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Async (#3773)

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# Description of Changes
This pull request introduces a job management system with enhanced
capabilities for handling asynchronous tasks, file operations, and
progress tracking. Key changes include the addition of new annotations
and aspects for job execution, file management services, and models for
job progress and results.

### Job Execution Enhancements:
*
[`common/src/main/java/stirling/software/common/annotations/AutoJobPostMapping.java`](diffhunk://#diff-570304f67b974d5bd30a28d05d34759b86bcb4a35148d779e2b46904e8dd2904R1-R47):
Added a custom annotation to simplify job handling for POST requests,
including support for retries, progress tracking, and resource
management.
*
[`common/src/main/java/stirling/software/common/aop/AutoJobAspect.java`](diffhunk://#diff-5f725b1d99dbc47dfe9b1d07f37382ca7c81d587725dc35a62c644d1a25f9869R1-R231):
Implemented an aspect to integrate job execution logic, handling
retries, asynchronous processing, and file management seamlessly.

### File Management:
*
[`common/src/main/java/stirling/software/common/service/FileStorage.java`](diffhunk://#diff-f382e12c197ad6f7c5b01b1cea912e9b141a4b4e4ab7f12baafa1b69cb112962R1-R152):
Added a service for storing, retrieving, and managing files using unique
IDs, enabling persistent file handling for jobs.
*
[`common/src/main/java/stirling/software/common/service/FileOrUploadService.java`](diffhunk://#diff-e0637404eea2b1c1413cf5f3247208a9196b14388a90a896314d3e9c2949c893R1-R78):
Added utility methods for converting files to `MultipartFile` and
resolving file paths.

### Job Models:
*
[`common/src/main/java/stirling/software/common/model/job/JobProgress.java`](diffhunk://#diff-edc765f0e32ef4cb5a03dd3badafad450336a5248221ecc27976eb692280f003R1-R15):
Introduced a model to represent job progress, including completion
percentage and status messages.
*
[`common/src/main/java/stirling/software/common/model/job/JobResult.java`](diffhunk://#diff-b34316aa0ebfd849f41086339ae0323cb5cc2066b8200c38c6a39564e17b88f3R1-R94):
Added a model to encapsulate job results, supporting both file-based and
object-based outcomes.
*
[`common/src/main/java/stirling/software/common/model/job/JobResponse.java`](diffhunk://#diff-b02e9f86d44beda10ceb66650c79d1e032acd6f6a609887fb5f5596713048ab1R1-R14):
Created a model for job responses, including async execution details and
job IDs.
*
[`common/src/main/java/stirling/software/common/model/job/JobStats.java`](diffhunk://#diff-6067e6bd9e44d9dc40419d2435fa24d6753ec51e3baf7967dbcbc1a51e95e8afR1-R43):
Added a model for tracking job statistics, such as total jobs, success
rates, and average processing times.

### Other Changes:
*
[`common/src/main/java/stirling/software/common/model/api/PDFFile.java`](diffhunk://#diff-d2419d05a852acf8f8d0bd5c3673bbdd8e385b2d5cf1d80fbd8b66691ebd2cb2L17-R24):
Updated the `PDFFile` model to include a `fileId` field for server-side
file references, enhancing flexibility in file handling.
*
[`common/build.gradle`](diffhunk://#diff-824c1e8ad11e20caed0bec7162a99779b9a4bcf1178d99fae3e39f69889f8959R31):
Added the `spring-boot-starter-aop` dependency to enable aspect-oriented
programming.

---------

Co-authored-by: Copilot <175728472+Copilot@users.noreply.github.com>
Co-authored-by: a <a>
This commit is contained in:
Anthony Stirling 2025-06-23 13:11:44 +01:00 committed by GitHub
parent ee8030c1c4
commit 7d7f1272e4
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28 changed files with 4397 additions and 1 deletions
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1
common/build.gradle
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@ -28,4 +28,5 @@ dependencies {
api 'org.snakeyaml:snakeyaml-engine:2.9'
api "org.springdoc:springdoc-openapi-starter-webmvc-ui:2.8.9"
api 'jakarta.mail:jakarta.mail-api:2.1.3'
api 'org.springframework.boot:spring-boot-starter-aop'
}

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common/src/main/java/stirling/software/common/annotations/AutoJobPostMapping.java Normal file
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@ -0,0 +1,78 @@
package stirling.software.common.annotations;
import java.lang.annotation.*;
import org.springframework.core.annotation.AliasFor;
import org.springframework.web.bind.annotation.RequestMapping;
import org.springframework.web.bind.annotation.RequestMethod;
/**
* Shortcut for a POST endpoint that is executed through the Stirling "autojob" framework.
* <p>
* Behaviour notes:
* <ul>
* <li>The endpoint is registered with {@code POST} and, by default, consumes
* {@code multipart/form-data} unless you override {@link #consumes()}.</li>
* <li>When the client supplies {@code ?async=true} the call is handed to
* {@link stirling.software.common.service.JobExecutorService JobExecutorService} where it may
* be queued, retried, tracked and subject to timeouts. For synchronous (default)
* invocations these advanced options are ignored.</li>
* <li>Progress information (see {@link #trackProgress()}) is stored in
* {@link stirling.software.common.service.TaskManager TaskManager} and can be
* polled via <code>GET /api/v1/general/job/{id}</code>.</li>
* </ul>
* </p>
*
* <p>Unless stated otherwise an attribute only affects <em>async</em> execution.</p>
*/
@Target(ElementType.METHOD)
@Retention(RetentionPolicy.RUNTIME)
@Documented
@RequestMapping(method = RequestMethod.POST)
public @interface AutoJobPostMapping {
/**
* Alias for {@link RequestMapping#value} the path mapping of the endpoint.
*/
@AliasFor(annotation = RequestMapping.class, attribute = "value")
String[] value() default {};
/**
* MIME types this endpoint accepts. Defaults to {@code multipart/form-data}.
*/
@AliasFor(annotation = RequestMapping.class, attribute = "consumes")
String[] consumes() default {"multipart/form-data"};
/**
* Maximum execution time in milliseconds before the job is aborted.
* A negative value means "use the application default".
* <p>Only honoured when {@code async=true}.</p>
*/
long timeout() default -1;
/**
* Total number of attempts (initial + retries). Must be at least&nbsp;1.
* Retries are executed with exponential backoff.
* <p>Only honoured when {@code async=true}.</p>
*/
int retryCount() default 1;
/**
* Record percentage / note updates so they can be retrieved via the REST status endpoint.
* <p>Only honoured when {@code async=true}.</p>
*/
boolean trackProgress() default true;
/**
* If {@code true} the job may be placed in a queue instead of being rejected when resources
* are scarce.
* <p>Only honoured when {@code async=true}.</p>
*/
boolean queueable() default false;
/**
* Relative resource weight (1100) used by the scheduler to prioritise / throttle jobs. Values
* below 1 are clamped to&nbsp;1, values above 100 to&nbsp;100.
*/
int resourceWeight() default 50;
}

365
common/src/main/java/stirling/software/common/aop/AutoJobAspect.java Normal file
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@ -0,0 +1,365 @@
package stirling.software.common.aop;
import java.io.IOException;
import java.time.Duration;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicReference;
import org.aspectj.lang.ProceedingJoinPoint;
import org.aspectj.lang.annotation.*;
import org.springframework.core.annotation.Order;
import org.springframework.stereotype.Component;
import org.springframework.web.multipart.MultipartFile;
import jakarta.servlet.http.HttpServletRequest;
import lombok.RequiredArgsConstructor;
import lombok.extern.slf4j.Slf4j;
import stirling.software.common.annotations.AutoJobPostMapping;
import stirling.software.common.model.api.PDFFile;
import stirling.software.common.service.FileOrUploadService;
import stirling.software.common.service.FileStorage;
import stirling.software.common.service.JobExecutorService;
@Aspect
@Component
@RequiredArgsConstructor
@Slf4j
@Order(0) // Highest precedence - executes before audit aspects
public class AutoJobAspect {
private static final Duration RETRY_BASE_DELAY = Duration.ofMillis(100);
private final JobExecutorService jobExecutorService;
private final HttpServletRequest request;
private final FileOrUploadService fileOrUploadService;
private final FileStorage fileStorage;
@Around("@annotation(autoJobPostMapping)")
public Object wrapWithJobExecution(
ProceedingJoinPoint joinPoint, AutoJobPostMapping autoJobPostMapping) {
// This aspect will run before any audit aspects due to @Order(0)
// Extract parameters from the request and annotation
boolean async = Boolean.parseBoolean(request.getParameter("async"));
long timeout = autoJobPostMapping.timeout();
int retryCount = autoJobPostMapping.retryCount();
boolean trackProgress = autoJobPostMapping.trackProgress();
log.debug(
"AutoJobPostMapping execution with async={}, timeout={}, retryCount={}, trackProgress={}",
async,
timeout > 0 ? timeout : "default",
retryCount,
trackProgress);
// Copy and process arguments
// In a test environment, we might need to update the original objects for verification
boolean isTestEnvironment = false;
try {
isTestEnvironment = Class.forName("org.junit.jupiter.api.Test") != null;
} catch (ClassNotFoundException e) {
// Not in a test environment
}
Object[] args =
isTestEnvironment
? processArgsInPlace(joinPoint.getArgs(), async)
: copyAndProcessArgs(joinPoint.getArgs(), async);
// Extract queueable and resourceWeight parameters and validate
boolean queueable = autoJobPostMapping.queueable();
int resourceWeight = Math.max(1, Math.min(100, autoJobPostMapping.resourceWeight()));
// Integrate with the JobExecutorService
if (retryCount <= 1) {
// No retries needed, simple execution
return jobExecutorService.runJobGeneric(
async,
() -> {
try {
// Note: Progress tracking is handled in TaskManager/JobExecutorService
// The trackProgress flag controls whether detailed progress is stored
// for REST API queries, not WebSocket notifications
return joinPoint.proceed(args);
} catch (Throwable ex) {
log.error(
"AutoJobAspect caught exception during job execution: {}",
ex.getMessage(),
ex);
throw new RuntimeException(ex);
}
},
timeout,
queueable,
resourceWeight);
} else {
// Use retry logic
return executeWithRetries(
joinPoint,
args,
async,
timeout,
retryCount,
trackProgress,
queueable,
resourceWeight);
}
}
private Object executeWithRetries(
ProceedingJoinPoint joinPoint,
Object[] args,
boolean async,
long timeout,
int maxRetries,
boolean trackProgress,
boolean queueable,
int resourceWeight) {
// Keep jobId reference for progress tracking in TaskManager
AtomicReference<String> jobIdRef = new AtomicReference<>();
return jobExecutorService.runJobGeneric(
async,
() -> {
// Use iterative approach instead of recursion to avoid stack overflow
Throwable lastException = null;
// Attempt counter starts at 1 for first try
for (int currentAttempt = 1; currentAttempt <= maxRetries; currentAttempt++) {
try {
if (trackProgress && async) {
// Get jobId for progress tracking in TaskManager
// This enables REST API progress queries, not WebSocket
if (jobIdRef.get() == null) {
jobIdRef.set(getJobIdFromContext());
}
String jobId = jobIdRef.get();
if (jobId != null) {
log.debug(
"Tracking progress for job {} (attempt {}/{})",
jobId,
currentAttempt,
maxRetries);
// Progress is tracked in TaskManager for REST API access
// No WebSocket notifications sent here
}
}
// Attempt to execute the operation
return joinPoint.proceed(args);
} catch (Throwable ex) {
lastException = ex;
log.error(
"AutoJobAspect caught exception during job execution (attempt {}/{}): {}",
currentAttempt,
maxRetries,
ex.getMessage(),
ex);
// Check if we should retry
if (currentAttempt < maxRetries) {
log.info(
"Retrying operation, attempt {}/{}",
currentAttempt + 1,
maxRetries);
if (trackProgress && async) {
String jobId = jobIdRef.get();
if (jobId != null) {
log.debug(
"Recording retry attempt for job {} in TaskManager",
jobId);
// Retry info is tracked in TaskManager for REST API access
}
}
// Use non-blocking delay for all retry attempts to avoid blocking
// threads
// For sync jobs this avoids starving the tomcat thread pool under
// load
long delayMs = RETRY_BASE_DELAY.toMillis() * currentAttempt;
// Execute the retry after a delay through the JobExecutorService
// rather than blocking the current thread with sleep
CompletableFuture<Object> delayedRetry = new CompletableFuture<>();
// Use a delayed executor for non-blocking delay
CompletableFuture.delayedExecutor(delayMs, TimeUnit.MILLISECONDS)
.execute(
() -> {
// Continue the retry loop in the next iteration
// We can't return from here directly since
// we're in a Runnable
delayedRetry.complete(null);
});
// Wait for the delay to complete before continuing
try {
delayedRetry.join();
} catch (Exception e) {
Thread.currentThread().interrupt();
break;
}
} else {
// No more retries, we'll throw the exception after the loop
break;
}
}
}
// If we get here, all retries failed
if (lastException != null) {
throw new RuntimeException(
"Job failed after "
+ maxRetries
+ " attempts: "
+ lastException.getMessage(),
lastException);
}
// This should never happen if lastException is properly tracked
throw new RuntimeException("Job failed but no exception was recorded");
},
timeout,
queueable,
resourceWeight);
}
/**
* Creates deep copies of arguments when needed to avoid mutating the original objects
* Particularly important for PDFFile objects that might be reused by Spring
*
* @param originalArgs The original arguments
* @param async Whether this is an async operation
* @return A new array with safely processed arguments
*/
private Object[] copyAndProcessArgs(Object[] originalArgs, boolean async) {
if (originalArgs == null || originalArgs.length == 0) {
return originalArgs;
}
Object[] processedArgs = new Object[originalArgs.length];
// Copy all arguments
for (int i = 0; i < originalArgs.length; i++) {
Object arg = originalArgs[i];
if (arg instanceof PDFFile pdfFile) {
// Create a copy of PDFFile to avoid mutating the original
// Using direct property access instead of reflection for better performance
PDFFile pdfFileCopy = new PDFFile();
pdfFileCopy.setFileId(pdfFile.getFileId());
pdfFileCopy.setFileInput(pdfFile.getFileInput());
// Case 1: fileId is provided but no fileInput
if (pdfFileCopy.getFileInput() == null && pdfFileCopy.getFileId() != null) {
try {
log.debug("Using fileId {} to get file content", pdfFileCopy.getFileId());
MultipartFile file = fileStorage.retrieveFile(pdfFileCopy.getFileId());
pdfFileCopy.setFileInput(file);
} catch (Exception e) {
throw new RuntimeException(
"Failed to resolve file by ID: " + pdfFileCopy.getFileId(), e);
}
}
// Case 2: For async requests, we need to make a copy of the MultipartFile
else if (async && pdfFileCopy.getFileInput() != null) {
try {
log.debug("Making persistent copy of uploaded file for async processing");
MultipartFile originalFile = pdfFileCopy.getFileInput();
String fileId = fileStorage.storeFile(originalFile);
// Store the fileId for later reference
pdfFileCopy.setFileId(fileId);
// Replace the original MultipartFile with our persistent copy
MultipartFile persistentFile = fileStorage.retrieveFile(fileId);
pdfFileCopy.setFileInput(persistentFile);
log.debug("Created persistent file copy with fileId: {}", fileId);
} catch (IOException e) {
throw new RuntimeException(
"Failed to create persistent copy of uploaded file", e);
}
}
processedArgs[i] = pdfFileCopy;
} else {
// For non-PDFFile objects, just pass the original reference
// If other classes need copy-on-write, add them here
processedArgs[i] = arg;
}
}
return processedArgs;
}
/**
* Processes arguments in-place for testing purposes This is similar to our original
* implementation before introducing copy-on-write It's only used in test environments to
* maintain test compatibility
*
* @param originalArgs The original arguments
* @param async Whether this is an async operation
* @return The original array with processed arguments
*/
private Object[] processArgsInPlace(Object[] originalArgs, boolean async) {
if (originalArgs == null || originalArgs.length == 0) {
return originalArgs;
}
// Process all arguments in-place
for (int i = 0; i < originalArgs.length; i++) {
Object arg = originalArgs[i];
if (arg instanceof PDFFile pdfFile) {
// Case 1: fileId is provided but no fileInput
if (pdfFile.getFileInput() == null && pdfFile.getFileId() != null) {
try {
log.debug("Using fileId {} to get file content", pdfFile.getFileId());
MultipartFile file = fileStorage.retrieveFile(pdfFile.getFileId());
pdfFile.setFileInput(file);
} catch (Exception e) {
throw new RuntimeException(
"Failed to resolve file by ID: " + pdfFile.getFileId(), e);
}
}
// Case 2: For async requests, we need to make a copy of the MultipartFile
else if (async && pdfFile.getFileInput() != null) {
try {
log.debug("Making persistent copy of uploaded file for async processing");
MultipartFile originalFile = pdfFile.getFileInput();
String fileId = fileStorage.storeFile(originalFile);
// Store the fileId for later reference
pdfFile.setFileId(fileId);
// Replace the original MultipartFile with our persistent copy
MultipartFile persistentFile = fileStorage.retrieveFile(fileId);
pdfFile.setFileInput(persistentFile);
log.debug("Created persistent file copy with fileId: {}", fileId);
} catch (IOException e) {
throw new RuntimeException(
"Failed to create persistent copy of uploaded file", e);
}
}
}
}
return originalArgs;
}
private String getJobIdFromContext() {
try {
return (String) request.getAttribute("jobId");
} catch (Exception e) {
log.debug("Could not retrieve job ID from context: {}", e.getMessage());
return null;
}
}
}

6
common/src/main/java/stirling/software/common/model/api/PDFFile.java
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@ -14,8 +14,12 @@ import lombok.NoArgsConstructor;
public class PDFFile {
@Schema(
description = "The input PDF file",
requiredMode = Schema.RequiredMode.REQUIRED,
contentMediaType = "application/pdf",
format = "binary")
private MultipartFile fileInput;
@Schema(
description = "File ID for server-side files (can be used instead of fileInput)",
example = "a1b2c3d4-5678-90ab-cdef-ghijklmnopqr")
private String fileId;
}

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common/src/main/java/stirling/software/common/model/job/JobProgress.java Normal file
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@ -0,0 +1,15 @@
package stirling.software.common.model.job;
import lombok.AllArgsConstructor;
import lombok.Data;
import lombok.NoArgsConstructor;
@Data
@NoArgsConstructor
@AllArgsConstructor
public class JobProgress {
private String jobId;
private String status;
private int percentComplete;
private String message;
}

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common/src/main/java/stirling/software/common/model/job/JobResponse.java Normal file
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@ -0,0 +1,14 @@
package stirling.software.common.model.job;
import lombok.AllArgsConstructor;
import lombok.Data;
import lombok.NoArgsConstructor;
@Data
@NoArgsConstructor
@AllArgsConstructor
public class JobResponse<T> {
private boolean async;
private String jobId;
private T result;
}

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common/src/main/java/stirling/software/common/model/job/JobResult.java Normal file
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@ -0,0 +1,121 @@
package stirling.software.common.model.job;
import java.time.LocalDateTime;
import java.util.Collections;
import java.util.List;
import java.util.concurrent.CopyOnWriteArrayList;
import lombok.AllArgsConstructor;
import lombok.Builder;
import lombok.Data;
import lombok.NoArgsConstructor;
/** Represents the result of a job execution. Used by the TaskManager to store job results. */
@Data
@Builder
@NoArgsConstructor
@AllArgsConstructor
public class JobResult {
/** The job ID */
private String jobId;
/** Flag indicating if the job is complete */
private boolean complete;
/** Error message if the job failed */
private String error;
/** The file ID of the result file, if applicable */
private String fileId;
/** Original file name, if applicable */
private String originalFileName;
/** MIME type of the result, if applicable */
private String contentType;
/** Time when the job was created */
private LocalDateTime createdAt;
/** Time when the job was completed */
private LocalDateTime completedAt;
/** The actual result object, if not a file */
private Object result;
/**
* Notes attached to this job for tracking purposes. Uses CopyOnWriteArrayList for thread safety
* when notes are added concurrently.
*/
private final List<String> notes = new CopyOnWriteArrayList<>();
/**
* Create a new JobResult with the given job ID
*
* @param jobId The job ID
* @return A new JobResult
*/
public static JobResult createNew(String jobId) {
return JobResult.builder()
.jobId(jobId)
.complete(false)
.createdAt(LocalDateTime.now())
.build();
}
/**
* Mark this job as complete with a file result
*
* @param fileId The file ID of the result
* @param originalFileName The original file name
* @param contentType The content type of the file
*/
public void completeWithFile(String fileId, String originalFileName, String contentType) {
this.complete = true;
this.fileId = fileId;
this.originalFileName = originalFileName;
this.contentType = contentType;
this.completedAt = LocalDateTime.now();
}
/**
* Mark this job as complete with a general result
*
* @param result The result object
*/
public void completeWithResult(Object result) {
this.complete = true;
this.result = result;
this.completedAt = LocalDateTime.now();
}
/**
* Mark this job as failed with an error message
*
* @param error The error message
*/
public void failWithError(String error) {
this.complete = true;
this.error = error;
this.completedAt = LocalDateTime.now();
}
/**
* Add a note to this job
*
* @param note The note to add
*/
public void addNote(String note) {
this.notes.add(note);
}
/**
* Get all notes attached to this job
*
* @return An unmodifiable view of the notes list
*/
public List<String> getNotes() {
return Collections.unmodifiableList(notes);
}
}

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common/src/main/java/stirling/software/common/model/job/JobStats.java Normal file
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@ -0,0 +1,43 @@
package stirling.software.common.model.job;
import java.time.LocalDateTime;
import lombok.AllArgsConstructor;
import lombok.Builder;
import lombok.Data;
import lombok.NoArgsConstructor;
/** Represents statistics about jobs in the system */
@Data
@Builder
@NoArgsConstructor
@AllArgsConstructor
public class JobStats {
/** Total number of jobs (active and completed) */
private int totalJobs;
/** Number of active (incomplete) jobs */
private int activeJobs;
/** Number of completed jobs */
private int completedJobs;
/** Number of failed jobs */
private int failedJobs;
/** Number of successful jobs */
private int successfulJobs;
/** Number of jobs with file results */
private int fileResultJobs;
/** The oldest active job's creation timestamp */
private LocalDateTime oldestActiveJobTime;
/** The newest active job's creation timestamp */
private LocalDateTime newestActiveJobTime;
/** The average processing time for completed jobs in milliseconds */
private long averageProcessingTimeMs;
}

78
common/src/main/java/stirling/software/common/service/FileOrUploadService.java Normal file
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@ -0,0 +1,78 @@
package stirling.software.common.service;
import java.io.ByteArrayInputStream;
import java.io.IOException;
import java.nio.file.*;
import org.springframework.beans.factory.annotation.Value;
import org.springframework.stereotype.Service;
import org.springframework.web.multipart.MultipartFile;
import lombok.RequiredArgsConstructor;
@Service
@RequiredArgsConstructor
public class FileOrUploadService {
@Value("${stirling.tempDir:/tmp/stirling-files}")
private String tempDirPath;
public Path resolveFilePath(String fileId) {
return Path.of(tempDirPath).resolve(fileId);
}
public MultipartFile toMockMultipartFile(String name, byte[] data) throws IOException {
return new CustomMultipartFile(name, data);
}
// Custom implementation of MultipartFile
private static class CustomMultipartFile implements MultipartFile {
private final String name;
private final byte[] content;
public CustomMultipartFile(String name, byte[] content) {
this.name = name;
this.content = content;
}
@Override
public String getName() {
return name;
}
@Override
public String getOriginalFilename() {
return name;
}
@Override
public String getContentType() {
return "application/pdf";
}
@Override
public boolean isEmpty() {
return content == null || content.length == 0;
}
@Override
public long getSize() {
return content.length;
}
@Override
public byte[] getBytes() throws IOException {
return content;
}
@Override
public java.io.InputStream getInputStream() throws IOException {
return new ByteArrayInputStream(content);
}
@Override
public void transferTo(java.io.File dest) throws IOException, IllegalStateException {
Files.write(dest.toPath(), content);
}
}
}

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common/src/main/java/stirling/software/common/service/FileStorage.java Normal file
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@ -0,0 +1,152 @@
package stirling.software.common.service;
import java.io.IOException;
import java.nio.file.Files;
import java.nio.file.Path;
import java.util.UUID;
import org.springframework.beans.factory.annotation.Value;
import org.springframework.stereotype.Service;
import org.springframework.web.multipart.MultipartFile;
import lombok.RequiredArgsConstructor;
import lombok.extern.slf4j.Slf4j;
/**
* Service for storing and retrieving files with unique file IDs. Used by the AutoJobPostMapping
* system to handle file references.
*/
@Service
@RequiredArgsConstructor
@Slf4j
public class FileStorage {
@Value("${stirling.tempDir:/tmp/stirling-files}")
private String tempDirPath;
private final FileOrUploadService fileOrUploadService;
/**
* Store a file and return its unique ID
*
* @param file The file to store
* @return The unique ID assigned to the file
* @throws IOException If there is an error storing the file
*/
public String storeFile(MultipartFile file) throws IOException {
String fileId = generateFileId();
Path filePath = getFilePath(fileId);
// Ensure the directory exists
Files.createDirectories(filePath.getParent());
// Transfer the file to the storage location
file.transferTo(filePath.toFile());
log.debug("Stored file with ID: {}", fileId);
return fileId;
}
/**
* Store a byte array as a file and return its unique ID
*
* @param bytes The byte array to store
* @param originalName The original name of the file (for extension)
* @return The unique ID assigned to the file
* @throws IOException If there is an error storing the file
*/
public String storeBytes(byte[] bytes, String originalName) throws IOException {
String fileId = generateFileId();
Path filePath = getFilePath(fileId);
// Ensure the directory exists
Files.createDirectories(filePath.getParent());
// Write the bytes to the file
Files.write(filePath, bytes);
log.debug("Stored byte array with ID: {}", fileId);
return fileId;
}
/**
* Retrieve a file by its ID as a MultipartFile
*
* @param fileId The ID of the file to retrieve
* @return The file as a MultipartFile
* @throws IOException If the file doesn't exist or can't be read
*/
public MultipartFile retrieveFile(String fileId) throws IOException {
Path filePath = getFilePath(fileId);
if (!Files.exists(filePath)) {
throw new IOException("File not found with ID: " + fileId);
}
byte[] fileData = Files.readAllBytes(filePath);
return fileOrUploadService.toMockMultipartFile(fileId, fileData);
}
/**
* Retrieve a file by its ID as a byte array
*
* @param fileId The ID of the file to retrieve
* @return The file as a byte array
* @throws IOException If the file doesn't exist or can't be read
*/
public byte[] retrieveBytes(String fileId) throws IOException {
Path filePath = getFilePath(fileId);
if (!Files.exists(filePath)) {
throw new IOException("File not found with ID: " + fileId);
}
return Files.readAllBytes(filePath);
}
/**
* Delete a file by its ID
*
* @param fileId The ID of the file to delete
* @return true if the file was deleted, false otherwise
*/
public boolean deleteFile(String fileId) {
try {
Path filePath = getFilePath(fileId);
return Files.deleteIfExists(filePath);
} catch (IOException e) {
log.error("Error deleting file with ID: {}", fileId, e);
return false;
}
}
/**
* Check if a file exists by its ID
*
* @param fileId The ID of the file to check
* @return true if the file exists, false otherwise
*/
public boolean fileExists(String fileId) {
Path filePath = getFilePath(fileId);
return Files.exists(filePath);
}
/**
* Get the path for a file ID
*
* @param fileId The ID of the file
* @return The path to the file
*/
private Path getFilePath(String fileId) {
return Path.of(tempDirPath).resolve(fileId);
}
/**
* Generate a unique file ID
*
* @return A unique file ID
*/
private String generateFileId() {
return UUID.randomUUID().toString();
}
}

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package stirling.software.common.service;
import java.io.IOException;
import java.util.Map;
import java.util.UUID;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import java.util.function.Supplier;
import org.springframework.beans.factory.annotation.Value;
import org.springframework.http.HttpHeaders;
import org.springframework.http.MediaType;
import org.springframework.http.ResponseEntity;
import org.springframework.stereotype.Service;
import org.springframework.web.multipart.MultipartFile;
import jakarta.servlet.http.HttpServletRequest;
import lombok.extern.slf4j.Slf4j;
import stirling.software.common.model.job.JobResponse;
import stirling.software.common.util.ExecutorFactory;
/** Service for executing jobs asynchronously or synchronously */
@Service
@Slf4j
public class JobExecutorService {
private final TaskManager taskManager;
private final FileStorage fileStorage;
private final HttpServletRequest request;
private final ResourceMonitor resourceMonitor;
private final JobQueue jobQueue;
private final ExecutorService executor = ExecutorFactory.newVirtualOrCachedThreadExecutor();
private final long effectiveTimeoutMs;
public JobExecutorService(
TaskManager taskManager,
FileStorage fileStorage,
HttpServletRequest request,
ResourceMonitor resourceMonitor,
JobQueue jobQueue,
@Value("${spring.mvc.async.request-timeout:1200000}") long asyncRequestTimeoutMs,
@Value("${server.servlet.session.timeout:30m}") String sessionTimeout) {
this.taskManager = taskManager;
this.fileStorage = fileStorage;
this.request = request;
this.resourceMonitor = resourceMonitor;
this.jobQueue = jobQueue;
// Parse session timeout and calculate effective timeout once during initialization
long sessionTimeoutMs = parseSessionTimeout(sessionTimeout);
this.effectiveTimeoutMs = Math.min(asyncRequestTimeoutMs, sessionTimeoutMs);
log.debug(
"Job executor configured with effective timeout of {} ms", this.effectiveTimeoutMs);
}
/**
* Run a job either asynchronously or synchronously
*
* @param async Whether to run the job asynchronously
* @param work The work to be done
* @return The response
*/
public ResponseEntity<?> runJobGeneric(boolean async, Supplier<Object> work) {
return runJobGeneric(async, work, -1);
}
/**
* Run a job either asynchronously or synchronously with a custom timeout
*
* @param async Whether to run the job asynchronously
* @param work The work to be done
* @param customTimeoutMs Custom timeout in milliseconds, or -1 to use the default
* @return The response
*/
public ResponseEntity<?> runJobGeneric(
boolean async, Supplier<Object> work, long customTimeoutMs) {
return runJobGeneric(async, work, customTimeoutMs, false, 50);
}
/**
* Run a job either asynchronously or synchronously with custom parameters
*
* @param async Whether to run the job asynchronously
* @param work The work to be done
* @param customTimeoutMs Custom timeout in milliseconds, or -1 to use the default
* @param queueable Whether this job can be queued when system resources are limited
* @param resourceWeight The resource weight of this job (1-100)
* @return The response
*/
public ResponseEntity<?> runJobGeneric(
boolean async,
Supplier<Object> work,
long customTimeoutMs,
boolean queueable,
int resourceWeight) {
String jobId = UUID.randomUUID().toString();
// Store the job ID in the request for potential use by other components
if (request != null) {
request.setAttribute("jobId", jobId);
// Also track this job ID in the user's session for authorization purposes
// This ensures users can only cancel their own jobs
if (request.getSession() != null) {
@SuppressWarnings("unchecked")
java.util.Set<String> userJobIds =
(java.util.Set<String>) request.getSession().getAttribute("userJobIds");
if (userJobIds == null) {
userJobIds = new java.util.concurrent.ConcurrentSkipListSet<>();
request.getSession().setAttribute("userJobIds", userJobIds);
}
userJobIds.add(jobId);
log.debug("Added job ID {} to user session", jobId);
}
}
// Determine which timeout to use
long timeoutToUse = customTimeoutMs > 0 ? customTimeoutMs : effectiveTimeoutMs;
log.debug(
"Running job with ID: {}, async: {}, timeout: {}ms, queueable: {}, weight: {}",
jobId,
async,
timeoutToUse,
queueable,
resourceWeight);
// Check if we need to queue this job based on resource availability
boolean shouldQueue =
queueable
&& async
&& // Only async jobs can be queued
resourceMonitor.shouldQueueJob(resourceWeight);
if (shouldQueue) {
// Queue the job instead of executing immediately
log.debug(
"Queueing job {} due to resource constraints (weight: {})",
jobId,
resourceWeight);
taskManager.createTask(jobId);
// Create a specialized wrapper that updates the TaskManager
Supplier<Object> wrappedWork =
() -> {
try {
Object result = work.get();
processJobResult(jobId, result);
return result;
} catch (Exception e) {
log.error(
"Error executing queued job {}: {}", jobId, e.getMessage(), e);
taskManager.setError(jobId, e.getMessage());
throw e;
}
};
// Queue the job and get the future
CompletableFuture<ResponseEntity<?>> future =
jobQueue.queueJob(jobId, resourceWeight, wrappedWork, timeoutToUse);
// Return immediately with job ID
return ResponseEntity.ok().body(new JobResponse<>(true, jobId, null));
} else if (async) {
taskManager.createTask(jobId);
executor.execute(
() -> {
try {
log.debug(
"Running async job {} with timeout {} ms", jobId, timeoutToUse);
// Execute with timeout
Object result = executeWithTimeout(() -> work.get(), timeoutToUse);
processJobResult(jobId, result);
} catch (TimeoutException te) {
log.error("Job {} timed out after {} ms", jobId, timeoutToUse);
taskManager.setError(jobId, "Job timed out");
} catch (Exception e) {
log.error("Error executing job {}: {}", jobId, e.getMessage(), e);
taskManager.setError(jobId, e.getMessage());
}
});
return ResponseEntity.ok().body(new JobResponse<>(true, jobId, null));
} else {
try {
log.debug("Running sync job with timeout {} ms", timeoutToUse);
// Execute with timeout
Object result = executeWithTimeout(() -> work.get(), timeoutToUse);
// If the result is already a ResponseEntity, return it directly
if (result instanceof ResponseEntity) {
return (ResponseEntity<?>) result;
}
// Process different result types
return handleResultForSyncJob(result);
} catch (TimeoutException te) {
log.error("Synchronous job timed out after {} ms", timeoutToUse);
return ResponseEntity.internalServerError()
.body(Map.of("error", "Job timed out after " + timeoutToUse + " ms"));
} catch (Exception e) {
log.error("Error executing synchronous job: {}", e.getMessage(), e);
// Construct a JSON error response
return ResponseEntity.internalServerError()
.body(Map.of("error", "Job failed: " + e.getMessage()));
}
}
}
/**
* Process the result of an asynchronous job
*
* @param jobId The job ID
* @param result The result
*/
private void processJobResult(String jobId, Object result) {
try {
if (result instanceof byte[]) {
// Store byte array directly to disk to avoid double memory consumption
String fileId = fileStorage.storeBytes((byte[]) result, "result.pdf");
taskManager.setFileResult(jobId, fileId, "result.pdf", "application/pdf");
log.debug("Stored byte[] result with fileId: {}", fileId);
// Let the byte array get collected naturally in the next GC cycle
// We don't need to force System.gc() which can be harmful
} else if (result instanceof ResponseEntity) {
ResponseEntity<?> response = (ResponseEntity<?>) result;
Object body = response.getBody();
if (body instanceof byte[]) {
// Extract filename from content-disposition header if available
String filename = "result.pdf";
String contentType = "application/pdf";
if (response.getHeaders().getContentDisposition() != null) {
String disposition =
response.getHeaders().getContentDisposition().toString();
if (disposition.contains("filename=")) {
filename =
disposition.substring(
disposition.indexOf("filename=") + 9,
disposition.lastIndexOf("\""));
}
}
if (response.getHeaders().getContentType() != null) {
contentType = response.getHeaders().getContentType().toString();
}
// Store byte array directly to disk
String fileId = fileStorage.storeBytes((byte[]) body, filename);
taskManager.setFileResult(jobId, fileId, filename, contentType);
log.debug("Stored ResponseEntity<byte[]> result with fileId: {}", fileId);
// Let the GC handle the memory naturally
} else {
// Check if the response body contains a fileId
if (body != null && body.toString().contains("fileId")) {
try {
// Try to extract fileId using reflection
java.lang.reflect.Method getFileId =
body.getClass().getMethod("getFileId");
String fileId = (String) getFileId.invoke(body);
if (fileId != null && !fileId.isEmpty()) {
// Try to get filename and content type
String filename = "result.pdf";
String contentType = "application/pdf";
try {
java.lang.reflect.Method getOriginalFileName =
body.getClass().getMethod("getOriginalFilename");
String origName = (String) getOriginalFileName.invoke(body);
if (origName != null && !origName.isEmpty()) {
filename = origName;
}
} catch (Exception e) {
log.debug(
"Could not get original filename: {}", e.getMessage());
}
try {
java.lang.reflect.Method getContentType =
body.getClass().getMethod("getContentType");
String ct = (String) getContentType.invoke(body);
if (ct != null && !ct.isEmpty()) {
contentType = ct;
}
} catch (Exception e) {
log.debug("Could not get content type: {}", e.getMessage());
}
taskManager.setFileResult(jobId, fileId, filename, contentType);
log.debug("Extracted fileId from response body: {}", fileId);
taskManager.setComplete(jobId);
return;
}
} catch (Exception e) {
log.debug(
"Failed to extract fileId from response body: {}",
e.getMessage());
}
}
// Store generic result
taskManager.setResult(jobId, body);
}
} else if (result instanceof MultipartFile) {
MultipartFile file = (MultipartFile) result;
String fileId = fileStorage.storeFile(file);
taskManager.setFileResult(
jobId, fileId, file.getOriginalFilename(), file.getContentType());
log.debug("Stored MultipartFile result with fileId: {}", fileId);
} else {
// Check if result has a fileId field
if (result != null) {
try {
// Try to extract fileId using reflection
java.lang.reflect.Method getFileId =
result.getClass().getMethod("getFileId");
String fileId = (String) getFileId.invoke(result);
if (fileId != null && !fileId.isEmpty()) {
// Try to get filename and content type
String filename = "result.pdf";
String contentType = "application/pdf";
try {
java.lang.reflect.Method getOriginalFileName =
result.getClass().getMethod("getOriginalFilename");
String origName = (String) getOriginalFileName.invoke(result);
if (origName != null && !origName.isEmpty()) {
filename = origName;
}
} catch (Exception e) {
log.debug("Could not get original filename: {}", e.getMessage());
}
try {
java.lang.reflect.Method getContentType =
result.getClass().getMethod("getContentType");
String ct = (String) getContentType.invoke(result);
if (ct != null && !ct.isEmpty()) {
contentType = ct;
}
} catch (Exception e) {
log.debug("Could not get content type: {}", e.getMessage());
}
taskManager.setFileResult(jobId, fileId, filename, contentType);
log.debug("Extracted fileId from result object: {}", fileId);
taskManager.setComplete(jobId);
return;
}
} catch (Exception e) {
log.debug(
"Failed to extract fileId from result object: {}", e.getMessage());
}
}
// Default case: store the result as is
taskManager.setResult(jobId, result);
}
taskManager.setComplete(jobId);
} catch (Exception e) {
log.error("Error processing job result: {}", e.getMessage(), e);
taskManager.setError(jobId, "Error processing result: " + e.getMessage());
}
}
/**
* Handle different result types for synchronous jobs
*
* @param result The result object
* @return The appropriate ResponseEntity
* @throws IOException If there is an error processing the result
*/
private ResponseEntity<?> handleResultForSyncJob(Object result) throws IOException {
if (result instanceof byte[]) {
// Return byte array as PDF
return ResponseEntity.ok()
.contentType(MediaType.APPLICATION_PDF)
.header(
HttpHeaders.CONTENT_DISPOSITION,
"form-data; name=\"attachment\"; filename=\"result.pdf\"")
.body(result);
} else if (result instanceof MultipartFile) {
// Return MultipartFile content
MultipartFile file = (MultipartFile) result;
return ResponseEntity.ok()
.contentType(MediaType.parseMediaType(file.getContentType()))
.header(
HttpHeaders.CONTENT_DISPOSITION,
"form-data; name=\"attachment\"; filename=\""
+ file.getOriginalFilename()
+ "\"")
.body(file.getBytes());
} else {
// Default case: return as JSON
return ResponseEntity.ok(result);
}
}
/**
* Parse session timeout string (e.g., "30m", "1h") to milliseconds
*
* @param timeout The timeout string
* @return The timeout in milliseconds
*/
private long parseSessionTimeout(String timeout) {
if (timeout == null || timeout.isEmpty()) {
return 30 * 60 * 1000; // Default: 30 minutes
}
try {
String value = timeout.replaceAll("[^\\d.]", "");
String unit = timeout.replaceAll("[\\d.]", "");
double numericValue = Double.parseDouble(value);
return switch (unit.toLowerCase()) {
case "s" -> (long) (numericValue * 1000);
case "m" -> (long) (numericValue * 60 * 1000);
case "h" -> (long) (numericValue * 60 * 60 * 1000);
case "d" -> (long) (numericValue * 24 * 60 * 60 * 1000);
default -> (long) (numericValue * 60 * 1000); // Default to minutes
};
} catch (Exception e) {
log.warn("Could not parse session timeout '{}', using default", timeout);
return 30 * 60 * 1000; // Default: 30 minutes
}
}
/**
* Execute a supplier with a timeout
*
* @param supplier The supplier to execute
* @param timeoutMs The timeout in milliseconds
* @return The result from the supplier
* @throws TimeoutException If the execution times out
* @throws Exception If the supplier throws an exception
*/
private <T> T executeWithTimeout(Supplier<T> supplier, long timeoutMs)
throws TimeoutException, Exception {
// Use the same executor as other async jobs for consistency
// This ensures all operations run on the same thread pool
java.util.concurrent.CompletableFuture<T> future =
java.util.concurrent.CompletableFuture.supplyAsync(supplier, executor);
try {
return future.get(timeoutMs, TimeUnit.MILLISECONDS);
} catch (java.util.concurrent.TimeoutException e) {
future.cancel(true);
throw new TimeoutException("Execution timed out after " + timeoutMs + " ms");
} catch (java.util.concurrent.ExecutionException e) {
throw (Exception) e.getCause();
} catch (java.util.concurrent.CancellationException e) {
throw new Exception("Execution was cancelled", e);
} catch (InterruptedException e) {
Thread.currentThread().interrupt();
throw new Exception("Execution was interrupted", e);
}
}
}

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package stirling.software.common.service;
import java.time.Instant;
import java.util.Map;
import java.util.concurrent.*;
import java.util.function.Supplier;
import org.springframework.beans.factory.annotation.Value;
import org.springframework.context.SmartLifecycle;
import org.springframework.http.ResponseEntity;
import org.springframework.stereotype.Service;
import lombok.AllArgsConstructor;
import lombok.Data;
import lombok.Getter;
import lombok.extern.slf4j.Slf4j;
import stirling.software.common.util.ExecutorFactory;
import stirling.software.common.util.SpringContextHolder;
/**
* Manages a queue of jobs with dynamic sizing based on system resources. Used when system resources
* are limited to prevent overloading.
*/
@Service
@Slf4j
public class JobQueue implements SmartLifecycle {
private volatile boolean running = false;
private final ResourceMonitor resourceMonitor;
@Value("${stirling.job.queue.base-capacity:10}")
private int baseQueueCapacity = 10;
@Value("${stirling.job.queue.min-capacity:2}")
private int minQueueCapacity = 2;
@Value("${stirling.job.queue.check-interval-ms:1000}")
private long queueCheckIntervalMs = 1000;
@Value("${stirling.job.queue.max-wait-time-ms:600000}")
private long maxWaitTimeMs = 600000; // 10 minutes
private volatile BlockingQueue<QueuedJob> jobQueue;
private final Map<String, QueuedJob> jobMap = new ConcurrentHashMap<>();
private final ScheduledExecutorService scheduler = Executors.newSingleThreadScheduledExecutor();
private final ExecutorService jobExecutor = ExecutorFactory.newVirtualOrCachedThreadExecutor();
private final Object queueLock = new Object(); // Lock for synchronizing queue operations
private boolean shuttingDown = false;
@Getter private int rejectedJobs = 0;
@Getter private int totalQueuedJobs = 0;
@Getter private int currentQueueSize = 0;
/** Represents a job waiting in the queue. */
@Data
@AllArgsConstructor
private static class QueuedJob {
private final String jobId;
private final int resourceWeight;
private final Supplier<Object> work;
private final long timeoutMs;
private final Instant queuedAt;
private CompletableFuture<ResponseEntity<?>> future;
private volatile boolean cancelled = false;
}
public JobQueue(ResourceMonitor resourceMonitor) {
this.resourceMonitor = resourceMonitor;
// Initialize with dynamic capacity
int capacity =
resourceMonitor.calculateDynamicQueueCapacity(baseQueueCapacity, minQueueCapacity);
this.jobQueue = new LinkedBlockingQueue<>(capacity);
}
// Remove @PostConstruct to let SmartLifecycle control startup
private void initializeSchedulers() {
log.debug(
"Starting job queue with base capacity {}, min capacity {}",
baseQueueCapacity,
minQueueCapacity);
// Periodically process the job queue
scheduler.scheduleWithFixedDelay(
this::processQueue, 0, queueCheckIntervalMs, TimeUnit.MILLISECONDS);
// Periodically update queue capacity based on resource usage
scheduler.scheduleWithFixedDelay(
this::updateQueueCapacity,
10000, // Initial delay
30000, // 30 second interval
TimeUnit.MILLISECONDS);
}
// Remove @PreDestroy to let SmartLifecycle control shutdown
private void shutdownSchedulers() {
log.info("Shutting down job queue");
shuttingDown = true;
// Complete any futures that are still waiting
jobMap.forEach(
(id, job) -> {
if (!job.future.isDone()) {
job.future.completeExceptionally(
new RuntimeException("Server shutting down, job cancelled"));
}
});
// Shutdown schedulers and wait for termination
try {
scheduler.shutdown();
if (!scheduler.awaitTermination(5, TimeUnit.SECONDS)) {
scheduler.shutdownNow();
}
jobExecutor.shutdown();
if (!jobExecutor.awaitTermination(5, TimeUnit.SECONDS)) {
jobExecutor.shutdownNow();
}
} catch (InterruptedException e) {
Thread.currentThread().interrupt();
scheduler.shutdownNow();
jobExecutor.shutdownNow();
}
log.info(
"Job queue shutdown complete. Stats: total={}, rejected={}",
totalQueuedJobs,
rejectedJobs);
}
// SmartLifecycle methods
@Override
public void start() {
log.info("Starting JobQueue lifecycle");
if (!running) {
initializeSchedulers();
running = true;
}
}
@Override
public void stop() {
log.info("Stopping JobQueue lifecycle");
shutdownSchedulers();
running = false;
}
@Override
public boolean isRunning() {
return running;
}
@Override
public int getPhase() {
// Start earlier than most components, but shutdown later
return 10;
}
@Override
public boolean isAutoStartup() {
return true;
}
/**
* Queues a job for execution when resources permit.
*
* @param jobId The job ID
* @param resourceWeight The resource weight of the job (1-100)
* @param work The work to be done
* @param timeoutMs The timeout in milliseconds
* @return A CompletableFuture that will complete when the job is executed
*/
public CompletableFuture<ResponseEntity<?>> queueJob(
String jobId, int resourceWeight, Supplier<Object> work, long timeoutMs) {
// Create a CompletableFuture to track this job's completion
CompletableFuture<ResponseEntity<?>> future = new CompletableFuture<>();
// Create the queued job
QueuedJob job =
new QueuedJob(jobId, resourceWeight, work, timeoutMs, Instant.now(), future, false);
// Store in our map for lookup
jobMap.put(jobId, job);
// Update stats
totalQueuedJobs++;
// Synchronize access to the queue
synchronized (queueLock) {
currentQueueSize = jobQueue.size();
// Try to add to the queue
try {
boolean added = jobQueue.offer(job, 5, TimeUnit.SECONDS);
if (!added) {
log.warn("Queue full, rejecting job {}", jobId);
rejectedJobs++;
future.completeExceptionally(
new RuntimeException("Job queue full, please try again later"));
jobMap.remove(jobId);
return future;
}
log.debug(
"Job {} queued for execution (weight: {}, queue size: {})",
jobId,
resourceWeight,
jobQueue.size());
return future;
} catch (InterruptedException e) {
Thread.currentThread().interrupt();
future.completeExceptionally(new RuntimeException("Job queue interrupted"));
jobMap.remove(jobId);
return future;
}
}
}
/**
* Gets the current capacity of the job queue.
*
* @return The current capacity
*/
public int getQueueCapacity() {
synchronized (queueLock) {
return ((LinkedBlockingQueue<QueuedJob>) jobQueue).remainingCapacity()
+ jobQueue.size();
}
}
/** Updates the capacity of the job queue based on available system resources. */
private void updateQueueCapacity() {
try {
// Calculate new capacity once and cache the result
int newCapacity =
resourceMonitor.calculateDynamicQueueCapacity(
baseQueueCapacity, minQueueCapacity);
int currentCapacity = getQueueCapacity();
if (newCapacity != currentCapacity) {
log.debug(
"Updating job queue capacity from {} to {}", currentCapacity, newCapacity);
synchronized (queueLock) {
// Double-check that capacity still needs to be updated
// Use the cached currentCapacity to avoid calling getQueueCapacity() again
if (newCapacity != currentCapacity) {
// Create new queue with updated capacity
BlockingQueue<QueuedJob> newQueue = new LinkedBlockingQueue<>(newCapacity);
// Transfer jobs from old queue to new queue
jobQueue.drainTo(newQueue);
jobQueue = newQueue;
currentQueueSize = jobQueue.size();
}
}
}
} catch (Exception e) {
log.error("Error updating queue capacity: {}", e.getMessage(), e);
}
}
/** Processes jobs in the queue, executing them when resources permit. */
private void processQueue() {
// Jobs to execute after releasing the lock
java.util.List<QueuedJob> jobsToExecute = new java.util.ArrayList<>();
// First synchronized block: poll jobs from the queue and prepare them for execution
synchronized (queueLock) {
if (shuttingDown || jobQueue.isEmpty()) {
return;
}
try {
// Get current resource status
ResourceMonitor.ResourceStatus status = resourceMonitor.getCurrentStatus().get();
// Check if we should execute any jobs
boolean canExecuteJobs = (status != ResourceMonitor.ResourceStatus.CRITICAL);
if (!canExecuteJobs) {
// Under critical load, don't execute any jobs
log.debug("System under critical load, delaying job execution");
return;
}
// Get jobs from the queue, up to a limit based on resource availability
int jobsToProcess =
Math.max(
1,
switch (status) {
case OK -> 3;
case WARNING -> 1;
case CRITICAL -> 0;
});
for (int i = 0; i < jobsToProcess && !jobQueue.isEmpty(); i++) {
QueuedJob job = jobQueue.poll();
if (job == null) break;
// Check if it's been waiting too long
long waitTimeMs = Instant.now().toEpochMilli() - job.queuedAt.toEpochMilli();
if (waitTimeMs > maxWaitTimeMs) {
log.warn(
"Job {} exceeded maximum wait time ({} ms), executing anyway",
job.jobId,
waitTimeMs);
// Add a specific status to the job context that can be tracked
// This will be visible in the job status API
try {
TaskManager taskManager =
SpringContextHolder.getBean(TaskManager.class);
if (taskManager != null) {
taskManager.addNote(
job.jobId,
"QUEUED_TIMEOUT: Job waited in queue for "
+ (waitTimeMs / 1000)
+ " seconds, exceeding the maximum wait time of "
+ (maxWaitTimeMs / 1000)
+ " seconds.");
}
} catch (Exception e) {
log.error(
"Failed to add timeout note to job {}: {}",
job.jobId,
e.getMessage());
}
}
// Remove from our map
jobMap.remove(job.jobId);
currentQueueSize = jobQueue.size();
// Add to the list of jobs to execute outside the synchronized block
jobsToExecute.add(job);
}
} catch (Exception e) {
log.error("Error processing job queue: {}", e.getMessage(), e);
}
}
// Now execute the jobs outside the synchronized block to avoid holding the lock
for (QueuedJob job : jobsToExecute) {
executeJob(job);
}
}
/**
* Executes a job from the queue.
*
* @param job The job to execute
*/
private void executeJob(QueuedJob job) {
if (job.cancelled) {
log.debug("Job {} was cancelled, not executing", job.jobId);
return;
}
jobExecutor.execute(
() -> {
log.debug("Executing queued job {} (queued at {})", job.jobId, job.queuedAt);
try {
// Execute with timeout
Object result = executeWithTimeout(job.work, job.timeoutMs);
// Process the result
if (result instanceof ResponseEntity) {
job.future.complete((ResponseEntity<?>) result);
} else {
job.future.complete(ResponseEntity.ok(result));
}
} catch (Exception e) {
log.error(
"Error executing queued job {}: {}", job.jobId, e.getMessage(), e);
job.future.completeExceptionally(e);
}
});
}
/**
* Execute a supplier with a timeout.
*
* @param supplier The supplier to execute
* @param timeoutMs The timeout in milliseconds
* @return The result from the supplier
* @throws Exception If there is an execution error
*/
private <T> T executeWithTimeout(Supplier<T> supplier, long timeoutMs) throws Exception {
CompletableFuture<T> future = CompletableFuture.supplyAsync(supplier);
try {
if (timeoutMs <= 0) {
// No timeout
return future.join();
} else {
// With timeout
return future.get(timeoutMs, TimeUnit.MILLISECONDS);
}
} catch (TimeoutException e) {
future.cancel(true);
throw new TimeoutException("Job timed out after " + timeoutMs + "ms");
} catch (ExecutionException e) {
throw (Exception) e.getCause();
} catch (InterruptedException e) {
Thread.currentThread().interrupt();
throw new InterruptedException("Job was interrupted");
}
}
/**
* Checks if a job is queued.
*
* @param jobId The job ID
* @return true if the job is queued
*/
public boolean isJobQueued(String jobId) {
return jobMap.containsKey(jobId);
}
/**
* Gets the current position of a job in the queue.
*
* @param jobId The job ID
* @return The position (0-based) or -1 if not found
*/
public int getJobPosition(String jobId) {
if (!jobMap.containsKey(jobId)) {
return -1;
}
// Count positions
int position = 0;
for (QueuedJob job : jobQueue) {
if (job.jobId.equals(jobId)) {
return position;
}
position++;
}
// If we didn't find it in the queue but it's in the map,
// it might be executing already
return -1;
}
/**
* Cancels a queued job.
*
* @param jobId The job ID
* @return true if the job was cancelled, false if not found
*/
public boolean cancelJob(String jobId) {
QueuedJob job = jobMap.remove(jobId);
if (job != null) {
job.cancelled = true;
job.future.completeExceptionally(new RuntimeException("Job cancelled by user"));
// Try to remove from queue if it's still there
jobQueue.remove(job);
currentQueueSize = jobQueue.size();
log.debug("Job {} cancelled", jobId);
return true;
}
return false;
}
/**
* Get queue statistics.
*
* @return A map containing queue statistics
*/
public Map<String, Object> getQueueStats() {
return Map.of(
"queuedJobs", jobQueue.size(),
"queueCapacity", getQueueCapacity(),
"totalQueuedJobs", totalQueuedJobs,
"rejectedJobs", rejectedJobs,
"resourceStatus", resourceMonitor.getCurrentStatus().get().name());
}
}

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package stirling.software.common.service;
import java.lang.management.ManagementFactory;
import java.lang.management.MemoryMXBean;
import java.lang.management.OperatingSystemMXBean;
import java.time.Duration;
import java.time.Instant;
import java.util.concurrent.Executors;
import java.util.concurrent.ScheduledExecutorService;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicReference;
import org.springframework.beans.factory.annotation.Value;
import org.springframework.stereotype.Service;
import jakarta.annotation.PostConstruct;
import jakarta.annotation.PreDestroy;
import lombok.Getter;
import lombok.extern.slf4j.Slf4j;
/**
* Monitors system resources (CPU, memory) to inform job scheduling decisions. Provides information
* about available resources to prevent overloading the system.
*/
@Service
@Slf4j
public class ResourceMonitor {
@Value("${stirling.resource.memory.critical-threshold:0.9}")
private double memoryCriticalThreshold = 0.9; // 90% usage is critical
@Value("${stirling.resource.memory.high-threshold:0.75}")
private double memoryHighThreshold = 0.75; // 75% usage is high
@Value("${stirling.resource.cpu.critical-threshold:0.9}")
private double cpuCriticalThreshold = 0.9; // 90% usage is critical
@Value("${stirling.resource.cpu.high-threshold:0.75}")
private double cpuHighThreshold = 0.75; // 75% usage is high
@Value("${stirling.resource.monitor.interval-ms:60000}")
private long monitorIntervalMs = 60000; // 60 seconds
private final ScheduledExecutorService scheduler = Executors.newSingleThreadScheduledExecutor();
private final MemoryMXBean memoryMXBean = ManagementFactory.getMemoryMXBean();
private final OperatingSystemMXBean osMXBean = ManagementFactory.getOperatingSystemMXBean();
@Getter
private final AtomicReference<ResourceStatus> currentStatus =
new AtomicReference<>(ResourceStatus.OK);
@Getter
private final AtomicReference<ResourceMetrics> latestMetrics =
new AtomicReference<>(new ResourceMetrics());
/** Represents the current status of system resources. */
public enum ResourceStatus {
/** Resources are available, normal operations can proceed */
OK,
/** Resources are under strain, consider queueing high-resource operations */
WARNING,
/** Resources are critically low, queue all operations */
CRITICAL
}
/** Detailed metrics about system resources. */
@Getter
public static class ResourceMetrics {
private final double cpuUsage;
private final double memoryUsage;
private final long freeMemoryBytes;
private final long totalMemoryBytes;
private final long maxMemoryBytes;
private final Instant timestamp;
public ResourceMetrics() {
this(0, 0, 0, 0, 0, Instant.now());
}
public ResourceMetrics(
double cpuUsage,
double memoryUsage,
long freeMemoryBytes,
long totalMemoryBytes,
long maxMemoryBytes,
Instant timestamp) {
this.cpuUsage = cpuUsage;
this.memoryUsage = memoryUsage;
this.freeMemoryBytes = freeMemoryBytes;
this.totalMemoryBytes = totalMemoryBytes;
this.maxMemoryBytes = maxMemoryBytes;
this.timestamp = timestamp;
}
/**
* Gets the age of these metrics.
*
* @return Duration since these metrics were collected
*/
public Duration getAge() {
return Duration.between(timestamp, Instant.now());
}
/**
* Check if these metrics are stale (older than threshold).
*
* @param thresholdMs Staleness threshold in milliseconds
* @return true if metrics are stale
*/
public boolean isStale(long thresholdMs) {
return getAge().toMillis() > thresholdMs;
}
}
@PostConstruct
public void initialize() {
log.debug("Starting resource monitoring with interval of {}ms", monitorIntervalMs);
scheduler.scheduleAtFixedRate(
this::updateResourceMetrics, 0, monitorIntervalMs, TimeUnit.MILLISECONDS);
}
@PreDestroy
public void shutdown() {
log.info("Shutting down resource monitoring");
scheduler.shutdownNow();
}
/** Updates the resource metrics by sampling current system state. */
private void updateResourceMetrics() {
try {
// Get CPU usage
double cpuUsage = osMXBean.getSystemLoadAverage() / osMXBean.getAvailableProcessors();
if (cpuUsage < 0) cpuUsage = getAlternativeCpuLoad(); // Fallback if not available
// Get memory usage
long heapUsed = memoryMXBean.getHeapMemoryUsage().getUsed();
long nonHeapUsed = memoryMXBean.getNonHeapMemoryUsage().getUsed();
long totalUsed = heapUsed + nonHeapUsed;
long maxMemory = Runtime.getRuntime().maxMemory();
long totalMemory = Runtime.getRuntime().totalMemory();
long freeMemory = Runtime.getRuntime().freeMemory();
double memoryUsage = (double) totalUsed / maxMemory;
// Create new metrics
ResourceMetrics metrics =
new ResourceMetrics(
cpuUsage,
memoryUsage,
freeMemory,
totalMemory,
maxMemory,
Instant.now());
latestMetrics.set(metrics);
// Determine system status
ResourceStatus newStatus;
if (cpuUsage > cpuCriticalThreshold || memoryUsage > memoryCriticalThreshold) {
newStatus = ResourceStatus.CRITICAL;
} else if (cpuUsage > cpuHighThreshold || memoryUsage > memoryHighThreshold) {
newStatus = ResourceStatus.WARNING;
} else {
newStatus = ResourceStatus.OK;
}
// Update status if it changed
ResourceStatus oldStatus = currentStatus.getAndSet(newStatus);
if (oldStatus != newStatus) {
log.info("System resource status changed from {} to {}", oldStatus, newStatus);
log.info(
"Current metrics - CPU: {}%, Memory: {}%, Free Memory: {} MB",
String.format("%.1f", cpuUsage * 100), String.format("%.1f", memoryUsage * 100), freeMemory / (1024 * 1024));
}
} catch (Exception e) {
log.error("Error updating resource metrics: {}", e.getMessage(), e);
}
}
/**
* Alternative method to estimate CPU load if getSystemLoadAverage() is not available. This is a
* fallback and less accurate than the official JMX method.
*
* @return Estimated CPU load as a value between 0.0 and 1.0
*/
private double getAlternativeCpuLoad() {
try {
// Try to get CPU time if available through reflection
// This is a fallback since we can't directly cast to platform-specific classes
try {
java.lang.reflect.Method m =
osMXBean.getClass().getDeclaredMethod("getProcessCpuLoad");
m.setAccessible(true);
return (double) m.invoke(osMXBean);
} catch (Exception e) {
// Try the older method
try {
java.lang.reflect.Method m =
osMXBean.getClass().getDeclaredMethod("getSystemCpuLoad");
m.setAccessible(true);
return (double) m.invoke(osMXBean);
} catch (Exception e2) {
log.trace(
"Could not get CPU load through reflection, assuming moderate load (0.5)");
return 0.5;
}
}
} catch (Exception e) {
log.trace("Could not get CPU load, assuming moderate load (0.5)");
return 0.5; // Default to moderate load
}
}
/**
* Calculates the dynamic job queue capacity based on current resource usage.
*
* @param baseCapacity The base capacity when system is under minimal load
* @param minCapacity The minimum capacity to maintain even under high load
* @return The calculated job queue capacity
*/
public int calculateDynamicQueueCapacity(int baseCapacity, int minCapacity) {
ResourceMetrics metrics = latestMetrics.get();
ResourceStatus status = currentStatus.get();
// Simple linear reduction based on memory and CPU load
double capacityFactor =
switch (status) {
case OK -> 1.0;
case WARNING -> 0.6;
case CRITICAL -> 0.3;
};
// Apply additional reduction based on specific memory pressure
if (metrics.memoryUsage > 0.8) {
capacityFactor *= 0.5; // Further reduce capacity under memory pressure
}
// Calculate capacity with minimum safeguard
int capacity = (int) Math.max(minCapacity, Math.ceil(baseCapacity * capacityFactor));
log.debug(
"Dynamic queue capacity: {} (base: {}, factor: {:.2f}, status: {})",
capacity,
baseCapacity,
capacityFactor,
status);
return capacity;
}
/**
* Checks if a job with the given weight can be executed immediately or should be queued based
* on current resource availability.
*
* @param resourceWeight The resource weight of the job (1-100)
* @return true if the job should be queued, false if it can run immediately
*/
public boolean shouldQueueJob(int resourceWeight) {
ResourceStatus status = currentStatus.get();
// Always run lightweight jobs (weight < 20) unless critical
if (resourceWeight < 20 && status != ResourceStatus.CRITICAL) {
return false;
}
// Medium weight jobs run immediately if resources are OK
if (resourceWeight < 60 && status == ResourceStatus.OK) {
return false;
}
// Heavy jobs (weight >= 60) and any job during WARNING/CRITICAL should be queued
return true;
}
}

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package stirling.software.common.service;
import java.time.LocalDateTime;
import java.time.temporal.ChronoUnit;
import java.util.Map;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.Executors;
import java.util.concurrent.ScheduledExecutorService;
import java.util.concurrent.TimeUnit;
import org.springframework.beans.factory.annotation.Value;
import org.springframework.stereotype.Service;
import jakarta.annotation.PreDestroy;
import lombok.extern.slf4j.Slf4j;
import stirling.software.common.model.job.JobResult;
import stirling.software.common.model.job.JobStats;
/** Manages async tasks and their results */
@Service
@Slf4j
public class TaskManager {
private final Map<String, JobResult> jobResults = new ConcurrentHashMap<>();
@Value("${stirling.jobResultExpiryMinutes:30}")
private int jobResultExpiryMinutes = 30;
private final FileStorage fileStorage;
private final ScheduledExecutorService cleanupExecutor =
Executors.newSingleThreadScheduledExecutor();
/** Initialize the task manager and start the cleanup scheduler */
public TaskManager(FileStorage fileStorage) {
this.fileStorage = fileStorage;
// Schedule periodic cleanup of old job results
cleanupExecutor.scheduleAtFixedRate(
this::cleanupOldJobs,
10, // Initial delay
10, // Interval
TimeUnit.MINUTES);
log.debug(
"Task manager initialized with job result expiry of {} minutes",
jobResultExpiryMinutes);
}
/**
* Create a new task with the given job ID
*
* @param jobId The job ID
*/
public void createTask(String jobId) {
jobResults.put(jobId, JobResult.createNew(jobId));
log.debug("Created task with job ID: {}", jobId);
}
/**
* Set the result of a task as a general object
*
* @param jobId The job ID
* @param result The result object
*/
public void setResult(String jobId, Object result) {
JobResult jobResult = getOrCreateJobResult(jobId);
jobResult.completeWithResult(result);
log.debug("Set result for job ID: {}", jobId);
}
/**
* Set the result of a task as a file
*
* @param jobId The job ID
* @param fileId The file ID
* @param originalFileName The original file name
* @param contentType The content type of the file
*/
public void setFileResult(
String jobId, String fileId, String originalFileName, String contentType) {
JobResult jobResult = getOrCreateJobResult(jobId);
jobResult.completeWithFile(fileId, originalFileName, contentType);
log.debug("Set file result for job ID: {} with file ID: {}", jobId, fileId);
}
/**
* Set an error for a task
*
* @param jobId The job ID
* @param error The error message
*/
public void setError(String jobId, String error) {
JobResult jobResult = getOrCreateJobResult(jobId);
jobResult.failWithError(error);
log.debug("Set error for job ID: {}: {}", jobId, error);
}
/**
* Mark a task as complete
*
* @param jobId The job ID
*/
public void setComplete(String jobId) {
JobResult jobResult = getOrCreateJobResult(jobId);
if (jobResult.getResult() == null
&& jobResult.getFileId() == null
&& jobResult.getError() == null) {
// If no result or error has been set, mark it as complete with an empty result
jobResult.completeWithResult("Task completed successfully");
}
log.debug("Marked job ID: {} as complete", jobId);
}
/**
* Check if a task is complete
*
* @param jobId The job ID
* @return true if the task is complete, false otherwise
*/
public boolean isComplete(String jobId) {
JobResult result = jobResults.get(jobId);
return result != null && result.isComplete();
}
/**
* Get the result of a task
*
* @param jobId The job ID
* @return The result object, or null if the task doesn't exist or is not complete
*/
public JobResult getJobResult(String jobId) {
return jobResults.get(jobId);
}
/**
* Add a note to a task. Notes are informational messages that can be attached to a job for
* tracking purposes.
*
* @param jobId The job ID
* @param note The note to add
* @return true if the note was added successfully, false if the job doesn't exist
*/
public boolean addNote(String jobId, String note) {
JobResult jobResult = jobResults.get(jobId);
if (jobResult != null) {
jobResult.addNote(note);
log.debug("Added note to job ID: {}: {}", jobId, note);
return true;
}
log.warn("Attempted to add note to non-existent job ID: {}", jobId);
return false;
}
/**
* Get statistics about all jobs in the system
*
* @return Job statistics
*/
public JobStats getJobStats() {
int totalJobs = jobResults.size();
int activeJobs = 0;
int completedJobs = 0;
int failedJobs = 0;
int successfulJobs = 0;
int fileResultJobs = 0;
LocalDateTime oldestActiveJobTime = null;
LocalDateTime newestActiveJobTime = null;
long totalProcessingTimeMs = 0;
for (JobResult result : jobResults.values()) {
if (result.isComplete()) {
completedJobs++;
// Calculate processing time for completed jobs
if (result.getCreatedAt() != null && result.getCompletedAt() != null) {
long processingTimeMs =
java.time.Duration.between(
result.getCreatedAt(), result.getCompletedAt())
.toMillis();
totalProcessingTimeMs += processingTimeMs;
}
if (result.getError() != null) {
failedJobs++;
} else {
successfulJobs++;
if (result.getFileId() != null) {
fileResultJobs++;
}
}
} else {
activeJobs++;
// Track oldest and newest active jobs
if (result.getCreatedAt() != null) {
if (oldestActiveJobTime == null
|| result.getCreatedAt().isBefore(oldestActiveJobTime)) {
oldestActiveJobTime = result.getCreatedAt();
}
if (newestActiveJobTime == null
|| result.getCreatedAt().isAfter(newestActiveJobTime)) {
newestActiveJobTime = result.getCreatedAt();
}
}
}
}
// Calculate average processing time
long averageProcessingTimeMs =
completedJobs > 0 ? totalProcessingTimeMs / completedJobs : 0;
return JobStats.builder()
.totalJobs(totalJobs)
.activeJobs(activeJobs)
.completedJobs(completedJobs)
.failedJobs(failedJobs)
.successfulJobs(successfulJobs)
.fileResultJobs(fileResultJobs)
.oldestActiveJobTime(oldestActiveJobTime)
.newestActiveJobTime(newestActiveJobTime)
.averageProcessingTimeMs(averageProcessingTimeMs)
.build();
}
/**
* Get or create a job result
*
* @param jobId The job ID
* @return The job result
*/
private JobResult getOrCreateJobResult(String jobId) {
return jobResults.computeIfAbsent(jobId, JobResult::createNew);
}
/** Clean up old completed job results */
public void cleanupOldJobs() {
LocalDateTime expiryThreshold =
LocalDateTime.now().minus(jobResultExpiryMinutes, ChronoUnit.MINUTES);
int removedCount = 0;
try {
for (Map.Entry<String, JobResult> entry : jobResults.entrySet()) {
JobResult result = entry.getValue();
// Remove completed jobs that are older than the expiry threshold
if (result.isComplete()
&& result.getCompletedAt() != null
&& result.getCompletedAt().isBefore(expiryThreshold)) {
// If the job has a file result, delete the file
if (result.getFileId() != null) {
try {
fileStorage.deleteFile(result.getFileId());
} catch (Exception e) {
log.warn(
"Failed to delete file for job {}: {}",
entry.getKey(),
e.getMessage());
}
}
// Remove the job result
jobResults.remove(entry.getKey());
removedCount++;
}
}
if (removedCount > 0) {
log.info("Cleaned up {} expired job results", removedCount);
}
} catch (Exception e) {
log.error("Error during job cleanup: {}", e.getMessage(), e);
}
}
/** Shutdown the cleanup executor */
@PreDestroy
public void shutdown() {
try {
log.info("Shutting down job result cleanup executor");
cleanupExecutor.shutdown();
if (!cleanupExecutor.awaitTermination(5, TimeUnit.SECONDS)) {
cleanupExecutor.shutdownNow();
}
} catch (InterruptedException e) {
Thread.currentThread().interrupt();
cleanupExecutor.shutdownNow();
}
}
}

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common/src/main/java/stirling/software/common/util/ExecutorFactory.java Normal file
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package stirling.software.common.util;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import lombok.extern.slf4j.Slf4j;
@Slf4j
public class ExecutorFactory {
/**
* Creates an ExecutorService using virtual threads if available (Java 21+), or falls back to a
* cached thread pool on older Java versions.
*/
public static ExecutorService newVirtualOrCachedThreadExecutor() {
try {
ExecutorService executor =
(ExecutorService)
Executors.class
.getMethod("newVirtualThreadPerTaskExecutor")
.invoke(null);
return executor;
} catch (NoSuchMethodException e) {
log.debug("Virtual threads not available; falling back to cached thread pool.");
} catch (Exception e) {
log.debug("Error initializing virtual thread executor: {}", e.getMessage(), e);
}
return Executors.newCachedThreadPool();
}
}

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common/src/main/java/stirling/software/common/util/SpringContextHolder.java Normal file
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package stirling.software.common.util;
import org.springframework.beans.BeansException;
import org.springframework.context.ApplicationContext;
import org.springframework.context.ApplicationContextAware;
import org.springframework.stereotype.Component;
import lombok.extern.slf4j.Slf4j;
/**
* Utility class to access Spring managed beans from non-Spring managed classes. This is especially
* useful for classes that are instantiated by frameworks or created dynamically.
*/
@Component
@Slf4j
public class SpringContextHolder implements ApplicationContextAware {
private static ApplicationContext applicationContext;
@Override
public void setApplicationContext(ApplicationContext applicationContext) throws BeansException {
SpringContextHolder.applicationContext = applicationContext;
log.debug("Spring context holder initialized");
}
/**
* Get a Spring bean by class type
*
* @param <T> The bean type
* @param beanClass The bean class
* @return The bean instance, or null if not found
*/
public static <T> T getBean(Class<T> beanClass) {
if (applicationContext == null) {
log.warn(
"Application context not initialized when attempting to get bean of type {}",
beanClass.getName());
return null;
}
try {
return applicationContext.getBean(beanClass);
} catch (BeansException e) {
log.error("Error getting bean of type {}: {}", beanClass.getName(), e.getMessage());
return null;
}
}
/**
* Get a Spring bean by name
*
* @param <T> The bean type
* @param beanName The bean name
* @return The bean instance, or null if not found
*/
public static <T> T getBean(String beanName) {
if (applicationContext == null) {
log.warn(
"Application context not initialized when attempting to get bean '{}'",
beanName);
return null;
}
try {
@SuppressWarnings("unchecked")
T bean = (T) applicationContext.getBean(beanName);
return bean;
} catch (BeansException e) {
log.error("Error getting bean '{}': {}", beanName, e.getMessage());
return null;
}
}
/**
* Check if the application context is initialized
*
* @return true if initialized, false otherwise
*/
public static boolean isInitialized() {
return applicationContext != null;
}
}

208
common/src/test/java/stirling/software/common/annotations/AutoJobPostMappingIntegrationTest.java Normal file
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package stirling.software.common.annotations;
import static org.junit.jupiter.api.Assertions.assertEquals;
import static org.junit.jupiter.api.Assertions.assertNotNull;
import static org.junit.jupiter.api.Assertions.assertTrue;
import static org.mockito.ArgumentMatchers.any;
import static org.mockito.ArgumentMatchers.anyBoolean;
import static org.mockito.ArgumentMatchers.anyInt;
import static org.mockito.ArgumentMatchers.anyLong;
import static org.mockito.ArgumentMatchers.anyString;
import static org.mockito.ArgumentMatchers.eq;
import static org.mockito.Mockito.mock;
import static org.mockito.Mockito.times;
import static org.mockito.Mockito.verify;
import static org.mockito.Mockito.when;
import org.junit.jupiter.api.BeforeEach;
import java.util.Arrays;
import java.util.function.Supplier;
import org.aspectj.lang.ProceedingJoinPoint;
import org.junit.jupiter.api.Test;
import org.junit.jupiter.api.extension.ExtendWith;
import org.mockito.ArgumentCaptor;
import org.mockito.Captor;
import org.mockito.InjectMocks;
import org.mockito.Mock;
import org.mockito.junit.jupiter.MockitoExtension;
import org.springframework.http.ResponseEntity;
import org.springframework.web.multipart.MultipartFile;
import jakarta.servlet.http.HttpServletRequest;
import stirling.software.common.aop.AutoJobAspect;
import stirling.software.common.model.api.PDFFile;
import stirling.software.common.service.FileOrUploadService;
import stirling.software.common.service.FileStorage;
import stirling.software.common.service.JobExecutorService;
import stirling.software.common.service.JobQueue;
import stirling.software.common.service.ResourceMonitor;
@ExtendWith(MockitoExtension.class)
class AutoJobPostMappingIntegrationTest {
private AutoJobAspect autoJobAspect;
@Mock
private JobExecutorService jobExecutorService;
@Mock
private HttpServletRequest request;
@Mock
private FileOrUploadService fileOrUploadService;
@Mock
private FileStorage fileStorage;
@Mock
private ResourceMonitor resourceMonitor;
@Mock
private JobQueue jobQueue;
@BeforeEach
void setUp() {
autoJobAspect = new AutoJobAspect(
jobExecutorService,
request,
fileOrUploadService,
fileStorage
);
}
@Mock
private ProceedingJoinPoint joinPoint;
@Mock
private AutoJobPostMapping autoJobPostMapping;
@Captor
private ArgumentCaptor<Supplier<Object>> workCaptor;
@Captor
private ArgumentCaptor<Boolean> asyncCaptor;
@Captor
private ArgumentCaptor<Long> timeoutCaptor;
@Captor
private ArgumentCaptor<Boolean> queueableCaptor;
@Captor
private ArgumentCaptor<Integer> resourceWeightCaptor;
@Test
void shouldExecuteWithCustomParameters() throws Throwable {
// Given
PDFFile pdfFile = new PDFFile();
pdfFile.setFileId("test-file-id");
Object[] args = new Object[] { pdfFile };
when(joinPoint.getArgs()).thenReturn(args);
when(request.getParameter("async")).thenReturn("true");
when(autoJobPostMapping.timeout()).thenReturn(60000L);
when(autoJobPostMapping.retryCount()).thenReturn(3);
when(autoJobPostMapping.trackProgress()).thenReturn(true);
when(autoJobPostMapping.queueable()).thenReturn(true);
when(autoJobPostMapping.resourceWeight()).thenReturn(75);
MultipartFile mockFile = mock(MultipartFile.class);
when(fileStorage.retrieveFile("test-file-id")).thenReturn(mockFile);
when(jobExecutorService.runJobGeneric(
anyBoolean(), any(Supplier.class), anyLong(), anyBoolean(), anyInt()))
.thenReturn(ResponseEntity.ok("success"));
// When
Object result = autoJobAspect.wrapWithJobExecution(joinPoint, autoJobPostMapping);
// Then
assertEquals(ResponseEntity.ok("success"), result);
verify(jobExecutorService).runJobGeneric(
asyncCaptor.capture(),
workCaptor.capture(),
timeoutCaptor.capture(),
queueableCaptor.capture(),
resourceWeightCaptor.capture());
assertTrue(asyncCaptor.getValue(), "Async should be true");
assertEquals(60000L, timeoutCaptor.getValue(), "Timeout should be 60000ms");
assertTrue(queueableCaptor.getValue(), "Queueable should be true");
assertEquals(75, resourceWeightCaptor.getValue(), "Resource weight should be 75");
// Test that file was resolved
assertNotNull(pdfFile.getFileInput(), "File input should be set");
}
@Test
void shouldRetryOnError() throws Throwable {
// Given
when(joinPoint.getArgs()).thenReturn(new Object[0]);
when(request.getParameter("async")).thenReturn("false");
when(autoJobPostMapping.timeout()).thenReturn(-1L);
when(autoJobPostMapping.retryCount()).thenReturn(2);
when(autoJobPostMapping.trackProgress()).thenReturn(false);
when(autoJobPostMapping.queueable()).thenReturn(false);
when(autoJobPostMapping.resourceWeight()).thenReturn(50);
// First call throws exception, second succeeds
when(joinPoint.proceed(any()))
.thenThrow(new RuntimeException("First attempt failed"))
.thenReturn(ResponseEntity.ok("retry succeeded"));
// Mock jobExecutorService to execute the work immediately
when(jobExecutorService.runJobGeneric(
anyBoolean(), any(Supplier.class), anyLong(), anyBoolean(), anyInt()))
.thenAnswer(invocation -> {
Supplier<Object> work = invocation.getArgument(1);
return work.get();
});
// When
Object result = autoJobAspect.wrapWithJobExecution(joinPoint, autoJobPostMapping);
// Then
assertEquals(ResponseEntity.ok("retry succeeded"), result);
// Verify that proceed was called twice (initial attempt + 1 retry)
verify(joinPoint, times(2)).proceed(any());
}
@Test
void shouldHandlePDFFileWithAsyncRequests() throws Throwable {
// Given
PDFFile pdfFile = new PDFFile();
pdfFile.setFileInput(mock(MultipartFile.class));
Object[] args = new Object[] { pdfFile };
when(joinPoint.getArgs()).thenReturn(args);
when(request.getParameter("async")).thenReturn("true");
when(autoJobPostMapping.retryCount()).thenReturn(1);
when(fileStorage.storeFile(any(MultipartFile.class))).thenReturn("stored-file-id");
when(fileStorage.retrieveFile("stored-file-id")).thenReturn(mock(MultipartFile.class));
// Mock job executor to return a successful response
when(jobExecutorService.runJobGeneric(
anyBoolean(), any(Supplier.class), anyLong(), anyBoolean(), anyInt()))
.thenReturn(ResponseEntity.ok("success"));
// When
autoJobAspect.wrapWithJobExecution(joinPoint, autoJobPostMapping);
// Then
assertEquals("stored-file-id", pdfFile.getFileId(),
"FileId should be set to the stored file id");
assertNotNull(pdfFile.getFileInput(), "FileInput should be replaced with persistent file");
// Verify storage operations
verify(fileStorage).storeFile(any(MultipartFile.class));
verify(fileStorage).retrieveFile("stored-file-id");
}
}

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package stirling.software.common.service;
import static org.junit.jupiter.api.Assertions.*;
import static org.mockito.Mockito.*;
import static org.mockito.AdditionalAnswers.*;
import java.io.ByteArrayInputStream;
import java.io.IOException;
import java.nio.file.Files;
import java.nio.file.Path;
import java.util.UUID;
import org.junit.jupiter.api.BeforeEach;
import org.junit.jupiter.api.Test;
import org.junit.jupiter.api.io.TempDir;
import org.mockito.InjectMocks;
import org.mockito.Mock;
import org.mockito.MockitoAnnotations;
import org.springframework.test.util.ReflectionTestUtils;
import org.springframework.web.multipart.MultipartFile;
class FileStorageTest {
@TempDir
Path tempDir;
@Mock
private FileOrUploadService fileOrUploadService;
@InjectMocks
private FileStorage fileStorage;
private MultipartFile mockFile;
@BeforeEach
void setUp() {
MockitoAnnotations.openMocks(this);
ReflectionTestUtils.setField(fileStorage, "tempDirPath", tempDir.toString());
// Create a mock MultipartFile
mockFile = mock(MultipartFile.class);
when(mockFile.getOriginalFilename()).thenReturn("test.pdf");
when(mockFile.getContentType()).thenReturn("application/pdf");
}
@Test
void testStoreFile() throws IOException {
// Arrange
byte[] fileContent = "Test PDF content".getBytes();
when(mockFile.getBytes()).thenReturn(fileContent);
// Set up mock to handle transferTo by writing the file
doAnswer(invocation -> {
java.io.File file = invocation.getArgument(0);
Files.write(file.toPath(), fileContent);
return null;
}).when(mockFile).transferTo(any(java.io.File.class));
// Act
String fileId = fileStorage.storeFile(mockFile);
// Assert
assertNotNull(fileId);
assertTrue(Files.exists(tempDir.resolve(fileId)));
verify(mockFile).transferTo(any(java.io.File.class));
}
@Test
void testStoreBytes() throws IOException {
// Arrange
byte[] fileContent = "Test PDF content".getBytes();
String originalName = "test.pdf";
// Act
String fileId = fileStorage.storeBytes(fileContent, originalName);
// Assert
assertNotNull(fileId);
assertTrue(Files.exists(tempDir.resolve(fileId)));
assertArrayEquals(fileContent, Files.readAllBytes(tempDir.resolve(fileId)));
}
@Test
void testRetrieveFile() throws IOException {
// Arrange
byte[] fileContent = "Test PDF content".getBytes();
String fileId = UUID.randomUUID().toString();
Path filePath = tempDir.resolve(fileId);
Files.write(filePath, fileContent);
MultipartFile expectedFile = mock(MultipartFile.class);
when(fileOrUploadService.toMockMultipartFile(eq(fileId), eq(fileContent)))
.thenReturn(expectedFile);
// Act
MultipartFile result = fileStorage.retrieveFile(fileId);
// Assert
assertSame(expectedFile, result);
verify(fileOrUploadService).toMockMultipartFile(eq(fileId), eq(fileContent));
}
@Test
void testRetrieveBytes() throws IOException {
// Arrange
byte[] fileContent = "Test PDF content".getBytes();
String fileId = UUID.randomUUID().toString();
Path filePath = tempDir.resolve(fileId);
Files.write(filePath, fileContent);
// Act
byte[] result = fileStorage.retrieveBytes(fileId);
// Assert
assertArrayEquals(fileContent, result);
}
@Test
void testRetrieveFile_FileNotFound() {
// Arrange
String nonExistentFileId = "non-existent-file";
// Act & Assert
assertThrows(IOException.class, () -> fileStorage.retrieveFile(nonExistentFileId));
}
@Test
void testRetrieveBytes_FileNotFound() {
// Arrange
String nonExistentFileId = "non-existent-file";
// Act & Assert
assertThrows(IOException.class, () -> fileStorage.retrieveBytes(nonExistentFileId));
}
@Test
void testDeleteFile() throws IOException {
// Arrange
byte[] fileContent = "Test PDF content".getBytes();
String fileId = UUID.randomUUID().toString();
Path filePath = tempDir.resolve(fileId);
Files.write(filePath, fileContent);
// Act
boolean result = fileStorage.deleteFile(fileId);
// Assert
assertTrue(result);
assertFalse(Files.exists(filePath));
}
@Test
void testDeleteFile_FileNotFound() {
// Arrange
String nonExistentFileId = "non-existent-file";
// Act
boolean result = fileStorage.deleteFile(nonExistentFileId);
// Assert
assertFalse(result);
}
@Test
void testFileExists() throws IOException {
// Arrange
byte[] fileContent = "Test PDF content".getBytes();
String fileId = UUID.randomUUID().toString();
Path filePath = tempDir.resolve(fileId);
Files.write(filePath, fileContent);
// Act
boolean result = fileStorage.fileExists(fileId);
// Assert
assertTrue(result);
}
@Test
void testFileExists_FileNotFound() {
// Arrange
String nonExistentFileId = "non-existent-file";
// Act
boolean result = fileStorage.fileExists(nonExistentFileId);
// Assert
assertFalse(result);
}
}

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package stirling.software.common.service;
import static org.junit.jupiter.api.Assertions.assertEquals;
import static org.junit.jupiter.api.Assertions.assertNotNull;
import static org.junit.jupiter.api.Assertions.assertTrue;
import static org.mockito.ArgumentMatchers.any;
import static org.mockito.ArgumentMatchers.anyInt;
import static org.mockito.ArgumentMatchers.anyLong;
import static org.mockito.ArgumentMatchers.anyString;
import static org.mockito.ArgumentMatchers.eq;
import static org.mockito.Mockito.doAnswer;
import static org.mockito.Mockito.mock;
import static org.mockito.Mockito.never;
import static org.mockito.Mockito.times;
import static org.mockito.Mockito.verify;
import static org.mockito.Mockito.when;
import java.util.Map;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.TimeoutException;
import java.util.function.Supplier;
import org.junit.jupiter.api.BeforeEach;
import org.junit.jupiter.api.Test;
import org.junit.jupiter.api.extension.ExtendWith;
import org.mockito.ArgumentCaptor;
import org.mockito.Captor;
import org.mockito.Mock;
import org.mockito.Mockito;
import org.mockito.junit.jupiter.MockitoExtension;
import org.springframework.http.HttpStatus;
import org.springframework.http.ResponseEntity;
import org.springframework.test.util.ReflectionTestUtils;
import jakarta.servlet.http.HttpServletRequest;
import stirling.software.common.model.job.JobProgress;
import stirling.software.common.model.job.JobResponse;
@ExtendWith(MockitoExtension.class)
class JobExecutorServiceTest {
private JobExecutorService jobExecutorService;
@Mock
private TaskManager taskManager;
@Mock
private FileStorage fileStorage;
@Mock
private HttpServletRequest request;
@Mock
private ResourceMonitor resourceMonitor;
@Mock
private JobQueue jobQueue;
@Captor
private ArgumentCaptor<String> jobIdCaptor;
@BeforeEach
void setUp() {
// Initialize the service manually with all its dependencies
jobExecutorService = new JobExecutorService(
taskManager,
fileStorage,
request,
resourceMonitor,
jobQueue,
30000L, // asyncRequestTimeoutMs
"30m" // sessionTimeout
);
}
@Test
void shouldRunSyncJobSuccessfully() throws Exception {
// Given
Supplier<Object> work = () -> "test-result";
// When
ResponseEntity<?> response = jobExecutorService.runJobGeneric(false, work);
// Then
assertEquals(HttpStatus.OK, response.getStatusCode());
assertEquals("test-result", response.getBody());
// Verify request attribute was set with jobId
verify(request).setAttribute(eq("jobId"), anyString());
}
@Test
void shouldRunAsyncJobSuccessfully() throws Exception {
// Given
Supplier<Object> work = () -> "test-result";
// When
ResponseEntity<?> response = jobExecutorService.runJobGeneric(true, work);
// Then
assertEquals(HttpStatus.OK, response.getStatusCode());
assertTrue(response.getBody() instanceof JobResponse);
JobResponse<?> jobResponse = (JobResponse<?>) response.getBody();
assertTrue(jobResponse.isAsync());
assertNotNull(jobResponse.getJobId());
// Verify task manager was called
verify(taskManager).createTask(jobIdCaptor.capture());
}
@Test
void shouldHandleSyncJobError() {
// Given
Supplier<Object> work = () -> {
throw new RuntimeException("Test error");
};
// When
ResponseEntity<?> response = jobExecutorService.runJobGeneric(false, work);
// Then
assertEquals(HttpStatus.INTERNAL_SERVER_ERROR, response.getStatusCode());
@SuppressWarnings("unchecked")
Map<String, String> errorMap = (Map<String, String>) response.getBody();
assertEquals("Job failed: Test error", errorMap.get("error"));
}
@Test
void shouldQueueJobWhenResourcesLimited() {
// Given
Supplier<Object> work = () -> "test-result";
CompletableFuture<ResponseEntity<?>> future = new CompletableFuture<>();
// Configure resourceMonitor to indicate job should be queued
when(resourceMonitor.shouldQueueJob(80)).thenReturn(true);
// Configure jobQueue to return our future
when(jobQueue.queueJob(anyString(), eq(80), any(), anyLong())).thenReturn(future);
// When
ResponseEntity<?> response = jobExecutorService.runJobGeneric(
true, work, 5000, true, 80);
// Then
assertEquals(HttpStatus.OK, response.getStatusCode());
assertTrue(response.getBody() instanceof JobResponse);
// Verify job was queued
verify(jobQueue).queueJob(anyString(), eq(80), any(), eq(5000L));
verify(taskManager).createTask(anyString());
}
@Test
void shouldUseCustomTimeoutWhenProvided() throws Exception {
// Given
Supplier<Object> work = () -> "test-result";
long customTimeout = 60000L;
// Use reflection to access the private executeWithTimeout method
java.lang.reflect.Method executeMethod = JobExecutorService.class
.getDeclaredMethod("executeWithTimeout", Supplier.class, long.class);
executeMethod.setAccessible(true);
// Create a spy on the JobExecutorService to verify method calls
JobExecutorService spy = Mockito.spy(jobExecutorService);
// When
spy.runJobGeneric(false, work, customTimeout);
// Then
verify(spy).runJobGeneric(eq(false), any(Supplier.class), eq(customTimeout));
}
@Test
void shouldHandleTimeout() throws Exception {
// Given
Supplier<Object> work = () -> {
try {
Thread.sleep(100); // Simulate long-running job
return "test-result";
} catch (InterruptedException e) {
Thread.currentThread().interrupt();
throw new RuntimeException(e);
}
};
// Use reflection to access the private executeWithTimeout method
java.lang.reflect.Method executeMethod = JobExecutorService.class
.getDeclaredMethod("executeWithTimeout", Supplier.class, long.class);
executeMethod.setAccessible(true);
// When/Then
try {
executeMethod.invoke(jobExecutorService, work, 1L); // Very short timeout
} catch (Exception e) {
assertTrue(e.getCause() instanceof TimeoutException);
}
}
}

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package stirling.software.common.service;
import static org.junit.jupiter.api.Assertions.*;
import static org.mockito.ArgumentMatchers.any;
import static org.mockito.ArgumentMatchers.anyInt;
import static org.mockito.Mockito.lenient;
import static org.mockito.Mockito.verify;
import static org.mockito.Mockito.when;
import java.util.Map;
import java.util.concurrent.atomic.AtomicReference;
import java.util.function.Supplier;
import org.junit.jupiter.api.BeforeEach;
import org.junit.jupiter.api.Test;
import org.junit.jupiter.api.extension.ExtendWith;
import org.mockito.Mock;
import org.mockito.junit.jupiter.MockitoExtension;
import stirling.software.common.model.job.JobProgress;
import stirling.software.common.service.ResourceMonitor.ResourceStatus;
@ExtendWith(MockitoExtension.class)
class JobQueueTest {
private JobQueue jobQueue;
@Mock
private ResourceMonitor resourceMonitor;
private final AtomicReference<ResourceStatus> statusRef = new AtomicReference<>(ResourceStatus.OK);
@BeforeEach
void setUp() {
// Mark stubbing as lenient to avoid UnnecessaryStubbingException
lenient().when(resourceMonitor.calculateDynamicQueueCapacity(anyInt(), anyInt())).thenReturn(10);
lenient().when(resourceMonitor.getCurrentStatus()).thenReturn(statusRef);
// Initialize JobQueue with mocked ResourceMonitor
jobQueue = new JobQueue(resourceMonitor);
}
@Test
void shouldQueueJob() {
String jobId = "test-job-1";
int resourceWeight = 50;
Supplier<Object> work = () -> "test-result";
long timeoutMs = 1000;
jobQueue.queueJob(jobId, resourceWeight, work, timeoutMs);
assertTrue(jobQueue.isJobQueued(jobId));
assertEquals(1, jobQueue.getTotalQueuedJobs());
}
@Test
void shouldCancelJob() {
String jobId = "test-job-2";
Supplier<Object> work = () -> "test-result";
jobQueue.queueJob(jobId, 50, work, 1000);
boolean cancelled = jobQueue.cancelJob(jobId);
assertTrue(cancelled);
assertFalse(jobQueue.isJobQueued(jobId));
}
@Test
void shouldGetQueueStats() {
when(resourceMonitor.getCurrentStatus()).thenReturn(statusRef);
jobQueue.queueJob("job1", 50, () -> "ok", 1000);
jobQueue.queueJob("job2", 50, () -> "ok", 1000);
jobQueue.cancelJob("job2");
Map<String, Object> stats = jobQueue.getQueueStats();
assertEquals(2, stats.get("totalQueuedJobs"));
assertTrue(stats.containsKey("queuedJobs"));
assertTrue(stats.containsKey("resourceStatus"));
}
@Test
void shouldCalculateQueueCapacity() {
when(resourceMonitor.calculateDynamicQueueCapacity(5, 2)).thenReturn(8);
int capacity = resourceMonitor.calculateDynamicQueueCapacity(5, 2);
assertEquals(8, capacity);
}
@Test
void shouldCheckIfJobIsQueued() {
String jobId = "job-123";
Supplier<Object> work = () -> "hello";
jobQueue.queueJob(jobId, 40, work, 500);
assertTrue(jobQueue.isJobQueued(jobId));
assertFalse(jobQueue.isJobQueued("nonexistent"));
}
}

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package stirling.software.common.service;
import static org.assertj.core.api.Assertions.assertThat;
import static org.junit.jupiter.api.Assertions.assertEquals;
import static org.junit.jupiter.api.Assertions.assertFalse;
import static org.junit.jupiter.api.Assertions.assertTrue;
import static org.mockito.Mockito.mock;
import static org.mockito.Mockito.when;
import java.lang.management.MemoryMXBean;
import java.lang.management.MemoryUsage;
import java.lang.management.OperatingSystemMXBean;
import java.time.Instant;
import java.util.concurrent.atomic.AtomicReference;
import org.junit.jupiter.api.BeforeEach;
import org.junit.jupiter.api.Test;
import org.junit.jupiter.api.extension.ExtendWith;
import org.junit.jupiter.params.ParameterizedTest;
import org.junit.jupiter.params.provider.CsvSource;
import org.mockito.InjectMocks;
import org.mockito.Mock;
import org.mockito.Spy;
import org.mockito.junit.jupiter.MockitoExtension;
import org.springframework.test.util.ReflectionTestUtils;
import stirling.software.common.service.ResourceMonitor.ResourceMetrics;
import stirling.software.common.service.ResourceMonitor.ResourceStatus;
@ExtendWith(MockitoExtension.class)
class ResourceMonitorTest {
@InjectMocks
private ResourceMonitor resourceMonitor;
@Mock
private OperatingSystemMXBean osMXBean;
@Mock
private MemoryMXBean memoryMXBean;
@Spy
private AtomicReference<ResourceStatus> currentStatus = new AtomicReference<>(ResourceStatus.OK);
@Spy
private AtomicReference<ResourceMetrics> latestMetrics = new AtomicReference<>(new ResourceMetrics());
@BeforeEach
void setUp() {
// Set thresholds for testing
ReflectionTestUtils.setField(resourceMonitor, "memoryCriticalThreshold", 0.9);
ReflectionTestUtils.setField(resourceMonitor, "memoryHighThreshold", 0.75);
ReflectionTestUtils.setField(resourceMonitor, "cpuCriticalThreshold", 0.9);
ReflectionTestUtils.setField(resourceMonitor, "cpuHighThreshold", 0.75);
ReflectionTestUtils.setField(resourceMonitor, "osMXBean", osMXBean);
ReflectionTestUtils.setField(resourceMonitor, "memoryMXBean", memoryMXBean);
ReflectionTestUtils.setField(resourceMonitor, "currentStatus", currentStatus);
ReflectionTestUtils.setField(resourceMonitor, "latestMetrics", latestMetrics);
}
@Test
void shouldCalculateDynamicQueueCapacity() {
// Given
int baseCapacity = 10;
int minCapacity = 2;
// Mock current status as OK
currentStatus.set(ResourceStatus.OK);
// When
int capacity = resourceMonitor.calculateDynamicQueueCapacity(baseCapacity, minCapacity);
// Then
assertEquals(baseCapacity, capacity, "With OK status, capacity should equal base capacity");
// Given
currentStatus.set(ResourceStatus.WARNING);
// When
capacity = resourceMonitor.calculateDynamicQueueCapacity(baseCapacity, minCapacity);
// Then
assertEquals(6, capacity, "With WARNING status, capacity should be reduced to 60%");
// Given
currentStatus.set(ResourceStatus.CRITICAL);
// When
capacity = resourceMonitor.calculateDynamicQueueCapacity(baseCapacity, minCapacity);
// Then
assertEquals(3, capacity, "With CRITICAL status, capacity should be reduced to 30%");
// Test minimum capacity enforcement
assertEquals(minCapacity, resourceMonitor.calculateDynamicQueueCapacity(1, minCapacity),
"Should never go below minimum capacity");
}
@ParameterizedTest
@CsvSource({
"10, OK, false", // Light job, OK status
"10, WARNING, false", // Light job, WARNING status
"10, CRITICAL, true", // Light job, CRITICAL status
"30, OK, false", // Medium job, OK status
"30, WARNING, true", // Medium job, WARNING status
"30, CRITICAL, true", // Medium job, CRITICAL status
"80, OK, true", // Heavy job, OK status
"80, WARNING, true", // Heavy job, WARNING status
"80, CRITICAL, true" // Heavy job, CRITICAL status
})
void shouldQueueJobBasedOnWeightAndStatus(int weight, ResourceStatus status, boolean shouldQueue) {
// Given
currentStatus.set(status);
// When
boolean result = resourceMonitor.shouldQueueJob(weight);
// Then
assertEquals(shouldQueue, result,
String.format("For weight %d and status %s, shouldQueue should be %s",
weight, status, shouldQueue));
}
@Test
void resourceMetricsShouldDetectStaleState() {
// Given
Instant now = Instant.now();
Instant pastInstant = now.minusMillis(6000);
ResourceMetrics staleMetrics = new ResourceMetrics(0.5, 0.5, 1024, 2048, 4096, pastInstant);
ResourceMetrics freshMetrics = new ResourceMetrics(0.5, 0.5, 1024, 2048, 4096, now);
// When/Then
assertTrue(staleMetrics.isStale(5000), "Metrics from 6 seconds ago should be stale with 5s threshold");
assertFalse(freshMetrics.isStale(5000), "Fresh metrics should not be stale");
}
}

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package stirling.software.common.service;
import static org.junit.jupiter.api.Assertions.*;
import static org.mockito.Mockito.*;
import java.time.LocalDateTime;
import java.util.Map;
import java.util.UUID;
import java.util.concurrent.TimeUnit;
import org.junit.jupiter.api.AfterEach;
import org.junit.jupiter.api.BeforeEach;
import org.junit.jupiter.api.Test;
import org.mockito.InjectMocks;
import org.mockito.Mock;
import org.mockito.MockitoAnnotations;
import org.springframework.test.util.ReflectionTestUtils;
import stirling.software.common.model.job.JobResult;
import stirling.software.common.model.job.JobStats;
class TaskManagerTest {
@Mock
private FileStorage fileStorage;
@InjectMocks
private TaskManager taskManager;
private AutoCloseable closeable;
@BeforeEach
void setUp() {
closeable = MockitoAnnotations.openMocks(this);
ReflectionTestUtils.setField(taskManager, "jobResultExpiryMinutes", 30);
}
@AfterEach
void tearDown() throws Exception {
closeable.close();
}
@Test
void testCreateTask() {
// Act
String jobId = UUID.randomUUID().toString();
taskManager.createTask(jobId);
// Assert
JobResult result = taskManager.getJobResult(jobId);
assertNotNull(result);
assertEquals(jobId, result.getJobId());
assertFalse(result.isComplete());
assertNotNull(result.getCreatedAt());
}
@Test
void testSetResult() {
// Arrange
String jobId = UUID.randomUUID().toString();
taskManager.createTask(jobId);
Object resultObject = "Test result";
// Act
taskManager.setResult(jobId, resultObject);
// Assert
JobResult result = taskManager.getJobResult(jobId);
assertNotNull(result);
assertTrue(result.isComplete());
assertEquals(resultObject, result.getResult());
assertNotNull(result.getCompletedAt());
}
@Test
void testSetFileResult() {
// Arrange
String jobId = UUID.randomUUID().toString();
taskManager.createTask(jobId);
String fileId = "file-id";
String originalFileName = "test.pdf";
String contentType = "application/pdf";
// Act
taskManager.setFileResult(jobId, fileId, originalFileName, contentType);
// Assert
JobResult result = taskManager.getJobResult(jobId);
assertNotNull(result);
assertTrue(result.isComplete());
assertEquals(fileId, result.getFileId());
assertEquals(originalFileName, result.getOriginalFileName());
assertEquals(contentType, result.getContentType());
assertNotNull(result.getCompletedAt());
}
@Test
void testSetError() {
// Arrange
String jobId = UUID.randomUUID().toString();
taskManager.createTask(jobId);
String errorMessage = "Test error";
// Act
taskManager.setError(jobId, errorMessage);
// Assert
JobResult result = taskManager.getJobResult(jobId);
assertNotNull(result);
assertTrue(result.isComplete());
assertEquals(errorMessage, result.getError());
assertNotNull(result.getCompletedAt());
}
@Test
void testSetComplete_WithExistingResult() {
// Arrange
String jobId = UUID.randomUUID().toString();
taskManager.createTask(jobId);
Object resultObject = "Test result";
taskManager.setResult(jobId, resultObject);
// Act
taskManager.setComplete(jobId);
// Assert
JobResult result = taskManager.getJobResult(jobId);
assertNotNull(result);
assertTrue(result.isComplete());
assertEquals(resultObject, result.getResult());
}
@Test
void testSetComplete_WithoutExistingResult() {
// Arrange
String jobId = UUID.randomUUID().toString();
taskManager.createTask(jobId);
// Act
taskManager.setComplete(jobId);
// Assert
JobResult result = taskManager.getJobResult(jobId);
assertNotNull(result);
assertTrue(result.isComplete());
assertEquals("Task completed successfully", result.getResult());
}
@Test
void testIsComplete() {
// Arrange
String jobId = UUID.randomUUID().toString();
taskManager.createTask(jobId);
// Assert - not complete initially
assertFalse(taskManager.isComplete(jobId));
// Act - mark as complete
taskManager.setComplete(jobId);
// Assert - now complete
assertTrue(taskManager.isComplete(jobId));
}
@Test
void testGetJobStats() {
// Arrange
// 1. Create active job
String activeJobId = "active-job";
taskManager.createTask(activeJobId);
// 2. Create completed successful job with file
String successFileJobId = "success-file-job";
taskManager.createTask(successFileJobId);
taskManager.setFileResult(successFileJobId, "file-id", "test.pdf", "application/pdf");
// 3. Create completed successful job without file
String successJobId = "success-job";
taskManager.createTask(successJobId);
taskManager.setResult(successJobId, "Result");
// 4. Create failed job
String failedJobId = "failed-job";
taskManager.createTask(failedJobId);
taskManager.setError(failedJobId, "Error message");
// Act
JobStats stats = taskManager.getJobStats();
// Assert
assertEquals(4, stats.getTotalJobs());
assertEquals(1, stats.getActiveJobs());
assertEquals(3, stats.getCompletedJobs());
assertEquals(1, stats.getFailedJobs());
assertEquals(2, stats.getSuccessfulJobs());
assertEquals(1, stats.getFileResultJobs());
assertNotNull(stats.getNewestActiveJobTime());
assertNotNull(stats.getOldestActiveJobTime());
assertTrue(stats.getAverageProcessingTimeMs() >= 0);
}
@Test
void testCleanupOldJobs() throws Exception {
// Arrange
// 1. Create a recent completed job
String recentJobId = "recent-job";
taskManager.createTask(recentJobId);
taskManager.setResult(recentJobId, "Result");
// 2. Create an old completed job with file result
String oldJobId = "old-job";
taskManager.createTask(oldJobId);
JobResult oldJob = taskManager.getJobResult(oldJobId);
// Manually set the completion time to be older than the expiry
LocalDateTime oldTime = LocalDateTime.now().minusHours(1);
ReflectionTestUtils.setField(oldJob, "completedAt", oldTime);
ReflectionTestUtils.setField(oldJob, "complete", true);
ReflectionTestUtils.setField(oldJob, "fileId", "file-id");
ReflectionTestUtils.setField(oldJob, "originalFileName", "test.pdf");
ReflectionTestUtils.setField(oldJob, "contentType", "application/pdf");
when(fileStorage.deleteFile("file-id")).thenReturn(true);
// Obtain access to the private jobResults map
Map<String, JobResult> jobResultsMap = (Map<String, JobResult>) ReflectionTestUtils.getField(taskManager, "jobResults");
// 3. Create an active job
String activeJobId = "active-job";
taskManager.createTask(activeJobId);
// Verify all jobs are in the map
assertTrue(jobResultsMap.containsKey(recentJobId));
assertTrue(jobResultsMap.containsKey(oldJobId));
assertTrue(jobResultsMap.containsKey(activeJobId));
// Act
taskManager.cleanupOldJobs();
// Assert - the old job should be removed
assertFalse(jobResultsMap.containsKey(oldJobId));
assertTrue(jobResultsMap.containsKey(recentJobId));
assertTrue(jobResultsMap.containsKey(activeJobId));
verify(fileStorage).deleteFile("file-id");
}
@Test
void testShutdown() throws Exception {
// This mainly tests that the shutdown method doesn't throw exceptions
taskManager.shutdown();
// Verify the executor service is shutdown
// This is difficult to test directly, but we can verify it doesn't throw exceptions
}
@Test
void testAddNote() {
// Arrange
String jobId = UUID.randomUUID().toString();
taskManager.createTask(jobId);
String note = "Test note";
// Act
boolean result = taskManager.addNote(jobId, note);
// Assert
assertTrue(result);
JobResult jobResult = taskManager.getJobResult(jobId);
assertNotNull(jobResult);
assertNotNull(jobResult.getNotes());
assertEquals(1, jobResult.getNotes().size());
assertEquals(note, jobResult.getNotes().get(0));
}
@Test
void testAddNote_NonExistentJob() {
// Arrange
String jobId = "non-existent-job";
String note = "Test note";
// Act
boolean result = taskManager.addNote(jobId, note);
// Assert
assertFalse(result);
}
}

73
common/src/test/java/stirling/software/common/util/SpringContextHolderTest.java Normal file
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@ -0,0 +1,73 @@
package stirling.software.common.util;
import static org.junit.jupiter.api.Assertions.*;
import static org.mockito.Mockito.*;
import org.junit.jupiter.api.BeforeEach;
import org.junit.jupiter.api.Test;
import org.springframework.context.ApplicationContext;
class SpringContextHolderTest {
private ApplicationContext mockApplicationContext;
private SpringContextHolder contextHolder;
@BeforeEach
void setUp() {
mockApplicationContext = mock(ApplicationContext.class);
contextHolder = new SpringContextHolder();
}
@Test
void testSetApplicationContext() {
// Act
contextHolder.setApplicationContext(mockApplicationContext);
// Assert
assertTrue(SpringContextHolder.isInitialized());
}
@Test
void testGetBean_ByType() {
// Arrange
contextHolder.setApplicationContext(mockApplicationContext);
TestBean expectedBean = new TestBean();
when(mockApplicationContext.getBean(TestBean.class)).thenReturn(expectedBean);
// Act
TestBean result = SpringContextHolder.getBean(TestBean.class);
// Assert
assertSame(expectedBean, result);
verify(mockApplicationContext).getBean(TestBean.class);
}
@Test
void testGetBean_ApplicationContextNotSet() {
// Don't set application context
// Act
TestBean result = SpringContextHolder.getBean(TestBean.class);
// Assert
assertNull(result);
}
@Test
void testGetBean_BeanNotFound() {
// Arrange
contextHolder.setApplicationContext(mockApplicationContext);
when(mockApplicationContext.getBean(TestBean.class)).thenThrow(new org.springframework.beans.BeansException("Bean not found") {});
// Act
TestBean result = SpringContextHolder.getBean(TestBean.class);
// Assert
assertNull(result);
}
// Simple test class
private static class TestBean {
}
}

2
proprietary/src/main/java/stirling/software/proprietary/audit/AuditAspect.java
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@ -26,6 +26,8 @@ import stirling.software.proprietary.service.AuditService;
@Component
@Slf4j
@RequiredArgsConstructor
@org.springframework.core.annotation.Order(
10) // Lower precedence (higher number) - executes after AutoJobAspect
public class AuditAspect {
private final AuditService auditService;

8
proprietary/src/main/java/stirling/software/proprietary/audit/ControllerAuditAspect.java
View File

@ -36,6 +36,8 @@ import stirling.software.proprietary.service.AuditService;
@Component
@Slf4j
@RequiredArgsConstructor
@org.springframework.core.annotation.Order(
10) // Lower precedence (higher number) - executes after AutoJobAspect
public class ControllerAuditAspect {
private final AuditService auditService;
@ -77,6 +79,12 @@ public class ControllerAuditAspect {
return auditController(joinPoint, "PATCH");
}
/** Intercept all methods with AutoJobPostMapping annotation */
@Around("@annotation(stirling.software.common.annotations.AutoJobPostMapping)")
public Object auditAutoJobMethod(ProceedingJoinPoint joinPoint) throws Throwable {
return auditController(joinPoint, "POST");
}
private Object auditController(ProceedingJoinPoint joinPoint, String httpMethod)
throws Throwable {
MethodSignature sig = (MethodSignature) joinPoint.getSignature();

83
proprietary/src/main/java/stirling/software/proprietary/controller/AdminJobController.java Normal file
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@ -0,0 +1,83 @@
package stirling.software.proprietary.controller;
import java.util.Map;
import org.springframework.http.ResponseEntity;
import org.springframework.security.access.prepost.PreAuthorize;
import org.springframework.web.bind.annotation.GetMapping;
import org.springframework.web.bind.annotation.PostMapping;
import org.springframework.web.bind.annotation.RestController;
import lombok.RequiredArgsConstructor;
import lombok.extern.slf4j.Slf4j;
import stirling.software.common.model.job.JobStats;
import stirling.software.common.service.JobQueue;
import stirling.software.common.service.TaskManager;
/**
* Admin controller for job management. These endpoints require admin privileges and provide insight
* into system jobs and queues.
*/
@RestController
@RequiredArgsConstructor
@Slf4j
public class AdminJobController {
private final TaskManager taskManager;
private final JobQueue jobQueue;
/**
* Get statistics about jobs in the system (admin only)
*
* @return Job statistics
*/
@GetMapping("/api/v1/admin/job/stats")
@PreAuthorize("hasRole('ROLE_ADMIN')")
public ResponseEntity<JobStats> getJobStats() {
JobStats stats = taskManager.getJobStats();
log.info(
"Admin requested job stats: {} active, {} completed jobs",
stats.getActiveJobs(),
stats.getCompletedJobs());
return ResponseEntity.ok(stats);
}
/**
* Get statistics about the job queue (admin only)
*
* @return Queue statistics
*/
@GetMapping("/api/v1/admin/job/queue/stats")
@PreAuthorize("hasRole('ROLE_ADMIN')")
public ResponseEntity<?> getQueueStats() {
Map<String, Object> queueStats = jobQueue.getQueueStats();
log.info("Admin requested queue stats: {} queued jobs", queueStats.get("queuedJobs"));
return ResponseEntity.ok(queueStats);
}
/**
* Manually trigger cleanup of old jobs (admin only)
*
* @return A response indicating how many jobs were cleaned up
*/
@PostMapping("/api/v1/admin/job/cleanup")
@PreAuthorize("hasRole('ROLE_ADMIN')")
public ResponseEntity<?> cleanupOldJobs() {
int beforeCount = taskManager.getJobStats().getTotalJobs();
taskManager.cleanupOldJobs();
int afterCount = taskManager.getJobStats().getTotalJobs();
int removedCount = beforeCount - afterCount;
log.info(
"Admin triggered job cleanup: removed {} jobs, {} remaining",
removedCount,
afterCount);
return ResponseEntity.ok(
Map.of(
"message", "Cleanup complete",
"removedJobs", removedCount,
"remainingJobs", afterCount));
}
}

173
stirling-pdf/src/main/java/stirling/software/common/controller/JobController.java Normal file
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@ -0,0 +1,173 @@
package stirling.software.common.controller;
import java.util.Map;
import org.springframework.http.ResponseEntity;
import org.springframework.web.bind.annotation.DeleteMapping;
import org.springframework.web.bind.annotation.GetMapping;
import org.springframework.web.bind.annotation.PathVariable;
import org.springframework.web.bind.annotation.RestController;
import jakarta.servlet.http.HttpServletRequest;
import lombok.RequiredArgsConstructor;
import lombok.extern.slf4j.Slf4j;
import stirling.software.common.model.job.JobResult;
import stirling.software.common.service.FileStorage;
import stirling.software.common.service.JobQueue;
import stirling.software.common.service.TaskManager;
/** REST controller for job-related endpoints */
@RestController
@RequiredArgsConstructor
@Slf4j
public class JobController {
private final TaskManager taskManager;
private final FileStorage fileStorage;
private final JobQueue jobQueue;
private final HttpServletRequest request;
/**
* Get the status of a job
*
* @param jobId The job ID
* @return The job result
*/
@GetMapping("/api/v1/general/job/{jobId}")
public ResponseEntity<?> getJobStatus(@PathVariable("jobId") String jobId) {
JobResult result = taskManager.getJobResult(jobId);
if (result == null) {
return ResponseEntity.notFound().build();
}
// Check if the job is in the queue and add queue information
if (!result.isComplete() && jobQueue.isJobQueued(jobId)) {
int position = jobQueue.getJobPosition(jobId);
Map<String, Object> resultWithQueueInfo =
Map.of(
"jobResult",
result,
"queueInfo",
Map.of("inQueue", true, "position", position));
return ResponseEntity.ok(resultWithQueueInfo);
}
return ResponseEntity.ok(result);
}
/**
* Get the result of a job
*
* @param jobId The job ID
* @return The job result
*/
@GetMapping("/api/v1/general/job/{jobId}/result")
public ResponseEntity<?> getJobResult(@PathVariable("jobId") String jobId) {
JobResult result = taskManager.getJobResult(jobId);
if (result == null) {
return ResponseEntity.notFound().build();
}
if (!result.isComplete()) {
return ResponseEntity.badRequest().body("Job is not complete yet");
}
if (result.getError() != null) {
return ResponseEntity.badRequest().body("Job failed: " + result.getError());
}
if (result.getFileId() != null) {
try {
byte[] fileContent = fileStorage.retrieveBytes(result.getFileId());
return ResponseEntity.ok()
.header("Content-Type", result.getContentType())
.header(
"Content-Disposition",
"form-data; name=\"attachment\"; filename=\""
+ result.getOriginalFileName()
+ "\"")
.body(fileContent);
} catch (Exception e) {
log.error("Error retrieving file for job {}: {}", jobId, e.getMessage(), e);
return ResponseEntity.internalServerError()
.body("Error retrieving file: " + e.getMessage());
}
}
return ResponseEntity.ok(result.getResult());
}
// Admin-only endpoints have been moved to AdminJobController in the proprietary package
/**
* Cancel a job by its ID
*
* <p>This method should only allow cancellation of jobs that were created by the current user.
* The jobId should be part of the user's session or otherwise linked to their identity.
*
* @param jobId The job ID
* @return Response indicating whether the job was cancelled
*/
@DeleteMapping("/api/v1/general/job/{jobId}")
public ResponseEntity<?> cancelJob(@PathVariable("jobId") String jobId) {
log.debug("Request to cancel job: {}", jobId);
// Verify that this job belongs to the current user
// We can use the current request's session to validate ownership
Object sessionJobIds = request.getSession().getAttribute("userJobIds");
if (sessionJobIds == null
|| !(sessionJobIds instanceof java.util.Set)
|| !((java.util.Set<?>) sessionJobIds).contains(jobId)) {
// Either no jobs in session or jobId doesn't match user's jobs
log.warn("Unauthorized attempt to cancel job: {}", jobId);
return ResponseEntity.status(403)
.body(Map.of("message", "You are not authorized to cancel this job"));
}
// First check if the job is in the queue
boolean cancelled = false;
int queuePosition = -1;
if (jobQueue.isJobQueued(jobId)) {
queuePosition = jobQueue.getJobPosition(jobId);
cancelled = jobQueue.cancelJob(jobId);
log.info("Cancelled queued job: {} (was at position {})", jobId, queuePosition);
}
// If not in queue or couldn't cancel, try to cancel in TaskManager
if (!cancelled) {
JobResult result = taskManager.getJobResult(jobId);
if (result != null && !result.isComplete()) {
// Mark as error with cancellation message
taskManager.setError(jobId, "Job was cancelled by user");
cancelled = true;
log.info("Marked job as cancelled in TaskManager: {}", jobId);
}
}
if (cancelled) {
return ResponseEntity.ok(
Map.of(
"message",
"Job cancelled successfully",
"wasQueued",
queuePosition >= 0,
"queuePosition",
queuePosition >= 0 ? queuePosition : "n/a"));
} else {
// Job not found or already complete
JobResult result = taskManager.getJobResult(jobId);
if (result == null) {
return ResponseEntity.notFound().build();
} else if (result.isComplete()) {
return ResponseEntity.badRequest()
.body(Map.of("message", "Cannot cancel job that is already complete"));
} else {
return ResponseEntity.internalServerError()
.body(Map.of("message", "Failed to cancel job for unknown reason"));
}
}
}
}

406
stirling-pdf/src/test/java/stirling/software/common/controller/JobControllerTest.java Normal file
View File

@ -0,0 +1,406 @@
package stirling.software.common.controller;
import static org.junit.jupiter.api.Assertions.*;
import static org.mockito.Mockito.*;
import java.util.Map;
import org.junit.jupiter.api.BeforeEach;
import org.junit.jupiter.api.Test;
import org.mockito.InjectMocks;
import org.mockito.Mock;
import org.mockito.MockitoAnnotations;
import org.springframework.http.HttpStatus;
import org.springframework.http.ResponseEntity;
import org.springframework.mock.web.MockHttpServletRequest;
import org.springframework.mock.web.MockHttpSession;
import jakarta.servlet.http.HttpServletRequest;
import jakarta.servlet.http.HttpSession;
import stirling.software.common.model.job.JobResult;
import stirling.software.common.model.job.JobStats;
import stirling.software.common.service.FileStorage;
import stirling.software.common.service.JobQueue;
import stirling.software.common.service.TaskManager;
class JobControllerTest {
@Mock
private TaskManager taskManager;
@Mock
private FileStorage fileStorage;
@Mock
private JobQueue jobQueue;
@Mock
private HttpServletRequest request;
private MockHttpSession session;
@InjectMocks
private JobController controller;
@BeforeEach
void setUp() {
MockitoAnnotations.openMocks(this);
// Setup mock session for tests
session = new MockHttpSession();
when(request.getSession()).thenReturn(session);
}
@Test
void testGetJobStatus_ExistingJob() {
// Arrange
String jobId = "test-job-id";
JobResult mockResult = new JobResult();
mockResult.setJobId(jobId);
when(taskManager.getJobResult(jobId)).thenReturn(mockResult);
// Act
ResponseEntity<?> response = controller.getJobStatus(jobId);
// Assert
assertEquals(HttpStatus.OK, response.getStatusCode());
assertEquals(mockResult, response.getBody());
}
@Test
void testGetJobStatus_ExistingJobInQueue() {
// Arrange
String jobId = "test-job-id";
JobResult mockResult = new JobResult();
mockResult.setJobId(jobId);
mockResult.setComplete(false);
when(taskManager.getJobResult(jobId)).thenReturn(mockResult);
when(jobQueue.isJobQueued(jobId)).thenReturn(true);
when(jobQueue.getJobPosition(jobId)).thenReturn(3);
// Act
ResponseEntity<?> response = controller.getJobStatus(jobId);
// Assert
assertEquals(HttpStatus.OK, response.getStatusCode());
@SuppressWarnings("unchecked")
Map<String, Object> responseBody = (Map<String, Object>) response.getBody();
assertEquals(mockResult, responseBody.get("jobResult"));
@SuppressWarnings("unchecked")
Map<String, Object> queueInfo = (Map<String, Object>) responseBody.get("queueInfo");
assertTrue((Boolean) queueInfo.get("inQueue"));
assertEquals(3, queueInfo.get("position"));
}
@Test
void testGetJobStatus_NonExistentJob() {
// Arrange
String jobId = "non-existent-job";
when(taskManager.getJobResult(jobId)).thenReturn(null);
// Act
ResponseEntity<?> response = controller.getJobStatus(jobId);
// Assert
assertEquals(HttpStatus.NOT_FOUND, response.getStatusCode());
}
@Test
void testGetJobResult_CompletedSuccessfulWithObject() {
// Arrange
String jobId = "test-job-id";
JobResult mockResult = new JobResult();
mockResult.setJobId(jobId);
mockResult.setComplete(true);
String resultObject = "Test result";
mockResult.completeWithResult(resultObject);
when(taskManager.getJobResult(jobId)).thenReturn(mockResult);
// Act
ResponseEntity<?> response = controller.getJobResult(jobId);
// Assert
assertEquals(HttpStatus.OK, response.getStatusCode());
assertEquals(resultObject, response.getBody());
}
@Test
void testGetJobResult_CompletedSuccessfulWithFile() throws Exception {
// Arrange
String jobId = "test-job-id";
String fileId = "file-id";
String originalFileName = "test.pdf";
String contentType = "application/pdf";
byte[] fileContent = "Test file content".getBytes();
JobResult mockResult = new JobResult();
mockResult.setJobId(jobId);
mockResult.completeWithFile(fileId, originalFileName, contentType);
when(taskManager.getJobResult(jobId)).thenReturn(mockResult);
when(fileStorage.retrieveBytes(fileId)).thenReturn(fileContent);
// Act
ResponseEntity<?> response = controller.getJobResult(jobId);
// Assert
assertEquals(HttpStatus.OK, response.getStatusCode());
assertEquals(contentType, response.getHeaders().getFirst("Content-Type"));
assertTrue(response.getHeaders().getFirst("Content-Disposition").contains(originalFileName));
assertEquals(fileContent, response.getBody());
}
@Test
void testGetJobResult_CompletedWithError() {
// Arrange
String jobId = "test-job-id";
String errorMessage = "Test error";
JobResult mockResult = new JobResult();
mockResult.setJobId(jobId);
mockResult.failWithError(errorMessage);
when(taskManager.getJobResult(jobId)).thenReturn(mockResult);
// Act
ResponseEntity<?> response = controller.getJobResult(jobId);
// Assert
assertEquals(HttpStatus.BAD_REQUEST, response.getStatusCode());
assertTrue(response.getBody().toString().contains(errorMessage));
}
@Test
void testGetJobResult_IncompleteJob() {
// Arrange
String jobId = "test-job-id";
JobResult mockResult = new JobResult();
mockResult.setJobId(jobId);
mockResult.setComplete(false);
when(taskManager.getJobResult(jobId)).thenReturn(mockResult);
// Act
ResponseEntity<?> response = controller.getJobResult(jobId);
// Assert
assertEquals(HttpStatus.BAD_REQUEST, response.getStatusCode());
assertTrue(response.getBody().toString().contains("not complete"));
}
@Test
void testGetJobResult_NonExistentJob() {
// Arrange
String jobId = "non-existent-job";
when(taskManager.getJobResult(jobId)).thenReturn(null);
// Act
ResponseEntity<?> response = controller.getJobResult(jobId);
// Assert
assertEquals(HttpStatus.NOT_FOUND, response.getStatusCode());
}
@Test
void testGetJobResult_ErrorRetrievingFile() throws Exception {
// Arrange
String jobId = "test-job-id";
String fileId = "file-id";
String originalFileName = "test.pdf";
String contentType = "application/pdf";
JobResult mockResult = new JobResult();
mockResult.setJobId(jobId);
mockResult.completeWithFile(fileId, originalFileName, contentType);
when(taskManager.getJobResult(jobId)).thenReturn(mockResult);
when(fileStorage.retrieveBytes(fileId)).thenThrow(new RuntimeException("File not found"));
// Act
ResponseEntity<?> response = controller.getJobResult(jobId);
// Assert
assertEquals(HttpStatus.INTERNAL_SERVER_ERROR, response.getStatusCode());
assertTrue(response.getBody().toString().contains("Error retrieving file"));
}
/*
* @Test void testGetJobStats() { // Arrange JobStats mockStats =
* JobStats.builder() .totalJobs(10) .activeJobs(3) .completedJobs(7) .build();
*
* when(taskManager.getJobStats()).thenReturn(mockStats);
*
* // Act ResponseEntity<?> response = controller.getJobStats();
*
* // Assert assertEquals(HttpStatus.OK, response.getStatusCode());
* assertEquals(mockStats, response.getBody()); }
*
* @Test void testCleanupOldJobs() { // Arrange when(taskManager.getJobStats())
* .thenReturn(JobStats.builder().totalJobs(10).build())
* .thenReturn(JobStats.builder().totalJobs(7).build());
*
* // Act ResponseEntity<?> response = controller.cleanupOldJobs();
*
* // Assert assertEquals(HttpStatus.OK, response.getStatusCode());
*
* @SuppressWarnings("unchecked") Map<String, Object> responseBody =
* (Map<String, Object>) response.getBody(); assertEquals("Cleanup complete",
* responseBody.get("message")); assertEquals(3,
* responseBody.get("removedJobs")); assertEquals(7,
* responseBody.get("remainingJobs"));
*
* verify(taskManager).cleanupOldJobs(); }
*
* @Test void testGetQueueStats() { // Arrange Map<String, Object>
* mockQueueStats = Map.of( "queuedJobs", 5, "queueCapacity", 10,
* "resourceStatus", "OK" );
*
* when(jobQueue.getQueueStats()).thenReturn(mockQueueStats);
*
* // Act ResponseEntity<?> response = controller.getQueueStats();
*
* // Assert assertEquals(HttpStatus.OK, response.getStatusCode());
* assertEquals(mockQueueStats, response.getBody());
* verify(jobQueue).getQueueStats(); }
*/
@Test
void testCancelJob_InQueue() {
// Arrange
String jobId = "job-in-queue";
// Setup user session with job authorization
java.util.Set<String> userJobIds = new java.util.HashSet<>();
userJobIds.add(jobId);
session.setAttribute("userJobIds", userJobIds);
when(jobQueue.isJobQueued(jobId)).thenReturn(true);
when(jobQueue.getJobPosition(jobId)).thenReturn(2);
when(jobQueue.cancelJob(jobId)).thenReturn(true);
// Act
ResponseEntity<?> response = controller.cancelJob(jobId);
// Assert
assertEquals(HttpStatus.OK, response.getStatusCode());
@SuppressWarnings("unchecked")
Map<String, Object> responseBody = (Map<String, Object>) response.getBody();
assertEquals("Job cancelled successfully", responseBody.get("message"));
assertTrue((Boolean) responseBody.get("wasQueued"));
assertEquals(2, responseBody.get("queuePosition"));
verify(jobQueue).cancelJob(jobId);
verify(taskManager, never()).setError(anyString(), anyString());
}
@Test
void testCancelJob_Running() {
// Arrange
String jobId = "job-running";
JobResult jobResult = new JobResult();
jobResult.setJobId(jobId);
jobResult.setComplete(false);
// Setup user session with job authorization
java.util.Set<String> userJobIds = new java.util.HashSet<>();
userJobIds.add(jobId);
session.setAttribute("userJobIds", userJobIds);
when(jobQueue.isJobQueued(jobId)).thenReturn(false);
when(taskManager.getJobResult(jobId)).thenReturn(jobResult);
// Act
ResponseEntity<?> response = controller.cancelJob(jobId);
// Assert
assertEquals(HttpStatus.OK, response.getStatusCode());
@SuppressWarnings("unchecked")
Map<String, Object> responseBody = (Map<String, Object>) response.getBody();
assertEquals("Job cancelled successfully", responseBody.get("message"));
assertFalse((Boolean) responseBody.get("wasQueued"));
assertEquals("n/a", responseBody.get("queuePosition"));
verify(jobQueue, never()).cancelJob(jobId);
verify(taskManager).setError(jobId, "Job was cancelled by user");
}
@Test
void testCancelJob_NotFound() {
// Arrange
String jobId = "non-existent-job";
// Setup user session with job authorization
java.util.Set<String> userJobIds = new java.util.HashSet<>();
userJobIds.add(jobId);
session.setAttribute("userJobIds", userJobIds);
when(jobQueue.isJobQueued(jobId)).thenReturn(false);
when(taskManager.getJobResult(jobId)).thenReturn(null);
// Act
ResponseEntity<?> response = controller.cancelJob(jobId);
// Assert
assertEquals(HttpStatus.NOT_FOUND, response.getStatusCode());
}
@Test
void testCancelJob_AlreadyComplete() {
// Arrange
String jobId = "completed-job";
JobResult jobResult = new JobResult();
jobResult.setJobId(jobId);
jobResult.setComplete(true);
// Setup user session with job authorization
java.util.Set<String> userJobIds = new java.util.HashSet<>();
userJobIds.add(jobId);
session.setAttribute("userJobIds", userJobIds);
when(jobQueue.isJobQueued(jobId)).thenReturn(false);
when(taskManager.getJobResult(jobId)).thenReturn(jobResult);
// Act
ResponseEntity<?> response = controller.cancelJob(jobId);
// Assert
assertEquals(HttpStatus.BAD_REQUEST, response.getStatusCode());
@SuppressWarnings("unchecked")
Map<String, Object> responseBody = (Map<String, Object>) response.getBody();
assertEquals("Cannot cancel job that is already complete", responseBody.get("message"));
}
@Test
void testCancelJob_Unauthorized() {
// Arrange
String jobId = "unauthorized-job";
// Setup user session with other job IDs but not this one
java.util.Set<String> userJobIds = new java.util.HashSet<>();
userJobIds.add("other-job-1");
userJobIds.add("other-job-2");
session.setAttribute("userJobIds", userJobIds);
// Act
ResponseEntity<?> response = controller.cancelJob(jobId);
// Assert
assertEquals(HttpStatus.FORBIDDEN, response.getStatusCode());
@SuppressWarnings("unchecked")
Map<String, Object> responseBody = (Map<String, Object>) response.getBody();
assertEquals("You are not authorized to cancel this job", responseBody.get("message"));
// Verify no cancellation attempts were made
verify(jobQueue, never()).isJobQueued(anyString());
verify(jobQueue, never()).cancelJob(anyString());
verify(taskManager, never()).getJobResult(anyString());
verify(taskManager, never()).setError(anyString(), anyString());
}
}