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1 /* ----------------------------------------------------------------------- *
2  *
3  *   Copyright 2009 Pierre-Alexandre Meyer
4  *
5  *   Some parts borrowed from chain.c32:
6  *
7  *   Copyright 2003-2009 H. Peter Anvin - All Rights Reserved
8  *   Copyright 2009 Intel Corporation; author: H. Peter Anvin
9  *
10  *   This file is part of Syslinux, and is made available under
11  *   the terms of the GNU General Public License version 2.
12  *
13  * ----------------------------------------------------------------------- */
14 
15 #include <com32.h>
16 #include <stdlib.h>
17 #include <string.h>
18 
19 #include <disk/common.h>
20 #include <disk/errno_disk.h>
21 #include <disk/read.h>
22 #include <disk/util.h>
23 #include <disk/write.h>
24 
25 /**
26  * write_sectors - write several sectors from disk
27  * @drive_info:		driveinfo struct describing the disk
28  * @lba:		Position to write
29  * @data:		Buffer to write
30  * @size:		Size of the buffer (number of sectors)
31  *
32  * Return the number of sectors write on success or -1 on failure.
33  * errno_disk contains the error number.
34  **/
write_sectors(const struct driveinfo * drive_info,const unsigned int lba,const void * data,const int size)35 int write_sectors(const struct driveinfo *drive_info, const unsigned int lba,
36 		  const void *data, const int size)
37 {
38     com32sys_t inreg, outreg;
39     struct ebios_dapa *dapa;
40     void *buf;
41     int rv = -1;
42 
43     buf = lmalloc(size);
44     if (!buf)
45 	return -1;
46 
47     dapa = lmalloc(sizeof(*dapa));
48     if (!dapa)
49 	goto out;
50 
51     memcpy(buf, data, size);
52     memset(&inreg, 0, sizeof inreg);
53 
54     if (drive_info->ebios) {
55 	dapa->len = sizeof(*dapa);
56 	dapa->count = size;
57 	dapa->off = OFFS(buf);
58 	dapa->seg = SEG(buf);
59 	dapa->lba = lba;
60 
61 	inreg.esi.w[0] = OFFS(dapa);
62 	inreg.ds = SEG(dapa);
63 	inreg.edx.b[0] = drive_info->disk;
64 	inreg.eax.w[0] = 0x4300;	/* Extended write */
65     } else {
66 	unsigned int c, h, s;
67 
68 	if (!drive_info->cbios) {	// XXX errno
69 	    /* We failed to get the geometry */
70 	    if (lba)
71 		goto out;	/* Can only write MBR */
72 
73 	    s = 1;
74 	    h = 0;
75 	    c = 0;
76 	} else
77 	    lba_to_chs(drive_info, lba, &s, &h, &c);
78 
79 	// XXX errno
80 	if (s > 63 || h > 256 || c > 1023)
81 	    goto out;
82 
83 	inreg.eax.w[0] = 0x0301;	/* Write one sector */
84 	inreg.ecx.b[1] = c & 0xff;
85 	inreg.ecx.b[0] = s + (c >> 6);
86 	inreg.edx.b[1] = h;
87 	inreg.edx.b[0] = drive_info->disk;
88 	inreg.ebx.w[0] = OFFS(buf);
89 	inreg.es = SEG(buf);
90     }
91 
92     /* Perform the write */
93     if (int13_retry(&inreg, &outreg)) {
94 	errno_disk = outreg.eax.b[1];	/* Give up */
95     } else
96 	rv = size;
97 out:
98     lfree(dapa);
99     lfree(buf);
100     return rv;
101 }
102 
103 /**
104  * write_verify_sectors - write several sectors from disk
105  * @drive_info:		driveinfo struct describing the disk
106  * @lba:		Position to write
107  * @data:		Buffer to write
108  **/
write_verify_sector(struct driveinfo * drive_info,const unsigned int lba,const void * data)109 int write_verify_sector(struct driveinfo *drive_info,
110 			const unsigned int lba, const void *data)
111 {
112     return write_verify_sectors(drive_info, lba, data, SECTOR);
113 }
114 
115 /**
116  * write_verify_sectors - write several sectors from disk
117  * @drive_info:		driveinfo struct describing the disk
118  * @lba:		Position to write
119  * @data:		Buffer to write
120  * @size:		Size of the buffer (number of sectors)
121  **/
write_verify_sectors(struct driveinfo * drive_info,const unsigned int lba,const void * data,const int size)122 int write_verify_sectors(struct driveinfo *drive_info,
123 			 const unsigned int lba,
124 			 const void *data, const int size)
125 {
126     char *rb = malloc(SECTOR * size * sizeof(char));
127     int status;
128 
129     if (write_sectors(drive_info, lba, data, size) == -1)
130 	return -1;		/* Write failure */
131 
132     if (read_sectors(drive_info, rb, lba, size) == -1)
133 	return -1;		/* Readback failure */
134 
135     status = memcmp(data, rb, SECTOR * size);
136     free(rb);
137     return status ? -1 : 0;
138 }
139