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This commit is contained in:
despiegk
2025-05-23 15:40:41 +04:00
parent 0e545e56de
commit 532cda72d3
126 changed files with 0 additions and 0 deletions
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127
pkg2_dont_use/heroagent/api/admin.go Normal file
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package api
import (
"fmt"
"time"
"git.ourworld.tf/herocode/heroagent/pkg/system/stats"
"github.com/gofiber/fiber/v2"
)
// UptimeProvider defines an interface for getting system uptime
type UptimeProvider interface {
GetUptime() string
}
// AdminHandler handles admin-related API routes
type AdminHandler struct {
uptimeProvider UptimeProvider
statsManager *stats.StatsManager
}
// NewAdminHandler creates a new AdminHandler
func NewAdminHandler(uptimeProvider UptimeProvider, statsManager *stats.StatsManager) *AdminHandler {
// If statsManager is nil, create a new one with default settings
if statsManager == nil {
var err error
statsManager, err = stats.NewStatsManagerWithDefaults()
if err != nil {
// Log the error but continue with nil statsManager
fmt.Printf("Error creating StatsManager: %v\n", err)
}
}
return &AdminHandler{
uptimeProvider: uptimeProvider,
statsManager: statsManager,
}
}
// RegisterRoutes registers all admin API routes
func (h *AdminHandler) RegisterRoutes(app *fiber.App) {
// API endpoints
admin := app.Group("/api")
// @Summary Get hardware stats
// @Description Get hardware statistics in JSON format
// @Tags admin
// @Accept json
// @Produce json
// @Success 200 {object} map[string]interface{}
// @Failure 500 {object} ErrorResponse
// @Router /api/hardware-stats [get]
admin.Get("/hardware-stats", h.getHardwareStatsJSON)
// @Summary Get process stats
// @Description Get process statistics in JSON format
// @Tags admin
// @Accept json
// @Produce json
// @Success 200 {object} map[string]interface{}
// @Failure 500 {object} ErrorResponse
// @Router /api/process-stats [get]
admin.Get("/process-stats", h.getProcessStatsJSON)
}
// getProcessStatsJSON returns process statistics in JSON format for API consumption
func (h *AdminHandler) getProcessStatsJSON(c *fiber.Ctx) error {
// Get process stats from the StatsManager (limit to top 30 processes)
var processData *stats.ProcessStats
var err error
if h.statsManager != nil {
processData, err = h.statsManager.GetProcessStats(30)
} else {
// Fallback to direct function call if StatsManager is not available
processData, err = stats.GetProcessStats(30)
}
if err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": "Failed to get process stats: " + err.Error(),
})
}
// Convert to []fiber.Map for JSON response
processStats := make([]fiber.Map, len(processData.Processes))
for i, proc := range processData.Processes {
processStats[i] = fiber.Map{
"pid": proc.PID,
"name": proc.Name,
"status": proc.Status,
"cpu_percent": proc.CPUPercent,
"memory_mb": proc.MemoryMB,
"create_time_str": proc.CreateTime,
"is_current": proc.IsCurrent,
}
}
// Return JSON response
return c.JSON(fiber.Map{
"success": true,
"processes": processStats,
"timestamp": time.Now().Unix(),
})
}
// getHardwareStatsJSON returns hardware stats in JSON format for API consumption
func (h *AdminHandler) getHardwareStatsJSON(c *fiber.Ctx) error {
// Get hardware stats from the StatsManager
var hardwareStats map[string]interface{}
if h.statsManager != nil {
hardwareStats = h.statsManager.GetHardwareStatsJSON()
} else {
// Fallback to direct function call if StatsManager is not available
hardwareStats = stats.GetHardwareStatsJSON()
}
// Convert to fiber.Map for JSON response
response := fiber.Map{
"success": true,
}
for k, v := range hardwareStats {
response[k] = v
}
// Return JSON response
return c.JSON(response)
}

149
pkg2_dont_use/heroagent/api/executor.go Normal file
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package api
import (
"time"
"git.ourworld.tf/herocode/heroagent/pkg/sal/executor"
"github.com/gofiber/fiber/v2"
)
// ExecutorHandler handles executor-related API endpoints
type ExecutorHandler struct {
executor *executor.Executor
}
// NewExecutorHandler creates a new executor handler
func NewExecutorHandler(exec *executor.Executor) *ExecutorHandler {
return &ExecutorHandler{
executor: exec,
}
}
// RegisterRoutes registers executor routes to the fiber app
func (h *ExecutorHandler) RegisterRoutes(app *fiber.App) {
group := app.Group("/api/executor")
// @Summary Execute a command
// @Description Execute a command and return a job ID
// @Tags executor
// @Accept json
// @Produce json
// @Param command body ExecuteCommandRequest true "Command to execute"
// @Success 200 {object} ExecuteCommandResponse
// @Failure 400 {object} ErrorResponse
// @Router /api/executor/execute [post]
group.Post("/execute", h.executeCommand)
// @Summary List all jobs
// @Description Get a list of all command execution jobs
// @Tags executor
// @Produce json
// @Success 200 {array} JobResponse
// @Router /api/executor/jobs [get]
group.Get("/jobs", h.listJobs)
// @Summary Get job details
// @Description Get details of a specific job by ID
// @Tags executor
// @Produce json
// @Param id path string true "Job ID"
// @Success 200 {object} JobResponse
// @Failure 404 {object} ErrorResponse
// @Router /api/executor/jobs/{id} [get]
group.Get("/jobs/:id", h.getJob)
}
// @Summary Execute a command
// @Description Execute a command and return a job ID
// @Tags executor
// @Accept json
// @Produce json
// @Param command body ExecuteCommandRequest true "Command to execute"
// @Success 200 {object} ExecuteCommandResponse
// @Failure 400 {object} ErrorResponse
// @Router /api/executor/execute [post]
func (h *ExecutorHandler) executeCommand(c *fiber.Ctx) error {
var req ExecuteCommandRequest
if err := c.BodyParser(&req); err != nil {
return c.Status(fiber.StatusBadRequest).JSON(ErrorResponse{
Error: "Invalid request: " + err.Error(),
})
}
jobID, err := h.executor.ExecuteCommand(req.Command, req.Args)
if err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(ErrorResponse{
Error: "Failed to execute command: " + err.Error(),
})
}
return c.JSON(ExecuteCommandResponse{
JobID: jobID,
})
}
// @Summary List all jobs
// @Description Get a list of all command execution jobs
// @Tags executor
// @Produce json
// @Success 200 {array} JobResponse
// @Router /api/executor/jobs [get]
func (h *ExecutorHandler) listJobs(c *fiber.Ctx) error {
jobs := h.executor.ListJobs()
response := make([]JobResponse, 0, len(jobs))
for _, job := range jobs {
var endTime time.Time
if job.Status == "completed" || job.Status == "failed" {
endTime = job.EndTime
}
response = append(response, JobResponse{
ID: job.ID,
Command: job.Command,
Args: job.Args,
StartTime: job.StartTime,
EndTime: endTime,
Status: job.Status,
Output: job.Output,
Error: job.Error,
})
}
return c.JSON(response)
}
// @Summary Get job details
// @Description Get details of a specific job by ID
// @Tags executor
// @Produce json
// @Param id path string true "Job ID"
// @Success 200 {object} JobResponse
// @Failure 404 {object} ErrorResponse
// @Router /api/executor/jobs/{id} [get]
func (h *ExecutorHandler) getJob(c *fiber.Ctx) error {
jobID := c.Params("id")
job, err := h.executor.GetJob(jobID)
if err != nil {
return c.Status(fiber.StatusNotFound).JSON(ErrorResponse{
Error: err.Error(),
})
}
var endTime time.Time
if job.Status == "completed" || job.Status == "failed" {
endTime = job.EndTime
}
return c.JSON(JobResponse{
ID: job.ID,
Command: job.Command,
Args: job.Args,
StartTime: job.StartTime,
EndTime: endTime,
Status: job.Status,
Output: job.Output,
Error: job.Error,
})
}

112
pkg2_dont_use/heroagent/api/jet.go Normal file
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package api
import (
"strings"
"github.com/CloudyKit/jet/v6"
"github.com/gofiber/fiber/v2"
)
// JetTemplateRequest represents the request body for the checkjet endpoint
type JetTemplateRequest struct {
Template string `json:"template"`
}
// JetTemplateResponse represents the response for the checkjet endpoint
type JetTemplateResponse struct {
Valid bool `json:"valid"`
Message string `json:"message,omitempty"`
Error string `json:"error,omitempty"`
}
// JetHandler handles Jet template-related API endpoints
type JetHandler struct {
// No dependencies needed for this handler
}
// NewJetHandler creates a new Jet template handler
func NewJetHandler() *JetHandler {
return &JetHandler{}
}
// RegisterRoutes registers Jet template routes to the fiber app
func (h *JetHandler) RegisterRoutes(app *fiber.App) {
// Create a group for Jet API endpoints
jetGroup := app.Group("/api/jet")
// Register the checkjet endpoint
jetGroup.Post("/validate", h.validateTemplate)
}
// @Summary Validate a Jet template
// @Description Validates a Jet template and returns detailed error information if invalid
// @Tags jet
// @Accept json
// @Produce json
// @Param template body JetTemplateRequest true "Jet template to validate"
// @Success 200 {object} JetTemplateResponse
// @Failure 400 {object} map[string]interface{}
// @Router /api/jet/validate [post]
func (h *JetHandler) validateTemplate(c *fiber.Ctx) error {
var req JetTemplateRequest
if err := c.BodyParser(&req); err != nil {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"success": false,
"error": "Invalid request: " + err.Error(),
})
}
if req.Template == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"success": false,
"error": "Template cannot be empty",
})
}
// Create a temporary in-memory loader for the template
loader := jet.NewInMemLoader()
// Add the template to the loader
loader.Set("test.jet", req.Template)
// Create a new Jet set with the loader and enable development mode for better error reporting
set := jet.NewSet(loader, jet.InDevelopmentMode())
// Get the template to parse it
_, err := set.GetTemplate("test.jet")
// Check if the template is valid
if err != nil {
// Extract meaningful error information
errMsg := err.Error()
// Ignore errors related to extended or included files not found
// These aren't syntax errors but dependency errors we want to ignore
if strings.Contains(errMsg, "no template") ||
strings.Contains(errMsg, "unable to locate template") ||
strings.Contains(errMsg, "template not found") ||
strings.Contains(errMsg, "extends|import") ||
strings.Contains(errMsg, "could not be found") ||
strings.Contains(errMsg, "template /") {
// Still valid since it's only a dependency error, not a syntax error
return c.JSON(fiber.Map{
"success": true,
"valid": true,
"message": "Template syntax is valid (ignoring extends/include errors)",
})
}
return c.JSON(fiber.Map{
"success": false,
"valid": false,
"error": errMsg,
})
}
// If no error, the template is valid
return c.JSON(fiber.Map{
"success": true,
"valid": true,
"message": "Template is valid",
})
}

74
pkg2_dont_use/heroagent/api/main.go Normal file
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// Package api contains API handlers for HeroLauncher
package api
// @title HeroLauncher API
// @version 1.0
// @description API for HeroLauncher - a modular service manager
// @termsOfService http://swagger.io/terms/
// @contact.name API Support
// @contact.email support@freeflowuniverse.org
// @license.name Apache 2.0
// @license.url http://www.apache.org/licenses/LICENSE-2.0.html
// @host localhost:9001
// @BasePath /api
// @schemes http https
// This file exists solely to provide Swagger documentation
// and to ensure all API handlers are included in the documentation
// AdminHandler handles admin-related API routes
// @Router /api/hardware-stats [get]
// @Router /api/process-stats [get]
// ServiceHandler handles service-related API routes
// @Router /api/services/running [get]
// @Router /api/services/start [post]
// @Router /api/services/stop [post]
// @Router /api/services/restart [post]
// @Router /api/services/delete [post]
// @Router /api/services/logs [post]
// @Router /admin/services/ [get]
// @Router /admin/services/data [get]
// @Router /admin/services/running [get]
// @Router /admin/services/start [post]
// @Router /admin/services/stop [post]
// @Router /admin/services/restart [post]
// @Router /admin/services/delete [post]
// @Router /admin/services/logs [post]
// ExecutorHandler handles command execution API routes
// @Router /api/executor/execute [post]
// @Router /api/executor/jobs [get]
// @Router /api/executor/jobs/{id} [get]
// JetHandler handles Jet template API routes
// @Router /api/jet/validate [post]
// RedisHandler handles Redis API routes
// @Router /api/redis/set [post]
// @Router /api/redis/get/{key} [get]
// @Router /api/redis/del/{key} [delete]
// @Router /api/redis/keys/{pattern} [get]
// @Router /api/redis/hset [post]
// @Router /api/redis/hget/{key}/{field} [get]
// @Router /api/redis/hdel [post]
// @Router /api/redis/hkeys/{key} [get]
// @Router /api/redis/hgetall/{key} [get]
// JobHandler handles HeroJobs API routes
// @Router /api/jobs/submit [post]
// @Router /api/jobs/get/{id} [get]
// @Router /api/jobs/delete/{id} [delete]
// @Router /api/jobs/list [get]
// @Router /api/jobs/queue/size [get]
// @Router /api/jobs/queue/empty [post]
// @Router /api/jobs/queue/get [get]
// @Router /api/jobs/create [post]
// @Router /admin/jobs/submit [post]
// @Router /admin/jobs/get/{id} [get]
// @Router /admin/jobs/delete/{id} [delete]
// @Router /admin/jobs/list [get]
// @Router /admin/jobs/queue/size [get]
// @Router /admin/jobs/queue/empty [post]
// @Router /admin/jobs/queue/get [get]
// @Router /admin/jobs/create [post]

105
pkg2_dont_use/heroagent/api/models.go Normal file
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package api
import "time"
// ErrorResponse represents an error response
type ErrorResponse struct {
Error string `json:"error"`
}
// Executor Models
// ExecuteCommandRequest represents a request to execute a command
type ExecuteCommandRequest struct {
Command string `json:"command"`
Args []string `json:"args"`
}
// ExecuteCommandResponse represents the response from executing a command
type ExecuteCommandResponse struct {
JobID string `json:"job_id"`
}
// JobResponse represents a job response
type JobResponse struct {
ID string `json:"id"`
Command string `json:"command"`
Args []string `json:"args"`
StartTime time.Time `json:"start_time"`
EndTime time.Time `json:"end_time"`
Status string `json:"status"`
Output string `json:"output"`
Error string `json:"error"`
}
// Redis Models
// SetKeyRequest represents a request to set a key
type SetKeyRequest struct {
Key string `json:"key"`
Value string `json:"value"`
ExpirationSeconds int `json:"expiration_seconds"`
}
// SetKeyResponse represents the response from setting a key
type SetKeyResponse struct {
Success bool `json:"success"`
}
// GetKeyResponse represents the response from getting a key
type GetKeyResponse struct {
Value string `json:"value"`
}
// DeleteKeyResponse represents the response from deleting a key
type DeleteKeyResponse struct {
Count int `json:"count"`
}
// GetKeysResponse represents the response from getting keys
type GetKeysResponse struct {
Keys []string `json:"keys"`
}
// HSetKeyRequest represents a request to set a hash field
type HSetKeyRequest struct {
Key string `json:"key"`
Field string `json:"field"`
Value string `json:"value"`
}
// HSetKeyResponse represents the response from setting a hash field
type HSetKeyResponse struct {
Added bool `json:"added"`
}
// HGetKeyResponse represents the response from getting a hash field
type HGetKeyResponse struct {
Value string `json:"value"`
}
// HDelKeyRequest represents a request to delete hash fields
type HDelKeyRequest struct {
Key string `json:"key"`
Fields []string `json:"fields"`
}
// HDelKeyResponse represents the response from deleting hash fields
type HDelKeyResponse struct {
Count int `json:"count"`
}
// HKeysResponse represents the response from getting hash keys
type HKeysResponse struct {
Fields []string `json:"fields"`
}
// HLenResponse represents the response from getting hash length
type HLenResponse struct {
Length int `json:"length"`
}
// IncrKeyResponse represents the response from incrementing a key
type IncrKeyResponse struct {
Value int64 `json:"value"`
}

544
pkg2_dont_use/heroagent/api/processmanager.go Normal file
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package api
import (
"encoding/json"
"fmt"
"log"
"strconv"
"time"
"git.ourworld.tf/herocode/heroagent/pkg/processmanager"
"git.ourworld.tf/herocode/heroagent/pkg/processmanager/interfaces"
"git.ourworld.tf/herocode/heroagent/pkg/processmanager/interfaces/openrpc"
"github.com/gofiber/fiber/v2"
)
// ProcessDisplayInfo represents information about a process for display purposes
type ProcessDisplayInfo struct {
ID string `json:"id"`
Name string `json:"name"`
Status string `json:"status"`
Uptime string `json:"uptime"`
StartTime string `json:"start_time"`
CPU string `json:"cpu"`
Memory string `json:"memory"`
}
// ConvertToDisplayInfo converts a ProcessInfo from the processmanager package to ProcessDisplayInfo
func ConvertToDisplayInfo(info *processmanager.ProcessInfo) ProcessDisplayInfo {
// Calculate uptime from start time
uptime := formatUptime(time.Since(info.StartTime))
return ProcessDisplayInfo{
ID: fmt.Sprintf("%d", info.PID),
Name: info.Name,
Status: string(info.Status),
Uptime: uptime,
StartTime: info.StartTime.Format("2006-01-02 15:04:05"),
CPU: fmt.Sprintf("%.2f%%", info.CPUPercent),
Memory: fmt.Sprintf("%.2f MB", info.MemoryMB),
}
}
// ServiceHandler handles service-related API routes
type ServiceHandler struct {
client *openrpc.Client
logger *log.Logger
}
// default number of log lines to retrieve - use a high value to essentially show all logs
const DefaultLogLines = 10000
// NewServiceHandler creates a new service handler with the provided socket path and secret
func NewServiceHandler(socketPath, secret string, logger *log.Logger) *ServiceHandler {
fmt.Printf("DEBUG: Creating new api.ServiceHandler with socket path: %s and secret: %s\n", socketPath, secret)
return &ServiceHandler{
client: openrpc.NewClient(socketPath, secret),
logger: logger,
}
}
// RegisterRoutes registers service API routes
func (h *ServiceHandler) RegisterRoutes(app *fiber.App) {
// Register common routes to both API and admin groups
serviceRoutes := func(group fiber.Router) {
group.Get("/running", h.getRunningServices)
group.Post("/start", h.startService)
group.Post("/stop", h.stopService)
group.Post("/restart", h.restartService)
group.Post("/delete", h.deleteService)
group.Post("/logs", h.getProcessLogs)
}
// Apply common routes to API group
apiServices := app.Group("/api/services")
serviceRoutes(apiServices)
// Apply common routes to admin group and add admin-specific routes
adminServices := app.Group("/admin/services")
serviceRoutes(adminServices)
// Admin-only routes
adminServices.Get("/", h.getServicesPage)
adminServices.Get("/data", h.getServicesData)
}
// getProcessList gets a list of processes from the process manager
// TODO: add swagger annotations
func (h *ServiceHandler) getProcessList() ([]ProcessDisplayInfo, error) {
// Debug: Log the function entry
h.logger.Printf("Entering getProcessList() function")
fmt.Printf("DEBUG: API getProcessList called using client: %p\n", h.client)
// Get the list of processes via the client
result, err := h.client.ListProcesses("json")
if err != nil {
h.logger.Printf("Error listing processes: %v", err)
return nil, err
}
// Convert the result to a slice of ProcessStatus
processStatuses, ok := result.([]interfaces.ProcessStatus)
if !ok {
// Try to handle the result as a map or other structure
h.logger.Printf("Warning: unexpected result type from ListProcesses, trying alternative parsing")
// Try to convert the result to JSON and then parse it
resultJSON, err := json.Marshal(result)
if err != nil {
h.logger.Printf("Error marshaling result to JSON: %v", err)
return nil, fmt.Errorf("failed to marshal result: %w", err)
}
var processStatuses []interfaces.ProcessStatus
if err := json.Unmarshal(resultJSON, &processStatuses); err != nil {
h.logger.Printf("Error unmarshaling result to ProcessStatus: %v", err)
return nil, fmt.Errorf("failed to unmarshal process list result: %w", err)
}
// Convert to display info format
displayInfoList := make([]ProcessDisplayInfo, 0, len(processStatuses))
for _, proc := range processStatuses {
// Calculate uptime based on start time
uptime := formatUptime(time.Since(proc.StartTime))
displayInfo := ProcessDisplayInfo{
ID: fmt.Sprintf("%d", proc.PID),
Name: proc.Name,
Status: string(proc.Status),
Uptime: uptime,
StartTime: proc.StartTime.Format("2006-01-02 15:04:05"),
CPU: fmt.Sprintf("%.2f%%", proc.CPUPercent),
Memory: fmt.Sprintf("%.2f MB", proc.MemoryMB),
}
displayInfoList = append(displayInfoList, displayInfo)
}
// Debug: Log the number of processes
h.logger.Printf("Found %d processes", len(displayInfoList))
return displayInfoList, nil
}
// Convert to display info format
displayInfoList := make([]ProcessDisplayInfo, 0, len(processStatuses))
for _, proc := range processStatuses {
// Calculate uptime based on start time
uptime := formatUptime(time.Since(proc.StartTime))
displayInfo := ProcessDisplayInfo{
ID: fmt.Sprintf("%d", proc.PID),
Name: proc.Name,
Status: string(proc.Status),
Uptime: uptime,
StartTime: proc.StartTime.Format("2006-01-02 15:04:05"),
CPU: fmt.Sprintf("%.2f%%", proc.CPUPercent),
Memory: fmt.Sprintf("%.2f MB", proc.MemoryMB),
}
displayInfoList = append(displayInfoList, displayInfo)
}
// Debug: Log the number of processes
h.logger.Printf("Found %d processes", len(displayInfoList))
return displayInfoList, nil
}
// formatUptime formats a duration as a human-readable uptime string
func formatUptime(duration time.Duration) string {
totalSeconds := int(duration.Seconds())
days := totalSeconds / (24 * 3600)
hours := (totalSeconds % (24 * 3600)) / 3600
minutes := (totalSeconds % 3600) / 60
seconds := totalSeconds % 60
if days > 0 {
return fmt.Sprintf("%d days, %d hours", days, hours)
} else if hours > 0 {
return fmt.Sprintf("%d hours, %d minutes", hours, minutes)
} else if minutes > 0 {
return fmt.Sprintf("%d minutes, %d seconds", minutes, seconds)
} else {
return fmt.Sprintf("%d seconds", seconds)
}
}
// @Summary Start a service
// @Description Start a new service with the given name and command
// @Tags services
// @Accept x-www-form-urlencoded
// @Produce json
// @Param name formData string true "Service name"
// @Param command formData string true "Command to run"
// @Success 200 {object} map[string]interface{}
// @Failure 400 {object} map[string]string
// @Failure 500 {object} map[string]string
// @Router /api/services/start [post]
// @Router /admin/services/start [post]
func (h *ServiceHandler) startService(c *fiber.Ctx) error {
// Get form values
name := c.FormValue("name")
command := c.FormValue("command")
// Validate inputs
if name == "" || command == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"success": false,
"error": "Name and command are required",
})
}
// Start the process with default values
// logEnabled=true, deadline=0 (no deadline), no cron, no jobID
fmt.Printf("DEBUG: API startService called for '%s' using client: %p\n", name, h.client)
result, err := h.client.StartProcess(name, command, true, 0, "", "")
if err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": fmt.Sprintf("Failed to start service: %v", err),
})
}
// Check if the result indicates success
if !result.Success {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": result.Message,
})
}
// Get the PID from the result
pid := result.PID
return c.JSON(fiber.Map{
"success": true,
"message": fmt.Sprintf("Service '%s' started with PID %d", name, pid),
"pid": pid,
})
}
// @Summary Stop a service
// @Description Stop a running service by name
// @Tags services
// @Accept x-www-form-urlencoded
// @Produce json
// @Param name formData string true "Service name"
// @Success 200 {object} map[string]interface{}
// @Failure 400 {object} map[string]string
// @Failure 500 {object} map[string]string
// @Router /api/services/stop [post]
// @Router /admin/services/stop [post]
// stopService stops a service
func (h *ServiceHandler) stopService(c *fiber.Ctx) error {
// Get form values
name := c.FormValue("name")
// For backward compatibility, try ID field if name is empty
if name == "" {
name = c.FormValue("id")
if name == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"success": false,
"error": "Process name is required",
})
}
}
// Log the stop request
h.logger.Printf("Stopping process with name: %s", name)
// Stop the process
fmt.Printf("DEBUG: API stopService called for '%s' using client: %p\n", name, h.client)
result, err := h.client.StopProcess(name)
if err != nil {
h.logger.Printf("Error stopping process: %v", err)
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": fmt.Sprintf("Failed to stop service: %v", err),
})
}
// Check if the result indicates success
if !result.Success {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": result.Message,
})
}
return c.JSON(fiber.Map{
"success": true,
"message": fmt.Sprintf("Service '%s' stopped successfully", name),
})
}
// @Summary Restart a service
// @Description Restart a running service by name
// @Tags services
// @Accept x-www-form-urlencoded
// @Produce json
// @Param name formData string true "Service name"
// @Success 200 {object} map[string]interface{}
// @Failure 400 {object} map[string]string
// @Failure 500 {object} map[string]string
// @Router /api/services/restart [post]
// @Router /admin/services/restart [post]
// restartService restarts a service
func (h *ServiceHandler) restartService(c *fiber.Ctx) error {
// Get form values
name := c.FormValue("name")
// For backward compatibility, try ID field if name is empty
if name == "" {
name = c.FormValue("id")
if name == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"success": false,
"error": "Process name is required",
})
}
}
// Log the restart request
h.logger.Printf("Restarting process with name: %s", name)
// Restart the process
fmt.Printf("DEBUG: API restartService called for '%s' using client: %p\n", name, h.client)
result, err := h.client.RestartProcess(name)
if err != nil {
h.logger.Printf("Error restarting process: %v", err)
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": fmt.Sprintf("Failed to restart service: %v", err),
})
}
// Check if the result indicates success
if !result.Success {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": result.Message,
})
}
return c.JSON(fiber.Map{
"success": true,
"message": fmt.Sprintf("Service '%s' restarted successfully", name),
})
}
// @Summary Delete a service
// @Description Delete a service by name
// @Tags services
// @Accept x-www-form-urlencoded
// @Produce json
// @Param name formData string true "Service name"
// @Success 200 {object} map[string]interface{}
// @Failure 400 {object} map[string]string
// @Failure 500 {object} map[string]string
// @Router /api/services/delete [post]
// @Router /admin/services/delete [post]
// deleteService deletes a service
func (h *ServiceHandler) deleteService(c *fiber.Ctx) error {
// Get form values
name := c.FormValue("name")
// Validate inputs
if name == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"success": false,
"error": "Service name is required",
})
}
// Debug: Log the delete request
h.logger.Printf("Deleting process with name: %s", name)
// Delete the process
fmt.Printf("DEBUG: API deleteService called for '%s' using client: %p\n", name, h.client)
result, err := h.client.DeleteProcess(name)
if err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": fmt.Sprintf("Failed to delete service: %v", err),
})
}
// Check if the result indicates success
if !result.Success {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": result.Message,
})
}
return c.JSON(fiber.Map{
"success": true,
"message": fmt.Sprintf("Service '%s' deleted successfully", name),
})
}
// @Summary Get running services
// @Description Get a list of all currently running services
// @Tags services
// @Accept json
// @Produce json
// @Success 200 {object} map[string][]ProcessDisplayInfo
// @Failure 500 {object} map[string]string
// @Router /api/services/running [get]
// @Router /admin/services/running [get]
func (h *ServiceHandler) getRunningServices(c *fiber.Ctx) error {
// Get the list of processes
processes, err := h.getProcessList()
if err != nil {
h.logger.Printf("Error getting process list: %v", err)
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": fmt.Sprintf("Failed to get process list: %v", err),
})
}
// Filter to only include running processes
runningProcesses := make([]ProcessDisplayInfo, 0)
for _, proc := range processes {
if proc.Status == "running" {
runningProcesses = append(runningProcesses, proc)
}
}
// Return the processes as JSON
return c.JSON(fiber.Map{
"success": true,
"services": runningProcesses,
"processes": processes, // Keep for backward compatibility
})
}
// @Summary Get process logs
// @Description Get logs for a specific process
// @Tags services
// @Accept x-www-form-urlencoded
// @Produce json
// @Param name formData string true "Service name"
// @Param lines formData integer false "Number of log lines to retrieve"
// @Success 200 {object} map[string]string
// @Failure 400 {object} map[string]string
// @Failure 500 {object} map[string]string
// @Router /api/services/logs [post]
// @Router /admin/services/logs [post]
// getProcessLogs retrieves logs for a specific process
func (h *ServiceHandler) getProcessLogs(c *fiber.Ctx) error {
// Get form values
name := c.FormValue("name")
// For backward compatibility, try ID field if name is empty
if name == "" {
name = c.FormValue("id")
if name == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"success": false,
"error": "Process name is required",
})
}
}
// Get the number of lines to retrieve
linesStr := c.FormValue("lines")
lines := DefaultLogLines
if linesStr != "" {
if parsedLines, err := strconv.Atoi(linesStr); err == nil && parsedLines > 0 {
lines = parsedLines
}
}
// Log the request
h.logger.Printf("Getting logs for process: %s (lines: %d)", name, lines)
// Get logs
fmt.Printf("DEBUG: API getProcessLogs called for '%s' using client: %p\n", name, h.client)
logs, err := h.client.GetProcessLogs(name, lines)
if err != nil {
h.logger.Printf("Error getting process logs: %v", err)
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": fmt.Sprintf("Failed to get logs: %v", err),
})
}
return c.JSON(fiber.Map{
"success": true,
"logs": logs,
})
}
// @Summary Get services page
// @Description Get the services management page
// @Tags admin
// @Produce html
// @Success 200 {string} string "HTML content"
// @Failure 500 {object} map[string]string
// @Router /admin/services/ [get]
// getServicesPage renders the services page
func (h *ServiceHandler) getServicesPage(c *fiber.Ctx) error {
// Get processes to display on the initial page load
processes, _ := h.getProcessList()
// Check if client is properly initialized
var warning string
if h.client == nil {
warning = "Process manager client is not properly initialized."
h.logger.Printf("Warning: %s", warning)
}
return c.Render("admin/services", fiber.Map{
"title": "Services",
"processes": processes,
"warning": warning,
})
}
// @Summary Get services data
// @Description Get services data for AJAX updates
// @Tags admin
// @Produce html
// @Success 200 {string} string "HTML content"
// @Failure 500 {object} map[string]string
// @Router /admin/services/data [get]
// getServicesData returns only the services fragment for AJAX updates
func (h *ServiceHandler) getServicesData(c *fiber.Ctx) error {
// Get processes
processes, _ := h.getProcessList()
// Check if client is properly initialized
var warning string
if h.client == nil {
warning = "Process manager client is not properly initialized."
h.logger.Printf("Warning: %s", warning)
}
// Return the fragment with process data and optional warning
return c.Render("admin/services_fragment", fiber.Map{
"processes": processes,
"warning": warning,
"layout": "",
})
}

449
pkg2_dont_use/heroagent/api/redisserver.go Normal file
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package api
import (
"context"
"time"
"github.com/gofiber/fiber/v2"
"github.com/redis/go-redis/v9"
)
// RedisHandler handles Redis-related API endpoints
type RedisHandler struct {
redisClient *redis.Client
}
// NewRedisHandler creates a new Redis handler
func NewRedisHandler(redisAddr string, isUnixSocket bool) *RedisHandler {
// Determine network type
networkType := "tcp"
if isUnixSocket {
networkType = "unix"
}
// Create Redis client
client := redis.NewClient(&redis.Options{
Network: networkType,
Addr: redisAddr,
DB: 0,
DialTimeout: 5 * time.Second,
ReadTimeout: 5 * time.Second,
WriteTimeout: 5 * time.Second,
})
return &RedisHandler{
redisClient: client,
}
}
// RegisterRoutes registers Redis routes to the fiber app
func (h *RedisHandler) RegisterRoutes(app *fiber.App) {
group := app.Group("/api/redis")
// @Summary Set a Redis key
// @Description Set a key-value pair in Redis with optional expiration
// @Tags redis
// @Accept json
// @Produce json
// @Param request body SetKeyRequest true "Key-value data"
// @Success 200 {object} SetKeyResponse
// @Failure 400 {object} ErrorResponse
// @Failure 500 {object} ErrorResponse
// @Router /api/redis/set [post]
group.Post("/set", h.setKey)
// @Summary Get a Redis key
// @Description Get a value by key from Redis
// @Tags redis
// @Produce json
// @Param key path string true "Key to retrieve"
// @Success 200 {object} GetKeyResponse
// @Failure 400 {object} ErrorResponse
// @Failure 404 {object} ErrorResponse
// @Failure 500 {object} ErrorResponse
// @Router /api/redis/get/{key} [get]
group.Get("/get/:key", h.getKey)
// @Summary Delete a Redis key
// @Description Delete a key from Redis
// @Tags redis
// @Produce json
// @Param key path string true "Key to delete"
// @Success 200 {object} DeleteKeyResponse
// @Failure 400 {object} ErrorResponse
// @Failure 500 {object} ErrorResponse
// @Router /api/redis/del/{key} [delete]
group.Delete("/del/:key", h.deleteKey)
// @Summary Get Redis keys by pattern
// @Description Get keys matching a pattern from Redis
// @Tags redis
// @Produce json
// @Param pattern path string true "Pattern to match keys"
// @Success 200 {object} GetKeysResponse
// @Failure 500 {object} ErrorResponse
// @Router /api/redis/keys/{pattern} [get]
group.Get("/keys/:pattern", h.getKeys)
// @Summary Set hash fields
// @Description Set one or more fields in a Redis hash
// @Tags redis
// @Accept json
// @Produce json
// @Param request body HSetKeyRequest true "Hash field data"
// @Success 200 {object} HSetKeyResponse
// @Failure 400 {object} ErrorResponse
// @Failure 500 {object} ErrorResponse
// @Router /api/redis/hset [post]
group.Post("/hset", h.hsetKey)
// @Summary Get hash field
// @Description Get a field from a Redis hash
// @Tags redis
// @Produce json
// @Param key path string true "Hash key"
// @Param field path string true "Field to retrieve"
// @Success 200 {object} HGetKeyResponse
// @Failure 400 {object} ErrorResponse
// @Failure 404 {object} ErrorResponse
// @Failure 500 {object} ErrorResponse
// @Router /api/redis/hget/{key}/{field} [get]
group.Get("/hget/:key/:field", h.hgetKey)
// @Summary Delete hash fields
// @Description Delete one or more fields from a Redis hash
// @Tags redis
// @Accept json
// @Produce json
// @Param request body HDelKeyRequest true "Fields to delete"
// @Success 200 {object} HDelKeyResponse
// @Failure 400 {object} ErrorResponse
// @Failure 500 {object} ErrorResponse
// @Router /api/redis/hdel [post]
group.Post("/hdel", h.hdelKey)
// @Summary Get hash fields
// @Description Get all field names in a Redis hash
// @Tags redis
// @Produce json
// @Param key path string true "Hash key"
// @Success 200 {object} HKeysResponse
// @Failure 400 {object} ErrorResponse
// @Failure 500 {object} ErrorResponse
// @Router /api/redis/hkeys/{key} [get]
group.Get("/hkeys/:key", h.hkeysKey)
// @Summary Get all hash fields and values
// @Description Get all fields and values in a Redis hash
// @Tags redis
// @Produce json
// @Param key path string true "Hash key"
// @Success 200 {object} map[string]string
// @Failure 400 {object} ErrorResponse
// @Failure 500 {object} ErrorResponse
// @Router /api/redis/hgetall/{key} [get]
group.Get("/hgetall/:key", h.hgetallKey)
}
// setKey sets a key-value pair in Redis
func (h *RedisHandler) setKey(c *fiber.Ctx) error {
// Parse request
var req struct {
Key string `json:"key"`
Value string `json:"value"`
Expires int `json:"expires,omitempty"` // Expiration in seconds, optional
}
if err := c.BodyParser(&req); err != nil {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"success": false,
"error": "Invalid request format: " + err.Error(),
})
}
// Validate required fields
if req.Key == "" || req.Value == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"success": false,
"error": "Key and value are required",
})
}
ctx := context.Background()
var err error
// Set with or without expiration
if req.Expires > 0 {
err = h.redisClient.Set(ctx, req.Key, req.Value, time.Duration(req.Expires)*time.Second).Err()
} else {
err = h.redisClient.Set(ctx, req.Key, req.Value, 0).Err()
}
if err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": "Failed to set key: " + err.Error(),
})
}
return c.JSON(fiber.Map{
"success": true,
"message": "Key set successfully",
})
}
// getKey retrieves a value by key from Redis
func (h *RedisHandler) getKey(c *fiber.Ctx) error {
key := c.Params("key")
if key == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"success": false,
"error": "Key is required",
})
}
ctx := context.Background()
val, err := h.redisClient.Get(ctx, key).Result()
if err == redis.Nil {
return c.Status(fiber.StatusNotFound).JSON(fiber.Map{
"success": false,
"error": "Key not found",
})
} else if err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": "Failed to get key: " + err.Error(),
})
}
return c.JSON(fiber.Map{
"success": true,
"key": key,
"value": val,
})
}
// deleteKey deletes a key from Redis
func (h *RedisHandler) deleteKey(c *fiber.Ctx) error {
key := c.Params("key")
if key == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"success": false,
"error": "Key is required",
})
}
ctx := context.Background()
result, err := h.redisClient.Del(ctx, key).Result()
if err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": "Failed to delete key: " + err.Error(),
})
}
return c.JSON(fiber.Map{
"success": true,
"deleted": result > 0,
"count": result,
})
}
// getKeys retrieves keys matching a pattern from Redis
func (h *RedisHandler) getKeys(c *fiber.Ctx) error {
pattern := c.Params("pattern", "*")
ctx := context.Background()
keys, err := h.redisClient.Keys(ctx, pattern).Result()
if err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": "Failed to get keys: " + err.Error(),
})
}
return c.JSON(fiber.Map{
"success": true,
"keys": keys,
"count": len(keys),
})
}
// hsetKey sets a field in a hash stored at key
func (h *RedisHandler) hsetKey(c *fiber.Ctx) error {
// Parse request
var req struct {
Key string `json:"key"`
Fields map[string]string `json:"fields"`
}
if err := c.BodyParser(&req); err != nil {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"success": false,
"error": "Invalid request format: " + err.Error(),
})
}
// Validate required fields
if req.Key == "" || len(req.Fields) == 0 {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"success": false,
"error": "Key and at least one field are required",
})
}
ctx := context.Background()
totalAdded := 0
// Use HSet to set multiple fields at once
for field, value := range req.Fields {
added, err := h.redisClient.HSet(ctx, req.Key, field, value).Result()
if err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": "Failed to set hash field: " + err.Error(),
})
}
totalAdded += int(added)
}
return c.JSON(fiber.Map{
"success": true,
"added": totalAdded,
})
}
// hgetKey retrieves a field from a hash stored at key
func (h *RedisHandler) hgetKey(c *fiber.Ctx) error {
key := c.Params("key")
field := c.Params("field")
if key == "" || field == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"success": false,
"error": "Key and field are required",
})
}
ctx := context.Background()
val, err := h.redisClient.HGet(ctx, key, field).Result()
if err == redis.Nil {
return c.Status(fiber.StatusNotFound).JSON(fiber.Map{
"success": false,
"error": "Field not found in hash",
})
} else if err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": "Failed to get hash field: " + err.Error(),
})
}
return c.JSON(fiber.Map{
"success": true,
"key": key,
"field": field,
"value": val,
})
}
// hdelKey deletes fields from a hash stored at key
func (h *RedisHandler) hdelKey(c *fiber.Ctx) error {
// Parse request
var req struct {
Key string `json:"key"`
Fields []string `json:"fields"`
}
if err := c.BodyParser(&req); err != nil {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"success": false,
"error": "Invalid request format: " + err.Error(),
})
}
// Validate required fields
if req.Key == "" || len(req.Fields) == 0 {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"success": false,
"error": "Key and at least one field are required",
})
}
ctx := context.Background()
fields := make([]string, len(req.Fields))
copy(fields, req.Fields)
removed, err := h.redisClient.HDel(ctx, req.Key, fields...).Result()
if err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": "Failed to delete hash fields: " + err.Error(),
})
}
return c.JSON(fiber.Map{
"success": true,
"removed": removed,
})
}
// hkeysKey retrieves all field names in a hash stored at key
func (h *RedisHandler) hkeysKey(c *fiber.Ctx) error {
key := c.Params("key")
if key == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"success": false,
"error": "Key is required",
})
}
ctx := context.Background()
fields, err := h.redisClient.HKeys(ctx, key).Result()
if err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": "Failed to get hash keys: " + err.Error(),
})
}
return c.JSON(fiber.Map{
"success": true,
"key": key,
"fields": fields,
"count": len(fields),
})
}
// hgetallKey retrieves all fields and values in a hash stored at key
func (h *RedisHandler) hgetallKey(c *fiber.Ctx) error {
key := c.Params("key")
if key == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"success": false,
"error": "Key is required",
})
}
ctx := context.Background()
values, err := h.redisClient.HGetAll(ctx, key).Result()
if err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"success": false,
"error": "Failed to get hash: " + err.Error(),
})
}
return c.JSON(fiber.Map{
"success": true,
"key": key,
"hash": values,
"count": len(values),
})
}

57
pkg2_dont_use/heroagent/api/tests/test_utils.go Normal file
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@@ -0,0 +1,57 @@
package tests
import (
"bytes"
"encoding/json"
"net/http"
"net/http/httptest"
"testing"
"github.com/gofiber/fiber/v2"
"github.com/stretchr/testify/assert"
)
// TestSetup represents the common test setup
type TestSetup struct {
App *fiber.App
Assert *assert.Assertions
}
// NewTestSetup creates a new test setup
func NewTestSetup(t *testing.T) *TestSetup {
return &TestSetup{
App: fiber.New(),
Assert: assert.New(t),
}
}
// PerformRequest performs an HTTP request and returns the response
func (ts *TestSetup) PerformRequest(method, path string, body interface{}) *http.Response {
// Convert body to JSON if it's not nil
var reqBody *bytes.Buffer
if body != nil {
jsonBody, _ := json.Marshal(body)
reqBody = bytes.NewBuffer(jsonBody)
} else {
reqBody = bytes.NewBuffer(nil)
}
// Create a new HTTP request
req := httptest.NewRequest(method, path, reqBody)
req.Header.Set("Content-Type", "application/json")
// Perform the request
resp, _ := ts.App.Test(req)
return resp
}
// AssertStatusCode asserts that the response has the expected status code
func (ts *TestSetup) AssertStatusCode(resp *http.Response, expected int) {
ts.Assert.Equal(expected, resp.StatusCode, "Expected status code %d but got %d", expected, resp.StatusCode)
}
// ParseResponseBody parses the response body into the given struct
func (ts *TestSetup) ParseResponseBody(resp *http.Response, v interface{}) {
defer resp.Body.Close()
ts.Assert.NoError(json.NewDecoder(resp.Body).Decode(v), "Failed to parse response body")
}

418
pkg2_dont_use/heroagent/factory.go Normal file
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package heroagent
import (
"fmt"
"log"
"net"
"os"
"os/exec"
"os/signal"
"path/filepath"
"runtime"
"syscall"
"time"
"git.ourworld.tf/herocode/heroagent/pkg/heroagent/api"
"git.ourworld.tf/herocode/heroagent/pkg/heroagent/handlers"
"git.ourworld.tf/herocode/heroagent/pkg/heroagent/pages"
"git.ourworld.tf/herocode/heroagent/pkg/processmanager"
"git.ourworld.tf/herocode/heroagent/pkg/sal/executor"
"git.ourworld.tf/herocode/heroagent/pkg/servers/redisserver"
"git.ourworld.tf/herocode/heroagent/pkg/system/stats"
// "git.ourworld.tf/herocode/heroagent/pkg/vfs/interfaces"
// "git.ourworld.tf/herocode/heroagent/pkg/vfs/interfaces/mock"
"github.com/gofiber/fiber/v2"
"github.com/gofiber/fiber/v2/middleware/cors"
"github.com/gofiber/fiber/v2/middleware/logger"
"github.com/gofiber/fiber/v2/middleware/recover"
"github.com/gofiber/template/jet/v2"
)
// Config holds the configuration for the HeroLauncher server
type Config struct {
Port string
RedisTCPPort string
RedisSocketPath string
TemplatesPath string
StaticFilesPath string
PMSocketPath string // ProcessManager socket path
PMSecret string // ProcessManager authentication secret
HJSocketPath string // HeroJobs socket path
}
// DefaultConfig returns a default configuration for the HeroLauncher server
func DefaultConfig() Config {
// Get the absolute path to the project root
_, filename, _, _ := runtime.Caller(0)
projectRoot := filepath.Join(filepath.Dir(filename), "../..")
// Check for PORT environment variable
port := os.Getenv("PORT")
if port == "" {
port = "9021" // Default port if not specified
}
return Config{
Port: port,
RedisTCPPort: "6379",
RedisSocketPath: "/tmp/heroagent_new.sock",
PMSocketPath: "/tmp/processmanager.sock", // Default ProcessManager socket path
PMSecret: "1234", // Default ProcessManager secret
HJSocketPath: "/tmp/herojobs.sock", // Default HeroJobs socket path
TemplatesPath: filepath.Join(projectRoot, "pkg/heroagent/web/templates"),
StaticFilesPath: filepath.Join(projectRoot, "pkg/heroagent/web/static"),
}
}
// HeroLauncher represents the main application
type HeroLauncher struct {
app *fiber.App
redisServer *redisserver.Server
executorService *executor.Executor
pm *processmanager.ProcessManager
pmProcess *os.Process // Process for the process manager
hjProcess *os.Process // Process for the HeroJobs server
// vfsManager interfaces.VFSManager // VFS manager implementation
config Config
startTime time.Time
}
// New creates a new instance of HeroLauncher with the provided configuration
func New(config Config) *HeroLauncher {
// Initialize modules
redisServer := redisserver.NewServer(redisserver.ServerConfig{
TCPPort: config.RedisTCPPort,
UnixSocketPath: config.RedisSocketPath,
})
executorService := executor.NewExecutor()
// Initialize process manager directly
pm := processmanager.NewProcessManager()
// Set the shared logs path for process manager
sharedLogsPath := filepath.Join(os.TempDir(), "heroagent_logs")
pm.SetLogsBasePath(sharedLogsPath)
// // Initialize VFS manager and client
// vfsManager := mock.NewMockVFSManager() // Using mock implementation for now
// Initialize template engine with debugging enabled
// Use absolute path for templates to avoid path resolution issues
absTemplatePath, err := filepath.Abs(config.TemplatesPath)
if err != nil {
log.Fatalf("Failed to get absolute path for templates: %v", err)
}
engine := jet.New(absTemplatePath, ".jet")
engine.Debug(true) // Enable debug mode to see template errors
// Reload templates on each render in development
engine.Reload(true)
// Initialize Fiber app
app := fiber.New(fiber.Config{
Views: engine,
ErrorHandler: func(c *fiber.Ctx, err error) error {
return c.Status(fiber.StatusInternalServerError).JSON(api.ErrorResponse{
Error: err.Error(),
})
},
})
// Middleware
app.Use(logger.New())
app.Use(recover.New())
app.Use(cors.New())
// Static files - serve all directories with proper paths
app.Static("/", config.StaticFilesPath)
app.Static("/css", config.StaticFilesPath+"/css")
app.Static("/js", config.StaticFilesPath+"/js")
app.Static("/img", config.StaticFilesPath+"/img")
app.Static("/favicon.ico", config.StaticFilesPath+"/favicon.ico")
// Create HeroLauncher instance
hl := &HeroLauncher{
app: app,
redisServer: redisServer,
executorService: executorService,
pm: pm,
// vfsManager: vfsManager,
config: config,
startTime: time.Now(),
}
// Initialize and register route handlers
hl.setupRoutes()
return hl
}
// setupRoutes initializes and registers all route handlers
func (hl *HeroLauncher) setupRoutes() {
// Initialize StatsManager
statsManager, err := stats.NewStatsManagerWithDefaults()
if err != nil {
log.Printf("Warning: Failed to initialize StatsManager: %v\n", err)
statsManager = nil
}
// Initialize API handlers
apiAdminHandler := api.NewAdminHandler(hl, statsManager)
apiServiceHandler := api.NewServiceHandler(hl.config.PMSocketPath, hl.config.PMSecret, log.Default())
// Initialize Page handlers
pageAdminHandler := pages.NewAdminHandler(hl, statsManager, hl.config.PMSocketPath, hl.config.PMSecret)
pageServiceHandler := pages.NewServiceHandler(hl.config.PMSocketPath, hl.config.PMSecret, log.Default())
// Initialize Jobs page handler
pageJobHandler, err := pages.NewJobHandler(hl.config.HJSocketPath, log.Default())
if err != nil {
log.Printf("Warning: Failed to initialize Jobs page handler: %v\n", err)
}
// Initialize JobHandler
jobHandler, err := handlers.NewJobHandler(hl.config.HJSocketPath, log.Default())
if err != nil {
log.Printf("Warning: Failed to initialize JobHandler: %v\n", err)
} else {
// Register Job routes
jobHandler.RegisterRoutes(hl.app)
}
// Register API routes
apiAdminHandler.RegisterRoutes(hl.app)
apiServiceHandler.RegisterRoutes(hl.app)
// Register Page routes
pageAdminHandler.RegisterRoutes(hl.app)
pageServiceHandler.RegisterRoutes(hl.app)
// Register Jobs page routes if handler was initialized successfully
if pageJobHandler != nil {
pageJobHandler.RegisterRoutes(hl.app)
}
// TODO: Move these to appropriate API or pages packages
executorHandler := api.NewExecutorHandler(hl.executorService)
//vfsHandler := routesold.NewVFSHandler(hl.vfsClient, log.Default())
// Create new API handlers
redisAddr := "localhost:" + hl.config.RedisTCPPort
redisHandler := api.NewRedisHandler(redisAddr, false)
jetHandler := api.NewJetHandler()
// Register legacy routes (to be migrated)
executorHandler.RegisterRoutes(hl.app)
//vfsHandler.RegisterRoutes(hl.app)
// Register new API routes
redisHandler.RegisterRoutes(hl.app)
jetHandler.RegisterRoutes(hl.app)
}
// GetUptime returns the uptime of the HeroLauncher server as a formatted string
func (hl *HeroLauncher) GetUptime() string {
// Calculate uptime based on the server's start time
uptimeDuration := time.Since(hl.startTime)
// Use more precise calculation for the uptime
totalSeconds := int(uptimeDuration.Seconds())
days := totalSeconds / (24 * 3600)
hours := (totalSeconds % (24 * 3600)) / 3600
minutes := (totalSeconds % 3600) / 60
seconds := totalSeconds % 60
// Format the uptime string based on the duration
if days > 0 {
return fmt.Sprintf("%d days, %d hours", days, hours)
} else if hours > 0 {
return fmt.Sprintf("%d hours, %d minutes", hours, minutes)
} else if minutes > 0 {
return fmt.Sprintf("%d minutes, %d seconds", minutes, seconds)
} else {
return fmt.Sprintf("%d seconds", seconds)
}
}
// startProcessManager starts the process manager as a background process
func (hl *HeroLauncher) startProcessManager() error {
_, filename, _, _ := runtime.Caller(0)
projectRoot := filepath.Join(filepath.Dir(filename), "../..")
processManagerPath := filepath.Join(projectRoot, "pkg/processmanager/examples/openrpc/main.go")
log.Printf("Starting process manager from: %s", processManagerPath)
// Check if processmanager is already running by testing the socket
if _, err := os.Stat(hl.config.PMSocketPath); err == nil {
// Try to connect to the socket to verify it's working
conn, err := net.Dial("unix", hl.config.PMSocketPath)
if err == nil {
// Socket is valid and we can connect to it
conn.Close()
log.Printf("Found existing process manager socket, using it instead of starting a new one")
return nil
}
// If socket exists but we can't connect, assume it's stale
log.Printf("Found existing socket, but can't connect to it: %v", err)
log.Printf("Removing stale socket and starting a new process manager")
_ = os.Remove(hl.config.PMSocketPath)
}
// Define shared logs path
sharedLogsPath := filepath.Join(os.TempDir(), "heroagent_logs")
// Ensure the logs directory exists
if err := os.MkdirAll(sharedLogsPath, 0755); err != nil {
log.Printf("Warning: Failed to create logs directory: %v", err)
}
// Start the process manager with the shared logs path
cmd := exec.Command("go", "run", processManagerPath,
"-socket", hl.config.PMSocketPath,
"-secret", hl.config.PMSecret,
"-logs", sharedLogsPath)
cmd.Stdout = os.Stdout
cmd.Stderr = os.Stderr
err := cmd.Start()
if err != nil {
return fmt.Errorf("failed to start process manager: %v", err)
}
hl.pmProcess = cmd.Process
log.Printf("Started process manager with PID: %d", cmd.Process.Pid)
// Wait for the process manager to start up
timeout := time.After(5 * time.Second)
ticker := time.NewTicker(100 * time.Millisecond)
defer ticker.Stop()
for {
select {
case <-ticker.C:
// Check if the socket exists
if _, err := os.Stat(hl.config.PMSocketPath); err == nil {
// If socket exists, assume process manager is running
log.Printf("Process manager is up and running")
return nil
}
case <-timeout:
return fmt.Errorf("timeout waiting for process manager to start")
}
}
}
// startHeroJobs starts the HeroJobs server as a background process
func (hl *HeroLauncher) startHeroJobs() error {
_, filename, _, _ := runtime.Caller(0)
projectRoot := filepath.Join(filepath.Dir(filename), "../..")
heroJobsPath := filepath.Join(projectRoot, "cmd/herojobs/main.go")
log.Printf("Starting HeroJobs from: %s", heroJobsPath)
// Check if HeroJobs is already running by testing the socket
if _, err := os.Stat(hl.config.HJSocketPath); err == nil {
// Try to connect to the socket to verify it's working
conn, err := net.Dial("unix", hl.config.HJSocketPath)
if err == nil {
// Socket is valid and we can connect to it
conn.Close()
log.Printf("Found existing HeroJobs socket, using it instead of starting a new one")
return nil
}
// If socket exists but we can't connect, assume it's stale
log.Printf("Found existing HeroJobs socket, but can't connect to it: %v", err)
log.Printf("Removing stale socket and starting a new HeroJobs server")
_ = os.Remove(hl.config.HJSocketPath)
}
// Define shared logs path
sharedLogsPath := filepath.Join(os.TempDir(), "heroagent_logs/jobs")
// Ensure the logs directory exists
if err := os.MkdirAll(sharedLogsPath, 0755); err != nil {
log.Printf("Warning: Failed to create logs directory: %v", err)
}
// Start HeroJobs with the shared logs path
cmd := exec.Command("go", "run", heroJobsPath,
"-socket", hl.config.HJSocketPath,
"-logs", sharedLogsPath)
cmd.Stdout = os.Stdout
cmd.Stderr = os.Stderr
err := cmd.Start()
if err != nil {
return fmt.Errorf("failed to start HeroJobs: %v", err)
}
// Store the process reference for graceful shutdown
hl.hjProcess = cmd.Process
log.Printf("Started HeroJobs with PID: %d", cmd.Process.Pid)
// Wait for HeroJobs to start up
timeout := time.After(5 * time.Second)
ticker := time.NewTicker(100 * time.Millisecond)
defer ticker.Stop()
for {
select {
case <-ticker.C:
// Check if the socket exists
if _, err := os.Stat(hl.config.HJSocketPath); err == nil {
// If socket exists, assume HeroJobs is running
log.Printf("HeroJobs is up and running")
return nil
}
case <-timeout:
return fmt.Errorf("timeout waiting for HeroJobs to start")
}
}
}
// Start starts the HeroLauncher server
func (hl *HeroLauncher) Start() error {
// Start the process manager first
err := hl.startProcessManager()
if err != nil {
log.Printf("Warning: Failed to start process manager: %v", err)
// Continue anyway, we'll just show warnings in the UI
}
// Start HeroJobs
err = hl.startHeroJobs()
if err != nil {
log.Printf("Warning: Failed to start HeroJobs: %v", err)
// Continue anyway, we'll just show warnings in the UI
}
// Setup graceful shutdown
c := make(chan os.Signal, 1)
signal.Notify(c, os.Interrupt, syscall.SIGTERM)
go func() {
<-c
log.Println("Shutting down server...")
// Kill the process manager if we started it
if hl.pmProcess != nil {
log.Println("Stopping process manager...")
_ = hl.pmProcess.Kill()
}
// Kill the HeroJobs server if we started it
if hl.hjProcess != nil {
log.Println("Stopping HeroJobs server...")
_ = hl.hjProcess.Kill()
}
_ = hl.app.Shutdown()
}()
// Start server
log.Printf("Starting server on :%s", hl.config.Port)
return hl.app.Listen(":" + hl.config.Port)
}

487
pkg2_dont_use/heroagent/handlers/job_handlers.go Normal file
View File

@@ -0,0 +1,487 @@
package handlers
import (
"fmt"
"log"
"strconv" // Added strconv for JobID parsing
"git.ourworld.tf/herocode/heroagent/pkg/herojobs"
"github.com/gofiber/fiber/v2"
)
// RedisClientInterface defines the methods JobHandler needs from a HeroJobs Redis client.
type RedisClientInterface interface {
StoreJob(job *herojobs.Job) error
EnqueueJob(job *herojobs.Job) error
GetJob(jobID interface{}) (*herojobs.Job, error) // Changed jobID type to interface{}
ListJobs(circleID, topic string) ([]uint32, error)
QueueSize(circleID, topic string) (int64, error)
QueueEmpty(circleID, topic string) error
// herojobs.Job also has Load() and Save() methods, but those are on the Job object itself,
// not typically part of the client interface unless the client is a facade for all job operations.
}
// JobHandler handles job-related routes
type JobHandler struct {
client RedisClientInterface // Changed to use the interface
logger *log.Logger
}
// NewJobHandler creates a new JobHandler
func NewJobHandler(redisAddr string, logger *log.Logger) (*JobHandler, error) {
redisClient, err := herojobs.NewRedisClient(redisAddr, false)
if err != nil {
return nil, fmt.Errorf("failed to create HeroJobs Redis client: %w", err)
}
// *herojobs.RedisClient must implement RedisClientInterface.
// This assignment is valid if *herojobs.RedisClient has all methods of RedisClientInterface.
return &JobHandler{
client: redisClient,
logger: logger,
}, nil
}
// RegisterRoutes registers job API routes
func (h *JobHandler) RegisterRoutes(app *fiber.App) {
// Register common routes to both API and admin groups
jobRoutes := func(group fiber.Router) {
group.Post("/submit", h.submitJob)
group.Get("/get/:id", h.getJob)
group.Delete("/delete/:id", h.deleteJob)
group.Get("/list", h.listJobs)
group.Get("/queue/size", h.queueSize)
group.Post("/queue/empty", h.queueEmpty)
group.Get("/queue/get", h.queueGet)
group.Post("/create", h.createJob)
}
// Apply common routes to API group
apiJobs := app.Group("/api/jobs")
jobRoutes(apiJobs)
// Apply common routes to admin group
adminJobs := app.Group("/admin/jobs")
jobRoutes(adminJobs)
}
// @Summary Submit a job
// @Description Submit a new job to the HeroJobs server
// @Tags jobs
// @Accept json
// @Produce json
// @Param job body herojobs.Job true "Job to submit"
// @Success 200 {object} herojobs.Job
// @Failure 400 {object} map[string]string
// @Failure 500 {object} map[string]string
// @Router /api/jobs/submit [post]
// @Router /admin/jobs/submit [post]
func (h *JobHandler) submitJob(c *fiber.Ctx) error {
// Parse job from request body
var job herojobs.Job
if err := c.BodyParser(&job); err != nil {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"error": fmt.Sprintf("Failed to parse job data: %v", err),
})
}
// Save job to OurDB (this assigns/confirms JobID)
if err := job.Save(); err != nil {
h.logger.Printf("Failed to save job to OurDB: %v", err)
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"error": fmt.Sprintf("Failed to save job: %v", err),
})
}
// Store job in Redis
if err := h.client.StoreJob(&job); err != nil {
h.logger.Printf("Failed to store job in Redis: %v", err)
// Attempt to roll back or log, but proceed to enqueue if critical
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"error": fmt.Sprintf("Failed to store job in Redis: %v", err),
})
}
// Enqueue job in Redis
if err := h.client.EnqueueJob(&job); err != nil {
h.logger.Printf("Failed to enqueue job in Redis: %v", err)
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"error": fmt.Sprintf("Failed to enqueue job: %v", err),
})
}
return c.JSON(job)
}
// @Summary Get a job
// @Description Get a job by ID
// @Tags jobs
// @Produce json
// @Param id path string true "Job ID"
// @Success 200 {object} herojobs.Job
// @Failure 400 {object} map[string]string
// @Failure 500 {object} map[string]string
// @Router /api/jobs/get/{id} [get]
// @Router /admin/jobs/get/{id} [get]
func (h *JobHandler) getJob(c *fiber.Ctx) error {
// Get job ID from path parameter
jobIDStr := c.Params("id")
if jobIDStr == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"error": "Job ID is required",
})
}
// Convert jobID string to uint32
jobID64, err := strconv.ParseUint(jobIDStr, 10, 32)
if err != nil {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"error": fmt.Sprintf("Invalid Job ID format: %s. %v", jobIDStr, err),
})
}
jobID := uint32(jobID64)
// Get job from Redis first
job, err := h.client.GetJob(jobID)
if err != nil {
// If not found in Redis (e.g. redis.Nil or other error), try OurDB
h.logger.Printf("Job %d not found in Redis or error: %v. Trying OurDB.", jobID, err)
retrievedJob := &herojobs.Job{JobID: jobID}
if loadErr := retrievedJob.Load(); loadErr != nil {
h.logger.Printf("Failed to load job %d from OurDB: %v", jobID, loadErr)
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"error": fmt.Sprintf("Failed to get job %d: %v / %v", jobID, err, loadErr),
})
}
job = retrievedJob // Use the job loaded from OurDB
}
return c.JSON(job)
}
// @Summary Delete a job
// @Description Delete a job by ID
// @Tags jobs
// @Produce json
// @Param id path string true "Job ID"
// @Success 200 {object} map[string]string
// @Failure 400 {object} map[string]string
// @Failure 500 {object} map[string]string
// @Router /api/jobs/delete/{id} [delete]
// @Router /admin/jobs/delete/{id} [delete]
func (h *JobHandler) deleteJob(c *fiber.Ctx) error {
// Get job ID from path parameter
jobIDStr := c.Params("id")
if jobIDStr == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"error": "Job ID is required",
})
}
// Deleting jobs requires removing from OurDB and Redis.
// This functionality is not directly provided by RedisClient.DeleteJob
// and OurDB job deletion is not specified in README.
// For now, returning not implemented.
h.logger.Printf("Attempt to delete job %s - not implemented", jobIDStr)
return c.Status(fiber.StatusNotImplemented).JSON(fiber.Map{
"error": "Job deletion is not implemented",
"message": fmt.Sprintf("Job %s deletion requested but not implemented.", jobIDStr),
})
}
// @Summary List jobs
// @Description List jobs by circle ID and topic
// @Tags jobs
// @Produce json
// @Param circleid query string true "Circle ID"
// @Param topic query string true "Topic"
// @Success 200 {object} map[string][]string
// @Failure 400 {object} map[string]string
// @Failure 500 {object} map[string]string
// @Router /api/jobs/list [get]
// @Router /admin/jobs/list [get]
func (h *JobHandler) listJobs(c *fiber.Ctx) error {
// Get parameters from query
circleID := c.Query("circleid")
if circleID == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"error": "Circle ID is required",
})
}
topic := c.Query("topic")
if topic == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"error": "Topic is required",
})
}
// List jobs
jobs, err := h.client.ListJobs(circleID, topic)
if err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"error": fmt.Sprintf("Failed to list jobs: %v", err),
})
}
return c.JSON(fiber.Map{
"status": "success",
"jobs": jobs,
})
}
// @Summary Get queue size
// @Description Get the size of a job queue by circle ID and topic
// @Tags jobs
// @Produce json
// @Param circleid query string true "Circle ID"
// @Param topic query string true "Topic"
// @Success 200 {object} map[string]int64
// @Failure 400 {object} map[string]string
// @Failure 500 {object} map[string]string
// @Router /api/jobs/queue/size [get]
// @Router /admin/jobs/queue/size [get]
func (h *JobHandler) queueSize(c *fiber.Ctx) error {
// Get parameters from query
circleID := c.Query("circleid")
if circleID == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"error": "Circle ID is required",
})
}
topic := c.Query("topic")
if topic == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"error": "Topic is required",
})
}
// Get queue size
size, err := h.client.QueueSize(circleID, topic)
if err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"error": fmt.Sprintf("Failed to get queue size: %v", err),
})
}
return c.JSON(fiber.Map{
"status": "success",
"size": size,
})
}
// @Summary Empty queue
// @Description Empty a job queue by circle ID and topic
// @Tags jobs
// @Accept json
// @Produce json
// @Param body body object true "Queue parameters"
// @Success 200 {object} map[string]string
// @Failure 400 {object} map[string]string
// @Failure 500 {object} map[string]string
// @Router /api/jobs/queue/empty [post]
// @Router /admin/jobs/queue/empty [post]
func (h *JobHandler) queueEmpty(c *fiber.Ctx) error {
// Parse parameters from request body
var params struct {
CircleID string `json:"circleid"`
Topic string `json:"topic"`
}
if err := c.BodyParser(&params); err != nil {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"error": fmt.Sprintf("Failed to parse parameters: %v", err),
})
}
if params.CircleID == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"error": "Circle ID is required",
})
}
if params.Topic == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"error": "Topic is required",
})
}
// Empty queue
if err := h.client.QueueEmpty(params.CircleID, params.Topic); err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"error": fmt.Sprintf("Failed to empty queue: %v", err),
})
}
return c.JSON(fiber.Map{
"status": "success",
"message": fmt.Sprintf("Queue for circle %s and topic %s emptied successfully", params.CircleID, params.Topic),
})
}
// @Summary Get job from queue
// @Description Get a job from a queue without removing it
// @Tags jobs
// @Produce json
// @Param circleid query string true "Circle ID"
// @Param topic query string true "Topic"
// @Success 200 {object} herojobs.Job
// @Failure 400 {object} map[string]string
// @Failure 500 {object} map[string]string
// @Router /api/jobs/queue/get [get]
// @Router /admin/jobs/queue/get [get]
func (h *JobHandler) queueGet(c *fiber.Ctx) error {
// Get parameters from query
circleID := c.Query("circleid")
if circleID == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"error": "Circle ID is required",
})
}
topic := c.Query("topic")
if topic == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"error": "Topic is required",
})
}
// Get list of job IDs (uint32) from the queue (non-destructive)
jobIDs, err := h.client.ListJobs(circleID, topic)
if err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"error": fmt.Sprintf("Failed to list jobs in queue: %v", err),
})
}
if len(jobIDs) == 0 {
return c.Status(fiber.StatusNotFound).JSON(fiber.Map{
"error": "Queue is empty or no jobs found",
})
}
// Take the first job ID from the list (it's already uint32)
jobIDToFetch := jobIDs[0]
// Get the actual job details using the ID
job, err := h.client.GetJob(jobIDToFetch)
if err != nil {
// If not found in Redis (e.g. redis.Nil or other error), try OurDB
h.logger.Printf("Job %d (from queue list) not found in Redis or error: %v. Trying OurDB.", jobIDToFetch, err)
retrievedJob := &herojobs.Job{JobID: jobIDToFetch} // Ensure CircleID and Topic are set if Load needs them
retrievedJob.CircleID = circleID // Needed for Load if path depends on it
retrievedJob.Topic = topic // Needed for Load if path depends on it
if loadErr := retrievedJob.Load(); loadErr != nil {
h.logger.Printf("Failed to load job %d from OurDB: %v", jobIDToFetch, loadErr)
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"error": fmt.Sprintf("Failed to get job %d from queue (Redis err: %v / OurDB err: %v)", jobIDToFetch, err, loadErr),
})
}
job = retrievedJob // Use the job loaded from OurDB
}
return c.JSON(job)
}
// @Summary Create job
// @Description Create a new job with the given parameters
// @Tags jobs
// @Accept json
// @Produce json
// @Param body body object true "Job parameters"
// @Success 200 {object} herojobs.Job
// @Failure 400 {object} map[string]string
// @Failure 500 {object} map[string]string
// @Router /api/jobs/create [post]
// @Router /admin/jobs/create [post]
func (h *JobHandler) createJob(c *fiber.Ctx) error {
// Parse parameters from request body
var reqBody struct {
CircleID string `json:"circleid"`
Topic string `json:"topic"`
SessionKey string `json:"sessionkey"`
Params string `json:"params"`
ParamsType string `json:"paramstype"`
Timeout int64 `json:"timeout"` // Optional: allow timeout override
Log bool `json:"log"` // Optional: allow log enabling
}
if err := c.BodyParser(&reqBody); err != nil {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"error": fmt.Sprintf("Failed to parse parameters: %v", err),
})
}
if reqBody.CircleID == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"error": "Circle ID is required",
})
}
if reqBody.Topic == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"error": "Topic is required",
})
}
if reqBody.Params == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"error": "Params are required",
})
}
if reqBody.ParamsType == "" {
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"error": "ParamsType is required",
})
}
// Create a new job instance
job := herojobs.NewJob() // Initializes with defaults
job.CircleID = reqBody.CircleID
job.Topic = reqBody.Topic
job.SessionKey = reqBody.SessionKey
job.Params = reqBody.Params
// Convert ParamsType string to herojobs.ParamsType
switch herojobs.ParamsType(reqBody.ParamsType) {
case herojobs.ParamsTypeHeroScript:
job.ParamsType = herojobs.ParamsTypeHeroScript
case herojobs.ParamsTypeRhaiScript:
job.ParamsType = herojobs.ParamsTypeRhaiScript
case herojobs.ParamsTypeOpenRPC:
job.ParamsType = herojobs.ParamsTypeOpenRPC
case herojobs.ParamsTypeAI:
job.ParamsType = herojobs.ParamsTypeAI
default:
return c.Status(fiber.StatusBadRequest).JSON(fiber.Map{
"error": fmt.Sprintf("Invalid ParamsType: %s", reqBody.ParamsType),
})
}
if reqBody.Timeout > 0 {
job.Timeout = reqBody.Timeout
}
job.Log = reqBody.Log
// Save job to OurDB (this assigns JobID)
if err := job.Save(); err != nil {
h.logger.Printf("Failed to save new job to OurDB: %v", err)
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"error": fmt.Sprintf("Failed to save new job: %v", err),
})
}
// Store job in Redis
if err := h.client.StoreJob(job); err != nil {
h.logger.Printf("Failed to store new job in Redis: %v", err)
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"error": fmt.Sprintf("Failed to store new job in Redis: %v", err),
})
}
// Enqueue job in Redis
if err := h.client.EnqueueJob(job); err != nil {
h.logger.Printf("Failed to enqueue new job in Redis: %v", err)
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"error": fmt.Sprintf("Failed to enqueue new job: %v", err),
})
}
return c.JSON(job)
}

572
pkg2_dont_use/heroagent/handlers/job_handlers_test.go Normal file
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@@ -0,0 +1,572 @@
package handlers
import (
"bytes"
"encoding/json"
"errors"
"fmt"
"io"
"net/http"
"net/http/httptest"
"testing"
"git.ourworld.tf/herocode/heroagent/pkg/herojobs"
"github.com/gofiber/fiber/v2"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/mock"
)
// MockRedisClient is a mock implementation of the RedisClientInterface
type MockRedisClient struct {
mock.Mock
}
// StoreJob mocks the StoreJob method
func (m *MockRedisClient) StoreJob(job *herojobs.Job) error {
args := m.Called(job)
return args.Error(0)
}
// EnqueueJob mocks the EnqueueJob method
func (m *MockRedisClient) EnqueueJob(job *herojobs.Job) error {
args := m.Called(job)
return args.Error(0)
}
// GetJob mocks the GetJob method
func (m *MockRedisClient) GetJob(jobID interface{}) (*herojobs.Job, error) { // jobID is interface{}
args := m.Called(jobID)
if args.Get(0) == nil {
return nil, args.Error(1)
}
return args.Get(0).(*herojobs.Job), args.Error(1)
}
// ListJobs mocks the ListJobs method
func (m *MockRedisClient) ListJobs(circleID, topic string) ([]uint32, error) { // Returns []uint32
args := m.Called(circleID, topic)
if args.Get(0) == nil {
return nil, args.Error(1)
}
return args.Get(0).([]uint32), args.Error(1)
}
// QueueSize mocks the QueueSize method
func (m *MockRedisClient) QueueSize(circleID, topic string) (int64, error) {
args := m.Called(circleID, topic)
// Ensure Get(0) is not nil before type assertion if it can be nil in some error cases
if args.Get(0) == nil && args.Error(1) != nil { // If error is set, result might be nil
return 0, args.Error(1)
}
return args.Get(0).(int64), args.Error(1)
}
// QueueEmpty mocks the QueueEmpty method
func (m *MockRedisClient) QueueEmpty(circleID, topic string) error {
args := m.Called(circleID, topic)
return args.Error(0)
}
// setupTest initializes a test environment with a mock client
func setupTest() (*JobHandler, *MockRedisClient, *fiber.App) {
mockClient := new(MockRedisClient)
handler := &JobHandler{
client: mockClient, // Assign the mock that implements RedisClientInterface
}
app := fiber.New()
// Register routes (ensure these match the actual routes in job_handlers.go)
apiJobs := app.Group("/api/jobs") // Assuming routes are under /api/jobs
apiJobs.Post("/submit", handler.submitJob)
apiJobs.Get("/get/:id", handler.getJob) // :id as per job_handlers.go
apiJobs.Delete("/delete/:id", handler.deleteJob) // :id as per job_handlers.go
apiJobs.Get("/list", handler.listJobs)
apiJobs.Get("/queue/size", handler.queueSize)
apiJobs.Post("/queue/empty", handler.queueEmpty)
apiJobs.Get("/queue/get", handler.queueGet)
apiJobs.Post("/create", handler.createJob)
// If admin routes are also tested, they need to be registered here too
// adminJobs := app.Group("/admin/jobs")
// jobRoutes(adminJobs) // if using the same handler instance
return handler, mockClient, app
}
// createTestRequest creates a test request with the given method, path, and body
func createTestRequest(method, path string, body io.Reader) (*http.Request, error) {
req := httptest.NewRequest(method, path, body)
req.Header.Set("Content-Type", "application/json")
return req, nil
}
// TestQueueEmpty tests the queueEmpty handler
func TestQueueEmpty(t *testing.T) {
// Test cases
tests := []struct {
name string
circleID string
topic string
emptyError error
expectedStatus int
expectedBody string
}{
{
name: "Success",
circleID: "test-circle",
topic: "test-topic",
emptyError: nil,
expectedStatus: fiber.StatusOK,
expectedBody: `{"status":"success","message":"Queue for circle test-circle and topic test-topic emptied successfully"}`,
},
// Removed "Connection Error" test case as Connect is no longer directly called per op
{
name: "Empty Error",
circleID: "test-circle",
topic: "test-topic",
emptyError: errors.New("empty error"),
expectedStatus: fiber.StatusInternalServerError,
expectedBody: `{"error":"Failed to empty queue: empty error"}`,
},
{
name: "Empty Circle ID",
circleID: "",
topic: "test-topic",
emptyError: nil,
expectedStatus: fiber.StatusBadRequest,
expectedBody: `{"error":"Circle ID is required"}`,
},
{
name: "Empty Topic",
circleID: "test-circle",
topic: "",
emptyError: nil,
expectedStatus: fiber.StatusBadRequest,
expectedBody: `{"error":"Topic is required"}`,
},
}
for _, tc := range tests {
t.Run(tc.name, func(t *testing.T) {
// Create a new mock client for each test and setup app
_, mockClient, app := setupTest() // Use setupTest to get handler with mock
// Setup mock expectations
if tc.circleID != "" && tc.topic != "" { // Only expect call if params are valid
mockClient.On("QueueEmpty", tc.circleID, tc.topic).Return(tc.emptyError)
}
// Create request body
reqBody := map[string]string{
"circleid": tc.circleID,
"topic": tc.topic,
}
reqBodyBytes, err := json.Marshal(reqBody)
assert.NoError(t, err)
// Create test request
req, err := createTestRequest(http.MethodPost, "/api/jobs/queue/empty", bytes.NewReader(reqBodyBytes))
assert.NoError(t, err)
req.Header.Set("Content-Type", "application/json")
// Perform the request
resp, err := app.Test(req)
assert.NoError(t, err)
// Check status code
assert.Equal(t, tc.expectedStatus, resp.StatusCode)
// Check response body
body, err := io.ReadAll(resp.Body)
assert.NoError(t, err)
assert.JSONEq(t, tc.expectedBody, string(body))
// Verify that all expectations were met
mockClient.AssertExpectations(t)
})
}
}
// TestQueueGet tests the queueGet handler
func TestQueueGet(t *testing.T) {
// Create a test job
testJob := herojobs.NewJob()
testJob.JobID = 10 // This will be a number in JSON
testJob.CircleID = "test-circle"
testJob.Topic = "test-topic"
testJob.Params = "some script"
testJob.ParamsType = herojobs.ParamsTypeHeroScript
testJob.Status = herojobs.JobStatusNew
// Test cases
tests := []struct {
name string
circleID string
topic string
listJobsError error
listJobsResp []uint32
getJobError error
getJobResp *herojobs.Job
expectedStatus int
expectedBody string // This will need to be updated to match the actual job structure
}{
{
name: "Success",
circleID: "test-circle",
topic: "test-topic",
listJobsError: nil,
listJobsResp: []uint32{10},
getJobError: nil,
getJobResp: testJob,
expectedStatus: fiber.StatusOK,
expectedBody: `{"jobid":10,"circleid":"test-circle","topic":"test-topic","params":"some script","paramstype":"HeroScript","status":"new","sessionkey":"","result":"","error":"","timeout":60,"log":false,"timescheduled":0,"timestart":0,"timeend":0}`,
},
// Removed "Connection Error"
{
name: "ListJobs Error",
circleID: "test-circle",
topic: "test-topic",
listJobsError: errors.New("list error"),
listJobsResp: nil,
getJobError: nil, // Not reached
getJobResp: nil, // Not reached
expectedStatus: fiber.StatusInternalServerError,
expectedBody: `{"error":"Failed to list jobs in queue: list error"}`,
},
{
name: "GetJob Error after ListJobs success",
circleID: "test-circle",
topic: "test-topic",
listJobsError: nil,
listJobsResp: []uint32{10},
getJobError: errors.New("get error"),
getJobResp: nil,
expectedStatus: fiber.StatusInternalServerError, // Or based on how GetJob error is handled (e.g. fallback to OurDB)
// The error message might be more complex if OurDB load is also attempted and fails
expectedBody: `{"error":"Failed to get job 10 from queue (Redis err: get error / OurDB err: record not found)"}`, // Adjusted expected error
},
{
name: "Queue Empty (ListJobs returns empty)",
circleID: "test-circle",
topic: "test-topic",
listJobsError: nil,
listJobsResp: []uint32{}, // Empty list
getJobError: nil,
getJobResp: nil,
expectedStatus: fiber.StatusNotFound,
expectedBody: `{"error":"Queue is empty or no jobs found"}`,
},
{
name: "Empty Circle ID",
circleID: "",
topic: "test-topic",
listJobsError: nil,
listJobsResp: nil,
getJobError: nil,
getJobResp: nil,
expectedStatus: fiber.StatusBadRequest,
expectedBody: `{"error":"Circle ID is required"}`,
},
{
name: "Empty Topic",
circleID: "test-circle",
topic: "",
listJobsError: nil,
listJobsResp: nil,
getJobError: nil,
getJobResp: nil,
expectedStatus: fiber.StatusBadRequest,
expectedBody: `{"error":"Topic is required"}`,
},
}
for _, tc := range tests {
t.Run(tc.name, func(t *testing.T) {
// Create a new mock client for each test and setup app
_, mockClient, app := setupTest()
// Setup mock expectations
if tc.circleID != "" && tc.topic != "" {
mockClient.On("ListJobs", tc.circleID, tc.topic).Return(tc.listJobsResp, tc.listJobsError)
if tc.listJobsError == nil && len(tc.listJobsResp) > 0 {
// Expect GetJob to be called with the first ID from listJobsResp
// The handler passes uint32 to client.GetJob, which matches interface{}
mockClient.On("GetJob", tc.listJobsResp[0]).Return(tc.getJobResp, tc.getJobError).Maybe()
// If GetJob from Redis fails, a Load from OurDB is attempted.
// We are not mocking job.Load() here as it's on the job object.
// The error message in the test case reflects this potential dual failure.
}
}
// Create test request
path := fmt.Sprintf("/api/jobs/queue/get?circleid=%s&topic=%s", tc.circleID, tc.topic)
req, err := createTestRequest(http.MethodGet, path, nil)
assert.NoError(t, err)
// Perform the request
resp, err := app.Test(req)
assert.NoError(t, err)
// Check status code
assert.Equal(t, tc.expectedStatus, resp.StatusCode)
// Check response body
body, err := io.ReadAll(resp.Body)
assert.NoError(t, err)
assert.JSONEq(t, tc.expectedBody, string(body))
// Verify that all expectations were met
mockClient.AssertExpectations(t)
})
}
}
// TestCreateJob tests the createJob handler
func TestCreateJob(t *testing.T) {
// Test cases
createdJob := herojobs.NewJob()
createdJob.JobID = 10 // Assuming Save will populate this; for mock, we set it
createdJob.CircleID = "test-circle"
createdJob.Topic = "test-topic"
createdJob.SessionKey = "test-key"
createdJob.Params = "test-params"
createdJob.ParamsType = herojobs.ParamsTypeHeroScript // Match "HeroScript" string
createdJob.Status = herojobs.JobStatusNew // Default status after NewJob and Save
tests := []struct {
name string
reqBody map[string]interface{} // Use map for flexibility
storeError error
enqueueError error
expectedStatus int
expectedBody string // Will be the createdJob marshaled
}{
{
name: "Success",
reqBody: map[string]interface{}{
"circleid": "test-circle",
"topic": "test-topic",
"sessionkey": "test-key",
"params": "test-params",
"paramstype": "HeroScript",
"timeout": 30,
"log": true,
},
storeError: nil,
enqueueError: nil,
expectedStatus: fiber.StatusOK,
// Expected body should match the 'createdJob' structure after Save, Store, Enqueue
// JobID is assigned by Save(), which we are not mocking here.
// The handler returns the job object.
// For the test, we assume Save() works and populates JobID if it were a real DB.
// The mock will return the job passed to it.
expectedBody: `{"jobid":0,"circleid":"test-circle","topic":"test-topic","params":"test-params","paramstype":"HeroScript","status":"new","sessionkey":"test-key","result":"","error":"","timeout":30,"log":true,"timescheduled":0,"timestart":0,"timeend":0}`,
},
// Removed "Connection Error"
{
name: "StoreJob Error",
reqBody: map[string]interface{}{
"circleid": "test-circle", "topic": "test-topic", "params": "p", "paramstype": "HeroScript",
},
storeError: errors.New("store error"),
enqueueError: nil,
expectedStatus: fiber.StatusInternalServerError,
expectedBody: `{"error":"Failed to store new job in Redis: store error"}`,
},
{
name: "EnqueueJob Error",
reqBody: map[string]interface{}{
"circleid": "test-circle", "topic": "test-topic", "params": "p", "paramstype": "HeroScript",
},
storeError: nil,
enqueueError: errors.New("enqueue error"),
expectedStatus: fiber.StatusInternalServerError,
expectedBody: `{"error":"Failed to enqueue new job in Redis: enqueue error"}`,
},
{
name: "Empty Circle ID",
reqBody: map[string]interface{}{
"circleid": "", "topic": "test-topic", "params": "p", "paramstype": "HeroScript",
},
expectedStatus: fiber.StatusBadRequest,
expectedBody: `{"error":"Circle ID is required"}`,
},
{
name: "Empty Topic",
reqBody: map[string]interface{}{
"circleid": "c", "topic": "", "params": "p", "paramstype": "HeroScript",
},
expectedStatus: fiber.StatusBadRequest,
expectedBody: `{"error":"Topic is required"}`,
},
{
name: "Empty Params",
reqBody: map[string]interface{}{
"circleid": "c", "topic": "t", "params": "", "paramstype": "HeroScript",
},
expectedStatus: fiber.StatusBadRequest,
expectedBody: `{"error":"Params are required"}`,
},
{
name: "Empty ParamsType",
reqBody: map[string]interface{}{
"circleid": "c", "topic": "t", "params": "p", "paramstype": "",
},
expectedStatus: fiber.StatusBadRequest,
expectedBody: `{"error":"ParamsType is required"}`,
},
{
name: "Invalid ParamsType",
reqBody: map[string]interface{}{
"circleid": "c", "topic": "t", "params": "p", "paramstype": "InvalidType",
},
expectedStatus: fiber.StatusBadRequest,
expectedBody: `{"error":"Invalid ParamsType: InvalidType"}`,
},
}
for _, tc := range tests {
t.Run(tc.name, func(t *testing.T) {
_, mockClient, app := setupTest()
// Setup mock expectations
// job.Save() is called before client interactions. We assume it succeeds for these tests.
// The mock will be called with a job object. We use mock.AnythingOfType for the job
// because the JobID might be populated by Save() in a real scenario, making exact match hard.
if tc.reqBody["circleid"] != "" && tc.reqBody["topic"] != "" &&
tc.reqBody["params"] != "" && tc.reqBody["paramstype"] != "" &&
herojobs.ParamsType(tc.reqBody["paramstype"].(string)) != "" { // Basic validation check
// We expect StoreJob to be called with a *herojobs.Job.
// The actual JobID is set by job.Save() which is not mocked here.
// So we use mock.AnythingOfType to match the argument.
mockClient.On("StoreJob", mock.AnythingOfType("*herojobs.Job")).Return(tc.storeError).Once().Maybe()
if tc.storeError == nil {
mockClient.On("EnqueueJob", mock.AnythingOfType("*herojobs.Job")).Return(tc.enqueueError).Once().Maybe()
}
}
reqBodyBytes, err := json.Marshal(tc.reqBody)
assert.NoError(t, err)
req, err := createTestRequest(http.MethodPost, "/api/jobs/create", bytes.NewReader(reqBodyBytes)) // Use /api/jobs/create
assert.NoError(t, err)
// Content-Type is set by createTestRequest
// Perform the request
resp, err := app.Test(req)
assert.NoError(t, err)
// Check status code
assert.Equal(t, tc.expectedStatus, resp.StatusCode)
// Check response body
body, err := io.ReadAll(resp.Body)
assert.NoError(t, err)
assert.JSONEq(t, tc.expectedBody, string(body))
// Verify that all expectations were met
mockClient.AssertExpectations(t)
})
}
}
// TestSubmitJob tests the submitJob handler
func TestSubmitJob(t *testing.T) {
// Test cases
submittedJob := herojobs.NewJob()
submittedJob.JobID = 10 // Assume Save populates this
submittedJob.CircleID = "test-circle"
submittedJob.Topic = "test-topic"
submittedJob.Params = "submitted params"
submittedJob.ParamsType = herojobs.ParamsTypeHeroScript
submittedJob.Status = herojobs.JobStatusNew
tests := []struct {
name string
jobToSubmit *herojobs.Job // This is the job in the request body
storeError error
enqueueError error
expectedStatus int
expectedBody string // Will be the jobToSubmit marshaled (after potential Save)
}{
{
name: "Success",
jobToSubmit: submittedJob,
storeError: nil,
enqueueError: nil,
expectedStatus: fiber.StatusOK,
// The handler returns the job object from the request after Save(), Store(), Enqueue()
// For the mock, the JobID from jobToSubmit will be used.
expectedBody: `{"jobid":10,"circleid":"test-circle","topic":"test-topic","params":"submitted params","paramstype":"HeroScript","status":"new","sessionkey":"","result":"","error":"","timeout":60,"log":false,"timescheduled":0,"timestart":0,"timeend":0}`,
},
// Removed "Connection Error"
{
name: "StoreJob Error",
jobToSubmit: submittedJob,
storeError: errors.New("store error"),
enqueueError: nil,
expectedStatus: fiber.StatusInternalServerError,
expectedBody: `{"error":"Failed to store job in Redis: store error"}`,
},
{
name: "EnqueueJob Error",
jobToSubmit: submittedJob,
storeError: nil,
enqueueError: errors.New("enqueue error"),
expectedStatus: fiber.StatusInternalServerError,
expectedBody: `{"error":"Failed to enqueue job: enqueue error"}`,
},
{
name: "Empty Job in request (parsing error)",
jobToSubmit: nil, // Simulates empty or malformed request body
expectedStatus: fiber.StatusBadRequest,
expectedBody: `{"error":"Failed to parse job data: unexpected end of JSON input"}`, // Or similar based on actual parsing
},
}
for _, tc := range tests {
t.Run(tc.name, func(t *testing.T) {
_, mockClient, app := setupTest()
// Setup mock expectations
// job.Save() is called before client interactions.
if tc.jobToSubmit != nil { // If job is parsable from request
// We expect StoreJob to be called with the job from the request.
// The JobID might be modified by Save() in a real scenario.
mockClient.On("StoreJob", tc.jobToSubmit).Return(tc.storeError).Once().Maybe()
if tc.storeError == nil {
mockClient.On("EnqueueJob", tc.jobToSubmit).Return(tc.enqueueError).Once().Maybe()
}
}
var reqBodyBytes []byte
var err error
if tc.jobToSubmit != nil {
reqBodyBytes, err = json.Marshal(tc.jobToSubmit)
assert.NoError(t, err)
}
req, err := createTestRequest(http.MethodPost, "/api/jobs/submit", bytes.NewReader(reqBodyBytes)) // Use /api/jobs/submit
assert.NoError(t, err)
// Content-Type is set by createTestRequest
// Perform the request
resp, err := app.Test(req)
assert.NoError(t, err)
// Check status code
assert.Equal(t, tc.expectedStatus, resp.StatusCode)
// Check response body
body, err := io.ReadAll(resp.Body)
assert.NoError(t, err)
assert.JSONEq(t, tc.expectedBody, string(body))
// Verify that all expectations were met
mockClient.AssertExpectations(t)
})
}
}

554
pkg2_dont_use/heroagent/handlers/log_handlers.go Normal file
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@@ -0,0 +1,554 @@
package handlers
import (
"fmt"
"path/filepath"
"sort"
"strings"
"time"
"git.ourworld.tf/herocode/heroagent/pkg/logger"
"github.com/gofiber/fiber/v2"
)
// LogHandler handles log-related routes
type LogHandler struct {
systemLogger *logger.Logger
serviceLogger *logger.Logger
jobLogger *logger.Logger
processLogger *logger.Logger
logBasePath string
}
// NewLogHandler creates a new LogHandler
func NewLogHandler(logPath string) (*LogHandler, error) {
// Create base directories for different log types
systemLogPath := filepath.Join(logPath, "system")
serviceLogPath := filepath.Join(logPath, "services")
jobLogPath := filepath.Join(logPath, "jobs")
processLogPath := filepath.Join(logPath, "processes")
// Create logger instances for each type
systemLogger, err := logger.New(systemLogPath)
if err != nil {
return nil, fmt.Errorf("failed to create system logger: %w", err)
}
serviceLogger, err := logger.New(serviceLogPath)
if err != nil {
return nil, fmt.Errorf("failed to create service logger: %w", err)
}
jobLogger, err := logger.New(jobLogPath)
if err != nil {
return nil, fmt.Errorf("failed to create job logger: %w", err)
}
processLogger, err := logger.New(processLogPath)
if err != nil {
return nil, fmt.Errorf("failed to create process logger: %w", err)
}
fmt.Printf("Log handler created successfully with paths:\n System: %s\n Services: %s\n Jobs: %s\n Processes: %s\n",
systemLogPath, serviceLogPath, jobLogPath, processLogPath)
return &LogHandler{
systemLogger: systemLogger,
serviceLogger: serviceLogger,
jobLogger: jobLogger,
processLogger: processLogger,
logBasePath: logPath,
}, nil
}
// LogType represents the type of logs to retrieve
type LogType string
const (
LogTypeSystem LogType = "system"
LogTypeService LogType = "service"
LogTypeJob LogType = "job"
LogTypeProcess LogType = "process"
LogTypeAll LogType = "all" // Special type to retrieve logs from all sources
)
// GetLogs renders the logs page with logs content
func (h *LogHandler) GetLogs(c *fiber.Ctx) error {
// Check which logger to use based on the log type parameter
logTypeParam := c.Query("log_type", string(LogTypeSystem))
// Parse query parameters
category := c.Query("category", "")
logItemType := parseLogType(c.Query("type", ""))
maxItems := c.QueryInt("max_items", 100)
page := c.QueryInt("page", 1)
itemsPerPage := 20 // Default items per page
// Parse time range
fromTime := parseTimeParam(c.Query("from", ""))
toTime := parseTimeParam(c.Query("to", ""))
// Create search arguments
searchArgs := logger.SearchArgs{
Category: category,
LogType: logItemType,
MaxItems: maxItems,
}
if !fromTime.IsZero() {
searchArgs.TimestampFrom = &fromTime
}
if !toTime.IsZero() {
searchArgs.TimestampTo = &toTime
}
// Variables for logs and error
var logs []logger.LogItem
var err error
var logTypeTitle string
// Check if we want to merge logs from all sources
if LogType(logTypeParam) == LogTypeAll {
// Get merged logs from all loggers
logs, err = h.getMergedLogs(searchArgs)
logTypeTitle = "All Logs"
} else {
// Select the appropriate logger based on the log type
var selectedLogger *logger.Logger
switch LogType(logTypeParam) {
case LogTypeService:
selectedLogger = h.serviceLogger
logTypeTitle = "Service Logs"
case LogTypeJob:
selectedLogger = h.jobLogger
logTypeTitle = "Job Logs"
case LogTypeProcess:
selectedLogger = h.processLogger
logTypeTitle = "Process Logs"
default:
selectedLogger = h.systemLogger
logTypeTitle = "System Logs"
}
// Check if the selected logger is properly initialized
if selectedLogger == nil {
return c.Render("admin/system/logs", fiber.Map{
"title": logTypeTitle,
"error": "Logger not initialized",
"logTypes": []LogType{LogTypeAll, LogTypeSystem, LogTypeService, LogTypeJob, LogTypeProcess},
"selectedLogType": logTypeParam,
})
}
// Search for logs using the selected logger
logs, err = selectedLogger.Search(searchArgs)
}
// Handle search error
if err != nil {
return c.Render("admin/system/logs", fiber.Map{
"title": logTypeTitle,
"error": err.Error(),
"logTypes": []LogType{LogTypeAll, LogTypeSystem, LogTypeService, LogTypeJob, LogTypeProcess},
"selectedLogType": logTypeParam,
})
}
// Calculate total pages
totalLogs := len(logs)
totalPages := (totalLogs + itemsPerPage - 1) / itemsPerPage
// Apply pagination
startIndex := (page - 1) * itemsPerPage
endIndex := startIndex + itemsPerPage
if endIndex > totalLogs {
endIndex = totalLogs
}
// Slice logs for current page
pagedLogs := logs
if startIndex < totalLogs {
pagedLogs = logs[startIndex:endIndex]
} else {
pagedLogs = []logger.LogItem{}
}
// Convert logs to a format suitable for the UI
formattedLogs := make([]fiber.Map, 0, len(pagedLogs))
for _, log := range pagedLogs {
logTypeStr := "INFO"
logTypeClass := "log-info"
if log.LogType == logger.LogTypeError {
logTypeStr = "ERROR"
logTypeClass = "log-error"
}
formattedLogs = append(formattedLogs, fiber.Map{
"timestamp": log.Timestamp.Format("2006-01-02T15:04:05"),
"category": log.Category,
"message": log.Message,
"type": logTypeStr,
"typeClass": logTypeClass,
})
}
return c.Render("admin/system/logs", fiber.Map{
"title": logTypeTitle,
"logTypes": []LogType{LogTypeAll, LogTypeSystem, LogTypeService, LogTypeJob, LogTypeProcess},
"selectedLogType": logTypeParam,
"logs": formattedLogs,
"total": totalLogs,
"showing": len(formattedLogs),
"page": page,
"totalPages": totalPages,
"categoryParam": category,
"typeParam": c.Query("type", ""),
"fromParam": c.Query("from", ""),
"toParam": c.Query("to", ""),
})
}
// GetLogsAPI returns logs in JSON format for API consumption
func (h *LogHandler) GetLogsAPI(c *fiber.Ctx) error {
// Check which logger to use based on the log type parameter
logTypeParam := c.Query("log_type", string(LogTypeSystem))
// Parse query parameters
category := c.Query("category", "")
logItemType := parseLogType(c.Query("type", ""))
maxItems := c.QueryInt("max_items", 100)
// Parse time range
fromTime := parseTimeParam(c.Query("from", ""))
toTime := parseTimeParam(c.Query("to", ""))
// Create search arguments
searchArgs := logger.SearchArgs{
Category: category,
LogType: logItemType,
MaxItems: maxItems,
}
if !fromTime.IsZero() {
searchArgs.TimestampFrom = &fromTime
}
if !toTime.IsZero() {
searchArgs.TimestampTo = &toTime
}
// Variables for logs and error
var logs []logger.LogItem
var err error
// Check if we want to merge logs from all sources
if LogType(logTypeParam) == LogTypeAll {
// Get merged logs from all loggers
logs, err = h.getMergedLogs(searchArgs)
} else {
// Select the appropriate logger based on the log type
var selectedLogger *logger.Logger
switch LogType(logTypeParam) {
case LogTypeService:
selectedLogger = h.serviceLogger
case LogTypeJob:
selectedLogger = h.jobLogger
case LogTypeProcess:
selectedLogger = h.processLogger
default:
selectedLogger = h.systemLogger
}
// Check if the selected logger is properly initialized
if selectedLogger == nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"error": "Logger not initialized",
})
}
// Search for logs using the selected logger
logs, err = selectedLogger.Search(searchArgs)
}
// Handle search error
if err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"error": err.Error(),
})
}
// Convert logs to a format suitable for the UI
response := make([]fiber.Map, 0, len(logs))
for _, log := range logs {
logTypeStr := "INFO"
if log.LogType == logger.LogTypeError {
logTypeStr = "ERROR"
}
response = append(response, fiber.Map{
"timestamp": log.Timestamp.Format(time.RFC3339),
"category": log.Category,
"message": log.Message,
"type": logTypeStr,
})
}
return c.JSON(fiber.Map{
"logs": response,
"total": len(logs),
})
}
// GetLogsFragment returns logs in HTML format for Unpoly partial updates
func (h *LogHandler) GetLogsFragment(c *fiber.Ctx) error {
// This is a fragment template for Unpoly updates
// Check which logger to use based on the log type parameter
logTypeParam := c.Query("log_type", string(LogTypeSystem))
// Parse query parameters
category := c.Query("category", "")
logItemType := parseLogType(c.Query("type", ""))
maxItems := c.QueryInt("max_items", 100)
page := c.QueryInt("page", 1)
itemsPerPage := 20 // Default items per page
// Parse time range
fromTime := parseTimeParam(c.Query("from", ""))
toTime := parseTimeParam(c.Query("to", ""))
// Create search arguments
searchArgs := logger.SearchArgs{
Category: category,
LogType: logItemType,
MaxItems: maxItems,
}
if !fromTime.IsZero() {
searchArgs.TimestampFrom = &fromTime
}
if !toTime.IsZero() {
searchArgs.TimestampTo = &toTime
}
// Variables for logs and error
var logs []logger.LogItem
var err error
var logTypeTitle string
// Check if we want to merge logs from all sources
if LogType(logTypeParam) == LogTypeAll {
// Get merged logs from all loggers
logs, err = h.getMergedLogs(searchArgs)
logTypeTitle = "All Logs"
} else {
// Select the appropriate logger based on the log type
var selectedLogger *logger.Logger
switch LogType(logTypeParam) {
case LogTypeService:
selectedLogger = h.serviceLogger
logTypeTitle = "Service Logs"
case LogTypeJob:
selectedLogger = h.jobLogger
logTypeTitle = "Job Logs"
case LogTypeProcess:
selectedLogger = h.processLogger
logTypeTitle = "Process Logs"
default:
selectedLogger = h.systemLogger
logTypeTitle = "System Logs"
}
// Check if the selected logger is properly initialized
if selectedLogger == nil {
return c.Render("admin/system/logs_fragment", fiber.Map{
"title": logTypeTitle,
"error": "Logger not initialized",
"logTypes": []LogType{LogTypeAll, LogTypeSystem, LogTypeService, LogTypeJob, LogTypeProcess},
"selectedLogType": logTypeParam,
})
}
// Search for logs using the selected logger
logs, err = selectedLogger.Search(searchArgs)
}
// Handle search error
if err != nil {
return c.Render("admin/system/logs_fragment", fiber.Map{
"title": logTypeTitle,
"error": err.Error(),
"logTypes": []LogType{LogTypeAll, LogTypeSystem, LogTypeService, LogTypeJob, LogTypeProcess},
"selectedLogType": logTypeParam,
})
}
// Calculate total pages
totalLogs := len(logs)
totalPages := (totalLogs + itemsPerPage - 1) / itemsPerPage
// Apply pagination
startIndex := (page - 1) * itemsPerPage
endIndex := startIndex + itemsPerPage
if endIndex > totalLogs {
endIndex = totalLogs
}
// Slice logs for current page
pagedLogs := logs
if startIndex < totalLogs {
pagedLogs = logs[startIndex:endIndex]
} else {
pagedLogs = []logger.LogItem{}
}
// Convert logs to a format suitable for the UI
formattedLogs := make([]fiber.Map, 0, len(pagedLogs))
for _, log := range pagedLogs {
logTypeStr := "INFO"
logTypeClass := "log-info"
if log.LogType == logger.LogTypeError {
logTypeStr = "ERROR"
logTypeClass = "log-error"
}
formattedLogs = append(formattedLogs, fiber.Map{
"timestamp": log.Timestamp.Format("2006-01-02T15:04:05"),
"category": log.Category,
"message": log.Message,
"type": logTypeStr,
"typeClass": logTypeClass,
})
}
// Set layout to empty to disable the layout for fragment responses
return c.Render("admin/system/logs_fragment", fiber.Map{
"title": logTypeTitle,
"logTypes": []LogType{LogTypeAll, LogTypeSystem, LogTypeService, LogTypeJob, LogTypeProcess},
"selectedLogType": logTypeParam,
"logs": formattedLogs,
"total": totalLogs,
"showing": len(formattedLogs),
"page": page,
"totalPages": totalPages,
"layout": "", // Disable layout for partial template
})
}
// Helper functions
// parseLogType converts a string log type to the appropriate LogType enum
func parseLogType(logTypeStr string) logger.LogType {
switch logTypeStr {
case "error":
return logger.LogTypeError
default:
return logger.LogTypeStdout
}
}
// parseTimeParam parses a time string in ISO format
func parseTimeParam(timeStr string) time.Time {
if timeStr == "" {
return time.Time{}
}
t, err := time.Parse(time.RFC3339, timeStr)
if err != nil {
return time.Time{}
}
return t
}
// getMergedLogs retrieves and merges logs from all available loggers
func (h *LogHandler) getMergedLogs(args logger.SearchArgs) ([]logger.LogItem, error) {
// Create a slice to hold all logs
allLogs := make([]logger.LogItem, 0)
// Create a map to track errors
errors := make(map[string]error)
// Get logs from system logger if available
if h.systemLogger != nil {
systemLogs, err := h.systemLogger.Search(args)
if err != nil {
errors["system"] = err
} else {
// Add source information to each log item
for i := range systemLogs {
systemLogs[i].Category = fmt.Sprintf("system:%s", systemLogs[i].Category)
}
allLogs = append(allLogs, systemLogs...)
}
}
// Get logs from service logger if available
if h.serviceLogger != nil {
serviceLogs, err := h.serviceLogger.Search(args)
if err != nil {
errors["service"] = err
} else {
// Add source information to each log item
for i := range serviceLogs {
serviceLogs[i].Category = fmt.Sprintf("service:%s", serviceLogs[i].Category)
}
allLogs = append(allLogs, serviceLogs...)
}
}
// Get logs from job logger if available
if h.jobLogger != nil {
jobLogs, err := h.jobLogger.Search(args)
if err != nil {
errors["job"] = err
} else {
// Add source information to each log item
for i := range jobLogs {
jobLogs[i].Category = fmt.Sprintf("job:%s", jobLogs[i].Category)
}
allLogs = append(allLogs, jobLogs...)
}
}
// Get logs from process logger if available
if h.processLogger != nil {
processLogs, err := h.processLogger.Search(args)
if err != nil {
errors["process"] = err
} else {
// Add source information to each log item
for i := range processLogs {
processLogs[i].Category = fmt.Sprintf("process:%s", processLogs[i].Category)
}
allLogs = append(allLogs, processLogs...)
}
}
// Check if we have any logs
if len(allLogs) == 0 && len(errors) > 0 {
// Combine error messages
errorMsgs := make([]string, 0, len(errors))
for source, err := range errors {
errorMsgs = append(errorMsgs, fmt.Sprintf("%s: %s", source, err.Error()))
}
return nil, fmt.Errorf("failed to retrieve logs: %s", strings.Join(errorMsgs, "; "))
}
// Sort logs by timestamp (newest first)
sort.Slice(allLogs, func(i, j int) bool {
return allLogs[i].Timestamp.After(allLogs[j].Timestamp)
})
// Apply max items limit if specified
if args.MaxItems > 0 && len(allLogs) > args.MaxItems {
allLogs = allLogs[:args.MaxItems]
}
return allLogs, nil
}

203
pkg2_dont_use/heroagent/handlers/process_handlers.go Normal file
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@@ -0,0 +1,203 @@
package handlers
import (
"fmt"
"time"
"git.ourworld.tf/herocode/heroagent/pkg/system/stats"
"github.com/gofiber/fiber/v2"
)
// ProcessHandler handles process-related routes
type ProcessHandler struct {
statsManager *stats.StatsManager
}
// NewProcessHandler creates a new ProcessHandler
func NewProcessHandler(statsManager *stats.StatsManager) *ProcessHandler {
return &ProcessHandler{
statsManager: statsManager,
}
}
// GetProcessStatsJSON returns process stats in JSON format for API consumption
func (h *ProcessHandler) GetProcessStatsJSON(c *fiber.Ctx) error {
// Check if StatsManager is properly initialized
if h.statsManager == nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"error": "System error: Stats manager not initialized",
})
}
// Get process data from the StatsManager
processData, err := h.statsManager.GetProcessStatsFresh(100) // Limit to 100 processes
if err != nil {
// Try getting cached data as fallback
processData, err = h.statsManager.GetProcessStats(100)
if err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"error": "Failed to get process data: " + err.Error(),
})
}
}
// Convert to fiber.Map for JSON response
response := fiber.Map{
"total": processData.Total,
"filtered": processData.Filtered,
"timestamp": time.Now().Unix(),
}
// Convert processes to a slice of maps
processes := make([]fiber.Map, len(processData.Processes))
for i, proc := range processData.Processes {
processes[i] = fiber.Map{
"pid": proc.PID,
"name": proc.Name,
"status": proc.Status,
"cpu_percent": proc.CPUPercent,
"memory_mb": proc.MemoryMB,
"create_time_str": proc.CreateTime,
"is_current": proc.IsCurrent,
}
}
response["processes"] = processes
// Return JSON response
return c.JSON(response)
}
// GetProcesses renders the processes page with initial process data
func (h *ProcessHandler) GetProcesses(c *fiber.Ctx) error {
// Check if StatsManager is properly initialized
if h.statsManager == nil {
return c.Render("admin/system/processes", fiber.Map{
"processes": []fiber.Map{},
"error": "System error: Stats manager not initialized",
"warning": "The process manager is not properly initialized.",
})
}
// Force cache refresh for process stats
h.statsManager.ForceUpdate("process")
// Get process data from the StatsManager
processData, err := h.statsManager.GetProcessStatsFresh(0) // Get all processes with fresh data
if err != nil {
// Try getting cached data as fallback
processData, err = h.statsManager.GetProcessStats(0)
if err != nil {
// If there's an error, still render the page but with empty data
return c.Render("admin/system/processes", fiber.Map{
"processes": []fiber.Map{},
"error": "Failed to load process data: " + err.Error(),
"warning": "System attempted both fresh and cached data retrieval but failed.",
})
}
}
// Convert to []fiber.Map for template rendering
processStats := make([]fiber.Map, len(processData.Processes))
for i, proc := range processData.Processes {
processStats[i] = fiber.Map{
"pid": proc.PID,
"name": proc.Name,
"status": proc.Status,
"cpu_percent": proc.CPUPercent,
"memory_mb": proc.MemoryMB,
"create_time_str": proc.CreateTime,
"is_current": proc.IsCurrent,
"cpu_percent_str": fmt.Sprintf("%.1f%%", proc.CPUPercent),
"memory_mb_str": fmt.Sprintf("%.1f MB", proc.MemoryMB),
}
}
// Render the full page with initial process data
return c.Render("admin/system/processes", fiber.Map{
"processes": processStats,
})
}
// GetProcessesData returns the HTML fragment for processes data
func (h *ProcessHandler) GetProcessesData(c *fiber.Ctx) error {
// Check if this is a manual refresh request (with X-Requested-With header set)
isManualRefresh := c.Get("X-Requested-With") == "XMLHttpRequest"
// Check if StatsManager is properly initialized
if h.statsManager == nil {
return c.Render("admin/system/processes_data", fiber.Map{
"error": "System error: Stats manager not initialized",
"layout": "",
})
}
// For manual refresh, always get fresh data by forcing cache invalidation
var processData *stats.ProcessStats
var err error
// Force cache refresh for process stats on manual refresh
if isManualRefresh {
h.statsManager.ForceUpdate("process")
}
if isManualRefresh {
// Force bypass cache for manual refresh by using fresh data
processData, err = h.statsManager.GetProcessStatsFresh(0)
} else {
// Use cached data for auto-polling
processData, err = h.statsManager.GetProcessStats(0)
}
if err != nil {
// Try alternative method if the primary method fails
if isManualRefresh {
processData, err = h.statsManager.GetProcessStats(0)
} else {
processData, err = h.statsManager.GetProcessStatsFresh(0)
}
if err != nil {
// Handle AJAX requests differently from regular requests
isAjax := c.Get("X-Requested-With") == "XMLHttpRequest"
if isAjax {
return c.Status(fiber.StatusInternalServerError).SendString("Failed to get process data: " + err.Error())
}
// For regular requests, render the error within the fragment
return c.Render("admin/system/processes_data", fiber.Map{
"error": "Failed to get process data: " + err.Error(),
"layout": "",
})
}
}
// Convert to []fiber.Map for template rendering
processStats := make([]fiber.Map, len(processData.Processes))
for i, proc := range processData.Processes {
processStats[i] = fiber.Map{
"pid": proc.PID,
"name": proc.Name,
"status": proc.Status,
"cpu_percent": proc.CPUPercent,
"memory_mb": proc.MemoryMB,
"create_time_str": proc.CreateTime,
"is_current": proc.IsCurrent,
"cpu_percent_str": fmt.Sprintf("%.1f%%", proc.CPUPercent),
"memory_mb_str": fmt.Sprintf("%.1f MB", proc.MemoryMB),
}
}
// Create a boolean to indicate if we have processes
hasProcesses := len(processStats) > 0
// Create template data with fiber.Map
templateData := fiber.Map{
"hasProcesses": hasProcesses,
"processCount": len(processStats),
"processStats": processStats,
"layout": "", // Disable layout for partial template
}
// Return only the table HTML content directly to be injected into the processes-table-content div
return c.Render("admin/system/processes_data", templateData)
}

266
pkg2_dont_use/heroagent/handlers/service_handlers.go Normal file
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@@ -0,0 +1,266 @@
package handlers
import (
"fmt"
"time"
"git.ourworld.tf/herocode/heroagent/pkg/processmanager/interfaces"
"git.ourworld.tf/herocode/heroagent/pkg/processmanager/interfaces/openrpc"
"github.com/gofiber/fiber/v2"
)
// ServiceHandler handles service-related routes
type ServiceHandler struct {
client *openrpc.Client
}
// NewServiceHandler creates a new ServiceHandler
func NewServiceHandler(socketPath, secret string) *ServiceHandler {
fmt.Printf("DEBUG: Creating new ServiceHandler with socket path: %s and secret: %s\n", socketPath, secret)
return &ServiceHandler{
client: openrpc.NewClient(socketPath, secret),
}
}
// GetServices renders the services page
func (h *ServiceHandler) GetServices(c *fiber.Ctx) error {
return c.Render("admin/services", fiber.Map{
"title": "Services",
"error": c.Query("error", ""),
"warning": c.Query("warning", ""),
})
}
// GetServicesFragment returns the services table fragment for Unpoly updates
func (h *ServiceHandler) GetServicesFragment(c *fiber.Ctx) error {
processes, err := h.getProcessList()
if err != nil {
return c.Render("admin/services_fragment", fiber.Map{
"error": fmt.Sprintf("Failed to fetch services: %v", err),
})
}
return c.Render("admin/services_fragment", fiber.Map{
"processes": processes,
})
}
// StartService handles the request to start a new service
func (h *ServiceHandler) StartService(c *fiber.Ctx) error {
name := c.FormValue("name")
command := c.FormValue("command")
if name == "" || command == "" {
return c.JSON(fiber.Map{
"error": "Service name and command are required",
})
}
// Default to enabling logs
logEnabled := true
// Start the process with no deadline, no cron, and no job ID
fmt.Printf("DEBUG: StartService called for '%s' using client: %p\n", name, h.client)
result, err := h.client.StartProcess(name, command, logEnabled, 0, "", "")
if err != nil {
return c.JSON(fiber.Map{
"error": fmt.Sprintf("Failed to start service: %v", err),
})
}
if !result.Success {
return c.JSON(fiber.Map{
"error": result.Message,
})
}
return c.JSON(fiber.Map{
"success": true,
"message": result.Message,
"pid": result.PID,
})
}
// StopService handles the request to stop a service
func (h *ServiceHandler) StopService(c *fiber.Ctx) error {
name := c.FormValue("name")
if name == "" {
return c.JSON(fiber.Map{
"error": "Service name is required",
})
}
result, err := h.client.StopProcess(name)
if err != nil {
return c.JSON(fiber.Map{
"error": fmt.Sprintf("Failed to stop service: %v", err),
})
}
if !result.Success {
return c.JSON(fiber.Map{
"error": result.Message,
})
}
return c.JSON(fiber.Map{
"success": true,
"message": result.Message,
})
}
// RestartService handles the request to restart a service
func (h *ServiceHandler) RestartService(c *fiber.Ctx) error {
name := c.FormValue("name")
if name == "" {
return c.JSON(fiber.Map{
"error": "Service name is required",
})
}
result, err := h.client.RestartProcess(name)
if err != nil {
return c.JSON(fiber.Map{
"error": fmt.Sprintf("Failed to restart service: %v", err),
})
}
if !result.Success {
return c.JSON(fiber.Map{
"error": result.Message,
})
}
return c.JSON(fiber.Map{
"success": true,
"message": result.Message,
"pid": result.PID,
})
}
// DeleteService handles the request to delete a service
func (h *ServiceHandler) DeleteService(c *fiber.Ctx) error {
name := c.FormValue("name")
if name == "" {
return c.JSON(fiber.Map{
"error": "Service name is required",
})
}
result, err := h.client.DeleteProcess(name)
if err != nil {
return c.JSON(fiber.Map{
"error": fmt.Sprintf("Failed to delete service: %v", err),
})
}
if !result.Success {
return c.JSON(fiber.Map{
"error": result.Message,
})
}
return c.JSON(fiber.Map{
"success": true,
"message": result.Message,
})
}
// GetServiceLogs handles the request to get logs for a service
func (h *ServiceHandler) GetServiceLogs(c *fiber.Ctx) error {
name := c.Query("name")
lines := c.QueryInt("lines", 100)
fmt.Printf("DEBUG: GetServiceLogs called for service '%s' using client: %p\n", name, h.client)
if name == "" {
return c.JSON(fiber.Map{
"error": "Service name is required",
})
}
// Debug: List all processes before getting logs
processes, listErr := h.getProcessList()
if listErr == nil {
fmt.Println("DEBUG: Current processes in service handler:")
for _, proc := range processes {
fmt.Printf("DEBUG: - '%v' (PID: %v, Status: %v)\n", proc["Name"], proc["ID"], proc["Status"])
}
} else {
fmt.Printf("DEBUG: Error listing processes: %v\n", listErr)
}
result, err := h.client.GetProcessLogs(name, lines)
if err != nil {
return c.JSON(fiber.Map{
"error": fmt.Sprintf("Failed to get service logs: %v", err),
})
}
if !result.Success {
return c.JSON(fiber.Map{
"error": result.Message,
})
}
return c.JSON(fiber.Map{
"success": true,
"logs": result.Logs,
})
}
// Helper function to get the list of processes and format them for the UI
func (h *ServiceHandler) getProcessList() ([]fiber.Map, error) {
// Get the list of processes
result, err := h.client.ListProcesses("json")
if err != nil {
return nil, fmt.Errorf("failed to list processes: %v", err)
}
// Convert the result to a slice of ProcessStatus
processList, ok := result.([]interfaces.ProcessStatus)
if !ok {
return nil, fmt.Errorf("unexpected result type from ListProcesses")
}
// Format the processes for the UI
formattedProcesses := make([]fiber.Map, 0, len(processList))
for _, proc := range processList {
// Calculate uptime
uptime := "N/A"
if proc.Status == "running" {
duration := time.Since(proc.StartTime)
if duration.Hours() >= 24 {
days := int(duration.Hours() / 24)
hours := int(duration.Hours()) % 24
uptime = fmt.Sprintf("%dd %dh", days, hours)
} else if duration.Hours() >= 1 {
hours := int(duration.Hours())
minutes := int(duration.Minutes()) % 60
uptime = fmt.Sprintf("%dh %dm", hours, minutes)
} else {
minutes := int(duration.Minutes())
seconds := int(duration.Seconds()) % 60
uptime = fmt.Sprintf("%dm %ds", minutes, seconds)
}
}
// Format CPU and memory usage
cpuUsage := fmt.Sprintf("%.1f%%", proc.CPUPercent)
memoryUsage := fmt.Sprintf("%.1f MB", proc.MemoryMB)
formattedProcesses = append(formattedProcesses, fiber.Map{
"Name": proc.Name,
"Status": string(proc.Status),
"ID": proc.PID,
"CPU": cpuUsage,
"Memory": memoryUsage,
"Uptime": uptime,
})
}
return formattedProcesses, nil
}

375
pkg2_dont_use/heroagent/handlers/system_handlers.go Normal file
View File

@@ -0,0 +1,375 @@
package handlers
import (
"fmt"
"strings"
"time"
"git.ourworld.tf/herocode/heroagent/pkg/system/stats"
"github.com/gofiber/fiber/v2"
"github.com/shirou/gopsutil/v3/host"
)
// UptimeProvider defines an interface for getting system uptime
type UptimeProvider interface {
GetUptime() string
}
// SystemHandler handles system-related page routes
type SystemHandler struct {
uptimeProvider UptimeProvider
statsManager *stats.StatsManager
}
// NewSystemHandler creates a new SystemHandler
func NewSystemHandler(uptimeProvider UptimeProvider, statsManager *stats.StatsManager) *SystemHandler {
// If statsManager is nil, create a new one with default settings
if statsManager == nil {
var err error
statsManager, err = stats.NewStatsManagerWithDefaults()
if err != nil {
// Log the error but continue with nil statsManager
fmt.Printf("Error creating StatsManager: %v\n", err)
}
}
return &SystemHandler{
uptimeProvider: uptimeProvider,
statsManager: statsManager,
}
}
// GetSystemInfo renders the system info page
func (h *SystemHandler) GetSystemInfo(c *fiber.Ctx) error {
// Initialize default values
cpuInfo := "Unknown"
memoryInfo := "Unknown"
diskInfo := "Unknown"
networkInfo := "Unknown"
osInfo := "Unknown"
uptimeInfo := "Unknown"
// Get hardware stats from the StatsManager
var hardwareStats map[string]interface{}
if h.statsManager != nil {
hardwareStats = h.statsManager.GetHardwareStats()
} else {
// Fallback to direct function call if StatsManager is not available
hardwareStats = stats.GetHardwareStats()
}
// Extract the formatted strings - safely handle different return types
if cpuVal, ok := hardwareStats["cpu"]; ok {
switch v := cpuVal.(type) {
case string:
cpuInfo = v
case map[string]interface{}:
// Format the map into a string
if model, ok := v["model"].(string); ok {
usage := 0.0
if usagePercent, ok := v["usage_percent"].(float64); ok {
usage = usagePercent
}
cpuInfo = fmt.Sprintf("%s (Usage: %.1f%%)", model, usage)
}
}
}
if memVal, ok := hardwareStats["memory"]; ok {
switch v := memVal.(type) {
case string:
memoryInfo = v
case map[string]interface{}:
// Format the map into a string
total, used := 0.0, 0.0
if totalGB, ok := v["total_gb"].(float64); ok {
total = totalGB
}
if usedGB, ok := v["used_gb"].(float64); ok {
used = usedGB
}
usedPercent := 0.0
if percent, ok := v["used_percent"].(float64); ok {
usedPercent = percent
}
memoryInfo = fmt.Sprintf("%.1f GB / %.1f GB (%.1f%% used)", used, total, usedPercent)
}
}
if diskVal, ok := hardwareStats["disk"]; ok {
switch v := diskVal.(type) {
case string:
diskInfo = v
case map[string]interface{}:
// Format the map into a string
total, used := 0.0, 0.0
if totalGB, ok := v["total_gb"].(float64); ok {
total = totalGB
}
if usedGB, ok := v["used_gb"].(float64); ok {
used = usedGB
}
usedPercent := 0.0
if percent, ok := v["used_percent"].(float64); ok {
usedPercent = percent
}
diskInfo = fmt.Sprintf("%.1f GB / %.1f GB (%.1f%% used)", used, total, usedPercent)
}
}
if netVal, ok := hardwareStats["network"]; ok {
switch v := netVal.(type) {
case string:
networkInfo = v
case map[string]interface{}:
// Format the map into a string
var interfaces []string
if ifaces, ok := v["interfaces"].([]interface{}); ok {
for _, iface := range ifaces {
if ifaceMap, ok := iface.(map[string]interface{}); ok {
name := ifaceMap["name"].(string)
ip := ifaceMap["ip"].(string)
interfaces = append(interfaces, fmt.Sprintf("%s: %s", name, ip))
}
}
networkInfo = strings.Join(interfaces, ", ")
}
}
}
// Get OS info
hostInfo, err := host.Info()
if err == nil {
osInfo = fmt.Sprintf("%s %s (%s)", hostInfo.Platform, hostInfo.PlatformVersion, hostInfo.KernelVersion)
}
// Get uptime
if h.uptimeProvider != nil {
uptimeInfo = h.uptimeProvider.GetUptime()
}
// Render the template with the system info
return c.Render("admin/system/info", fiber.Map{
"title": "System Information",
"cpuInfo": cpuInfo,
"memoryInfo": memoryInfo,
"diskInfo": diskInfo,
"networkInfo": networkInfo,
"osInfo": osInfo,
"uptimeInfo": uptimeInfo,
})
}
// GetHardwareStats returns only the hardware stats for Unpoly polling
func (h *SystemHandler) GetHardwareStats(c *fiber.Ctx) error {
// Initialize default values
cpuInfo := "Unknown"
memoryInfo := "Unknown"
diskInfo := "Unknown"
networkInfo := "Unknown"
// Get hardware stats from the StatsManager
var hardwareStats map[string]interface{}
if h.statsManager != nil {
hardwareStats = h.statsManager.GetHardwareStats()
} else {
// Fallback to direct function call if StatsManager is not available
hardwareStats = stats.GetHardwareStats()
}
// Extract the formatted strings - safely handle different return types
if cpuVal, ok := hardwareStats["cpu"]; ok {
switch v := cpuVal.(type) {
case string:
cpuInfo = v
case map[string]interface{}:
// Format the map into a string
if model, ok := v["model"].(string); ok {
cpuInfo = model
}
}
}
if memVal, ok := hardwareStats["memory"]; ok {
switch v := memVal.(type) {
case string:
memoryInfo = v
case map[string]interface{}:
// Format the map into a string
total, used := 0.0, 0.0
if totalGB, ok := v["total_gb"].(float64); ok {
total = totalGB
}
if usedGB, ok := v["used_gb"].(float64); ok {
used = usedGB
}
memoryInfo = fmt.Sprintf("%.1f GB / %.1f GB", used, total)
}
}
if diskVal, ok := hardwareStats["disk"]; ok {
switch v := diskVal.(type) {
case string:
diskInfo = v
case map[string]interface{}:
// Format the map into a string
total, used := 0.0, 0.0
if totalGB, ok := v["total_gb"].(float64); ok {
total = totalGB
}
if usedGB, ok := v["used_gb"].(float64); ok {
used = usedGB
}
diskInfo = fmt.Sprintf("%.1f GB / %.1f GB", used, total)
}
}
if netVal, ok := hardwareStats["network"]; ok {
switch v := netVal.(type) {
case string:
networkInfo = v
case map[string]interface{}:
// Format the map into a string
var interfaces []string
if ifaces, ok := v["interfaces"].([]interface{}); ok {
for _, iface := range ifaces {
if ifaceMap, ok := iface.(map[string]interface{}); ok {
name := ifaceMap["name"].(string)
ip := ifaceMap["ip"].(string)
interfaces = append(interfaces, fmt.Sprintf("%s: %s", name, ip))
}
}
networkInfo = strings.Join(interfaces, ", ")
}
}
}
// Format for display
cpuUsage := "0.0%"
memUsage := "0.0%"
diskUsage := "0.0%"
// Safely extract usage percentages
if cpuVal, ok := hardwareStats["cpu"].(map[string]interface{}); ok {
if usagePercent, ok := cpuVal["usage_percent"].(float64); ok {
cpuUsage = fmt.Sprintf("%.1f%%", usagePercent)
}
}
if memVal, ok := hardwareStats["memory"].(map[string]interface{}); ok {
if usedPercent, ok := memVal["used_percent"].(float64); ok {
memUsage = fmt.Sprintf("%.1f%%", usedPercent)
}
}
if diskVal, ok := hardwareStats["disk"].(map[string]interface{}); ok {
if usedPercent, ok := diskVal["used_percent"].(float64); ok {
diskUsage = fmt.Sprintf("%.1f%%", usedPercent)
}
}
// Render only the hardware stats fragment
return c.Render("admin/system/hardware_stats_fragment", fiber.Map{
"cpuInfo": cpuInfo,
"memoryInfo": memoryInfo,
"diskInfo": diskInfo,
"networkInfo": networkInfo,
"cpuUsage": cpuUsage,
"memUsage": memUsage,
"diskUsage": diskUsage,
})
}
// GetHardwareStatsAPI returns hardware stats in JSON format
func (h *SystemHandler) GetHardwareStatsAPI(c *fiber.Ctx) error {
// Get hardware stats from the StatsManager
var hardwareStats map[string]interface{}
if h.statsManager != nil {
hardwareStats = h.statsManager.GetHardwareStats()
} else {
// Fallback to direct function call if StatsManager is not available
hardwareStats = stats.GetHardwareStats()
}
return c.JSON(hardwareStats)
}
// GetProcessStatsAPI returns process stats in JSON format for API consumption
func (h *SystemHandler) GetProcessStatsAPI(c *fiber.Ctx) error {
// Check if StatsManager is properly initialized
if h.statsManager == nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"error": "System error: Stats manager not initialized",
})
}
// Get process data from the StatsManager
processData, err := h.statsManager.GetProcessStatsFresh(100) // Limit to 100 processes
if err != nil {
// Try getting cached data as fallback
processData, err = h.statsManager.GetProcessStats(100)
if err != nil {
return c.Status(fiber.StatusInternalServerError).JSON(fiber.Map{
"error": "Failed to get process data: " + err.Error(),
})
}
}
// Convert to fiber.Map for JSON response
response := fiber.Map{
"total": processData.Total,
"filtered": processData.Filtered,
"timestamp": time.Now().Unix(),
}
// Convert processes to a slice of maps
processes := make([]fiber.Map, len(processData.Processes))
for i, proc := range processData.Processes {
processes[i] = fiber.Map{
"pid": proc.PID,
"name": proc.Name,
"status": proc.Status,
"cpu_percent": proc.CPUPercent,
"memory_mb": proc.MemoryMB,
"create_time_str": proc.CreateTime,
"is_current": proc.IsCurrent,
}
}
response["processes"] = processes
// Return JSON response
return c.JSON(response)
}
// GetSystemLogs renders the system logs page
func (h *SystemHandler) GetSystemLogs(c *fiber.Ctx) error {
return c.Render("admin/system/logs", fiber.Map{
"title": "System Logs",
})
}
// GetSystemLogsTest renders the test logs page
func (h *SystemHandler) GetSystemLogsTest(c *fiber.Ctx) error {
return c.Render("admin/system/logs_test", fiber.Map{
"title": "Test Logs",
})
}
// GetSystemSettings renders the system settings page
func (h *SystemHandler) GetSystemSettings(c *fiber.Ctx) error {
// Get the current time
currentTime := time.Now().Format("2006-01-02 15:04:05")
// Render the template with the system settings
return c.Render("admin/system/settings", fiber.Map{
"title": "System Settings",
"currentTime": currentTime,
"settings": map[string]interface{}{
"autoUpdate": true,
"logLevel": "info",
"maxLogSize": "100MB",
"backupFrequency": "Daily",
},
})
}

541
pkg2_dont_use/heroagent/pages/admin.go Normal file
View File

@@ -0,0 +1,541 @@
package pages
import (
"fmt"
"os"
"path/filepath"
"strings"
"time"
"git.ourworld.tf/herocode/heroagent/pkg/heroagent/handlers"
"git.ourworld.tf/herocode/heroagent/pkg/system/stats"
"github.com/gofiber/fiber/v2"
"github.com/shirou/gopsutil/v3/host"
)
// UptimeProvider defines an interface for getting system uptime
type UptimeProvider interface {
GetUptime() string
}
// AdminHandler handles admin-related page routes
type AdminHandler struct {
uptimeProvider UptimeProvider
statsManager *stats.StatsManager
pmSocketPath string
pmSecret string
}
// NewAdminHandler creates a new AdminHandler
func NewAdminHandler(uptimeProvider UptimeProvider, statsManager *stats.StatsManager, pmSocketPath, pmSecret string) *AdminHandler {
// If statsManager is nil, create a new one with default settings
if statsManager == nil {
var err error
statsManager, err = stats.NewStatsManagerWithDefaults()
if err != nil {
// Log the error but continue with nil statsManager
fmt.Printf("Error creating StatsManager: %v\n", err)
}
}
return &AdminHandler{
uptimeProvider: uptimeProvider,
statsManager: statsManager,
pmSocketPath: pmSocketPath,
pmSecret: pmSecret,
}
}
// RegisterRoutes registers all admin page routes
func (h *AdminHandler) RegisterRoutes(app *fiber.App) {
// Admin routes
admin := app.Group("/admin")
// Dashboard
admin.Get("/", h.getDashboard)
// Create service handler with the correct socket path and secret
serviceHandler := handlers.NewServiceHandler(h.pmSocketPath, h.pmSecret)
// Services routes
admin.Get("/services", serviceHandler.GetServices)
admin.Get("/services/data", serviceHandler.GetServicesFragment)
admin.Post("/services/start", serviceHandler.StartService)
admin.Post("/services/stop", serviceHandler.StopService)
admin.Post("/services/restart", serviceHandler.RestartService)
admin.Post("/services/delete", serviceHandler.DeleteService)
admin.Get("/services/logs", serviceHandler.GetServiceLogs)
// System routes
admin.Get("/system/info", h.getSystemInfo)
admin.Get("/system/hardware-stats", h.getHardwareStats)
// Create process handler
processHandler := handlers.NewProcessHandler(h.statsManager)
admin.Get("/system/processes", processHandler.GetProcesses)
admin.Get("/system/processes-data", processHandler.GetProcessesData)
// Create log handler
// Ensure log directory exists
// Using the same shared logs path as process manager
logDir := filepath.Join(os.TempDir(), "heroagent_logs")
if err := os.MkdirAll(logDir, 0755); err != nil {
fmt.Printf("Error creating log directory: %v\n", err)
}
logHandler, err := handlers.NewLogHandler(logDir)
if err != nil {
fmt.Printf("Error creating log handler: %v\n", err)
// Fallback to old implementation if log handler creation failed
admin.Get("/system/logs", h.getSystemLogs)
admin.Get("/system/logs-test", h.getSystemLogsTest)
} else {
fmt.Printf("Log handler created successfully\n")
// Use the log handler for log routes
admin.Get("/system/logs", logHandler.GetLogs)
// Keep the fragment endpoint for backward compatibility
// but it now just redirects to the main logs endpoint
admin.Get("/system/logs-fragment", logHandler.GetLogsFragment)
admin.Get("/system/logs-test", h.getSystemLogsTest) // Keep the test logs route
// Log API endpoints
app.Get("/api/logs", logHandler.GetLogsAPI)
}
admin.Get("/system/settings", h.getSystemSettings)
// OpenRPC routes
admin.Get("/openrpc", h.getOpenRPCManager)
admin.Get("/openrpc/vfs", h.getOpenRPCVFS)
admin.Get("/openrpc/vfs/logs", h.getOpenRPCVFSLogs)
// Redirect root to admin
app.Get("/", func(c *fiber.Ctx) error {
return c.Redirect("/admin")
})
}
// getDashboard renders the admin dashboard
func (h *AdminHandler) getDashboard(c *fiber.Ctx) error {
return c.Render("admin/index", fiber.Map{
"title": "Dashboard",
})
}
// getSystemInfo renders the system info page
func (h *AdminHandler) getSystemInfo(c *fiber.Ctx) error {
// Initialize default values
cpuInfo := "Unknown"
memoryInfo := "Unknown"
diskInfo := "Unknown"
networkInfo := "Unknown"
osInfo := "Unknown"
uptimeInfo := "Unknown"
// Get hardware stats from the StatsManager
var hardwareStats map[string]interface{}
if h.statsManager != nil {
hardwareStats = h.statsManager.GetHardwareStats()
} else {
// Fallback to direct function call if StatsManager is not available
hardwareStats = stats.GetHardwareStats()
}
// Extract the formatted strings - safely handle different return types
if cpuVal, ok := hardwareStats["cpu"]; ok {
switch v := cpuVal.(type) {
case string:
cpuInfo = v
case map[string]interface{}:
// Format the map into a string
if model, ok := v["model"].(string); ok {
usage := 0.0
if usagePercent, ok := v["usage_percent"].(float64); ok {
usage = usagePercent
}
cpuInfo = fmt.Sprintf("%s (Usage: %.1f%%)", model, usage)
}
}
}
if memVal, ok := hardwareStats["memory"]; ok {
switch v := memVal.(type) {
case string:
memoryInfo = v
case map[string]interface{}:
// Format the map into a string
total, used := 0.0, 0.0
if totalGB, ok := v["total_gb"].(float64); ok {
total = totalGB
}
if usedGB, ok := v["used_gb"].(float64); ok {
used = usedGB
}
usedPercent := 0.0
if percent, ok := v["used_percent"].(float64); ok {
usedPercent = percent
}
memoryInfo = fmt.Sprintf("%.1f GB / %.1f GB (%.1f%% used)", used, total, usedPercent)
}
}
if diskVal, ok := hardwareStats["disk"]; ok {
switch v := diskVal.(type) {
case string:
diskInfo = v
case map[string]interface{}:
// Format the map into a string
total, used := 0.0, 0.0
if totalGB, ok := v["total_gb"].(float64); ok {
total = totalGB
}
if usedGB, ok := v["used_gb"].(float64); ok {
used = usedGB
}
usedPercent := 0.0
if percent, ok := v["used_percent"].(float64); ok {
usedPercent = percent
}
diskInfo = fmt.Sprintf("%.1f GB / %.1f GB (%.1f%% used)", used, total, usedPercent)
}
}
if netVal, ok := hardwareStats["network"]; ok {
switch v := netVal.(type) {
case string:
networkInfo = v
case map[string]interface{}:
// Format the map into a string
var interfaces []string
if ifaces, ok := v["interfaces"].([]interface{}); ok {
for _, iface := range ifaces {
if ifaceMap, ok := iface.(map[string]interface{}); ok {
name := ifaceMap["name"].(string)
ip := ifaceMap["ip"].(string)
interfaces = append(interfaces, fmt.Sprintf("%s: %s", name, ip))
}
}
networkInfo = strings.Join(interfaces, ", ")
}
}
}
// Get OS info
hostInfo, err := host.Info()
if err == nil {
osInfo = fmt.Sprintf("%s %s (%s)", hostInfo.Platform, hostInfo.PlatformVersion, hostInfo.KernelVersion)
}
// Get uptime
if h.uptimeProvider != nil {
uptimeInfo = h.uptimeProvider.GetUptime()
}
// Render the template with the system info
return c.Render("admin/system/info", fiber.Map{
"title": "System Information",
"cpuInfo": cpuInfo,
"memoryInfo": memoryInfo,
"diskInfo": diskInfo,
"networkInfo": networkInfo,
"osInfo": osInfo,
"uptimeInfo": uptimeInfo,
})
}
// getSystemLogs renders the system logs page
func (h *AdminHandler) getSystemLogs(c *fiber.Ctx) error {
return c.Render("admin/system/logs", fiber.Map{
"title": "System Logs",
})
}
// getSystemLogsTest renders the test logs page
func (h *AdminHandler) getSystemLogsTest(c *fiber.Ctx) error {
return c.Render("admin/system/logs_test", fiber.Map{
"title": "Test Logs",
})
}
// getSystemSettings renders the system settings page
func (h *AdminHandler) getSystemSettings(c *fiber.Ctx) error {
// Get system settings
// This is a placeholder - in a real app, you would fetch settings from a database or config file
settings := map[string]interface{}{
"logLevel": "info",
"enableDebugMode": false,
"dataDirectory": "/var/lib/heroagent",
"maxLogSize": "100MB",
}
return c.Render("admin/system/settings", fiber.Map{
"title": "System Settings",
"settings": settings,
})
}
// getHardwareStats returns only the hardware stats for Unpoly polling
func (h *AdminHandler) getHardwareStats(c *fiber.Ctx) error {
// Initialize default values
cpuInfo := "Unknown"
memoryInfo := "Unknown"
diskInfo := "Unknown"
networkInfo := "Unknown"
// Get hardware stats from the StatsManager
var hardwareStats map[string]interface{}
if h.statsManager != nil {
hardwareStats = h.statsManager.GetHardwareStats()
} else {
// Fallback to direct function call if StatsManager is not available
hardwareStats = stats.GetHardwareStats()
}
// Extract the formatted strings - safely handle different return types
if cpuVal, ok := hardwareStats["cpu"]; ok {
switch v := cpuVal.(type) {
case string:
cpuInfo = v
case map[string]interface{}:
// Format the map into a string
if model, ok := v["model"].(string); ok {
cpuInfo = model
}
}
}
if memVal, ok := hardwareStats["memory"]; ok {
switch v := memVal.(type) {
case string:
memoryInfo = v
case map[string]interface{}:
// Format the map into a string
total, used := 0.0, 0.0
if totalGB, ok := v["total_gb"].(float64); ok {
total = totalGB
}
if usedGB, ok := v["used_gb"].(float64); ok {
used = usedGB
}
memoryInfo = fmt.Sprintf("%.1f GB / %.1f GB", used, total)
}
}
if diskVal, ok := hardwareStats["disk"]; ok {
switch v := diskVal.(type) {
case string:
diskInfo = v
case map[string]interface{}:
// Format the map into a string
total, used := 0.0, 0.0
if totalGB, ok := v["total_gb"].(float64); ok {
total = totalGB
}
if usedGB, ok := v["used_gb"].(float64); ok {
used = usedGB
}
diskInfo = fmt.Sprintf("%.1f GB / %.1f GB", used, total)
}
}
if netVal, ok := hardwareStats["network"]; ok {
switch v := netVal.(type) {
case string:
networkInfo = v
case map[string]interface{}:
// Format the map into a string
var interfaces []string
if ifaces, ok := v["interfaces"].([]interface{}); ok {
for _, iface := range ifaces {
if ifaceMap, ok := iface.(map[string]interface{}); ok {
name := ifaceMap["name"].(string)
ip := ifaceMap["ip"].(string)
interfaces = append(interfaces, fmt.Sprintf("%s: %s", name, ip))
}
}
networkInfo = strings.Join(interfaces, ", ")
}
}
}
// Format for display
cpuUsage := "0.0%"
memUsage := "0.0%"
diskUsage := "0.0%"
// Safely extract usage percentages
if cpuVal, ok := hardwareStats["cpu"].(map[string]interface{}); ok {
if usagePercent, ok := cpuVal["usage_percent"].(float64); ok {
cpuUsage = fmt.Sprintf("%.1f%%", usagePercent)
}
}
if memVal, ok := hardwareStats["memory"].(map[string]interface{}); ok {
if usedPercent, ok := memVal["used_percent"].(float64); ok {
memUsage = fmt.Sprintf("%.1f%%", usedPercent)
}
}
if diskVal, ok := hardwareStats["disk"].(map[string]interface{}); ok {
if usedPercent, ok := diskVal["used_percent"].(float64); ok {
diskUsage = fmt.Sprintf("%.1f%%", usedPercent)
}
}
// Render only the hardware stats fragment
return c.Render("admin/system/hardware_stats_fragment", fiber.Map{
"cpuInfo": cpuInfo,
"memoryInfo": memoryInfo,
"diskInfo": diskInfo,
"networkInfo": networkInfo,
"cpuUsage": cpuUsage,
"memUsage": memUsage,
"diskUsage": diskUsage,
})
}
// getProcesses has been moved to the handlers package
// See handlers.ProcessHandler.GetProcesses
// getOpenRPCManager renders the OpenRPC Manager view page
func (h *AdminHandler) getOpenRPCManager(c *fiber.Ctx) error {
return c.Render("admin/openrpc/index", fiber.Map{
"title": "OpenRPC Manager",
})
}
// getOpenRPCVFS renders the OpenRPC VFS view page
func (h *AdminHandler) getOpenRPCVFS(c *fiber.Ctx) error {
return c.Render("admin/openrpc/vfs", fiber.Map{
"title": "VFS OpenRPC Interface",
})
}
// getOpenRPCVFSLogs renders the OpenRPC logs content for Unpoly or direct access
func (h *AdminHandler) getOpenRPCVFSLogs(c *fiber.Ctx) error {
// Get query parameters
method := c.Query("method", "")
params := c.Query("params", "")
// Define available methods and their display names
methods := []string{
"vfs_ls",
"vfs_read",
"vfs_write",
"vfs_mkdir",
"vfs_rm",
"vfs_mv",
"vfs_cp",
"vfs_exists",
"vfs_isdir",
"vfs_isfile",
}
methodDisplayNames := map[string]string{
"vfs_ls": "List Directory",
"vfs_read": "Read File",
"vfs_write": "Write File",
"vfs_mkdir": "Create Directory",
"vfs_rm": "Remove File/Directory",
"vfs_mv": "Move/Rename",
"vfs_cp": "Copy",
"vfs_exists": "Check Exists",
"vfs_isdir": "Is Directory",
"vfs_isfile": "Is File",
}
// Generate method options HTML
methodOptions := generateMethodOptions(methods, methodDisplayNames)
// Initialize variables
var requestJSON, responseJSON, responseTime string
var hasResponse bool
// If a method is selected, make the OpenRPC call
if method != "" {
// Prepare the request
requestJSON = fmt.Sprintf(`{
"jsonrpc": "2.0",
"method": "%s",
"params": %s,
"id": 1
}`, method, params)
// In a real implementation, we would make the actual OpenRPC call here
// For now, we'll just simulate a response
// Simulate response time (would be real in production)
time.Sleep(100 * time.Millisecond)
responseTime = "100ms"
// Simulate a response based on the method
switch method {
case "vfs_ls":
responseJSON = `{
"jsonrpc": "2.0",
"result": [
{"name": "file1.txt", "size": 1024, "isDir": false, "modTime": "2023-01-01T12:00:00Z"},
{"name": "dir1", "size": 0, "isDir": true, "modTime": "2023-01-01T12:00:00Z"}
],
"id": 1
}`
case "vfs_read":
responseJSON = `{
"jsonrpc": "2.0",
"result": "File content would be here",
"id": 1
}`
default:
responseJSON = `{
"jsonrpc": "2.0",
"result": "Operation completed successfully",
"id": 1
}`
}
hasResponse = true
}
// Determine if this is an Unpoly request
isUnpoly := c.Get("X-Up-Target") != ""
// If it's an Unpoly request, render just the logs fragment
if isUnpoly {
return c.Render("admin/openrpc/vfs_logs", fiber.Map{
"methodOptions": methodOptions,
"selectedMethod": method,
"params": params,
"requestJSON": requestJSON,
"responseJSON": responseJSON,
"responseTime": responseTime,
"hasResponse": hasResponse,
})
}
// Otherwise render the full page
return c.Render("admin/openrpc/vfs_overview", fiber.Map{
"title": "VFS OpenRPC Logs",
"methodOptions": methodOptions,
"selectedMethod": method,
"params": params,
"requestJSON": requestJSON,
"responseJSON": responseJSON,
"responseTime": responseTime,
"hasResponse": hasResponse,
})
}
// generateMethodOptions generates HTML option tags for method dropdown
func generateMethodOptions(methods []string, methodDisplayNames map[string]string) string {
var options []string
for _, method := range methods {
displayName, ok := methodDisplayNames[method]
if !ok {
displayName = method
}
options = append(options, fmt.Sprintf(`<option value="%s">%s</option>`, method, displayName))
}
return strings.Join(options, "\n")
}
// Note: getProcessesData has been consolidated in the API routes file
// to avoid duplication and ensure consistent behavior

187
pkg2_dont_use/heroagent/pages/jobs.go Normal file
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package pages
import (
"fmt"
"log"
"git.ourworld.tf/herocode/heroagent/pkg/herojobs"
"github.com/gofiber/fiber/v2"
)
// JobDisplayInfo represents information about a job for display purposes
type JobDisplayInfo struct {
JobID string `json:"jobid"`
CircleID string `json:"circleid"`
Topic string `json:"topic"`
Status string `json:"status"`
SessionKey string `json:"sessionkey"`
Params string `json:"params"`
ParamsType string `json:"paramstype"`
Result string `json:"result"`
Error string `json:"error"`
TimeScheduled int64 `json:"time_scheduled"`
TimeStart int64 `json:"time_start"`
TimeEnd int64 `json:"time_end"`
Timeout int64 `json:"timeout"`
}
// JobHandler handles job-related page routes
type JobHandler struct {
client *herojobs.RedisClient
logger *log.Logger
}
// NewJobHandler creates a new job handler with the provided socket path
func NewJobHandler(redisAddr string, logger *log.Logger) (*JobHandler, error) {
// Assuming SSL is false as per README example herojobs.NewRedisClient("localhost:6379", false)
// This might need to be configurable later.
client, err := herojobs.NewRedisClient(redisAddr, false)
if err != nil {
return nil, fmt.Errorf("failed to create HeroJobs Redis client: %w", err)
}
return &JobHandler{
client: client,
logger: logger,
}, nil
}
// RegisterRoutes registers job page routes
func (h *JobHandler) RegisterRoutes(app *fiber.App) {
// Register routes for /jobs
jobs := app.Group("/jobs")
jobs.Get("/", h.getJobsPage)
jobs.Get("/list", h.getJobsList)
// Register the same routes under /admin/jobs for consistency
adminJobs := app.Group("/admin/jobs")
adminJobs.Get("/", h.getJobsPage)
adminJobs.Get("/list", h.getJobsList)
}
// getJobsPage renders the jobs page
func (h *JobHandler) getJobsPage(c *fiber.Ctx) error {
// Assuming h.client (RedisClient) is valid if NewJobHandler succeeded.
// The client is connected on creation. A Ping method could be used here for a health check if available.
// The previous connect/close logic per-request is removed.
var warning string // This will be empty unless a new check (e.g., Ping) sets it.
return c.Render("admin/jobs", fiber.Map{
"title": "Jobs",
"warning": warning, // warning will be empty for now
"error": "",
})
}
// getJobsList returns the jobs list fragment for AJAX updates
func (h *JobHandler) getJobsList(c *fiber.Ctx) error {
// Get parameters from query
circleID := c.Query("circleid", "")
topic := c.Query("topic", "")
// Get jobs
jobs, err := h.getJobsData(circleID, topic)
if err != nil {
h.logger.Printf("Error getting jobs: %v", err)
// Return the error in the template
return c.Render("admin/jobs_list_fragment", fiber.Map{
"error": fmt.Sprintf("Failed to get jobs: %v", err),
"jobs": []JobDisplayInfo{},
})
}
// Render only the jobs fragment
return c.Render("admin/jobs_list_fragment", fiber.Map{
"jobs": jobs,
})
}
// getJobsData gets job data from the HeroJobs server
func (h *JobHandler) getJobsData(circleID, topic string) ([]JobDisplayInfo, error) {
// Assuming h.client (RedisClient) is already connected (established by NewJobHandler).
// It should not be closed here as it's a long-lived client.
// Connect() and Close() calls per-request are removed.
// If circleID and topic are not provided, try to list all jobs
if circleID == "" && topic == "" {
// Try to get some default jobs
defaultCircles := []string{"default", "system"}
defaultTopics := []string{"default", "system"}
var allJobs []JobDisplayInfo
// Try each combination
for _, circle := range defaultCircles {
for _, t := range defaultTopics {
jobIDs, err := h.client.ListJobs(circle, t)
if err != nil {
h.logger.Printf("Could not list jobs for circle=%s, topic=%s: %v", circle, t, err)
continue
}
for _, jobID := range jobIDs {
job, err := h.client.GetJob(jobID)
if err != nil {
h.logger.Printf("Error getting job %s: %v", jobID, err)
continue
}
allJobs = append(allJobs, JobDisplayInfo{
JobID: fmt.Sprintf("%d", job.JobID),
CircleID: job.CircleID,
Topic: job.Topic,
Status: string(job.Status),
SessionKey: job.SessionKey,
Params: job.Params,
ParamsType: string(job.ParamsType),
Result: job.Result,
Error: job.Error,
TimeScheduled: job.TimeScheduled,
TimeStart: job.TimeStart,
TimeEnd: job.TimeEnd,
Timeout: job.Timeout,
})
}
}
}
return allJobs, nil
} else if circleID == "" || topic == "" {
// If only one of the parameters is provided, we can't list jobs
return []JobDisplayInfo{}, nil
}
// List jobs
jobIDs, err := h.client.ListJobs(circleID, topic)
if err != nil {
return nil, fmt.Errorf("failed to list jobs: %w", err)
}
// Get details for each job
jobsList := make([]JobDisplayInfo, 0, len(jobIDs))
for _, jobID := range jobIDs {
job, err := h.client.GetJob(jobID)
if err != nil {
h.logger.Printf("Error getting job %s: %v", jobID, err)
continue
}
jobInfo := JobDisplayInfo{
JobID: fmt.Sprintf("%d", job.JobID),
CircleID: job.CircleID,
Topic: job.Topic,
Status: string(job.Status),
SessionKey: job.SessionKey,
Params: job.Params,
ParamsType: string(job.ParamsType),
Result: job.Result,
Error: job.Error,
TimeScheduled: job.TimeScheduled,
TimeStart: job.TimeStart,
TimeEnd: job.TimeEnd,
Timeout: job.Timeout,
}
jobsList = append(jobsList, jobInfo)
}
return jobsList, nil
}

111
pkg2_dont_use/heroagent/pages/services.go Normal file
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package pages
import (
"fmt"
"log"
"git.ourworld.tf/herocode/heroagent/pkg/processmanager/interfaces/openrpc"
"github.com/gofiber/fiber/v2"
)
// ServiceHandler handles service-related page routes
type ServiceHandler struct {
client *openrpc.Client
logger *log.Logger
}
// NewServiceHandler creates a new service handler with the provided socket path and secret
func NewServiceHandler(socketPath, secret string, logger *log.Logger) *ServiceHandler {
fmt.Printf("DEBUG: Creating new pages.ServiceHandler with socket path: %s and secret: %s\n", socketPath, secret)
return &ServiceHandler{
client: openrpc.NewClient(socketPath, secret),
logger: logger,
}
}
// RegisterRoutes registers service page routes
func (h *ServiceHandler) RegisterRoutes(app *fiber.App) {
services := app.Group("/services")
// Page routes
services.Get("/", h.getServicesPage)
services.Get("/data", h.getServicesData)
}
// getServicesPage renders the services page
func (h *ServiceHandler) getServicesPage(c *fiber.Ctx) error {
// Get processes to display on the initial page load
processes, _ := h.getProcessList()
// Check if we can connect to the process manager
var warning string
_, err := h.client.ListProcesses("json")
if err != nil {
warning = "Could not connect to process manager: " + err.Error()
h.logger.Printf("Warning: %s", warning)
}
return c.Render("admin/services", fiber.Map{
"title": "Services",
"processes": processes,
"warning": warning,
})
}
// getServicesData returns only the services fragment for AJAX updates
func (h *ServiceHandler) getServicesData(c *fiber.Ctx) error {
// Get processes
processes, _ := h.getProcessList()
// Render only the services fragment
return c.Render("admin/services_fragment", fiber.Map{
"processes": processes,
})
}
// getProcessList gets a list of processes from the process manager
func (h *ServiceHandler) getProcessList() ([]ProcessDisplayInfo, error) {
// Debug: Log the function entry
h.logger.Printf("Entering getProcessList() function")
fmt.Printf("DEBUG: getProcessList called using client: %p\n", h.client)
// Get the list of processes via the client
result, err := h.client.ListProcesses("json")
if err != nil {
h.logger.Printf("Error listing processes: %v", err)
return nil, err
}
// Convert the result to a slice of ProcessStatus
listResult, ok := result.([]interface{})
if !ok {
h.logger.Printf("Error: unexpected result type from ListProcesses")
return nil, fmt.Errorf("unexpected result type from ListProcesses")
}
// Convert to display info format
displayInfoList := make([]ProcessDisplayInfo, 0, len(listResult))
for _, item := range listResult {
procMap, ok := item.(map[string]interface{})
if !ok {
continue
}
// Create a ProcessDisplayInfo from the map
displayInfo := ProcessDisplayInfo{
ID: fmt.Sprintf("%v", procMap["pid"]),
Name: fmt.Sprintf("%v", procMap["name"]),
Status: fmt.Sprintf("%v", procMap["status"]),
Uptime: fmt.Sprintf("%v", procMap["uptime"]),
StartTime: fmt.Sprintf("%v", procMap["start_time"]),
CPU: fmt.Sprintf("%v%%", procMap["cpu"]),
Memory: fmt.Sprintf("%v MB", procMap["memory"]),
}
displayInfoList = append(displayInfoList, displayInfo)
}
// Debug: Log the number of processes
h.logger.Printf("Found %d processes", len(displayInfoList))
return displayInfoList, nil
}

54
pkg2_dont_use/heroagent/pages/types.go Normal file
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package pages
import (
"fmt"
"time"
"git.ourworld.tf/herocode/heroagent/pkg/processmanager"
)
// ProcessDisplayInfo represents information about a process for display purposes
type ProcessDisplayInfo struct {
ID string `json:"id"`
Name string `json:"name"`
Status string `json:"status"`
Uptime string `json:"uptime"`
StartTime string `json:"start_time"`
CPU string `json:"cpu"`
Memory string `json:"memory"`
}
// ConvertToDisplayInfo converts a ProcessInfo from the processmanager package to ProcessDisplayInfo
func ConvertToDisplayInfo(info *processmanager.ProcessInfo) ProcessDisplayInfo {
// Calculate uptime from start time
uptime := formatUptime(time.Since(info.StartTime))
return ProcessDisplayInfo{
ID: fmt.Sprintf("%d", info.PID),
Name: info.Name,
Status: string(info.Status),
Uptime: uptime,
StartTime: info.StartTime.Format("2006-01-02 15:04:05"),
CPU: fmt.Sprintf("%.2f%%", info.CPUPercent),
Memory: fmt.Sprintf("%.2f MB", info.MemoryMB),
}
}
// formatUptime formats a duration as a human-readable uptime string
func formatUptime(duration time.Duration) string {
totalSeconds := int(duration.Seconds())
days := totalSeconds / (24 * 3600)
hours := (totalSeconds % (24 * 3600)) / 3600
minutes := (totalSeconds % 3600) / 60
seconds := totalSeconds % 60
if days > 0 {
return fmt.Sprintf("%d days, %d hours", days, hours)
} else if hours > 0 {
return fmt.Sprintf("%d hours, %d minutes", hours, minutes)
} else if minutes > 0 {
return fmt.Sprintf("%d minutes, %d seconds", minutes, seconds)
} else {
return fmt.Sprintf("%d seconds", seconds)
}
}

132
pkg2_dont_use/heroagent/web/endpoint_test.go Normal file
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package web
import (
"fmt"
"io"
"net/http"
"net/url"
"strings"
"testing"
"time"
)
// TestConfig holds configuration for the tests
type TestConfig struct {
BaseURL string
Timeout time.Duration
}
// NewTestConfig creates a new test configuration
func NewTestConfig() *TestConfig {
return &TestConfig{
BaseURL: "http://localhost:9021",
Timeout: 5 * time.Second,
}
}
// testEndpoint tests a single endpoint
func testEndpoint(t *testing.T, config *TestConfig, method, path string, expectedStatus int, formData map[string]string) {
t.Helper()
client := &http.Client{
Timeout: config.Timeout,
}
var req *http.Request
var err error
fullURL := config.BaseURL + path
if method == "GET" {
req, err = http.NewRequest(method, fullURL, nil)
} else if method == "POST" {
if formData != nil {
form := make(url.Values)
for key, value := range formData {
form.Add(key, value)
}
req, err = http.NewRequest(method, fullURL, strings.NewReader(form.Encode()))
if err == nil {
req.Header.Add("Content-Type", "application/x-www-form-urlencoded")
}
} else {
req, err = http.NewRequest(method, fullURL, nil)
}
}
if err != nil {
t.Fatalf("Failed to create request: %v", err)
}
resp, err := client.Do(req)
if err != nil {
t.Fatalf("Failed to make request: %v", err)
}
defer resp.Body.Close()
if resp.StatusCode != expectedStatus {
body, _ := io.ReadAll(resp.Body)
t.Errorf("Expected status %d for %s %s, got %d. Response: %s",
expectedStatus, method, path, resp.StatusCode, string(body))
} else {
t.Logf("✅ %s %s - Status: %d", method, path, resp.StatusCode)
}
}
// TestGetEndpoints tests all GET endpoints
func TestGetEndpoints(t *testing.T) {
config := NewTestConfig()
// All endpoints to test
getEndpoints := []string{
"/", // Root redirect to admin
"/admin", // Admin dashboard
"/admin/system/info", // System info page
"/admin/services", // Services page
"/admin/system/processes", // Processes page
"/admin/system/logs", // System logs page
"/admin/system/settings", // System settings page
}
// Test all endpoints
for _, endpoint := range getEndpoints {
t.Run(fmt.Sprintf("GET %s", endpoint), func(t *testing.T) {
testEndpoint(t, config, "GET", endpoint, http.StatusOK, nil)
})
}
}
// TestAPIEndpoints tests all API endpoints
func TestAPIEndpoints(t *testing.T) {
t.Skip("API endpoints need to be fixed")
config := NewTestConfig()
apiEndpoints := []string{
"/admin/api/hardware-stats", // Hardware stats API
"/admin/api/process-stats", // Process stats API
}
for _, endpoint := range apiEndpoints {
t.Run(fmt.Sprintf("GET %s", endpoint), func(t *testing.T) {
testEndpoint(t, config, "GET", endpoint, http.StatusOK, nil)
})
}
}
// TestFragmentEndpoints tests all fragment endpoints used for AJAX updates
func TestFragmentEndpoints(t *testing.T) {
config := NewTestConfig()
// All fragment endpoints to test
fragmentEndpoints := []string{
"/admin/system/hardware-stats", // Hardware stats fragment
"/admin/system/processes-data", // Processes data fragment
}
// Test all fragment endpoints
for _, endpoint := range fragmentEndpoints {
t.Run(fmt.Sprintf("GET %s", endpoint), func(t *testing.T) {
testEndpoint(t, config, "GET", endpoint, http.StatusOK, nil)
})
}
}

739
pkg2_dont_use/heroagent/web/static/css/admin.css Normal file
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/* Admin Dashboard Styles */
/* Base Font Size and Typography */
:root {
--pico-font-size: 16px;
--pico-font-family: -apple-system, BlinkMacSystemFont, "Segoe UI", Roboto, "Helvetica Neue", Arial, sans-serif;
--pico-line-height: 1.5;
}
html {
font-size: 100%;
font-family: var(--pico-font-family);
line-height: var(--pico-line-height);
}
/* Layout */
body {
display: grid;
grid-template-columns: 300px 1fr;
grid-template-rows: 60px 1fr;
grid-template-areas:
"header header"
"sidebar main";
min-height: 100vh;
margin: 0;
padding: 0;
overflow: hidden;
gap: 0;
}
/* Header - Documentation Style */
header {
grid-area: header;
padding: 0 2rem;
border-bottom: 1px solid rgba(255, 255, 255, 0.1);
background-color: #1a1f2b;
position: sticky;
top: 0;
z-index: 100;
box-shadow: 0 1px 3px rgba(0,0,0,0.2);
display: flex;
justify-content: space-between;
align-items: center;
height: 60px;
}
.top-nav {
display: flex;
justify-content: flex-start;
align-items: center;
margin: 0 auto;
width: 100%;
height: 60px;
}
.top-nav .brand {
display: flex;
align-items: center;
gap: 0.5rem;
font-weight: bold;
font-size: 1.2rem;
}
.top-nav .brand a {
display: flex;
align-items: center;
gap: 0.5rem;
text-decoration: none;
color: #00a8ff;
font-weight: 600;
}
.brand-icon {
width: 24px;
height: 24px;
filter: drop-shadow(0 0 2px rgba(0, 168, 255, 0.5));
}
/* Documentation-style navigation */
.nav-links {
display: flex;
align-items: center;
gap: 2rem;
margin-left: 2rem;
}
.nav-link {
text-decoration: none;
color: var(--pico-muted-color);
font-weight: 500;
padding: 0.5rem 0;
position: relative;
transition: color 0.2s ease;
}
.nav-link:hover, .nav-link.active {
color: var(--pico-primary);
}
.nav-link.active::after {
content: '';
position: absolute;
bottom: -0.8rem;
left: 0;
width: 100%;
height: 2px;
background-color: var(--pico-primary);
}
.nav-right {
display: flex;
align-items: center;
gap: 1rem;
margin-left: auto;
}
.search-box {
width: auto !important;
margin: auto !important;
}
/* Sidebar */
.sidebar {
grid-area: sidebar;
background-color: #1a1f2b;
border-right: 1px solid rgba(255, 255, 255, 0.1);
padding: 0;
overflow-y: auto;
height: calc(100vh - 60px);
position: fixed;
top: 60px;
left: 0;
width: 300px;
color: #c5d0e6;
z-index: 100;
font-family: var(--pico-font-family);
font-size: var(--pico-font-size);
margin-top: 0;
}
.sidebar-content {
padding: 1rem 0;
display: block;
width: 100%;
}
/* Sidebar Navigation */
.sidebar-wrapper {
width: 100%;
padding: 10px 0px;
}
.sidebar-nav {
display: flex;
flex-direction: column;
width: 100%;
}
.sidebar-section {
margin-bottom: 0.5rem;
}
/* Collapsible sidebar sections */
.sidebar-heading.toggle {
cursor: pointer;
position: relative;
}
.sidebar-heading.toggle::after {
content: '▼';
font-size: 10px;
position: absolute;
right: 1rem;
top: 50%;
transform: translateY(-50%);
transition: transform 0.2s ease;
}
.sidebar-section.collapsed .sidebar-heading.toggle::after {
transform: translateY(-50%) rotate(-90deg);
}
.sidebar-section.collapsed .sidebar-content-section {
display: none;
}
.sidebar-heading {
font-size: var(--pico-font-size);
font-weight: 600;
color: #8c9db5;
padding: 0.25rem 1.25rem;
text-transform: uppercase;
letter-spacing: 0.05em;
}
.sidebar-link {
display: block;
padding: 0.35rem 1.25rem;
color: #a3b3cc;
text-decoration: none;
font-size: var(--pico-font-size);
border-left: 3px solid transparent;
transition: all 0.2s ease;
}
.sidebar-link.child {
padding-left: 2.5rem;
}
.sidebar-link:hover {
color: #00a8ff;
background-color: rgba(0, 168, 255, 0.05);
}
.sidebar-link.active {
color: #00a8ff;
background-color: rgba(0, 168, 255, 0.1);
border-left-color: #00a8ff;
font-weight: 500;
}
/* Vertical menu styling */
.sidebar-menu {
list-style: none;
margin: 0;
padding: 0;
display: block;
width: 100%;
}
.menu-item {
display: block;
width: 100%;
margin: 0;
padding: 0;
}
.menu-link {
display: block;
width: 100%;
padding: 0.75rem 1.25rem;
color: #a3b3cc;
text-decoration: none;
font-size: 0.9rem;
border-left: 3px solid transparent;
transition: all 0.2s ease;
box-sizing: border-box;
}
.menu-link:hover {
color: #00a8ff;
background-color: rgba(0, 168, 255, 0.05);
}
.menu-link.active {
color: #00a8ff;
background-color: rgba(0, 168, 255, 0.1);
border-left-color: #00a8ff;
font-weight: 500;
}
/* Submenu styling */
.has-submenu > .menu-link {
position: relative;
}
.has-submenu > .menu-link:after {
content: '▼';
font-size: 0.6rem;
position: absolute;
right: 1rem;
top: 50%;
transform: translateY(-50%);
transition: transform 0.2s ease;
}
.has-submenu.open > .menu-link:after {
transform: translateY(-50%) rotate(180deg);
}
.submenu {
list-style: none;
margin: 0;
padding: 0;
max-height: 0;
overflow: hidden;
transition: max-height 0.3s ease;
display: block;
width: 100%;
}
.has-submenu.open > .submenu {
max-height: 500px;
}
.submenu .menu-item {
display: block;
width: 100%;
}
.submenu .menu-link {
padding-left: 2.5rem;
font-size: 0.85rem;
}
/* Main Content */
main {
grid-area: main;
padding: 0;
overflow-y: auto;
margin-top: 0;
font-family: var(--pico-font-family);
font-size: var(--pico-font-size);
line-height: var(--pico-line-height);
color: #c5d0e6;
background-color: #1a1f2b;
display: flex;
flex-direction: column;
}
/* Content Section */
.content-section {
padding: 0;
margin-top: 0;
}
/* Services Page */
.services-page {
padding: 0;
margin-top: -60px;
}
/* Removed section-header styling as it's not needed */
.section-title {
font-size: 1.2rem;
font-weight: 600;
margin-bottom: 0.1rem;
margin-top: 0;
color: #e0e6f0;
padding-top: 0;
padding-left: 1.25rem;
}
.section-description {
font-size: 0.85rem;
color: #8c9db5;
margin-bottom: 0.25rem;
padding-left: 1.25rem;
}
/* Typography consistency */
h1, h2, h3, h4, h5, h6 {
font-family: var(--pico-font-family);
line-height: 1.2;
margin-bottom: 1rem;
font-weight: 600;
}
h1 { font-size: 2rem; }
h2 { font-size: 1.75rem; }
h3 { font-size: 1.5rem; }
h4 { font-size: 1.25rem; }
h5 { font-size: 1.1rem; }
h6 { font-size: 1rem; }
p, ul, ol, dl, table {
font-size: var(--pico-font-size);
line-height: var(--pico-line-height);
margin-bottom: 1rem;
}
/* Cards and panels */
.card, .panel {
font-size: var(--pico-font-size);
line-height: var(--pico-line-height);
background-color: #232836;
border-radius: 8px;
box-shadow: 0 2px 8px rgba(0, 0, 0, 0.2);
padding: 0.75rem;
margin-bottom: 0.5rem;
height: fit-content;
}
.card-title, .panel-title {
font-size: 1rem;
font-weight: 600;
margin-bottom: 0.5rem;
color: #e0e6f0;
padding-bottom: 0.35rem;
}
/* Tables */
table {
font-size: 0.9rem;
width: 100%;
border-collapse: separate;
border-spacing: 0;
margin-bottom: 0.5rem;
}
th {
font-weight: 600;
text-align: left;
padding: 0.5rem 0.75rem;
border-bottom: 1px solid rgba(255, 255, 255, 0.1);
color: #8c9db5;
font-size: 0.85rem;
text-transform: uppercase;
}
td {
padding: 0.5rem 0.75rem;
border-bottom: 1px solid rgba(255, 255, 255, 0.05);
color: #c5d0e6;
}
tr:hover td {
background-color: rgba(0, 168, 255, 0.05);
}
/* Forms */
input, select, textarea, button {
font-family: var(--pico-font-family);
font-size: var(--pico-font-size);
background-color: #2a303e;
border: 1px solid rgba(255, 255, 255, 0.1);
border-radius: 4px;
padding: 0.5rem 0.75rem;
color: #c5d0e6;
width: 100%;
}
.form-group {
margin-bottom: 1.25rem;
}
.form-group label {
display: block;
margin-bottom: 0.5rem;
color: #8c9db5;
font-weight: 500;
}
fieldset {
border: 1px solid rgba(255, 255, 255, 0.1);
border-radius: 4px;
padding: 1rem;
margin-bottom: 1.25rem;
}
legend {
padding: 0 0.5rem;
color: #8c9db5;
font-weight: 500;
}
button, .button {
background-color: #00a8ff;
color: #fff;
border: none;
border-radius: 4px;
padding: 0.4rem 0.75rem;
cursor: pointer;
transition: background-color 0.2s ease;
width: auto;
font-size: 0.85rem;
font-weight: 500;
}
.button-group {
display: flex;
gap: 0.5rem;
flex-wrap: wrap;
}
button:hover, .button:hover {
background-color: #0090e0;
}
button.secondary, .button.secondary {
background-color: #2a303e;
border: 1px solid rgba(255, 255, 255, 0.1);
color: #a3b3cc;
}
button.secondary:hover, .button.secondary:hover {
background-color: #343d4f;
}
button.danger, .button.danger {
background-color: #e53935;
color: #fff;
}
.button-group button.danger,
.button-group .button.danger {
background-color: #e53935;
color: #fff;
}
button.danger:hover, .button.danger:hover,
.button-group button.danger:hover,
.button-group .button.danger:hover {
background-color: #c62828;
}
/* Section layouts */
.content-section {
margin-bottom: 0.5rem;
}
/* Removed duplicate section-title definition */
.section-description {
color: #8c9db5;
margin-bottom: 1rem;
}
/* Grid layouts */
.grid-container {
display: grid;
grid-template-columns: repeat(auto-fill, minmax(300px, 1fr));
gap: 1.5rem;
margin-bottom: 2rem;
}
/* Two-column layout */
.two-column-layout {
display: grid;
grid-template-columns: 2fr 1fr;
gap: 0.75rem;
align-items: start;
margin-top: 0.25rem;
padding: 0 1.25rem;
}
/* Badges */
.badge {
display: inline-block;
padding: 0.2rem 0.5rem;
border-radius: 4px;
font-size: 0.75rem;
font-weight: 500;
text-align: center;
letter-spacing: 0.02em;
}
.badge.success {
background-color: rgba(38, 194, 129, 0.15);
color: #26c281;
border: 1px solid rgba(38, 194, 129, 0.3);
}
.badge.warning {
background-color: rgba(255, 168, 0, 0.15);
color: #ffa800;
border: 1px solid rgba(255, 168, 0, 0.3);
}
.badge.danger {
background-color: rgba(255, 76, 76, 0.15);
color: #ff4c4c;
border: 1px solid rgba(255, 76, 76, 0.3);
}
/* Log Panel */
.log-panel {
position: fixed;
right: 0;
top: 60px;
width: 400px;
height: calc(100vh - 60px);
background-color: var(--pico-card-background-color);
border-left: 1px solid var(--pico-muted-border-color);
padding: 1rem;
transform: translateX(100%);
transition: transform 0.3s ease;
z-index: 90;
overflow-y: auto;
}
.log-panel.open {
transform: translateX(0);
}
.log-toggle {
position: fixed;
right: 1rem;
bottom: 1rem;
z-index: 100;
}
.log-content {
font-family: monospace;
white-space: pre-wrap;
font-size: 0.85rem;
background-color: var(--pico-code-background-color);
padding: 1rem;
border-radius: var(--pico-border-radius);
height: calc(100% - 3rem);
overflow-y: auto;
}
/* Responsive adjustments */
@media (max-width: 768px) {
body {
grid-template-columns: 1fr;
grid-template-areas:
"header"
"main";
}
.sidebar {
position: fixed;
left: 0;
top: 60px;
width: 250px;
transform: translateX(-100%);
transition: transform 0.3s ease;
z-index: 95;
}
.sidebar.open {
transform: translateX(0);
}
.menu-toggle {
display: block !important;
}
}
@media (min-width: 769px) {
.menu-toggle {
display: none !important;
}
}
/* Log Level Styles */
.log-info {
background-color: rgba(13, 110, 253, 0.15);
color: #0d6efd;
border-radius: 4px;
padding: 2px 6px;
font-weight: 500;
text-align: center;
}
.log-warning {
background-color: rgba(255, 193, 7, 0.15);
color: #ffc107;
border-radius: 4px;
padding: 2px 6px;
font-weight: 500;
text-align: center;
}
.log-error {
background-color: rgba(220, 53, 69, 0.15);
color: #dc3545;
border-radius: 4px;
padding: 2px 6px;
font-weight: 500;
text-align: center;
}
.log-debug {
background-color: rgba(108, 117, 125, 0.15);
color: #6c757d;
border-radius: 4px;
padding: 2px 6px;
font-weight: 500;
text-align: center;
}
/* Log Page Specific Styles */
.flex-container {
display: flex;
justify-content: space-between;
align-items: center;
margin-bottom: 1rem;
}
.filter-controls {
margin-bottom: 1.5rem;
}
.filter-grid {
grid-template-columns: repeat(auto-fit, minmax(200px, 1fr));
gap: 1rem;
align-items: end;
}
.filter-item {
display: flex;
flex-direction: column;
}
.filter-button {
display: flex;
align-items: flex-end;
}
.filter-apply {
width: 100%;
margin-top: 0.5rem;
padding: 0.6rem 1rem;
}
/* Pagination improvements */
.pagination {
display: flex;
justify-content: space-between;
align-items: center;
padding: 1rem 0;
margin-top: 1rem;
border-top: 1px solid rgba(255, 255, 255, 0.1);
}
.pagination-info {
font-size: 0.9rem;
color: #8c9db5;
}
.pagination-controls {
display: flex;
gap: 0.75rem;
}
.pagination-btn {
min-width: 100px;
text-align: center;
padding: 0.5rem 1rem;
}
/* Utility classes */
.hidden {
display: none !important;
}

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/* Jobs page styles */
.status-badge {
display: inline-block;
padding: 4px 8px;
border-radius: 4px;
font-size: 0.85em;
font-weight: 500;
text-transform: uppercase;
}
.status-pending {
background-color: #f0f0f0;
color: #666;
}
.status-running {
background-color: #e3f2fd;
color: #0d47a1;
}
.status-completed {
background-color: #e8f5e9;
color: #1b5e20;
}
.status-failed {
background-color: #ffebee;
color: #b71c1c;
}
.status-scheduled {
background-color: #fff8e1;
color: #ff6f00;
}
.status-canceled {
background-color: #ede7f6;
color: #4527a0;
}
/* Form styles */
#jobs-filter-form {
margin-bottom: 20px;
}
/* Table styles */
.table {
width: 100%;
border-collapse: collapse;
}
.table th,
.table td {
padding: 10px;
text-align: left;
border-bottom: 1px solid #eee;
}
.table th {
font-weight: 600;
background-color: #f9f9f9;
}
.table tr:hover {
background-color: #f5f5f5;
}
.text-center {
text-align: center;
}
.button-small {
padding: 4px 8px;
font-size: 0.85em;
}

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/* Styles for the logs page */
.log-container {
margin-top: 1.5rem;
border-radius: 8px;
overflow: hidden;
}
.log-table {
overflow-x: auto;
max-height: 600px;
overflow-y: auto;
}
.log-table table {
width: 100%;
border-collapse: collapse;
}
.log-table th {
position: sticky;
top: 0;
background-color: var(--card-background-color);
z-index: 10;
padding: 0.75rem;
text-align: left;
font-weight: 600;
border-bottom: 1px solid var(--card-border-color);
}
.log-table td {
padding: 0.5rem 0.75rem;
border-bottom: 1px solid var(--card-border-color);
font-family: var(--font-family-monospace);
font-size: 0.9rem;
}
/* Log level styles */
.log-info {
color: var(--primary);
font-weight: 500;
}
.log-warning {
color: var(--warning);
font-weight: 500;
}
.log-error {
color: var(--danger);
font-weight: 500;
}
/* Filter controls */
.filter-controls {
background-color: var(--card-background-color);
border-radius: 8px;
padding: 1rem;
margin-bottom: 1.5rem;
border: 1px solid var(--card-border-color);
}
.filter-grid {
grid-template-columns: repeat(auto-fit, minmax(200px, 1fr));
gap: 1rem;
align-items: end;
}
.filter-button {
display: flex;
align-items: flex-end;
}
/* Pagination */
.pagination {
display: flex;
justify-content: space-between;
align-items: center;
padding: 1rem 0;
margin-top: 1rem;
}
.pagination-controls {
display: flex;
gap: 0.5rem;
}
.pagination-btn {
padding: 0.25rem 0.75rem;
}
/* Loading indicator */
.loading-indicator {
display: flex;
justify-content: center;
align-items: center;
height: 200px;
color: var(--muted-color);
}

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[hidden][hidden]{display:none !important}
up-wrapper{display:inline-block}
up-bounds{position:absolute}.up-focus-hidden:focus-visible{outline-color:rgba(0,0,0,0) !important;outline-style:none !important}body.up-scrollbar-away{padding-right:calc(var(--up-scrollbar-width) + var(--up-original-padding-right)) !important}body.up-scrollbar-away,html:has(>body.up-scrollbar-away){overflow-y:hidden !important}body.up-scrollbar-away .up-scrollbar-away{right:calc(var(--up-scrollbar-width) + var(--up-original-right)) !important}
.up-request-loader{display:none}up-progress-bar{position:fixed;top:0;left:0;z-index:999999999;height:3px;background-color:#007bff}
up-focus-trap{position:fixed;top:0;left:0;width:0;height:0}up-cover-viewport,up-drawer-viewport,up-modal-viewport,up-drawer-backdrop,up-modal-backdrop,up-cover,up-drawer,up-modal{top:0;left:0;bottom:0;right:0}up-drawer-box,up-modal-box{box-shadow:0 0 10px 1px rgba(0,0,0,.3)}up-popup{box-shadow:0 0 4px rgba(0,0,0,.3)}up-popup:focus,up-cover-box:focus,up-drawer-box:focus,up-modal-box:focus,up-cover:focus,up-drawer:focus,up-modal:focus,up-popup:focus-visible,up-cover-box:focus-visible,up-drawer-box:focus-visible,up-modal-box:focus-visible,up-cover:focus-visible,up-drawer:focus-visible,up-modal:focus-visible{outline:none}up-cover,up-drawer,up-modal{z-index:2000;position:fixed}up-drawer-backdrop,up-modal-backdrop{position:absolute;background:rgba(0,0,0,.4)}up-cover-viewport,up-drawer-viewport,up-modal-viewport{position:absolute;overflow-y:scroll;overflow-x:hidden;overscroll-behavior:contain;display:flex;align-items:flex-start;justify-content:center}up-popup,up-cover-box,up-drawer-box,up-modal-box{position:relative;box-sizing:border-box;max-width:100%;background-color:#fff;padding:20px;overflow-x:hidden}up-popup-content,up-cover-content,up-drawer-content,up-modal-content{display:block}up-popup{z-index:1000}up-popup-dismiss,up-cover-dismiss,up-drawer-dismiss,up-modal-dismiss{color:#888;position:absolute;top:10px;right:10px;font-size:1.7rem;line-height:.5;cursor:pointer}up-modal[nesting="0"] up-modal-viewport{padding:25px 15px}up-modal[nesting="1"] up-modal-viewport{padding:50px 30px}up-modal[nesting="2"] up-modal-viewport{padding:75px 45px}up-modal[nesting="3"] up-modal-viewport{padding:100px 60px}up-modal[nesting="4"] up-modal-viewport{padding:125px 75px}up-modal[size=small] up-modal-box{width:350px}up-modal[size=medium] up-modal-box{width:650px}up-modal[size=large] up-modal-box{width:1000px}up-modal[size=grow] up-modal-box{width:auto}up-modal[size=full] up-modal-box{width:100%}up-drawer-viewport{justify-content:flex-start}up-drawer[position=right] up-drawer-viewport{justify-content:flex-end}up-drawer-box{min-height:100vh}up-drawer[size=small] up-drawer-box{width:150px}up-drawer[size=medium] up-drawer-box{width:340px}up-drawer[size=large] up-drawer-box{width:600px}up-drawer[size=grow] up-drawer-box{width:auto}up-drawer[size=full] up-drawer-box{width:100%}up-cover-box{width:100%;min-height:100vh;padding:0}up-popup{padding:15px;text-align:left}up-popup[size=small]{width:180px}up-popup[size=medium]{width:300px}up-popup[size=large]{width:550px}up-popup[size=grow] up-popup{width:auto}up-popup[size=full] up-popup{width:100%}
[up-clickable][role=link]{cursor:pointer}[up-expand]:not([role]),[up-expand][role=link]{cursor:pointer}

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<?xml version="1.0" encoding="UTF-8"?>
<svg width="64px" height="64px" viewBox="0 0 64 64" version="1.1" xmlns="http://www.w3.org/2000/svg">
<title>Flower Icon</title>
<g stroke="none" stroke-width="1" fill="none" fill-rule="evenodd">
<circle fill="#4CAF50" cx="32" cy="32" r="8"></circle>
<path d="M32,16 C36.418278,16 40,19.581722 40,24 C40,28.418278 36.418278,32 32,32 C27.581722,32 24,28.418278 24,24 C24,19.581722 27.581722,16 32,16 Z" fill="#8BC34A" transform="translate(32.000000, 24.000000) rotate(-45.000000) translate(-32.000000, -24.000000)"></path>
<path d="M32,16 C36.418278,16 40,19.581722 40,24 C40,28.418278 36.418278,32 32,32 C27.581722,32 24,28.418278 24,24 C24,19.581722 27.581722,16 32,16 Z" fill="#CDDC39" transform="translate(32.000000, 24.000000) rotate(45.000000) translate(-32.000000, -24.000000)"></path>
<path d="M32,32 C36.418278,32 40,35.581722 40,40 C40,44.418278 36.418278,48 32,48 C27.581722,48 24,44.418278 24,40 C24,35.581722 27.581722,32 32,32 Z" fill="#FF9800" transform="translate(32.000000, 40.000000) rotate(-45.000000) translate(-32.000000, -40.000000)"></path>
<path d="M32,32 C36.418278,32 40,35.581722 40,40 C40,44.418278 36.418278,48 32,48 C27.581722,48 24,44.418278 24,40 C24,35.581722 27.581722,32 32,32 Z" fill="#FFC107" transform="translate(32.000000, 40.000000) rotate(45.000000) translate(-32.000000, -40.000000)"></path>
</g>
</svg>
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<?xml version="1.0" encoding="UTF-8"?>
<svg width="24px" height="24px" viewBox="0 0 24 24" version="1.1" xmlns="http://www.w3.org/2000/svg">
<defs>
<linearGradient id="heroGradient" x1="0%" y1="0%" x2="100%" y2="100%">
<stop offset="0%" stop-color="#00A8FF" />
<stop offset="100%" stop-color="#0077CC" />
</linearGradient>
<filter id="glow" x="-30%" y="-30%" width="160%" height="160%">
<feGaussianBlur stdDeviation="1" result="blur" />
<feComposite in="SourceGraphic" in2="blur" operator="over" />
</filter>
</defs>
<g stroke="none" stroke-width="1" fill="none" fill-rule="evenodd" filter="url(#glow)">
<!-- Hero mask/shield shape -->
<path d="M12,2 L21,6 C21,13.5 18,19 12,22 C6,19 3,13.5 3,6 L12,2 Z" fill="url(#heroGradient)" />
<!-- Stylized H for Hero -->
<path d="M8,7 L8,17 M16,7 L16,17 M8,12 L16,12" stroke="#FFFFFF" stroke-width="2" stroke-linecap="round" stroke-linejoin="round" />
<!-- Small star/sparkle -->
<circle cx="12" cy="5" r="1" fill="#FFFFFF" />
</g>
</svg>
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<?xml version="1.0" encoding="UTF-8"?>
<svg width="120px" height="30px" viewBox="0 0 120 30" version="1.1" xmlns="http://www.w3.org/2000/svg">
<g stroke="none" stroke-width="1" fill="none" fill-rule="evenodd">
<!-- Hero Icon -->
<g transform="translate(5, 3)" fill="#00A8FF">
<circle cx="12" cy="12" r="11" stroke="#00A8FF" stroke-width="2" fill="none"/>
<rect x="11" y="4" width="2" height="6" rx="1"/>
<rect x="6" y="8" width="2" height="6" rx="1"/>
<rect x="16" y="8" width="2" height="6" rx="1"/>
<rect x="11" y="14" width="2" height="6" rx="1"/>
<rect x="8" y="11" width="8" height="2" rx="1"/>
</g>
<!-- Text -->
<text font-family="Arial, sans-serif" font-size="14" font-weight="bold" fill="#FFFFFF">
<tspan x="30" y="19">HeroLauncher</tspan>
</text>
</g>
</svg>
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pkg2_dont_use/heroagent/web/static/js/admin.js Normal file
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// Admin Dashboard JavaScript - Documentation Style
document.addEventListener('DOMContentLoaded', function() {
// Highlight active navigation links
highlightActiveLinks();
// Setup UI toggles
setupUIToggles();
// Setup search functionality
setupSearch();
});
// Highlight the current active navigation links
function highlightActiveLinks() {
const currentPath = window.location.pathname;
// Handle top navigation links
const navLinks = document.querySelectorAll('.nav-link');
navLinks.forEach(link => {
link.classList.remove('active');
const href = link.getAttribute('href');
// Check if current path starts with the nav link path
// This allows section links to be highlighted when on sub-pages
if (currentPath === href ||
(href !== '/admin' && currentPath.startsWith(href))) {
link.classList.add('active');
}
});
// Handle sidebar links
const sidebarLinks = document.querySelectorAll('.doc-link');
sidebarLinks.forEach(link => {
link.classList.remove('active');
if (link.getAttribute('href') === currentPath) {
link.classList.add('active');
// Also highlight parent section if needed
const parentSection = link.closest('.sidebar-section');
if (parentSection) {
parentSection.classList.add('active-section');
}
}
});
}
// Setup UI toggle functionality
function setupUIToggles() {
// Toggle sidebar on mobile
const menuToggle = document.querySelector('.menu-toggle');
const sidebar = document.querySelector('.sidebar');
if (menuToggle && sidebar) {
menuToggle.addEventListener('click', function() {
sidebar.classList.toggle('open');
});
}
// Toggle log panel
const logToggle = document.querySelector('.log-toggle');
const logPanel = document.querySelector('.log-panel');
if (logToggle && logPanel) {
logToggle.addEventListener('click', function() {
logPanel.classList.toggle('open');
});
}
// Setup Docusaurus-style collapsible menu
setupTreeviewMenu();
}
// Setup sidebar navigation
function setupTreeviewMenu() {
// Set active sidebar links based on current URL
setActiveSidebarLinks();
// Setup collapsible sections
setupCollapsibleSections();
}
// Set active sidebar links based on current URL
function setActiveSidebarLinks() {
const currentPath = window.location.pathname;
// Find all sidebar links
const sidebarLinks = document.querySelectorAll('.sidebar-link');
// Remove any existing active classes
sidebarLinks.forEach(link => {
link.classList.remove('active');
});
// Find and mark active links
let activeFound = false;
sidebarLinks.forEach(link => {
const linkPath = link.getAttribute('href');
// Check if the current path matches or starts with the link path
// For exact matches or if it's a parent path
if (currentPath === linkPath ||
(linkPath !== '/admin' && currentPath.startsWith(linkPath))) {
// Mark this link as active
link.classList.add('active');
activeFound = true;
// Expand the parent section if this link is inside a collapsible section
const parentSection = link.closest('.sidebar-content-section')?.parentElement;
if (parentSection && parentSection.classList.contains('collapsible')) {
parentSection.classList.remove('collapsed');
}
}
});
}
// Setup collapsible sections
function setupCollapsibleSections() {
// Find all toggle headings
const toggleHeadings = document.querySelectorAll('.sidebar-heading.toggle');
// Set all sections as collapsed by default
document.querySelectorAll('.sidebar-section.collapsible').forEach(section => {
section.classList.add('collapsed');
});
toggleHeadings.forEach(heading => {
// Add click event to toggle section
heading.addEventListener('click', function() {
const section = this.parentElement;
section.classList.toggle('collapsed');
});
});
// Open the section that contains the active link
const activeLink = document.querySelector('.sidebar-link.active');
if (activeLink) {
const parentSection = activeLink.closest('.sidebar-section.collapsible');
if (parentSection) {
parentSection.classList.remove('collapsed');
}
}
}
// Refresh processes data without page reload
function refreshProcesses() {
// Show loading indicator
const loadingIndicator = document.getElementById('refresh-loading');
if (loadingIndicator) {
loadingIndicator.style.display = 'inline';
}
// Get the processes content element
const tableContent = document.querySelector('.processes-table-content');
// Use Unpoly to refresh the content
if (tableContent && window.up) {
// Use Unpoly's API to reload the fragment
up.reload('.processes-table-content', {
url: '/admin/system/processes-data',
headers: {
'X-Requested-With': 'XMLHttpRequest'
}
}).then(() => {
console.log('Process data refreshed successfully via Unpoly');
}).catch(error => {
console.error('Error refreshing processes data:', error);
}).finally(() => {
// Hide loading indicator
if (loadingIndicator) {
loadingIndicator.style.display = 'none';
}
});
} else {
// Fallback to fetch if Unpoly is not available
fetch('/admin/system/processes-data', {
method: 'GET',
headers: {
'Accept': 'text/html',
'X-Requested-With': 'XMLHttpRequest'
},
cache: 'no-store'
})
.then(response => {
if (!response.ok) {
throw new Error('Network response was not ok: ' + response.status);
}
return response.text();
})
.then(html => {
// Update the processes table content
if (tableContent) {
// Replace the table content with the new HTML
tableContent.innerHTML = html;
console.log('Process data refreshed successfully via fetch');
} else {
console.error('Could not find processes table content element');
}
})
.catch(error => {
console.error('Error refreshing processes data:', error);
})
.finally(() => {
// Hide loading indicator
if (loadingIndicator) {
loadingIndicator.style.display = 'none';
}
});
}
}
// Note: Logging functionality has been moved to Unpoly-based implementation
// Setup search functionality
function setupSearch() {
const searchInput = document.querySelector('.search-box input');
if (searchInput) {
searchInput.addEventListener('keyup', function(e) {
if (e.key === 'Enter') {
performSearch(this.value);
}
});
}
}
// Perform search
function performSearch(query) {
if (!query.trim()) return;
// Log the search query
window.adminLog(`Searching for: ${query}`, 'info');
// In a real application, this would send an AJAX request to search the docs
// For now, just simulate a search by redirecting to a search results page
// window.location.href = `/admin/search?q=${encodeURIComponent(query)}`;
// For demo purposes, show a message in the console
console.log(`Search query: ${query}`);
}

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// CPU chart initialization and update functions
document.addEventListener('DOMContentLoaded', function() {
// Background color for charts
var chartBgColor = '#1e1e2f';
// Initialize CPU chart
var cpuChartDom = document.getElementById('cpu-chart');
if (!cpuChartDom) return;
var cpuChart = echarts.init(cpuChartDom, {renderer: 'canvas', useDirtyRect: false, backgroundColor: chartBgColor});
var cpuOption = {
tooltip: {
trigger: 'item',
formatter: function(params) {
// Get the PID from the data
var pid = params.data.pid || 'N/A';
return params.seriesName + '<br/>' +
params.name + ' (PID: ' + pid + ')<br/>' +
'CPU: ' + Math.round(params.value) + '%';
}
},
legend: {
orient: 'vertical',
left: 10,
top: 'center',
textStyle: {
color: '#fff'
},
formatter: function(name) {
// Display full process name without truncation
return name;
},
itemGap: 8,
itemWidth: 15,
padding: 10
},
series: [
{
name: 'Process CPU Usage',
type: 'pie',
radius: ['40%', '70%'],
avoidLabelOverlap: true,
itemStyle: {
borderRadius: 10,
borderColor: '#fff',
borderWidth: 2
},
label: {
show: false,
position: 'center'
},
emphasis: {
label: {
show: true,
fontSize: 16,
fontWeight: 'bold'
}
},
labelLine: {
show: false
},
data: [{ name: 'Loading...', value: 100 }]
}
]
};
cpuChart.setOption(cpuOption);
// Function to update CPU chart
window.updateCpuChart = function(processes) {
// Calculate total CPU usage for top 5 processes
var topProcesses = processes.slice(0, 5);
var cpuUsageData = topProcesses.map(p => ({
name: p.name, // Use full process name
value: p.cpu_percent,
pid: p.pid // Store PID for tooltip
}));
// Update chart option
cpuOption.series[0].data = cpuUsageData;
// Apply updated option
cpuChart.setOption(cpuOption);
};
// Handle window resize
window.addEventListener('resize', function() {
cpuChart && cpuChart.resize();
});
});

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// Memory chart initialization and update functions
document.addEventListener('DOMContentLoaded', function() {
// Background color for charts
var chartBgColor = '#1e1e2f';
// Initialize Memory chart
var memoryChartDom = document.getElementById('memory-chart');
if (!memoryChartDom) return;
var memoryChart = echarts.init(memoryChartDom, {renderer: 'canvas', useDirtyRect: false, backgroundColor: chartBgColor});
var memoryOption = {
tooltip: {
trigger: 'item',
formatter: function(params) {
// Get the PID from the data
var pid = params.data.pid || 'N/A';
return params.seriesName + '<br/>' +
params.name + ' (PID: ' + pid + ')<br/>' +
'Memory: ' + Math.round(params.value) + ' MB';
},
textStyle: {
fontSize: 14
}
},
legend: {
orient: 'vertical',
left: 10,
top: 'center',
textStyle: {
color: '#fff'
},
formatter: function(name) {
// Display full process name without truncation
return name;
},
itemGap: 12, // Increased gap for better readability
itemWidth: 15,
padding: 10
},
series: [
{
name: 'Process Memory Usage',
type: 'pie',
radius: ['40%', '70%'],
avoidLabelOverlap: true,
itemStyle: {
borderRadius: 10,
borderColor: '#fff',
borderWidth: 2
},
label: {
show: false,
position: 'center'
},
emphasis: {
label: {
show: true,
fontSize: 16,
fontWeight: 'bold'
}
},
labelLine: {
show: false
},
data: [{ name: 'Loading...', value: 100 }]
}
]
};
memoryChart.setOption(memoryOption);
// Function to update Memory chart
window.updateMemoryChart = function(processes) {
// Sort processes by memory usage (descending)
var topProcesses = processes
.slice()
.sort((a, b) => b.memory_mb - a.memory_mb)
.slice(0, 5);
var memoryUsageData = topProcesses.map(p => ({
name: p.name, // Use full process name
value: p.memory_mb,
pid: p.pid // Store PID for tooltip
}));
// Update chart option
memoryOption.series[0].data = memoryUsageData;
// Apply updated option
memoryChart.setOption(memoryOption);
};
// Handle window resize
window.addEventListener('resize', function() {
memoryChart && memoryChart.resize();
});
});

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// Network chart initialization and update functions
document.addEventListener('DOMContentLoaded', function() {
// Background color for charts
var chartBgColor = '#1e1e2f';
// Initialize network chart
var networkChartDom = document.getElementById('network-chart');
if (!networkChartDom) return;
var networkChart = echarts.init(networkChartDom, {renderer: 'canvas', useDirtyRect: false, backgroundColor: chartBgColor});
var networkOption = {
title: {
text: 'Network Traffic',
left: 'center',
textStyle: {
color: '#fff'
}
},
tooltip: {
trigger: 'axis'
},
legend: {
data: ['Upload', 'Download'],
textStyle: {
color: '#fff'
},
bottom: 10
},
xAxis: {
type: 'category',
data: [],
axisLabel: {
color: '#fff'
}
},
yAxis: {
type: 'value',
axisLabel: {
color: '#fff',
formatter: '{value} KB/s'
}
},
series: [
{
name: 'Upload',
type: 'line',
data: []
},
{
name: 'Download',
type: 'line',
data: []
}
]
};
networkChart.setOption(networkOption);
// Data for network chart
var timestamps = [];
var uploadData = [];
var downloadData = [];
// Function to update network chart
window.updateNetworkChart = function(upSpeed, downSpeed) {
// Convert speeds to KB/s for consistent units
var upKBps = convertToKBps(upSpeed);
var downKBps = convertToKBps(downSpeed);
// Add current timestamp
var now = new Date();
var timeString = now.getHours() + ':' +
(now.getMinutes() < 10 ? '0' + now.getMinutes() : now.getMinutes()) + ':' +
(now.getSeconds() < 10 ? '0' + now.getSeconds() : now.getSeconds());
// Update data arrays
timestamps.push(timeString);
uploadData.push(upKBps);
downloadData.push(downKBps);
// Keep only the last 10 data points
if (timestamps.length > 10) {
timestamps.shift();
uploadData.shift();
downloadData.shift();
}
// Update chart option
networkOption.xAxis.data = timestamps;
networkOption.series[0].data = uploadData;
networkOption.series[1].data = downloadData;
// Apply updated option
networkChart.setOption(networkOption);
};
// Helper function to convert network speeds to KB/s
function convertToKBps(speedString) {
var value = parseFloat(speedString);
var unit = speedString.replace(/[\d.]/g, '');
if (unit === 'Mbps') {
return value * 125; // 1 Mbps = 125 KB/s
} else if (unit === 'Kbps') {
return value / 8; // 1 Kbps = 0.125 KB/s
} else if (unit === 'Gbps') {
return value * 125000; // 1 Gbps = 125000 KB/s
} else {
return 0;
}
}
// Handle window resize
window.addEventListener('resize', function() {
networkChart && networkChart.resize();
});
});

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// Data fetching functions for system stats
document.addEventListener('DOMContentLoaded', function() {
// Function to fetch hardware stats
function fetchHardwareStats() {
fetch('/api/hardware-stats')
.then(response => {
if (!response.ok) {
throw new Error('Network response was not ok');
}
return response.json();
})
.then(data => {
// Extract network speeds
var upSpeed = data.network && data.network.upload_speed ? data.network.upload_speed : '0Mbps';
var downSpeed = data.network && data.network.download_speed ? data.network.download_speed : '0Mbps';
// Update the network chart
if (window.updateNetworkChart) {
window.updateNetworkChart(upSpeed, downSpeed);
}
})
.catch(error => {
console.error('Error fetching hardware stats:', error);
});
}
// Function to fetch process stats
function fetchProcessStats() {
fetch('/api/process-stats')
.then(response => {
if (!response.ok) {
throw new Error('Network response was not ok');
}
return response.json();
})
.then(data => {
// Update the CPU and Memory charts with new data
if (window.updateCpuChart && data.processes) {
window.updateCpuChart(data.processes);
}
if (window.updateMemoryChart && data.processes) {
window.updateMemoryChart(data.processes);
}
})
.catch(error => {
console.error('Error fetching process stats:', error);
});
}
// Function to fetch all stats
function fetchAllStats() {
fetchHardwareStats();
fetchProcessStats();
// Schedule the next update - use requestAnimationFrame for smoother updates
requestAnimationFrame(function() {
setTimeout(fetchAllStats, 2000); // Update every 2 seconds
});
}
// Start fetching all stats if we're on the system info page
if (document.getElementById('cpu-chart') ||
document.getElementById('memory-chart') ||
document.getElementById('network-chart')) {
fetchAllStats();
}
// Also update the chart when new hardware stats are loaded via Unpoly
document.addEventListener('up:fragment:loaded', function(event) {
if (event.target && event.target.classList.contains('hardware-stats')) {
// Extract network speeds from the table
var networkCell = event.target.querySelector('tr:nth-child(4) td');
if (networkCell) {
var networkText = networkCell.textContent;
var upMatch = networkText.match(/Up: ([\d.]+Mbps)/);
var downMatch = networkText.match(/Down: ([\d.]+Mbps)/);
var upSpeed = upMatch ? upMatch[1] : '0Mbps';
var downSpeed = downMatch ? downMatch[1] : '0Mbps';
// Update the chart with new data
if (window.updateNetworkChart) {
window.updateNetworkChart(upSpeed, downSpeed);
}
}
}
});
});

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// Variables for logs functionality
let currentServiceName = '';
let autoRefreshEnabled = false;
let autoRefreshInterval = null;
const AUTO_REFRESH_RATE = 3000; // 3 seconds
// Function to show process logs
function showProcessLogs(name) {
currentServiceName = name;
// Create modal if it doesn't exist
let modal = document.getElementById('logs-modal');
if (!modal) {
modal = createLogsModal();
}
document.getElementById('logs-modal-title').textContent = `Service Logs: ${name}`;
modal.style.display = 'block';
fetchProcessLogs(name);
}
// Function to create the logs modal
function createLogsModal() {
const modal = document.createElement('div');
modal.id = 'logs-modal';
modal.className = 'modal';
modal.style.display = 'none';
modal.innerHTML = `
<div class="modal-background" onclick="closeLogsModal()"></div>
<div class="modal-content">
<div class="modal-header">
<h3 id="logs-modal-title">Service Logs</h3>
<span class="close" onclick="closeLogsModal()">&times;</span>
</div>
<div class="modal-body">
<pre id="logs-content">Loading logs...</pre>
</div>
<div class="modal-footer">
<label class="auto-refresh-toggle">
<input type="checkbox" id="auto-refresh-checkbox" onchange="toggleAutoRefresh()">
<span>Auto-refresh</span>
</label>
<button class="button secondary" onclick="closeLogsModal()">Close</button>
<button class="button primary" onclick="refreshLogs()">Refresh</button>
</div>
</div>
`;
document.body.appendChild(modal);
// Add modal styles
const style = document.createElement('style');
style.textContent = `
.modal {
display: none;
position: fixed;
z-index: 1000;
left: 0;
top: 0;
width: 100%;
height: 100%;
overflow: auto;
background-color: rgba(0,0,0,0.4);
}
.modal-content {
background-color: #fefefe;
margin: 10% auto;
padding: 0;
border: 1px solid #888;
width: 80%;
max-width: 800px;
box-shadow: 0 4px 8px 0 rgba(0,0,0,0.2);
border-radius: 4px;
}
.modal-header {
padding: 10px 15px;
background-color: #f8f9fa;
border-bottom: 1px solid #dee2e6;
display: flex;
justify-content: space-between;
align-items: center;
}
.modal-header h3 {
margin: 0;
}
.close {
color: #aaa;
font-size: 28px;
font-weight: bold;
cursor: pointer;
}
.close:hover,
.close:focus {
color: black;
text-decoration: none;
}
.modal-body {
padding: 15px;
max-height: 500px;
overflow-y: auto;
}
.modal-body pre {
white-space: pre-wrap;
word-wrap: break-word;
background-color: #f8f9fa;
padding: 10px;
border-radius: 4px;
border: 1px solid #dee2e6;
font-family: monospace;
margin: 0;
height: 400px;
overflow-y: auto;
}
.modal-footer {
padding: 10px 15px;
background-color: #f8f9fa;
border-top: 1px solid #dee2e6;
display: flex;
justify-content: flex-end;
gap: 10px;
}
.auto-refresh-toggle {
display: flex;
align-items: center;
margin-right: auto;
cursor: pointer;
}
.auto-refresh-toggle input {
margin-right: 5px;
}
`;
document.head.appendChild(style);
return modal;
}
// Function to close the logs modal
function closeLogsModal() {
const modal = document.getElementById('logs-modal');
if (modal) {
modal.style.display = 'none';
}
// Disable auto-refresh when closing the modal
disableAutoRefresh();
currentServiceName = '';
}
// Function to fetch process logs
function fetchProcessLogs(name, lines = 10000) {
const formData = new FormData();
formData.append('name', name);
formData.append('lines', lines);
const logsContent = document.getElementById('logs-content');
if (!logsContent) return;
// Save scroll position if auto-refreshing
const isAutoRefresh = autoRefreshEnabled;
const scrollTop = isAutoRefresh ? logsContent.scrollTop : 0;
const scrollHeight = isAutoRefresh ? logsContent.scrollHeight : 0;
const clientHeight = isAutoRefresh ? logsContent.clientHeight : 0;
const wasScrolledToBottom = scrollHeight - scrollTop <= clientHeight + 5; // 5px tolerance
// Only show loading indicator on first load, not during auto-refresh
if (!isAutoRefresh) {
logsContent.textContent = 'Loading logs...';
}
fetch('/admin/services/logs', {
method: 'POST',
body: formData
})
.then(response => response.json())
.then(data => {
if (data.error) {
logsContent.textContent = `Error: ${data.error}`;
} else {
// Clean up the logs by removing **RESULT** and **ENDRESULT** markers
let cleanedLogs = data.logs || 'No logs available';
cleanedLogs = cleanedLogs.replace(/\*\*RESULT\*\*/g, '');
cleanedLogs = cleanedLogs.replace(/\*\*ENDRESULT\*\*/g, '');
// Trim extra whitespace
cleanedLogs = cleanedLogs.trim();
// Format the logs with stderr lines in red
if (cleanedLogs.length > 0) {
// Clear the logs content
logsContent.textContent = '';
// Split the logs into lines and process each line
const lines = cleanedLogs.split('\n');
lines.forEach(line => {
const logLine = document.createElement('div');
// Check if this is a stderr line (starts with timestamp followed by E)
if (line.match(/^\d{4}-\d{2}-\d{2} \d{2}:\d{2}:\d{2} E /)) {
logLine.className = 'stderr-log';
logLine.style.color = '#ff3333'; // Red color for stderr
}
logLine.textContent = line;
logsContent.appendChild(logLine);
});
// Add some styling for the pre element to maintain formatting
logsContent.style.fontFamily = 'monospace';
logsContent.style.whiteSpace = 'pre-wrap';
// Scroll to bottom for first load or if auto-refreshing and was at bottom
if (!isAutoRefresh || wasScrolledToBottom) {
// Scroll to the bottom of the logs
logsContent.scrollTop = logsContent.scrollHeight;
} else {
// For auto-refresh when not at bottom, maintain the same scroll position
logsContent.scrollTop = scrollTop;
}
} else {
logsContent.textContent = 'No logs available';
}
}
})
.catch(error => {
logsContent.textContent = `Error loading logs: ${error.message}`;
});
}
// Function to refresh logs for the current service
function refreshLogs() {
if (currentServiceName) {
fetchProcessLogs(currentServiceName);
}
}
// Function to toggle auto-refresh
function toggleAutoRefresh() {
const checkbox = document.getElementById('auto-refresh-checkbox');
if (checkbox && checkbox.checked) {
enableAutoRefresh();
} else {
disableAutoRefresh();
}
}
// Function to enable auto-refresh
function enableAutoRefresh() {
// Don't create multiple intervals
if (autoRefreshInterval) {
clearInterval(autoRefreshInterval);
}
// Set the flag
autoRefreshEnabled = true;
// Create the interval
autoRefreshInterval = setInterval(() => {
if (currentServiceName) {
fetchProcessLogs(currentServiceName);
}
}, AUTO_REFRESH_RATE);
console.log('Auto-refresh enabled with interval:', AUTO_REFRESH_RATE, 'ms');
}
// Function to disable auto-refresh
function disableAutoRefresh() {
autoRefreshEnabled = false;
if (autoRefreshInterval) {
clearInterval(autoRefreshInterval);
autoRefreshInterval = null;
}
// Uncheck the checkbox if it exists
const checkbox = document.getElementById('auto-refresh-checkbox');
if (checkbox) {
checkbox.checked = false;
}
console.log('Auto-refresh disabled');
}
// Close modal when clicking outside of it
window.addEventListener('click', function(event) {
const modal = document.getElementById('logs-modal');
if (modal && event.target === modal) {
closeLogsModal();
}
});
// Allow ESC key to close the modal
document.addEventListener('keydown', function(event) {
if (event.key === 'Escape') {
closeLogsModal();
}
});

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// Function to refresh services
function refreshServices() {
const servicesTable = document.getElementById('services-table');
fetch('/admin/services/data')
.then(response => {
if (!response.ok) {
return response.json().then(err => {
throw new Error(err.error || 'Failed to refresh services');
});
}
return response.text();
})
.then(html => {
servicesTable.innerHTML = html;
})
.catch(error => {
console.error('Error refreshing services:', error);
// Show error message in the services table instead of replacing it
const errorHtml = `<table><tbody><tr><td colspan="4"><div class="alert alert-danger">Error refreshing services: ${error.message}</div></td></tr></tbody></table>`;
servicesTable.innerHTML = errorHtml;
// Try again after a short delay
setTimeout(() => {
refreshServices();
}, 3000);
});
}
// Refresh services as soon as the page loads
document.addEventListener('DOMContentLoaded', function() {
refreshServices();
});
// Function to start a new service
function startService(event) {
event.preventDefault();
const form = document.getElementById('start-service-form');
const resultDiv = document.getElementById('start-result');
const formData = new FormData(form);
fetch('/admin/services/start', {
method: 'POST',
body: formData
})
.then(response => response.json())
.then(data => {
if (data.error) {
resultDiv.className = 'alert alert-danger';
resultDiv.textContent = data.error;
} else {
resultDiv.className = 'alert alert-success';
resultDiv.textContent = data.message;
form.reset();
refreshServices();
}
resultDiv.style.display = 'block';
setTimeout(() => {
resultDiv.style.display = 'none';
}, 5000);
})
.catch(error => {
resultDiv.className = 'alert alert-danger';
resultDiv.textContent = 'An error occurred: ' + error.message;
resultDiv.style.display = 'block';
});
}
// Function to stop a process
function stopProcess(name) {
if (!confirm('Are you sure you want to stop this service?')) return;
const formData = new FormData();
formData.append('name', name);
fetch('/admin/services/stop', {
method: 'POST',
body: formData
})
.then(response => response.json())
.then(data => {
if (data.error) {
alert('Error: ' + data.error);
} else {
refreshServices();
}
})
.catch(error => {
alert('An error occurred: ' + error.message);
});
}
// Function to restart a process
function restartProcess(name) {
if (!confirm('Are you sure you want to restart this service?')) return;
const formData = new FormData();
formData.append('name', name);
fetch('/admin/services/restart', {
method: 'POST',
body: formData
})
.then(response => response.json())
.then(data => {
if (data.error) {
alert('Error: ' + data.error);
} else {
refreshServices();
}
})
.catch(error => {
alert('An error occurred: ' + error.message);
});
}
// Function to delete a process
function deleteProcess(name) {
if (!confirm('Are you sure you want to delete this service? This cannot be undone.')) return;
const formData = new FormData();
formData.append('name', name);
fetch('/admin/services/delete', {
method: 'POST',
body: formData
})
.then(response => response.json())
.then(data => {
if (data.error) {
alert('Error: ' + data.error);
} else {
refreshServices();
}
})
.catch(error => {
alert('An error occurred: ' + error.message);
});
}
// Function to show process logs
function showProcessLogs(name) {
// Create a modal to show logs
const modal = document.createElement('div');
modal.className = 'modal';
modal.innerHTML = `
<div class="modal-content">
<div class="modal-header">
<h2>Logs for ${name}</h2>
<span class="close">&times;</span>
</div>
<div class="modal-body">
<pre id="log-content" style="height: 400px; overflow-y: auto; background: #f5f5f5; padding: 10px;">Loading logs...</pre>
</div>
<div class="modal-footer">
<button class="button refresh" onclick="refreshLogs('${name}')">Refresh Logs</button>
<button class="button secondary" onclick="closeModal()">Close</button>
</div>
</div>
`;
document.body.appendChild(modal);
// Add modal styles if not already present
if (!document.getElementById('modal-styles')) {
const style = document.createElement('style');
style.id = 'modal-styles';
style.innerHTML = `
.modal {
display: block;
position: fixed;
z-index: 1000;
left: 0;
top: 0;
width: 100%;
height: 100%;
background-color: rgba(0,0,0,0.4);
}
.modal-content {
background-color: #fefefe;
margin: 5% auto;
padding: 20px;
border: 1px solid #888;
width: 80%;
max-width: 800px;
border-radius: 5px;
box-shadow: 0 4px 8px rgba(0,0,0,0.1);
}
.modal-header {
display: flex;
justify-content: space-between;
align-items: center;
border-bottom: 1px solid #eee;
padding-bottom: 10px;
margin-bottom: 15px;
}
.modal-footer {
border-top: 1px solid #eee;
padding-top: 15px;
margin-top: 15px;
text-align: right;
}
.close {
color: #aaa;
font-size: 28px;
font-weight: bold;
cursor: pointer;
}
.close:hover {
color: black;
}
`;
document.head.appendChild(style);
}
// Close modal when clicking the X
modal.querySelector('.close').onclick = closeModal;
// Load the logs
loadLogs(name);
// Close modal when clicking outside
window.onclick = function(event) {
if (event.target === modal) {
closeModal();
}
};
}
// Function to load logs
function loadLogs(name) {
fetch(`/admin/services/logs?name=${encodeURIComponent(name)}&lines=100`)
.then(response => response.json())
.then(data => {
const logContent = document.getElementById('log-content');
if (data.error) {
logContent.textContent = `Error: ${data.error}`;
} else {
logContent.textContent = data.logs || 'No logs available';
// Scroll to bottom
logContent.scrollTop = logContent.scrollHeight;
}
})
.catch(error => {
document.getElementById('log-content').textContent = `Error loading logs: ${error.message}`;
});
}
// Function to refresh logs
function refreshLogs(name) {
document.getElementById('log-content').textContent = 'Refreshing logs...';
loadLogs(name);
}
// Function to close the modal
function closeModal() {
const modal = document.querySelector('.modal');
if (modal) {
document.body.removeChild(modal);
}
window.onclick = null;
}

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{{ extends "layout" }}
{{ block documentBody() }}
<article>
<header>
<h2>Dashboard</h2>
<p>Welcome to the HeroLauncher Admin Dashboard</p>
</header>
<div class="grid">
<div>
<article>
<header>
<h3>System Status</h3>
</header>
<div class="grid">
<div>
<h4>Services</h4>
<p>
<strong>12</strong> running
</p>
</div>
<div>
<h4>CPU</h4>
<p>
<strong>24%</strong> usage
</p>
</div>
<div>
<h4>Memory</h4>
<p>
<strong>1.2GB</strong> / 8GB
</p>
</div>
</div>
</article>
</div>
<div>
<article>
<header>
<h3>Recent Activity</h3>
</header>
<ul>
<li>Service 'redis' started (2 minutes ago)</li>
<li>Package 'web-ui' updated (10 minutes ago)</li>
<li>System backup completed (1 hour ago)</li>
<li>User 'admin' logged in (2 hours ago)</li>
</ul>
</article>
</div>
</div>
<article>
<header>
<h3>Quick Actions</h3>
</header>
<div class="grid">
<div>
<a href="/admin/services/start" role="button">Start Service</a>
</div>
<div>
<a href="/admin/services/stop" role="button" class="secondary">Stop Service</a>
</div>
<div>
<a href="/admin/packages/install" role="button" class="contrast">Install Package</a>
</div>
</div>
</article>
</article>
{{ end }}

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{{ extends "./layout" }}
{{ block documentBody() }}
<div class="main-content">
<header class="action-header">
<div>
<h2>Jobs</h2>
<p>Manage all your scheduled jobs</p>
</div>
<div>
<a href="/admin/jobs/new" class="button">Add New Job</a>
</div>
</header>
{{if len(warning) > 0}}
<div class="alert alert-warning">
{{warning}}
</div>
{{end}}
{{if len(error) > 0}}
<div class="alert alert-error">
{{error}}
</div>
{{end}}
<section>
<div class="card">
<div class="card-title">Filter Jobs</div>
<div class="card-content">
<form action="/admin/jobs/list" up-target="#jobs-list">
<div class="form-group">
<label for="circleid">Circle ID</label>
<input id="circleid" type="text" name="circleid" placeholder="Enter circle ID">
</div>
<div class="form-group">
<label for="topic">Topic</label>
<input id="topic" type="text" name="topic" placeholder="Enter topic">
</div>
<div class="form-actions">
<button class="button" type="submit">Filter Jobs</button>
<a href="/admin/jobs/list" class="button" up-target="#jobs-list">Refresh</a>
</div>
</form>
</div>
</div>
<div id="jobs-list">
<!-- This will be populated by the server response -->
<div up-hungry>
<a href="/admin/jobs/list" up-target="#jobs-list" up-preload up-eager></a>
</div>
</div>
</section>
</div>
{{ end }}

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<div class="card">
<div class="card-title">Jobs List</div>
{{if len(error) > 0}}
<div class="alert alert-error">
{{error}}
</div>
{{end}}
<div class="card-content">
<table class="table">
<thead>
<tr>
<th>Job ID</th>
<th>Circle ID</th>
<th>Topic</th>
<th>Status</th>
<th>Actions</th>
</tr>
</thead>
<tbody>
{{if len(jobs) == 0}}
<tr>
<td colspan="5" class="text-center">No jobs found</td>
</tr>
{{else}}
{{range job := jobs}}
<tr>
<td>{{job.JobID}}</td>
<td>{{job.CircleID}}</td>
<td>{{job.Topic}}</td>
<td>
<span class="status-badge status-{{job.Status}}">{{job.Status}}</span>
</td>
<td>
<a href="/admin/jobs/get/{{job.JobID}}" class="button button-small" up-target=".main-content">View</a>
</td>
</tr>
{{end}}
{{end}}
</tbody>
</table>
</div>
</div>

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<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1.0">
<title>HeroLauncher Admin</title>
<link rel="icon" href="/img/hero-icon.svg" type="image/svg+xml">
<link rel="shortcut icon" href="/favicon.ico">
<link rel="stylesheet" href="/css/pico.min.css">
<link rel="stylesheet" href="/css/admin.css">
<link rel="stylesheet" href="/css/unpoly.min.css">
<link rel="stylesheet" href="/css/logs.css">
<link rel="stylesheet" href="/css/jobs.css">
<style>
:root {
--font-size: 70%; /* Reduce font size by 30% */
}
</style>
</head>
<body>
{{ include "partials/header" }}
<div class="sidebar">
<nav>
{{ include "partials/sidebar" }}
</nav>
</div>
<main>
{{block documentBody()}}{{end}}
</main>
<script src="/js/unpoly.min.js"></script>
<script src="/js/echarts/echarts.min.js"></script>
<script src="/js/admin.js"></script>
{{block scripts()}}{{end}}
</body>
</html>

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{{ extends "../layout" }}
{{ block documentBody() }}
<div class="container-fluid p-4">
<div class="row mb-4">
<div class="col">
<h1 class="mb-3">OpenRPC Manager</h1>
<p class="lead">This page provides access to all available OpenRPC servers and their APIs.</p>
</div>
</div>
<div class="row mb-4">
<div class="col">
<div class="card">
<div class="card-header">
<h5 class="mb-0">Available OpenRPC Servers</h5>
</div>
<div class="card-body">
<table class="table table-striped">
<thead>
<tr>
<th>Server Name</th>
<th>Description</th>
<th>Status</th>
<th>Actions</th>
</tr>
</thead>
<tbody>
<tr>
<td>Virtual File System (VFS)</td>
<td>Provides file system operations including upload, download, and metadata management</td>
<td>
<span class="badge bg-success">Running</span>
</td>
<td>
<a href="/admin/openrpc/vfs" class="btn btn-sm btn-primary">View API</a>
<a href="/api/vfs/openrpc" target="_blank" class="btn btn-sm btn-secondary ms-2">Schema</a>
</td>
</tr>
</tbody>
</table>
</div>
</div>
</div>
</div>
<div class="row">
<div class="col">
<div class="card">
<div class="card-header">
<h5 class="mb-0">OpenRPC Information</h5>
</div>
<div class="card-body">
<p>
<strong>What is OpenRPC?</strong> OpenRPC is a standard for describing JSON-RPC 2.0 APIs, similar to how OpenAPI (Swagger) describes REST APIs.
</p>
<p>
<strong>Benefits:</strong>
<ul>
<li>Standardized API documentation</li>
<li>Automatic client and server code generation</li>
<li>Consistent interface across different programming languages</li>
<li>Self-documenting APIs with built-in schema validation</li>
</ul>
</p>
<p>
<strong>Learn more:</strong>
<a href="https://open-rpc.org/" target="_blank">open-rpc.org</a>
</p>
</div>
</div>
</div>
</div>
</div>
{{ end }}
{{ block scripts() }}
<script>
document.addEventListener('DOMContentLoaded', function() {
// Add any JavaScript functionality here
console.log('OpenRPC Manager page loaded');
});
</script>
{{ end }}

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{{ extends "../layout" }}
{{ block documentBody() }}
<div class="container-fluid p-4">
<div class="row mb-4">
<div class="col">
<h1 class="mb-3">Virtual File System API</h1>
<p class="lead">This page provides access to the VFS OpenRPC API documentation, methods, and logs.</p>
</div>
</div>
<!-- Tabs navigation -->
<div class="row mb-4">
<div class="col">
<ul class="nav nav-tabs" id="vfsTabs">
<li class="nav-item">
<a class="nav-link active" href="#overview" up-target=".tab-content">Overview</a>
</li>
<li class="nav-item">
<a class="nav-link" href="/admin/openrpc/vfs/logs" up-target="#logs">Logs</a>
</li>
</ul>
</div>
</div>
<!-- Tab content -->
<div class="tab-content">
<!-- Overview tab -->
<div id="overview">
{{ include "./vfs_overview" }}
</div>
<!-- Logs tab (will be loaded via Unpoly) -->
<div id="logs">
<div class="text-center py-5">
<div class="spinner-border" role="status">
<div class="mt-3">Loading logs...</div>
</div>
</div>
</div>
</div>
</div>
{{ end }}
{{ block scripts() }}
<script>
/* Handle tab switching */
up.compiler('#vfsTabs a', function(element) {
element.addEventListener('click', function(e) {
/* Remove active class from all tabs */
document.querySelectorAll('#vfsTabs a').forEach(function(tab) {
tab.classList.remove('active');
});
/* Add active class to clicked tab */
element.classList.add('active');
/* If overview tab is clicked, show overview and hide logs */
if (element.getAttribute('href') === '#overview') {
e.preventDefault(); /* Prevent default anchor behavior */
document.getElementById('overview').style.display = 'block';
document.getElementById('logs').style.display = 'none';
} else {
/* For logs tab, hide overview (logs will be loaded via Unpoly) */
document.getElementById('overview').style.display = 'none';
}
});
});
document.addEventListener('DOMContentLoaded', function() {
const methodSelect = document.getElementById('method-select');
const methodParams = document.getElementById('method-params');
const paramFields = document.getElementById('param-fields');
const executeBtn = document.getElementById('execute-btn');
const resultContainer = document.getElementById('result-container');
const resultOutput = document.getElementById('result-output');
/* Method parameter definitions */
const methodDefinitions = {
'UploadFile': [
{ name: 'vfspath', type: 'string', description: 'Path in the virtual file system' },
{ name: 'dedupepath', type: 'string', description: 'Path for deduplication' },
{ name: 'filepath', type: 'string', description: 'Local file path to upload' }
],
'UploadDir': [
{ name: 'vfspath', type: 'string', description: 'Path in the virtual file system' },
{ name: 'dedupepath', type: 'string', description: 'Path for deduplication' },
{ name: 'dirpath', type: 'string', description: 'Local directory path to upload' }
],
'DownloadFile': [
{ name: 'vfspath', type: 'string', description: 'Path in the virtual file system' },
{ name: 'dedupepath', type: 'string', description: 'Path for deduplication' },
{ name: 'destpath', type: 'string', description: 'Local destination path' }
],
'ExportMeta': [
{ name: 'vfspath', type: 'string', description: 'Path in the virtual file system' },
{ name: 'destpath', type: 'string', description: 'Local destination path for metadata' }
],
'ImportMeta': [
{ name: 'vfspath', type: 'string', description: 'Path in the virtual file system' },
{ name: 'sourcepath', type: 'string', description: 'Local source path for metadata' }
],
'ExportDedupe': [
{ name: 'vfspath', type: 'string', description: 'Path in the virtual file system' },
{ name: 'dedupepath', type: 'string', description: 'Path for deduplication' },
{ name: 'destpath', type: 'string', description: 'Local destination path for dedupe info' }
],
'ImportDedupe': [
{ name: 'vfspath', type: 'string', description: 'Path in the virtual file system' },
{ name: 'dedupepath', type: 'string', description: 'Path for deduplication' },
{ name: 'sourcepath', type: 'string', description: 'Local source path for dedupe info' }
],
'Send': [
{ name: 'dedupepath', type: 'string', description: 'Path for deduplication' },
{ name: 'pubkeydest', type: 'string', description: 'Public key of destination' },
{ name: 'hashlist', type: 'array', description: 'List of hashes to send' },
{ name: 'secret', type: 'string', description: 'Secret for authentication' }
],
'SendExist': [
{ name: 'dedupepath', type: 'string', description: 'Path for deduplication' },
{ name: 'pubkeydest', type: 'string', description: 'Public key of destination' },
{ name: 'hashlist', type: 'array', description: 'List of hashes to check' },
{ name: 'secret', type: 'string', description: 'Secret for authentication' }
],
'ExposeWebDAV': [
{ name: 'vfspath', type: 'string', description: 'Path in the virtual file system' },
{ name: 'port', type: 'number', description: 'Port to expose on' },
{ name: 'username', type: 'string', description: 'WebDAV username' },
{ name: 'password', type: 'string', description: 'WebDAV password' }
],
'Expose9P': [
{ name: 'vfspath', type: 'string', description: 'Path in the virtual file system' },
{ name: 'port', type: 'number', description: 'Port to expose on' },
{ name: 'readonly', type: 'boolean', description: 'Whether to expose as read-only' }
]
};
/* When a method is selected, show the parameter form */
methodSelect.addEventListener('change', function() {
const selectedMethod = this.value;
if (!selectedMethod) {
methodParams.classList.add('d-none');
return;
}
/* Clear previous parameters */
paramFields.innerHTML = '';
/* Add parameter fields for the selected method */
const params = methodDefinitions[selectedMethod] || [];
params.forEach(param => {
const formGroup = document.createElement('div');
formGroup.className = 'form-group mb-2';
const label = document.createElement('label');
label.textContent = `${param.name} (${param.type}):`;
label.setAttribute('for', `param-${param.name}`);
const input = document.createElement('input');
input.className = 'form-control';
input.id = `param-${param.name}`;
input.name = param.name;
input.setAttribute('data-type', param.type);
if (param.type === 'boolean') {
input.type = 'checkbox';
input.className = 'form-check-input ms-2';
} else {
input.type = 'text';
}
const small = document.createElement('small');
small.className = 'form-text text-muted';
small.textContent = param.description;
formGroup.appendChild(label);
formGroup.appendChild(input);
formGroup.appendChild(small);
paramFields.appendChild(formGroup);
});
methodParams.classList.remove('d-none');
});
/* Execute button handler */
executeBtn.addEventListener('click', function() {
const selectedMethod = methodSelect.value;
if (!selectedMethod) return;
const params = {};
const paramDefs = methodDefinitions[selectedMethod] || [];
/* Collect parameter values */
paramDefs.forEach(param => {
const input = document.getElementById(`param-${param.name}`);
if (!input) return;
let value = input.value;
if (param.type === 'boolean') {
value = input.checked;
} else if (param.type === 'number') {
value = parseFloat(value);
} else if (param.type === 'array' && value) {
try {
value = JSON.parse(value);
} catch (e) {
value = value.split(',').map(item => item.trim());
}
}
params[param.name] = value;
});
/* Call the API */
fetch(`/api/vfs/${selectedMethod.toLowerCase()}`, {
method: 'POST',
headers: {
'Content-Type': 'application/json'
},
body: JSON.stringify(params)
})
.then(response => response.json())
.then(data => {
resultOutput.textContent = JSON.stringify(data, null, 2);
resultContainer.classList.remove('d-none');
})
.catch(error => {
resultOutput.textContent = `Error: ${error.message}`;
resultContainer.classList.remove('d-none');
});
});
});
</script>
{{ end }}

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<div class="row mb-4">
<div class="col">
<div class="card">
<div class="card-header">
<h5 class="mb-0">OpenRPC Schema</h5>
</div>
<div class="card-body">
<p>The OpenRPC schema describes all available methods for interacting with the Virtual File System.</p>
<a href="/api/vfs/openrpc" target="_blank" class="btn btn-primary">View Schema</a>
</div>
</div>
</div>
</div>
<div class="row">
<div class="col">
<div class="card">
<div class="card-header">
<h5 class="mb-0">Available Methods</h5>
</div>
<div class="card-body">
<table class="table table-striped">
<thead>
<tr>
<th>Method</th>
<th>Description</th>
</tr>
</thead>
<tbody>
<tr>
<td>UploadFile</td>
<td>Uploads a file to the virtual file system</td>
</tr>
<tr>
<td>UploadDir</td>
<td>Uploads a directory to the virtual file system</td>
</tr>
<tr>
<td>DownloadFile</td>
<td>Downloads a file from the virtual file system</td>
</tr>
<tr>
<td>ExportMeta</td>
<td>Exports metadata from the virtual file system</td>
</tr>
<tr>
<td>ImportMeta</td>
<td>Imports metadata to the virtual file system</td>
</tr>
<tr>
<td>ExportDedupe</td>
<td>Exports dedupe information from the virtual file system</td>
</tr>
<tr>
<td>ImportDedupe</td>
<td>Imports dedupe information to the virtual file system</td>
</tr>
<tr>
<td>Send</td>
<td>Sends files based on dedupe hashes to a destination</td>
</tr>
<tr>
<td>SendExist</td>
<td>Checks which dedupe hashes exist and returns a list</td>
</tr>
<tr>
<td>ExposeWebDAV</td>
<td>Exposes the virtual file system via WebDAV</td>
</tr>
<tr>
<td>Expose9P</td>
<td>Exposes the virtual file system via 9P protocol</td>
</tr>
</tbody>
</table>
</div>
</div>
</div>
</div>
<div class="row mt-4">
<div class="col">
<div class="card">
<div class="card-header">
<h5 class="mb-0">API Testing</h5>
</div>
<div class="card-body">
<p class="mb-3">You can test the VFS API methods directly from this interface.</p>
<div class="form-group mb-3">
<label for="method-select">Select Method:</label>
<select id="method-select" class="form-control">
<option value="">-- Select a method --</option>
<option value="UploadFile">UploadFile</option>
<option value="UploadDir">UploadDir</option>
<option value="DownloadFile">DownloadFile</option>
<option value="ExportMeta">ExportMeta</option>
<option value="ImportMeta">ImportMeta</option>
<option value="ExportDedupe">ExportDedupe</option>
<option value="ImportDedupe">ImportDedupe</option>
<option value="Send">Send</option>
<option value="SendExist">SendExist</option>
<option value="ExposeWebDAV">ExposeWebDAV</option>
<option value="Expose9P">Expose9P</option>
</select>
</div>
<div id="method-params" class="d-none">
<h6 class="mb-3">Parameters:</h6>
<div id="param-fields"></div>
</div>
<button id="execute-btn" class="btn btn-primary mt-3">Execute Method</button>
<div id="result-container" class="mt-4 d-none">
<h6>Result:</h6>
<pre id="result-output" class="bg-light p-3 border rounded"></pre>
</div>
</div>
</div>
</div>
</div>

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<!-- header -->
<header>
<nav class="top-nav">
<div class="brand">
<a href="/admin">
<img class="brand-icon" src="/img/hero-icon.svg" alt="HeroLauncher Logo" width="24" height="24">
<span>HeroLauncher</span>
</a>
</div>
<div class="nav-links">
<a class="nav-link" href="/admin">Home</a>
<a class="nav-link" href="/admin/services">Services</a>
<a class="nav-link" href="/admin/system/info">System</a>
</div>
<div class="nav-right">
<input class="search-box" type="search" placeholder="Search...">
<button class="menu-toggle" aria-label="Toggle menu">
<span>Menu</span>
</button>
<a role="button" href="/">Back to App</a>
</div>
</nav>
</header>

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<!-- log-panel - Log panel component -->
<div class="log-panel">
<h3>System Logs</h3>
<div class="log-content"></div>
</div>
<button class="log-toggle" aria-label="Toggle logs">Logs</button>

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<!-- sidebar -->
<div class="sidebar-wrapper">
<nav class="sidebar-nav">
<div class="sidebar-section">
<a class="sidebar-link" href="/admin">Dashboard</a>
</div>
<div class="sidebar-section">
<a class="sidebar-link" href="/admin/system/info">System</a>
</div>
<div class="sidebar-section">
<a class="sidebar-link" href="/admin/system/processes">Processes</a>
</div>
<div class="sidebar-section">
<a class="sidebar-link" href="/admin/services">Services</a>
</div>
<div class="sidebar-section">
<a class="sidebar-link" href="/jobs">Jobs</a>
</div>
<div class="sidebar-section">
<a class="sidebar-link" href="/admin/system/logs">Logs</a>
</div>
</nav>
</div>

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{{ extends "./layout" }}
{{ block documentBody() }}
<div class="services-page">
<h2 class="section-title">Services</h2>
<p class="section-description">Manage all your running services</p>
<div class="two-column-layout">
<div class="card">
<div class="card-title">Active Services</div>
<div class="card-actions">
<button class="button refresh" onclick="refreshServices()">Refresh</button>
</div>
<!-- Service list -->
<div id="services-table">
{{ include "./services_fragment" }}
</div>
</div>
<div class="card">
<div class="card-title">Start New Service</div>
<div class="card-content">
<form id="start-service-form" onsubmit="startService(event)">
<div class="form-group">
<label for="service-name">Service Name</label>
<input id="service-name" type="text" name="name" required="required">
</div>
<div class="form-group">
<label for="service-command">Command</label>
<input id="service-command" type="text" name="command" required="required">
</div>
<div class="form-actions">
<button class="button" type="submit">Start Service</button>
</div>
</form>
</div>
<div id="start-result" class="alert" style="display: none"></div>
</div>
</div>
</div>
{{ end }}
{{ block scripts() }}
<script src="/js/services.js"></script>
{{ end }}

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<table>
<thead>
<tr>
<th>Name</th>
<th>Status</th>
<th>PID</th>
<th>CPU</th>
<th>Memory</th>
<th>Uptime</th>
<th>Actions</th>
</tr>
</thead>
<tbody>
{{ if processes }}
{{ range processes }}
<tr>
<td>{{ .Name }}</td>
<td>
{{ if .Status == "running" }}
<span class="badge success">Running</span>
{{ else if .Status == "stopped" }}
<span class="badge danger">Stopped</span>
{{ else }}
<span class="badge warning">{{ .Status }}</span>
{{ end }}
</td>
<td>{{ .ID }}</td>
<td>{{ if .Status == "running" }}{{ .CPU }}{{ else }}-{{ end }}</td>
<td>{{ if .Status == "running" }}{{ .Memory }}{{ else }}-{{ end }}</td>
<td>{{ if .Status == "running" }}{{ .Uptime }}{{ else }}-{{ end }}</td>
<td>
<div class="button-group">
<button class="button" onclick="restartProcess('{{ .Name }}')">Restart</button>
<button class="button secondary" onclick="stopProcess('{{ .Name }}')">Stop</button>
<button class="button danger" style="background-color: #e53935 !important; color: #fff !important;" onclick="deleteProcess('{{ .Name }}')">Delete</button>
<button class="button info" onclick="showProcessLogs('{{ .Name }}')">Logs</button>
</div>
</td>
</tr>
{{ end }}
{{ else }}
<tr>
<td colspan="7">No services found</td>
</tr>
{{ end }}
</tbody>
</table>

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<!-- Hardware stats fragment for polling updates -->
<tbody>
<tr>
<th scope="row">CPU</th>
<td>{{ cpuInfo }} ({{ cpuUsage }})</td>
</tr>
<tr>
<th scope="row">Memory</th>
<td>{{ memoryInfo }} ({{ memUsage }})</td>
</tr>
<tr>
<th scope="row">Disk</th>
<td>{{ diskInfo }} ({{ diskUsage }})</td>
</tr>
<tr>
<th scope="row">Network</th>
<td style="white-space: pre-line;">{{ networkInfo }}</td>
</tr>
</tbody>

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{{ extends "../layout" }}
{{ block documentBody() }}
<article class="system-info">
<header>
<h2 class="title">System Information</h2>
<p class="description text-muted">Overview of system resources and configuration</p>
</header>
<div class="grid" style="display: grid; grid-template-columns: repeat(auto-fit, minmax(300px, 1fr)); gap: 1rem;">
<div>
<article class="hardware-info">
<header>
<h3 id="hardware-title">Hardware</h3>
</header>
<table class="table table-striped" up:poll="/admin/system/hardware-stats" up:target=".hardware-stats" up:poll-interval="1000">
<tbody>
<tr>
<th scope="row">CPU</th>
<td>{{ cpuInfo }}</td>
</tr>
<tr>
<th scope="row">Memory</th>
<td>{{ memoryInfo }}</td>
</tr>
<tr>
<th scope="row">Disk</th>
<td>{{ diskInfo }}</td>
</tr>
<tr>
<th scope="row">Network</th>
<td style="white-space: pre-line;">{{ networkInfo }}</td>
</tr>
</tbody>
</table>
{{ include "partials/network_chart" }}
</article>
</div>
<div>
<article class="software-info">
<header>
<h3 id="software-title">Software</h3>
</header>
<table class="table table-bordered" data:type="software-info">
<tbody>
<tr>
<th scope="row">OS</th>
<td>{{ osInfo }}</td>
</tr>
<tr>
<th scope="row">HeroLauncher</th>
<td>HeroLauncher</td>
</tr>
<tr>
<th scope="row">Uptime</th>
<td>{{ uptimeInfo }}</td>
</tr>
</tbody>
</table>
{{ include "partials/__cpu_chart" }}
{{ include "partials/__memory_chart" }}
</article>
</div>
</div>
</article>
{{ end }}
{{ block scripts() }}
<script src="/js/echarts/echarts.min.js"></script>
<script src="/js/charts/cpu-chart.js"></script>
<script src="/js/charts/memory-chart.js"></script>
<script src="/js/charts/network-chart.js"></script>
<script src="/js/charts/stats-fetcher.js"></script>
{{ end }}

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{{ extends "../layout" }}
<header>
<h2 class="title">System Jobs</h2>
<p class="description text-muted">Overview of scheduled jobs</p>
</header>
<article class="jobs-info">
<div class="grid" style="display: grid; grid-template-columns: 1fr; gap: 1rem;">
<div>
<article class="jobs-table">
<header>
<h3 id="jobs-title">Scheduled Jobs</h3>
<p class="refresh-status">
<button class="btn btn-sm" onclick="refreshJobs()">
Refresh
<span class="loading-indicator" id="refresh-loading" style="display: none;">&nbsp;Loading...</span>
</button>
</p>
</header>
<div class="jobs-table-content" up-poll="/admin/system/jobs-data" up-hungry="true" up-interval="10000" style="display: block; width: 100%;" id="jobs-content">
{{ if isset(., "error") }}
<div class="alert alert-danger">{{ .error }}</div>
{{ end }}
<table class="table table-striped" id="jobs-stats">
<thead>
<tr>
<th scope="col">ID</th>
<th scope="col">Name</th>
<th scope="col">Status</th>
<th scope="col">Next Run</th>
<th scope="col">Last Run</th>
</tr>
</thead>
<tbody>
{{ if isset(., "jobs") && len(.jobs) > 0 }}
{{ range .jobs }}
<tr class="{{ if .is_current }}table-primary{{ end }}">
<td>{{ .id }}</td>
<td>{{ .name }}</td>
<td>{{ .status }}</td>
<td>{{ .next_run }}</td>
<td>{{ .last_run }}</td>
</tr>
{{ end }}
{{ else }}
<tr>
<td colspan="5">No job data available.</td>
</tr>
{{ end }}
</tbody>
</table>
</div>
</article>
</div>
</div>
</article>

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{{ extends "../layout" }}
{{ block documentBody() }}
<article>
<header class="flex-container">
<div>
<h2>{{title}}</h2>
<p>View and filter logs from different sources</p>
</div>
<div>
<a href="/api/logs/export" role="button" class="outline">Export Logs</a>
</div>
</header>
<article class="filter-controls">
<form class="log-controls" id="log-filter-form" action="/admin/system/logs" method="get" up-target="#logs-table-container" up-submit>
<div class="grid filter-grid">
<div class="filter-item">
<label for="log-type">Log Type</label>
<select id="log-type" name="log_type">
{{range logTypes}}
<option value="{{.}}" {{if selectedLogType == '.'}}selected{{end}}>{{if . == "all"}}All Logs{{else if . == "system"}}System Logs{{else if . == "service"}}Service Logs{{else if . == "job"}}Job Logs{{else if . == "process"}}Process Logs{{end}}</option>
{{end}}
</select>
</div>
<div class="filter-item">
<label for="log-level">Log Level</label>
<select id="log-level" name="type">
<option value="all" {{if typeParam == "all" || typeParam == ""}}selected{{end}}>All Levels</option>
<option value="info" {{if typeParam == "info"}}selected{{end}}>Info</option>
<option value="error" {{if typeParam == "error"}}selected{{end}}>Error</option>
</select>
</div>
<div class="filter-item">
<label for="log-source">Log Source</label>
<select id="log-source" name="category">
<option value="" {{if categoryParam == ""}}selected{{end}}>All Sources</option>
<option value="system" {{if categoryParam == "system"}}selected{{end}}>System</option>
<option value="redis" {{if categoryParam == "redis"}}selected{{end}}>Redis</option>
<option value="executor" {{if categoryParam == "executor"}}selected{{end}}>Executor</option>
<option value="package" {{if categoryParam == "package"}}selected{{end}}>Package Manager</option>
</select>
</div>
<div class="filter-item">
<label for="log-from-date">From Date</label>
<input type="datetime-local" id="log-from-date" name="from">
</div>
<div class="filter-item">
<label for="log-to-date">To Date</label>
<input type="datetime-local" id="log-to-date" name="to">
</div>
<div class="filter-button">
<button type="submit" class="filter-apply" up-target="#logs-table-container">Apply Filters</button>
</div>
</div>
</form>
</article>
<article class="log-container">
<header>
<h3>Log Output</h3>
</header>
<div id="logs-table-container">
<!-- Log content is loaded directly -->
{{ if isset(., "error") }}
<div class="alert alert-danger">{{ .error }}</div>
{{ end }}
<!-- Include logs table -->
<div class="log-table">
<table>
<thead>
<tr>
<th>Timestamp</th>
<th>Level</th>
<th>Source</th>
<th>Message</th>
</tr>
</thead>
<tbody>
{{if isset(., "logs")}}
{{range logs}}
<tr>
<td>{{.timestamp}}</td>
<td class="log-{{.type | lower}}">{{.type}}</td>
<td>{{.category}}</td>
<td>{{.message}}</td>
</tr>
{{else}}
<tr>
<td colspan="4" class="text-center">No logs found matching your criteria</td>
</tr>
{{end}}
{{else}}
<tr>
<td colspan="4" class="text-center">Loading logs...</td>
</tr>
{{end}}
</tbody>
</table>
</div>
<div class="pagination">
<div class="pagination-info">
{{if isset(., "logs")}}
{{if len(logs) > 0}}
<span>Showing {{showing}} of {{total}} logs</span>
{{else}}
<span>No logs found</span>
{{end}}
{{else}}
<span>Loading logs...</span>
{{end}}
</div>
<div class="pagination-controls">
{{if isset(., "page") && isset(., "totalPages")}}
{{if page > 1}}
<a href="/admin/system/logs?page={{page - 1}}{{if isset(., "categoryParam")}}&category={{categoryParam}}{{end}}{{if isset(., "typeParam")}}&type={{typeParam}}{{end}}{{if isset(., "fromParam")}}&from={{fromParam}}{{end}}{{if isset(., "toParam")}}&to={{toParam}}{{end}}" role="button" class="outline secondary" up-target="#logs-table-container">← Previous</a>
{{end}}
{{if page < totalPages}}
<a href="/admin/system/logs?page={{page + 1}}{{if isset(., "categoryParam")}}&category={{categoryParam}}{{end}}{{if isset(., "typeParam")}}&type={{typeParam}}{{end}}{{if isset(., "fromParam")}}&from={{fromParam}}{{end}}{{if isset(., "toParam")}}&to={{toParam}}{{end}}" role="button" class="outline secondary" up-target="#logs-table-container">Next →</a>
{{end}}
{{end}}
</div>
</div>
</div>
</article>
</article>
{{ end }}

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<!-- This template contains just the logs table content for Unpoly updates -->
{{ if isset(., "error") }}
<div class="alert alert-danger">{{ .error }}</div>
{{ end }}
<div class="log-table">
<table>
<thead>
<tr>
<th>Timestamp</th>
<th>Level</th>
<th>Source</th>
<th>Message</th>
</tr>
</thead>
<tbody>
{{range logs}}
<tr>
<td>{{.timestamp}}</td>
<td class="log-{{.type | lower}}">{{.type}}</td>
<td>{{.category}}</td>
<td>{{.message}}</td>
</tr>
{{else}}
<tr>
<td colspan="4" class="text-center">No logs found matching your criteria</td>
</tr>
{{end}}
</tbody>
</table>
</div>
<div class="pagination">
<div class="pagination-info">
{{if len(logs) > 0}}
<span>Showing {{len(logs)}} of {{total}} logs</span>
{{else}}
<span>No logs found</span>
{{end}}
</div>
<div class="pagination-controls">
{{if page > 1}}
<a href="/admin/system/logs?page={{page - 1}}{{if isset(., "selectedLogType")}}&log_type={{selectedLogType}}{{end}}{{if isset(., "categoryParam")}}&category={{categoryParam}}{{end}}{{if isset(., "typeParam")}}&type={{typeParam}}{{end}}{{if isset(., "fromParam")}}&from={{fromParam}}{{end}}{{if isset(., "toParam")}}&to={{toParam}}{{end}}" role="button" class="outline secondary" up-target="#logs-table-container">← Previous</a>
{{end}}
{{if page < totalPages}}
<a href="/admin/system/logs?page={{page + 1}}{{if isset(., "selectedLogType")}}&log_type={{selectedLogType}}{{end}}{{if isset(., "categoryParam")}}&category={{categoryParam}}{{end}}{{if isset(., "typeParam")}}&type={{typeParam}}{{end}}{{if isset(., "fromParam")}}&from={{fromParam}}{{end}}{{if isset(., "toParam")}}&to={{toParam}}{{end}}" role="button" class="outline secondary" up-target="#logs-table-container">Next →</a>
{{end}}
</div>
</div>

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{{ extends "admin/layout" }}
{{ block documentBody() }}
<h1>Test Logs Page</h1>
<p>This is a simple test template</p>
{{ end }}

2
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<h4 style="margin-bottom: 10px;">Process CPU Usage</h4>
<div id="cpu-chart" style="width: 100%; height: 300px; margin-bottom: 30px;"></div>

2
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<h4 style="margin-bottom: 10px;">Process Memory Usage</h4>
<div id="memory-chart" style="width: 100%; height: 300px;"></div>

1
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<!-- Stats fetcher removed - now loaded from external JS file -->

2
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<h4 style="margin-bottom: 10px;">Network Traffic</h4>
<div id="network-chart" style="width: 100%; height: 300px; margin-top: 10px;"></div>

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{{ extends "../layout" }}
{{ block documentBody() }}
<article class="processes-info">
<header>
<h2 class="title">System Processes</h2>
<p class="description text-muted">Overview of running processes with CPU and memory usage</p>
</header>
<div class="grid" style="display: grid; grid-template-columns: 1fr; gap: 1rem;">
<div>
<article class="processes-table">
<header>
<h3 id="processes-title">Running Processes</h3>
<p class="refresh-status">
<button class="btn btn-sm" onclick="refreshProcesses()">
Refresh
<span class="loading-indicator" id="refresh-loading" style="display: none;">&nbsp;Loading...</span>
</button>
</p>
</header>
<div class="processes-table-content" up-poll="/admin/system/processes-data" up-hungry="true" up-interval="10000" style="display: block; width: 100%;" id="processes-content">
{{ if isset(., "error") }}
<div class="alert alert-danger">{{ .error }}</div>
{{ end }}
<table class="table table-striped" id="processes-stats">
<thead>
<tr>
<th scope="col">PID</th>
<th scope="col">Name</th>
<th scope="col">Status</th>
<th scope="col">CPU (%)</th>
<th scope="col">Memory (MB)</th>
<th scope="col">Created</th>
</tr>
</thead>
<tbody>
{{ if isset(., "processes") && len(.processes) > 0 }}
{{ range .processes }}
<tr class="{{ if .is_current }}table-primary{{ end }}">
<td>{{ .pid }}</td>
<td>{{ .name }}</td>
<td>{{ .status }}</td>
<td>{{ .cpu_percent_str }}</td>
<td>{{ .memory_mb_str }}</td>
<td>{{ .create_time_str }}</td>
</tr>
{{ end }}
{{ else }}
<tr>
<td colspan="6">No process data available.</td>
</tr>
{{ end }}
</tbody>
</table>
</div>
</article>
</div>
</div>
</article>
<script>
// Ensure processes data is loaded on page load
document.addEventListener('DOMContentLoaded', function() {
// Check if the processes content is empty or shows 'No process data available'
const processesContent = document.getElementById('processes-content');
const tableBody = processesContent ? processesContent.querySelector('tbody') : null;
if (tableBody && (tableBody.innerText.includes('No process data available') || tableBody.children.length <= 1)) {
console.log('Triggering initial process data load');
refreshProcesses();
}
});
</script>
{{ end }}

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<!-- This template contains just the process table content for AJAX updates -->
<div class="processes-table-content">
{{ if isset(., "error") }}
<div class="alert alert-danger">{{ .error }}</div>
{{ end }}
<!-- Debug info -->
<div class="alert alert-info">
{{ if isset(., "debug") }}
Debug: {{ debug }}
{{ end }}
<!-- Direct debug output to help troubleshoot -->
Has processes: {{ hasProcesses ? "Yes" : "No" }}
Process count: {{ processCount }}
</div>
<table class="table table-striped" id="processes-stats">
<thead>
<tr>
<th scope="col">PID</th>
<th scope="col">Name</th>
<th scope="col">Status</th>
<th scope="col">CPU (%)</th>
<th scope="col">Memory (MB)</th>
<th scope="col">Created</th>
</tr>
</thead>
<tbody>
{{ if hasProcesses }}
{{ range processStats }}
<tr{{ if .is_current == true }} class="table-primary"{{ end }}>
<td>{{ .pid }}</td>
<td>{{ .name }}</td>
<td>{{ .status }}</td>
<td>{{ .cpu_percent_str }}</td>
<td>{{ .memory_mb_str }}</td>
<td>{{ .create_time_str }}</td>
</tr>
{{ end }}
{{ else }}
<tr>
<td colspan="6">No process data available.</td>
</tr>
{{ end }}
</tbody>
</table>
</div>

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<!-- This template contains just the process table content for AJAX updates -->
{{ if .error }}
<div class="alert alert-danger">{{ .error }}</div>
{{ end }}
<!-- Process data table - regenerated on each refresh -->
<table class="table table-striped" id="processes-table">
<thead>
<tr>
<th scope='col'>PID</th>
<th scope='col'>Name</th>
<th scope='col'>Status</th>
<th scope='col'>CPU (%)</th>
<th scope='col'>Memory (MB)</th>
<th scope='col'>Created</th>
</tr>
</thead>
<tbody>
{{ if .processes }}
{{ range .processes }}
<tr{{ if .is_current }} class="table-primary"{{ end }}>
<td>{{ .pid }}</td>
<td>{{ .name }}</td>
<td>{{ .status }}</td>
<td>{{ .cpu_percent | printf("%.1f%%") }}</td>
<td>{{ .memory_mb | printf("%.1f MB") }}</td>
<td>{{ .create_time_str }}</td>
</tr>
{{ end }}
{{ else }}
<tr>
<td colspan="6">No process data available.</td>
</tr>
{{ end }}
</tbody>
</table>

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{{ if isset(., "error") }}
<div class="alert alert-danger">{{ .error }}</div>
{{ end }}
<table class="table table-striped" id="processes-stats">
<thead>
<tr>
<th scope="col">PID</th>
<th scope="col">Name</th>
<th scope="col">Status</th>
<th scope="col">CPU (%)</th>
<th scope="col">Memory (MB)</th>
<th scope="col">Created</th>
</tr>
</thead>
<tbody>
{{ if isset(., "processes") }}
{{ if .processes }}
{{ range .processes }}
<tr class="{{ if .is_current }}table-primary{{ end }}">
<td>{{.pid}}</td>
<td>{{.name}}</td>
<td>{{.status}}</td>
<td>{{ printf("%.1f%%", .cpu_percent) }}</td>
<td>{{ printf("%.1f MB", .memory_mb) }}</td>
<td>{{.create_time_str}}</td>
</tr>
{{ end }}
{{ else }}
<tr>
<td colspan="6">No process data available.</td>
</tr>
{{ end }}
{{ else }}
<tr>
<td colspan="6">Loading process data...</td>
</tr>
{{ end }}
</tbody>
</table>

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{{ extends "../../layout" }}
{{ block documentBody() }}
<article>
<header>
<h2>System Settings</h2>
<p>Configure system parameters and preferences</p>
</header>
<form>
<div class="grid">
<div>
<article>
<header>
<h3>Server Settings</h3>
</header>
<label for="server-port">Server Port</label>
<input id="server-port" type="number" value="9001">
<label for="log-level">Default Log Level</label>
<select id="log-level">
<option value="info">Info</option>
<option value="warning">Warning</option>
<option value="error">Error</option>
<option value="debug">Debug</option>
</select>
<label for="max-connections">Max Connections</label>
<input id="max-connections" type="number" value="100">
</article>
</div>
<div>
<article>
<header>
<h3>Security Settings</h3>
</header>
<label for="enable-auth">Enable Authentication</label>
<input id="enable-auth" type="checkbox" checked>
<label for="session-timeout">Session Timeout (minutes)</label>
<input id="session-timeout" type="number" value="30">
<label for="allowed-origins">Allowed Origins (CORS)</label>
<input id="allowed-origins" type="text" value="*">
</article>
</div>
</div>
<div class="grid">
<div>
<article>
<header>
<h3>Redis Settings</h3>
</header>
<label for="redis-port">Redis Port</label>
<input id="redis-port" type="number" value="6378">
<label for="redis-max-memory">Max Memory (MB)</label>
<input id="redis-max-memory" type="number" value="512">
</article>
</div>
<div>
<article>
<header>
<h3>Executor Settings</h3>
</header>
<label for="executor-timeout">Command Timeout (seconds)</label>
<input id="executor-timeout" type="number" value="60">
<label for="executor-max-processes">Max Concurrent Processes</label>
<input id="executor-max-processes" type="number" value="10">
</article>
</div>
</div>
<button type="submit">Save Settings</button>
<button class="secondary" type="reset">Reset</button>
</form>
</article>
{{ end }}

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<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1.0">
<title>{{.title}} - HeroLauncher</title>
<link rel="stylesheet" href="/static/css/bootstrap.min.css">
<link rel="stylesheet" href="/static/css/custom.css">
<script src="/static/js/jquery.min.js"></script>
<script src="/static/js/bootstrap.bundle.min.js"></script>
<script src="/static/js/unpoly.min.js"></script>
</head>
<body>
<div class="container-fluid p-4">
<div class="row mb-4">
<div class="col">
<h2>{{.managerName}} Logs</h2>
<p>View and filter logs from the {{.managerName}} service.</p>
</div>
</div>
<div class="row mb-4">
<div class="col">
<div class="card">
<div class="card-header">
<h5 class="mb-0">Filter Logs</h5>
</div>
<div class="card-body">
<form id="filter-form">
<input type="hidden" id="manager" name="manager" value="{{.managerName}}">
<input type="hidden" id="endpoint" name="endpoint" value="{{.managerEndpoint}}">
<div class="row">
<div class="col-md-3">
<label for="method-filter">Filter by Method:</label>
<select class="form-control" id="method-filter">
<option value="">All Methods</option>
{{range .methods}}
<option value="{{.}}">{{index $.methodDisplayNames .}}</option>
{{end}}
</select>
</div>
<div class="col-md-3">
<label for="status-filter">Filter by Status:</label>
<select class="form-control" id="status-filter">
<option value="">All Statuses</option>
<option value="success">Success</option>
<option value="error">Error</option>
</select>
</div>
<div class="col-md-3">
<label for="date-filter">Filter by Date:</label>
<input type="date" class="form-control" id="date-filter">
</div>
<div class="col-md-3">
<label for="limit-filter">Limit Results:</label>
<select class="form-control" id="limit-filter">
<option value="50">50</option>
<option value="100">100</option>
<option value="200">200</option>
<option value="500">500</option>
</select>
</div>
</div>
<div class="row mt-3">
<div class="col">
<button type="button" id="apply-filters" class="btn btn-primary">Apply Filters</button>
<button type="button" id="reset-filters" class="btn btn-secondary">Reset Filters</button>
</div>
</div>
</form>
</div>
</div>
</div>
</div>
<div class="row">
<div class="col">
<div class="card">
<div class="card-header">
<h5 class="mb-0">Logs</h5>
</div>
<div class="card-body">
<div class="table-responsive">
<table class="table table-striped">
<thead>
<tr>
<th>Timestamp</th>
<th>Method</th>
<th>Status</th>
<th>Duration</th>
<th>Details</th>
</tr>
</thead>
<tbody id="logs-table-body">
<!-- Logs will be loaded here -->
</tbody>
</table>
</div>
</div>
</div>
</div>
</div>
</div>
<script>
$(document).ready(function() {
// Apply filters when the button is clicked
$('#apply-filters').click(function() {
const queryParams = new URLSearchParams();
// Get filter values
const methodFilter = $('#method-filter').val();
const statusFilter = $('#status-filter').val();
const dateFilter = $('#date-filter').val();
const limitFilter = $('#limit-filter').val();
// Add filters to query parameters if they are set
if (methodFilter) queryParams.append('method', methodFilter);
if (statusFilter) queryParams.append('status', statusFilter);
if (dateFilter) queryParams.append('date', dateFilter);
if (limitFilter) queryParams.append('limit', limitFilter);
// Add the manager and endpoint parameters to preserve them when reloading
queryParams.append('manager', document.getElementById('manager').value);
queryParams.append('endpoint', document.getElementById('endpoint').value);
// Redirect to the same page with new query parameters
window.location.href = '/admin/openrpc/vfs/logs?' + queryParams.toString();
});
// Reset filters when the button is clicked
$('#reset-filters').click(function() {
// Clear all filter inputs
$('#method-filter').val('');
$('#status-filter').val('');
$('#date-filter').val('');
$('#limit-filter').val('50');
// Redirect to the base URL with only manager and endpoint parameters
const queryParams = new URLSearchParams();
queryParams.append('manager', document.getElementById('manager').value);
queryParams.append('endpoint', document.getElementById('endpoint').value);
window.location.href = '/admin/openrpc/vfs/logs?' + queryParams.toString();
});
});
</script>
</body>
</html>