def test_expected(self):
for file_name in elf_ph_expected:
f = File(file_name, "rb")
ident = ElfIdentification()
ident.fromdata(f.get_data(0, 16))
if ident.wordsize == 32:
data = f.get_data(0, Elf32Header.size())
header = Elf32Header()
PhClass = Elf32ProgramHeader
header.fromdata(data)
elif ident.wordsize == 64:
data = f.get_data(0, Elf64Header.size())
header = Elf64Header()
header.fromdata(data)
PhClass = Elf64ProgramHeader
else:
raise "Problem"
self.assertEqual(header.e_phnum, len(elf_ph_expected[file_name]))
entsize = header.e_phentsize
wordsize = ident.wordsize
hdr = ELF_HEADER_CLASSES[wordsize]()
for i in range(header.e_phnum):
ph_expect = elf_ph_expected[file_name][i]
ph_data = f.get_data(header.e_phoff + (i * entsize), entsize)
ph = PhClass(header.ident.endianess)
ph.fromdata(ph_data, hdr)
self.assertEqual(ph.todata(), ph_data)
self.assertEqual(ph.p_type, ph_expect[0])
self.assertEqual(ph.p_offset, ph_expect[1])
self.assertEqual(ph.p_vaddr, ph_expect[2])
self.assertEqual(ph.p_paddr, ph_expect[3])
self.assertEqual(ph.p_filesz, ph_expect[4])
self.assertEqual(ph.p_memsz, ph_expect[5])
self.assertEqual(ph.p_flags, ph_expect[6])
self.assertEqual(ph.p_align, ph_expect[7])
def test_expected(self):
for file_name in elf_ph_expected:
f = File(file_name, "rb")
ident = ElfIdentification()
ident.fromdata(f.get_data(0, 16))
if ident.wordsize == 32:
data = f.get_data(0, Elf32Header.size())
header = Elf32Header()
PhClass = Elf32ProgramHeader
header.fromdata(data)
elif ident.wordsize == 64:
data = f.get_data(0, Elf64Header.size())
header = Elf64Header()
header.fromdata(data)
PhClass = Elf64ProgramHeader
else:
raise "Problem"
self.assertEqual(header.e_phnum, len(elf_ph_expected[file_name]))
entsize = header.e_phentsize
wordsize = ident.wordsize
hdr = ELF_HEADER_CLASSES[wordsize]()
for i in range(header.e_phnum):
ph_expect = elf_ph_expected[file_name][i]
ph_data = f.get_data(header.e_phoff + (i * entsize), entsize)
ph = PhClass(header.ident.endianess)
ph.fromdata(ph_data, hdr)
self.assertEqual(ph.todata(), ph_data)
self.assertEqual(ph.p_type, ph_expect[0])
self.assertEqual(ph.p_offset, ph_expect[1])
self.assertEqual(ph.p_vaddr, ph_expect[2])
self.assertEqual(ph.p_paddr, ph_expect[3])
self.assertEqual(ph.p_filesz, ph_expect[4])
self.assertEqual(ph.p_memsz, ph_expect[5])
self.assertEqual(ph.p_flags, ph_expect[6])
self.assertEqual(ph.p_align, ph_expect[7])
def setUp(self):
self.elf_headers = {}
for file_name in elf_files:
f = File(file_name, "rb")
ident = ElfIdentification()
ident.fromdata(f.get_data(0, 16))
if ident.wordsize == 32:
data = f.get_data(0, Elf32Header.size())
header = Elf32Header()
header.fromdata(data)
elif ident.wordsize == 64:
data = f.get_data(0, Elf64Header.size())
header = Elf64Header()
header.fromdata(data)
else:
raise "Problem"
self.elf_headers[file_name] = (header, data)
self.bogus_data_size = f.get_data(0, Elf32Header.size() - 1)
def setUp(self):
self.elf_headers = {}
for file_name in elf_files:
f = File(file_name, "rb")
ident = ElfIdentification()
ident.fromdata(f.get_data(0, 16))
if ident.wordsize == 32:
data = f.get_data(0, Elf32Header.size())
header = Elf32Header()
header.fromdata(data)
elif ident.wordsize == 64:
data = f.get_data(0, Elf64Header.size())
header = Elf64Header()
header.fromdata(data)
else:
raise "Problem"
self.elf_headers[file_name] = (header, data)
self.bogus_data_size = f.get_data(0, Elf32Header.size() - 1)
def test_expected(self):
for file_name in elf_sh_expected:
f = File(file_name, "rb")
ident = ElfIdentification()
ident.fromdata(f.get_data(0, 16))
wordsize = ident.wordsize
hdr = ELF_HEADER_CLASSES[wordsize]()
if ident.wordsize == 32:
data = f.get_data(0, Elf32Header.size())
header = Elf32Header()
ShClass = Elf32SectionHeader
header.fromdata(data)
elif ident.wordsize == 64:
data = f.get_data(0, Elf64Header.size())
header = Elf64Header()
header.fromdata(data)
ShClass = Elf64SectionHeader
else:
raise "Problem"
self.assertEqual(header.e_shnum, len(elf_sh_expected[file_name]))
entsize = header.e_shentsize
for i in range(header.e_shnum):
sh_expect = elf_sh_expected[file_name][i]
sh_data = f.get_data(header.e_shoff + (i * entsize), entsize)
sh = ShClass(header.ident.endianess)
sh.fromdata(sh_data, hdr)
self.assertEqual(sh.todata(), sh_data)
self.assertEqual(sh.sh_name, sh_expect[0])
self.assertEqual(sh.sh_type, sh_expect[1])
self.assertEqual(sh.sh_addr, sh_expect[2])
self.assertEqual(sh.sh_offset, sh_expect[3])
self.assertEqual(sh.sh_size, sh_expect[4])
self.assertEqual(sh.sh_entsize, sh_expect[5])
self.assertEqual(sh.sh_flags, sh_expect[6])
self.assertEqual(sh.sh_link, sh_expect[7])
self.assertEqual(sh.sh_info, sh_expect[8])
self.assertEqual(sh.sh_addralign, sh_expect[9])
def test_expected(self):
for file_name in elf_sh_expected:
f = File(file_name, "rb")
ident = ElfIdentification()
ident.fromdata(f.get_data(0, 16))
wordsize = ident.wordsize
hdr = ELF_HEADER_CLASSES[wordsize]()
if ident.wordsize == 32:
data = f.get_data(0, Elf32Header.size())
header = Elf32Header()
ShClass = Elf32SectionHeader
header.fromdata(data)
elif ident.wordsize == 64:
data = f.get_data(0, Elf64Header.size())
header = Elf64Header()
header.fromdata(data)
ShClass = Elf64SectionHeader
else:
raise "Problem"
self.assertEqual(header.e_shnum, len(elf_sh_expected[file_name]))
entsize = header.e_shentsize
for i in range(header.e_shnum):
sh_expect = elf_sh_expected[file_name][i]
sh_data = f.get_data(header.e_shoff + (i * entsize), entsize)
sh = ShClass(header.ident.endianess)
sh.fromdata(sh_data, hdr)
self.assertEqual(sh.todata(), sh_data)
self.assertEqual(sh.sh_name, sh_expect[0])
self.assertEqual(sh.sh_type, sh_expect[1])
self.assertEqual(sh.sh_addr, sh_expect[2])
self.assertEqual(sh.sh_offset, sh_expect[3])
self.assertEqual(sh.sh_size, sh_expect[4])
self.assertEqual(sh.sh_entsize, sh_expect[5])
self.assertEqual(sh.sh_flags, sh_expect[6])
self.assertEqual(sh.sh_link, sh_expect[7])
self.assertEqual(sh.sh_info, sh_expect[8])
self.assertEqual(sh.sh_addralign, sh_expect[9])
def test_against_readelf(self):
if not have_readelf:
return
for file_name in elf_sh_files:
f = File(file_name, "rb")
ident = ElfIdentification()
ident.fromdata(f.get_data(0, 16))
wordsize = ident.wordsize
hdr = ELF_HEADER_CLASSES[wordsize]()
lines = os.popen("readelf -S %s" % file_name).readlines()
good_lines = []
if ident.wordsize == 32:
data = f.get_data(0, Elf32Header.size())
header = Elf32Header()
ShClass = Elf32SectionHeader
header.fromdata(data)
got_start = False
for line in lines:
if got_start:
if line.strip().startswith("Key to Flags"):
break
good_lines.append(line)
else:
# Looking for start
if line.strip().startswith("[Nr]"):
got_start = True
elif ident.wordsize == 64:
data = f.get_data(0, Elf64Header.size())
header = Elf64Header()
header.fromdata(data)
ShClass = Elf64SectionHeader
got_start = False
for line in lines:
if got_start:
if line.strip().startswith("Key"):
break
good_lines.append(line)
else:
# Looking for start
if line.strip().startswith("Siz"):
got_start = True
merged_lines = []
i = 0
while i < len(good_lines):
merged_lines.append(good_lines[i] + good_lines[i+1])
i += 2
good_lines = merged_lines
good_lines = [line[25:] for line in good_lines]
entsize = header.e_shentsize
for i in range(header.e_shnum):
sh_data = f.get_data(header.e_shoff + (i * entsize), entsize)
sh = ShClass(header.ident.endianess)
sh.fromdata(sh_data, hdr)
out = StringIO.StringIO()
sh.output(out)
out.getvalue()
self.assertEqual(out.getvalue(), good_lines[i])
def test_against_readelf(self):
if not have_readelf:
return
for file_name in elf_ph_expected:
f = File(file_name, "rb")
ident = ElfIdentification()
ident.fromdata(f.get_data(0, 16))
wordsize = ident.wordsize
hdr = ELF_HEADER_CLASSES[wordsize]()
lines = os.popen("readelf -l %s" % file_name).readlines()
good_lines = []
if ident.wordsize == 32:
data = f.get_data(0, Elf32Header.size())
header = Elf32Header()
PhClass = Elf32ProgramHeader
header.fromdata(data)
got_start = False
for line in lines:
if got_start:
if line.strip() == "":
break
good_lines.append(line)
else:
# Looking for start
if line.startswith(" Type"):
got_start = True
elif ident.wordsize == 64:
data = f.get_data(0, Elf64Header.size())
header = Elf64Header()
header.fromdata(data)
PhClass = Elf64ProgramHeader
got_start = False
for line in lines:
if got_start:
if line.strip() == "":
break
if not line.strip().startswith("["):
good_lines.append(line)
else:
# Looking for start
if line.strip().startswith("FileSiz"):
got_start = True
merged_lines = []
i = 0
while i < len(good_lines):
merged_lines.append(good_lines[i] + good_lines[i+1])
i += 2
good_lines = merged_lines
entsize = header.e_phentsize
for i in range(header.e_phnum):
ph_data = f.get_data(header.e_phoff + (i * entsize), entsize)
ph = PhClass(header.ident.endianess)
ph.fromdata(ph_data, hdr)
out = StringIO.StringIO()
ph.output(out)
out.getvalue()
self.assertEqual(out.getvalue(), good_lines[i])
def test_against_readelf(self):
if not have_readelf:
return
for file_name in elf_sh_files:
f = File(file_name, "rb")
ident = ElfIdentification()
ident.fromdata(f.get_data(0, 16))
wordsize = ident.wordsize
hdr = ELF_HEADER_CLASSES[wordsize]()
lines = os.popen("readelf -S %s" % file_name).readlines()
good_lines = []
if ident.wordsize == 32:
data = f.get_data(0, Elf32Header.size())
header = Elf32Header()
ShClass = Elf32SectionHeader
header.fromdata(data)
got_start = False
for line in lines:
if got_start:
if line.strip().startswith("Key to Flags"):
break
good_lines.append(line)
else:
# Looking for start
if line.strip().startswith("[Nr]"):
got_start = True
elif ident.wordsize == 64:
data = f.get_data(0, Elf64Header.size())
header = Elf64Header()
header.fromdata(data)
ShClass = Elf64SectionHeader
got_start = False
for line in lines:
if got_start:
if line.strip().startswith("Key"):
break
good_lines.append(line)
else:
# Looking for start
if line.strip().startswith("Siz"):
got_start = True
merged_lines = []
i = 0
while i < len(good_lines):
merged_lines.append(good_lines[i] + good_lines[i + 1])
i += 2
good_lines = merged_lines
good_lines = [line[25:] for line in good_lines]
entsize = header.e_shentsize
for i in range(header.e_shnum):
sh_data = f.get_data(header.e_shoff + (i * entsize), entsize)
sh = ShClass(header.ident.endianess)
sh.fromdata(sh_data, hdr)
out = StringIO.StringIO()
sh.output(out)
out.getvalue()
self.assertEqual(out.getvalue(), good_lines[i])
def test_against_readelf(self):
if not have_readelf:
return
for file_name in elf_ph_expected:
f = File(file_name, "rb")
ident = ElfIdentification()
ident.fromdata(f.get_data(0, 16))
wordsize = ident.wordsize
hdr = ELF_HEADER_CLASSES[wordsize]()
lines = os.popen("readelf -l %s" % file_name).readlines()
good_lines = []
if ident.wordsize == 32:
data = f.get_data(0, Elf32Header.size())
header = Elf32Header()
PhClass = Elf32ProgramHeader
header.fromdata(data)
got_start = False
for line in lines:
if got_start:
if line.strip() == "":
break
good_lines.append(line)
else:
# Looking for start
if line.startswith(" Type"):
got_start = True
elif ident.wordsize == 64:
data = f.get_data(0, Elf64Header.size())
header = Elf64Header()
header.fromdata(data)
PhClass = Elf64ProgramHeader
got_start = False
for line in lines:
if got_start:
if line.strip() == "":
break
if not line.strip().startswith("["):
good_lines.append(line)
else:
# Looking for start
if line.strip().startswith("FileSiz"):
got_start = True
merged_lines = []
i = 0
while i < len(good_lines):
merged_lines.append(good_lines[i] + good_lines[i + 1])
i += 2
good_lines = merged_lines
entsize = header.e_phentsize
for i in range(header.e_phnum):
ph_data = f.get_data(header.e_phoff + (i * entsize), entsize)
ph = PhClass(header.ident.endianess)
ph.fromdata(ph_data, hdr)
out = StringIO.StringIO()
ph.output(out)
out.getvalue()
self.assertEqual(out.getvalue(), good_lines[i])