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-rw-r--r--drivers/block/Kconfig11
-rw-r--r--drivers/block/Makefile1
-rw-r--r--drivers/block/acsi_slm.c1032
-rw-r--r--drivers/block/umem.c58
4 files changed, 6 insertions, 1096 deletions
diff --git a/drivers/block/Kconfig b/drivers/block/Kconfig
index e49162b15578..c5a61571a076 100644
--- a/drivers/block/Kconfig
+++ b/drivers/block/Kconfig
@@ -59,17 +59,6 @@ config AMIGA_Z2RAM
59 To compile this driver as a module, choose M here: the 59 To compile this driver as a module, choose M here: the
60 module will be called z2ram. 60 module will be called z2ram.
61 61
62config ATARI_SLM
63 tristate "Atari SLM laser printer support"
64 depends on ATARI
65 help
66 If you have an Atari SLM laser printer, say Y to include support for
67 it in the kernel. Otherwise, say N. This driver is also available as
68 a module ( = code which can be inserted in and removed from the
69 running kernel whenever you want). The module will be called
70 acsi_slm. Be warned: the driver needs much ST-RAM and can cause
71 problems due to that fact!
72
73config BLK_DEV_XD 62config BLK_DEV_XD
74 tristate "XT hard disk support" 63 tristate "XT hard disk support"
75 depends on ISA && ISA_DMA_API 64 depends on ISA && ISA_DMA_API
diff --git a/drivers/block/Makefile b/drivers/block/Makefile
index 43371c59623e..7926be8c9fb7 100644
--- a/drivers/block/Makefile
+++ b/drivers/block/Makefile
@@ -9,7 +9,6 @@ obj-$(CONFIG_MAC_FLOPPY) += swim3.o
9obj-$(CONFIG_BLK_DEV_FD) += floppy.o 9obj-$(CONFIG_BLK_DEV_FD) += floppy.o
10obj-$(CONFIG_AMIGA_FLOPPY) += amiflop.o 10obj-$(CONFIG_AMIGA_FLOPPY) += amiflop.o
11obj-$(CONFIG_ATARI_FLOPPY) += ataflop.o 11obj-$(CONFIG_ATARI_FLOPPY) += ataflop.o
12obj-$(CONFIG_ATARI_SLM) += acsi_slm.o
13obj-$(CONFIG_AMIGA_Z2RAM) += z2ram.o 12obj-$(CONFIG_AMIGA_Z2RAM) += z2ram.o
14obj-$(CONFIG_BLK_DEV_RAM) += rd.o 13obj-$(CONFIG_BLK_DEV_RAM) += rd.o
15obj-$(CONFIG_BLK_DEV_LOOP) += loop.o 14obj-$(CONFIG_BLK_DEV_LOOP) += loop.o
diff --git a/drivers/block/acsi_slm.c b/drivers/block/acsi_slm.c
deleted file mode 100644
index 1d9d9b4f48cc..000000000000
--- a/drivers/block/acsi_slm.c
+++ /dev/null
@@ -1,1032 +0,0 @@
1/*
2 * acsi_slm.c -- Device driver for the Atari SLM laser printer
3 *
4 * Copyright 1995 Roman Hodek <Roman.Hodek@informatik.uni-erlangen.de>
5 *
6 * This file is subject to the terms and conditions of the GNU General Public
7 * License. See the file COPYING in the main directory of this archive for
8 * more details.
9 *
10 */
11
12/*
13
14Notes:
15
16The major number for SLM printers is 28 (like ACSI), but as a character
17device, not block device. The minor number is the number of the printer (if
18you have more than one SLM; currently max. 2 (#define-constant) SLMs are
19supported). The device can be opened for reading and writing. If reading it,
20you get some status infos (MODE SENSE data). Writing mode is used for the data
21to be printed. Some ioctls allow to get the printer status and to tune printer
22modes and some internal variables.
23
24A special problem of the SLM driver is the timing and thus the buffering of
25the print data. The problem is that all the data for one page must be present
26in memory when printing starts, else --when swapping occurs-- the timing could
27not be guaranteed. There are several ways to assure this:
28
29 1) Reserve a buffer of 1196k (maximum page size) statically by
30 atari_stram_alloc(). The data are collected there until they're complete,
31 and then printing starts. Since the buffer is reserved, no further
32 considerations about memory and swapping are needed. So this is the
33 simplest method, but it needs a lot of memory for just the SLM.
34
35 An striking advantage of this method is (supposed the SLM_CONT_CNT_REPROG
36 method works, see there), that there are no timing problems with the DMA
37 anymore.
38
39 2) The other method would be to reserve the buffer dynamically each time
40 printing is required. I could think of looking at mem_map where the
41 largest unallocted ST-RAM area is, taking the area, and then extending it
42 by swapping out the neighbored pages, until the needed size is reached.
43 This requires some mm hacking, but seems possible. The only obstacle could
44 be pages that cannot be swapped out (reserved pages)...
45
46 3) Another possibility would be to leave the real data in user space and to
47 work with two dribble buffers of about 32k in the driver: While the one
48 buffer is DMAed to the SLM, the other can be filled with new data. But
49 to keep the timing, that requires that the user data remain in memory and
50 are not swapped out. Requires mm hacking, too, but maybe not so bad as
51 method 2).
52
53*/
54
55#include <linux/module.h>
56
57#include <linux/errno.h>
58#include <linux/sched.h>
59#include <linux/timer.h>
60#include <linux/fs.h>
61#include <linux/major.h>
62#include <linux/kernel.h>
63#include <linux/delay.h>
64#include <linux/interrupt.h>
65#include <linux/time.h>
66#include <linux/mm.h>
67#include <linux/slab.h>
68
69#include <asm/pgtable.h>
70#include <asm/system.h>
71#include <asm/uaccess.h>
72#include <asm/atarihw.h>
73#include <asm/atariints.h>
74#include <asm/atari_acsi.h>
75#include <asm/atari_stdma.h>
76#include <asm/atari_stram.h>
77#include <asm/atari_SLM.h>
78
79
80#undef DEBUG
81
82/* Define this if the page data are continuous in physical memory. That
83 * requires less reprogramming of the ST-DMA */
84#define SLM_CONTINUOUS_DMA
85
86/* Use continuous reprogramming of the ST-DMA counter register. This is
87 * --strictly speaking-- not allowed, Atari recommends not to look at the
88 * counter register while a DMA is going on. But I don't know if that applies
89 * only for reading the register, or also writing to it. Writing only works
90 * fine for me... The advantage is that the timing becomes absolutely
91 * uncritical: Just update each, say 200ms, the counter reg to its maximum,
92 * and the DMA will work until the status byte interrupt occurs.
93 */
94#define SLM_CONT_CNT_REPROG
95
96#define CMDSET_TARG_LUN(cmd,targ,lun) \
97 do { \
98 cmd[0] = (cmd[0] & ~0xe0) | (targ)<<5; \
99 cmd[1] = (cmd[1] & ~0xe0) | (lun)<<5; \
100 } while(0)
101
102#define START_TIMER(to) mod_timer(&slm_timer, jiffies + (to))
103#define STOP_TIMER() del_timer(&slm_timer)
104
105
106static char slmreqsense_cmd[6] = { 0x03, 0, 0, 0, 0, 0 };
107static char slmprint_cmd[6] = { 0x0a, 0, 0, 0, 0, 0 };
108static char slminquiry_cmd[6] = { 0x12, 0, 0, 0, 0, 0x80 };
109static char slmmsense_cmd[6] = { 0x1a, 0, 0, 0, 255, 0 };
110#if 0
111static char slmmselect_cmd[6] = { 0x15, 0, 0, 0, 0, 0 };
112#endif
113
114
115#define MAX_SLM 2
116
117static struct slm {
118 unsigned target; /* target number */
119 unsigned lun; /* LUN in target controller */
120 atomic_t wr_ok; /* set to 0 if output part busy */
121 atomic_t rd_ok; /* set to 0 if status part busy */
122} slm_info[MAX_SLM];
123
124int N_SLM_Printers = 0;
125
126/* printer buffer */
127static unsigned char *SLMBuffer; /* start of buffer */
128static unsigned char *BufferP; /* current position in buffer */
129static int BufferSize; /* length of buffer for page size */
130
131typedef enum { IDLE, FILLING, PRINTING } SLMSTATE;
132static SLMSTATE SLMState;
133static int SLMBufOwner; /* SLM# currently using the buffer */
134
135/* DMA variables */
136#ifndef SLM_CONT_CNT_REPROG
137static unsigned long SLMCurAddr; /* current base addr of DMA chunk */
138static unsigned long SLMEndAddr; /* expected end addr */
139static unsigned long SLMSliceSize; /* size of one DMA chunk */
140#endif
141static int SLMError;
142
143/* wait queues */
144static DECLARE_WAIT_QUEUE_HEAD(slm_wait); /* waiting for buffer */
145static DECLARE_WAIT_QUEUE_HEAD(print_wait); /* waiting for printing finished */
146
147/* status codes */
148#define SLMSTAT_OK 0x00
149#define SLMSTAT_ORNERY 0x02
150#define SLMSTAT_TONER 0x03
151#define SLMSTAT_WARMUP 0x04
152#define SLMSTAT_PAPER 0x05
153#define SLMSTAT_DRUM 0x06
154#define SLMSTAT_INJAM 0x07
155#define SLMSTAT_THRJAM 0x08
156#define SLMSTAT_OUTJAM 0x09
157#define SLMSTAT_COVER 0x0a
158#define SLMSTAT_FUSER 0x0b
159#define SLMSTAT_IMAGER 0x0c
160#define SLMSTAT_MOTOR 0x0d
161#define SLMSTAT_VIDEO 0x0e
162#define SLMSTAT_SYSTO 0x10
163#define SLMSTAT_OPCODE 0x12
164#define SLMSTAT_DEVNUM 0x15
165#define SLMSTAT_PARAM 0x1a
166#define SLMSTAT_ACSITO 0x1b /* driver defined */
167#define SLMSTAT_NOTALL 0x1c /* driver defined */
168
169static char *SLMErrors[] = {
170 /* 0x00 */ "OK and ready",
171 /* 0x01 */ NULL,
172 /* 0x02 */ "ornery printer",
173 /* 0x03 */ "toner empty",
174 /* 0x04 */ "warming up",
175 /* 0x05 */ "paper empty",
176 /* 0x06 */ "drum empty",
177 /* 0x07 */ "input jam",
178 /* 0x08 */ "through jam",
179 /* 0x09 */ "output jam",
180 /* 0x0a */ "cover open",
181 /* 0x0b */ "fuser malfunction",
182 /* 0x0c */ "imager malfunction",
183 /* 0x0d */ "motor malfunction",
184 /* 0x0e */ "video malfunction",
185 /* 0x0f */ NULL,
186 /* 0x10 */ "printer system timeout",
187 /* 0x11 */ NULL,
188 /* 0x12 */ "invalid operation code",
189 /* 0x13 */ NULL,
190 /* 0x14 */ NULL,
191 /* 0x15 */ "invalid device number",
192 /* 0x16 */ NULL,
193 /* 0x17 */ NULL,
194 /* 0x18 */ NULL,
195 /* 0x19 */ NULL,
196 /* 0x1a */ "invalid parameter list",
197 /* 0x1b */ "ACSI timeout",
198 /* 0x1c */ "not all printed"
199};
200
201#define N_ERRORS (sizeof(SLMErrors)/sizeof(*SLMErrors))
202
203/* real (driver caused) error? */
204#define IS_REAL_ERROR(x) (x > 0x10)
205
206
207static struct {
208 char *name;
209 int w, h;
210} StdPageSize[] = {
211 { "Letter", 2400, 3180 },
212 { "Legal", 2400, 4080 },
213 { "A4", 2336, 3386 },
214 { "B5", 2016, 2914 }
215};
216
217#define N_STD_SIZES (sizeof(StdPageSize)/sizeof(*StdPageSize))
218
219#define SLM_BUFFER_SIZE (2336*3386/8) /* A4 for now */
220#define SLM_DMA_AMOUNT 255 /* #sectors to program the DMA for */
221
222#ifdef SLM_CONTINUOUS_DMA
223# define SLM_DMA_INT_OFFSET 0 /* DMA goes until seccnt 0, no offs */
224# define SLM_DMA_END_OFFSET 32 /* 32 Byte ST-DMA FIFO */
225# define SLM_SLICE_SIZE(w) (255*512)
226#else
227# define SLM_DMA_INT_OFFSET 32 /* 32 Byte ST-DMA FIFO */
228# define SLM_DMA_END_OFFSET 32 /* 32 Byte ST-DMA FIFO */
229# define SLM_SLICE_SIZE(w) ((254*512)/(w/8)*(w/8))
230#endif
231
232/* calculate the number of jiffies to wait for 'n' bytes */
233#ifdef SLM_CONT_CNT_REPROG
234#define DMA_TIME_FOR(n) 50
235#define DMA_STARTUP_TIME 0
236#else
237#define DMA_TIME_FOR(n) (n/1400-1)
238#define DMA_STARTUP_TIME 650
239#endif
240
241/***************************** Prototypes *****************************/
242
243static char *slm_errstr( int stat );
244static int slm_getstats( char *buffer, int device );
245static ssize_t slm_read( struct file* file, char *buf, size_t count, loff_t
246 *ppos );
247static void start_print( int device );
248static irqreturn_t slm_interrupt(int irc, void *data);
249static void slm_test_ready( unsigned long dummy );
250static void set_dma_addr( unsigned long paddr );
251static unsigned long get_dma_addr( void );
252static ssize_t slm_write( struct file *file, const char *buf, size_t count,
253 loff_t *ppos );
254static int slm_ioctl( struct inode *inode, struct file *file, unsigned int
255 cmd, unsigned long arg );
256static int slm_open( struct inode *inode, struct file *file );
257static int slm_release( struct inode *inode, struct file *file );
258static int slm_req_sense( int device );
259static int slm_mode_sense( int device, char *buffer, int abs_flag );
260#if 0
261static int slm_mode_select( int device, char *buffer, int len, int
262 default_flag );
263#endif
264static int slm_get_pagesize( int device, int *w, int *h );
265
266/************************* End of Prototypes **************************/
267
268
269static DEFINE_TIMER(slm_timer, slm_test_ready, 0, 0);
270
271static const struct file_operations slm_fops = {
272 .owner = THIS_MODULE,
273 .read = slm_read,
274 .write = slm_write,
275 .ioctl = slm_ioctl,
276 .open = slm_open,
277 .release = slm_release,
278};
279
280
281/* ---------------------------------------------------------------------- */
282/* Status Functions */
283
284
285static char *slm_errstr( int stat )
286
287{ char *p;
288 static char str[22];
289
290 stat &= 0x1f;
291 if (stat >= 0 && stat < N_ERRORS && (p = SLMErrors[stat]))
292 return( p );
293 sprintf( str, "unknown status 0x%02x", stat );
294 return( str );
295}
296
297
298static int slm_getstats( char *buffer, int device )
299
300{ int len = 0, stat, i, w, h;
301 unsigned char buf[256];
302
303 stat = slm_mode_sense( device, buf, 0 );
304 if (IS_REAL_ERROR(stat))
305 return( -EIO );
306
307#define SHORTDATA(i) ((buf[i] << 8) | buf[i+1])
308#define BOOLDATA(i,mask) ((buf[i] & mask) ? "on" : "off")
309
310 w = SHORTDATA( 3 );
311 h = SHORTDATA( 1 );
312
313 len += sprintf( buffer+len, "Status\t\t%s\n",
314 slm_errstr( stat ) );
315 len += sprintf( buffer+len, "Page Size\t%dx%d",
316 w, h );
317
318 for( i = 0; i < N_STD_SIZES; ++i ) {
319 if (w == StdPageSize[i].w && h == StdPageSize[i].h)
320 break;
321 }
322 if (i < N_STD_SIZES)
323 len += sprintf( buffer+len, " (%s)", StdPageSize[i].name );
324 buffer[len++] = '\n';
325
326 len += sprintf( buffer+len, "Top/Left Margin\t%d/%d\n",
327 SHORTDATA( 5 ), SHORTDATA( 7 ) );
328 len += sprintf( buffer+len, "Manual Feed\t%s\n",
329 BOOLDATA( 9, 0x01 ) );
330 len += sprintf( buffer+len, "Input Select\t%d\n",
331 (buf[9] >> 1) & 7 );
332 len += sprintf( buffer+len, "Auto Select\t%s\n",
333 BOOLDATA( 9, 0x10 ) );
334 len += sprintf( buffer+len, "Prefeed Paper\t%s\n",
335 BOOLDATA( 9, 0x20 ) );
336 len += sprintf( buffer+len, "Thick Pixels\t%s\n",
337 BOOLDATA( 9, 0x40 ) );
338 len += sprintf( buffer+len, "H/V Resol.\t%d/%d dpi\n",
339 SHORTDATA( 12 ), SHORTDATA( 10 ) );
340 len += sprintf( buffer+len, "System Timeout\t%d\n",
341 buf[14] );
342 len += sprintf( buffer+len, "Scan Time\t%d\n",
343 SHORTDATA( 15 ) );
344 len += sprintf( buffer+len, "Page Count\t%d\n",
345 SHORTDATA( 17 ) );
346 len += sprintf( buffer+len, "In/Out Cap.\t%d/%d\n",
347 SHORTDATA( 19 ), SHORTDATA( 21 ) );
348 len += sprintf( buffer+len, "Stagger Output\t%s\n",
349 BOOLDATA( 23, 0x01 ) );
350 len += sprintf( buffer+len, "Output Select\t%d\n",
351 (buf[23] >> 1) & 7 );
352 len += sprintf( buffer+len, "Duplex Print\t%s\n",
353 BOOLDATA( 23, 0x10 ) );
354 len += sprintf( buffer+len, "Color Sep.\t%s\n",
355 BOOLDATA( 23, 0x20 ) );
356
357 return( len );
358}
359
360
361static ssize_t slm_read( struct file *file, char *buf, size_t count,
362 loff_t *ppos )
363
364{
365 struct inode *node = file->f_path.dentry->d_inode;
366 unsigned long page;
367 int length;
368 int end;
369
370 if (!(page = __get_free_page( GFP_KERNEL )))
371 return( -ENOMEM );
372
373 length = slm_getstats( (char *)page, iminor(node) );
374 if (length < 0) {
375 count = length;
376 goto out;
377 }
378 if (file->f_pos >= length) {
379 count = 0;
380 goto out;
381 }
382 if (count + file->f_pos > length)
383 count = length - file->f_pos;
384 end = count + file->f_pos;
385 if (copy_to_user(buf, (char *)page + file->f_pos, count)) {
386 count = -EFAULT;
387 goto out;
388 }
389 file->f_pos = end;
390out: free_page( page );
391 return( count );
392}
393
394
395/* ---------------------------------------------------------------------- */
396/* Printing */
397
398
399static void start_print( int device )
400
401{ struct slm *sip = &slm_info[device];
402 unsigned char *cmd;
403 unsigned long paddr;
404 int i;
405
406 stdma_lock( slm_interrupt, NULL );
407
408 CMDSET_TARG_LUN( slmprint_cmd, sip->target, sip->lun );
409 cmd = slmprint_cmd;
410 paddr = virt_to_phys( SLMBuffer );
411 dma_cache_maintenance( paddr, virt_to_phys(BufferP)-paddr, 1 );
412 DISABLE_IRQ();
413
414 /* Low on A1 */
415 dma_wd.dma_mode_status = 0x88;
416 MFPDELAY();
417
418 /* send the command bytes except the last */
419 for( i = 0; i < 5; ++i ) {
420 DMA_LONG_WRITE( *cmd++, 0x8a );
421 udelay(20);
422 if (!acsi_wait_for_IRQ( HZ/2 )) {
423 SLMError = 1;
424 return; /* timeout */
425 }
426 }
427 /* last command byte */
428 DMA_LONG_WRITE( *cmd++, 0x82 );
429 MFPDELAY();
430 /* set DMA address */
431 set_dma_addr( paddr );
432 /* program DMA for write and select sector counter reg */
433 dma_wd.dma_mode_status = 0x192;
434 MFPDELAY();
435 /* program for 255*512 bytes and start DMA */
436 DMA_LONG_WRITE( SLM_DMA_AMOUNT, 0x112 );
437
438#ifndef SLM_CONT_CNT_REPROG
439 SLMCurAddr = paddr;
440 SLMEndAddr = paddr + SLMSliceSize + SLM_DMA_INT_OFFSET;
441#endif
442 START_TIMER( DMA_STARTUP_TIME + DMA_TIME_FOR( SLMSliceSize ));
443#if !defined(SLM_CONT_CNT_REPROG) && defined(DEBUG)
444 printk( "SLM: CurAddr=%#lx EndAddr=%#lx timer=%ld\n",
445 SLMCurAddr, SLMEndAddr, DMA_TIME_FOR( SLMSliceSize ) );
446#endif
447
448 ENABLE_IRQ();
449}
450
451
452/* Only called when an error happened or at the end of a page */
453
454static irqreturn_t slm_interrupt(int irc, void *data)
455
456{ unsigned long addr;
457 int stat;
458
459 STOP_TIMER();
460 addr = get_dma_addr();
461 stat = acsi_getstatus();
462 SLMError = (stat < 0) ? SLMSTAT_ACSITO :
463 (addr < virt_to_phys(BufferP)) ? SLMSTAT_NOTALL :
464 stat;
465
466 dma_wd.dma_mode_status = 0x80;
467 MFPDELAY();
468#ifdef DEBUG
469 printk( "SLM: interrupt, addr=%#lx, error=%d\n", addr, SLMError );
470#endif
471
472 wake_up( &print_wait );
473 stdma_release();
474 ENABLE_IRQ();
475 return IRQ_HANDLED;
476}
477
478
479static void slm_test_ready( unsigned long dummy )
480
481{
482#ifdef SLM_CONT_CNT_REPROG
483 /* program for 255*512 bytes again */
484 dma_wd.fdc_acces_seccount = SLM_DMA_AMOUNT;
485 START_TIMER( DMA_TIME_FOR(0) );
486#ifdef DEBUG
487 printk( "SLM: reprogramming timer for %d jiffies, addr=%#lx\n",
488 DMA_TIME_FOR(0), get_dma_addr() );
489#endif
490
491#else /* !SLM_CONT_CNT_REPROG */
492
493 unsigned long flags, addr;
494 int d, ti;
495#ifdef DEBUG
496 struct timeval start_tm, end_tm;
497 int did_wait = 0;
498#endif
499
500 local_irq_save(flags);
501
502 addr = get_dma_addr();
503 if ((d = SLMEndAddr - addr) > 0) {
504 local_irq_restore(flags);
505
506 /* slice not yet finished, decide whether to start another timer or to
507 * busy-wait */
508 ti = DMA_TIME_FOR( d );
509 if (ti > 0) {
510#ifdef DEBUG
511 printk( "SLM: reprogramming timer for %d jiffies, rest %d bytes\n",
512 ti, d );
513#endif
514 START_TIMER( ti );
515 return;
516 }
517 /* wait for desired end address to be reached */
518#ifdef DEBUG
519 do_gettimeofday( &start_tm );
520 did_wait = 1;
521#endif
522 local_irq_disable();
523 while( get_dma_addr() < SLMEndAddr )
524 barrier();
525 }
526
527 /* slice finished, start next one */
528 SLMCurAddr += SLMSliceSize;
529
530#ifdef SLM_CONTINUOUS_DMA
531 /* program for 255*512 bytes again */
532 dma_wd.fdc_acces_seccount = SLM_DMA_AMOUNT;
533#else
534 /* set DMA address;
535 * add 2 bytes for the ones in the SLM controller FIFO! */
536 set_dma_addr( SLMCurAddr + 2 );
537 /* toggle DMA to write and select sector counter reg */
538 dma_wd.dma_mode_status = 0x92;
539 MFPDELAY();
540 dma_wd.dma_mode_status = 0x192;
541 MFPDELAY();
542 /* program for 255*512 bytes and start DMA */
543 DMA_LONG_WRITE( SLM_DMA_AMOUNT, 0x112 );
544#endif
545
546 local_irq_restore(flags);
547
548#ifdef DEBUG
549 if (did_wait) {
550 int ms;
551 do_gettimeofday( &end_tm );
552 ms = (end_tm.tv_sec*1000000+end_tm.tv_usec) -
553 (start_tm.tv_sec*1000000+start_tm.tv_usec);
554 printk( "SLM: did %ld.%ld ms busy waiting for %d bytes\n",
555 ms/1000, ms%1000, d );
556 }
557 else
558 printk( "SLM: didn't wait (!)\n" );
559#endif
560
561 if ((unsigned char *)PTOV( SLMCurAddr + SLMSliceSize ) >= BufferP) {
562 /* will be last slice, no timer necessary */
563#ifdef DEBUG
564 printk( "SLM: CurAddr=%#lx EndAddr=%#lx last slice -> no timer\n",
565 SLMCurAddr, SLMEndAddr );
566#endif
567 }
568 else {
569 /* not last slice */
570 SLMEndAddr = SLMCurAddr + SLMSliceSize + SLM_DMA_INT_OFFSET;
571 START_TIMER( DMA_TIME_FOR( SLMSliceSize ));
572#ifdef DEBUG
573 printk( "SLM: CurAddr=%#lx EndAddr=%#lx timer=%ld\n",
574 SLMCurAddr, SLMEndAddr, DMA_TIME_FOR( SLMSliceSize ) );
575#endif
576 }
577#endif /* SLM_CONT_CNT_REPROG */
578}
579
580
581static void set_dma_addr( unsigned long paddr )
582
583{ unsigned long flags;
584
585 local_irq_save(flags);
586 dma_wd.dma_lo = (unsigned char)paddr;
587 paddr >>= 8;
588 MFPDELAY();
589 dma_wd.dma_md = (unsigned char)paddr;
590 paddr >>= 8;
591 MFPDELAY();
592 if (ATARIHW_PRESENT( EXTD_DMA ))
593 st_dma_ext_dmahi = (unsigned short)paddr;
594 else
595 dma_wd.dma_hi = (unsigned char)paddr;
596 MFPDELAY();
597 local_irq_restore(flags);
598}
599
600
601static unsigned long get_dma_addr( void )
602
603{ unsigned long addr;
604
605 addr = dma_wd.dma_lo & 0xff;
606 MFPDELAY();
607 addr |= (dma_wd.dma_md & 0xff) << 8;
608 MFPDELAY();
609 addr |= (dma_wd.dma_hi & 0xff) << 16;
610 MFPDELAY();
611
612 return( addr );
613}
614
615
616static ssize_t slm_write( struct file *file, const char *buf, size_t count,
617 loff_t *ppos )
618
619{
620 struct inode *node = file->f_path.dentry->d_inode;
621 int device = iminor(node);
622 int n, filled, w, h;
623
624 while( SLMState == PRINTING ||
625 (SLMState == FILLING && SLMBufOwner != device) ) {
626 interruptible_sleep_on( &slm_wait );
627 if (signal_pending(current))
628 return( -ERESTARTSYS );
629 }
630 if (SLMState == IDLE) {
631 /* first data of page: get current page size */
632 if (slm_get_pagesize( device, &w, &h ))
633 return( -EIO );
634 BufferSize = w*h/8;
635 if (BufferSize > SLM_BUFFER_SIZE)
636 return( -ENOMEM );
637
638 SLMState = FILLING;
639 SLMBufOwner = device;
640 }
641
642 n = count;
643 filled = BufferP - SLMBuffer;
644 if (filled + n > BufferSize)
645 n = BufferSize - filled;
646
647 if (copy_from_user(BufferP, buf, n))
648 return -EFAULT;
649 BufferP += n;
650 filled += n;
651
652 if (filled == BufferSize) {
653 /* Check the paper size again! The user may have switched it in the
654 * time between starting the data and finishing them. Would end up in
655 * a trashy page... */
656 if (slm_get_pagesize( device, &w, &h ))
657 return( -EIO );
658 if (BufferSize != w*h/8) {
659 printk( KERN_NOTICE "slm%d: page size changed while printing\n",
660 device );
661 return( -EAGAIN );
662 }
663
664 SLMState = PRINTING;
665 /* choose a slice size that is a multiple of the line size */
666#ifndef SLM_CONT_CNT_REPROG
667 SLMSliceSize = SLM_SLICE_SIZE(w);
668#endif
669
670 start_print( device );
671 sleep_on( &print_wait );
672 if (SLMError && IS_REAL_ERROR(SLMError)) {
673 printk( KERN_ERR "slm%d: %s\n", device, slm_errstr(SLMError) );
674 n = -EIO;
675 }
676
677 SLMState = IDLE;
678 BufferP = SLMBuffer;
679 wake_up_interruptible( &slm_wait );
680 }
681
682 return( n );
683}
684
685
686/* ---------------------------------------------------------------------- */
687/* ioctl Functions */
688
689
690static int slm_ioctl( struct inode *inode, struct file *file,
691 unsigned int cmd, unsigned long arg )
692
693{ int device = iminor(inode), err;
694
695 /* I can think of setting:
696 * - manual feed
697 * - paper format
698 * - copy count
699 * - ...
700 * but haven't implemented that yet :-)
701 * BTW, has anybody better docs about the MODE SENSE/MODE SELECT data?
702 */
703 switch( cmd ) {
704
705 case SLMIORESET: /* reset buffer, i.e. empty the buffer */
706 if (!(file->f_mode & 2))
707 return( -EINVAL );
708 if (SLMState == PRINTING)
709 return( -EBUSY );
710 SLMState = IDLE;
711 BufferP = SLMBuffer;
712 wake_up_interruptible( &slm_wait );
713 return( 0 );
714
715 case SLMIOGSTAT: { /* get status */
716 int stat;
717 char *str;
718
719 stat = slm_req_sense( device );
720 if (arg) {
721 str = slm_errstr( stat );
722 if (put_user(stat,
723 (long *)&((struct SLM_status *)arg)->stat))
724 return -EFAULT;
725 if (copy_to_user( ((struct SLM_status *)arg)->str, str,
726 strlen(str) + 1))
727 return -EFAULT;
728 }
729 return( stat );
730 }
731
732 case SLMIOGPSIZE: { /* get paper size */
733 int w, h;
734
735 if ((err = slm_get_pagesize( device, &w, &h ))) return( err );
736
737 if (put_user(w, (long *)&((struct SLM_paper_size *)arg)->width))
738 return -EFAULT;
739 if (put_user(h, (long *)&((struct SLM_paper_size *)arg)->height))
740 return -EFAULT;
741 return( 0 );
742 }
743
744 case SLMIOGMFEED: /* get manual feed */
745 return( -EINVAL );
746
747 case SLMIOSPSIZE: /* set paper size */
748 return( -EINVAL );
749
750 case SLMIOSMFEED: /* set manual feed */
751 return( -EINVAL );
752
753 }
754 return( -EINVAL );
755}
756
757
758/* ---------------------------------------------------------------------- */
759/* Opening and Closing */
760
761
762static int slm_open( struct inode *inode, struct file *file )
763
764{ int device;
765 struct slm *sip;
766
767 device = iminor(inode);
768 if (device >= N_SLM_Printers)
769 return( -ENXIO );
770 sip = &slm_info[device];
771
772 if (file->f_mode & 2) {
773 /* open for writing is exclusive */
774 if ( !atomic_dec_and_test(&sip->wr_ok) ) {
775 atomic_inc(&sip->wr_ok);
776 return( -EBUSY );
777 }
778 }
779 if (file->f_mode & 1) {
780 /* open for reading is exclusive */
781 if ( !atomic_dec_and_test(&sip->rd_ok) ) {
782 atomic_inc(&sip->rd_ok);
783 return( -EBUSY );
784 }
785 }
786
787 return( 0 );
788}
789
790
791static int slm_release( struct inode *inode, struct file *file )
792
793{ int device;
794 struct slm *sip;
795
796 device = iminor(inode);
797 sip = &slm_info[device];
798
799 if (file->f_mode & 2)
800 atomic_inc( &sip->wr_ok );
801 if (file->f_mode & 1)
802 atomic_inc( &sip->rd_ok );
803
804 return( 0 );
805}
806
807
808/* ---------------------------------------------------------------------- */
809/* ACSI Primitives for the SLM */
810
811
812static int slm_req_sense( int device )
813
814{ int stat, rv;
815 struct slm *sip = &slm_info[device];
816
817 stdma_lock( NULL, NULL );
818
819 CMDSET_TARG_LUN( slmreqsense_cmd, sip->target, sip->lun );
820 if (!acsicmd_nodma( slmreqsense_cmd, 0 ) ||
821 (stat = acsi_getstatus()) < 0)
822 rv = SLMSTAT_ACSITO;
823 else
824 rv = stat & 0x1f;
825
826 ENABLE_IRQ();
827 stdma_release();
828 return( rv );
829}
830
831
832static int slm_mode_sense( int device, char *buffer, int abs_flag )
833
834{ unsigned char stat, len;
835 int rv = 0;
836 struct slm *sip = &slm_info[device];
837
838 stdma_lock( NULL, NULL );
839
840 CMDSET_TARG_LUN( slmmsense_cmd, sip->target, sip->lun );
841 slmmsense_cmd[5] = abs_flag ? 0x80 : 0;
842 if (!acsicmd_nodma( slmmsense_cmd, 0 )) {
843 rv = SLMSTAT_ACSITO;
844 goto the_end;
845 }
846
847 if (!acsi_extstatus( &stat, 1 )) {
848 acsi_end_extstatus();
849 rv = SLMSTAT_ACSITO;
850 goto the_end;
851 }
852
853 if (!acsi_extstatus( &len, 1 )) {
854 acsi_end_extstatus();
855 rv = SLMSTAT_ACSITO;
856 goto the_end;
857 }
858 buffer[0] = len;
859 if (!acsi_extstatus( buffer+1, len )) {
860 acsi_end_extstatus();
861 rv = SLMSTAT_ACSITO;
862 goto the_end;
863 }
864
865 acsi_end_extstatus();
866 rv = stat & 0x1f;
867
868 the_end:
869 ENABLE_IRQ();
870 stdma_release();
871 return( rv );
872}
873
874
875#if 0
876/* currently unused */
877static int slm_mode_select( int device, char *buffer, int len,
878 int default_flag )
879
880{ int stat, rv;
881 struct slm *sip = &slm_info[device];
882
883 stdma_lock( NULL, NULL );
884
885 CMDSET_TARG_LUN( slmmselect_cmd, sip->target, sip->lun );
886 slmmselect_cmd[5] = default_flag ? 0x80 : 0;
887 if (!acsicmd_nodma( slmmselect_cmd, 0 )) {
888 rv = SLMSTAT_ACSITO;
889 goto the_end;
890 }
891
892 if (!default_flag) {
893 unsigned char c = len;
894 if (!acsi_extcmd( &c, 1 )) {
895 rv = SLMSTAT_ACSITO;
896 goto the_end;
897 }
898 if (!acsi_extcmd( buffer, len )) {
899 rv = SLMSTAT_ACSITO;
900 goto the_end;
901 }
902 }
903
904 stat = acsi_getstatus();
905 rv = (stat < 0 ? SLMSTAT_ACSITO : stat);
906
907 the_end:
908 ENABLE_IRQ();
909 stdma_release();
910 return( rv );
911}
912#endif
913
914
915static int slm_get_pagesize( int device, int *w, int *h )
916
917{ char buf[256];
918 int stat;
919
920 stat = slm_mode_sense( device, buf, 0 );
921 ENABLE_IRQ();
922 stdma_release();
923
924 if (stat != SLMSTAT_OK)
925 return( -EIO );
926
927 *w = (buf[3] << 8) | buf[4];
928 *h = (buf[1] << 8) | buf[2];
929 return( 0 );
930}
931
932
933/* ---------------------------------------------------------------------- */
934/* Initialization */
935
936
937int attach_slm( int target, int lun )
938
939{ static int did_register;
940 int len;
941
942 if (N_SLM_Printers >= MAX_SLM) {
943 printk( KERN_WARNING "Too much SLMs\n" );
944 return( 0 );
945 }
946
947 /* do an INQUIRY */
948 udelay(100);
949 CMDSET_TARG_LUN( slminquiry_cmd, target, lun );
950 if (!acsicmd_nodma( slminquiry_cmd, 0 )) {
951 inq_timeout:
952 printk( KERN_ERR "SLM inquiry command timed out.\n" );
953 inq_fail:
954 acsi_end_extstatus();
955 return( 0 );
956 }
957 /* read status and header of return data */
958 if (!acsi_extstatus( SLMBuffer, 6 ))
959 goto inq_timeout;
960
961 if (SLMBuffer[1] != 2) { /* device type == printer? */
962 printk( KERN_ERR "SLM inquiry returned device type != printer\n" );
963 goto inq_fail;
964 }
965 len = SLMBuffer[5];
966
967 /* read id string */
968 if (!acsi_extstatus( SLMBuffer, len ))
969 goto inq_timeout;
970 acsi_end_extstatus();
971 SLMBuffer[len] = 0;
972
973 if (!did_register) {
974 did_register = 1;
975 }
976
977 slm_info[N_SLM_Printers].target = target;
978 slm_info[N_SLM_Printers].lun = lun;
979 atomic_set(&slm_info[N_SLM_Printers].wr_ok, 1 );
980 atomic_set(&slm_info[N_SLM_Printers].rd_ok, 1 );
981
982 printk( KERN_INFO " Printer: %s\n", SLMBuffer );
983 printk( KERN_INFO "Detected slm%d at id %d lun %d\n",
984 N_SLM_Printers, target, lun );
985 N_SLM_Printers++;
986 return( 1 );
987}
988
989int slm_init( void )
990
991{
992 int i;
993 if (register_chrdev( ACSI_MAJOR, "slm", &slm_fops )) {
994 printk( KERN_ERR "Unable to get major %d for ACSI SLM\n", ACSI_MAJOR );
995 return -EBUSY;
996 }
997
998 if (!(SLMBuffer = atari_stram_alloc( SLM_BUFFER_SIZE, "SLM" ))) {
999 printk( KERN_ERR "Unable to get SLM ST-Ram buffer.\n" );
1000 unregister_chrdev( ACSI_MAJOR, "slm" );
1001 return -ENOMEM;
1002 }
1003 BufferP = SLMBuffer;
1004 SLMState = IDLE;
1005
1006 return 0;
1007}
1008
1009#ifdef MODULE
1010
1011/* from acsi.c */
1012void acsi_attach_SLMs( int (*attach_func)( int, int ) );
1013
1014int init_module(void)
1015{
1016 int err;
1017
1018 if ((err = slm_init()))
1019 return( err );
1020 /* This calls attach_slm() for every target/lun where acsi.c detected a
1021 * printer */
1022 acsi_attach_SLMs( attach_slm );
1023 return( 0 );
1024}
1025
1026void cleanup_module(void)
1027{
1028 if (unregister_chrdev( ACSI_MAJOR, "slm" ) != 0)
1029 printk( KERN_ERR "acsi_slm: cleanup_module failed\n");
1030 atari_stram_free( SLMBuffer );
1031}
1032#endif
diff --git a/drivers/block/umem.c b/drivers/block/umem.c
index 6f5d6203d725..dec74bd23496 100644
--- a/drivers/block/umem.c
+++ b/drivers/block/umem.c
@@ -105,12 +105,6 @@ struct cardinfo {
105 unsigned long csr_base; 105 unsigned long csr_base;
106 unsigned char __iomem *csr_remap; 106 unsigned char __iomem *csr_remap;
107 unsigned long csr_len; 107 unsigned long csr_len;
108#ifdef CONFIG_MM_MAP_MEMORY
109 unsigned long mem_base;
110 unsigned char __iomem *mem_remap;
111 unsigned long mem_len;
112#endif
113
114 unsigned int win_size; /* PCI window size */ 108 unsigned int win_size; /* PCI window size */
115 unsigned int mm_size; /* size in kbytes */ 109 unsigned int mm_size; /* size in kbytes */
116 110
@@ -872,10 +866,6 @@ static int __devinit mm_pci_probe(struct pci_dev *dev, const struct pci_device_i
872 866
873 card->csr_base = pci_resource_start(dev, 0); 867 card->csr_base = pci_resource_start(dev, 0);
874 card->csr_len = pci_resource_len(dev, 0); 868 card->csr_len = pci_resource_len(dev, 0);
875#ifdef CONFIG_MM_MAP_MEMORY
876 card->mem_base = pci_resource_start(dev, 1);
877 card->mem_len = pci_resource_len(dev, 1);
878#endif
879 869
880 printk(KERN_INFO "Micro Memory(tm) controller #%d found at %02x:%02x (PCI Mem Module (Battery Backup))\n", 870 printk(KERN_INFO "Micro Memory(tm) controller #%d found at %02x:%02x (PCI Mem Module (Battery Backup))\n",
881 card->card_number, dev->bus->number, dev->devfn); 871 card->card_number, dev->bus->number, dev->devfn);
@@ -903,27 +893,6 @@ static int __devinit mm_pci_probe(struct pci_dev *dev, const struct pci_device_i
903 printk(KERN_INFO "MM%d: CSR 0x%08lx -> 0x%p (0x%lx)\n", card->card_number, 893 printk(KERN_INFO "MM%d: CSR 0x%08lx -> 0x%p (0x%lx)\n", card->card_number,
904 card->csr_base, card->csr_remap, card->csr_len); 894 card->csr_base, card->csr_remap, card->csr_len);
905 895
906#ifdef CONFIG_MM_MAP_MEMORY
907 if (!request_mem_region(card->mem_base, card->mem_len, "Micro Memory")) {
908 printk(KERN_ERR "MM%d: Unable to request memory region\n", card->card_number);
909 ret = -ENOMEM;
910
911 goto failed_req_mem;
912 }
913
914 if (!(card->mem_remap = ioremap(card->mem_base, cards->mem_len))) {
915 printk(KERN_ERR "MM%d: Unable to remap memory region\n", card->card_number);
916 ret = -ENOMEM;
917
918 goto failed_remap_mem;
919 }
920
921 printk(KERN_INFO "MM%d: MEM 0x%8lx -> 0x%8lx (0x%lx)\n", card->card_number,
922 card->mem_base, card->mem_remap, card->mem_len);
923#else
924 printk(KERN_INFO "MM%d: MEM area not remapped (CONFIG_MM_MAP_MEMORY not set)\n",
925 card->card_number);
926#endif
927 switch(card->dev->device) { 896 switch(card->dev->device) {
928 case 0x5415: 897 case 0x5415:
929 card->flags |= UM_FLAG_NO_BYTE_STATUS | UM_FLAG_NO_BATTREG; 898 card->flags |= UM_FLAG_NO_BYTE_STATUS | UM_FLAG_NO_BATTREG;
@@ -1091,12 +1060,6 @@ static int __devinit mm_pci_probe(struct pci_dev *dev, const struct pci_device_i
1091 card->mm_pages[1].desc, 1060 card->mm_pages[1].desc,
1092 card->mm_pages[1].page_dma); 1061 card->mm_pages[1].page_dma);
1093 failed_magic: 1062 failed_magic:
1094#ifdef CONFIG_MM_MAP_MEMORY
1095 iounmap(card->mem_remap);
1096 failed_remap_mem:
1097 release_mem_region(card->mem_base, card->mem_len);
1098 failed_req_mem:
1099#endif
1100 iounmap(card->csr_remap); 1063 iounmap(card->csr_remap);
1101 failed_remap_csr: 1064 failed_remap_csr:
1102 release_mem_region(card->csr_base, card->csr_len); 1065 release_mem_region(card->csr_base, card->csr_len);
@@ -1116,10 +1079,6 @@ static void mm_pci_remove(struct pci_dev *dev)
1116 tasklet_kill(&card->tasklet); 1079 tasklet_kill(&card->tasklet);
1117 iounmap(card->csr_remap); 1080 iounmap(card->csr_remap);
1118 release_mem_region(card->csr_base, card->csr_len); 1081 release_mem_region(card->csr_base, card->csr_len);
1119#ifdef CONFIG_MM_MAP_MEMORY
1120 iounmap(card->mem_remap);
1121 release_mem_region(card->mem_base, card->mem_len);
1122#endif
1123 free_irq(card->irq, card); 1082 free_irq(card->irq, card);
1124 1083
1125 if (card->mm_pages[0].desc) 1084 if (card->mm_pages[0].desc)
@@ -1133,23 +1092,18 @@ static void mm_pci_remove(struct pci_dev *dev)
1133 blk_cleanup_queue(card->queue); 1092 blk_cleanup_queue(card->queue);
1134} 1093}
1135 1094
1136static const struct pci_device_id mm_pci_ids[] = { { 1095static const struct pci_device_id mm_pci_ids[] = {
1137 .vendor = PCI_VENDOR_ID_MICRO_MEMORY, 1096 {PCI_DEVICE(PCI_VENDOR_ID_MICRO_MEMORY,PCI_DEVICE_ID_MICRO_MEMORY_5415CN)},
1138 .device = PCI_DEVICE_ID_MICRO_MEMORY_5415CN, 1097 {PCI_DEVICE(PCI_VENDOR_ID_MICRO_MEMORY,PCI_DEVICE_ID_MICRO_MEMORY_5425CN)},
1139 }, { 1098 {PCI_DEVICE(PCI_VENDOR_ID_MICRO_MEMORY,PCI_DEVICE_ID_MICRO_MEMORY_6155)},
1140 .vendor = PCI_VENDOR_ID_MICRO_MEMORY, 1099 {
1141 .device = PCI_DEVICE_ID_MICRO_MEMORY_5425CN,
1142 }, {
1143 .vendor = PCI_VENDOR_ID_MICRO_MEMORY,
1144 .device = PCI_DEVICE_ID_MICRO_MEMORY_6155,
1145 }, {
1146 .vendor = 0x8086, 1100 .vendor = 0x8086,
1147 .device = 0xB555, 1101 .device = 0xB555,
1148 .subvendor= 0x1332, 1102 .subvendor= 0x1332,
1149 .subdevice= 0x5460, 1103 .subdevice= 0x5460,
1150 .class = 0x050000, 1104 .class = 0x050000,
1151 .class_mask= 0, 1105 .class_mask= 0,
1152 }, { /* end: all zeroes */ } 1106 }, { /* end: all zeroes */ }
1153}; 1107};
1154 1108
1155MODULE_DEVICE_TABLE(pci, mm_pci_ids); 1109MODULE_DEVICE_TABLE(pci, mm_pci_ids);