def setupDejagnuEnvironment(self, env, testsuiteSource, cpu): """ Return an updated ENV for running dejagnu testsuites """ env['METAG_INST_ROOT'] = self.config.getVariable("METAG_INST_ROOT") # We need to use the gcc2 version of dejagnu as it is contains our config env['DEJAGNULIBS'] = os.path.join(testsuiteSource, "metag", "tools", "gcc2", "dejagnu") if not self.config.getVariable("Execute Tests?"): env['METAG_NOEXECUTE'] = "1" if self.version.endswith(".sim"): # We are going to use the linux simulator env['METAG_FSIM_ROOT'] = self.config.getVariable("METAG_FSIM_ROOT") # WORK NEEDED: Deprecate this env['FSIM_INST_ROOT'] = env['METAG_FSIM_ROOT'] if cpu == "mtx": env['METAG_SIM'] = "mtx" else: env['METAG_SIM'] = self.config.getVariable("Simulator Config") else: # Find out about the DA that has been allocated da = self.getResource("Debug Adapter") env['DA_NAME'] = da.getAttributeValue("DA Name") if not 'PATH' in env: env['PATH'] = "%s:%s" % (env['DEJAGNULIBS'], os.environ['PATH']) else: env['PATH'] = "%s:%s" % (env['DEJAGNULIBS'], env['PATH']) expect = self.neoSelect("Expect", "5.45") if expect == None: self.error("Unable to locate Expect component in neo") env['PATH'] = "%s:%s" % (os.path.join(expect, "bin"), env['PATH']) env['PATH'] = "%s:%s" % (os.path.join( sys.path[0], "addons", "simulator", "embedded"), env['PATH']) # Add the neo path env['PATH'] = CONFIG.makeSearchPath( [CONFIG.getProgramDir(CONFIG.neo), env['PATH']]) return env
def run(self): binutils = os.path.join(self.testrun.getSharedPath("Binutils"), "binutils") dejagnu = os.path.join(self.testrun.getSharedPath("Dejagnu"), "dejagnu") triple = self.config.getVariable("Triple") # Create the site config to run the suite self.make_site(binutils, triple) toolchain_root = self.config.getVariable("Toolchain Root") env = {} env['PATH'] = CONFIG.makeSearchPath([os.path.join(toolchain_root, "bin"), dejagnu, os.environ['PATH']]) env['LC_ALL'] = 'C' if triple.startswith("nanomips"): arch = "nanomips" else: arch = "mips" target_board = arch + "-sim-mti32" cmd = ["runtest", "--tool", "binutils", "--target_board=%s" % target_board] self.execute(env=env, command=cmd) self.registerLogFile(os.path.join (self.getWorkPath(), "binutils.log"), compress=True) self.registerLogFile(os.path.join (self.getWorkPath(), "binutils.sum"), compress=True) summary = self.parse (os.path.join (self.getWorkPath(), "binutils.log")) return self.success(summary)
def run(self): dir_cadese = os.path.join('/user', 'local_cosy') workdir = os.path.join(self.config.getVariable("ST_SOURCE_ROOT"), "supertest") spoofStdin = [ [], ["cd", "results/log"], [ "for f in *; do ../../bin/log-report -tables $f | ../../do-tests/overtest_results_parser.pl > $f.yaml; done" ], ["cat *.yaml >results.yaml"], ["exit"] ] spoofStdin = [' '.join(x) for x in spoofStdin] cmd = ["product", "enter"] env = { 'PATH': CONFIG.makeSearchPath([ CONFIG.getProgramDir(CONFIG.neo), '%s/product/bin:%s/cadese/bin:%s/sccs/bin' % (dir_cadese, dir_cadese, dir_cadese), os.environ['PATH'] ]) } result = self.execute(env=env, command=cmd, workdir=workdir, spoofStdin='\n'.join(spoofStdin)) if not result == 0: self.error("Failed to run command") yaml_file = os.path.join(workdir, "build", "results", "log", "results.yaml") self.registerLogFile(yaml_file) data = yaml.load(open(yaml_file, "r")) failed = [cfgdat for cfgnam, cfgdat in data.items()] failed = [ cfgdat['unexpected_failed'] if 'unexpected_failed' in cfgdat else [] for cfgdat in failed ] failed = [x for y in failed for x in y] if len(failed) == 0: return self.success() else: self.error("Sanity check failed")
def run(self): host = self.getResource('Execution Host') p4port = str(host.getAttributeValue('P4PORT')) workdir = self.config.getVariable("MECC_RELEASE_ROOT") metag_inst_root = self.config.getVariable("METAG_INST_ROOT") COBIT_INST_ROOT = self.config.getVariable("COBIT_INST_ROOT") cmp_ver = self.testrun.getVersion("BuildMECCToolkit") license_file = os.path.join(os.path.expanduser("~"), "licenses") env = { 'P4PORT': p4port, 'P4USER': '******', } env['PATH'] = CONFIG.makeSearchPath([ CONFIG.getProgramDir(CONFIG.neo), os.path.join(COBIT_INST_ROOT, 'bin'), os.environ['PATH'] ]) cmd = [ './scripts/all.sh', '--TOOLKIT_VERSION', cmp_ver, '--METAG_INST_ROOT', metag_inst_root, '--LICENSE_FILE', license_file ] if bool(self.config.getVariable("MECC_BOOTSTRAP")): cmd.append('--BOOTSTRAP') if not self.config.getVariable("MECC_DO_WINDOWS"): cmd.extend(["--SKIP_WINDOWS"]) mingw_root = self.config.getVariable("GCCMINGW_ROOT") cmd.extend(['--MINGW', mingw_root]) env['EXTRA_PATH'] = CONFIG.makeSearchPath([]) result = self.execute(env=env, command=cmd, workdir="%s/mecc/release" % workdir) if result != 0: self.error("Could not build MECC") return self.success()
def runARM(self): isa = self.config.getVariable("Instruction Set") fpuconfig = self.config.getVariable("FPU Variant") env = {} env['PATH'] = CONFIG.makeSearchPath( [CONFIG.getProgramDir(CONFIG.cmake), os.environ['PATH']]) env['INSTALL_DIR'] = self.getSharedPath() # Order of toolkits is important as using Linux also requires a GCC embedded # toolchain. cmd = [] buildtests = [] isalist = [] if isa in ("Any", "ARM"): isalist.append("arm") if isa in ("Any", "Thumb2"): isalist.append("thumb") fpulist = [] if fpuconfig == "Any": fpulist.extend(["singledouble", "double"]) else: fpulist.append(fpuconfig) for isa in isalist: if isa in A117705.atests: for fpuconfig in fpulist: if fpuconfig in A117705.atests[isa]: buildtests.append(A117705.atests[isa][fpuconfig]) # Build with META Embedded GCC env['ARM_INST_ROOT'] = self.config.getVariable("ARM_INST_ROOT") cmd = ["make", "-f", "Makefile.ARM", "all-linux"] bulletdir = os.path.join(self.getWorkPath(), "metag", "support", "examples", "bullet") for test in buildtests: command = cmd[:] command.extend(test) if self.execute(command=command, env=env, workdir=bulletdir) != 0: self.error("Failed to build test: %s" % test) return self.success()
def run(self): host = self.getResource('Execution Host') p4port = str(host.getAttributeValue('P4PORT')) COBIT_INST_ROOT = self.config.getVariable("COBIT_INST_ROOT") root = self.getWorkPath() env = { 'PATH': CONFIG.makeSearchPath([ CONFIG.getProgramDir(CONFIG.neo), os.path.join(COBIT_INST_ROOT, 'bin'), os.environ['PATH'] ]), 'P4PORT': p4port, 'P4USER': '******', } command = ['p4_cmp', 'fetch', 'SuperTest'] if self.version == 'CHANGELIST': changelist = self.config.getVariable('ST_FETCH_CHANGELIST') command.append('--changeset=%s' % changelist) command.append( '--location=//meta/swcore/cosy/code/supertest/MAIN/supertest/build/xySuperTest.xyf' ) else: command[-1] = command[-1] + ':%s' % self.version command.append(root) if self.execute(env=env, command=command): self.error("Failed to fetch source") self.config.setVariable("ST_SOURCE_ROOT", root) return self.success()
def run(self): binutils = os.path.join(self.testrun.getSharedPath("Binutils"), "binutils") dejagnu = os.path.join(self.testrun.getSharedPath("Dejagnu"), "dejagnu") triple = self.config.getVariable("Triple") # Create the site config to run the suite self.make_site(binutils, triple) toolchain_root = self.config.getVariable("Toolchain Root") env = {} env['PATH'] = CONFIG.makeSearchPath( [os.path.join(toolchain_root, "bin"), dejagnu, os.environ['PATH']]) env['LC_ALL'] = 'C' try: arch = self.config.getVariable("Architecture") except ConfigException, e: arch = "mips"
def run(self): gdb = os.path.join(self.testrun.getSharedPath("GDB"), "gdb") dejagnu = os.path.join(self.testrun.getSharedPath("Dejagnu"), "dejagnu") triple = self.config.getVariable("Triple") # Create the site config to run the suite self.make_site(gdb, triple) toolchain_root = self.config.getVariable("Toolchain Root") env = {} env['PATH'] = CONFIG.makeSearchPath([ os.path.join(toolchain_root, "bin"), "/user/rgi_data2/Verify/CentOS-5/Tcl_8.6.4_x64/root/bin", dejagnu, os.environ['PATH'] ]) if triple == "nanomips-elf" and self.version == "GNUSIM": target_board = "nanomips-sim-mti32" gdb_bin = os.path.join(toolchain_root, "bin", "%s-gdb" % triple) else: self.error("Unknown configuration") cmd = [ "runtest", "--target_board=%s" % target_board, "GDB=%s" % gdb_bin ] self.execute(env=env, command=cmd) self.registerLogFile(os.path.join(self.getWorkPath(), "gdb.log"), compress=True) self.registerLogFile(os.path.join(self.getWorkPath(), "gdb.sum"), compress=True) summary = self.parse(os.path.join(self.getWorkPath(), "gdb.log")) return self.success(summary)
def run(self): host = self.getResource('Execution Host') p4port = str(host.getAttributeValue('P4PORT')) COBIT_INST_ROOT = self.config.getVariable("COBIT_INST_ROOT") root = self.getWorkPath() env = { 'PATH': CONFIG.makeSearchPath( [os.path.join(COBIT_INST_ROOT, 'bin'), os.environ['PATH']]), 'P4PORT': p4port, 'P4USER': '******', } command = [ 'p4_cmp', 'fetch', 'MECCToolkit', '--partial=mecc/release/...' ] if self.version == 'CHANGELIST': changelist = self.config.getVariable( 'MECCSCRIPTS_FETCH_CHANGELIST') command.append('--changeset=%s' % changelist) location = self.config.getVariable('MECCSCRIPTS_FETCH_LOCATION') command.append('--location=%s' % location) else: command[-1] = command[-1] + ':%s' % self.version command.append(root) if self.execute(env=env, command=command): self.error("Failed to fetch source") self.config.setVariable("MECC_RELEASE_ROOT", root) return self.success()
def run(self): da_max_timeout = 0 metag_inst_root = self.config.getVariable("METAG_INST_ROOT") workdir = self.config.getVariable("RA_SOURCE") workdir = os.path.join(workdir, 'metag', 'regressionapps', 'framework', 'performance') toolchain = "gcc" target_board = self.config.getVariable("Target Board") if "FPGA" in target_board: implementation = "fpga_tcf" elif target_board == "Chorus 2 Metamorph": implementation = "silicon_atp120" elif target_board == "COMET Metamorph": implementation = "silicon_htp221" else: self.error("Unknown Target Board") config = self.config.getVariable("RA Config") do_apps = self.config.getVariable("RA Do Apps") run_as = self.config.getVariable("RA Run As") da_max_timeout = self.config.getVariable("RA Max Timeout") env = { 'METAG_INST_ROOT': metag_inst_root, 'PATH': CONFIG.makeSearchPath([ CONFIG.getProgramDir(CONFIG.neo), CONFIG.getProgramDir(CONFIG.perl), os.environ['PATH'] ]) } toolchain_version = self.testrun.getVersion("MetaMtxToolkit") if self.testrun.getVersion("MECCToolkit") != None: mecc_inst_root = self.config.getVariable("MECC_INST_ROOT") env['MECC_INST_ROOT'] = mecc_inst_root env['LM_LICENSE_FILE'] = os.path.join(os.path.expanduser("~"), "licenses", "uncounted.lic") toolchain = "mecc" toolchain_version = self.testrun.getVersion("MECCToolkit") cmd = [CONFIG.perl, "./main.pl"] cmd.extend(["--stage=run"]) cmd.extend(["--compiler=%s" % toolchain]) cmd.extend(["--compiler-version=%s" % toolchain_version]) cmd.extend(["--config=%s" % config]) cmd.extend(["--implementation=%s" % implementation]) cmd.extend(do_apps.split(',')) da = self.getResource("Debug Adapter") da_name = da.getAttributeValue("DA Name") cmd.extend(["--da=%s" % da_name]) if run_as != "": cmd.extend(["--run-as=%s" % run_as]) if da_max_timeout > 0: cmd.extend(["--da-max-timeout=%s" % da_max_timeout]) result = self.execute(command=cmd, env=env, workdir=workdir) # Exit code 2 says at least one thing worked if result != 0 and result != 2: self.error("Failed to run RA") cmd[2] = '--stage=analyse' result = self.execute(command=cmd, env=env, workdir=workdir) # Exit code 2 says at least one thing worked if result != 0 and result != 2: self.error("Failed to analyse results") cmd = ['tar', 'cvfz', 'results.tar.gz', 'results'] result = self.execute(command=cmd, env=env, workdir=workdir) if result != 0: self.error("Failed to register log file") self.registerLogFile(os.path.join(workdir, "results.tar.gz")) yaml_file = os.path.join(workdir, "results", "all.yaml.gz") data = yaml.load(gzip.GzipFile(yaml_file, "r")) if data == None or not 'tests' in data or data['tests'] == None or len( data['tests']) == 0: self.error("Empty yaml result file") for tst_k, tst_v in data['tests'].items(): result = {} if 'run_time' in tst_v: result['run_time'] = tst_v['run_time'] if 'execution_profile' in tst_v: if 'issued' in tst_v['execution_profile']: result['issued'] = tst_v['execution_profile']['issued'] if 'idle' in tst_v['execution_profile']: result['idle'] = tst_v['execution_profile']['idle'] if 'binaries' in tst_v: for bin_k, bin_v in tst_v['binaries'].items(): if 'sizes' in bin_v: if 'custom' in bin_v['sizes']: cst_v = bin_v['sizes']['custom'] for x in ('app_code', 'app_data', 'lib_code', 'lib_data', 'total_code', 'total_data'): if x in cst_v: result[x] = cst_v[x] self.testsuiteSubmit(tst_k, tst_v['passed'], extendedresults=result) return True
plt.vlines(midx, -600, 500, label="v_" + name) fig, ax = plt.subplots() ax.scatter(df.x, df.y) for i, indexnum in enumerate(range(len(df.x))): ax.annotate(indexnum + 1, (df.x[i], df.y[i])) plt.plot([df.iloc[index1].x, df.iloc[index2].x], [df.iloc[index1].y, df.iloc[index2].y]) plt.xlabel("X") plt.ylabel("Y") x1, y1 = df.iloc[index2].x, df.iloc[index2].y x2, y2 = df.iloc[index1].x, df.iloc[index1].y midx, midy = x1 - (x1 - x2) * 0.325, y1 - (y1 - y2) * 0.325 frontx, fronty = x1 - (x1 - x2) * 0.15, y1 - (y1 - y2) * 0.15 backx, backy = x1 - (x1 - x2) * 0.5, y1 - (y1 - y2) * 0.5 plot_linec(x1, y1, x2, y2, 0.15, "0.15c") plot_linec(x1, y1, x2, y2, 0.3, "0.3c") plot_linec(x1, y1, x2, y2, 0.5, "0.5c") plt.legend(loc="lower right") plt.savefig(csv_path + "/front_mid_back.png") # 初始化配置文件 opt = CONFIG(project_path='F:/ansys_program/windblade/ansys_model/', csv_path='F:/ansys_program/windblade/useful_csv/', Encoding='BG', NIND=20, MAXGEN=300, Drawing=1, plot_use=False, start_time=time.time(), ansys_time=1, primary_index=1) getjiemian_linec(opt.csv_path)
def run(self): dir_cadese = os.path.join('/user', 'local_cosy') serverhost = self.getResource("Execution Host").getHostName() workdir = os.path.join(self.config.getVariable("ST_SOURCE_ROOT"), "supertest") spoofStdin = [[], [ "export", "MECC_INST_ROOT='%s'" % self.config.getVariable("MECC_INST_ROOT") ], [ "export", "LM_LICENSE_FILE='%s'" % os.path.join(os.path.expanduser("~"), "licenses", "uncounted.lic") ], [ "export", "METAG_INST_ROOT='%s'" % self.config.getVariable("METAG_INST_ROOT") ], [ "export", "METAG_FSIM_ROOT='%s'" % self.config.getVariable("METAG_FSIM_ROOT") ], [ "export", "PATH=%s" % CONFIG.makeSearchPath( [CONFIG.getProgramDir(CONFIG.neo), "$PATH"]) ], ["export", "ALLOW_REMOTE_HASP=1"], [ "./do-tests/%s-all.pl" % self.get_mode(), "--results=$PWD/results", "--serverhost=%s" % serverhost, ] + self.get_testgroupopts(), ["exit"]] spoofStdin = [' '.join(x) for x in spoofStdin] spoofStdin = '\n'.join(spoofStdin) print "BEGIN STDIN" print spoofStdin print "END STDIN" cmd = ["product", "enter"] env = { 'PATH': CONFIG.makeSearchPath([ CONFIG.getProgramDir(CONFIG.neo), '%s/product/bin:%s/cadese/bin:%s/sccs/bin' % (dir_cadese, dir_cadese, dir_cadese), os.environ['PATH'] ]) } result = self.execute(env=env, command=cmd, workdir=workdir, spoofStdin=spoofStdin) if not result == 0: self.error("Failed to run command") return self.success()
def run(self): host = self.getResource('Execution Host') p4port = str(host.getAttributeValue('P4PORT')) # Extract configuration data for this testrun MECC_INST_ROOT = self.config.getVariable("MECC_INST_ROOT") METAG_INST_ROOT = self.config.getVariable("METAG_INST_ROOT") METAG_FSIM_ROOT = self.config.getVariable("METAG_FSIM_ROOT") COBIT_INST_ROOT = self.config.getVariable("COBIT_INST_ROOT") root = self.getWorkPath() env = { 'PATH': CONFIG.makeSearchPath([ CONFIG.getProgramDir(CONFIG.neo), os.path.join(COBIT_INST_ROOT, 'bin'), os.environ['PATH'] ]), 'LM_LICENSE_FILE': os.path.join(os.path.expanduser("~"), "licenses", "uncounted.lic"), 'MECC_INST_ROOT': MECC_INST_ROOT, 'METAG_INST_ROOT': METAG_INST_ROOT, 'METAG_FSIM_ROOT': METAG_FSIM_ROOT, 'P4PORT': p4port, 'P4USER': '******', } command = ['p4_cmp', 'fetch', 'TicketRegression'] if self.version == 'CHANGELIST': changelist = self.config.getVariable( 'MECCTICKETS_FETCH_CHANGELIST') command.append('--changeset=%s' % changelist) command.append( '--location=//meta/swcore/cosy/code/ticket_regression/MAIN/mecc/tickets/xyTicketRegression.xyf' ) else: command[-1] = command[-1] + ':%s' % self.version command.append(root) if self.execute(env=env, command=command): self.error("Failed to fetch source") command = ["./all_tickets.sh"] if self.config.getVariable("MECCTICKETS_VERBOSE"): command.append('--verbose') if self.execute(workdir=os.path.join(root, "mecc", "tickets"), env=env, command=command): self.error("Failed to execute all_tickets.sh") summary = collections.defaultdict(lambda: 0) output = self.fetchOutput().splitlines() # Parse each line of the last command's output anything_failed = False for line in output: passed = False if re.match('\w+ *: *(PASS|FAIL) *: *.*$', line): line = re.split(' *: *', line) ticketid = line[0] result = line[1] ext_result = line[2] summary[ext_result] += 1 passed = False if result == 'PASS': passed = True else: anything_failed = True self.testsuiteSubmit(ticketid, passed, {"Result": ext_result}) if anything_failed: return self.failure(summary) return self.success(summary)
def createStaticTests(self, workDir, cvsroot, runNow): # prepare version dictionary useNeolist = self.config.getVariable("Use CSim NEOLIST") if useNeolist: pathNeolist = os.path.join(CONFIG.getProgramDir(CONFIG.neo), "csim.NEOLIST") try: fileNeolist = open(pathNeolist, "r") dataNeolist = fileNeolist.readlines() fileNeolist.close() except IOError: return self.failure( {"Error": "Reading csim.NEOLIST file failed"}) # checkout YAML files into work directory if not self.cvsCheckout("metag/tools/tests/simtests/yaml", cvsroot): self.error("Unable to check out yaml files") yamlDirectory = os.path.join(self.getWorkPath(), "metag", "tools", "tests", "simtests", "yaml") # replace proper strings in all YAML files (create copy of each) testruns = [] for file in os.listdir(yamlDirectory): if not file.endswith("meta_static.yaml"): continue try: srcFilePath = os.path.join(yamlDirectory, file) dstFilePath = os.path.join(workDir, "ready-%s" % file) srcFile = open(srcFilePath, 'r') dstFile = open(dstFilePath, 'w') testruns.append(dstFilePath) # get proper verify and toolkit versions if useNeolist: yamlDict = self.getConfig(dataNeolist, file) else: yamlDict = self.getConfig() # replace fields text = srcFile.read() for key, value in yamlDict.items(): text = text.replace(key, value) dstFile.write(text) srcFile.close() dstFile.close() except IOError: return self.failure( {"Error": "Couldn't replace strings in YAML files"}) host = self.getResource("Execution Host") filesystem = host.getAttributeValue("Shared Filesystem") hostid = host.getAttributeValue("Specific Host") # generate and run all tests! for t in testruns: command = [ CONFIG.neo, "overtest", "-t", "--new", "-u", "testsim", "--file", t, "--type", "Execution Host", "--attribute", "Specific Host", "--value", hostid ] if runNow: command.append("--go") result = self.execute(command=command) if result != 0: self.error("Creating the testruns failed") if testruns: return self.success() else: return self.failure( {"Error": "Creating the testruns dynamically failed"})
def runMETA(self): isa = self.config.getVariable("Instruction Set") optfp = self.config.getVariable("Optimised Math") fpuconfig = self.config.getVariable("FPU Variant") env = {} env['PATH'] = CONFIG.makeSearchPath( [CONFIG.getProgramDir(CONFIG.cmake), os.environ['PATH']]) env['OPTFPPATH'] = self.testrun.getSharedPath("FPU Math Library") env['INSTALL_DIR'] = self.getSharedPath() # Order of toolkits is important as using Linux also requires a GCC embedded # toolchain. cmd = [] buildtests = [] isalist = [] if isa in ("Any", "meta"): isalist.append("meta") if isa in ("Any", "minim") and \ self.testrun.getVersion("META Linux Buildroot") == None: isalist.append("minim") optfplist = [] if optfp in ("Any", "optimised"): optfplist.append("optimised") if optfp in ("Any", "normal"): optfplist.append("normal") fpulist = [] if fpuconfig == "Any": fpulist.extend(["single", "singledouble", "double"]) else: fpulist.append(fpuconfig) for isa in isalist: if isa in A117705.mtests: for optfp in optfplist: if optfp in A117705.mtests[isa]: for fpuconfig in fpulist: if fpuconfig in A117705.mtests[isa][optfp]: buildtests.append( A117705.mtests[isa][optfp][fpuconfig]) if self.testrun.getVersion("META Linux Buildroot") != None: # Build with META Linux GCC self.initialiseBuildSystem() env['METAG_LINUX_ROOT'] = self.toolkit_path cmd = ["make", "-f", "Makefile.META", "all-linux"] elif self.testrun.getVersion("MetaMtxToolkit") != None: # Build with META Embedded GCC env['METAG_INST_ROOT'] = self.config.getVariable("METAG_INST_ROOT") cmd = ["make", "-f", "Makefile.META", "all-embedded"] else: self.error("Unable to determine what toolchain to build with") bulletdir = os.path.join(self.getWorkPath(), "metag", "support", "examples", "bullet") for test in buildtests: command = cmd[:] command.extend(test) if self.execute(command=command, env=env, workdir=bulletdir) != 0: self.error("Failed to build test: %s" % test) return self.success()
def run(self): # Execute a command overriding some environment variables result = self.execute( workdir=self.getSharedPath(), command=[ CONFIG.git, "clone", "--reference=%s/uTest.git" % CONFIG.gitref, "git://mipssw-mgmt.ba.imgtec.org/sec/uTest.git", "uTest" ]) if result != 0: self.error("Unable to clone uTest repository") result = self.execute(workdir=os.path.join(self.getSharedPath(), "uTest"), command=[CONFIG.git, "checkout", "overtest"]) if result != 0: self.error("Unable to checkout uTest branch") result = self.execute( workdir=self.getSharedPath(), command=[ CONFIG.git, "clone", "--reference=%s/codesize-test-suites.git" % CONFIG.gitref, "git://mipssw-mgmt.ba.imgtec.org/sec/codesize-test-suites.git", "codesize-test-suites" ]) if result != 0: self.error("Unable to clone codesize-test-suites repository") result = self.execute(workdir=os.path.join(self.getSharedPath(), "codesize-test-suites"), command=[CONFIG.git, "checkout", "overtest"]) if result != 0: self.error("Unable to checkout codesize-test-suites branch") env = { 'PATH': CONFIG.makeSearchPath([ os.path.join(self.getSharedPath(), "uTest"), CONFIG.getProgramDir(CONFIG.python), os.environ['PATH'] ]) } triple = self.config.getVariable("Triple") vendor = triple.split("-", 2)[1] osname = triple.split("-", 2)[2] cflags = self.config.getVariable("CFLAGS") toolchain_root = self.config.getVariable("Toolchain Root") config_text = ("include overtest\n" "\n" "config mips_toolchain inherits " + vendor + ",os:" + osname + "\n" "{\n" " path = " + os.path.join(toolchain_root, "bin") + "\n" "}\n" "\n" "config mips_gcc_options\n" "{\n" " cmd_line += " + cflags + "\n" "}\n" "\n" "variation mips_toolchains is mips_toolchain\n" "variation mips_gcc_options is mips_gcc_options\n") config_file = open( os.path.join(self.getSharedPath(), "codesize-test-suites", "testsuites", "config.tst"), "w") config_file.write(config_text) config_file.close() result = self.execute( workdir=os.path.join(self.getSharedPath(), "codesize-test-suites", "testsuites"), env=env, command=[ "%s -t%s -Rcodesize -Afunc_size,stderr -Tfunc_size" % (os.path.join(self.getSharedPath(), "codesize-test-suites", "scripts", "codesize"), self.concurrency) ], shell=True) testsuites_dir = os.path.join(self.getSharedPath(), "codesize-test-suites", "testsuites") logfile = open( os.path.join(testsuites_dir, "codesize_func_size_total.csv")) totalsize = 0 logfile.readline() for total in logfile: (testname, size) = total.split(",") testname = testname.strip() if size.strip() == "": size = 0 else: size = int(size.strip()) totalsize += size self.testsuiteSubmit(testname, True, {"size": size}) logfile.close() for logfile in [ "codesize_func_size_all.csv", "codesize_func_size_total.csv", "codesize_stderr_all.csv" ]: self.registerLogFile(os.path.join(testsuites_dir, logfile), True) return self.success({"size": totalsize, "failures": result != 0})
def run(self): dejagnu = os.path.join(self.testrun.getSharedPath("Dejagnu"), "dejagnu") gcc = os.path.join(self.testrun.getSharedPath("GCC"), "gcc") triple = self.config.getVariable("Triple") toolchain_root = self.config.getVariable("Toolchain Root") gcc_exec = os.path.join(toolchain_root, "bin", "%s-gcc" % triple) gpp_exec = os.path.join(toolchain_root, "bin", "%s-g++" % triple) test_installed = os.path.join(gcc, "contrib", "test_installed") testSelection = self.config.getVariable("GCC Test Selection") cflags = self.config.getVariable("CFLAGS") # This is 32, n32 or 64 abi = self.config.getVariable("ABI") # This is el or eb endian = self.config.getVariable("Endian") env = {} env['PATH'] = CONFIG.makeSearchPath( [os.path.join(toolchain_root, "bin"), dejagnu, os.environ['PATH']]) if triple.startswith("nanomips"): if abi == "p32": abi_opt = "-m32" elif abi == "p64": abi_opt = "-m64" else: self.error("unknown abi %s" % abi) else: abi_opt = "-mabi=%s" % abi if endian == "el": cflags = "%s -EL %s" % (abi_opt, cflags) else: cflags = "%s -EB %s" % (abi_opt, cflags) cflags = "/%s" % cflags.replace(" ", "/") extra_command = [] if self.version.startswith("QEMU"): qemu_root = self.config.getVariable("QEMU Root") cpu = self.config.getVariable("CPU") if triple.endswith("linux-gnu") or triple.endswith("linux-musl"): board = "multi-sim" if abi == "32" or abi == "p32": suffix = "" else: suffix = abi kernel_version = self._getKernelVersion() if triple.startswith("nanomips"): cpu = "nanomips-generic" if endian == "eb": suffix = "%seb" % suffix qemu_exec = os.path.join(qemu_root, "bin", "qemu-nanomips%s" % suffix) else: if endian == "el": suffix = "%sel" % suffix qemu_exec = os.path.join(qemu_root, "bin", "qemu-mips%s" % suffix) env['DEJAGNU_SIM'] = qemu_exec env['DEJAGNU_SIM_OPTIONS'] = "-r %s -cpu %s" % (kernel_version, cpu) env['DEJAGNU_SIM_GCC'] = gcc_exec env['ASAN_OPTIONS'] = "color=never" env['UBSAN_OPTIONS'] = "color=never" env['LSAN_OPTIONS'] = "color=never" env['TSAN_OPTIONS'] = "color=never" else: board = "generic-sim" if abi == "32" or abi == "p32": suffix = "" else: suffix = "64" if triple.startswith("nanomips"): cpu = "nanomips-generic" if endian == "eb": suffix = "%seb" % suffix qemu_exec = os.path.join(qemu_root, "bin", "qemu-system-nanomips%s" % suffix) else: if endian == "el": suffix = "%sel" % suffix qemu_exec = os.path.join(qemu_root, "bin", "qemu-system-mips%s" % suffix) env['DEJAGNU_SIM'] = qemu_exec env['DEJAGNU_SIM_OPTIONS'] = "-cpu %s -semihosting -nographic -kernel" % cpu if abi in ("32", "p32"): env['DEJAGNU_SIM_LDSCRIPT'] = "-Tuhi32.ld" elif abi == "n32": env['DEJAGNU_SIM_LDSCRIPT'] = "-Tuhi64_n32.ld" else: env['DEJAGNU_SIM_LDSCRIPT'] = "-Tuhi64_64.ld" env['DEJAGNU_SIM_LINK_FLAGS'] = "-Wl,--defsym,__memory_size=32M" elif self.version == "GNUSIM": extra_command.append( "SIM=%s" % os.path.join(toolchain_root, "bin", "%s-run" % triple)) if abi in ("32", "p32"): board = "mips-sim-mti32" elif abi == "n32": board = "mips-sim-mti64_n32" elif abi == "64": board = "mips-sim-mti64_64" else: self.error("Unknown ABI") # Add the HOSTCC and HOSTCFLAGS variables for build programs self.setHostCC(test_installed) command = [ test_installed, "--without-gfortran", "--without-objc", "--without-gcc", "--with-g++=%s" % gpp_exec, "--prefix=%s" % toolchain_root, "--target=%s" % triple, "--target_board=%s%s" % (board, cflags) ] if testSelection != "": command.append(testSelection) command.extend(extra_command) result = self.execute(env=env, command=command) if result != 0: self.error("Failed to run testsuite") self.registerLogFile(os.path.join(self.getWorkPath(), "g++.log"), compress=True) self.registerLogFile(os.path.join(self.getWorkPath(), "g++.sum"), compress=True) summary = self.parse(os.path.join(self.getWorkPath(), "g++.log")) return self.success(summary)
if self.execute(command=[ " ".join(cmd + [ extra_gcc_config, "--make_target_all=skip", "--make_target_install='%s'" % gcc_install_target, "--jobs=1", "gcc" ]) ], shell=True) != 0: self.error("Failed to install gcc") if not "Canadian Cross" in self.version and new_elf_build \ and self.version.startswith("Bare Metal") \ and self.testrun.getVersion("SmallClib") != None: env = {} env['PATH'] = CONFIG.makeSearchPath( [CONFIG.getProgramDir(CONFIG.cmake), os.environ['PATH']]) if self.execute(command=[" ".join(cmd + ["smallclib"])], shell=True, env=env) != 0: self.error("Failed to build smallclib") # Build GDB with the newly built host libexpat extra_host = "--hostlibs=%s" % hostinstall if self.execute(command=[" ".join(cmd + [extra_host, "gdb"])], shell=True) != 0: self.error("Failed to build gdb") if self.testrun.getVersion( "Python") != None and "mingw" not in host_triple: if self.execute(command=[" ".join(cmd + [extra_host, "gdb-py"])], shell=True) != 0:
def run(self): METAG_INST_ROOT = self.config.getVariable("METAG_INST_ROOT") meoslib_version = self.testrun.getVersion("MeOSLib") # What configurations should be run interrupt_models = self.config.getVariable("Interrupt Models") library_variants = self.config.getVariable("Library Variants") interrupt_stack = self.config.getVariable("Fast Interrupt Stack") force_meta = self.config.getVariable("Force META ISA") if " " in interrupt_models or " " in library_variants or " " in interrupt_stack: self.run_all_configs = True env = {} env['PATH'] = os.environ['PATH'] env['TEST_INT_MODELS'] = interrupt_models env['VARIANTS'] = library_variants env['FAST_STACKS'] = interrupt_stack env['TOOLKIT_VERSION'] = self.testrun.getVersion("MetaMtxToolkit") if env['TEST_INT_MODELS'] == "$(FAST_NAME)": env['LFLAGS_GEN'] = "-minterrupts=fastint" if force_meta: if 'LFLAGS_GEN' in env: env['LFLAGS_GEN'] += " -mno-minim" else: env['LFLAGS_GEN'] = "-mno-minim" if self.version == "Physical Board": # Run tests using a DA da = self.getResource("Debug Adapter") da_name = da.getAttributeValue("DA Name") host = self.getResource("Execution Host") cvsroot = host.getAttributeValue("KL metag CVSROOT") if meoslib_version in ("5.4.6", "5.4.7", "5.4.8", "5.4.9", "5.4.10", "5.4.11"): result = self.execute(command=[ "tar", "-xzf", os.path.join(CONFIG.shareddir, "source_temp", "meos", "%s.tar.gz" % meoslib_version) ]) if result != 0: self.error("Unable to obtain source for meos %s" % meoslib_version) indent_path = self.neoSelect("Indent", "2.2.9") if indent_path is None: self.error("Unable to locate Indent 2.2.9") indent_path = os.path.join(indent_path, "bin") env['PATH'] = CONFIG.makeSearchPath([indent_path, env['PATH']]) meos_dir = os.path.join(self.getWorkPath(), meoslib_version) test_command = ["make", "testclean", "test"] else: ccs_version = meoslib_version if ccs_version == "scratch": ccs_version = ":MAX" if not self.ccsCheckout( "metag/tools/libs/meos/ccs/meoslib.ccs", "MeOSLib", ccs_version, cvsroot): self.error("Unable to check out MeOSLib:%s" % meoslib_version) if meoslib_version == "scratch": meos_src = os.path.join(self.getWorkPath(), "metag", "tools", "libs", "meos", "meoslib") if self.execute(workdir=meos_src, env={"CVSROOT": cvsroot}, command=[CONFIG.cvs, "update", "-dPA" ]) != 0: self.error("Unable to update meos to head source") meos_dir = os.path.join(self.getWorkPath(), "metag", "tools", "libs", "meos") test_command = ["make", "-f", "build.mk", "test"] board_type = self.config.getVariable("Target Board") env['MEOS_BOARD'] = "generic_tcf" # Workaround test system bug if meoslib_version == "5.3.2.0": env['BOARD_FEATURES'] = "2 1 DSP atp mtp NOLITE NOGP" TARGET_CPU = "metag" CORE = "meta" if board_type == "Chorus 2 Metamorph": env['MEOS_BOARD'] = "atp120dp_ocm" # Workaround test system bug if meoslib_version == "5.3.2.0": env['BOARD_FEATURES'] = "4 2 1 DSP atp NOLITE NOGP" elif board_type == "MTX122 FPGA": env['TARGET_CPU'] = "mtxg" env['MEOS_BOARD'] = "mtx" CORE = "mtx" # Workaround test system bug if meoslib_version == "5.3.2.0": env['BOARD_FEATURES'] = "1 atp MTX NOLITE NOGP" if board_type == "FRISA FPGA": env['BOARD_DSP_THREADS'] = "4" env['DA'] = da_name env['TEST_LOG'] = os.path.join(self.getWorkPath(), "meostests.log") env['METAG_INST_ROOT'] = METAG_INST_ROOT env['PREBUILT_MEOS'] = METAG_INST_ROOT env['PATH'] = CONFIG.makeSearchPath( [CONFIG.getProgramDir(CONFIG.neo), env['PATH']]) env['CODESCAPE_VER'] = "7.1.1.8:x32" env['CORE'] = CORE env['BOARD'] = env['MEOS_BOARD'] if self.execute(command=test_command, env=env, workdir=meos_dir) != 0: self.error("Failed to run meos testsuite") # Now parse the log file if not os.path.exists(env['TEST_LOG']): self.error("Unable to find log file") self.parseLogFile(env['TEST_LOG']) self.registerLogFile(env['TEST_LOG']) return True
def run(self): sharedir = self.getSharedPath() do_apps = self.config.getVariable ("RA Do Apps").split(",") self.config.setVariable ("RA_SOURCE", sharedir) host = self.getResource("Execution Host") p4port = str(host.getAttributeValue('P4PORT')) p4user = str(host.getAttributeValue('P4USER')) env = { 'PATH' : CONFIG.makeSearchPath([CONFIG.getProgramDir(CONFIG.neo), CONFIG.getProgramDir(CONFIG.perl), os.environ['PATH']]), 'P4USER' : p4user, 'P4PORT' : p4port } fetch_options = [] if self.version.startswith('CHANGELIST'): changelist = self.config.getVariable('RA_FETCH_CHANGELIST') if not changelist.startswith("@"): changelist = "@%s" % str(changelist) fetch_options.append("--changeset=%s" % changelist) fetch_options.append("--location=//meta/swcore/code/" +\ "regressionapps/MAIN/metag/" +\ "regressionapps/xyRegressionApps.xyf") fetch_options.append("RegressionApps") else: fetch_options.append("RegressionApps:%s" % self.version) p4_cmp = self.config.getVariable("COBIT_INST_ROOT") p4_cmp = os.path.join(p4_cmp, "bin", "p4_cmp") command = [p4_cmp, "fetch", "--writable"] fw_command = command[:] fw_command.append("--partial=metag/regressionapps/framework/...") fw_command.extend(fetch_options) fw_command.append(sharedir) print fw_command # Fetch the framework result = self.execute (env=env, command=fw_command) if result != 0: self.error("Unable to fetch framework") result = self.execute (env=env, command=["./dependencies.pl"] + do_apps, workdir=os.path.join(sharedir, 'metag', 'regressionapps', 'framework', 'performance')) if result != 0: self.error ("Could not fetch dependencies") deps = set() for dep in self.fetchOutput().split("\n"): if dep != "": name = self.findComponentToCheckout(dep) deps.add(name) for subpath in deps: sub_command = command[:] sub_command.append("--partial=%s" % subpath) sub_command.extend(fetch_options) sub_command.append(sharedir) result = self.execute (env=env, command=sub_command) if result != 0: self.error("Unable to fetch %s" % subpath ) return True
class A117837(Action): def __init__(self, data): Action.__init__(self, data) self.actionid = 117837 self.name = "GOLD Test" # Execute the action. def run(self): triple = self.config.getVariable("Triple") toolchain_root = self.config.getVariable("Toolchain Root") # Execute a command overriding some environment variables for i in range(30): result = self.execute(command=[ CONFIG.git, "clone", "--reference=%s/mips_tool_chain.git" % CONFIG.gitref, "--branch=master", "%s/mips_tool_chain.git" % CONFIG.gitremote, "mips_tool_chain" ]) if result == 0: break else: time.sleep(random.randint(1, 30)) if result != 0: self.error("Unable to clone repository") # Now construct the work area result = self.execute(command=[ "build_scripts/make_workarea %s %s" % (self.getWorkPath(), CONFIG.gitremote) ], workdir=os.path.join(self.getWorkPath(), "mips_tool_chain"), shell=True) if result != 0: self.error("Unable to make work area") result = self.execute(command=[CONFIG.git, "checkout", "master"], workdir=os.path.join(self.getWorkPath(), "src", "mips_tool_chain")) if result != 0: self.error("Unable to change branch") result = self.execute(workdir=os.path.join(self.getWorkPath(), "src", "mips_tool_chain"), command=[CONFIG.git, "rev-parse", "HEAD"]) if result == 0: self.config.setVariable("Toolchain Build rev", self.fetchOutput().strip()) target = self.config.getVariable("Triple") build = os.path.join(self.getWorkPath(), "obj-%s" % target) install = "/none/" # Add in the path of any host compiler specified try: host_triple = self.config.getVariable("Host Triple") if host_triple != "": host_version = self.config.getVariable("Host Version") host_bin = "/projects/mipssw/toolchains/%s/%s/bin" % ( host_triple, host_version) host_path = host_bin except ConfigException, e: host_triple = "" host_path = "" pass # Prepare for main tools build options = [ "--path=%s" % host_path, "--git_home=%s" % CONFIG.gitremote, "--build=%s" % build, "--prefix=%s" % install, "--target=%s" % target, "--jobs=%d" % self.concurrency ] # Set the host tools if specified if host_triple != "": options.append("--host=%s" % host_triple) # For linux hosted builds we expect the newly built tools to execute on # the current distro as the C library used should be older than the # native one. We do this by forcing the build and host to match. if "pc-linux-gnu" in host_triple: options.append("--build_triple=%s" % host_triple) # Gather the location of all the packages gold = os.path.join(self.testrun.getSharedPath("GOLD"), "gold") options.append("--src=gold:%s" % gold) # Build GOLD cmd = ["b/build_toolchain", "build"] cmd.extend(options) if self.execute(command=[ " ".join(cmd + ["gold", "--make_target_install=skip"]) ], shell=True) != 0: self.error("Failed to build gold") env = {} env['PATH'] = CONFIG.makeSearchPath([ os.path.join(toolchain_root, "bin"), host_path, os.environ['PATH'] ]) cmd = [ "make", "TEST_READELF=%s-readelf" % triple, "TEST_OBJDUMP=%s-objdump" % triple, "TEST_OBJCOPY=%s-objcopy" % triple, "TEST_STRIP=%s-strip" % triple, "TEST_AR=%s-ar" % triple, "TEST_NM=%s-nm" % triple, "TEST_AS=%s-as" % triple, "check" ] testsuite_path = os.path.join(build, "gold", "gold", "testsuite") self.execute(env=env, command=cmd, workdir=testsuite_path) logfile = os.path.join(testsuite_path, "test-suite.log") self.registerLogFile(logfile) results = {} with open(logfile, "r") as fh: for line in fh: # 1 of 12 tests failed. if "tests failed" in line: parts = line.split(" ") results["FAIL"] = int(parts[0]) results["PASS"] = int(parts[2]) # All 12 tests passed. elif "tests passed" in line: parts = line.split(" ") results["PASS"] = int(parts[1]) return self.success(results)
def run(self): metag_inst_root = self.config.getVariable("METAG_INST_ROOT") workdir = self.config.getVariable("EEMBC Source") toolchain = "metagcc" platform = self.config.getVariable("EEMBC Platform") cq_stat = self.config.getVariable("EEMBC CQStat") benchmark = self.config.getVariable("EEMBC Benchmarks") uuencode = self.config.getVariable("EEMBC UUENCODE") extra = shlex.split(self.config.getVariable("EEMBC Arbitrary")) run_as = self.config.getVariable("EEMBC Run As") cqstat_out = self.config.getVariable("EEMBC CQStat Output") exec_method = self.version.split('.')[-1] env = { 'METAG_INST_ROOT': metag_inst_root, 'PATH': CONFIG.makeSearchPath( [CONFIG.getProgramDir(CONFIG.neo), os.environ['PATH']]) } if self.testrun.getVersion("MECCToolkit") != None: mecc_inst_root = self.config.getVariable("MECC_INST_ROOT") env['MECC_INST_ROOT'] = mecc_inst_root env['LM_LICENSE_FILE'] = os.path.join(os.path.expanduser("~"), "licenses", "uncounted.lic") toolchain = "metamecc" cmd = ["scripts/build.sh"] # cmdoptions are options suitable for both building and analysing results cmdoptions = ["--toolchains", toolchain] cmdoptions.extend(["--platforms", platform]) if cq_stat == 1: cmdoptions.append("--cq-stat") cmdoptions.extend(["--cq-stat-output", cqstat_out]) cmdoptions.extend(["--harnesses", "th_lite"]) cmdoptions.extend(["--benchmarks", benchmark]) if uuencode != 1: cmdoptions.append("--no-uuencode") implementation = self.config.getVariable("EEMBC Implementation") if len(implementation) > 0: cmdoptions.extend(["--implementation", implementation]) cmdoptions.extend(["--exec-method", exec_method]) if exec_method == "datools": da = self.getResource("Debug Adapter") da_name = da.getAttributeValue("DA Name") cmdoptions.extend(["--da", da_name]) elif exec_method == "inscript": metag_fsim_root = self.config.getVariable("METAG_FSIM_ROOT") metat_onetest_timeout = self.config.getVariable( "METAT_ONETEST_TIMEOUT") env['METAG_FSIM_ROOT'] = metag_fsim_root env['METAT_ONETEST_TIMEOUT'] = metat_onetest_timeout if run_as != "": cmdoptions.extend(["--run-as", run_as]) if len(extra) > 0: cmdoptions.append("--") cmdoptions.extend(extra) cmd.extend(cmdoptions) result = self.execute(command=cmd, env=env, workdir="%s/eembc" % workdir) pattern = os.path.join(workdir, "eembc", benchmark, "%s%s*.log" % (toolchain, platform)) for logfile in glob.iglob(pattern): os.unlink(logfile) if result != 0: self.error("Failed to rebuild log file for EEMBC") cmd[0] = "scripts/run.sh" result = self.execute(command=cmd, env=env, workdir="%s/eembc" % workdir) if result != 0: self.error("Failed to run EEMBC") # Now process the results cmd = ["scripts/results.sh"] cmd.extend(cmdoptions) result = self.execute(command=cmd, env=env, workdir="%s/eembc" % workdir) if result != 0: self.error("Failed to run EEMBC result script") bmarks = self.fetchBmarkList(workdir, platform) if bmarks == False: # Error set by fetchBmarkList return False logs = "%s/%s/%s" % (benchmark, toolchain, platform) if cq_stat == 1: runtime_dict = self.read_results_runtime("%s/%s/runtime.txt" % (cqstat_out, logs)) cctime_dict = self.read_results_cctime("%s/%s/cctime.txt" % (cqstat_out, logs)) hosttime_dict = self.read_results_hosttime("%s/%s/hosttime.txt" % (cqstat_out, logs)) codesize_dict = self.read_results_codesize("%s/%s/codesize.txt" % (cqstat_out, logs)) test_set = sets.Set(runtime_dict.keys()) test_set |= sets.Set(cctime_dict.keys()) test_set |= sets.Set(hosttime_dict.keys()) test_set |= sets.Set(codesize_dict.keys()) test_set |= sets.Set(bmarks) for key in test_set: results = {} test_passed = True if key in runtime_dict: results['runtime'] = runtime_dict[key] elif key in hosttime_dict: test_passed = False if key in cctime_dict: results['cctime'] = cctime_dict[key] if key in hosttime_dict: results['hosttime'] = hosttime_dict[key] if key in codesize_dict: results['codesize'] = codesize_dict[key] self.testsuiteSubmit(key, test_passed, extendedresults=results) logs_tgz = "%s/%s_%s_%s.tar.gz" % (cqstat_out, benchmark, toolchain, platform) tar = tarfile.open(logs_tgz, "w:gz") tar.add("%s/%s" % (cqstat_out, logs), arcname=logs) tar.close() self.registerLogFile(logs_tgz) return True
def run(self): host = self.getResource('Execution Host') p4port = str(host.getAttributeValue('P4PORT')) COBIT_INST_ROOT = self.config.getVariable("COBIT_INST_ROOT") env = { 'PATH': CONFIG.makeSearchPath( [os.path.join(COBIT_INST_ROOT, 'bin'), os.environ['PATH']]), 'P4PORT': p4port, 'P4USER': '******', } if self.version == 'CHANGELIST': root = self.getWorkPath() command = ['p4_cmp', 'fetch', '--writable', 'EEMBC'] if self.version == 'CHANGELIST': changelist = self.config.getVariable('EEMBC_FETCH_CHANGELIST') command.append('--changeset=%s' % changelist) command.append( '--location=//meta/swcore/code/restricted/eembc/MAIN/eembc/xyEEMBC.xyf' ) else: command[-1] = command[-1] + ':%s' % self.version command.append(root) if self.execute(env=env, command=command): self.error("Failed to fetch source") self.config.setVariable("EEMBC Source", root) result = self.execute(command=["scripts/initialise.sh"], workdir="%s/eembc" % root) if result != 0: self.error("Failed to initialise EEMBC") return True else: workdir = self.getWorkPath() # The version to fetch is anything up to the first space, anything # following the space is a comment does not affect the get_source # command neo_cmp_ver = self.version.split(" ")[0] # The environment is set at this point # P4PORT and P4USER are required if not self.neoGetSource(workdir, "EEMBC", neo_cmp_ver, env): self.error("Failed to get source") self.config.setVariable("EEMBC Source", workdir) result = self.execute(command=["scripts/initialise.sh"], workdir="%s/eembc" % workdir) if result != 0: self.error("Failed to initialise EEMBC") return True