; 401{
402 struct device __unused *bdev = bp->bus_dev;
403 int dfx_bus_tc = DFX_BUS_TC(bdev);
404 int dfx_use_mmio = DFX_MMIO || dfx_bus_tc;
364 405
365 outl(data, port); 406 if (dfx_use_mmio)
366 } 407 dfx_readl(bp, offset, data);
408 else
409 dfx_inl(bp, offset, data);
410}
367 411
368static inline void dfx_port_read_long(
369 DFX_board_t *bp,
370 int offset,
371 u32 *data
372 )
373 412
374 { 413/*
375 u16 port = bp->base_addr + offset; 414 * ================
415 * = dfx_get_bars =
416 * ================
417 *
418 * Overview:
419 * Retrieves the address range used to access control and status
420 * registers.
421 *
422 * Returns:
423 * None
424 *
425 * Arguments:
426 * bdev - pointer to device information
427 * bar_start - pointer to store the start address
428 * bar_len - pointer to store the length of the area
429 *
430 * Assumptions:
431 * I am sure there are some.
432 *
433 * Side Effects:
434 * None
435 */
436static void dfx_get_bars(struct device *bdev,
437 resource_size_t *bar_start, resource_size_t *bar_len)
438{
439 int dfx_bus_pci = DFX_BUS_PCI(bdev);
440 int dfx_bus_eisa = DFX_BUS_EISA(bdev);
441 int dfx_bus_tc = DFX_BUS_TC(bdev);
442 int dfx_use_mmio = DFX_MMIO || dfx_bus_tc;
376 443
377 *data = inl(port); 444 if (dfx_bus_pci) {
378 } 445 int num = dfx_use_mmio ? 0 : 1;
379 446
447 *bar_start = pci_resource_start(to_pci_dev(bdev), num);
448 *bar_len = pci_resource_len(to_pci_dev(bdev), num);
449 }
450 if (dfx_bus_eisa) {
451 unsigned long base_addr = to_eisa_device(bdev)->base_addr;
452 resource_size_t bar;
453
454 if (dfx_use_mmio) {
455 bar = inb(base_addr + PI_ESIC_K_MEM_ADD_CMP_2);
456 bar <<= 8;
457 bar |= inb(base_addr + PI_ESIC_K_MEM_ADD_CMP_1);
458 bar <<= 8;
459 bar |= inb(base_addr + PI_ESIC_K_MEM_ADD_CMP_0);
460 bar <<= 16;
461 *bar_start = bar;
462 bar = inb(base_addr + PI_ESIC_K_MEM_ADD_MASK_2);
463 bar <<= 8;
464 bar |= inb(base_addr + PI_ESIC_K_MEM_ADD_MASK_1);
465 bar <<= 8;
466 bar |= inb(base_addr + PI_ESIC_K_MEM_ADD_MASK_0);
467 bar <<= 16;
468 *bar_len = (bar | PI_MEM_ADD_MASK_M) + 1;
469 } else {
470 *bar_start = base_addr;
471 *bar_len = PI_ESIC_K_CSR_IO_LEN;
472 }
473 }
474 if (dfx_bus_tc) {
475 *bar_start = to_tc_dev(bdev)->resource.start +
476 PI_TC_K_CSR_OFFSET;
477 *bar_len = PI_TC_K_CSR_LEN;
478 }
479}
380 480
381/* 481/*
382 * ============= 482 * ================
383 * = dfx_init_one_pci_or_eisa = 483 * = dfx_register =
384 * ============= 484 * ================
385 * 485 *
386 * Overview: 486 * Overview:
387 * Initializes a supported FDDI EISA or PCI controller 487 * Initializes a supported FDDI controller
388 * 488 *
389 * Returns: 489 * Returns:
390 * Condition code 490 * Condition code
391 * 491 *
392 * Arguments: 492 * Arguments:
393 * pdev - pointer to pci device information (NULL for EISA) 493 * bdev - pointer to device information
394 * ioaddr - pointer to port (NULL for PCI)
395 * 494 *
396 * Functional Description: 495 * Functional Description:
397 * 496 *
@@ -407,56 +506,74 @@ static inline void dfx_port_read_long(
407 * initialized and the board resources are read and stored in 506 * initialized and the board resources are read and stored in
408 * the device structure. 507 * the device structure.
409 */ 508 */
410static int __devinit dfx_init_one_pci_or_eisa(struct pci_dev *pdev, long ioaddr) 509static int __devinit dfx_register(struct device *bdev)
411{ 510{
412 static int version_disp; 511 static int version_disp;
413 char *print_name = DRV_NAME; 512 int dfx_bus_pci = DFX_BUS_PCI(bdev);
513 int dfx_bus_tc = DFX_BUS_TC(bdev);
514 int dfx_use_mmio = DFX_MMIO || dfx_bus_tc;
515 char *print_name = bdev->bus_id;
414 struct net_device *dev; 516 struct net_device *dev;
415 DFX_board_t *bp; /* board pointer */ 517 DFX_board_t *bp; /* board pointer */
518 resource_size_t bar_start = 0; /* pointer to port */
519 resource_size_t bar_len = 0; /* resource length */
416 int alloc_size; /* total buffer size used */ 520 int alloc_size; /* total buffer size used */
417 int err; 521 struct resource *region;
522 int err = 0;
418 523
419 if (!version_disp) { /* display version info if adapter is found */ 524 if (!version_disp) { /* display version info if adapter is found */
420 version_disp = 1; /* set display flag to TRUE so that */ 525 version_disp = 1; /* set display flag to TRUE so that */
421 printk(version); /* we only display this string ONCE */ 526 printk(version); /* we only display this string ONCE */
422 } 527 }
423 528
424 if (pdev != NULL)
425 print_name = pci_name(pdev);
426
427 dev = alloc_fddidev(sizeof(*bp)); 529 dev = alloc_fddidev(sizeof(*bp));
428 if (!dev) { 530 if (!dev) {
429 printk(KERN_ERR "%s: unable to allocate fddidev, aborting\n", 531 printk(KERN_ERR "%s: Unable to allocate fddidev, aborting\n",
430 print_name); 532 print_name);
431 return -ENOMEM; 533 return -ENOMEM;
432 } 534 }
433 535
434 /* Enable PCI device. */ 536 /* Enable PCI device. */
435 if (pdev != NULL) { 537 if (dfx_bus_pci && pci_enable_device(to_pci_dev(bdev))) {
436 err = pci_enable_device (pdev); 538 printk(KERN_ERR "%s: Cannot enable PCI device, aborting\n",
437 if (err) goto err_out; 539 print_name);
438 ioaddr = pci_resource_start (pdev, 1); 540 goto err_out;
439 } 541 }
440 542
441 SET_MODULE_OWNER(dev); 543 SET_MODULE_OWNER(dev);
442 if (pdev != NULL) 544 SET_NETDEV_DEV(dev, bdev);
443 SET_NETDEV_DEV(dev, &pdev->dev); 545
546 bp = netdev_priv(dev);
547 bp->bus_dev = bdev;
548 dev_set_drvdata(bdev, dev);
444 549
445 bp = dev->priv; 550 dfx_get_bars(bdev, &bar_start, &bar_len);
446 551
447 if (!request_region(ioaddr, 552 if (dfx_use_mmio)
448 pdev ? PFI_K_CSR_IO_LEN : PI_ESIC_K_CSR_IO_LEN, 553 region = request_mem_region(bar_start, bar_len, print_name);
449 print_name)) { 554 else
555 region = request_region(bar_start, bar_len, print_name);
556 if (!region) {
450 printk(KERN_ERR "%s: Cannot reserve I/O resource " 557 printk(KERN_ERR "%s: Cannot reserve I/O resource "
451 "0x%x @ 0x%lx, aborting\n", print_name, 558 "0x%lx @ 0x%lx, aborting\n",
452 pdev ? PFI_K_CSR_IO_LEN : PI_ESIC_K_CSR_IO_LEN, ioaddr); 559 print_name, (long)bar_len, (long)bar_start);
453 err = -EBUSY; 560 err = -EBUSY;
454 goto err_out; 561 goto err_out_disable;
455 } 562 }
456 563
457 /* Initialize new device structure */ 564 /* Set up I/O base address. */
565 if (dfx_use_mmio) {
566 bp->base.mem = ioremap_nocache(bar_start, bar_len);
567 if (!bp->base.mem) {
568 printk(KERN_ERR "%s: Cannot map MMIO\n", print_name);
569 goto err_out_region;
570 }
571 } else {
572 bp->base.port = bar_start;
573 dev->base_addr = bar_start;
574 }
458 575
459 dev->base_addr = ioaddr; /* save port (I/O) base address */ 576 /* Initialize new device structure */
460 577
461 dev->get_stats = dfx_ctl_get_stats; 578 dev->get_stats = dfx_ctl_get_stats;
462 dev->open = dfx_open; 579 dev->open = dfx_open;
@@ -465,22 +582,12 @@ static int __devinit dfx_init_one_pci_or_eisa(struct pci_dev *pdev, long ioaddr)
465 dev->set_multicast_list = dfx_ctl_set_multicast_list; 582 dev->set_multicast_list = dfx_ctl_set_multicast_list;
466 dev->set_mac_address = dfx_ctl_set_mac_address; 583 dev->set_mac_address = dfx_ctl_set_mac_address;
467 584
468 if (pdev == NULL) { 585 if (dfx_bus_pci)
469 /* EISA board */ 586 pci_set_master(to_pci_dev(bdev));
470 bp->bus_type = DFX_BUS_TYPE_EISA;
471 bp->next = root_dfx_eisa_dev;
472 root_dfx_eisa_dev = dev;
473 } else {
474 /* PCI board */
475 bp->bus_type = DFX_BUS_TYPE_PCI;
476 bp->pci_dev = pdev;
477 pci_set_drvdata (pdev, dev);
478 pci_set_master (pdev);
479 }
480 587
481 if (dfx_driver_init(dev, print_name) != DFX_K_SUCCESS) { 588 if (dfx_driver_init(dev, print_name, bar_start) != DFX_K_SUCCESS) {
482 err = -ENODEV; 589 err = -ENODEV;
483 goto err_out_region; 590 goto err_out_unmap;
484 } 591 }
485 592
486 err = register_netdev(dev); 593 err = register_netdev(dev);
@@ -499,44 +606,28 @@ err_out_kfree:
499 sizeof(PI_CONSUMER_BLOCK) + 606 sizeof(PI_CONSUMER_BLOCK) +
500 (PI_ALIGN_K_DESC_BLK - 1); 607 (PI_ALIGN_K_DESC_BLK - 1);
501 if (bp->kmalloced) 608 if (bp->kmalloced)
502 pci_free_consistent(pdev, alloc_size, 609 dma_free_coherent(bdev, alloc_size,
503 bp->kmalloced, bp->kmalloced_dma); 610 bp->kmalloced, bp->kmalloced_dma);
611
612err_out_unmap:
613 if (dfx_use_mmio)
614 iounmap(bp->base.mem);
615
504err_out_region: 616err_out_region:
505 release_region(ioaddr, pdev ? PFI_K_CSR_IO_LEN : PI_ESIC_K_CSR_IO_LEN); 617 if (dfx_use_mmio)
618 release_mem_region(bar_start, bar_len);
619 else
620 release_region(bar_start, bar_len);
621
622err_out_disable:
623 if (dfx_bus_pci)
624 pci_disable_device(to_pci_dev(bdev));
625
506err_out: 626err_out:
507 free_netdev(dev); 627 free_netdev(dev);
508 return err; 628 return err;
509} 629}
510 630
511static int __devinit dfx_init_one(struct pci_dev *pdev, const struct pci_device_id *ent)
512{
513 return dfx_init_one_pci_or_eisa(pdev, 0);
514}
515
516static int __init dfx_eisa_init(void)
517{
518 int rc = -ENODEV;
519 int i; /* used in for loops */
520 u16 port; /* temporary I/O (port) address */
521 u32 slot_id; /* EISA hardware (slot) ID read from adapter */
522
523 DBG_printk("In dfx_eisa_init...\n");
524
525 /* Scan for FDDI EISA controllers */
526
527 for (i=0; i < DFX_MAX_EISA_SLOTS; i++) /* only scan for up to 16 EISA slots */
528 {
529 port = (i << 12) + PI_ESIC_K_SLOT_ID; /* port = I/O address for reading slot ID */
530 slot_id = inl(port); /* read EISA HW (slot) ID */
531 if ((slot_id & 0xF0FFFFFF) == DEFEA_PRODUCT_ID)
532 {
533 port = (i << 12); /* recalc base addr */
534
535 if (dfx_init_one_pci_or_eisa(NULL, port) == 0) rc = 0;
536 }
537 }
538 return rc;
539}
540 631
541/* 632/*
542 * ================ 633 * ================
@@ -544,7 +635,7 @@ static int __init dfx_eisa_init(void)
544 * ================ 635 * ================
545 * 636 *
546 * Overview: 637 * Overview:
547 * Initializes EISA and PCI controller bus-specific logic. 638 * Initializes the bus-specific controller logic.
548 * 639 *
549 * Returns: 640 * Returns:
550 * None 641 * None
@@ -560,7 +651,7 @@ static int __init dfx_eisa_init(void)
560 * None 651 * None
561 * 652 *
562 * Assumptions: 653 * Assumptions:
563 * dev->base_addr has already been set with the proper 654 * bp->base has already been set with the proper
564 * base I/O address for this device. 655 * base I/O address for this device.
565 * 656 *
566 * Side Effects: 657 * Side Effects:
@@ -571,87 +662,103 @@ static int __init dfx_eisa_init(void)
571 662
572static void __devinit dfx_bus_init(struct net_device *dev) 663static void __devinit dfx_bus_init(struct net_device *dev)
573{ 664{
574 DFX_board_t *bp = dev->priv; 665 DFX_board_t *bp = netdev_priv(dev);
575 u8 val; /* used for I/O read/writes */ 666 struct device *bdev = bp->bus_dev;
667 int dfx_bus_pci = DFX_BUS_PCI(bdev);
668 int dfx_bus_eisa = DFX_BUS_EISA(bdev);
669 int dfx_bus_tc = DFX_BUS_TC(bdev);
670 int dfx_use_mmio = DFX_MMIO || dfx_bus_tc;
671 u8 val;
576 672
577 DBG_printk("In dfx_bus_init...\n"); 673 DBG_printk("In dfx_bus_init...\n");
578 674
579 /* 675 /* Initialize a pointer back to the net_device struct */
580 * Initialize base I/O address field in bp structure
581 *
582 * Note: bp->base_addr is the same as dev->base_addr.
583 * It's useful because often we'll need to read
584 * or write registers where we already have the
585 * bp pointer instead of the dev pointer. Having
586 * the base address in the bp structure will
587 * save a pointer dereference.
588 *
589 * IMPORTANT!! This field must be defined before
590 * any of the dfx_port_* inline functions are
591 * called.
592 */
593
594 bp->base_addr = dev->base_addr;
595
596 /* And a pointer back to the net_device struct */
597 bp->dev = dev; 676 bp->dev = dev;
598 677
599 /* Initialize adapter based on bus type */ 678 /* Initialize adapter based on bus type */
600 679
601 if (bp->bus_type == DFX_BUS_TYPE_EISA) 680 if (dfx_bus_tc)
602 { 681 dev->irq = to_tc_dev(bdev)->interrupt;
603 /* Get the interrupt level from the ESIC chip */ 682 if (dfx_bus_eisa) {
604 683 unsigned long base_addr = to_eisa_device(bdev)->base_addr;
605 dfx_port_read_byte(bp, PI_ESIC_K_IO_CONFIG_STAT_0, &val);
606 switch ((val & PI_CONFIG_STAT_0_M_IRQ) >> PI_CONFIG_STAT_0_V_IRQ)
607 {
608 case PI_CONFIG_STAT_0_IRQ_K_9:
609 dev->irq = 9;
610 break;
611
612 case PI_CONFIG_STAT_0_IRQ_K_10:
613 dev->irq = 10;
614 break;
615 684
616 case PI_CONFIG_STAT_0_IRQ_K_11: 685 /* Get the interrupt level from the ESIC chip. */
617 dev->irq = 11; 686 val = inb(base_addr + PI_ESIC_K_IO_CONFIG_STAT_0);
618 break; 687 val &= PI_CONFIG_STAT_0_M_IRQ;
688 val >>= PI_CONFIG_STAT_0_V_IRQ;
619 689
620 case PI_CONFIG_STAT_0_IRQ_K_15: 690 switch (val) {
621 dev->irq = 15; 691 case PI_CONFIG_STAT_0_IRQ_K_9:
622 break; 692 dev->irq = 9;
623 } 693 break;
624
625 /* Enable access to I/O on the board by writing 0x03 to Function Control Register */
626 694
627 dfx_port_write_byte(bp, PI_ESIC_K_FUNCTION_CNTRL, PI_ESIC_K_FUNCTION_CNTRL_IO_ENB); 695 case PI_CONFIG_STAT_0_IRQ_K_10:
696 dev->irq = 10;
697 break;
628 698
629 /* Set the I/O decode range of the board */ 699 case PI_CONFIG_STAT_0_IRQ_K_11:
700 dev->irq = 11;
701 break;
630 702
631 val = ((dev->base_addr >> 12) << PI_IO_CMP_V_SLOT); 703 case PI_CONFIG_STAT_0_IRQ_K_15:
632 dfx_port_write_byte(bp, PI_ESIC_K_IO_CMP_0_1, val); 704 dev->irq = 15;
633 dfx_port_write_byte(bp, PI_ESIC_K_IO_CMP_1_1, val); 705 break;
706 }
634 707
635 /* Enable access to rest of module (including PDQ and packet memory) */ 708 /*
709 * Enable memory decoding (MEMCS0) and/or port decoding
710 * (IOCS1/IOCS0) as appropriate in Function Control
711 * Register. One of the port chip selects seems to be
712 * used for the Burst Holdoff register, but this bit of
713 * documentation is missing and as yet it has not been
714 * determined which of the two. This is also the reason
715 * the size of the decoded port range is twice as large
716 * as one required by the PDQ.
717 */
636 718
637 dfx_port_write_byte(bp, PI_ESIC_K_SLOT_CNTRL, PI_SLOT_CNTRL_M_ENB); 719 /* Set the decode range of the board. */
720 val = ((bp->base.port >> 12) << PI_IO_CMP_V_SLOT);
721 outb(base_addr + PI_ESIC_K_IO_ADD_CMP_0_1, val);
722 outb(base_addr + PI_ESIC_K_IO_ADD_CMP_0_0, 0);
723 outb(base_addr + PI_ESIC_K_IO_ADD_CMP_1_1, val);
724 outb(base_addr + PI_ESIC_K_IO_ADD_CMP_1_0, 0);
725 val = PI_ESIC_K_CSR_IO_LEN - 1;
726 outb(base_addr + PI_ESIC_K_IO_ADD_MASK_0_1, (val >> 8) & 0xff);
727 outb(base_addr + PI_ESIC_K_IO_ADD_MASK_0_0, val & 0xff);
728 outb(base_addr + PI_ESIC_K_IO_ADD_MASK_1_1, (val >> 8) & 0xff);
729 outb(base_addr + PI_ESIC_K_IO_ADD_MASK_1_0, val & 0xff);
730
731 /* Enable the decoders. */
732 val = PI_FUNCTION_CNTRL_M_IOCS1 | PI_FUNCTION_CNTRL_M_IOCS0;
733 if (dfx_use_mmio)
734 val |= PI_FUNCTION_CNTRL_M_MEMCS0;
735 outb(base_addr + PI_ESIC_K_FUNCTION_CNTRL, val);
638 736
639 /* 737 /*
640 * Map PDQ registers into I/O space. This is done by clearing a bit 738 * Enable access to the rest of the module
641 * in Burst Holdoff register. 739 * (including PDQ and packet memory).
642 */ 740 */
741 val = PI_SLOT_CNTRL_M_ENB;
742 outb(base_addr + PI_ESIC_K_SLOT_CNTRL, val);
643 743
644 dfx_port_read_byte(bp, PI_ESIC_K_BURST_HOLDOFF, &val); 744 /*
645 dfx_port_write_byte(bp, PI_ESIC_K_BURST_HOLDOFF, (val & ~PI_BURST_HOLDOFF_M_MEM_MAP)); 745 * Map PDQ registers into memory or port space. This is
746 * done with a bit in the Burst Holdoff register.
747 */
748 val = inb(base_addr + PI_DEFEA_K_BURST_HOLDOFF);
749 if (dfx_use_mmio)
750 val |= PI_BURST_HOLDOFF_V_MEM_MAP;
751 else
752 val &= ~PI_BURST_HOLDOFF_V_MEM_MAP;
753 outb(base_addr + PI_DEFEA_K_BURST_HOLDOFF, val);
646 754
647 /* Enable interrupts at EISA bus interface chip (ESIC) */ 755 /* Enable interrupts at EISA bus interface chip (ESIC) */
648 756 val = inb(base_addr + PI_ESIC_K_IO_CONFIG_STAT_0);
649 dfx_port_read_byte(bp, PI_ESIC_K_IO_CONFIG_STAT_0, &val); 757 val |= PI_CONFIG_STAT_0_M_INT_ENB;
650 dfx_port_write_byte(bp, PI_ESIC_K_IO_CONFIG_STAT_0, (val | PI_CONFIG_STAT_0_M_INT_ENB)); 758 outb(base_addr + PI_ESIC_K_IO_CONFIG_STAT_0, val);
651 } 759 }
652 else 760 if (dfx_bus_pci) {
653 { 761 struct pci_dev *pdev = to_pci_dev(bdev);
654 struct pci_dev *pdev = bp->pci_dev;
655 762
656 /* Get the interrupt level from the PCI Configuration Table */ 763 /* Get the interrupt level from the PCI Configuration Table */
657 764
@@ -660,17 +767,70 @@ static void __devinit dfx_bus_init(struct net_device *dev)
660 /* Check Latency Timer and set if less than minimal */ 767 /* Check Latency Timer and set if less than minimal */
661 768
662 pci_read_config_byte(pdev, PCI_LATENCY_TIMER, &val); 769 pci_read_config_byte(pdev, PCI_LATENCY_TIMER, &val);
663 if (val < PFI_K_LAT_TIMER_MIN) /* if less than min, override with default */ 770 if (val < PFI_K_LAT_TIMER_MIN) {
664 {
665 val = PFI_K_LAT_TIMER_DEF; 771 val = PFI_K_LAT_TIMER_DEF;
666 pci_write_config_byte(pdev, PCI_LATENCY_TIMER, val); 772 pci_write_config_byte(pdev, PCI_LATENCY_TIMER, val);
667 } 773 }
668 774
669 /* Enable interrupts at PCI bus interface chip (PFI) */ 775 /* Enable interrupts at PCI bus interface chip (PFI) */
776 val = PFI_MODE_M_PDQ_INT_ENB | PFI_MODE_M_DMA_ENB;
777 dfx_port_write_long(bp, PFI_K_REG_MODE_CTRL, val);
778 }
779}
670 780
671 dfx_port_write_long(bp, PFI_K_REG_MODE_CTRL, (PFI_MODE_M_PDQ_INT_ENB | PFI_MODE_M_DMA_ENB)); 781/*
672 } 782 * ==================
783 * = dfx_bus_uninit =
784 * ==================
785 *
786 * Overview:
787 * Uninitializes the bus-specific controller logic.
788 *
789 * Returns:
790 * None
791 *
792 * Arguments:
793 * dev - pointer to device information
794 *
795 * Functional Description:
796 * Perform bus-specific logic uninitialization.
797 *
798 * Return Codes:
799 * None
800 *
801 * Assumptions:
802 * bp->base has already been set with the proper
803 * base I/O address for this device.
804 *
805 * Side Effects:
806 * Interrupts are disabled at the adapter bus-specific logic.
807 */
808
809static void __devinit dfx_bus_uninit(struct net_device *dev)
810{
811 DFX_board_t *bp = netdev_priv(dev);
812 struct device *bdev = bp->bus_dev;
813 int dfx_bus_pci = DFX_BUS_PCI(bdev);
814 int dfx_bus_eisa = DFX_BUS_EISA(bdev);
815 u8 val;
816
817 DBG_printk("In dfx_bus_uninit...\n");
818
819 /* Uninitialize adapter based on bus type */
820
821 if (dfx_bus_eisa) {
822 unsigned long base_addr = to_eisa_device(bdev)->base_addr;
823
824 /* Disable interrupts at EISA bus interface chip (ESIC) */
825 val = inb(base_addr + PI_ESIC_K_IO_CONFIG_STAT_0);
826 val &= ~PI_CONFIG_STAT_0_M_INT_ENB;
827 outb(base_addr + PI_ESIC_K_IO_CONFIG_STAT_0, val);
828 }
829 if (dfx_bus_pci) {
830 /* Disable interrupts at PCI bus interface chip (PFI) */
831 dfx_port_write_long(bp, PFI_K_REG_MODE_CTRL, 0);
673 } 832 }
833}
674 834
675 835
676/* 836/*
@@ -705,18 +865,16 @@ static void __devinit dfx_bus_init(struct net_device *dev)
705 865
706static void __devinit dfx_bus_config_check(DFX_board_t *bp) 866static void __devinit dfx_bus_config_check(DFX_board_t *bp)
707{ 867{
868 struct device __unused *bdev = bp->bus_dev;
869 int dfx_bus_eisa = DFX_BUS_EISA(bdev);
708 int status; /* return code from adapter port control call */ 870 int status; /* return code from adapter port control call */
709 u32 slot_id; /* EISA-bus hardware id (DEC3001, DEC3002,...) */
710 u32 host_data; /* LW data returned from port control call */ 871 u32 host_data; /* LW data returned from port control call */
711 872
712 DBG_printk("In dfx_bus_config_check...\n"); 873 DBG_printk("In dfx_bus_config_check...\n");
713 874
714 /* Configuration check only valid for EISA adapter */ 875 /* Configuration check only valid for EISA adapter */
715 876
716 if (bp->bus_type == DFX_BUS_TYPE_EISA) 877 if (dfx_bus_eisa) {
717 {
718 dfx_port_read_long(bp, PI_ESIC_K_SLOT_ID, &slot_id);
719
720 /* 878 /*
721 * First check if revision 2 EISA controller. Rev. 1 cards used 879 * First check if revision 2 EISA controller. Rev. 1 cards used
722 * PDQ revision B, so no workaround needed in this case. Rev. 3 880 * PDQ revision B, so no workaround needed in this case. Rev. 3
@@ -724,14 +882,11 @@ static void __devinit dfx_bus_config_check(DFX_board_t *bp)
724 * case, either. Only Rev. 2 cards used either Rev. D or E 882 * case, either. Only Rev. 2 cards used either Rev. D or E
725 * chips, so we must verify the chip revision on Rev. 2 cards. 883 * chips, so we must verify the chip revision on Rev. 2 cards.
726 */ 884 */
727 885 if (to_eisa_device(bdev)->id.driver_data == DEFEA_PROD_ID_2) {
728 if (slot_id == DEFEA_PROD_ID_2)
729 {
730 /* 886 /*
731 * Revision 2 FDDI EISA controller found, so let's check PDQ 887 * Revision 2 FDDI EISA controller found,
732 * revision of adapter. 888 * so let's check PDQ revision of adapter.
733 */ 889 */
734
735 status = dfx_hw_port_ctrl_req(bp, 890 status = dfx_hw_port_ctrl_req(bp,
736 PI_PCTRL_M_SUB_CMD, 891 PI_PCTRL_M_SUB_CMD,
737 PI_SUB_CMD_K_PDQ_REV_GET, 892 PI_SUB_CMD_K_PDQ_REV_GET,
@@ -805,13 +960,20 @@ static void __devinit dfx_bus_config_check(DFX_board_t *bp)
805 */ 960 */
806 961
807static int __devinit dfx_driver_init(struct net_device *dev, 962static int __devinit dfx_driver_init(struct net_device *dev,
808 const char *print_name) 963 const char *print_name,
964 resource_size_t bar_start)
809{ 965{
810 DFX_board_t *bp = dev->priv; 966 DFX_board_t *bp = netdev_priv(dev);
811 int alloc_size; /* total buffer size needed */ 967 struct device *bdev = bp->bus_dev;
812 char *top_v, *curr_v; /* virtual addrs into memory block */ 968 int dfx_bus_pci = DFX_BUS_PCI(bdev);
813 dma_addr_t top_p, curr_p; /* physical addrs into memory block */ 969 int dfx_bus_eisa = DFX_BUS_EISA(bdev);
814 u32 data; /* host data register value */ 970 int dfx_bus_tc = DFX_BUS_TC(bdev);
971 int dfx_use_mmio = DFX_MMIO || dfx_bus_tc;
972 int alloc_size; /* total buffer size needed */
973 char *top_v, *curr_v; /* virtual addrs into memory block */
974 dma_addr_t top_p, curr_p; /* physical addrs into memory block */
975 u32 data, le32; /* host data register value */
976 char *board_name = NULL;
815 977
816 DBG_printk("In dfx_driver_init...\n"); 978 DBG_printk("In dfx_driver_init...\n");
817 979
@@ -860,8 +1022,8 @@ static int __devinit dfx_driver_init(struct net_device *dev,
860 print_name); 1022 print_name);
861 return(DFX_K_FAILURE); 1023 return(DFX_K_FAILURE);
862 } 1024 }
863 data = cpu_to_le32(data); 1025 le32 = cpu_to_le32(data);
864 memcpy(&bp->factory_mac_addr[0], &data, sizeof(u32)); 1026 memcpy(&bp->factory_mac_addr[0], &le32, sizeof(u32));
865 1027
866 if (dfx_hw_port_ctrl_req(bp, PI_PCTRL_M_MLA, PI_PDATA_A_MLA_K_HI, 0, 1028 if (dfx_hw_port_ctrl_req(bp, PI_PCTRL_M_MLA, PI_PDATA_A_MLA_K_HI, 0,
867 &data) != DFX_K_SUCCESS) { 1029 &data) != DFX_K_SUCCESS) {
@@ -869,8 +1031,8 @@ static int __devinit dfx_driver_init(struct net_device *dev,
869 print_name); 1031 print_name);
870 return(DFX_K_FAILURE); 1032 return(DFX_K_FAILURE);
871 } 1033 }
872 data = cpu_to_le32(data); 1034 le32 = cpu_to_le32(data);
873 memcpy(&bp->factory_mac_addr[4], &data, sizeof(u16)); 1035 memcpy(&bp->factory_mac_addr[4], &le32, sizeof(u16));
874 1036
875 /* 1037 /*
876 * Set current address to factory address 1038 * Set current address to factory address
@@ -880,20 +1042,18 @@ static int __devinit dfx_driver_init(struct net_device *dev,
880 */ 1042 */
881 1043
882 memcpy(dev->dev_addr, bp->factory_mac_addr, FDDI_K_ALEN); 1044 memcpy(dev->dev_addr, bp->factory_mac_addr, FDDI_K_ALEN);
883 if (bp->bus_type == DFX_BUS_TYPE_EISA) 1045 if (dfx_bus_tc)
884 printk("%s: DEFEA at I/O addr = 0x%lX, IRQ = %d, " 1046 board_name = "DEFTA";
885 "Hardware addr = %02X-%02X-%02X-%02X-%02X-%02X\n", 1047 if (dfx_bus_eisa)
886 print_name, dev->base_addr, dev->irq, 1048 board_name = "DEFEA";
887 dev->dev_addr[0], dev->dev_addr[1], 1049 if (dfx_bus_pci)
888 dev->dev_addr[2], dev->dev_addr[3], 1050 board_name = "DEFPA";
889 dev->dev_addr[4], dev->dev_addr[5]); 1051 pr_info("%s: %s at %saddr = 0x%llx, IRQ = %d, "
890 else 1052 "Hardware addr = %02X-%02X-%02X-%02X-%02X-%02X\n",
891 printk("%s: DEFPA at I/O addr = 0x%lX, IRQ = %d, " 1053 print_name, board_name, dfx_use_mmio ? "" : "I/O ",
892 "Hardware addr = %02X-%02X-%02X-%02X-%02X-%02X\n", 1054 (long long)bar_start, dev->irq,
893 print_name, dev->base_addr, dev->irq, 1055 dev->dev_addr[0], dev->dev_addr[1], dev->dev_addr[2],
894 dev->dev_addr[0], dev->dev_addr[1], 1056 dev->dev_addr[3], dev->dev_addr[4], dev->dev_addr[5]);
895 dev->dev_addr[2], dev->dev_addr[3],
896 dev->dev_addr[4], dev->dev_addr[5]);
897 1057
898 /* 1058 /*
899 * Get memory for descriptor block, consumer block, and other buffers 1059 * Get memory for descriptor block, consumer block, and other buffers
@@ -908,8 +1068,9 @@ static int __devinit dfx_driver_init(struct net_device *dev,
908#endif 1068#endif
909 sizeof(PI_CONSUMER_BLOCK) + 1069 sizeof(PI_CONSUMER_BLOCK) +
910 (PI_ALIGN_K_DESC_BLK - 1); 1070 (PI_ALIGN_K_DESC_BLK - 1);
911 bp->kmalloced = top_v = pci_alloc_consistent(bp->pci_dev, alloc_size, 1071 bp->kmalloced = top_v = dma_alloc_coherent(bp->bus_dev, alloc_size,
912 &bp->kmalloced_dma); 1072 &bp->kmalloced_dma,
1073 GFP_ATOMIC);
913 if (top_v == NULL) { 1074 if (top_v == NULL) {
914 printk("%s: Could not allocate memory for host buffers " 1075 printk("%s: Could not allocate memory for host buffers "
915 "and structures!\n", print_name); 1076 "and structures!\n", print_name);
@@ -1219,14 +1380,15 @@ static int dfx_adap_init(DFX_board_t *bp, int get_buffers)
1219 1380
1220static int dfx_open(struct net_device *dev) 1381static int dfx_open(struct net_device *dev)
1221{ 1382{
1383 DFX_board_t *bp = netdev_priv(dev);
1222 int ret; 1384 int ret;
1223 DFX_board_t *bp = dev->priv;
1224 1385
1225 DBG_printk("In dfx_open...\n"); 1386 DBG_printk("In dfx_open...\n");
1226 1387
1227 /* Register IRQ - support shared interrupts by passing device ptr */ 1388 /* Register IRQ - support shared interrupts by passing device ptr */
1228 1389
1229 ret = request_irq(dev->irq, dfx_interrupt, IRQF_SHARED, dev->name, dev); 1390 ret = request_irq(dev->irq, dfx_interrupt, IRQF_SHARED, dev->name,
1391 dev);
1230 if (ret) { 1392 if (ret) {
1231 printk(KERN_ERR "%s: Requested IRQ %d is busy\n", dev->name, dev->irq); 1393 printk(KERN_ERR "%s: Requested IRQ %d is busy\n", dev->name, dev->irq);
1232 return ret; 1394 return ret;
@@ -1309,7 +1471,7 @@ static int dfx_open(struct net_device *dev)
1309 1471
1310static int dfx_close(struct net_device *dev) 1472static int dfx_close(struct net_device *dev)
1311{ 1473{
1312 DFX_board_t *bp = dev->priv; 1474 DFX_board_t *bp = netdev_priv(dev);
1313 1475
1314 DBG_printk("In dfx_close...\n"); 1476 DBG_printk("In dfx_close...\n");
1315 1477
@@ -1645,7 +1807,7 @@ static void dfx_int_type_0_process(DFX_board_t *bp)
1645 1807
1646static void dfx_int_common(struct net_device *dev) 1808static void dfx_int_common(struct net_device *dev)
1647{ 1809{
1648 DFX_board_t *bp = dev->priv; 1810 DFX_board_t *bp = netdev_priv(dev);
1649 PI_UINT32 port_status; /* Port Status register */ 1811 PI_UINT32 port_status; /* Port Status register */
1650 1812
1651 /* Process xmt interrupts - frequent case, so always call this routine */ 1813 /* Process xmt interrupts - frequent case, so always call this routine */
@@ -1715,18 +1877,16 @@ static void dfx_int_common(struct net_device *dev)
1715 1877
1716static irqreturn_t dfx_interrupt(int irq, void *dev_id) 1878static irqreturn_t dfx_interrupt(int irq, void *dev_id)
1717{ 1879{
1718 struct net_device *dev = dev_id; 1880 struct net_device *dev = dev_id;
1719 DFX_board_t *bp; /* private board structure pointer */ 1881 DFX_board_t *bp = netdev_priv(dev);
1720 1882 struct device *bdev = bp->bus_dev;
1721 /* Get board pointer only if device structure is valid */ 1883 int dfx_bus_pci = DFX_BUS_PCI(bdev);
1722 1884 int dfx_bus_eisa = DFX_BUS_EISA(bdev);
1723 bp = dev->priv; 1885 int dfx_bus_tc = DFX_BUS_TC(bdev);
1724
1725 /* See if we're already servicing an interrupt */
1726 1886
1727 /* Service adapter interrupts */ 1887 /* Service adapter interrupts */
1728 1888
1729 if (bp->bus_type == DFX_BUS_TYPE_PCI) { 1889 if (dfx_bus_pci) {
1730 u32 status; 1890 u32 status;
1731 1891
1732 dfx_port_read_long(bp, PFI_K_REG_STATUS, &status); 1892 dfx_port_read_long(bp, PFI_K_REG_STATUS, &status);
@@ -1750,10 +1910,12 @@ static irqreturn_t dfx_interrupt(int irq, void *dev_id)
1750 PFI_MODE_M_DMA_ENB)); 1910 PFI_MODE_M_DMA_ENB));
1751 1911
1752 spin_unlock(&bp->lock); 1912 spin_unlock(&bp->lock);
1753 } else { 1913 }
1914 if (dfx_bus_eisa) {
1915 unsigned long base_addr = to_eisa_device(bdev)->base_addr;
1754 u8 status; 1916 u8 status;
1755 1917
1756 dfx_port_read_byte(bp, PI_ESIC_K_IO_CONFIG_STAT_0, &status); 1918 status = inb(base_addr + PI_ESIC_K_IO_CONFIG_STAT_0);
1757 if (!(status & PI_CONFIG_STAT_0_M_PEND)) 1919 if (!(status & PI_CONFIG_STAT_0_M_PEND))
1758 return IRQ_NONE; 1920 return IRQ_NONE;
1759 1921
@@ -1761,15 +1923,35 @@ static irqreturn_t dfx_interrupt(int irq, void *dev_id)
1761 1923
1762 /* Disable interrupts at the ESIC */ 1924 /* Disable interrupts at the ESIC */
1763 status &= ~PI_CONFIG_STAT_0_M_INT_ENB; 1925 status &= ~PI_CONFIG_STAT_0_M_INT_ENB;
1764 dfx_port_write_byte(bp, PI_ESIC_K_IO_CONFIG_STAT_0, status); 1926 outb(base_addr + PI_ESIC_K_IO_CONFIG_STAT_0, status);
1765 1927
1766 /* Call interrupt service routine for this adapter */ 1928 /* Call interrupt service routine for this adapter */
1767 dfx_int_common(dev); 1929 dfx_int_common(dev);
1768 1930
1769 /* Reenable interrupts at the ESIC */ 1931 /* Reenable interrupts at the ESIC */
1770 dfx_port_read_byte(bp, PI_ESIC_K_IO_CONFIG_STAT_0, &status); 1932 status = inb(base_addr + PI_ESIC_K_IO_CONFIG_STAT_0);
1771 status |= PI_CONFIG_STAT_0_M_INT_ENB; 1933 status |= PI_CONFIG_STAT_0_M_INT_ENB;
1772 dfx_port_write_byte(bp, PI_ESIC_K_IO_CONFIG_STAT_0, status); 1934 outb(base_addr + PI_ESIC_K_IO_CONFIG_STAT_0, status);
1935
1936 spin_unlock(&bp->lock);
1937 }
1938 if (dfx_bus_tc) {
1939 u32 status;
1940
1941 dfx_port_read_long(bp, PI_PDQ_K_REG_PORT_STATUS, &status);
1942 if (!(status & (PI_PSTATUS_M_RCV_DATA_PENDING |
1943 PI_PSTATUS_M_XMT_DATA_PENDING |
1944 PI_PSTATUS_M_SMT_HOST_PENDING |
1945 PI_PSTATUS_M_UNSOL_PENDING |
1946 PI_PSTATUS_M_CMD_RSP_PENDING |
1947 PI_PSTATUS_M_CMD_REQ_PENDING |
1948 PI_PSTATUS_M_TYPE_0_PENDING)))
1949 return IRQ_NONE;
1950
1951 spin_lock(&bp->lock);
1952
1953 /* Call interrupt service routine for this adapter */
1954 dfx_int_common(dev);
1773 1955
1774 spin_unlock(&bp->lock); 1956 spin_unlock(&bp->lock);
1775 } 1957 }
@@ -1823,7 +2005,7 @@ static irqreturn_t dfx_interrupt(int irq, void *dev_id)
1823 2005
1824static struct net_device_stats *dfx_ctl_get_stats(struct net_device *dev) 2006static struct net_device_stats *dfx_ctl_get_stats(struct net_device *dev)
1825 { 2007 {
1826 DFX_board_t *bp = dev->priv; 2008 DFX_board_t *bp = netdev_priv(dev);
1827 2009
1828 /* Fill the bp->stats structure with driver-maintained counters */ 2010 /* Fill the bp->stats structure with driver-maintained counters */
1829 2011
@@ -2009,8 +2191,8 @@ static struct net_device_stats *dfx_ctl_get_stats(struct net_device *dev)
2009 */ 2191 */
2010 2192
2011static void dfx_ctl_set_multicast_list(struct net_device *dev) 2193static void dfx_ctl_set_multicast_list(struct net_device *dev)
2012 { 2194{
2013 DFX_board_t *bp = dev->priv; 2195 DFX_board_t *bp = netdev_priv(dev);
2014 int i; /* used as index in for loop */ 2196 int i; /* used as index in for loop */
2015 struct dev_mc_list *dmi; /* ptr to multicast addr entry */ 2197 struct dev_mc_list *dmi; /* ptr to multicast addr entry */
2016 2198
@@ -2124,8 +2306,8 @@ static void dfx_ctl_set_multicast_list(struct net_device *dev)
2124 2306
2125static int dfx_ctl_set_mac_address(struct net_device *dev, void *addr) 2307static int dfx_ctl_set_mac_address(struct net_device *dev, void *addr)
2126 { 2308 {
2127 DFX_board_t *bp = dev->priv;
2128 struct sockaddr *p_sockaddr = (struct sockaddr *)addr; 2309 struct sockaddr *p_sockaddr = (struct sockaddr *)addr;
2310 DFX_board_t *bp = netdev_priv(dev);
2129 2311
2130 /* Copy unicast address to driver-maintained structs and update count */ 2312 /* Copy unicast address to driver-maintained structs and update count */
2131 2313
@@ -2764,9 +2946,9 @@ static int dfx_rcv_init(DFX_board_t *bp, int get_buffers)
2764 2946
2765 my_skb_align(newskb, 128); 2947 my_skb_align(newskb, 128);
2766 bp->descr_block_virt->rcv_data[i + j].long_1 = 2948 bp->descr_block_virt->rcv_data[i + j].long_1 =
2767 (u32)pci_map_single(bp->pci_dev, newskb->data, 2949 (u32)dma_map_single(bp->bus_dev, newskb->data,
2768 NEW_SKB_SIZE, 2950 NEW_SKB_SIZE,
2769 PCI_DMA_FROMDEVICE); 2951 DMA_FROM_DEVICE);
2770 /* 2952 /*
2771 * p_rcv_buff_va is only used inside the 2953 * p_rcv_buff_va is only used inside the
2772 * kernel so we put the skb pointer here. 2954 * kernel so we put the skb pointer here.
@@ -2880,17 +3062,17 @@ static void dfx_rcv_queue_process(
2880 3062
2881 my_skb_align(newskb, 128); 3063 my_skb_align(newskb, 128);
2882 skb = (struct sk_buff *)bp->p_rcv_buff_va[entry]; 3064 skb = (struct sk_buff *)bp->p_rcv_buff_va[entry];
2883 pci_unmap_single(bp->pci_dev, 3065 dma_unmap_single(bp->bus_dev,
2884 bp->descr_block_virt->rcv_data[entry].long_1, 3066 bp->descr_block_virt->rcv_data[entry].long_1,
2885 NEW_SKB_SIZE, 3067 NEW_SKB_SIZE,
2886 PCI_DMA_FROMDEVICE); 3068 DMA_FROM_DEVICE);
2887 skb_reserve(skb, RCV_BUFF_K_PADDING); 3069 skb_reserve(skb, RCV_BUFF_K_PADDING);
2888 bp->p_rcv_buff_va[entry] = (char *)newskb; 3070 bp->p_rcv_buff_va[entry] = (char *)newskb;
2889 bp->descr_block_virt->rcv_data[entry].long_1 = 3071 bp->descr_block_virt->rcv_data[entry].long_1 =
2890 (u32)pci_map_single(bp->pci_dev, 3072 (u32)dma_map_single(bp->bus_dev,
2891 newskb->data, 3073 newskb->data,
2892 NEW_SKB_SIZE, 3074 NEW_SKB_SIZE,
2893 PCI_DMA_FROMDEVICE); 3075 DMA_FROM_DEVICE);
2894 } else 3076 } else
2895 skb = NULL; 3077 skb = NULL;
2896 } else 3078 } else
@@ -3010,7 +3192,7 @@ static int dfx_xmt_queue_pkt(
3010 ) 3192 )
3011 3193
3012 { 3194 {
3013 DFX_board_t *bp = dev->priv; 3195 DFX_board_t *bp = netdev_priv(dev);
3014 u8 prod; /* local transmit producer index */ 3196 u8 prod; /* local transmit producer index */
3015 PI_XMT_DESCR *p_xmt_descr; /* ptr to transmit descriptor block entry */ 3197 PI_XMT_DESCR *p_xmt_descr; /* ptr to transmit descriptor block entry */
3016 XMT_DRIVER_DESCR *p_xmt_drv_descr; /* ptr to transmit driver descriptor */ 3198 XMT_DRIVER_DESCR *p_xmt_drv_descr; /* ptr to transmit driver descriptor */
@@ -3116,8 +3298,8 @@ static int dfx_xmt_queue_pkt(
3116 */ 3298 */
3117 3299
3118 p_xmt_descr->long_0 = (u32) (PI_XMT_DESCR_M_SOP | PI_XMT_DESCR_M_EOP | ((skb->len) << PI_XMT_DESCR_V_SEG_LEN)); 3300 p_xmt_descr->long_0 = (u32) (PI_XMT_DESCR_M_SOP | PI_XMT_DESCR_M_EOP | ((skb->len) << PI_XMT_DESCR_V_SEG_LEN));
3119 p_xmt_descr->long_1 = (u32)pci_map_single(bp->pci_dev, skb->data, 3301 p_xmt_descr->long_1 = (u32)dma_map_single(bp->bus_dev, skb->data,
3120 skb->len, PCI_DMA_TODEVICE); 3302 skb->len, DMA_TO_DEVICE);
3121 3303
3122 /* 3304 /*
3123 * Verify that descriptor is actually available 3305 * Verify that descriptor is actually available
@@ -3220,10 +3402,10 @@ static int dfx_xmt_done(DFX_board_t *bp)
3220 3402
3221 /* Return skb to operating system */ 3403 /* Return skb to operating system */
3222 comp = bp->rcv_xmt_reg.index.xmt_comp; 3404 comp = bp->rcv_xmt_reg.index.xmt_comp;
3223 pci_unmap_single(bp->pci_dev, 3405 dma_unmap_single(bp->bus_dev,
3224 bp->descr_block_virt->xmt_data[comp].long_1, 3406 bp->descr_block_virt->xmt_data[comp].long_1,
3225 p_xmt_drv_descr->p_skb->len, 3407 p_xmt_drv_descr->p_skb->len,
3226 PCI_DMA_TODEVICE); 3408 DMA_TO_DEVICE);
3227 dev_kfree_skb_irq(p_xmt_drv_descr->p_skb); 3409 dev_kfree_skb_irq(p_xmt_drv_descr->p_skb);
3228 3410
3229 /* 3411 /*
@@ -3344,10 +3526,10 @@ static void dfx_xmt_flush( DFX_board_t *bp )
3344 3526
3345 /* Return skb to operating system */ 3527 /* Return skb to operating system */
3346 comp = bp->rcv_xmt_reg.index.xmt_comp; 3528 comp = bp->rcv_xmt_reg.index.xmt_comp;
3347 pci_unmap_single(bp->pci_dev, 3529 dma_unmap_single(bp->bus_dev,
3348 bp->descr_block_virt->xmt_data[comp].long_1, 3530 bp->descr_block_virt->xmt_data[comp].long_1,
3349 p_xmt_drv_descr->p_skb->len, 3531 p_xmt_drv_descr->p_skb->len,
3350 PCI_DMA_TODEVICE); 3532 DMA_TO_DEVICE);
3351 dev_kfree_skb(p_xmt_drv_descr->p_skb); 3533 dev_kfree_skb(p_xmt_drv_descr->p_skb);
3352 3534
3353 /* Increment transmit error counter */ 3535 /* Increment transmit error counter */
@@ -3375,13 +3557,44 @@ static void dfx_xmt_flush( DFX_board_t *bp )
3375 bp->cons_block_virt->xmt_rcv_data = prod_cons; 3557 bp->cons_block_virt->xmt_rcv_data = prod_cons;
3376 } 3558 }
3377 3559
3378static void __devexit dfx_remove_one_pci_or_eisa(struct pci_dev *pdev, struct net_device *dev) 3560/*
3561 * ==================
3562 * = dfx_unregister =
3563 * ==================
3564 *
3565 * Overview:
3566 * Shuts down an FDDI controller
3567 *
3568 * Returns:
3569 * Condition code
3570 *
3571 * Arguments:
3572 * bdev - pointer to device information
3573 *
3574 * Functional Description:
3575 *
3576 * Return Codes:
3577 * None
3578 *
3579 * Assumptions:
3580 * It compiles so it should work :-( (PCI cards do :-)
3581 *
3582 * Side Effects:
3583 * Device structures for FDDI adapters (fddi0, fddi1, etc) are
3584 * freed.
3585 */
3586static void __devexit dfx_unregister(struct device *bdev)
3379{ 3587{
3380 DFX_board_t *bp = dev->priv; 3588 struct net_device *dev = dev_get_drvdata(bdev);
3589 DFX_board_t *bp = netdev_priv(dev);
3590 int dfx_bus_pci = DFX_BUS_PCI(bdev);
3591 int dfx_bus_tc = DFX_BUS_TC(bdev);
3592 int dfx_use_mmio = DFX_MMIO || dfx_bus_tc;
3593 resource_size_t bar_start = 0; /* pointer to port */
3594 resource_size_t bar_len = 0; /* resource length */
3381 int alloc_size; /* total buffer size used */ 3595 int alloc_size; /* total buffer size used */
3382 3596
3383 unregister_netdev(dev); 3597 unregister_netdev(dev);
3384 release_region(dev->base_addr, pdev ? PFI_K_CSR_IO_LEN : PI_ESIC_K_CSR_IO_LEN );
3385 3598
3386 alloc_size = sizeof(PI_DESCR_BLOCK) + 3599 alloc_size = sizeof(PI_DESCR_BLOCK) +
3387 PI_CMD_REQ_K_SIZE_MAX + PI_CMD_RSP_K_SIZE_MAX + 3600 PI_CMD_REQ_K_SIZE_MAX + PI_CMD_RSP_K_SIZE_MAX +
@@ -3391,78 +3604,141 @@ static void __devexit dfx_remove_one_pci_or_eisa(struct pci_dev *pdev, struct ne
3391 sizeof(PI_CONSUMER_BLOCK) + 3604 sizeof(PI_CONSUMER_BLOCK) +
3392 (PI_ALIGN_K_DESC_BLK - 1); 3605 (PI_ALIGN_K_DESC_BLK - 1);
3393 if (bp->kmalloced) 3606 if (bp->kmalloced)
3394 pci_free_consistent(pdev, alloc_size, bp->kmalloced, 3607 dma_free_coherent(bdev, alloc_size,
3395 bp->kmalloced_dma); 3608 bp->kmalloced, bp->kmalloced_dma);
3609
3610 dfx_bus_uninit(dev);
3611
3612 dfx_get_bars(bdev, &bar_start, &bar_len);
3613 if (dfx_use_mmio) {
3614 iounmap(bp->base.mem);
3615 release_mem_region(bar_start, bar_len);
3616 } else
3617 release_region(bar_start, bar_len);
3618
3619 if (dfx_bus_pci)
3620 pci_disable_device(to_pci_dev(bdev));
3621
3396 free_netdev(dev); 3622 free_netdev(dev);
3397} 3623}
3398 3624
3399static void __devexit dfx_remove_one (struct pci_dev *pdev)
3400{
3401 struct net_device *dev = pci_get_drvdata(pdev);
3402 3625
3403 dfx_remove_one_pci_or_eisa(pdev, dev); 3626static int __devinit __unused dfx_dev_register(struct device *);
3404 pci_set_drvdata(pdev, NULL); 3627static int __devexit __unused dfx_dev_unregister(struct device *);
3405}
3406 3628
3407static struct pci_device_id dfx_pci_tbl[] = { 3629#ifdef CONFIG_PCI
3408 { PCI_VENDOR_ID_DEC, PCI_DEVICE_ID_DEC_FDDI, PCI_ANY_ID, PCI_ANY_ID, }, 3630static int __devinit dfx_pci_register(struct pci_dev *,
3409 { 0, } 3631 const struct pci_device_id *);
3632static void __devexit dfx_pci_unregister(struct pci_dev *);
3633
3634static struct pci_device_id dfx_pci_table[] = {
3635 { PCI_DEVICE(PCI_VENDOR_ID_DEC, PCI_DEVICE_ID_DEC_FDDI) },
3636 { }
3410}; 3637};
3411MODULE_DEVICE_TABLE(pci, dfx_pci_tbl); 3638MODULE_DEVICE_TABLE(pci, dfx_pci_table);
3412 3639
3413static struct pci_driver dfx_driver = { 3640static struct pci_driver dfx_pci_driver = {
3414 .name = "defxx", 3641 .name = "defxx",
3415 .probe = dfx_init_one, 3642 .id_table = dfx_pci_table,
3416 .remove = __devexit_p(dfx_remove_one), 3643 .probe = dfx_pci_register,
3417 .id_table = dfx_pci_tbl, 3644 .remove = __devexit_p(dfx_pci_unregister),
3418}; 3645};
3419 3646
3420static int dfx_have_pci; 3647static __devinit int dfx_pci_register(struct pci_dev *pdev,
3421static int dfx_have_eisa; 3648 const struct pci_device_id *ent)
3422 3649{
3650 return dfx_register(&pdev->dev);
3651}
3423 3652
3424static void __exit dfx_eisa_cleanup(void) 3653static void __devexit dfx_pci_unregister(struct pci_dev *pdev)
3425{ 3654{
3426 struct net_device *dev = root_dfx_eisa_dev; 3655 dfx_unregister(&pdev->dev);
3656}
3657#endif /* CONFIG_PCI */
3658
3659#ifdef CONFIG_EISA
3660static struct eisa_device_id dfx_eisa_table[] = {
3661 { "DEC3001", DEFEA_PROD_ID_1 },
3662 { "DEC3002", DEFEA_PROD_ID_2 },
3663 { "DEC3003", DEFEA_PROD_ID_3 },
3664 { "DEC3004", DEFEA_PROD_ID_4 },
3665 { }
3666};
3667MODULE_DEVICE_TABLE(eisa, dfx_eisa_table);
3668
3669static struct eisa_driver dfx_eisa_driver = {
3670 .id_table = dfx_eisa_table,
3671 .driver = {
3672 .name = "defxx",
3673 .bus = &eisa_bus_type,
3674 .probe = dfx_dev_register,
3675 .remove = __devexit_p(dfx_dev_unregister),
3676 },
3677};
3678#endif /* CONFIG_EISA */
3679
3680#ifdef CONFIG_TC
3681static struct tc_device_id const dfx_tc_table[] = {
3682 { "DEC ", "PMAF-FA " },
3683 { "DEC ", "PMAF-FD " },
3684 { "DEC ", "PMAF-FS " },
3685 { "DEC ", "PMAF-FU " },
3686 { }
3687};
3688MODULE_DEVICE_TABLE(tc, dfx_tc_table);
3689
3690static struct tc_driver dfx_tc_driver = {
3691 .id_table = dfx_tc_table,
3692 .driver = {
3693 .name = "defxx",
3694 .bus = &tc_bus_type,
3695 .probe = dfx_dev_register,
3696 .remove = __devexit_p(dfx_dev_unregister),
3697 },
3698};
3699#endif /* CONFIG_TC */
3427 3700
3428 while (dev) 3701static int __devinit __unused dfx_dev_register(struct device *dev)
3429 { 3702{
3430 struct net_device *tmp; 3703 int status;
3431 DFX_board_t *bp;
3432 3704
3433 bp = (DFX_board_t*)dev->priv; 3705 status = dfx_register(dev);
3434 tmp = bp->next; 3706 if (!status)
3435 dfx_remove_one_pci_or_eisa(NULL, dev); 3707 get_device(dev);
3436 dev = tmp; 3708 return status;
3437 }
3438} 3709}
3439 3710
3440static int __init dfx_init(void) 3711static int __devexit __unused dfx_dev_unregister(struct device *dev)
3441{ 3712{
3442 int rc_pci, rc_eisa; 3713 put_device(dev);
3443 3714 dfx_unregister(dev);
3444 rc_pci = pci_register_driver(&dfx_driver); 3715 return 0;
3445 if (rc_pci >= 0) dfx_have_pci = 1; 3716}
3446 3717
3447 rc_eisa = dfx_eisa_init();
3448 if (rc_eisa >= 0) dfx_have_eisa = 1;
3449 3718
3450 return ((rc_eisa < 0) ? 0 : rc_eisa) + ((rc_pci < 0) ? 0 : rc_pci); 3719static int __devinit dfx_init(void)
3720{
3721 int status;
3722
3723 status = pci_register_driver(&dfx_pci_driver);
3724 if (!status)
3725 status = eisa_driver_register(&dfx_eisa_driver);
3726 if (!status)
3727 status = tc_register_driver(&dfx_tc_driver);
3728 return status;
3451} 3729}
3452 3730
3453static void __exit dfx_cleanup(void) 3731static void __devexit dfx_cleanup(void)
3454{ 3732{
3455 if (dfx_have_pci) 3733 tc_unregister_driver(&dfx_tc_driver);
3456 pci_unregister_driver(&dfx_driver); 3734 eisa_driver_unregister(&dfx_eisa_driver);
3457 if (dfx_have_eisa) 3735 pci_unregister_driver(&dfx_pci_driver);
3458 dfx_eisa_cleanup();
3459
3460} 3736}
3461 3737
3462module_init(dfx_init); 3738module_init(dfx_init);
3463module_exit(dfx_cleanup); 3739module_exit(dfx_cleanup);
3464MODULE_AUTHOR("Lawrence V. Stefani"); 3740MODULE_AUTHOR("Lawrence V. Stefani");
3465MODULE_DESCRIPTION("DEC FDDIcontroller EISA/PCI (DEFEA/DEFPA) driver " 3741MODULE_DESCRIPTION("DEC FDDIcontroller TC/EISA/PCI (DEFTA/DEFEA/DEFPA) driver "
3466 DRV_VERSION " " DRV_RELDATE); 3742 DRV_VERSION " " DRV_RELDATE);
3467MODULE_LICENSE("GPL"); 3743MODULE_LICENSE("GPL");
3468 3744
diff --git a/drivers/net/defxx.h b/drivers/net/defxx.h
index 2ce8f97253eb..19a6f64df198 100644
--- a/drivers/net/defxx.h
+++ b/drivers/net/defxx.h
@@ -26,6 +26,7 @@
26 * 12-Sep-96 LVS Removed packet request header pointers. 26 * 12-Sep-96 LVS Removed packet request header pointers.
27 * 04 Aug 2003 macro Converted to the DMA API. 27 * 04 Aug 2003 macro Converted to the DMA API.
28 * 23 Oct 2006 macro Big-endian host support. 28 * 23 Oct 2006 macro Big-endian host support.
29 * 14 Dec 2006 macro TURBOchannel support.
29 */ 30 */
30 31
31#ifndef _DEFXX_H_ 32#ifndef _DEFXX_H_
@@ -1471,9 +1472,17 @@ typedef union
1471 1472
1472#endif /* __BIG_ENDIAN */ 1473#endif /* __BIG_ENDIAN */
1473 1474
1475/* Define TC PDQ CSR offset and length */
1476
1477#define PI_TC_K_CSR_OFFSET 0x100000
1478#define PI_TC_K_CSR_LEN 0x40 /* 64 bytes */
1479
1474/* Define EISA controller register offsets */ 1480/* Define EISA controller register offsets */
1475 1481
1476#define PI_ESIC_K_BURST_HOLDOFF 0x040 1482#define PI_ESIC_K_CSR_IO_LEN 0x80 /* 128 bytes */
1483
1484#define PI_DEFEA_K_BURST_HOLDOFF 0x040
1485
1477#define PI_ESIC_K_SLOT_ID 0xC80 1486#define PI_ESIC_K_SLOT_ID 0xC80
1478#define PI_ESIC_K_SLOT_CNTRL 0xC84 1487#define PI_ESIC_K_SLOT_CNTRL 0xC84
1479#define PI_ESIC_K_MEM_ADD_CMP_0 0xC85 1488#define PI_ESIC_K_MEM_ADD_CMP_0 0xC85
@@ -1488,14 +1497,14 @@ typedef union
1488#define PI_ESIC_K_MEM_ADD_LO_CMP_0 0xC8E 1497#define PI_ESIC_K_MEM_ADD_LO_CMP_0 0xC8E
1489#define PI_ESIC_K_MEM_ADD_LO_CMP_1 0xC8F 1498#define PI_ESIC_K_MEM_ADD_LO_CMP_1 0xC8F
1490#define PI_ESIC_K_MEM_ADD_LO_CMP_2 0xC90 1499#define PI_ESIC_K_MEM_ADD_LO_CMP_2 0xC90
1491#define PI_ESIC_K_IO_CMP_0_0 0xC91 1500#define PI_ESIC_K_IO_ADD_CMP_0_0 0xC91
1492#define PI_ESIC_K_IO_CMP_0_1 0xC92 1501#define PI_ESIC_K_IO_ADD_CMP_0_1 0xC92
1493#define PI_ESIC_K_IO_CMP_1_0 0xC93 1502#define PI_ESIC_K_IO_ADD_CMP_1_0 0xC93
1494#define PI_ESIC_K_IO_CMP_1_1 0xC94 1503#define PI_ESIC_K_IO_ADD_CMP_1_1 0xC94
1495#define PI_ESIC_K_IO_CMP_2_0 0xC95 1504#define PI_ESIC_K_IO_ADD_CMP_2_0 0xC95
1496#define PI_ESIC_K_IO_CMP_2_1 0xC96 1505#define PI_ESIC_K_IO_ADD_CMP_2_1 0xC96
1497#define PI_ESIC_K_IO_CMP_3_0 0xC97 1506#define PI_ESIC_K_IO_ADD_CMP_3_0 0xC97
1498#define PI_ESIC_K_IO_CMP_3_1 0xC98 1507#define PI_ESIC_K_IO_ADD_CMP_3_1 0xC98
1499#define PI_ESIC_K_IO_ADD_MASK_0_0 0xC99 1508#define PI_ESIC_K_IO_ADD_MASK_0_0 0xC99
1500#define PI_ESIC_K_IO_ADD_MASK_0_1 0xC9A 1509#define PI_ESIC_K_IO_ADD_MASK_0_1 0xC9A
1501#define PI_ESIC_K_IO_ADD_MASK_1_0 0xC9B 1510#define PI_ESIC_K_IO_ADD_MASK_1_0 0xC9B
@@ -1518,11 +1527,16 @@ typedef union
1518#define PI_ESIC_K_INPUT_PORT 0xCAC 1527#define PI_ESIC_K_INPUT_PORT 0xCAC
1519#define PI_ESIC_K_OUTPUT_PORT 0xCAD 1528#define PI_ESIC_K_OUTPUT_PORT 0xCAD
1520#define PI_ESIC_K_FUNCTION_CNTRL 0xCAE 1529#define PI_ESIC_K_FUNCTION_CNTRL 0xCAE
1521#define PI_ESIC_K_CSR_IO_LEN PI_ESIC_K_FUNCTION_CNTRL+1 /* always last reg + 1 */
1522 1530
1523/* Define the value all drivers must write to the function control register. */ 1531/* Define the bits in the function control register. */
1524 1532
1525#define PI_ESIC_K_FUNCTION_CNTRL_IO_ENB 0x03 1533#define PI_FUNCTION_CNTRL_M_IOCS0 0x01
1534#define PI_FUNCTION_CNTRL_M_IOCS1 0x02
1535#define PI_FUNCTION_CNTRL_M_IOCS2 0x04
1536#define PI_FUNCTION_CNTRL_M_IOCS3 0x08
1537#define PI_FUNCTION_CNTRL_M_MEMCS0 0x10
1538#define PI_FUNCTION_CNTRL_M_MEMCS1 0x20
1539#define PI_FUNCTION_CNTRL_M_DMA 0x80
1526 1540
1527/* Define the bits in the slot control register. */ 1541/* Define the bits in the slot control register. */
1528 1542
@@ -1540,6 +1554,10 @@ typedef union
1540#define PI_BURST_HOLDOFF_V_RESERVED 1 1554#define PI_BURST_HOLDOFF_V_RESERVED 1
1541#define PI_BURST_HOLDOFF_V_MEM_MAP 0 1555#define PI_BURST_HOLDOFF_V_MEM_MAP 0
1542 1556
1557/* Define the implicit mask of the Memory Address Mask Register. */
1558
1559#define PI_MEM_ADD_MASK_M 0x3ff
1560
1543/* 1561/*
1544 * Define the fields in the IO Compare registers. 1562 * Define the fields in the IO Compare registers.
1545 * The driver must initialize the slot field with the slot ID shifted by the 1563 * The driver must initialize the slot field with the slot ID shifted by the
@@ -1577,6 +1595,7 @@ typedef union
1577#define DEFEA_PROD_ID_1 0x0130A310 /* DEC product 300, rev 1 */ 1595#define DEFEA_PROD_ID_1 0x0130A310 /* DEC product 300, rev 1 */
1578#define DEFEA_PROD_ID_2 0x0230A310 /* DEC product 300, rev 2 */ 1596#define DEFEA_PROD_ID_2 0x0230A310 /* DEC product 300, rev 2 */
1579#define DEFEA_PROD_ID_3 0x0330A310 /* DEC product 300, rev 3 */ 1597#define DEFEA_PROD_ID_3 0x0330A310 /* DEC product 300, rev 3 */
1598#define DEFEA_PROD_ID_4 0x0430A310 /* DEC product 300, rev 4 */
1580 1599
1581/**********************************************/ 1600/**********************************************/
1582/* Digital PFI Specification v1.0 Definitions */ 1601/* Digital PFI Specification v1.0 Definitions */
@@ -1633,12 +1652,6 @@ typedef union
1633#define PFI_STATUS_V_FIFO_EMPTY 1 1652#define PFI_STATUS_V_FIFO_EMPTY 1
1634#define PFI_STATUS_V_DMA_IN_PROGRESS 0 1653#define PFI_STATUS_V_DMA_IN_PROGRESS 0
1635 1654
1636#define DFX_MAX_EISA_SLOTS 16 /* maximum number of EISA slots to scan */
1637#define DFX_MAX_NUM_BOARDS 8 /* maximum number of adapters supported */
1638
1639#define DFX_BUS_TYPE_PCI 0 /* type code for DEC FDDIcontroller/PCI */
1640#define DFX_BUS_TYPE_EISA 1 /* type code for DEC FDDIcontroller/EISA */
1641
1642#define DFX_FC_PRH2_PRH1_PRH0 0x54003820 /* Packet Request Header bytes + FC */ 1655#define DFX_FC_PRH2_PRH1_PRH0 0x54003820 /* Packet Request Header bytes + FC */
1643#define DFX_PRH0_BYTE 0x20 /* Packet Request Header byte 0 */ 1656#define DFX_PRH0_BYTE 0x20 /* Packet Request Header byte 0 */
1644#define DFX_PRH1_BYTE 0x38 /* Packet Request Header byte 1 */ 1657#define DFX_PRH1_BYTE 0x38 /* Packet Request Header byte 1 */
@@ -1756,10 +1769,11 @@ typedef struct DFX_board_tag
1756 /* Store device, bus-specific, and parameter information for this adapter */ 1769 /* Store device, bus-specific, and parameter information for this adapter */
1757 1770
1758 struct net_device *dev; /* pointer to device structure */ 1771 struct net_device *dev; /* pointer to device structure */
1759 struct net_device *next; 1772 union {
1760 u32 bus_type; /* bus type (0 == PCI, 1 == EISA) */ 1773 void __iomem *mem;
1761 u16 base_addr; /* base I/O address (same as dev->base_addr) */ 1774 int port;
1762 struct pci_dev * pci_dev; 1775 } base; /* base address */
1776 struct device *bus_dev;
1763 u32 full_duplex_enb; /* FDDI Full Duplex enable (1 == on, 2 == off) */ 1777 u32 full_duplex_enb; /* FDDI Full Duplex enable (1 == on, 2 == off) */
1764 u32 req_ttrt; /* requested TTRT value (in 80ns units) */ 1778 u32 req_ttrt; /* requested TTRT value (in 80ns units) */
1765 u32 burst_size; /* adapter burst size (enumerated) */ 1779 u32 burst_size; /* adapter burst size (enumerated) */