tests/python/test_debuginfo.py - platform/external/bcc - Git at Google

 #!/usr/bin/env python
 # Copyright (c) Sasha Goldshtein
 # Licensed under the Apache License, Version 2.0 (the "License")

 import os
 import subprocess
 from bcc import SymbolCache, BPF
 from unittest import main, TestCase

 class TestKSyms(TestCase):
     def grab_sym(self):
         address = ""
         aliases = []

         # Grab the first symbol in kallsyms that has type 't' or 'T'.
         # Also, find all aliases of this symbol which are identifiable
         # by the same address.
         with open("/proc/kallsyms", "rb") as f:
             for line in f:

                 # Extract the first 3 columns only. The 4th column
                 # containing the module name may not exist for all
                 # symbols.
                 (addr, t, name) = line.strip().split()[:3]
                 if t == b"t" or t == b"T":
                     if not address:
                         address = addr
                     if addr == address:
                         aliases.append(name)

         # Return all aliases of the first symbol.
         return (address, aliases)

     def test_ksymname(self):
         sym = BPF.ksymname(b"__kmalloc")
         self.assertIsNotNone(sym)
         self.assertNotEqual(sym, 0)

     def test_ksym(self):
         (addr, aliases) = self.grab_sym()
         sym = BPF.ksym(int(addr, 16))
         found = sym in aliases
         self.assertTrue(found)

 class Harness(TestCase):
     def setUp(self):
         self.build_command()
         subprocess.check_output('objcopy --only-keep-debug dummy dummy.debug'
                                 .split())
         self.debug_command()
         subprocess.check_output('strip dummy'.split())
         self.process = subprocess.Popen('./dummy', stdout=subprocess.PIPE)
         # The process prints out the address of some symbol, which we then
         # try to resolve in the test.
         self.addr = int(self.process.stdout.readline().strip(), 16)
         self.syms = SymbolCache(self.process.pid)

     def tearDown(self):
         self.process.kill()
         self.process.wait()
         self.process.stdout.close()
         self.process = None

     def resolve_addr(self):
         sym, offset, module = self.syms.resolve(self.addr, False)
         self.assertEqual(sym, self.mangled_name)
         self.assertEqual(offset, 0)
         self.assertTrue(module[-5:] == b'dummy')
         sym, offset, module = self.syms.resolve(self.addr, True)
         self.assertEqual(sym, b'some_namespace::some_function(int, int)')
         self.assertEqual(offset, 0)
         self.assertTrue(module[-5:] == b'dummy')


     def resolve_name(self):
         script_dir = os.path.dirname(os.path.realpath(__file__).encode("utf8"))
         addr = self.syms.resolve_name(os.path.join(script_dir, b'dummy'),
                                       self.mangled_name)
         self.assertEqual(addr, self.addr)
         pass

 class TestDebuglink(Harness):
     def build_command(self):
         subprocess.check_output('g++ -o dummy dummy.cc'.split())
         lines = subprocess.check_output('nm dummy'.split()).splitlines()
         for line in lines:
             if b"some_function" in line:
                 self.mangled_name = line.split(b' ')[2]
                 break
         self.assertTrue(self.mangled_name)

     def debug_command(self):
         subprocess.check_output('objcopy --add-gnu-debuglink=dummy.debug dummy'
                                 .split())

     def tearDown(self):
         super(TestDebuglink, self).tearDown()
         subprocess.check_output('rm dummy dummy.debug'.split())

     def test_resolve_addr(self):
         self.resolve_addr()

     def test_resolve_name(self):
         self.resolve_name()

 class TestBuildid(Harness):
     def build_command(self):
         subprocess.check_output(('g++ -o dummy -Xlinker ' + \
                '--build-id=0x123456789abcdef0123456789abcdef012345678 dummy.cc')
                .split())
         lines = subprocess.check_output('nm dummy'.split()).splitlines()
         for line in lines:
             if b"some_function" in line:
                 self.mangled_name = line.split(b' ')[2]
                 break
         self.assertTrue(self.mangled_name)


     def debug_command(self):
         subprocess.check_output('mkdir -p /usr/lib/debug/.build-id/12'.split())
         subprocess.check_output(('mv dummy.debug /usr/lib/debug/.build-id' + \
             '/12/3456789abcdef0123456789abcdef012345678.debug').split())

     def tearDown(self):
         super(TestBuildid, self).tearDown()
         subprocess.check_output('rm dummy'.split())
         subprocess.check_output(('rm /usr/lib/debug/.build-id/12' +
             '/3456789abcdef0123456789abcdef012345678.debug').split())

     def test_resolve_name(self):
         self.resolve_addr()

     def test_resolve_addr(self):
         self.resolve_name()

 if __name__ == "__main__":
     main()
	#!/usr/bin/env python
	# Copyright (c) Sasha Goldshtein
	# Licensed under the Apache License, Version 2.0 (the "License")

	import os
	import subprocess
	from bcc import SymbolCache, BPF
	from unittest import main, TestCase

	class TestKSyms(TestCase):
	def grab_sym(self):
	address = ""
	aliases = []

	# Grab the first symbol in kallsyms that has type 't' or 'T'.
	# Also, find all aliases of this symbol which are identifiable
	# by the same address.
	with open("/proc/kallsyms", "rb") as f:
	for line in f:

	# Extract the first 3 columns only. The 4th column
	# containing the module name may not exist for all
	# symbols.
	(addr, t, name) = line.strip().split()[:3]
	if t == b"t" or t == b"T":
	if not address:
	address = addr
	if addr == address:
	aliases.append(name)

	# Return all aliases of the first symbol.
	return (address, aliases)

	def test_ksymname(self):
	sym = BPF.ksymname(b"__kmalloc")
	self.assertIsNotNone(sym)
	self.assertNotEqual(sym, 0)

	def test_ksym(self):
	(addr, aliases) = self.grab_sym()
	sym = BPF.ksym(int(addr, 16))
	found = sym in aliases
	self.assertTrue(found)

	class Harness(TestCase):
	def setUp(self):
	self.build_command()
	subprocess.check_output('objcopy --only-keep-debug dummy dummy.debug'
	.split())
	self.debug_command()
	subprocess.check_output('strip dummy'.split())
	self.process = subprocess.Popen('./dummy', stdout=subprocess.PIPE)
	# The process prints out the address of some symbol, which we then
	# try to resolve in the test.
	self.addr = int(self.process.stdout.readline().strip(), 16)
	self.syms = SymbolCache(self.process.pid)

	def tearDown(self):
	self.process.kill()
	self.process.wait()
	self.process.stdout.close()
	self.process = None

	def resolve_addr(self):
	sym, offset, module = self.syms.resolve(self.addr, False)
	self.assertEqual(sym, self.mangled_name)
	self.assertEqual(offset, 0)
	self.assertTrue(module[-5:] == b'dummy')
	sym, offset, module = self.syms.resolve(self.addr, True)
	self.assertEqual(sym, b'some_namespace::some_function(int, int)')
	self.assertEqual(offset, 0)
	self.assertTrue(module[-5:] == b'dummy')


	def resolve_name(self):
	script_dir = os.path.dirname(os.path.realpath(__file__).encode("utf8"))
	addr = self.syms.resolve_name(os.path.join(script_dir, b'dummy'),
	self.mangled_name)
	self.assertEqual(addr, self.addr)
	pass

	class TestDebuglink(Harness):
	def build_command(self):
	subprocess.check_output('g++ -o dummy dummy.cc'.split())
	lines = subprocess.check_output('nm dummy'.split()).splitlines()
	for line in lines:
	if b"some_function" in line:
	self.mangled_name = line.split(b' ')[2]
	break
	self.assertTrue(self.mangled_name)

	def debug_command(self):
	subprocess.check_output('objcopy --add-gnu-debuglink=dummy.debug dummy'
	.split())

	def tearDown(self):
	super(TestDebuglink, self).tearDown()
	subprocess.check_output('rm dummy dummy.debug'.split())

	def test_resolve_addr(self):
	self.resolve_addr()

	def test_resolve_name(self):
	self.resolve_name()

	class TestBuildid(Harness):
	def build_command(self):
	subprocess.check_output(('g++ -o dummy -Xlinker ' + \
	'--build-id=0x123456789abcdef0123456789abcdef012345678 dummy.cc')
	.split())
	lines = subprocess.check_output('nm dummy'.split()).splitlines()
	for line in lines:
	if b"some_function" in line:
	self.mangled_name = line.split(b' ')[2]
	break
	self.assertTrue(self.mangled_name)


	def debug_command(self):
	subprocess.check_output('mkdir -p /usr/lib/debug/.build-id/12'.split())
	subprocess.check_output(('mv dummy.debug /usr/lib/debug/.build-id' + \
	'/12/3456789abcdef0123456789abcdef012345678.debug').split())

	def tearDown(self):
	super(TestBuildid, self).tearDown()
	subprocess.check_output('rm dummy'.split())
	subprocess.check_output(('rm /usr/lib/debug/.build-id/12' +
	'/3456789abcdef0123456789abcdef012345678.debug').split())

	def test_resolve_name(self):
	self.resolve_addr()

	def test_resolve_addr(self):
	self.resolve_name()

	if __name__ == "__main__":
	main()