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[mirror_ubuntu-bionic-kernel.git] / drivers / net / tokenring / smctr.c
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1da177e4
LT		 1/*
2 * smctr.c: A network driver for the SMC Token Ring Adapters.
3 *
4 * Written by Jay Schulist <jschlst@samba.org>
5 *
6 * This software may be used and distributed according to the terms
7 * of the GNU General Public License, incorporated herein by reference.
8 *
9 * This device driver works with the following SMC adapters:
10 * - SMC TokenCard Elite (8115T, chips 825/584)
11 * - SMC TokenCard Elite/A MCA (8115T/A, chips 825/594)
12 *
13 * Source(s):
14 * - SMC TokenCard SDK.
15 *
16 * Maintainer(s):
17 * JS Jay Schulist <jschlst@samba.org>
18 *
19 * Changes:
20 * 07102000 JS Fixed a timing problem in smctr_wait_cmd();
21 * Also added a bit more discriptive error msgs.
22 * 07122000 JS Fixed problem with detecting a card with
23 * module io/irq/mem specified.
24 *
25 * To do:
26 * 1. Multicast support.
27 *
113aa838 28 * Initial 2.5 cleanup Alan Cox <alan@lxorguk.ukuu.org.uk> 2002/10/28
1da177e4
LT		 29 */
30
31#include <linux/module.h>
1da177e4
LT		 32#include <linux/kernel.h>
33#include <linux/types.h>
34#include <linux/fcntl.h>
35#include <linux/interrupt.h>
36#include <linux/ptrace.h>
37#include <linux/ioport.h>
38#include <linux/in.h>
1da177e4
LT		 39#include <linux/string.h>
40#include <linux/time.h>
41#include <linux/errno.h>
42#include <linux/init.h>
1da177e4
LT		 43#include <linux/mca-legacy.h>
44#include <linux/delay.h>
45#include <linux/netdevice.h>
46#include <linux/etherdevice.h>
47#include <linux/skbuff.h>
48#include <linux/trdevice.h>
49#include <linux/bitops.h>
0f805b86 50#include <linux/firmware.h>
1da177e4
LT		 51
52#include <asm/system.h>
53#include <asm/io.h>
54#include <asm/dma.h>
55#include <asm/irq.h>
56
57#if BITS_PER_LONG == 64
58#error FIXME: driver does not support 64-bit platforms
59#endif
60
61#include "smctr.h" /* Our Stuff */
1da177e4 62
1770e430
HE		 63static const char version[] __initdata =
64 KERN_INFO "smctr.c: v1.4 7/12/00 by jschlst@samba.org\n";
1da177e4
LT		 65static const char cardname[] = "smctr";
66
67
68#define SMCTR_IO_EXTENT 20
69
70#ifdef CONFIG_MCA_LEGACY
71static unsigned int smctr_posid = 0x6ec6;
72#endif
73
74static int ringspeed;
75
76/* SMC Name of the Adapter. */
77static char smctr_name[] = "SMC TokenCard";
de70b4c8 78static char *smctr_model = "Unknown";
1da177e4
LT		 79
80/* Use 0 for production, 1 for verification, 2 for debug, and
81 * 3 for very verbose debug.
82 */
83#ifndef SMCTR_DEBUG
84#define SMCTR_DEBUG 1
85#endif
86static unsigned int smctr_debug = SMCTR_DEBUG;
87
88/* smctr.c prototypes and functions are arranged alphabeticly
89 * for clearity, maintainability and pure old fashion fun.
90 */
91/* A */
92static int smctr_alloc_shared_memory(struct net_device *dev);
93
94/* B */
95static int smctr_bypass_state(struct net_device *dev);
96
97/* C */
98static int smctr_checksum_firmware(struct net_device *dev);
99static int __init smctr_chk_isa(struct net_device *dev);
100static int smctr_chg_rx_mask(struct net_device *dev);
101static int smctr_clear_int(struct net_device *dev);
102static int smctr_clear_trc_reset(int ioaddr);
103static int smctr_close(struct net_device *dev);
104
105/* D */
0f805b86
DW		 106static int smctr_decode_firmware(struct net_device *dev,
107 const struct firmware *fw);
1da177e4
LT		 108static int smctr_disable_16bit(struct net_device *dev);
109static int smctr_disable_adapter_ctrl_store(struct net_device *dev);
110static int smctr_disable_bic_int(struct net_device *dev);
111
112/* E */
113static int smctr_enable_16bit(struct net_device *dev);
114static int smctr_enable_adapter_ctrl_store(struct net_device *dev);
115static int smctr_enable_adapter_ram(struct net_device *dev);
116static int smctr_enable_bic_int(struct net_device *dev);
117
118/* G */
119static int __init smctr_get_boardid(struct net_device *dev, int mca);
120static int smctr_get_group_address(struct net_device *dev);
121static int smctr_get_functional_address(struct net_device *dev);
122static unsigned int smctr_get_num_rx_bdbs(struct net_device *dev);
123static int smctr_get_physical_drop_number(struct net_device *dev);
124static __u8 *smctr_get_rx_pointer(struct net_device *dev, short queue);
125static int smctr_get_station_id(struct net_device *dev);
1da177e4
LT		 126static FCBlock *smctr_get_tx_fcb(struct net_device *dev, __u16 queue,
127 __u16 bytes_count);
128static int smctr_get_upstream_neighbor_addr(struct net_device *dev);
129
130/* H */
131static int smctr_hardware_send_packet(struct net_device *dev,
132 struct net_local *tp);
133/* I */
134static int smctr_init_acbs(struct net_device *dev);
135static int smctr_init_adapter(struct net_device *dev);
136static int smctr_init_card_real(struct net_device *dev);
137static int smctr_init_rx_bdbs(struct net_device *dev);
138static int smctr_init_rx_fcbs(struct net_device *dev);
139static int smctr_init_shared_memory(struct net_device *dev);
140static int smctr_init_tx_bdbs(struct net_device *dev);
141static int smctr_init_tx_fcbs(struct net_device *dev);
142static int smctr_internal_self_test(struct net_device *dev);
7d12e780 143static irqreturn_t smctr_interrupt(int irq, void *dev_id);
1da177e4
LT		 144static int smctr_issue_enable_int_cmd(struct net_device *dev,
145 __u16 interrupt_enable_mask);
146static int smctr_issue_int_ack(struct net_device *dev, __u16 iack_code,
147 __u16 ibits);
148static int smctr_issue_init_timers_cmd(struct net_device *dev);
149static int smctr_issue_init_txrx_cmd(struct net_device *dev);
150static int smctr_issue_insert_cmd(struct net_device *dev);
151static int smctr_issue_read_ring_status_cmd(struct net_device *dev);
152static int smctr_issue_read_word_cmd(struct net_device *dev, __u16 aword_cnt);
153static int smctr_issue_remove_cmd(struct net_device *dev);
154static int smctr_issue_resume_acb_cmd(struct net_device *dev);
155static int smctr_issue_resume_rx_bdb_cmd(struct net_device *dev, __u16 queue);
156static int smctr_issue_resume_rx_fcb_cmd(struct net_device *dev, __u16 queue);
157static int smctr_issue_resume_tx_fcb_cmd(struct net_device *dev, __u16 queue);
158static int smctr_issue_test_internal_rom_cmd(struct net_device *dev);
159static int smctr_issue_test_hic_cmd(struct net_device *dev);
160static int smctr_issue_test_mac_reg_cmd(struct net_device *dev);
161static int smctr_issue_trc_loopback_cmd(struct net_device *dev);
162static int smctr_issue_tri_loopback_cmd(struct net_device *dev);
163static int smctr_issue_write_byte_cmd(struct net_device *dev,
164 short aword_cnt, void *byte);
165static int smctr_issue_write_word_cmd(struct net_device *dev,
166 short aword_cnt, void *word);
167
168/* J */
169static int smctr_join_complete_state(struct net_device *dev);
170
171/* L */
172static int smctr_link_tx_fcbs_to_bdbs(struct net_device *dev);
173static int smctr_load_firmware(struct net_device *dev);
174static int smctr_load_node_addr(struct net_device *dev);
175static int smctr_lobe_media_test(struct net_device *dev);
176static int smctr_lobe_media_test_cmd(struct net_device *dev);
177static int smctr_lobe_media_test_state(struct net_device *dev);
178
179/* M */
180static int smctr_make_8025_hdr(struct net_device *dev,
181 MAC_HEADER *rmf, MAC_HEADER *tmf, __u16 ac_fc);
182static int smctr_make_access_pri(struct net_device *dev,
183 MAC_SUB_VECTOR *tsv);
184static int smctr_make_addr_mod(struct net_device *dev, MAC_SUB_VECTOR *tsv);
185static int smctr_make_auth_funct_class(struct net_device *dev,
186 MAC_SUB_VECTOR *tsv);
187static int smctr_make_corr(struct net_device *dev,
188 MAC_SUB_VECTOR *tsv, __u16 correlator);
189static int smctr_make_funct_addr(struct net_device *dev,
190 MAC_SUB_VECTOR *tsv);
191static int smctr_make_group_addr(struct net_device *dev,
192 MAC_SUB_VECTOR *tsv);
193static int smctr_make_phy_drop_num(struct net_device *dev,
194 MAC_SUB_VECTOR *tsv);
195static int smctr_make_product_id(struct net_device *dev, MAC_SUB_VECTOR *tsv);
196static int smctr_make_station_id(struct net_device *dev, MAC_SUB_VECTOR *tsv);
197static int smctr_make_ring_station_status(struct net_device *dev,
198 MAC_SUB_VECTOR *tsv);
199static int smctr_make_ring_station_version(struct net_device *dev,
200 MAC_SUB_VECTOR *tsv);
201static int smctr_make_tx_status_code(struct net_device *dev,
202 MAC_SUB_VECTOR *tsv, __u16 tx_fstatus);
203static int smctr_make_upstream_neighbor_addr(struct net_device *dev,
204 MAC_SUB_VECTOR *tsv);
205static int smctr_make_wrap_data(struct net_device *dev,
206 MAC_SUB_VECTOR *tsv);
207
208/* O */
209static int smctr_open(struct net_device *dev);
210static int smctr_open_tr(struct net_device *dev);
211
212/* P */
213struct net_device *smctr_probe(int unit);
214static int __init smctr_probe1(struct net_device *dev, int ioaddr);
215static int smctr_process_rx_packet(MAC_HEADER *rmf, __u16 size,
216 struct net_device *dev, __u16 rx_status);
217
218/* R */
219static int smctr_ram_memory_test(struct net_device *dev);
220static int smctr_rcv_chg_param(struct net_device *dev, MAC_HEADER *rmf,
221 __u16 *correlator);
222static int smctr_rcv_init(struct net_device *dev, MAC_HEADER *rmf,
223 __u16 *correlator);
224static int smctr_rcv_tx_forward(struct net_device *dev, MAC_HEADER *rmf);
225static int smctr_rcv_rq_addr_state_attch(struct net_device *dev,
226 MAC_HEADER *rmf, __u16 *correlator);
227static int smctr_rcv_unknown(struct net_device *dev, MAC_HEADER *rmf,
228 __u16 *correlator);
229static int smctr_reset_adapter(struct net_device *dev);
230static int smctr_restart_tx_chain(struct net_device *dev, short queue);
231static int smctr_ring_status_chg(struct net_device *dev);
232static int smctr_rx_frame(struct net_device *dev);
233
234/* S */
235static int smctr_send_dat(struct net_device *dev);
61a84108
SH		 236static netdev_tx_t smctr_send_packet(struct sk_buff *skb,
237 struct net_device *dev);
1da177e4
LT		 238static int smctr_send_lobe_media_test(struct net_device *dev);
239static int smctr_send_rpt_addr(struct net_device *dev, MAC_HEADER *rmf,
240 __u16 correlator);
241static int smctr_send_rpt_attch(struct net_device *dev, MAC_HEADER *rmf,
242 __u16 correlator);
243static int smctr_send_rpt_state(struct net_device *dev, MAC_HEADER *rmf,
244 __u16 correlator);
245static int smctr_send_rpt_tx_forward(struct net_device *dev,
246 MAC_HEADER *rmf, __u16 tx_fstatus);
247static int smctr_send_rsp(struct net_device *dev, MAC_HEADER *rmf,
248 __u16 rcode, __u16 correlator);
249static int smctr_send_rq_init(struct net_device *dev);
250static int smctr_send_tx_forward(struct net_device *dev, MAC_HEADER *rmf,
251 __u16 *tx_fstatus);
252static int smctr_set_auth_access_pri(struct net_device *dev,
253 MAC_SUB_VECTOR *rsv);
254static int smctr_set_auth_funct_class(struct net_device *dev,
255 MAC_SUB_VECTOR *rsv);
256static int smctr_set_corr(struct net_device *dev, MAC_SUB_VECTOR *rsv,
257 __u16 *correlator);
258static int smctr_set_error_timer_value(struct net_device *dev,
259 MAC_SUB_VECTOR *rsv);
260static int smctr_set_frame_forward(struct net_device *dev,
261 MAC_SUB_VECTOR *rsv, __u8 dc_sc);
262static int smctr_set_local_ring_num(struct net_device *dev,
263 MAC_SUB_VECTOR *rsv);
264static unsigned short smctr_set_ctrl_attention(struct net_device *dev);
265static void smctr_set_multicast_list(struct net_device *dev);
266static int smctr_set_page(struct net_device *dev, __u8 *buf);
267static int smctr_set_phy_drop(struct net_device *dev,
268 MAC_SUB_VECTOR *rsv);
269static int smctr_set_ring_speed(struct net_device *dev);
270static int smctr_set_rx_look_ahead(struct net_device *dev);
271static int smctr_set_trc_reset(int ioaddr);
272static int smctr_setup_single_cmd(struct net_device *dev,
273 __u16 command, __u16 subcommand);
274static int smctr_setup_single_cmd_w_data(struct net_device *dev,
275 __u16 command, __u16 subcommand);
276static char *smctr_malloc(struct net_device *dev, __u16 size);
277static int smctr_status_chg(struct net_device *dev);
278
279/* T */
280static void smctr_timeout(struct net_device *dev);
281static int smctr_trc_send_packet(struct net_device *dev, FCBlock *fcb,
282 __u16 queue);
283static __u16 smctr_tx_complete(struct net_device *dev, __u16 queue);
284static unsigned short smctr_tx_move_frame(struct net_device *dev,
285 struct sk_buff *skb, __u8 *pbuff, unsigned int bytes);
286
287/* U */
288static int smctr_update_err_stats(struct net_device *dev);
289static int smctr_update_rx_chain(struct net_device *dev, __u16 queue);
290static int smctr_update_tx_chain(struct net_device *dev, FCBlock *fcb,
291 __u16 queue);
292
293/* W */
294static int smctr_wait_cmd(struct net_device *dev);
295static int smctr_wait_while_cbusy(struct net_device *dev);
296
297#define TO_256_BYTE_BOUNDRY(X) (((X + 0xff) & 0xff00) - X)
298#define TO_PARAGRAPH_BOUNDRY(X) (((X + 0x0f) & 0xfff0) - X)
299#define PARAGRAPH_BOUNDRY(X) smctr_malloc(dev, TO_PARAGRAPH_BOUNDRY(X))
300
301/* Allocate Adapter Shared Memory.
302 * IMPORTANT NOTE: Any changes to this function MUST be mirrored in the
303 * function "get_num_rx_bdbs" below!!!
304 *
305 * Order of memory allocation:
306 *
307 * 0. Initial System Configuration Block Pointer
308 * 1. System Configuration Block
309 * 2. System Control Block
310 * 3. Action Command Block
311 * 4. Interrupt Status Block
312 *
313 * 5. MAC TX FCB'S
314 * 6. NON-MAC TX FCB'S
315 * 7. MAC TX BDB'S
316 * 8. NON-MAC TX BDB'S
317 * 9. MAC RX FCB'S
318 * 10. NON-MAC RX FCB'S
319 * 11. MAC RX BDB'S
320 * 12. NON-MAC RX BDB'S
321 * 13. MAC TX Data Buffer( 1, 256 byte buffer)
322 * 14. MAC RX Data Buffer( 1, 256 byte buffer)
323 *
324 * 15. NON-MAC TX Data Buffer
325 * 16. NON-MAC RX Data Buffer
326 */
327static int smctr_alloc_shared_memory(struct net_device *dev)
328{
329 struct net_local *tp = netdev_priv(dev);
330
331 if(smctr_debug > 10)
332 printk(KERN_DEBUG "%s: smctr_alloc_shared_memory\n", dev->name);
333
334 /* Allocate initial System Control Block pointer.
335 * This pointer is located in the last page, last offset - 4.
336 */
337 tp->iscpb_ptr = (ISCPBlock *)(tp->ram_access + ((__u32)64 * 0x400)
338 - (long)ISCP_BLOCK_SIZE);
339
340 /* Allocate System Control Blocks. */
341 tp->scgb_ptr = (SCGBlock *)smctr_malloc(dev, sizeof(SCGBlock));
342 PARAGRAPH_BOUNDRY(tp->sh_mem_used);
343
344 tp->sclb_ptr = (SCLBlock *)smctr_malloc(dev, sizeof(SCLBlock));
345 PARAGRAPH_BOUNDRY(tp->sh_mem_used);
346
347 tp->acb_head = (ACBlock *)smctr_malloc(dev,
348 sizeof(ACBlock)*tp->num_acbs);
349 PARAGRAPH_BOUNDRY(tp->sh_mem_used);
350
351 tp->isb_ptr = (ISBlock *)smctr_malloc(dev, sizeof(ISBlock));
352 PARAGRAPH_BOUNDRY(tp->sh_mem_used);
353
354 tp->misc_command_data = (__u16 *)smctr_malloc(dev, MISC_DATA_SIZE);
355 PARAGRAPH_BOUNDRY(tp->sh_mem_used);
356
357 /* Allocate transmit FCBs. */
358 tp->tx_fcb_head[MAC_QUEUE] = (FCBlock *)smctr_malloc(dev,
359 sizeof(FCBlock) * tp->num_tx_fcbs[MAC_QUEUE]);
360
361 tp->tx_fcb_head[NON_MAC_QUEUE] = (FCBlock *)smctr_malloc(dev,
362 sizeof(FCBlock) * tp->num_tx_fcbs[NON_MAC_QUEUE]);
363
364 tp->tx_fcb_head[BUG_QUEUE] = (FCBlock *)smctr_malloc(dev,
365 sizeof(FCBlock) * tp->num_tx_fcbs[BUG_QUEUE]);
366
367 /* Allocate transmit BDBs. */
368 tp->tx_bdb_head[MAC_QUEUE] = (BDBlock *)smctr_malloc(dev,
369 sizeof(BDBlock) * tp->num_tx_bdbs[MAC_QUEUE]);
370
371 tp->tx_bdb_head[NON_MAC_QUEUE] = (BDBlock *)smctr_malloc(dev,
372 sizeof(BDBlock) * tp->num_tx_bdbs[NON_MAC_QUEUE]);
373
374 tp->tx_bdb_head[BUG_QUEUE] = (BDBlock *)smctr_malloc(dev,
375 sizeof(BDBlock) * tp->num_tx_bdbs[BUG_QUEUE]);
376
377 /* Allocate receive FCBs. */
378 tp->rx_fcb_head[MAC_QUEUE] = (FCBlock *)smctr_malloc(dev,
379 sizeof(FCBlock) * tp->num_rx_fcbs[MAC_QUEUE]);
380
381 tp->rx_fcb_head[NON_MAC_QUEUE] = (FCBlock *)smctr_malloc(dev,
382 sizeof(FCBlock) * tp->num_rx_fcbs[NON_MAC_QUEUE]);
383
384 /* Allocate receive BDBs. */
385 tp->rx_bdb_head[MAC_QUEUE] = (BDBlock *)smctr_malloc(dev,
386 sizeof(BDBlock) * tp->num_rx_bdbs[MAC_QUEUE]);
387
388 tp->rx_bdb_end[MAC_QUEUE] = (BDBlock *)smctr_malloc(dev, 0);
389
390 tp->rx_bdb_head[NON_MAC_QUEUE] = (BDBlock *)smctr_malloc(dev,
391 sizeof(BDBlock) * tp->num_rx_bdbs[NON_MAC_QUEUE]);
392
393 tp->rx_bdb_end[NON_MAC_QUEUE] = (BDBlock *)smctr_malloc(dev, 0);
394
395 /* Allocate MAC transmit buffers.
396 * MAC Tx Buffers doen't have to be on an ODD Boundry.
397 */
398 tp->tx_buff_head[MAC_QUEUE]
399 = (__u16 *)smctr_malloc(dev, tp->tx_buff_size[MAC_QUEUE]);
400 tp->tx_buff_curr[MAC_QUEUE] = tp->tx_buff_head[MAC_QUEUE];
401 tp->tx_buff_end [MAC_QUEUE] = (__u16 *)smctr_malloc(dev, 0);
402
403 /* Allocate BUG transmit buffers. */
404 tp->tx_buff_head[BUG_QUEUE]
405 = (__u16 *)smctr_malloc(dev, tp->tx_buff_size[BUG_QUEUE]);
406 tp->tx_buff_curr[BUG_QUEUE] = tp->tx_buff_head[BUG_QUEUE];
407 tp->tx_buff_end[BUG_QUEUE] = (__u16 *)smctr_malloc(dev, 0);
408
409 /* Allocate MAC receive data buffers.
410 * MAC Rx buffer doesn't have to be on a 256 byte boundary.
411 */
412 tp->rx_buff_head[MAC_QUEUE] = (__u16 *)smctr_malloc(dev,
413 RX_DATA_BUFFER_SIZE * tp->num_rx_bdbs[MAC_QUEUE]);
414 tp->rx_buff_end[MAC_QUEUE] = (__u16 *)smctr_malloc(dev, 0);
415
416 /* Allocate Non-MAC transmit buffers.
417 * ?? For maximum Netware performance, put Tx Buffers on
418 * ODD Boundry and then restore malloc to Even Boundrys.
419 */
420 smctr_malloc(dev, 1L);
421 tp->tx_buff_head[NON_MAC_QUEUE]
422 = (__u16 *)smctr_malloc(dev, tp->tx_buff_size[NON_MAC_QUEUE]);
423 tp->tx_buff_curr[NON_MAC_QUEUE] = tp->tx_buff_head[NON_MAC_QUEUE];
424 tp->tx_buff_end [NON_MAC_QUEUE] = (__u16 *)smctr_malloc(dev, 0);
425 smctr_malloc(dev, 1L);
426
427 /* Allocate Non-MAC receive data buffers.
af901ca1 428 * To guarantee a minimum of 256 contiguous memory to
1da177e4
LT		 429 * UM_Receive_Packet's lookahead pointer, before a page
430 * change or ring end is encountered, place each rx buffer on
431 * a 256 byte boundary.
432 */
433 smctr_malloc(dev, TO_256_BYTE_BOUNDRY(tp->sh_mem_used));
434 tp->rx_buff_head[NON_MAC_QUEUE] = (__u16 *)smctr_malloc(dev,
435 RX_DATA_BUFFER_SIZE * tp->num_rx_bdbs[NON_MAC_QUEUE]);
436 tp->rx_buff_end[NON_MAC_QUEUE] = (__u16 *)smctr_malloc(dev, 0);
437
438 return (0);
439}
440
441/* Enter Bypass state. */
442static int smctr_bypass_state(struct net_device *dev)
443{
444 int err;
445
446 if(smctr_debug > 10)
447 printk(KERN_DEBUG "%s: smctr_bypass_state\n", dev->name);
448
449 err = smctr_setup_single_cmd(dev, ACB_CMD_CHANGE_JOIN_STATE, JS_BYPASS_STATE);
450
451 return (err);
452}
453
454static int smctr_checksum_firmware(struct net_device *dev)
455{
456 struct net_local *tp = netdev_priv(dev);
457 __u16 i, checksum = 0;
458
459 if(smctr_debug > 10)
460 printk(KERN_DEBUG "%s: smctr_checksum_firmware\n", dev->name);
461
462 smctr_enable_adapter_ctrl_store(dev);
463
464 for(i = 0; i < CS_RAM_SIZE; i += 2)
465 checksum += *((__u16 *)(tp->ram_access + i));
466
467 tp->microcode_version = *(__u16 *)(tp->ram_access
468 + CS_RAM_VERSION_OFFSET);
469 tp->microcode_version >>= 8;
470
471 smctr_disable_adapter_ctrl_store(dev);
472
473 if(checksum)
474 return (checksum);
475
476 return (0);
477}
478
479static int __init smctr_chk_mca(struct net_device *dev)
480{
481#ifdef CONFIG_MCA_LEGACY
482 struct net_local *tp = netdev_priv(dev);
483 int current_slot;
484 __u8 r1, r2, r3, r4, r5;
485
486 current_slot = mca_find_unused_adapter(smctr_posid, 0);
487 if(current_slot == MCA_NOTFOUND)
488 return (-ENODEV);
489
490 mca_set_adapter_name(current_slot, smctr_name);
491 mca_mark_as_used(current_slot);
492 tp->slot_num = current_slot;
493
494 r1 = mca_read_stored_pos(tp->slot_num, 2);
495 r2 = mca_read_stored_pos(tp->slot_num, 3);
496
497 if(tp->slot_num)
498 outb(CNFG_POS_CONTROL_REG, (__u8)((tp->slot_num - 1) | CNFG_SLOT_ENABLE_BIT));
499 else
500 outb(CNFG_POS_CONTROL_REG, (__u8)((tp->slot_num) | CNFG_SLOT_ENABLE_BIT));
501
502 r1 = inb(CNFG_POS_REG1);
503 r2 = inb(CNFG_POS_REG0);
504
505 tp->bic_type = BIC_594_CHIP;
506
507 /* IO */
508 r2 = mca_read_stored_pos(tp->slot_num, 2);
509 r2 &= 0xF0;
510 dev->base_addr = ((__u16)r2 << 8) + (__u16)0x800;
511 request_region(dev->base_addr, SMCTR_IO_EXTENT, smctr_name);
512
513 /* IRQ */
514 r5 = mca_read_stored_pos(tp->slot_num, 5);
515 r5 &= 0xC;
516 switch(r5)
517 {
518 case 0:
519 dev->irq = 3;
520 break;
521
522 case 0x4:
523 dev->irq = 4;
524 break;
525
526 case 0x8:
527 dev->irq = 10;
528 break;
529
530 default:
531 dev->irq = 15;
532 break;
533 }
1fb9df5d 534 if (request_irq(dev->irq, smctr_interrupt, IRQF_SHARED, smctr_name, dev)) {
1da177e4
LT		 535 release_region(dev->base_addr, SMCTR_IO_EXTENT);
536 return -ENODEV;
537 }
538
539 /* Get RAM base */
540 r3 = mca_read_stored_pos(tp->slot_num, 3);
541 tp->ram_base = ((__u32)(r3 & 0x7) << 13) + 0x0C0000;
542 if (r3 & 0x8)
543 tp->ram_base += 0x010000;
544 if (r3 & 0x80)
545 tp->ram_base += 0xF00000;
546
547 /* Get Ram Size */
548 r3 &= 0x30;
549 r3 >>= 4;
550
551 tp->ram_usable = (__u16)CNFG_SIZE_8KB << r3;
552 tp->ram_size = (__u16)CNFG_SIZE_64KB;
553 tp->board_id |= TOKEN_MEDIA;
554
555 r4 = mca_read_stored_pos(tp->slot_num, 4);
556 tp->rom_base = ((__u32)(r4 & 0x7) << 13) + 0x0C0000;
557 if (r4 & 0x8)
558 tp->rom_base += 0x010000;
559
560 /* Get ROM size. */
561 r4 >>= 4;
562 switch (r4) {
563 case 0:
564 tp->rom_size = CNFG_SIZE_8KB;
565 break;
566 case 1:
567 tp->rom_size = CNFG_SIZE_16KB;
568 break;
569 case 2:
570 tp->rom_size = CNFG_SIZE_32KB;
571 break;
572 default:
573 tp->rom_size = ROM_DISABLE;
574 }
575
576 /* Get Media Type. */
577 r5 = mca_read_stored_pos(tp->slot_num, 5);
578 r5 &= CNFG_MEDIA_TYPE_MASK;
579 switch(r5)
580 {
581 case (0):
582 tp->media_type = MEDIA_STP_4;
583 break;
584
585 case (1):
586 tp->media_type = MEDIA_STP_16;
587 break;
588
589 case (3):
590 tp->media_type = MEDIA_UTP_16;
591 break;
592
593 default:
594 tp->media_type = MEDIA_UTP_4;
595 break;
596 }
597 tp->media_menu = 14;
598
599 r2 = mca_read_stored_pos(tp->slot_num, 2);
600 if(!(r2 & 0x02))
601 tp->mode_bits |= EARLY_TOKEN_REL;
602
603 /* Disable slot */
604 outb(CNFG_POS_CONTROL_REG, 0);
605
606 tp->board_id = smctr_get_boardid(dev, 1);
607 switch(tp->board_id & 0xffff)
608 {
609 case WD8115TA:
610 smctr_model = "8115T/A";
611 break;
612
613 case WD8115T:
614 if(tp->extra_info & CHIP_REV_MASK)
615 smctr_model = "8115T rev XE";
616 else
617 smctr_model = "8115T rev XD";
618 break;
619
620 default:
621 smctr_model = "Unknown";
622 break;
623 }
624
625 return (0);
626#else
627 return (-1);
628#endif /* CONFIG_MCA_LEGACY */
629}
630
631static int smctr_chg_rx_mask(struct net_device *dev)
632{
633 struct net_local *tp = netdev_priv(dev);
634 int err = 0;
635
636 if(smctr_debug > 10)
637 printk(KERN_DEBUG "%s: smctr_chg_rx_mask\n", dev->name);
638
639 smctr_enable_16bit(dev);
640 smctr_set_page(dev, (__u8 *)tp->ram_access);
641
642 if(tp->mode_bits & LOOPING_MODE_MASK)
643 tp->config_word0 |= RX_OWN_BIT;
644 else
645 tp->config_word0 &= ~RX_OWN_BIT;
646
647 if(tp->receive_mask & PROMISCUOUS_MODE)
648 tp->config_word0 |= PROMISCUOUS_BIT;
649 else
650 tp->config_word0 &= ~PROMISCUOUS_BIT;
651
652 if(tp->receive_mask & ACCEPT_ERR_PACKETS)
653 tp->config_word0 |= SAVBAD_BIT;
654 else
655 tp->config_word0 &= ~SAVBAD_BIT;
656
657 if(tp->receive_mask & ACCEPT_ATT_MAC_FRAMES)
658 tp->config_word0 |= RXATMAC;
659 else
660 tp->config_word0 &= ~RXATMAC;
661
662 if(tp->receive_mask & ACCEPT_MULTI_PROM)
663 tp->config_word1 |= MULTICAST_ADDRESS_BIT;
664 else
665 tp->config_word1 &= ~MULTICAST_ADDRESS_BIT;
666
667 if(tp->receive_mask & ACCEPT_SOURCE_ROUTING_SPANNING)
668 tp->config_word1 |= SOURCE_ROUTING_SPANNING_BITS;
669 else
670 {
671 if(tp->receive_mask & ACCEPT_SOURCE_ROUTING)
672 tp->config_word1 |= SOURCE_ROUTING_EXPLORER_BIT;
673 else
674 tp->config_word1 &= ~SOURCE_ROUTING_SPANNING_BITS;
675 }
676
677 if((err = smctr_issue_write_word_cmd(dev, RW_CONFIG_REGISTER_0,
678 &tp->config_word0)))
679 {
680 return (err);
681 }
682
683 if((err = smctr_issue_write_word_cmd(dev, RW_CONFIG_REGISTER_1,
684 &tp->config_word1)))
685 {
686 return (err);
687 }
688
689 smctr_disable_16bit(dev);
690
691 return (0);
692}
693
694static int smctr_clear_int(struct net_device *dev)
695{
696 struct net_local *tp = netdev_priv(dev);
697
698 outb((tp->trc_mask | CSR_CLRTINT), dev->base_addr + CSR);
699
700 return (0);
701}
702
703static int smctr_clear_trc_reset(int ioaddr)
704{
705 __u8 r;
706
707 r = inb(ioaddr + MSR);
708 outb(~MSR_RST & r, ioaddr + MSR);
709
710 return (0);
711}
712
713/*
714 * The inverse routine to smctr_open().
715 */
716static int smctr_close(struct net_device *dev)
717{
718 struct net_local *tp = netdev_priv(dev);
719 struct sk_buff *skb;
720 int err;
721
722 netif_stop_queue(dev);
723
724 tp->cleanup = 1;
725
726 /* Check to see if adapter is already in a closed state. */
727 if(tp->status != OPEN)
728 return (0);
729
730 smctr_enable_16bit(dev);
731 smctr_set_page(dev, (__u8 *)tp->ram_access);
732
733 if((err = smctr_issue_remove_cmd(dev)))
734 {
735 smctr_disable_16bit(dev);
736 return (err);
737 }
738
739 for(;;)
740 {
741 skb = skb_dequeue(&tp->SendSkbQueue);
742 if(skb == NULL)
743 break;
744 tp->QueueSkb++;
745 dev_kfree_skb(skb);
746 }
747
748
749 return (0);
750}
751
0f805b86
DW		 752static int smctr_decode_firmware(struct net_device *dev,
753 const struct firmware *fw)
1da177e4
LT		 754{
755 struct net_local *tp = netdev_priv(dev);
756 short bit = 0x80, shift = 12;
757 DECODE_TREE_NODE *tree;
758 short branch, tsize;
759 __u16 buff = 0;
760 long weight;
761 __u8 *ucode;
762 __u16 *mem;
763
764 if(smctr_debug > 10)
765 printk(KERN_DEBUG "%s: smctr_decode_firmware\n", dev->name);
766
0f805b86
DW		 767 weight = *(long *)(fw->data + WEIGHT_OFFSET);
768 tsize = *(__u8 *)(fw->data + TREE_SIZE_OFFSET);
769 tree = (DECODE_TREE_NODE *)(fw->data + TREE_OFFSET);
770 ucode = (__u8 *)(fw->data + TREE_OFFSET
1da177e4
LT		 771 + (tsize * sizeof(DECODE_TREE_NODE)));
772 mem = (__u16 *)(tp->ram_access);
773
774 while(weight)
775 {
776 branch = ROOT;
777 while((tree + branch)->tag != LEAF && weight)
778 {
779 branch = *ucode & bit ? (tree + branch)->llink
780 : (tree + branch)->rlink;
781
782 bit >>= 1;
783 weight--;
784
785 if(bit == 0)
786 {
787 bit = 0x80;
788 ucode++;
789 }
790 }
791
792 buff |= (tree + branch)->info << shift;
793 shift -= 4;
794
795 if(shift < 0)
796 {
797 *(mem++) = SWAP_BYTES(buff);
798 buff = 0;
799 shift = 12;
800 }
801 }
802
803 /* The following assumes the Control Store Memory has
804 * been initialized to zero. If the last partial word
805 * is zero, it will not be written.
806 */
807 if(buff)
808 *(mem++) = SWAP_BYTES(buff);
809
810 return (0);
811}
812
813static int smctr_disable_16bit(struct net_device *dev)
814{
815 return (0);
816}
817
818/*
819 * On Exit, Adapter is:
820 * 1. TRC is in a reset state and un-initialized.
821 * 2. Adapter memory is enabled.
822 * 3. Control Store memory is out of context (-WCSS is 1).
823 */
824static int smctr_disable_adapter_ctrl_store(struct net_device *dev)
825{
826 struct net_local *tp = netdev_priv(dev);
827 int ioaddr = dev->base_addr;
828
829 if(smctr_debug > 10)
830 printk(KERN_DEBUG "%s: smctr_disable_adapter_ctrl_store\n", dev->name);
831
832 tp->trc_mask |= CSR_WCSS;
833 outb(tp->trc_mask, ioaddr + CSR);
834
835 return (0);
836}
837
838static int smctr_disable_bic_int(struct net_device *dev)
839{
840 struct net_local *tp = netdev_priv(dev);
841 int ioaddr = dev->base_addr;
842
843 tp->trc_mask = CSR_MSK_ALL | CSR_MSKCBUSY
844 | CSR_MSKTINT | CSR_WCSS;
845 outb(tp->trc_mask, ioaddr + CSR);
846
847 return (0);
848}
849
850static int smctr_enable_16bit(struct net_device *dev)
851{
852 struct net_local *tp = netdev_priv(dev);
853 __u8 r;
854
855 if(tp->adapter_bus == BUS_ISA16_TYPE)
856 {
857 r = inb(dev->base_addr + LAAR);
858 outb((r | LAAR_MEM16ENB), dev->base_addr + LAAR);
859 }
860
861 return (0);
862}
863
864/*
865 * To enable the adapter control store memory:
866 * 1. Adapter must be in a RESET state.
867 * 2. Adapter memory must be enabled.
868 * 3. Control Store Memory is in context (-WCSS is 0).
869 */
870static int smctr_enable_adapter_ctrl_store(struct net_device *dev)
871{
872 struct net_local *tp = netdev_priv(dev);
873 int ioaddr = dev->base_addr;
874
875 if(smctr_debug > 10)
876 printk(KERN_DEBUG "%s: smctr_enable_adapter_ctrl_store\n", dev->name);
877
878 smctr_set_trc_reset(ioaddr);
879 smctr_enable_adapter_ram(dev);
880
881 tp->trc_mask &= ~CSR_WCSS;
882 outb(tp->trc_mask, ioaddr + CSR);
883
884 return (0);
885}
886
887static int smctr_enable_adapter_ram(struct net_device *dev)
888{
889 int ioaddr = dev->base_addr;
890 __u8 r;
891
892 if(smctr_debug > 10)
893 printk(KERN_DEBUG "%s: smctr_enable_adapter_ram\n", dev->name);
894
895 r = inb(ioaddr + MSR);
896 outb(MSR_MEMB | r, ioaddr + MSR);
897
898 return (0);
899}
900
901static int smctr_enable_bic_int(struct net_device *dev)
902{
903 struct net_local *tp = netdev_priv(dev);
904 int ioaddr = dev->base_addr;
905 __u8 r;
906
907 switch(tp->bic_type)
908 {
909 case (BIC_584_CHIP):
910 tp->trc_mask = CSR_MSKCBUSY | CSR_WCSS;
911 outb(tp->trc_mask, ioaddr + CSR);
912 r = inb(ioaddr + IRR);
913 outb(r | IRR_IEN, ioaddr + IRR);
914 break;
915
916 case (BIC_594_CHIP):
917 tp->trc_mask = CSR_MSKCBUSY | CSR_WCSS;
918 outb(tp->trc_mask, ioaddr + CSR);
919 r = inb(ioaddr + IMCCR);
920 outb(r | IMCCR_EIL, ioaddr + IMCCR);
921 break;
922 }
923
924 return (0);
925}
926
927static int __init smctr_chk_isa(struct net_device *dev)
928{
929 struct net_local *tp = netdev_priv(dev);
930 int ioaddr = dev->base_addr;
931 __u8 r1, r2, b, chksum = 0;
932 __u16 r;
933 int i;
934 int err = -ENODEV;
935
936 if(smctr_debug > 10)
937 printk(KERN_DEBUG "%s: smctr_chk_isa %#4x\n", dev->name, ioaddr);
938
939 if((ioaddr & 0x1F) != 0)
940 goto out;
941
942 /* Grab the region so that no one else tries to probe our ioports. */
943 if (!request_region(ioaddr, SMCTR_IO_EXTENT, smctr_name)) {
944 err = -EBUSY;
945 goto out;
946 }
947
948 /* Checksum SMC node address */
949 for(i = 0; i < 8; i++)
950 {
951 b = inb(ioaddr + LAR0 + i);
952 chksum += b;
953 }
954
955 if (chksum != NODE_ADDR_CKSUM)
956 goto out2;
957
958 b = inb(ioaddr + BDID);
959 if(b != BRD_ID_8115T)
960 {
961 printk(KERN_ERR "%s: The adapter found is not supported\n", dev->name);
962 goto out2;
963 }
964
965 /* Check for 8115T Board ID */
966 r2 = 0;
967 for(r = 0; r < 8; r++)
968 {
969 r1 = inb(ioaddr + 0x8 + r);
970 r2 += r1;
971 }
972
973 /* value of RegF adds up the sum to 0xFF */
974 if((r2 != 0xFF) && (r2 != 0xEE))
975 goto out2;
976
977 /* Get adapter ID */
978 tp->board_id = smctr_get_boardid(dev, 0);
979 switch(tp->board_id & 0xffff)
980 {
981 case WD8115TA:
982 smctr_model = "8115T/A";
983 break;
984
985 case WD8115T:
986 if(tp->extra_info & CHIP_REV_MASK)
987 smctr_model = "8115T rev XE";
988 else
989 smctr_model = "8115T rev XD";
990 break;
991
992 default:
993 smctr_model = "Unknown";
994 break;
995 }
996
997 /* Store BIC type. */
998 tp->bic_type = BIC_584_CHIP;
999 tp->nic_type = NIC_825_CHIP;
1000
1001 /* Copy Ram Size */
1002 tp->ram_usable = CNFG_SIZE_16KB;
1003 tp->ram_size = CNFG_SIZE_64KB;
1004
1005 /* Get 58x Ram Base */
1006 r1 = inb(ioaddr);
1007 r1 &= 0x3F;
1008
1009 r2 = inb(ioaddr + CNFG_LAAR_584);
1010 r2 &= CNFG_LAAR_MASK;
1011 r2 <<= 3;
1012 r2 |= ((r1 & 0x38) >> 3);
1013
1014 tp->ram_base = ((__u32)r2 << 16) + (((__u32)(r1 & 0x7)) << 13);
1015
1016 /* Get 584 Irq */
1017 r1 = 0;
1018 r1 = inb(ioaddr + CNFG_ICR_583);
1019 r1 &= CNFG_ICR_IR2_584;
1020
1021 r2 = inb(ioaddr + CNFG_IRR_583);
1022 r2 &= CNFG_IRR_IRQS; /* 0x60 */
1023 r2 >>= 5;
1024
1025 switch(r2)
1026 {
1027 case 0:
1028 if(r1 == 0)
1029 dev->irq = 2;
1030 else
1031 dev->irq = 10;
1032 break;
1033
1034 case 1:
1035 if(r1 == 0)
1036 dev->irq = 3;
1037 else
1038 dev->irq = 11;
1039 break;
1040
1041 case 2:
1042 if(r1 == 0)
1043 {
1044 if(tp->extra_info & ALTERNATE_IRQ_BIT)
1045 dev->irq = 5;
1046 else
1047 dev->irq = 4;
1048 }
1049 else
1050 dev->irq = 15;
1051 break;
1052
1053 case 3:
1054 if(r1 == 0)
1055 dev->irq = 7;
1056 else
1057 dev->irq = 4;
1058 break;
1059
1060 default:
1061 printk(KERN_ERR "%s: No IRQ found aborting\n", dev->name);
1062 goto out2;
1063 }
1064
1fb9df5d 1065 if (request_irq(dev->irq, smctr_interrupt, IRQF_SHARED, smctr_name, dev))
1da177e4
LT		 1066 goto out2;
1067
1068 /* Get 58x Rom Base */
1069 r1 = inb(ioaddr + CNFG_BIO_583);
1070 r1 &= 0x3E;
1071 r1 |= 0x40;
1072
1073 tp->rom_base = (__u32)r1 << 13;
1074
1075 /* Get 58x Rom Size */
1076 r1 = inb(ioaddr + CNFG_BIO_583);
1077 r1 &= 0xC0;
1078 if(r1 == 0)
1079 tp->rom_size = ROM_DISABLE;
1080 else
1081 {
1082 r1 >>= 6;
1083 tp->rom_size = (__u16)CNFG_SIZE_8KB << r1;
1084 }
1085
1086 /* Get 58x Boot Status */
1087 r1 = inb(ioaddr + CNFG_GP2);
1088
1089 tp->mode_bits &= (~BOOT_STATUS_MASK);
1090
1091 if(r1 & CNFG_GP2_BOOT_NIBBLE)
1092 tp->mode_bits |= BOOT_TYPE_1;
1093
1094 /* Get 58x Zero Wait State */
1095 tp->mode_bits &= (~ZERO_WAIT_STATE_MASK);
1096
1097 r1 = inb(ioaddr + CNFG_IRR_583);
1098
1099 if(r1 & CNFG_IRR_ZWS)
1100 tp->mode_bits |= ZERO_WAIT_STATE_8_BIT;
1101
1102 if(tp->board_id & BOARD_16BIT)
1103 {
1104 r1 = inb(ioaddr + CNFG_LAAR_584);
1105
1106 if(r1 & CNFG_LAAR_ZWS)
1107 tp->mode_bits |= ZERO_WAIT_STATE_16_BIT;
1108 }
1109
1110 /* Get 584 Media Menu */
1111 tp->media_menu = 14;
1112 r1 = inb(ioaddr + CNFG_IRR_583);
1113
1114 tp->mode_bits &= 0xf8ff; /* (~CNFG_INTERFACE_TYPE_MASK) */
1115 if((tp->board_id & TOKEN_MEDIA) == TOKEN_MEDIA)
1116 {
1117 /* Get Advanced Features */
1118 if(((r1 & 0x6) >> 1) == 0x3)
1119 tp->media_type |= MEDIA_UTP_16;
1120 else
1121 {
1122 if(((r1 & 0x6) >> 1) == 0x2)
1123 tp->media_type |= MEDIA_STP_16;
1124 else
1125 {
1126 if(((r1 & 0x6) >> 1) == 0x1)
1127 tp->media_type |= MEDIA_UTP_4;
1128
1129 else
1130 tp->media_type |= MEDIA_STP_4;
1131 }
1132 }
1133
1134 r1 = inb(ioaddr + CNFG_GP2);
1135 if(!(r1 & 0x2) ) /* GP2_ETRD */
1136 tp->mode_bits |= EARLY_TOKEN_REL;
1137
1138 /* see if the chip is corrupted
1139 if(smctr_read_584_chksum(ioaddr))
1140 {
1141 printk(KERN_ERR "%s: EEPROM Checksum Failure\n", dev->name);
1142 free_irq(dev->irq, dev);
1143 goto out2;
1144 }
1145 */
1146 }
1147
1148 return (0);
1149
1150out2:
1151 release_region(ioaddr, SMCTR_IO_EXTENT);
1152out:
1153 return err;
1154}
1155
1156static int __init smctr_get_boardid(struct net_device *dev, int mca)
1157{
1158 struct net_local *tp = netdev_priv(dev);
1159 int ioaddr = dev->base_addr;
1160 __u8 r, r1, IdByte;
1161 __u16 BoardIdMask;
1162
1163 tp->board_id = BoardIdMask = 0;
1164
1165 if(mca)
1166 {
1167 BoardIdMask |= (MICROCHANNEL+INTERFACE_CHIP+TOKEN_MEDIA+PAGED_RAM+BOARD_16BIT);
1168 tp->extra_info |= (INTERFACE_594_CHIP+RAM_SIZE_64K+NIC_825_BIT+ALTERNATE_IRQ_BIT+SLOT_16BIT);
1169 }
1170 else
1171 {
1172 BoardIdMask|=(INTERFACE_CHIP+TOKEN_MEDIA+PAGED_RAM+BOARD_16BIT);
1173 tp->extra_info |= (INTERFACE_584_CHIP + RAM_SIZE_64K
1174 + NIC_825_BIT + ALTERNATE_IRQ_BIT);
1175 }
1176
1177 if(!mca)
1178 {
1179 r = inb(ioaddr + BID_REG_1);
1180 r &= 0x0c;
1181 outb(r, ioaddr + BID_REG_1);
1182 r = inb(ioaddr + BID_REG_1);
1183
1184 if(r & BID_SIXTEEN_BIT_BIT)
1185 {
1186 tp->extra_info |= SLOT_16BIT;
1187 tp->adapter_bus = BUS_ISA16_TYPE;
1188 }
1189 else
1190 tp->adapter_bus = BUS_ISA8_TYPE;
1191 }
1192 else
1193 tp->adapter_bus = BUS_MCA_TYPE;
1194
1195 /* Get Board Id Byte */
1196 IdByte = inb(ioaddr + BID_BOARD_ID_BYTE);
1197
1198 /* if Major version > 1.0 then
1199 * return;
1200 */
1201 if(IdByte & 0xF8)
1202 return (-1);
1203
1204 r1 = inb(ioaddr + BID_REG_1);
1205 r1 &= BID_ICR_MASK;
1206 r1 |= BID_OTHER_BIT;
1207
1208 outb(r1, ioaddr + BID_REG_1);
1209 r1 = inb(ioaddr + BID_REG_3);
1210
1211 r1 &= BID_EAR_MASK;
1212 r1 |= BID_ENGR_PAGE;
1213
1214 outb(r1, ioaddr + BID_REG_3);
1215 r1 = inb(ioaddr + BID_REG_1);
1216 r1 &= BID_ICR_MASK;
1217 r1 |= (BID_RLA | BID_OTHER_BIT);
1218
1219 outb(r1, ioaddr + BID_REG_1);
1220
1221 r1 = inb(ioaddr + BID_REG_1);
1222 while(r1 & BID_RECALL_DONE_MASK)
1223 r1 = inb(ioaddr + BID_REG_1);
1224
1225 r = inb(ioaddr + BID_LAR_0 + BID_REG_6);
1226
1227 /* clear chip rev bits */
1228 tp->extra_info &= ~CHIP_REV_MASK;
1229 tp->extra_info |= ((r & BID_EEPROM_CHIP_REV_MASK) << 6);
1230
1231 r1 = inb(ioaddr + BID_REG_1);
1232 r1 &= BID_ICR_MASK;
1233 r1 |= BID_OTHER_BIT;
1234
1235 outb(r1, ioaddr + BID_REG_1);
1236 r1 = inb(ioaddr + BID_REG_3);
1237
1238 r1 &= BID_EAR_MASK;
1239 r1 |= BID_EA6;
1240
1241 outb(r1, ioaddr + BID_REG_3);
1242 r1 = inb(ioaddr + BID_REG_1);
1243
1244 r1 &= BID_ICR_MASK;
1245 r1 |= BID_RLA;
1246
1247 outb(r1, ioaddr + BID_REG_1);
1248 r1 = inb(ioaddr + BID_REG_1);
1249
1250 while(r1 & BID_RECALL_DONE_MASK)
1251 r1 = inb(ioaddr + BID_REG_1);
1252
1253 return (BoardIdMask);
1254}
1255
1256static int smctr_get_group_address(struct net_device *dev)
1257{
1258 smctr_issue_read_word_cmd(dev, RW_INDIVIDUAL_GROUP_ADDR);
1259
1260 return(smctr_wait_cmd(dev));
1261}
1262
1263static int smctr_get_functional_address(struct net_device *dev)
1264{
1265 smctr_issue_read_word_cmd(dev, RW_FUNCTIONAL_ADDR);
1266
1267 return(smctr_wait_cmd(dev));
1268}
1269
1270/* Calculate number of Non-MAC receive BDB's and data buffers.
1271 * This function must simulate allocateing shared memory exactly
1272 * as the allocate_shared_memory function above.
1273 */
1274static unsigned int smctr_get_num_rx_bdbs(struct net_device *dev)
1275{
1276 struct net_local *tp = netdev_priv(dev);
1277 unsigned int mem_used = 0;
1278
1279 /* Allocate System Control Blocks. */
1280 mem_used += sizeof(SCGBlock);
1281
1282 mem_used += TO_PARAGRAPH_BOUNDRY(mem_used);
1283 mem_used += sizeof(SCLBlock);
1284
1285 mem_used += TO_PARAGRAPH_BOUNDRY(mem_used);
1286 mem_used += sizeof(ACBlock) * tp->num_acbs;
1287
1288 mem_used += TO_PARAGRAPH_BOUNDRY(mem_used);
1289 mem_used += sizeof(ISBlock);
1290
1291 mem_used += TO_PARAGRAPH_BOUNDRY(mem_used);
1292 mem_used += MISC_DATA_SIZE;
1293
1294 /* Allocate transmit FCB's. */
1295 mem_used += TO_PARAGRAPH_BOUNDRY(mem_used);
1296
1297 mem_used += sizeof(FCBlock) * tp->num_tx_fcbs[MAC_QUEUE];
1298 mem_used += sizeof(FCBlock) * tp->num_tx_fcbs[NON_MAC_QUEUE];
1299 mem_used += sizeof(FCBlock) * tp->num_tx_fcbs[BUG_QUEUE];
1300
1301 /* Allocate transmit BDBs. */
1302 mem_used += sizeof(BDBlock) * tp->num_tx_bdbs[MAC_QUEUE];
1303 mem_used += sizeof(BDBlock) * tp->num_tx_bdbs[NON_MAC_QUEUE];
1304 mem_used += sizeof(BDBlock) * tp->num_tx_bdbs[BUG_QUEUE];
1305
1306 /* Allocate receive FCBs. */
1307 mem_used += sizeof(FCBlock) * tp->num_rx_fcbs[MAC_QUEUE];
1308 mem_used += sizeof(FCBlock) * tp->num_rx_fcbs[NON_MAC_QUEUE];
1309
1310 /* Allocate receive BDBs. */
1311 mem_used += sizeof(BDBlock) * tp->num_rx_bdbs[MAC_QUEUE];
1312
1313 /* Allocate MAC transmit buffers.
1314 * MAC transmit buffers don't have to be on an ODD Boundry.
1315 */
1316 mem_used += tp->tx_buff_size[MAC_QUEUE];
1317
1318 /* Allocate BUG transmit buffers. */
1319 mem_used += tp->tx_buff_size[BUG_QUEUE];
1320
1321 /* Allocate MAC receive data buffers.
1322 * MAC receive buffers don't have to be on a 256 byte boundary.
1323 */
1324 mem_used += RX_DATA_BUFFER_SIZE * tp->num_rx_bdbs[MAC_QUEUE];
1325
1326 /* Allocate Non-MAC transmit buffers.
1327 * For maximum Netware performance, put Tx Buffers on
1328 * ODD Boundry,and then restore malloc to Even Boundrys.
1329 */
1330 mem_used += 1L;
1331 mem_used += tp->tx_buff_size[NON_MAC_QUEUE];
1332 mem_used += 1L;
1333
1334 /* CALCULATE NUMBER OF NON-MAC RX BDB'S
1335 * AND NON-MAC RX DATA BUFFERS
1336 *
1337 * Make sure the mem_used offset at this point is the
1338 * same as in allocate_shared memory or the following
1339 * boundary adjustment will be incorrect (i.e. not allocating
1340 * the non-mac receive buffers above cannot change the 256
1341 * byte offset).
1342 *
1343 * Since this cannot be guaranteed, adding the full 256 bytes
1344 * to the amount of shared memory used at this point will guaranteed
1345 * that the rx data buffers do not overflow shared memory.
1346 */
1347 mem_used += 0x100;
1348
1349 return((0xffff - mem_used) / (RX_DATA_BUFFER_SIZE + sizeof(BDBlock)));
1350}
1351
1352static int smctr_get_physical_drop_number(struct net_device *dev)
1353{
1354 smctr_issue_read_word_cmd(dev, RW_PHYSICAL_DROP_NUMBER);
1355
1356 return(smctr_wait_cmd(dev));
1357}
1358
1359static __u8 * smctr_get_rx_pointer(struct net_device *dev, short queue)
1360{
1361 struct net_local *tp = netdev_priv(dev);
1362 BDBlock *bdb;
1363
1364 bdb = (BDBlock *)((__u32)tp->ram_access
1365 + (__u32)(tp->rx_fcb_curr[queue]->trc_bdb_ptr));
1366
1367 tp->rx_fcb_curr[queue]->bdb_ptr = bdb;
1368
1369 return ((__u8 *)bdb->data_block_ptr);
1370}
1371
1372static int smctr_get_station_id(struct net_device *dev)
1373{
1374 smctr_issue_read_word_cmd(dev, RW_INDIVIDUAL_MAC_ADDRESS);
1375
1376 return(smctr_wait_cmd(dev));
1377}
1378
1379/*
1380 * Get the current statistics. This may be called with the card open
1381 * or closed.
1382 */
1383static struct net_device_stats *smctr_get_stats(struct net_device *dev)
1384{
1385 struct net_local *tp = netdev_priv(dev);
1386
1387 return ((struct net_device_stats *)&tp->MacStat);
1388}
1389
1390static FCBlock *smctr_get_tx_fcb(struct net_device *dev, __u16 queue,
1391 __u16 bytes_count)
1392{
1393 struct net_local *tp = netdev_priv(dev);
1394 FCBlock *pFCB;
1395 BDBlock *pbdb;
1396 unsigned short alloc_size;
1397 unsigned short *temp;
1398
1399 if(smctr_debug > 20)
1400 printk(KERN_DEBUG "smctr_get_tx_fcb\n");
1401
1402 /* check if there is enough FCB blocks */
1403 if(tp->num_tx_fcbs_used[queue] >= tp->num_tx_fcbs[queue])
1404 return ((FCBlock *)(-1L));
1405
1406 /* round off the input pkt size to the nearest even number */
1407 alloc_size = (bytes_count + 1) & 0xfffe;
1408
1409 /* check if enough mem */
1410 if((tp->tx_buff_used[queue] + alloc_size) > tp->tx_buff_size[queue])
1411 return ((FCBlock *)(-1L));
1412
1413 /* check if past the end ;
1414 * if exactly enough mem to end of ring, alloc from front.
1415 * this avoids update of curr when curr = end
1416 */
1417 if(((unsigned long)(tp->tx_buff_curr[queue]) + alloc_size)
1418 >= (unsigned long)(tp->tx_buff_end[queue]))
1419 {
1420 /* check if enough memory from ring head */
1421 alloc_size = alloc_size +
1422 (__u16)((__u32)tp->tx_buff_end[queue]
1423 - (__u32)tp->tx_buff_curr[queue]);
1424
1425 if((tp->tx_buff_used[queue] + alloc_size)
1426 > tp->tx_buff_size[queue])
1427 {
1428 return ((FCBlock *)(-1L));
1429 }
1430
1431 /* ring wrap */
1432 tp->tx_buff_curr[queue] = tp->tx_buff_head[queue];
1433 }
1434
1435 tp->tx_buff_used[queue] += alloc_size;
1436 tp->num_tx_fcbs_used[queue]++;
1437 tp->tx_fcb_curr[queue]->frame_length = bytes_count;
1438 tp->tx_fcb_curr[queue]->memory_alloc = alloc_size;
1439 temp = tp->tx_buff_curr[queue];
1440 tp->tx_buff_curr[queue]
1441 = (__u16 *)((__u32)temp + (__u32)((bytes_count + 1) & 0xfffe));
1442
1443 pbdb = tp->tx_fcb_curr[queue]->bdb_ptr;
1444 pbdb->buffer_length = bytes_count;
1445 pbdb->data_block_ptr = temp;
1446 pbdb->trc_data_block_ptr = TRC_POINTER(temp);
1447
1448 pFCB = tp->tx_fcb_curr[queue];
1449 tp->tx_fcb_curr[queue] = tp->tx_fcb_curr[queue]->next_ptr;
1450
1451 return (pFCB);
1452}
1453
1454static int smctr_get_upstream_neighbor_addr(struct net_device *dev)
1455{
1456 smctr_issue_read_word_cmd(dev, RW_UPSTREAM_NEIGHBOR_ADDRESS);
1457
1458 return(smctr_wait_cmd(dev));
1459}
1460
1461static int smctr_hardware_send_packet(struct net_device *dev,
1462 struct net_local *tp)
1463{
1464 struct tr_statistics *tstat = &tp->MacStat;
1465 struct sk_buff *skb;
1466 FCBlock *fcb;
1467
1468 if(smctr_debug > 10)
1469 printk(KERN_DEBUG"%s: smctr_hardware_send_packet\n", dev->name);
1470
1471 if(tp->status != OPEN)
1472 return (-1);
1473
1474 if(tp->monitor_state_ready != 1)
1475 return (-1);
1476
1477 for(;;)
1478 {
1479 /* Send first buffer from queue */
1480 skb = skb_dequeue(&tp->SendSkbQueue);
1481 if(skb == NULL)
1482 return (-1);
1483
1484 tp->QueueSkb++;
1485
1486 if(skb->len < SMC_HEADER_SIZE || skb->len > tp->max_packet_size) return (-1);
1487
1488 smctr_enable_16bit(dev);
1489 smctr_set_page(dev, (__u8 *)tp->ram_access);
1490
1491 if((fcb = smctr_get_tx_fcb(dev, NON_MAC_QUEUE, skb->len))
1492 == (FCBlock *)(-1L))
1493 {
1494 smctr_disable_16bit(dev);
1495 return (-1);
1496 }
1497
1498 smctr_tx_move_frame(dev, skb,
1499 (__u8 *)fcb->bdb_ptr->data_block_ptr, skb->len);
1500
1501 smctr_set_page(dev, (__u8 *)fcb);
1502
1503 smctr_trc_send_packet(dev, fcb, NON_MAC_QUEUE);
1504 dev_kfree_skb(skb);
1505
1506 tstat->tx_packets++;
1507
1508 smctr_disable_16bit(dev);
1509 }
1510
1511 return (0);
1512}
1513
1514static int smctr_init_acbs(struct net_device *dev)
1515{
1516 struct net_local *tp = netdev_priv(dev);
1517 unsigned int i;
1518 ACBlock *acb;
1519
1520 if(smctr_debug > 10)
1521 printk(KERN_DEBUG "%s: smctr_init_acbs\n", dev->name);
1522
1523 acb = tp->acb_head;
1524 acb->cmd_done_status = (ACB_COMMAND_DONE | ACB_COMMAND_SUCCESSFUL);
1525 acb->cmd_info = ACB_CHAIN_END;
1526 acb->cmd = 0;
1527 acb->subcmd = 0;
1528 acb->data_offset_lo = 0;
1529 acb->data_offset_hi = 0;
1530 acb->next_ptr
1531 = (ACBlock *)(((char *)acb) + sizeof(ACBlock));
1532 acb->trc_next_ptr = TRC_POINTER(acb->next_ptr);
1533
1534 for(i = 1; i < tp->num_acbs; i++)
1535 {
1536 acb = acb->next_ptr;
1537 acb->cmd_done_status
1538 = (ACB_COMMAND_DONE | ACB_COMMAND_SUCCESSFUL);
1539 acb->cmd_info = ACB_CHAIN_END;
1540 acb->cmd = 0;
1541 acb->subcmd = 0;
1542 acb->data_offset_lo = 0;
1543 acb->data_offset_hi = 0;
1544 acb->next_ptr
1545 = (ACBlock *)(((char *)acb) + sizeof(ACBlock));
1546 acb->trc_next_ptr = TRC_POINTER(acb->next_ptr);
1547 }
1548
1549 acb->next_ptr = tp->acb_head;
1550 acb->trc_next_ptr = TRC_POINTER(tp->acb_head);
1551 tp->acb_next = tp->acb_head->next_ptr;
1552 tp->acb_curr = tp->acb_head->next_ptr;
1553 tp->num_acbs_used = 0;
1554
1555 return (0);
1556}
1557
1558static int smctr_init_adapter(struct net_device *dev)
1559{
1560 struct net_local *tp = netdev_priv(dev);
1561 int err;
1562
1563 if(smctr_debug > 10)
1564 printk(KERN_DEBUG "%s: smctr_init_adapter\n", dev->name);
1565
1566 tp->status = CLOSED;
1567 tp->page_offset_mask = (tp->ram_usable * 1024) - 1;
1568 skb_queue_head_init(&tp->SendSkbQueue);
1569 tp->QueueSkb = MAX_TX_QUEUE;
1570
1571 if(!(tp->group_address_0 & 0x0080))
1572 tp->group_address_0 |= 0x00C0;
1573
1574 if(!(tp->functional_address_0 & 0x00C0))
1575 tp->functional_address_0 |= 0x00C0;
1576
1577 tp->functional_address[0] &= 0xFF7F;
1578
1579 if(tp->authorized_function_classes == 0)
1580 tp->authorized_function_classes = 0x7FFF;
1581
1582 if(tp->authorized_access_priority == 0)
1583 tp->authorized_access_priority = 0x06;
1584
1585 smctr_disable_bic_int(dev);
1586 smctr_set_trc_reset(dev->base_addr);
1587
1588 smctr_enable_16bit(dev);
1589 smctr_set_page(dev, (__u8 *)tp->ram_access);
1590
1591 if(smctr_checksum_firmware(dev))
1592 {
1593 printk(KERN_ERR "%s: Previously loaded firmware is missing\n",dev->name); return (-ENOENT);
1594 }
1595
1596 if((err = smctr_ram_memory_test(dev)))
1597 {
1598 printk(KERN_ERR "%s: RAM memory test failed.\n", dev->name);
1599 return (-EIO);
1600 }
1601
1602 smctr_set_rx_look_ahead(dev);
1603 smctr_load_node_addr(dev);
1604
1605 /* Initialize adapter for Internal Self Test. */
1606 smctr_reset_adapter(dev);
1607 if((err = smctr_init_card_real(dev)))
1608 {
1609 printk(KERN_ERR "%s: Initialization of card failed (%d)\n",
1610 dev->name, err);
1611 return (-EINVAL);
1612 }
1613
1614 /* This routine clobbers the TRC's internal registers. */
1615 if((err = smctr_internal_self_test(dev)))
1616 {
1617 printk(KERN_ERR "%s: Card failed internal self test (%d)\n",
1618 dev->name, err);
1619 return (-EINVAL);
1620 }
1621
1622 /* Re-Initialize adapter's internal registers */
1623 smctr_reset_adapter(dev);
1624 if((err = smctr_init_card_real(dev)))
1625 {
1626 printk(KERN_ERR "%s: Initialization of card failed (%d)\n",
1627 dev->name, err);
1628 return (-EINVAL);
1629 }
1630
1631 smctr_enable_bic_int(dev);
1632
1633 if((err = smctr_issue_enable_int_cmd(dev, TRC_INTERRUPT_ENABLE_MASK)))
1634 return (err);
1635
1636 smctr_disable_16bit(dev);
1637
1638 return (0);
1639}
1640
1641static int smctr_init_card_real(struct net_device *dev)
1642{
1643 struct net_local *tp = netdev_priv(dev);
1644 int err = 0;
1645
1646 if(smctr_debug > 10)
1647 printk(KERN_DEBUG "%s: smctr_init_card_real\n", dev->name);
1648
1649 tp->sh_mem_used = 0;
1650 tp->num_acbs = NUM_OF_ACBS;
1651
1652 /* Range Check Max Packet Size */
1653 if(tp->max_packet_size < 256)
1654 tp->max_packet_size = 256;
1655 else
1656 {
1657 if(tp->max_packet_size > NON_MAC_TX_BUFFER_MEMORY)
1658 tp->max_packet_size = NON_MAC_TX_BUFFER_MEMORY;
1659 }
1660
1661 tp->num_of_tx_buffs = (NON_MAC_TX_BUFFER_MEMORY
1662 / tp->max_packet_size) - 1;
1663
1664 if(tp->num_of_tx_buffs > NUM_NON_MAC_TX_FCBS)
1665 tp->num_of_tx_buffs = NUM_NON_MAC_TX_FCBS;
1666 else
1667 {
1668 if(tp->num_of_tx_buffs == 0)
1669 tp->num_of_tx_buffs = 1;
1670 }
1671
1672 /* Tx queue constants */
1673 tp->num_tx_fcbs [BUG_QUEUE] = NUM_BUG_TX_FCBS;
1674 tp->num_tx_bdbs [BUG_QUEUE] = NUM_BUG_TX_BDBS;
1675 tp->tx_buff_size [BUG_QUEUE] = BUG_TX_BUFFER_MEMORY;
1676 tp->tx_buff_used [BUG_QUEUE] = 0;
1677 tp->tx_queue_status [BUG_QUEUE] = NOT_TRANSMITING;
1678
1679 tp->num_tx_fcbs [MAC_QUEUE] = NUM_MAC_TX_FCBS;
1680 tp->num_tx_bdbs [MAC_QUEUE] = NUM_MAC_TX_BDBS;
1681 tp->tx_buff_size [MAC_QUEUE] = MAC_TX_BUFFER_MEMORY;
1682 tp->tx_buff_used [MAC_QUEUE] = 0;
1683 tp->tx_queue_status [MAC_QUEUE] = NOT_TRANSMITING;
1684
1685 tp->num_tx_fcbs [NON_MAC_QUEUE] = NUM_NON_MAC_TX_FCBS;
1686 tp->num_tx_bdbs [NON_MAC_QUEUE] = NUM_NON_MAC_TX_BDBS;
1687 tp->tx_buff_size [NON_MAC_QUEUE] = NON_MAC_TX_BUFFER_MEMORY;
1688 tp->tx_buff_used [NON_MAC_QUEUE] = 0;
1689 tp->tx_queue_status [NON_MAC_QUEUE] = NOT_TRANSMITING;
1690
1691 /* Receive Queue Constants */
1692 tp->num_rx_fcbs[MAC_QUEUE] = NUM_MAC_RX_FCBS;
1693 tp->num_rx_bdbs[MAC_QUEUE] = NUM_MAC_RX_BDBS;
1694
1695 if(tp->extra_info & CHIP_REV_MASK)
1696 tp->num_rx_fcbs[NON_MAC_QUEUE] = 78; /* 825 Rev. XE */
1697 else
1698 tp->num_rx_fcbs[NON_MAC_QUEUE] = 7; /* 825 Rev. XD */
1699
1700 tp->num_rx_bdbs[NON_MAC_QUEUE] = smctr_get_num_rx_bdbs(dev);
1701
1702 smctr_alloc_shared_memory(dev);
1703 smctr_init_shared_memory(dev);
1704
1705 if((err = smctr_issue_init_timers_cmd(dev)))
1706 return (err);
1707
1708 if((err = smctr_issue_init_txrx_cmd(dev)))
1709 {
1710 printk(KERN_ERR "%s: Hardware failure\n", dev->name);
1711 return (err);
1712 }
1713
1714 return (0);
1715}
1716
1717static int smctr_init_rx_bdbs(struct net_device *dev)
1718{
1719 struct net_local *tp = netdev_priv(dev);
1720 unsigned int i, j;
1721 BDBlock *bdb;
1722 __u16 *buf;
1723
1724 if(smctr_debug > 10)
1725 printk(KERN_DEBUG "%s: smctr_init_rx_bdbs\n", dev->name);
1726
1727 for(i = 0; i < NUM_RX_QS_USED; i++)
1728 {
1729 bdb = tp->rx_bdb_head[i];
1730 buf = tp->rx_buff_head[i];
1731 bdb->info = (BDB_CHAIN_END | BDB_NO_WARNING);
1732 bdb->buffer_length = RX_DATA_BUFFER_SIZE;
1733 bdb->next_ptr = (BDBlock *)(((char *)bdb) + sizeof(BDBlock));
1734 bdb->data_block_ptr = buf;
1735 bdb->trc_next_ptr = TRC_POINTER(bdb->next_ptr);
1736
1737 if(i == NON_MAC_QUEUE)
1738 bdb->trc_data_block_ptr = RX_BUFF_TRC_POINTER(buf);
1739 else
1740 bdb->trc_data_block_ptr = TRC_POINTER(buf);
1741
1742 for(j = 1; j < tp->num_rx_bdbs[i]; j++)
1743 {
1744 bdb->next_ptr->back_ptr = bdb;
1745 bdb = bdb->next_ptr;
1746 buf = (__u16 *)((char *)buf + RX_DATA_BUFFER_SIZE);
1747 bdb->info = (BDB_NOT_CHAIN_END | BDB_NO_WARNING);
1748 bdb->buffer_length = RX_DATA_BUFFER_SIZE;
1749 bdb->next_ptr = (BDBlock *)(((char *)bdb) + sizeof(BDBlock));
1750 bdb->data_block_ptr = buf;
1751 bdb->trc_next_ptr = TRC_POINTER(bdb->next_ptr);
1752
1753 if(i == NON_MAC_QUEUE)
1754 bdb->trc_data_block_ptr = RX_BUFF_TRC_POINTER(buf);
1755 else
1756 bdb->trc_data_block_ptr = TRC_POINTER(buf);
1757 }
1758
1759 bdb->next_ptr = tp->rx_bdb_head[i];
1760 bdb->trc_next_ptr = TRC_POINTER(tp->rx_bdb_head[i]);
1761
1762 tp->rx_bdb_head[i]->back_ptr = bdb;
1763 tp->rx_bdb_curr[i] = tp->rx_bdb_head[i]->next_ptr;
1764 }
1765
1766 return (0);
1767}
1768
1769static int smctr_init_rx_fcbs(struct net_device *dev)
1770{
1771 struct net_local *tp = netdev_priv(dev);
1772 unsigned int i, j;
1773 FCBlock *fcb;
1774
1775 for(i = 0; i < NUM_RX_QS_USED; i++)
1776 {
1777 fcb = tp->rx_fcb_head[i];
1778 fcb->frame_status = 0;
1779 fcb->frame_length = 0;
1780 fcb->info = FCB_CHAIN_END;
1781 fcb->next_ptr = (FCBlock *)(((char*)fcb) + sizeof(FCBlock));
1782 if(i == NON_MAC_QUEUE)
1783 fcb->trc_next_ptr = RX_FCB_TRC_POINTER(fcb->next_ptr);
1784 else
1785 fcb->trc_next_ptr = TRC_POINTER(fcb->next_ptr);
1786
1787 for(j = 1; j < tp->num_rx_fcbs[i]; j++)
1788 {
1789 fcb->next_ptr->back_ptr = fcb;
1790 fcb = fcb->next_ptr;
1791 fcb->frame_status = 0;
1792 fcb->frame_length = 0;
1793 fcb->info = FCB_WARNING;
1794 fcb->next_ptr
1795 = (FCBlock *)(((char *)fcb) + sizeof(FCBlock));
1796
1797 if(i == NON_MAC_QUEUE)
1798 fcb->trc_next_ptr
1799 = RX_FCB_TRC_POINTER(fcb->next_ptr);
1800 else
1801 fcb->trc_next_ptr
1802 = TRC_POINTER(fcb->next_ptr);
1803 }
1804
1805 fcb->next_ptr = tp->rx_fcb_head[i];
1806
1807 if(i == NON_MAC_QUEUE)
1808 fcb->trc_next_ptr = RX_FCB_TRC_POINTER(fcb->next_ptr);
1809 else
1810 fcb->trc_next_ptr = TRC_POINTER(fcb->next_ptr);
1811
1812 tp->rx_fcb_head[i]->back_ptr = fcb;
1813 tp->rx_fcb_curr[i] = tp->rx_fcb_head[i]->next_ptr;
1814 }
1815
1816 return(0);
1817}
1818
1819static int smctr_init_shared_memory(struct net_device *dev)
1820{
1821 struct net_local *tp = netdev_priv(dev);
1822 unsigned int i;
1823 __u32 *iscpb;
1824
1825 if(smctr_debug > 10)
1826 printk(KERN_DEBUG "%s: smctr_init_shared_memory\n", dev->name);
1827
1828 smctr_set_page(dev, (__u8 *)(unsigned int)tp->iscpb_ptr);
1829
1830 /* Initialize Initial System Configuration Point. (ISCP) */
1831 iscpb = (__u32 *)PAGE_POINTER(&tp->iscpb_ptr->trc_scgb_ptr);
1832 *iscpb = (__u32)(SWAP_WORDS(TRC_POINTER(tp->scgb_ptr)));
1833
1834 smctr_set_page(dev, (__u8 *)tp->ram_access);
1835
1836 /* Initialize System Configuration Pointers. (SCP) */
1837 tp->scgb_ptr->config = (SCGB_ADDRESS_POINTER_FORMAT
1838 | SCGB_MULTI_WORD_CONTROL | SCGB_DATA_FORMAT
1839 | SCGB_BURST_LENGTH);
1840
1841 tp->scgb_ptr->trc_sclb_ptr = TRC_POINTER(tp->sclb_ptr);
1842 tp->scgb_ptr->trc_acb_ptr = TRC_POINTER(tp->acb_head);
1843 tp->scgb_ptr->trc_isb_ptr = TRC_POINTER(tp->isb_ptr);
1844 tp->scgb_ptr->isbsiz = (sizeof(ISBlock)) - 2;
1845
1846 /* Initialize System Control Block. (SCB) */
1847 tp->sclb_ptr->valid_command = SCLB_VALID | SCLB_CMD_NOP;
1848 tp->sclb_ptr->iack_code = 0;
1849 tp->sclb_ptr->resume_control = 0;
1850 tp->sclb_ptr->int_mask_control = 0;
1851 tp->sclb_ptr->int_mask_state = 0;
1852
1853 /* Initialize Interrupt Status Block. (ISB) */
1854 for(i = 0; i < NUM_OF_INTERRUPTS; i++)
1855 {
1856 tp->isb_ptr->IStatus[i].IType = 0xf0;
1857 tp->isb_ptr->IStatus[i].ISubtype = 0;
1858 }
1859
1860 tp->current_isb_index = 0;
1861
1862 /* Initialize Action Command Block. (ACB) */
1863 smctr_init_acbs(dev);
1864
1865 /* Initialize transmit FCB's and BDB's. */
1866 smctr_link_tx_fcbs_to_bdbs(dev);
1867 smctr_init_tx_bdbs(dev);
1868 smctr_init_tx_fcbs(dev);
1869
1870 /* Initialize receive FCB's and BDB's. */
1871 smctr_init_rx_bdbs(dev);
1872 smctr_init_rx_fcbs(dev);
1873
1874 return (0);
1875}
1876
1877static int smctr_init_tx_bdbs(struct net_device *dev)
1878{
1879 struct net_local *tp = netdev_priv(dev);
1880 unsigned int i, j;
1881 BDBlock *bdb;
1882
1883 for(i = 0; i < NUM_TX_QS_USED; i++)
1884 {
1885 bdb = tp->tx_bdb_head[i];
1886 bdb->info = (BDB_NOT_CHAIN_END | BDB_NO_WARNING);
1887 bdb->next_ptr = (BDBlock *)(((char *)bdb) + sizeof(BDBlock));
1888 bdb->trc_next_ptr = TRC_POINTER(bdb->next_ptr);
1889
1890 for(j = 1; j < tp->num_tx_bdbs[i]; j++)
1891 {
1892 bdb->next_ptr->back_ptr = bdb;
1893 bdb = bdb->next_ptr;
1894 bdb->info = (BDB_NOT_CHAIN_END | BDB_NO_WARNING);
1895 bdb->next_ptr
1896 = (BDBlock *)(((char *)bdb) + sizeof( BDBlock)); bdb->trc_next_ptr = TRC_POINTER(bdb->next_ptr);
1897 }
1898
1899 bdb->next_ptr = tp->tx_bdb_head[i];
1900 bdb->trc_next_ptr = TRC_POINTER(tp->tx_bdb_head[i]);
1901 tp->tx_bdb_head[i]->back_ptr = bdb;
1902 }
1903
1904 return (0);
1905}
1906
1907static int smctr_init_tx_fcbs(struct net_device *dev)
1908{
1909 struct net_local *tp = netdev_priv(dev);
1910 unsigned int i, j;
1911 FCBlock *fcb;
1912
1913 for(i = 0; i < NUM_TX_QS_USED; i++)
1914 {
1915 fcb = tp->tx_fcb_head[i];
1916 fcb->frame_status = 0;
1917 fcb->frame_length = 0;
1918 fcb->info = FCB_CHAIN_END;
1919 fcb->next_ptr = (FCBlock *)(((char *)fcb) + sizeof(FCBlock));
1920 fcb->trc_next_ptr = TRC_POINTER(fcb->next_ptr);
1921
1922 for(j = 1; j < tp->num_tx_fcbs[i]; j++)
1923 {
1924 fcb->next_ptr->back_ptr = fcb;
1925 fcb = fcb->next_ptr;
1926 fcb->frame_status = 0;
1927 fcb->frame_length = 0;
1928 fcb->info = FCB_CHAIN_END;
1929 fcb->next_ptr
1930 = (FCBlock *)(((char *)fcb) + sizeof(FCBlock));
1931 fcb->trc_next_ptr = TRC_POINTER(fcb->next_ptr);
1932 }
1933
1934 fcb->next_ptr = tp->tx_fcb_head[i];
1935 fcb->trc_next_ptr = TRC_POINTER(tp->tx_fcb_head[i]);
1936
1937 tp->tx_fcb_head[i]->back_ptr = fcb;
1938 tp->tx_fcb_end[i] = tp->tx_fcb_head[i]->next_ptr;
1939 tp->tx_fcb_curr[i] = tp->tx_fcb_head[i]->next_ptr;
1940 tp->num_tx_fcbs_used[i] = 0;
1941 }
1942
1943 return (0);
1944}
1945
1946static int smctr_internal_self_test(struct net_device *dev)
1947{
1948 struct net_local *tp = netdev_priv(dev);
1949 int err;
1950
1951 if((err = smctr_issue_test_internal_rom_cmd(dev)))
1952 return (err);
1953
1954 if((err = smctr_wait_cmd(dev)))
1955 return (err);
1956
1957 if(tp->acb_head->cmd_done_status & 0xff)
1958 return (-1);
1959
1960 if((err = smctr_issue_test_hic_cmd(dev)))
1961 return (err);
1962
1963 if((err = smctr_wait_cmd(dev)))
1964 return (err);
1965
1966 if(tp->acb_head->cmd_done_status & 0xff)
1967 return (-1);
1968
1969 if((err = smctr_issue_test_mac_reg_cmd(dev)))
1970 return (err);
1971
1972 if((err = smctr_wait_cmd(dev)))
1973 return (err);
1974
1975 if(tp->acb_head->cmd_done_status & 0xff)
1976 return (-1);
1977
1978 return (0);
1979}
1980
1981/*
1982 * The typical workload of the driver: Handle the network interface interrupts.
1983 */
7d12e780 1984static irqreturn_t smctr_interrupt(int irq, void *dev_id)
1da177e4
LT		 1985{
1986 struct net_device *dev = dev_id;
1987 struct net_local *tp;
1988 int ioaddr;
1989 __u16 interrupt_unmask_bits = 0, interrupt_ack_code = 0xff00;
1990 __u16 err1, err = NOT_MY_INTERRUPT;
1991 __u8 isb_type, isb_subtype;
1992 __u16 isb_index;
1993
1da177e4
LT		 1994 ioaddr = dev->base_addr;
1995 tp = netdev_priv(dev);
1da177e4
LT		 1996
1997 if(tp->status == NOT_INITIALIZED)
1998 return IRQ_NONE;
1999
2000 spin_lock(&tp->lock);
2001
2002 smctr_disable_bic_int(dev);
2003 smctr_enable_16bit(dev);
2004
2005 smctr_clear_int(dev);
2006
2007 /* First read the LSB */
2008 while((tp->isb_ptr->IStatus[tp->current_isb_index].IType & 0xf0) == 0)
2009 {
2010 isb_index = tp->current_isb_index;
2011 isb_type = tp->isb_ptr->IStatus[isb_index].IType;
2012 isb_subtype = tp->isb_ptr->IStatus[isb_index].ISubtype;
2013
2014 (tp->current_isb_index)++;
2015 if(tp->current_isb_index == NUM_OF_INTERRUPTS)
2016 tp->current_isb_index = 0;
2017
2018 if(isb_type >= 0x10)
2019 {
2020 smctr_disable_16bit(dev);
2021 spin_unlock(&tp->lock);
2022 return IRQ_HANDLED;
2023 }
2024
2025 err = HARDWARE_FAILED;
2026 interrupt_ack_code = isb_index;
2027 tp->isb_ptr->IStatus[isb_index].IType |= 0xf0;
2028
2029 interrupt_unmask_bits |= (1 << (__u16)isb_type);
2030
2031 switch(isb_type)
2032 {
2033 case ISB_IMC_MAC_TYPE_3:
2034 smctr_disable_16bit(dev);
2035
2036 switch(isb_subtype)
2037 {
2038 case 0:
2039 tp->monitor_state = MS_MONITOR_FSM_INACTIVE;
2040 break;
2041
2042 case 1:
2043 tp->monitor_state = MS_REPEAT_BEACON_STATE;
2044 break;
2045
2046 case 2:
2047 tp->monitor_state = MS_REPEAT_CLAIM_TOKEN_STATE;
2048 break;
2049
2050 case 3:
2051 tp->monitor_state = MS_TRANSMIT_CLAIM_TOKEN_STATE; break;
2052
2053 case 4:
2054 tp->monitor_state = MS_STANDBY_MONITOR_STATE;
2055 break;
2056
2057 case 5:
2058 tp->monitor_state = MS_TRANSMIT_BEACON_STATE;
2059 break;
2060
2061 case 6:
2062 tp->monitor_state = MS_ACTIVE_MONITOR_STATE;
2063 break;
2064
2065 case 7:
2066 tp->monitor_state = MS_TRANSMIT_RING_PURGE_STATE;
2067 break;
2068
2069 case 8: /* diagnostic state */
2070 break;
2071
2072 case 9:
2073 tp->monitor_state = MS_BEACON_TEST_STATE;
2074 if(smctr_lobe_media_test(dev))
2075 {
2076 tp->ring_status_flags = RING_STATUS_CHANGED;
2077 tp->ring_status = AUTO_REMOVAL_ERROR;
2078 smctr_ring_status_chg(dev);
2079 smctr_bypass_state(dev);
2080 }
2081 else
2082 smctr_issue_insert_cmd(dev);
2083 break;
2084
2085 /* case 0x0a-0xff, illegal states */
2086 default:
2087 break;
2088 }
2089
2090 tp->ring_status_flags = MONITOR_STATE_CHANGED;
2091 err = smctr_ring_status_chg(dev);
2092
2093 smctr_enable_16bit(dev);
2094 break;
2095
2096 /* Type 0x02 - MAC Error Counters Interrupt
2097 * One or more MAC Error Counter is half full
2098 * MAC Error Counters
2099 * Lost_FR_Error_Counter
2100 * RCV_Congestion_Counter
2101 * FR_copied_Error_Counter
2102 * FREQ_Error_Counter
2103 * Token_Error_Counter
2104 * Line_Error_Counter
2105 * Internal_Error_Count
2106 */
2107 case ISB_IMC_MAC_ERROR_COUNTERS:
2108 /* Read 802.5 Error Counters */
2109 err = smctr_issue_read_ring_status_cmd(dev);
2110 break;
2111
2112 /* Type 0x04 - MAC Type 2 Interrupt
2113 * HOST needs to enqueue MAC Frame for transmission
2114 * SubType Bit 15 - RQ_INIT_PDU( Request Initialization) * Changed from RQ_INIT_PDU to
2115 * TRC_Status_Changed_Indicate
2116 */
2117 case ISB_IMC_MAC_TYPE_2:
2118 err = smctr_issue_read_ring_status_cmd(dev);
2119 break;
2120
2121
2122 /* Type 0x05 - TX Frame Interrupt (FI). */
2123 case ISB_IMC_TX_FRAME:
2124 /* BUG QUEUE for TRC stuck receive BUG */
2125 if(isb_subtype & TX_PENDING_PRIORITY_2)
2126 {
2127 if((err = smctr_tx_complete(dev, BUG_QUEUE)) != SUCCESS)
2128 break;
2129 }
2130
2131 /* NON-MAC frames only */
2132 if(isb_subtype & TX_PENDING_PRIORITY_1)
2133 {
2134 if((err = smctr_tx_complete(dev, NON_MAC_QUEUE)) != SUCCESS)
2135 break;
2136 }
2137
2138 /* MAC frames only */
2139 if(isb_subtype & TX_PENDING_PRIORITY_0)
2140 err = smctr_tx_complete(dev, MAC_QUEUE); break;
2141
2142 /* Type 0x06 - TX END OF QUEUE (FE) */
2143 case ISB_IMC_END_OF_TX_QUEUE:
2144 /* BUG queue */
2145 if(isb_subtype & TX_PENDING_PRIORITY_2)
2146 {
2147 /* ok to clear Receive FIFO overrun
2148 * imask send_BUG now completes.
2149 */
2150 interrupt_unmask_bits |= 0x800;
2151
2152 tp->tx_queue_status[BUG_QUEUE] = NOT_TRANSMITING;
2153 if((err = smctr_tx_complete(dev, BUG_QUEUE)) != SUCCESS)
2154 break;
2155 if((err = smctr_restart_tx_chain(dev, BUG_QUEUE)) != SUCCESS)
2156 break;
2157 }
2158
2159 /* NON-MAC queue only */
2160 if(isb_subtype & TX_PENDING_PRIORITY_1)
2161 {
2162 tp->tx_queue_status[NON_MAC_QUEUE] = NOT_TRANSMITING;
2163 if((err = smctr_tx_complete(dev, NON_MAC_QUEUE)) != SUCCESS)
2164 break;
2165 if((err = smctr_restart_tx_chain(dev, NON_MAC_QUEUE)) != SUCCESS)
2166 break;
2167 }
2168
2169 /* MAC queue only */
2170 if(isb_subtype & TX_PENDING_PRIORITY_0)
2171 {
2172 tp->tx_queue_status[MAC_QUEUE] = NOT_TRANSMITING;
2173 if((err = smctr_tx_complete(dev, MAC_QUEUE)) != SUCCESS)
2174 break;
2175
2176 err = smctr_restart_tx_chain(dev, MAC_QUEUE);
2177 }
2178 break;
2179
2180 /* Type 0x07 - NON-MAC RX Resource Interrupt
2181 * Subtype bit 12 - (BW) BDB warning
2182 * Subtype bit 13 - (FW) FCB warning
2183 * Subtype bit 14 - (BE) BDB End of chain
2184 * Subtype bit 15 - (FE) FCB End of chain
2185 */
2186 case ISB_IMC_NON_MAC_RX_RESOURCE:
2187 tp->rx_fifo_overrun_count = 0;
2188 tp->receive_queue_number = NON_MAC_QUEUE;
2189 err1 = smctr_rx_frame(dev);
2190
2191 if(isb_subtype & NON_MAC_RX_RESOURCE_FE)
2192 {
2193 if((err = smctr_issue_resume_rx_fcb_cmd( dev, NON_MAC_QUEUE)) != SUCCESS) break;
2194
2195 if(tp->ptr_rx_fcb_overruns)
2196 (*tp->ptr_rx_fcb_overruns)++;
2197 }
2198
2199 if(isb_subtype & NON_MAC_RX_RESOURCE_BE)
2200 {
2201 if((err = smctr_issue_resume_rx_bdb_cmd( dev, NON_MAC_QUEUE)) != SUCCESS) break;
2202
2203 if(tp->ptr_rx_bdb_overruns)
2204 (*tp->ptr_rx_bdb_overruns)++;
2205 }
2206 err = err1;
2207 break;
2208
2209 /* Type 0x08 - MAC RX Resource Interrupt
2210 * Subtype bit 12 - (BW) BDB warning
2211 * Subtype bit 13 - (FW) FCB warning
2212 * Subtype bit 14 - (BE) BDB End of chain
2213 * Subtype bit 15 - (FE) FCB End of chain
2214 */
2215 case ISB_IMC_MAC_RX_RESOURCE:
2216 tp->receive_queue_number = MAC_QUEUE;
2217 err1 = smctr_rx_frame(dev);
2218
2219 if(isb_subtype & MAC_RX_RESOURCE_FE)
2220 {
2221 if((err = smctr_issue_resume_rx_fcb_cmd( dev, MAC_QUEUE)) != SUCCESS)
2222 break;
2223
2224 if(tp->ptr_rx_fcb_overruns)
2225 (*tp->ptr_rx_fcb_overruns)++;
2226 }
2227
2228 if(isb_subtype & MAC_RX_RESOURCE_BE)
2229 {
2230 if((err = smctr_issue_resume_rx_bdb_cmd( dev, MAC_QUEUE)) != SUCCESS)
2231 break;
2232
2233 if(tp->ptr_rx_bdb_overruns)
2234 (*tp->ptr_rx_bdb_overruns)++;
2235 }
2236 err = err1;
2237 break;
2238
2239 /* Type 0x09 - NON_MAC RX Frame Interrupt */
2240 case ISB_IMC_NON_MAC_RX_FRAME:
2241 tp->rx_fifo_overrun_count = 0;
2242 tp->receive_queue_number = NON_MAC_QUEUE;
2243 err = smctr_rx_frame(dev);
2244 break;
2245
2246 /* Type 0x0A - MAC RX Frame Interrupt */
2247 case ISB_IMC_MAC_RX_FRAME:
2248 tp->receive_queue_number = MAC_QUEUE;
2249 err = smctr_rx_frame(dev);
2250 break;
2251
2252 /* Type 0x0B - TRC status
2253 * TRC has encountered an error condition
2254 * subtype bit 14 - transmit FIFO underrun
2255 * subtype bit 15 - receive FIFO overrun
2256 */
2257 case ISB_IMC_TRC_FIFO_STATUS:
2258 if(isb_subtype & TRC_FIFO_STATUS_TX_UNDERRUN)
2259 {
2260 if(tp->ptr_tx_fifo_underruns)
2261 (*tp->ptr_tx_fifo_underruns)++;
2262 }
2263
2264 if(isb_subtype & TRC_FIFO_STATUS_RX_OVERRUN)
2265 {
2266 /* update overrun stuck receive counter
2267 * if >= 3, has to clear it by sending
2268 * back to back frames. We pick
2269 * DAT(duplicate address MAC frame)
2270 */
2271 tp->rx_fifo_overrun_count++;
2272
2273 if(tp->rx_fifo_overrun_count >= 3)
2274 {
2275 tp->rx_fifo_overrun_count = 0;
2276
2277 /* delay clearing fifo overrun
2278 * imask till send_BUG tx
2279 * complete posted
2280 */
2281 interrupt_unmask_bits &= (~0x800);
2282 printk(KERN_CRIT "Jay please send bug\n");// smctr_send_bug(dev);
2283 }
2284
2285 if(tp->ptr_rx_fifo_overruns)
2286 (*tp->ptr_rx_fifo_overruns)++;
2287 }
2288
2289 err = SUCCESS;
2290 break;
2291
2292 /* Type 0x0C - Action Command Status Interrupt
2293 * Subtype bit 14 - CB end of command chain (CE)
2294 * Subtype bit 15 - CB command interrupt (CI)
2295 */
2296 case ISB_IMC_COMMAND_STATUS:
2297 err = SUCCESS;
2298 if(tp->acb_head->cmd == ACB_CMD_HIC_NOP)
2299 {
2300 printk(KERN_ERR "i1\n");
2301 smctr_disable_16bit(dev);
2302
2303 /* XXXXXXXXXXXXXXXXX */
2304 /* err = UM_Interrupt(dev); */
2305
2306 smctr_enable_16bit(dev);
2307 }
2308 else
2309 {
2310 if((tp->acb_head->cmd
8e95a202
JP		 2311 == ACB_CMD_READ_TRC_STATUS) &&
2312 (tp->acb_head->subcmd
2313 == RW_TRC_STATUS_BLOCK))
1da177e4 2314 {
79ea13ce 2315 if(tp->ptr_bcn_type)
1da177e4
LT		 2316 {
2317 *(tp->ptr_bcn_type)
2318 = (__u32)((SBlock *)tp->misc_command_data)->BCN_Type;
2319 }
2320
2321 if(((SBlock *)tp->misc_command_data)->Status_CHG_Indicate & ERROR_COUNTERS_CHANGED)
2322 {
2323 smctr_update_err_stats(dev);
2324 }
2325
2326 if(((SBlock *)tp->misc_command_data)->Status_CHG_Indicate & TI_NDIS_RING_STATUS_CHANGED)
2327 {
2328 tp->ring_status
2329 = ((SBlock*)tp->misc_command_data)->TI_NDIS_Ring_Status;
2330 smctr_disable_16bit(dev);
2331 err = smctr_ring_status_chg(dev);
2332 smctr_enable_16bit(dev);
8e95a202
JP		 2333 if((tp->ring_status & REMOVE_RECEIVED) &&
2334 (tp->config_word0 & NO_AUTOREMOVE))
1da177e4
LT		 2335 {
2336 smctr_issue_remove_cmd(dev);
2337 }
2338
2339 if(err != SUCCESS)
2340 {
2341 tp->acb_pending = 0;
2342 break;
2343 }
2344 }
2345
2346 if(((SBlock *)tp->misc_command_data)->Status_CHG_Indicate & UNA_CHANGED)
2347 {
2348 if(tp->ptr_una)
2349 {
2350 tp->ptr_una[0] = SWAP_BYTES(((SBlock *)tp->misc_command_data)->UNA[0]);
2351 tp->ptr_una[1] = SWAP_BYTES(((SBlock *)tp->misc_command_data)->UNA[1]);
2352 tp->ptr_una[2] = SWAP_BYTES(((SBlock *)tp->misc_command_data)->UNA[2]);
2353 }
2354
2355 }
2356
2357 if(((SBlock *)tp->misc_command_data)->Status_CHG_Indicate & READY_TO_SEND_RQ_INIT) {
2358 err = smctr_send_rq_init(dev);
2359 }
2360 }
2361 }
2362
2363 tp->acb_pending = 0;
2364 break;
2365
2366 /* Type 0x0D - MAC Type 1 interrupt
2367 * Subtype -- 00 FR_BCN received at S12
2368 * 01 FR_BCN received at S21
2369 * 02 FR_DAT(DA=MA, A<>0) received at S21
2370 * 03 TSM_EXP at S21
2371 * 04 FR_REMOVE received at S42
2372 * 05 TBR_EXP, BR_FLAG_SET at S42
2373 * 06 TBT_EXP at S53
2374 */
2375 case ISB_IMC_MAC_TYPE_1:
2376 if(isb_subtype > 8)
2377 {
2378 err = HARDWARE_FAILED;
2379 break;
2380 }
2381
2382 err = SUCCESS;
2383 switch(isb_subtype)
2384 {
2385 case 0:
2386 tp->join_state = JS_BYPASS_STATE;
2387 if(tp->status != CLOSED)
2388 {
2389 tp->status = CLOSED;
2390 err = smctr_status_chg(dev);
2391 }
2392 break;
2393
2394 case 1:
2395 tp->join_state = JS_LOBE_TEST_STATE;
2396 break;
2397
2398 case 2:
2399 tp->join_state = JS_DETECT_MONITOR_PRESENT_STATE;
2400 break;
2401
2402 case 3:
2403 tp->join_state = JS_AWAIT_NEW_MONITOR_STATE;
2404 break;
2405
2406 case 4:
2407 tp->join_state = JS_DUPLICATE_ADDRESS_TEST_STATE;
2408 break;
2409
2410 case 5:
2411 tp->join_state = JS_NEIGHBOR_NOTIFICATION_STATE;
2412 break;
2413
2414 case 6:
2415 tp->join_state = JS_REQUEST_INITIALIZATION_STATE;
2416 break;
2417
2418 case 7:
2419 tp->join_state = JS_JOIN_COMPLETE_STATE;
2420 tp->status = OPEN;
2421 err = smctr_status_chg(dev);
2422 break;
2423
2424 case 8:
2425 tp->join_state = JS_BYPASS_WAIT_STATE;
2426 break;
2427 }
2428 break ;
2429
2430 /* Type 0x0E - TRC Initialization Sequence Interrupt
2431 * Subtype -- 00-FF Initializatin sequence complete
2432 */
2433 case ISB_IMC_TRC_INTRNL_TST_STATUS:
2434 tp->status = INITIALIZED;
2435 smctr_disable_16bit(dev);
2436 err = smctr_status_chg(dev);
2437 smctr_enable_16bit(dev);
2438 break;
2439
2440 /* other interrupt types, illegal */
2441 default:
2442 break;
2443 }
2444
2445 if(err != SUCCESS)
2446 break;
2447 }
2448
2449 /* Checking the ack code instead of the unmask bits here is because :
2450 * while fixing the stuck receive, DAT frame are sent and mask off
2451 * FIFO overrun interrupt temporarily (interrupt_unmask_bits = 0)
2452 * but we still want to issue ack to ISB
2453 */
2454 if(!(interrupt_ack_code & 0xff00))
2455 smctr_issue_int_ack(dev, interrupt_ack_code, interrupt_unmask_bits);
2456
2457 smctr_disable_16bit(dev);
2458 smctr_enable_bic_int(dev);
2459 spin_unlock(&tp->lock);
2460
2461 return IRQ_HANDLED;
2462}
2463
2464static int smctr_issue_enable_int_cmd(struct net_device *dev,
2465 __u16 interrupt_enable_mask)
2466{
2467 struct net_local *tp = netdev_priv(dev);
2468 int err;
2469
2470 if((err = smctr_wait_while_cbusy(dev)))
2471 return (err);
2472
2473 tp->sclb_ptr->int_mask_control = interrupt_enable_mask;
2474 tp->sclb_ptr->valid_command = SCLB_VALID | SCLB_CMD_CLEAR_INTERRUPT_MASK;
2475
2476 smctr_set_ctrl_attention(dev);
2477
2478 return (0);
2479}
2480
2481static int smctr_issue_int_ack(struct net_device *dev, __u16 iack_code, __u16 ibits)
2482{
2483 struct net_local *tp = netdev_priv(dev);
2484
2485 if(smctr_wait_while_cbusy(dev))
2486 return (-1);
2487
2488 tp->sclb_ptr->int_mask_control = ibits;
2489 tp->sclb_ptr->iack_code = iack_code << 1; /* use the offset from base */ tp->sclb_ptr->resume_control = 0;
2490 tp->sclb_ptr->valid_command = SCLB_VALID | SCLB_IACK_CODE_VALID | SCLB_CMD_CLEAR_INTERRUPT_MASK;
2491
2492 smctr_set_ctrl_attention(dev);
2493
2494 return (0);
2495}
2496
2497static int smctr_issue_init_timers_cmd(struct net_device *dev)
2498{
2499 struct net_local *tp = netdev_priv(dev);
2500 unsigned int i;
2501 int err;
2502 __u16 *pTimer_Struc = (__u16 *)tp->misc_command_data;
2503
2504 if((err = smctr_wait_while_cbusy(dev)))
2505 return (err);
2506
2507 if((err = smctr_wait_cmd(dev)))
2508 return (err);
2509
2510 tp->config_word0 = THDREN | DMA_TRIGGER | USETPT | NO_AUTOREMOVE;
2511 tp->config_word1 = 0;
2512
8e95a202
JP		 2513 if((tp->media_type == MEDIA_STP_16) ||
2514 (tp->media_type == MEDIA_UTP_16) ||
2515 (tp->media_type == MEDIA_STP_16_UTP_16))
1da177e4
LT		 2516 {
2517 tp->config_word0 |= FREQ_16MB_BIT;
2518 }
2519
2520 if(tp->mode_bits & EARLY_TOKEN_REL)
2521 tp->config_word0 |= ETREN;
2522
2523 if(tp->mode_bits & LOOPING_MODE_MASK)
2524 tp->config_word0 |= RX_OWN_BIT;
2525 else
2526 tp->config_word0 &= ~RX_OWN_BIT;
2527
2528 if(tp->receive_mask & PROMISCUOUS_MODE)
2529 tp->config_word0 |= PROMISCUOUS_BIT;
2530 else
2531 tp->config_word0 &= ~PROMISCUOUS_BIT;
2532
2533 if(tp->receive_mask & ACCEPT_ERR_PACKETS)
2534 tp->config_word0 |= SAVBAD_BIT;
2535 else
2536 tp->config_word0 &= ~SAVBAD_BIT;
2537
2538 if(tp->receive_mask & ACCEPT_ATT_MAC_FRAMES)
2539 tp->config_word0 |= RXATMAC;
2540 else
2541 tp->config_word0 &= ~RXATMAC;
2542
2543 if(tp->receive_mask & ACCEPT_MULTI_PROM)
2544 tp->config_word1 |= MULTICAST_ADDRESS_BIT;
2545 else
2546 tp->config_word1 &= ~MULTICAST_ADDRESS_BIT;
2547
2548 if(tp->receive_mask & ACCEPT_SOURCE_ROUTING_SPANNING)
2549 tp->config_word1 |= SOURCE_ROUTING_SPANNING_BITS;
2550 else
2551 {
2552 if(tp->receive_mask & ACCEPT_SOURCE_ROUTING)
2553 tp->config_word1 |= SOURCE_ROUTING_EXPLORER_BIT;
2554 else
2555 tp->config_word1 &= ~SOURCE_ROUTING_SPANNING_BITS;
2556 }
2557
8e95a202
JP		 2558 if((tp->media_type == MEDIA_STP_16) ||
2559 (tp->media_type == MEDIA_UTP_16) ||
2560 (tp->media_type == MEDIA_STP_16_UTP_16))
1da177e4
LT		 2561 {
2562 tp->config_word1 |= INTERFRAME_SPACING_16;
2563 }
2564 else
2565 tp->config_word1 |= INTERFRAME_SPACING_4;
2566
2567 *pTimer_Struc++ = tp->config_word0;
2568 *pTimer_Struc++ = tp->config_word1;
2569
8e95a202
JP		 2570 if((tp->media_type == MEDIA_STP_4) ||
2571 (tp->media_type == MEDIA_UTP_4) ||
2572 (tp->media_type == MEDIA_STP_4_UTP_4))
1da177e4
LT		 2573 {
2574 *pTimer_Struc++ = 0x00FA; /* prescale */
2575 *pTimer_Struc++ = 0x2710; /* TPT_limit */
2576 *pTimer_Struc++ = 0x2710; /* TQP_limit */
2577 *pTimer_Struc++ = 0x0A28; /* TNT_limit */
2578 *pTimer_Struc++ = 0x3E80; /* TBT_limit */
2579 *pTimer_Struc++ = 0x3A98; /* TSM_limit */
2580 *pTimer_Struc++ = 0x1B58; /* TAM_limit */
2581 *pTimer_Struc++ = 0x00C8; /* TBR_limit */
2582 *pTimer_Struc++ = 0x07D0; /* TER_limit */
2583 *pTimer_Struc++ = 0x000A; /* TGT_limit */
2584 *pTimer_Struc++ = 0x1162; /* THT_limit */
2585 *pTimer_Struc++ = 0x07D0; /* TRR_limit */
2586 *pTimer_Struc++ = 0x1388; /* TVX_limit */
2587 *pTimer_Struc++ = 0x0000; /* reserved */
2588 }
2589 else
2590 {
2591 *pTimer_Struc++ = 0x03E8; /* prescale */
2592 *pTimer_Struc++ = 0x9C40; /* TPT_limit */
2593 *pTimer_Struc++ = 0x9C40; /* TQP_limit */
2594 *pTimer_Struc++ = 0x0A28; /* TNT_limit */
2595 *pTimer_Struc++ = 0x3E80; /* TBT_limit */
2596 *pTimer_Struc++ = 0x3A98; /* TSM_limit */
2597 *pTimer_Struc++ = 0x1B58; /* TAM_limit */
2598 *pTimer_Struc++ = 0x00C8; /* TBR_limit */
2599 *pTimer_Struc++ = 0x07D0; /* TER_limit */
2600 *pTimer_Struc++ = 0x000A; /* TGT_limit */
2601 *pTimer_Struc++ = 0x4588; /* THT_limit */
2602 *pTimer_Struc++ = 0x1F40; /* TRR_limit */
2603 *pTimer_Struc++ = 0x4E20; /* TVX_limit */
2604 *pTimer_Struc++ = 0x0000; /* reserved */
2605 }
2606
2607 /* Set node address. */
2608 *pTimer_Struc++ = dev->dev_addr[0] << 8
2609 | (dev->dev_addr[1] & 0xFF);
2610 *pTimer_Struc++ = dev->dev_addr[2] << 8
2611 | (dev->dev_addr[3] & 0xFF);
2612 *pTimer_Struc++ = dev->dev_addr[4] << 8
2613 | (dev->dev_addr[5] & 0xFF);
2614
2615 /* Set group address. */
2616 *pTimer_Struc++ = tp->group_address_0 << 8
2617 | tp->group_address_0 >> 8;
2618 *pTimer_Struc++ = tp->group_address[0] << 8
2619 | tp->group_address[0] >> 8;
2620 *pTimer_Struc++ = tp->group_address[1] << 8
2621 | tp->group_address[1] >> 8;
2622
2623 /* Set functional address. */
2624 *pTimer_Struc++ = tp->functional_address_0 << 8
2625 | tp->functional_address_0 >> 8;
2626 *pTimer_Struc++ = tp->functional_address[0] << 8
2627 | tp->functional_address[0] >> 8;
2628 *pTimer_Struc++ = tp->functional_address[1] << 8
2629 | tp->functional_address[1] >> 8;
2630
2631 /* Set Bit-Wise group address. */
2632 *pTimer_Struc++ = tp->bitwise_group_address[0] << 8
2633 | tp->bitwise_group_address[0] >> 8;
2634 *pTimer_Struc++ = tp->bitwise_group_address[1] << 8
2635 | tp->bitwise_group_address[1] >> 8;
2636
2637 /* Set ring number address. */
2638 *pTimer_Struc++ = tp->source_ring_number;
2639 *pTimer_Struc++ = tp->target_ring_number;
2640
2641 /* Physical drop number. */
2642 *pTimer_Struc++ = (unsigned short)0;
2643 *pTimer_Struc++ = (unsigned short)0;
2644
2645 /* Product instance ID. */
2646 for(i = 0; i < 9; i++)
2647 *pTimer_Struc++ = (unsigned short)0;
2648
2649 err = smctr_setup_single_cmd_w_data(dev, ACB_CMD_INIT_TRC_TIMERS, 0);
2650
2651 return (err);
2652}
2653
2654static int smctr_issue_init_txrx_cmd(struct net_device *dev)
2655{
2656 struct net_local *tp = netdev_priv(dev);
2657 unsigned int i;
2658 int err;
2659 void **txrx_ptrs = (void *)tp->misc_command_data;
2660
2661 if((err = smctr_wait_while_cbusy(dev)))
2662 return (err);
2663
2664 if((err = smctr_wait_cmd(dev)))
2665 {
2666 printk(KERN_ERR "%s: Hardware failure\n", dev->name);
2667 return (err);
2668 }
2669
2670 /* Initialize Transmit Queue Pointers that are used, to point to
2671 * a single FCB.
2672 */
2673 for(i = 0; i < NUM_TX_QS_USED; i++)
2674 *txrx_ptrs++ = (void *)TRC_POINTER(tp->tx_fcb_head[i]);
2675
2676 /* Initialize Transmit Queue Pointers that are NOT used to ZERO. */
2677 for(; i < MAX_TX_QS; i++)
2678 *txrx_ptrs++ = (void *)0;
2679
2680 /* Initialize Receive Queue Pointers (MAC and Non-MAC) that are
2681 * used, to point to a single FCB and a BDB chain of buffers.
2682 */
2683 for(i = 0; i < NUM_RX_QS_USED; i++)
2684 {
2685 *txrx_ptrs++ = (void *)TRC_POINTER(tp->rx_fcb_head[i]);
2686 *txrx_ptrs++ = (void *)TRC_POINTER(tp->rx_bdb_head[i]);
2687 }
2688
2689 /* Initialize Receive Queue Pointers that are NOT used to ZERO. */
2690 for(; i < MAX_RX_QS; i++)
2691 {
2692 *txrx_ptrs++ = (void *)0;
2693 *txrx_ptrs++ = (void *)0;
2694 }
2695
2696 err = smctr_setup_single_cmd_w_data(dev, ACB_CMD_INIT_TX_RX, 0);
2697
2698 return (err);
2699}
2700
2701static int smctr_issue_insert_cmd(struct net_device *dev)
2702{
2703 int err;
2704
2705 err = smctr_setup_single_cmd(dev, ACB_CMD_INSERT, ACB_SUB_CMD_NOP);
2706
2707 return (err);
2708}
2709
2710static int smctr_issue_read_ring_status_cmd(struct net_device *dev)
2711{
2712 int err;
2713
2714 if((err = smctr_wait_while_cbusy(dev)))
2715 return (err);
2716
2717 if((err = smctr_wait_cmd(dev)))
2718 return (err);
2719
2720 err = smctr_setup_single_cmd_w_data(dev, ACB_CMD_READ_TRC_STATUS,
2721 RW_TRC_STATUS_BLOCK);
2722
2723 return (err);
2724}
2725
2726static int smctr_issue_read_word_cmd(struct net_device *dev, __u16 aword_cnt)
2727{
2728 int err;
2729
2730 if((err = smctr_wait_while_cbusy(dev)))
2731 return (err);
2732
2733 if((err = smctr_wait_cmd(dev)))
2734 return (err);
2735
2736 err = smctr_setup_single_cmd_w_data(dev, ACB_CMD_MCT_READ_VALUE,
2737 aword_cnt);
2738
2739 return (err);
2740}
2741
2742static int smctr_issue_remove_cmd(struct net_device *dev)
2743{
2744 struct net_local *tp = netdev_priv(dev);
2745 int err;
2746
2747 if((err = smctr_wait_while_cbusy(dev)))
2748 return (err);
2749
2750 tp->sclb_ptr->resume_control = 0;
2751 tp->sclb_ptr->valid_command = SCLB_VALID | SCLB_CMD_REMOVE;
2752
2753 smctr_set_ctrl_attention(dev);
2754
2755 return (0);
2756}
2757
2758static int smctr_issue_resume_acb_cmd(struct net_device *dev)
2759{
2760 struct net_local *tp = netdev_priv(dev);
2761 int err;
2762
2763 if((err = smctr_wait_while_cbusy(dev)))
2764 return (err);
2765
2766 tp->sclb_ptr->resume_control = SCLB_RC_ACB;
2767 tp->sclb_ptr->valid_command = SCLB_VALID | SCLB_RESUME_CONTROL_VALID;
2768
2769 tp->acb_pending = 1;
2770
2771 smctr_set_ctrl_attention(dev);
2772
2773 return (0);
2774}
2775
2776static int smctr_issue_resume_rx_bdb_cmd(struct net_device *dev, __u16 queue)
2777{
2778 struct net_local *tp = netdev_priv(dev);
2779 int err;
2780
2781 if((err = smctr_wait_while_cbusy(dev)))
2782 return (err);
2783
2784 if(queue == MAC_QUEUE)
2785 tp->sclb_ptr->resume_control = SCLB_RC_RX_MAC_BDB;
2786 else
2787 tp->sclb_ptr->resume_control = SCLB_RC_RX_NON_MAC_BDB;
2788
2789 tp->sclb_ptr->valid_command = SCLB_VALID | SCLB_RESUME_CONTROL_VALID;
2790
2791 smctr_set_ctrl_attention(dev);
2792
2793 return (0);
2794}
2795
2796static int smctr_issue_resume_rx_fcb_cmd(struct net_device *dev, __u16 queue)
2797{
2798 struct net_local *tp = netdev_priv(dev);
2799
2800 if(smctr_debug > 10)
2801 printk(KERN_DEBUG "%s: smctr_issue_resume_rx_fcb_cmd\n", dev->name);
2802
2803 if(smctr_wait_while_cbusy(dev))
2804 return (-1);
2805
2806 if(queue == MAC_QUEUE)
2807 tp->sclb_ptr->resume_control = SCLB_RC_RX_MAC_FCB;
2808 else
2809 tp->sclb_ptr->resume_control = SCLB_RC_RX_NON_MAC_FCB;
2810
2811 tp->sclb_ptr->valid_command = SCLB_VALID | SCLB_RESUME_CONTROL_VALID;
2812
2813 smctr_set_ctrl_attention(dev);
2814
2815 return (0);
2816}
2817
2818static int smctr_issue_resume_tx_fcb_cmd(struct net_device *dev, __u16 queue)
2819{
2820 struct net_local *tp = netdev_priv(dev);
2821
2822 if(smctr_debug > 10)
2823 printk(KERN_DEBUG "%s: smctr_issue_resume_tx_fcb_cmd\n", dev->name);
2824
2825 if(smctr_wait_while_cbusy(dev))
2826 return (-1);
2827
2828 tp->sclb_ptr->resume_control = (SCLB_RC_TFCB0 << queue);
2829 tp->sclb_ptr->valid_command = SCLB_RESUME_CONTROL_VALID | SCLB_VALID;
2830
2831 smctr_set_ctrl_attention(dev);
2832
2833 return (0);
2834}
2835
2836static int smctr_issue_test_internal_rom_cmd(struct net_device *dev)
2837{
2838 int err;
2839
2840 err = smctr_setup_single_cmd(dev, ACB_CMD_MCT_TEST,
2841 TRC_INTERNAL_ROM_TEST);
2842
2843 return (err);
2844}
2845
2846static int smctr_issue_test_hic_cmd(struct net_device *dev)
2847{
2848 int err;
2849
2850 err = smctr_setup_single_cmd(dev, ACB_CMD_HIC_TEST,
2851 TRC_HOST_INTERFACE_REG_TEST);
2852
2853 return (err);
2854}
2855
2856static int smctr_issue_test_mac_reg_cmd(struct net_device *dev)
2857{
2858 int err;
2859
2860 err = smctr_setup_single_cmd(dev, ACB_CMD_MCT_TEST,
2861 TRC_MAC_REGISTERS_TEST);
2862
2863 return (err);
2864}
2865
2866static int smctr_issue_trc_loopback_cmd(struct net_device *dev)
2867{
2868 int err;
2869
2870 err = smctr_setup_single_cmd(dev, ACB_CMD_MCT_TEST,
2871 TRC_INTERNAL_LOOPBACK);
2872
2873 return (err);
2874}
2875
2876static int smctr_issue_tri_loopback_cmd(struct net_device *dev)
2877{
2878 int err;
2879
2880 err = smctr_setup_single_cmd(dev, ACB_CMD_MCT_TEST,
2881 TRC_TRI_LOOPBACK);
2882
2883 return (err);
2884}
2885
2886static int smctr_issue_write_byte_cmd(struct net_device *dev,
2887 short aword_cnt, void *byte)
2888{
2889 struct net_local *tp = netdev_priv(dev);
2890 unsigned int iword, ibyte;
2891 int err;
2892
2893 if((err = smctr_wait_while_cbusy(dev)))
2894 return (err);
2895
2896 if((err = smctr_wait_cmd(dev)))
2897 return (err);
2898
2899 for(iword = 0, ibyte = 0; iword < (unsigned int)(aword_cnt & 0xff);
2900 iword++, ibyte += 2)
2901 {
2902 tp->misc_command_data[iword] = (*((__u8 *)byte + ibyte) << 8)
2903 | (*((__u8 *)byte + ibyte + 1));
2904 }
2905
2906 return (smctr_setup_single_cmd_w_data(dev, ACB_CMD_MCT_WRITE_VALUE,
2907 aword_cnt));
2908}
2909
2910static int smctr_issue_write_word_cmd(struct net_device *dev,
2911 short aword_cnt, void *word)
2912{
2913 struct net_local *tp = netdev_priv(dev);
2914 unsigned int i, err;
2915
2916 if((err = smctr_wait_while_cbusy(dev)))
2917 return (err);
2918
2919 if((err = smctr_wait_cmd(dev)))
2920 return (err);
2921
2922 for(i = 0; i < (unsigned int)(aword_cnt & 0xff); i++)
2923 tp->misc_command_data[i] = *((__u16 *)word + i);
2924
2925 err = smctr_setup_single_cmd_w_data(dev, ACB_CMD_MCT_WRITE_VALUE,
2926 aword_cnt);
2927
2928 return (err);
2929}
2930
2931static int smctr_join_complete_state(struct net_device *dev)
2932{
2933 int err;
2934
2935 err = smctr_setup_single_cmd(dev, ACB_CMD_CHANGE_JOIN_STATE,
2936 JS_JOIN_COMPLETE_STATE);
2937
2938 return (err);
2939}
2940
2941static int smctr_link_tx_fcbs_to_bdbs(struct net_device *dev)
2942{
2943 struct net_local *tp = netdev_priv(dev);
2944 unsigned int i, j;
2945 FCBlock *fcb;
2946 BDBlock *bdb;
2947
2948 for(i = 0; i < NUM_TX_QS_USED; i++)
2949 {
2950 fcb = tp->tx_fcb_head[i];
2951 bdb = tp->tx_bdb_head[i];
2952
2953 for(j = 0; j < tp->num_tx_fcbs[i]; j++)
2954 {
2955 fcb->bdb_ptr = bdb;
2956 fcb->trc_bdb_ptr = TRC_POINTER(bdb);
2957 fcb = (FCBlock *)((char *)fcb + sizeof(FCBlock));
2958 bdb = (BDBlock *)((char *)bdb + sizeof(BDBlock));
2959 }
2960 }
2961
2962 return (0);
2963}
2964
2965static int smctr_load_firmware(struct net_device *dev)
2966{
2967 struct net_local *tp = netdev_priv(dev);
0f805b86 2968 const struct firmware *fw;
1da177e4
LT		 2969 __u16 i, checksum = 0;
2970 int err = 0;
2971
2972 if(smctr_debug > 10)
2973 printk(KERN_DEBUG "%s: smctr_load_firmware\n", dev->name);
2974
0f805b86
DW		 2975 if (request_firmware(&fw, "tr_smctr.bin", &dev->dev)) {
2976 printk(KERN_ERR "%s: firmware not found\n", dev->name);
2977 return (UCODE_NOT_PRESENT);
2978 }
2979
1da177e4
LT		 2980 tp->num_of_tx_buffs = 4;
2981 tp->mode_bits |= UMAC;
2982 tp->receive_mask = 0;
2983 tp->max_packet_size = 4177;
2984
2985 /* Can only upload the firmware once per adapter reset. */
0f805b86
DW		 2986 if (tp->microcode_version != 0) {
2987 err = (UCODE_PRESENT);
2988 goto out;
2989 }
1da177e4
LT		 2990
2991 /* Verify the firmware exists and is there in the right amount. */
8e95a202
JP		 2992 if (!fw->data ||
2993 (*(fw->data + UCODE_VERSION_OFFSET) < UCODE_VERSION))
1da177e4 2994 {
0f805b86
DW		 2995 err = (UCODE_NOT_PRESENT);
2996 goto out;
1da177e4
LT		 2997 }
2998
2999 /* UCODE_SIZE is not included in Checksum. */
0f805b86
DW		 3000 for(i = 0; i < *((__u16 *)(fw->data + UCODE_SIZE_OFFSET)); i += 2)
3001 checksum += *((__u16 *)(fw->data + 2 + i));
3002 if (checksum) {
3003 err = (UCODE_NOT_PRESENT);
3004 goto out;
3005 }
1da177e4
LT		 3006
3007 /* At this point we have a valid firmware image, lets kick it on up. */
3008 smctr_enable_adapter_ram(dev);
3009 smctr_enable_16bit(dev);
3010 smctr_set_page(dev, (__u8 *)tp->ram_access);
3011
8e95a202
JP		 3012 if((smctr_checksum_firmware(dev)) ||
3013 (*(fw->data + UCODE_VERSION_OFFSET) > tp->microcode_version))
1da177e4
LT		 3014 {
3015 smctr_enable_adapter_ctrl_store(dev);
3016
3017 /* Zero out ram space for firmware. */
3018 for(i = 0; i < CS_RAM_SIZE; i += 2)
3019 *((__u16 *)(tp->ram_access + i)) = 0;
3020
0f805b86 3021 smctr_decode_firmware(dev, fw);
1da177e4 3022
0f805b86 3023 tp->microcode_version = *(fw->data + UCODE_VERSION_OFFSET); *((__u16 *)(tp->ram_access + CS_RAM_VERSION_OFFSET))
1da177e4
LT		 3024 = (tp->microcode_version << 8);
3025 *((__u16 *)(tp->ram_access + CS_RAM_CHECKSUM_OFFSET))
3026 = ~(tp->microcode_version << 8) + 1;
3027
3028 smctr_disable_adapter_ctrl_store(dev);
3029
3030 if(smctr_checksum_firmware(dev))
3031 err = HARDWARE_FAILED;
3032 }
3033 else
3034 err = UCODE_PRESENT;
3035
3036 smctr_disable_16bit(dev);
0f805b86
DW		 3037 out:
3038 release_firmware(fw);
1da177e4
LT		 3039 return (err);
3040}
3041
3042static int smctr_load_node_addr(struct net_device *dev)
3043{
3044 int ioaddr = dev->base_addr;
3045 unsigned int i;
3046 __u8 r;
3047
3048 for(i = 0; i < 6; i++)
3049 {
3050 r = inb(ioaddr + LAR0 + i);
3051 dev->dev_addr[i] = (char)r;
3052 }
3053 dev->addr_len = 6;
3054
3055 return (0);
3056}
3057
3058/* Lobe Media Test.
3059 * During the transmission of the initial 1500 lobe media MAC frames,
3060 * the phase lock loop in the 805 chip may lock, and then un-lock, causing
3061 * the 825 to go into a PURGE state. When performing a PURGE, the MCT
3062 * microcode will not transmit any frames given to it by the host, and
3063 * will consequently cause a timeout.
3064 *
3065 * NOTE 1: If the monitor_state is MS_BEACON_TEST_STATE, all transmit
025dfdaf 3066 * queues other than the one used for the lobe_media_test should be
1da177e4
LT		 3067 * disabled.!?
3068 *
3069 * NOTE 2: If the monitor_state is MS_BEACON_TEST_STATE and the receive_mask
3070 * has any multi-cast or promiscous bits set, the receive_mask needs to
3071 * be changed to clear the multi-cast or promiscous mode bits, the lobe_test
3072 * run, and then the receive mask set back to its original value if the test
3073 * is successful.
3074 */
3075static int smctr_lobe_media_test(struct net_device *dev)
3076{
3077 struct net_local *tp = netdev_priv(dev);
3078 unsigned int i, perror = 0;
3079 unsigned short saved_rcv_mask;
3080
3081 if(smctr_debug > 10)
3082 printk(KERN_DEBUG "%s: smctr_lobe_media_test\n", dev->name);
3083
3084 /* Clear receive mask for lobe test. */
3085 saved_rcv_mask = tp->receive_mask;
3086 tp->receive_mask = 0;
3087
3088 smctr_chg_rx_mask(dev);
3089
3090 /* Setup the lobe media test. */
3091 smctr_lobe_media_test_cmd(dev);
3092 if(smctr_wait_cmd(dev))
582b95c2 3093 goto err;
1da177e4
LT		 3094
3095 /* Tx lobe media test frames. */
3096 for(i = 0; i < 1500; ++i)
3097 {
3098 if(smctr_send_lobe_media_test(dev))
3099 {
3100 if(perror)
582b95c2 3101 goto err;
1da177e4
LT		 3102 else
3103 {
3104 perror = 1;
3105 if(smctr_lobe_media_test_cmd(dev))
582b95c2 3106 goto err;
1da177e4
LT		 3107 }
3108 }
3109 }
3110
3111 if(smctr_send_dat(dev))
3112 {
3113 if(smctr_send_dat(dev))
582b95c2 3114 goto err;
1da177e4
LT		 3115 }
3116
3117 /* Check if any frames received during test. */
8e95a202
JP		 3118 if((tp->rx_fcb_curr[MAC_QUEUE]->frame_status) ||
3119 (tp->rx_fcb_curr[NON_MAC_QUEUE]->frame_status))
3120 goto err;
1da177e4
LT		 3121
3122 /* Set receive mask to "Promisc" mode. */
3123 tp->receive_mask = saved_rcv_mask;
3124
3125 smctr_chg_rx_mask(dev);
3126
582b95c2
JL		 3127 return 0;
3128err:
3129 smctr_reset_adapter(dev);
3130 tp->status = CLOSED;
3131 return LOBE_MEDIA_TEST_FAILED;
1da177e4
LT		 3132}
3133
3134static int smctr_lobe_media_test_cmd(struct net_device *dev)
3135{
3136 struct net_local *tp = netdev_priv(dev);
3137 int err;
3138
3139 if(smctr_debug > 10)
3140 printk(KERN_DEBUG "%s: smctr_lobe_media_test_cmd\n", dev->name);
3141
3142 /* Change to lobe media test state. */
3143 if(tp->monitor_state != MS_BEACON_TEST_STATE)
3144 {
3145 smctr_lobe_media_test_state(dev);
3146 if(smctr_wait_cmd(dev))
3147 {
3148 printk(KERN_ERR "Lobe Failed test state\n");
3149 return (LOBE_MEDIA_TEST_FAILED);
3150 }
3151 }
3152
3153 err = smctr_setup_single_cmd(dev, ACB_CMD_MCT_TEST,
3154 TRC_LOBE_MEDIA_TEST);
3155
3156 return (err);
3157}
3158
3159static int smctr_lobe_media_test_state(struct net_device *dev)
3160{
3161 int err;
3162
3163 err = smctr_setup_single_cmd(dev, ACB_CMD_CHANGE_JOIN_STATE,
3164 JS_LOBE_TEST_STATE);
3165
3166 return (err);
3167}
3168
3169static int smctr_make_8025_hdr(struct net_device *dev,
3170 MAC_HEADER *rmf, MAC_HEADER *tmf, __u16 ac_fc)
3171{
3172 tmf->ac = MSB(ac_fc); /* msb is access control */
3173 tmf->fc = LSB(ac_fc); /* lsb is frame control */
3174
3175 tmf->sa[0] = dev->dev_addr[0];
3176 tmf->sa[1] = dev->dev_addr[1];
3177 tmf->sa[2] = dev->dev_addr[2];
3178 tmf->sa[3] = dev->dev_addr[3];
3179 tmf->sa[4] = dev->dev_addr[4];
3180 tmf->sa[5] = dev->dev_addr[5];
3181
3182 switch(tmf->vc)
3183 {
3184 /* Send RQ_INIT to RPS */
3185 case RQ_INIT:
3186 tmf->da[0] = 0xc0;
3187 tmf->da[1] = 0x00;
3188 tmf->da[2] = 0x00;
3189 tmf->da[3] = 0x00;
3190 tmf->da[4] = 0x00;
3191 tmf->da[5] = 0x02;
3192 break;
3193
3194 /* Send RPT_TX_FORWARD to CRS */
3195 case RPT_TX_FORWARD:
3196 tmf->da[0] = 0xc0;
3197 tmf->da[1] = 0x00;
3198 tmf->da[2] = 0x00;
3199 tmf->da[3] = 0x00;
3200 tmf->da[4] = 0x00;
3201 tmf->da[5] = 0x10;
3202 break;
3203
3204 /* Everything else goes to sender */
3205 default:
3206 tmf->da[0] = rmf->sa[0];
3207 tmf->da[1] = rmf->sa[1];
3208 tmf->da[2] = rmf->sa[2];
3209 tmf->da[3] = rmf->sa[3];
3210 tmf->da[4] = rmf->sa[4];
3211 tmf->da[5] = rmf->sa[5];
3212 break;
3213 }
3214
3215 return (0);
3216}
3217
3218static int smctr_make_access_pri(struct net_device *dev, MAC_SUB_VECTOR *tsv)
3219{
3220 struct net_local *tp = netdev_priv(dev);
3221
3222 tsv->svi = AUTHORIZED_ACCESS_PRIORITY;
3223 tsv->svl = S_AUTHORIZED_ACCESS_PRIORITY;
3224
3225 tsv->svv[0] = MSB(tp->authorized_access_priority);
3226 tsv->svv[1] = LSB(tp->authorized_access_priority);
3227
3228 return (0);
3229}
3230
3231static int smctr_make_addr_mod(struct net_device *dev, MAC_SUB_VECTOR *tsv)
3232{
3233 tsv->svi = ADDRESS_MODIFER;
3234 tsv->svl = S_ADDRESS_MODIFER;
3235
3236 tsv->svv[0] = 0;
3237 tsv->svv[1] = 0;
3238
3239 return (0);
3240}
3241
3242static int smctr_make_auth_funct_class(struct net_device *dev,
3243 MAC_SUB_VECTOR *tsv)
3244{
3245 struct net_local *tp = netdev_priv(dev);
3246
3247 tsv->svi = AUTHORIZED_FUNCTION_CLASS;
3248 tsv->svl = S_AUTHORIZED_FUNCTION_CLASS;
3249
3250 tsv->svv[0] = MSB(tp->authorized_function_classes);
3251 tsv->svv[1] = LSB(tp->authorized_function_classes);
3252
3253 return (0);
3254}
3255
3256static int smctr_make_corr(struct net_device *dev,
3257 MAC_SUB_VECTOR *tsv, __u16 correlator)
3258{
3259 tsv->svi = CORRELATOR;
3260 tsv->svl = S_CORRELATOR;
3261
3262 tsv->svv[0] = MSB(correlator);
3263 tsv->svv[1] = LSB(correlator);
3264
3265 return (0);
3266}
3267
3268static int smctr_make_funct_addr(struct net_device *dev, MAC_SUB_VECTOR *tsv)
3269{
3270 struct net_local *tp = netdev_priv(dev);
3271
3272 smctr_get_functional_address(dev);
3273
3274 tsv->svi = FUNCTIONAL_ADDRESS;
3275 tsv->svl = S_FUNCTIONAL_ADDRESS;
3276
3277 tsv->svv[0] = MSB(tp->misc_command_data[0]);
3278 tsv->svv[1] = LSB(tp->misc_command_data[0]);
3279
3280 tsv->svv[2] = MSB(tp->misc_command_data[1]);
3281 tsv->svv[3] = LSB(tp->misc_command_data[1]);
3282
3283 return (0);
3284}
3285
3286static int smctr_make_group_addr(struct net_device *dev, MAC_SUB_VECTOR *tsv)
3287{
3288 struct net_local *tp = netdev_priv(dev);
3289
3290 smctr_get_group_address(dev);
3291
3292 tsv->svi = GROUP_ADDRESS;
3293 tsv->svl = S_GROUP_ADDRESS;
3294
3295 tsv->svv[0] = MSB(tp->misc_command_data[0]);
3296 tsv->svv[1] = LSB(tp->misc_command_data[0]);
3297
3298 tsv->svv[2] = MSB(tp->misc_command_data[1]);
3299 tsv->svv[3] = LSB(tp->misc_command_data[1]);
3300
3301 /* Set Group Address Sub-vector to all zeros if only the
3302 * Group Address/Functional Address Indicator is set.
3303 */
8e95a202
JP		 3304 if(tsv->svv[0] == 0x80 && tsv->svv[1] == 0x00 &&
3305 tsv->svv[2] == 0x00 && tsv->svv[3] == 0x00)
1da177e4
LT		 3306 tsv->svv[0] = 0x00;
3307
3308 return (0);
3309}
3310
3311static int smctr_make_phy_drop_num(struct net_device *dev,
3312 MAC_SUB_VECTOR *tsv)
3313{
3314 struct net_local *tp = netdev_priv(dev);
3315
3316 smctr_get_physical_drop_number(dev);
3317
3318 tsv->svi = PHYSICAL_DROP;
3319 tsv->svl = S_PHYSICAL_DROP;
3320
3321 tsv->svv[0] = MSB(tp->misc_command_data[0]);
3322 tsv->svv[1] = LSB(tp->misc_command_data[0]);
3323
3324 tsv->svv[2] = MSB(tp->misc_command_data[1]);
3325 tsv->svv[3] = LSB(tp->misc_command_data[1]);
3326
3327 return (0);
3328}
3329
3330static int smctr_make_product_id(struct net_device *dev, MAC_SUB_VECTOR *tsv)
3331{
3332 int i;
3333
3334 tsv->svi = PRODUCT_INSTANCE_ID;
3335 tsv->svl = S_PRODUCT_INSTANCE_ID;
3336
3337 for(i = 0; i < 18; i++)
3338 tsv->svv[i] = 0xF0;
3339
3340 return (0);
3341}
3342
3343static int smctr_make_station_id(struct net_device *dev, MAC_SUB_VECTOR *tsv)
3344{
3345 struct net_local *tp = netdev_priv(dev);
3346
3347 smctr_get_station_id(dev);
3348
3349 tsv->svi = STATION_IDENTIFER;
3350 tsv->svl = S_STATION_IDENTIFER;
3351
3352 tsv->svv[0] = MSB(tp->misc_command_data[0]);
3353 tsv->svv[1] = LSB(tp->misc_command_data[0]);
3354
3355 tsv->svv[2] = MSB(tp->misc_command_data[1]);
3356 tsv->svv[3] = LSB(tp->misc_command_data[1]);
3357
3358 tsv->svv[4] = MSB(tp->misc_command_data[2]);
3359 tsv->svv[5] = LSB(tp->misc_command_data[2]);
3360
3361 return (0);
3362}
3363
3364static int smctr_make_ring_station_status(struct net_device *dev,
3365 MAC_SUB_VECTOR * tsv)
3366{
3367 tsv->svi = RING_STATION_STATUS;
3368 tsv->svl = S_RING_STATION_STATUS;
3369
3370 tsv->svv[0] = 0;
3371 tsv->svv[1] = 0;
3372 tsv->svv[2] = 0;
3373 tsv->svv[3] = 0;
3374 tsv->svv[4] = 0;
3375 tsv->svv[5] = 0;
3376
3377 return (0);
3378}
3379
3380static int smctr_make_ring_station_version(struct net_device *dev,
3381 MAC_SUB_VECTOR *tsv)
3382{
3383 struct net_local *tp = netdev_priv(dev);
3384
3385 tsv->svi = RING_STATION_VERSION_NUMBER;
3386 tsv->svl = S_RING_STATION_VERSION_NUMBER;
3387
3388 tsv->svv[0] = 0xe2; /* EBCDIC - S */
3389 tsv->svv[1] = 0xd4; /* EBCDIC - M */
3390 tsv->svv[2] = 0xc3; /* EBCDIC - C */
3391 tsv->svv[3] = 0x40; /* EBCDIC - */
3392 tsv->svv[4] = 0xe5; /* EBCDIC - V */
3393 tsv->svv[5] = 0xF0 + (tp->microcode_version >> 4);
3394 tsv->svv[6] = 0xF0 + (tp->microcode_version & 0x0f);
3395 tsv->svv[7] = 0x40; /* EBCDIC - */
3396 tsv->svv[8] = 0xe7; /* EBCDIC - X */
3397
3398 if(tp->extra_info & CHIP_REV_MASK)
3399 tsv->svv[9] = 0xc5; /* EBCDIC - E */
3400 else
3401 tsv->svv[9] = 0xc4; /* EBCDIC - D */
3402
3403 return (0);
3404}
3405
3406static int smctr_make_tx_status_code(struct net_device *dev,
3407 MAC_SUB_VECTOR *tsv, __u16 tx_fstatus)
3408{
3409 tsv->svi = TRANSMIT_STATUS_CODE;
3410 tsv->svl = S_TRANSMIT_STATUS_CODE;
3411
26c080bf 3412 tsv->svv[0] = ((tx_fstatus & 0x0100 >> 6) | IBM_PASS_SOURCE_ADDR);
1da177e4
LT		 3413
3414 /* Stripped frame status of Transmitted Frame */
3415 tsv->svv[1] = tx_fstatus & 0xff;
3416
3417 return (0);
3418}
3419
3420static int smctr_make_upstream_neighbor_addr(struct net_device *dev,
3421 MAC_SUB_VECTOR *tsv)
3422{
3423 struct net_local *tp = netdev_priv(dev);
3424
3425 smctr_get_upstream_neighbor_addr(dev);
3426
3427 tsv->svi = UPSTREAM_NEIGHBOR_ADDRESS;
3428 tsv->svl = S_UPSTREAM_NEIGHBOR_ADDRESS;
3429
3430 tsv->svv[0] = MSB(tp->misc_command_data[0]);
3431 tsv->svv[1] = LSB(tp->misc_command_data[0]);
3432
3433 tsv->svv[2] = MSB(tp->misc_command_data[1]);
3434 tsv->svv[3] = LSB(tp->misc_command_data[1]);
3435
3436 tsv->svv[4] = MSB(tp->misc_command_data[2]);
3437 tsv->svv[5] = LSB(tp->misc_command_data[2]);
3438
3439 return (0);
3440}
3441
3442static int smctr_make_wrap_data(struct net_device *dev, MAC_SUB_VECTOR *tsv)
3443{
3444 tsv->svi = WRAP_DATA;
3445 tsv->svl = S_WRAP_DATA;
3446
3447 return (0);
3448}
3449
3450/*
3451 * Open/initialize the board. This is called sometime after
3452 * booting when the 'ifconfig' program is run.
3453 *
3454 * This routine should set everything up anew at each open, even
3455 * registers that "should" only need to be set once at boot, so that
3456 * there is non-reboot way to recover if something goes wrong.
3457 */
3458static int smctr_open(struct net_device *dev)
3459{
3460 int err;
3461
3462 if(smctr_debug > 10)
3463 printk(KERN_DEBUG "%s: smctr_open\n", dev->name);
3464
3465 err = smctr_init_adapter(dev);
3466 if(err < 0)
3467 return (err);
3468
3469 return (err);
3470}
3471
3472/* Interrupt driven open of Token card. */
3473static int smctr_open_tr(struct net_device *dev)
3474{
3475 struct net_local *tp = netdev_priv(dev);
3476 unsigned long flags;
3477 int err;
3478
3479 if(smctr_debug > 10)
3480 printk(KERN_DEBUG "%s: smctr_open_tr\n", dev->name);
3481
3482 /* Now we can actually open the adapter. */
3483 if(tp->status == OPEN)
3484 return (0);
3485 if(tp->status != INITIALIZED)
3486 return (-1);
3487
3488 /* FIXME: it would work a lot better if we masked the irq sources
3489 on the card here, then we could skip the locking and poll nicely */
3490 spin_lock_irqsave(&tp->lock, flags);
3491
3492 smctr_set_page(dev, (__u8 *)tp->ram_access);
3493
3494 if((err = smctr_issue_resume_rx_fcb_cmd(dev, (short)MAC_QUEUE)))
3495 goto out;
3496
3497 if((err = smctr_issue_resume_rx_bdb_cmd(dev, (short)MAC_QUEUE)))
3498 goto out;
3499
3500 if((err = smctr_issue_resume_rx_fcb_cmd(dev, (short)NON_MAC_QUEUE)))
3501 goto out;
3502
3503 if((err = smctr_issue_resume_rx_bdb_cmd(dev, (short)NON_MAC_QUEUE)))
3504 goto out;
3505
3506 tp->status = CLOSED;
3507
3508 /* Insert into the Ring or Enter Loopback Mode. */
3509 if((tp->mode_bits & LOOPING_MODE_MASK) == LOOPBACK_MODE_1)
3510 {
3511 tp->status = CLOSED;
3512
3513 if(!(err = smctr_issue_trc_loopback_cmd(dev)))
3514 {
3515 if(!(err = smctr_wait_cmd(dev)))
3516 tp->status = OPEN;
3517 }
3518
3519 smctr_status_chg(dev);
3520 }
3521 else
3522 {
3523 if((tp->mode_bits & LOOPING_MODE_MASK) == LOOPBACK_MODE_2)
3524 {
3525 tp->status = CLOSED;
3526 if(!(err = smctr_issue_tri_loopback_cmd(dev)))
3527 {
3528 if(!(err = smctr_wait_cmd(dev)))
3529 tp->status = OPEN;
3530 }
3531
3532 smctr_status_chg(dev);
3533 }
3534 else
3535 {
3536 if((tp->mode_bits & LOOPING_MODE_MASK)
3537 == LOOPBACK_MODE_3)
3538 {
3539 tp->status = CLOSED;
3540 if(!(err = smctr_lobe_media_test_cmd(dev)))
3541 {
3542 if(!(err = smctr_wait_cmd(dev)))
3543 tp->status = OPEN;
3544 }
3545 smctr_status_chg(dev);
3546 }
3547 else
3548 {
3549 if(!(err = smctr_lobe_media_test(dev)))
3550 err = smctr_issue_insert_cmd(dev);
3551 else
3552 {
3553 if(err == LOBE_MEDIA_TEST_FAILED)
3554 printk(KERN_WARNING "%s: Lobe Media Test Failure - Check cable?\n", dev->name);
3555 }
3556 }
3557 }
3558 }
3559
3560out:
3561 spin_unlock_irqrestore(&tp->lock, flags);
3562
3563 return (err);
3564}
3565
3566/* Check for a network adapter of this type,
3567 * and return device structure if one exists.
3568 */
3569struct net_device __init *smctr_probe(int unit)
3570{
3571 struct net_device *dev = alloc_trdev(sizeof(struct net_local));
3572 static const unsigned ports[] = {
3573 0x200, 0x220, 0x240, 0x260, 0x280, 0x2A0, 0x2C0, 0x2E0, 0x300,
3574 0x320, 0x340, 0x360, 0x380, 0
3575 };
3576 const unsigned *port;
3577 int err = 0;
3578
3579 if (!dev)
3580 return ERR_PTR(-ENOMEM);
3581
1da177e4
LT		 3582 if (unit >= 0) {
3583 sprintf(dev->name, "tr%d", unit);
3584 netdev_boot_setup_check(dev);
3585 }
3586
3587 if (dev->base_addr > 0x1ff) /* Check a single specified location. */
3588 err = smctr_probe1(dev, dev->base_addr);
3589 else if(dev->base_addr != 0) /* Don't probe at all. */
3590 err =-ENXIO;
3591 else {
3592 for (port = ports; *port; port++) {
3593 err = smctr_probe1(dev, *port);
3594 if (!err)
3595 break;
3596 }
3597 }
3598 if (err)
3599 goto out;
3600 err = register_netdev(dev);
3601 if (err)
3602 goto out1;
3603 return dev;
3604out1:
3605#ifdef CONFIG_MCA_LEGACY
3606 { struct net_local *tp = netdev_priv(dev);
3607 if (tp->slot_num)
3608 mca_mark_as_unused(tp->slot_num);
3609 }
3610#endif
3611 release_region(dev->base_addr, SMCTR_IO_EXTENT);
3612 free_irq(dev->irq, dev);
3613out:
3614 free_netdev(dev);
3615 return ERR_PTR(err);
3616}
3617
f70d5949
SH		 3618static const struct net_device_ops smctr_netdev_ops = {
3619 .ndo_open = smctr_open,
3620 .ndo_stop = smctr_close,
3621 .ndo_start_xmit = smctr_send_packet,
3622 .ndo_tx_timeout = smctr_timeout,
3623 .ndo_get_stats = smctr_get_stats,
3624 .ndo_set_multicast_list = smctr_set_multicast_list,
3625};
1da177e4
LT		 3626
3627static int __init smctr_probe1(struct net_device *dev, int ioaddr)
3628{
3629 static unsigned version_printed;
3630 struct net_local *tp = netdev_priv(dev);
3631 int err;
3632 __u32 *ram;
3633
3634 if(smctr_debug && version_printed++ == 0)
3635 printk(version);
3636
3637 spin_lock_init(&tp->lock);
3638 dev->base_addr = ioaddr;
3639
3640 /* Actually detect an adapter now. */
3641 err = smctr_chk_isa(dev);
3642 if(err < 0)
3643 {
3644 if ((err = smctr_chk_mca(dev)) < 0) {
3645 err = -ENODEV;
3646 goto out;
3647 }
3648 }
3649
3650 tp = netdev_priv(dev);
3651 dev->mem_start = tp->ram_base;
3652 dev->mem_end = dev->mem_start + 0x10000;
3653 ram = (__u32 *)phys_to_virt(dev->mem_start);
3654 tp->ram_access = *(__u32 *)&ram;
3655 tp->status = NOT_INITIALIZED;
3656
3657 err = smctr_load_firmware(dev);
3658 if(err != UCODE_PRESENT && err != SUCCESS)
3659 {
3660 printk(KERN_ERR "%s: Firmware load failed (%d)\n", dev->name, err);
3661 err = -EIO;
3662 goto out;
3663 }
3664
3665 /* Allow user to specify ring speed on module insert. */
3666 if(ringspeed == 4)
3667 tp->media_type = MEDIA_UTP_4;
3668 else
3669 tp->media_type = MEDIA_UTP_16;
3670
3671 printk(KERN_INFO "%s: %s %s at Io %#4x, Irq %d, Rom %#4x, Ram %#4x.\n",
3672 dev->name, smctr_name, smctr_model,
3673 (unsigned int)dev->base_addr,
3674 dev->irq, tp->rom_base, tp->ram_base);
3675
f70d5949 3676 dev->netdev_ops = &smctr_netdev_ops;
1da177e4 3677 dev->watchdog_timeo = HZ;
1da177e4
LT		 3678 return (0);
3679
3680out:
3681 return err;
3682}
3683
3684static int smctr_process_rx_packet(MAC_HEADER *rmf, __u16 size,
3685 struct net_device *dev, __u16 rx_status)
3686{
3687 struct net_local *tp = netdev_priv(dev);
3688 struct sk_buff *skb;
3689 __u16 rcode, correlator;
3690 int err = 0;
3691 __u8 xframe = 1;
1da177e4
LT		 3692
3693 rmf->vl = SWAP_BYTES(rmf->vl);
3694 if(rx_status & FCB_RX_STATUS_DA_MATCHED)
3695 {
3696 switch(rmf->vc)
3697 {
3698 /* Received MAC Frames Processed by RS. */
3699 case INIT:
3700 if((rcode = smctr_rcv_init(dev, rmf, &correlator)) == HARDWARE_FAILED)
3701 {
3702 return (rcode);
3703 }
3704
3705 if((err = smctr_send_rsp(dev, rmf, rcode,
3706 correlator)))
3707 {
3708 return (err);
3709 }
3710 break;
3711
3712 case CHG_PARM:
3713 if((rcode = smctr_rcv_chg_param(dev, rmf,
3714 &correlator)) ==HARDWARE_FAILED)
3715 {
3716 return (rcode);
3717 }
3718
3719 if((err = smctr_send_rsp(dev, rmf, rcode,
3720 correlator)))
3721 {
3722 return (err);
3723 }
3724 break;
3725
3726 case RQ_ADDR:
3727 if((rcode = smctr_rcv_rq_addr_state_attch(dev,
3728 rmf, &correlator)) != POSITIVE_ACK)
3729 {
3730 if(rcode == HARDWARE_FAILED)
3731 return (rcode);
3732 else
3733 return (smctr_send_rsp(dev, rmf,
3734 rcode, correlator));
3735 }
3736
3737 if((err = smctr_send_rpt_addr(dev, rmf,
3738 correlator)))
3739 {
3740 return (err);
3741 }
3742 break;
3743
3744 case RQ_ATTCH:
3745 if((rcode = smctr_rcv_rq_addr_state_attch(dev,
3746 rmf, &correlator)) != POSITIVE_ACK)
3747 {
3748 if(rcode == HARDWARE_FAILED)
3749 return (rcode);
3750 else
3751 return (smctr_send_rsp(dev, rmf,
3752 rcode,
3753 correlator));
3754 }
3755
3756 if((err = smctr_send_rpt_attch(dev, rmf,
3757 correlator)))
3758 {
3759 return (err);
3760 }
3761 break;
3762
3763 case RQ_STATE:
3764 if((rcode = smctr_rcv_rq_addr_state_attch(dev,
3765 rmf, &correlator)) != POSITIVE_ACK)
3766 {
3767 if(rcode == HARDWARE_FAILED)
3768 return (rcode);
3769 else
3770 return (smctr_send_rsp(dev, rmf,
3771 rcode,
3772 correlator));
3773 }
3774
3775 if((err = smctr_send_rpt_state(dev, rmf,
3776 correlator)))
3777 {
3778 return (err);
3779 }
3780 break;
3781
a6343afb
JG		 3782 case TX_FORWARD: {
3783 __u16 uninitialized_var(tx_fstatus);
3784
1da177e4
LT		 3785 if((rcode = smctr_rcv_tx_forward(dev, rmf))
3786 != POSITIVE_ACK)
3787 {
3788 if(rcode == HARDWARE_FAILED)
3789 return (rcode);
3790 else
3791 return (smctr_send_rsp(dev, rmf,
3792 rcode,
3793 correlator));
3794 }
3795
3796 if((err = smctr_send_tx_forward(dev, rmf,
3797 &tx_fstatus)) == HARDWARE_FAILED)
3798 {
3799 return (err);
3800 }
3801
3802 if(err == A_FRAME_WAS_FORWARDED)
3803 {
3804 if((err = smctr_send_rpt_tx_forward(dev,
3805 rmf, tx_fstatus))
3806 == HARDWARE_FAILED)
3807 {
3808 return (err);
3809 }
3810 }
3811 break;
a6343afb 3812 }
1da177e4
LT		 3813
3814 /* Received MAC Frames Processed by CRS/REM/RPS. */
3815 case RSP:
3816 case RQ_INIT:
3817 case RPT_NEW_MON:
3818 case RPT_SUA_CHG:
3819 case RPT_ACTIVE_ERR:
3820 case RPT_NN_INCMP:
3821 case RPT_ERROR:
3822 case RPT_ATTCH:
3823 case RPT_STATE:
3824 case RPT_ADDR:
3825 break;
3826
3827 /* Rcvd Att. MAC Frame (if RXATMAC set) or UNKNOWN */
3828 default:
3829 xframe = 0;
3830 if(!(tp->receive_mask & ACCEPT_ATT_MAC_FRAMES))
3831 {
3832 rcode = smctr_rcv_unknown(dev, rmf,
3833 &correlator);
3834 if((err = smctr_send_rsp(dev, rmf,rcode,
3835 correlator)))
3836 {
3837 return (err);
3838 }
3839 }
3840
3841 break;
3842 }
3843 }
3844 else
3845 {
3846 /* 1. DA doesn't match (Promiscuous Mode).
3847 * 2. Parse for Extended MAC Frame Type.
3848 */
3849 switch(rmf->vc)
3850 {
3851 case RSP:
3852 case INIT:
3853 case RQ_INIT:
3854 case RQ_ADDR:
3855 case RQ_ATTCH:
3856 case RQ_STATE:
3857 case CHG_PARM:
3858 case RPT_ADDR:
3859 case RPT_ERROR:
3860 case RPT_ATTCH:
3861 case RPT_STATE:
3862 case RPT_NEW_MON:
3863 case RPT_SUA_CHG:
3864 case RPT_NN_INCMP:
3865 case RPT_ACTIVE_ERR:
3866 break;
3867
3868 default:
3869 xframe = 0;
3870 break;
3871 }
3872 }
3873
3874 /* NOTE: UNKNOWN MAC frames will NOT be passed up unless
3875 * ACCEPT_ATT_MAC_FRAMES is set.
3876 */
8e95a202
JP		 3877 if(((tp->receive_mask & ACCEPT_ATT_MAC_FRAMES) &&
3878 (xframe == (__u8)0)) ||
3879 ((tp->receive_mask & ACCEPT_EXT_MAC_FRAMES) &&
3880 (xframe == (__u8)1)))
1da177e4
LT		 3881 {
3882 rmf->vl = SWAP_BYTES(rmf->vl);
3883
3884 if (!(skb = dev_alloc_skb(size)))
3885 return -ENOMEM;
3886 skb->len = size;
3887
3888 /* Slide data into a sleek skb. */
3889 skb_put(skb, skb->len);
27d7ff46 3890 skb_copy_to_linear_data(skb, rmf, skb->len);
1da177e4
LT		 3891
3892 /* Update Counters */
3893 tp->MacStat.rx_packets++;
3894 tp->MacStat.rx_bytes += skb->len;
3895
3896 /* Kick the packet on up. */
1da177e4
LT		 3897 skb->protocol = tr_type_trans(skb, dev);
3898 netif_rx(skb);
1da177e4
LT		 3899 err = 0;
3900 }
3901
3902 return (err);
3903}
3904
3905/* Adapter RAM test. Incremental word ODD boundary data test. */
3906static int smctr_ram_memory_test(struct net_device *dev)
3907{
3908 struct net_local *tp = netdev_priv(dev);
3909 __u16 page, pages_of_ram, start_pattern = 0, word_pattern = 0,
3910 word_read = 0, err_word = 0, err_pattern = 0;
3911 unsigned int err_offset;
3912 __u32 j, pword;
3913 __u8 err = 0;
3914
3915 if(smctr_debug > 10)
3916 printk(KERN_DEBUG "%s: smctr_ram_memory_test\n", dev->name);
3917
3918 start_pattern = 0x0001;
3919 pages_of_ram = tp->ram_size / tp->ram_usable;
3920 pword = tp->ram_access;
3921
3922 /* Incremental word ODD boundary test. */
3923 for(page = 0; (page < pages_of_ram) && (~err);
3924 page++, start_pattern += 0x8000)
3925 {
3926 smctr_set_page(dev, (__u8 *)(tp->ram_access
3927 + (page * tp->ram_usable * 1024) + 1));
3928 word_pattern = start_pattern;
3929
3930 for(j = 1; j < (__u32)(tp->ram_usable * 1024) - 1; j += 2)
3931 *(__u16 *)(pword + j) = word_pattern++;
3932
3933 word_pattern = start_pattern;
3934
8e95a202
JP		 3935 for(j = 1; j < (__u32)(tp->ram_usable * 1024) - 1 && (~err);
3936 j += 2, word_pattern++)
1da177e4
LT		 3937 {
3938 word_read = *(__u16 *)(pword + j);
3939 if(word_read != word_pattern)
3940 {
3941 err = (__u8)1;
3942 err_offset = j;
3943 err_word = word_read;
3944 err_pattern = word_pattern;
3945 return (RAM_TEST_FAILED);
3946 }
3947 }
3948 }
3949
3950 /* Zero out memory. */
3951 for(page = 0; page < pages_of_ram && (~err); page++)
3952 {
3953 smctr_set_page(dev, (__u8 *)(tp->ram_access
3954 + (page * tp->ram_usable * 1024)));
3955 word_pattern = 0;
3956
3957 for(j = 0; j < (__u32)tp->ram_usable * 1024; j +=2)
3958 *(__u16 *)(pword + j) = word_pattern;
3959
8e95a202 3960 for(j =0; j < (__u32)tp->ram_usable * 1024 && (~err); j += 2)
1da177e4
LT		 3961 {
3962 word_read = *(__u16 *)(pword + j);
3963 if(word_read != word_pattern)
3964 {
3965 err = (__u8)1;
3966 err_offset = j;
3967 err_word = word_read;
3968 err_pattern = word_pattern;
3969 return (RAM_TEST_FAILED);
3970 }
3971 }
3972 }
3973
3974 smctr_set_page(dev, (__u8 *)tp->ram_access);
3975
3976 return (0);
3977}
3978
3979static int smctr_rcv_chg_param(struct net_device *dev, MAC_HEADER *rmf,
3980 __u16 *correlator)
3981{
3982 MAC_SUB_VECTOR *rsv;
3983 signed short vlen;
3984 __u16 rcode = POSITIVE_ACK;
3985 unsigned int svectors = F_NO_SUB_VECTORS_FOUND;
3986
3987 /* This Frame can only come from a CRS */
3988 if((rmf->dc_sc & SC_MASK) != SC_CRS)
3989 return(E_INAPPROPRIATE_SOURCE_CLASS);
3990
3991 /* Remove MVID Length from total length. */
3992 vlen = (signed short)rmf->vl - 4;
3993
3994 /* Point to First SVID */
3995 rsv = (MAC_SUB_VECTOR *)((__u32)rmf + sizeof(MAC_HEADER));
3996
3997 /* Search for Appropriate SVID's. */
3998 while((vlen > 0) && (rcode == POSITIVE_ACK))
3999 {
4000 switch(rsv->svi)
4001 {
4002 case CORRELATOR:
4003 svectors |= F_CORRELATOR;
4004 rcode = smctr_set_corr(dev, rsv, correlator);
4005 break;
4006
4007 case LOCAL_RING_NUMBER:
4008 svectors |= F_LOCAL_RING_NUMBER;
4009 rcode = smctr_set_local_ring_num(dev, rsv);
4010 break;
4011
4012 case ASSIGN_PHYSICAL_DROP:
4013 svectors |= F_ASSIGN_PHYSICAL_DROP;
4014 rcode = smctr_set_phy_drop(dev, rsv);
4015 break;
4016
4017 case ERROR_TIMER_VALUE:
4018 svectors |= F_ERROR_TIMER_VALUE;
4019 rcode = smctr_set_error_timer_value(dev, rsv);
4020 break;
4021
4022 case AUTHORIZED_FUNCTION_CLASS:
4023 svectors |= F_AUTHORIZED_FUNCTION_CLASS;
4024 rcode = smctr_set_auth_funct_class(dev, rsv);
4025 break;
4026
4027 case AUTHORIZED_ACCESS_PRIORITY:
4028 svectors |= F_AUTHORIZED_ACCESS_PRIORITY;
4029 rcode = smctr_set_auth_access_pri(dev, rsv);
4030 break;
4031
4032 default:
4033 rcode = E_SUB_VECTOR_UNKNOWN;
4034 break;
4035 }
4036
4037 /* Let Sender Know if SUM of SV length's is
4038 * larger then length in MVID length field
4039 */
4040 if((vlen -= rsv->svl) < 0)
4041 rcode = E_VECTOR_LENGTH_ERROR;
4042
4043 rsv = (MAC_SUB_VECTOR *)((__u32)rsv + rsv->svl);
4044 }
4045
4046 if(rcode == POSITIVE_ACK)
4047 {
4048 /* Let Sender Know if MVID length field
4049 * is larger then SUM of SV length's
4050 */
4051 if(vlen != 0)
4052 rcode = E_VECTOR_LENGTH_ERROR;
4053 else
4054 {
4055 /* Let Sender Know if Expected SVID Missing */
4056 if((svectors & R_CHG_PARM) ^ R_CHG_PARM)
4057 rcode = E_MISSING_SUB_VECTOR;
4058 }
4059 }
4060
4061 return (rcode);
4062}
4063
4064static int smctr_rcv_init(struct net_device *dev, MAC_HEADER *rmf,
4065 __u16 *correlator)
4066{
4067 MAC_SUB_VECTOR *rsv;
4068 signed short vlen;
4069 __u16 rcode = POSITIVE_ACK;
4070 unsigned int svectors = F_NO_SUB_VECTORS_FOUND;
4071
4072 /* This Frame can only come from a RPS */
4073 if((rmf->dc_sc & SC_MASK) != SC_RPS)
4074 return (E_INAPPROPRIATE_SOURCE_CLASS);
4075
4076 /* Remove MVID Length from total length. */
4077 vlen = (signed short)rmf->vl - 4;
4078
4079 /* Point to First SVID */
4080 rsv = (MAC_SUB_VECTOR *)((__u32)rmf + sizeof(MAC_HEADER));
4081
4082 /* Search for Appropriate SVID's */
4083 while((vlen > 0) && (rcode == POSITIVE_ACK))
4084 {
4085 switch(rsv->svi)
4086 {
4087 case CORRELATOR:
4088 svectors |= F_CORRELATOR;
4089 rcode = smctr_set_corr(dev, rsv, correlator);
4090 break;
4091
4092 case LOCAL_RING_NUMBER:
4093 svectors |= F_LOCAL_RING_NUMBER;
4094 rcode = smctr_set_local_ring_num(dev, rsv);
4095 break;
4096
4097 case ASSIGN_PHYSICAL_DROP:
4098 svectors |= F_ASSIGN_PHYSICAL_DROP;
4099 rcode = smctr_set_phy_drop(dev, rsv);
4100 break;
4101
4102 case ERROR_TIMER_VALUE:
4103 svectors |= F_ERROR_TIMER_VALUE;
4104 rcode = smctr_set_error_timer_value(dev, rsv);
4105 break;
4106
4107 default:
4108 rcode = E_SUB_VECTOR_UNKNOWN;
4109 break;
4110 }
4111
4112 /* Let Sender Know if SUM of SV length's is
4113 * larger then length in MVID length field
4114 */
4115 if((vlen -= rsv->svl) < 0)
4116 rcode = E_VECTOR_LENGTH_ERROR;
4117
4118 rsv = (MAC_SUB_VECTOR *)((__u32)rsv + rsv->svl);
4119 }
4120
4121 if(rcode == POSITIVE_ACK)
4122 {
4123 /* Let Sender Know if MVID length field
4124 * is larger then SUM of SV length's
4125 */
4126 if(vlen != 0)
4127 rcode = E_VECTOR_LENGTH_ERROR;
4128 else
4129 {
4130 /* Let Sender Know if Expected SV Missing */
4131 if((svectors & R_INIT) ^ R_INIT)
4132 rcode = E_MISSING_SUB_VECTOR;
4133 }
4134 }
4135
4136 return (rcode);
4137}
4138
4139static int smctr_rcv_tx_forward(struct net_device *dev, MAC_HEADER *rmf)
4140{
4141 MAC_SUB_VECTOR *rsv;
4142 signed short vlen;
4143 __u16 rcode = POSITIVE_ACK;
4144 unsigned int svectors = F_NO_SUB_VECTORS_FOUND;
4145
4146 /* This Frame can only come from a CRS */
4147 if((rmf->dc_sc & SC_MASK) != SC_CRS)
4148 return (E_INAPPROPRIATE_SOURCE_CLASS);
4149
4150 /* Remove MVID Length from total length */
4151 vlen = (signed short)rmf->vl - 4;
4152
4153 /* Point to First SVID */
4154 rsv = (MAC_SUB_VECTOR *)((__u32)rmf + sizeof(MAC_HEADER));
4155
4156 /* Search for Appropriate SVID's */
4157 while((vlen > 0) && (rcode == POSITIVE_ACK))
4158 {
4159 switch(rsv->svi)
4160 {
4161 case FRAME_FORWARD:
4162 svectors |= F_FRAME_FORWARD;
4163 rcode = smctr_set_frame_forward(dev, rsv,
4164 rmf->dc_sc);
4165 break;
4166
4167 default:
4168 rcode = E_SUB_VECTOR_UNKNOWN;
4169 break;
4170 }
4171
4172 /* Let Sender Know if SUM of SV length's is
4173 * larger then length in MVID length field
4174 */
4175 if((vlen -= rsv->svl) < 0)
4176 rcode = E_VECTOR_LENGTH_ERROR;
4177
4178 rsv = (MAC_SUB_VECTOR *)((__u32)rsv + rsv->svl);
4179 }
4180
4181 if(rcode == POSITIVE_ACK)
4182 {
4183 /* Let Sender Know if MVID length field
4184 * is larger then SUM of SV length's
4185 */
4186 if(vlen != 0)
4187 rcode = E_VECTOR_LENGTH_ERROR;
4188 else
4189 {
4190 /* Let Sender Know if Expected SV Missing */
4191 if((svectors & R_TX_FORWARD) ^ R_TX_FORWARD)
4192 rcode = E_MISSING_SUB_VECTOR;
4193 }
4194 }
4195
4196 return (rcode);
4197}
4198
4199static int smctr_rcv_rq_addr_state_attch(struct net_device *dev,
4200 MAC_HEADER *rmf, __u16 *correlator)
4201{
4202 MAC_SUB_VECTOR *rsv;
4203 signed short vlen;
4204 __u16 rcode = POSITIVE_ACK;
4205 unsigned int svectors = F_NO_SUB_VECTORS_FOUND;
4206
4207 /* Remove MVID Length from total length */
4208 vlen = (signed short)rmf->vl - 4;
4209
4210 /* Point to First SVID */
4211 rsv = (MAC_SUB_VECTOR *)((__u32)rmf + sizeof(MAC_HEADER));
4212
4213 /* Search for Appropriate SVID's */
4214 while((vlen > 0) && (rcode == POSITIVE_ACK))
4215 {
4216 switch(rsv->svi)
4217 {
4218 case CORRELATOR:
4219 svectors |= F_CORRELATOR;
4220 rcode = smctr_set_corr(dev, rsv, correlator);
4221 break;
4222
4223 default:
4224 rcode = E_SUB_VECTOR_UNKNOWN;
4225 break;
4226 }
4227
4228 /* Let Sender Know if SUM of SV length's is
4229 * larger then length in MVID length field
4230 */
4231 if((vlen -= rsv->svl) < 0)
4232 rcode = E_VECTOR_LENGTH_ERROR;
4233
4234 rsv = (MAC_SUB_VECTOR *)((__u32)rsv + rsv->svl);
4235 }
4236
4237 if(rcode == POSITIVE_ACK)
4238 {
4239 /* Let Sender Know if MVID length field
4240 * is larger then SUM of SV length's
4241 */
4242 if(vlen != 0)
4243 rcode = E_VECTOR_LENGTH_ERROR;
4244 else
4245 {
4246 /* Let Sender Know if Expected SVID Missing */
4247 if((svectors & R_RQ_ATTCH_STATE_ADDR)
4248 ^ R_RQ_ATTCH_STATE_ADDR)
4249 rcode = E_MISSING_SUB_VECTOR;
4250 }
4251 }
4252
4253 return (rcode);
4254}
4255
4256static int smctr_rcv_unknown(struct net_device *dev, MAC_HEADER *rmf,
4257 __u16 *correlator)
4258{
4259 MAC_SUB_VECTOR *rsv;
4260 signed short vlen;
4261
4262 *correlator = 0;
4263
4264 /* Remove MVID Length from total length */
4265 vlen = (signed short)rmf->vl - 4;
4266
4267 /* Point to First SVID */
4268 rsv = (MAC_SUB_VECTOR *)((__u32)rmf + sizeof(MAC_HEADER));
4269
4270 /* Search for CORRELATOR for RSP to UNKNOWN */
4271 while((vlen > 0) && (*correlator == 0))
4272 {
4273 switch(rsv->svi)
4274 {
4275 case CORRELATOR:
4276 smctr_set_corr(dev, rsv, correlator);
4277 break;
4278
4279 default:
4280 break;
4281 }
4282
4283 vlen -= rsv->svl;
4284 rsv = (MAC_SUB_VECTOR *)((__u32)rsv + rsv->svl);
4285 }
4286
4287 return (E_UNRECOGNIZED_VECTOR_ID);
4288}
4289
4290/*
4291 * Reset the 825 NIC and exit w:
4292 * 1. The NIC reset cleared (non-reset state), halted and un-initialized.
4293 * 2. TINT masked.
4294 * 3. CBUSY masked.
4295 * 4. TINT clear.
4296 * 5. CBUSY clear.
4297 */
4298static int smctr_reset_adapter(struct net_device *dev)
4299{
4300 struct net_local *tp = netdev_priv(dev);
4301 int ioaddr = dev->base_addr;
4302
4303 /* Reseting the NIC will put it in a halted and un-initialized state. */ smctr_set_trc_reset(ioaddr);
4304 mdelay(200); /* ~2 ms */
4305
4306 smctr_clear_trc_reset(ioaddr);
4307 mdelay(200); /* ~2 ms */
4308
4309 /* Remove any latched interrupts that occurred prior to reseting the
4310 * adapter or possibily caused by line glitches due to the reset.
4311 */
4312 outb(tp->trc_mask | CSR_CLRTINT | CSR_CLRCBUSY, ioaddr + CSR);
4313
4314 return (0);
4315}
4316
4317static int smctr_restart_tx_chain(struct net_device *dev, short queue)
4318{
4319 struct net_local *tp = netdev_priv(dev);
4320 int err = 0;
4321
4322 if(smctr_debug > 10)
4323 printk(KERN_DEBUG "%s: smctr_restart_tx_chain\n", dev->name);
4324
8e95a202
JP		 4325 if(tp->num_tx_fcbs_used[queue] != 0 &&
4326 tp->tx_queue_status[queue] == NOT_TRANSMITING)
1da177e4
LT		 4327 {
4328 tp->tx_queue_status[queue] = TRANSMITING;
4329 err = smctr_issue_resume_tx_fcb_cmd(dev, queue);
4330 }
4331
4332 return (err);
4333}
4334
4335static int smctr_ring_status_chg(struct net_device *dev)
4336{
4337 struct net_local *tp = netdev_priv(dev);
4338
4339 if(smctr_debug > 10)
4340 printk(KERN_DEBUG "%s: smctr_ring_status_chg\n", dev->name);
4341
4342 /* Check for ring_status_flag: whenever MONITOR_STATE_BIT
4343 * Bit is set, check value of monitor_state, only then we
4344 * enable and start transmit/receive timeout (if and only
4345 * if it is MS_ACTIVE_MONITOR_STATE or MS_STANDBY_MONITOR_STATE)
4346 */
4347 if(tp->ring_status_flags == MONITOR_STATE_CHANGED)
4348 {
8e95a202
JP		 4349 if((tp->monitor_state == MS_ACTIVE_MONITOR_STATE) ||
4350 (tp->monitor_state == MS_STANDBY_MONITOR_STATE))
1da177e4
LT		 4351 {
4352 tp->monitor_state_ready = 1;
4353 }
4354 else
4355 {
4356 /* if adapter is NOT in either active monitor
4357 * or standby monitor state => Disable
4358 * transmit/receive timeout.
4359 */
4360 tp->monitor_state_ready = 0;
4361
4362 /* Ring speed problem, switching to auto mode. */
8e95a202
JP		 4363 if(tp->monitor_state == MS_MONITOR_FSM_INACTIVE &&
4364 !tp->cleanup)
1da177e4
LT		 4365 {
4366 printk(KERN_INFO "%s: Incorrect ring speed switching.\n",
4367 dev->name);
4368 smctr_set_ring_speed(dev);
4369 }
4370 }
4371 }
4372
4373 if(!(tp->ring_status_flags & RING_STATUS_CHANGED))
4374 return (0);
4375
4376 switch(tp->ring_status)
4377 {
4378 case RING_RECOVERY:
4379 printk(KERN_INFO "%s: Ring Recovery\n", dev->name);
1da177e4
LT		 4380 break;
4381
4382 case SINGLE_STATION:
4383 printk(KERN_INFO "%s: Single Statinon\n", dev->name);
1da177e4
LT		 4384 break;
4385
4386 case COUNTER_OVERFLOW:
4387 printk(KERN_INFO "%s: Counter Overflow\n", dev->name);
1da177e4
LT		 4388 break;
4389
4390 case REMOVE_RECEIVED:
4391 printk(KERN_INFO "%s: Remove Received\n", dev->name);
1da177e4
LT		 4392 break;
4393
4394 case AUTO_REMOVAL_ERROR:
4395 printk(KERN_INFO "%s: Auto Remove Error\n", dev->name);
1da177e4
LT		 4396 break;
4397
4398 case LOBE_WIRE_FAULT:
4399 printk(KERN_INFO "%s: Lobe Wire Fault\n", dev->name);
1da177e4
LT		 4400 break;
4401
4402 case TRANSMIT_BEACON:
4403 printk(KERN_INFO "%s: Transmit Beacon\n", dev->name);
1da177e4
LT		 4404 break;
4405
4406 case SOFT_ERROR:
4407 printk(KERN_INFO "%s: Soft Error\n", dev->name);
1da177e4
LT		 4408 break;
4409
4410 case HARD_ERROR:
4411 printk(KERN_INFO "%s: Hard Error\n", dev->name);
1da177e4
LT		 4412 break;
4413
4414 case SIGNAL_LOSS:
4415 printk(KERN_INFO "%s: Signal Loss\n", dev->name);
1da177e4
LT		 4416 break;
4417
4418 default:
4419 printk(KERN_INFO "%s: Unknown ring status change\n",
4420 dev->name);
4421 break;
4422 }
4423
4424 return (0);
4425}
4426
4427static int smctr_rx_frame(struct net_device *dev)
4428{
4429 struct net_local *tp = netdev_priv(dev);
4430 __u16 queue, status, rx_size, err = 0;
4431 __u8 *pbuff;
4432
4433 if(smctr_debug > 10)
4434 printk(KERN_DEBUG "%s: smctr_rx_frame\n", dev->name);
4435
4436 queue = tp->receive_queue_number;
4437
4438 while((status = tp->rx_fcb_curr[queue]->frame_status) != SUCCESS)
4439 {
4440 err = HARDWARE_FAILED;
4441
8e95a202
JP		 4442 if(((status & 0x007f) == 0) ||
4443 ((tp->receive_mask & ACCEPT_ERR_PACKETS) != 0))
1da177e4
LT		 4444 {
4445 /* frame length less the CRC (4 bytes) + FS (1 byte) */
4446 rx_size = tp->rx_fcb_curr[queue]->frame_length - 5;
4447
4448 pbuff = smctr_get_rx_pointer(dev, queue);
4449
4450 smctr_set_page(dev, pbuff);
4451 smctr_disable_16bit(dev);
4452
4453 /* pbuff points to addr within one page */
4454 pbuff = (__u8 *)PAGE_POINTER(pbuff);
4455
4456 if(queue == NON_MAC_QUEUE)
4457 {
4458 struct sk_buff *skb;
4459
4460 skb = dev_alloc_skb(rx_size);
4461 if (skb) {
4462 skb_put(skb, rx_size);
4463
27d7ff46 4464 skb_copy_to_linear_data(skb, pbuff, rx_size);
1da177e4
LT		 4465
4466 /* Update Counters */
4467 tp->MacStat.rx_packets++;
4468 tp->MacStat.rx_bytes += skb->len;
4469
4470 /* Kick the packet on up. */
1da177e4
LT		 4471 skb->protocol = tr_type_trans(skb, dev);
4472 netif_rx(skb);
1da177e4
LT		 4473 } else {
4474 }
4475 }
4476 else
4477 smctr_process_rx_packet((MAC_HEADER *)pbuff,
4478 rx_size, dev, status);
4479 }
4480
4481 smctr_enable_16bit(dev);
4482 smctr_set_page(dev, (__u8 *)tp->ram_access);
4483 smctr_update_rx_chain(dev, queue);
4484
4485 if(err != SUCCESS)
4486 break;
4487 }
4488
4489 return (err);
4490}
4491
4492static int smctr_send_dat(struct net_device *dev)
4493{
4494 struct net_local *tp = netdev_priv(dev);
4495 unsigned int i, err;
4496 MAC_HEADER *tmf;
4497 FCBlock *fcb;
4498
4499 if(smctr_debug > 10)
4500 printk(KERN_DEBUG "%s: smctr_send_dat\n", dev->name);
4501
4502 if((fcb = smctr_get_tx_fcb(dev, MAC_QUEUE,
4503 sizeof(MAC_HEADER))) == (FCBlock *)(-1L))
4504 {
4505 return (OUT_OF_RESOURCES);
4506 }
4507
4508 /* Initialize DAT Data Fields. */
4509 tmf = (MAC_HEADER *)fcb->bdb_ptr->data_block_ptr;
4510 tmf->ac = MSB(AC_FC_DAT);
4511 tmf->fc = LSB(AC_FC_DAT);
4512
4513 for(i = 0; i < 6; i++)
4514 {
4515 tmf->sa[i] = dev->dev_addr[i];
4516 tmf->da[i] = dev->dev_addr[i];
4517
4518 }
4519
4520 tmf->vc = DAT;
4521 tmf->dc_sc = DC_RS | SC_RS;
4522 tmf->vl = 4;
4523 tmf->vl = SWAP_BYTES(tmf->vl);
4524
4525 /* Start Transmit. */
4526 if((err = smctr_trc_send_packet(dev, fcb, MAC_QUEUE)))
4527 return (err);
4528
4529 /* Wait for Transmit to Complete */
4530 for(i = 0; i < 10000; i++)
4531 {
4532 if(fcb->frame_status & FCB_COMMAND_DONE)
4533 break;
4534 mdelay(1);
4535 }
4536
4537 /* Check if GOOD frame Tx'ed. */
8e95a202
JP		 4538 if(!(fcb->frame_status & FCB_COMMAND_DONE) ||
4539 fcb->frame_status & (FCB_TX_STATUS_E | FCB_TX_AC_BITS))
1da177e4
LT		 4540 {
4541 return (INITIALIZE_FAILED);
4542 }
4543
4544 /* De-allocated Tx FCB and Frame Buffer
4545 * The FCB must be de-allocated manually if executing with
4546 * interrupts disabled, other wise the ISR (LM_Service_Events)
4547 * will de-allocate it when the interrupt occurs.
4548 */
4549 tp->tx_queue_status[MAC_QUEUE] = NOT_TRANSMITING;
4550 smctr_update_tx_chain(dev, fcb, MAC_QUEUE);
4551
4552 return (0);
4553}
4554
4555static void smctr_timeout(struct net_device *dev)
4556{
4557 /*
4558 * If we get here, some higher level has decided we are broken.
4559 * There should really be a "kick me" function call instead.
4560 *
4561 * Resetting the token ring adapter takes a long time so just
4562 * fake transmission time and go on trying. Our own timeout
4563 * routine is in sktr_timer_chk()
4564 */
4565 dev->trans_start = jiffies;
4566 netif_wake_queue(dev);
4567}
4568
4569/*
4570 * Gets skb from system, queues it and checks if it can be sent
4571 */
61a84108
SH		 4572static netdev_tx_t smctr_send_packet(struct sk_buff *skb,
4573 struct net_device *dev)
1da177e4
LT		 4574{
4575 struct net_local *tp = netdev_priv(dev);
4576
4577 if(smctr_debug > 10)
4578 printk(KERN_DEBUG "%s: smctr_send_packet\n", dev->name);
4579
4580 /*
4581 * Block a transmit overlap
4582 */
4583
4584 netif_stop_queue(dev);
4585
4586 if(tp->QueueSkb == 0)
5b548140 4587 return NETDEV_TX_BUSY; /* Return with tbusy set: queue full */
1da177e4
LT		 4588
4589 tp->QueueSkb--;
4590 skb_queue_tail(&tp->SendSkbQueue, skb);
4591 smctr_hardware_send_packet(dev, tp);
4592 if(tp->QueueSkb > 0)
4593 netif_wake_queue(dev);
4594
ec634fe3 4595 return NETDEV_TX_OK;
1da177e4
LT		 4596}
4597
4598static int smctr_send_lobe_media_test(struct net_device *dev)
4599{
4600 struct net_local *tp = netdev_priv(dev);
4601 MAC_SUB_VECTOR *tsv;
4602 MAC_HEADER *tmf;
4603 FCBlock *fcb;
4604 __u32 i;
4605 int err;
4606
4607 if(smctr_debug > 15)
4608 printk(KERN_DEBUG "%s: smctr_send_lobe_media_test\n", dev->name);
4609
4610 if((fcb = smctr_get_tx_fcb(dev, MAC_QUEUE, sizeof(struct trh_hdr)
4611 + S_WRAP_DATA + S_WRAP_DATA)) == (FCBlock *)(-1L))
4612 {
4613 return (OUT_OF_RESOURCES);
4614 }
4615
4616 /* Initialize DAT Data Fields. */
4617 tmf = (MAC_HEADER *)fcb->bdb_ptr->data_block_ptr;
4618 tmf->ac = MSB(AC_FC_LOBE_MEDIA_TEST);
4619 tmf->fc = LSB(AC_FC_LOBE_MEDIA_TEST);
4620
4621 for(i = 0; i < 6; i++)
4622 {
4623 tmf->da[i] = 0;
4624 tmf->sa[i] = dev->dev_addr[i];
4625 }
4626
4627 tmf->vc = LOBE_MEDIA_TEST;
4628 tmf->dc_sc = DC_RS | SC_RS;
4629 tmf->vl = 4;
4630
4631 tsv = (MAC_SUB_VECTOR *)((__u32)tmf + sizeof(MAC_HEADER));
4632 smctr_make_wrap_data(dev, tsv);
4633 tmf->vl += tsv->svl;
4634
4635 tsv = (MAC_SUB_VECTOR *)((__u32)tsv + tsv->svl);
4636 smctr_make_wrap_data(dev, tsv);
4637 tmf->vl += tsv->svl;
4638
4639 /* Start Transmit. */
4640 tmf->vl = SWAP_BYTES(tmf->vl);
4641 if((err = smctr_trc_send_packet(dev, fcb, MAC_QUEUE)))
4642 return (err);
4643
4644 /* Wait for Transmit to Complete. (10 ms). */
4645 for(i=0; i < 10000; i++)
4646 {
4647 if(fcb->frame_status & FCB_COMMAND_DONE)
4648 break;
4649 mdelay(1);
4650 }
4651
4652 /* Check if GOOD frame Tx'ed */
8e95a202
JP		 4653 if(!(fcb->frame_status & FCB_COMMAND_DONE) ||
4654 fcb->frame_status & (FCB_TX_STATUS_E | FCB_TX_AC_BITS))
1da177e4
LT		 4655 {
4656 return (LOBE_MEDIA_TEST_FAILED);
4657 }
4658
4659 /* De-allocated Tx FCB and Frame Buffer
4660 * The FCB must be de-allocated manually if executing with
4661 * interrupts disabled, other wise the ISR (LM_Service_Events)
4662 * will de-allocate it when the interrupt occurs.
4663 */
4664 tp->tx_queue_status[MAC_QUEUE] = NOT_TRANSMITING;
4665 smctr_update_tx_chain(dev, fcb, MAC_QUEUE);
4666
4667 return (0);
4668}
4669
4670static int smctr_send_rpt_addr(struct net_device *dev, MAC_HEADER *rmf,
4671 __u16 correlator)
4672{
4673 MAC_HEADER *tmf;
4674 MAC_SUB_VECTOR *tsv;
4675 FCBlock *fcb;
4676
4677 if((fcb = smctr_get_tx_fcb(dev, MAC_QUEUE, sizeof(MAC_HEADER)
4678 + S_CORRELATOR + S_PHYSICAL_DROP + S_UPSTREAM_NEIGHBOR_ADDRESS
4679 + S_ADDRESS_MODIFER + S_GROUP_ADDRESS + S_FUNCTIONAL_ADDRESS))
4680 == (FCBlock *)(-1L))
4681 {
4682 return (0);
4683 }
4684
4685 tmf = (MAC_HEADER *)fcb->bdb_ptr->data_block_ptr;
4686 tmf->vc = RPT_ADDR;
4687 tmf->dc_sc = (rmf->dc_sc & SC_MASK) << 4;
4688 tmf->vl = 4;
4689
4690 smctr_make_8025_hdr(dev, rmf, tmf, AC_FC_RPT_ADDR);
4691
4692 tsv = (MAC_SUB_VECTOR *)((__u32)tmf + sizeof(MAC_HEADER));
4693 smctr_make_corr(dev, tsv, correlator);
4694
4695 tmf->vl += tsv->svl;
4696 tsv = (MAC_SUB_VECTOR *)((__u32)tsv + tsv->svl);
4697 smctr_make_phy_drop_num(dev, tsv);
4698
4699 tmf->vl += tsv->svl;
4700 tsv = (MAC_SUB_VECTOR *)((__u32)tsv + tsv->svl);
4701 smctr_make_upstream_neighbor_addr(dev, tsv);
4702
4703 tmf->vl += tsv->svl;
4704 tsv = (MAC_SUB_VECTOR *)((__u32)tsv + tsv->svl);
4705 smctr_make_addr_mod(dev, tsv);
4706
4707 tmf->vl += tsv->svl;
4708 tsv = (MAC_SUB_VECTOR *)((__u32)tsv + tsv->svl);
4709 smctr_make_group_addr(dev, tsv);
4710
4711 tmf->vl += tsv->svl;
4712 tsv = (MAC_SUB_VECTOR *)((__u32)tsv + tsv->svl);
4713 smctr_make_funct_addr(dev, tsv);
4714
4715 tmf->vl += tsv->svl;
4716
4717 /* Subtract out MVID and MVL which is
4718 * include in both vl and MAC_HEADER
4719 */
4720/* fcb->frame_length = tmf->vl + sizeof(MAC_HEADER) - 4;
4721 fcb->bdb_ptr->buffer_length = tmf->vl + sizeof(MAC_HEADER) - 4;
4722*/
4723 tmf->vl = SWAP_BYTES(tmf->vl);
4724
4725 return (smctr_trc_send_packet(dev, fcb, MAC_QUEUE));
4726}
4727
4728static int smctr_send_rpt_attch(struct net_device *dev, MAC_HEADER *rmf,
4729 __u16 correlator)
4730{
4731 MAC_HEADER *tmf;
4732 MAC_SUB_VECTOR *tsv;
4733 FCBlock *fcb;
4734
4735 if((fcb = smctr_get_tx_fcb(dev, MAC_QUEUE, sizeof(MAC_HEADER)
4736 + S_CORRELATOR + S_PRODUCT_INSTANCE_ID + S_FUNCTIONAL_ADDRESS
4737 + S_AUTHORIZED_FUNCTION_CLASS + S_AUTHORIZED_ACCESS_PRIORITY))
4738 == (FCBlock *)(-1L))
4739 {
4740 return (0);
4741 }
4742
4743 tmf = (MAC_HEADER *)fcb->bdb_ptr->data_block_ptr;
4744 tmf->vc = RPT_ATTCH;
4745 tmf->dc_sc = (rmf->dc_sc & SC_MASK) << 4;
4746 tmf->vl = 4;
4747
4748 smctr_make_8025_hdr(dev, rmf, tmf, AC_FC_RPT_ATTCH);
4749
4750 tsv = (MAC_SUB_VECTOR *)((__u32)tmf + sizeof(MAC_HEADER));
4751 smctr_make_corr(dev, tsv, correlator);
4752
4753 tmf->vl += tsv->svl;
4754 tsv = (MAC_SUB_VECTOR *)((__u32)tsv + tsv->svl);
4755 smctr_make_product_id(dev, tsv);
4756
4757 tmf->vl += tsv->svl;
4758 tsv = (MAC_SUB_VECTOR *)((__u32)tsv + tsv->svl);
4759 smctr_make_funct_addr(dev, tsv);
4760
4761 tmf->vl += tsv->svl;
4762 tsv = (MAC_SUB_VECTOR *)((__u32)tsv + tsv->svl);
4763 smctr_make_auth_funct_class(dev, tsv);
4764
4765 tmf->vl += tsv->svl;
4766 tsv = (MAC_SUB_VECTOR *)((__u32)tsv + tsv->svl);
4767 smctr_make_access_pri(dev, tsv);
4768
4769 tmf->vl += tsv->svl;
4770
4771 /* Subtract out MVID and MVL which is
4772 * include in both vl and MAC_HEADER
4773 */
4774/* fcb->frame_length = tmf->vl + sizeof(MAC_HEADER) - 4;
4775 fcb->bdb_ptr->buffer_length = tmf->vl + sizeof(MAC_HEADER) - 4;
4776*/
4777 tmf->vl = SWAP_BYTES(tmf->vl);
4778
4779 return (smctr_trc_send_packet(dev, fcb, MAC_QUEUE));
4780}
4781
4782static int smctr_send_rpt_state(struct net_device *dev, MAC_HEADER *rmf,
4783 __u16 correlator)
4784{
4785 MAC_HEADER *tmf;
4786 MAC_SUB_VECTOR *tsv;
4787 FCBlock *fcb;
4788
4789 if((fcb = smctr_get_tx_fcb(dev, MAC_QUEUE, sizeof(MAC_HEADER)
4790 + S_CORRELATOR + S_RING_STATION_VERSION_NUMBER
4791 + S_RING_STATION_STATUS + S_STATION_IDENTIFER))
4792 == (FCBlock *)(-1L))
4793 {
4794 return (0);
4795 }
4796
4797 tmf = (MAC_HEADER *)fcb->bdb_ptr->data_block_ptr;
4798 tmf->vc = RPT_STATE;
4799 tmf->dc_sc = (rmf->dc_sc & SC_MASK) << 4;
4800 tmf->vl = 4;
4801
4802 smctr_make_8025_hdr(dev, rmf, tmf, AC_FC_RPT_STATE);
4803
4804 tsv = (MAC_SUB_VECTOR *)((__u32)tmf + sizeof(MAC_HEADER));
4805 smctr_make_corr(dev, tsv, correlator);
4806
4807 tmf->vl += tsv->svl;
4808 tsv = (MAC_SUB_VECTOR *)((__u32)tsv + tsv->svl);
4809 smctr_make_ring_station_version(dev, tsv);
4810
4811 tmf->vl += tsv->svl;
4812 tsv = (MAC_SUB_VECTOR *)((__u32)tsv + tsv->svl);
4813 smctr_make_ring_station_status(dev, tsv);
4814
4815 tmf->vl += tsv->svl;
4816 tsv = (MAC_SUB_VECTOR *)((__u32)tsv + tsv->svl);
4817 smctr_make_station_id(dev, tsv);
4818
4819 tmf->vl += tsv->svl;
4820
4821 /* Subtract out MVID and MVL which is
4822 * include in both vl and MAC_HEADER
4823 */
4824/* fcb->frame_length = tmf->vl + sizeof(MAC_HEADER) - 4;
4825 fcb->bdb_ptr->buffer_length = tmf->vl + sizeof(MAC_HEADER) - 4;
4826*/
4827 tmf->vl = SWAP_BYTES(tmf->vl);
4828
4829 return (smctr_trc_send_packet(dev, fcb, MAC_QUEUE));
4830}
4831
4832static int smctr_send_rpt_tx_forward(struct net_device *dev,
4833 MAC_HEADER *rmf, __u16 tx_fstatus)
4834{
4835 MAC_HEADER *tmf;
4836 MAC_SUB_VECTOR *tsv;
4837 FCBlock *fcb;
4838
4839 if((fcb = smctr_get_tx_fcb(dev, MAC_QUEUE, sizeof(MAC_HEADER)
4840 + S_TRANSMIT_STATUS_CODE)) == (FCBlock *)(-1L))
4841 {
4842 return (0);
4843 }
4844
4845 tmf = (MAC_HEADER *)fcb->bdb_ptr->data_block_ptr;
4846 tmf->vc = RPT_TX_FORWARD;
4847 tmf->dc_sc = (rmf->dc_sc & SC_MASK) << 4;
4848 tmf->vl = 4;
4849
4850 smctr_make_8025_hdr(dev, rmf, tmf, AC_FC_RPT_TX_FORWARD);
4851
4852 tsv = (MAC_SUB_VECTOR *)((__u32)tmf + sizeof(MAC_HEADER));
4853 smctr_make_tx_status_code(dev, tsv, tx_fstatus);
4854
4855 tmf->vl += tsv->svl;
4856
4857 /* Subtract out MVID and MVL which is
4858 * include in both vl and MAC_HEADER
4859 */
4860/* fcb->frame_length = tmf->vl + sizeof(MAC_HEADER) - 4;
4861 fcb->bdb_ptr->buffer_length = tmf->vl + sizeof(MAC_HEADER) - 4;
4862*/
4863 tmf->vl = SWAP_BYTES(tmf->vl);
4864
4865 return(smctr_trc_send_packet(dev, fcb, MAC_QUEUE));
4866}
4867
4868static int smctr_send_rsp(struct net_device *dev, MAC_HEADER *rmf,
4869 __u16 rcode, __u16 correlator)
4870{
4871 MAC_HEADER *tmf;
4872 MAC_SUB_VECTOR *tsv;
4873 FCBlock *fcb;
4874
4875 if((fcb = smctr_get_tx_fcb(dev, MAC_QUEUE, sizeof(MAC_HEADER)
4876 + S_CORRELATOR + S_RESPONSE_CODE)) == (FCBlock *)(-1L))
4877 {
4878 return (0);
4879 }
4880
4881 tmf = (MAC_HEADER *)fcb->bdb_ptr->data_block_ptr;
4882 tmf->vc = RSP;
4883 tmf->dc_sc = (rmf->dc_sc & SC_MASK) << 4;
4884 tmf->vl = 4;
4885
4886 smctr_make_8025_hdr(dev, rmf, tmf, AC_FC_RSP);
4887
4888 tsv = (MAC_SUB_VECTOR *)((__u32)tmf + sizeof(MAC_HEADER));
4889 smctr_make_corr(dev, tsv, correlator);
4890
4891 return (0);
4892}
4893
4894static int smctr_send_rq_init(struct net_device *dev)
4895{
4896 struct net_local *tp = netdev_priv(dev);
4897 MAC_HEADER *tmf;
4898 MAC_SUB_VECTOR *tsv;
4899 FCBlock *fcb;
4900 unsigned int i, count = 0;
4901 __u16 fstatus;
4902 int err;
4903
4904 do {
4905 if(((fcb = smctr_get_tx_fcb(dev, MAC_QUEUE, sizeof(MAC_HEADER)
4906 + S_PRODUCT_INSTANCE_ID + S_UPSTREAM_NEIGHBOR_ADDRESS
4907 + S_RING_STATION_VERSION_NUMBER + S_ADDRESS_MODIFER))
4908 == (FCBlock *)(-1L)))
4909 {
4910 return (0);
4911 }
4912
4913 tmf = (MAC_HEADER *)fcb->bdb_ptr->data_block_ptr;
4914 tmf->vc = RQ_INIT;
4915 tmf->dc_sc = DC_RPS | SC_RS;
4916 tmf->vl = 4;
4917
4918 smctr_make_8025_hdr(dev, NULL, tmf, AC_FC_RQ_INIT);
4919
4920 tsv = (MAC_SUB_VECTOR *)((__u32)tmf + sizeof(MAC_HEADER));
4921 smctr_make_product_id(dev, tsv);
4922
4923 tmf->vl += tsv->svl;
4924 tsv = (MAC_SUB_VECTOR *)((__u32)tsv + tsv->svl);
4925 smctr_make_upstream_neighbor_addr(dev, tsv);
4926
4927 tmf->vl += tsv->svl;
4928 tsv = (MAC_SUB_VECTOR *)((__u32)tsv + tsv->svl);
4929 smctr_make_ring_station_version(dev, tsv);
4930
4931 tmf->vl += tsv->svl;
4932 tsv = (MAC_SUB_VECTOR *)((__u32)tsv + tsv->svl);
4933 smctr_make_addr_mod(dev, tsv);
4934
4935 tmf->vl += tsv->svl;
4936
4937 /* Subtract out MVID and MVL which is
4938 * include in both vl and MAC_HEADER
4939 */
4940/* fcb->frame_length = tmf->vl + sizeof(MAC_HEADER) - 4;
4941 fcb->bdb_ptr->buffer_length = tmf->vl + sizeof(MAC_HEADER) - 4;
4942*/
4943 tmf->vl = SWAP_BYTES(tmf->vl);
4944
4945 if((err = smctr_trc_send_packet(dev, fcb, MAC_QUEUE)))
4946 return (err);
4947
4948 /* Wait for Transmit to Complete */
4949 for(i = 0; i < 10000; i++)
4950 {
4951 if(fcb->frame_status & FCB_COMMAND_DONE)
4952 break;
4953 mdelay(1);
4954 }
4955
4956 /* Check if GOOD frame Tx'ed */
4957 fstatus = fcb->frame_status;
4958
4959 if(!(fstatus & FCB_COMMAND_DONE))
4960 return (HARDWARE_FAILED);
4961
4962 if(!(fstatus & FCB_TX_STATUS_E))
4963 count++;
4964
4965 /* De-allocated Tx FCB and Frame Buffer
4966 * The FCB must be de-allocated manually if executing with
4967 * interrupts disabled, other wise the ISR (LM_Service_Events)
4968 * will de-allocate it when the interrupt occurs.
4969 */
4970 tp->tx_queue_status[MAC_QUEUE] = NOT_TRANSMITING;
4971 smctr_update_tx_chain(dev, fcb, MAC_QUEUE);
4972 } while(count < 4 && ((fstatus & FCB_TX_AC_BITS) ^ FCB_TX_AC_BITS));
4973
4974 return (smctr_join_complete_state(dev));
4975}
4976
4977static int smctr_send_tx_forward(struct net_device *dev, MAC_HEADER *rmf,
4978 __u16 *tx_fstatus)
4979{
4980 struct net_local *tp = netdev_priv(dev);
4981 FCBlock *fcb;
4982 unsigned int i;
4983 int err;
4984
4985 /* Check if this is the END POINT of the Transmit Forward Chain. */
4986 if(rmf->vl <= 18)
4987 return (0);
4988
4989 /* Allocate Transmit FCB only by requesting 0 bytes
4990 * of data buffer.
4991 */
4992 if((fcb = smctr_get_tx_fcb(dev, MAC_QUEUE, 0)) == (FCBlock *)(-1L))
4993 return (0);
4994
4995 /* Set pointer to Transmit Frame Buffer to the data
4996 * portion of the received TX Forward frame, making
4997 * sure to skip over the Vector Code (vc) and Vector
4998 * length (vl).
4999 */
5000 fcb->bdb_ptr->trc_data_block_ptr = TRC_POINTER((__u32)rmf
5001 + sizeof(MAC_HEADER) + 2);
5002 fcb->bdb_ptr->data_block_ptr = (__u16 *)((__u32)rmf
5003 + sizeof(MAC_HEADER) + 2);
5004
5005 fcb->frame_length = rmf->vl - 4 - 2;
5006 fcb->bdb_ptr->buffer_length = rmf->vl - 4 - 2;
5007
5008 if((err = smctr_trc_send_packet(dev, fcb, MAC_QUEUE)))
5009 return (err);
5010
5011 /* Wait for Transmit to Complete */
5012 for(i = 0; i < 10000; i++)
5013 {
5014 if(fcb->frame_status & FCB_COMMAND_DONE)
5015 break;
5016 mdelay(1);
5017 }
5018
5019 /* Check if GOOD frame Tx'ed */
5020 if(!(fcb->frame_status & FCB_COMMAND_DONE))
5021 {
5022 if((err = smctr_issue_resume_tx_fcb_cmd(dev, MAC_QUEUE)))
5023 return (err);
5024
5025 for(i = 0; i < 10000; i++)
5026 {
5027 if(fcb->frame_status & FCB_COMMAND_DONE)
5028 break;
5029 mdelay(1);
5030 }
5031
5032 if(!(fcb->frame_status & FCB_COMMAND_DONE))
5033 return (HARDWARE_FAILED);
5034 }
5035
5036 *tx_fstatus = fcb->frame_status;
5037
5038 return (A_FRAME_WAS_FORWARDED);
5039}
5040
5041static int smctr_set_auth_access_pri(struct net_device *dev,
5042 MAC_SUB_VECTOR *rsv)
5043{
5044 struct net_local *tp = netdev_priv(dev);
5045
5046 if(rsv->svl != S_AUTHORIZED_ACCESS_PRIORITY)
5047 return (E_SUB_VECTOR_LENGTH_ERROR);
5048
5049 tp->authorized_access_priority = (rsv->svv[0] << 8 | rsv->svv[1]);
5050
5051 return (POSITIVE_ACK);
5052}
5053
5054static int smctr_set_auth_funct_class(struct net_device *dev,
5055 MAC_SUB_VECTOR *rsv)
5056{
5057 struct net_local *tp = netdev_priv(dev);
5058
5059 if(rsv->svl != S_AUTHORIZED_FUNCTION_CLASS)
5060 return (E_SUB_VECTOR_LENGTH_ERROR);
5061
5062 tp->authorized_function_classes = (rsv->svv[0] << 8 | rsv->svv[1]);
5063
5064 return (POSITIVE_ACK);
5065}
5066
5067static int smctr_set_corr(struct net_device *dev, MAC_SUB_VECTOR *rsv,
5068 __u16 *correlator)
5069{
5070 if(rsv->svl != S_CORRELATOR)
5071 return (E_SUB_VECTOR_LENGTH_ERROR);
5072
5073 *correlator = (rsv->svv[0] << 8 | rsv->svv[1]);
5074
5075 return (POSITIVE_ACK);
5076}
5077
5078static int smctr_set_error_timer_value(struct net_device *dev,
5079 MAC_SUB_VECTOR *rsv)
5080{
5081 __u16 err_tval;
5082 int err;
5083
5084 if(rsv->svl != S_ERROR_TIMER_VALUE)
5085 return (E_SUB_VECTOR_LENGTH_ERROR);
5086
5087 err_tval = (rsv->svv[0] << 8 | rsv->svv[1])*10;
5088
5089 smctr_issue_write_word_cmd(dev, RW_TER_THRESHOLD, &err_tval);
5090
5091 if((err = smctr_wait_cmd(dev)))
5092 return (err);
5093
5094 return (POSITIVE_ACK);
5095}
5096
5097static int smctr_set_frame_forward(struct net_device *dev,
5098 MAC_SUB_VECTOR *rsv, __u8 dc_sc)
5099{
5100 if((rsv->svl < 2) || (rsv->svl > S_FRAME_FORWARD))
5101 return (E_SUB_VECTOR_LENGTH_ERROR);
5102
5103 if((dc_sc & DC_MASK) != DC_CRS)
5104 {
5105 if(rsv->svl >= 2 && rsv->svl < 20)
5106 return (E_TRANSMIT_FORWARD_INVALID);
5107
5108 if((rsv->svv[0] != 0) || (rsv->svv[1] != 0))
5109 return (E_TRANSMIT_FORWARD_INVALID);
5110 }
5111
5112 return (POSITIVE_ACK);
5113}
5114
5115static int smctr_set_local_ring_num(struct net_device *dev,
5116 MAC_SUB_VECTOR *rsv)
5117{
5118 struct net_local *tp = netdev_priv(dev);
5119
5120 if(rsv->svl != S_LOCAL_RING_NUMBER)
5121 return (E_SUB_VECTOR_LENGTH_ERROR);
5122
5123 if(tp->ptr_local_ring_num)
5124 *(__u16 *)(tp->ptr_local_ring_num)
5125 = (rsv->svv[0] << 8 | rsv->svv[1]);
5126
5127 return (POSITIVE_ACK);
5128}
5129
5130static unsigned short smctr_set_ctrl_attention(struct net_device *dev)
5131{
5132 struct net_local *tp = netdev_priv(dev);
5133 int ioaddr = dev->base_addr;
5134
5135 if(tp->bic_type == BIC_585_CHIP)
5136 outb((tp->trc_mask | HWR_CA), ioaddr + HWR);
5137 else
5138 {
5139 outb((tp->trc_mask | CSR_CA), ioaddr + CSR);
5140 outb(tp->trc_mask, ioaddr + CSR);
5141 }
5142
5143 return (0);
5144}
5145
5146static void smctr_set_multicast_list(struct net_device *dev)
5147{
5148 if(smctr_debug > 10)
5149 printk(KERN_DEBUG "%s: smctr_set_multicast_list\n", dev->name);
5150
5151 return;
5152}
5153
5154static int smctr_set_page(struct net_device *dev, __u8 *buf)
5155{
5156 struct net_local *tp = netdev_priv(dev);
5157 __u8 amask;
5158 __u32 tptr;
5159
5160 tptr = (__u32)buf - (__u32)tp->ram_access;
5161 amask = (__u8)((tptr & PR_PAGE_MASK) >> 8);
5162 outb(amask, dev->base_addr + PR);
5163
5164 return (0);
5165}
5166
5167static int smctr_set_phy_drop(struct net_device *dev, MAC_SUB_VECTOR *rsv)
5168{
5169 int err;
5170
5171 if(rsv->svl != S_PHYSICAL_DROP)
5172 return (E_SUB_VECTOR_LENGTH_ERROR);
5173
5174 smctr_issue_write_byte_cmd(dev, RW_PHYSICAL_DROP_NUMBER, &rsv->svv[0]);
5175 if((err = smctr_wait_cmd(dev)))
5176 return (err);
5177
5178 return (POSITIVE_ACK);
5179}
5180
5181/* Reset the ring speed to the opposite of what it was. This auto-pilot
5182 * mode requires a complete reset and re-init of the adapter.
5183 */
5184static int smctr_set_ring_speed(struct net_device *dev)
5185{
5186 struct net_local *tp = netdev_priv(dev);
5187 int err;
5188
5189 if(tp->media_type == MEDIA_UTP_16)
5190 tp->media_type = MEDIA_UTP_4;
5191 else
5192 tp->media_type = MEDIA_UTP_16;
5193
5194 smctr_enable_16bit(dev);
5195
5196 /* Re-Initialize adapter's internal registers */
5197 smctr_reset_adapter(dev);
5198
5199 if((err = smctr_init_card_real(dev)))
5200 return (err);
5201
5202 smctr_enable_bic_int(dev);
5203
5204 if((err = smctr_issue_enable_int_cmd(dev, TRC_INTERRUPT_ENABLE_MASK)))
5205 return (err);
5206
5207 smctr_disable_16bit(dev);
5208
5209 return (0);
5210}
5211
5212static int smctr_set_rx_look_ahead(struct net_device *dev)
5213{
5214 struct net_local *tp = netdev_priv(dev);
5215 __u16 sword, rword;
5216
5217 if(smctr_debug > 10)
5218 printk(KERN_DEBUG "%s: smctr_set_rx_look_ahead_flag\n", dev->name);
5219
5220 tp->adapter_flags &= ~(FORCED_16BIT_MODE);
5221 tp->adapter_flags |= RX_VALID_LOOKAHEAD;
5222
5223 if(tp->adapter_bus == BUS_ISA16_TYPE)
5224 {
5225 sword = *((__u16 *)(tp->ram_access));
5226 *((__u16 *)(tp->ram_access)) = 0x1234;
5227
5228 smctr_disable_16bit(dev);
5229 rword = *((__u16 *)(tp->ram_access));
5230 smctr_enable_16bit(dev);
5231
5232 if(rword != 0x1234)
5233 tp->adapter_flags |= FORCED_16BIT_MODE;
5234
5235 *((__u16 *)(tp->ram_access)) = sword;
5236 }
5237
5238 return (0);
5239}
5240
5241static int smctr_set_trc_reset(int ioaddr)
5242{
5243 __u8 r;
5244
5245 r = inb(ioaddr + MSR);
5246 outb(MSR_RST | r, ioaddr + MSR);
5247
5248 return (0);
5249}
5250
5251/*
5252 * This function can be called if the adapter is busy or not.
5253 */
5254static int smctr_setup_single_cmd(struct net_device *dev,
5255 __u16 command, __u16 subcommand)
5256{
5257 struct net_local *tp = netdev_priv(dev);
5258 unsigned int err;
5259
5260 if(smctr_debug > 10)
5261 printk(KERN_DEBUG "%s: smctr_setup_single_cmd\n", dev->name);
5262
5263 if((err = smctr_wait_while_cbusy(dev)))
5264 return (err);
5265
5266 if((err = (unsigned int)smctr_wait_cmd(dev)))
5267 return (err);
5268
5269 tp->acb_head->cmd_done_status = 0;
5270 tp->acb_head->cmd = command;
5271 tp->acb_head->subcmd = subcommand;
5272
5273 err = smctr_issue_resume_acb_cmd(dev);
5274
5275 return (err);
5276}
5277
5278/*
5279 * This function can not be called with the adapter busy.
5280 */
5281static int smctr_setup_single_cmd_w_data(struct net_device *dev,
5282 __u16 command, __u16 subcommand)
5283{
5284 struct net_local *tp = netdev_priv(dev);
5285
5286 tp->acb_head->cmd_done_status = ACB_COMMAND_NOT_DONE;
5287 tp->acb_head->cmd = command;
5288 tp->acb_head->subcmd = subcommand;
5289 tp->acb_head->data_offset_lo
5290 = (__u16)TRC_POINTER(tp->misc_command_data);
5291
5292 return(smctr_issue_resume_acb_cmd(dev));
5293}
5294
5295static char *smctr_malloc(struct net_device *dev, __u16 size)
5296{
5297 struct net_local *tp = netdev_priv(dev);
5298 char *m;
5299
5300 m = (char *)(tp->ram_access + tp->sh_mem_used);
5301 tp->sh_mem_used += (__u32)size;
5302
5303 return (m);
5304}
5305
5306static int smctr_status_chg(struct net_device *dev)
5307{
5308 struct net_local *tp = netdev_priv(dev);
5309
5310 if(smctr_debug > 10)
5311 printk(KERN_DEBUG "%s: smctr_status_chg\n", dev->name);
5312
5313 switch(tp->status)
5314 {
5315 case OPEN:
5316 break;
5317
5318 case CLOSED:
5319 break;
5320
5321 /* Interrupt driven open() completion. XXX */
5322 case INITIALIZED:
5323 tp->group_address_0 = 0;
5324 tp->group_address[0] = 0;
5325 tp->group_address[1] = 0;
5326 tp->functional_address_0 = 0;
5327 tp->functional_address[0] = 0;
5328 tp->functional_address[1] = 0;
5329 smctr_open_tr(dev);
5330 break;
5331
5332 default:
5333 printk(KERN_INFO "%s: status change unknown %x\n",
5334 dev->name, tp->status);
5335 break;
5336 }
5337
5338 return (0);
5339}
5340
5341static int smctr_trc_send_packet(struct net_device *dev, FCBlock *fcb,
5342 __u16 queue)
5343{
5344 struct net_local *tp = netdev_priv(dev);
5345 int err = 0;
5346
5347 if(smctr_debug > 10)
5348 printk(KERN_DEBUG "%s: smctr_trc_send_packet\n", dev->name);
5349
5350 fcb->info = FCB_CHAIN_END | FCB_ENABLE_TFS;
5351 if(tp->num_tx_fcbs[queue] != 1)
5352 fcb->back_ptr->info = FCB_INTERRUPT_ENABLE | FCB_ENABLE_TFS;
5353
5354 if(tp->tx_queue_status[queue] == NOT_TRANSMITING)
5355 {
5356 tp->tx_queue_status[queue] = TRANSMITING;
5357 err = smctr_issue_resume_tx_fcb_cmd(dev, queue);
5358 }
5359
5360 return (err);
5361}
5362
5363static __u16 smctr_tx_complete(struct net_device *dev, __u16 queue)
5364{
5365 struct net_local *tp = netdev_priv(dev);
5366 __u16 status, err = 0;
5367 int cstatus;
5368
5369 if(smctr_debug > 10)
5370 printk(KERN_DEBUG "%s: smctr_tx_complete\n", dev->name);
5371
5372 while((status = tp->tx_fcb_end[queue]->frame_status) != SUCCESS)
5373 {
5374 if(status & 0x7e00 )
5375 {
5376 err = HARDWARE_FAILED;
5377 break;
5378 }
5379
5380 if((err = smctr_update_tx_chain(dev, tp->tx_fcb_end[queue],
5381 queue)) != SUCCESS)
5382 break;
5383
5384 smctr_disable_16bit(dev);
5385
5386 if(tp->mode_bits & UMAC)
5387 {
5388 if(!(status & (FCB_TX_STATUS_AR1 | FCB_TX_STATUS_AR2)))
5389 cstatus = NO_SUCH_DESTINATION;
5390 else
5391 {
5392 if(!(status & (FCB_TX_STATUS_CR1 | FCB_TX_STATUS_CR2)))
5393 cstatus = DEST_OUT_OF_RESOURCES;
5394 else
5395 {
5396 if(status & FCB_TX_STATUS_E)
5397 cstatus = MAX_COLLISIONS;
5398 else
5399 cstatus = SUCCESS;
5400 }
5401 }
5402 }
5403 else
5404 cstatus = SUCCESS;
5405
5406 if(queue == BUG_QUEUE)
5407 err = SUCCESS;
5408
5409 smctr_enable_16bit(dev);
5410 if(err != SUCCESS)
5411 break;
5412 }
5413
5414 return (err);
5415}
5416
5417static unsigned short smctr_tx_move_frame(struct net_device *dev,
5418 struct sk_buff *skb, __u8 *pbuff, unsigned int bytes)
5419{
5420 struct net_local *tp = netdev_priv(dev);
5421 unsigned int ram_usable;
5422 __u32 flen, len, offset = 0;
5423 __u8 *frag, *page;
5424
5425 if(smctr_debug > 10)
5426 printk(KERN_DEBUG "%s: smctr_tx_move_frame\n", dev->name);
5427
5428 ram_usable = ((unsigned int)tp->ram_usable) << 10;
5429 frag = skb->data;
5430 flen = skb->len;
5431
5432 while(flen > 0 && bytes > 0)
5433 {
5434 smctr_set_page(dev, pbuff);
5435
5436 offset = SMC_PAGE_OFFSET(pbuff);
5437
5438 if(offset + flen > ram_usable)
5439 len = ram_usable - offset;
5440 else
5441 len = flen;
5442
5443 if(len > bytes)
5444 len = bytes;
5445
5446 page = (char *) (offset + tp->ram_access);
5447 memcpy(page, frag, len);
5448
5449 flen -=len;
5450 bytes -= len;
5451 frag += len;
5452 pbuff += len;
5453 }
5454
5455 return (0);
5456}
5457
5458/* Update the error statistic counters for this adapter. */
5459static int smctr_update_err_stats(struct net_device *dev)
5460{
5461 struct net_local *tp = netdev_priv(dev);
5462 struct tr_statistics *tstat = &tp->MacStat;
5463
5464 if(tstat->internal_errors)
5465 tstat->internal_errors
5466 += *(tp->misc_command_data + 0) & 0x00ff;
5467
5468 if(tstat->line_errors)
5469 tstat->line_errors += *(tp->misc_command_data + 0) >> 8;
5470
5471 if(tstat->A_C_errors)
5472 tstat->A_C_errors += *(tp->misc_command_data + 1) & 0x00ff;
5473
5474 if(tstat->burst_errors)
5475 tstat->burst_errors += *(tp->misc_command_data + 1) >> 8;
5476
5477 if(tstat->abort_delimiters)
5478 tstat->abort_delimiters += *(tp->misc_command_data + 2) >> 8;
5479
5480 if(tstat->recv_congest_count)
5481 tstat->recv_congest_count
5482 += *(tp->misc_command_data + 3) & 0x00ff;
5483
5484 if(tstat->lost_frames)
5485 tstat->lost_frames
5486 += *(tp->misc_command_data + 3) >> 8;
5487
5488 if(tstat->frequency_errors)
5489 tstat->frequency_errors += *(tp->misc_command_data + 4) & 0x00ff;
5490
5491 if(tstat->frame_copied_errors)
5492 tstat->frame_copied_errors
5493 += *(tp->misc_command_data + 4) >> 8;
5494
5495 if(tstat->token_errors)
5496 tstat->token_errors += *(tp->misc_command_data + 5) >> 8;
5497
5498 return (0);
5499}
5500
5501static int smctr_update_rx_chain(struct net_device *dev, __u16 queue)
5502{
5503 struct net_local *tp = netdev_priv(dev);
5504 FCBlock *fcb;
5505 BDBlock *bdb;
5506 __u16 size, len;
5507
5508 fcb = tp->rx_fcb_curr[queue];
5509 len = fcb->frame_length;
5510
5511 fcb->frame_status = 0;
5512 fcb->info = FCB_CHAIN_END;
5513 fcb->back_ptr->info = FCB_WARNING;
5514
5515 tp->rx_fcb_curr[queue] = tp->rx_fcb_curr[queue]->next_ptr;
5516
5517 /* update RX BDBs */
5518 size = (len >> RX_BDB_SIZE_SHIFT);
5519 if(len & RX_DATA_BUFFER_SIZE_MASK)
5520 size += sizeof(BDBlock);
5521 size &= (~RX_BDB_SIZE_MASK);
5522
5523 /* check if wrap around */
5524 bdb = (BDBlock *)((__u32)(tp->rx_bdb_curr[queue]) + (__u32)(size));
5525 if((__u32)bdb >= (__u32)tp->rx_bdb_end[queue])
5526 {
5527 bdb = (BDBlock *)((__u32)(tp->rx_bdb_head[queue])
5528 + (__u32)(bdb) - (__u32)(tp->rx_bdb_end[queue]));
5529 }
5530
5531 bdb->back_ptr->info = BDB_CHAIN_END;
5532 tp->rx_bdb_curr[queue]->back_ptr->info = BDB_NOT_CHAIN_END;
5533 tp->rx_bdb_curr[queue] = bdb;
5534
5535 return (0);
5536}
5537
5538static int smctr_update_tx_chain(struct net_device *dev, FCBlock *fcb,
5539 __u16 queue)
5540{
5541 struct net_local *tp = netdev_priv(dev);
5542
5543 if(smctr_debug > 20)
5544 printk(KERN_DEBUG "smctr_update_tx_chain\n");
5545
5546 if(tp->num_tx_fcbs_used[queue] <= 0)
5547 return (HARDWARE_FAILED);
5548 else
5549 {
5550 if(tp->tx_buff_used[queue] < fcb->memory_alloc)
5551 {
5552 tp->tx_buff_used[queue] = 0;
5553 return (HARDWARE_FAILED);
5554 }
5555
5556 tp->tx_buff_used[queue] -= fcb->memory_alloc;
5557
5558 /* if all transmit buffer are cleared
5559 * need to set the tx_buff_curr[] to tx_buff_head[]
5560 * otherwise, tx buffer will be segregate and cannot
5561 * accommodate and buffer greater than (curr - head) and
5562 * (end - curr) since we do not allow wrap around allocation.
5563 */
5564 if(tp->tx_buff_used[queue] == 0)
5565 tp->tx_buff_curr[queue] = tp->tx_buff_head[queue];
5566
5567 tp->num_tx_fcbs_used[queue]--;
5568 fcb->frame_status = 0;
5569 tp->tx_fcb_end[queue] = fcb->next_ptr;
5570 netif_wake_queue(dev);
5571 return (0);
5572 }
5573}
5574
5575static int smctr_wait_cmd(struct net_device *dev)
5576{
5577 struct net_local *tp = netdev_priv(dev);
5578 unsigned int loop_count = 0x20000;
5579
5580 if(smctr_debug > 10)
5581 printk(KERN_DEBUG "%s: smctr_wait_cmd\n", dev->name);
5582
5583 while(loop_count)
5584 {
5585 if(tp->acb_head->cmd_done_status & ACB_COMMAND_DONE)
5586 break;
5587 udelay(1);
5588 loop_count--;
5589 }
5590
5591 if(loop_count == 0)
5592 return(HARDWARE_FAILED);
5593
5594 if(tp->acb_head->cmd_done_status & 0xff)
5595 return(HARDWARE_FAILED);
5596
5597 return (0);
5598}
5599
5600static int smctr_wait_while_cbusy(struct net_device *dev)
5601{
5602 struct net_local *tp = netdev_priv(dev);
5603 unsigned int timeout = 0x20000;
5604 int ioaddr = dev->base_addr;
5605 __u8 r;
5606
5607 if(tp->bic_type == BIC_585_CHIP)
5608 {
5609 while(timeout)
5610 {
5611 r = inb(ioaddr + HWR);
5612 if((r & HWR_CBUSY) == 0)
5613 break;
5614 timeout--;
5615 }
5616 }
5617 else
5618 {
5619 while(timeout)
5620 {
5621 r = inb(ioaddr + CSR);
5622 if((r & CSR_CBUSY) == 0)
5623 break;
5624 timeout--;
5625 }
5626 }
5627
5628 if(timeout)
5629 return (0);
5630 else
5631 return (HARDWARE_FAILED);
5632}
5633
5634#ifdef MODULE
5635
5636static struct net_device* dev_smctr[SMCTR_MAX_ADAPTERS];
5637static int io[SMCTR_MAX_ADAPTERS];
5638static int irq[SMCTR_MAX_ADAPTERS];
5639
5640MODULE_LICENSE("GPL");
0f805b86 5641MODULE_FIRMWARE("tr_smctr.bin");
1da177e4
LT		 5642
5643module_param_array(io, int, NULL, 0);
5644module_param_array(irq, int, NULL, 0);
5645module_param(ringspeed, int, 0);
5646
daca7cd7 5647static struct net_device * __init setup_card(int n)
1da177e4
LT		 5648{
5649 struct net_device *dev = alloc_trdev(sizeof(struct net_local));
5650 int err;
5651
5652 if (!dev)
5653 return ERR_PTR(-ENOMEM);
5654
5655 dev->irq = irq[n];
5656 err = smctr_probe1(dev, io[n]);
5657 if (err)
5658 goto out;
5659
5660 err = register_netdev(dev);
5661 if (err)
5662 goto out1;
5663 return dev;
5664 out1:
5665#ifdef CONFIG_MCA_LEGACY
5666 { struct net_local *tp = netdev_priv(dev);
5667 if (tp->slot_num)
5668 mca_mark_as_unused(tp->slot_num);
5669 }
5670#endif
5671 release_region(dev->base_addr, SMCTR_IO_EXTENT);
5672 free_irq(dev->irq, dev);
5673out:
5674 free_netdev(dev);
5675 return ERR_PTR(err);
5676}
1da177e4 5677
daca7cd7 5678int __init init_module(void)
1da177e4
LT		 5679{
5680 int i, found = 0;
5681 struct net_device *dev;
5682
5683 for(i = 0; i < SMCTR_MAX_ADAPTERS; i++) {
5684 dev = io[0]? setup_card(i) : smctr_probe(-1);
5685 if (!IS_ERR(dev)) {
5686 ++found;
5687 dev_smctr[i] = dev;
5688 }
5689 }
5690
5691 return found ? 0 : -ENODEV;
5692}
5693
afc8eb46 5694void __exit cleanup_module(void)
1da177e4
LT		 5695{
5696 int i;
5697
5698 for(i = 0; i < SMCTR_MAX_ADAPTERS; i++) {
5699 struct net_device *dev = dev_smctr[i];
5700
5701 if (dev) {
5702
5703 unregister_netdev(dev);
5704#ifdef CONFIG_MCA_LEGACY
5705 { struct net_local *tp = netdev_priv(dev);
5706 if (tp->slot_num)
5707 mca_mark_as_unused(tp->slot_num);
5708 }
5709#endif
5710 release_region(dev->base_addr, SMCTR_IO_EXTENT);
5711 if (dev->irq)
5712 free_irq(dev->irq, dev);
5713
5714 free_netdev(dev);
5715 }
5716 }
5717}
5718#endif /* MODULE */
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