e07e1d4425
While auxv keys are usually small, e.g. less than 50, they can sometimes be larger, especially on a downstream kernel where a custom auxv entry is intentionally high to avoid conflicting with the standard lower numbers. This test fails on a system with an auxv value bigger than 1000, but instead of putting this test at that value plus one, it looks like 2023 (i.e. `AT_SUN_CAP_HW2`) is another large one out there. Use 2500 as a limit to still have this be a reasonable "small" check but still allow all known auxv keys. Semi-related change: this test case prints the auxv dict at the trace level, but only _after_ the assertion fails, making it not print what the offending value is as the test case aborts. Move it earlier so we can see what the "unreasonable" auxv value is.
159 lines
5.6 KiB
Python
159 lines
5.6 KiB
Python
import gdbremote_testcase
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from lldbsuite.test.decorators import *
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from lldbsuite.test.lldbtest import *
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from lldbsuite.test import lldbutil
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class TestGdbRemoteAuxvSupport(gdbremote_testcase.GdbRemoteTestCaseBase):
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AUXV_SUPPORT_FEATURE_NAME = "qXfer:auxv:read"
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def has_auxv_support(self):
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procs = self.prep_debug_monitor_and_inferior()
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self.add_qSupported_packets()
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context = self.expect_gdbremote_sequence()
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self.assertIsNotNone(context)
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features = self.parse_qSupported_response(context)
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return self.AUXV_SUPPORT_FEATURE_NAME in features and features[
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self.AUXV_SUPPORT_FEATURE_NAME] == "+"
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def get_raw_auxv_data(self):
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# Start up llgs and inferior, and check for auxv support.
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if not self.has_auxv_support():
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self.skipTest("auxv data not supported")
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# Grab pointer size for target. We'll assume that is equivalent to an unsigned long on the target.
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# Auxv is specified in terms of pairs of unsigned longs.
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self.reset_test_sequence()
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self.add_process_info_collection_packets()
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context = self.expect_gdbremote_sequence()
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self.assertIsNotNone(context)
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proc_info = self.parse_process_info_response(context)
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self.assertIsNotNone(proc_info)
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self.assertIn("ptrsize", proc_info)
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word_size = int(proc_info["ptrsize"])
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OFFSET = 0
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LENGTH = 0x400
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# Grab the auxv data.
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self.reset_test_sequence()
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self.test_sequence.add_log_lines(
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[
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"read packet: $qXfer:auxv:read::{:x},{:x}:#00".format(
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OFFSET,
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LENGTH),
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{
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"direction": "send",
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"regex": re.compile(
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r"^\$([^E])(.*)#[0-9a-fA-F]{2}$",
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re.MULTILINE | re.DOTALL),
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"capture": {
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1: "response_type",
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2: "content_raw"}}],
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True)
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context = self.expect_gdbremote_sequence()
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self.assertIsNotNone(context)
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# Ensure we end up with all auxv data in one packet.
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# FIXME don't assume it all comes back in one packet.
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self.assertEqual(context.get("response_type"), "l")
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# Decode binary data.
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content_raw = context.get("content_raw")
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self.assertIsNotNone(content_raw)
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return (word_size, self.decode_gdbremote_binary(content_raw))
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@skipIfWindows # no auxv support.
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@skipIfDarwin
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def test_supports_auxv(self):
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self.build()
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self.set_inferior_startup_launch()
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self.assertTrue(self.has_auxv_support())
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@skipIfWindows
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@expectedFailureNetBSD
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def test_auxv_data_is_correct_size(self):
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self.build()
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self.set_inferior_startup_launch()
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(word_size, auxv_data) = self.get_raw_auxv_data()
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self.assertIsNotNone(auxv_data)
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# Ensure auxv data is a multiple of 2*word_size (there should be two
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# unsigned long fields per auxv entry).
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self.assertEqual(len(auxv_data) % (2 * word_size), 0)
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self.trace("auxv contains {} entries".format(len(auxv_data) / (2*word_size)))
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@skipIfWindows
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@expectedFailureNetBSD
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def test_auxv_keys_look_valid(self):
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self.build()
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self.set_inferior_startup_launch()
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(word_size, auxv_data) = self.get_raw_auxv_data()
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self.assertIsNotNone(auxv_data)
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# Grab endian.
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self.reset_test_sequence()
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self.add_process_info_collection_packets()
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context = self.expect_gdbremote_sequence()
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self.assertIsNotNone(context)
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process_info = self.parse_process_info_response(context)
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self.assertIsNotNone(process_info)
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endian = process_info.get("endian")
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self.assertIsNotNone(endian)
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auxv_dict = self.build_auxv_dict(endian, word_size, auxv_data)
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self.assertIsNotNone(auxv_dict)
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# Verify keys look reasonable. While AUX values are most commonly
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# small (usually smaller than 50), they can sometimes be larger.
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self.trace("auxv dict: {}".format(auxv_dict))
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for auxv_key in auxv_dict:
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self.assertTrue(auxv_key >= 1)
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self.assertTrue(auxv_key <= 2500)
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@skipIfWindows
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@expectedFailureNetBSD
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def test_auxv_chunked_reads_work(self):
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self.build()
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self.set_inferior_startup_launch()
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# Verify that multiple smaller offset,length reads of auxv data
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# return the same data as a single larger read.
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# Grab the auxv data with a single large read here.
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(word_size, auxv_data) = self.get_raw_auxv_data()
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self.assertIsNotNone(auxv_data)
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# Grab endian.
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self.reset_test_sequence()
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self.add_process_info_collection_packets()
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context = self.expect_gdbremote_sequence()
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self.assertIsNotNone(context)
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process_info = self.parse_process_info_response(context)
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self.assertIsNotNone(process_info)
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endian = process_info.get("endian")
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self.assertIsNotNone(endian)
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auxv_dict = self.build_auxv_dict(endian, word_size, auxv_data)
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self.assertIsNotNone(auxv_dict)
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iterated_auxv_data = self.read_binary_data_in_chunks(
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"qXfer:auxv:read::", 2 * word_size)
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self.assertIsNotNone(iterated_auxv_data)
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auxv_dict_iterated = self.build_auxv_dict(
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endian, word_size, iterated_auxv_data)
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self.assertIsNotNone(auxv_dict_iterated)
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# Verify both types of data collection returned same content.
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self.assertEqual(auxv_dict_iterated, auxv_dict)
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