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saulteafarmer:main
saulteafarmer:dependabot/gradle/com.opencsv-opencsv-5.11.2
saulteafarmer:dependabot/github_actions/sigstore/cosign-installer-3.9.0
saulteafarmer:dependabot/gradle/io.swagger.core.v3-swagger-core-jakarta-2.2.34
saulteafarmer:dependabot/github_actions/docker/setup-buildx-action-3.11.1
saulteafarmer:dependabot/gradle/commonmarkVersion-0.25.0
saulteafarmer:dependabot/gradle/org.springframework.boot-3.5.3
saulteafarmer:dependabot/gradle/org.springframework.boot-spring-boot-dependencies-3.5.3
saulteafarmer:pre-commit
saulteafarmer:embedded-files-support
saulteafarmer:async
saulteafarmer:dependabot/pip/testing/cucumber/pip-2c7469b053
saulteafarmer:dependabot/gradle/org.panteleyev.jpackageplugin-1.7.3
saulteafarmer:pixeebot/async
saulteafarmer:dependabot/gradle/me.friwi-jcefmaven-135.0.20
saulteafarmer:dependabot/gradle/com.unboundid.product.scim2-scim2-sdk-client-4.0.0
saulteafarmer:dependabot/gradle/org.junit.platform-junit-platform-launcher-1.13.1
saulteafarmer:Frooodle-patch-4
saulteafarmer:Frooodle-patch-3
saulteafarmer:update-3rd-party-licenses
saulteafarmer:revert-changes-zh_tw
saulteafarmer:Frooodle-patch-2
saulteafarmer:bug/langauge-encoding
saulteafarmer:fix-script
saulteafarmer:Team
saulteafarmer:pr-3659
saulteafarmer:cleanup-and-fixes
saulteafarmer:multi-module-refactor
saulteafarmer:3660-disable-autocapture-for-posthog
saulteafarmer:react-overhaul-tauri-integration
saulteafarmer:feature/react-overhaul
saulteafarmer:proprietary_module
saulteafarmer:testingScan
saulteafarmer:websocketSupportFun
saulteafarmer:Frooodle-patch-1
saulteafarmer:codex/fix-split-by-chapter-ui-for-pdfs-without-chapters
saulteafarmer:codex/add-ui-feedback-for-pdfs-without-chapters
saulteafarmer:tempFileCleanup
saulteafarmer:stirling-common-module
saulteafarmer:queues
saulteafarmer:rootless
saulteafarmer:master
saulteafarmer:proprietary
saulteafarmer:3513-feature-request-internal-team-only-add-team-functionality-to-users
saulteafarmer:alert-autofix-46
saulteafarmer:alert-autofix-47
saulteafarmer:pixeebot/pre-commit
saulteafarmer:3397-bug-footer-does-not-display-correctly-on-mobile
saulteafarmer:3396-remove-double-analytics-prompt-on-first-start-up
saulteafarmer:hashs
saulteafarmer:2728-bug-signed-rotated-document-different-than-preview
saulteafarmer:posthog-error-reduction
saulteafarmer:3335-feature-request-add-app-version-to-posthog
saulteafarmer:3324-bug-cookie-banner-library-should-be-self-hosted
saulteafarmer:3318-bug-warning-raised-when-analytics-disabled-attempting-to-disable-posthog
saulteafarmer:2704-feature-request-manual-redaction---improved-text-selection
saulteafarmer:3309-remove-html-tags-from-cookie-banner-language-snippets
saulteafarmer:3298-feature-request-gdpr-consent-banner-for-users
saulteafarmer:audit
saulteafarmer:3164-bug-issue-on-ui-pdf-multi-tool
saulteafarmer:ldapTest
saulteafarmer:add-chartjs-to-3rd-party
saulteafarmer:3199-bug-image-stretches-infinitely-when-uploaded-to-pdf-viewer
saulteafarmer:2385-feature-request-pdf-multi-tool-to-use-new-file-input-box
saulteafarmer:2926-bug-undo-feature-of-multitool-delete-your-upload-file
saulteafarmer:aws
saulteafarmer:2934-bug-docker-images-failing-to-build
saulteafarmer:2808-feature-request-create-development-docker-container
saulteafarmer:digitalOcean
saulteafarmer:update_translation_files
saulteafarmer:pixeebot/saml
saulteafarmer:pixeebot/ghostscript
saulteafarmer:gh-pages
saulteafarmer:fix-sig-logo
saulteafarmer:saml2-keycloak
saulteafarmer:saml2-sso-keycloak
saulteafarmer:v2-wip
saulteafarmer:load-pdf-libs-when-needed
saulteafarmer:normalize_line_endings
saulteafarmer:languages
saulteafarmer:add-elements
saulteafarmer:v2-main
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..
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saulteafarmer:dependabot/gradle/com.opencsv-opencsv-5.11.2
saulteafarmer:dependabot/github_actions/sigstore/cosign-installer-3.9.0
saulteafarmer:dependabot/gradle/io.swagger.core.v3-swagger-core-jakarta-2.2.34
saulteafarmer:dependabot/github_actions/docker/setup-buildx-action-3.11.1
saulteafarmer:dependabot/gradle/commonmarkVersion-0.25.0
saulteafarmer:dependabot/gradle/org.springframework.boot-3.5.3
saulteafarmer:dependabot/gradle/org.springframework.boot-spring-boot-dependencies-3.5.3
saulteafarmer:pre-commit
saulteafarmer:embedded-files-support
saulteafarmer:async
saulteafarmer:main
saulteafarmer:dependabot/pip/testing/cucumber/pip-2c7469b053
saulteafarmer:dependabot/gradle/org.panteleyev.jpackageplugin-1.7.3
saulteafarmer:pixeebot/async
saulteafarmer:dependabot/gradle/me.friwi-jcefmaven-135.0.20
saulteafarmer:dependabot/gradle/com.unboundid.product.scim2-scim2-sdk-client-4.0.0
saulteafarmer:dependabot/gradle/org.junit.platform-junit-platform-launcher-1.13.1
saulteafarmer:Frooodle-patch-4
saulteafarmer:Frooodle-patch-3
saulteafarmer:update-3rd-party-licenses
saulteafarmer:revert-changes-zh_tw
saulteafarmer:Frooodle-patch-2
saulteafarmer:bug/langauge-encoding
saulteafarmer:fix-script
saulteafarmer:Team
saulteafarmer:pr-3659
saulteafarmer:cleanup-and-fixes
saulteafarmer:multi-module-refactor
saulteafarmer:3660-disable-autocapture-for-posthog
saulteafarmer:react-overhaul-tauri-integration
saulteafarmer:feature/react-overhaul
saulteafarmer:proprietary_module
saulteafarmer:testingScan
saulteafarmer:websocketSupportFun
saulteafarmer:Frooodle-patch-1
saulteafarmer:codex/fix-split-by-chapter-ui-for-pdfs-without-chapters
saulteafarmer:codex/add-ui-feedback-for-pdfs-without-chapters
saulteafarmer:tempFileCleanup
saulteafarmer:stirling-common-module
saulteafarmer:queues
saulteafarmer:rootless
saulteafarmer:master
saulteafarmer:proprietary
saulteafarmer:3513-feature-request-internal-team-only-add-team-functionality-to-users
saulteafarmer:alert-autofix-46
saulteafarmer:alert-autofix-47
saulteafarmer:pixeebot/pre-commit
saulteafarmer:3397-bug-footer-does-not-display-correctly-on-mobile
saulteafarmer:3396-remove-double-analytics-prompt-on-first-start-up
saulteafarmer:hashs
saulteafarmer:2728-bug-signed-rotated-document-different-than-preview
saulteafarmer:posthog-error-reduction
saulteafarmer:3335-feature-request-add-app-version-to-posthog
saulteafarmer:3324-bug-cookie-banner-library-should-be-self-hosted
saulteafarmer:3318-bug-warning-raised-when-analytics-disabled-attempting-to-disable-posthog
saulteafarmer:2704-feature-request-manual-redaction---improved-text-selection
saulteafarmer:3309-remove-html-tags-from-cookie-banner-language-snippets
saulteafarmer:3298-feature-request-gdpr-consent-banner-for-users
saulteafarmer:audit
saulteafarmer:3164-bug-issue-on-ui-pdf-multi-tool
saulteafarmer:ldapTest
saulteafarmer:add-chartjs-to-3rd-party
saulteafarmer:3199-bug-image-stretches-infinitely-when-uploaded-to-pdf-viewer
saulteafarmer:2385-feature-request-pdf-multi-tool-to-use-new-file-input-box
saulteafarmer:2926-bug-undo-feature-of-multitool-delete-your-upload-file
saulteafarmer:aws
saulteafarmer:2934-bug-docker-images-failing-to-build
saulteafarmer:2808-feature-request-create-development-docker-container
saulteafarmer:digitalOcean
saulteafarmer:update_translation_files
saulteafarmer:pixeebot/saml
saulteafarmer:pixeebot/ghostscript
saulteafarmer:gh-pages
saulteafarmer:fix-sig-logo
saulteafarmer:saml2-keycloak
saulteafarmer:saml2-sso-keycloak
saulteafarmer:v2-wip
saulteafarmer:load-pdf-libs-when-needed
saulteafarmer:normalize_line_endings
saulteafarmer:languages
saulteafarmer:add-elements
saulteafarmer:v2-main
saulteafarmer:v0.46.2
saulteafarmer:v0.46.1
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saulteafarmer:v0.45.6
saulteafarmer:v0.45.5
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saulteafarmer:v0.40.2
saulteafarmer:v0.40.1
saulteafarmer:v0.40.0
saulteafarmer:v0.39.0
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saulteafarmer:v0.37.0
saulteafarmer:v0.36.6
saulteafarmer:v0.36.5
saulteafarmer:v0.36.4
saulteafarmer:v0.36.3
saulteafarmer:v0.36.2
saulteafarmer:v0.36.1
saulteafarmer:v0.36.0
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saulteafarmer:v0.34.0
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saulteafarmer:stirling-pdf-chart-1.0.1
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saulteafarmer:v0.30.0
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083b68e2a0 ... 2d18413676

19 changed files with 208 additions and 2348 deletions
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334
common/src/main/java/stirling/software/common/aop/AutoJobAspect.java
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@ -1,15 +1,11 @@
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.AtomicInteger;
import java.util.concurrent.atomic.AtomicReference;
import org.aspectj.lang.ProceedingJoinPoint;
import org.aspectj.lang.annotation.*;
import org.springframework.beans.BeanUtils;
import org.springframework.core.annotation.Order;
import org.springframework.stereotype.Component;
import org.springframework.web.multipart.MultipartFile;
@ -28,11 +24,8 @@ import stirling.software.common.service.JobExecutorService;
@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;
@ -41,7 +34,6 @@ public class AutoJobAspect {
@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();
@ -55,23 +47,50 @@ public class AutoJobAspect {
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
// Inspect and possibly mutate arguments
Object[] args = joinPoint.getArgs();
for (int i = 0; i < args.length; i++) {
Object arg = args[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);
}
}
}
}
Object[] args =
isTestEnvironment
? processArgsInPlace(joinPoint.getArgs(), async)
: copyAndProcessArgs(joinPoint.getArgs(), async);
// Extract queueable and resourceWeight parameters and validate
// Extract queueable and resourceWeight parameters
boolean queueable = autoJobPostMapping.queueable();
int resourceWeight = Math.max(1, Math.min(100, autoJobPostMapping.resourceWeight()));
int resourceWeight = autoJobPostMapping.resourceWeight();
// Integrate with the JobExecutorService
if (retryCount <= 1) {
@ -119,243 +138,88 @@ public class AutoJobAspect {
boolean queueable,
int resourceWeight) {
AtomicInteger attempts = new AtomicInteger(0);
// 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;
int currentAttempt = attempts.incrementAndGet();
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
}
}
return joinPoint.proceed(args);
} catch (Throwable ex) {
log.error(
"AutoJobAspect caught exception during job execution (attempt {}/{}): {}",
currentAttempt,
Math.max(1, maxRetries),
ex.getMessage(),
ex);
// Check if we should retry
if (currentAttempt < maxRetries) {
log.info(
"Retrying operation, attempt {}/{}",
currentAttempt + 1,
maxRetries);
// 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
"Recording retry attempt for job {} in TaskManager",
jobId);
// Retry info is tracked in TaskManager for REST API access
}
}
// Attempt to execute the operation
return joinPoint.proceed(args);
try {
// Simple exponential backoff
Thread.sleep(100 * currentAttempt);
} catch (InterruptedException ie) {
Thread.currentThread().interrupt();
}
} catch (Throwable ex) {
lastException = ex;
log.error(
"AutoJobAspect caught exception during job execution (attempt {}/{}): {}",
currentAttempt,
// Recursive call to retry
return executeWithRetries(
joinPoint,
args,
async,
timeout,
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;
}
trackProgress,
queueable,
resourceWeight);
}
}
// If we get here, all retries failed
if (lastException != null) {
throw new RuntimeException(
"Job failed after "
+ maxRetries
+ " attempts: "
+ lastException.getMessage(),
lastException);
// No more retries, throw the exception
throw new RuntimeException("Job failed: " + ex.getMessage(), ex);
}
// 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
PDFFile pdfFileCopy = new PDFFile();
// Use Spring's BeanUtils to copy all properties, avoiding missed fields if PDFFile
// grows
BeanUtils.copyProperties(pdfFile, pdfFileCopy);
// 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;
}
// Get the job ID from the context for progress tracking in TaskManager
private String getJobIdFromContext() {
try {
return (String) request.getAttribute("jobId");

27
common/src/main/java/stirling/software/common/model/job/JobResult.java
View File

@ -1,9 +1,6 @@
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;
@ -44,12 +41,6 @@ public class JobResult {
/** 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
*
@ -100,22 +91,4 @@ public class JobResult {
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);
}
}

28
common/src/main/java/stirling/software/common/service/JobExecutorService.java
View File

@ -102,22 +102,6 @@ public class JobExecutorService {
// 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
@ -225,13 +209,10 @@ public class JobExecutorService {
private void processJobResult(String jobId, Object result) {
try {
if (result instanceof byte[]) {
// Store byte array directly to disk to avoid double memory consumption
// Store byte array as a file
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();
@ -256,12 +237,9 @@ public class JobExecutorService {
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")) {
@ -454,10 +432,8 @@ public class JobExecutorService {
*/
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);
java.util.concurrent.CompletableFuture.supplyAsync(supplier);
try {
return future.get(timeoutMs, TimeUnit.MILLISECONDS);

255
common/src/main/java/stirling/software/common/service/JobQueue.java
View File

@ -6,17 +6,18 @@ 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 jakarta.annotation.PostConstruct;
import jakarta.annotation.PreDestroy;
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
@ -24,9 +25,7 @@ import stirling.software.common.util.SpringContextHolder;
*/
@Service
@Slf4j
public class JobQueue implements SmartLifecycle {
private volatile boolean running = false;
public class JobQueue {
private final ResourceMonitor resourceMonitor;
@ -42,11 +41,10 @@ public class JobQueue implements SmartLifecycle {
@Value("${stirling.job.queue.max-wait-time-ms:600000}")
private long maxWaitTimeMs = 600000; // 10 minutes
private volatile BlockingQueue<QueuedJob> jobQueue;
private 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;
@ -78,8 +76,8 @@ public class JobQueue implements SmartLifecycle {
this.jobQueue = new LinkedBlockingQueue<>(capacity);
}
// Remove @PostConstruct to let SmartLifecycle control startup
private void initializeSchedulers() {
@PostConstruct
public void initialize() {
log.debug(
"Starting job queue with base capacity {}, min capacity {}",
baseQueueCapacity,
@ -97,8 +95,8 @@ public class JobQueue implements SmartLifecycle {
TimeUnit.MILLISECONDS);
}
// Remove @PreDestroy to let SmartLifecycle control shutdown
private void shutdownSchedulers() {
@PreDestroy
public void shutdown() {
log.info("Shutting down job queue");
shuttingDown = true;
@ -111,22 +109,8 @@ public class JobQueue implements SmartLifecycle {
}
});
// 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();
}
scheduler.shutdownNow();
jobExecutor.shutdownNow();
log.info(
"Job queue shutdown complete. Stats: total={}, rejected={}",
@ -134,40 +118,6 @@ public class JobQueue implements SmartLifecycle {
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.
*
@ -192,36 +142,32 @@ public class JobQueue implements SmartLifecycle {
// Update stats
totalQueuedJobs++;
currentQueueSize = jobQueue.size();
// 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"));
// 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;
}
}
@ -231,16 +177,13 @@ public class JobQueue implements SmartLifecycle {
* @return The current capacity
*/
public int getQueueCapacity() {
synchronized (queueLock) {
return ((LinkedBlockingQueue<QueuedJob>) jobQueue).remainingCapacity()
+ jobQueue.size();
}
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
// Calculate new capacity
int newCapacity =
resourceMonitor.calculateDynamicQueueCapacity(
baseQueueCapacity, minQueueCapacity);
@ -250,20 +193,14 @@ public class JobQueue implements SmartLifecycle {
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);
// 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;
// Transfer jobs from old queue to new queue
jobQueue.drainTo(newQueue);
jobQueue = newQueue;
currentQueueSize = jobQueue.size();
}
}
currentQueueSize = jobQueue.size();
}
} catch (Exception e) {
log.error("Error updating queue capacity: {}", e.getMessage(), e);
@ -272,87 +209,55 @@ public class JobQueue implements SmartLifecycle {
/** 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<>();
if (shuttingDown || jobQueue.isEmpty()) {
return;
}
// First synchronized block: poll jobs from the queue and prepare them for execution
synchronized (queueLock) {
if (shuttingDown || jobQueue.isEmpty()) {
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;
}
try {
// Get current resource status
ResourceMonitor.ResourceStatus status = resourceMonitor.getCurrentStatus().get();
// 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;
});
// Check if we should execute any jobs
boolean canExecuteJobs = (status != ResourceMonitor.ResourceStatus.CRITICAL);
for (int i = 0; i < jobsToProcess && !jobQueue.isEmpty(); i++) {
QueuedJob job = jobQueue.poll();
if (job == null) break;
if (!canExecuteJobs) {
// Under critical load, don't execute any jobs
log.debug("System under critical load, delaying job execution");
return;
// 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);
}
// 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;
});
// Remove from our map
jobMap.remove(job.jobId);
currentQueueSize = jobQueue.size();
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);
// Execute the job
executeJob(job);
}
}
// Now execute the jobs outside the synchronized block to avoid holding the lock
for (QueuedJob job : jobsToExecute) {
executeJob(job);
} catch (Exception e) {
log.error("Error processing job queue: {}", e.getMessage(), e);
}
}

4
common/src/main/java/stirling/software/common/service/ResourceMonitor.java
View File

@ -172,8 +172,8 @@ public class ResourceMonitor {
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));
"Current metrics - CPU: {:.1f}%, Memory: {:.1f}%, Free Memory: {} MB",
cpuUsage * 100, memoryUsage * 100, freeMemory / (1024 * 1024));
}
} catch (Exception e) {
log.error("Error updating resource metrics: {}", e.getMessage(), e);

19
common/src/main/java/stirling/software/common/service/TaskManager.java
View File

@ -133,25 +133,6 @@ public class TaskManager {
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
*

82
common/src/main/java/stirling/software/common/util/SpringContextHolder.java
View File

@ -1,82 +0,0 @@
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
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@ -1,208 +0,0 @@
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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common/src/test/java/stirling/software/common/service/FileStorageTest.java
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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);
}
}

202
common/src/test/java/stirling/software/common/service/JobExecutorServiceTest.java
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@ -1,202 +0,0 @@
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);
}
}
}

102
common/src/test/java/stirling/software/common/service/JobQueueTest.java
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@ -1,102 +0,0 @@
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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common/src/test/java/stirling/software/common/service/ResourceMonitorTest.java
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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");
}
}

287
common/src/test/java/stirling/software/common/service/TaskManagerTest.java
View File

@ -1,287 +0,0 @@
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
View File

@ -1,73 +0,0 @@
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
View File

@ -26,8 +26,6 @@ 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

@ -36,8 +36,6 @@ 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;
@ -79,12 +77,6 @@ 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
View File

@ -1,83 +0,0 @@
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));
}
}

109
stirling-pdf/src/main/java/stirling/software/common/controller/JobController.java
View File

@ -3,19 +3,17 @@ 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.PostMapping;
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.model.job.JobStats;
import stirling.software.common.service.FileStorage;
import stirling.software.common.service.JobQueue;
import stirling.software.common.service.TaskManager;
/** REST controller for job-related endpoints */
@ -26,8 +24,6 @@ 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
@ -41,19 +37,6 @@ public class JobController {
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);
}
@ -99,75 +82,33 @@ public class JobController {
return ResponseEntity.ok(result.getResult());
}
// Admin-only endpoints have been moved to AdminJobController in the proprietary package
/**
* Get statistics about jobs in the system
*
* @return Job statistics
*/
@GetMapping("/api/v1/general/job/stats")
public ResponseEntity<JobStats> getJobStats() {
JobStats stats = taskManager.getJobStats();
return ResponseEntity.ok(stats);
}
/**
* Cancel a job by its ID
* Manually trigger cleanup of old jobs
*
* <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
* @return A response indicating how many jobs were cleaned up
*/
@DeleteMapping("/api/v1/general/job/{jobId}")
public ResponseEntity<?> cancelJob(@PathVariable("jobId") String jobId) {
log.debug("Request to cancel job: {}", jobId);
@PostMapping("/api/v1/general/job/cleanup")
public ResponseEntity<?> cleanupOldJobs() {
int beforeCount = taskManager.getJobStats().getTotalJobs();
taskManager.cleanupOldJobs();
int afterCount = taskManager.getJobStats().getTotalJobs();
int removedCount = beforeCount - afterCount;
// 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"));
}
}
return ResponseEntity.ok(
Map.of(
"message", "Cleanup complete",
"removedJobs", removedCount,
"remainingJobs", afterCount));
}
}

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

@ -1,406 +0,0 @@
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());
}
}