test/API/tools/lldb-server/TestGdbRemoteAuxvSupport.py - llvm-project/lldb - Git at Google

 import gdbremote_testcase
 from lldbsuite.test.decorators import *
 from lldbsuite.test.lldbtest import *
 from lldbsuite.test import lldbutil

 class TestGdbRemoteAuxvSupport(gdbremote_testcase.GdbRemoteTestCaseBase):

     mydir = TestBase.compute_mydir(__file__)

     AUXV_SUPPORT_FEATURE_NAME = "qXfer:auxv:read"

     def has_auxv_support(self):
         procs = self.prep_debug_monitor_and_inferior()

         self.add_qSupported_packets()
         context = self.expect_gdbremote_sequence()
         self.assertIsNotNone(context)

         features = self.parse_qSupported_response(context)
         return self.AUXV_SUPPORT_FEATURE_NAME in features and features[
             self.AUXV_SUPPORT_FEATURE_NAME] == "+"

     def get_raw_auxv_data(self):
         # Start up llgs and inferior, and check for auxv support.
         if not self.has_auxv_support():
             self.skipTest("auxv data not supported")

         # Grab pointer size for target.  We'll assume that is equivalent to an unsigned long on the target.
         # Auxv is specified in terms of pairs of unsigned longs.
         self.reset_test_sequence()
         self.add_process_info_collection_packets()

         context = self.expect_gdbremote_sequence()
         self.assertIsNotNone(context)

         proc_info = self.parse_process_info_response(context)
         self.assertIsNotNone(proc_info)
         self.assertIn("ptrsize", proc_info)
         word_size = int(proc_info["ptrsize"])

         OFFSET = 0
         LENGTH = 0x400

         # Grab the auxv data.
         self.reset_test_sequence()
         self.test_sequence.add_log_lines(
             [
                 "read packet: $qXfer:auxv:read::{:x},{:x}:#00".format(
                     OFFSET,
                     LENGTH),
                 {
                     "direction": "send",
                     "regex": re.compile(
                         r"^\$([^E])(.*)#[0-9a-fA-F]{2}$",
                         re.MULTILINE | re.DOTALL),
                     "capture": {
                         1: "response_type",
                         2: "content_raw"}}],
             True)

         context = self.expect_gdbremote_sequence()
         self.assertIsNotNone(context)

         # Ensure we end up with all auxv data in one packet.
         # FIXME don't assume it all comes back in one packet.
         self.assertEqual(context.get("response_type"), "l")

         # Decode binary data.
         content_raw = context.get("content_raw")
         self.assertIsNotNone(content_raw)
         return (word_size, self.decode_gdbremote_binary(content_raw))

     @skipIfWindows # no auxv support.
     @skipIfDarwin
     def test_supports_auxv(self):
         self.build()
         self.set_inferior_startup_launch()
         self.assertTrue(self.has_auxv_support())

     @skipIfWindows
     @expectedFailureNetBSD
     def test_auxv_data_is_correct_size(self):
         self.build()
         self.set_inferior_startup_launch()

         (word_size, auxv_data) = self.get_raw_auxv_data()
         self.assertIsNotNone(auxv_data)

         # Ensure auxv data is a multiple of 2*word_size (there should be two
         # unsigned long fields per auxv entry).
         self.assertEqual(len(auxv_data) % (2 * word_size), 0)
         self.trace("auxv contains {} entries".format(len(auxv_data) / (2*word_size)))

     @skipIfWindows
     @expectedFailureNetBSD
     def test_auxv_keys_look_valid(self):
         self.build()
         self.set_inferior_startup_launch()

         (word_size, auxv_data) = self.get_raw_auxv_data()
         self.assertIsNotNone(auxv_data)

         # Grab endian.
         self.reset_test_sequence()
         self.add_process_info_collection_packets()
         context = self.expect_gdbremote_sequence()
         self.assertIsNotNone(context)

         process_info = self.parse_process_info_response(context)
         self.assertIsNotNone(process_info)
         endian = process_info.get("endian")
         self.assertIsNotNone(endian)

         auxv_dict = self.build_auxv_dict(endian, word_size, auxv_data)
         self.assertIsNotNone(auxv_dict)

         # Verify keys look reasonable.
         for auxv_key in auxv_dict:
             self.assertTrue(auxv_key >= 1)
             self.assertTrue(auxv_key <= 1000)
         self.trace("auxv dict: {}".format(auxv_dict))

     @skipIfWindows
     @expectedFailureNetBSD
     def test_auxv_chunked_reads_work(self):
         self.build()
         self.set_inferior_startup_launch()

         # Verify that multiple smaller offset,length reads of auxv data
         # return the same data as a single larger read.

         # Grab the auxv data with a single large read here.
         (word_size, auxv_data) = self.get_raw_auxv_data()
         self.assertIsNotNone(auxv_data)

         # Grab endian.
         self.reset_test_sequence()
         self.add_process_info_collection_packets()
         context = self.expect_gdbremote_sequence()
         self.assertIsNotNone(context)

         process_info = self.parse_process_info_response(context)
         self.assertIsNotNone(process_info)
         endian = process_info.get("endian")
         self.assertIsNotNone(endian)

         auxv_dict = self.build_auxv_dict(endian, word_size, auxv_data)
         self.assertIsNotNone(auxv_dict)

         iterated_auxv_data = self.read_binary_data_in_chunks(
             "qXfer:auxv:read::", 2 * word_size)
         self.assertIsNotNone(iterated_auxv_data)

         auxv_dict_iterated = self.build_auxv_dict(
             endian, word_size, iterated_auxv_data)
         self.assertIsNotNone(auxv_dict_iterated)

         # Verify both types of data collection returned same content.
         self.assertEqual(auxv_dict_iterated, auxv_dict)
	import gdbremote_testcase
	from lldbsuite.test.decorators import *
	from lldbsuite.test.lldbtest import *
	from lldbsuite.test import lldbutil

	class TestGdbRemoteAuxvSupport(gdbremote_testcase.GdbRemoteTestCaseBase):

	mydir = TestBase.compute_mydir(__file__)

	AUXV_SUPPORT_FEATURE_NAME = "qXfer:auxv:read"

	def has_auxv_support(self):
	procs = self.prep_debug_monitor_and_inferior()

	self.add_qSupported_packets()
	context = self.expect_gdbremote_sequence()
	self.assertIsNotNone(context)

	features = self.parse_qSupported_response(context)
	return self.AUXV_SUPPORT_FEATURE_NAME in features and features[
	self.AUXV_SUPPORT_FEATURE_NAME] == "+"

	def get_raw_auxv_data(self):
	# Start up llgs and inferior, and check for auxv support.
	if not self.has_auxv_support():
	self.skipTest("auxv data not supported")

	# Grab pointer size for target. We'll assume that is equivalent to an unsigned long on the target.
	# Auxv is specified in terms of pairs of unsigned longs.
	self.reset_test_sequence()
	self.add_process_info_collection_packets()

	context = self.expect_gdbremote_sequence()
	self.assertIsNotNone(context)

	proc_info = self.parse_process_info_response(context)
	self.assertIsNotNone(proc_info)
	self.assertIn("ptrsize", proc_info)
	word_size = int(proc_info["ptrsize"])

	OFFSET = 0
	LENGTH = 0x400

	# Grab the auxv data.
	self.reset_test_sequence()
	self.test_sequence.add_log_lines(
	[
	"read packet: $qXfer:auxv:read::{:x},{:x}:#00".format(
	OFFSET,
	LENGTH),
	{
	"direction": "send",
	"regex": re.compile(
	r"^\$([^E])(.*)#[0-9a-fA-F]{2}$",
	re.MULTILINE \| re.DOTALL),
	"capture": {
	1: "response_type",
	2: "content_raw"}}],
	True)

	context = self.expect_gdbremote_sequence()
	self.assertIsNotNone(context)

	# Ensure we end up with all auxv data in one packet.
	# FIXME don't assume it all comes back in one packet.
	self.assertEqual(context.get("response_type"), "l")

	# Decode binary data.
	content_raw = context.get("content_raw")
	self.assertIsNotNone(content_raw)
	return (word_size, self.decode_gdbremote_binary(content_raw))

	@skipIfWindows # no auxv support.
	@skipIfDarwin
	def test_supports_auxv(self):
	self.build()
	self.set_inferior_startup_launch()
	self.assertTrue(self.has_auxv_support())

	@skipIfWindows
	@expectedFailureNetBSD
	def test_auxv_data_is_correct_size(self):
	self.build()
	self.set_inferior_startup_launch()

	(word_size, auxv_data) = self.get_raw_auxv_data()
	self.assertIsNotNone(auxv_data)

	# Ensure auxv data is a multiple of 2*word_size (there should be two
	# unsigned long fields per auxv entry).
	self.assertEqual(len(auxv_data) % (2 * word_size), 0)
	self.trace("auxv contains {} entries".format(len(auxv_data) / (2*word_size)))

	@skipIfWindows
	@expectedFailureNetBSD
	def test_auxv_keys_look_valid(self):
	self.build()
	self.set_inferior_startup_launch()

	(word_size, auxv_data) = self.get_raw_auxv_data()
	self.assertIsNotNone(auxv_data)

	# Grab endian.
	self.reset_test_sequence()
	self.add_process_info_collection_packets()
	context = self.expect_gdbremote_sequence()
	self.assertIsNotNone(context)

	process_info = self.parse_process_info_response(context)
	self.assertIsNotNone(process_info)
	endian = process_info.get("endian")
	self.assertIsNotNone(endian)

	auxv_dict = self.build_auxv_dict(endian, word_size, auxv_data)
	self.assertIsNotNone(auxv_dict)

	# Verify keys look reasonable.
	for auxv_key in auxv_dict:
	self.assertTrue(auxv_key >= 1)
	self.assertTrue(auxv_key <= 1000)
	self.trace("auxv dict: {}".format(auxv_dict))

	@skipIfWindows
	@expectedFailureNetBSD
	def test_auxv_chunked_reads_work(self):
	self.build()
	self.set_inferior_startup_launch()

	# Verify that multiple smaller offset,length reads of auxv data
	# return the same data as a single larger read.

	# Grab the auxv data with a single large read here.
	(word_size, auxv_data) = self.get_raw_auxv_data()
	self.assertIsNotNone(auxv_data)

	# Grab endian.
	self.reset_test_sequence()
	self.add_process_info_collection_packets()
	context = self.expect_gdbremote_sequence()
	self.assertIsNotNone(context)

	process_info = self.parse_process_info_response(context)
	self.assertIsNotNone(process_info)
	endian = process_info.get("endian")
	self.assertIsNotNone(endian)

	auxv_dict = self.build_auxv_dict(endian, word_size, auxv_data)
	self.assertIsNotNone(auxv_dict)

	iterated_auxv_data = self.read_binary_data_in_chunks(
	"qXfer:auxv:read::", 2 * word_size)
	self.assertIsNotNone(iterated_auxv_data)

	auxv_dict_iterated = self.build_auxv_dict(
	endian, word_size, iterated_auxv_data)
	self.assertIsNotNone(auxv_dict_iterated)

	# Verify both types of data collection returned same content.
	self.assertEqual(auxv_dict_iterated, auxv_dict)