def gen_xci_parts_spec1(filepath=None,remote=None,target_cnmt=None,cachefolder=None,keypatch=False,files_list=None):
if filepath=="":
filepath=None
if remote=="":
remote=None
if remote==None:
test=filepath.split('|');TD=None
if len(test)<2:
filepath=test[0]
lib,TD,libpath=get_library_from_path(remote_lib_file,filepath)
else:
filepath=test[0]
TD=test[1]
if str(TD).upper()=="NONE":
TD=None
ID,name,type,size,md5,remote=DrivePrivate.get_Data(filepath,TD=TD,Print=False)
if keypatch!=False:
try:
keypatch=int(keypatch)
except: keypatch=False
if cachefolder==None:
cachefolder=os.path.join(ztools_dir, '_mtp_cache_')
if not os.path.exists(cachefolder):
os.makedirs(cachefolder)
else:
for f in os.listdir(cachefolder):
fp = os.path.join(cachefolder, f)
try:
shutil.rmtree(fp)
except OSError:
os.remove(fp)
if files_list==None:
files_list=DriveTools.get_files_from_head(remote,remote.name)
files=list();filesizes=list()
fplist=list()
for k in range(len(files_list)):
entry=files_list[k]
fplist.append(entry[0])
if target_cnmt==None:
for i in range(len(files_list)):
entry=files_list[i]
cnmtfile=entry[0]
if cnmtfile.endswith('.cnmt.nca'):
target_cnmt=cnmtfile
break
for i in range(len(files_list)):
entry=files_list[i]
cnmtfile=entry[0]
if cnmtfile.endswith('.cnmt.nca') and target_cnmt==cnmtfile:
metadict,d1,d2=DriveTools.get_cnmt_data(target=cnmtfile,file=remote)
ncadata=metadict['ncadata']
for j in range(len(ncadata)):
row=ncadata[j]
if row['NCAtype']!='Meta' and row['NCAtype']!='Program':
test1=str(row['NcaId'])+'.nca';test2=str(row['NcaId'])+'.ncz'
if test1 in fplist:
files.append(str(row['NcaId'])+'.nca')
filesizes.append(int(row['Size']))
elif test2 in fplist:
files.append(str(row['NcaId'])+'.ncz')
for k in range(len(files_list)):
entry=files_list[k]
if entry[0]==test2:
filesizes.append(int(entry[3]))
break
for j in range(len(ncadata)):
row=ncadata[j]
if row['NCAtype']=='Meta':
# print(str(row['NcaId'])+'.cnmt.nca')
files.append(str(row['NcaId'])+'.cnmt.nca')
filesizes.append(int(row['Size']))
for j in range(len(ncadata)):
row=ncadata[j]
# print(row)
if row['NCAtype']=='Program':
test1=str(row['NcaId'])+'.nca';test2=str(row['NcaId'])+'.ncz'
if test1 in fplist:
files.append(str(row['NcaId'])+'.nca')
filesizes.append(int(row['Size']))
elif test2 in fplist:
files.append(str(row['NcaId'])+'.ncz')
for k in range(len(files_list)):
entry=files_list[k]
if entry[0]==test2:
filesizes.append(int(entry[3]))
break
break
remote.rewind()
outheader = sq_tools.gen_nsp_header(files,filesizes)
properheadsize=len(outheader)
# print(properheadsize)
# print(bucketsize)
i=0;sum=properheadsize;
outfile=os.path.join(cachefolder, "0")
outf = open(outfile, 'w+b')
outf.write(outheader)
written=0
for fi in files:
if fi.endswith('nca') or fi.endswith('ncz') :
for i in range(len(files_list)):
if str(files_list[i][0]).lower() == str(fi).lower():
nca_name=files_list[i][0]
off1=files_list[i][1]
off2=files_list[i][2]
nca_size=files_list[i][3]
break
data=remote.read_at(off1,nca_size)
ncaHeader = NcaHeader()
ncaHeader.open(MemoryFile(remote.read_at(off1,0x400), FsType.Crypto.XTS, uhx(Keys.get('header_key'))))
crypto1=ncaHeader.getCryptoType()
crypto2=ncaHeader.getCryptoType2()
if crypto2>crypto1:
masterKeyRev=crypto2
if crypto2<=crypto1:
masterKeyRev=crypto1
crypto = aes128.AESECB(Keys.keyAreaKey(Keys.getMasterKeyIndex(masterKeyRev), ncaHeader.keyIndex))
hcrypto = aes128.AESXTS(uhx(Keys.get('header_key')))
gc_flag='00'*0x01
crypto1=ncaHeader.getCryptoType()
crypto2=ncaHeader.getCryptoType2()
if ncaHeader.getRightsId() != 0:
ncaHeader.rewind()
if crypto2>crypto1:
masterKeyRev=crypto2
if crypto2<=crypto1:
masterKeyRev=crypto1
titleKeyDec = Keys.decryptTitleKey(titleKey, Keys.getMasterKeyIndex(int(masterKeyRev)))
encKeyBlock = crypto.encrypt(titleKeyDec * 4)
if str(keypatch) != "False":
t = tqdm(total=False, unit='B', unit_scale=False, leave=False)
if keypatch < ncaHeader.getCryptoType2():
encKeyBlock,crypto1,crypto2=get_new_cryptoblock(ncaHeader,keypatch,encKeyBlock,t)
t.close()
if ncaHeader.getRightsId() == 0:
ncaHeader.rewind()
encKeyBlock = ncaHeader.getKeyBlock()
if str(keypatch) != "False":
t = tqdm(total=False, unit='B', unit_scale=False, leave=False)
if keypatch < ncaHeader.getCryptoType2():
encKeyBlock,crypto1,crypto2=get_new_cryptoblock(ncaHeader,keypatch,encKeyBlock,t)
t.close()
ncaHeader.rewind()
i=0
newheader=get_newheader(MemoryFile(remote.read_at(off1,0xC00)),encKeyBlock,crypto1,crypto2,hcrypto,gc_flag)
outf.write(newheader)
written+=len(newheader)
break
else:pass
outf.flush()
outf.close()
tfile=os.path.join(cachefolder, "remote_files.csv")
with open(tfile,'w') as csvfile:
csvfile.write("{}|{}|{}|{}|{}|{}|{}\n".format("step","filepath","size","targetsize","off1","off2","token"))
csvfile.write("{}|{}|{}|{}|{}|{}|{}\n".format(0,outfile,properheadsize+written,properheadsize,0,properheadsize,"False"))
k=0;l=0
for fi in files:
for j in files_list:
if j[0]==fi:
csvfile.write("{}|{}|{}|{}|{}|{}|{}\n".format(k+1,outfile,properheadsize+written,0xC00,(properheadsize+l*0xC00),(properheadsize+(l*0xC00)+0xC00),"False"))
off1=j[1]+0xC00
off2=j[2]
targetsize=j[3]-0xC00
URL='https://www.googleapis.com/drive/v3/files/'+remote.ID+'?alt=media'
token=remote.access_token
csvfile.write("{}|{}|{}|{}|{}|{}|{}\n".format(k+2,URL,remote.size,targetsize,off1,off2,token))
break
k+=2;l+=1
nspname="test.nsp"
try:
g=remote.name
g0=[pos for pos, char in enumerate(g) if char == '[']
g0=(g[0:g0[0]]).strip()
titleid=metadict['titleid']
titleversion=metadict['version']
ctype=metadict['ctype']
nspname=f"{g0} [{titleid}] [v{titleversion}] [{ctype}].nsp"
except:pass
return nspname
def read_buildid(path=None,
TD=None,
filter=None,
file=None,
cnmtdict=None,
files_list=None,
dectkey=None):
ModuleId = ''
BuildID8 = ''
BuildID16 = ''
iscorrect = False
sdkversion = '-'
sectionFilesystems = []
if file != None and cnmtdict != None and files_list != None:
remote = file
else:
cnmtdict, files_list, remote = get_cnmt_data(path, TD, filter)
ctype = cnmtdict['ctype']
if ctype != 'DLC':
ncadata = cnmtdict['ncadata']
for entry in ncadata:
if str(entry['NCAtype']).lower() == 'program':
ncaname = entry['NcaId'] + '.nca'
break
for i in range(len(files_list)):
if (files_list[i][0]) == ncaname:
name = files_list[i][0]
off1 = files_list[i][1]
off2 = files_list[i][2]
sz = files_list[i][3]
break
remote.seek(off1, off2)
ncaHeader = NcaHeader()
ncaHeader.open(
MemoryFile(remote.read(0xC00), Type.Crypto.XTS,
uhx(Keys.get('header_key'))))
ncaHeader.rewind()
if ncaHeader.getRightsId() == 0:
decKey = ncaHeader.titleKeyDec
elif dectkey != None:
# print(dectkey)
decKey = bytes.fromhex(dectkey)
try:
sdkversion = get_sdkversion_from_head(ncaHeader)
except:
sdkversion = '-'
try:
ncaHeader.seek(0x400)
for i in range(4):
hdr = ncaHeader.read(0x200)
section = BaseFs(hdr, cryptoKey=ncaHeader.titleKeyDec)
fs = GetSectionFilesystem(hdr, cryptoKey=-1)
if fs.fsType:
fs.offset = ncaHeader.sectionTables[i].offset
sectionFilesystems.append(fs)
# Print.info('fs type = ' + hex(fs.fsType))
# Print.info('fs crypto = ' + hex(fs.cryptoType))
# Print.info('fs cryptocounter = ' + str(fs.cryptoCounter))
# Print.info('st end offset = ' + str(ncaHeader.sectionTables[i].endOffset - ncaHeader.sectionTables[i].offset))
# Print.info('fs offset = ' + hex(ncaHeader.sectionTables[i].offset))
# Print.info('fs section start = ' + hex(fs.sectionStart))
# Print.info('titleKey = ' + str(hx(ncaHeader.titleKeyDec)))
for fs in sectionFilesystems:
if fs.fsType == Type.Fs.PFS0 and fs.cryptoType == Type.Crypto.CTR:
# print(fs.fsType)
# print(fs.cryptoType)
# print(fs.buffer)
pfs0 = fs
sectionHeaderBlock = fs.buffer
pfs0Offset = fs.offset + fs.sectionStart
skoff = off1 + pfs0Offset
# pfs0Offset=off1+fs.offset+0xC00+ncaHeader.get_htable_offset()
remote.seek(skoff, off2)
# print(str(fs.cryptoCounter))
pfs0Header = remote.read(0x10 * 30)
# print(hex(pfs0Offset))
# print(hex(fs.sectionStart))
# Hex.dump(pfs0Header)
off = fs.offset + fs.sectionStart
mem = MemoryFile(pfs0Header,
Type.Crypto.CTR,
decKey,
pfs0.cryptoCounter,
offset=pfs0Offset)
data = mem.read()
# Hex.dump(data)
head = data[0:4]
n_files = (data[4:8])
n_files = int.from_bytes(n_files, byteorder='little')
st_size = (data[8:12])
st_size = int.from_bytes(st_size, byteorder='little')
junk = (data[12:16])
offset = (0x10 + n_files * 0x18)
stringTable = (data[offset:offset + st_size])
stringEndOffset = st_size
headerSize = 0x10 + 0x18 * n_files + st_size
# print(head)
# print(str(n_files))
# print(str(st_size))
# print(str((stringTable)))
files_list = list()
for i in range(n_files):
i = n_files - i - 1
pos = 0x10 + i * 0x18
offset = data[pos:pos + 8]
offset = int.from_bytes(offset, byteorder='little')
size = data[pos + 8:pos + 16]
size = int.from_bytes(size, byteorder='little')
nameOffset = data[pos + 16:pos + 20] # just the offset
nameOffset = int.from_bytes(nameOffset,
byteorder='little')
name = stringTable[nameOffset:stringEndOffset].decode(
'utf-8').rstrip(' \t\r\n\0')
stringEndOffset = nameOffset
# junk2 = data[pos+20:pos+24] # junk data
# print(name)
# print(offset)
# print(size)
files_list.append([name, offset, size])
files_list.reverse()
# print(files_list)
for i in range(len(files_list)):
if files_list[i][0] == 'main':
foff = files_list[i][1] + pfs0Offset + headerSize
skoff2 = files_list[i][1] + skoff + headerSize
remote.seek(skoff2, off2)
np = remote.read(0x60)
mem = MemoryFile(np,
Type.Crypto.CTR,
decKey,
pfs0.cryptoCounter,
offset=foff)
magic = mem.read(0x4)
# print(magic)
if magic == b'NSO0':
mem.seek(0x40)
data = mem.read(0x20)
ModuleId = (str(hx(data)).upper())[2:-1]
BuildID8 = (str(hx(data[:8])).upper())[2:-1]
BuildID16 = (str(hx(data[:16])).upper())[2:-1]
iscorrect = True
break
break
except:
pass
if iscorrect == False:
ModuleId = ''
BuildID8 = ''
BuildID16 = ''
# print(ModuleId);print(BuildID8);print(BuildID16)
return ModuleId, BuildID8, BuildID16, sdkversion
