# -*- Python -*- import os import platform import re import shutil import subprocess import tempfile import lit.formats import lit.util from lit.llvm import llvm_config from lit.llvm.subst import ToolSubst from lit.llvm.subst import FindTool # Configuration file for the 'lit' test runner. # name: The name of this test suite. config.name = "MLIR" # TODO: Consolidate the logic for turning on the internal shell by default for all LLVM test suites. # See https://github.com/llvm/llvm-project/issues/106636 for more details. # # We prefer the lit internal shell which provides a better user experience on failures # unless the user explicitly disables it with LIT_USE_INTERNAL_SHELL=0 env var. use_lit_shell = True lit_shell_env = os.environ.get("LIT_USE_INTERNAL_SHELL") if lit_shell_env: use_lit_shell = lit.util.pythonize_bool(lit_shell_env) config.test_format = lit.formats.ShTest(execute_external=not use_lit_shell) # suffixes: A list of file extensions to treat as test files. config.suffixes = [ ".td", ".mlir", ".toy", ".ll", ".tc", ".py", ".yaml", ".test", ".pdll", ".c", ".spv", ] # test_source_root: The root path where tests are located. config.test_source_root = os.path.dirname(__file__) # test_exec_root: The root path where tests should be run. config.test_exec_root = os.path.join(config.mlir_obj_root, "test") config.substitutions.append(("%PATH%", config.environment["PATH"])) config.substitutions.append(("%shlibext", config.llvm_shlib_ext)) config.substitutions.append(("%llvm_src_root", config.llvm_src_root)) config.substitutions.append(("%mlir_src_root", config.mlir_src_root)) config.substitutions.append(("%host_cxx", config.host_cxx.strip())) config.substitutions.append(("%host_cc", config.host_cc.strip())) # Searches for a runtime library with the given name and returns the found path. # Correctly handles the platforms shared library directory and naming conventions. def find_runtime(name): path = "" for prefix in ["", "lib"]: path = os.path.join( config.llvm_shlib_dir, f"{prefix}{name}{config.llvm_shlib_ext}" ) if os.path.isfile(path): break return path # Searches for a runtime library with the given name and returns a tool # substitution of the same name and the found path. def add_runtime(name): return ToolSubst(f"%{name}", find_runtime(name)) # Provide the path to asan runtime lib 'libclang_rt.asan_osx_dynamic.dylib' if # available. This is darwin specific since it's currently only needed on darwin. # Stolen from llvm/test/lit.cfg.py with a few modifications def get_asan_rtlib(): if not "asan" in config.available_features: return "" if "Darwin" in config.host_os: # Find the asan rt lib resource_dir = ( subprocess.check_output([config.host_cc.strip(), "-print-resource-dir"]) .decode("utf-8") .strip() ) return os.path.join( resource_dir, "lib", "darwin", "libclang_rt.asan_osx_dynamic.dylib" ) if "Linux" in config.host_os: return ( subprocess.check_output( [ config.host_cxx.strip(), f"-print-file-name=libclang_rt.asan-{config.host_arch}.so", ] ) .decode("utf-8") .strip() ) return "" # On macOS, we can't do the DYLD_INSERT_LIBRARIES trick with a shim python # binary as the ASan interceptors get loaded too late. Also, when SIP is # enabled, we can't inject libraries into system binaries at all, so we need a # copy of the "real" python to work with. # Stolen from lldb/test/API/lit.cfg.py with a few modifications def find_real_python_interpreter(): # If we're running in a virtual environment, we have to copy Python into # the virtual environment for it to work. if sys.prefix != sys.base_prefix: copied_python = os.path.join(sys.prefix, "bin", "copied-python") else: copied_python = os.path.join(config.mlir_obj_root, "copied-python") # Avoid doing any work if we already copied the binary. if os.path.isfile(copied_python): return copied_python # Find the "real" python binary. real_python = ( subprocess.check_output( [ config.python_executable, os.path.join( os.path.dirname(os.path.realpath(__file__)), "get_darwin_real_python.py", ), ] ) .decode("utf-8") .strip() ) shutil.copy(real_python, copied_python) # Now make sure the copied Python works. The Python in Xcode has a relative # RPATH and cannot be copied. try: # We don't care about the output, just make sure it runs. subprocess.check_call([copied_python, "-V"]) except subprocess.CalledProcessError: # The copied Python didn't work. Assume we're dealing with the Python # interpreter in Xcode. Given that this is not a system binary SIP # won't prevent us form injecting the interceptors, but when running in # a virtual environment, we can't use it directly. Create a symlink # instead. os.remove(copied_python) os.symlink(real_python, copied_python) # The copied Python works. return copied_python llvm_config.with_system_environment(["HOME", "INCLUDE", "LIB", "TMP", "TEMP"]) llvm_config.use_default_substitutions() # excludes: A list of directories to exclude from the testsuite. The 'Inputs' # subdirectories contain auxiliary inputs for various tests in their parent # directories. config.excludes = [ "Inputs", "CMakeLists.txt", "README.txt", "LICENSE.txt", "lit.cfg.py", "lit.site.cfg.py", "get_darwin_real_python.py", ] # Tweak the PATH to include the tools dir. llvm_config.with_environment("PATH", config.mlir_tools_dir, append_path=True) llvm_config.with_environment("PATH", config.llvm_tools_dir, append_path=True) tool_dirs = [config.mlir_tools_dir, config.llvm_tools_dir] tools = [ "mlir-tblgen", "mlir-translate", "mlir-lsp-server", "mlir-capi-execution-engine-test", "mlir-capi-ir-test", "mlir-capi-irdl-test", "mlir-capi-llvm-test", "mlir-capi-pass-test", "mlir-capi-pdl-test", "mlir-capi-quant-test", "mlir-capi-rewrite-test", "mlir-capi-sparse-tensor-test", "mlir-capi-transform-test", "mlir-capi-transform-interpreter-test", "mlir-capi-translation-test", "mlir-runner", add_runtime("mlir_runner_utils"), add_runtime("mlir_c_runner_utils"), add_runtime("mlir_async_runtime"), add_runtime("mlir_float16_utils"), "mlir-linalg-ods-yaml-gen", "mlir-reduce", "mlir-pdll", "not", ] if config.enable_vulkan_runner: tools.extend([add_runtime("mlir_vulkan_runtime")]) if config.enable_rocm_runner: tools.extend([add_runtime("mlir_rocm_runtime")]) if config.enable_cuda_runner: tools.extend([add_runtime("mlir_cuda_runtime")]) if config.enable_sycl_runner: tools.extend([add_runtime("mlir_sycl_runtime")]) if config.enable_spirv_cpu_runner: tools.extend([add_runtime("mlir_spirv_cpu_runtime")]) if config.mlir_run_arm_sve_tests or config.mlir_run_arm_sme_tests: tools.extend([add_runtime("mlir_arm_runner_utils")]) if config.mlir_run_arm_sme_tests: config.substitutions.append( ( "%arm_sme_abi_shlib", # Use passed Arm SME ABI routines, if not present default to stubs. config.arm_sme_abi_routines_shlib or find_runtime("mlir_arm_sme_abi_stubs"), ) ) # The following tools are optional tools.extend( [ ToolSubst("toyc-ch1", unresolved="ignore"), ToolSubst("toyc-ch2", unresolved="ignore"), ToolSubst("toyc-ch3", unresolved="ignore"), ToolSubst("toyc-ch4", unresolved="ignore"), ToolSubst("toyc-ch5", unresolved="ignore"), ToolSubst("toyc-ch6", unresolved="ignore"), ToolSubst("toyc-ch7", unresolved="ignore"), ToolSubst("transform-opt-ch2", unresolved="ignore"), ToolSubst("transform-opt-ch3", unresolved="ignore"), ToolSubst("transform-opt-ch4", unresolved="ignore"), ToolSubst("mlir-transform-opt", unresolved="ignore"), ToolSubst("%mlir_lib_dir", config.mlir_lib_dir, unresolved="ignore"), ToolSubst("%mlir_src_dir", config.mlir_src_root, unresolved="ignore"), ] ) python_executable = config.python_executable # Python configuration with sanitizer requires some magic preloading. This will only work on clang/linux/darwin. # TODO: detect Windows situation (or mark these tests as unsupported on these platforms). if "asan" in config.available_features: if "Linux" in config.host_os: python_executable = ( f"env LD_PRELOAD={get_asan_rtlib()} {config.python_executable}" ) if "Darwin" in config.host_os: # Ensure we use a non-shim Python executable, for the `DYLD_INSERT_LIBRARIES` # env variable to take effect real_python_executable = find_real_python_interpreter() if real_python_executable: python_executable = real_python_executable lit_config.note( "Using {} instead of {}".format( python_executable, config.python_executable ) ) asan_rtlib = get_asan_rtlib() lit_config.note("Using ASan rtlib {}".format(asan_rtlib)) config.environment["MallocNanoZone"] = "0" config.environment["ASAN_OPTIONS"] = "detect_stack_use_after_return=1" config.environment["DYLD_INSERT_LIBRARIES"] = asan_rtlib # On Windows the path to python could contains spaces in which case it needs to be provided in quotes. # This is the equivalent of how %python is setup in llvm/utils/lit/lit/llvm/config.py. elif "Windows" in config.host_os: python_executable = '"%s"' % (python_executable) tools.extend( [ ToolSubst("%PYTHON", python_executable, unresolved="ignore"), ] ) if "MLIR_OPT_CHECK_IR_ROUNDTRIP" in os.environ: tools.extend( [ ToolSubst("mlir-opt", "mlir-opt --verify-roundtrip", unresolved="fatal"), ] ) else: tools.extend(["mlir-opt"]) llvm_config.add_tool_substitutions(tools, tool_dirs) # FileCheck -enable-var-scope is enabled by default in MLIR test # This option avoids to accidentally reuse variable across -LABEL match, # it can be explicitly opted-in by prefixing the variable name with $ config.environment["FILECHECK_OPTS"] = "-enable-var-scope --allow-unused-prefixes=false" # Add the python path for both the source and binary tree. # Note that presently, the python sources come from the source tree and the # binaries come from the build tree. This should be unified to the build tree # by copying/linking sources to build. if config.enable_bindings_python: config.environment["PYTHONPATH"] = os.getenv("MLIR_LIT_PYTHONPATH", "") llvm_config.with_environment( "PYTHONPATH", [ os.path.join(config.mlir_obj_root, "python_packages", "mlir_core"), os.path.join(config.mlir_obj_root, "python_packages", "mlir_test"), ], append_path=True, ) if config.enable_assertions: config.available_features.add("asserts") else: config.available_features.add("noasserts") def have_host_jit_feature_support(feature_name): mlir_runner_exe = lit.util.which("mlir-runner", config.mlir_tools_dir) if not mlir_runner_exe: return False try: mlir_runner_cmd = subprocess.Popen( [mlir_runner_exe, "--host-supports-" + feature_name], stdout=subprocess.PIPE, ) except OSError: print("could not exec mlir-runner") return False mlir_runner_out = mlir_runner_cmd.stdout.read().decode("ascii") mlir_runner_cmd.wait() return "true" in mlir_runner_out if have_host_jit_feature_support("jit"): config.available_features.add("host-supports-jit") if config.run_nvptx_tests: config.available_features.add("host-supports-nvptx") if config.run_rocm_tests: config.available_features.add("host-supports-amdgpu") if config.arm_emulator_executable: config.available_features.add("arm-emulator")