WiiFlow_Lite/source/libwbfs/wiidisc.c

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// Copyright 2009 Kwiirk based on negentig.c:
// Copyright 2007,2008 Segher Boessenkool <segher@kernel.crashing.org>
// Licensed under the terms of the GNU GPL, version 2
// http://www.gnu.org/licenses/old-licenses/gpl-2.0.txt
#include "wiidisc.h"
void aes_set_key(u8 *key);
void aes_decrypt(u8 *iv, u8 *inbuf, u8 *outbuf, unsigned long long len);
int wd_last_error = 0;
int wd_get_last_error(void)
{
return wd_last_error;
}
static void _decrypt_title_key(u8 *tik, u8 *title_key)
{
u8 common_key[16] = {
0xeb, 0xe4, 0x2a, 0x22, 0x5e, 0x85, 0x93, 0xe4,
0x48, 0xd9, 0xc5, 0x45, 0x73, 0x81, 0xaa, 0xf7
};
//korean common key
u8 korean_key[16]={
0x63, 0xb8, 0x2b, 0xb4, 0xf4, 0x61, 0x4e, 0x2e,
0x13, 0xf2, 0xfe, 0xfb, 0xba, 0x4c, 0x9b, 0x7e
};
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u8 iv[16];
wbfs_memset(iv, 0, sizeof iv);
wbfs_memcpy(iv, tik + 0x01dc, 8);
//check byte 0x1f1 in ticket to determine whether or not to use Korean Common Key
//if value = 0x01, use Korean Common Key, else just use regular one
u8 korean_flag = tik[0x01f1];
if(korean_flag == 1)
aes_set_key(korean_key);
else
aes_set_key(common_key);
//_aes_cbc_dec(common_key, iv, tik + 0x01bf, 16, title_key);
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aes_decrypt(iv, tik + 0x01bf, title_key, 16);
}
static u32 _be32(const u8 *p)
{
return (p[0] << 24) | (p[1] << 16) | (p[2] << 8) | p[3];
}
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static void disc_read(wiidisc_t *d, u32 offset, u8 *data, u32 len)
{
if (data)
{
int ret = 0;
if (len == 0)
return;
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ret = d->read(d->fp, offset, len, data);
if(ret)
wbfs_fatal("error reading disc\n");
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}
if (d->sector_usage_table)
{
u32 blockno = offset >> 13;
do
{
d->sector_usage_table[blockno] = 1;
blockno += 1;
if (len > 0x8000) len -= 0x8000;
} while(len > 0x8000);
}
}
static void partition_raw_read(wiidisc_t *d, u32 offset, u8 *data, u32 len)
{
disc_read(d, d->partition_raw_offset + offset, data, len);
}
static void partition_read_block(wiidisc_t *d, u32 blockno, u8 *block)
{
u8*raw = d->tmp_buffer;
u8 iv[16];
u32 offset;
if (d->sector_usage_table) d->sector_usage_table[d->partition_block+blockno] = 1;
offset = d->partition_data_offset + ((0x8000 >> 2) * blockno);
partition_raw_read(d,offset, raw, 0x8000);
// decrypt data
memcpy(iv, raw + 0x3d0, 16);
aes_set_key(d->disc_key);
aes_decrypt(iv, raw + 0x400, block, 0x7c00);
}
static void partition_read(wiidisc_t *d, u32 offset, u8 *data, u32 len, int fake)
{
u8 *block = d->tmp_buffer2;
u32 offset_in_block;
u32 len_in_block;
if (fake && d->sector_usage_table == 0) return;
while (len)
{
offset_in_block = offset % (0x7c00 >> 2);
len_in_block = 0x7c00 - (offset_in_block << 2);
if (len_in_block > len) len_in_block = len;
if (!fake)
{
partition_read_block(d,offset / (0x7c00 >> 2), block);
wbfs_memcpy(data, block + (offset_in_block << 2), len_in_block);
}
else d->sector_usage_table[d->partition_block + (offset / (0x7c00 >> 2))] = 1;
data += len_in_block;
offset += len_in_block >> 2;
len -= len_in_block;
}
}
static u32 do_fst(wiidisc_t *d, u8 *fst, const char *names, u32 i)
{
u32 offset;
u32 size;
const char *name;
u32 j;
name = names + (_be32(fst + 12 * i) & 0x00ffffff);
size = _be32(fst + 12 * i + 8);
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if (i == 0)
{
for (j = 1; j < size && !d->extracted_buffer; )
j = do_fst(d, fst, names, j);
return size;
}
//printf("name %s\n",name);
if (fst[12 * i])
{
for (j = i + 1; j < size && !d->extracted_buffer; )
j = do_fst(d, fst, names, j);
return size;
}
else
{
offset = _be32(fst + 12 * i + 4);
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if (d->extract_pathname && strcasecmp(name, d->extract_pathname) == 0)
{
d->extracted_buffer = wbfs_ioalloc(size);
if (d->extracted_buffer != 0)
{
d->extracted_size = size;
partition_read(d, offset, d->extracted_buffer, size, 0);
}
}
else partition_read(d, offset, 0, size, 1);
return i + 1;
}
}
static void do_files(wiidisc_t*d)
{
u8 *b = wbfs_ioalloc(0x480); // XXX: determine actual header size
u32 dol_offset;
u32 fst_offset;
u32 fst_size;
u32 apl_offset;
u32 apl_size;
u8 *apl_header = wbfs_ioalloc(0x20);
u8 *fst;
u32 n_files;
partition_read(d, 0, b, 0x480, 0);
dol_offset = _be32(b + 0x0420);
fst_offset = _be32(b + 0x0424);
fst_size = _be32(b + 0x0428) << 2;
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apl_offset = 0x2440 >> 2;
partition_read(d, apl_offset, apl_header, 0x20, 0);
apl_size = 0x20 + _be32(apl_header + 0x14) + _be32(apl_header + 0x18);
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// fake read dol and partition
if (apl_size) partition_read(d, apl_offset, 0, apl_size, 1);
partition_read(d, dol_offset, 0, (fst_offset - dol_offset) << 2, 1);
if (fst_size)
{
fst = wbfs_ioalloc(fst_size);
if (fst == 0)
wbfs_fatal("malloc fst\n");
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partition_read(d, fst_offset, fst, fst_size,0);
n_files = _be32(fst + 8);
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if (d->extract_pathname && strcmp(d->extract_pathname, "FST") == 0)
{
// if empty pathname requested return fst
d->extracted_buffer = fst;
d->extracted_size = fst_size;
d->extract_pathname = NULL;
// skip do_fst if only fst requested
n_files = 0;
}
if (12 * n_files <= fst_size)
if (n_files > 1) do_fst(d, fst, (char *)fst + 12 * n_files, 0);
if (fst != d->extracted_buffer) wbfs_iofree( fst );
}
wbfs_iofree(b);
wbfs_iofree(apl_header);
}
static void do_partition(wiidisc_t*d)
{
u8 *tik = wbfs_ioalloc(0x2a4);
u8 *b = wbfs_ioalloc(0x1c);
u64 tmd_offset;
u32 tmd_size;
u8 *tmd;
u64 cert_offset;
u32 cert_size;
u8 *cert;
u64 h3_offset;
// read ticket, and read some offsets and sizes
partition_raw_read(d, 0, tik, 0x2a4);
partition_raw_read(d, 0x2a4 >> 2, b, 0x1c);
tmd_size = _be32(b);
tmd_offset = _be32(b + 4);
cert_size = _be32(b + 8);
cert_offset = _be32(b + 0x0c);
h3_offset = _be32(b + 0x10);
d->partition_data_offset = _be32(b + 0x14);
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d->partition_block = (d->partition_raw_offset + d->partition_data_offset) >> 13;
tmd = wbfs_ioalloc(tmd_size);
if (tmd == 0)
wbfs_fatal("malloc tmd\n");
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partition_raw_read(d, tmd_offset, tmd, tmd_size);
if(d->extract_pathname && strcmp(d->extract_pathname, "TMD") == 0 && !d->extracted_buffer)
{
d->extracted_buffer = tmd;
d->extracted_size = tmd_size;
}
cert = wbfs_ioalloc(cert_size);
if (cert == 0)
wbfs_fatal("malloc cert\n");
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partition_raw_read(d, cert_offset, cert, cert_size);
_decrypt_title_key(tik, d->disc_key);
partition_raw_read(d, h3_offset, 0, 0x18000);
wbfs_iofree(b);
wbfs_iofree(tik);
wbfs_iofree(cert);
if(tmd != d->extracted_buffer)
wbfs_iofree( tmd );
do_files(d);
}
static int test_parition_skip(u32 partition_type, partition_selector_t part_sel)
{
switch(part_sel)
{
case ALL_PARTITIONS:
return 0;
case REMOVE_UPDATE_PARTITION:
return (partition_type == 1);
case ONLY_GAME_PARTITION:
return (partition_type != 0);
default:
return (partition_type != part_sel);
}
}
static void do_disc(wiidisc_t *d)
{
u8 *b = wbfs_ioalloc(0x100);
u64 partition_offset[32]; // XXX: don't know the real maximum
u64 partition_type[32]; // XXX: don't know the real maximum
u32 n_partitions;
u32 magic;
u32 i;
disc_read(d, 0, b, 0x100);
magic = _be32(b + 24);
if (magic != WII_MAGIC)
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{
wbfs_iofree(b);
wbfs_error("not a wii disc");
return ;
}
disc_read(d, 0x40000 >> 2, b, 0x100);
n_partitions = _be32(b);
disc_read(d, _be32(b + 4), b, 0x100);
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for (i = 0; i < n_partitions; i++)
{
partition_offset[i] = _be32(b + 8 * i);
partition_type[i] = _be32(b + 8 * i + 4);
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}
for (i = 0; i < n_partitions; i++)
{
d->partition_raw_offset = partition_offset[i];
if (!test_parition_skip(partition_type[i], d->part_sel)) do_partition(d);
}
wbfs_iofree(b);
}
wiidisc_t *wd_open_disc(read_wiidisc_callback_t read, void *fp)
{
wiidisc_t *d = wbfs_malloc(sizeof (wiidisc_t));
if (!d) return 0;
wbfs_memset(d, 0, sizeof (wiidisc_t));
d->read = read;
d->fp = fp;
d->part_sel = ALL_PARTITIONS;
d->tmp_buffer = wbfs_ioalloc(0x8000);
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d->tmp_buffer2 = wbfs_ioalloc(0x8000);
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return d;
}
void wd_close_disc(wiidisc_t *d)
{
wbfs_iofree(d->tmp_buffer);
wbfs_free(d->tmp_buffer2);
wbfs_free(d);
}
// returns a buffer allocated with wbfs_ioalloc() or NULL if not found of alloc error
// XXX pathname not implemented. files are extracted by their name.
// first file found with that name is returned.
u8 *wd_extract_file(wiidisc_t *d, u32 *size, partition_selector_t partition_type, const char *pathname)
{
u8 *retval = 0;
d->extract_pathname = pathname;
d->extracted_buffer = 0;
d->part_sel = partition_type;
do_disc(d);
d->extract_pathname = 0;
d->part_sel = ALL_PARTITIONS;
retval = d->extracted_buffer;
if (size != 0)
*size = d->extracted_size;
d->extracted_buffer = 0;
d->extracted_size = 0;
return retval;
}
void wd_build_disc_usage(wiidisc_t *d, partition_selector_t selector, u8 *usage_table)
{
d->sector_usage_table = usage_table;
wbfs_memset(usage_table, 0, 143432 * 2);
d->part_sel = selector;
do_disc(d);
d->part_sel = ALL_PARTITIONS;
d->sector_usage_table = 0;
}
void wd_fix_partition_table(partition_selector_t selector, u8 *partition_table)
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{
u8 *b = partition_table;
u32 partition_offset;
u32 partition_type;
u32 n_partitions, i, j;
u32 *b32;
if (selector == ALL_PARTITIONS) return;
n_partitions = _be32(b);
if (_be32(b + 4) - (0x40000 >> 2) > 0x50)
wbfs_fatal("cannot modify this partition table. Please report the bug.\n");
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b += (_be32(b + 4) - (0x40000 >> 2)) * 4;
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j = 0;
for (i = 0; i < n_partitions; i++)
{
partition_offset = _be32(b + 8 * i);
partition_type = _be32(b + 8 * i + 4);
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if (!test_parition_skip(partition_type, selector))
{
b32 = (u32*)(b + 8 * j);
b32[0] = wbfs_htonl(partition_offset);
b32[1] = wbfs_htonl(partition_type);
j++;
}
}
b32 = (u32 *)(partition_table);
*b32 = wbfs_htonl(j);
}