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01a28ca7f8
Summary: This aims to replace the different decorators we've had on each libc++ test with a single solution. Each libc++ will be assigned to the "libc++" category and a single central piece of code will decide whether we are actually able to run libc++ test in the given configuration by enabling or disabling the category (while giving the user the opportunity to override this). I started this effort because I wanted to get libc++ tests running on android, and none of the existing decorators worked for this use case: - skipIfGcc - incorrect, we can build libc++ executables on android with gcc (in fact, after this, we can now do it on linux as well) - lldbutil.skip_if_library_missing - this checks whether libc++.so is loaded in the proces, which fails in case of a statically linked libc++ (this makes copying executables to the remote target easier to manage). To make this work I needed to split out the pseudo_barrier code from the force-included file, as libc++'s atomic does not play well with gcc on linux, and this made every test fail, even though we need the code only in the threading tests. So far, I am only annotating one of the tests with this category. If this does not break anything, I'll proceed to update the rest. Reviewers: jingham, zturner, EricWF Subscribers: srhines, lldb-commits Differential Revision: https://reviews.llvm.org/D30984 llvm-svn: 299028
167 lines
5.3 KiB
Python
167 lines
5.3 KiB
Python
""" This module contains functions used by the test cases to hide the
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architecture and/or the platform dependent nature of the tests. """
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from __future__ import absolute_import
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# System modules
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import itertools
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import re
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import subprocess
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import sys
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# Third-party modules
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import six
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from six.moves.urllib import parse as urlparse
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# LLDB modules
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from . import configuration
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import use_lldb_suite
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import lldb
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def check_first_register_readable(test_case):
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arch = test_case.getArchitecture()
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if arch in ['x86_64', 'i386']:
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test_case.expect("register read eax", substrs=['eax = 0x'])
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elif arch in ['arm']:
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test_case.expect("register read r0", substrs=['r0 = 0x'])
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elif arch in ['aarch64']:
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test_case.expect("register read x0", substrs=['x0 = 0x'])
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elif re.match("mips", arch):
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test_case.expect("register read zero", substrs=['zero = 0x'])
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elif arch in ['s390x']:
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test_case.expect("register read r0", substrs=['r0 = 0x'])
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else:
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# TODO: Add check for other architectures
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test_case.fail(
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"Unsupported architecture for test case (arch: %s)" %
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test_case.getArchitecture())
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def _run_adb_command(cmd, device_id):
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device_id_args = []
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if device_id:
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device_id_args = ["-s", device_id]
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full_cmd = ["adb"] + device_id_args + cmd
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p = subprocess.Popen(
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full_cmd,
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stdout=subprocess.PIPE,
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stderr=subprocess.PIPE)
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stdout, stderr = p.communicate()
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return p.returncode, stdout, stderr
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def target_is_android():
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if not hasattr(target_is_android, 'result'):
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triple = lldb.DBG.GetSelectedPlatform().GetTriple()
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match = re.match(".*-.*-.*-android", triple)
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target_is_android.result = match is not None
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return target_is_android.result
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def android_device_api():
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if not hasattr(android_device_api, 'result'):
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assert configuration.lldb_platform_url is not None
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device_id = None
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parsed_url = urlparse.urlparse(configuration.lldb_platform_url)
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host_name = parsed_url.netloc.split(":")[0]
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if host_name != 'localhost':
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device_id = host_name
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if device_id.startswith('[') and device_id.endswith(']'):
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device_id = device_id[1:-1]
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retcode, stdout, stderr = _run_adb_command(
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["shell", "getprop", "ro.build.version.sdk"], device_id)
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if retcode == 0:
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android_device_api.result = int(stdout)
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else:
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raise LookupError(
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">>> Unable to determine the API level of the Android device.\n"
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">>> stdout:\n%s\n"
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">>> stderr:\n%s\n" %
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(stdout, stderr))
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return android_device_api.result
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def match_android_device(device_arch, valid_archs=None, valid_api_levels=None):
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if not target_is_android():
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return False
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if valid_archs is not None and device_arch not in valid_archs:
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return False
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if valid_api_levels is not None and android_device_api() not in valid_api_levels:
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return False
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return True
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def finalize_build_dictionary(dictionary):
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if target_is_android():
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if dictionary is None:
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dictionary = {}
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dictionary["OS"] = "Android"
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if android_device_api() >= 16:
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dictionary["PIE"] = 1
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return dictionary
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def getHostPlatform():
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"""Returns the host platform running the test suite."""
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# Attempts to return a platform name matching a target Triple platform.
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if sys.platform.startswith('linux'):
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return 'linux'
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elif sys.platform.startswith('win32'):
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return 'windows'
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elif sys.platform.startswith('darwin'):
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return 'darwin'
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elif sys.platform.startswith('freebsd'):
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return 'freebsd'
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elif sys.platform.startswith('netbsd'):
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return 'netbsd'
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else:
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return sys.platform
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def getDarwinOSTriples():
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return ['darwin', 'macosx', 'ios']
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def getPlatform():
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"""Returns the target platform which the tests are running on."""
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platform = lldb.DBG.GetSelectedPlatform().GetTriple().split('-')[2]
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if platform.startswith('freebsd'):
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platform = 'freebsd'
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elif platform.startswith('netbsd'):
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platform = 'netbsd'
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return platform
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def platformIsDarwin():
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"""Returns true if the OS triple for the selected platform is any valid apple OS"""
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return getPlatform() in getDarwinOSTriples()
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class _PlatformContext(object):
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"""Value object class which contains platform-specific options."""
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def __init__(self, shlib_environment_var, shlib_prefix, shlib_extension):
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self.shlib_environment_var = shlib_environment_var
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self.shlib_prefix = shlib_prefix
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self.shlib_extension = shlib_extension
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def createPlatformContext():
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if platformIsDarwin():
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return _PlatformContext('DYLD_LIBRARY_PATH', 'lib', 'dylib')
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elif getPlatform() in ("freebsd", "linux", "netbsd"):
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return _PlatformContext('LD_LIBRARY_PATH', 'lib', 'so')
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else:
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return None
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def hasChattyStderr(test_case):
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"""Some targets produce garbage on the standard error output. This utility function
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determines whether the tests can be strict about the expected stderr contents."""
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if match_android_device(test_case.getArchitecture(), ['aarch64'], [22]):
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return True # The dynamic linker on the device will complain about unknown DT entries
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return False
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