forked from brl/citadel
172 lines
4.9 KiB
Python
172 lines
4.9 KiB
Python
import os, struct, mmap
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class NotELFFileError(Exception):
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pass
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class ELFFile:
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EI_NIDENT = 16
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EI_CLASS = 4
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EI_DATA = 5
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EI_VERSION = 6
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EI_OSABI = 7
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EI_ABIVERSION = 8
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E_MACHINE = 0x12
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# possible values for EI_CLASS
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ELFCLASSNONE = 0
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ELFCLASS32 = 1
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ELFCLASS64 = 2
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# possible value for EI_VERSION
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EV_CURRENT = 1
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# possible values for EI_DATA
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EI_DATA_NONE = 0
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EI_DATA_LSB = 1
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EI_DATA_MSB = 2
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PT_INTERP = 3
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def my_assert(self, expectation, result):
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if not expectation == result:
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#print "'%x','%x' %s" % (ord(expectation), ord(result), self.name)
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raise NotELFFileError("%s is not an ELF" % self.name)
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def __init__(self, name):
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self.name = name
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self.objdump_output = {}
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# Context Manager functions to close the mmap explicitly
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def __enter__(self):
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return self
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def __exit__(self, exc_type, exc_value, traceback):
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self.data.close()
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def open(self):
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with open(self.name, "rb") as f:
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try:
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self.data = mmap.mmap(f.fileno(), 0, access=mmap.ACCESS_READ)
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except ValueError:
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# This means the file is empty
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raise NotELFFileError("%s is empty" % self.name)
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# Check the file has the minimum number of ELF table entries
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if len(self.data) < ELFFile.EI_NIDENT + 4:
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raise NotELFFileError("%s is not an ELF" % self.name)
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# ELF header
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self.my_assert(self.data[0], 0x7f)
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self.my_assert(self.data[1], ord('E'))
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self.my_assert(self.data[2], ord('L'))
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self.my_assert(self.data[3], ord('F'))
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if self.data[ELFFile.EI_CLASS] == ELFFile.ELFCLASS32:
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self.bits = 32
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elif self.data[ELFFile.EI_CLASS] == ELFFile.ELFCLASS64:
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self.bits = 64
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else:
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# Not 32-bit or 64.. lets assert
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raise NotELFFileError("ELF but not 32 or 64 bit.")
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self.my_assert(self.data[ELFFile.EI_VERSION], ELFFile.EV_CURRENT)
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self.endian = self.data[ELFFile.EI_DATA]
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if self.endian not in (ELFFile.EI_DATA_LSB, ELFFile.EI_DATA_MSB):
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raise NotELFFileError("Unexpected EI_DATA %x" % self.endian)
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def osAbi(self):
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return self.data[ELFFile.EI_OSABI]
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def abiVersion(self):
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return self.data[ELFFile.EI_ABIVERSION]
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def abiSize(self):
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return self.bits
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def isLittleEndian(self):
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return self.endian == ELFFile.EI_DATA_LSB
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def isBigEndian(self):
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return self.endian == ELFFile.EI_DATA_MSB
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def getStructEndian(self):
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return {ELFFile.EI_DATA_LSB: "<",
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ELFFile.EI_DATA_MSB: ">"}[self.endian]
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def getShort(self, offset):
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return struct.unpack_from(self.getStructEndian() + "H", self.data, offset)[0]
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def getWord(self, offset):
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return struct.unpack_from(self.getStructEndian() + "i", self.data, offset)[0]
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def isDynamic(self):
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"""
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Return True if there is a .interp segment (therefore dynamically
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linked), otherwise False (statically linked).
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"""
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offset = self.getWord(self.bits == 32 and 0x1C or 0x20)
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size = self.getShort(self.bits == 32 and 0x2A or 0x36)
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count = self.getShort(self.bits == 32 and 0x2C or 0x38)
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for i in range(0, count):
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p_type = self.getWord(offset + i * size)
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if p_type == ELFFile.PT_INTERP:
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return True
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return False
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def machine(self):
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"""
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We know the endian stored in self.endian and we
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know the position
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"""
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return self.getShort(ELFFile.E_MACHINE)
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def run_objdump(self, cmd, d):
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import bb.process
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import sys
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if cmd in self.objdump_output:
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return self.objdump_output[cmd]
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objdump = d.getVar('OBJDUMP')
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env = os.environ.copy()
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env["LC_ALL"] = "C"
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env["PATH"] = d.getVar('PATH')
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try:
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bb.note("%s %s %s" % (objdump, cmd, self.name))
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self.objdump_output[cmd] = bb.process.run([objdump, cmd, self.name], env=env, shell=False)[0]
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return self.objdump_output[cmd]
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except Exception as e:
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bb.note("%s %s %s failed: %s" % (objdump, cmd, self.name, e))
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return ""
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def elf_machine_to_string(machine):
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"""
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Return the name of a given ELF e_machine field or the hex value as a string
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if it isn't recognised.
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"""
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try:
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return {
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0x02: "SPARC",
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0x03: "x86",
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0x08: "MIPS",
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0x14: "PowerPC",
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0x28: "ARM",
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0x2A: "SuperH",
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0x32: "IA-64",
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0x3E: "x86-64",
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0xB7: "AArch64"
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}[machine]
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except:
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return "Unknown (%s)" % repr(machine)
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if __name__ == "__main__":
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import sys
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with ELFFile(sys.argv[1]) as elf:
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elf.open()
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print(elf.isDynamic())
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