WiiFlow_Lite/source/libwbfs/libwbfs.c

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// Copyright 2009 Kwiirk
// Licensed under the terms of the GNU GPL, version 2
// http://www.gnu.org/licenses/old-licenses/gpl-2.0.txt
// Modified by oggzee
#include <unistd.h>
#include <sys/stat.h>
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#include "libwbfs.h"
#define likely(x) __builtin_expect(!!(x), 1)
#define unlikely(x) __builtin_expect(!!(x), 0)
#define ERROR(x) do {wbfs_error(x);goto error;}while(0)
#define ALIGN_LBA(x) (((x)+p->hd_sec_sz-1)&(~(p->hd_sec_sz-1)))
wbfs_t wbfs_iso_file;
static int force_mode=0;
void wbfs_set_force_mode(int force)
{
force_mode = force;
}
static u8 size_to_shift(u32 size)
{
u8 ret = 0;
while(size)
{
ret++;
size >>= 1;
}
return ret - 1;
}
#define read_le32_unaligned(x) ((x)[0]|((x)[1]<<8)|((x)[2]<<16)|((x)[3]<<24))
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wbfs_t *wbfs_open_hd(rw_sector_callback_t read_hdsector, rw_sector_callback_t write_hdsector, void *callback_data, int hd_sector_size, int num_hd_sector __attribute((unused)), int reset)
{
int i=num_hd_sector,ret;
u8 *ptr,*tmp_buffer = wbfs_ioalloc(hd_sector_size);
u8 part_table[16*4];
ret = read_hdsector(callback_data,0,1,tmp_buffer);
if(ret)
return 0;
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//find wbfs partition
wbfs_memcpy(part_table, tmp_buffer + 0x1be, 16 * 4);
ptr = part_table;
for(i = 0; i < 4; i++, ptr += 16)
{
u32 part_lba = read_le32_unaligned(ptr + 0x8);
wbfs_head_t *head = (wbfs_head_t *)tmp_buffer;
ret = read_hdsector(callback_data, part_lba, 1, tmp_buffer);
// verify there is the magic.
if (head->magic == wbfs_htonl(WBFS_MAGIC))
{
wbfs_t *p = wbfs_open_partition(read_hdsector, write_hdsector, callback_data, hd_sector_size, 0, part_lba,reset);
wbfs_iofree(tmp_buffer);
return p;
}
}
wbfs_iofree(tmp_buffer);
if(reset)// XXX make a empty hd partition..
{
}
return 0;
}
wbfs_t *wbfs_open_partition(rw_sector_callback_t read_hdsector, rw_sector_callback_t write_hdsector,
void *callback_data, int hd_sector_size, int num_hd_sector, u32 part_lba, int reset)
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{
wbfs_t *p = wbfs_malloc(sizeof(wbfs_t));
wbfs_head_t *head = wbfs_ioalloc( hd_sector_size ? hd_sector_size : 512 );
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//constants, but put here for consistancy
p->wii_sec_sz = 0x8000;
p->wii_sec_sz_s = size_to_shift(0x8000);
p->n_wii_sec = (num_hd_sector / 0x8000) * hd_sector_size;
p->n_wii_sec_per_disc = 143432 * 2; //support for double layers discs..
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p->head = head;
p->part_lba = part_lba;
// init the partition
if (reset)
{
u8 sz_s;
wbfs_memset(head, 0, hd_sector_size);
head->magic = wbfs_htonl(WBFS_MAGIC);
head->hd_sec_sz_s = size_to_shift(hd_sector_size);
head->n_hd_sec = wbfs_htonl(num_hd_sector);
// choose minimum wblk_sz that fits this partition size
for(sz_s = 6; sz_s < 11; sz_s++)
{
// ensure that wbfs_sec_sz is big enough to address every blocks using 16 bits
if(p->n_wii_sec < ((1U << 16) * (1 << sz_s)))
break;
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}
head->wbfs_sec_sz_s = sz_s + p->wii_sec_sz_s;
}
else
read_hdsector(callback_data, p->part_lba, 1, head);
if (head->magic != wbfs_htonl( WBFS_MAGIC ))
ERROR( "bad magic\n" );
if (!force_mode && hd_sector_size && head->hd_sec_sz_s != size_to_shift(hd_sector_size))
ERROR( "hd sector size doesn't match\n" );
if (!force_mode && num_hd_sector && head->n_hd_sec != (u32) wbfs_htonl( num_hd_sector ))
ERROR( "hd num sector doesn't match\n" );
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p->hd_sec_sz = 1 << head->hd_sec_sz_s;
p->hd_sec_sz_s = head->hd_sec_sz_s;
p->n_hd_sec = wbfs_ntohl(head->n_hd_sec);
p->n_wii_sec = (p->n_hd_sec / p->wii_sec_sz) * (p->hd_sec_sz);
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p->wbfs_sec_sz_s = head->wbfs_sec_sz_s;
p->wbfs_sec_sz = 1 << p->wbfs_sec_sz_s;
p->n_wbfs_sec = p->n_wii_sec >> (p->wbfs_sec_sz_s - p->wii_sec_sz_s);
p->n_wbfs_sec_per_disc = p->n_wii_sec_per_disc >> (p->wbfs_sec_sz_s - p->wii_sec_sz_s);
p->disc_info_sz = ALIGN_LBA(sizeof(wbfs_disc_info_t) + p->n_wbfs_sec_per_disc * 2);
//gprintf("hd_sector_size %X wii_sector size %X wbfs sector_size %X\n", p->hd_sec_sz, p->wii_sec_sz, p->wbfs_sec_sz);
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p->read_hdsector = read_hdsector;
p->write_hdsector = write_hdsector;
p->callback_data = callback_data;
p->freeblks_lba = (p->wbfs_sec_sz - p->n_wbfs_sec / 8) >> p->hd_sec_sz_s;
if (!reset)
p->freeblks = 0; // will alloc and read only if needed
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else
{
// init with all free blocks
p->freeblks = wbfs_ioalloc(ALIGN_LBA( p->n_wbfs_sec / 8));
wbfs_memset(p->freeblks, 0xff, p->n_wbfs_sec / 8);
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}
p->max_disc = (p->freeblks_lba - 1) / (p->disc_info_sz >> p->hd_sec_sz_s);
if(p->max_disc > p->hd_sec_sz - sizeof(wbfs_head_t))
p->max_disc = p->hd_sec_sz - sizeof(wbfs_head_t);
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p->tmp_buffer = wbfs_ioalloc(p->hd_sec_sz);
p->n_disc_open = 0;
return p;
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error:
wbfs_free(p);
wbfs_iofree(head);
return 0;
}
void wbfs_sync(wbfs_t *p)
{
// copy back descriptors
if(p->write_hdsector)
{
p->write_hdsector(p->callback_data, p->part_lba + 0, 1, p->head);
if(p->freeblks)
p->write_hdsector(p->callback_data, p->part_lba + p->freeblks_lba, ALIGN_LBA(p->n_wbfs_sec / 8) >> p->hd_sec_sz_s, p->freeblks);
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}
}
void wbfs_close(wbfs_t *p)
{
wbfs_sync(p);
if(p->n_disc_open)
ERROR("trying to close wbfs while discs still open\n");
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wbfs_iofree(p->head);
wbfs_iofree(p->tmp_buffer);
if(p->freeblks)
wbfs_iofree(p->freeblks);
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wbfs_free(p);
error:
return;
}
wbfs_disc_t *wbfs_open_disc(wbfs_t* p, const u8 *discid)
{
u32 i;
int disc_info_sz_lba = p->disc_info_sz>>p->hd_sec_sz_s;
wbfs_disc_t *d = 0;
for(i = 0; i < p->max_disc; i++)
{
if (p->head->disc_table[i])
{
p->read_hdsector(p->callback_data, p->part_lba + 1 + i * disc_info_sz_lba, 1, p->tmp_buffer);
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if(wbfs_memcmp(discid,p->tmp_buffer,6)==0)
{
d = wbfs_malloc(sizeof(*d));
if(!d)
ERROR("allocating memory\n");
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d->p = p;
d->i = i;
d->header = wbfs_ioalloc(p->disc_info_sz);
if(!d->header)
ERROR("allocating memory\n");
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p->read_hdsector(p->callback_data, p->part_lba + 1 + i * disc_info_sz_lba, disc_info_sz_lba, d->header);
p->n_disc_open ++;
//for(i = 0; i < p->n_wbfs_sec_per_disc; i++)
//printf("%d,", wbfs_ntohs(d->header->wlba_table[i]));
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return d;
}
}
}
return 0;
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error:
if(d) wbfs_iofree(d);
return 0;
}
void wbfs_close_disc(wbfs_disc_t*d)
{
d->p->n_disc_open --;
wbfs_iofree(d->header);
wbfs_free(d);
}
// offset is pointing 32bit words to address the whole dvd, although len is in bytes
int wbfs_disc_read(wbfs_disc_t *d, u32 offset, u32 len, u8 *data)
{
if (d->p == &wbfs_iso_file)
return wbfs_iso_file_read(d, offset, data, len);
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wbfs_t *p = d->p;
u16 wlba = offset>>(p->wbfs_sec_sz_s-2);
u32 iwlba_shift = p->wbfs_sec_sz_s - p->hd_sec_sz_s;
u32 lba_mask = (p->wbfs_sec_sz-1)>>(p->hd_sec_sz_s);
u32 lba = (offset>>(p->hd_sec_sz_s-2))&lba_mask;
u32 off = offset&((p->hd_sec_sz>>2)-1);
u16 iwlba = wbfs_ntohs(d->header->wlba_table[wlba]);
u32 len_copied;
int err = 0;
u8 *ptr = data;
if(unlikely(iwlba==0))
return 1;
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if(unlikely(off))
{
off *= 4;
err = p->read_hdsector(p->callback_data, p->part_lba + (iwlba<<iwlba_shift) + lba, 1, p->tmp_buffer);
if(err)
return err;
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len_copied = p->hd_sec_sz - off;
if(likely(len < len_copied))
len_copied = len;
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wbfs_memcpy(ptr, p->tmp_buffer + off, len_copied);
len -= len_copied;
ptr += len_copied;
lba++;
if(unlikely(lba>lba_mask && len))
{
lba=0;
iwlba = wbfs_ntohs(d->header->wlba_table[++wlba]);
if(unlikely(iwlba==0))
return 1;
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}
}
while(likely(len>=p->hd_sec_sz))
{
u32 nlb = len>>(p->hd_sec_sz_s);
if(unlikely(lba + nlb > p->wbfs_sec_sz)) // dont cross wbfs sectors..
nlb = p->wbfs_sec_sz-lba;
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err = p->read_hdsector(p->callback_data, p->part_lba + (iwlba<<iwlba_shift) + lba, nlb, ptr);
if(err)
return err;
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len -= nlb << p->hd_sec_sz_s;
ptr += nlb << p->hd_sec_sz_s;
lba += nlb;
if(unlikely(lba > lba_mask && len))
{
lba = 0;
iwlba = wbfs_ntohs(d->header->wlba_table[++wlba]);
if(unlikely(iwlba==0))
return 1;
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}
}
if(unlikely(len))
{
err = p->read_hdsector(p->callback_data, p->part_lba + (iwlba << iwlba_shift) + lba, 1, p->tmp_buffer);
if(err)
return err;
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wbfs_memcpy(ptr, p->tmp_buffer, len);
}
return 0;
}
// disc listing
u32 wbfs_count_discs(wbfs_t *p)
{
u32 i,count=0;
for(i = 0; i < p->max_disc; i++)
{
if (p->head->disc_table[i])
count++;
}
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return count;
}
u32 wbfs_sector_used(wbfs_t *p, wbfs_disc_info_t *di)
{
u32 tot_blk = 0, j;
for(j = 0; j < p->n_wbfs_sec_per_disc; j++)
{
if(wbfs_ntohs(di->wlba_table[j]))
tot_blk++;
}
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return tot_blk;
}
u32 wbfs_sector_used2(wbfs_t *p, wbfs_disc_info_t *di, u32 *last_blk)
{
u32 tot_blk = 0, j;
for(j = 0; j < p->n_wbfs_sec_per_disc; j++)
{
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if(wbfs_ntohs(di->wlba_table[j]))
{
if (last_blk)
*last_blk = j;
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tot_blk++;
}
}
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return tot_blk;
}
u32 wbfs_get_disc_info(wbfs_t *p, u32 index,u8 *header,int header_size,u32 *size)//size in 32 bit
{
u32 i,count=0;
if (!p)
return 1;
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int disc_info_sz_lba = p->disc_info_sz >> p->hd_sec_sz_s;
for(i = 0; i < p->max_disc; i++)
{
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if (p->head->disc_table[i])
{
if(count++ == index)
{
p->read_hdsector(p->callback_data, p->part_lba + 1 + i * disc_info_sz_lba, 1, p->tmp_buffer);
if(header_size > (int)p->hd_sec_sz)
header_size = p->hd_sec_sz;
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u32 magic = wbfs_ntohl(*(u32*)(p->tmp_buffer + 24));
if(magic != WII_MAGIC)
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{
p->head->disc_table[i]=0;
return 1;
}
memcpy(header, p->tmp_buffer, header_size);
if(size)
{
u8 *header = wbfs_ioalloc(p->disc_info_sz);
p->read_hdsector(p->callback_data, p->part_lba + 1 + i * disc_info_sz_lba, disc_info_sz_lba, header);
u32 sec_used = wbfs_sector_used(p,(wbfs_disc_info_t *)header);
wbfs_iofree(header);
*size = sec_used<<(p->wbfs_sec_sz_s-2);
}
return 0;
}
}
}
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return 1;
}
static void load_freeblocks(wbfs_t *p)
{
if(p->freeblks)
return;
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// XXX should handle malloc error..
p->freeblks = wbfs_ioalloc(ALIGN_LBA(p->n_wbfs_sec/8));
p->read_hdsector(p->callback_data, p->part_lba + p->freeblks_lba, ALIGN_LBA(p->n_wbfs_sec / 8) >> p->hd_sec_sz_s, p->freeblks);
}
u32 wbfs_count_usedblocks(wbfs_t *p)
{
u32 i, j, count = 0;
load_freeblocks(p);
for(i = 0; i < p->n_wbfs_sec / (8 * 4); i++)
{
u32 v = wbfs_ntohl(p->freeblks[i]);
if(v == ~0U)
count += 32;
else if(v != 0)
{
for(j = 0; j < 32; j++)
{
if (v & (1 << j))
count++;
}
}
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}
return count;
}
// write access
// static
int block_used(u8 *used, u32 i, u32 wblk_sz)
{
u32 k;
i *= wblk_sz;
for(k = 0; k < wblk_sz; k++)
{
if(i + k < 143432 * 2 && used[i + k])
return 1;
}
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return 0;
}
static u32 alloc_block(wbfs_t *p)
{
u32 i,j;
for(i = 0; i < p->n_wbfs_sec / (8 * 4); i++)
{
u32 v = wbfs_ntohl(p->freeblks[i]);
if(v != 0)
{
for(j = 0; j < 32; j++)
{
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if (v & (1 << j))
{
p->freeblks[i] = wbfs_htonl(v & ~(1<<j));
return (i * 32) + j + 1;
}
}
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}
}
return ~0;
}
static void free_block(wbfs_t *p,int bl)
{
int i = (bl - 1) / (32);
int j = (bl - 1) & 31;
u32 v = wbfs_ntohl(p->freeblks[i]);
p->freeblks[i] = wbfs_htonl(v | 1 << j);
}
u32 wbfs_add_disc(wbfs_t *p, read_wiidisc_callback_t read_src_wii_disc, void *callback_data,
progress_callback_t spinner,void *spinner_data,partition_selector_t sel,int copy_1_1)
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{
int i,discn;
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u32 tot,cur;
u32 wii_sec_per_wbfs_sect = 1 << (p->wbfs_sec_sz_s - p->wii_sec_sz_s);
wiidisc_t *d = 0;
u8 *used = 0;
wbfs_disc_info_t *info = 0;
u8* copy_buffer = 0;
int retval = -1;
int num_wbfs_sect_to_copy;
u32 last_used;
used = wbfs_malloc(p->n_wii_sec_per_disc);
if(!used)
ERROR("unable to alloc memory\n");
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// copy_1_1 needs disk usage for layers detection
//if(!copy_1_1)
{
d = wd_open_disc(read_src_wii_disc, callback_data);
if(!d)
ERROR("unable to open wii disc\n");
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wd_build_disc_usage(d, sel, used);
wd_close_disc(d);
d = 0;
}
for(i = 0; i < p->max_disc; i++)// find a free slot.
{
if(p->head->disc_table[i]==0)
break;
}
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if(i == p->max_disc)
ERROR("no space left on device (table full)\n");
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p->head->disc_table[i] = 1;
discn = i;
load_freeblocks(p);
// build disc info
info = wbfs_ioalloc(p->disc_info_sz);
read_src_wii_disc(callback_data, 0, 0x100, info->disc_header_copy);
copy_buffer = wbfs_ioalloc(p->wii_sec_sz);
if(!copy_buffer)
ERROR("alloc memory\n");
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tot = 0;
cur = 0;
num_wbfs_sect_to_copy = p->n_wbfs_sec_per_disc;
// count total number of sectors to write
last_used = 0;
for(i = 0; i < num_wbfs_sect_to_copy; i++)
{
if(block_used(used, i, wii_sec_per_wbfs_sect))
{
tot += wii_sec_per_wbfs_sect;
last_used = i;
}
}
if (copy_1_1)
{
// detect single or dual layer
if((last_used + 1) > (p->n_wbfs_sec_per_disc / 2))
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num_wbfs_sect_to_copy = p->n_wbfs_sec_per_disc;
else
num_wbfs_sect_to_copy = p->n_wbfs_sec_per_disc / 2;
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tot = num_wbfs_sect_to_copy * wii_sec_per_wbfs_sect;
}
/*
// num of hd sectors to copy could be specified directly
if (copy_1_1 > 1) {
u32 hd_sec_per_wii_sec = p->wii_sec_sz / p->hd_sec_sz;
num_wbfs_sect_to_copy = copy_1_1 / hd_sec_per_wii_sec / wii_sec_per_wbfs_sect;
tot = num_wbfs_sect_to_copy * wii_sec_per_wbfs_sect;
}*/
int ret = 0;
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if(spinner) spinner(0, tot, spinner_data);
for(i=0; i < num_wbfs_sect_to_copy; i++)
{
u16 bl = 0;
if(copy_1_1 || block_used(used,i, wii_sec_per_wbfs_sect))
{
u16 j;
bl = alloc_block(p);
if (bl==0xffff)
ERROR("no space left on device (disc full)\n");
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for(j = 0; j < wii_sec_per_wbfs_sect; j++)
{
u32 offset = (i * (p->wbfs_sec_sz >> 2)) + (j * (p->wii_sec_sz >> 2));
ret = read_src_wii_disc(callback_data, offset, p->wii_sec_sz, copy_buffer);
if (ret)
{
if (copy_1_1 && i > p->n_wbfs_sec_per_disc / 2)
{
// end of dual layer data
if(j > 0)
info->wlba_table[i] = wbfs_htons(bl);
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spinner(tot,tot,spinner_data);
break;
}
//ERROR("read error");
gprintf("\rWARNING: read (%u) error (%d)\n", offset, ret);
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}
//fix the partition table
if(offset == (0x40000>>2))
wd_fix_partition_table(sel, copy_buffer);
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p->write_hdsector(p->callback_data, p->part_lba + bl * (p->wbfs_sec_sz / p->hd_sec_sz) + j
* (p->wii_sec_sz / p->hd_sec_sz), p->wii_sec_sz / p->hd_sec_sz, copy_buffer);
cur++;
if(spinner)
spinner(cur,tot,spinner_data);
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}
}
if(ret)
break;
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info->wlba_table[i] = wbfs_htons(bl);
}
// write disc info
int disc_info_sz_lba = p->disc_info_sz>>p->hd_sec_sz_s;
p->write_hdsector(p->callback_data, p->part_lba+1+discn*disc_info_sz_lba,disc_info_sz_lba,info);
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wbfs_sync(p);
retval = 0;
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error:
if(d)
wd_close_disc(d);
if(used)
wbfs_free(used);
if(info)
wbfs_iofree(info);
if(copy_buffer)
wbfs_iofree(copy_buffer);
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// init with all free blocks
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return retval;
}
u32 wbfs_rm_disc(wbfs_t *p, u8* discid)
{
wbfs_disc_t *d = wbfs_open_disc(p,discid);
int i;
int discn = 0;
int disc_info_sz_lba = p->disc_info_sz>>p->hd_sec_sz_s;
if(!d)
return 1;
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load_freeblocks(p);
discn = d->i;
for( i=0; i< p->n_wbfs_sec_per_disc; i++)
{
u32 iwlba = wbfs_ntohs(d->header->wlba_table[i]);
if(iwlba)
free_block(p,iwlba);
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}
memset(d->header,0,p->disc_info_sz);
p->write_hdsector(p->callback_data, p->part_lba+1+discn*disc_info_sz_lba,disc_info_sz_lba,d->header);
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p->head->disc_table[discn] = 0;
wbfs_close_disc(d);
wbfs_sync(p);
return 0;
}
// trim the file-system to its minimum size
u32 wbfs_trim(wbfs_t *p)
{
u32 maxbl;
load_freeblocks(p);
maxbl = alloc_block(p);
p->n_hd_sec = maxbl << (p->wbfs_sec_sz_s - p->hd_sec_sz_s);
p->head->n_hd_sec = wbfs_htonl(p->n_hd_sec);
// make all block full
memset(p->freeblks, 0, p->n_wbfs_sec / 8);
wbfs_sync(p);
// os layer will truncate the file.
return maxbl;
}
u32 wbfs_size_disc(wbfs_t *p,read_wiidisc_callback_t read_src_wii_disc,
void *callback_data,partition_selector_t sel, u32 *comp_size, u32 *real_size)
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{
int i;
u32 tot = 0, last = 0;
u32 wii_sec_per_wbfs_sect = 1 << (p->wbfs_sec_sz_s - p->wii_sec_sz_s);
wiidisc_t *d = 0;
u8 *used = wbfs_malloc(p->n_wii_sec_per_disc);
if(!used)
ERROR("unable to alloc memory\n");
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d = wd_open_disc(read_src_wii_disc,callback_data);
if(!d)
ERROR("unable to open wii disc\n");
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wd_build_disc_usage(d, sel, used);
wd_close_disc(d);
d = 0;
// count total number to write for spinner
for (i = 0; i < p->n_wbfs_sec_per_disc; i++)
{
if (block_used(used, i, wii_sec_per_wbfs_sect))
{
tot += wii_sec_per_wbfs_sect;
last = i * wii_sec_per_wbfs_sect;
}
}
error:
if(d)
wd_close_disc(d);
if(used)
wbfs_free(used);
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*comp_size = tot;
*real_size = last;
return 0;
}
// offset is pointing 32bit words to address the whole dvd, although len is in bytes
//int wbfs_disc_read(wbfs_disc_t*d,u32 offset, u8 *data, u32 len)
// offset points 32bit words, count counts bytes
//int (*read_wiidisc_callback_t)(void*fp,u32 offset,u32 count,void*iobuf);
// connect wiidisc to wbfs_disc
int read_wiidisc_wbfsdisc(void *fp, u32 offset, u32 count, void *iobuf)
{
return wbfs_disc_read((wbfs_disc_t *)fp, offset, count, iobuf);
}
u32 wbfs_extract_file(wbfs_disc_t *d, char *path, void **data)
{
wiidisc_t *wd = 0;
u32 ret = 0;
wd = wd_open_disc(read_wiidisc_wbfsdisc, d);
if (!wd)
{
wbfs_error( "opening wbfs disc\n" );
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return -1;
}
*data = wd_extract_file(wd, &ret, ONLY_GAME_PARTITION, path);
if (!*data)
{
//ERROR("file not found");
ret = 0;
}
wd_close_disc(wd);
return ret;
}
int wbfs_get_fragments(wbfs_disc_t *d, _frag_append_t append_fragment,
void *callback_data, u32 hdd_sector_size)
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{
if (!d)
return -1;
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wbfs_t *p = d->p;
int src_wbs_nlb = p->wbfs_sec_sz / hdd_sector_size;
int i, ret, last = 0;
for( i=0; i< p->n_wbfs_sec_per_disc; i++)
{
u32 iwlba = wbfs_ntohs(d->header->wlba_table[i]);
if (iwlba)
{
ret = append_fragment(callback_data,
i * src_wbs_nlb, // offset
p->part_lba + iwlba * src_wbs_nlb, // sector
src_wbs_nlb); // count
if (ret) return ret; // error
last = i;
}
}
if(last < p->n_wbfs_sec_per_disc / 2)
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last = p->n_wbfs_sec_per_disc / 2;
u32 size = last * src_wbs_nlb;
append_fragment(callback_data, size, 0, 0); // set size
return 0;
}
// wrapper for reading .iso files using wbfs apis
// offset is pointing 32bit words to address the whole dvd, although len is in bytes
int wbfs_iso_file_read(wbfs_disc_t*d,u32 offset, u8 *data, u32 len)
{
if (!d || d->p != &wbfs_iso_file)
return -1;
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int fd = (int)d->header; //HMM?
//int fd = d->i;
off_t off = ((u64)offset) << 2;
off_t ret_off;
ret_off = lseek(fd, off, SEEK_SET);
if (ret_off != off)
return -1;
u32 ret = read(fd, data, len);
if (ret != len)
return -2;
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return 0;
}
u32 wbfs_disc_sector_used(wbfs_disc_t *d, u32 *num_blk)
{
if(!d)
return 0;
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if (d->p == &wbfs_iso_file)
{
int fd = (int)d->header; //HMM?
//int fd = d->i;
struct stat st;
if (fstat(fd, &st) == -1)
return 0;
if (num_blk)
*num_blk = (st.st_size >> 9); // in 512 units
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return st.st_blocks; // in 512 units (can be sparse)
}
u32 last_blk = 0;
u32 ret;
ret = wbfs_sector_used2(d->p, d->header, &last_blk);
if (num_blk)
*num_blk = last_blk + 1;
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return ret;
}