54 lines
1.7 KiB
Python
54 lines
1.7 KiB
Python
import sys
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import struct
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import hashlib
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# This region at the start of flash contains a small header and then segments
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# containing .text, .data and .rodata, and so must be large enough to hold all
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# of this. This data is loaded to the appropriate places in RAM by the ROM
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# bootloader at boot. After this in flash comes .irom0.text, which must begin
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# on a flash erase-page boundary.
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SEGS_MAX_SIZE = 0x9000
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assert len(sys.argv) == 4
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md5 = hashlib.md5()
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with open(sys.argv[3], "wb") as fout:
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with open(sys.argv[1], "rb") as f:
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data_flash = f.read()
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fout.write(data_flash)
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# First 4 bytes include flash size, etc. which may be changed
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# by esptool.py, etc.
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md5.update(data_flash[4:])
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print("flash ", len(data_flash))
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# Print info about segments in this first part of flash
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num_segs = struct.unpack_from("<BBBBI", data_flash, 0)[1]
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offset = 8
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for seg_num in range(num_segs):
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seg_name = [".text", ".data", ".rodata"][seg_num]
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seg_offset, seg_size = struct.unpack_from("<II", data_flash, offset)
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print(" {:7} {} at 0x{:x}".format(seg_name, seg_size, seg_offset))
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offset += 8 + seg_size
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with open(sys.argv[2], "rb") as f:
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data_rom = f.read()
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pad = b"\xff" * (SEGS_MAX_SIZE - len(data_flash))
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assert len(pad) >= 4
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fout.write(pad[:-4])
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md5.update(pad[:-4])
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len_data = struct.pack("I", SEGS_MAX_SIZE + len(data_rom))
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fout.write(len_data)
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md5.update(len_data)
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print("padding ", len(pad))
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fout.write(data_rom)
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md5.update(data_rom)
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print("irom0text", len(data_rom))
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fout.write(md5.digest())
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print("total ", SEGS_MAX_SIZE + len(data_rom))
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print("md5 ", md5.hexdigest())
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