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[POWERPC] Turn off debugging in arch/powerpc/kernel/pci_64.c
[linux-2.6/linux-acpi-2.6/ibm-acpi-2.6.git] / drivers / s390 / block / xpram.c
bloba04d9120cef0111970cb4980235781a0f76a8a2c
1 /*
2 * Xpram.c -- the S/390 expanded memory RAM-disk
3 *
4 * significant parts of this code are based on
5 * the sbull device driver presented in
6 * A. Rubini: Linux Device Drivers
7 *
8 * Author of XPRAM specific coding: Reinhard Buendgen
9 * buendgen@de.ibm.com
10 * Rewrite for 2.5: Martin Schwidefsky <schwidefsky@de.ibm.com>
11 *
12 * External interfaces:
13 * Interfaces to linux kernel
14 * xpram_setup: read kernel parameters
15 * Device specific file operations
16 * xpram_iotcl
17 * xpram_open
18 *
19 * "ad-hoc" partitioning:
20 * the expanded memory can be partitioned among several devices
21 * (with different minors). The partitioning set up can be
22 * set by kernel or module parameters (int devs & int sizes[])
23 *
24 * Potential future improvements:
25 * generic hard disk support to replace ad-hoc partitioning
26 */
27
28 #include <linux/module.h>
29 #include <linux/moduleparam.h>
30 #include <linux/ctype.h> /* isdigit, isxdigit */
31 #include <linux/errno.h>
32 #include <linux/init.h>
33 #include <linux/slab.h>
34 #include <linux/blkdev.h>
35 #include <linux/blkpg.h>
36 #include <linux/hdreg.h> /* HDIO_GETGEO */
37 #include <linux/sysdev.h>
38 #include <linux/bio.h>
39 #include <asm/uaccess.h>
40
41 #define XPRAM_NAME "xpram"
42 #define XPRAM_DEVS 1 /* one partition */
43 #define XPRAM_MAX_DEVS 32 /* maximal number of devices (partitions) */
44
45 #define PRINT_DEBUG(x...) printk(KERN_DEBUG XPRAM_NAME " debug:" x)
46 #define PRINT_INFO(x...) printk(KERN_INFO XPRAM_NAME " info:" x)
47 #define PRINT_WARN(x...) printk(KERN_WARNING XPRAM_NAME " warning:" x)
48 #define PRINT_ERR(x...) printk(KERN_ERR XPRAM_NAME " error:" x)
49
50
51 typedef struct {
52 unsigned int size; /* size of xpram segment in pages */
53 unsigned int offset; /* start page of xpram segment */
54 } xpram_device_t;
55
56 static xpram_device_t xpram_devices[XPRAM_MAX_DEVS];
57 static unsigned int xpram_sizes[XPRAM_MAX_DEVS];
58 static struct gendisk *xpram_disks[XPRAM_MAX_DEVS];
59 static unsigned int xpram_pages;
60 static int xpram_devs;
61
62 /*
63 * Parameter parsing functions.
64 */
65 static int __initdata devs = XPRAM_DEVS;
66 static char __initdata *sizes[XPRAM_MAX_DEVS];
67
68 module_param(devs, int, 0);
69 module_param_array(sizes, charp, NULL, 0);
70
71 MODULE_PARM_DESC(devs, "number of devices (\"partitions\"), " \
72 "the default is " __MODULE_STRING(XPRAM_DEVS) "\n");
73 MODULE_PARM_DESC(sizes, "list of device (partition) sizes " \
74 "the defaults are 0s \n" \
75 "All devices with size 0 equally partition the "
76 "remaining space on the expanded strorage not "
77 "claimed by explicit sizes\n");
78 MODULE_LICENSE("GPL");
79
80 /*
81 * Copy expanded memory page (4kB) into main memory
82 * Arguments
83 * page_addr: address of target page
84 * xpage_index: index of expandeded memory page
85 * Return value
86 * 0: if operation succeeds
87 * -EIO: if pgin failed
88 * -ENXIO: if xpram has vanished
89 */
90 static int xpram_page_in (unsigned long page_addr, unsigned int xpage_index)
91 {
92 int cc = 2; /* return unused cc 2 if pgin traps */
93
94 asm volatile(
95 " .insn rre,0xb22e0000,%1,%2\n" /* pgin %1,%2 */
96 "0: ipm %0\n"
97 " srl %0,28\n"
98 "1:\n"
99 EX_TABLE(0b,1b)
100 : "+d" (cc) : "a" (__pa(page_addr)), "d" (xpage_index) : "cc");
101 if (cc == 3)
102 return -ENXIO;
103 if (cc == 2) {
104 PRINT_ERR("expanded storage lost!\n");
105 return -ENXIO;
106 }
107 if (cc == 1) {
108 PRINT_ERR("page in failed for page index %u.\n",
109 xpage_index);
110 return -EIO;
111 }
112 return 0;
113 }
114
115 /*
116 * Copy a 4kB page of main memory to an expanded memory page
117 * Arguments
118 * page_addr: address of source page
119 * xpage_index: index of expandeded memory page
120 * Return value
121 * 0: if operation succeeds
122 * -EIO: if pgout failed
123 * -ENXIO: if xpram has vanished
124 */
125 static long xpram_page_out (unsigned long page_addr, unsigned int xpage_index)
126 {
127 int cc = 2; /* return unused cc 2 if pgin traps */
128
129 asm volatile(
130 " .insn rre,0xb22f0000,%1,%2\n" /* pgout %1,%2 */
131 "0: ipm %0\n"
132 " srl %0,28\n"
133 "1:\n"
134 EX_TABLE(0b,1b)
135 : "+d" (cc) : "a" (__pa(page_addr)), "d" (xpage_index) : "cc");
136 if (cc == 3)
137 return -ENXIO;
138 if (cc == 2) {
139 PRINT_ERR("expanded storage lost!\n");
140 return -ENXIO;
141 }
142 if (cc == 1) {
143 PRINT_ERR("page out failed for page index %u.\n",
144 xpage_index);
145 return -EIO;
146 }
147 return 0;
148 }
149
150 /*
151 * Check if xpram is available.
152 */
153 static int __init xpram_present(void)
154 {
155 unsigned long mem_page;
156 int rc;
157
158 mem_page = (unsigned long) __get_free_page(GFP_KERNEL);
159 if (!mem_page)
160 return -ENOMEM;
161 rc = xpram_page_in(mem_page, 0);
162 free_page(mem_page);
163 return rc ? -ENXIO : 0;
164 }
165
166 /*
167 * Return index of the last available xpram page.
168 */
169 static unsigned long __init xpram_highest_page_index(void)
170 {
171 unsigned int page_index, add_bit;
172 unsigned long mem_page;
173
174 mem_page = (unsigned long) __get_free_page(GFP_KERNEL);
175 if (!mem_page)
176 return 0;
177
178 page_index = 0;
179 add_bit = 1ULL << (sizeof(unsigned int)*8 - 1);
180 while (add_bit > 0) {
181 if (xpram_page_in(mem_page, page_index | add_bit) == 0)
182 page_index |= add_bit;
183 add_bit >>= 1;
184 }
185
186 free_page (mem_page);
187
188 return page_index;
189 }
190
191 /*
192 * Block device make request function.
193 */
194 static int xpram_make_request(request_queue_t *q, struct bio *bio)
195 {
196 xpram_device_t *xdev = bio->bi_bdev->bd_disk->private_data;
197 struct bio_vec *bvec;
198 unsigned int index;
199 unsigned long page_addr;
200 unsigned long bytes;
201 int i;
202
203 if ((bio->bi_sector & 7) != 0 || (bio->bi_size & 4095) != 0)
204 /* Request is not page-aligned. */
205 goto fail;
206 if ((bio->bi_size >> 12) > xdev->size)
207 /* Request size is no page-aligned. */
208 goto fail;
209 if ((bio->bi_sector >> 3) > 0xffffffffU - xdev->offset)
210 goto fail;
211 index = (bio->bi_sector >> 3) + xdev->offset;
212 bio_for_each_segment(bvec, bio, i) {
213 page_addr = (unsigned long)
214 kmap(bvec->bv_page) + bvec->bv_offset;
215 bytes = bvec->bv_len;
216 if ((page_addr & 4095) != 0 || (bytes & 4095) != 0)
217 /* More paranoia. */
218 goto fail;
219 while (bytes > 0) {
220 if (bio_data_dir(bio) == READ) {
221 if (xpram_page_in(page_addr, index) != 0)
222 goto fail;
223 } else {
224 if (xpram_page_out(page_addr, index) != 0)
225 goto fail;
226 }
227 page_addr += 4096;
228 bytes -= 4096;
229 index++;
230 }
231 }
232 set_bit(BIO_UPTODATE, &bio->bi_flags);
233 bytes = bio->bi_size;
234 bio->bi_size = 0;
235 bio->bi_end_io(bio, bytes, 0);
236 return 0;
237 fail:
238 bio_io_error(bio, bio->bi_size);
239 return 0;
240 }
241
242 static int xpram_getgeo(struct block_device *bdev, struct hd_geometry *geo)
243 {
244 unsigned long size;
245
246 /*
247 * get geometry: we have to fake one... trim the size to a
248 * multiple of 64 (32k): tell we have 16 sectors, 4 heads,
249 * whatever cylinders. Tell also that data starts at sector. 4.
250 */
251 size = (xpram_pages * 8) & ~0x3f;
252 geo->cylinders = size >> 6;
253 geo->heads = 4;
254 geo->sectors = 16;
255 geo->start = 4;
256 return 0;
257 }
258
259 static struct block_device_operations xpram_devops =
260 {
261 .owner = THIS_MODULE,
262 .getgeo = xpram_getgeo,
263 };
264
265 /*
266 * Setup xpram_sizes array.
267 */
268 static int __init xpram_setup_sizes(unsigned long pages)
269 {
270 unsigned long mem_needed;
271 unsigned long mem_auto;
272 unsigned long long size;
273 int mem_auto_no;
274 int i;
275
276 /* Check number of devices. */
277 if (devs <= 0 || devs > XPRAM_MAX_DEVS) {
278 PRINT_ERR("invalid number %d of devices\n",devs);
279 return -EINVAL;
280 }
281 xpram_devs = devs;
282
283 /*
284 * Copy sizes array to xpram_sizes and align partition
285 * sizes to page boundary.
286 */
287 mem_needed = 0;
288 mem_auto_no = 0;
289 for (i = 0; i < xpram_devs; i++) {
290 if (sizes[i]) {
291 size = simple_strtoull(sizes[i], &sizes[i], 0);
292 switch (sizes[i][0]) {
293 case 'g':
294 case 'G':
295 size <<= 20;
296 break;
297 case 'm':
298 case 'M':
299 size <<= 10;
300 }
301 xpram_sizes[i] = (size + 3) & -4UL;
302 }
303 if (xpram_sizes[i])
304 mem_needed += xpram_sizes[i];
305 else
306 mem_auto_no++;
307 }
308
309 PRINT_INFO(" number of devices (partitions): %d \n", xpram_devs);
310 for (i = 0; i < xpram_devs; i++) {
311 if (xpram_sizes[i])
312 PRINT_INFO(" size of partition %d: %u kB\n",
313 i, xpram_sizes[i]);
314 else
315 PRINT_INFO(" size of partition %d to be set "
316 "automatically\n",i);
317 }
318 PRINT_DEBUG(" memory needed (for sized partitions): %lu kB\n",
319 mem_needed);
320 PRINT_DEBUG(" partitions to be sized automatically: %d\n",
321 mem_auto_no);
322
323 if (mem_needed > pages * 4) {
324 PRINT_ERR("Not enough expanded memory available\n");
325 return -EINVAL;
326 }
327
328 /*
329 * partitioning:
330 * xpram_sizes[i] != 0; partition i has size xpram_sizes[i] kB
331 * else: ; all partitions with zero xpram_sizes[i]
332 * partition equally the remaining space
333 */
334 if (mem_auto_no) {
335 mem_auto = ((pages - mem_needed / 4) / mem_auto_no) * 4;
336 PRINT_INFO(" automatically determined "
337 "partition size: %lu kB\n", mem_auto);
338 for (i = 0; i < xpram_devs; i++)
339 if (xpram_sizes[i] == 0)
340 xpram_sizes[i] = mem_auto;
341 }
342 return 0;
343 }
344
345 static struct request_queue *xpram_queue;
346
347 static int __init xpram_setup_blkdev(void)
348 {
349 unsigned long offset;
350 int i, rc = -ENOMEM;
351
352 for (i = 0; i < xpram_devs; i++) {
353 struct gendisk *disk = alloc_disk(1);
354 if (!disk)
355 goto out;
356 xpram_disks[i] = disk;
357 }
358
359 /*
360 * Register xpram major.
361 */
362 rc = register_blkdev(XPRAM_MAJOR, XPRAM_NAME);
363 if (rc < 0)
364 goto out;
365
366 /*
367 * Assign the other needed values: make request function, sizes and
368 * hardsect size. All the minor devices feature the same value.
369 */
370 xpram_queue = blk_alloc_queue(GFP_KERNEL);
371 if (!xpram_queue) {
372 rc = -ENOMEM;
373 goto out_unreg;
374 }
375 blk_queue_make_request(xpram_queue, xpram_make_request);
376 blk_queue_hardsect_size(xpram_queue, 4096);
377
378 /*
379 * Setup device structures.
380 */
381 offset = 0;
382 for (i = 0; i < xpram_devs; i++) {
383 struct gendisk *disk = xpram_disks[i];
384
385 xpram_devices[i].size = xpram_sizes[i] / 4;
386 xpram_devices[i].offset = offset;
387 offset += xpram_devices[i].size;
388 disk->major = XPRAM_MAJOR;
389 disk->first_minor = i;
390 disk->fops = &xpram_devops;
391 disk->private_data = &xpram_devices[i];
392 disk->queue = xpram_queue;
393 sprintf(disk->disk_name, "slram%d", i);
394 set_capacity(disk, xpram_sizes[i] << 1);
395 add_disk(disk);
396 }
397
398 return 0;
399 out_unreg:
400 unregister_blkdev(XPRAM_MAJOR, XPRAM_NAME);
401 out:
402 while (i--)
403 put_disk(xpram_disks[i]);
404 return rc;
405 }
406
407 /*
408 * Finally, the init/exit functions.
409 */
410 static void __exit xpram_exit(void)
411 {
412 int i;
413 for (i = 0; i < xpram_devs; i++) {
414 del_gendisk(xpram_disks[i]);
415 put_disk(xpram_disks[i]);
416 }
417 unregister_blkdev(XPRAM_MAJOR, XPRAM_NAME);
418 blk_cleanup_queue(xpram_queue);
419 }
420
421 static int __init xpram_init(void)
422 {
423 int rc;
424
425 /* Find out size of expanded memory. */
426 if (xpram_present() != 0) {
427 PRINT_WARN("No expanded memory available\n");
428 return -ENODEV;
429 }
430 xpram_pages = xpram_highest_page_index() + 1;
431 PRINT_INFO(" %u pages expanded memory found (%lu KB).\n",
432 xpram_pages, (unsigned long) xpram_pages*4);
433 rc = xpram_setup_sizes(xpram_pages);
434 if (rc)
435 return rc;
436 return xpram_setup_blkdev();
437 }
438
439 module_init(xpram_init);
440 module_exit(xpram_exit);
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