magic = struct.unpack(">I", dec_header[0:4])[0] if magic == 0x27051956: print("Decryption successful") with open("dec_header.bin", "wb") as out: out.write(dec_header) The encrypted HiLink UImage header is a modest but effective speed bump against casual analysis. For a determined reverse engineer, it adds a few hours of work—identifying the key source, decrypting, and repacking. However, modern per-device keys and additional signature checks make widespread third-party firmware creation impractical.
with open("firmware.bin", "rb") as f: enc_header = f.read(4096) encrypted hilink uimage firmware header
cipher = AES.new(key, AES.MODE_CBC, iv) dec_header = cipher.decrypt(enc_header) magic = struct
| Offset | Size | Field | Example Value | |--------|------|---------------|-------------------| | 0x00 | 4 | ih_magic | 0x27051956 | | 0x04 | 4 | ih_hcrc | Checksum | | 0x08 | 4 | ih_time | Timestamp | | 0x0C | 4 | ih_size | Data size | | 0x10 | 4 | ih_load | Load address | | 0x14 | 4 | ih_ep | Entry point | | 0x18 | 4 | ih_dcrc | Data checksum | | 0x1C | 1 | ih_os | OS type | | 0x1D | 1 | ih_arch | Architecture | | 0x1E | 1 | ih_type | Image type | | 0x1F | 1 | ih_comp | Compression | | 0x20 | 16 | ih_name | Image name | with open("firmware
strings u-boot.bin | grep -i "aes" Look for key arrays in rodata section.
If you’ve ever run binwalk on a HiLink firmware update (e.g., from an E3372, B310, or AR series router) and seen only high entropy data with no recognizable UImage magic ( 0x27051956 ), you’ve likely encountered this encrypted header.
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