package service import ( "fmt" "io" "log" "os" "os/exec" "path/filepath" "regexp" "strings" "sync" "time" "github.com/arnab-afk/monaco/model" "github.com/arnab-afk/monaco/queue" ) // ExecutionService handles code execution for multiple languages type ExecutionService struct { mu sync.Mutex queue *queue.JobQueue } // NewExecutionService creates a new execution service func NewExecutionService() *ExecutionService { log.Println("Initializing execution service with 3 concurrent workers") return &ExecutionService{ queue: queue.NewJobQueue(35), // 3 concurrent executions max } } // CodeExecutionJob represents a job to execute code type CodeExecutionJob struct { service *ExecutionService submission *model.CodeSubmission } // NewCodeExecutionJob creates a new code execution job func NewCodeExecutionJob(service *ExecutionService, submission *model.CodeSubmission) *CodeExecutionJob { return &CodeExecutionJob{ service: service, submission: submission, } } // Execute runs the code execution job func (j *CodeExecutionJob) Execute() { submission := j.submission submission.Status = "running" submission.StartedAt = time.Now() log.Printf("[JOB-%s] Starting execution for language: %s", submission.ID, submission.Language) j.service.executeLanguageSpecific(submission) } // ExecuteCode adds the submission to the execution queue func (s *ExecutionService) ExecuteCode(submission *model.CodeSubmission) { submission.Status = "queued" submission.QueuedAt = time.Now() log.Printf("[SUBMISSION-%s] Code submission queued for language: %s (Queue length: %d)", submission.ID, submission.Language, s.queue.QueueStats()["queue_length"]) // Log if input is provided if len(submission.Input) > 0 { inputLen := len(submission.Input) previewLen := 30 if inputLen > previewLen { log.Printf("[INPUT-%s] Input provided (%d bytes): %s...", submission.ID, inputLen, submission.Input[:previewLen]) } else { log.Printf("[INPUT-%s] Input provided (%d bytes): %s", submission.ID, inputLen, submission.Input) } } job := NewCodeExecutionJob(s, submission) s.queue.Enqueue(job) } // executeLanguageSpecific runs code in the appropriate language container func (s *ExecutionService) executeLanguageSpecific(submission *model.CodeSubmission) { log.Printf("[EXEC-%s] Selecting execution environment for language: %s", submission.ID, submission.Language) switch submission.Language { case "python": log.Printf("[EXEC-%s] Executing Python code", submission.ID) s.executePython(submission) case "java": log.Printf("[EXEC-%s] Executing Java code", submission.ID) s.executeJava(submission) case "c": log.Printf("[EXEC-%s] Executing C code", submission.ID) s.executeC(submission) case "cpp": log.Printf("[EXEC-%s] Executing C++ code", submission.ID) s.executeCpp(submission) default: log.Printf("[EXEC-%s] ERROR: Unsupported language: %s", submission.ID, submission.Language) submission.Status = "failed" submission.Output = "Unsupported language: " + submission.Language } } // executeWithInput runs a command with a timeout and provides input func (s *ExecutionService) executeWithInput(cmd *exec.Cmd, input string, timeout time.Duration, submissionID string) ([]byte, error) { log.Printf("[TIMEOUT-%s] Setting execution timeout: %v", submissionID, timeout) // Set up input pipe if input is provided if input != "" { stdin, err := cmd.StdinPipe() if err != nil { log.Printf("[ERROR-%s] Failed to create stdin pipe: %v", submissionID, err) return nil, err } // Write input in a goroutine to avoid blocking go func() { defer stdin.Close() io.WriteString(stdin, input) }() log.Printf("[INPUT-%s] Providing input to process", submissionID) } done := make(chan struct{}) var output []byte var err error go func() { log.Printf("[EXEC-%s] Starting command execution: %v", submissionID, cmd.Args) output, err = cmd.CombinedOutput() close(done) }() select { case <-time.After(timeout): log.Printf("[TIMEOUT-%s] Execution timed out after %v seconds", submissionID, timeout.Seconds()) if err := cmd.Process.Kill(); err != nil { log.Printf("[TIMEOUT-%s] Failed to kill process: %v", submissionID, err) return nil, fmt.Errorf("timeout reached but failed to kill process: %v", err) } return nil, fmt.Errorf("execution timed out after %v seconds", timeout.Seconds()) case <-done: if err != nil { log.Printf("[EXEC-%s] Command execution failed: %v", submissionID, err) } else { log.Printf("[EXEC-%s] Command execution completed successfully", submissionID) } return output, err } } // executePython runs Python code in a container func (s *ExecutionService) executePython(submission *model.CodeSubmission) { log.Printf("[PYTHON-%s] Preparing Python execution environment", submission.ID) startTime := time.Now() cmd := exec.Command("docker", "run", "--rm", "-i", "--network=none", // No network access "--memory=100m", // Memory limit "--cpu-period=100000", // CPU quota period "--cpu-quota=10000", // 10% CPU "--ulimit", "nofile=64:64", // File descriptor limits "python:3.9", "python", "-c", submission.Code) log.Printf("[PYTHON-%s] Executing Python code with timeout: 10s", submission.ID) var output []byte var err error if submission.Input != "" { cmd.Stdin = strings.NewReader(submission.Input) output, err = cmd.CombinedOutput() } else { output, err = s.executeWithTimeout(cmd, 10*time.Second, submission.ID) } elapsed := time.Since(startTime) log.Printf("[PYTHON-%s] Python execution completed in %v", submission.ID, elapsed) s.updateSubmissionResult(submission, output, err) } // extractClassName extracts the Java class name from code func extractClassName(code string) string { // Default class name as fallback defaultClass := "Solution" // Look for public class re := regexp.MustCompile(`public\s+class\s+(\w+)`) matches := re.FindStringSubmatch(code) if len(matches) > 1 { return matches[1] } // Look for any class if no public class re = regexp.MustCompile(`class\s+(\w+)`) matches = re.FindStringSubmatch(code) if len(matches) > 1 { return matches[1] } return defaultClass } // executeJava runs Java code in a container func (s *ExecutionService) executeJava(submission *model.CodeSubmission) { log.Printf("[JAVA-%s] Preparing Java execution environment", submission.ID) startTime := time.Now() // Extract class name from code className := extractClassName(submission.Code) log.Printf("[JAVA-%s] Detected class name: %s", submission.ID, className) // Create temp directory for Java files tempDir, err := os.MkdirTemp("", "java-execution-"+submission.ID) if err != nil { log.Printf("[JAVA-%s] Failed to create temp directory: %v", submission.ID, err) submission.Status = "failed" submission.Output = "Failed to create temp directory: " + err.Error() return } defer os.RemoveAll(tempDir) log.Printf("[JAVA-%s] Created temp directory: %s", submission.ID, tempDir) // Write Java code to file with detected class name javaFilePath := filepath.Join(tempDir, className+".java") if err := os.WriteFile(javaFilePath, []byte(submission.Code), 0644); err != nil { log.Printf("[JAVA-%s] Failed to write Java file: %v", submission.ID, err) submission.Status = "failed" submission.Output = "Failed to write Java file: " + err.Error() return } log.Printf("[JAVA-%s] Wrote code to file: %s", submission.ID, javaFilePath) // First compile without running compileCmd := exec.Command("docker", "run", "--rm", "-v", tempDir+":/code", // Mount code directory "eclipse-temurin:11-jdk-alpine", "javac", "/code/"+className+".java") log.Printf("[JAVA-%s] Compiling Java code", submission.ID) compileOutput, compileErr := compileCmd.CombinedOutput() if compileErr != nil { log.Printf("[JAVA-%s] Compilation failed: %v", submission.ID, compileErr) submission.Status = "failed" submission.Output = "Compilation error:\n" + string(compileOutput) return } log.Printf("[JAVA-%s] Compilation successful", submission.ID) // Now run the compiled class runCmd := exec.Command("docker", "run", "--rm", "-i", "--network=none", // No network access "--memory=400m", // Memory limit "--cpu-period=100000", // CPU quota period "--cpu-quota=50000", // 50% CPU "-v", tempDir+":/code", // Mount code directory "eclipse-temurin:11-jdk-alpine", "java", "-XX:+TieredCompilation", "-XX:TieredStopAtLevel=1", "-Xverify:none", "-Xms64m", "-Xmx256m", "-cp", "/code", className) // Add input if provided var output []byte if submission.Input != "" { log.Printf("[JAVA-%s] Executing Java code with input", submission.ID) runCmd.Stdin = strings.NewReader(submission.Input) output, err = runCmd.CombinedOutput() } else { log.Printf("[JAVA-%s] Executing Java code without input", submission.ID) output, err = s.executeWithTimeout(runCmd, 15*time.Second, submission.ID) } elapsed := time.Since(startTime) log.Printf("[JAVA-%s] Java execution completed in %v", submission.ID, elapsed) s.updateSubmissionResult(submission, output, err) } // executeC runs C code in a container with improved file handling func (s *ExecutionService) executeC(submission *model.CodeSubmission) { log.Printf("[C-%s] Preparing C execution environment", submission.ID) startTime := time.Now() // Create unique temp directory for C files tempDir, err := os.MkdirTemp("", "c-execution-"+submission.ID) if err != nil { log.Printf("[C-%s] Failed to create temp directory: %v", submission.ID, err) submission.Status = "failed" submission.Output = "Failed to create temp directory: " + err.Error() return } defer os.RemoveAll(tempDir) log.Printf("[C-%s] Created temp directory: %s", submission.ID, tempDir) // Write C code to file cFilePath := filepath.Join(tempDir, "solution.c") if err := os.WriteFile(cFilePath, []byte(submission.Code), 0644); err != nil { log.Printf("[C-%s] Failed to write C file: %v", submission.ID, err) submission.Status = "failed" submission.Output = "Failed to write C file: " + err.Error() return } log.Printf("[C-%s] Wrote code to file: %s", submission.ID, cFilePath) // Compile C code first compileCmd := exec.Command("docker", "run", "--rm", "-v", tempDir+":/code", // Mount code directory "gcc:latest", "gcc", "-o", "/code/solution", "/code/solution.c") compileOutput, compileErr := compileCmd.CombinedOutput() if compileErr != nil { log.Printf("[C-%s] Compilation failed: %v", submission.ID, compileErr) submission.Status = "failed" submission.Output = "Compilation error:\n" + string(compileOutput) return } log.Printf("[C-%s] Compilation successful", submission.ID) // Run C executable runCmd := exec.Command("docker", "run", "--rm", "-i", "--network=none", // No network access "--memory=100m", // Memory limit "--cpu-period=100000", // CPU quota period "--cpu-quota=10000", // 10% CPU "-v", tempDir+":/code", // Mount code directory "gcc:latest", "/code/solution") // Add input if provided var output []byte // Don't redeclare err here - use the existing variable if submission.Input != "" { log.Printf("[C-%s] Executing C code with input", submission.ID) runCmd.Stdin = strings.NewReader(submission.Input) output, err = runCmd.CombinedOutput() // Use the existing err variable } else { log.Printf("[C-%s] Executing C code without input", submission.ID) output, err = s.executeWithTimeout(runCmd, 10*time.Second, submission.ID) // Use the existing err variable } elapsed := time.Since(startTime) log.Printf("[C-%s] C execution completed in %v", submission.ID, elapsed) s.updateSubmissionResult(submission, output, err) } // executeCpp runs C++ code in a container with improved file handling func (s *ExecutionService) executeCpp(submission *model.CodeSubmission) { log.Printf("[CPP-%s] Preparing C++ execution environment", submission.ID) startTime := time.Now() // Create unique temp directory for C++ files tempDir, err := os.MkdirTemp("", "cpp-execution-"+submission.ID) if err != nil { log.Printf("[CPP-%s] Failed to create temp directory: %v", submission.ID, err) submission.Status = "failed" submission.Output = "Failed to create temp directory: " + err.Error() return } defer os.RemoveAll(tempDir) log.Printf("[CPP-%s] Created temp directory: %s", submission.ID, tempDir) // Write C++ code to file cppFilePath := filepath.Join(tempDir, "solution.cpp") if err := os.WriteFile(cppFilePath, []byte(submission.Code), 0644); err != nil { log.Printf("[CPP-%s] Failed to write C++ file: %v", submission.ID, err) submission.Status = "failed" submission.Output = "Failed to write C++ file: " + err.Error() return } log.Printf("[CPP-%s] Wrote code to file: %s", submission.ID, cppFilePath) // Compile C++ code first compileCmd := exec.Command("docker", "run", "--rm", "-v", tempDir+":/code", // Mount code directory "gcc:latest", "g++", "-o", "/code/solution", "/code/solution.cpp") compileOutput, compileErr := compileCmd.CombinedOutput() if compileErr != nil { log.Printf("[CPP-%s] Compilation failed: %v", submission.ID, compileErr) submission.Status = "failed" submission.Output = "Compilation error:\n" + string(compileOutput) return } log.Printf("[CPP-%s] Compilation successful", submission.ID) // Run C++ executable runCmd := exec.Command("docker", "run", "--rm", "-i", "--network=none", // No network access "--memory=100m", // Memory limit "--cpu-period=100000", // CPU quota period "--cpu-quota=10000", // 10% CPU "-v", tempDir+":/code", // Mount code directory "gcc:latest", "/code/solution") // Add input if provided var output []byte if submission.Input != "" { log.Printf("[CPP-%s] Executing C++ code with input", submission.ID) runCmd.Stdin = strings.NewReader(submission.Input) output, err = runCmd.CombinedOutput() } else { log.Printf("[CPP-%s] Executing C++ code without input", submission.ID) output, err = s.executeWithTimeout(runCmd, 10*time.Second, submission.ID) } elapsed := time.Since(startTime) log.Printf("[CPP-%s] C++ execution completed in %v", submission.ID, elapsed) s.updateSubmissionResult(submission, output, err) } // executeWithTimeout runs a command with a timeout func (s *ExecutionService) executeWithTimeout(cmd *exec.Cmd, timeout time.Duration, submissionID string) ([]byte, error) { log.Printf("[TIMEOUT-%s] Setting execution timeout: %v", submissionID, timeout) done := make(chan error, 1) var output []byte var err error go func() { log.Printf("[EXEC-%s] Starting command execution: %v", submissionID, cmd.Args) output, err = cmd.CombinedOutput() done <- err }() select { case <-time.After(timeout): log.Printf("[TIMEOUT-%s] Execution timed out after %v seconds", submissionID, timeout.Seconds()) if err := cmd.Process.Kill(); err != nil { log.Printf("[TIMEOUT-%s] Failed to kill process: %v", submissionID, err) return nil, fmt.Errorf("timeout reached but failed to kill process: %v", err) } return nil, fmt.Errorf("execution timed out after %v seconds", timeout.Seconds()) case err := <-done: if err != nil { log.Printf("[EXEC-%s] Command execution failed: %v", submissionID, err) } else { log.Printf("[EXEC-%s] Command execution completed successfully", submissionID) } return output, err } } // updateSubmissionResult updates the submission with execution results func (s *ExecutionService) updateSubmissionResult(submission *model.CodeSubmission, output []byte, err error) { s.mu.Lock() defer s.mu.Unlock() submission.CompletedAt = time.Now() executionTime := submission.CompletedAt.Sub(submission.StartedAt) totalTime := submission.CompletedAt.Sub(submission.QueuedAt) if err != nil { submission.Status = "failed" submission.Output = string(output) + "\n" + err.Error() log.Printf("[RESULT-%s] Execution FAILED in %v (total time: %v, including queue: %v)", submission.ID, executionTime, totalTime, totalTime-executionTime) } else { submission.Status = "completed" submission.Output = string(output) log.Printf("[RESULT-%s] Execution COMPLETED in %v (total time: %v, including queue: %v)", submission.ID, executionTime, totalTime, totalTime-executionTime) } } // GetQueueStats returns statistics about the job queue func (s *ExecutionService) GetQueueStats() map[string]int { stats := s.queue.QueueStats() log.Printf("[QUEUE] Stats - Jobs in queue: %d, Running jobs: %d, Max workers: %d", stats["queue_length"], stats["running_jobs"], stats["max_workers"]) return stats }