# -*- coding: utf-8 -*- #------------------------------------------------------------------------- # drawElements Quality Program utilities # -------------------------------------- # # Copyright 2015 The Android Open Source Project # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # #------------------------------------------------------------------------- from build.common import * from build.config import * from build.build import * import os import sys import string import socket import fnmatch from datetime import datetime BASE_NIGHTLY_DIR = os.path.normpath(os.path.join(DEQP_DIR, "..", "deqp-nightly")) BASE_BUILD_DIR = os.path.join(BASE_NIGHTLY_DIR, "build") BASE_LOGS_DIR = os.path.join(BASE_NIGHTLY_DIR, "logs") BASE_REFS_DIR = os.path.join(BASE_NIGHTLY_DIR, "refs") EXECUTOR_PATH = "executor/executor" LOG_TO_CSV_PATH = "executor/testlog-to-csv" EXECSERVER_PATH = "execserver/execserver" CASELIST_PATH = os.path.join(DEQP_DIR, "Candy", "Data") COMPARE_NUM_RESULTS = 4 COMPARE_REPORT_NAME = "nightly-report.html" COMPARE_REPORT_TMPL = ''' ${TITLE}

${TITLE}

${RESULTS}
''' class NightlyRunConfig: def __init__(self, name, buildConfig, generator, binaryName, testset, args = [], exclude = [], ignore = []): self.name = name self.buildConfig = buildConfig self.generator = generator self.binaryName = binaryName self.testset = testset self.args = args self.exclude = exclude self.ignore = ignore def getBinaryPath(self, basePath): return os.path.join(self.buildConfig.getBuildDir(), self.generator.getBinaryPath(self.buildConfig.getBuildType(), basePath)) class NightlyBuildConfig(BuildConfig): def __init__(self, name, buildType, args): BuildConfig.__init__(self, os.path.join(BASE_BUILD_DIR, name), buildType, args) class TestCaseResult: def __init__ (self, name, statusCode): self.name = name self.statusCode = statusCode class MultiResult: def __init__ (self, name, statusCodes): self.name = name self.statusCodes = statusCodes class BatchResult: def __init__ (self, name): self.name = name self.results = [] def parseResultCsv (data): lines = data.splitlines()[1:] results = [] for line in lines: items = line.split(",") results.append(TestCaseResult(items[0], items[1])) return results def readTestCaseResultsFromCSV (filename): return parseResultCsv(readFile(filename)) def readBatchResultFromCSV (filename, batchResultName = None): batchResult = BatchResult(batchResultName if batchResultName != None else os.path.basename(filename)) batchResult.results = readTestCaseResultsFromCSV(filename) return batchResult def getResultTimestamp (): return datetime.now().strftime("%Y-%m-%d-%H-%M") def getCompareFilenames (logsDir): files = [] for file in os.listdir(logsDir): fullPath = os.path.join(logsDir, file) if os.path.isfile(fullPath) and fnmatch.fnmatch(file, "*.csv"): files.append(fullPath) files.sort() return files[-COMPARE_NUM_RESULTS:] def parseAsCSV (logPath, config): args = [config.getBinaryPath(LOG_TO_CSV_PATH), "--mode=all", "--format=csv", logPath] proc = subprocess.Popen(args, stdout=subprocess.PIPE, stderr=subprocess.PIPE) out, err = proc.communicate() return out def computeUnifiedTestCaseList (batchResults): caseList = [] caseSet = set() for batchResult in batchResults: for result in batchResult.results: if not result.name in caseSet: caseList.append(result.name) caseSet.add(result.name) return caseList def computeUnifiedResults (batchResults): def genResultMap (batchResult): resMap = {} for result in batchResult.results: resMap[result.name] = result return resMap resultMap = [genResultMap(r) for r in batchResults] caseList = computeUnifiedTestCaseList(batchResults) results = [] for caseName in caseList: statusCodes = [] for i in range(0, len(batchResults)): result = resultMap[i][caseName] if caseName in resultMap[i] else None statusCode = result.statusCode if result != None else 'Missing' statusCodes.append(statusCode) results.append(MultiResult(caseName, statusCodes)) return results def allStatusCodesEqual (result): firstCode = result.statusCodes[0] for i in range(1, len(result.statusCodes)): if result.statusCodes[i] != firstCode: return False return True def computeDiffResults (unifiedResults): diff = [] for result in unifiedResults: if not allStatusCodesEqual(result): diff.append(result) return diff def genCompareReport (batchResults, title, ignoreCases): class TableRow: def __init__ (self, testCaseName, innerHTML): self.testCaseName = testCaseName self.innerHTML = innerHTML unifiedResults = computeUnifiedResults(batchResults) diffResults = computeDiffResults(unifiedResults) rows = [] # header headerCol = 'Test case\n' for batchResult in batchResults: headerCol += '%s\n' % batchResult.name rows.append(TableRow(None, headerCol)) # results for result in diffResults: col = '%s\n' % result.name for statusCode in result.statusCodes: col += '%s\n' % (statusCode, statusCode) rows.append(TableRow(result.name, col)) tableStr = "" for row in rows: if row.testCaseName is not None and matchesAnyPattern(row.testCaseName, ignoreCases): tableStr += '\n%s\n' % row.innerHTML else: tableStr += '\n%s\n' % row.innerHTML html = COMPARE_REPORT_TMPL html = html.replace("${TITLE}", title) html = html.replace("${RESULTS}", tableStr) return html def matchesAnyPattern (name, patterns): for pattern in patterns: if fnmatch.fnmatch(name, pattern): return True return False def statusCodesMatch (refResult, resResult): return refResult == 'Missing' or resResult == 'Missing' or refResult == resResult def compareBatchResults (referenceBatch, resultBatch, ignoreCases): unifiedResults = computeUnifiedResults([referenceBatch, resultBatch]) failedCases = [] for result in unifiedResults: if not matchesAnyPattern(result.name, ignoreCases): refResult = result.statusCodes[0] resResult = result.statusCodes[1] if not statusCodesMatch(refResult, resResult): failedCases.append(result) return failedCases def getUnusedPort (): # \note Not 100%-proof method as other apps may grab this port before we launch execserver s = socket.socket(socket.AF_INET, socket.SOCK_STREAM) s.bind(('localhost', 0)) addr, port = s.getsockname() s.close() return port def runNightly (config): build(config.buildConfig, config.generator) # Run parameters timestamp = getResultTimestamp() logDir = os.path.join(BASE_LOGS_DIR, config.name) testLogPath = os.path.join(logDir, timestamp + ".qpa") infoLogPath = os.path.join(logDir, timestamp + ".txt") csvLogPath = os.path.join(logDir, timestamp + ".csv") compareLogPath = os.path.join(BASE_REFS_DIR, config.name + ".csv") port = getUnusedPort() if not os.path.exists(logDir): os.makedirs(logDir) if os.path.exists(testLogPath) or os.path.exists(infoLogPath): raise Exception("Result '%s' already exists", timestamp) # Paths, etc. binaryName = config.generator.getBinaryPath(config.buildConfig.getBuildType(), os.path.basename(config.binaryName)) workingDir = os.path.join(config.buildConfig.getBuildDir(), os.path.dirname(config.binaryName)) execArgs = [ config.getBinaryPath(EXECUTOR_PATH), '--start-server=%s' % config.getBinaryPath(EXECSERVER_PATH), '--port=%d' % port, '--binaryname=%s' % binaryName, '--cmdline=%s' % string.join([shellquote(arg) for arg in config.args], " "), '--workdir=%s' % workingDir, '--caselistdir=%s' % CASELIST_PATH, '--testset=%s' % string.join(config.testset, ","), '--out=%s' % testLogPath, '--info=%s' % infoLogPath, '--summary=no' ] if len(config.exclude) > 0: execArgs += ['--exclude=%s' % string.join(config.exclude, ",")] execute(execArgs) # Translate to CSV for comparison purposes lastResultCsv = parseAsCSV(testLogPath, config) writeFile(csvLogPath, lastResultCsv) if os.path.exists(compareLogPath): refBatchResult = readBatchResultFromCSV(compareLogPath, "reference") else: refBatchResult = None # Generate comparison report compareFilenames = getCompareFilenames(logDir) batchResults = [readBatchResultFromCSV(filename) for filename in compareFilenames] if refBatchResult != None: batchResults = [refBatchResult] + batchResults writeFile(COMPARE_REPORT_NAME, genCompareReport(batchResults, config.name, config.ignore)) print("Comparison report written to %s" % COMPARE_REPORT_NAME) # Compare to reference if refBatchResult != None: curBatchResult = BatchResult("current") curBatchResult.results = parseResultCsv(lastResultCsv) failedCases = compareBatchResults(refBatchResult, curBatchResult, config.ignore) print("") for result in failedCases: print("MISMATCH: %s: expected %s, got %s" % (result.name, result.statusCodes[0], result.statusCodes[1])) print("") print("%d / %d cases passed, run %s" % (len(curBatchResult.results)-len(failedCases), len(curBatchResult.results), "FAILED" if len(failedCases) > 0 else "passed")) if len(failedCases) > 0: return False return True # Configurations DEFAULT_WIN32_GENERATOR = ANY_VS_X32_GENERATOR DEFAULT_WIN64_GENERATOR = ANY_VS_X64_GENERATOR WGL_X64_RELEASE_BUILD_CFG = NightlyBuildConfig("wgl_x64_release", "Release", ['-DDEQP_TARGET=win32_wgl']) ARM_GLES3_EMU_X32_RELEASE_BUILD_CFG = NightlyBuildConfig("arm_gles3_emu_release", "Release", ['-DDEQP_TARGET=arm_gles3_emu']) BASE_ARGS = ['--deqp-visibility=hidden', '--deqp-watchdog=enable', '--deqp-crashhandler=enable'] CONFIGS = [ NightlyRunConfig( name = "wgl_x64_release_gles2", buildConfig = WGL_X64_RELEASE_BUILD_CFG, generator = DEFAULT_WIN64_GENERATOR, binaryName = "modules/gles2/deqp-gles2", args = ['--deqp-gl-config-name=rgba8888d24s8ms0'] + BASE_ARGS, testset = ["dEQP-GLES2.info.*", "dEQP-GLES2.functional.*", "dEQP-GLES2.usecases.*"], exclude = [ "dEQP-GLES2.functional.shaders.loops.*while*unconditional_continue*", "dEQP-GLES2.functional.shaders.loops.*while*only_continue*", "dEQP-GLES2.functional.shaders.loops.*while*double_continue*", ], ignore = [] ), NightlyRunConfig( name = "wgl_x64_release_gles3", buildConfig = WGL_X64_RELEASE_BUILD_CFG, generator = DEFAULT_WIN64_GENERATOR, binaryName = "modules/gles3/deqp-gles3", args = ['--deqp-gl-config-name=rgba8888d24s8ms0'] + BASE_ARGS, testset = ["dEQP-GLES3.info.*", "dEQP-GLES3.functional.*", "dEQP-GLES3.usecases.*"], exclude = [ "dEQP-GLES3.functional.shaders.loops.*while*unconditional_continue*", "dEQP-GLES3.functional.shaders.loops.*while*only_continue*", "dEQP-GLES3.functional.shaders.loops.*while*double_continue*", ], ignore = [ "dEQP-GLES3.functional.transform_feedback.*", "dEQP-GLES3.functional.occlusion_query.*", "dEQP-GLES3.functional.lifetime.*", "dEQP-GLES3.functional.fragment_ops.depth_stencil.stencil_ops", ] ), NightlyRunConfig( name = "wgl_x64_release_gles31", buildConfig = WGL_X64_RELEASE_BUILD_CFG, generator = DEFAULT_WIN64_GENERATOR, binaryName = "modules/gles31/deqp-gles31", args = ['--deqp-gl-config-name=rgba8888d24s8ms0'] + BASE_ARGS, testset = ["dEQP-GLES31.*"], exclude = [], ignore = [ "dEQP-GLES31.functional.draw_indirect.negative.command_bad_alignment_3", "dEQP-GLES31.functional.draw_indirect.negative.command_offset_not_in_buffer", "dEQP-GLES31.functional.vertex_attribute_binding.negative.bind_vertex_buffer_negative_offset", "dEQP-GLES31.functional.ssbo.layout.single_basic_type.packed.mediump_uint", "dEQP-GLES31.functional.blend_equation_advanced.basic.*", "dEQP-GLES31.functional.blend_equation_advanced.srgb.*", "dEQP-GLES31.functional.blend_equation_advanced.barrier.*", "dEQP-GLES31.functional.uniform_location.*", "dEQP-GLES31.functional.debug.negative_coverage.log.state.get_framebuffer_attachment_parameteriv", "dEQP-GLES31.functional.debug.negative_coverage.log.state.get_renderbuffer_parameteriv", "dEQP-GLES31.functional.debug.error_filters.case_0", "dEQP-GLES31.functional.debug.error_filters.case_2", ] ), NightlyRunConfig( name = "wgl_x64_release_gl3", buildConfig = WGL_X64_RELEASE_BUILD_CFG, generator = DEFAULT_WIN64_GENERATOR, binaryName = "modules/gl3/deqp-gl3", args = ['--deqp-gl-config-name=rgba8888d24s8ms0'] + BASE_ARGS, testset = ["dEQP-GL3.info.*", "dEQP-GL3.functional.*"], exclude = [ "dEQP-GL3.functional.shaders.loops.*while*unconditional_continue*", "dEQP-GL3.functional.shaders.loops.*while*only_continue*", "dEQP-GL3.functional.shaders.loops.*while*double_continue*", ], ignore = [ "dEQP-GL3.functional.transform_feedback.*" ] ), NightlyRunConfig( name = "arm_gles3_emu_x32_egl", buildConfig = ARM_GLES3_EMU_X32_RELEASE_BUILD_CFG, generator = DEFAULT_WIN32_GENERATOR, binaryName = "modules/egl/deqp-egl", args = BASE_ARGS, testset = ["dEQP-EGL.info.*", "dEQP-EGL.functional.*"], exclude = [ "dEQP-EGL.functional.sharing.gles2.multithread.*", "dEQP-EGL.functional.multithread.*", ], ignore = [] ), NightlyRunConfig( name = "opencl_x64_release", buildConfig = NightlyBuildConfig("opencl_x64_release", "Release", ['-DDEQP_TARGET=opencl_icd']), generator = DEFAULT_WIN64_GENERATOR, binaryName = "modules/opencl/deqp-opencl", args = ['--deqp-cl-platform-id=2 --deqp-cl-device-ids=1'] + BASE_ARGS, testset = ["dEQP-CL.*"], exclude = ["dEQP-CL.performance.*", "dEQP-CL.robustness.*", "dEQP-CL.stress.memory.*"], ignore = [ "dEQP-CL.scheduler.random.*", "dEQP-CL.language.set_kernel_arg.random_structs.*", "dEQP-CL.language.builtin_function.work_item.invalid_get_global_offset", "dEQP-CL.language.call_function.arguments.random_structs.*", "dEQP-CL.language.call_kernel.random_structs.*", "dEQP-CL.language.inf_nan.nan.frexp.float", "dEQP-CL.language.inf_nan.nan.lgamma_r.float", "dEQP-CL.language.inf_nan.nan.modf.float", "dEQP-CL.language.inf_nan.nan.sqrt.float", "dEQP-CL.api.multithread.*", "dEQP-CL.api.callback.random.nested.*", "dEQP-CL.api.memory_migration.out_of_order_host.image2d.single_device_kernel_migrate_validate_abb", "dEQP-CL.api.memory_migration.out_of_order.image2d.single_device_kernel_migrate_kernel_validate_abbb", "dEQP-CL.image.addressing_filtering12.1d_array.*", "dEQP-CL.image.addressing_filtering12.2d_array.*" ] ) ] if __name__ == "__main__": config = None if len(sys.argv) == 2: cfgName = sys.argv[1] for curCfg in CONFIGS: if curCfg.name == cfgName: config = curCfg break if config != None: isOk = runNightly(config) if not isOk: sys.exit(-1) else: print("%s: [config]" % sys.argv[0]) print("") print(" Available configs:") for config in CONFIGS: print(" %s" % config.name) sys.exit(-1)