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[kernel/linux-2.6.36.git] / drivers / net / tokenring / tms380tr.c
1 /*
2  *  tms380tr.c: A network driver library for Texas Instruments TMS380-based
3  *              Token Ring Adapters.
4  *
5  *  Originally sktr.c: Written 1997 by Christoph Goos
6  *
7  *  A fine result of the Linux Systems Network Architecture Project.
8  *  http://www.linux-sna.org
9  *
10  *  This software may be used and distributed according to the terms
11  *  of the GNU General Public License, incorporated herein by reference.
12  *
13  *  The following modules are currently available for card support:
14  *      - tmspci (Generic PCI card support)
15  *      - abyss (Madge PCI support)
16  *      - tmsisa (SysKonnect TR4/16 ISA)
17  *
18  *  Sources:
19  *      - The hardware related parts of this driver are take from
20  *        the SysKonnect Token Ring driver for Windows NT.
21  *      - I used the IBM Token Ring driver 'ibmtr.c' as a base for this
22  *        driver, as well as the 'skeleton.c' driver by Donald Becker.
23  *      - Also various other drivers in the linux source tree were taken
24  *        as samples for some tasks.
25  *      - TI TMS380 Second-Generation Token Ring User's Guide
26  *      - TI datasheets for respective chips
27  *      - David Hein at Texas Instruments 
28  *      - Various Madge employees
29  *
30  *  Maintainer(s):
31  *    JS        Jay Schulist            jschlst@samba.org
32  *    CG        Christoph Goos          cgoos@syskonnect.de
33  *    AF        Adam Fritzler
34  *    MLP       Mike Phillips           phillim@amtrak.com
35  *    JF        Jochen Friedrich        jochen@scram.de
36  *     
37  *  Modification History:
38  *      29-Aug-97       CG      Created
39  *      04-Apr-98       CG      Fixed problems caused by tok_timer_check
40  *      10-Apr-98       CG      Fixed lockups at cable disconnection
41  *      27-May-98       JS      Formated to Linux Kernel Format
42  *      31-May-98       JS      Hacked in PCI support
43  *      16-Jun-98       JS      Modulized for multiple cards with one driver
44  *         Sep-99       AF      Renamed to tms380tr (supports more than SK's)
45  *      23-Sep-99       AF      Added Compaq and Thomas-Conrad PCI support
46  *                              Fixed a bug causing double copies on PCI
47  *                              Fixed for new multicast stuff (2.2/2.3)
48  *      25-Sep-99       AF      Uped TPL_NUM from 3 to 9
49  *                              Removed extraneous 'No free TPL'
50  *      22-Dec-99       AF      Added Madge PCI Mk2 support and generalized
51  *                              parts of the initilization procedure.
52  *      30-Dec-99       AF      Turned tms380tr into a library ala 8390.
53  *                              Madge support is provided in the abyss module
54  *                              Generic PCI support is in the tmspci module.
55  *      30-Nov-00       JF      Updated PCI code to support IO MMU via
56  *                              pci_map_static(). Alpha uses this MMU for ISA
57  *                              as well.
58  *      14-Jan-01       JF      Fix DMA on ifdown/ifup sequences. Some 
59  *                              cleanup.
60  *      13-Jan-02       JF      Add spinlock to fix race condition.
61  *      09-Nov-02       JF      Fixed printks to not SPAM the console during
62  *                              normal operation.
63  *      30-Dec-02       JF      Removed incorrect __init from 
64  *                              tms380tr_init_card.
65  *      22-Jul-05       JF      Converted to dma-mapping.
66  *                              
67  *  To do:
68  *    1. Multi/Broadcast packet handling (this may have fixed itself)
69  *    2. Write a sktrisa module that includes the old ISA support (done)
70  *    3. Allow modules to load their own microcode
71  *    4. Speed up the BUD process -- freezing the kernel for 3+sec is
72  *         quite unacceptable.
73  *    5. Still a few remaining stalls when the cable is unplugged.
74  */
75
76 #ifdef MODULE
77 static const char version[] = "tms380tr.c: v1.10 30/12/2002 by Christoph Goos, Adam Fritzler\n";
78 #endif
79
80 #include <linux/module.h>
81 #include <linux/kernel.h>
82 #include <linux/types.h>
83 #include <linux/fcntl.h>
84 #include <linux/interrupt.h>
85 #include <linux/ptrace.h>
86 #include <linux/ioport.h>
87 #include <linux/in.h>
88 #include <linux/string.h>
89 #include <linux/time.h>
90 #include <linux/errno.h>
91 #include <linux/init.h>
92 #include <linux/dma-mapping.h>
93 #include <linux/delay.h>
94 #include <linux/netdevice.h>
95 #include <linux/etherdevice.h>
96 #include <linux/skbuff.h>
97 #include <linux/trdevice.h>
98 #include <linux/firmware.h>
99 #include <linux/bitops.h>
100
101 #include <asm/system.h>
102 #include <asm/io.h>
103 #include <asm/dma.h>
104 #include <asm/irq.h>
105 #include <asm/uaccess.h>
106
107 #include "tms380tr.h"           /* Our Stuff */
108
109 /* Use 0 for production, 1 for verification, 2 for debug, and
110  * 3 for very verbose debug.
111  */
112 #ifndef TMS380TR_DEBUG
113 #define TMS380TR_DEBUG 0
114 #endif
115 static unsigned int tms380tr_debug = TMS380TR_DEBUG;
116
117 /* Index to functions, as function prototypes.
118  * Alphabetical by function name.
119  */
120
121 /* "A" */
122 /* "B" */
123 static int      tms380tr_bringup_diags(struct net_device *dev);
124 /* "C" */
125 static void     tms380tr_cancel_tx_queue(struct net_local* tp);
126 static int      tms380tr_chipset_init(struct net_device *dev);
127 static void     tms380tr_chk_irq(struct net_device *dev);
128 static void     tms380tr_chk_outstanding_cmds(struct net_device *dev);
129 static void     tms380tr_chk_src_addr(unsigned char *frame, unsigned char *hw_addr);
130 static unsigned char tms380tr_chk_ssb(struct net_local *tp, unsigned short IrqType);
131 int             tms380tr_close(struct net_device *dev);
132 static void     tms380tr_cmd_status_irq(struct net_device *dev);
133 /* "D" */
134 static void     tms380tr_disable_interrupts(struct net_device *dev);
135 #if TMS380TR_DEBUG > 0
136 static void     tms380tr_dump(unsigned char *Data, int length);
137 #endif
138 /* "E" */
139 static void     tms380tr_enable_interrupts(struct net_device *dev);
140 static void     tms380tr_exec_cmd(struct net_device *dev, unsigned short Command);
141 static void     tms380tr_exec_sifcmd(struct net_device *dev, unsigned int WriteValue);
142 /* "F" */
143 /* "G" */
144 static struct net_device_stats *tms380tr_get_stats(struct net_device *dev);
145 /* "H" */
146 static netdev_tx_t tms380tr_hardware_send_packet(struct sk_buff *skb,
147                                                        struct net_device *dev);
148 /* "I" */
149 static int      tms380tr_init_adapter(struct net_device *dev);
150 static void     tms380tr_init_ipb(struct net_local *tp);
151 static void     tms380tr_init_net_local(struct net_device *dev);
152 static void     tms380tr_init_opb(struct net_device *dev);
153 /* "M" */
154 /* "O" */
155 int             tms380tr_open(struct net_device *dev);
156 static void     tms380tr_open_adapter(struct net_device *dev);
157 /* "P" */
158 /* "R" */
159 static void     tms380tr_rcv_status_irq(struct net_device *dev);
160 static int      tms380tr_read_ptr(struct net_device *dev);
161 static void     tms380tr_read_ram(struct net_device *dev, unsigned char *Data,
162                         unsigned short Address, int Length);
163 static int      tms380tr_reset_adapter(struct net_device *dev);
164 static void     tms380tr_reset_interrupt(struct net_device *dev);
165 static void     tms380tr_ring_status_irq(struct net_device *dev);
166 /* "S" */
167 static netdev_tx_t tms380tr_send_packet(struct sk_buff *skb,
168                                               struct net_device *dev);
169 static void     tms380tr_set_multicast_list(struct net_device *dev);
170 static int      tms380tr_set_mac_address(struct net_device *dev, void *addr);
171 /* "T" */
172 static void     tms380tr_timer_chk(unsigned long data);
173 static void     tms380tr_timer_end_wait(unsigned long data);
174 static void     tms380tr_tx_status_irq(struct net_device *dev);
175 /* "U" */
176 static void     tms380tr_update_rcv_stats(struct net_local *tp,
177                         unsigned char DataPtr[], unsigned int Length);
178 /* "W" */
179 void            tms380tr_wait(unsigned long time);
180 static void     tms380tr_write_rpl_status(RPL *rpl, unsigned int Status);
181 static void     tms380tr_write_tpl_status(TPL *tpl, unsigned int Status);
182
183 #define SIFREADB(reg) \
184         (((struct net_local *)netdev_priv(dev))->sifreadb(dev, reg))
185 #define SIFWRITEB(val, reg) \
186         (((struct net_local *)netdev_priv(dev))->sifwriteb(dev, val, reg))
187 #define SIFREADW(reg) \
188         (((struct net_local *)netdev_priv(dev))->sifreadw(dev, reg))
189 #define SIFWRITEW(val, reg) \
190         (((struct net_local *)netdev_priv(dev))->sifwritew(dev, val, reg))
191
192
193
194 #if 0 /* TMS380TR_DEBUG > 0 */
195 static int madgemc_sifprobe(struct net_device *dev)
196 {
197         unsigned char old, chk1, chk2;
198         
199         old = SIFREADB(SIFADR);  /* Get the old SIFADR value */
200
201         chk1 = 0;       /* Begin with check value 0 */
202         do {
203                 madgemc_setregpage(dev, 0);
204                 /* Write new SIFADR value */
205                 SIFWRITEB(chk1, SIFADR);
206                 chk2 = SIFREADB(SIFADR);
207                 if (chk2 != chk1)
208                         return -1;
209                 
210                 madgemc_setregpage(dev, 1);
211                 /* Read, invert and write */
212                 chk2 = SIFREADB(SIFADD);
213                 if (chk2 != chk1)
214                         return -1;
215
216                 madgemc_setregpage(dev, 0);
217                 chk2 ^= 0x0FE;
218                 SIFWRITEB(chk2, SIFADR);
219
220                 /* Read, invert and compare */
221                 madgemc_setregpage(dev, 1);
222                 chk2 = SIFREADB(SIFADD);
223                 madgemc_setregpage(dev, 0);
224                 chk2 ^= 0x0FE;
225
226                 if(chk1 != chk2)
227                         return (-1);    /* No adapter */
228                 chk1 -= 2;
229         } while(chk1 != 0);     /* Repeat 128 times (all byte values) */
230
231         madgemc_setregpage(dev, 0); /* sanity */
232         /* Restore the SIFADR value */
233         SIFWRITEB(old, SIFADR);
234
235         return (0);
236 }
237 #endif
238
239 /*
240  * Open/initialize the board. This is called sometime after
241  * booting when the 'ifconfig' program is run.
242  *
243  * This routine should set everything up anew at each open, even
244  * registers that "should" only need to be set once at boot, so that
245  * there is non-reboot way to recover if something goes wrong.
246  */
247 int tms380tr_open(struct net_device *dev)
248 {
249         struct net_local *tp = netdev_priv(dev);
250         int err;
251         
252         /* init the spinlock */
253         spin_lock_init(&tp->lock);
254         init_timer(&tp->timer);
255
256         /* Reset the hardware here. Don't forget to set the station address. */
257
258 #ifdef CONFIG_ISA
259         if(dev->dma > 0) 
260         {
261                 unsigned long flags=claim_dma_lock();
262                 disable_dma(dev->dma);
263                 set_dma_mode(dev->dma, DMA_MODE_CASCADE);
264                 enable_dma(dev->dma);
265                 release_dma_lock(flags);
266         }
267 #endif
268         
269         err = tms380tr_chipset_init(dev);
270         if(err)
271         {
272                 printk(KERN_INFO "%s: Chipset initialization error\n", 
273                         dev->name);
274                 return (-1);
275         }
276
277         tp->timer.expires       = jiffies + 30*HZ;
278         tp->timer.function      = tms380tr_timer_end_wait;
279         tp->timer.data          = (unsigned long)dev;
280         add_timer(&tp->timer);
281
282         printk(KERN_DEBUG "%s: Adapter RAM size: %dK\n", 
283                dev->name, tms380tr_read_ptr(dev));
284
285         tms380tr_enable_interrupts(dev);
286         tms380tr_open_adapter(dev);
287
288         netif_start_queue(dev);
289         
290         /* Wait for interrupt from hardware. If interrupt does not come,
291          * there will be a timeout from the timer.
292          */
293         tp->Sleeping = 1;
294         interruptible_sleep_on(&tp->wait_for_tok_int);
295         del_timer(&tp->timer);
296
297         /* If AdapterVirtOpenFlag is 1, the adapter is now open for use */
298         if(tp->AdapterVirtOpenFlag == 0)
299         {
300                 tms380tr_disable_interrupts(dev);
301                 return (-1);
302         }
303
304         tp->StartTime = jiffies;
305
306         /* Start function control timer */
307         tp->timer.expires       = jiffies + 2*HZ;
308         tp->timer.function      = tms380tr_timer_chk;
309         tp->timer.data          = (unsigned long)dev;
310         add_timer(&tp->timer);
311
312         return (0);
313 }
314
315 /*
316  * Timeout function while waiting for event
317  */
318 static void tms380tr_timer_end_wait(unsigned long data)
319 {
320         struct net_device *dev = (struct net_device*)data;
321         struct net_local *tp = netdev_priv(dev);
322
323         if(tp->Sleeping)
324         {
325                 tp->Sleeping = 0;
326                 wake_up_interruptible(&tp->wait_for_tok_int);
327         }
328 }
329
330 /*
331  * Initialize the chipset
332  */
333 static int tms380tr_chipset_init(struct net_device *dev)
334 {
335         struct net_local *tp = netdev_priv(dev);
336         int err;
337
338         tms380tr_init_ipb(tp);
339         tms380tr_init_opb(dev);
340         tms380tr_init_net_local(dev);
341
342         if(tms380tr_debug > 3)
343                 printk(KERN_DEBUG "%s: Resetting adapter...\n", dev->name);
344         err = tms380tr_reset_adapter(dev);
345         if(err < 0)
346                 return (-1);
347
348         if(tms380tr_debug > 3)
349                 printk(KERN_DEBUG "%s: Bringup diags...\n", dev->name);
350         err = tms380tr_bringup_diags(dev);
351         if(err < 0)
352                 return (-1);
353
354         if(tms380tr_debug > 3)
355                 printk(KERN_DEBUG "%s: Init adapter...\n", dev->name);
356         err = tms380tr_init_adapter(dev);
357         if(err < 0)
358                 return (-1);
359
360         if(tms380tr_debug > 3)
361                 printk(KERN_DEBUG "%s: Done!\n", dev->name);
362         return (0);
363 }
364
365 /*
366  * Initializes the net_local structure.
367  */
368 static void tms380tr_init_net_local(struct net_device *dev)
369 {
370         struct net_local *tp = netdev_priv(dev);
371         int i;
372         dma_addr_t dmabuf;
373
374         tp->scb.CMD     = 0;
375         tp->scb.Parm[0] = 0;
376         tp->scb.Parm[1] = 0;
377
378         tp->ssb.STS     = 0;
379         tp->ssb.Parm[0] = 0;
380         tp->ssb.Parm[1] = 0;
381         tp->ssb.Parm[2] = 0;
382
383         tp->CMDqueue    = 0;
384
385         tp->AdapterOpenFlag     = 0;
386         tp->AdapterVirtOpenFlag = 0;
387         tp->ScbInUse            = 0;
388         tp->OpenCommandIssued   = 0;
389         tp->ReOpenInProgress    = 0;
390         tp->HaltInProgress      = 0;
391         tp->TransmitHaltScheduled = 0;
392         tp->LobeWireFaultLogged = 0;
393         tp->LastOpenStatus      = 0;
394         tp->MaxPacketSize       = DEFAULT_PACKET_SIZE;
395
396         /* Create circular chain of transmit lists */
397         for (i = 0; i < TPL_NUM; i++)
398         {
399                 tp->Tpl[i].NextTPLAddr = htonl(((char *)(&tp->Tpl[(i+1) % TPL_NUM]) - (char *)tp) + tp->dmabuffer); /* DMA buffer may be MMU driven */
400                 tp->Tpl[i].Status       = 0;
401                 tp->Tpl[i].FrameSize    = 0;
402                 tp->Tpl[i].FragList[0].DataCount        = 0;
403                 tp->Tpl[i].FragList[0].DataAddr         = 0;
404                 tp->Tpl[i].NextTPLPtr   = &tp->Tpl[(i+1) % TPL_NUM];
405                 tp->Tpl[i].MData        = NULL;
406                 tp->Tpl[i].TPLIndex     = i;
407                 tp->Tpl[i].DMABuff      = 0;
408                 tp->Tpl[i].BusyFlag     = 0;
409         }
410
411         tp->TplFree = tp->TplBusy = &tp->Tpl[0];
412
413         /* Create circular chain of receive lists */
414         for (i = 0; i < RPL_NUM; i++)
415         {
416                 tp->Rpl[i].NextRPLAddr = htonl(((char *)(&tp->Rpl[(i+1) % RPL_NUM]) - (char *)tp) + tp->dmabuffer); /* DMA buffer may be MMU driven */
417                 tp->Rpl[i].Status = (RX_VALID | RX_START_FRAME | RX_END_FRAME | RX_FRAME_IRQ);
418                 tp->Rpl[i].FrameSize = 0;
419                 tp->Rpl[i].FragList[0].DataCount = cpu_to_be16((unsigned short)tp->MaxPacketSize);
420
421                 /* Alloc skb and point adapter to data area */
422                 tp->Rpl[i].Skb = dev_alloc_skb(tp->MaxPacketSize);
423                         tp->Rpl[i].DMABuff = 0;
424
425                 /* skb == NULL ? then use local buffer */
426                 if(tp->Rpl[i].Skb == NULL)
427                 {
428                         tp->Rpl[i].SkbStat = SKB_UNAVAILABLE;
429                         tp->Rpl[i].FragList[0].DataAddr = htonl(((char *)tp->LocalRxBuffers[i] - (char *)tp) + tp->dmabuffer);
430                         tp->Rpl[i].MData = tp->LocalRxBuffers[i];
431                 }
432                 else    /* SKB != NULL */
433                 {
434                         tp->Rpl[i].Skb->dev = dev;
435                         skb_put(tp->Rpl[i].Skb, tp->MaxPacketSize);
436
437                         /* data unreachable for DMA ? then use local buffer */
438                         dmabuf = dma_map_single(tp->pdev, tp->Rpl[i].Skb->data, tp->MaxPacketSize, DMA_FROM_DEVICE);
439                         if(tp->dmalimit && (dmabuf + tp->MaxPacketSize > tp->dmalimit))
440                         {
441                                 tp->Rpl[i].SkbStat = SKB_DATA_COPY;
442                                 tp->Rpl[i].FragList[0].DataAddr = htonl(((char *)tp->LocalRxBuffers[i] - (char *)tp) + tp->dmabuffer);
443                                 tp->Rpl[i].MData = tp->LocalRxBuffers[i];
444                         }
445                         else    /* DMA directly in skb->data */
446                         {
447                                 tp->Rpl[i].SkbStat = SKB_DMA_DIRECT;
448                                 tp->Rpl[i].FragList[0].DataAddr = htonl(dmabuf);
449                                 tp->Rpl[i].MData = tp->Rpl[i].Skb->data;
450                                 tp->Rpl[i].DMABuff = dmabuf;
451                         }
452                 }
453
454                 tp->Rpl[i].NextRPLPtr = &tp->Rpl[(i+1) % RPL_NUM];
455                 tp->Rpl[i].RPLIndex = i;
456         }
457
458         tp->RplHead = &tp->Rpl[0];
459         tp->RplTail = &tp->Rpl[RPL_NUM-1];
460         tp->RplTail->Status = (RX_START_FRAME | RX_END_FRAME | RX_FRAME_IRQ);
461 }
462
463 /*
464  * Initializes the initialisation parameter block.
465  */
466 static void tms380tr_init_ipb(struct net_local *tp)
467 {
468         tp->ipb.Init_Options    = BURST_MODE;
469         tp->ipb.CMD_Status_IV   = 0;
470         tp->ipb.TX_IV           = 0;
471         tp->ipb.RX_IV           = 0;
472         tp->ipb.Ring_Status_IV  = 0;
473         tp->ipb.SCB_Clear_IV    = 0;
474         tp->ipb.Adapter_CHK_IV  = 0;
475         tp->ipb.RX_Burst_Size   = BURST_SIZE;
476         tp->ipb.TX_Burst_Size   = BURST_SIZE;
477         tp->ipb.DMA_Abort_Thrhld = DMA_RETRIES;
478         tp->ipb.SCB_Addr        = 0;
479         tp->ipb.SSB_Addr        = 0;
480 }
481
482 /*
483  * Initializes the open parameter block.
484  */
485 static void tms380tr_init_opb(struct net_device *dev)
486 {
487         struct net_local *tp;
488         unsigned long Addr;
489         unsigned short RplSize    = RPL_SIZE;
490         unsigned short TplSize    = TPL_SIZE;
491         unsigned short BufferSize = BUFFER_SIZE;
492         int i;
493
494         tp = netdev_priv(dev);
495
496         tp->ocpl.OPENOptions     = 0;
497         tp->ocpl.OPENOptions    |= ENABLE_FULL_DUPLEX_SELECTION;
498         tp->ocpl.FullDuplex      = 0;
499         tp->ocpl.FullDuplex     |= OPEN_FULL_DUPLEX_OFF;
500
501         /* 
502          * Set node address 
503          *
504          * We go ahead and put it in the OPB even though on
505          * most of the generic adapters this isn't required.
506          * Its simpler this way.  -- ASF
507          */
508         for (i=0;i<6;i++)
509                 tp->ocpl.NodeAddr[i] = ((unsigned char *)dev->dev_addr)[i];
510
511         tp->ocpl.GroupAddr       = 0;
512         tp->ocpl.FunctAddr       = 0;
513         tp->ocpl.RxListSize      = cpu_to_be16((unsigned short)RplSize);
514         tp->ocpl.TxListSize      = cpu_to_be16((unsigned short)TplSize);
515         tp->ocpl.BufSize         = cpu_to_be16((unsigned short)BufferSize);
516         tp->ocpl.Reserved        = 0;
517         tp->ocpl.TXBufMin        = TX_BUF_MIN;
518         tp->ocpl.TXBufMax        = TX_BUF_MAX;
519
520         Addr = htonl(((char *)tp->ProductID - (char *)tp) + tp->dmabuffer);
521
522         tp->ocpl.ProdIDAddr[0]   = LOWORD(Addr);
523         tp->ocpl.ProdIDAddr[1]   = HIWORD(Addr);
524 }
525
526 /*
527  * Send OPEN command to adapter
528  */
529 static void tms380tr_open_adapter(struct net_device *dev)
530 {
531         struct net_local *tp = netdev_priv(dev);
532
533         if(tp->OpenCommandIssued)
534                 return;
535
536         tp->OpenCommandIssued = 1;
537         tms380tr_exec_cmd(dev, OC_OPEN);
538 }
539
540 /*
541  * Clear the adapter's interrupt flag. Clear system interrupt enable
542  * (SINTEN): disable adapter to system interrupts.
543  */
544 static void tms380tr_disable_interrupts(struct net_device *dev)
545 {
546         SIFWRITEB(0, SIFACL);
547 }
548
549 /*
550  * Set the adapter's interrupt flag. Set system interrupt enable
551  * (SINTEN): enable adapter to system interrupts.
552  */
553 static void tms380tr_enable_interrupts(struct net_device *dev)
554 {
555         SIFWRITEB(ACL_SINTEN, SIFACL);
556 }
557
558 /*
559  * Put command in command queue, try to execute it.
560  */
561 static void tms380tr_exec_cmd(struct net_device *dev, unsigned short Command)
562 {
563         struct net_local *tp = netdev_priv(dev);
564
565         tp->CMDqueue |= Command;
566         tms380tr_chk_outstanding_cmds(dev);
567 }
568
569 static void tms380tr_timeout(struct net_device *dev)
570 {
571         /*
572          * If we get here, some higher level has decided we are broken.
573          * There should really be a "kick me" function call instead.
574          *
575          * Resetting the token ring adapter takes a long time so just
576          * fake transmission time and go on trying. Our own timeout
577          * routine is in tms380tr_timer_chk()
578          */
579         dev->trans_start = jiffies; /* prevent tx timeout */
580         netif_wake_queue(dev);
581 }
582
583 /*
584  * Gets skb from system, queues it and checks if it can be sent
585  */
586 static netdev_tx_t tms380tr_send_packet(struct sk_buff *skb,
587                                               struct net_device *dev)
588 {
589         struct net_local *tp = netdev_priv(dev);
590         netdev_tx_t rc;
591
592         rc = tms380tr_hardware_send_packet(skb, dev);
593         if(tp->TplFree->NextTPLPtr->BusyFlag)
594                 netif_stop_queue(dev);
595         return rc;
596 }
597
598 /*
599  * Move frames into adapter tx queue
600  */
601 static netdev_tx_t tms380tr_hardware_send_packet(struct sk_buff *skb,
602                                                        struct net_device *dev)
603 {
604         TPL *tpl;
605         short length;
606         unsigned char *buf;
607         unsigned long flags;
608         int i;
609         dma_addr_t dmabuf, newbuf;
610         struct net_local *tp = netdev_priv(dev);
611    
612         /* Try to get a free TPL from the chain.
613          *
614          * NOTE: We *must* always leave one unused TPL in the chain,
615          * because otherwise the adapter might send frames twice.
616          */
617         spin_lock_irqsave(&tp->lock, flags);
618         if(tp->TplFree->NextTPLPtr->BusyFlag)  { /* No free TPL */
619                 if (tms380tr_debug > 0)
620                         printk(KERN_DEBUG "%s: No free TPL\n", dev->name);
621                 spin_unlock_irqrestore(&tp->lock, flags);
622                 return NETDEV_TX_BUSY;
623         }
624
625         dmabuf = 0;
626
627         /* Is buffer reachable for Busmaster-DMA? */
628
629         length  = skb->len;
630         dmabuf = dma_map_single(tp->pdev, skb->data, length, DMA_TO_DEVICE);
631         if(tp->dmalimit && (dmabuf + length > tp->dmalimit)) {
632                 /* Copy frame to local buffer */
633                 dma_unmap_single(tp->pdev, dmabuf, length, DMA_TO_DEVICE);
634                 dmabuf  = 0;
635                 i       = tp->TplFree->TPLIndex;
636                 buf     = tp->LocalTxBuffers[i];
637                 skb_copy_from_linear_data(skb, buf, length);
638                 newbuf  = ((char *)buf - (char *)tp) + tp->dmabuffer;
639         }
640         else {
641                 /* Send direct from skb->data */
642                 newbuf  = dmabuf;
643                 buf     = skb->data;
644         }
645         /* Source address in packet? */
646         tms380tr_chk_src_addr(buf, dev->dev_addr);
647         tp->LastSendTime        = jiffies;
648         tpl                     = tp->TplFree;  /* Get the "free" TPL */
649         tpl->BusyFlag           = 1;            /* Mark TPL as busy */
650         tp->TplFree             = tpl->NextTPLPtr;
651     
652         /* Save the skb for delayed return of skb to system */
653         tpl->Skb = skb;
654         tpl->DMABuff = dmabuf;
655         tpl->FragList[0].DataCount = cpu_to_be16((unsigned short)length);
656         tpl->FragList[0].DataAddr  = htonl(newbuf);
657
658         /* Write the data length in the transmit list. */
659         tpl->FrameSize  = cpu_to_be16((unsigned short)length);
660         tpl->MData      = buf;
661
662         /* Transmit the frame and set the status values. */
663         tms380tr_write_tpl_status(tpl, TX_VALID | TX_START_FRAME
664                                 | TX_END_FRAME | TX_PASS_SRC_ADDR
665                                 | TX_FRAME_IRQ);
666
667         /* Let adapter send the frame. */
668         tms380tr_exec_sifcmd(dev, CMD_TX_VALID);
669         spin_unlock_irqrestore(&tp->lock, flags);
670
671         return NETDEV_TX_OK;
672 }
673
674 /*
675  * Write the given value to the 'Status' field of the specified TPL.
676  * NOTE: This function should be used whenever the status of any TPL must be
677  * modified by the driver, because the compiler may otherwise change the
678  * order of instructions such that writing the TPL status may be executed at
679  * an undesirable time. When this function is used, the status is always
680  * written when the function is called.
681  */
682 static void tms380tr_write_tpl_status(TPL *tpl, unsigned int Status)
683 {
684         tpl->Status = Status;
685 }
686
687 static void tms380tr_chk_src_addr(unsigned char *frame, unsigned char *hw_addr)
688 {
689         unsigned char SRBit;
690
691         if((((unsigned long)frame[8]) & ~0x80) != 0)    /* Compare 4 bytes */
692                 return;
693         if((unsigned short)frame[12] != 0)              /* Compare 2 bytes */
694                 return;
695
696         SRBit = frame[8] & 0x80;
697         memcpy(&frame[8], hw_addr, 6);
698         frame[8] |= SRBit;
699 }
700
701 /*
702  * The timer routine: Check if adapter still open and working, reopen if not. 
703  */
704 static void tms380tr_timer_chk(unsigned long data)
705 {
706         struct net_device *dev = (struct net_device*)data;
707         struct net_local *tp = netdev_priv(dev);
708
709         if(tp->HaltInProgress)
710                 return;
711
712         tms380tr_chk_outstanding_cmds(dev);
713         if(time_before(tp->LastSendTime + SEND_TIMEOUT, jiffies) &&
714            (tp->TplFree != tp->TplBusy))
715         {
716                 /* Anything to send, but stalled too long */
717                 tp->LastSendTime = jiffies;
718                 tms380tr_exec_cmd(dev, OC_CLOSE);       /* Does reopen automatically */
719         }
720
721         tp->timer.expires = jiffies + 2*HZ;
722         add_timer(&tp->timer);
723
724         if(tp->AdapterOpenFlag || tp->ReOpenInProgress)
725                 return;
726         tp->ReOpenInProgress = 1;
727         tms380tr_open_adapter(dev);
728 }
729
730 /*
731  * The typical workload of the driver: Handle the network interface interrupts.
732  */
733 irqreturn_t tms380tr_interrupt(int irq, void *dev_id)
734 {
735         struct net_device *dev = dev_id;
736         struct net_local *tp;
737         unsigned short irq_type;
738         int handled = 0;
739
740         tp = netdev_priv(dev);
741
742         irq_type = SIFREADW(SIFSTS);
743
744         while(irq_type & STS_SYSTEM_IRQ) {
745                 handled = 1;
746                 irq_type &= STS_IRQ_MASK;
747
748                 if(!tms380tr_chk_ssb(tp, irq_type)) {
749                         printk(KERN_DEBUG "%s: DATA LATE occurred\n", dev->name);
750                         break;
751                 }
752
753                 switch(irq_type) {
754                 case STS_IRQ_RECEIVE_STATUS:
755                         tms380tr_reset_interrupt(dev);
756                         tms380tr_rcv_status_irq(dev);
757                         break;
758
759                 case STS_IRQ_TRANSMIT_STATUS:
760                         /* Check if TRANSMIT.HALT command is complete */
761                         if(tp->ssb.Parm[0] & COMMAND_COMPLETE) {
762                                 tp->TransmitCommandActive = 0;
763                                         tp->TransmitHaltScheduled = 0;
764
765                                         /* Issue a new transmit command. */
766                                         tms380tr_exec_cmd(dev, OC_TRANSMIT);
767                                 }
768
769                                 tms380tr_reset_interrupt(dev);
770                                 tms380tr_tx_status_irq(dev);
771                                 break;
772
773                 case STS_IRQ_COMMAND_STATUS:
774                         /* The SSB contains status of last command
775                          * other than receive/transmit.
776                          */
777                         tms380tr_cmd_status_irq(dev);
778                         break;
779                         
780                 case STS_IRQ_SCB_CLEAR:
781                         /* The SCB is free for another command. */
782                         tp->ScbInUse = 0;
783                         tms380tr_chk_outstanding_cmds(dev);
784                         break;
785                         
786                 case STS_IRQ_RING_STATUS:
787                         tms380tr_ring_status_irq(dev);
788                         break;
789
790                 case STS_IRQ_ADAPTER_CHECK:
791                         tms380tr_chk_irq(dev);
792                         break;
793
794                 case STS_IRQ_LLC_STATUS:
795                         printk(KERN_DEBUG "tms380tr: unexpected LLC status IRQ\n");
796                         break;
797                         
798                 case STS_IRQ_TIMER:
799                         printk(KERN_DEBUG "tms380tr: unexpected Timer IRQ\n");
800                         break;
801                         
802                 case STS_IRQ_RECEIVE_PENDING:
803                         printk(KERN_DEBUG "tms380tr: unexpected Receive Pending IRQ\n");
804                         break;
805                         
806                 default:
807                         printk(KERN_DEBUG "Unknown Token Ring IRQ (0x%04x)\n", irq_type);
808                         break;
809                 }
810
811                 /* Reset system interrupt if not already done. */
812                 if(irq_type != STS_IRQ_TRANSMIT_STATUS &&
813                    irq_type != STS_IRQ_RECEIVE_STATUS) {
814                         tms380tr_reset_interrupt(dev);
815                 }
816
817                 irq_type = SIFREADW(SIFSTS);
818         }
819
820         return IRQ_RETVAL(handled);
821 }
822
823 /*
824  *  Reset the INTERRUPT SYSTEM bit and issue SSB CLEAR command.
825  */
826 static void tms380tr_reset_interrupt(struct net_device *dev)
827 {
828         struct net_local *tp = netdev_priv(dev);
829         SSB *ssb = &tp->ssb;
830
831         /*
832          * [Workaround for "Data Late"]
833          * Set all fields of the SSB to well-defined values so we can
834          * check if the adapter has written the SSB.
835          */
836
837         ssb->STS        = (unsigned short) -1;
838         ssb->Parm[0]    = (unsigned short) -1;
839         ssb->Parm[1]    = (unsigned short) -1;
840         ssb->Parm[2]    = (unsigned short) -1;
841
842         /* Free SSB by issuing SSB_CLEAR command after reading IRQ code
843          * and clear STS_SYSTEM_IRQ bit: enable adapter for further interrupts.
844          */
845         tms380tr_exec_sifcmd(dev, CMD_SSB_CLEAR | CMD_CLEAR_SYSTEM_IRQ);
846 }
847
848 /*
849  * Check if the SSB has actually been written by the adapter.
850  */
851 static unsigned char tms380tr_chk_ssb(struct net_local *tp, unsigned short IrqType)
852 {
853         SSB *ssb = &tp->ssb;    /* The address of the SSB. */
854
855         /* C 0 1 2 INTERRUPT CODE
856          * - - - - --------------
857          * 1 1 1 1 TRANSMIT STATUS
858          * 1 1 1 1 RECEIVE STATUS
859          * 1 ? ? 0 COMMAND STATUS
860          * 0 0 0 0 SCB CLEAR
861          * 1 1 0 0 RING STATUS
862          * 0 0 0 0 ADAPTER CHECK
863          *
864          * 0 = SSB field not affected by interrupt
865          * 1 = SSB field is affected by interrupt
866          *
867          * C = SSB ADDRESS +0: COMMAND
868          * 0 = SSB ADDRESS +2: STATUS 0
869          * 1 = SSB ADDRESS +4: STATUS 1
870          * 2 = SSB ADDRESS +6: STATUS 2
871          */
872
873         /* Check if this interrupt does use the SSB. */
874
875         if(IrqType != STS_IRQ_TRANSMIT_STATUS &&
876            IrqType != STS_IRQ_RECEIVE_STATUS &&
877            IrqType != STS_IRQ_COMMAND_STATUS &&
878            IrqType != STS_IRQ_RING_STATUS)
879         {
880                 return (1);     /* SSB not involved. */
881         }
882
883         /* Note: All fields of the SSB have been set to all ones (-1) after it
884          * has last been used by the software (see DriverIsr()).
885          *
886          * Check if the affected SSB fields are still unchanged.
887          */
888
889         if(ssb->STS == (unsigned short) -1)
890                 return (0);     /* Command field not yet available. */
891         if(IrqType == STS_IRQ_COMMAND_STATUS)
892                 return (1);     /* Status fields not always affected. */
893         if(ssb->Parm[0] == (unsigned short) -1)
894                 return (0);     /* Status 1 field not yet available. */
895         if(IrqType == STS_IRQ_RING_STATUS)
896                 return (1);     /* Status 2 & 3 fields not affected. */
897
898         /* Note: At this point, the interrupt is either TRANSMIT or RECEIVE. */
899         if(ssb->Parm[1] == (unsigned short) -1)
900                 return (0);     /* Status 2 field not yet available. */
901         if(ssb->Parm[2] == (unsigned short) -1)
902                 return (0);     /* Status 3 field not yet available. */
903
904         return (1);     /* All SSB fields have been written by the adapter. */
905 }
906
907 /*
908  * Evaluates the command results status in the SSB status field.
909  */
910 static void tms380tr_cmd_status_irq(struct net_device *dev)
911 {
912         struct net_local *tp = netdev_priv(dev);
913         unsigned short ssb_cmd, ssb_parm_0;
914         unsigned short ssb_parm_1;
915         char *open_err = "Open error -";
916         char *code_err = "Open code -";
917
918         /* Copy the ssb values to local variables */
919         ssb_cmd    = tp->ssb.STS;
920         ssb_parm_0 = tp->ssb.Parm[0];
921         ssb_parm_1 = tp->ssb.Parm[1];
922
923         if(ssb_cmd == OPEN)
924         {
925                 tp->Sleeping = 0;
926                 if(!tp->ReOpenInProgress)
927                         wake_up_interruptible(&tp->wait_for_tok_int);
928
929                 tp->OpenCommandIssued = 0;
930                 tp->ScbInUse = 0;
931
932                 if((ssb_parm_0 & 0x00FF) == GOOD_COMPLETION)
933                 {
934                         /* Success, the adapter is open. */
935                         tp->LobeWireFaultLogged = 0;
936                         tp->AdapterOpenFlag     = 1;
937                         tp->AdapterVirtOpenFlag = 1;
938                         tp->TransmitCommandActive = 0;
939                         tms380tr_exec_cmd(dev, OC_TRANSMIT);
940                         tms380tr_exec_cmd(dev, OC_RECEIVE);
941
942                         if(tp->ReOpenInProgress)
943                                 tp->ReOpenInProgress = 0;
944
945                         return;
946                 }
947                 else    /* The adapter did not open. */
948                 {
949                         if(ssb_parm_0 & NODE_ADDR_ERROR)
950                                 printk(KERN_INFO "%s: Node address error\n",
951                                         dev->name);
952                         if(ssb_parm_0 & LIST_SIZE_ERROR)
953                                 printk(KERN_INFO "%s: List size error\n",
954                                         dev->name);
955                         if(ssb_parm_0 & BUF_SIZE_ERROR)
956                                 printk(KERN_INFO "%s: Buffer size error\n",
957                                         dev->name);
958                         if(ssb_parm_0 & TX_BUF_COUNT_ERROR)
959                                 printk(KERN_INFO "%s: Tx buffer count error\n",
960                                         dev->name);
961                         if(ssb_parm_0 & INVALID_OPEN_OPTION)
962                                 printk(KERN_INFO "%s: Invalid open option\n",
963                                         dev->name);
964                         if(ssb_parm_0 & OPEN_ERROR)
965                         {
966                                 /* Show the open phase. */
967                                 switch(ssb_parm_0 & OPEN_PHASES_MASK)
968                                 {
969                                         case LOBE_MEDIA_TEST:
970                                                 if(!tp->LobeWireFaultLogged)
971                                                 {
972                                                         tp->LobeWireFaultLogged = 1;
973                                                         printk(KERN_INFO "%s: %s Lobe wire fault (check cable !).\n", dev->name, open_err);
974                                                 }
975                                                 tp->ReOpenInProgress    = 1;
976                                                 tp->AdapterOpenFlag     = 0;
977                                                 tp->AdapterVirtOpenFlag = 1;
978                                                 tms380tr_open_adapter(dev);
979                                                 return;
980
981                                         case PHYSICAL_INSERTION:
982                                                 printk(KERN_INFO "%s: %s Physical insertion.\n", dev->name, open_err);
983                                                 break;
984
985                                         case ADDRESS_VERIFICATION:
986                                                 printk(KERN_INFO "%s: %s Address verification.\n", dev->name, open_err);
987                                                 break;
988
989                                         case PARTICIPATION_IN_RING_POLL:
990                                                 printk(KERN_INFO "%s: %s Participation in ring poll.\n", dev->name, open_err);
991                                                 break;
992
993                                         case REQUEST_INITIALISATION:
994                                                 printk(KERN_INFO "%s: %s Request initialisation.\n", dev->name, open_err);
995                                                 break;
996
997                                         case FULLDUPLEX_CHECK:
998                                                 printk(KERN_INFO "%s: %s Full duplex check.\n", dev->name, open_err);
999                                                 break;
1000
1001                                         default:
1002                                                 printk(KERN_INFO "%s: %s Unknown open phase\n", dev->name, open_err);
1003                                                 break;
1004                                 }
1005
1006                                 /* Show the open errors. */
1007                                 switch(ssb_parm_0 & OPEN_ERROR_CODES_MASK)
1008                                 {
1009                                         case OPEN_FUNCTION_FAILURE:
1010                                                 printk(KERN_INFO "%s: %s OPEN_FUNCTION_FAILURE", dev->name, code_err);
1011                                                 tp->LastOpenStatus =
1012                                                         OPEN_FUNCTION_FAILURE;
1013                                                 break;
1014
1015                                         case OPEN_SIGNAL_LOSS:
1016                                                 printk(KERN_INFO "%s: %s OPEN_SIGNAL_LOSS\n", dev->name, code_err);
1017                                                 tp->LastOpenStatus =
1018                                                         OPEN_SIGNAL_LOSS;
1019                                                 break;
1020
1021                                         case OPEN_TIMEOUT:
1022                                                 printk(KERN_INFO "%s: %s OPEN_TIMEOUT\n", dev->name, code_err);
1023                                                 tp->LastOpenStatus =
1024                                                         OPEN_TIMEOUT;
1025                                                 break;
1026
1027                                         case OPEN_RING_FAILURE:
1028                                                 printk(KERN_INFO "%s: %s OPEN_RING_FAILURE\n", dev->name, code_err);
1029                                                 tp->LastOpenStatus =
1030                                                         OPEN_RING_FAILURE;
1031                                                 break;
1032
1033                                         case OPEN_RING_BEACONING:
1034                                                 printk(KERN_INFO "%s: %s OPEN_RING_BEACONING\n", dev->name, code_err);
1035                                                 tp->LastOpenStatus =
1036                                                         OPEN_RING_BEACONING;
1037                                                 break;
1038
1039                                         case OPEN_DUPLICATE_NODEADDR:
1040                                                 printk(KERN_INFO "%s: %s OPEN_DUPLICATE_NODEADDR\n", dev->name, code_err);
1041                                                 tp->LastOpenStatus =
1042                                                         OPEN_DUPLICATE_NODEADDR;
1043                                                 break;
1044
1045                                         case OPEN_REQUEST_INIT:
1046                                                 printk(KERN_INFO "%s: %s OPEN_REQUEST_INIT\n", dev->name, code_err);
1047                                                 tp->LastOpenStatus =
1048                                                         OPEN_REQUEST_INIT;
1049                                                 break;
1050
1051                                         case OPEN_REMOVE_RECEIVED:
1052                                                 printk(KERN_INFO "%s: %s OPEN_REMOVE_RECEIVED", dev->name, code_err);
1053                                                 tp->LastOpenStatus =
1054                                                         OPEN_REMOVE_RECEIVED;
1055                                                 break;
1056
1057                                         case OPEN_FULLDUPLEX_SET:
1058                                                 printk(KERN_INFO "%s: %s OPEN_FULLDUPLEX_SET\n", dev->name, code_err);
1059                                                 tp->LastOpenStatus =
1060                                                         OPEN_FULLDUPLEX_SET;
1061                                                 break;
1062
1063                                         default:
1064                                                 printk(KERN_INFO "%s: %s Unknown open err code", dev->name, code_err);
1065                                                 tp->LastOpenStatus =
1066                                                         OPEN_FUNCTION_FAILURE;
1067                                                 break;
1068                                 }
1069                         }
1070
1071                         tp->AdapterOpenFlag     = 0;
1072                         tp->AdapterVirtOpenFlag = 0;
1073
1074                         return;
1075                 }
1076         }
1077         else
1078         {
1079                 if(ssb_cmd != READ_ERROR_LOG)
1080                         return;
1081
1082                 /* Add values from the error log table to the MAC
1083                  * statistics counters and update the errorlogtable
1084                  * memory.
1085                  */
1086                 tp->MacStat.line_errors += tp->errorlogtable.Line_Error;
1087                 tp->MacStat.burst_errors += tp->errorlogtable.Burst_Error;
1088                 tp->MacStat.A_C_errors += tp->errorlogtable.ARI_FCI_Error;
1089                 tp->MacStat.lost_frames += tp->errorlogtable.Lost_Frame_Error;
1090                 tp->MacStat.recv_congest_count += tp->errorlogtable.Rx_Congest_Error;
1091                 tp->MacStat.rx_errors += tp->errorlogtable.Rx_Congest_Error;
1092                 tp->MacStat.frame_copied_errors += tp->errorlogtable.Frame_Copied_Error;
1093                 tp->MacStat.token_errors += tp->errorlogtable.Token_Error;
1094                 tp->MacStat.dummy1 += tp->errorlogtable.DMA_Bus_Error;
1095                 tp->MacStat.dummy1 += tp->errorlogtable.DMA_Parity_Error;
1096                 tp->MacStat.abort_delimiters += tp->errorlogtable.AbortDelimeters;
1097                 tp->MacStat.frequency_errors += tp->errorlogtable.Frequency_Error;
1098                 tp->MacStat.internal_errors += tp->errorlogtable.Internal_Error;
1099         }
1100 }
1101
1102 /*
1103  * The inverse routine to tms380tr_open().
1104  */
1105 int tms380tr_close(struct net_device *dev)
1106 {
1107         struct net_local *tp = netdev_priv(dev);
1108         netif_stop_queue(dev);
1109         
1110         del_timer(&tp->timer);
1111
1112         /* Flush the Tx and disable Rx here. */
1113
1114         tp->HaltInProgress      = 1;
1115         tms380tr_exec_cmd(dev, OC_CLOSE);
1116         tp->timer.expires       = jiffies + 1*HZ;
1117         tp->timer.function      = tms380tr_timer_end_wait;
1118         tp->timer.data          = (unsigned long)dev;
1119         add_timer(&tp->timer);
1120
1121         tms380tr_enable_interrupts(dev);
1122
1123         tp->Sleeping = 1;
1124         interruptible_sleep_on(&tp->wait_for_tok_int);
1125         tp->TransmitCommandActive = 0;
1126     
1127         del_timer(&tp->timer);
1128         tms380tr_disable_interrupts(dev);
1129    
1130 #ifdef CONFIG_ISA
1131         if(dev->dma > 0) 
1132         {
1133                 unsigned long flags=claim_dma_lock();
1134                 disable_dma(dev->dma);
1135                 release_dma_lock(flags);
1136         }
1137 #endif
1138         
1139         SIFWRITEW(0xFF00, SIFCMD);
1140 #if 0
1141         if(dev->dma > 0) /* what the? */
1142                 SIFWRITEB(0xff, POSREG);
1143 #endif
1144         tms380tr_cancel_tx_queue(tp);
1145
1146         return (0);
1147 }
1148
1149 /*
1150  * Get the current statistics. This may be called with the card open
1151  * or closed.
1152  */
1153 static struct net_device_stats *tms380tr_get_stats(struct net_device *dev)
1154 {
1155         struct net_local *tp = netdev_priv(dev);
1156
1157         return ((struct net_device_stats *)&tp->MacStat);
1158 }
1159
1160 /*
1161  * Set or clear the multicast filter for this adapter.
1162  */
1163 static void tms380tr_set_multicast_list(struct net_device *dev)
1164 {
1165         struct net_local *tp = netdev_priv(dev);
1166         unsigned int OpenOptions;
1167         
1168         OpenOptions = tp->ocpl.OPENOptions &
1169                 ~(PASS_ADAPTER_MAC_FRAMES
1170                   | PASS_ATTENTION_FRAMES
1171                   | PASS_BEACON_MAC_FRAMES
1172                   | COPY_ALL_MAC_FRAMES
1173                   | COPY_ALL_NON_MAC_FRAMES);
1174         
1175         tp->ocpl.FunctAddr = 0;
1176         
1177         if(dev->flags & IFF_PROMISC)
1178                 /* Enable promiscuous mode */
1179                 OpenOptions |= COPY_ALL_NON_MAC_FRAMES |
1180                         COPY_ALL_MAC_FRAMES;
1181         else
1182         {
1183                 if(dev->flags & IFF_ALLMULTI)
1184                 {
1185                         /* Disable promiscuous mode, use normal mode. */
1186                         tp->ocpl.FunctAddr = 0xFFFFFFFF;
1187                 }
1188                 else
1189                 {
1190                         struct netdev_hw_addr *ha;
1191
1192                         netdev_for_each_mc_addr(ha, dev) {
1193                                 ((char *)(&tp->ocpl.FunctAddr))[0] |=
1194                                         ha->addr[2];
1195                                 ((char *)(&tp->ocpl.FunctAddr))[1] |=
1196                                         ha->addr[3];
1197                                 ((char *)(&tp->ocpl.FunctAddr))[2] |=
1198                                         ha->addr[4];
1199                                 ((char *)(&tp->ocpl.FunctAddr))[3] |=
1200                                         ha->addr[5];
1201                         }
1202                 }
1203                 tms380tr_exec_cmd(dev, OC_SET_FUNCT_ADDR);
1204         }
1205         
1206         tp->ocpl.OPENOptions = OpenOptions;
1207         tms380tr_exec_cmd(dev, OC_MODIFY_OPEN_PARMS);
1208 }
1209
1210 /*
1211  * Wait for some time (microseconds)
1212  */
1213 void tms380tr_wait(unsigned long time)
1214 {
1215 #if 0
1216         long tmp;
1217         
1218         tmp = jiffies + time/(1000000/HZ);
1219         do {
1220                 tmp = schedule_timeout_interruptible(tmp);
1221         } while(time_after(tmp, jiffies));
1222 #else
1223         udelay(time);
1224 #endif
1225 }
1226
1227 /*
1228  * Write a command value to the SIFCMD register
1229  */
1230 static void tms380tr_exec_sifcmd(struct net_device *dev, unsigned int WriteValue)
1231 {
1232         unsigned short cmd;
1233         unsigned short SifStsValue;
1234         unsigned long loop_counter;
1235
1236         WriteValue = ((WriteValue ^ CMD_SYSTEM_IRQ) | CMD_INTERRUPT_ADAPTER);
1237         cmd = (unsigned short)WriteValue;
1238         loop_counter = 0,5 * 800000;
1239         do {
1240                 SifStsValue = SIFREADW(SIFSTS);
1241         } while((SifStsValue & CMD_INTERRUPT_ADAPTER) && loop_counter--);
1242         SIFWRITEW(cmd, SIFCMD);
1243 }
1244
1245 /*
1246  * Processes adapter hardware reset, halts adapter and downloads firmware,
1247  * clears the halt bit.
1248  */
1249 static int tms380tr_reset_adapter(struct net_device *dev)
1250 {
1251         struct net_local *tp = netdev_priv(dev);
1252         unsigned short *fw_ptr;
1253         unsigned short count, c, count2;
1254         const struct firmware *fw_entry = NULL;
1255
1256         if (request_firmware(&fw_entry, "tms380tr.bin", tp->pdev) != 0) {
1257                 printk(KERN_ALERT "%s: firmware %s is missing, cannot start.\n",
1258                         dev->name, "tms380tr.bin");
1259                 return (-1);
1260         }
1261
1262         fw_ptr = (unsigned short *)fw_entry->data;
1263         count2 = fw_entry->size / 2;
1264
1265         /* Hardware adapter reset */
1266         SIFWRITEW(ACL_ARESET, SIFACL);
1267         tms380tr_wait(40);
1268         
1269         c = SIFREADW(SIFACL);
1270         tms380tr_wait(20);
1271
1272         if(dev->dma == 0)       /* For PCI adapters */
1273         {
1274                 c &= ~(ACL_NSELOUT0 | ACL_NSELOUT1);    /* Clear bits */
1275                 if(tp->setnselout)
1276                   c |= (*tp->setnselout)(dev);
1277         }
1278
1279         /* In case a command is pending - forget it */
1280         tp->ScbInUse = 0;
1281
1282         c &= ~ACL_ARESET;               /* Clear adapter reset bit */
1283         c |=  ACL_CPHALT;               /* Halt adapter CPU, allow download */
1284         c |= ACL_BOOT;
1285         c |= ACL_SINTEN;
1286         c &= ~ACL_PSDMAEN;              /* Clear pseudo dma bit */
1287         SIFWRITEW(c, SIFACL);
1288         tms380tr_wait(40);
1289
1290         count = 0;
1291         /* Download firmware via DIO interface: */
1292         do {
1293                 if (count2 < 3) continue;
1294
1295                 /* Download first address part */
1296                 SIFWRITEW(*fw_ptr, SIFADX);
1297                 fw_ptr++;
1298                 count2--;
1299                 /* Download second address part */
1300                 SIFWRITEW(*fw_ptr, SIFADD);
1301                 fw_ptr++;
1302                 count2--;
1303
1304                 if((count = *fw_ptr) != 0)      /* Load loop counter */
1305                 {
1306                         fw_ptr++;       /* Download block data */
1307                         count2--;
1308                         if (count > count2) continue;
1309
1310                         for(; count > 0; count--)
1311                         {
1312                                 SIFWRITEW(*fw_ptr, SIFINC);
1313                                 fw_ptr++;
1314                                 count2--;
1315                         }
1316                 }
1317                 else    /* Stop, if last block downloaded */
1318                 {
1319                         c = SIFREADW(SIFACL);
1320                         c &= (~ACL_CPHALT | ACL_SINTEN);
1321
1322                         /* Clear CPHALT and start BUD */
1323                         SIFWRITEW(c, SIFACL);
1324                         if (fw_entry)
1325                                 release_firmware(fw_entry);
1326                         return (1);
1327                 }
1328         } while(count == 0);
1329
1330         if (fw_entry)
1331                 release_firmware(fw_entry);
1332         printk(KERN_INFO "%s: Adapter Download Failed\n", dev->name);
1333         return (-1);
1334 }
1335
1336 MODULE_FIRMWARE("tms380tr.bin");
1337
1338 /*
1339  * Starts bring up diagnostics of token ring adapter and evaluates
1340  * diagnostic results.
1341  */
1342 static int tms380tr_bringup_diags(struct net_device *dev)
1343 {
1344         int loop_cnt, retry_cnt;
1345         unsigned short Status;
1346
1347         tms380tr_wait(HALF_SECOND);
1348         tms380tr_exec_sifcmd(dev, EXEC_SOFT_RESET);
1349         tms380tr_wait(HALF_SECOND);
1350
1351         retry_cnt = BUD_MAX_RETRIES;    /* maximal number of retrys */
1352
1353         do {
1354                 retry_cnt--;
1355                 if(tms380tr_debug > 3)
1356                         printk(KERN_DEBUG "BUD-Status: ");
1357                 loop_cnt = BUD_MAX_LOOPCNT;     /* maximum: three seconds*/
1358                 do {                    /* Inspect BUD results */
1359                         loop_cnt--;
1360                         tms380tr_wait(HALF_SECOND);
1361                         Status = SIFREADW(SIFSTS);
1362                         Status &= STS_MASK;
1363
1364                         if(tms380tr_debug > 3)
1365                                 printk(KERN_DEBUG " %04X\n", Status);
1366                         /* BUD successfully completed */
1367                         if(Status == STS_INITIALIZE)
1368                                 return (1);
1369                 /* Unrecoverable hardware error, BUD not completed? */
1370                 } while((loop_cnt > 0) && ((Status & (STS_ERROR | STS_TEST))
1371                         != (STS_ERROR | STS_TEST)));
1372
1373                 /* Error preventing completion of BUD */
1374                 if(retry_cnt > 0)
1375                 {
1376                         printk(KERN_INFO "%s: Adapter Software Reset.\n", 
1377                                 dev->name);
1378                         tms380tr_exec_sifcmd(dev, EXEC_SOFT_RESET);
1379                         tms380tr_wait(HALF_SECOND);
1380                 }
1381         } while(retry_cnt > 0);
1382
1383         Status = SIFREADW(SIFSTS);
1384         
1385         printk(KERN_INFO "%s: Hardware error\n", dev->name);
1386         /* Hardware error occurred! */
1387         Status &= 0x001f;
1388         if (Status & 0x0010)
1389                 printk(KERN_INFO "%s: BUD Error: Timeout\n", dev->name);
1390         else if ((Status & 0x000f) > 6)
1391                 printk(KERN_INFO "%s: BUD Error: Illegal Failure\n", dev->name);
1392         else
1393                 printk(KERN_INFO "%s: Bring Up Diagnostics Error (%04X) occurred\n", dev->name, Status & 0x000f);
1394
1395         return (-1);
1396 }
1397
1398 /*
1399  * Copy initialisation data to adapter memory, beginning at address
1400  * 1:0A00; Starting DMA test and evaluating result bits.
1401  */
1402 static int tms380tr_init_adapter(struct net_device *dev)
1403 {
1404         struct net_local *tp = netdev_priv(dev);
1405
1406         const unsigned char SCB_Test[6] = {0x00, 0x00, 0xC1, 0xE2, 0xD4, 0x8B};
1407         const unsigned char SSB_Test[8] = {0xFF, 0xFF, 0xD1, 0xD7,
1408                                                 0xC5, 0xD9, 0xC3, 0xD4};
1409         void *ptr = (void *)&tp->ipb;
1410         unsigned short *ipb_ptr = (unsigned short *)ptr;
1411         unsigned char *cb_ptr = (unsigned char *) &tp->scb;
1412         unsigned char *sb_ptr = (unsigned char *) &tp->ssb;
1413         unsigned short Status;
1414         int i, loop_cnt, retry_cnt;
1415
1416         /* Normalize: byte order low/high, word order high/low! (only IPB!) */
1417         tp->ipb.SCB_Addr = SWAPW(((char *)&tp->scb - (char *)tp) + tp->dmabuffer);
1418         tp->ipb.SSB_Addr = SWAPW(((char *)&tp->ssb - (char *)tp) + tp->dmabuffer);
1419
1420         if(tms380tr_debug > 3)
1421         {
1422                 printk(KERN_DEBUG "%s: buffer (real): %lx\n", dev->name, (long) &tp->scb);
1423                 printk(KERN_DEBUG "%s: buffer (virt): %lx\n", dev->name, (long) ((char *)&tp->scb - (char *)tp) + (long) tp->dmabuffer);
1424                 printk(KERN_DEBUG "%s: buffer (DMA) : %lx\n", dev->name, (long) tp->dmabuffer);
1425                 printk(KERN_DEBUG "%s: buffer (tp)  : %lx\n", dev->name, (long) tp);
1426         }
1427         /* Maximum: three initialization retries */
1428         retry_cnt = INIT_MAX_RETRIES;
1429
1430         do {
1431                 retry_cnt--;
1432
1433                 /* Transfer initialization block */
1434                 SIFWRITEW(0x0001, SIFADX);
1435
1436                 /* To address 0001:0A00 of adapter RAM */
1437                 SIFWRITEW(0x0A00, SIFADD);
1438
1439                 /* Write 11 words to adapter RAM */
1440                 for(i = 0; i < 11; i++)
1441                         SIFWRITEW(ipb_ptr[i], SIFINC);
1442
1443                 /* Execute SCB adapter command */
1444                 tms380tr_exec_sifcmd(dev, CMD_EXECUTE);
1445
1446                 loop_cnt = INIT_MAX_LOOPCNT;    /* Maximum: 11 seconds */
1447
1448                 /* While remaining retries, no error and not completed */
1449                 do {
1450                         Status = 0;
1451                         loop_cnt--;
1452                         tms380tr_wait(HALF_SECOND);
1453
1454                         /* Mask interesting status bits */
1455                         Status = SIFREADW(SIFSTS);
1456                         Status &= STS_MASK;
1457                 } while(((Status &(STS_INITIALIZE | STS_ERROR | STS_TEST)) != 0) &&
1458                         ((Status & STS_ERROR) == 0) && (loop_cnt != 0));
1459
1460                 if((Status & (STS_INITIALIZE | STS_ERROR | STS_TEST)) == 0)
1461                 {
1462                         /* Initialization completed without error */
1463                         i = 0;
1464                         do {    /* Test if contents of SCB is valid */
1465                                 if(SCB_Test[i] != *(cb_ptr + i))
1466                                 {
1467                                         printk(KERN_INFO "%s: DMA failed\n", dev->name);
1468                                         /* DMA data error: wrong data in SCB */
1469                                         return (-1);
1470                                 }
1471                                 i++;
1472                         } while(i < 6);
1473
1474                         i = 0;
1475                         do {    /* Test if contents of SSB is valid */
1476                                 if(SSB_Test[i] != *(sb_ptr + i))
1477                                         /* DMA data error: wrong data in SSB */
1478                                         return (-1);
1479                                 i++;
1480                         } while (i < 8);
1481
1482                         return (1);     /* Adapter successfully initialized */
1483                 }
1484                 else
1485                 {
1486                         if((Status & STS_ERROR) != 0)
1487                         {
1488                                 /* Initialization error occurred */
1489                                 Status = SIFREADW(SIFSTS);
1490                                 Status &= STS_ERROR_MASK;
1491                                 /* ShowInitialisationErrorCode(Status); */
1492                                 printk(KERN_INFO "%s: Status error: %d\n", dev->name, Status);
1493                                 return (-1); /* Unrecoverable error */
1494                         }
1495                         else
1496                         {
1497                                 if(retry_cnt > 0)
1498                                 {
1499                                         /* Reset adapter and try init again */
1500                                         tms380tr_exec_sifcmd(dev, EXEC_SOFT_RESET);
1501                                         tms380tr_wait(HALF_SECOND);
1502                                 }
1503                         }
1504                 }
1505         } while(retry_cnt > 0);
1506
1507         printk(KERN_INFO "%s: Retry exceeded\n", dev->name);
1508         return (-1);
1509 }
1510
1511 /*
1512  * Check for outstanding commands in command queue and tries to execute
1513  * command immediately. Corresponding command flag in command queue is cleared.
1514  */
1515 static void tms380tr_chk_outstanding_cmds(struct net_device *dev)
1516 {
1517         struct net_local *tp = netdev_priv(dev);
1518         unsigned long Addr = 0;
1519
1520         if(tp->CMDqueue == 0)
1521                 return;         /* No command execution */
1522
1523         /* If SCB in use: no command */
1524         if(tp->ScbInUse == 1)
1525                 return;
1526
1527         /* Check if adapter is opened, avoiding COMMAND_REJECT
1528          * interrupt by the adapter!
1529          */
1530         if(tp->AdapterOpenFlag == 0)
1531         {
1532                 if(tp->CMDqueue & OC_OPEN)
1533                 {
1534                         /* Execute OPEN command */
1535                         tp->CMDqueue ^= OC_OPEN;
1536
1537                         Addr = htonl(((char *)&tp->ocpl - (char *)tp) + tp->dmabuffer);
1538                         tp->scb.Parm[0] = LOWORD(Addr);
1539                         tp->scb.Parm[1] = HIWORD(Addr);
1540                         tp->scb.CMD = OPEN;
1541                 }
1542                 else
1543                         /* No OPEN command queued, but adapter closed. Note:
1544                          * We'll try to re-open the adapter in DriverPoll()
1545                          */
1546                         return;         /* No adapter command issued */
1547         }
1548         else
1549         {
1550                 /* Adapter is open; evaluate command queue: try to execute
1551                  * outstanding commands (depending on priority!) CLOSE
1552                  * command queued
1553                  */
1554                 if(tp->CMDqueue & OC_CLOSE)
1555                 {
1556                         tp->CMDqueue ^= OC_CLOSE;
1557                         tp->AdapterOpenFlag = 0;
1558                         tp->scb.Parm[0] = 0; /* Parm[0], Parm[1] are ignored */
1559                         tp->scb.Parm[1] = 0; /* but should be set to zero! */
1560                         tp->scb.CMD = CLOSE;
1561                         if(!tp->HaltInProgress)
1562                                 tp->CMDqueue |= OC_OPEN; /* re-open adapter */
1563                         else
1564                                 tp->CMDqueue = 0;       /* no more commands */
1565                 }
1566                 else
1567                 {
1568                         if(tp->CMDqueue & OC_RECEIVE)
1569                         {
1570                                 tp->CMDqueue ^= OC_RECEIVE;
1571                                 Addr = htonl(((char *)tp->RplHead - (char *)tp) + tp->dmabuffer);
1572                                 tp->scb.Parm[0] = LOWORD(Addr);
1573                                 tp->scb.Parm[1] = HIWORD(Addr);
1574                                 tp->scb.CMD = RECEIVE;
1575                         }
1576                         else
1577                         {
1578                                 if(tp->CMDqueue & OC_TRANSMIT_HALT)
1579                                 {
1580                                         /* NOTE: TRANSMIT.HALT must be checked 
1581                                          * before TRANSMIT.
1582                                          */
1583                                         tp->CMDqueue ^= OC_TRANSMIT_HALT;
1584                                         tp->scb.CMD = TRANSMIT_HALT;
1585
1586                                         /* Parm[0] and Parm[1] are ignored
1587                                          * but should be set to zero!
1588                                          */
1589                                         tp->scb.Parm[0] = 0;
1590                                         tp->scb.Parm[1] = 0;
1591                                 }
1592                                 else
1593                                 {
1594                                         if(tp->CMDqueue & OC_TRANSMIT)
1595                                         {
1596                                                 /* NOTE: TRANSMIT must be 
1597                                                  * checked after TRANSMIT.HALT
1598                                                  */
1599                                                 if(tp->TransmitCommandActive)
1600                                                 {
1601                                                         if(!tp->TransmitHaltScheduled)
1602                                                         {
1603                                                                 tp->TransmitHaltScheduled = 1;
1604                                                                 tms380tr_exec_cmd(dev, OC_TRANSMIT_HALT) ;
1605                                                         }
1606                                                         tp->TransmitCommandActive = 0;
1607                                                         return;
1608                                                 }
1609
1610                                                 tp->CMDqueue ^= OC_TRANSMIT;
1611                                                 tms380tr_cancel_tx_queue(tp);
1612                                                 Addr = htonl(((char *)tp->TplBusy - (char *)tp) + tp->dmabuffer);
1613                                                 tp->scb.Parm[0] = LOWORD(Addr);
1614                                                 tp->scb.Parm[1] = HIWORD(Addr);
1615                                                 tp->scb.CMD = TRANSMIT;
1616                                                 tp->TransmitCommandActive = 1;
1617                                         }
1618                                         else
1619                                         {
1620                                                 if(tp->CMDqueue & OC_MODIFY_OPEN_PARMS)
1621                                                 {
1622                                                         tp->CMDqueue ^= OC_MODIFY_OPEN_PARMS;
1623                                                         tp->scb.Parm[0] = tp->ocpl.OPENOptions; /* new OPEN options*/
1624                                                         tp->scb.Parm[0] |= ENABLE_FULL_DUPLEX_SELECTION;
1625                                                         tp->scb.Parm[1] = 0; /* is ignored but should be zero */
1626                                                         tp->scb.CMD = MODIFY_OPEN_PARMS;
1627                                                 }
1628                                                 else
1629                                                 {
1630                                                         if(tp->CMDqueue & OC_SET_FUNCT_ADDR)
1631                                                         {
1632                                                                 tp->CMDqueue ^= OC_SET_FUNCT_ADDR;
1633                                                                 tp->scb.Parm[0] = LOWORD(tp->ocpl.FunctAddr);
1634                                                                 tp->scb.Parm[1] = HIWORD(tp->ocpl.FunctAddr);
1635                                                                 tp->scb.CMD = SET_FUNCT_ADDR;
1636                                                         }
1637                                                         else
1638                                                         {
1639                                                                 if(tp->CMDqueue & OC_SET_GROUP_ADDR)
1640                                                                 {
1641                                                                         tp->CMDqueue ^= OC_SET_GROUP_ADDR;
1642                                                                         tp->scb.Parm[0] = LOWORD(tp->ocpl.GroupAddr);
1643                                                                         tp->scb.Parm[1] = HIWORD(tp->ocpl.GroupAddr);
1644                                                                         tp->scb.CMD = SET_GROUP_ADDR;
1645                                                                 }
1646                                                                 else
1647                                                                 {
1648                                                                         if(tp->CMDqueue & OC_READ_ERROR_LOG)
1649                                                                         {
1650                                                                                 tp->CMDqueue ^= OC_READ_ERROR_LOG;
1651                                                                                 Addr = htonl(((char *)&tp->errorlogtable - (char *)tp) + tp->dmabuffer);
1652                                                                                 tp->scb.Parm[0] = LOWORD(Addr);
1653                                                                                 tp->scb.Parm[1] = HIWORD(Addr);
1654                                                                                 tp->scb.CMD = READ_ERROR_LOG;
1655                                                                         }
1656                                                                         else
1657                                                                         {
1658                                                                                 printk(KERN_WARNING "CheckForOutstandingCommand: unknown Command\n");
1659                                                                                 tp->CMDqueue = 0;
1660                                                                                 return;
1661                                                                         }
1662                                                                 }
1663                                                         }
1664                                                 }
1665                                         }
1666                                 }
1667                         }
1668                 }
1669         }
1670
1671         tp->ScbInUse = 1;       /* Set semaphore: SCB in use. */
1672
1673         /* Execute SCB and generate IRQ when done. */
1674         tms380tr_exec_sifcmd(dev, CMD_EXECUTE | CMD_SCB_REQUEST);
1675 }
1676
1677 /*
1678  * IRQ conditions: signal loss on the ring, transmit or receive of beacon
1679  * frames (disabled if bit 1 of OPEN option is set); report error MAC
1680  * frame transmit (disabled if bit 2 of OPEN option is set); open or short
1681  * circuit fault on the lobe is detected; remove MAC frame received;
1682  * error counter overflow (255); opened adapter is the only station in ring.
1683  * After some of the IRQs the adapter is closed!
1684  */
1685 static void tms380tr_ring_status_irq(struct net_device *dev)
1686 {
1687         struct net_local *tp = netdev_priv(dev);
1688
1689         tp->CurrentRingStatus = be16_to_cpu((unsigned short)tp->ssb.Parm[0]);
1690
1691         /* First: fill up statistics */
1692         if(tp->ssb.Parm[0] & SIGNAL_LOSS)
1693         {
1694                 printk(KERN_INFO "%s: Signal Loss\n", dev->name);
1695                 tp->MacStat.line_errors++;
1696         }
1697
1698         /* Adapter is closed, but initialized */
1699         if(tp->ssb.Parm[0] & LOBE_WIRE_FAULT)
1700         {
1701                 printk(KERN_INFO "%s: Lobe Wire Fault, Reopen Adapter\n", 
1702                         dev->name);
1703                 tp->MacStat.line_errors++;
1704         }
1705
1706         if(tp->ssb.Parm[0] & RING_RECOVERY)
1707                 printk(KERN_INFO "%s: Ring Recovery\n", dev->name);
1708
1709         /* Counter overflow: read error log */
1710         if(tp->ssb.Parm[0] & COUNTER_OVERFLOW)
1711         {
1712                 printk(KERN_INFO "%s: Counter Overflow\n", dev->name);
1713                 tms380tr_exec_cmd(dev, OC_READ_ERROR_LOG);
1714         }
1715
1716         /* Adapter is closed, but initialized */
1717         if(tp->ssb.Parm[0] & REMOVE_RECEIVED)
1718                 printk(KERN_INFO "%s: Remove Received, Reopen Adapter\n", 
1719                         dev->name);
1720
1721         /* Adapter is closed, but initialized */
1722         if(tp->ssb.Parm[0] & AUTO_REMOVAL_ERROR)
1723                 printk(KERN_INFO "%s: Auto Removal Error, Reopen Adapter\n", 
1724                         dev->name);
1725
1726         if(tp->ssb.Parm[0] & HARD_ERROR)
1727                 printk(KERN_INFO "%s: Hard Error\n", dev->name);
1728
1729         if(tp->ssb.Parm[0] & SOFT_ERROR)
1730                 printk(KERN_INFO "%s: Soft Error\n", dev->name);
1731
1732         if(tp->ssb.Parm[0] & TRANSMIT_BEACON)
1733                 printk(KERN_INFO "%s: Transmit Beacon\n", dev->name);
1734
1735         if(tp->ssb.Parm[0] & SINGLE_STATION)
1736                 printk(KERN_INFO "%s: Single Station\n", dev->name);
1737
1738         /* Check if adapter has been closed */
1739         if(tp->ssb.Parm[0] & ADAPTER_CLOSED)
1740         {
1741                 printk(KERN_INFO "%s: Adapter closed (Reopening)," 
1742                         "CurrentRingStat %x\n",
1743                         dev->name, tp->CurrentRingStatus);
1744                 tp->AdapterOpenFlag = 0;
1745                 tms380tr_open_adapter(dev);
1746         }
1747 }
1748
1749 /*
1750  * Issued if adapter has encountered an unrecoverable hardware
1751  * or software error.
1752  */
1753 static void tms380tr_chk_irq(struct net_device *dev)
1754 {
1755         int i;
1756         unsigned short AdapterCheckBlock[4];
1757         struct net_local *tp = netdev_priv(dev);
1758
1759         tp->AdapterOpenFlag = 0;        /* Adapter closed now */
1760
1761         /* Page number of adapter memory */
1762         SIFWRITEW(0x0001, SIFADX);
1763         /* Address offset */
1764         SIFWRITEW(CHECKADDR, SIFADR);
1765
1766         /* Reading 8 byte adapter check block. */
1767         for(i = 0; i < 4; i++)
1768                 AdapterCheckBlock[i] = SIFREADW(SIFINC);
1769
1770         if(tms380tr_debug > 3)
1771         {
1772                 printk(KERN_DEBUG "%s: AdapterCheckBlock: ", dev->name);
1773                 for (i = 0; i < 4; i++)
1774                         printk("%04X", AdapterCheckBlock[i]);
1775                 printk("\n");
1776         }
1777
1778         switch(AdapterCheckBlock[0])
1779         {
1780                 case DIO_PARITY:
1781                         printk(KERN_INFO "%s: DIO parity error\n", dev->name);
1782                         break;
1783
1784                 case DMA_READ_ABORT:
1785                         printk(KERN_INFO "%s DMA read operation aborted:\n",
1786                                 dev->name);
1787                         switch (AdapterCheckBlock[1])
1788                         {
1789                                 case 0:
1790                                         printk(KERN_INFO "Timeout\n");
1791                                         printk(KERN_INFO "Address: %04X %04X\n",
1792                                                 AdapterCheckBlock[2],
1793                                                 AdapterCheckBlock[3]);
1794                                         break;
1795
1796                                 case 1:
1797                                         printk(KERN_INFO "Parity error\n");
1798                                         printk(KERN_INFO "Address: %04X %04X\n",
1799                                                 AdapterCheckBlock[2], 
1800                                                 AdapterCheckBlock[3]);
1801                                         break;
1802
1803                                 case 2: 
1804                                         printk(KERN_INFO "Bus error\n");
1805                                         printk(KERN_INFO "Address: %04X %04X\n",
1806                                                 AdapterCheckBlock[2], 
1807                                                 AdapterCheckBlock[3]);
1808                                         break;
1809
1810                                 default:
1811                                         printk(KERN_INFO "Unknown error.\n");
1812                                         break;
1813                         }
1814                         break;
1815
1816                 case DMA_WRITE_ABORT:
1817                         printk(KERN_INFO "%s: DMA write operation aborted:\n",
1818                                 dev->name);
1819                         switch (AdapterCheckBlock[1])
1820                         {
1821                                 case 0: 
1822                                         printk(KERN_INFO "Timeout\n");
1823                                         printk(KERN_INFO "Address: %04X %04X\n",
1824                                                 AdapterCheckBlock[2], 
1825                                                 AdapterCheckBlock[3]);
1826                                         break;
1827
1828                                 case 1: 
1829                                         printk(KERN_INFO "Parity error\n");
1830                                         printk(KERN_INFO "Address: %04X %04X\n",
1831                                                 AdapterCheckBlock[2], 
1832                                                 AdapterCheckBlock[3]);
1833                                         break;
1834
1835                                 case 2: 
1836                                         printk(KERN_INFO "Bus error\n");
1837                                         printk(KERN_INFO "Address: %04X %04X\n",
1838                                                 AdapterCheckBlock[2], 
1839                                                 AdapterCheckBlock[3]);
1840                                         break;
1841
1842                                 default:
1843                                         printk(KERN_INFO "Unknown error.\n");
1844                                         break;
1845                         }
1846                         break;
1847
1848                 case ILLEGAL_OP_CODE:
1849                         printk(KERN_INFO "%s: Illegal operation code in firmware\n",
1850                                 dev->name);
1851                         /* Parm[0-3]: adapter internal register R13-R15 */
1852                         break;
1853
1854                 case PARITY_ERRORS:
1855                         printk(KERN_INFO "%s: Adapter internal bus parity error\n",
1856                                 dev->name);
1857                         /* Parm[0-3]: adapter internal register R13-R15 */
1858                         break;
1859
1860                 case RAM_DATA_ERROR:
1861                         printk(KERN_INFO "%s: RAM data error\n", dev->name);
1862                         /* Parm[0-1]: MSW/LSW address of RAM location. */
1863                         break;
1864
1865                 case RAM_PARITY_ERROR:
1866                         printk(KERN_INFO "%s: RAM parity error\n", dev->name);
1867                         /* Parm[0-1]: MSW/LSW address of RAM location. */
1868                         break;
1869
1870                 case RING_UNDERRUN:
1871                         printk(KERN_INFO "%s: Internal DMA underrun detected\n",
1872                                 dev->name);
1873                         break;
1874
1875                 case INVALID_IRQ:
1876                         printk(KERN_INFO "%s: Unrecognized interrupt detected\n",
1877                                 dev->name);
1878                         /* Parm[0-3]: adapter internal register R13-R15 */
1879                         break;
1880
1881                 case INVALID_ERROR_IRQ:
1882                         printk(KERN_INFO "%s: Unrecognized error interrupt detected\n",
1883                                 dev->name);
1884                         /* Parm[0-3]: adapter internal register R13-R15 */
1885                         break;
1886
1887                 case INVALID_XOP:
1888                         printk(KERN_INFO "%s: Unrecognized XOP request detected\n",
1889                                 dev->name);
1890                         /* Parm[0-3]: adapter internal register R13-R15 */
1891                         break;
1892
1893                 default:
1894                         printk(KERN_INFO "%s: Unknown status", dev->name);
1895                         break;
1896         }
1897
1898         if(tms380tr_chipset_init(dev) == 1)
1899         {
1900                 /* Restart of firmware successful */
1901                 tp->AdapterOpenFlag = 1;
1902         }
1903 }
1904
1905 /*
1906  * Internal adapter pointer to RAM data are copied from adapter into
1907  * host system.
1908  */
1909 static int tms380tr_read_ptr(struct net_device *dev)
1910 {
1911         struct net_local *tp = netdev_priv(dev);
1912         unsigned short adapterram;
1913
1914         tms380tr_read_ram(dev, (unsigned char *)&tp->intptrs.BurnedInAddrPtr,
1915                         ADAPTER_INT_PTRS, 16);
1916         tms380tr_read_ram(dev, (unsigned char *)&adapterram,
1917                         cpu_to_be16((unsigned short)tp->intptrs.AdapterRAMPtr), 2);
1918         return be16_to_cpu(adapterram); 
1919 }
1920
1921 /*
1922  * Reads a number of bytes from adapter to system memory.
1923  */
1924 static void tms380tr_read_ram(struct net_device *dev, unsigned char *Data,
1925                                 unsigned short Address, int Length)
1926 {
1927         int i;
1928         unsigned short old_sifadx, old_sifadr, InWord;
1929
1930         /* Save the current values */
1931         old_sifadx = SIFREADW(SIFADX);
1932         old_sifadr = SIFREADW(SIFADR);
1933
1934         /* Page number of adapter memory */
1935         SIFWRITEW(0x0001, SIFADX);
1936         /* Address offset in adapter RAM */
1937         SIFWRITEW(Address, SIFADR);
1938
1939         /* Copy len byte from adapter memory to system data area. */
1940         i = 0;
1941         for(;;)
1942         {
1943                 InWord = SIFREADW(SIFINC);
1944
1945                 *(Data + i) = HIBYTE(InWord);   /* Write first byte */
1946                 if(++i == Length)               /* All is done break */
1947                         break;
1948
1949                 *(Data + i) = LOBYTE(InWord);   /* Write second byte */
1950                 if (++i == Length)              /* All is done break */
1951                         break;
1952         }
1953
1954         /* Restore original values */
1955         SIFWRITEW(old_sifadx, SIFADX);
1956         SIFWRITEW(old_sifadr, SIFADR);
1957 }
1958
1959 /*
1960  * Cancel all queued packets in the transmission queue.
1961  */
1962 static void tms380tr_cancel_tx_queue(struct net_local* tp)
1963 {
1964         TPL *tpl;
1965
1966         /*
1967          * NOTE: There must not be an active TRANSMIT command pending, when
1968          * this function is called.
1969          */
1970         if(tp->TransmitCommandActive)
1971                 return;
1972
1973         for(;;)
1974         {
1975                 tpl = tp->TplBusy;
1976                 if(!tpl->BusyFlag)
1977                         break;
1978                 /* "Remove" TPL from busy list. */
1979                 tp->TplBusy = tpl->NextTPLPtr;
1980                 tms380tr_write_tpl_status(tpl, 0);      /* Clear VALID bit */
1981                 tpl->BusyFlag = 0;              /* "free" TPL */
1982
1983                 printk(KERN_INFO "Cancel tx (%08lXh).\n", (unsigned long)tpl);
1984                 if (tpl->DMABuff)
1985                         dma_unmap_single(tp->pdev, tpl->DMABuff, tpl->Skb->len, DMA_TO_DEVICE);
1986                 dev_kfree_skb_any(tpl->Skb);
1987         }
1988 }
1989
1990 /*
1991  * This function is called whenever a transmit interrupt is generated by the
1992  * adapter. For a command complete interrupt, it is checked if we have to
1993  * issue a new transmit command or not.
1994  */
1995 static void tms380tr_tx_status_irq(struct net_device *dev)
1996 {
1997         struct net_local *tp = netdev_priv(dev);
1998         unsigned char HighByte, HighAc, LowAc;
1999         TPL *tpl;
2000
2001         /* NOTE: At this point the SSB from TRANSMIT STATUS is no longer
2002          * available, because the CLEAR SSB command has already been issued.
2003          *
2004          * Process all complete transmissions.
2005          */
2006
2007         for(;;)
2008         {
2009                 tpl = tp->TplBusy;
2010                 if(!tpl->BusyFlag || (tpl->Status
2011                         & (TX_VALID | TX_FRAME_COMPLETE))
2012                         != TX_FRAME_COMPLETE)
2013                 {
2014                         break;
2015                 }
2016
2017                 /* "Remove" TPL from busy list. */
2018                 tp->TplBusy = tpl->NextTPLPtr ;
2019
2020                 /* Check the transmit status field only for directed frames*/
2021                 if(DIRECTED_FRAME(tpl) && (tpl->Status & TX_ERROR) == 0)
2022                 {
2023                         HighByte = GET_TRANSMIT_STATUS_HIGH_BYTE(tpl->Status);
2024                         HighAc   = GET_FRAME_STATUS_HIGH_AC(HighByte);
2025                         LowAc    = GET_FRAME_STATUS_LOW_AC(HighByte);
2026
2027                         if((HighAc != LowAc) || (HighAc == AC_NOT_RECOGNIZED))
2028                         {
2029                                 printk(KERN_DEBUG "%s: (DA=%08lX not recognized)\n",
2030                                         dev->name,
2031                                         *(unsigned long *)&tpl->MData[2+2]);
2032                         }
2033                         else
2034                         {
2035                                 if(tms380tr_debug > 3)
2036                                         printk(KERN_DEBUG "%s: Directed frame tx'd\n", 
2037                                                 dev->name);
2038                         }
2039                 }
2040                 else
2041                 {
2042                         if(!DIRECTED_FRAME(tpl))
2043                         {
2044                                 if(tms380tr_debug > 3)
2045                                         printk(KERN_DEBUG "%s: Broadcast frame tx'd\n",
2046                                                 dev->name);
2047                         }
2048                 }
2049
2050                 tp->MacStat.tx_packets++;
2051                 if (tpl->DMABuff)
2052                         dma_unmap_single(tp->pdev, tpl->DMABuff, tpl->Skb->len, DMA_TO_DEVICE);
2053                 dev_kfree_skb_irq(tpl->Skb);
2054                 tpl->BusyFlag = 0;      /* "free" TPL */
2055         }
2056
2057         if(!tp->TplFree->NextTPLPtr->BusyFlag)
2058                 netif_wake_queue(dev);
2059 }
2060
2061 /*
2062  * Called if a frame receive interrupt is generated by the adapter.
2063  * Check if the frame is valid and indicate it to system.
2064  */
2065 static void tms380tr_rcv_status_irq(struct net_device *dev)
2066 {
2067         struct net_local *tp = netdev_priv(dev);
2068         unsigned char *ReceiveDataPtr;
2069         struct sk_buff *skb;
2070         unsigned int Length, Length2;
2071         RPL *rpl;
2072         RPL *SaveHead;
2073         dma_addr_t dmabuf;
2074
2075         /* NOTE: At this point the SSB from RECEIVE STATUS is no longer
2076          * available, because the CLEAR SSB command has already been issued.
2077          *
2078          * Process all complete receives.
2079          */
2080
2081         for(;;)
2082         {
2083                 rpl = tp->RplHead;
2084                 if(rpl->Status & RX_VALID)
2085                         break;          /* RPL still in use by adapter */
2086
2087                 /* Forward RPLHead pointer to next list. */
2088                 SaveHead = tp->RplHead;
2089                 tp->RplHead = rpl->NextRPLPtr;
2090
2091                 /* Get the frame size (Byte swap for Intel).
2092                  * Do this early (see workaround comment below)
2093                  */
2094                 Length = be16_to_cpu(rpl->FrameSize);
2095
2096                 /* Check if the Frame_Start, Frame_End and
2097                  * Frame_Complete bits are set.
2098                  */
2099                 if((rpl->Status & VALID_SINGLE_BUFFER_FRAME)
2100                         == VALID_SINGLE_BUFFER_FRAME)
2101                 {
2102                         ReceiveDataPtr = rpl->MData;
2103
2104                         /* Workaround for delayed write of FrameSize on ISA
2105                          * (FrameSize is false but valid-bit is reset)
2106                          * Frame size is set to zero when the RPL is freed.
2107                          * Length2 is there because there have also been
2108                          * cases where the FrameSize was partially written
2109                          */
2110                         Length2 = be16_to_cpu(rpl->FrameSize);
2111
2112                         if(Length == 0 || Length != Length2)
2113                         {
2114                                 tp->RplHead = SaveHead;
2115                                 break;  /* Return to tms380tr_interrupt */
2116                         }
2117                         tms380tr_update_rcv_stats(tp,ReceiveDataPtr,Length);
2118                           
2119                         if(tms380tr_debug > 3)
2120                                 printk(KERN_DEBUG "%s: Packet Length %04X (%d)\n",
2121                                         dev->name, Length, Length);
2122                           
2123                         /* Indicate the received frame to system the
2124                          * adapter does the Source-Routing padding for 
2125                          * us. See: OpenOptions in tms380tr_init_opb()
2126                          */
2127                         skb = rpl->Skb;
2128                         if(rpl->SkbStat == SKB_UNAVAILABLE)
2129                         {
2130                                 /* Try again to allocate skb */
2131                                 skb = dev_alloc_skb(tp->MaxPacketSize);
2132                                 if(skb == NULL)
2133                                 {
2134                                         /* Update Stats ?? */
2135                                 }
2136                                 else
2137                                 {
2138                                         skb_put(skb, tp->MaxPacketSize);
2139                                         rpl->SkbStat    = SKB_DATA_COPY;
2140                                         ReceiveDataPtr  = rpl->MData;
2141                                 }
2142                         }
2143
2144                         if(skb && (rpl->SkbStat == SKB_DATA_COPY ||
2145                                    rpl->SkbStat == SKB_DMA_DIRECT))
2146                         {
2147                                 if(rpl->SkbStat == SKB_DATA_COPY)
2148                                         skb_copy_to_linear_data(skb, ReceiveDataPtr,
2149                                                        Length);
2150
2151                                 /* Deliver frame to system */
2152                                 rpl->Skb = NULL;
2153                                 skb_trim(skb,Length);
2154                                 skb->protocol = tr_type_trans(skb,dev);
2155                                 netif_rx(skb);
2156                         }
2157                 }
2158                 else    /* Invalid frame */
2159                 {
2160                         if(rpl->Skb != NULL)
2161                                 dev_kfree_skb_irq(rpl->Skb);
2162
2163                         /* Skip list. */
2164                         if(rpl->Status & RX_START_FRAME)
2165                                 /* Frame start bit is set -> overflow. */
2166                                 tp->MacStat.rx_errors++;
2167                 }
2168                 if (rpl->DMABuff)
2169                         dma_unmap_single(tp->pdev, rpl->DMABuff, tp->MaxPacketSize, DMA_TO_DEVICE);
2170                 rpl->DMABuff = 0;
2171
2172                 /* Allocate new skb for rpl */
2173                 rpl->Skb = dev_alloc_skb(tp->MaxPacketSize);
2174                 /* skb == NULL ? then use local buffer */
2175                 if(rpl->Skb == NULL)
2176                 {
2177                         rpl->SkbStat = SKB_UNAVAILABLE;
2178                         rpl->FragList[0].DataAddr = htonl(((char *)tp->LocalRxBuffers[rpl->RPLIndex] - (char *)tp) + tp->dmabuffer);
2179                         rpl->MData = tp->LocalRxBuffers[rpl->RPLIndex];
2180                 }
2181                 else    /* skb != NULL */
2182                 {
2183                         rpl->Skb->dev = dev;
2184                         skb_put(rpl->Skb, tp->MaxPacketSize);
2185
2186                         /* Data unreachable for DMA ? then use local buffer */
2187                         dmabuf = dma_map_single(tp->pdev, rpl->Skb->data, tp->MaxPacketSize, DMA_FROM_DEVICE);
2188                         if(tp->dmalimit && (dmabuf + tp->MaxPacketSize > tp->dmalimit))
2189                         {
2190                                 rpl->SkbStat = SKB_DATA_COPY;
2191                                 rpl->FragList[0].DataAddr = htonl(((char *)tp->LocalRxBuffers[rpl->RPLIndex] - (char *)tp) + tp->dmabuffer);
2192                                 rpl->MData = tp->LocalRxBuffers[rpl->RPLIndex];
2193                         }
2194                         else
2195                         {
2196                                 /* DMA directly in skb->data */
2197                                 rpl->SkbStat = SKB_DMA_DIRECT;
2198                                 rpl->FragList[0].DataAddr = htonl(dmabuf);
2199                                 rpl->MData = rpl->Skb->data;
2200                                 rpl->DMABuff = dmabuf;
2201                         }
2202                 }
2203
2204                 rpl->FragList[0].DataCount = cpu_to_be16((unsigned short)tp->MaxPacketSize);
2205                 rpl->FrameSize = 0;
2206
2207                 /* Pass the last RPL back to the adapter */
2208                 tp->RplTail->FrameSize = 0;
2209
2210                 /* Reset the CSTAT field in the list. */
2211                 tms380tr_write_rpl_status(tp->RplTail, RX_VALID | RX_FRAME_IRQ);
2212
2213                 /* Current RPL becomes last one in list. */
2214                 tp->RplTail = tp->RplTail->NextRPLPtr;
2215
2216                 /* Inform adapter about RPL valid. */
2217                 tms380tr_exec_sifcmd(dev, CMD_RX_VALID);
2218         }
2219 }
2220
2221 /*
2222  * This function should be used whenever the status of any RPL must be
2223  * modified by the driver, because the compiler may otherwise change the
2224  * order of instructions such that writing the RPL status may be executed
2225  * at an undesirable time. When this function is used, the status is
2226  * always written when the function is called.
2227  */
2228 static void tms380tr_write_rpl_status(RPL *rpl, unsigned int Status)
2229 {
2230         rpl->Status = Status;
2231 }
2232
2233 /*
2234  * The function updates the statistic counters in mac->MacStat.
2235  * It differtiates between directed and broadcast/multicast ( ==functional)
2236  * frames.
2237  */
2238 static void tms380tr_update_rcv_stats(struct net_local *tp, unsigned char DataPtr[],
2239                                         unsigned int Length)
2240 {
2241         tp->MacStat.rx_packets++;
2242         tp->MacStat.rx_bytes += Length;
2243         
2244         /* Test functional bit */
2245         if(DataPtr[2] & GROUP_BIT)
2246                 tp->MacStat.multicast++;
2247 }
2248
2249 static int tms380tr_set_mac_address(struct net_device *dev, void *addr)
2250 {
2251         struct net_local *tp = netdev_priv(dev);
2252         struct sockaddr *saddr = addr;
2253         
2254         if (tp->AdapterOpenFlag || tp->AdapterVirtOpenFlag) {
2255                 printk(KERN_WARNING "%s: Cannot set MAC/LAA address while card is open\n", dev->name);
2256                 return -EIO;
2257         }
2258         memcpy(dev->dev_addr, saddr->sa_data, dev->addr_len);
2259         return 0;
2260 }
2261
2262 #if TMS380TR_DEBUG > 0
2263 /*
2264  * Dump Packet (data)
2265  */
2266 static void tms380tr_dump(unsigned char *Data, int length)
2267 {
2268         int i, j;
2269
2270         for (i = 0, j = 0; i < length / 8; i++, j += 8)
2271         {
2272                 printk(KERN_DEBUG "%02x %02x %02x %02x %02x %02x %02x %02x\n",
2273                        Data[j+0],Data[j+1],Data[j+2],Data[j+3],
2274                        Data[j+4],Data[j+5],Data[j+6],Data[j+7]);
2275         }
2276 }
2277 #endif
2278
2279 void tmsdev_term(struct net_device *dev)
2280 {
2281         struct net_local *tp;
2282
2283         tp = netdev_priv(dev);
2284         dma_unmap_single(tp->pdev, tp->dmabuffer, sizeof(struct net_local),
2285                 DMA_BIDIRECTIONAL);
2286 }
2287
2288 const struct net_device_ops tms380tr_netdev_ops = {
2289         .ndo_open               = tms380tr_open,
2290         .ndo_stop               = tms380tr_close,
2291         .ndo_start_xmit         = tms380tr_send_packet,
2292         .ndo_tx_timeout         = tms380tr_timeout,
2293         .ndo_get_stats          = tms380tr_get_stats,
2294         .ndo_set_multicast_list = tms380tr_set_multicast_list,
2295         .ndo_set_mac_address    = tms380tr_set_mac_address,
2296 };
2297 EXPORT_SYMBOL(tms380tr_netdev_ops);
2298
2299 int tmsdev_init(struct net_device *dev, struct device *pdev)
2300 {
2301         struct net_local *tms_local;
2302
2303         memset(netdev_priv(dev), 0, sizeof(struct net_local));
2304         tms_local = netdev_priv(dev);
2305         init_waitqueue_head(&tms_local->wait_for_tok_int);
2306         if (pdev->dma_mask)
2307                 tms_local->dmalimit = *pdev->dma_mask;
2308         else
2309                 return -ENOMEM;
2310         tms_local->pdev = pdev;
2311         tms_local->dmabuffer = dma_map_single(pdev, (void *)tms_local,
2312             sizeof(struct net_local), DMA_BIDIRECTIONAL);
2313         if (tms_local->dmabuffer + sizeof(struct net_local) > 
2314                         tms_local->dmalimit)
2315         {
2316                 printk(KERN_INFO "%s: Memory not accessible for DMA\n",
2317                         dev->name);
2318                 tmsdev_term(dev);
2319                 return -ENOMEM;
2320         }
2321         
2322         dev->netdev_ops         = &tms380tr_netdev_ops;
2323         dev->watchdog_timeo     = HZ;
2324
2325         return 0;
2326 }
2327
2328 EXPORT_SYMBOL(tms380tr_open);
2329 EXPORT_SYMBOL(tms380tr_close);
2330 EXPORT_SYMBOL(tms380tr_interrupt);
2331 EXPORT_SYMBOL(tmsdev_init);
2332 EXPORT_SYMBOL(tmsdev_term);
2333 EXPORT_SYMBOL(tms380tr_wait);
2334
2335 #ifdef MODULE
2336
2337 static struct module *TMS380_module = NULL;
2338
2339 int init_module(void)
2340 {
2341         printk(KERN_DEBUG "%s", version);
2342         
2343         TMS380_module = &__this_module;
2344         return 0;
2345 }
2346
2347 void cleanup_module(void)
2348 {
2349         TMS380_module = NULL;
2350 }
2351 #endif
2352
2353 MODULE_LICENSE("GPL");
2354
Domain: System / Kernel;