#include #include #include #include #include "channel_launcher.h" #include "gecko/gecko.h" #include "loader/disc.h" #include "loader/external_booter.hpp" #include "loader/fs.h" #include "loader/fst.h" #include "loader/utils.h" #include "unzip/lz77.h" #include "types.h" 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; void *dolchunkoffset[18]; u32 dolchunksize[18]; u32 dolchunkcount; s32 BootChannel(u32 entry, u64 chantitle, u32 ios, u8 vidMode, bool vipatch, bool countryString, u8 patchVidMode, int aspectRatio) { // 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); ExternalBooter_ChannelSetup(dolchunkoffset, dolchunksize, dolchunkcount, entry); WiiFlow_ExternalBooter(vidMode, vipatch, countryString, patchVidMode, aspectRatio, 0, TYPE_CHANNEL); return 0; } 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], (u32)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; } 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; }