use of es.bsc.compss.types.implementations.OmpSsImplementation in project compss by bsc-wdc.
the class ITFParser method checkDefinedImplementations.
/**
* Check all the defined implementations of the same method
*
* @param m
* @param methodId
* @param calleeMethodSignature
* @param hasStreams
* @param implementations
* @param signatures
*/
private static void checkDefinedImplementations(java.lang.reflect.Method m, Integer methodId, StringBuilder calleeMethodSignature, boolean hasStreams, boolean hasPrefixes, List<Implementation> implementations, List<String> signatures) {
/*
* Global constraints of the method
*/
MethodResourceDescription defaultConstraints = MethodResourceDescription.EMPTY_FOR_CONSTRAINTS.copy();
if (m.isAnnotationPresent(Constraints.class)) {
defaultConstraints = new MethodResourceDescription(m.getAnnotation(Constraints.class));
}
/*
* Check all annotations present at the method for versioning
*/
String methodName = m.getName();
int implId = 0;
/*
* METHOD
*/
for (Method methodAnnot : m.getAnnotationsByType(Method.class)) {
LOGGER.debug(" * Processing @Method annotation");
// Warning for ignoring streams
if (hasStreams) {
ErrorManager.warn("Java method " + methodName + " does not support stream annotations. SKIPPING stream annotation");
}
// Warning for ignoring prefixes
if (hasPrefixes) {
ErrorManager.warn("Java method " + methodName + " does not support prefix annotations. SKIPPING prefix annotation");
}
String declaringClass = methodAnnot.declaringClass();
String methodSignature = calleeMethodSignature.toString() + declaringClass;
signatures.add(methodSignature);
// Load specific method constraints if present
MethodResourceDescription implConstraints = defaultConstraints;
if (methodAnnot.constraints() != null) {
implConstraints = new MethodResourceDescription(methodAnnot.constraints());
implConstraints.mergeMultiConstraints(defaultConstraints);
}
// Register method implementation
Implementation impl = new MethodImplementation(declaringClass, methodName, methodId, implId, implConstraints);
++implId;
implementations.add(impl);
}
/*
* SERVICE
*/
for (Service serviceAnnot : m.getAnnotationsByType(Service.class)) {
// Services don't have constraints
LOGGER.debug(" * Processing @Service annotation");
// Warning for ignoring streams
if (hasStreams) {
ErrorManager.warn("Java service " + methodName + " does not support stream annotations. SKIPPING stream annotation");
}
calleeMethodSignature.append(serviceAnnot.namespace()).append(',');
calleeMethodSignature.append(serviceAnnot.name()).append(',');
calleeMethodSignature.append(serviceAnnot.port());
String serviceSignature = calleeMethodSignature.toString();
signatures.add(serviceSignature);
// Register service implementation
Implementation impl = new ServiceImplementation(methodId, serviceAnnot.namespace(), serviceAnnot.name(), serviceAnnot.port(), serviceAnnot.operation());
++implId;
implementations.add(impl);
}
/*
* MPI
*/
for (MPI mpiAnnot : m.getAnnotationsByType(MPI.class)) {
LOGGER.debug(" * Processing @MPI annotation");
String binary = EnvironmentLoader.loadFromEnvironment(mpiAnnot.binary());
String workingDir = EnvironmentLoader.loadFromEnvironment(mpiAnnot.workingDir());
String mpiRunner = EnvironmentLoader.loadFromEnvironment(mpiAnnot.mpiRunner());
if (mpiRunner == null || mpiRunner.isEmpty()) {
ErrorManager.error("Empty mpiRunner annotation for method " + m.getName());
}
if (binary == null || binary.isEmpty()) {
ErrorManager.error("Empty binary annotation for method " + m.getName());
}
LOGGER.debug("Binary: " + binary);
LOGGER.debug("mpiRunner: " + mpiRunner);
String mpiSignature = calleeMethodSignature.toString() + LoaderUtils.MPI_SIGNATURE;
signatures.add(mpiSignature);
// Load specific method constraints if present
MethodResourceDescription implConstraints = defaultConstraints;
if (mpiAnnot.constraints() != null) {
implConstraints = new MethodResourceDescription(mpiAnnot.constraints());
implConstraints.mergeMultiConstraints(defaultConstraints);
}
// Register method implementation
Implementation impl = new MPIImplementation(binary, workingDir, mpiRunner, methodId, implId, implConstraints);
++implId;
implementations.add(impl);
}
/*
* Decaf
*/
for (Decaf decafAnnot : m.getAnnotationsByType(Decaf.class)) {
LOGGER.debug(" * Processing @DECAF annotation");
String dfScript = EnvironmentLoader.loadFromEnvironment(decafAnnot.dfScript());
String dfExecutor = EnvironmentLoader.loadFromEnvironment(decafAnnot.dfExecutor());
String dfLib = EnvironmentLoader.loadFromEnvironment(decafAnnot.dfLib());
String workingDir = EnvironmentLoader.loadFromEnvironment(decafAnnot.workingDir());
String mpiRunner = EnvironmentLoader.loadFromEnvironment(decafAnnot.mpiRunner());
if (mpiRunner == null || mpiRunner.isEmpty()) {
ErrorManager.error("Empty mpiRunner annotation for method " + m.getName());
}
if (dfScript == null || dfScript.isEmpty()) {
ErrorManager.error("Empty binary annotation for method " + m.getName());
}
LOGGER.debug("DF Script: " + dfScript);
LOGGER.debug("DF Executor: " + dfExecutor);
LOGGER.debug("DF Lib: " + dfLib);
LOGGER.debug("mpiRunner: " + mpiRunner);
String mpiSignature = calleeMethodSignature.toString() + LoaderUtils.DECAF_SIGNATURE;
signatures.add(mpiSignature);
// Load specific method constraints if present
MethodResourceDescription implConstraints = defaultConstraints;
if (decafAnnot.constraints() != null) {
implConstraints = new MethodResourceDescription(decafAnnot.constraints());
implConstraints.mergeMultiConstraints(defaultConstraints);
}
// Register method implementation
Implementation impl = new DecafImplementation(dfScript, dfExecutor, dfLib, workingDir, mpiRunner, methodId, implId, implConstraints);
++implId;
implementations.add(impl);
}
/*
* OMPSS
*/
for (OmpSs ompssAnnot : m.getAnnotationsByType(OmpSs.class)) {
LOGGER.debug(" * Processing @OmpSs annotation");
String binary = EnvironmentLoader.loadFromEnvironment(ompssAnnot.binary());
String workingDir = EnvironmentLoader.loadFromEnvironment(ompssAnnot.workingDir());
if (binary == null || binary.isEmpty()) {
ErrorManager.error("Empty binary annotation for method " + m.getName());
}
String ompssSignature = calleeMethodSignature.toString() + LoaderUtils.OMPSS_SIGNATURE;
signatures.add(ompssSignature);
// Load specific method constraints if present
MethodResourceDescription implConstraints = defaultConstraints;
if (ompssAnnot.constraints() != null) {
implConstraints = new MethodResourceDescription(ompssAnnot.constraints());
implConstraints.mergeMultiConstraints(defaultConstraints);
}
// Register method implementation
Implementation impl = new OmpSsImplementation(binary, workingDir, methodId, implId, implConstraints);
++implId;
implementations.add(impl);
}
/*
* OPENCL
*/
for (OpenCL openclAnnot : m.getAnnotationsByType(OpenCL.class)) {
LOGGER.debug(" * Processing @OpenCL annotation");
String kernel = EnvironmentLoader.loadFromEnvironment(openclAnnot.kernel());
String workingDir = EnvironmentLoader.loadFromEnvironment(openclAnnot.workingDir());
if (kernel == null || kernel.isEmpty()) {
ErrorManager.error("Empty kernel annotation for method " + m.getName());
}
String openclSignature = calleeMethodSignature.toString() + LoaderUtils.OPENCL_SIGNATURE;
signatures.add(openclSignature);
// Load specific method constraints if present
MethodResourceDescription implConstraints = defaultConstraints;
if (openclAnnot.constraints() != null) {
implConstraints = new MethodResourceDescription(openclAnnot.constraints());
implConstraints.mergeMultiConstraints(defaultConstraints);
}
// Register method implementation
Implementation impl = new OpenCLImplementation(kernel, workingDir, methodId, implId, implConstraints);
++implId;
implementations.add(impl);
}
/*
* BINARY
*/
for (Binary binaryAnnot : m.getAnnotationsByType(Binary.class)) {
LOGGER.debug(" * Processing @Binary annotation");
String binary = EnvironmentLoader.loadFromEnvironment(binaryAnnot.binary());
String workingDir = EnvironmentLoader.loadFromEnvironment(binaryAnnot.workingDir());
if (binary == null || binary.isEmpty()) {
ErrorManager.error("Empty binary annotation for method " + m.getName());
}
String binarySignature = calleeMethodSignature.toString() + LoaderUtils.BINARY_SIGNATURE;
signatures.add(binarySignature);
// Load specific method constraints if present
MethodResourceDescription implConstraints = defaultConstraints;
if (binaryAnnot.constraints() != null) {
implConstraints = new MethodResourceDescription(binaryAnnot.constraints());
implConstraints.mergeMultiConstraints(defaultConstraints);
}
// Register method implementation
Implementation impl = new BinaryImplementation(binary, workingDir, methodId, implId, implConstraints);
++implId;
implementations.add(impl);
}
}
use of es.bsc.compss.types.implementations.OmpSsImplementation in project compss by bsc-wdc.
the class GATJob method prepareJob.
private JobDescription prepareJob() throws Exception {
// Get the information related to the job
logger.debug("Preparing GAT Job " + this.jobId);
TaskDescription taskParams = this.taskParams;
String targetPath = getResourceNode().getInstallDir();
String targetHost = getResourceNode().getHost();
String targetUser = getResourceNode().getUser();
if (userNeeded && !targetUser.isEmpty()) {
targetUser += "@";
} else {
targetUser = "";
}
SoftwareDescription sd = new SoftwareDescription();
sd.setExecutable(targetPath + WORKER_SCRIPT_PATH + WORKER_SCRIPT_NAME);
ArrayList<String> lArgs = new ArrayList<String>();
// Common arguments: language working_dir lib_path num_obsolete [obs1... obsN] tracing [event_type task_id
// slot_id]
lArgs.add(LANG);
lArgs.add(getResourceNode().getWorkingDir());
lArgs.add(getResourceNode().getLibPath());
LogicalData[] obsoleteFiles = getResource().pollObsoletes();
if (obsoleteFiles != null) {
lArgs.add("" + obsoleteFiles.length);
for (LogicalData ld : obsoleteFiles) {
String renaming = ld.getName();
lArgs.add(renaming);
}
} else {
lArgs.add("0");
}
// Check sandbox working dir
boolean isSpecific = false;
String sandboxDir = null;
AbstractMethodImplementation absImpl = (AbstractMethodImplementation) this.impl;
switch(absImpl.getMethodType()) {
case BINARY:
BinaryImplementation binaryImpl = (BinaryImplementation) absImpl;
sandboxDir = binaryImpl.getWorkingDir();
isSpecific = true;
break;
case MPI:
MPIImplementation mpiImpl = (MPIImplementation) absImpl;
sandboxDir = mpiImpl.getWorkingDir();
isSpecific = true;
break;
case DECAF:
DecafImplementation decafImpl = (DecafImplementation) absImpl;
sandboxDir = decafImpl.getWorkingDir();
isSpecific = true;
break;
case OMPSS:
OmpSsImplementation ompssImpl = (OmpSsImplementation) absImpl;
sandboxDir = ompssImpl.getWorkingDir();
isSpecific = true;
break;
case OPENCL:
OpenCLImplementation openclImpl = (OpenCLImplementation) absImpl;
sandboxDir = openclImpl.getWorkingDir();
isSpecific = true;
break;
case METHOD:
sandboxDir = null;
break;
}
if (sandboxDir == null || sandboxDir.isEmpty() || sandboxDir.equals(Constants.UNASSIGNED)) {
sandboxDir = getResourceNode().getWorkingDir() + File.separator + "sandBox" + File.separator + "job_" + this.jobId;
isSpecific = false;
}
// Processing parameters to get symlinks pairs to create (symlinks) and how to pass parameters in the GAT
// Job(paramArgs)
ArrayList<String> symlinks = new ArrayList<>();
ArrayList<String> paramArgs = new ArrayList<>();
processParameters(sandboxDir, symlinks, paramArgs);
// Adding info to create symlinks between renamed files and original names
lArgs.add(Boolean.toString(isSpecific));
lArgs.add(sandboxDir);
if (symlinks.size() > 0) {
lArgs.add(String.valueOf(symlinks.size()));
lArgs.addAll(symlinks);
} else {
lArgs.add("0");
}
lArgs.add(Boolean.toString(Tracer.isActivated()));
lArgs.add(getHostName());
if (debug) {
logger.debug("hostName " + getHostName());
}
if (Tracer.isActivated()) {
// event type
lArgs.add(String.valueOf(Tracer.getTaskEventsType()));
// task id
lArgs.add(String.valueOf(this.taskParams.getId() + 1));
int slot = Tracer.getNextSlot(targetHost);
// slot id
lArgs.add(String.valueOf(slot));
sd.addAttribute("slot", slot);
}
// Language-dependent arguments: taskSandbox_dir app_dir classpath pythonpath debug storage_conf
// method_impl_type method_impl_params
// numSlaves [slave1,..,slaveN] numCus
// has_target num_params par_type_1 par_1 ... par_type_n par_n
lArgs.add(sandboxDir);
lArgs.add(getResourceNode().getAppDir());
lArgs.add(getClasspath());
lArgs.add(getPythonpath());
lArgs.add(String.valueOf(debug));
lArgs.add(STORAGE_CONF);
lArgs.add(String.valueOf(absImpl.getMethodType()));
switch(absImpl.getMethodType()) {
case METHOD:
MethodImplementation methodImpl = (MethodImplementation) absImpl;
lArgs.add(methodImpl.getDeclaringClass());
String methodName = methodImpl.getAlternativeMethodName();
if (methodName == null || methodName.isEmpty()) {
methodName = taskParams.getName();
}
lArgs.add(methodName);
break;
case MPI:
MPIImplementation mpiImpl = (MPIImplementation) absImpl;
lArgs.add(mpiImpl.getMpiRunner());
lArgs.add(mpiImpl.getBinary());
break;
case DECAF:
DecafImplementation decafImpl = (DecafImplementation) absImpl;
lArgs.add(targetPath + DecafImplementation.SCRIPT_PATH);
String dfScript = decafImpl.getDfScript();
if (!dfScript.startsWith(File.separator)) {
String appPath = getResourceNode().getAppDir();
dfScript = appPath + File.separator + dfScript;
}
lArgs.add(dfScript);
String dfExecutor = decafImpl.getDfExecutor();
if (dfExecutor == null || dfExecutor.isEmpty() || dfExecutor.equals(Constants.UNASSIGNED)) {
dfExecutor = "executor.sh";
}
if (!dfExecutor.startsWith(File.separator) && !dfExecutor.startsWith("./")) {
dfExecutor = "./" + dfExecutor;
}
lArgs.add(dfExecutor);
String dfLib = decafImpl.getDfLib();
if (dfLib == null || dfLib.isEmpty()) {
dfLib = Constants.UNASSIGNED;
}
lArgs.add(dfLib);
lArgs.add(decafImpl.getMpiRunner());
break;
case OMPSS:
OmpSsImplementation ompssImpl = (OmpSsImplementation) absImpl;
lArgs.add(ompssImpl.getBinary());
break;
case OPENCL:
OpenCLImplementation openclImpl = (OpenCLImplementation) absImpl;
lArgs.add(openclImpl.getKernel());
break;
case BINARY:
BinaryImplementation binaryImpl = (BinaryImplementation) absImpl;
lArgs.add(binaryImpl.getBinary());
break;
}
// Slave nodes and cus description
lArgs.add(String.valueOf(slaveWorkersNodeNames.size()));
lArgs.addAll(slaveWorkersNodeNames);
lArgs.add(String.valueOf(((MethodResourceDescription) this.impl.getRequirements()).getTotalCPUComputingUnits()));
// Add parameter arguments already processed
lArgs.addAll(paramArgs);
// Conversion vector -> array
String[] arguments = new String[lArgs.size()];
arguments = lArgs.toArray(arguments);
try {
sd.setArguments(arguments);
} catch (NullPointerException e) {
StringBuilder sb = new StringBuilder("Null argument parameter of job " + this.jobId + " " + absImpl.getMethodDefinition() + "\n");
int i = 0;
for (Parameter param : taskParams.getParameters()) {
sb.append("Parameter ").append(i).append("\n");
DataType type = param.getType();
sb.append("\t Type: ").append(param.getType()).append("\n");
if (type == DataType.FILE_T || type == DataType.OBJECT_T) {
DependencyParameter dPar = (DependencyParameter) param;
DataAccessId dAccId = dPar.getDataAccessId();
sb.append("\t Target: ").append(dPar.getDataTarget()).append("\n");
if (type == DataType.OBJECT_T) {
if (dAccId instanceof RAccessId) {
sb.append("\t Direction: " + "R").append("\n");
} else {
// for the worker to know it must write the object to disk
sb.append("\t Direction: " + "W").append("\n");
}
}
} else if (type == DataType.STRING_T) {
BasicTypeParameter btParS = (BasicTypeParameter) param;
// Check spaces
String value = btParS.getValue().toString();
int numSubStrings = value.split(" ").length;
sb.append("\t Num Substrings: " + Integer.toString(numSubStrings)).append("\n");
sb.append("\t Value:" + value).append("\n");
} else {
// Basic types
BasicTypeParameter btParB = (BasicTypeParameter) param;
sb.append("\t Value: " + btParB.getValue().toString()).append("\n");
}
i++;
}
logger.error(sb.toString());
listener.jobFailed(this, JobEndStatus.SUBMISSION_FAILED);
}
sd.addAttribute("jobId", jobId);
// JEA Changed to allow execution in MN
sd.addAttribute(SoftwareDescription.WALLTIME_MAX, absImpl.getRequirements().getWallClockLimit());
if (absImpl.getRequirements().getHostQueues().size() > 0) {
sd.addAttribute(SoftwareDescription.JOB_QUEUE, absImpl.getRequirements().getHostQueues().get(0));
}
sd.addAttribute("coreCount", absImpl.getRequirements().getTotalCPUComputingUnits());
sd.addAttribute("gpuCount", absImpl.getRequirements().getTotalGPUComputingUnits());
sd.addAttribute("fpgaCount", absImpl.getRequirements().getTotalFPGAComputingUnits());
sd.addAttribute(SoftwareDescription.MEMORY_MAX, absImpl.getRequirements().getMemorySize());
// sd.addAttribute(SoftwareDescription.SANDBOX_ROOT, "/tmp/");
sd.addAttribute(SoftwareDescription.SANDBOX_ROOT, getResourceNode().getWorkingDir());
sd.addAttribute(SoftwareDescription.SANDBOX_USEROOT, "true");
sd.addAttribute(SoftwareDescription.SANDBOX_DELETE, "false");
/*
* sd.addAttribute(SoftwareDescription.SANDBOX_PRESTAGE_STDIN, "false");
* sd.addAttribute(SoftwareDescription.SANDBOX_POSTSTAGE_STDOUT, "false");
* sd.addAttribute(SoftwareDescription.SANDBOX_POSTSTAGE_STDERR, "false");
*/
if (debug) {
// Set standard output file for job
File outFile = GAT.createFile(context, Protocol.ANY_URI.getSchema() + File.separator + JOBS_DIR + "job" + jobId + "_" + this.getHistory() + ".out");
sd.setStdout(outFile);
}
if (debug || usingGlobus) {
// Set standard error file for job
File errFile = GAT.createFile(context, Protocol.ANY_URI.getSchema() + File.separator + JOBS_DIR + "job" + jobId + "_" + this.getHistory() + ".err");
sd.setStderr(errFile);
}
Map<String, Object> attributes = new HashMap<String, Object>();
attributes.put(RES_ATTR, Protocol.ANY_URI.getSchema() + targetUser + targetHost);
attributes.put("Jobname", "compss_remote_job_" + jobId);
ResourceDescription rd = new HardwareResourceDescription(attributes);
if (debug) {
logger.debug("Ready to submit job " + jobId + ":");
logger.debug(" * Host: " + targetHost);
logger.debug(" * Executable: " + sd.getExecutable());
StringBuilder sb = new StringBuilder(" - Arguments:");
for (String arg : sd.getArguments()) {
sb.append(" ").append(arg);
}
logger.debug(sb.toString());
}
JobDescription jd = new JobDescription(sd, rd);
// jd.setProcessCount(method.getRequirements().getProcessorCoreCount());
return jd;
}
use of es.bsc.compss.types.implementations.OmpSsImplementation in project compss by bsc-wdc.
the class Executor method createTaskSandbox.
/**
* Creates a sandbox for a task
*
* @param nt
* task description
* @return Sandbox dir
* @throws IOException
* @throws Exception
*/
private TaskWorkingDir createTaskSandbox(NIOTask nt) throws IOException {
// Check if an specific working dir is provided
String specificWD = null;
switch(nt.getMethodType()) {
case BINARY:
BinaryImplementation binaryImpl = (BinaryImplementation) nt.getMethodImplementation();
specificWD = binaryImpl.getWorkingDir();
break;
case MPI:
MPIImplementation mpiImpl = (MPIImplementation) nt.getMethodImplementation();
specificWD = mpiImpl.getWorkingDir();
break;
case DECAF:
DecafImplementation decafImpl = (DecafImplementation) nt.getMethodImplementation();
specificWD = decafImpl.getWorkingDir();
break;
case OMPSS:
OmpSsImplementation ompssImpl = (OmpSsImplementation) nt.getMethodImplementation();
specificWD = ompssImpl.getWorkingDir();
break;
case OPENCL:
OpenCLImplementation openclImpl = (OpenCLImplementation) nt.getMethodImplementation();
specificWD = openclImpl.getWorkingDir();
break;
case METHOD:
specificWD = null;
break;
}
TaskWorkingDir taskWD;
if (specificWD != null && !specificWD.isEmpty() && !specificWD.equals(Constants.UNASSIGNED)) {
// Binary has an specific working dir, set it
File workingDir = new File(specificWD);
taskWD = new TaskWorkingDir(workingDir, true);
// Create structures
Files.createDirectories(workingDir.toPath());
} else {
// No specific working dir provided, set default sandbox
String completePath = this.nw.getWorkingDir() + "sandBox" + File.separator + "job_" + nt.getJobId();
File workingDir = new File(completePath);
taskWD = new TaskWorkingDir(workingDir, false);
// Clean-up previous versions if any
if (workingDir.exists()) {
LOGGER.debug("Deleting folder " + workingDir.toString());
if (!workingDir.delete()) {
LOGGER.warn("Cannot delete working dir folder: " + workingDir.toString());
}
}
// Create structures
Files.createDirectories(workingDir.toPath());
}
return taskWD;
}
use of es.bsc.compss.types.implementations.OmpSsImplementation in project compss by bsc-wdc.
the class CERegistration method process.
@Override
public void process(TaskScheduler ts) {
// Register the coreElement
Integer coreId = CoreManager.registerNewCoreElement(coreElementSignature);
if (coreId == null) {
// CoreElement already exists, retrieve its id
coreId = CoreManager.getCoreId(coreElementSignature);
}
// Retrieve the new implementation number
int implId = CoreManager.getNumberCoreImplementations(coreId);
// Create the implementation
Implementation m = null;
switch(implType) {
case METHOD:
if (this.implTypeArgs.length != 2) {
ErrorManager.error("Incorrect parameters for type METHOD on " + this.coreElementSignature);
}
String declaringClass = EnvironmentLoader.loadFromEnvironment(implTypeArgs[0]);
String methodName = EnvironmentLoader.loadFromEnvironment(implTypeArgs[1]);
if (declaringClass == null || declaringClass.isEmpty()) {
ErrorManager.error("Empty declaringClass annotation for method " + this.coreElementSignature);
}
if (methodName == null || methodName.isEmpty()) {
ErrorManager.error("Empty methodName annotation for method " + this.coreElementSignature);
}
m = new MethodImplementation(declaringClass, methodName, coreId, implId, implConstraints);
break;
case MPI:
if (this.implTypeArgs.length != 3) {
ErrorManager.error("Incorrect parameters for type MPI on " + this.coreElementSignature);
}
String mpiBinary = EnvironmentLoader.loadFromEnvironment(implTypeArgs[0]);
String mpiWorkingDir = EnvironmentLoader.loadFromEnvironment(implTypeArgs[1]);
String mpiRunner = EnvironmentLoader.loadFromEnvironment(implTypeArgs[2]);
if (mpiRunner == null || mpiRunner.isEmpty()) {
ErrorManager.error("Empty mpiRunner annotation for MPI method " + this.coreElementSignature);
}
if (mpiBinary == null || mpiBinary.isEmpty()) {
ErrorManager.error("Empty binary annotation for MPI method " + this.coreElementSignature);
}
m = new MPIImplementation(mpiBinary, mpiWorkingDir, mpiRunner, coreId, implId, this.implConstraints);
break;
case DECAF:
if (this.implTypeArgs.length != 5) {
ErrorManager.error("Incorrect parameters for type DECAF on " + this.coreElementSignature);
}
String dfScript = EnvironmentLoader.loadFromEnvironment(implTypeArgs[0]);
String dfExecutor = EnvironmentLoader.loadFromEnvironment(implTypeArgs[1]);
String dfLib = EnvironmentLoader.loadFromEnvironment(implTypeArgs[2]);
String decafWorkingDir = EnvironmentLoader.loadFromEnvironment(implTypeArgs[3]);
String decafRunner = EnvironmentLoader.loadFromEnvironment(implTypeArgs[4]);
if (decafRunner == null || decafRunner.isEmpty()) {
ErrorManager.error("Empty mpiRunner annotation for DECAF method " + this.coreElementSignature);
}
if (dfScript == null || dfScript.isEmpty()) {
ErrorManager.error("Empty dfScript annotation for DECAF method " + this.coreElementSignature);
}
m = new DecafImplementation(dfScript, dfExecutor, dfLib, decafWorkingDir, decafRunner, coreId, implId, this.implConstraints);
break;
case BINARY:
if (this.implTypeArgs.length != 2) {
ErrorManager.error("Incorrect parameters for type BINARY on " + this.coreElementSignature);
}
String binary = EnvironmentLoader.loadFromEnvironment(implTypeArgs[0]);
String binaryWorkingDir = EnvironmentLoader.loadFromEnvironment(implTypeArgs[1]);
if (binary == null || binary.isEmpty()) {
ErrorManager.error("Empty binary annotation for BINARY method " + this.coreElementSignature);
}
m = new BinaryImplementation(binary, binaryWorkingDir, coreId, implId, implConstraints);
break;
case OMPSS:
if (this.implTypeArgs.length != 2) {
ErrorManager.error("Incorrect parameters for type OMPSS on " + this.coreElementSignature);
}
String ompssBinary = EnvironmentLoader.loadFromEnvironment(implTypeArgs[0]);
String ompssWorkingDir = EnvironmentLoader.loadFromEnvironment(implTypeArgs[1]);
if (ompssBinary == null || ompssBinary.isEmpty()) {
ErrorManager.error("Empty binary annotation for OmpSs method " + this.coreElementSignature);
}
m = new OmpSsImplementation(ompssBinary, ompssWorkingDir, coreId, implId, implConstraints);
break;
case OPENCL:
if (this.implTypeArgs.length != 2) {
ErrorManager.error("Incorrect parameters for type OPENCL on " + this.coreElementSignature);
}
String openclKernel = EnvironmentLoader.loadFromEnvironment(implTypeArgs[0]);
String openclWorkingDir = EnvironmentLoader.loadFromEnvironment(implTypeArgs[1]);
if (openclKernel == null || openclKernel.isEmpty()) {
ErrorManager.error("Empty kernel annotation for OpenCL method " + this.coreElementSignature);
}
m = new OpenCLImplementation(openclKernel, openclWorkingDir, coreId, implId, implConstraints);
break;
default:
ErrorManager.error("Unrecognised implementation type");
break;
}
// Register the new implementation
List<Implementation> newImpls = new LinkedList<>();
newImpls.add(m);
List<String> newSignatures = new LinkedList<>();
newSignatures.add(implSignature);
CoreManager.registerNewImplementations(coreId, newImpls, newSignatures);
// Update the Resources structures
LinkedList<Integer> newCores = new LinkedList<>();
newCores.add(coreId);
ResourceManager.coreElementUpdates(newCores);
// Update the Scheduler structures
ts.coreElementsUpdated();
LOGGER.debug("Data structures resized and CE-resources links updated");
sem.release();
}
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