Files
Project_CTR/makerom/cia.c
T
2016-02-18 19:50:07 +08:00

783 lines
23 KiB
C

#include "lib.h"
#include "srl.h"
#include "ncsd_read.h"
#include "ncch_read.h"
#include "exheader_read.h"
#include "exefs_read.h"
#include "cia_build.h"
#include "cia_read.h"
#include "tik_build.h"
#include "tmd_build.h"
#include "titleid.h"
#include "certs.h"
const int CIA_ALIGN_SIZE = 0x40;
const int CIA_CONTENT_ALIGN = 0x10;
// Private Prototypes
void FreeCiaSettings(cia_settings *set);
int GetCiaSettings(cia_settings *ciaset, user_settings *usrset);
int GetSettingsFromUsrset(cia_settings *ciaset, user_settings *usrset);
int GetSettingsFromNcch0(cia_settings *ciaset, u32 ncch0_offset);
int GetTmdDataFromNcch(cia_settings *ciaset, u8 *ncch, ncch_info *ncch_ctx, u8 *key);
int GetMetaRegion(cia_settings *ciaset, u8 *ncch, ncch_info *ncch_ctx, u8 *key);
int GetContentFilePtrs(cia_settings *ciaset, user_settings *usrset);
int ImportNcchContent(cia_settings *ciaset);
int GetSettingsFromSrl(cia_settings *ciaset);
int GetSettingsFromCci(cia_settings *ciaset);
u16 SetupVersion(u16 major, u16 minor, u16 micro);
void GetContentHashes(cia_settings *ciaset);
void EncryptContent(cia_settings *ciaset);
int BuildCiaCertChain(cia_settings *ciaset);
int BuildCiaHdr(cia_settings *ciaset);
int WriteCiaToFile(cia_settings *ciaset);
int build_CIA(user_settings *usrset)
{
int result = 0;
// Init Settings
cia_settings *ciaset = calloc(1,sizeof(cia_settings));
if(!ciaset) {
fprintf(stderr,"[CIA ERROR] Not enough memory\n");
return MEM_ERROR;
}
// Get Settings
result = GetCiaSettings(ciaset,usrset);
if(result) goto finish;
// Create Output File
ciaset->out = fopen(usrset->common.outFileName,"wb");
if(!ciaset->out){
fprintf(stderr,"[CIA ERROR] Failed to create \"%s\"\n",usrset->common.outFileName);
result = FAILED_TO_CREATE_OUTFILE;
goto finish;
}
// Create CIA Sections
/* Certificate Chain */
result = BuildCiaCertChain(ciaset);
if(result) goto finish;
/* Ticket */
result = BuildTicket(ciaset);
if(result) goto finish;
/* Title Metadata */
result = BuildTMD(ciaset);
if(result) goto finish;
/* CIA Header */
result = BuildCiaHdr(ciaset);
if(result) goto finish;
/* Write To File */
result = WriteCiaToFile(ciaset);
if(result) goto finish;
finish:
if(result != FAILED_TO_CREATE_OUTFILE && ciaset->out)
fclose(ciaset->out);
FreeCiaSettings(ciaset);
return result;
}
void FreeCiaSettings(cia_settings *set)
{
if(set->content.filePtrs){
for(u32 i = 1; i < set->content.count; i++){
fclose(set->content.filePtrs[i]);
}
free(set->content.filePtrs);
}
free(set->ciaSections.certChain.buffer);
free(set->ciaSections.tik.buffer);
free(set->ciaSections.tmd.buffer);
free(set->ciaSections.meta.buffer);
free(set->ciaSections.content.buffer);
memset(set,0,sizeof(cia_settings));
free(set);
}
int GetCiaSettings(cia_settings *ciaset, user_settings *usrset)
{
int result = 0;
// Transfering data from usrset
result = GetSettingsFromUsrset(ciaset,usrset);
if(usrset->common.workingFileType == infile_ncch){
if((result = GetSettingsFromNcch0(ciaset,0)) != 0)
return result;
if((result = GetContentFilePtrs(ciaset,usrset)) != 0)
return result;
if((result = ImportNcchContent(ciaset)) != 0)
return result;
}
else if(usrset->common.workingFileType == infile_srl){
if((result = GetSettingsFromSrl(ciaset)) != 0)
return result;
}
else if(usrset->common.workingFileType == infile_ncsd){
if((result = GetSettingsFromCci(ciaset)) != 0)
return result;
}
GetContentHashes(ciaset);
if(ciaset->content.encryptCia)
EncryptContent(ciaset);
return 0;
}
int GetSettingsFromUsrset(cia_settings *ciaset, user_settings *usrset)
{
// General Stuff
ciaset->keys = &usrset->common.keys;
ciaset->rsf = &usrset->common.rsfSet;
ciaset->ciaSections.content.buffer = usrset->common.workingFile.buffer;
ciaset->ciaSections.content.size = usrset->common.workingFile.size;
usrset->common.workingFile.buffer = NULL;
usrset->common.workingFile.size = 0;
ciaset->content.includeUpdateNcch = usrset->cia.includeUpdateNcch;
ciaset->verbose = usrset->common.verbose;
ciaset->tmd.titleType = TYPE_CTR;
ciaset->content.encryptCia = usrset->common.rsfSet.Option.EnableCrypt;
ciaset->content.IsDlc = usrset->cia.DlcContent;
if(ciaset->keys->aes.commonKey[ciaset->keys->aes.currentCommonKey] == NULL && ciaset->content.encryptCia){
fprintf(stderr,"[CIA WARNING] Common Key could not be loaded, CIA will not be encrypted\n");
ciaset->content.encryptCia = false;
}
ciaset->cert.caCrlVersion = 0;
ciaset->cert.signerCrlVersion = 0;
ciaset->common.useCxiRemasterVersion = !usrset->cia.useFullTitleVer;
for(int i = 0; i < 3; i++){
ciaset->common.titleVersion[i] = usrset->cia.titleVersion[i];
}
// Ticket Data
ciaset->tik.ticketId = 0x0004000000000000 | (u64GetRand() & 0x0000FFFFFFFFFFFF);
ciaset->tik.deviceId = usrset->cia.deviceId;
ciaset->tik.eshopAccId = usrset->cia.eshopAccId;
ciaset->tik.licenceType = lic_Permanent;
ciaset->tik.audit = 0;
if(usrset->cia.randomTitleKey)
rndset(ciaset->common.titleKey,AES_128_KEY_SIZE);
else
clrmem(ciaset->common.titleKey,AES_128_KEY_SIZE);
if(ciaset->verbose)
memdump(stdout,"[CIA] CIA title key: ",ciaset->common.titleKey,AES_128_KEY_SIZE);
ciaset->tik.formatVersion = 1;
GenCertChildIssuer(ciaset->tik.issuer,ciaset->keys->certs.xsCert);
// Tmd Stuff
if(usrset->cia.contentId[0] > MAX_U32)
ciaset->content.id[0] = u32GetRand();
else
ciaset->content.id[0] = usrset->cia.contentId[0];
ciaset->tmd.formatVersion = 1;
ciaset->tmd.accessRights = 0;
GenCertChildIssuer(ciaset->tmd.issuer,ciaset->keys->certs.cpCert);
return 0;
}
int GetSettingsFromNcch0(cia_settings *ciaset, u32 ncch0_offset)
{
/* Sanity Checks */
if(!ciaset->ciaSections.content.buffer)
return CIA_NO_NCCH0;
u8 *ncch0 = (u8*)(ciaset->ciaSections.content.buffer+ncch0_offset);
if(!IsNcch(NULL,ncch0)){
fprintf(stderr,"[CIA ERROR] Content0 is not NCCH\n");
return CIA_INVALID_NCCH0;
}
/* Get Ncch0 Header */
ncch_hdr *hdr = (ncch_hdr*)ncch0;
ciaset->content.IsCfa = IsCfa(hdr);
ciaset->content.offset[0] = 0;
ciaset->content.size[0] = align(GetNcchSize(hdr),0x10);
ciaset->content.totalSize = ciaset->content.size[0];
/* Get Ncch0 Import Context */
ncch_info *info = calloc(1,sizeof(ncch_info));
if(!info){
fprintf(stderr,"[CIA ERROR] Not enough memory\n");
return MEM_ERROR;
}
GetNcchInfo(info,hdr);
/* Verify Ncch0 (Sig&Hash Checks) */
ciaset->content.keyFound = true;
int result = VerifyNcch(ncch0, ciaset->keys, false, ciaset->verbose == false);
if(result == UNABLE_TO_LOAD_NCCH_KEY){
ciaset->content.keyFound = false;
ciaset->common.useCxiRemasterVersion = false;
if(!ciaset->content.IsCfa){
fprintf(stderr,"[CIA WARNING] CXI AES Key could not be loaded\n");
fprintf(stderr," Meta Region, SaveDataSize, Remaster Version cannot be obtained\n");
}
}
else if(result != 0){
fprintf(stderr,"[CIA ERROR] Content 0 Is Corrupt (res = %d)\n",result);
return CIA_INVALID_NCCH0;
}
/* Gen Settings From Ncch0 */
ciaset->common.titleId = u8_to_u64(hdr->titleId,LE);
/* Getting NCCH key */
u8 *ncchkey = NULL;
if(ciaset->content.keyFound && IsNcchEncrypted(hdr)){
SetNcchKeys(ciaset->keys,hdr);
ncchkey = ciaset->keys->aes.ncchKey0;
if(ciaset->verbose){
printf("[CIA] NCCH AES keys:\n");
memdump(stdout," > key0: ",ciaset->keys->aes.ncchKey0,AES_128_KEY_SIZE);
memdump(stdout," > key1: ",ciaset->keys->aes.ncchKey1,AES_128_KEY_SIZE);
}
}
/* Get TMD Data from NCCH */
result = GetTmdDataFromNcch(ciaset,ncch0,info,ncchkey);
if(result) goto finish;
/* Get Meta Region from NCCH */
result = GetMetaRegion(ciaset,ncch0,info,ncchkey);
/* Finish */
finish:
/* Return */
free(info);
return result;
}
int GetTmdDataFromNcch(cia_settings *ciaset, u8 *ncch, ncch_info *ncch_ctx, u8 *key)
{
int result = 0;
extended_hdr *exhdr = NULL;
if(!ciaset->content.IsCfa && ciaset->content.keyFound){
exhdr = malloc(sizeof(extended_hdr));
memcpy(exhdr,ncch+ncch_ctx->exhdrOffset,sizeof(extended_hdr));
if(key != NULL)
CryptNcchRegion((u8*)exhdr,sizeof(extended_hdr),0,ncch_ctx->titleId,key,ncch_exhdr);
}
// If this title is a Patch or a CFA SaveData size cannot be set in TMD
if( IsPatch(GetTidCategory(ciaset->common.titleId)) || ciaset->content.IsCfa )
ciaset->tmd.savedataSize = 0;
// Otherwise read Savedata size from exheader, but only first word of savesize is read
else if(ciaset->content.keyFound)
ciaset->tmd.savedataSize = (u32)(GetSaveDataSize_frm_exhdr(exhdr) & MAX_U32);
// if it's a title which can have save data, but save data size could not be read from exhdr
else if(ciaset->rsf->SystemControlInfo.SaveDataSize){
u64 size = 0;
GetSaveDataSizeFromString(&size,ciaset->rsf->SystemControlInfo.SaveDataSize,"CIA");
ciaset->tmd.savedataSize = (u32)(size & MAX_U32);
}
// the user has neglected to provide any means of determining the savedata size
else
ciaset->tmd.savedataSize = 0;
// Process title version
// If this is a CXI, and we have to pull version major from exheader...
if(!ciaset->content.IsCfa && ciaset->common.useCxiRemasterVersion){
// Setting remaster ver
ciaset->common.titleVersion[VER_MAJOR] = GetRemasterVersion_frm_exhdr(exhdr);
}
// Calculate u16 title version
ciaset->tmd.version = ciaset->tik.version = SetupVersion(ciaset->common.titleVersion[VER_MAJOR],ciaset->common.titleVersion[VER_MINOR],ciaset->common.titleVersion[VER_MICRO]);
free(exhdr);
return result;
}
int GetMetaRegion(cia_settings *ciaset, u8 *ncch, ncch_info *info, u8 *key)
{
extended_hdr *exhdr;
exefs_hdr *exefsHdr;
cia_metadata *hdr;
u32 icon_size, icon_offset;
// Do not proceed if this is a CFA or can't be decrypted
if(ciaset->content.IsCfa || !ciaset->content.keyFound)
return 0;
// Obtain (&decrypt) exheader
exhdr = malloc(sizeof(extended_hdr));
memcpy(exhdr,ncch+info->exhdrOffset,sizeof(extended_hdr));
if(key != NULL)
CryptNcchRegion((u8*)exhdr,sizeof(extended_hdr),0,info->titleId,key,ncch_exhdr);
// Obtain (&decrypt) exefs header
exefsHdr = malloc(sizeof(exefs_hdr));
memcpy(exefsHdr,ncch+info->exefsOffset,sizeof(exefs_hdr));
if(key != NULL)
CryptNcchRegion((u8*)exefsHdr,sizeof(exefs_hdr),0,info->titleId,key,ncch_exefs);
// Only continue if icon exists
if(!DoesExeFsSectionExist("icon",(u8*)exefsHdr))
goto cleanup;
icon_size = GetExeFsSectionSize("icon",(u8*)exefsHdr);
icon_offset = GetExeFsSectionOffset("icon",(u8*)exefsHdr);
// Allocating memory for Meta region
ciaset->ciaSections.meta.size = sizeof(cia_metadata) + icon_size;
ciaset->ciaSections.meta.buffer = calloc(1,ciaset->ciaSections.meta.size);
if(!ciaset->ciaSections.meta.buffer){
fprintf(stderr,"[CIA ERROR] Not enough memory\n");
return MEM_ERROR;
}
// Writing Dependency List & Core Version to Meta region
hdr = (cia_metadata*)ciaset->ciaSections.meta.buffer;
GetDependencyList_frm_exhdr(hdr->dependencyList,exhdr);
GetCoreVersion_frm_exhdr(hdr->coreVersion,exhdr);
// Writing Icon data to Meta region
u8 *iconPos = (ciaset->ciaSections.meta.buffer + sizeof(cia_metadata));
memcpy(iconPos,ncch+info->exefsOffset+icon_offset,icon_size);
if(key != NULL)
CryptNcchRegion(iconPos,icon_size,icon_offset,info->titleId,key,ncch_exefs);
cleanup:
free(exefsHdr);
free(exhdr);
return 0;
}
int GetContentFilePtrs(cia_settings *ciaset, user_settings *usrset)
{
ciaset->content.filePtrs = malloc(sizeof(FILE*)*CIA_MAX_CONTENT);
if(!ciaset->content.filePtrs){
fprintf(stderr,"[CIA ERROR] Not enough memory\n");
return MEM_ERROR;
}
memset(ciaset->content.filePtrs,0,sizeof(FILE*)*CIA_MAX_CONTENT);
int j = 1;
ncch_hdr *hdr = malloc(sizeof(ncch_hdr));
for(int i = 1; i < CIA_MAX_CONTENT; i++){
if(usrset->common.contentPath[i]){
if(!AssertFile(usrset->common.contentPath[i])){
fprintf(stderr,"[CIA ERROR] Failed to open \"%s\"\n",usrset->common.contentPath[i]);
return FAILED_TO_OPEN_FILE;
}
ciaset->content.fileSize[j] = GetFileSize64(usrset->common.contentPath[i]);
ciaset->content.filePtrs[j] = fopen(usrset->common.contentPath[i],"rb");
if(usrset->cia.contentId[i] > MAX_U32)
ciaset->content.id[j] = u32GetRand();
else
ciaset->content.id[j] = (u32)usrset->cia.contentId[i];
ciaset->content.index[j] = (u16)i;
// Get Data from ncch HDR
ReadNcchHdr(hdr,ciaset->content.filePtrs[j]);
// Get Size
u64 calcSize = GetNcchSize(hdr);
if(calcSize != ciaset->content.fileSize[j]){
fprintf(stderr,"[CIA ERROR] \"%s\" is corrupt\n",usrset->common.contentPath[i]);
return FAILED_TO_OPEN_FILE;
}
ciaset->content.size[j] = align(calcSize,CIA_CONTENT_ALIGN);
ciaset->content.offset[j] = ciaset->content.totalSize;
ciaset->content.totalSize += ciaset->content.size[j];
// Finish get next content
j++;
}
}
free(hdr);
ciaset->content.count = j;
// Check Conflicting IDs
for(int i = 0; i < ciaset->content.count; i++){
for(j = i+1; j < ciaset->content.count; j++){
if(ciaset->content.id[j] == ciaset->content.id[i]){
fprintf(stderr,"[CIA ERROR] CIA Content %d and %d, have conflicting IDs\n",ciaset->content.index[j],ciaset->content.index[i]);
return CIA_CONFILCTING_CONTENT_IDS;
}
}
}
return 0;
}
int ImportNcchContent(cia_settings *ciaset)
{
ciaset->ciaSections.content.buffer = realloc(ciaset->ciaSections.content.buffer,ciaset->content.totalSize);
if(!ciaset->ciaSections.content.buffer){
fprintf(stderr,"[CIA ERROR] Not enough memory\n");
return MEM_ERROR;
}
ncch_hdr *ncch0hdr = (ncch_hdr*)ciaset->ciaSections.content.buffer;
for(int i = 1; i < ciaset->content.count; i++){
// Import
u8 *ncchpos = (u8*)(ciaset->ciaSections.content.buffer+ciaset->content.offset[i]);
ReadFile64(ncchpos, ciaset->content.fileSize[i], 0, ciaset->content.filePtrs[i]);
if(ModifyNcchIds(ncchpos, NULL, ncch0hdr->programId, ciaset->keys) != 0)
return -1;
// Set Additional Flags
if(ciaset->content.IsDlc)
ciaset->content.flags[i] |= content_Optional;
//if(unknown condition)
// ciaset->content.flags[i] |= content_Shared;
}
ciaset->ciaSections.content.size = ciaset->content.totalSize;
return 0;
}
int GetSettingsFromSrl(cia_settings *ciaset)
{
srl_hdr *hdr = (srl_hdr*)ciaset->ciaSections.content.buffer;
if(!hdr || ciaset->ciaSections.content.size < sizeof(srl_hdr)) {
fprintf(stderr,"[CIA ERROR] Invalid TWL SRL File\n");
return FAILED_TO_IMPORT_FILE;
}
// Check if TWL SRL File
if(u8_to_u16(&hdr->title_id[6],LE) != 0x0003){
fprintf(stderr,"[CIA ERROR] Invalid TWL SRL File\n");
return FAILED_TO_IMPORT_FILE;
}
// Generate and store Converted TitleID
ciaset->common.titleId = ConvertTwlIdToCtrId(u8_to_u64(hdr->title_id,LE));
// Get TWL Flag
ciaset->tmd.twlFlag = ((hdr->reserved_flags[3] & 6) >> 1);
// Get Remaster Version
u16 version = SetupVersion(hdr->romVersion,ciaset->common.titleVersion[1],0);
ciaset->tik.version = version;
ciaset->tmd.version = version;
// Get SaveDataSize (Public and Private)
ciaset->tmd.savedataSize = u8_to_u32(hdr->pubSaveDataSize,LE);
ciaset->tmd.privSavedataSize = u8_to_u32(hdr->privSaveDataSize,LE);
// Setting CIA Content Settings
ciaset->content.count = 1;
ciaset->content.offset[0] = 0;
ciaset->content.size[0] = ciaset->ciaSections.content.size;
ciaset->content.totalSize = ciaset->ciaSections.content.size;
return 0;
}
int GetSettingsFromCci(cia_settings *ciaset)
{
int result = 0;
if(!IsCci(ciaset->ciaSections.content.buffer)){
fprintf(stderr,"[CIA ERROR] Invalid CCI file\n");
return FAILED_TO_IMPORT_FILE;
}
u32 ncch0_offset = GetPartitionOffset(ciaset->ciaSections.content.buffer,0);
if(!ncch0_offset){
fprintf(stderr,"[CIA ERROR] Invalid CCI file (invalid ncch0)\n");
return FAILED_TO_IMPORT_FILE;
}
result = GetSettingsFromNcch0(ciaset, ncch0_offset);
if(result){
fprintf(stderr,"Import of Ncch 0 failed(%d)\n",result);
return result;
}
int j = 1;
u64 cciContentOffsets[CCI_MAX_CONTENT];
cciContentOffsets[0] = ncch0_offset;
for(int i = 1; i < 8; i++){
if(GetPartitionSize(ciaset->ciaSections.content.buffer,i)){
ncch_hdr *ncchHdr = (ncch_hdr*)GetPartition(ciaset->ciaSections.content.buffer, i);
if(IsUpdateCfa(ncchHdr) && !ciaset->content.includeUpdateNcch)
continue;
cciContentOffsets[j] = GetPartitionOffset(ciaset->ciaSections.content.buffer,i);
// Get Size
ciaset->content.size[j] = GetPartitionSize(ciaset->ciaSections.content.buffer,i);
ciaset->content.offset[j] = ciaset->content.totalSize;
ciaset->content.totalSize += ciaset->content.size[j];
// Get ID
ciaset->content.id[j] = u32GetRand();
// Get Index
ciaset->content.index[j] = i;
// Increment Content Count
j++;
}
}
ciaset->content.count = j;
for(int i = 0; i < ciaset->content.count; i++){ // Re-organising content positions in memory
u8 *cci_pos = (ciaset->ciaSections.content.buffer + cciContentOffsets[i]);
u8 *cia_pos = (ciaset->ciaSections.content.buffer + ciaset->content.offset[i]);
memcpy(cia_pos,cci_pos,ciaset->content.size[i]);
}
ciaset->ciaSections.content.size = ciaset->content.totalSize;
return 0;
}
u16 SetupVersion(u16 major, u16 minor, u16 micro)
{
return (((major << 10) & 0xFC00) | ((minor << 4) & 0x3F0) | (micro & 0xf));
}
void GetContentHashes(cia_settings *ciaset)
{
for (int i = 0; i < ciaset->content.count; i++) {
if (ciaset->verbose)
printf("[CIA] Hashing content %d... ", i);
ShaCalc(ciaset->ciaSections.content.buffer + ciaset->content.offset[i], ciaset->content.size[i], ciaset->content.hash[i], CTR_SHA_256);
if (ciaset->verbose)
printf("Done!\n");
}
}
void EncryptContent(cia_settings *ciaset)
{
for(int i = 0; i < ciaset->content.count; i++){
if (ciaset->verbose)
printf("[CIA] Encrypting content %d... ", i);
ciaset->content.flags[i] |= content_Encrypted;
u8 *content = ciaset->ciaSections.content.buffer+ciaset->content.offset[i];
CryptContent(content, content, ciaset->content.size[i], ciaset->common.titleKey, i, ENC);
if (ciaset->verbose)
printf("Done!\n");
}
}
int BuildCiaCertChain(cia_settings *ciaset)
{
ciaset->ciaSections.certChain.size = GetCertSize(ciaset->keys->certs.caCert) + GetCertSize(ciaset->keys->certs.xsCert) + GetCertSize(ciaset->keys->certs.cpCert);
ciaset->ciaSections.certChain.buffer = malloc(ciaset->ciaSections.certChain.size);
if(!ciaset->ciaSections.certChain.buffer) {
fprintf(stderr,"[CIA ERROR] Not enough memory\n");
return MEM_ERROR;
}
memcpy(ciaset->ciaSections.certChain.buffer,ciaset->keys->certs.caCert,GetCertSize(ciaset->keys->certs.caCert));
memcpy((ciaset->ciaSections.certChain.buffer+GetCertSize(ciaset->keys->certs.caCert)),ciaset->keys->certs.xsCert,GetCertSize(ciaset->keys->certs.xsCert));
memcpy((ciaset->ciaSections.certChain.buffer+GetCertSize(ciaset->keys->certs.caCert)+GetCertSize(ciaset->keys->certs.xsCert)),ciaset->keys->certs.cpCert,GetCertSize(ciaset->keys->certs.cpCert));
return 0;
}
int BuildCiaHdr(cia_settings *ciaset)
{
// Allocating memory for header
ciaset->ciaSections.ciaHdr.size = sizeof(cia_hdr);
ciaset->ciaSections.ciaHdr.buffer = malloc(ciaset->ciaSections.ciaHdr.size);
if(!ciaset->ciaSections.ciaHdr.buffer){
fprintf(stderr,"[CIA ERROR] Not enough memory\n");
return MEM_ERROR;
}
cia_hdr *hdr = (cia_hdr*)ciaset->ciaSections.ciaHdr.buffer;
// Clearing
memset(hdr,0,sizeof(cia_hdr));
// Setting Data
u32_to_u8(hdr->hdrSize,sizeof(cia_hdr),LE);
u16_to_u8(hdr->type,0x0,LE);
u16_to_u8(hdr->version,0x0,LE);
u32_to_u8(hdr->certChainSize,ciaset->ciaSections.certChain.size,LE);
u32_to_u8(hdr->tikSize,ciaset->ciaSections.tik.size,LE);
u32_to_u8(hdr->tmdSize,ciaset->ciaSections.tmd.size,LE);
u32_to_u8(hdr->metaSize,ciaset->ciaSections.meta.size,LE);
u64_to_u8(hdr->contentSize,ciaset->content.totalSize,LE);
// Recording Offsets
ciaset->ciaSections.certChainOffset = align(sizeof(cia_hdr),0x40);
ciaset->ciaSections.tikOffset = align(ciaset->ciaSections.certChainOffset+ciaset->ciaSections.certChain.size,0x40);
ciaset->ciaSections.tmdOffset = align(ciaset->ciaSections.tikOffset+ciaset->ciaSections.tik.size,0x40);
ciaset->ciaSections.contentOffset = align(ciaset->ciaSections.tmdOffset+ciaset->ciaSections.tmd.size,0x40);
ciaset->ciaSections.metaOffset = align(ciaset->ciaSections.contentOffset+ciaset->content.totalSize,0x40);
for(int i = 0; i < ciaset->content.count; i++)
hdr->contentIndex[ciaset->content.index[i]/8] |= 0x80 >> (ciaset->content.index[i] & 7);
return 0;
}
int WriteCiaToFile(cia_settings *ciaset)
{
if (ciaset->verbose) {
printf("[CIA] Writing to file... ");
}
WriteBuffer(ciaset->ciaSections.ciaHdr.buffer,ciaset->ciaSections.ciaHdr.size,0,ciaset->out);
WriteBuffer(ciaset->ciaSections.certChain.buffer,ciaset->ciaSections.certChain.size,ciaset->ciaSections.certChainOffset,ciaset->out);
WriteBuffer(ciaset->ciaSections.tik.buffer,ciaset->ciaSections.tik.size,ciaset->ciaSections.tikOffset,ciaset->out);
WriteBuffer(ciaset->ciaSections.tmd.buffer,ciaset->ciaSections.tmd.size,ciaset->ciaSections.tmdOffset,ciaset->out);
WriteBuffer(ciaset->ciaSections.content.buffer,ciaset->ciaSections.content.size,ciaset->ciaSections.contentOffset,ciaset->out);
WriteBuffer(ciaset->ciaSections.meta.buffer,ciaset->ciaSections.meta.size,ciaset->ciaSections.metaOffset,ciaset->out);
if (ciaset->verbose) {
printf("Done!\n");
}
return 0;
}
int CryptContent(u8 *input, u8 *output, u64 size, u8 *title_key, u16 index, u8 mode)
{
//generating IV
u8 iv[16];
clrmem(&iv,16);
iv[0] = (index >> 8) & 0xff;
iv[1] = index & 0xff;
//Crypting content
AesCbcCrypt(title_key,iv,input,output,size,mode);
return 0;
}
bool IsCia(u8 *cia)
{
if(!cia)
return false;
cia_hdr *hdr = (cia_hdr*)cia;
if(u8_to_u32(hdr->hdrSize,LE) != sizeof(cia_hdr) || u8_to_u16(hdr->type,LE) != 0 || u8_to_u16(hdr->version,LE) != 0)
return false;
if(!GetCiaCertSize(hdr) || !GetCiaTikSize(hdr) || !GetCiaTmdSize(hdr) || !GetCiaContentSize(hdr))
return false;
return true;
}
u64 GetCiaCertOffset(cia_hdr *hdr)
{
u64 hdrSize = u8_to_u32(hdr->hdrSize,LE);
return align(hdrSize,CIA_ALIGN_SIZE);
}
u64 GetCiaCertSize(cia_hdr *hdr)
{
return u8_to_u32(hdr->certChainSize,LE);
}
u64 GetCiaTikOffset(cia_hdr *hdr)
{
u64 certOffset = GetCiaCertOffset(hdr);
u64 certSize = GetCiaCertSize(hdr);
return align(certOffset + certSize,CIA_ALIGN_SIZE);
}
u64 GetCiaTikSize(cia_hdr *hdr)
{
return u8_to_u32(hdr->tikSize,LE);
}
u64 GetCiaTmdOffset(cia_hdr *hdr)
{
u64 tikOffset = GetCiaTikOffset(hdr);
u64 tikSize = GetCiaTikSize(hdr);
return align(tikOffset + tikSize,CIA_ALIGN_SIZE);
}
u64 GetCiaTmdSize(cia_hdr *hdr)
{
return u8_to_u32(hdr->tmdSize,LE);
}
u64 GetCiaContentOffset(cia_hdr *hdr)
{
u64 tmdOffset = GetCiaTmdOffset(hdr);
u64 tmdSize = GetCiaTmdSize(hdr);
return align(tmdOffset + tmdSize,CIA_ALIGN_SIZE);
}
u64 GetCiaContentSize(cia_hdr *hdr)
{
return u8_to_u64(hdr->contentSize,LE);
}
u64 GetCiaMetaOffset(cia_hdr *hdr)
{
u64 contentOffset = GetCiaContentOffset(hdr);
u64 contentSize = GetCiaContentSize(hdr);
return align(contentOffset + contentSize,CIA_ALIGN_SIZE);
}
u64 GetCiaMetaSize(cia_hdr *hdr)
{
return u8_to_u32(hdr->metaSize,LE);
}
u8* GetCiaCert(u8 *cia)
{
return cia + GetCiaCertOffset((cia_hdr*)cia);
}
u8* GetCiaTik(u8 *cia)
{
return cia + GetCiaTikOffset((cia_hdr*)cia);
}
u8* GetCiaTmd(u8 *cia)
{
return cia + GetCiaTmdOffset((cia_hdr*)cia);
}
u8* GetCiaContent(u8 *cia)
{
return cia + GetCiaContentOffset((cia_hdr*)cia);
}
u8* GetCiaMeta(u8 *cia)
{
if(GetCiaMetaSize((cia_hdr*)cia))
return cia + GetCiaMetaOffset((cia_hdr*)cia);
else
return NULL;
}