#!/usr/bin/python3 -tt # Copyright 2013 Jussi Pakkanen # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # http://www.apache.org/licenses/LICENSE-2.0 # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import sys, struct SHT_STRTAB = 3 DT_NEEDED = 1 DT_RPATH = 15 DT_STRTAB = 5 DT_SONAME = 14 def init_datasizes(self): self.Half = 'h' self.HalfSize = 2 self.Word = 'I' self.WordSize = 4 self.Sword = 'i' self.SwordSize = 4 if sys.maxsize > 2**32: self.Addr = 'Q' self.AddrSize = 8 self.Off = 'Q' self.OffSize = 8 self.XWord = 'Q' self.XWordSize = 8 self.Sxword = 'q' self.SxwordSize = 8 else: self.Addr = 'I' self.AddrSize = 4 self.Off = 'I' self.OffSize = 4 class DynamicEntry(): def __init__(self, ifile): init_datasizes(self) if sys.maxsize > 2**32: self.d_tag = struct.unpack(self.Sxword, ifile.read(self.SxwordSize))[0]; self.val = struct.unpack(self.XWord, ifile.read(self.XWordSize))[0]; else: self.d_tag = struct.unpack(self.Sword, ifile.read(self.SwordSize))[0] self.val = struct.unpack(self.Word, ifile.read(self.WordSize))[0] class SectionHeader(): def __init__(self, ifile): init_datasizes(self) if sys.maxsize > 2**32: is_64 = True else: is_64 = False #Elf64_Word self.sh_name = struct.unpack(self.Word, ifile.read(self.WordSize))[0]; #Elf64_Word self.sh_type = struct.unpack(self.Word, ifile.read(self.WordSize))[0] #Elf64_Xword if is_64: self.sh_flags = struct.unpack(self.XWord, ifile.read(self.XWordSize))[0] else: self.sh_flags = struct.unpack(self.Word, ifile.read(self.WordSize))[0] #Elf64_Addr self.sh_addr = struct.unpack(self.Addr, ifile.read(self.AddrSize))[0]; #Elf64_Off self.sh_offset = struct.unpack(self.Off, ifile.read(self.OffSize))[0] #Elf64_Xword if is_64: self.sh_size = struct.unpack(self.XWord, ifile.read(self.XWordSize))[0] else: self.sh_size = struct.unpack(self.Word, ifile.read(self.WordSize))[0] #Elf64_Word self.sh_link = struct.unpack(self.Word, ifile.read(self.WordSize))[0]; #Elf64_Word self.sh_info = struct.unpack(self.Word, ifile.read(self.WordSize))[0]; #Elf64_Xword if is_64: self.sh_addralign = struct.unpack(self.XWord, ifile.read(self.XWordSize))[0] else: self.sh_addralign = struct.unpack(self.Word, ifile.read(self.WordSize))[0] #Elf64_Xword if is_64: self.sh_entsize = struct.unpack(self.XWord, ifile.read(self.XWordSize))[0] else: self.sh_entsize = struct.unpack(self.Word, ifile.read(self.WordSize))[0] class Elf(): def __init__(self, bfile): init_datasizes(self) self.bfile = bfile self.bf = open(bfile, 'r+b') self.parse_header() self.parse_sections() self.parse_dynamic() def parse_header(self): self.e_ident = struct.unpack('16s', self.bf.read(16))[0] if self.e_ident[1:4] != b'ELF': print('File "%s" is not an ELF file.' % self.bfile) sys.exit(0) self.e_type = struct.unpack(self.Half, self.bf.read(self.HalfSize))[0] self.e_machine = struct.unpack(self.Half, self.bf.read(self.HalfSize))[0] self.e_version = struct.unpack(self.Word, self.bf.read(self.WordSize))[0] self.e_entry = struct.unpack(self.Addr, self.bf.read(self.AddrSize))[0] self.e_phoff = struct.unpack(self.Off, self.bf.read(self.OffSize))[0] self.e_shoff = struct.unpack(self.Off, self.bf.read(self.OffSize))[0] self.e_flags = struct.unpack(self.Word, self.bf.read(self.WordSize))[0] self.e_ehsize = struct.unpack(self.Half, self.bf.read(self.HalfSize))[0] self.e_phentsize = struct.unpack(self.Half, self.bf.read(self.HalfSize))[0] self.e_phnum = struct.unpack(self.Half, self.bf.read(self.HalfSize))[0] self.e_shentsize = struct.unpack(self.Half, self.bf.read(self.HalfSize))[0] self.e_shnum = struct.unpack(self.Half, self.bf.read(self.HalfSize))[0] self.e_shstrndx = struct.unpack(self.Half, self.bf.read(self.HalfSize))[0] def parse_sections(self): self.bf.seek(self.e_shoff) self.sections = [] for i in range(self.e_shnum): self.sections.append(SectionHeader(self.bf)) def read_str(self): arr = [] x = self.bf.read(1) while x != b'\0': arr.append(x) x = self.bf.read(1) if x == b'': raise RuntimeError('Tried to read past the end of the file') return b''.join(arr) def find_section(self, target_name): section_names = self.sections[self.e_shstrndx] for i in self.sections: self.bf.seek(section_names.sh_offset + i.sh_name) name = self.read_str() if name == target_name: return i def parse_dynamic(self): sec = self.find_section(b'.dynamic') self.dynamic = [] self.bf.seek(sec.sh_offset) while True: e = DynamicEntry(self.bf) self.dynamic.append(e) if e.d_tag == 0: break def print_section_names(self): section_names = self.sections[self.e_shstrndx] for i in self.sections: self.bf.seek(section_names.sh_offset + i.sh_name) name = self.read_str() print(name.decode()) def print_soname(self): soname = None strtab = None for i in self.dynamic: if i.d_tag == DT_SONAME: soname = i if i.d_tag == DT_STRTAB: strtab = i self.bf.seek(strtab.val + soname.val) print(self.read_str()) def print_deps(self): sec = self.find_section(b'.dynstr') deps = [] for i in self.dynamic: if i.d_tag == DT_NEEDED: deps.append(i) for i in deps: offset = sec.sh_offset + i.val self.bf.seek(offset) name = self.read_str() print(name) def fix_deps(self, prefix): sec = self.find_section(b'.dynstr') deps = [] for i in self.dynamic: if i.d_tag == DT_NEEDED: deps.append(i) for i in deps: offset = sec.sh_offset + i.val self.bf.seek(offset) name = self.read_str() if name.startswith(prefix): basename = name.split(b'/')[-1] padding = b'\0'*(len(name) - len(basename)) newname = basename + padding assert(len(newname) == len(name)) self.bf.seek(offset) self.bf.write(newname) if __name__ == '__main__': if len(sys.argv) != 3: print('This application converts absolute dep paths to relative ones.') print('Don\'t run this unless you know what you are doing.') print('%s: ' % sys.argv[0]) exit(1) e = Elf(sys.argv[1]) prefix = sys.argv[2] #e.print_deps() e.fix_deps(prefix.encode())