Annotation of src/usr.bin/cdio/mmc.c, Revision 1.30
1.30 ! deraadt 1: /* $OpenBSD: mmc.c,v 1.29 2013/11/12 17:57:34 deraadt Exp $ */
1.3 mjc 2: /*
3: * Copyright (c) 2006 Michael Coulter <mjc@openbsd.org>
4: *
5: * Permission to use, copy, modify, and distribute this software for any
6: * purpose with or without fee is hereby granted, provided that the above
7: * copyright notice and this permission notice appear in all copies.
8: *
9: * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
10: * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
11: * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
12: * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
13: * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
14: * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
15: * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
16: */
17:
1.1 mjc 18: #include <sys/limits.h>
19: #include <sys/types.h>
20: #include <sys/scsiio.h>
1.30 ! deraadt 21: #include <sys/param.h> /* setbit, isset */
1.8 mjc 22: #include <scsi/cd.h>
23: #include <scsi/scsi_all.h>
24: #include <scsi/scsi_disk.h>
1.1 mjc 25: #include <err.h>
1.2 mjc 26: #include <errno.h>
1.1 mjc 27: #include <fcntl.h>
28: #include <stdio.h>
29: #include <string.h>
30: #include <unistd.h>
31: #include "extern.h"
32:
33: extern int fd;
1.28 krw 34: extern u_int8_t mediacap[];
1.2 mjc 35: extern char *cdname;
1.28 krw 36: extern int verbose;
1.20 av 37:
38: #define SCSI_GET_CONFIGURATION 0x46
39:
1.26 fgsch 40: #define MMC_FEATURE_HDR_LEN 8
1.25 av 41:
1.28 krw 42: static const struct {
43: u_int16_t id;
44: char *name;
45: } mmc_feature[] = {
46: { 0x0000, "Profile List" },
47: { 0x0001, "Core" },
48: { 0x0002, "Morphing" },
49: { 0x0003, "Removable Medium" },
50: { 0x0004, "Write Protect" },
51: { 0x0010, "Random Readable" },
52: { 0x001d, "Multi-Read" },
53: { 0x001e, "CD Read" },
54: { 0x001f, "DVD Read" },
55: { 0x0020, "Random Writable" },
56: { 0x0021, "Incremental Streaming Writable" },
57: { 0x0022, "Sector Erasable" },
58: { 0x0023, "Formattable" },
59: { 0x0024, "Hardware Defect Management" },
60: { 0x0025, "Write Once" },
61: { 0x0026, "Restricted Overwrite" },
62: { 0x0027, "CD-RW CAV Write" },
63: { 0x0028, "MRW" },
64: { 0x0029, "Enhanced Defect Reporting" },
65: { 0x002a, "DVD+RW" },
66: { 0x002b, "DVD+R" },
67: { 0x002c, "Rigid Restricted Overwrite" },
68: { 0x002d, "CD Track at Once (TAO)" },
69: { 0x002e, "CD Mastering (Session at Once)" },
70: { 0x002f, "DVD-RW Write" },
71: { 0x0030, "DDCD-ROM (Legacy)" },
72: { 0x0031, "DDCD-R (Legacy)" },
73: { 0x0032, "DDCD-RW (Legacy)" },
74: { 0x0033, "Layer Jump Recording" },
75: { 0x0037, "CD-RW Media Write Support" },
76: { 0x0038, "BD-R Pseudo-Overwrite (POW)" },
77: { 0x003a, "DVD+RW Dual Layer" },
78: { 0x003b, "DVD+R Dual Layer" },
79: { 0x0040, "BD Read" },
80: { 0x0041, "BD Write" },
81: { 0x0042, "Timely Safe Recording (TSR)" },
82: { 0x0050, "HD DVD Read" },
83: { 0x0051, "HD DVD Write" },
84: { 0x0080, "Hybrid Disc" },
85: { 0x0100, "Power Management" },
86: { 0x0101, "S.M.A.R.T." },
87: { 0x0102, "Embedded Changer" },
88: { 0x0103, "CD Audio External Play (Legacy)" },
89: { 0x0104, "Microcode Upgrade" },
90: { 0x0105, "Timeout" },
91: { 0x0106, "DVD CSS" },
92: { 0x0107, "Real Time Streaming" },
93: { 0x0108, "Drive Serial Number" },
94: { 0x0109, "Media Serial Number" },
95: { 0x010a, "Disc Control Blocks (DCBs)" },
96: { 0x010b, "DVD CPRM" },
97: { 0x010c, "Firmware Information" },
98: { 0x010d, "AACS" },
99: { 0x0110, "VCPS" },
100: { 0, NULL }
101: };
102:
103: static const struct {
104: u_int16_t id;
105: char *name;
106: } mmc_profile[] = {
107: { 0x0001, "Re-writable disk, capable of changing behaviour" },
108: { 0x0002, "Re-writable, with removable media" },
109: { 0x0003, "Magneto-Optical disk with sector erase capability" },
110: { 0x0004, "Optical write once" },
111: { 0x0005, "Advance Storage -- Magneto-Optical" },
112: { 0x0008, "Read only Compact Disc" },
113: { 0x0009, "Write once Compact Disc" },
114: { 0x000a, "Re-writable Compact Disc" },
115: { 0x0010, "Read only DVD" },
116: { 0x0011, "Write once DVD using Sequential recording" },
117: { 0x0012, "Re-writable DVD" },
118: { 0x0013, "Re-recordable DVD using Restricted Overwrite" },
119: { 0x0014, "Re-recordable DVD using Sequential recording" },
120: { 0x0015, "Dual Layer DVD-R using Sequential recording" },
121: { 0x0016, "Dual Layer DVD-R using Layer Jump recording" },
122: { 0x001a, "DVD+ReWritable" },
123: { 0x001b, "DVD+Recordable" },
124: { 0x0020, "DDCD-ROM" },
125: { 0x0021, "DDCD-R" },
126: { 0x0022, "DDCD-RW" },
127: { 0x002a, "DVD+Rewritable Dual Layer" },
128: { 0x002b, "DVD+Recordable Dual Layer" },
129: { 0x003e, "Blu-ray Disc ROM" },
130: { 0x003f, "Blu-ray Disc Recordable -- Sequential Recording Mode" },
131: { 0x0040, "Blu-ray Disc Recordable -- Random Recording Mode" },
132: { 0x0041, "Blu-ray Disc Rewritable" },
133: { 0x004e, "Read-only HD DVD" },
134: { 0x004f, "Write-once HD DVD" },
135: { 0x0050, "Rewritable HD DVD" },
136: { 0, NULL }
137: };
138:
1.25 av 139: int
140: get_media_type(void)
141: {
142: scsireq_t scr;
143: char buf[32];
144: u_char disctype;
145: int rv, error;
146:
147: rv = MEDIATYPE_UNKNOWN;
148: memset(buf, 0, sizeof(buf));
149: memset(&scr, 0, sizeof(scr));
150:
151: scr.cmd[0] = READ_TOC;
152: scr.cmd[1] = 0x2; /* MSF */
153: scr.cmd[2] = 0x4; /* ATIP */
154: scr.cmd[8] = 0x20;
155:
156: scr.flags = SCCMD_ESCAPE | SCCMD_READ;
157: scr.databuf = buf;
158: scr.datalen = sizeof(buf);
159: scr.cmdlen = 10;
160: scr.timeout = 120000;
161: scr.senselen = SENSEBUFLEN;
162:
163: error = ioctl(fd, SCIOCCOMMAND, &scr);
1.28 krw 164: if (error != -1 && scr.retsts == SCCMD_OK && scr.datalen_used > 7) {
1.25 av 165: disctype = (buf[6] >> 6) & 0x1;
166: if (disctype == 0)
167: rv = MEDIATYPE_CDR;
168: else if (disctype == 1)
169: rv = MEDIATYPE_CDRW;
170: }
171:
172: return (rv);
173: }
1.20 av 174:
175: int
1.28 krw 176: get_media_capabilities(u_int8_t *cap, int rt)
1.20 av 177: {
178: scsireq_t scr;
1.23 av 179: u_char buf[4096];
1.26 fgsch 180: u_int32_t i, dlen;
1.28 krw 181: u_int16_t feature, profile, tmp;
1.26 fgsch 182: u_int8_t feature_len;
1.28 krw 183: int current, error, j, k;
1.20 av 184:
1.28 krw 185: memset(cap, 0, MMC_FEATURE_MAX / NBBY);
1.20 av 186: memset(buf, 0, sizeof(buf));
187: memset(&scr, 0, sizeof(scr));
188:
189: scr.cmd[0] = SCSI_GET_CONFIGURATION;
1.26 fgsch 190: scr.cmd[1] = rt;
1.27 claudio 191: tmp = htobe16(sizeof(buf));
192: memcpy(scr.cmd + 7, &tmp, sizeof(u_int16_t));
1.20 av 193:
194: scr.flags = SCCMD_ESCAPE | SCCMD_READ;
195: scr.databuf = buf;
196: scr.datalen = sizeof(buf);
197: scr.cmdlen = 10;
198: scr.timeout = 120000;
199: scr.senselen = SENSEBUFLEN;
200:
201: error = ioctl(fd, SCIOCCOMMAND, &scr);
1.28 krw 202: if (error == -1 || scr.retsts != SCCMD_OK)
1.20 av 203: return (-1);
1.26 fgsch 204: if (scr.datalen_used < MMC_FEATURE_HDR_LEN)
205: return (-1); /* Can't get the header. */
206:
207: /* Include the whole header in the length. */
208: dlen = betoh32(*(u_int32_t *)buf) + 4;
209: if (dlen > scr.datalen_used)
210: dlen = scr.datalen_used;
211:
1.28 krw 212: if (verbose > 1)
213: printf("Features:\n");
1.26 fgsch 214: for (i = MMC_FEATURE_HDR_LEN; i + 3 < dlen; i += feature_len) {
215: feature_len = buf[i + 3] + 4;
216: if (feature_len + i > dlen)
217: break;
1.20 av 218:
219: feature = betoh16(*(u_int16_t *)(buf + i));
1.26 fgsch 220: if (feature >= MMC_FEATURE_MAX)
221: break;
1.20 av 222:
1.28 krw 223: if (verbose > 1) {
224: printf("0x%04x", feature);
225: for (j = 0; mmc_feature[j].name != NULL; j++)
226: if (feature == mmc_feature[j].id)
227: break;
228: if (mmc_feature[j].name == NULL)
229: printf(" <Undocumented>");
230: else
231: printf(" %s", mmc_feature[j].name);
232: if (feature_len > 4)
233: printf(" (%d bytes of data)", feature_len - 4);
234: printf("\n");
235: if (verbose > 2) {
236: printf(" ");
237: for (j = i; j < i + feature_len; j++) {
238: printf("%02x", buf[j]);
239: if ((j + 1) == (i + feature_len))
240: printf("\n");
241: else if ((j > i) && ((j - i + 1) % 16
242: == 0))
243: printf("\n ");
244: else if ((j - i) == 3)
245: printf("|");
246: else
247: printf(" ");
248: }
249: }
250: }
251: if (feature == 0 && verbose > 1) {
252: if (verbose > 2)
253: printf(" Profiles:\n");
254: for (j = i + 4; j < i + feature_len; j += 4) {
255: profile = betoh16(*(u_int16_t *)(buf+j));
256: current = buf[j+2] == 1;
257: if (verbose < 3 && !current)
258: continue;
259: if (current)
260: printf(" * ");
261: else
262: printf(" ");
263: printf("0x%04x", profile);
264: for (k = 0; mmc_profile[k].name != NULL; k++)
265: if (profile == mmc_profile[k].id)
266: break;
267: if (mmc_profile[k].name == NULL)
268: printf(" <Undocumented>");
269: else
270: printf(" %s", mmc_profile[k].name);
271: printf(" %s\n", current ? "[Current Profile]" :
272: "" );
273: }
274: }
1.26 fgsch 275: setbit(cap, feature);
1.20 av 276: }
277:
278: return (0);
279: }
1.1 mjc 280:
1.29 deraadt 281: static int
1.22 av 282: set_speed(int wspeed)
283: {
284: scsireq_t scr;
285: int r;
286:
287: memset(&scr, 0, sizeof(scr));
1.24 fgsch 288: scr.cmd[0] = SET_CD_SPEED;
1.26 fgsch 289: scr.cmd[1] = (isset(mediacap, MMC_FEATURE_CDRW_CAV)) != 0;
1.22 av 290: *(u_int16_t *)(scr.cmd + 2) = htobe16(DRIVE_SPEED_OPTIMAL);
291: *(u_int16_t *)(scr.cmd + 4) = htobe16(wspeed);
292:
293: scr.cmdlen = 12;
294: scr.datalen = 0;
295: scr.timeout = 120000;
296: scr.flags = SCCMD_ESCAPE;
297: scr.senselen = SENSEBUFLEN;
298:
299: r = ioctl(fd, SCIOCCOMMAND, &scr);
300: return (r == 0 ? scr.retsts : -1);
301: }
302:
303: int
1.1 mjc 304: blank(void)
305: {
1.8 mjc 306: struct scsi_blank *scb;
1.1 mjc 307: scsireq_t scr;
308: int r;
309:
310: bzero(&scr, sizeof(scr));
1.8 mjc 311: scb = (struct scsi_blank *)scr.cmd;
312: scb->opcode = BLANK;
313: scb->byte2 |= BLANK_MINIMAL;
314: scr.cmdlen = sizeof(*scb);
1.1 mjc 315: scr.datalen = 0;
316: scr.timeout = 120000;
317: scr.flags = SCCMD_ESCAPE;
318: scr.senselen = SENSEBUFLEN;
319:
1.2 mjc 320: r = ioctl(fd, SCIOCCOMMAND, &scr);
1.1 mjc 321: return (r == 0 ? scr.retsts : -1);
322: }
323:
324: int
325: unit_ready(void)
326: {
1.8 mjc 327: struct scsi_test_unit_ready *scb;
1.1 mjc 328: scsireq_t scr;
329: int r;
330:
331: bzero(&scr, sizeof(scr));
1.8 mjc 332: scb = (struct scsi_test_unit_ready *)scr.cmd;
333: scb->opcode = TEST_UNIT_READY;
334: scr.cmdlen = sizeof(*scb);
1.1 mjc 335: scr.datalen = 0;
336: scr.timeout = 120000;
337: scr.flags = SCCMD_ESCAPE;
338: scr.senselen = SENSEBUFLEN;
339:
340: r = ioctl(fd, SCIOCCOMMAND, &scr);
341: return (r == 0 ? scr.retsts : -1);
342: }
343:
344: int
345: synchronize_cache(void)
346: {
1.8 mjc 347: struct scsi_synchronize_cache *scb;
1.1 mjc 348: scsireq_t scr;
349: int r;
350:
351: bzero(&scr, sizeof(scr));
1.8 mjc 352: scb = (struct scsi_synchronize_cache *)scr.cmd;
353: scb->opcode = SYNCHRONIZE_CACHE;
354: scr.cmdlen = sizeof(*scb);
1.1 mjc 355: scr.datalen = 0;
356: scr.timeout = 120000;
357: scr.flags = SCCMD_ESCAPE;
358: scr.senselen = SENSEBUFLEN;
359:
360: r = ioctl(fd, SCIOCCOMMAND, &scr);
361: return (r == 0 ? scr.retsts : -1);
362: }
363:
364: int
365: close_session(void)
366: {
1.8 mjc 367: struct scsi_close_track *scb;
1.1 mjc 368: scsireq_t scr;
369: int r;
370:
371: bzero(&scr, sizeof(scr));
1.8 mjc 372: scb = (struct scsi_close_track *)scr.cmd;
373: scb->opcode = CLOSE_TRACK;
374: scb->closefunc = CT_CLOSE_SESS;
375: scr.cmdlen = sizeof(*scb);
1.1 mjc 376: scr.datalen = 0;
377: scr.timeout = 120000;
378: scr.flags = SCCMD_ESCAPE;
379: scr.senselen = SENSEBUFLEN;
380:
381: r = ioctl(fd, SCIOCCOMMAND, &scr);
382: return (r == 0 ? scr.retsts : -1);
383: }
384:
385: int
1.5 mjc 386: writetao(struct track_head *thp)
1.1 mjc 387: {
1.15 deraadt 388: u_char modebuf[70], bdlen;
1.5 mjc 389: struct track_info *tr;
1.15 deraadt 390: int r, track = 0;
1.5 mjc 391:
1.1 mjc 392: if ((r = mode_sense_write(modebuf)) != SCCMD_OK) {
393: warnx("mode sense failed: %d", r);
394: return (r);
395: }
396: bdlen = modebuf[7];
397: modebuf[2+8+bdlen] |= 0x40; /* Buffer Underrun Free Enable */
398: modebuf[2+8+bdlen] |= 0x01; /* change write type to TAO */
399:
1.5 mjc 400: SLIST_FOREACH(tr, thp, track_list) {
1.15 deraadt 401: track++;
1.7 deraadt 402: switch (tr->type) {
1.5 mjc 403: case 'd':
1.1 mjc 404: modebuf[3+8+bdlen] = 0x04; /* track mode = data */
405: modebuf[4+8+bdlen] = 0x08; /* 2048 block track mode */
406: modebuf[8+8+bdlen] = 0x00; /* turn off XA */
1.5 mjc 407: break;
408: case 'a':
1.1 mjc 409: modebuf[3+8+bdlen] = 0x00; /* track mode = audio */
410: modebuf[4+8+bdlen] = 0x00; /* 2352 block track mode */
411: modebuf[8+8+bdlen] = 0x00; /* turn off XA */
1.5 mjc 412: break;
413: default:
414: warn("impossible tracktype detected");
415: break;
1.1 mjc 416: }
417: while (unit_ready() != SCCMD_OK)
418: continue;
419: if ((r = mode_select_write(modebuf)) != SCCMD_OK) {
1.15 deraadt 420: warnx("mode select failed: %d", r);
1.1 mjc 421: return (r);
422: }
1.22 av 423:
424: set_speed(tr->speed);
1.15 deraadt 425: writetrack(tr, track);
1.1 mjc 426: synchronize_cache();
427: }
1.15 deraadt 428: fprintf(stderr, "Closing session.\n");
1.1 mjc 429: close_session();
430: return (0);
431: }
432:
433: int
1.15 deraadt 434: writetrack(struct track_info *tr, int track)
1.1 mjc 435: {
1.15 deraadt 436: struct timeval tv, otv, atv;
437: u_char databuf[65536], nblk;
438: u_int end_lba, lba, tmp;
1.1 mjc 439: scsireq_t scr;
1.11 mjc 440: int r;
1.1 mjc 441:
1.5 mjc 442: nblk = 65535/tr->blklen;
1.1 mjc 443: bzero(&scr, sizeof(scr));
444: scr.timeout = 300000;
1.9 mjc 445: scr.cmd[0] = WRITE_BIG;
1.1 mjc 446: scr.cmd[1] = 0x00;
447: scr.cmd[8] = nblk; /* Transfer length in blocks (LSB) */
448: scr.cmdlen = 10;
449: scr.databuf = (caddr_t)databuf;
1.5 mjc 450: scr.datalen = nblk * tr->blklen;
1.1 mjc 451: scr.senselen = SENSEBUFLEN;
452: scr.flags = SCCMD_ESCAPE|SCCMD_WRITE;
453:
1.15 deraadt 454: timerclear(&otv);
455: atv.tv_sec = 1;
456: atv.tv_usec = 0;
457:
1.1 mjc 458: if (get_nwa(&lba) != SCCMD_OK) {
459: warnx("cannot get next writable address");
460: return (-1);
461: }
462: tmp = htobe32(lba); /* update lba in cdb */
463: memcpy(&scr.cmd[2], &tmp, sizeof(tmp));
464:
1.5 mjc 465: if (tr->sz / tr->blklen + 1 > UINT_MAX || tr->sz < tr->blklen) {
1.15 deraadt 466: warnx("file %s has invalid size", tr->file);
1.1 mjc 467: return (-1);
468: }
1.5 mjc 469: if (tr->sz % tr->blklen) {
1.7 deraadt 470: warnx("file %s is not multiple of block length %d",
471: tr->file, tr->blklen);
1.5 mjc 472: end_lba = tr->sz / tr->blklen + lba + 1;
1.1 mjc 473: } else {
1.5 mjc 474: end_lba = tr->sz / tr->blklen + lba;
1.1 mjc 475: }
1.21 av 476: if (lseek(tr->fd, tr->off, SEEK_SET) == -1)
477: err(1, "seek failed for file %s", tr->file);
1.13 deraadt 478: while (lba < end_lba && nblk != 0) {
1.1 mjc 479: while (lba + nblk <= end_lba) {
1.11 mjc 480: read(tr->fd, databuf, nblk * tr->blklen);
1.1 mjc 481: scr.cmd[8] = nblk;
1.5 mjc 482: scr.datalen = nblk * tr->blklen;
1.12 mjc 483: again:
1.1 mjc 484: r = ioctl(fd, SCIOCCOMMAND, &scr);
485: if (r != 0) {
1.17 deraadt 486: printf("\r%60s", "");
1.1 mjc 487: warn("ioctl failed while attempting to write");
488: return (-1);
1.12 mjc 489: }
490: if (scr.retsts == SCCMD_SENSE && scr.sense[2] == 0x2) {
491: usleep(1000);
492: goto again;
1.1 mjc 493: }
494: if (scr.retsts != SCCMD_OK) {
1.17 deraadt 495: printf("\r%60s", "");
1.7 deraadt 496: warnx("ioctl returned bad status while "
497: "attempting to write: %d",
498: scr.retsts);
1.1 mjc 499: return (r);
500: }
501: lba += nblk;
1.15 deraadt 502:
503: gettimeofday(&tv, NULL);
504: if (lba == end_lba || timercmp(&tv, &otv, >)) {
505: fprintf(stderr,
1.17 deraadt 506: "\rtrack %02d '%c' %08u/%08u %3d%%",
1.15 deraadt 507: track, tr->type,
508: lba, end_lba, 100 * lba / end_lba);
509: timeradd(&tv, &atv, &otv);
510: }
1.1 mjc 511: tmp = htobe32(lba); /* update lba in cdb */
512: memcpy(&scr.cmd[2], &tmp, sizeof(tmp));
513: }
514: nblk--;
515: }
1.13 deraadt 516: printf("\n");
1.11 mjc 517: close(tr->fd);
1.1 mjc 518: return (0);
519: }
520:
521: int
522: mode_sense_write(unsigned char buf[])
523: {
1.8 mjc 524: struct scsi_mode_sense_big *scb;
1.1 mjc 525: scsireq_t scr;
526: int r;
527:
528: bzero(&scr, sizeof(scr));
1.8 mjc 529: scb = (struct scsi_mode_sense_big *)scr.cmd;
530: scb->opcode = MODE_SENSE_BIG;
531: /* XXX: need to set disable block descriptors and check SCSI drive */
532: scb->page = WRITE_PARAM_PAGE;
533: scb->length[1] = 0x46; /* 16 for the header + size from pg. 89 mmc-r10a.pdf */
534: scr.cmdlen = sizeof(*scb);
1.1 mjc 535: scr.timeout = 4000;
536: scr.senselen = SENSEBUFLEN;
1.7 deraadt 537: scr.datalen= 0x46;
1.1 mjc 538: scr.flags = SCCMD_ESCAPE|SCCMD_READ;
539: scr.databuf = (caddr_t)buf;
540:
541: r = ioctl(fd, SCIOCCOMMAND, &scr);
542: return (r == 0 ? scr.retsts : -1);
543: }
544:
545: int
546: mode_select_write(unsigned char buf[])
547: {
1.8 mjc 548: struct scsi_mode_select_big *scb;
1.1 mjc 549: scsireq_t scr;
550: int r;
551:
552: bzero(&scr, sizeof(scr));
1.8 mjc 553: scb = (struct scsi_mode_select_big *)scr.cmd;
554: scb->opcode = MODE_SELECT_BIG;
1.10 deraadt 555:
556: /*
557: * INF-8020 says bit 4 in byte 2 is '1'
558: * INF-8090 refers to it as 'PF(1)' then doesn't
559: * describe it.
560: */
1.8 mjc 561: scb->byte2 = 0x10;
562: scb->length[1] = 2 + buf[1] + 256 * buf[0];
1.1 mjc 563: scr.timeout = 4000;
564: scr.senselen = SENSEBUFLEN;
1.8 mjc 565: scr.cmdlen = sizeof(*scb);
1.1 mjc 566: scr.datalen = 2 + buf[1] + 256 * buf[0];
567: scr.flags = SCCMD_ESCAPE|SCCMD_WRITE;
568: scr.databuf = (caddr_t)buf;
569:
570: r = ioctl(fd, SCIOCCOMMAND, &scr);
1.6 mjc 571: return (r == 0 ? scr.retsts : -1);
572: }
573:
574: int
575: get_disc_size(off_t *availblk)
576: {
577: u_char databuf[28];
1.8 mjc 578: struct scsi_read_track_info *scb;
1.6 mjc 579: scsireq_t scr;
1.15 deraadt 580: int r, tmp;
1.6 mjc 581:
582: bzero(&scr, sizeof(scr));
1.8 mjc 583: scb = (struct scsi_read_track_info *)scr.cmd;
1.6 mjc 584: scr.timeout = 4000;
585: scr.senselen = SENSEBUFLEN;
1.8 mjc 586: scb->opcode = READ_TRACK_INFO;
587: scb->addrtype = RTI_TRACK;
1.16 mjc 588: scb->addr[3] = 1;
589: scb->data_len[1] = 0x1c;
1.8 mjc 590: scr.cmdlen = sizeof(*scb);
1.7 deraadt 591: scr.datalen= 0x1c;
1.6 mjc 592: scr.flags = SCCMD_ESCAPE|SCCMD_READ;
593: scr.databuf = (caddr_t)databuf;
594:
595: r = ioctl(fd, SCIOCCOMMAND, &scr);
596: memcpy(&tmp, &databuf[16], sizeof(tmp));
597: *availblk = betoh32(tmp);
1.1 mjc 598: return (r == 0 ? scr.retsts : -1);
599: }
600:
601: int
602: get_nwa(int *nwa)
603: {
604: u_char databuf[28];
605: scsireq_t scr;
1.15 deraadt 606: int r, tmp;
1.1 mjc 607:
608: bzero(&scr, sizeof(scr));
609: scr.timeout = 4000;
610: scr.senselen = SENSEBUFLEN;
1.24 fgsch 611: scr.cmd[0] = READ_TRACK_INFO;
1.1 mjc 612: scr.cmd[1] = 0x01;
613: scr.cmd[5] = 0xff; /* Invisible Track */
614: scr.cmd[7] = 0x00;
615: scr.cmd[8] = 0x1c;
616: scr.cmdlen = 10;
1.7 deraadt 617: scr.datalen= 0x1c;
1.1 mjc 618: scr.flags = SCCMD_ESCAPE|SCCMD_READ;
619: scr.databuf = (caddr_t)databuf;
620:
621: r = ioctl(fd, SCIOCCOMMAND, &scr);
622: memcpy(&tmp, &databuf[12], sizeof(tmp));
623: *nwa = betoh32(tmp);
624: return (r == 0 ? scr.retsts : -1);
625: }