branches/azimutz/Chazi/i386/libsaio/disk.c - Chameleon Svn Source Tree - Chameleon open source boot loader project.

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1	/*␊
2	* Copyright (c) 1999-2003 Apple Computer, Inc. All rights reserved.␊
3	*␊
4	* @APPLE_LICENSE_HEADER_START@␊
5	* ␊
6	* Portions Copyright (c) 1999-2003 Apple Computer, Inc. All Rights␊
7	* Reserved. This file contains Original Code and/or Modifications of␊
8	* Original Code as defined in and that are subject to the Apple Public␊
9	* Source License Version 2.0 (the "License"). You may not use this file␊
10	* except in compliance with the License. Please obtain a copy of the␊
11	* License at http://www.apple.com/publicsource and read it before using␊
12	* this file.␊
13	* ␊
14	* The Original Code and all software distributed under the License are␊
15	* distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER␊
16	* EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,␊
17	* INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,␊
18	* FITNESS FOR A PARTICULAR PURPOSE OR NON- INFRINGEMENT. Please see the␊
19	* License for the specific language governing rights and limitations␊
20	* under the License.␊
21	* ␊
22	* @APPLE_LICENSE_HEADER_END@␊
23	*/␊
24	/* ␊
25	* Mach Operating System␊
26	* Copyright (c) 1990 Carnegie-Mellon University␊
27	* Copyright (c) 1989 Carnegie-Mellon University␊
28	* All rights reserved. The CMU software License Agreement specifies␊
29	* the terms and conditions for use and redistribution.␊
30	*/␊
31	␊
32	/*␊
33	* INTEL CORPORATION PROPRIETARY INFORMATION␊
34	*␊
35	* This software is supplied under the terms of a license agreement or ␊
36	* nondisclosure agreement with Intel Corporation and may not be copied ␊
37	* nor disclosed except in accordance with the terms of that agreement.␊
38	*␊
39	* Copyright 1988, 1989 Intel Corporation␊
40	*/␊
41	␊
42	/*␊
43	* Copyright 1993 NeXT Computer, Inc.␊
44	* All rights reserved.␊
45	*/␊
46	␊
47	/*␊
48	* Copyright 2007 VMware Inc.␊
49	* "Preboot" ramdisk support added by David Elliott␊
50	* GPT support added by David Elliott. Based on IOGUIDPartitionScheme.cpp.␊
51	*/␊
52	␊
53	//#define UFS_SUPPORT 1 //Azi: error: duplicate case value␊
54	␊
55	#include <limits.h>␊
56	#include <IOKit/storage/IOApplePartitionScheme.h>␊
57	#include <IOKit/storage/IOGUIDPartitionScheme.h>␊
58	␊
59	// Allow UFS_SUPPORT to be overridden with preprocessor option.␊
60	#ifndef UFS_SUPPORT␊
61	// zef: Disabled UFS support␊
62	#define UFS_SUPPORT 0␊
63	#endif␊
64	␊
65	//#include "libsaio.h"␊
66	//#include "bootstruct.h"␊
67	#include "boot.h"␊
68	#include "memory.h"␊
69	#include "fdisk.h"␊
70	␊
71	#if UFS_SUPPORT␊
72	#include "ufs.h"␊
73	#endif␊
74	␊
75	#include "hfs.h"␊
76	#include "ntfs.h"␊
77	#include "msdos.h"␊
78	#include "ext2fs.h"␊
79	#include "xml.h"␊
80	#include "disk.h"␊
81	// For EFI_GUID␊
82	#include "efi.h"␊
83	#include "efi_tables.h"␊
84	␊
85	typedef struct gpt_hdr gpt_hdr;␊
86	typedef struct gpt_ent gpt_ent;␊
87	␊
88	#define PROBEFS_SIZE BPS * 4 /* buffer size for filesystem probe */␊
89	#define CD_BPS 2048 /* CD-ROM block size */␊
90	#define N_CACHE_SECS (BIOS_LEN / BPS) /* Must be a multiple of 4 for CD-ROMs */␊
91	#define UFS_FRONT_PORCH 0␊
92	#define kAPMSector 2 /* Sector number of Apple partition map */␊
93	#define kAPMCDSector 8 /* Translated sector of Apple partition map on a CD */␊
94	␊
95	/*␊
96	* IORound and IOTrunc convenience functions, in the spirit␊
97	* of vm's round_page() and trunc_page().␊
98	*/␊
99	#define IORound(value,multiple) \␊
100	((((value) + (multiple) - 1) / (multiple)) * (multiple))␊
101	␊
102	#define IOTrunc(value,multiple) \␊
103	(((value) / (multiple)) * (multiple));␊
104	␊
105	/*␊
106	* trackbuf points to the start of the track cache. Biosread()␊
107	* will store the sectors read from disk to this memory area.␊
108	*␊
109	* biosbuf points to a sector within the track cache, and is␊
110	* updated by Biosread().␊
111	*/␊
112	static char * const trackbuf = (char *) ptov(BIOS_ADDR);␊
113	static char * biosbuf;␊
114	␊
115	/*␊
116	* Map a disk drive to bootable volumes contained within.␊
117	*/␊
118	struct DiskBVMap {␊
119	int biosdev; // BIOS device number (unique)␊
120	BVRef bvr; // chain of boot volumes on the disk␊
121	int bvrcnt; // number of boot volumes␊
122	struct DiskBVMap * next; // linkage to next mapping␊
123	};␊
124	␊
125	static struct DiskBVMap * gDiskBVMap = NULL;␊
126	static struct disk_blk0 * gBootSector = NULL;␊
127	␊
128	// Function pointers to be filled in if ramdisks are available:␊
129	int (*p_ramdiskReadBytes)( int biosdev, unsigned int blkno,␊
130	unsigned int byteoff,␊
131	unsigned int byteCount, void * buffer ) = NULL;␊
132	int (p_get_ramdisk_info)(int biosdev, struct driveInfo dip) = NULL;␊
133	␊
134	␊
135	extern void spinActivityIndicator(int sectors);␊
136	␊
137	//==========================================================================␊
138	␊
139	static int getDriveInfo( int biosdev, struct driveInfo *dip )␊
140	{␊
141	static struct driveInfo cached_di;␊
142	int cc;␊
143	␊
144	// Real BIOS devices are 8-bit, so anything above that is for internal use.␊
145	// Don't cache ramdisk drive info since it doesn't require several BIOS␊
146	// calls and is thus not worth it.␊
147	if(biosdev >= 0x100)␊
148	{␊
149	if(p_get_ramdisk_info != NULL)␊
150	cc = (*p_get_ramdisk_info)(biosdev, dip);␊
151	else␊
152	cc = -1;␊
153	if(cc < 0)␊
154	{␊
155	dip->valid = 0;␊
156	return -1;␊
157	}␊
158	else␊
159	return 0;␊
160	}␊
161	␊
162	if ( !cached_di.valid \|\| biosdev != cached_di.biosdev )␊
163	{␊
164	␉cc = get_drive_info(biosdev, &cached_di);␊
165	if (cc < 0) {␊
166	␉ cached_di.valid = 0;␊
167	DEBUG_DISK(("get_drive_info returned error\n"));␊
168	␉ return (-1); // BIOS call error␊
169	␉}␊
170	}␊
171	␊
172	bcopy(&cached_di, dip, sizeof(cached_di));␊
173	␊
174	return 0;␊
175	}␊
176	␊
177	//==========================================================================␊
178	// Maps (E)BIOS return codes to message strings.␊
179	␊
180	struct NamedValue {␊
181	unsigned char value;␊
182	const char * name;␊
183	};␊
184	␊
185	static const char * getNameForValue( const struct NamedValue * nameTable,␊
186	unsigned char value )␊
187	{␊
188	const struct NamedValue * np;␊
189	␊
190	for ( np = nameTable; np->value; np++)␊
191	if (np->value == value)␊
192	return np->name;␊
193	␊
194	return NULL;␊
195	}␊
196	␊
197	#define ECC_CORRECTED_ERR 0x11␊
198	␊
199	static const struct NamedValue bios_errors[] = {␊
200	{ 0x10, "Media error" },␊
201	{ 0x11, "Corrected ECC error" },␊
202	{ 0x20, "Controller or device error" },␊
203	{ 0x40, "Seek failed" },␊
204	{ 0x80, "Device timeout" },␊
205	{ 0xAA, "Drive not ready" },␊
206	{ 0x00, 0 }␊
207	};␊
208	␊
209	static const char * bios_error(int errnum)␊
210	{␊
211	static char errorstr[] = "Error 0x00";␊
212	const char * errname;␊
213	␊
214	errname = getNameForValue( bios_errors, errnum );␊
215	if ( errname ) return errname;␊
216	␊
217	sprintf(errorstr, "Error 0x%02x", errnum);␊
218	return errorstr; // No string, print error code only␊
219	}␊
220	␊
221	//==========================================================================␊
222	// Use BIOS INT13 calls to read the sector specified. This function will␊
223	// also perform read-ahead to cache a few subsequent sector to the sector␊
224	// cache.␊
225	// ␊
226	// Return:␊
227	// 0 on success, or an error code from INT13/F2 or INT13/F42 BIOS call.␊
228	␊
229	static bool cache_valid = false;␊
230	␊
231	static int Biosread( int biosdev, unsigned long long secno )␊
232	{␊
233	static int xbiosdev, xcyl, xhead;␊
234	static unsigned int xsec, xnsecs;␊
235	struct driveInfo di;␊
236	␊
237	int rc = -1;␊
238	int cyl, head, sec;␊
239	int tries = 0;␊
240	int bps, divisor;␊
241	␊
242	if (getDriveInfo(biosdev, &di) < 0) {␊
243	␉return -1;␊
244	}␊
245	if (di.no_emulation) {␊
246	␉/* Always assume 2k block size; BIOS may lie about geometry */␊
247	␉bps = 2048;␊
248	} else {␊
249	␉bps = di.di.params.phys_nbps;␊
250	if (bps == 0) {␊
251	return -1;␊
252	}␊
253	}␊
254	divisor = bps / BPS;␊
255	␊
256	DEBUG_DISK(("Biosread dev %x sec %d bps %d\n", biosdev, secno, bps));␊
257	␊
258	// To read the disk sectors, use EBIOS if we can. Otherwise,␊
259	// revert to the standard BIOS calls.␊
260	␊
261	if ((biosdev >= kBIOSDevTypeHardDrive) &&␊
262	(di.uses_ebios & EBIOS_FIXED_DISK_ACCESS))␊
263	{␊
264	if (cache_valid &&␊
265	(biosdev == xbiosdev) &&␊
266	(secno >= xsec) &&␊
267	((unsigned int)secno < (xsec + xnsecs)))␊
268	{␊
269	biosbuf = trackbuf + (BPS * (secno - xsec));␊
270	return 0;␊
271	}␊
272	␊
273	xnsecs = N_CACHE_SECS;␊
274	xsec = (secno / divisor) * divisor;␊
275	cache_valid = false;␊
276	␊
277	while ((rc = ebiosread(biosdev, secno / divisor, xnsecs / divisor)) && (++tries < 5))␊
278	{␊
279	if (rc == ECC_CORRECTED_ERR) {␊
280	/* Ignore corrected ECC errors */␊
281	rc = 0;␊
282	break;␊
283	}␊
284	error(" EBIOS read error: %s\n", bios_error(rc), rc);␊
285	error(" Block 0x%x Sectors %d\n", secno, xnsecs);␊
286	sleep(1);␊
287	}␊
288	}␊
289	else␊
290	{␊
291	␉/* spc = spt * heads */␊
292	␉int spc = (di.di.params.phys_spt * di.di.params.phys_heads);␊
293	cyl = secno / spc;␊
294	head = (secno % spc) / di.di.params.phys_spt;␊
295	sec = secno % di.di.params.phys_spt;␊
296	␊
297	if (cache_valid &&␊
298	(biosdev == xbiosdev) &&␊
299	(cyl == xcyl) &&␊
300	(head == xhead) &&␊
301	((unsigned int)sec >= xsec) &&␊
302	((unsigned int)sec < (xsec + xnsecs)))␊
303	{␊
304	// this sector is in trackbuf cache␊
305	biosbuf = trackbuf + (BPS * (sec - xsec));␊
306	return 0;␊
307	}␊
308	␊
309	// Cache up to a track worth of sectors, but do not cross a␊
310	// track boundary.␊
311	␊
312	xcyl = cyl;␊
313	xhead = head;␊
314	xsec = sec;␊
315	xnsecs = ((unsigned int)(sec + N_CACHE_SECS) > di.di.params.phys_spt) ? (di.di.params.phys_spt - sec) : N_CACHE_SECS;␊
316	cache_valid = false;␊
317	␊
318	while ((rc = biosread(biosdev, cyl, head, sec, xnsecs)) &&␊
319	(++tries < 5))␊
320	{␊
321	if (rc == ECC_CORRECTED_ERR) {␊
322	/* Ignore corrected ECC errors */␊
323	rc = 0;␊
324	break;␊
325	}␊
326	error(" BIOS read error: %s\n", bios_error(rc), rc);␊
327	error(" Block %d, Cyl %d Head %d Sector %d\n",␊
328	secno, cyl, head, sec);␊
329	sleep(1);␊
330	}␊
331	}␊
332	␊
333	// If the BIOS reported success, mark the sector cache as valid.␊
334	␊
335	if (rc == 0) {␊
336	cache_valid = true;␊
337	}␊
338	biosbuf = trackbuf + (secno % divisor) * BPS;␊
339	xbiosdev = biosdev;␊
340	␊
341	spinActivityIndicator(xnsecs);␊
342	␊
343	return rc;␊
344	}␊
345	␊
346	//==========================================================================␊
347	␊
348	int testBiosread( int biosdev, unsigned long long secno )␊
349	{␊
350	␉return Biosread(biosdev, secno);␊
351	}␊
352	␊
353	//==========================================================================␊
354	␊
355	static int readBytes( int biosdev, unsigned long long blkno,␊
356	unsigned int byteoff,␊
357	unsigned int byteCount, void * buffer )␊
358	{␊
359	// ramdisks require completely different code for reading.␊
360	if(p_ramdiskReadBytes != NULL && biosdev >= 0x100)␊
361	return (*p_ramdiskReadBytes)(biosdev, blkno, byteoff, byteCount, buffer);␊
362	␊
363	char * cbuf = (char *) buffer;␊
364	int error;␊
365	int copy_len;␊
366	␊
367	DEBUG_DISK(("%s: dev %x block %x [%d] -> 0x%x...", __FUNCTION__,␊
368	biosdev, blkno, byteCount, (unsigned)cbuf));␊
369	␊
370	for ( ; byteCount; cbuf += copy_len, blkno++ )␊
371	{␊
372	error = Biosread( biosdev, blkno );␊
373	if ( error )␊
374	{␊
375	DEBUG_DISK(("error\n"));␊
376	return (-1);␊
377	}␊
378	␊
379	copy_len = ((byteCount + byteoff) > BPS) ? (BPS - byteoff) : byteCount;␊
380	bcopy( biosbuf + byteoff, cbuf, copy_len );␊
381	byteCount -= copy_len;␊
382	byteoff = 0;␊
383	}␊
384	␊
385	DEBUG_DISK(("done\n"));␊
386	␊
387	return 0; ␊
388	}␊
389	␊
390	//==========================================================================␊
391	␊
392	static int isExtendedFDiskPartition( const struct fdisk_part * part )␊
393	{␊
394	static unsigned char extParts[] =␊
395	{␊
396	0x05, /* Extended */␊
397	0x0f, /* Win95 extended */␊
398	0x85, /* Linux extended */␊
399	};␊
400	␊
401	unsigned int i;␊
402	␊
403	for (i = 0; i < sizeof(extParts)/sizeof(extParts[0]); i++)␊
404	{␊
405	if (extParts[i] == part->systid) return 1;␊
406	}␊
407	return 0;␊
408	}␊
409	␊
410	//==========================================================================␊
411	␊
412	static int getNextFDiskPartition( int biosdev, int * partno,␊
413	const struct fdisk_part ** outPart )␊
414	{␊
415	static int sBiosdev = -1;␊
416	static int sNextPartNo;␊
417	static unsigned int sFirstBase;␊
418	static unsigned int sExtBase;␊
419	static unsigned int sExtDepth;␊
420	static struct fdisk_part * sExtPart;␊
421	struct fdisk_part * part;␊
422	␊
423	if ( sBiosdev != biosdev \|\| *partno < 0 )␊
424	{␊
425	// Fetch MBR.␊
426	if ( readBootSector( biosdev, DISK_BLK0, 0 ) ) return 0;␊
427	␊
428	sBiosdev = biosdev;␊
429	sNextPartNo = 0;␊
430	sFirstBase = 0;␊
431	sExtBase = 0;␊
432	sExtDepth = 0;␊
433	sExtPart = NULL;␊
434	}␊
435	␊
436	while (1)␊
437	{␊
438	part = NULL;␊
439	␊
440	if ( sNextPartNo < FDISK_NPART )␊
441	{␊
442	part = (struct fdisk_part *) gBootSector->parts[sNextPartNo];␊
443	}␊
444	else if ( sExtPart )␊
445	{␊
446	unsigned int blkno = sExtPart->relsect + sFirstBase;␊
447	␊
448	// Save the block offset of the first extended partition.␊
449	␊
450	if (sExtDepth == 0) {␊
451	sFirstBase = blkno;␊
452	}␊
453	sExtBase = blkno;␊
454	␊
455	// Load extended partition table.␊
456	␊
457	if ( readBootSector( biosdev, blkno, 0 ) == 0 )␊
458	{␊
459	sNextPartNo = 0;␊
460	sExtDepth++;␊
461	sExtPart = NULL;␊
462	continue;␊
463	}␊
464	// Fall through to part == NULL␊
465	}␊
466	␊
467	if ( part == NULL ) break; // Reached end of partition chain.␊
468	␊
469	// Advance to next partition number.␊
470	␊
471	sNextPartNo++;␊
472	␊
473	if ( isExtendedFDiskPartition(part) )␊
474	{␊
475	sExtPart = part;␊
476	continue;␊
477	}␊
478	␊
479	// Skip empty slots.␊
480	␊
481	if ( part->systid == 0x00 )␊
482	{␊
483	continue;␊
484	}␊
485	␊
486	// Change relative offset to an absolute offset.␊
487	part->relsect += sExtBase;␊
488	␊
489	*outPart = part;␊
490	*partno = sExtDepth ? (int)(sExtDepth + FDISK_NPART) : sNextPartNo;␊
491	␊
492	break;␊
493	}␊
494	␊
495	return (part != NULL);␊
496	}␊
497	␊
498	//==========================================================================␊
499	␊
500	static BVRef newFDiskBVRef( int biosdev, int partno, unsigned int blkoff,␊
501	const struct fdisk_part * part,␊
502	FSInit initFunc, FSLoadFile loadFunc,␊
503	FSReadFile readFunc,␊
504	FSGetDirEntry getdirFunc,␊
505	FSGetFileBlock getBlockFunc,␊
506	FSGetUUID getUUIDFunc,␊
507	BVGetDescription getDescriptionFunc,␊
508	BVFree bvFreeFunc,␊
509	int probe, int type, unsigned int bvrFlags )␊
510	{␊
511	BVRef bvr = (BVRef) malloc( sizeof(*bvr) );␊
512	if ( bvr )␊
513	{␊
514	bzero(bvr, sizeof(*bvr));␊
515	␊
516	bvr->biosdev = biosdev;␊
517	bvr->part_no = partno;␊
518	bvr->part_boff = blkoff;␊
519	bvr->part_type = part->systid;␊
520	bvr->fs_loadfile = loadFunc;␊
521	bvr->fs_readfile = readFunc;␊
522	bvr->fs_getdirentry = getdirFunc;␊
523	bvr->fs_getfileblock= getBlockFunc;␊
524	bvr->fs_getuuid = getUUIDFunc;␊
525	bvr->description = getDescriptionFunc;␊
526	bvr->type = type;␊
527	bvr->bv_free = bvFreeFunc;␊
528	␊
529	if ((part->bootid & FDISK_ACTIVE) && (part->systid == FDISK_HFS))␊
530	bvr->flags \|= kBVFlagPrimary;␊
531	␊
532	// Probe the filesystem.␊
533	␊
534	if ( initFunc )␊
535	{␊
536	bvr->flags \|= kBVFlagNativeBoot;␊
537	␊
538	if ( probe && initFunc( bvr ) != 0 )␊
539	{␊
540	// filesystem probe failed.␊
541	␊
542	DEBUG_DISK(("%s: failed probe on dev %x part %d\n",␊
543	__FUNCTION__, biosdev, partno));␊
544	␊
545	(*bvr->bv_free)(bvr);␊
546	bvr = NULL;␊
547	}␊
548	if ( readBootSector( biosdev, blkoff, (void *)0x7e00 ) == 0 )␊
549	{␊
550	␉bvr->flags \|= kBVFlagBootable;␊
551	}␊
552	}␊
553	else if ( readBootSector( biosdev, blkoff, (void *)0x7e00 ) == 0 )␊
554	{␊
555	bvr->flags \|= kBVFlagForeignBoot;␊
556	}␊
557	else␊
558	{␊
559	(*bvr->bv_free)(bvr);␊
560	bvr = NULL;␊
561	}␊
562	}␊
563	if (bvr) bvr->flags \|= bvrFlags;␊
564	return bvr;␊
565	}␊
566	␊
567	//==========================================================================␊
568	␊
569	BVRef newAPMBVRef( int biosdev, int partno, unsigned int blkoff,␊
570	const DPME * part,␊
571	FSInit initFunc, FSLoadFile loadFunc,␊
572	FSReadFile readFunc,␊
573	FSGetDirEntry getdirFunc,␊
574	FSGetFileBlock getBlockFunc,␊
575	FSGetUUID getUUIDFunc,␊
576	BVGetDescription getDescriptionFunc,␊
577	BVFree bvFreeFunc,␊
578	int probe, int type, unsigned int bvrFlags )␊
579	{␊
580	BVRef bvr = (BVRef) malloc( sizeof(*bvr) );␊
581	if ( bvr )␊
582	{␊
583	bzero(bvr, sizeof(*bvr));␊
584	␊
585	bvr->biosdev = biosdev;␊
586	bvr->part_no = partno;␊
587	bvr->part_boff = blkoff;␊
588	bvr->fs_loadfile = loadFunc;␊
589	bvr->fs_readfile = readFunc;␊
590	bvr->fs_getdirentry = getdirFunc;␊
591	bvr->fs_getfileblock= getBlockFunc;␊
592	bvr->fs_getuuid = getUUIDFunc;␊
593	bvr->description = getDescriptionFunc;␊
594	bvr->type = type;␊
595	bvr->bv_free = bvFreeFunc;␊
596	strlcpy(bvr->name, part->dpme_name, DPISTRLEN);␊
597	strlcpy(bvr->type_name, part->dpme_type, DPISTRLEN);␊
598	␊
599	/*␊
600	if ( part->bootid & FDISK_ACTIVE )␊
601	bvr->flags \|= kBVFlagPrimary;␊
602	*/␊
603	␊
604	// Probe the filesystem.␊
605	␊
606	if ( initFunc )␊
607	{␊
608	bvr->flags \|= kBVFlagNativeBoot \| kBVFlagBootable \| kBVFlagSystemVolume;␊
609	␊
610	if ( probe && initFunc( bvr ) != 0 )␊
611	{␊
612	// filesystem probe failed.␊
613	␊
614	DEBUG_DISK(("%s: failed probe on dev %x part %d\n",␊
615	__FUNCTION__, biosdev, partno));␊
616	␊
617	(*bvr->bv_free)(bvr);␊
618	bvr = NULL;␊
619	}␊
620	}␊
621	/*␊
622	else if ( readBootSector( biosdev, blkoff, (void *)0x7e00 ) == 0 )␊
623	{␊
624	bvr->flags \|= kBVFlagForeignBoot;␊
625	}␊
626	*/␊
627	else␊
628	{␊
629	(*bvr->bv_free)(bvr);␊
630	bvr = NULL;␊
631	}␊
632	}␊
633	if (bvr) bvr->flags \|= bvrFlags;␊
634	return bvr;␊
635	}␊
636	␊
637	//==========================================================================␊
638	␊
639	// HFS+ GUID in LE form - Hierarchical File System (HFS+) partition - 48465300-0000-11AA-AA11-00306543ECAC␊
640	EFI_GUID const GPT_HFS_GUID␉␉ = { 0x48465300, 0x0000, 0x11AA, { 0xAA, 0x11, 0x00, 0x30, 0x65, 0x43, 0xEC, 0xAC } };␊
641	␊
642	// turbo - Apple Boot partition - 426F6F74-0000-11AA-AA11-00306543ECAC␊
643	EFI_GUID const GPT_BOOT_GUID␉ = { 0x426F6F74, 0x0000, 0x11AA, { 0xAA, 0x11, 0x00, 0x30, 0x65, 0x43, 0xEC, 0xAC } };␊
644	␊
645	// turbo - or an EFI System partition - C12A7328-F81F-11D2-BA4B-00A0C93EC93B␊
646	EFI_GUID const GPT_EFISYS_GUID␉ = { 0xC12A7328, 0xF81F, 0x11D2, { 0xBA, 0x4B, 0x00, 0xA0, 0xC9, 0x3E, 0xC9, 0x3B } };␊
647	␊
648	// zef - Basic Data partition - EBD0A0A2-B9E5-4433-87C0-68B6B72699C7 for foreign OS support␊
649	EFI_GUID const GPT_BASICDATA_GUID = { 0xEBD0A0A2, 0xB9E5, 0x4433, { 0x87, 0xC0, 0x68, 0xB6, 0xB7, 0x26, 0x99, 0xC7 } };␊
650	␊
651	// Microsoft Reserved Partition E3C9E316-0B5C-4DB8-817DF92DF00215AE␊
652	EFI_GUID const GPT_BASICDATA2_GUID = { 0xE3C9E316, 0x0B5C, 0x4DB8, { 0x81, 0x7D, 0xF9, 0x2D, 0xF0, 0x02, 0x15, 0xAE } };␊
653	␊
654	BVRef newGPTBVRef( int biosdev, int partno, unsigned int blkoff,␊
655	const gpt_ent * part,␊
656	FSInit initFunc, FSLoadFile loadFunc,␊
657	FSReadFile readFunc,␊
658	FSGetDirEntry getdirFunc,␊
659	FSGetFileBlock getBlockFunc,␊
660	FSGetUUID getUUIDFunc,␊
661	BVGetDescription getDescriptionFunc,␊
662	BVFree bvFreeFunc,␊
663	int probe, int type, unsigned int bvrFlags )␊
664	{␊
665	BVRef bvr = (BVRef) malloc( sizeof(*bvr) );␊
666	if ( bvr )␊
667	{␊
668	bzero(bvr, sizeof(*bvr));␊
669	␊
670	bvr->biosdev = biosdev;␊
671	bvr->part_no = partno;␊
672	bvr->part_boff = blkoff;␊
673	bvr->fs_loadfile = loadFunc;␊
674	bvr->fs_readfile = readFunc;␊
675	bvr->fs_getdirentry = getdirFunc;␊
676	bvr->fs_getfileblock= getBlockFunc;␊
677	bvr->fs_getuuid = getUUIDFunc;␊
678	bvr->description = getDescriptionFunc;␊
679	␉bvr->type = type;␊
680	bvr->bv_free = bvFreeFunc;␊
681	// FIXME: UCS-2 -> UTF-8 the name␊
682	strlcpy(bvr->name, "----", DPISTRLEN);␊
683	if ( (efi_guid_compare(&GPT_BOOT_GUID, (EFI_GUID const*)part->ent_type) == 0) \|\|␊
684	(efi_guid_compare(&GPT_HFS_GUID, (EFI_GUID const*)part->ent_type) == 0) )␊
685	strlcpy(bvr->type_name, "GPT HFS+", DPISTRLEN);␊
686	else␊
687	strlcpy(bvr->type_name, "GPT Unknown", DPISTRLEN);␊
688	␊
689	/*␊
690	if ( part->bootid & FDISK_ACTIVE )␊
691	bvr->flags \|= kBVFlagPrimary;␊
692	*/␊
693	␊
694	// Probe the filesystem.␊
695	␊
696	if ( initFunc )␊
697	{␊
698	bvr->flags \|= kBVFlagNativeBoot;␊
699	␊
700	if ( probe && initFunc( bvr ) != 0 )␊
701	{␊
702	// filesystem probe failed.␊
703	␊
704	DEBUG_DISK(("%s: failed probe on dev %x part %d\n",␊
705	__FUNCTION__, biosdev, partno));␊
706	␊
707	(*bvr->bv_free)(bvr);␊
708	bvr = NULL;␊
709	}␊
710	if ( readBootSector( biosdev, blkoff, (void *)0x7e00 ) == 0 )␊
711	{␊
712	␉bvr->flags \|= kBVFlagBootable;␊
713	}␊
714	}␊
715	else if ( readBootSector( biosdev, blkoff, (void *)0x7e00 ) == 0 )␊
716	{␊
717	bvr->flags \|= kBVFlagForeignBoot;␊
718	}␊
719	else␊
720	{␊
721	(*bvr->bv_free)(bvr);␊
722	bvr = NULL;␊
723	}␊
724	}␊
725	if (bvr) bvr->flags \|= bvrFlags;␊
726	return bvr;␊
727	}␊
728	␊
729	//==========================================================================␊
730	␊
731	/* A note on partition numbers:␊
732	* IOKit makes the primary partitions numbers 1-4, and then␊
733	* extended partitions are numbered consecutively 5 and up.␊
734	* So, for example, if you have two primary partitions and␊
735	* one extended partition they will be numbered 1, 2, 5.␊
736	*/␊
737	␊
738	static BVRef diskScanFDiskBootVolumes( int biosdev, int * countPtr )␊
739	{␊
740	const struct fdisk_part * part;␊
741	struct DiskBVMap * map;␊
742	int partno = -1;␊
743	BVRef bvr;␊
744	#if UFS_SUPPORT␊
745	BVRef booterUFS = NULL;␊
746	#endif␊
747	int spc;␊
748	struct driveInfo di;␊
749	boot_drive_info_t *dp;␊
750	␊
751	/* Initialize disk info */␊
752	if (getDriveInfo(biosdev, &di) != 0) {␊
753	␉return NULL;␊
754	}␊
755	dp = &di.di;␊
756	spc = (dp->params.phys_spt * dp->params.phys_heads);␊
757	if (spc == 0) {␊
758	␉/* This is probably a CD-ROM; punt on the geometry. */␊
759	␉spc = 1;␊
760	}␊
761	␊
762	do {␊
763	// Create a new mapping.␊
764	␊
765	map = (struct DiskBVMap ) malloc( sizeof(map) );␊
766	if ( map )␊
767	{␊
768	map->biosdev = biosdev;␊
769	map->bvr = NULL;␊
770	map->bvrcnt = 0;␊
771	map->next = gDiskBVMap;␊
772	gDiskBVMap = map;␊
773	␊
774	// Create a record for each partition found on the disk.␊
775	␊
776	while ( getNextFDiskPartition( biosdev, &partno, &part ) )␊
777	{␊
778	DEBUG_DISK(("%s: part %d [%x]\n", __FUNCTION__,␊
779	partno, part->systid));␊
780	bvr = 0;␊
781	␊
782	switch ( part->systid )␊
783	{␊
784	#if UFS_SUPPORT␊
785	case FDISK_UFS:␊
786	bvr = newFDiskBVRef(␊
787	biosdev, partno,␊
788	part->relsect + UFS_FRONT_PORCH/BPS,␊
789	part,␊
790	UFSInitPartition,␊
791	UFSLoadFile,␊
792	UFSReadFile,␊
793	UFSGetDirEntry,␊
794	UFSGetFileBlock,␊
795	UFSGetUUID,␊
796	UFSGetDescription,␊
797	UFSFree,␊
798	0,␊
799	kBIOSDevTypeHardDrive, 0);␊
800	break;␊
801	#endif␊
802	␊
803	case FDISK_HFS:␊
804	bvr = newFDiskBVRef(␊
805	biosdev, partno,␊
806	part->relsect,␊
807	part,␊
808	HFSInitPartition,␊
809	HFSLoadFile,␊
810	HFSReadFile,␊
811	HFSGetDirEntry,␊
812	HFSGetFileBlock,␊
813	HFSGetUUID,␊
814	HFSGetDescription,␊
815	HFSFree,␊
816	0,␊
817	kBIOSDevTypeHardDrive, 0);␊
818	break;␊
819	␊
820	// turbo - we want the booter type scanned also␊
821	case FDISK_BOOTER:␊
822	if (part->bootid & FDISK_ACTIVE)␊
823	gBIOSBootVolume = newFDiskBVRef(␊
824	biosdev, partno,␊
825	part->relsect,␊
826	part,␊
827	HFSInitPartition,␊
828	HFSLoadFile,␊
829	HFSReadFile,␊
830	HFSGetDirEntry,␊
831	HFSGetFileBlock,␊
832	HFSGetUUID,␊
833	HFSGetDescription,␊
834	HFSFree,␊
835	0,␊
836	kBIOSDevTypeHardDrive, 0);␊
837	break;␊
838	␊
839	#if UFS_SUPPORT␊
840	case FDISK_BOOTER:␊
841	booterUFS = newFDiskBVRef(␊
842	biosdev, partno,␊
843	((part->relsect + spc - 1) / spc) * spc,␊
844	part,␊
845	UFSInitPartition,␊
846	UFSLoadFile,␊
847	UFSReadFile,␊
848	UFSGetDirEntry,␊
849	UFSGetFileBlock,␊
850	UFSGetUUID,␊
851	UFSGetDescription,␊
852	UFSFree,␊
853	0,␊
854	kBIOSDevTypeHardDrive, 0);␊
855	break;␊
856	#endif␊
857	␊
858	case FDISK_FAT32:␊
859	case FDISK_DOS12:␊
860	case FDISK_DOS16S:␊
861	case FDISK_DOS16B:␊
862	case FDISK_SMALLFAT32:␊
863	case FDISK_DOS16SLBA:␊
864	bvr = newFDiskBVRef(␊
865	biosdev, partno,␊
866	part->relsect,␊
867	part,␊
868	MSDOSInitPartition,␊
869	MSDOSLoadFile,␊
870	MSDOSReadFile,␊
871	MSDOSGetDirEntry,␊
872	MSDOSGetFileBlock,␊
873	MSDOSGetUUID,␊
874	MSDOSGetDescription,␊
875	MSDOSFree,␊
876	0,␊
877	kBIOSDevTypeHardDrive, 0);␊
878	break;␊
879	␉␉␉␉␉␉␊
880	case FDISK_NTFS:␊
881	bvr = newFDiskBVRef(␊
882	biosdev, partno,␊
883	part->relsect,␊
884	part,␊
885	0, 0, 0, 0, 0,␊
886	NTFSGetUUID,␊
887	NTFSGetDescription,␊
888	(BVFree)free,␊
889	0, kBIOSDevTypeHardDrive, 0);␊
890	break;␊
891	␊
892	case FDISK_LINUX:␊
893	bvr = newFDiskBVRef(␊
894	biosdev, partno,␊
895	part->relsect,␊
896	part,␊
897	0, 0, 0, 0, 0, 0,␊
898	EX2GetDescription,␊
899	(BVFree)free,␊
900	0, kBIOSDevTypeHardDrive, 0);␊
901	break;␊
902	␉␉␉␉␊
903	default:␊
904	bvr = newFDiskBVRef(␊
905	biosdev, partno,␊
906	part->relsect,␊
907	part,␊
908	0, 0, 0, 0, 0, 0, 0,␊
909	(BVFree)free,␊
910	0,␊
911	kBIOSDevTypeHardDrive, 0);␊
912	break;␊
913	}␊
914	␊
915	if ( bvr )␊
916	{␊
917	bvr->next = map->bvr;␊
918	map->bvr = bvr;␊
919	map->bvrcnt++;␊
920	}␊
921	}␊
922	␊
923	#if UFS_SUPPORT␊
924	// Booting from a CD with an UFS filesystem embedded␊
925	// in a booter partition.␊
926	␊
927	if ( booterUFS )␊
928	{␊
929	if ( map->bvrcnt == 0 )␊
930	{␊
931	map->bvr = booterUFS;␊
932	map->bvrcnt++;␊
933	}␊
934	else free( booterUFS );␊
935	}␊
936	#endif␊
937	}␊
938	} while (0);␊
939	␊
940	/*␊
941	* If no FDisk partition, then we will check for␊
942	* an Apple partition map elsewhere.␊
943	*/␊
944	#if UNUSED␊
945	if (map->bvrcnt == 0) {␊
946	␉static struct fdisk_part cdpart;␊
947	␉cdpart.systid = 0xCD;␊
948	␊
949	␉/* Let's try assuming we are on a hybrid HFS/ISO9660 CD. */␊
950	␉bvr = newFDiskBVRef(␊
951	␉␉␉ biosdev, 0,␊
952	␉␉␉ 0,␊
953	␉␉␉ &cdpart,␊
954	␉␉␉ HFSInitPartition,␊
955	␉␉␉ HFSLoadFile,␊
956	HFSReadFile,␊
957	␉␉␉ HFSGetDirEntry,␊
958	HFSGetFileBlock,␊
959	HFSGetUUID,␊
960	␉␉␉ 0,␊
961	␉␉␉ kBIOSDevTypeHardDrive);␊
962	␉bvr->next = map->bvr;␊
963	␉map->bvr = bvr;␊
964	␉map->bvrcnt++;␊
965	}␊
966	#endif␊
967	// Actually this should always be true given the above code␊
968	if(map == gDiskBVMap)␊
969	{␊
970	// Don't leave a null map in the chain␊
971	if(map->bvrcnt == 0 && map->bvr == NULL)␊
972	{␊
973	gDiskBVMap = map->next;␊
974	free(map);␊
975	map = NULL;␊
976	}␊
977	}␊
978	␊
979	if (countPtr) *countPtr = map ? map->bvrcnt : 0;␊
980	␊
981	return map ? map->bvr : NULL;␊
982	}␊
983	␊
984	//==========================================================================␊
985	␊
986	static BVRef diskScanAPMBootVolumes( int biosdev, int * countPtr )␊
987	{␊
988	struct DiskBVMap * map;␊
989	struct Block0 *block0_p;␊
990	unsigned int blksize;␊
991	unsigned int factor;␊
992	void *buffer = malloc(BPS);␊
993	␊
994	/* Check for alternate block size */␊
995	if (readBytes( biosdev, 0, 0, BPS, buffer ) != 0) {␊
996	return NULL;␊
997	}␊
998	block0_p = buffer;␊
999	if (OSSwapBigToHostInt16(block0_p->sbSig) == BLOCK0_SIGNATURE) {␊
1000	blksize = OSSwapBigToHostInt16(block0_p->sbBlkSize);␊
1001	if (blksize != BPS) {␊
1002	free(buffer);␊
1003	buffer = malloc(blksize);␊
1004	}␊
1005	factor = blksize / BPS;␊
1006	} else {␊
1007	blksize = BPS;␊
1008	factor = 1;␊
1009	}␊
1010	␊
1011	do {␊
1012	// Create a new mapping.␊
1013	␊
1014	map = (struct DiskBVMap ) malloc( sizeof(map) );␊
1015	if ( map )␊
1016	{␊
1017	int error;␊
1018	DPME dpme_p = (DPME )buffer;␊
1019	UInt32 i, npart = UINT_MAX;␊
1020	BVRef bvr;␊
1021	␊
1022	map->biosdev = biosdev;␊
1023	map->bvr = NULL;␊
1024	map->bvrcnt = 0;␊
1025	map->next = gDiskBVMap;␊
1026	gDiskBVMap = map;␊
1027	␊
1028	for (i=0; i<npart; i++) {␊
1029	error = readBytes( biosdev, (kAPMSector + i) * factor, 0, blksize, buffer );␊
1030	␊
1031	if (error \|\| OSSwapBigToHostInt16(dpme_p->dpme_signature) != DPME_SIGNATURE) {␊
1032	break;␊
1033	}␊
1034	␊
1035	if (i==0) {␊
1036	npart = OSSwapBigToHostInt32(dpme_p->dpme_map_entries);␊
1037	}␊
1038	/*␊
1039	printf("name = %s, %s%s %d -> %d [%d -> %d] {%d}\n",␊
1040	dpme.dpme_name, dpme.dpme_type, (dpme.dpme_flags & DPME_FLAGS_BOOTABLE) ? "(bootable)" : "",␊
1041	dpme.dpme_pblock_start, dpme.dpme_pblocks,␊
1042	dpme.dpme_lblock_start, dpme.dpme_lblocks,␊
1043	dpme.dpme_boot_block);␊
1044	*/␊
1045	␊
1046	if (strcmp(dpme_p->dpme_type, "Apple_HFS") == 0) {␊
1047	bvr = newAPMBVRef(biosdev,␊
1048	i,␊
1049	OSSwapBigToHostInt32(dpme_p->dpme_pblock_start) * factor,␊
1050	dpme_p,␊
1051	HFSInitPartition,␊
1052	HFSLoadFile,␊
1053	HFSReadFile,␊
1054	HFSGetDirEntry,␊
1055	HFSGetFileBlock,␊
1056	HFSGetUUID,␊
1057	HFSGetDescription,␊
1058	HFSFree,␊
1059	0,␊
1060	kBIOSDevTypeHardDrive, 0);␊
1061	bvr->next = map->bvr;␊
1062	map->bvr = bvr;␊
1063	map->bvrcnt++;␊
1064	}␊
1065	}␊
1066	}␊
1067	} while (0);␊
1068	␊
1069	free(buffer);␊
1070	␊
1071	if (countPtr) *countPtr = map ? map->bvrcnt : 0;␊
1072	␊
1073	return map ? map->bvr : NULL;␊
1074	}␊
1075	␊
1076	//==========================================================================␊
1077	␊
1078	// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -␊
1079	␊
1080	/*␊
1081	* Trying to figure out the filsystem type of a given partition.␊
1082	*/␊
1083	static int probeFileSystem(int biosdev, unsigned int blkoff)␊
1084	{␊
1085	// detected filesystem type;␊
1086	int result = -1;␊
1087	int fatbits;␊
1088	␊
1089	// Allocating buffer for 4 sectors.␊
1090	const void * probeBuffer = malloc(PROBEFS_SIZE);␊
1091	if (probeBuffer == NULL)␊
1092	goto exit;␊
1093	␊
1094	// Reading first 4 sectors of current partition␊
1095	int error = readBytes(biosdev, blkoff, 0, PROBEFS_SIZE, (void *)probeBuffer);␊
1096	if (error)␊
1097	goto exit;␊
1098	␊
1099	if (HFSProbe(probeBuffer))␊
1100	result = FDISK_HFS;␊
1101	else if (EX2Probe(probeBuffer))␊
1102	␉ result = FDISK_LINUX;␊
1103	else if (NTFSProbe(probeBuffer))␊
1104	result = FDISK_NTFS;␊
1105	else if (fatbits=MSDOSProbe(probeBuffer))␊
1106	{␊
1107	␉ switch (fatbits)␊
1108	␉ {␊
1109	␉␉ case 32:␊
1110	␉␉ default:␊
1111	␉␉␉ result = FDISK_FAT32;␊
1112	␉␉␉ break;␊
1113	␉␉ case 16:␊
1114	␉␉␉ result = FDISK_DOS16B;␊
1115	␉␉␉ break;␊
1116	␉␉ case 12:␊
1117	␉␉␉ result = FDISK_DOS12;␊
1118	␉␉␉ break;␉␉␉ ␊
1119	␉ }␊
1120	}␊
1121	else␊
1122	// Couldn't detect filesystem type␊
1123	result = 0;␊
1124	␊
1125	exit:␊
1126	if (probeBuffer != NULL) free((void *)probeBuffer);␊
1127	return result;␊
1128	}␊
1129	␊
1130	static bool isPartitionUsed(gpt_ent * partition)␊
1131	{␊
1132	//␊
1133	// Ask whether the given partition is used.␊
1134	//␊
1135	␊
1136	return efi_guid_is_null((EFI_GUID const*)partition->ent_type) ? false : true;␊
1137	}␊
1138	␊
1139	// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -␊
1140	␊
1141	static BVRef diskScanGPTBootVolumes( int biosdev, int * countPtr )␊
1142	{␊
1143	struct DiskBVMap * map = NULL;␊
1144	void *buffer = malloc(BPS);␊
1145	int error;␊
1146	if ( error = readBytes( biosdev, /secno/0, 0, BPS, buffer ) != 0) {␊
1147	verbose("Failed to read boot sector from BIOS device %02xh. Error=%d\n", biosdev, error);␊
1148	goto scanErr;␊
1149	}␊
1150	struct REAL_disk_blk0 *fdiskMap = buffer;␊
1151	if ( OSSwapLittleToHostInt16(fdiskMap->signature) != DISK_SIGNATURE )␊
1152	{␊
1153	verbose("Failed to find boot signature on BIOS device %02xh\n", biosdev);␊
1154	goto scanErr;␊
1155	}␊
1156	␊
1157	int fdiskID = 0;␊
1158	unsigned index;␊
1159	for ( index = 0; index < FDISK_NPART; index++ )␊
1160	{␊
1161	if ( fdiskMap->parts[index].systid )␊
1162	{␊
1163	if ( fdiskMap->parts[index].systid == 0xEE )␊
1164	{␊
1165	// Fail if two 0xEE partitions are present which␊
1166	// means the FDISK code will wind up parsing it.␊
1167	if ( fdiskID ) goto scanErr;␊
1168	␊
1169	fdiskID = index + 1;␊
1170	}␊
1171	}␊
1172	}␊
1173	␊
1174	if ( fdiskID == 0 ) goto scanErr;␊
1175	verbose("Attempting to read GPT\n");␊
1176	␊
1177	if(readBytes(biosdev, 1, 0, BPS, buffer) != 0)␊
1178	goto scanErr;␊
1179	␊
1180	gpt_hdr *headerMap = buffer;␊
1181	␊
1182	// Determine whether the partition header signature is present.␊
1183	␊
1184	if ( memcmp(headerMap->hdr_sig, GPT_HDR_SIG, strlen(GPT_HDR_SIG)) )␊
1185	{␊
1186	goto scanErr;␊
1187	}␊
1188	␊
1189	// Determine whether the partition header size is valid.␊
1190	␊
1191	UInt32 headerCheck = OSSwapLittleToHostInt32(headerMap->hdr_crc_self);␊
1192	UInt32 headerSize = OSSwapLittleToHostInt32(headerMap->hdr_size);␊
1193	␊
1194	if ( headerSize < offsetof(gpt_hdr, padding) )␊
1195	{␊
1196	goto scanErr;␊
1197	}␊
1198	␊
1199	if ( headerSize > BPS )␊
1200	{␊
1201	goto scanErr;␊
1202	}␊
1203	␊
1204	// Determine whether the partition header checksum is valid.␊
1205	␊
1206	headerMap->hdr_crc_self = 0;␊
1207	␊
1208	if ( crc32(0, headerMap, headerSize) != headerCheck )␊
1209	{␊
1210	goto scanErr;␊
1211	}␊
1212	␊
1213	// Determine whether the partition entry size is valid.␊
1214	␊
1215	UInt64 gptBlock = 0;␊
1216	UInt32 gptCheck = 0;␊
1217	UInt32 gptCount = 0;␊
1218	UInt32 gptID = 0;␊
1219	gpt_ent * gptMap = 0;␊
1220	UInt32 gptSize = 0;␊
1221	␊
1222	gptBlock = OSSwapLittleToHostInt64(headerMap->hdr_lba_table);␊
1223	gptCheck = OSSwapLittleToHostInt32(headerMap->hdr_crc_table);␊
1224	gptCount = OSSwapLittleToHostInt32(headerMap->hdr_entries);␊
1225	gptSize = OSSwapLittleToHostInt32(headerMap->hdr_entsz);␊
1226	␊
1227	if ( gptSize < sizeof(gpt_ent) )␊
1228	{␊
1229	goto scanErr;␊
1230	}␊
1231	␊
1232	// Allocate a buffer large enough to hold one map, rounded to a media block.␊
1233	free(buffer);␊
1234	buffer = NULL;␊
1235	␊
1236	UInt32 bufferSize = IORound(gptCount * gptSize, BPS);␊
1237	if(bufferSize == 0)␊
1238	goto scanErr;␊
1239	buffer = malloc(bufferSize);␊
1240	␊
1241	if(readBytes(biosdev, gptBlock, 0, bufferSize, buffer) != 0)␊
1242	goto scanErr;␊
1243	␊
1244	verbose("Read GPT\n");␊
1245	␊
1246	// Allocate a new map for this BIOS device and insert it into the chain␊
1247	map = malloc(sizeof(*map));␊
1248	map->biosdev = biosdev;␊
1249	map->bvr = NULL;␊
1250	map->bvrcnt = 0;␊
1251	map->next = gDiskBVMap;␊
1252	gDiskBVMap = map;␊
1253	␊
1254	// fdisk like partition type id.␊
1255	int fsType = 0;␊
1256	␊
1257	for(gptID = 1; gptID <= gptCount; ++gptID)␊
1258	{␊
1259	␉␉␉␉BVRef bvr = NULL;␊
1260	␉␉␉␉unsigned int bvrFlags = 0;␊
1261	␊
1262	// size on disk can be larger than sizeof(gpt_ent)␊
1263	gptMap = (gpt_ent ) ( buffer + ( (gptID - 1) gptSize) );␊
1264	␊
1265	// NOTE: EFI_GUID's are in LE and we know we're on an x86.␊
1266	// The IOGUIDPartitionScheme.cpp code uses byte-based UUIDs, we don't.␊
1267	␊
1268	if (isPartitionUsed(gptMap))␊
1269	{␊
1270	char stringuuid[100];␊
1271	efi_guid_unparse_upper((EFI_GUID*)gptMap->ent_type, stringuuid);␊
1272	verbose("Reading GPT partition %d, type %s\n", gptID, stringuuid);␊
1273	␊
1274	// Getting fdisk like partition type.␊
1275	fsType = probeFileSystem(biosdev, gptMap->ent_lba_start);␊
1276	␊
1277	if ( (efi_guid_compare(&GPT_BOOT_GUID, (EFI_GUID const*)gptMap->ent_type) == 0) \|\|␊
1278	(efi_guid_compare(&GPT_HFS_GUID, (EFI_GUID const*)gptMap->ent_type) == 0) )␊
1279	{␊
1280	bvrFlags = (efi_guid_compare(&GPT_BOOT_GUID, (EFI_GUID const*)gptMap->ent_type) == 0) ? kBVFlagBooter : 0;␊
1281	bvr = newGPTBVRef(biosdev,␊
1282	gptID,␊
1283	gptMap->ent_lba_start,␊
1284	gptMap,␊
1285	HFSInitPartition,␊
1286	HFSLoadFile,␊
1287	HFSReadFile,␊
1288	HFSGetDirEntry,␊
1289	HFSGetFileBlock,␊
1290	HFSGetUUID,␊
1291	HFSGetDescription,␊
1292	HFSFree,␊
1293	0,␊
1294	kBIOSDevTypeHardDrive, bvrFlags);␊
1295	}␊
1296	␊
1297	␉␉␉// zef - foreign OS support␊
1298	if ( (efi_guid_compare(&GPT_BASICDATA_GUID, (EFI_GUID const*)gptMap->ent_type) == 0) \|\|␊
1299	(efi_guid_compare(&GPT_BASICDATA2_GUID, (EFI_GUID const*)gptMap->ent_type) == 0) )␊
1300	{␊
1301	␉␉␉␉␉␉␉switch (fsType)␊
1302	{␊
1303	␉␉␉␉␉␉␉ case FDISK_NTFS:␊
1304	␉␉␉␉␉␉␉ bvr = newGPTBVRef(biosdev, gptID, gptMap->ent_lba_start, gptMap,␊
1305	␉ ␉␉␉␉␉␉␉␉0, 0, 0, 0, 0, 0, NTFSGetDescription,␊
1306	␉␉ ␉␉␉␉␉␉␉(BVFree)free, 0, kBIOSDevTypeHardDrive, 0);␊
1307	␉␉␉␉␉␉␉␉break;␊
1308	␊
1309	default:␊
1310	bvr = newGPTBVRef(biosdev, gptID, gptMap->ent_lba_start, gptMap,␊
1311	0, 0, 0, 0, 0, 0, 0,␊
1312	(BVFree)free, 0, kBIOSDevTypeHardDrive, 0);␊
1313	break;␊
1314	}␊
1315	␉␉␉␉␉␉␉ ␊
1316	}␊
1317	␊
1318	// turbo - save our booter partition␊
1319	// zef - only on original boot device␊
1320	if ( (efi_guid_compare(&GPT_EFISYS_GUID, (EFI_GUID const*)gptMap->ent_type) == 0) )␊
1321	{␊
1322	␉␉␉␉␉␉␉switch (fsType)␊
1323	{␊
1324	case FDISK_HFS:␊
1325	if (readBootSector( biosdev, gptMap->ent_lba_start, (void *)0x7e00 ) == 0)␊
1326	{␊
1327	bvr = newGPTBVRef(biosdev, gptID, gptMap->ent_lba_start, gptMap,␊
1328	HFSInitPartition,␊
1329	HFSLoadFile,␊
1330	HFSReadFile,␊
1331	HFSGetDirEntry,␊
1332	HFSGetFileBlock,␊
1333	HFSGetUUID,␊
1334	HFSGetDescription,␊
1335	HFSFree,␊
1336	0, kBIOSDevTypeHardDrive, kBVFlagEFISystem);␊
1337	}␊
1338	break;␊
1339	␊
1340	case FDISK_FAT32:␊
1341	if (testFAT32EFIBootSector( biosdev, gptMap->ent_lba_start, (void *)0x7e00 ) == 0)␊
1342	{␊
1343	bvr = newGPTBVRef(biosdev, gptID, gptMap->ent_lba_start, gptMap,␊
1344	MSDOSInitPartition,␊
1345	MSDOSLoadFile,␊
1346	MSDOSReadFile,␊
1347	MSDOSGetDirEntry,␊
1348	MSDOSGetFileBlock,␊
1349	MSDOSGetUUID,␊
1350	MSDOSGetDescription,␊
1351	MSDOSFree,␊
1352	0, kBIOSDevTypeHardDrive, kBVFlagEFISystem);␊
1353	}␊
1354	break;␊
1355	␊
1356	if (biosdev == gBIOSDev)␊
1357	gBIOSBootVolume = bvr;␊
1358	}␊
1359	} ␊
1360	␊
1361	␉␉␉␉␉␉if (bvr)␊
1362	␉␉␉␉␉␉{␊
1363	// Fixup bvr with the fake fdisk partition type.␊
1364	if (fsType > 0) bvr->part_type = fsType;␊
1365	␊
1366	␉␉␉␉␉␉␉bvr->next = map->bvr;␊
1367	␉␉␉␉␉␉␉map->bvr = bvr;␊
1368	␉␉␉␉␉␉␉++map->bvrcnt;␊
1369	␉␉␉␉␉␉}␊
1370	␊
1371	}␊
1372	}␊
1373	␊
1374	scanErr:␊
1375	free(buffer);␊
1376	␊
1377	if(map)␊
1378	{␊
1379	if(countPtr) *countPtr = map->bvrcnt;␊
1380	return map->bvr;␊
1381	}␊
1382	else␊
1383	{␊
1384	if(countPtr) *countPtr = 0;␊
1385	return NULL;␊
1386	}␊
1387	}␊
1388	␊
1389	//==========================================================================␊
1390	␊
1391	static void scanFSLevelBVRSettings(BVRef chain)␊
1392	{␊
1393	BVRef bvr;␊
1394	char dirSpec[512], fileSpec[512];␊
1395	char label[BVSTRLEN];␊
1396	int ret;␊
1397	long flags, time;␊
1398	int fh, fileSize, error;␊
1399	␊
1400	for (bvr = chain; bvr; bvr = bvr->next)␊
1401	{␊
1402	ret = -1;␊
1403	error = 0;␊
1404	␊
1405	//␊
1406	// Check for alternate volume label on boot helper partitions.␊
1407	//␊
1408	if (bvr->flags & kBVFlagBooter)␊
1409	{␊
1410	sprintf(dirSpec, "hd(%d,%d)/System/Library/CoreServices/", BIOS_DEV_UNIT(bvr), bvr->part_no);␊
1411	strcpy(fileSpec, ".disk_label.contentDetails");␊
1412	ret = GetFileInfo(dirSpec, fileSpec, &flags, &time);␊
1413	if (!ret)␊
1414	{␊
1415	fh = open(strcat(dirSpec, fileSpec), 0);␊
1416	fileSize = file_size(fh);␊
1417	if (fileSize > 0 && fileSize < BVSTRLEN)␊
1418	{␊
1419	if (read(fh, label, fileSize) != fileSize)␊
1420	error = -1;␊
1421	}␊
1422	else␊
1423	error = -1;␊
1424	␊
1425	close(fh);␊
1426	␊
1427	if (!error)␊
1428	{␊
1429	label[fileSize] = '\0';␊
1430	strcpy(bvr->altlabel, label);␊
1431	}␊
1432	}␊
1433	}␊
1434	␊
1435	//␊
1436	// Check for SystemVersion.plist or ServerVersion.plist␊
1437	// to determine if a volume hosts an installed system.␊
1438	//␊
1439	if (bvr->flags & kBVFlagNativeBoot)␊
1440	{␊
1441	sprintf(dirSpec, "hd(%d,%d)/System/Library/CoreServices/", BIOS_DEV_UNIT(bvr), bvr->part_no);␊
1442	strcpy(fileSpec, "SystemVersion.plist");␊
1443	ret = GetFileInfo(dirSpec, fileSpec, &flags, &time);␊
1444	␊
1445	if (ret == -1)␊
1446	{␊
1447	strcpy(fileSpec, "ServerVersion.plist");␊
1448	ret = GetFileInfo(dirSpec, fileSpec, &flags, &time);␊
1449	}␊
1450	␊
1451	if (!ret)␊
1452	bvr->flags \|= kBVFlagSystemVolume;␊
1453	}␊
1454	␊
1455	}␊
1456	}␊
1457	␊
1458	void rescanBIOSDevice(int biosdev)␊
1459	{␊
1460	␉struct DiskBVMap *oldMap = diskResetBootVolumes(biosdev);␊
1461	␉CacheReset();␊
1462	␉diskFreeMap(oldMap);␊
1463	␉oldMap = NULL;␊
1464	␉scanBootVolumes(biosdev, 0);␊
1465	}␊
1466	␊
1467	struct DiskBVMap* diskResetBootVolumes(int biosdev)␊
1468	{␊
1469	struct DiskBVMap * map;␊
1470	struct DiskBVMap *prevMap = NULL;␊
1471	for ( map = gDiskBVMap; map; prevMap = map, map = map->next ) {␊
1472	if ( biosdev == map->biosdev ) {␊
1473	break;␊
1474	}␊
1475	}␊
1476	if(map != NULL)␊
1477	{␊
1478	verbose("Resetting BIOS device %xh\n", biosdev);␊
1479	// Reset the biosbuf cache␊
1480	cache_valid = false;␊
1481	if(map == gDiskBVMap)␊
1482	gDiskBVMap = map->next;␊
1483	else if(prevMap != NULL)␊
1484	prevMap->next = map->next;␊
1485	else␊
1486	stop("");␊
1487	}␊
1488	// Return the old map, either to be freed, or reinserted later␊
1489	return map;␊
1490	}␊
1491	␊
1492	// Frees a DiskBVMap and all of its BootVolume's␊
1493	void diskFreeMap(struct DiskBVMap *map)␊
1494	{␊
1495	if(map != NULL)␊
1496	{␊
1497	while(map->bvr != NULL)␊
1498	{␊
1499	BVRef bvr = map->bvr;␊
1500	map->bvr = bvr->next;␊
1501	(*bvr->bv_free)(bvr);␊
1502	}␊
1503	free(map);␊
1504	}␊
1505	}␊
1506	␊
1507	BVRef diskScanBootVolumes( int biosdev, int * countPtr )␊
1508	{␊
1509	struct DiskBVMap * map;␊
1510	BVRef bvr;␊
1511	int count = 0;␊
1512	␊
1513	// Find an existing mapping for this device.␊
1514	␊
1515	for ( map = gDiskBVMap; map; map = map->next ) {␊
1516	if ( biosdev == map->biosdev ) {␊
1517	count = map->bvrcnt;␊
1518	break;␊
1519	}␊
1520	}␊
1521	␊
1522	if (map == NULL) {␊
1523	bvr = diskScanGPTBootVolumes(biosdev, &count);␊
1524	if (bvr == NULL) {␊
1525	bvr = diskScanFDiskBootVolumes(biosdev, &count);␊
1526	}␊
1527	if (bvr == NULL) {␊
1528	bvr = diskScanAPMBootVolumes(biosdev, &count);␊
1529	}␊
1530	if (bvr)␊
1531	{␊
1532	scanFSLevelBVRSettings(bvr);␊
1533	}␊
1534	} else {␊
1535	bvr = map->bvr;␊
1536	}␊
1537	if (countPtr) *countPtr += count;␊
1538	return bvr;␊
1539	}␊
1540	␊
1541	BVRef getBVChainForBIOSDev(int biosdev)␊
1542	{␊
1543	BVRef chain = NULL;␊
1544	struct DiskBVMap * map = NULL;␊
1545	␊
1546	for (map = gDiskBVMap; map; map = map->next)␊
1547	{␊
1548	if (map->biosdev == biosdev)␊
1549	{␊
1550	chain = map->bvr;␊
1551	break;␊
1552	}␊
1553	}␊
1554	␊
1555	return chain;␊
1556	}␊
1557	␊
1558	BVRef newFilteredBVChain(int minBIOSDev, int maxBIOSDev, unsigned int allowFlags, unsigned int denyFlags, int *count)␊
1559	{␊
1560	BVRef chain = NULL;␊
1561	BVRef bvr = NULL;␊
1562	BVRef newBVR = NULL;␊
1563	BVRef prevBVR = NULL;␊
1564	␊
1565	struct DiskBVMap * map = NULL;␊
1566	int bvCount = 0;␊
1567	␊
1568	const char *raw = 0;␊
1569	char* val = 0;␊
1570	int len;␊
1571	␊
1572	getValueForKey(kHidePartitionKey, &raw, &len, &bootInfo->bootConfig);␊
1573	if(raw)␊
1574	{␊
1575	val = XMLDecode(raw); ␊
1576	}␊
1577	␊
1578	/*␊
1579	* Traverse gDISKBVmap to get references for␊
1580	* individual bvr chains of each drive.␊
1581	*/␊
1582	for (map = gDiskBVMap; map; map = map->next)␊
1583	{␊
1584	for (bvr = map->bvr; bvr; bvr = bvr->next)␊
1585	{␊
1586	/*␊
1587	* Save the last bvr.␊
1588	*/␊
1589	if (newBVR) prevBVR = newBVR;␊
1590	␊
1591	/*␊
1592	* Allocate and copy the matched bvr entry into a new one.␊
1593	*/␊
1594	newBVR = (BVRef) malloc(sizeof(*newBVR));␊
1595	bcopy(bvr, newBVR, sizeof(*newBVR));␊
1596	␊
1597	/*␊
1598	* Adjust the new bvr's fields.␊
1599	*/␊
1600	newBVR->next = NULL;␊
1601	newBVR->filtered = true;␊
1602	␊
1603	if ( (!allowFlags \|\| newBVR->flags & allowFlags)␊
1604	&& (!denyFlags \|\| !(newBVR->flags & denyFlags) )␊
1605	&& (newBVR->biosdev >= minBIOSDev && newBVR->biosdev <= maxBIOSDev)␊
1606	)␊
1607	newBVR->visible = true;␊
1608	␊
1609	/*␊
1610	* Looking for "Hide Partition" entries in 'hd(x,y)\|uuid\|"label" hd(m,n)\|uuid\|"label"' format,␊
1611	* to be able to hide foreign partitions from the boot menu.␊
1612	*␊
1613	* Azi: disable the limit to foreign partitions.␊
1614	*/␊
1615	if ( (newBVR->flags/* & kBVFlagForeignBoot*/) )␊
1616	{␊
1617	char start, next = val;␊
1618	long len = 0; ␊
1619	do␊
1620	{␊
1621	start = strbreak(next, &next, &len);␊
1622	if(len && matchVolumeToString(newBVR, start, len) )␊
1623	␉ newBVR->visible = false;␊
1624	}␊
1625	while ( next && *next );␊
1626	}␊
1627	␊
1628	/*␊
1629	* Use the first bvr entry as the starting chain pointer.␊
1630	*/␊
1631	if (!chain)␊
1632	chain = newBVR;␊
1633	␊
1634	/*␊
1635	* Update the previous bvr's link pointer to use the new memory area.␊
1636	*/␊
1637	if (prevBVR)␊
1638	prevBVR->next = newBVR;␊
1639	␊
1640	if (newBVR->visible)␊
1641	bvCount++;␊
1642	}␊
1643	}␊
1644	␊
1645	#if DEBUG␊
1646	for (bvr = chain; bvr; bvr = bvr->next)␊
1647	{␊
1648	printf(" bvr: %d, dev: %d, part: %d, flags: %d, vis: %d\n", bvr, bvr->biosdev, bvr->part_no, bvr->flags, bvr->visible);␊
1649	}␊
1650	printf("count: %d\n", bvCount);␊
1651	getc();␊
1652	#endif␊
1653	␊
1654	*count = bvCount;␊
1655	␊
1656	free(val); ␊
1657	return chain;␊
1658	}␊
1659	␊
1660	int freeFilteredBVChain(const BVRef chain)␊
1661	{␊
1662	int ret = 1;␊
1663	BVRef bvr = chain;␊
1664	BVRef nextBVR = NULL;␊
1665	␊
1666	while (bvr)␊
1667	{␊
1668	nextBVR = bvr->next;␊
1669	␊
1670	if (bvr->filtered)␊
1671	{␊
1672	free(bvr);␊
1673	}␊
1674	else␊
1675	{␊
1676	ret = 0;␊
1677	break;␊
1678	}␊
1679	␊
1680	bvr = nextBVR;␊
1681	}␊
1682	␊
1683	return ret;␊
1684	}␊
1685	␊
1686	//==========================================================================␊
1687	␊
1688	static const struct NamedValue fdiskTypes[] =␊
1689	{␊
1690	{ FDISK_NTFS, "Windows NTFS" },␊
1691	␉{ FDISK_DOS12, "Windows FAT12" },␊
1692	␉{ FDISK_DOS16B, "Windows FAT16" },␊
1693	␉{ FDISK_DOS16S, "Windows FAT16" },␊
1694	␉{ FDISK_DOS16SLBA, "Windows FAT16" },␊
1695	␉{ FDISK_SMALLFAT32, "Windows FAT32" },␊
1696	␉{ FDISK_FAT32, "Windows FAT32" },␊
1697	{ FDISK_LINUX, "Linux" },␊
1698	{ FDISK_UFS, "Apple UFS" },␊
1699	{ FDISK_HFS, "Apple HFS" },␊
1700	{ FDISK_BOOTER, "Apple Boot/UFS" },␊
1701	{ 0xCD, "CD-ROM" },␊
1702	{ 0x00, 0 } /* must be last */␊
1703	};␊
1704	␊
1705	//==========================================================================␊
1706	␊
1707	bool matchVolumeToString( BVRef bvr, const char* match, long matchLen)␊
1708	{␊
1709	␉char testStr[128];␊
1710	␊
1711	␉if ( !bvr \|\| !match \|\| !*match)␊
1712	␉␉return 0;␊
1713	␉␊
1714	␉if ( bvr->biosdev < 0x80 \|\| bvr->biosdev >= 0x100 )␊
1715	return 0;␊
1716	␊
1717	// Try to match hd(x,y) first.␊
1718	sprintf(testStr, "hd(%d,%d)", BIOS_DEV_UNIT(bvr), bvr->part_no);␊
1719	if ( matchLen ? !strncmp(match, testStr, matchLen) : !strcmp(match, testStr) )␊
1720	return true;␊
1721	␊
1722	// Try to match volume UUID.␊
1723	if ( bvr->fs_getuuid && bvr->fs_getuuid(bvr, testStr) == 0)␊
1724	{␊
1725	if( matchLen ? !strncmp(match, testStr, matchLen) : !strcmp(match, testStr) )␊
1726	return true;␊
1727	}␊
1728	␊
1729	// Try to match volume label (always quoted).␊
1730	if ( bvr->description )␊
1731	{␊
1732	bvr->description(bvr, testStr, sizeof(testStr)-1);␊
1733	if( matchLen ? !strncmp(match, testStr, matchLen) : !strcmp(match, testStr) )␊
1734	return true;␊
1735	}␊
1736	␊
1737	return false;␊
1738	}␊
1739	␊
1740	/* If Rename Partition has defined an alias, then extract it for description purpose.␊
1741	* The format for the rename string is the following:␊
1742	* hd(x,y)\|uuid\|"label" "alias";hd(m,n)\|uuid\|"label" "alias";etc...␊
1743	*/␊
1744	␊
1745	bool getVolumeLabelAlias(BVRef bvr, char* str, long strMaxLen)␊
1746	{␊
1747	char aliasList, entryStart, *entryNext;␊
1748	␊
1749	if ( !str \|\| strMaxLen <= 0)␊
1750	return false;␊
1751	␊
1752	aliasList = XMLDecode(getStringForKey(kRenamePartitionKey, &bootInfo->bootConfig));␊
1753	if ( !aliasList )␊
1754	return false;␊
1755	␊
1756	for ( entryStart = entryNext = aliasList;␊
1757	entryNext && *entryNext;␊
1758	entryStart = entryNext )␊
1759	{␊
1760	char volStart, volEnd, *aliasStart;␊
1761	long volLen, aliasLen;␊
1762	␊
1763	// Delimit current entry␊
1764	entryNext = strchr(entryStart, ';');␊
1765	if ( entryNext )␊
1766	{␊
1767	*entryNext = '\0';␊
1768	entryNext++;␊
1769	}␊
1770	␊
1771	volStart = strbreak(entryStart, &volEnd, &volLen);␊
1772	if(!volLen)␊
1773	continue;␊
1774	␊
1775	aliasStart = strbreak(volEnd, 0, &aliasLen);␊
1776	if(!aliasLen)␊
1777	continue;␊
1778	␊
1779	if ( matchVolumeToString(bvr, volStart, volLen) )␊
1780	{ ␊
1781	strncat(str, aliasStart, min(strMaxLen, aliasLen));␊
1782	free(aliasList);␊
1783	␊
1784	return true;␊
1785	}␊
1786	}␊
1787	␊
1788	free(aliasList);␊
1789	return false;␊
1790	}␊
1791	␊
1792	void getBootVolumeDescription( BVRef bvr, char * str, long strMaxLen, bool useDeviceDescription )␊
1793	{␊
1794	unsigned char type;␊
1795	char *p = str;␊
1796	␊
1797	if(!bvr \|\| !p \|\| strMaxLen <= 0)␊
1798	return;␊
1799	␊
1800	type = (unsigned char) bvr->part_type;␊
1801	␉␊
1802	if (useDeviceDescription)␊
1803	{␊
1804	int len = getDeviceDescription(bvr, str);␊
1805	if(len >= strMaxLen)␊
1806	return;␊
1807	␊
1808	strcpy(str + len, " ");␊
1809	len++;␊
1810	strMaxLen -= len;␊
1811	p += len;␊
1812	}␊
1813	␉␊
1814	/* See if a partition rename is preferred */␊
1815	if(getVolumeLabelAlias(bvr, p, strMaxLen)) {␊
1816	strncpy(bvr->label, p, strMaxLen); ␊
1817	return; // we're done here no need to seek for real name␊
1818	}␊
1819	␊
1820	//␊
1821	// Get the volume label using filesystem specific functions␊
1822	// or use the alternate volume label if available.␊
1823	//␊
1824	␉if (*bvr->altlabel != '\0')␊
1825	strncpy(p, bvr->altlabel, strMaxLen);␊
1826	␉else if (bvr->description)␊
1827	bvr->description(bvr, p, strMaxLen);␊
1828	␊
1829	if (*p == '\0') {␊
1830	const char * name = getNameForValue( fdiskTypes, type );␊
1831	if (name == NULL) {␊
1832	name = bvr->type_name;␊
1833	}␊
1834	if (name == NULL) {␊
1835	sprintf(p, "TYPE %02x", type);␊
1836	} else {␊
1837	strncpy(p, name, strMaxLen);␊
1838	}␊
1839	}␊
1840	␊
1841	// Set the devices label␊
1842	sprintf(bvr->label, p);␊
1843	}␊
1844	␊
1845	//==========================================================================␊
1846	int readBootSector( int biosdev, unsigned int secno, void * buffer )␊
1847	{␊
1848	struct disk_blk0 * bootSector = (struct disk_blk0 *) buffer;␊
1849	int error;␊
1850	␊
1851	if ( bootSector == NULL )␊
1852	{␊
1853	if ( gBootSector == NULL )␊
1854	{␊
1855	gBootSector = (struct disk_blk0 ) malloc(sizeof(gBootSector));␊
1856	if ( gBootSector == NULL ) return -1;␊
1857	}␊
1858	bootSector = gBootSector;␊
1859	}␊
1860	␊
1861	error = readBytes( biosdev, secno, 0, BPS, bootSector );␊
1862	if ( error \|\| bootSector->signature != DISK_SIGNATURE )␊
1863	return -1;␊
1864	␊
1865	return 0;␊
1866	}␊
1867	␊
1868	/*␊
1869	* Format of boot1f32 block.␊
1870	*/␊
1871	␊
1872	#define BOOT1F32_MAGIC "BOOT "␊
1873	#define BOOT1F32_MAGICLEN 11␊
1874	␊
1875	struct disk_boot1f32_blk {␊
1876	unsigned char init[3];␊
1877	unsigned char fsheader[87];␊
1878	unsigned char magic[BOOT1F32_MAGICLEN];␊
1879	unsigned char bootcode[409];␊
1880	unsigned short signature;␊
1881	};␊
1882	␊
1883	int testFAT32EFIBootSector( int biosdev, unsigned int secno, void * buffer )␊
1884	{␊
1885	struct disk_boot1f32_blk * bootSector = (struct disk_boot1f32_blk *) buffer;␊
1886	int error;␊
1887	␊
1888	if ( bootSector == NULL )␊
1889	{␊
1890	if ( gBootSector == NULL )␊
1891	{␊
1892	gBootSector = (struct disk_blk0 ) malloc(sizeof(gBootSector));␊
1893	if ( gBootSector == NULL ) return -1;␊
1894	}␊
1895	bootSector = (struct disk_boot1f32_blk *) gBootSector;␊
1896	}␊
1897	␊
1898	error = readBytes( biosdev, secno, 0, BPS, bootSector );␊
1899	if ( error \|\| bootSector->signature != DISK_SIGNATURE␊
1900	\|\| strncmp((const char *)bootSector->magic, BOOT1F32_MAGIC, BOOT1F32_MAGICLEN) )␊
1901	return -1;␊
1902	␊
1903	return 0;␊
1904	}␊
1905	␊
1906	//==========================================================================␊
1907	// Handle seek request from filesystem modules.␊
1908	␊
1909	void diskSeek( BVRef bvr, long long position )␊
1910	{␊
1911	bvr->fs_boff = position / BPS;␊
1912	bvr->fs_byteoff = position % BPS;␊
1913	}␊
1914	␊
1915	//==========================================================================␊
1916	// Handle read request from filesystem modules.␊
1917	␊
1918	int diskRead( BVRef bvr, long addr, long length )␊
1919	{␊
1920	return readBytes( bvr->biosdev,␊
1921	bvr->fs_boff + bvr->part_boff,␊
1922	bvr->fs_byteoff,␊
1923	length,␊
1924	(void *) addr );␊
1925	}␊
1926	␊
1927	int rawDiskRead( BVRef bvr, unsigned int secno, void *buffer, unsigned int len )␊
1928	{␊
1929	int secs;␊
1930	unsigned char cbuf = (unsigned char )buffer;␊
1931	unsigned int copy_len;␊
1932	int rc;␊
1933	␊
1934	if ((len & (BPS-1)) != 0) {␊
1935	error("raw disk read not sector aligned");␊
1936	return -1;␊
1937	}␊
1938	secno += bvr->part_boff;␊
1939	␊
1940	cache_valid = false;␊
1941	␊
1942	while (len > 0) {␊
1943	secs = len / BPS;␊
1944	if (secs > N_CACHE_SECS) secs = N_CACHE_SECS;␊
1945	copy_len = secs * BPS;␊
1946	␊
1947	//printf("rdr: ebiosread(%d, %d, %d)\n", bvr->biosdev, secno, secs);␊
1948	if ((rc = ebiosread(bvr->biosdev, secno, secs)) != 0) {␊
1949	/* Ignore corrected ECC errors */␊
1950	if (rc != ECC_CORRECTED_ERR) {␊
1951	error(" EBIOS read error: %s\n", bios_error(rc), rc);␊
1952	error(" Block %d Sectors %d\n", secno, secs);␊
1953	return rc;␊
1954	}␊
1955	}␊
1956	bcopy( trackbuf, cbuf, copy_len );␊
1957	len -= copy_len;␊
1958	cbuf += copy_len;␊
1959	secno += secs;␊
1960	spinActivityIndicator(secs);␊
1961	}␊
1962	␊
1963	return 0;␊
1964	}␊
1965	␊
1966	int rawDiskWrite( BVRef bvr, unsigned int secno, void *buffer, unsigned int len )␊
1967	{␊
1968	int secs;␊
1969	unsigned char cbuf = (unsigned char )buffer;␊
1970	unsigned int copy_len;␊
1971	int rc;␊
1972	␊
1973	if ((len & (BPS-1)) != 0) {␊
1974	error("raw disk write not sector aligned");␊
1975	return -1;␊
1976	}␊
1977	secno += bvr->part_boff;␊
1978	␊
1979	cache_valid = false;␊
1980	␊
1981	while (len > 0) {␊
1982	secs = len / BPS;␊
1983	if (secs > N_CACHE_SECS) secs = N_CACHE_SECS;␊
1984	copy_len = secs * BPS;␊
1985	␊
1986	bcopy( cbuf, trackbuf, copy_len );␊
1987	//printf("rdr: ebioswrite(%d, %d, %d)\n", bvr->biosdev, secno, secs);␊
1988	if ((rc = ebioswrite(bvr->biosdev, secno, secs)) != 0) {␊
1989	error(" EBIOS write error: %s\n", bios_error(rc), rc);␊
1990	error(" Block %d Sectors %d\n", secno, secs);␊
1991	return rc;␊
1992	}␊
1993	len -= copy_len;␊
1994	cbuf += copy_len;␊
1995	secno += secs;␊
1996	spinActivityIndicator(secs);␊
1997	}␊
1998	␊
1999	return 0;␊
2000	}␊
2001	␊
2002	␊
2003	int diskIsCDROM(BVRef bvr)␊
2004	{␊
2005	struct driveInfo di;␊
2006	␊
2007	if (getDriveInfo(bvr->biosdev, &di) == 0 && di.no_emulation) {␊
2008	␉return 1;␊
2009	}␊
2010	return 0;␊
2011	}␊
2012	␊
2013	int biosDevIsCDROM(int biosdev)␊
2014	{␊
2015	struct driveInfo di;␊
2016	␊
2017	if (getDriveInfo(biosdev, &di) == 0 && di.no_emulation)␊
2018	{␊
2019	␉return 1;␊
2020	}␊
2021	return 0;␊
2022	}␊
2023

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