WiiFlow_Lite/source/channel/channel_launcher.c
fix94.1 971b5bdb52 -improved jpg support, now the cover width and height dont need
to be divisible with 4 anymore, you can use what you want
-moved sound buffers back in mem2, idk but for wiiflow it gives
a better result
-added mem2 memalign placeholder for new memory manager (after
a week still everything but finished)
-updated other small things, cleaned up source structure a bit
2012-08-05 13:48:15 +00:00

320 lines
8.0 KiB
C

#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <malloc.h>
#include "channel_launcher.h"
#include "gecko/gecko.h"
#include "loader/disc.h"
#include "loader/fs.h"
#include "loader/fst.h"
#include "loader/patchcode.h"
#include "loader/utils.h"
#include "loader/videopatch.h"
#include "unzip/lz77.h"
void __Disc_SetLowMem(void);
void __Disc_SetTime(void);
void _unstub_start();
extern void __exception_closeall();
typedef void (*entrypoint) (void);
typedef struct _dolheader
{
u32 section_pos[18];
u32 section_start[18];
u32 section_size[18];
u32 bss_start;
u32 bss_size;
u32 entry_point;
u32 padding[7];
} __attribute__((packed)) dolheader;
u32 entryPoint;
s32 BootChannel(u32 entry, u64 chantitle, u32 ios, u8 vidMode, bool vipatch, bool countryString, u8 patchVidMode, int aspectRatio)
{
gprintf("Loading Channel...\n");
entryPoint = entry;
/* Select an appropriate video mode */
u32 vmode_reg = 0;
GXRModeObj *vmode = Disc_SelectVMode(vidMode, chantitle, &vmode_reg);
/* Set time */
__Disc_SetTime();
/* Set low memory */
__Disc_SetLowMem();
if (hooktype != 0)
ocarina_do_code();
PatchChannel(vidMode, vmode, vipatch, countryString, patchVidMode, aspectRatio);
entrypoint appJump = (entrypoint)entryPoint;
/* Set an appropriate video mode */
Disc_SetVMode(vmode, vmode_reg);
// IOS Version Check
*(vu32*)0x80003140 = ((ios << 16)) | 0xFFFF;
*(vu32*)0x80003188 = ((ios << 16)) | 0xFFFF;
DCFlushRange((void *)0x80003140, 4);
DCFlushRange((void *)0x80003188, 4);
// Game ID Online Check
memset((void *)0x80000000, 0, 4);
*(vu32 *)0x80000000 = TITLE_LOWER(chantitle);
DCFlushRange((void *)0x80000000, 4);
gprintf("Jumping to entrypoint %08x\n", entryPoint);
/* Shutdown IOS subsystems */
u32 level = IRQ_Disable();
__IOS_ShutdownSubsystems();
__exception_closeall();
/* Originally from tueidj - taken from NeoGamma (thx) */
*(vu32*)0xCC003024 = 1;
if (entryPoint != 0x3400)
{
if(hooktype != 0)
{
asm volatile (
"lis %r3, entryPoint@h\n"
"ori %r3, %r3, entryPoint@l\n"
"lwz %r3, 0(%r3)\n"
"mtlr %r3\n"
"lis %r3, 0x8000\n"
"ori %r3, %r3, 0x18A8\n"
"nop\n"
"mtctr %r3\n"
"bctr\n"
);
}
else
appJump();
}
else if(hooktype != 0)
{
asm volatile (
"lis %r3, returnpoint@h\n"
"ori %r3, %r3, returnpoint@l\n"
"mtlr %r3\n"
"lis %r3, 0x8000\n"
"ori %r3, %r3, 0x18A8\n"
"nop\n"
"mtctr %r3\n"
"bctr\n"
"returnpoint:\n"
"bl DCDisable\n"
"bl ICDisable\n"
"li %r3, 0\n"
"mtsrr1 %r3\n"
"lis %r4, entryPoint@h\n"
"ori %r4,%r4,entryPoint@l\n"
"lwz %r4, 0(%r4)\n"
"mtsrr0 %r4\n"
"rfi\n"
);
}
else
_unstub_start();
IRQ_Restore(level);
return 0;
}
void *dolchunkoffset[18];
u32 dolchunksize[18];
u32 dolchunkcount;
u32 LoadChannel(u8 *buffer)
{
dolchunkcount = 0;
dolheader *dolfile = (dolheader *)buffer;
if(dolfile->bss_start)
{
if(!(dolfile->bss_start & 0x80000000))
dolfile->bss_start |= 0x80000000;
memset((void *)dolfile->bss_start, 0, dolfile->bss_size);
DCFlushRange((void *)dolfile->bss_start, dolfile->bss_size);
ICInvalidateRange((void *)dolfile->bss_start, dolfile->bss_size);
}
int i;
for(i = 0; i < 18; i++)
{
if(!dolfile->section_size[i])
continue;
if(dolfile->section_pos[i] < sizeof(dolheader))
continue;
if(!(dolfile->section_start[i] & 0x80000000))
dolfile->section_start[i] |= 0x80000000;
dolchunkoffset[dolchunkcount] = (void *)dolfile->section_start[i];
dolchunksize[dolchunkcount] = dolfile->section_size[i];
gprintf("Moving section %u from offset %08x to %08x-%08x...\n", i, dolfile->section_pos[i], dolchunkoffset[dolchunkcount], dolchunkoffset[dolchunkcount]+dolchunksize[dolchunkcount]);
memmove(dolchunkoffset[dolchunkcount], buffer + dolfile->section_pos[i], dolchunksize[dolchunkcount]);
DCFlushRange(dolchunkoffset[dolchunkcount], dolchunksize[dolchunkcount]);
ICInvalidateRange(dolchunkoffset[dolchunkcount], dolchunksize[dolchunkcount]);
dolchunkcount++;
}
return dolfile->entry_point;
}
void PatchChannel(u8 vidMode, GXRModeObj *vmode, bool vipatch, bool countryString, u8 patchVidModes, int aspectRatio)
{
bool hookpatched = false;
u32 i;
for (i=0; i < dolchunkcount; i++)
{
patchVideoModes(dolchunkoffset[i], dolchunksize[i], vidMode, vmode, patchVidModes);
if (vipatch) vidolpatcher(dolchunkoffset[i], dolchunksize[i]);
if (configbytes[0] != 0xCD) langpatcher(dolchunkoffset[i], dolchunksize[i]);
if (countryString) PatchCountryStrings(dolchunkoffset[i], dolchunksize[i]);
if (aspectRatio != -1) PatchAspectRatio(dolchunkoffset[i], dolchunksize[i], aspectRatio);
if (hooktype != 0)
if (dogamehooks(dolchunkoffset[i], dolchunksize[i], true))
hookpatched = true;
}
if (hooktype != 0 && !hookpatched)
{
gprintf("Error: Could not patch the hook\n");
gprintf("Ocarina and debugger won't work\n");
}
}
bool Identify_GenerateTik(signed_blob **outbuf, u32 *outlen)
{
signed_blob *buffer = (signed_blob *)memalign(32, ALIGN32(STD_SIGNED_TIK_SIZE));
if(!buffer)
return false;
memset(buffer, 0, STD_SIGNED_TIK_SIZE);
sig_rsa2048 *signature = (sig_rsa2048 *)buffer;
signature->type = ES_SIG_RSA2048;
tik *tik_data = (tik *)SIGNATURE_PAYLOAD(buffer);
strcpy(tik_data->issuer, "Root-CA00000001-XS00000003");
memset(tik_data->cidx_mask, 0xFF, 32);
*outbuf = buffer;
*outlen = STD_SIGNED_TIK_SIZE;
return true;
}
bool Identify(u64 titleid)
{
char filepath[ISFS_MAXPATH] ATTRIBUTE_ALIGN(32);
gprintf("Reading TMD...");
sprintf(filepath, "/title/%08x/%08x/content/title.tmd", TITLE_UPPER(titleid), TITLE_LOWER(titleid));
u32 tmdSize;
u8 *tmdBuffer = ISFS_GetFile((u8 *) &filepath, &tmdSize, -1);
if (tmdBuffer == NULL || tmdSize == 0)
{
gprintf("Failed!\n");
return false;
}
gprintf("Success!\n");
u32 tikSize;
signed_blob *tikBuffer = NULL;
gprintf("Generating fake ticket...");
if(!Identify_GenerateTik(&tikBuffer,&tikSize))
{
gprintf("Failed!\n");
return false;
}
gprintf("Success!\n");
gprintf("Reading certs...");
sprintf(filepath, "/sys/cert.sys");
u32 certSize;
u8 *certBuffer = ISFS_GetFile((u8 *) &filepath, &certSize, -1);
if (certBuffer == NULL || certSize == 0)
{
gprintf("Failed!\n");
free(tmdBuffer);
free(tikBuffer);
return false;
}
gprintf("Success!\n");
gprintf("ES_Identify\n");
s32 ret = ES_Identify((signed_blob*)certBuffer, certSize, (signed_blob*)tmdBuffer, tmdSize, tikBuffer, tikSize, NULL);
if (ret < 0)
{
switch(ret)
{
case ES_EINVAL:
gprintf("Error! ES_Identify (ret = %d;) Data invalid!\n", ret);
break;
case ES_EALIGN:
gprintf("Error! ES_Identify (ret = %d;) Data not aligned!\n", ret);
break;
case ES_ENOTINIT:
gprintf("Error! ES_Identify (ret = %d;) ES not initialized!\n", ret);
break;
case ES_ENOMEM:
gprintf("Error! ES_Identify (ret = %d;) No memory!\n", ret);
break;
default:
gprintf("Error! ES_Identify (ret = %d)\n", ret);
break;
}
}
free(tmdBuffer);
free(tikBuffer);
free(certBuffer);
return ret < 0 ? false : true;
}
u8 *GetDol(u64 title, u32 bootcontent)
{
char filepath[ISFS_MAXPATH] ATTRIBUTE_ALIGN(32);
sprintf(filepath, "/title/%08x/%08x/content/%08x.app", TITLE_UPPER(title), TITLE_LOWER(title), bootcontent);
gprintf("Loading DOL: %s...", filepath);
u32 contentSize = 0;
u8 *data = ISFS_GetFile((u8 *) &filepath, &contentSize, -1);
if (data != NULL && contentSize != 0)
{
gprintf("Done!\n");
if (isLZ77compressed(data))
{
u8 *decompressed;
u32 size = 0;
if (decompressLZ77content(data, contentSize, &decompressed, &size) < 0)
{
gprintf("Decompression failed\n");
free(data);
return NULL;
}
free(data);
data = decompressed;
}
return data;
}
gprintf("Failed!\n");
return NULL;
}