mirror of
https://github.com/wiidev/usbloadergx.git
synced 2024-11-22 19:29:18 +01:00
1cc7d3acd6
* Added initial (untested!) support for the zip file format, which is supported by the HBC * Began working on compressed wad files. Uncompressing fails for now, so uploading WAD files should be done with the previous version of Wiiload. * Fixed issue 902 (hence the large commit).
175 lines
5.5 KiB
C++
175 lines
5.5 KiB
C++
#include <string.h>
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#include "ramdisc.h"
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static inline u16 u8array_to_u16 (const u8* item, int offset) {
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return ( item[offset] | (item[offset + 1] << 8));
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}
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static inline u32 u8array_to_u32 (const u8* item, int offset) {
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return ( item[offset] | (item[offset + 1] << 8) | (item[offset + 2] << 16) | (item[offset + 3] << 24) );
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}
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static inline void u16_to_u8array (u8* item, int offset, u16 value) {
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item[offset] = (u8) value;
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item[offset + 1] = (u8)(value >> 8);
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}
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static inline void u32_to_u8array (u8* item, int offset, u32 value) {
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item[offset] = (u8) value;
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item[offset + 1] = (u8)(value >> 8);
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item[offset + 2] = (u8)(value >> 16);
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item[offset + 3] = (u8)(value >> 24);
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}
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class padding {
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public:
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padding(u32 Start, u32 NumSectors) {
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start = Start;
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end = Start + NumSectors;
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data = new u8[NumSectors*512];
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next = 0;
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}
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~padding() {
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delete [] data;
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}
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u32 start;
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u32 end;
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u8 *data;
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padding *next;
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};
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static u32 __ramdisk_sectorsOfPadding;
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static padding *__ramdisk_data_start;
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static padding *__ramdisk_data_end;
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static bool __ramdisk_IsInserted(void) {
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return __ramdisk_data_start!=NULL;
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}
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//forward decleration
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static bool __ramdisk_WriteSectors(size_t Sector, size_t numSectors, u8 *Buffer);
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bool initRAMDisc(u32 Size, u32 Padding) {
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if (__ramdisk_data_start) return true; // is init
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if (Size > 16*1024*1024) Size = 16*1024*1024; // maximum 16 MB
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if (Size < 16*1024) Size = 16*1024; // minimum 16 MB
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if (Padding > Size) Padding = Size; // Padding maximum =Disksize
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if (Padding < 4*1024) Padding = 4*1024; // Padding minimum 4kB
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__ramdisk_sectorsOfPadding = Padding/512;
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__ramdisk_data_start = __ramdisk_data_end = new padding(0, __ramdisk_sectorsOfPadding);
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if (!__ramdisk_data_start) return false;
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// FAT12 Formatieren
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u8 sector[512] = {0, };
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sector[0x00d] = 2; /*BPB_sectorsPerCluster*/
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sector[0x00e] = 1; /*BPB_reservedSectors*/
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sector[0x010] = 1; /*BPB_numFATs*/
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u16_to_u8array (sector, 0x011, 48); /*BPB_rootEntries*/
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int num_sectors = Size/512;
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u16_to_u8array (sector, 0x013, num_sectors); /*BPB_numSectorsSmall*/
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int num_clusters = (num_sectors-1-3) /2;
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int sectors_per_fat = (num_clusters * 3 + 1023) /1024;
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u16_to_u8array (sector, 0x016, sectors_per_fat); /*BPB_sectorsPerFAT*/
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//u32_to_u8array (sector, 0x020, Size/512); /*BPB_numSectors*/
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sector[0x036] = 'F';
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sector[0x037] = 'A';
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sector[0x038] = 'T';
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sector[0x1fe] = 0x55;
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sector[0x1ff] = 0xaa;
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if (!__ramdisk_WriteSectors(0, 1, sector))
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goto error;
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memset(sector, 0, 512);
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// clear FAT & rootDir
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for (int i=1; i<= sectors_per_fat+3/*sectors_per_rootDir*/; i++)
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if (!__ramdisk_WriteSectors(1, 1, sector))
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goto error;
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return true;
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error:
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delete __ramdisk_data_start;
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__ramdisk_data_start = 0;
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return false;
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}
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void exitRAMDisc() {
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while (__ramdisk_data_start) {
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padding *tmp = __ramdisk_data_start;
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__ramdisk_data_start = __ramdisk_data_start->next;
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delete tmp;
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}
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}
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static u8 *__ramdisk_findSector(size_t Sector, size_t *Sectors) {
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if (__ramdisk_data_start==NULL) return NULL;
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for (padding *tmp = __ramdisk_data_start; tmp; tmp=tmp->next) {
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if (tmp->start <= Sector && tmp->end >= Sector) {
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if (Sectors) *Sectors = 1+tmp->end-Sector;
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return &(tmp->data[(Sector-tmp->start)*512]);
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}
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}
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// not found -> add padding
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__ramdisk_data_end->next = new padding((Sector/__ramdisk_sectorsOfPadding)*__ramdisk_sectorsOfPadding, __ramdisk_sectorsOfPadding);
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if (__ramdisk_data_end->next) {
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__ramdisk_data_end = __ramdisk_data_end->next;
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return &( __ramdisk_data_end->data[(Sector-__ramdisk_data_end->start)*512]);
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}
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return 0;
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}
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static bool __ImplizitInit = false;
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static bool __ramdisk_Startup(void) {
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if (!__ramdisk_IsInserted()) {
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// Std=8MB/64kB Padding
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return (__ImplizitInit = initRAMDisc(8*1024*1024, 64 * 1024));
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}
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return true;
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}
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static bool __ramdisk_ReadSectors(size_t Sector, size_t numSectors, u8 *Buffer) {
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size_t num_sectors;
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while (numSectors) {
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if (u8 *buff = __ramdisk_findSector(Sector,&num_sectors)) {
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if (num_sectors > numSectors) num_sectors = numSectors;
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memcpy(Buffer, buff, num_sectors * 512);
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numSectors -= num_sectors;
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Buffer+= num_sectors;
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} else
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return false;
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}
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return true;
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}
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static bool __ramdisk_WriteSectors(size_t Sector, size_t numSectors, u8 *Buffer) {
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size_t num_sectors;
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while (numSectors) {
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if (u8 *buff = __ramdisk_findSector(Sector,&num_sectors)) {
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if (num_sectors > numSectors) num_sectors = numSectors;
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memcpy(buff, Buffer, num_sectors * 512);
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numSectors -= num_sectors;
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Buffer+= num_sectors;
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} else
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return false;
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}
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return true;
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}
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static bool __ramdisk_ClearStatus(void) {
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return true;
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}
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static bool __ramdisk_Shutdown(void) {
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if (__ImplizitInit) {
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__ImplizitInit = false;
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exitRAMDisc();
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}
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return true;
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}
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const DISC_INTERFACE __io_ramdisk = {
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DEVICE_TYPE_RAM_DISK,
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FEATURE_MEDIUM_CANREAD | FEATURE_MEDIUM_CANWRITE | 0x1000,
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(FN_MEDIUM_STARTUP)&__ramdisk_Startup,
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(FN_MEDIUM_ISINSERTED)&__ramdisk_IsInserted,
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(FN_MEDIUM_READSECTORS)&__ramdisk_ReadSectors,
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(FN_MEDIUM_WRITESECTORS)&__ramdisk_WriteSectors,
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(FN_MEDIUM_CLEARSTATUS)&__ramdisk_ClearStatus,
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(FN_MEDIUM_SHUTDOWN)&__ramdisk_Shutdown
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};
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