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#!/usr/bin/env python3
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from dataclasses import dataclass
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from elftools.elf.elffile import ELFFile
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from elftools.elf.sections import Section, SymbolTableSection
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from typing import List, Tuple, Dict, Generator, Union
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import os, sys
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import json
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## Configuration:
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# A set of sections that we want to include in the image
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INCLUDE_THESE_SECTIONS = set((
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'.text', '.stack', '.bss', '.sdata', '.rdata', '.rodata'
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'.sbss', '.data', '.stack', '.init',
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'.fini', '.preinit_array', '.init_array',
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'.fini_array', '.rodata', '.thread_fini'
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))
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# these sections are empty, so we don't want to read the elf here
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EMPTY_SECTIONS = set((
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'.bss', '.sbss', '.stack'
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))
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# sector size of the img file in bytes
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SECTOR_SIZE = 512
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# start address
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MEM_START = 0x100
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# process control block struct name
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KERNEL_BINARY_TABLE = 'binary_table'
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# loaded_binary struct size (4 integers)
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KERNEL_BINARY_TABLE_ENTRY_SIZE = 4 * 4
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def overlaps(p1, l1, p2, l2) -> bool:
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return (p1 <= p2 and p1 + l1 > p2) or (p2 <= p1 and p2 + l2 > p1)
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class Section:
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name: str
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start: int
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size: int
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data: bytes
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def __init__(self, sec):
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self.name = sec.name
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self.start = sec.header.sh_addr
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if sec.name not in EMPTY_SECTIONS:
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self.data = sec.data()
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else:
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self.data = bytes(sec.header.sh_size)
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self.size = sec.header.sh_size
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assert self.size == len(self.data)
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def __repr__(self) -> str:
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return "Section[{}]:{}:{}\n".format(self.name, self.start, self.size)
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def __len__(self):
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return self.size
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class Bin:
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name: str
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secs: List[Section]
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symtab: Dict[str, int]
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entry: int
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start: int
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def __init__(self, name):
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self.name = name
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self.secs = list()
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with open(self.name, 'rb') as f:
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elf = ELFFile(f)
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if not elf.header.e_machine == 'EM_RISCV':
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raise Exception("Not a RISC-V elf file!")
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self.entry = elf.header.e_entry
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for sec in elf.iter_sections():
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if sec.name in INCLUDE_THESE_SECTIONS:
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self.secs.append(Section(sec) )
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if isinstance(sec, SymbolTableSection):
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self.symtab = {
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sym.name: sym.entry.st_value for sym in sec.iter_symbols() if sym.name
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}
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self.secs = sorted(self.secs, key=lambda sec: sec.start)
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self.start = self.secs[0].start
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def __iter__(self):
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for x in self.secs:
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yield x
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def size(self):
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return sum(sec.size for sec in self)
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class MemImageCreator:
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"""
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Interface for writing the img file
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"""
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data: bytes
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patches: List[Tuple[int, bytes]]
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dbg_nfo: Dict
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def __init__(self):
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self.data = b''
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self.patches = list()
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self.dbg_nfo = {
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'sections': dict(),
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'symbols': dict()
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}
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def seek(self, pos):
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if len(self.data) > pos:
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raise Exception("seeking already passed position!")
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if len(self.data) == pos:
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return
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print(f" - zeros {pos-len(self.data):8x} {len(self.data):x}:{pos:x}")
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self.put(bytes(pos - len(self.data)), '', '.empty')
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assert len(self.data) == pos
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def align(self, bound):
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if len(self.data) % bound != 0:
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self.put(bytes(bound - (len(self.data) % bound)), '', '.empty')
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assert len(self.data) % bound == 0
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def put(self, stuff: bytes, parent: str, name: str) -> int:
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pos = len(self.data)
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self.data += stuff
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self.dbg_nfo['sections'][pos] = parent + ':' + name
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return pos
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def putBin(self, bin: Bin) -> int:
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bin_start = len(self.data)
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for sec in bin:
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img_pos = bin_start + sec.start - bin.start
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self.seek(img_pos)
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print(f" - section {sec.name:<6} {img_pos:x}:{img_pos + sec.size:x}")
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self.put(sec.data, bin.name, sec.name)
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self.dbg_nfo['symbols'][bin.name] = {
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name: bin_start + val - bin.start
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for name, val in bin.symtab.items()
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if val != 0
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}
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return bin_start
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def patch(self, pos, bytes):
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for ppos, pbytes in self.patches:
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if overlaps(ppos, len(pbytes), pos, len(bytes)):
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raise Exception("cant patch same area twice!")
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self.patches.append((pos, bytes))
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def write(self, fname):
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"""
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write to a file
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"""
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pos = 0
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print(f"writing binary image to {fname}")
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with open(fname, 'wb') as f:
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for patch_start, patch_data in sorted(self.patches, key=lambda e: e[0]):
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if pos < patch_start:
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filler = patch_start - pos
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f.write(self.data[pos : pos + filler])
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print(f" - data {pos:x}:{pos+filler:x}")
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pos += filler
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assert pos == patch_start
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f.write(patch_data)
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print(f" - patch {pos:x}:{pos+len(patch_data):x}")
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pos += len(patch_data)
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if pos < len(self.data):
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print(f" - data {pos:x}:{len(self.data):x}")
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f.write(self.data[pos : len(self.data)])
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if len(self.data) % SECTOR_SIZE != 0:
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self.dbg_nfo['sections'][len(self.data)] = ':.empty'
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print(f" - zeros {len(self.data):x}:{(SECTOR_SIZE - (len(self.data) % SECTOR_SIZE))+len(self.data):x}")
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f.write(bytes(SECTOR_SIZE - (len(self.data) % SECTOR_SIZE)))
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# done!
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print(f"writing debug info to {fname}.dbg")
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with open(fname + '.dbg', 'w') as f:
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json.dump(self.dbg_nfo, f, indent = 2)
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def package(kernel: str, binaries: List[str], out: str):
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"""
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Main logic for creating the image file
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"""
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img = MemImageCreator()
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# process kernel
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img.seek(MEM_START)
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kernel = Bin(kernel)
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kernel.name = 'kernel' # make sure kernel is marked kernel in debug symbols
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bin_table_addr = kernel.symtab.get(KERNEL_BINARY_TABLE, 0) - kernel.start + MEM_START
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print(f"kernel binary loaded, binary table located at: {bin_table_addr:x} (symtab addr {kernel.symtab.get(KERNEL_BINARY_TABLE, '??'):x})")
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img.putBin(kernel)
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binid = 0
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for bin_name in binaries:
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img.align(8) # align to eight bytes
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bin = Bin(bin_name)
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print(f"adding binary \"{bin.name}\"")
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start = img.putBin(bin)
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addr = bin_table_addr + (binid * KERNEL_BINARY_TABLE_ENTRY_SIZE)
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img.patch(addr, pcb_patch(binid+1, bin.entry - bin.start + start, start, start + bin.size()))
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binid += 1
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print(f" binary image")
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print(f" entry: {bin.entry:>6x} {bin.entry - bin.start + start:>6x}")
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print(f" start: {bin.start:>6x} {start:>6x}")
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img.write(out)
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def pcb_patch(binid: int, entrypoint: int, start: int, end: int):
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"""
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Creates the binary data to populate the KERNEL_BINARY_TABLE structs
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"""
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return b''.join(num.to_bytes(4, 'little') for num in (binid, entrypoint, start, end))
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if __name__ == '__main__':
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if '--help' in sys.argv or len(sys.argv) == 1:
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print_help()
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else:
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print(f"creating image {sys.argv[-1]}")
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package(sys.argv[1], sys.argv[2:-1], sys.argv[-1])
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