mirror of
https://github.com/wiidev/usbloadergx.git
synced 2024-11-15 16:05:10 +01:00
0e7d37b18b
*Fixed freeze in theme menu when its empty *Optimized the game list loading on fat/ntfs/ext. This should speed up the loading process. *Added cache of game titles. This will speed up the startup after the cache file is written (in other words on second start of this rev). A TitlesCache.bin will be created in the same path as the wiitdb.xml for this. This should especial speed up the startup of fat/ntfs/ext partitions by a lot if no sub folders with the game titles are used, like GAMEID.wbfs only. That must have been painfully slow before on a lot of games. Should be at about the same speed as with sub folders now. I would still recommend to use sub folders. *Removed wiilight (disc slot) blinking when switching USB port on Hermes cIOSes (thanks rodries) *Added the ehcmodule sources from rodries to the branches *Updated language files
487 lines
15 KiB
C
487 lines
15 KiB
C
// Copyright 2009 Kwiirk
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// Licensed under the terms of the GNU GPL, version 2
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// http://www.gnu.org/licenses/old-licenses/gpl-2.0.txt
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#include "libwbfs.h"
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#define likely(x) __builtin_expect(!!(x), 1)
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#define unlikely(x) __builtin_expect(!!(x), 0)
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#define ERROR(x) do {wbfs_error(x);goto error;}while(0)
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#define ALIGN_LBA(x) (((x)+p->hd_sec_sz-1)&(~(p->hd_sec_sz-1)))
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static int force_mode=0;
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void wbfs_set_force_mode(int force)
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{
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force_mode = force;
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}
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static u8 size_to_shift(u32 size)
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{
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u8 ret = 0;
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while(size)
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{
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ret++;
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size>>=1;
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}
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return ret-1;
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}
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#define read_le32_unaligned(x) ((x)[0]|((x)[1]<<8)|((x)[2]<<16)|((x)[3]<<24))
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static u8 *last_sect_buff=0;
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static u32 last_sect=0xffffffff;
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static int my_hd_sector_size=0;
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wbfs_t*wbfs_open_hd(rw_sector_callback_t read_hdsector,
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rw_sector_callback_t write_hdsector,
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void *callback_data,
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int hd_sector_size, int num_hd_sector __attribute((unused)), int partition, int reset)
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{
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int i=num_hd_sector,ret;
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u8 *ptr,*tmp_buffer = wbfs_ioalloc(hd_sector_size);
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u8 part_table[16*4];
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u32 last_lba=0xFFFFFFFF;
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int l=0;
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last_sect=0xffffffff;
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if(!last_sect_buff) last_sect_buff = wbfs_ioalloc(hd_sector_size);
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my_hd_sector_size=hd_sector_size;
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ret = read_hdsector(callback_data,0,1,tmp_buffer);
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if(ret)
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{
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wbfs_iofree(tmp_buffer);
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return 0;
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}
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//find wbfs partition
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if(tmp_buffer[0x1fe]!=0x55 || tmp_buffer[0x1ff]!=0xaa
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|| !strncmp((void *) &tmp_buffer[3],"NTFS",4)
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|| !strncmp((void *) &tmp_buffer[0x36],"FAT",3)
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|| !strncmp((void *) &tmp_buffer[0x52],"FAT",3)
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) wbfs_memset(part_table,0,16*4);
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else wbfs_memcpy(part_table,tmp_buffer+0x1be,16*4);
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ptr = part_table;
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for(i=0;i<4;i++,ptr+=16)
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{
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u32 part_lba = read_le32_unaligned(ptr+0x8);
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wbfs_head_t *head = (wbfs_head_t *)tmp_buffer;
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#if 1
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if(head->magic != wbfs_htonl(WBFS_MAGIC)) if(ptr[4]==0) continue;
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if(ptr[4]==0xf)
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{
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u32 part_lba2=part_lba;
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u32 next_lba2=0;
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int n;
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for(n=0;n<8;n++) // max 8 logic partitions (i think it is sufficient!)
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{
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ret = read_hdsector(callback_data,part_lba+next_lba2 ,1,tmp_buffer);
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if(ret)
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{
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wbfs_iofree(tmp_buffer);
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return 0;
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}
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part_lba2=part_lba+next_lba2+read_le32_unaligned(tmp_buffer+0x1C6);
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next_lba2=read_le32_unaligned(tmp_buffer+0x1D6);
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ret = read_hdsector(callback_data,part_lba2,1,tmp_buffer);
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if(ret)
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{
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wbfs_iofree(tmp_buffer);
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return 0;
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}
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// verify there is the magic.
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if (head->magic == wbfs_htonl(WBFS_MAGIC))
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{
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if(l==partition)
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{
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wbfs_t*p = wbfs_open_partition(read_hdsector,write_hdsector,
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callback_data,hd_sector_size,0,part_lba2,reset);
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wbfs_iofree(tmp_buffer);
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return p;
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}
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else
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{
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if(part_lba2!=last_lba) {l++;last_lba=part_lba2;}
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}
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}
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if(next_lba2==0) break;
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}
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}
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else
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#endif
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{
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ret = read_hdsector(callback_data,part_lba,1,tmp_buffer);
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if(ret)
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{
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wbfs_iofree(tmp_buffer);
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return 0;
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}
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// verify there is the magic.
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if (head->magic == wbfs_htonl(WBFS_MAGIC))
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{
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if(l==partition)
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{
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wbfs_t*p = wbfs_open_partition(read_hdsector,write_hdsector,
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callback_data,hd_sector_size,0,part_lba,reset);
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wbfs_iofree(tmp_buffer);
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return p;
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}
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else
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{
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if(part_lba!=last_lba) {l++;last_lba=part_lba;}
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}
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}
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}
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}
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if(reset)// XXX make a empty hd partition..
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{
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}
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wbfs_iofree(tmp_buffer);
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return 0;
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}
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wbfs_t*wbfs_open_partition(rw_sector_callback_t read_hdsector,
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rw_sector_callback_t write_hdsector,
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void *callback_data,
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int hd_sector_size, int num_hd_sector, u32 part_lba, int reset)
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{
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wbfs_t *p = wbfs_malloc(sizeof(wbfs_t));
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wbfs_head_t *head = wbfs_ioalloc(hd_sector_size?hd_sector_size:512);
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//constants, but put here for consistancy
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p->wii_sec_sz = 0x8000;
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p->wii_sec_sz_s = size_to_shift(0x8000);
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// p->n_wii_sec = (num_hd_sector/0x8000)*hd_sector_size;
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p->n_wii_sec_per_disc = 143432*2;//support for double layers discs..
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p->head = head;
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p->part_lba = part_lba;
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my_hd_sector_size=hd_sector_size;
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p->n_wii_sec =(u32) ((u64) num_hd_sector)/ ((u64) 0x8000);
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p->n_wii_sec=(u32) ( ((u64) p->n_wii_sec) * ((u64) hd_sector_size) );
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// init the partition
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if (reset)
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{
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u8 sz_s;
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wbfs_memset(head,0,hd_sector_size);
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head->magic = wbfs_htonl(WBFS_MAGIC);
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head->hd_sec_sz_s = size_to_shift(hd_sector_size);
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head->n_hd_sec = wbfs_htonl(num_hd_sector);
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// choose minimum wblk_sz that fits this partition size
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for(sz_s=6;sz_s<11;sz_s++)
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{
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// ensure that wbfs_sec_sz is big enough to address every blocks using 16 bits
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if(p->n_wii_sec <((1U<<16)*(1<<sz_s)))
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break;
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}
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head->wbfs_sec_sz_s = sz_s+p->wii_sec_sz_s;
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}else
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read_hdsector(callback_data,p->part_lba,1,head);
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if (head->magic != wbfs_htonl(WBFS_MAGIC))
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ERROR("bad magic");
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if(!force_mode && hd_sector_size && head->hd_sec_sz_s != size_to_shift(hd_sector_size))
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ERROR("hd sector size doesn't match");
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if(!force_mode && num_hd_sector && head->n_hd_sec != wbfs_htonl(num_hd_sector))
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ERROR("hd num sector doesn't match");
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p->hd_sec_sz = 1<<head->hd_sec_sz_s;
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p->hd_sec_sz_s = head->hd_sec_sz_s;
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p->n_hd_sec = wbfs_ntohl(head->n_hd_sec);
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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;
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p->wbfs_sec_sz = 1<<p->wbfs_sec_sz_s;
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p->n_wbfs_sec = p->n_wii_sec >> (p->wbfs_sec_sz_s - p->wii_sec_sz_s);
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p->n_wbfs_sec_per_disc = p->n_wii_sec_per_disc >> (p->wbfs_sec_sz_s - p->wii_sec_sz_s);
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p->disc_info_sz = ALIGN_LBA(sizeof(wbfs_disc_info_t) + p->n_wbfs_sec_per_disc*2);
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//printf("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;
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p->write_hdsector = write_hdsector;
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p->callback_data = callback_data;
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p->freeblks_lba = (p->wbfs_sec_sz - p->n_wbfs_sec/8)>>p->hd_sec_sz_s;
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if(!reset)
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p->freeblks = 0; // will alloc and read only if needed
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else
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{
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// init with all free blocks
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p->freeblks = wbfs_ioalloc(ALIGN_LBA(p->n_wbfs_sec/8));
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wbfs_memset(p->freeblks,0xff,p->n_wbfs_sec/8);
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}
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p->max_disc = (p->freeblks_lba-1)/(p->disc_info_sz>>p->hd_sec_sz_s);
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if(p->max_disc > p->hd_sec_sz - sizeof(wbfs_head_t))
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p->max_disc = p->hd_sec_sz - sizeof(wbfs_head_t);
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p->tmp_buffer = wbfs_ioalloc(p->hd_sec_sz);
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p->n_disc_open = 0;
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return p;
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error:
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wbfs_free(p);
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wbfs_iofree(head);
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return 0;
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}
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void wbfs_close(wbfs_t*p)
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{
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if(p->n_disc_open)
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ERROR("trying to close wbfs while discs still open");
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wbfs_iofree(p->head);
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wbfs_iofree(p->tmp_buffer);
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if(p->freeblks)
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wbfs_iofree(p->freeblks);
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wbfs_free(p);
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error:
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return;
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}
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wbfs_disc_t *wbfs_open_disc(wbfs_t* p, u8 *discid)
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{
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u32 i;
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int disc_info_sz_lba = p->disc_info_sz>>p->hd_sec_sz_s;
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wbfs_disc_t *d = 0;
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last_sect=0xffffffff;
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for(i=0;i<p->max_disc;i++)
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{
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if (p->head->disc_table[i]){
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p->read_hdsector(p->callback_data,
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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){
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d = wbfs_malloc(sizeof(*d));
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if(!d)
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ERROR("allocating memory");
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d->p = p;
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d->i = i;
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d->header = wbfs_ioalloc(p->disc_info_sz);
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if(!d->header)
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ERROR("allocating memory");
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p->read_hdsector(p->callback_data,
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p->part_lba+1+i*disc_info_sz_lba,
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disc_info_sz_lba,d->header);
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p->n_disc_open ++;
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// for(i=0;i<p->n_wbfs_sec_per_disc;i++)
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// printf("%d,",wbfs_ntohs(d->header->wlba_table[i]));
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return d;
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}
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}
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}
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return 0;
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error:
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if(d)
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wbfs_iofree(d);
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return 0;
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}
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void wbfs_close_disc(wbfs_disc_t*d)
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{
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d->p->n_disc_open --;
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wbfs_iofree(d->header);
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wbfs_free(d);
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}
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// offset is pointing 32bit words to address the whole dvd, although len is in bytes
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int wbfs_disc_read(wbfs_disc_t*d,u32 offset, u8 *data, u32 len)
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{
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wbfs_t *p = d->p;
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u16 wlba = offset>>(p->wbfs_sec_sz_s-2);
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u32 iwlba_shift = p->wbfs_sec_sz_s - p->hd_sec_sz_s;
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u32 lba_mask = (p->wbfs_sec_sz-1)>>(p->hd_sec_sz_s);
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u32 lba = (offset>>(p->hd_sec_sz_s-2))&lba_mask;
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u32 off = offset&((p->hd_sec_sz>>2)-1);
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u16 iwlba = wbfs_ntohs(d->header->wlba_table[wlba]);
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u32 len_copied;
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int err = 0;
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u8 *ptr = data;
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if(unlikely(iwlba==0))
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return 1;
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if(unlikely(off)){
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off*=4;
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if(last_sect==(p->part_lba + (iwlba<<iwlba_shift) + lba))
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{
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err=0;wbfs_memcpy(p->tmp_buffer, last_sect_buff, my_hd_sector_size);
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}
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else
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{
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err = p->read_hdsector(p->callback_data,
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p->part_lba + (iwlba<<iwlba_shift) + lba, 1, p->tmp_buffer);
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if(err)
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return err;
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last_sect=(p->part_lba + (iwlba<<iwlba_shift) + lba);
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wbfs_memcpy(last_sect_buff, p->tmp_buffer, my_hd_sector_size);
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}
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len_copied = p->hd_sec_sz - off;
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if(likely(len < len_copied))
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len_copied = len;
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wbfs_memcpy(ptr, p->tmp_buffer + off, len_copied);
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len -= len_copied;
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ptr += len_copied;
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lba++;
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if(unlikely(lba>lba_mask && len)){
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lba=0;
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iwlba = wbfs_ntohs(d->header->wlba_table[++wlba]);
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if(unlikely(iwlba==0))
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return 1;
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}
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}
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while(likely(len>=p->hd_sec_sz))
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{
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u32 nlb = len>>(p->hd_sec_sz_s);
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if(unlikely(lba + nlb > p->wbfs_sec_sz)) // dont cross wbfs sectors..
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nlb = p->wbfs_sec_sz-lba;
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err = p->read_hdsector(p->callback_data,
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p->part_lba + (iwlba<<iwlba_shift) + lba, nlb, ptr);
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if(err)
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return err;
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len -= nlb<<p->hd_sec_sz_s;
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ptr += nlb<<p->hd_sec_sz_s;
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lba += nlb;
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if(unlikely(lba>lba_mask && len)){
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lba = 0;
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iwlba =wbfs_ntohs(d->header->wlba_table[++wlba]);
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if(unlikely(iwlba==0))
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return 1;
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}
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}
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if(unlikely(len)){
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err = p->read_hdsector(p->callback_data,
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p->part_lba + (iwlba<<iwlba_shift) + lba, 1, p->tmp_buffer);
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if(err)
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return err;
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last_sect=(p->part_lba + (iwlba<<iwlba_shift) + lba);
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wbfs_memcpy(last_sect_buff, p->tmp_buffer, my_hd_sector_size);
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wbfs_memcpy(ptr, p->tmp_buffer, len);
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}
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return 0;
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}
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// hermes
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int wbfs_disc_read2(wbfs_disc_t*d,u32 offset, u8 *data, u32 len)
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{
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wbfs_t *p = d->p;
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u16 wlba = offset>>(p->wbfs_sec_sz_s-2);
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u32 iwlba_shift = p->wbfs_sec_sz_s - p->hd_sec_sz_s;
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u32 lba_mask = (p->wbfs_sec_sz-1)>>(p->hd_sec_sz_s);
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u32 lba = (offset>>(p->hd_sec_sz_s-2))&lba_mask;
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u32 off = offset&((p->hd_sec_sz>>2)-1);
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u16 iwlba = wbfs_ntohs(d->header->wlba_table[wlba]);
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u32 len_copied;
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int err = 0;
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u8 *ptr = data;
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if(unlikely(off)){
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off*=4;
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if(unlikely(iwlba==0))
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{
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len_copied = p->hd_sec_sz - off;
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if(likely(len < len_copied))
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len_copied = len;
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wbfs_memset(ptr, 0, len_copied);
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len -= len_copied;
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ptr += len_copied;
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lba++;
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}
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else
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{
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err = p->read_hdsector(p->callback_data,
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p->part_lba + (iwlba<<iwlba_shift) + lba, 1, p->tmp_buffer);
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if(err)
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return err;
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len_copied = p->hd_sec_sz - off;
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if(likely(len < len_copied))
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len_copied = len;
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wbfs_memcpy(ptr, p->tmp_buffer + off, len_copied);
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len -= len_copied;
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ptr += len_copied;
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lba++;
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if(unlikely(lba>lba_mask && len && unlikely(iwlba!=0))){
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lba=0;
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iwlba = wbfs_ntohs(d->header->wlba_table[++wlba]);
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//if(unlikely(iwlba==0))
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// return 1;
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}
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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;
|
|
|
|
if(unlikely(iwlba==0))
|
|
{
|
|
wbfs_memset(ptr, 0, nlb<<p->hd_sec_sz_s);
|
|
}
|
|
else
|
|
{
|
|
err = p->read_hdsector(p->callback_data,
|
|
p->part_lba + (iwlba<<iwlba_shift) + lba, nlb, ptr);
|
|
if(err)
|
|
return err;
|
|
}
|
|
|
|
len -= nlb<<p->hd_sec_sz_s;
|
|
ptr += nlb<<p->hd_sec_sz_s;
|
|
lba += nlb;
|
|
if(!unlikely(iwlba==0))
|
|
{
|
|
|
|
if(unlikely(lba>lba_mask && len && unlikely(iwlba!=0))){
|
|
lba = 0;
|
|
iwlba =wbfs_ntohs(d->header->wlba_table[++wlba]);
|
|
/* if(unlikely(iwlba==0))
|
|
return 1;*/
|
|
}
|
|
}
|
|
}
|
|
if(unlikely(len)){
|
|
if(!unlikely(iwlba==0))
|
|
{
|
|
err = p->read_hdsector(p->callback_data,
|
|
p->part_lba + (iwlba<<iwlba_shift) + lba, 1, p->tmp_buffer);
|
|
if(err)
|
|
return err;
|
|
wbfs_memcpy(ptr, p->tmp_buffer, len);
|
|
}
|
|
else wbfs_memset(ptr, 0, len);
|
|
|
|
}
|
|
return 0;
|
|
}
|
|
|
|
|
|
|