Fix data caching to prevent empty broadcasts

CRITICAL FIX: Collectors now update cached AgentData instead of
creating new empty data each cycle. This prevents the dashboard
from seeing flashing/disappearing data.

- Add cached_agent_data field to Agent struct
- Update cached data when collectors run
- Always broadcast the full cached data every 2s
- Only individual collectors respect their intervals
- Bump version to v0.1.230

CLAUDE.md

@@ -327,9 +327,16 @@ Storage:
   ├─ ● Data_2: GGA04461 T: 28°C
   └─ ● Parity: WDZS8RY0 T: 29°C
 Backup:
+● Repo: 4
+  ├─ getea
+  ├─ vaultwarden
+  ├─ mysql
+  └─ immich
+● W800639Y W: 2%
+  ├─ ● Backup: 2025-11-29T04:00:01.324623
+  └─ ● Usage: 8% 70GB/916GB
 ● WD-WCC7K1234567 T: 32°C W: 12%
-  ├─ Last: 2h ago (12.3GB)
-  ├─ Next: in 22h
+  ├─ ● Backup: 2025-11-29T04:00:01.324623
   └─ ● Usage: 45% 678GB/1.5TB
 ```
 

Cargo.lock

@@ -279,7 +279,7 @@ checksum = "a1d728cc89cf3aee9ff92b05e62b19ee65a02b5702cff7d5a377e32c6ae29d8d"
 
 [[package]]
 name = "cm-dashboard"
-version = "0.1.166"
+version = "0.1.230"
 dependencies = [
  "anyhow",
  "chrono",
@@ -301,7 +301,7 @@ dependencies = [
 
 [[package]]
 name = "cm-dashboard-agent"
-version = "0.1.166"
+version = "0.1.230"
 dependencies = [
  "anyhow",
  "async-trait",
@@ -309,6 +309,7 @@ dependencies = [
  "chrono-tz",
  "clap",
  "cm-dashboard-shared",
+ "futures",
  "gethostname",
  "lettre",
  "reqwest",
@@ -324,7 +325,7 @@ dependencies = [
 
 [[package]]
 name = "cm-dashboard-shared"
-version = "0.1.166"
+version = "0.1.230"
 dependencies = [
  "chrono",
  "serde",
@@ -552,6 +553,21 @@ dependencies = [
  "percent-encoding",
 ]
 
+[[package]]
+name = "futures"
+version = "0.3.31"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "65bc07b1a8bc7c85c5f2e110c476c7389b4554ba72af57d8445ea63a576b0876"
+dependencies = [
+ "futures-channel",
+ "futures-core",
+ "futures-executor",
+ "futures-io",
+ "futures-sink",
+ "futures-task",
+ "futures-util",
+]
+
 [[package]]
 name = "futures-channel"
 version = "0.3.31"
@@ -559,6 +575,7 @@ source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "2dff15bf788c671c1934e366d07e30c1814a8ef514e1af724a602e8a2fbe1b10"
 dependencies = [
  "futures-core",
+ "futures-sink",
 ]
 
 [[package]]
@@ -567,12 +584,34 @@ version = "0.3.31"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "05f29059c0c2090612e8d742178b0580d2dc940c837851ad723096f87af6663e"
 
+[[package]]
+name = "futures-executor"
+version = "0.3.31"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "1e28d1d997f585e54aebc3f97d39e72338912123a67330d723fdbb564d646c9f"
+dependencies = [
+ "futures-core",
+ "futures-task",
+ "futures-util",
+]
+
 [[package]]
 name = "futures-io"
 version = "0.3.31"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "9e5c1b78ca4aae1ac06c48a526a655760685149f0d465d21f37abfe57ce075c6"
 
+[[package]]
+name = "futures-macro"
+version = "0.3.31"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "162ee34ebcb7c64a8abebc059ce0fee27c2262618d7b60ed8faf72fef13c3650"
+dependencies = [
+ "proc-macro2",
+ "quote",
+ "syn",
+]
+
 [[package]]
 name = "futures-sink"
 version = "0.3.31"
@@ -591,8 +630,11 @@ version = "0.3.31"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "9fa08315bb612088cc391249efdc3bc77536f16c91f6cf495e6fbe85b20a4a81"
 dependencies = [
+ "futures-channel",
  "futures-core",
  "futures-io",
+ "futures-macro",
+ "futures-sink",
  "futures-task",
  "memchr",
  "pin-project-lite",

agent/Cargo.toml

@@ -1,6 +1,6 @@
 [package]
 name = "cm-dashboard-agent"
-version = "0.1.166"
+version = "0.1.230"
 edition = "2021"
 
 [dependencies]
@@ -20,4 +20,5 @@ gethostname = { workspace = true }
 chrono-tz = "0.8"
 toml = { workspace = true }
 async-trait = "0.1"
-reqwest = { version = "0.11", features = ["json", "blocking"] }
+reqwest = { version = "0.11", features = ["json", "blocking"] }
+futures = "0.3"

agent/src/agent.rs

@@ -1,10 +1,10 @@
 use anyhow::Result;
 use gethostname::gethostname;
-use std::time::Duration;
+use std::time::{Duration, Instant};
 use tokio::time::interval;
 use tracing::{debug, error, info};
 
-use crate::communication::{AgentCommand, ZmqHandler};
+use crate::communication::ZmqHandler;
 use crate::config::AgentConfig;
 use crate::collectors::{
     Collector,
@@ -19,13 +19,22 @@ use crate::collectors::{
 use crate::notifications::NotificationManager;
 use cm_dashboard_shared::AgentData;
 
+/// Wrapper for collectors with timing information
+struct TimedCollector {
+    collector: Box<dyn Collector>,
+    interval: Duration,
+    last_collection: Option<Instant>,
+    name: String,
+}
+
 pub struct Agent {
     hostname: String,
     config: AgentConfig,
     zmq_handler: ZmqHandler,
-    collectors: Vec<Box<dyn Collector>>,
+    collectors: Vec<TimedCollector>,
     notification_manager: NotificationManager,
     previous_status: Option<SystemStatus>,
+    cached_agent_data: AgentData,
 }
 
 /// Track system component status for change detection
@@ -55,36 +64,78 @@ impl Agent {
             config.zmq.publisher_port
         );
 
-        // Initialize collectors
-        let mut collectors: Vec<Box<dyn Collector>> = Vec::new();
-        
+        // Initialize collectors with timing information
+        let mut collectors: Vec<TimedCollector> = Vec::new();
+
         // Add enabled collectors
         if config.collectors.cpu.enabled {
-            collectors.push(Box::new(CpuCollector::new(config.collectors.cpu.clone())));
+            collectors.push(TimedCollector {
+                collector: Box::new(CpuCollector::new(config.collectors.cpu.clone())),
+                interval: Duration::from_secs(config.collectors.cpu.interval_seconds),
+                last_collection: None,
+                name: "CPU".to_string(),
+            });
+            info!("CPU collector initialized with {}s interval", config.collectors.cpu.interval_seconds);
         }
-        
+
         if config.collectors.memory.enabled {
-            collectors.push(Box::new(MemoryCollector::new(config.collectors.memory.clone())));
+            collectors.push(TimedCollector {
+                collector: Box::new(MemoryCollector::new(config.collectors.memory.clone())),
+                interval: Duration::from_secs(config.collectors.memory.interval_seconds),
+                last_collection: None,
+                name: "Memory".to_string(),
+            });
+            info!("Memory collector initialized with {}s interval", config.collectors.memory.interval_seconds);
         }
-        
+
         if config.collectors.disk.enabled {
-            collectors.push(Box::new(DiskCollector::new(config.collectors.disk.clone())));
+            collectors.push(TimedCollector {
+                collector: Box::new(DiskCollector::new(config.collectors.disk.clone())),
+                interval: Duration::from_secs(config.collectors.disk.interval_seconds),
+                last_collection: None,
+                name: "Disk".to_string(),
+            });
+            info!("Disk collector initialized with {}s interval", config.collectors.disk.interval_seconds);
         }
-        
+
         if config.collectors.systemd.enabled {
-            collectors.push(Box::new(SystemdCollector::new(config.collectors.systemd.clone())));
+            collectors.push(TimedCollector {
+                collector: Box::new(SystemdCollector::new(config.collectors.systemd.clone())),
+                interval: Duration::from_secs(config.collectors.systemd.interval_seconds),
+                last_collection: None,
+                name: "Systemd".to_string(),
+            });
+            info!("Systemd collector initialized with {}s interval", config.collectors.systemd.interval_seconds);
         }
-        
+
         if config.collectors.backup.enabled {
-            collectors.push(Box::new(BackupCollector::new()));
+            collectors.push(TimedCollector {
+                collector: Box::new(BackupCollector::new()),
+                interval: Duration::from_secs(config.collectors.backup.interval_seconds),
+                last_collection: None,
+                name: "Backup".to_string(),
+            });
+            info!("Backup collector initialized with {}s interval", config.collectors.backup.interval_seconds);
         }
 
         if config.collectors.network.enabled {
-            collectors.push(Box::new(NetworkCollector::new(config.collectors.network.clone())));
+            collectors.push(TimedCollector {
+                collector: Box::new(NetworkCollector::new(config.collectors.network.clone())),
+                interval: Duration::from_secs(config.collectors.network.interval_seconds),
+                last_collection: None,
+                name: "Network".to_string(),
+            });
+            info!("Network collector initialized with {}s interval", config.collectors.network.interval_seconds);
         }
 
         if config.collectors.nixos.enabled {
-            collectors.push(Box::new(NixOSCollector::new(config.collectors.nixos.clone())));
+            collectors.push(TimedCollector {
+                collector: Box::new(NixOSCollector::new(config.collectors.nixos.clone())),
+                interval: Duration::from_secs(config.collectors.nixos.interval_seconds),
+                last_collection: None,
+                name: "NixOS".to_string(),
+            });
+            info!("NixOS collector initialized with {}s interval", config.collectors.nixos.interval_seconds);
         }
 
         info!("Initialized {} collectors", collectors.len());
@@ -93,6 +144,9 @@ impl Agent {
         let notification_manager = NotificationManager::new(&config.notifications, &hostname)?;
         info!("Notification manager initialized");
 
+        // Initialize cached agent data
+        let cached_agent_data = AgentData::new(hostname.clone(), env!("CARGO_PKG_VERSION").to_string());
+
         Ok(Self {
             hostname,
             config,
@@ -100,6 +154,7 @@ impl Agent {
             collectors,
             notification_manager,
             previous_status: None,
+            cached_agent_data,
         })
     }
 
@@ -114,7 +169,7 @@ impl Agent {
 
         // Set up intervals
         let mut transmission_interval = interval(Duration::from_secs(
-            self.config.collection_interval_seconds,
+            self.config.zmq.transmission_interval_seconds,
         ));
         let mut notification_interval = interval(Duration::from_secs(30)); // Check notifications every 30s
 
@@ -134,12 +189,6 @@ impl Agent {
                     // NOTE: With structured data, we might need to implement status tracking differently
                     // For now, we skip this until status evaluation is migrated
                 }
-                // Handle incoming commands (check periodically)
-                _ = tokio::time::sleep(Duration::from_millis(100)) => {
-                    if let Err(e) = self.handle_commands().await {
-                        error!("Error handling commands: {}", e);
-                    }
-                }
                 _ = &mut shutdown_rx => {
                     info!("Shutdown signal received, stopping agent loop");
                     break;
@@ -155,24 +204,47 @@ impl Agent {
     async fn collect_and_broadcast(&mut self) -> Result<()> {
         debug!("Starting structured data collection");
 
-        // Initialize empty AgentData
-        let mut agent_data = AgentData::new(self.hostname.clone(), env!("CARGO_PKG_VERSION").to_string());
+        // Collect data from collectors whose intervals have elapsed
+        // Update cached_agent_data with new data
+        let now = Instant::now();
+        for timed_collector in &mut self.collectors {
+            let should_collect = match timed_collector.last_collection {
+                None => true, // First collection
+                Some(last_time) => now.duration_since(last_time) >= timed_collector.interval,
+            };
 
-        // Collect data from all collectors
-        for collector in &self.collectors {
-            if let Err(e) = collector.collect_structured(&mut agent_data).await {
-                error!("Collector failed: {}", e);
-                // Continue with other collectors even if one fails
+            if should_collect {
+                if let Err(e) = timed_collector.collector.collect_structured(&mut self.cached_agent_data).await {
+                    error!("Collector {} failed: {}", timed_collector.name, e);
+                    // Update last_collection time even on failure to prevent immediate retries
+                    timed_collector.last_collection = Some(now);
+                } else {
+                    timed_collector.last_collection = Some(now);
+                    debug!(
+                        "Collected from {} ({}s interval)",
+                        timed_collector.name,
+                        timed_collector.interval.as_secs()
+                    );
+                }
             }
         }
 
+        // Update timestamp on cached data
+        self.cached_agent_data.timestamp = std::time::SystemTime::now()
+            .duration_since(std::time::UNIX_EPOCH)
+            .unwrap()
+            .as_secs();
+
+        // Clone for notification check (to avoid borrow issues)
+        let agent_data_snapshot = self.cached_agent_data.clone();
+
         // Check for status changes and send notifications
-        if let Err(e) = self.check_status_changes_and_notify(&agent_data).await {
+        if let Err(e) = self.check_status_changes_and_notify(&agent_data_snapshot).await {
             error!("Failed to check status changes: {}", e);
         }
 
-        // Broadcast the structured data via ZMQ
-        if let Err(e) = self.zmq_handler.publish_agent_data(&agent_data).await {
+        // Broadcast the cached structured data via ZMQ
+        if let Err(e) = self.zmq_handler.publish_agent_data(&agent_data_snapshot).await {
             error!("Failed to broadcast agent data: {}", e);
         } else {
             debug!("Successfully broadcast structured agent data");
@@ -259,36 +331,4 @@ impl Agent {
         Ok(())
     }
 
-    /// Handle incoming commands from dashboard
-    async fn handle_commands(&mut self) -> Result<()> {
-        // Try to receive a command (non-blocking)
-        if let Ok(Some(command)) = self.zmq_handler.try_receive_command() {
-            info!("Received command: {:?}", command);
-
-            match command {
-                AgentCommand::CollectNow => {
-                    info!("Received immediate collection request");
-                    if let Err(e) = self.collect_and_broadcast().await {
-                        error!("Failed to collect on demand: {}", e);
-                    }
-                }
-                AgentCommand::SetInterval { seconds } => {
-                    info!("Received interval change request: {}s", seconds);
-                    // Note: This would require more complex handling to update the interval
-                    // For now, just acknowledge
-                }
-                AgentCommand::ToggleCollector { name, enabled } => {
-                    info!("Received collector toggle request: {} -> {}", name, enabled);
-                    // Note: This would require more complex handling to enable/disable collectors
-                    // For now, just acknowledge
-                }
-                AgentCommand::Ping => {
-                    info!("Received ping command");
-                    // Maybe send back a pong or status
-                }
-            }
-        }
-        Ok(())
-    }
-
 }

agent/src/collectors/backup.rs

@@ -1,36 +1,66 @@
 use async_trait::async_trait;
-use cm_dashboard_shared::{AgentData, BackupData, BackupDiskData};
+use cm_dashboard_shared::{AgentData, BackupData, BackupDiskData, Status};
 use serde::{Deserialize, Serialize};
-use std::collections::HashMap;
+use std::collections::{HashMap, HashSet};
 use std::fs;
-use std::path::Path;
-use tracing::debug;
+use std::path::{Path, PathBuf};
+use tracing::{debug, warn};
 
 use super::{Collector, CollectorError};
 
 /// Backup collector that reads backup status from TOML files with structured data output
 pub struct BackupCollector {
-    /// Path to backup status file
-    status_file_path: String,
+    /// Directory containing backup status files
+    status_dir: String,
 }
 
 impl BackupCollector {
     pub fn new() -> Self {
         Self {
-            status_file_path: "/var/lib/backup/backup-status.toml".to_string(),
+            status_dir: "/var/lib/backup/status".to_string(),
         }
     }
 
-    /// Read backup status from TOML file
-    async fn read_backup_status(&self) -> Result<Option<BackupStatusToml>, CollectorError> {
-        if !Path::new(&self.status_file_path).exists() {
-            debug!("Backup status file not found: {}", self.status_file_path);
-            return Ok(None);
+    /// Scan directory for all backup status files
+    async fn scan_status_files(&self) -> Result<Vec<PathBuf>, CollectorError> {
+        let status_path = Path::new(&self.status_dir);
+
+        if !status_path.exists() {
+            debug!("Backup status directory not found: {}", self.status_dir);
+            return Ok(Vec::new());
         }
 
-        let content = fs::read_to_string(&self.status_file_path)
+        let mut status_files = Vec::new();
+
+        match fs::read_dir(status_path) {
+            Ok(entries) => {
+                for entry in entries {
+                    if let Ok(entry) = entry {
+                        let path = entry.path();
+                        if path.is_file() {
+                            if let Some(filename) = path.file_name().and_then(|n| n.to_str()) {
+                                if filename.starts_with("backup-status-") && filename.ends_with(".toml") {
+                                    status_files.push(path);
+                                }
+                            }
+                        }
+                    }
+                }
+            }
+            Err(e) => {
+                warn!("Failed to read backup status directory: {}", e);
+                return Ok(Vec::new());
+            }
+        }
+
+        Ok(status_files)
+    }
+
+    /// Read a single backup status file
+    async fn read_status_file(&self, path: &Path) -> Result<BackupStatusToml, CollectorError> {
+        let content = fs::read_to_string(path)
             .map_err(|e| CollectorError::SystemRead {
-                path: self.status_file_path.clone(),
+                path: path.to_string_lossy().to_string(),
                 error: e.to_string(),
             })?;
 
@@ -40,66 +70,122 @@ impl BackupCollector {
                 error: format!("Failed to parse backup status TOML: {}", e),
             })?;
 
-        Ok(Some(status))
+        Ok(status)
+    }
+
+    /// Calculate backup status from TOML status field
+    fn calculate_backup_status(status_str: &str) -> Status {
+        match status_str.to_lowercase().as_str() {
+            "success" => Status::Ok,
+            "warning" => Status::Warning,
+            "failed" | "error" => Status::Critical,
+            _ => Status::Unknown,
+        }
+    }
+
+    /// Calculate usage status from disk usage percentage
+    fn calculate_usage_status(usage_percent: f32) -> Status {
+        if usage_percent < 80.0 {
+            Status::Ok
+        } else if usage_percent < 90.0 {
+            Status::Warning
+        } else {
+            Status::Critical
+        }
     }
 
     /// Convert BackupStatusToml to BackupData and populate AgentData
     async fn populate_backup_data(&self, agent_data: &mut AgentData) -> Result<(), CollectorError> {
-        if let Some(backup_status) = self.read_backup_status().await? {
-            // Use raw start_time string from TOML
+        let status_files = self.scan_status_files().await?;
 
-            // Extract disk information
-            let repository_disk = if let Some(disk_space) = &backup_status.disk_space {
-                Some(BackupDiskData {
-                    serial: backup_status.disk_serial_number.clone().unwrap_or_else(|| "Unknown".to_string()),
-                    usage_percent: disk_space.usage_percent as f32,
-                    used_gb: disk_space.used_gb as f32,
-                    total_gb: disk_space.total_gb as f32,
-                    wear_percent: backup_status.disk_wear_percent,
-                    temperature_celsius: None, // Not available in current TOML
-                })
-            } else if let Some(serial) = &backup_status.disk_serial_number {
-                // Fallback: create minimal disk info if we have serial but no disk_space
-                Some(BackupDiskData {
-                    serial: serial.clone(),
-                    usage_percent: 0.0,
-                    used_gb: 0.0,
-                    total_gb: 0.0,
-                    wear_percent: backup_status.disk_wear_percent,
-                    temperature_celsius: None,
-                })
-            } else {
-                None
-            };
-
-            // Calculate total repository size from services
-            let total_size_gb = backup_status.services
-                .values()
-                .map(|service| service.repo_size_bytes as f32 / (1024.0 * 1024.0 * 1024.0))
-                .sum::<f32>();
-
-            let backup_data = BackupData {
-                status: backup_status.status,
-                total_size_gb: Some(total_size_gb),
-                repository_health: Some("ok".to_string()), // Derive from status if needed
-                repository_disk,
-                last_backup_size_gb: None, // Not available in current TOML format
-                start_time_raw: Some(backup_status.start_time),
-            };
-
-            agent_data.backup = backup_data;
-        } else {
-            // No backup status available - set default values
+        if status_files.is_empty() {
+            debug!("No backup status files found");
             agent_data.backup = BackupData {
-                status: "unavailable".to_string(),
-                total_size_gb: None,
-                repository_health: None,
-                repository_disk: None,
-                last_backup_size_gb: None,
-                start_time_raw: None,
+                repositories: Vec::new(),
+                repository_status: Status::Unknown,
+                disks: Vec::new(),
             };
+            return Ok(());
         }
 
+        let mut all_repositories = HashSet::new();
+        let mut disks = Vec::new();
+        let mut worst_status = Status::Ok;
+
+        for status_file in status_files {
+            match self.read_status_file(&status_file).await {
+                Ok(backup_status) => {
+                    // Collect all service names
+                    for service_name in backup_status.services.keys() {
+                        all_repositories.insert(service_name.clone());
+                    }
+
+                    // Calculate backup status
+                    let backup_status_enum = Self::calculate_backup_status(&backup_status.status);
+
+                    // Calculate usage status from disk space
+                    let (usage_percent, used_gb, total_gb, usage_status) = if let Some(disk_space) = &backup_status.disk_space {
+                        let usage_pct = disk_space.usage_percent as f32;
+                        (
+                            usage_pct,
+                            disk_space.used_gb as f32,
+                            disk_space.total_gb as f32,
+                            Self::calculate_usage_status(usage_pct),
+                        )
+                    } else {
+                        (0.0, 0.0, 0.0, Status::Unknown)
+                    };
+
+                    // Update worst status
+                    worst_status = worst_status.max(backup_status_enum).max(usage_status);
+
+                    // Build service list for this disk
+                    let services: Vec<String> = backup_status.services.keys().cloned().collect();
+
+                    // Get min and max archive counts to detect inconsistencies
+                    let archives_min: i64 = backup_status.services.values()
+                        .map(|service| service.archive_count)
+                        .min()
+                        .unwrap_or(0);
+
+                    let archives_max: i64 = backup_status.services.values()
+                        .map(|service| service.archive_count)
+                        .max()
+                        .unwrap_or(0);
+
+                    // Create disk data
+                    let disk_data = BackupDiskData {
+                        serial: backup_status.disk_serial_number.unwrap_or_else(|| "Unknown".to_string()),
+                        product_name: backup_status.disk_product_name,
+                        wear_percent: backup_status.disk_wear_percent,
+                        temperature_celsius: None, // Not available in current TOML
+                        last_backup_time: Some(backup_status.start_time),
+                        backup_status: backup_status_enum,
+                        disk_usage_percent: usage_percent,
+                        disk_used_gb: used_gb,
+                        disk_total_gb: total_gb,
+                        usage_status,
+                        services,
+                        archives_min,
+                        archives_max,
+                    };
+
+                    disks.push(disk_data);
+                }
+                Err(e) => {
+                    warn!("Failed to read backup status file {:?}: {}", status_file, e);
+                }
+            }
+        }
+
+        let repositories: Vec<String> = all_repositories.into_iter().collect();
+
+        agent_data.backup = BackupData {
+            repositories,
+            repository_status: worst_status,
+            disks,
+        };
+
         Ok(())
     }
 }

agent/src/collectors/cpu.rs

@@ -119,36 +119,69 @@ impl CpuCollector {
         utils::parse_u64(content.trim())
     }
 
-    /// Collect CPU frequency and populate AgentData
-    async fn collect_frequency(&self, agent_data: &mut AgentData) -> Result<(), CollectorError> {
-        // Try scaling frequency first (more accurate for current frequency)
-        if let Ok(freq) =
-            utils::read_proc_file("/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq")
-        {
-            if let Ok(freq_khz) = utils::parse_u64(freq.trim()) {
-                let freq_mhz = freq_khz as f32 / 1000.0;
-                agent_data.system.cpu.frequency_mhz = freq_mhz;
-                return Ok(());
-            }
-        }
+    /// Collect CPU C-state (idle depth) and populate AgentData with top 3 C-states by usage
+    async fn collect_cstate(&self, agent_data: &mut AgentData) -> Result<(), CollectorError> {
+        // Read C-state usage from first CPU (representative of overall system)
+        // C-states indicate CPU idle depth: C1=light sleep, C6=deep sleep, C10=deepest
 
-        // Fallback: parse /proc/cpuinfo for base frequency
-        if let Ok(content) = utils::read_proc_file("/proc/cpuinfo") {
-            for line in content.lines() {
-                if line.starts_with("cpu MHz") {
-                    if let Some(freq_str) = line.split(':').nth(1) {
-                        if let Ok(freq_mhz) = utils::parse_f32(freq_str) {
-                            agent_data.system.cpu.frequency_mhz = freq_mhz;
-                            return Ok(());
+        let mut cstate_times: Vec<(String, u64)> = Vec::new();
+        let mut total_time: u64 = 0;
+
+        // Collect all C-state times from CPU0
+        for state_num in 0..=10 {
+            let time_path = format!("/sys/devices/system/cpu/cpu0/cpuidle/state{}/time", state_num);
+            let name_path = format!("/sys/devices/system/cpu/cpu0/cpuidle/state{}/name", state_num);
+
+            if let Ok(time_str) = utils::read_proc_file(&time_path) {
+                if let Ok(time) = utils::parse_u64(time_str.trim()) {
+                    if let Ok(name) = utils::read_proc_file(&name_path) {
+                        let state_name = name.trim();
+                        // Skip POLL state (not real idle)
+                        if state_name != "POLL" && time > 0 {
+                            // Extract "C" + digits pattern (C3, C10, etc.) to reduce JSON size
+                            // Handles formats like "C3_ACPI", "C10_MWAIT", etc.
+                            let clean_name = if let Some(c_pos) = state_name.find('C') {
+                                let rest = &state_name[c_pos + 1..];
+                                let digit_count = rest.chars().take_while(|c| c.is_ascii_digit()).count();
+                                if digit_count > 0 {
+                                    state_name[c_pos..c_pos + 1 + digit_count].to_string()
+                                } else {
+                                    state_name.to_string()
+                                }
+                            } else {
+                                state_name.to_string()
+                            };
+                            cstate_times.push((clean_name, time));
+                            total_time += time;
                         }
                     }
-                    break; // Only need first CPU entry
                 }
+            } else {
+                // No more states available
+                break;
             }
         }
 
-        debug!("CPU frequency not available");
-        // Leave frequency as 0.0 if not available
+        // Sort by time descending to get top 3
+        cstate_times.sort_by(|a, b| b.1.cmp(&a.1));
+
+        // Calculate percentages for top 3 and populate AgentData
+        agent_data.system.cpu.cstates = cstate_times
+            .iter()
+            .take(3)
+            .map(|(name, time)| {
+                let percent = if total_time > 0 {
+                    (*time as f32 / total_time as f32) * 100.0
+                } else {
+                    0.0
+                };
+                cm_dashboard_shared::CStateInfo {
+                    name: name.clone(),
+                    percent,
+                }
+            })
+            .collect();
+
         Ok(())
     }
 }
@@ -165,8 +198,8 @@ impl Collector for CpuCollector {
         // Collect temperature (optional)
         self.collect_temperature(agent_data).await?;
 
-        // Collect frequency (optional)
-        self.collect_frequency(agent_data).await?;
+        // Collect C-state (CPU idle depth)
+        self.collect_cstate(agent_data).await?;
 
         let duration = start.elapsed();
         debug!("CPU collection completed in {:?}", duration);

agent/src/collectors/disk.rs

@@ -3,10 +3,9 @@ use async_trait::async_trait;
 use cm_dashboard_shared::{AgentData, DriveData, FilesystemData, PoolData, HysteresisThresholds, Status};
 
 use crate::config::DiskConfig;
-use std::process::Command;
-use std::time::Instant;
+use tokio::process::Command as TokioCommand;
+use std::process::Command as StdCommand;
 use std::collections::HashMap;
-use tracing::debug;
 
 use super::{Collector, CollectorError};
 
@@ -67,9 +66,6 @@ impl DiskCollector {
 
     /// Collect all storage data and populate AgentData
     async fn collect_storage_data(&self, agent_data: &mut AgentData) -> Result<(), CollectorError> {
-        let start_time = Instant::now();
-        debug!("Starting clean storage collection");
-
         // Step 1: Get mount points and their backing devices
         let mount_devices = self.get_mount_devices().await?;
         
@@ -104,17 +100,17 @@ impl DiskCollector {
         self.populate_drives_data(&physical_drives, &smart_data, agent_data)?;
         self.populate_pools_data(&mergerfs_pools, &smart_data, agent_data)?;
 
-        let elapsed = start_time.elapsed();
-        debug!("Storage collection completed in {:?}", elapsed);
-
         Ok(())
     }
 
     /// Get block devices and their mount points using lsblk
     async fn get_mount_devices(&self) -> Result<HashMap<String, String>, CollectorError> {
-        let output = Command::new("lsblk")
-            .args(&["-rn", "-o", "NAME,MOUNTPOINT"])
-            .output()
+        use super::run_command_with_timeout;
+
+        let mut cmd = TokioCommand::new("lsblk");
+        cmd.args(&["-rn", "-o", "NAME,MOUNTPOINT"]);
+
+        let output = run_command_with_timeout(cmd, 2).await
             .map_err(|e| CollectorError::SystemRead {
                 path: "block devices".to_string(),
                 error: e.to_string(),
@@ -138,7 +134,6 @@ impl DiskCollector {
             }
         }
 
-        debug!("Found {} mounted block devices", mount_devices.len());
         Ok(mount_devices)
     }
 
@@ -151,8 +146,8 @@ impl DiskCollector {
                 Ok((total, used)) => {
                     filesystem_usage.insert(mount_point.clone(), (total, used));
                 }
-                Err(e) => {
-                    debug!("Failed to get filesystem info for {}: {}", mount_point, e);
+                Err(_e) => {
+                    // Silently skip filesystems we can't read
                 }
             }
         }
@@ -173,8 +168,6 @@ impl DiskCollector {
                 // Only add if we don't already have usage data for this mount point
                 if !filesystem_usage.contains_key(&mount_point) {
                     if let Ok((total, used)) = self.get_filesystem_info(&mount_point) {
-                        debug!("Added MergerFS filesystem usage for {}: {}GB total, {}GB used", 
-                            mount_point, total as f32 / (1024.0 * 1024.0 * 1024.0), used as f32 / (1024.0 * 1024.0 * 1024.0));
                         filesystem_usage.insert(mount_point, (total, used));
                     }
                 }
@@ -186,8 +179,8 @@ impl DiskCollector {
 
     /// Get filesystem info for a single mount point
     fn get_filesystem_info(&self, mount_point: &str) -> Result<(u64, u64), CollectorError> {
-        let output = Command::new("df")
-            .args(&["--block-size=1", mount_point])
+        let output = StdCommand::new("timeout")
+            .args(&["2", "df", "--block-size=1", mount_point])
             .output()
             .map_err(|e| CollectorError::SystemRead {
                 path: format!("df {}", mount_point),
@@ -249,9 +242,8 @@ impl DiskCollector {
                 } else {
                     mount_point.trim_start_matches('/').replace('/', "_")
                 };
-                
+
                 if pool_name.is_empty() {
-                    debug!("Skipping mergerfs pool with empty name: {}", mount_point);
                     continue;
                 }
                 
@@ -279,8 +271,7 @@ impl DiskCollector {
                 // Categorize as data vs parity drives
                 let (data_drives, parity_drives) = match self.categorize_pool_drives(&all_member_paths) {
                     Ok(drives) => drives,
-                    Err(e) => {
-                        debug!("Failed to categorize drives for pool {}: {}. Skipping.", mount_point, e);
+                    Err(_e) => {
                         continue;
                     }
                 };
@@ -295,8 +286,7 @@ impl DiskCollector {
                 });
             }
         }
-        
-        debug!("Found {} mergerfs pools", pools.len());
+
         Ok(pools)
     }
 
@@ -383,10 +373,10 @@ impl DiskCollector {
         device.to_string()
     }
 
-    /// Get SMART data for drives
+    /// Get SMART data for drives in parallel
     async fn get_smart_data_for_drives(&self, physical_drives: &[PhysicalDrive], mergerfs_pools: &[MergerfsPool]) -> HashMap<String, SmartData> {
-        let mut smart_data = HashMap::new();
-        
+        use futures::future::join_all;
+
         // Collect all drive names
         let mut all_drives = std::collections::HashSet::new();
         for drive in physical_drives {
@@ -401,9 +391,24 @@ impl DiskCollector {
             }
         }
 
-        // Get SMART data for each drive
-        for drive_name in all_drives {
-            if let Ok(data) = self.get_smart_data(&drive_name).await {
+        // Collect SMART data for all drives in parallel
+        let futures: Vec<_> = all_drives
+            .iter()
+            .map(|drive_name| {
+                let drive = drive_name.clone();
+                async move {
+                    let result = self.get_smart_data(&drive).await;
+                    (drive, result)
+                }
+            })
+            .collect();
+
+        let results = join_all(futures).await;
+
+        // Build HashMap from results
+        let mut smart_data = HashMap::new();
+        for (drive_name, result) in results {
+            if let Ok(data) = result {
                 smart_data.insert(drive_name, data);
             }
         }
@@ -413,24 +418,29 @@ impl DiskCollector {
 
     /// Get SMART data for a single drive
     async fn get_smart_data(&self, drive_name: &str) -> Result<SmartData, CollectorError> {
-        let output = Command::new("sudo")
-            .args(&["smartctl", "-a", &format!("/dev/{}", drive_name)])
-            .output()
+        use super::run_command_with_timeout;
+
+        // Use direct smartctl (no sudo) - service has CAP_SYS_RAWIO and CAP_SYS_ADMIN capabilities
+        // For NVMe drives, specify device type explicitly
+        let mut cmd = TokioCommand::new("smartctl");
+        if drive_name.starts_with("nvme") {
+            cmd.args(&["-d", "nvme", "-a", &format!("/dev/{}", drive_name)]);
+        } else {
+            cmd.args(&["-a", &format!("/dev/{}", drive_name)]);
+        }
+
+        let output = run_command_with_timeout(cmd, 3).await
             .map_err(|e| CollectorError::SystemRead {
                 path: format!("SMART data for {}", drive_name),
                 error: e.to_string(),
             })?;
 
         let output_str = String::from_utf8_lossy(&output.stdout);
-        let error_str = String::from_utf8_lossy(&output.stderr);
-        
-        // Debug logging for SMART command results
-        debug!("SMART output for {}: status={}, stdout_len={}, stderr={}", 
-            drive_name, output.status, output_str.len(), error_str);
-        
-        if !output.status.success() {
-            debug!("SMART command failed for {}: {}", drive_name, error_str);
-            // Return unknown data rather than failing completely
+
+        // Note: smartctl returns non-zero exit codes for warnings (like exit code 32
+        // for "temperature was high in the past"), but the output data is still valid.
+        // Only check if we got any output at all, don't reject based on exit code.
+        if output_str.is_empty() {
             return Ok(SmartData {
                 health: "UNKNOWN".to_string(),
                 serial_number: None,
@@ -438,7 +448,7 @@ impl DiskCollector {
                 wear_percent: None,
             });
         }
-        
+
         let mut health = "UNKNOWN".to_string();
         let mut serial_number = None;
         let mut temperature = None;
@@ -756,9 +766,9 @@ impl DiskCollector {
 
     /// Get drive information for a mount path
     fn get_drive_info_for_path(&self, path: &str) -> anyhow::Result<PoolDrive> {
-        // Use lsblk to find the backing device
-        let output = Command::new("lsblk")
-            .args(&["-rn", "-o", "NAME,MOUNTPOINT"])
+        // Use lsblk to find the backing device with timeout
+        let output = StdCommand::new("timeout")
+            .args(&["2", "lsblk", "-rn", "-o", "NAME,MOUNTPOINT"])
             .output()
             .map_err(|e| anyhow::anyhow!("Failed to run lsblk: {}", e))?;
             
@@ -779,20 +789,13 @@ impl DiskCollector {
         
         // Extract base device name (e.g., "sda1" -> "sda")
         let base_device = self.extract_base_device(&format!("/dev/{}", device));
-        
-        // Get temperature from SMART data if available
-        let temperature = if let Ok(smart_data) = tokio::task::block_in_place(|| {
-            tokio::runtime::Handle::current().block_on(self.get_smart_data(&base_device))
-        }) {
-            smart_data.temperature_celsius
-        } else {
-            None
-        };
-        
+
+        // Temperature will be filled in later from parallel SMART collection
+        // Don't collect it here to avoid sequential blocking with problematic async nesting
         Ok(PoolDrive {
             name: base_device,
             mount_point: path.to_string(),
-            temperature_celsius: temperature,
+            temperature_celsius: None,
         })
     }
 

agent/src/collectors/memory.rs

@@ -105,12 +105,12 @@ impl MemoryCollector {
             return Ok(());
         }
 
-        // Get usage data for all tmpfs mounts at once using df
-        let mut df_args = vec!["df", "--output=target,size,used", "--block-size=1"];
+        // Get usage data for all tmpfs mounts at once using df (with 2 second timeout)
+        let mut df_args = vec!["2", "df", "--output=target,size,used", "--block-size=1"];
         df_args.extend(tmpfs_mounts.iter().map(|s| s.as_str()));
 
-        let df_output = std::process::Command::new(df_args[0])
-            .args(&df_args[1..])
+        let df_output = std::process::Command::new("timeout")
+            .args(&df_args[..])
             .output()
             .map_err(|e| CollectorError::SystemRead {
                 path: "tmpfs mounts".to_string(),

agent/src/collectors/mod.rs

@@ -1,6 +1,7 @@
 use async_trait::async_trait;
 use cm_dashboard_shared::{AgentData};
-
+use std::process::Output;
+use std::time::Duration;
 
 pub mod backup;
 pub mod cpu;
@@ -13,6 +14,38 @@ pub mod systemd;
 
 pub use error::CollectorError;
 
+/// Run a command with a timeout to prevent blocking
+/// Properly kills the process if timeout is exceeded
+pub async fn run_command_with_timeout(mut cmd: tokio::process::Command, timeout_secs: u64) -> std::io::Result<Output> {
+    use tokio::time::timeout;
+    use std::process::Stdio;
+    let timeout_duration = Duration::from_secs(timeout_secs);
+
+    // Configure stdio to capture output
+    cmd.stdout(Stdio::piped());
+    cmd.stderr(Stdio::piped());
+
+    let child = cmd.spawn()?;
+    let pid = child.id();
+
+    match timeout(timeout_duration, child.wait_with_output()).await {
+        Ok(result) => result,
+        Err(_) => {
+            // Timeout - force kill the process using system kill command
+            if let Some(process_id) = pid {
+                let _ = tokio::process::Command::new("kill")
+                    .args(&["-9", &process_id.to_string()])
+                    .output()
+                    .await;
+            }
+            Err(std::io::Error::new(
+                std::io::ErrorKind::TimedOut,
+                format!("Command timed out after {} seconds", timeout_secs)
+            ))
+        }
+    }
+}
+
 
 /// Base trait for all collectors with direct structured data output
 #[async_trait]

agent/src/collectors/network.rs

@@ -49,11 +49,68 @@ impl NetworkCollector {
         }
     }
 
+    /// Get the primary physical interface (the one with default route)
+    fn get_primary_physical_interface() -> Option<String> {
+        match Command::new("timeout").args(["2", "ip", "route", "show", "default"]).output() {
+            Ok(output) if output.status.success() => {
+                let output_str = String::from_utf8_lossy(&output.stdout);
+                // Parse: "default via 192.168.1.1 dev eno1 ..."
+                for line in output_str.lines() {
+                    if line.starts_with("default") {
+                        if let Some(dev_pos) = line.find(" dev ") {
+                            let after_dev = &line[dev_pos + 5..];
+                            if let Some(space_pos) = after_dev.find(' ') {
+                                let interface = &after_dev[..space_pos];
+                                // Only return if it's a physical interface
+                                if Self::is_physical_interface(interface) {
+                                    return Some(interface.to_string());
+                                }
+                            } else {
+                                // No space after interface name (end of line)
+                                let interface = after_dev.trim();
+                                if Self::is_physical_interface(interface) {
+                                    return Some(interface.to_string());
+                                }
+                            }
+                        }
+                    }
+                }
+                None
+            }
+            _ => None,
+        }
+    }
+
+    /// Parse VLAN configuration from /proc/net/vlan/config
+    /// Returns a map of interface name -> VLAN ID
+    fn parse_vlan_config() -> std::collections::HashMap<String, u16> {
+        let mut vlan_map = std::collections::HashMap::new();
+
+        if let Ok(contents) = std::fs::read_to_string("/proc/net/vlan/config") {
+            for line in contents.lines().skip(2) {  // Skip header lines
+                let parts: Vec<&str> = line.split('|').collect();
+                if parts.len() >= 2 {
+                    let interface_name = parts[0].trim();
+                    let vlan_id_str = parts[1].trim();
+
+                    if let Ok(vlan_id) = vlan_id_str.parse::<u16>() {
+                        vlan_map.insert(interface_name.to_string(), vlan_id);
+                    }
+                }
+            }
+        }
+
+        vlan_map
+    }
+
     /// Collect network interfaces using ip command
     async fn collect_interfaces(&self) -> Vec<NetworkInterfaceData> {
         let mut interfaces = Vec::new();
 
-        match Command::new("ip").args(["-j", "addr"]).output() {
+        // Parse VLAN configuration
+        let vlan_map = Self::parse_vlan_config();
+
+        match Command::new("timeout").args(["2", "ip", "-j", "addr"]).output() {
             Ok(output) if output.status.success() => {
                 let json_str = String::from_utf8_lossy(&output.stdout);
 
@@ -62,11 +119,19 @@ impl NetworkCollector {
                         for iface in ifaces {
                             let name = iface["ifname"].as_str().unwrap_or("").to_string();
 
-                            // Skip loopback and empty names
-                            if name.is_empty() || name == "lo" {
+                            // Skip loopback, empty names, and ifb* interfaces
+                            if name.is_empty() || name == "lo" || name.starts_with("ifb") {
                                 continue;
                             }
 
+                            // Parse parent interface from @parent notation (e.g., lan@enp0s31f6)
+                            let (interface_name, parent_interface) = if let Some(at_pos) = name.find('@') {
+                                let (child, parent) = name.split_at(at_pos);
+                                (child.to_string(), Some(parent[1..].to_string()))
+                            } else {
+                                (name.clone(), None)
+                            };
+
                             let mut ipv4_addresses = Vec::new();
                             let mut ipv6_addresses = Vec::new();
 
@@ -91,20 +156,31 @@ impl NetworkCollector {
                             }
 
                             // Determine if physical and get status
-                            let is_physical = Self::is_physical_interface(&name);
+                            let is_physical = Self::is_physical_interface(&interface_name);
+
+                            // Only filter out virtual interfaces without IPs
+                            // Physical interfaces should always be shown even if down/no IPs
+                            if !is_physical && ipv4_addresses.is_empty() && ipv6_addresses.is_empty() {
+                                continue;
+                            }
+
                             let link_status = if is_physical {
                                 Self::get_link_status(&name)
                             } else {
                                 Status::Unknown  // Virtual interfaces don't have meaningful link status
                             };
 
+                            // Look up VLAN ID from the map (use original name before @ parsing)
+                            let vlan_id = vlan_map.get(&name).copied();
+
                             interfaces.push(NetworkInterfaceData {
-                                name,
+                                name: interface_name,
                                 ipv4_addresses,
                                 ipv6_addresses,
                                 is_physical,
                                 link_status,
-                                parent_interface: None,  // TODO: Implement virtual interface parent detection
+                                parent_interface,
+                                vlan_id,
                             });
                         }
                     }
@@ -118,6 +194,17 @@ impl NetworkCollector {
             }
         }
 
+        // Assign primary physical interface as parent to virtual interfaces without explicit parent
+        let primary_interface = Self::get_primary_physical_interface();
+        if let Some(primary) = primary_interface {
+            for interface in interfaces.iter_mut() {
+                // Only assign parent to virtual interfaces that don't already have one
+                if !interface.is_physical && interface.parent_interface.is_none() {
+                    interface.parent_interface = Some(primary.clone());
+                }
+            }
+        }
+
         interfaces
     }
 }

agent/src/collectors/nixos.rs

@@ -43,8 +43,8 @@ impl NixOSCollector {
         match fs::read_to_string("/etc/hostname") {
             Ok(hostname) => Some(hostname.trim().to_string()),
             Err(_) => {
-                // Fallback to hostname command
-                match Command::new("hostname").output() {
+                // Fallback to hostname command (with 2 second timeout)
+                match Command::new("timeout").args(["2", "hostname"]).output() {
                     Ok(output) => Some(String::from_utf8_lossy(&output.stdout).trim().to_string()),
                     Err(_) => None,
                 }

agent/src/collectors/systemd.rs

@@ -43,9 +43,10 @@ struct ServiceCacheState {
 /// Cached service status information from systemctl list-units
 #[derive(Debug, Clone)]
 struct ServiceStatusInfo {
-    load_state: String,
     active_state: String,
-    sub_state: String,
+    memory_bytes: Option<u64>,
+    restart_count: Option<u32>,
+    start_timestamp: Option<u64>,
 }
 
 impl SystemdCollector {
@@ -86,14 +87,20 @@ impl SystemdCollector {
         let mut complete_service_data = Vec::new();
         for service_name in &monitored_services {
             match self.get_service_status(service_name) {
-                Ok((active_status, _detailed_info)) => {
-                    let memory_mb = self.get_service_memory_usage(service_name).await.unwrap_or(0.0);
-                    let disk_gb = self.get_service_disk_usage(service_name).await.unwrap_or(0.0);
-                    
+                Ok(status_info) => {
                     let mut sub_services = Vec::new();
 
+                    // Calculate uptime if we have start timestamp
+                    let uptime_seconds = status_info.start_timestamp.and_then(|start| {
+                        let now = std::time::SystemTime::now()
+                            .duration_since(std::time::UNIX_EPOCH)
+                            .ok()?
+                            .as_secs();
+                        Some(now.saturating_sub(start))
+                    });
+
                     // Sub-service metrics for specific services (always include cached results)
-                    if service_name.contains("nginx") && active_status == "active" {
+                    if service_name.contains("nginx") && status_info.active_state == "active" {
                         let nginx_sites = self.get_nginx_site_metrics();
                         for (site_name, latency_ms) in nginx_sites {
                             let site_status = if latency_ms >= 0.0 && latency_ms < self.config.nginx_latency_critical_ms {
@@ -113,21 +120,41 @@ impl SystemdCollector {
                                 name: site_name.clone(),
                                 service_status: self.calculate_service_status(&site_name, &site_status),
                                 metrics,
+                                service_type: "nginx_site".to_string(),
                             });
                         }
                     }
 
-                    if service_name.contains("docker") && active_status == "active" {
+                    if service_name.contains("docker") && status_info.active_state == "active" {
                         let docker_containers = self.get_docker_containers();
                         for (container_name, container_status) in docker_containers {
                             // For now, docker containers have no additional metrics
                             // Future: could add memory_mb, cpu_percent, restart_count, etc.
                             let metrics = Vec::new();
-                            
+
                             sub_services.push(SubServiceData {
                                 name: container_name.clone(),
                                 service_status: self.calculate_service_status(&container_name, &container_status),
                                 metrics,
+                                service_type: "container".to_string(),
+                            });
+                        }
+
+                        // Add Docker images
+                        let docker_images = self.get_docker_images();
+                        for (image_name, image_status, image_size_mb) in docker_images {
+                            let mut metrics = Vec::new();
+                            metrics.push(SubServiceMetric {
+                                label: "size".to_string(),
+                                value: image_size_mb,
+                                unit: Some("MB".to_string()),
+                            });
+
+                            sub_services.push(SubServiceData {
+                                name: image_name.to_string(),
+                                service_status: self.calculate_service_status(&image_name, &image_status),
+                                metrics,
+                                service_type: "image".to_string(),
                             });
                         }
                     }
@@ -135,11 +162,12 @@ impl SystemdCollector {
                     // Create complete service data
                     let service_data = ServiceData {
                         name: service_name.clone(),
-                        memory_mb,
-                        disk_gb,
                         user_stopped: false, // TODO: Integrate with service tracker
-                        service_status: self.calculate_service_status(service_name, &active_status),
+                        service_status: self.calculate_service_status(service_name, &status_info.active_state),
                         sub_services,
+                        memory_bytes: status_info.memory_bytes,
+                        restart_count: status_info.restart_count,
+                        uptime_seconds,
                     };
 
                     // Add to AgentData and cache
@@ -151,7 +179,11 @@ impl SystemdCollector {
                 }
             }
         }
-        
+
+        // Sort services alphabetically by name
+        agent_data.services.sort_by(|a, b| a.name.cmp(&b.name));
+        complete_service_data.sort_by(|a, b| a.name.cmp(&b.name));
+
         // Update cached state
         {
             let mut state = self.state.write().unwrap();
@@ -230,18 +262,18 @@ impl SystemdCollector {
 
     /// Auto-discover interesting services to monitor
     fn discover_services_internal(&self) -> Result<(Vec<String>, std::collections::HashMap<String, ServiceStatusInfo>)> {
-        // First: Get all service unit files
-        let unit_files_output = Command::new("systemctl")
-            .args(&["list-unit-files", "--type=service", "--no-pager", "--plain"])
+        // First: Get all service unit files (with 3 second timeout)
+        let unit_files_output = Command::new("timeout")
+            .args(&["3", "systemctl", "list-unit-files", "--type=service", "--no-pager", "--plain"])
             .output()?;
 
         if !unit_files_output.status.success() {
             return Err(anyhow::anyhow!("systemctl list-unit-files command failed"));
         }
 
-        // Second: Get runtime status of all units
-        let units_status_output = Command::new("systemctl")
-            .args(&["list-units", "--type=service", "--all", "--no-pager", "--plain"])
+        // Second: Get runtime status of all units (with 3 second timeout)
+        let units_status_output = Command::new("timeout")
+            .args(&["3", "systemctl", "list-units", "--type=service", "--all", "--no-pager", "--plain"])
             .output()?;
 
         if !units_status_output.status.success() {
@@ -271,14 +303,13 @@ impl SystemdCollector {
             let fields: Vec<&str> = line.split_whitespace().collect();
             if fields.len() >= 4 && fields[0].ends_with(".service") {
                 let service_name = fields[0].trim_end_matches(".service");
-                let load_state = fields.get(1).unwrap_or(&"unknown").to_string();
                 let active_state = fields.get(2).unwrap_or(&"unknown").to_string();
-                let sub_state = fields.get(3).unwrap_or(&"unknown").to_string();
 
                 status_cache.insert(service_name.to_string(), ServiceStatusInfo {
-                    load_state,
                     active_state,
-                    sub_state,
+                    memory_bytes: None,
+                    restart_count: None,
+                    start_timestamp: None,
                 });
             }
         }
@@ -287,9 +318,10 @@ impl SystemdCollector {
         for service_name in &all_service_names {
             if !status_cache.contains_key(service_name) {
                 status_cache.insert(service_name.to_string(), ServiceStatusInfo {
-                    load_state: "not-loaded".to_string(),
                     active_state: "inactive".to_string(),
-                    sub_state: "dead".to_string(),
+                    memory_bytes: None,
+                    restart_count: None,
+                    start_timestamp: None,
                 });
             }
         }
@@ -321,36 +353,60 @@ impl SystemdCollector {
         Ok((services, status_cache))
     }
 
-    /// Get service status from cache (if available) or fallback to systemctl
-    fn get_service_status(&self, service: &str) -> Result<(String, String)> {
-        // Try to get status from cache first
-        if let Ok(state) = self.state.read() {
-            if let Some(cached_info) = state.service_status_cache.get(service) {
-                let active_status = cached_info.active_state.clone();
-                let detailed_info = format!(
-                    "LoadState={}\nActiveState={}\nSubState={}",
-                    cached_info.load_state,
-                    cached_info.active_state,
-                    cached_info.sub_state
-                );
-                return Ok((active_status, detailed_info));
+    /// Get service status with detailed metrics from systemctl
+    fn get_service_status(&self, service: &str) -> Result<ServiceStatusInfo> {
+        // Always fetch fresh data to get detailed metrics (memory, restarts, uptime)
+        // Note: Cache in service_status_cache only has basic active_state from discovery,
+        // with all detailed metrics set to None. We need fresh systemctl show data.
+
+        let output = Command::new("timeout")
+            .args(&[
+                "2",
+                "systemctl",
+                "show",
+                &format!("{}.service", service),
+                "--property=LoadState,ActiveState,SubState,MemoryCurrent,NRestarts,ExecMainStartTimestamp"
+            ])
+            .output()?;
+
+        let output_str = String::from_utf8(output.stdout)?;
+
+        // Parse properties
+        let mut active_state = String::new();
+        let mut memory_bytes = None;
+        let mut restart_count = None;
+        let mut start_timestamp = None;
+
+        for line in output_str.lines() {
+            if let Some(value) = line.strip_prefix("ActiveState=") {
+                active_state = value.to_string();
+            } else if let Some(value) = line.strip_prefix("MemoryCurrent=") {
+                if value != "[not set]" {
+                    memory_bytes = value.parse().ok();
+                }
+            } else if let Some(value) = line.strip_prefix("NRestarts=") {
+                restart_count = value.parse().ok();
+            } else if let Some(value) = line.strip_prefix("ExecMainStartTimestamp=") {
+                if value != "[not set]" && !value.is_empty() {
+                    // Parse timestamp to seconds since epoch
+                    if let Ok(output) = Command::new("date")
+                        .args(&["+%s", "-d", value])
+                        .output()
+                    {
+                        if let Ok(timestamp_str) = String::from_utf8(output.stdout) {
+                            start_timestamp = timestamp_str.trim().parse().ok();
+                        }
+                    }
+                }
             }
         }
 
-        // Fallback to systemctl if not in cache
-        let output = Command::new("systemctl")
-            .args(&["is-active", &format!("{}.service", service)])
-            .output()?;
-
-        let active_status = String::from_utf8(output.stdout)?.trim().to_string();
-
-        // Get more detailed info
-        let output = Command::new("systemctl")
-            .args(&["show", &format!("{}.service", service), "--property=LoadState,ActiveState,SubState"])
-            .output()?;
-
-        let detailed_info = String::from_utf8(output.stdout)?;
-        Ok((active_status, detailed_info))
+        Ok(ServiceStatusInfo {
+            active_state,
+            memory_bytes,
+            restart_count,
+            start_timestamp,
+        })
     }
 
     /// Check if service name matches pattern (supports wildcards like nginx*)
@@ -392,75 +448,6 @@ impl SystemdCollector {
         true
     }
 
-    /// Get disk usage for a specific service
-    async fn get_service_disk_usage(&self, service_name: &str) -> Result<f32, CollectorError> {
-        // Check if this service has configured directory paths
-        if let Some(dirs) = self.config.service_directories.get(service_name) {
-            // Service has configured paths - use the first accessible one
-            for dir in dirs {
-                if let Some(size) = self.get_directory_size(dir) {
-                    return Ok(size);
-                }
-            }
-            // If configured paths failed, return 0
-            return Ok(0.0);
-        }
-
-        // No configured path - try to get WorkingDirectory from systemctl
-        let output = Command::new("systemctl")
-            .args(&["show", &format!("{}.service", service_name), "--property=WorkingDirectory"])
-            .output()
-            .map_err(|e| CollectorError::SystemRead {
-                path: format!("WorkingDirectory for {}", service_name),
-                error: e.to_string(),
-            })?;
-
-        let output_str = String::from_utf8_lossy(&output.stdout);
-        for line in output_str.lines() {
-            if line.starts_with("WorkingDirectory=") && !line.contains("[not set]") {
-                let dir = line.strip_prefix("WorkingDirectory=").unwrap_or("");
-                if !dir.is_empty() && dir != "/" {
-                    return Ok(self.get_directory_size(dir).unwrap_or(0.0));
-                }
-            }
-        }
-
-        Ok(0.0)
-    }
-    
-    /// Get size of a directory in GB
-    fn get_directory_size(&self, path: &str) -> Option<f32> {
-        let output = Command::new("sudo")
-            .args(&["du", "-sb", path])
-            .output()
-            .ok()?;
-
-        if !output.status.success() {
-            // Log permission errors for debugging but don't spam logs
-            let stderr = String::from_utf8_lossy(&output.stderr);
-            if stderr.contains("Permission denied") {
-                debug!("Permission denied accessing directory: {}", path);
-            } else {
-                debug!("Failed to get size for directory {}: {}", path, stderr);
-            }
-            return None;
-        }
-
-        let output_str = String::from_utf8(output.stdout).ok()?;
-        let size_str = output_str.split_whitespace().next()?;
-        if let Ok(size_bytes) = size_str.parse::<u64>() {
-            let size_gb = size_bytes as f32 / (1024.0 * 1024.0 * 1024.0);
-            // Return size even if very small (minimum 0.001 GB = 1MB for visibility)
-            if size_gb > 0.0 {
-                Some(size_gb.max(0.001))
-            } else {
-                None
-            }
-        } else {
-            None
-        }
-    }
-
     /// Calculate service status, taking user-stopped services into account
     fn calculate_service_status(&self, service_name: &str, active_status: &str) -> Status {
         match active_status.to_lowercase().as_str() {
@@ -478,33 +465,6 @@ impl SystemdCollector {
         }
     }
 
-    /// Get memory usage for a specific service
-    async fn get_service_memory_usage(&self, service_name: &str) -> Result<f32, CollectorError> {
-        let output = Command::new("systemctl")
-            .args(&["show", &format!("{}.service", service_name), "--property=MemoryCurrent"])
-            .output()
-            .map_err(|e| CollectorError::SystemRead {
-                path: format!("memory usage for {}", service_name),
-                error: e.to_string(),
-            })?;
-
-        let output_str = String::from_utf8_lossy(&output.stdout);
-        
-        for line in output_str.lines() {
-            if line.starts_with("MemoryCurrent=") {
-                if let Some(mem_str) = line.strip_prefix("MemoryCurrent=") {
-                    if mem_str != "[not set]" {
-                        if let Ok(memory_bytes) = mem_str.parse::<u64>() {
-                            return Ok(memory_bytes as f32 / (1024.0 * 1024.0)); // Convert to MB
-                        }
-                    }
-                }
-            }
-        }
-
-        Ok(0.0)
-    }
-
     /// Check if service collection cache should be updated
     fn should_update_cache(&self) -> bool {
         let state = self.state.read().unwrap();
@@ -756,9 +716,10 @@ impl SystemdCollector {
     fn get_docker_containers(&self) -> Vec<(String, String)> {
         let mut containers = Vec::new();
 
-        // Check if docker is available (use sudo for permissions)
-        let output = Command::new("sudo")
-            .args(&["docker", "ps", "--format", "{{.Names}},{{.Status}}"])
+        // Check if docker is available (cm-agent user is in docker group)
+        // Use -a to show ALL containers (running and stopped) with 3 second timeout
+        let output = Command::new("timeout")
+            .args(&["3", "docker", "ps", "-a", "--format", "{{.Names}},{{.Status}}"])
             .output();
 
         let output = match output {
@@ -783,10 +744,10 @@ impl SystemdCollector {
 
                 let container_status = if status_str.contains("Up") {
                     "active"
-                } else if status_str.contains("Exited") {
-                    "warning" // Match original: Exited → Warning, not inactive
+                } else if status_str.contains("Exited") || status_str.contains("Created") {
+                    "inactive" // Stopped/created containers are inactive
                 } else {
-                    "failed" // Other states → failed
+                    "failed" // Other states (restarting, paused, dead) → failed
                 };
                 
                 containers.push((format!("docker_{}", container_name), container_status.to_string()));
@@ -795,6 +756,86 @@ impl SystemdCollector {
 
         containers
     }
+
+    /// Get docker images as sub-services
+    fn get_docker_images(&self) -> Vec<(String, String, f32)> {
+        let mut images = Vec::new();
+        // Check if docker is available (cm-agent user is in docker group) with 3 second timeout
+        let output = Command::new("timeout")
+            .args(&["3", "docker", "images", "--format", "{{.Repository}}:{{.Tag}},{{.Size}}"])
+            .output();
+
+        let output = match output {
+            Ok(out) if out.status.success() => out,
+            Ok(_) => {
+                return images;
+            }
+            Err(_) => {
+                return images;
+            }
+        };
+
+        let output_str = match String::from_utf8(output.stdout) {
+            Ok(s) => s,
+            Err(_) => return images,
+        };
+
+        for line in output_str.lines() {
+            if line.trim().is_empty() {
+                continue;
+            }
+
+            let parts: Vec<&str> = line.split(',').collect();
+            if parts.len() >= 2 {
+                let image_name = parts[0].trim();
+                let size_str = parts[1].trim();
+
+                // Skip <none>:<none> images (dangling images)
+                if image_name.contains("<none>") {
+                    continue;
+                }
+
+                // Parse size to MB (sizes come as "142MB", "1.5GB", "512kB", etc.)
+                let size_mb = self.parse_docker_size(size_str);
+
+                images.push((
+                    image_name.to_string(),
+                    "inactive".to_string(), // Images are informational - use inactive for neutral display
+                    size_mb
+                ));
+            }
+        }
+
+        images
+    }
+
+    /// Parse Docker size string to MB
+    fn parse_docker_size(&self, size_str: &str) -> f32 {
+        let size_upper = size_str.to_uppercase();
+
+        // Extract numeric part and unit
+        let mut num_str = String::new();
+        let mut unit = String::new();
+
+        for ch in size_upper.chars() {
+            if ch.is_ascii_digit() || ch == '.' {
+                num_str.push(ch);
+            } else if ch.is_alphabetic() {
+                unit.push(ch);
+            }
+        }
+
+        let value: f32 = num_str.parse().unwrap_or(0.0);
+
+        // Convert to MB
+        match unit.as_str() {
+            "KB" | "K" => value / 1024.0,
+            "MB" | "M" => value,
+            "GB" | "G" => value * 1024.0,
+            "TB" | "T" => value * 1024.0 * 1024.0,
+            _ => value, // Assume bytes if no unit
+        }
+    }
 }
 
 #[async_trait]

agent/src/communication/mod.rs

@@ -5,10 +5,9 @@ use zmq::{Context, Socket, SocketType};
 
 use crate::config::ZmqConfig;
 
-/// ZMQ communication handler for publishing metrics and receiving commands
+/// ZMQ communication handler for publishing metrics
 pub struct ZmqHandler {
     publisher: Socket,
-    command_receiver: Socket,
 }
 
 impl ZmqHandler {
@@ -26,20 +25,8 @@ impl ZmqHandler {
         publisher.set_sndhwm(1000)?; // High water mark for outbound messages
         publisher.set_linger(1000)?; // Linger time on close
 
-        // Create command receiver socket (PULL socket to receive commands from dashboard)
-        let command_receiver = context.socket(SocketType::PULL)?;
-        let cmd_bind_address = format!("tcp://{}:{}", config.bind_address, config.command_port);
-        command_receiver.bind(&cmd_bind_address)?;
-
-        info!("ZMQ command receiver bound to {}", cmd_bind_address);
-
-        // Set non-blocking mode for command receiver
-        command_receiver.set_rcvtimeo(0)?; // Non-blocking receive
-        command_receiver.set_linger(1000)?;
-
         Ok(Self {
             publisher,
-            command_receiver,
         })
     }
 
@@ -65,36 +52,4 @@ impl ZmqHandler {
         Ok(())
     }
 
-    /// Try to receive a command (non-blocking)
-    pub fn try_receive_command(&self) -> Result<Option<AgentCommand>> {
-        match self.command_receiver.recv_bytes(zmq::DONTWAIT) {
-            Ok(bytes) => {
-                debug!("Received command message ({} bytes)", bytes.len());
-
-                let command: AgentCommand = serde_json::from_slice(&bytes)
-                    .map_err(|e| anyhow::anyhow!("Failed to deserialize command: {}", e))?;
-
-                debug!("Parsed command: {:?}", command);
-                Ok(Some(command))
-            }
-            Err(zmq::Error::EAGAIN) => {
-                // No message available (non-blocking)
-                Ok(None)
-            }
-            Err(e) => Err(anyhow::anyhow!("ZMQ receive error: {}", e)),
-        }
-    }
-}
-
-/// Commands that can be sent to the agent
-#[derive(Debug, Clone, serde::Deserialize, serde::Serialize)]
-pub enum AgentCommand {
-    /// Request immediate metric collection
-    CollectNow,
-    /// Change collection interval
-    SetInterval { seconds: u64 },
-    /// Enable/disable a collector
-    ToggleCollector { name: String, enabled: bool },
-    /// Request status/health check
-    Ping,
 }

agent/src/config/mod.rs

@@ -13,14 +13,12 @@ pub struct AgentConfig {
     pub collectors: CollectorConfig,
     pub cache: CacheConfig,
     pub notifications: NotificationConfig,
-    pub collection_interval_seconds: u64,
 }
 
 /// ZMQ communication configuration
 #[derive(Debug, Clone, Serialize, Deserialize)]
 pub struct ZmqConfig {
     pub publisher_port: u16,
-    pub command_port: u16,
     pub bind_address: String,
     pub transmission_interval_seconds: u64,
     /// Heartbeat transmission interval in seconds for host connectivity detection

agent/src/config/validation.rs

@@ -7,21 +7,13 @@ pub fn validate_config(config: &AgentConfig) -> Result<()> {
         bail!("ZMQ publisher port cannot be 0");
     }
 
-    if config.zmq.command_port == 0 {
-        bail!("ZMQ command port cannot be 0");
-    }
-
-    if config.zmq.publisher_port == config.zmq.command_port {
-        bail!("ZMQ publisher and command ports cannot be the same");
-    }
-
     if config.zmq.bind_address.is_empty() {
         bail!("ZMQ bind address cannot be empty");
     }
 
-    // Validate collection interval
-    if config.collection_interval_seconds == 0 {
-        bail!("Collection interval cannot be 0");
+    // Validate ZMQ transmission interval
+    if config.zmq.transmission_interval_seconds == 0 {
+        bail!("ZMQ transmission interval cannot be 0");
     }
 
     // Validate CPU thresholds

dashboard/Cargo.toml

@@ -1,6 +1,6 @@
 [package]
 name = "cm-dashboard"
-version = "0.1.166"
+version = "0.1.230"
 edition = "2021"
 
 [dependencies]

dashboard/src/app.rs

@@ -215,7 +215,7 @@ impl Dashboard {
 
                     // Update TUI with new metrics (only if not headless)
                     if let Some(ref mut tui_app) = self.tui_app {
-                        tui_app.update_metrics(&self.metric_store);
+                        tui_app.update_metrics(&mut self.metric_store);
                     }
                 }
                 

dashboard/src/metrics/store.rs

@@ -5,6 +5,14 @@ use tracing::{debug, info, warn};
 
 use super::MetricDataPoint;
 
+/// ZMQ communication statistics per host
+#[derive(Debug, Clone)]
+pub struct ZmqStats {
+    pub packets_received: u64,
+    pub last_packet_time: Instant,
+    pub last_packet_age_secs: f64,
+}
+
 /// Central metric storage for the dashboard
 pub struct MetricStore {
     /// Current structured data: hostname -> AgentData
@@ -13,6 +21,8 @@ pub struct MetricStore {
     historical_metrics: HashMap<String, Vec<MetricDataPoint>>,
     /// Last heartbeat timestamp per host
     last_heartbeat: HashMap<String, Instant>,
+    /// ZMQ communication statistics per host
+    zmq_stats: HashMap<String, ZmqStats>,
     /// Configuration
     max_metrics_per_host: usize,
     history_retention: Duration,
@@ -24,6 +34,7 @@ impl MetricStore {
             current_agent_data: HashMap::new(),
             historical_metrics: HashMap::new(),
             last_heartbeat: HashMap::new(),
+            zmq_stats: HashMap::new(),
             max_metrics_per_host,
             history_retention: Duration::from_secs(history_retention_hours * 3600),
         }
@@ -44,6 +55,16 @@ impl MetricStore {
         self.last_heartbeat.insert(hostname.clone(), now);
         debug!("Updated heartbeat for host {}", hostname);
 
+        // Update ZMQ stats
+        let stats = self.zmq_stats.entry(hostname.clone()).or_insert(ZmqStats {
+            packets_received: 0,
+            last_packet_time: now,
+            last_packet_age_secs: 0.0,
+        });
+        stats.packets_received += 1;
+        stats.last_packet_time = now;
+        stats.last_packet_age_secs = 0.0; // Just received
+
         // Add to history
         let host_history = self
             .historical_metrics
@@ -65,6 +86,15 @@ impl MetricStore {
         self.current_agent_data.get(hostname)
     }
 
+    /// Get ZMQ communication statistics for a host
+    pub fn get_zmq_stats(&mut self, hostname: &str) -> Option<ZmqStats> {
+        let now = Instant::now();
+        self.zmq_stats.get_mut(hostname).map(|stats| {
+            // Update packet age
+            stats.last_packet_age_secs = now.duration_since(stats.last_packet_time).as_secs_f64();
+            stats.clone()
+        })
+    }
 
     /// Get connected hosts (hosts with recent heartbeats)
     pub fn get_connected_hosts(&self, timeout: Duration) -> Vec<String> {

dashboard/src/ui/mod.rs

@@ -100,7 +100,7 @@ impl TuiApp {
     }
 
     /// Update widgets with structured data from store (only for current host)
-    pub fn update_metrics(&mut self, metric_store: &MetricStore) {
+    pub fn update_metrics(&mut self, metric_store: &mut MetricStore) {
         if let Some(hostname) = self.current_host.clone() {
             // Get structured data for this host
             if let Some(agent_data) = metric_store.get_agent_data(&hostname) {
@@ -110,6 +110,14 @@ impl TuiApp {
                 host_widgets.system_widget.update_from_agent_data(agent_data);
                 host_widgets.services_widget.update_from_agent_data(agent_data);
 
+                // Update ZMQ stats
+                if let Some(zmq_stats) = metric_store.get_zmq_stats(&hostname) {
+                    host_widgets.system_widget.update_zmq_stats(
+                        zmq_stats.packets_received,
+                        zmq_stats.last_packet_age_secs
+                    );
+                }
+
                 host_widgets.last_update = Some(Instant::now());
             }
         }

dashboard/src/ui/widgets/services.rs

@@ -11,6 +11,74 @@ use tracing::debug;
 use crate::ui::theme::{Components, StatusIcons, Theme, Typography};
 use ratatui::style::Style;
 
+/// Column visibility configuration based on terminal width
+#[derive(Debug, Clone, Copy)]
+struct ColumnVisibility {
+    show_name: bool,
+    show_status: bool,
+    show_ram: bool,
+    show_uptime: bool,
+    show_restarts: bool,
+}
+
+impl ColumnVisibility {
+    /// Calculate actual width needed for all columns
+    const NAME_WIDTH: u16 = 23;
+    const STATUS_WIDTH: u16 = 10;
+    const RAM_WIDTH: u16 = 8;
+    const UPTIME_WIDTH: u16 = 8;
+    const RESTARTS_WIDTH: u16 = 5;
+    const COLUMN_SPACING: u16 = 1; // Space between columns
+
+    /// Determine which columns to show based on available width
+    /// Priority order: Name > Status > RAM > Uptime > Restarts
+    fn from_width(width: u16) -> Self {
+        // Calculate cumulative widths for each configuration
+        let minimal = Self::NAME_WIDTH + Self::COLUMN_SPACING + Self::STATUS_WIDTH; // 34
+        let with_ram = minimal + Self::COLUMN_SPACING + Self::RAM_WIDTH; // 43
+        let with_uptime = with_ram + Self::COLUMN_SPACING + Self::UPTIME_WIDTH; // 52
+        let full = with_uptime + Self::COLUMN_SPACING + Self::RESTARTS_WIDTH; // 58
+
+        if width >= full {
+            // Show all columns
+            Self {
+                show_name: true,
+                show_status: true,
+                show_ram: true,
+                show_uptime: true,
+                show_restarts: true,
+            }
+        } else if width >= with_uptime {
+            // Hide restarts
+            Self {
+                show_name: true,
+                show_status: true,
+                show_ram: true,
+                show_uptime: true,
+                show_restarts: false,
+            }
+        } else if width >= with_ram {
+            // Hide uptime and restarts
+            Self {
+                show_name: true,
+                show_status: true,
+                show_ram: true,
+                show_uptime: false,
+                show_restarts: false,
+            }
+        } else {
+            // Minimal: Name + Status only
+            Self {
+                show_name: true,
+                show_status: true,
+                show_ram: false,
+                show_uptime: false,
+                show_restarts: false,
+            }
+        }
+    }
+}
+
 /// Services widget displaying hierarchical systemd service statuses
 #[derive(Clone)]
 pub struct ServicesWidget {
@@ -28,10 +96,12 @@ pub struct ServicesWidget {
 
 #[derive(Clone)]
 struct ServiceInfo {
-    memory_mb: Option<f32>,
-    disk_gb: Option<f32>,
     metrics: Vec<(String, f32, Option<String>)>, // (label, value, unit)
     widget_status: Status,
+    service_type: String, // "nginx_site", "container", "image", or empty for parent services
+    memory_bytes: Option<u64>,
+    restart_count: Option<u32>,
+    uptime_seconds: Option<u64>,
 }
 
 impl ServicesWidget {
@@ -51,8 +121,6 @@ impl ServicesWidget {
         if metric_name.starts_with("service_") {
             if let Some(end_pos) = metric_name
                 .rfind("_status")
-                .or_else(|| metric_name.rfind("_memory_mb"))
-                .or_else(|| metric_name.rfind("_disk_gb"))
                 .or_else(|| metric_name.rfind("_latency_ms"))
             {
                 let service_part = &metric_name[8..end_pos]; // Remove "service_" prefix
@@ -75,39 +143,13 @@ impl ServicesWidget {
         None
     }
 
-    /// Format disk size with appropriate units (kB/MB/GB)
-    fn format_disk_size(size_gb: f32) -> String {
-        let size_mb = size_gb * 1024.0; // Convert GB to MB
-
-        if size_mb >= 1024.0 {
-            // Show as GB
-            format!("{:.1}GB", size_gb)
-        } else if size_mb >= 1.0 {
-            // Show as MB
-            format!("{:.0}MB", size_mb)
-        } else if size_mb >= 0.001 {
-            // Convert to kB
-            let size_kb = size_mb * 1024.0;
-            format!("{:.0}kB", size_kb)
-        } else {
-            // Show very small sizes as bytes
-            let size_bytes = size_mb * 1024.0 * 1024.0;
-            format!("{:.0}B", size_bytes)
-        }
-    }
-
     /// Format parent service line - returns text without icon for span formatting
-    fn format_parent_service_line(&self, name: &str, info: &ServiceInfo) -> String {
-        let memory_str = info
-            .memory_mb
-            .map_or("0M".to_string(), |m| format!("{:.0}M", m));
-        let disk_str = info
-            .disk_gb
-            .map_or("0".to_string(), |d| Self::format_disk_size(d));
-
-        // Truncate long service names to fit layout (account for icon space)
-        let short_name = if name.len() > 22 {
-            format!("{}...", &name[..19])
+    fn format_parent_service_line(&self, name: &str, info: &ServiceInfo, columns: ColumnVisibility) -> String {
+        // Truncate long service names to fit layout
+        // NAME_WIDTH - 3 chars for "..." = max displayable chars
+        let max_name_len = (ColumnVisibility::NAME_WIDTH - 3) as usize;
+        let short_name = if name.len() > max_name_len {
+            format!("{}...", &name[..max_name_len.saturating_sub(3)])
         } else {
             name.to_string()
         };
@@ -115,7 +157,7 @@ impl ServicesWidget {
         // Convert Status enum to display text
         let status_str = match info.widget_status {
             Status::Ok => "active",
-            Status::Inactive => "inactive", 
+            Status::Inactive => "inactive",
             Status::Critical => "failed",
             Status::Pending => "pending",
             Status::Warning => "warning",
@@ -123,10 +165,59 @@ impl ServicesWidget {
             Status::Offline => "offline",
         };
 
-        format!(
-            "{:<23} {:<10} {:<8} {:<8}",
-            short_name, status_str, memory_str, disk_str
-        )
+        // Format memory
+        let memory_str = info.memory_bytes.map_or("-".to_string(), |bytes| {
+            let mb = bytes as f64 / (1024.0 * 1024.0);
+            if mb >= 1000.0 {
+                format!("{:.1}G", mb / 1024.0)
+            } else {
+                format!("{:.0}M", mb)
+            }
+        });
+
+        // Format uptime
+        let uptime_str = info.uptime_seconds.map_or("-".to_string(), |secs| {
+            let days = secs / 86400;
+            let hours = (secs % 86400) / 3600;
+            let mins = (secs % 3600) / 60;
+
+            if days > 0 {
+                format!("{}d{}h", days, hours)
+            } else if hours > 0 {
+                format!("{}h{}m", hours, mins)
+            } else {
+                format!("{}m", mins)
+            }
+        });
+
+        // Format restarts (show "!" if > 0 to indicate instability)
+        let restart_str = info.restart_count.map_or("-".to_string(), |count| {
+            if count > 0 {
+                format!("!{}", count)
+            } else {
+                "0".to_string()
+            }
+        });
+
+        // Build format string based on column visibility
+        let mut parts = Vec::new();
+        if columns.show_name {
+            parts.push(format!("{:<width$}", short_name, width = ColumnVisibility::NAME_WIDTH as usize));
+        }
+        if columns.show_status {
+            parts.push(format!("{:<width$}", status_str, width = ColumnVisibility::STATUS_WIDTH as usize));
+        }
+        if columns.show_ram {
+            parts.push(format!("{:<width$}", memory_str, width = ColumnVisibility::RAM_WIDTH as usize));
+        }
+        if columns.show_uptime {
+            parts.push(format!("{:<width$}", uptime_str, width = ColumnVisibility::UPTIME_WIDTH as usize));
+        }
+        if columns.show_restarts {
+            parts.push(format!("{:<width$}", restart_str, width = ColumnVisibility::RESTARTS_WIDTH as usize));
+        }
+
+        parts.join(" ")
     }
 
 
@@ -169,7 +260,7 @@ impl ServicesWidget {
             // Convert Status enum to display text for sub-services
             match info.widget_status {
                 Status::Ok => "active",
-                Status::Inactive => "inactive", 
+                Status::Inactive => "inactive",
                 Status::Critical => "failed",
                 Status::Pending => "pending",
                 Status::Warning => "warning",
@@ -179,32 +270,62 @@ impl ServicesWidget {
         };
         let tree_symbol = if is_last { "└─" } else { "├─" };
 
-        vec![
-            // Indentation and tree prefix
-            ratatui::text::Span::styled(
-                format!("  {} ", tree_symbol),
-                Typography::tree(),
-            ),
-            // Status icon
-            ratatui::text::Span::styled(
-                format!("{} ", icon),
-                Style::default().fg(status_color).bg(Theme::background()),
-            ),
-            // Service name
-            ratatui::text::Span::styled(
-                format!("{:<18} ", short_name),
-                Style::default()
-                    .fg(Theme::secondary_text())
-                    .bg(Theme::background()),
-            ),
-            // Status/latency text
-            ratatui::text::Span::styled(
-                status_str,
-                Style::default()
-                    .fg(Theme::secondary_text())
-                    .bg(Theme::background()),
-            ),
-        ]
+        // Docker images use docker whale icon
+        if info.service_type == "image" {
+            vec![
+                // Indentation and tree prefix
+                ratatui::text::Span::styled(
+                    format!("  {} ", tree_symbol),
+                    Typography::tree(),
+                ),
+                // Docker icon (simple character for performance)
+                ratatui::text::Span::styled(
+                    "D ".to_string(),
+                    Style::default().fg(Theme::highlight()).bg(Theme::background()),
+                ),
+                // Service name
+                ratatui::text::Span::styled(
+                    format!("{:<18} ", short_name),
+                    Style::default()
+                        .fg(Theme::secondary_text())
+                        .bg(Theme::background()),
+                ),
+                // Status/metrics text
+                ratatui::text::Span::styled(
+                    status_str,
+                    Style::default()
+                        .fg(Theme::secondary_text())
+                        .bg(Theme::background()),
+                ),
+            ]
+        } else {
+            vec![
+                // Indentation and tree prefix
+                ratatui::text::Span::styled(
+                    format!("  {} ", tree_symbol),
+                    Typography::tree(),
+                ),
+                // Status icon
+                ratatui::text::Span::styled(
+                    format!("{} ", icon),
+                    Style::default().fg(status_color).bg(Theme::background()),
+                ),
+                // Service name
+                ratatui::text::Span::styled(
+                    format!("{:<18} ", short_name),
+                    Style::default()
+                        .fg(Theme::secondary_text())
+                        .bg(Theme::background()),
+                ),
+                // Status/latency text
+                ratatui::text::Span::styled(
+                    status_str,
+                    Style::default()
+                        .fg(Theme::secondary_text())
+                        .bg(Theme::background()),
+                ),
+            ]
+        }
     }
 
     /// Move selection up
@@ -278,13 +399,15 @@ impl Widget for ServicesWidget {
         for service in &agent_data.services {
             // Store parent service
             let parent_info = ServiceInfo {
-                memory_mb: Some(service.memory_mb),
-                disk_gb: Some(service.disk_gb),
                 metrics: Vec::new(), // Parent services don't have custom metrics
                 widget_status: service.service_status,
+                service_type: String::new(), // Parent services have no type
+                memory_bytes: service.memory_bytes,
+                restart_count: service.restart_count,
+                uptime_seconds: service.uptime_seconds,
             };
             self.parent_services.insert(service.name.clone(), parent_info);
-            
+
             // Process sub-services if any
             if !service.sub_services.is_empty() {
                 let mut sub_list = Vec::new();
@@ -293,12 +416,14 @@ impl Widget for ServicesWidget {
                     let metrics: Vec<(String, f32, Option<String>)> = sub_service.metrics.iter()
                         .map(|m| (m.label.clone(), m.value, m.unit.clone()))
                         .collect();
-                    
+
                     let sub_info = ServiceInfo {
-                        memory_mb: None, // Not used for sub-services
-                        disk_gb: None,   // Not used for sub-services
                         metrics,
                         widget_status: sub_service.service_status,
+                        service_type: sub_service.service_type.clone(),
+                        memory_bytes: None, // Sub-services don't have individual metrics yet
+                        restart_count: None,
+                        uptime_seconds: None,
                     };
                     sub_list.push((sub_service.name.clone(), sub_info));
                 }
@@ -338,22 +463,16 @@ impl ServicesWidget {
                             self.parent_services
                                 .entry(parent_service)
                                 .or_insert(ServiceInfo {
-                                    memory_mb: None,
-                                    disk_gb: None,
                                     metrics: Vec::new(),
                                     widget_status: Status::Unknown,
+                                    service_type: String::new(),
+                                    memory_bytes: None,
+                                    restart_count: None,
+                                    uptime_seconds: None,
                                 });
 
                         if metric.name.ends_with("_status") {
                             service_info.widget_status = metric.status;
-                        } else if metric.name.ends_with("_memory_mb") {
-                            if let Some(memory) = metric.value.as_f32() {
-                                service_info.memory_mb = Some(memory);
-                            }
-                        } else if metric.name.ends_with("_disk_gb") {
-                            if let Some(disk) = metric.value.as_f32() {
-                                service_info.disk_gb = Some(disk);
-                            }
                         }
                     }
                     Some(sub_name) => {
@@ -373,10 +492,12 @@ impl ServicesWidget {
                             sub_service_list.push((
                                 sub_name.clone(),
                                 ServiceInfo {
-                                    memory_mb: None,
-                                    disk_gb: None,
                                     metrics: Vec::new(),
                                     widget_status: Status::Unknown,
+                                    service_type: String::new(), // Unknown type in legacy path
+                                    memory_bytes: None,
+                                    restart_count: None,
+                                    uptime_seconds: None,
                                 },
                             ));
                             &mut sub_service_list.last_mut().unwrap().1
@@ -384,14 +505,6 @@ impl ServicesWidget {
 
                         if metric.name.ends_with("_status") {
                             sub_service_info.widget_status = metric.status;
-                        } else if metric.name.ends_with("_memory_mb") {
-                            if let Some(memory) = metric.value.as_f32() {
-                                sub_service_info.memory_mb = Some(memory);
-                            }
-                        } else if metric.name.ends_with("_disk_gb") {
-                            if let Some(disk) = metric.value.as_f32() {
-                                sub_service_info.disk_gb = Some(disk);
-                            }
                         }
                     }
                 }
@@ -448,11 +561,28 @@ impl ServicesWidget {
             .constraints([Constraint::Length(1), Constraint::Min(0)])
             .split(inner_area);
 
-        // Header
-        let header = format!(
-            "{:<25} {:<10} {:<8} {:<8}",
-            "Service:", "Status:", "RAM:", "Disk:"
-        );
+        // Determine which columns to show based on available width
+        let columns = ColumnVisibility::from_width(inner_area.width);
+
+        // Build header based on visible columns
+        let mut header_parts = Vec::new();
+        if columns.show_name {
+            header_parts.push(format!("{:<width$}", "Service:", width = ColumnVisibility::NAME_WIDTH as usize));
+        }
+        if columns.show_status {
+            header_parts.push(format!("{:<width$}", "Status:", width = ColumnVisibility::STATUS_WIDTH as usize));
+        }
+        if columns.show_ram {
+            header_parts.push(format!("{:<width$}", "RAM:", width = ColumnVisibility::RAM_WIDTH as usize));
+        }
+        if columns.show_uptime {
+            header_parts.push(format!("{:<width$}", "Uptime:", width = ColumnVisibility::UPTIME_WIDTH as usize));
+        }
+        if columns.show_restarts {
+            header_parts.push(format!("{:<width$}", "↻:", width = ColumnVisibility::RESTARTS_WIDTH as usize));
+        }
+        let header = header_parts.join(" ");
+
         let header_para = Paragraph::new(header).style(Typography::muted());
         frame.render_widget(header_para, content_chunks[0]);
 
@@ -464,11 +594,11 @@ impl ServicesWidget {
         }
 
         // Render the services list
-        self.render_services(frame, content_chunks[1], is_focused);
+        self.render_services(frame, content_chunks[1], is_focused, columns);
     }
 
     /// Render services list
-    fn render_services(&mut self, frame: &mut Frame, area: Rect, is_focused: bool) {
+    fn render_services(&mut self, frame: &mut Frame, area: Rect, is_focused: bool, columns: ColumnVisibility) {
         // Build hierarchical service list for display
         let mut display_lines: Vec<(String, Status, bool, Option<(ServiceInfo, bool)>)> = Vec::new();
 
@@ -478,7 +608,7 @@ impl ServicesWidget {
 
         for (parent_name, parent_info) in parent_services {
             // Add parent service line
-            let parent_line = self.format_parent_service_line(parent_name, parent_info);
+            let parent_line = self.format_parent_service_line(parent_name, parent_info, columns);
             display_lines.push((parent_line, parent_info.widget_status, false, None));
 
             // Add sub-services for this parent (if any)

dashboard/src/ui/widgets/system.rs

@@ -15,6 +15,10 @@ pub struct SystemWidget {
     nixos_build: Option<String>,
     agent_hash: Option<String>,
 
+    // ZMQ communication stats
+    zmq_packets_received: Option<u64>,
+    zmq_last_packet_age: Option<f64>,
+
     // Network interfaces
     network_interfaces: Vec<cm_dashboard_shared::NetworkInterfaceData>,
 
@@ -22,7 +26,7 @@ pub struct SystemWidget {
     cpu_load_1min: Option<f32>,
     cpu_load_5min: Option<f32>,
     cpu_load_15min: Option<f32>,
-    cpu_frequency: Option<f32>,
+    cpu_cstates: Vec<cm_dashboard_shared::CStateInfo>,
     cpu_status: Status,
     
     // Memory metrics
@@ -41,15 +45,9 @@ pub struct SystemWidget {
     storage_pools: Vec<StoragePool>,
     
     // Backup metrics
-    backup_status: String,
-    backup_start_time_raw: Option<String>,
-    backup_disk_serial: Option<String>,
-    backup_disk_usage_percent: Option<f32>,
-    backup_disk_used_gb: Option<f32>,
-    backup_disk_total_gb: Option<f32>,
-    backup_disk_wear_percent: Option<f32>,
-    backup_disk_temperature: Option<f32>,
-    backup_last_size_gb: Option<f32>,
+    backup_repositories: Vec<String>,
+    backup_repository_status: Status,
+    backup_disks: Vec<cm_dashboard_shared::BackupDiskData>,
     
     // Overall status
     has_data: bool,
@@ -92,11 +90,13 @@ impl SystemWidget {
         Self {
             nixos_build: None,
             agent_hash: None,
+            zmq_packets_received: None,
+            zmq_last_packet_age: None,
             network_interfaces: Vec::new(),
             cpu_load_1min: None,
             cpu_load_5min: None,
             cpu_load_15min: None,
-            cpu_frequency: None,
+            cpu_cstates: Vec::new(),
             cpu_status: Status::Unknown,
             memory_usage_percent: None,
             memory_used_gb: None,
@@ -108,15 +108,9 @@ impl SystemWidget {
             tmp_status: Status::Unknown,
             tmpfs_mounts: Vec::new(),
             storage_pools: Vec::new(),
-            backup_status: "unknown".to_string(),
-            backup_start_time_raw: None,
-            backup_disk_serial: None,
-            backup_disk_usage_percent: None,
-            backup_disk_used_gb: None,
-            backup_disk_total_gb: None,
-            backup_disk_wear_percent: None,
-            backup_disk_temperature: None,
-            backup_last_size_gb: None,
+            backup_repositories: Vec::new(),
+            backup_repository_status: Status::Unknown,
+            backup_disks: Vec::new(),
             has_data: false,
         }
     }
@@ -131,12 +125,19 @@ impl SystemWidget {
         }
     }
 
-    /// Format CPU frequency
-    fn format_cpu_frequency(&self) -> String {
-        match self.cpu_frequency {
-            Some(freq) => format!("{:.0} MHz", freq),
-            None => "— MHz".to_string(),
+    /// Format CPU C-states (idle depth) with percentages
+    fn format_cpu_cstate(&self) -> String {
+        if self.cpu_cstates.is_empty() {
+            return "—".to_string();
         }
+
+        // Format top 3 C-states with percentages: "C10:79% C8:10% C6:8%"
+        // Agent already sends clean names (C3, C10, etc.)
+        self.cpu_cstates
+            .iter()
+            .map(|cs| format!("{}:{:.0}%", cs.name, cs.percent))
+            .collect::<Vec<_>>()
+            .join(" ")
     }
 
     /// Format memory usage
@@ -154,6 +155,12 @@ impl SystemWidget {
     pub fn _get_agent_hash(&self) -> Option<&String> {
         self.agent_hash.as_ref()
     }
+
+    /// Update ZMQ communication statistics
+    pub fn update_zmq_stats(&mut self, packets_received: u64, last_packet_age_secs: f64) {
+        self.zmq_packets_received = Some(packets_received);
+        self.zmq_last_packet_age = Some(last_packet_age_secs);
+    }
 }
 
 use super::Widget;
@@ -176,7 +183,7 @@ impl Widget for SystemWidget {
         self.cpu_load_1min = Some(cpu.load_1min);
         self.cpu_load_5min = Some(cpu.load_5min);
         self.cpu_load_15min = Some(cpu.load_15min);
-        self.cpu_frequency = Some(cpu.frequency_mhz);
+        self.cpu_cstates = cpu.cstates.clone();
         self.cpu_status = Status::Ok;
 
         // Extract memory data directly
@@ -202,25 +209,9 @@ impl Widget for SystemWidget {
 
         // Extract backup data
         let backup = &agent_data.backup;
-        self.backup_status = backup.status.clone();
-        self.backup_start_time_raw = backup.start_time_raw.clone();
-        self.backup_last_size_gb = backup.last_backup_size_gb;
-
-        if let Some(disk) = &backup.repository_disk {
-            self.backup_disk_serial = Some(disk.serial.clone());
-            self.backup_disk_usage_percent = Some(disk.usage_percent);
-            self.backup_disk_used_gb = Some(disk.used_gb);
-            self.backup_disk_total_gb = Some(disk.total_gb);
-            self.backup_disk_wear_percent = disk.wear_percent;
-            self.backup_disk_temperature = disk.temperature_celsius;
-        } else {
-            self.backup_disk_serial = None;
-            self.backup_disk_usage_percent = None;
-            self.backup_disk_used_gb = None;
-            self.backup_disk_total_gb = None;
-            self.backup_disk_wear_percent = None;
-            self.backup_disk_temperature = None;
-        }
+        self.backup_repositories = backup.repositories.clone();
+        self.backup_repository_status = backup.repository_status;
+        self.backup_disks = backup.disks.clone();
     }
 }
 
@@ -520,14 +511,36 @@ impl SystemWidget {
     fn render_backup(&self) -> Vec<Line<'_>> {
         let mut lines = Vec::new();
 
-        // First line: serial number with temperature and wear
-        if let Some(serial) = &self.backup_disk_serial {
-            let truncated_serial = truncate_serial(serial);
+        // First section: Repository status and list
+        if !self.backup_repositories.is_empty() {
+            let repo_text = format!("Repo: {}", self.backup_repositories.len());
+            let repo_spans = StatusIcons::create_status_spans(self.backup_repository_status, &repo_text);
+            lines.push(Line::from(repo_spans));
+
+            // List all repositories (sorted for consistent display)
+            let mut sorted_repos = self.backup_repositories.clone();
+            sorted_repos.sort();
+            let repo_count = sorted_repos.len();
+            for (idx, repo) in sorted_repos.iter().enumerate() {
+                let tree_char = if idx == repo_count - 1 { "└─" } else { "├─" };
+                lines.push(Line::from(vec![
+                    Span::styled(format!("  {} ", tree_char), Typography::tree()),
+                    Span::styled(repo.clone(), Typography::secondary()),
+                ]));
+            }
+        }
+
+        // Second section: Per-disk backup information (sorted by serial for consistent display)
+        let mut sorted_disks = self.backup_disks.clone();
+        sorted_disks.sort_by(|a, b| a.serial.cmp(&b.serial));
+        for disk in &sorted_disks {
+            let truncated_serial = truncate_serial(&disk.serial);
             let mut details = Vec::new();
-            if let Some(temp) = self.backup_disk_temperature {
+
+            if let Some(temp) = disk.temperature_celsius {
                 details.push(format!("T: {}°C", temp as i32));
             }
-            if let Some(wear) = self.backup_disk_wear_percent {
+            if let Some(wear) = disk.wear_percent {
                 details.push(format!("W: {}%", wear as i32));
             }
 
@@ -537,44 +550,40 @@ impl SystemWidget {
                 truncated_serial
             };
 
-            let backup_status = match self.backup_status.as_str() {
-                "completed" | "success" => Status::Ok,
-                "running" => Status::Pending,
-                "failed" => Status::Critical,
-                _ => Status::Unknown,
-            };
-
-            let disk_spans = StatusIcons::create_status_spans(backup_status, &disk_text);
+            // Overall disk status (worst of backup and usage)
+            let disk_status = disk.backup_status.max(disk.usage_status);
+            let disk_spans = StatusIcons::create_status_spans(disk_status, &disk_text);
             lines.push(Line::from(disk_spans));
 
-            // Show backup time from TOML if available
-            if let Some(start_time) = &self.backup_start_time_raw {
-                let time_text = if let Some(size) = self.backup_last_size_gb {
-                    format!("Time: {} ({:.1}GB)", start_time, size)
-                } else {
-                    format!("Time: {}", start_time)
-                };
-                
-                lines.push(Line::from(vec![
+            // Show backup time with status
+            if let Some(backup_time) = &disk.last_backup_time {
+                let time_text = format!("Backup: {}", backup_time);
+                let mut time_spans = vec![
                     Span::styled("  ├─ ", Typography::tree()),
-                    Span::styled(time_text, Typography::secondary())
-                ]));
+                ];
+                time_spans.extend(StatusIcons::create_status_spans(disk.backup_status, &time_text));
+                lines.push(Line::from(time_spans));
             }
 
-            // Usage information
-            if let (Some(used), Some(total), Some(usage_percent)) = (
-                self.backup_disk_used_gb, 
-                self.backup_disk_total_gb,
-                self.backup_disk_usage_percent
-            ) {
-                let usage_text = format!("Usage: {:.0}% {:.0}GB/{:.0}GB", usage_percent, used, total);
-                let usage_spans = StatusIcons::create_status_spans(Status::Ok, &usage_text);
-                let mut full_spans = vec![
-                    Span::styled("  └─ ", Typography::tree()),
-                ];
-                full_spans.extend(usage_spans);
-                lines.push(Line::from(full_spans));
-            }
+            // Show usage with status and archive count
+            let archive_display = if disk.archives_min == disk.archives_max {
+                format!("{}", disk.archives_min)
+            } else {
+                format!("{}-{}", disk.archives_min, disk.archives_max)
+            };
+
+            let usage_text = format!(
+                "Usage: ({}) {:.0}% {:.0}GB/{:.0}GB",
+                archive_display,
+                disk.disk_usage_percent,
+                disk.disk_used_gb,
+                disk.disk_total_gb
+            );
+            let mut usage_spans = vec![
+                Span::styled("  └─ ", Typography::tree()),
+            ];
+            usage_spans.extend(StatusIcons::create_status_spans(disk.usage_status, &usage_text));
+            lines.push(Line::from(usage_spans));
         }
 
         lines
@@ -628,9 +637,24 @@ impl SystemWidget {
         let physical: Vec<_> = self.network_interfaces.iter().filter(|i| i.is_physical).collect();
         let virtual_interfaces: Vec<_> = self.network_interfaces.iter().filter(|i| !i.is_physical).collect();
 
-        // Render physical interfaces
+        // Find standalone virtual interfaces (those without a parent)
+        let mut standalone_virtual: Vec<_> = virtual_interfaces.iter()
+            .filter(|i| i.parent_interface.is_none())
+            .collect();
+
+        // Sort standalone virtual: VLANs first (by VLAN ID), then others alphabetically
+        standalone_virtual.sort_by(|a, b| {
+            match (a.vlan_id, b.vlan_id) {
+                (Some(vlan_a), Some(vlan_b)) => vlan_a.cmp(&vlan_b),
+                (Some(_), None) => std::cmp::Ordering::Less,
+                (None, Some(_)) => std::cmp::Ordering::Greater,
+                (None, None) => a.name.cmp(&b.name),
+            }
+        });
+
+        // Render physical interfaces with their children
         for (phy_idx, interface) in physical.iter().enumerate() {
-            let is_last_physical = phy_idx == physical.len() - 1 && virtual_interfaces.is_empty();
+            let is_last_physical = phy_idx == physical.len() - 1 && standalone_virtual.is_empty();
 
             // Physical interface header with status icon
             let mut header_spans = vec![];
@@ -640,36 +664,93 @@ impl SystemWidget {
             ));
             lines.push(Line::from(header_spans));
 
-            // Show IPs nested under the interface
-            let ip_count = interface.ipv4_addresses.len() + interface.ipv6_addresses.len();
-            let mut ip_index = 0;
+            // Find child interfaces for this physical interface
+            let mut children: Vec<_> = virtual_interfaces.iter()
+                .filter(|vi| {
+                    if let Some(parent) = &vi.parent_interface {
+                        parent == &interface.name
+                    } else {
+                        false
+                    }
+                })
+                .collect();
 
-            // IPv4 addresses
+            // Sort children: VLANs first (by VLAN ID), then others alphabetically
+            children.sort_by(|a, b| {
+                match (a.vlan_id, b.vlan_id) {
+                    (Some(vlan_a), Some(vlan_b)) => vlan_a.cmp(&vlan_b),
+                    (Some(_), None) => std::cmp::Ordering::Less,
+                    (None, Some(_)) => std::cmp::Ordering::Greater,
+                    (None, None) => a.name.cmp(&b.name),
+                }
+            });
+
+            // Count total items under this physical interface (IPs + children)
+            let ip_count = interface.ipv4_addresses.len() + interface.ipv6_addresses.len();
+            let total_children = ip_count + children.len();
+            let mut child_index = 0;
+
+            // IPv4 addresses on the physical interface itself
             for ipv4 in &interface.ipv4_addresses {
-                ip_index += 1;
-                let is_last_ip = ip_index == ip_count && is_last_physical;
-                let tree_symbol = if is_last_ip { "  └─ " } else { "  ├─ " };
+                child_index += 1;
+                let is_last = child_index == total_children && is_last_physical;
+                let tree_symbol = if is_last { "  └─ " } else { "  ├─ " };
                 lines.push(Line::from(vec![
                     Span::styled(tree_symbol, Typography::tree()),
                     Span::styled(format!("ip: {}", ipv4), Typography::secondary()),
                 ]));
             }
 
-            // IPv6 addresses
+            // IPv6 addresses on the physical interface itself
             for ipv6 in &interface.ipv6_addresses {
-                ip_index += 1;
-                let is_last_ip = ip_index == ip_count && is_last_physical;
-                let tree_symbol = if is_last_ip { "  └─ " } else { "  ├─ " };
+                child_index += 1;
+                let is_last = child_index == total_children && is_last_physical;
+                let tree_symbol = if is_last { "  └─ " } else { "  ├─ " };
                 lines.push(Line::from(vec![
                     Span::styled(tree_symbol, Typography::tree()),
                     Span::styled(format!("ip: {}", ipv6), Typography::secondary()),
                 ]));
             }
+
+            // Child virtual interfaces (VLANs, etc.)
+            for child in children {
+                child_index += 1;
+                let is_last = child_index == total_children && is_last_physical;
+                let tree_symbol = if is_last { "  └─ " } else { "  ├─ " };
+
+                let ip_text = if !child.ipv4_addresses.is_empty() {
+                    Self::compress_ipv4_addresses(&child.ipv4_addresses)
+                } else if !child.ipv6_addresses.is_empty() {
+                    child.ipv6_addresses.join(", ")
+                } else {
+                    String::new()
+                };
+
+                // Format: "name (vlan X): IP" or "name: IP"
+                let child_text = if let Some(vlan_id) = child.vlan_id {
+                    if !ip_text.is_empty() {
+                        format!("{} (vlan {}): {}", child.name, vlan_id, ip_text)
+                    } else {
+                        format!("{} (vlan {}):", child.name, vlan_id)
+                    }
+                } else {
+                    if !ip_text.is_empty() {
+                        format!("{}: {}", child.name, ip_text)
+                    } else {
+                        format!("{}:", child.name)
+                    }
+                };
+
+                lines.push(Line::from(vec![
+                    Span::styled(tree_symbol, Typography::tree()),
+                    Span::styled(child_text, Typography::secondary()),
+                ]));
+            }
         }
 
         // Render standalone virtual interfaces (those without a parent)
-        for (virt_idx, interface) in virtual_interfaces.iter().enumerate() {
-            let is_last = virt_idx == virtual_interfaces.len() - 1;
+        for (virt_idx, interface) in standalone_virtual.iter().enumerate() {
+            let is_last = virt_idx == standalone_virtual.len() - 1;
             let tree_symbol = if is_last { "  └─ " } else { "  ├─ " };
 
             // Virtual interface with IPs
@@ -681,10 +762,19 @@ impl SystemWidget {
                 String::new()
             };
 
-            let interface_text = if !ip_text.is_empty() {
-                format!("{}: {}", interface.name, ip_text)
+            // Format: "name (vlan X): IP" or "name: IP"
+            let interface_text = if let Some(vlan_id) = interface.vlan_id {
+                if !ip_text.is_empty() {
+                    format!("{} (vlan {}): {}", interface.name, vlan_id, ip_text)
+                } else {
+                    format!("{} (vlan {}):", interface.name, vlan_id)
+                }
             } else {
-                format!("{}:", interface.name)
+                if !ip_text.is_empty() {
+                    format!("{}: {}", interface.name, ip_text)
+                } else {
+                    format!("{}:", interface.name)
+                }
             };
 
             lines.push(Line::from(vec![
@@ -715,39 +805,41 @@ impl SystemWidget {
             Span::styled(format!("Agent: {}", agent_version_text), Typography::secondary())
         ]));
 
-        // Network section
-        if !self.network_interfaces.is_empty() {
+        // ZMQ communication stats
+        if let (Some(packets), Some(age)) = (self.zmq_packets_received, self.zmq_last_packet_age) {
+            let age_text = if age < 1.0 {
+                format!("{:.0}ms ago", age * 1000.0)
+            } else {
+                format!("{:.1}s ago", age)
+            };
             lines.push(Line::from(vec![
-                Span::styled("Network:", Typography::widget_title())
+                Span::styled(format!("ZMQ: {} pkts, last {}", packets, age_text), Typography::secondary())
             ]));
-
-            let network_lines = self.render_network();
-            lines.extend(network_lines);
         }
 
         // CPU section
         lines.push(Line::from(vec![
             Span::styled("CPU:", Typography::widget_title())
         ]));
-        
+
         let load_text = self.format_cpu_load();
         let cpu_spans = StatusIcons::create_status_spans(
             self.cpu_status.clone(),
             &format!("Load: {}", load_text)
         );
         lines.push(Line::from(cpu_spans));
-        
-        let freq_text = self.format_cpu_frequency();
+
+        let cstate_text = self.format_cpu_cstate();
         lines.push(Line::from(vec![
             Span::styled("  └─ ", Typography::tree()),
-            Span::styled(format!("Freq: {}", freq_text), Typography::secondary())
+            Span::styled(format!("C-state: {}", cstate_text), Typography::secondary())
         ]));
 
         // RAM section
         lines.push(Line::from(vec![
             Span::styled("RAM:", Typography::widget_title())
         ]));
-        
+
         let memory_text = self.format_memory_usage();
         let memory_spans = StatusIcons::create_status_spans(
             self.memory_status.clone(),
@@ -759,16 +851,16 @@ impl SystemWidget {
         for (i, tmpfs) in self.tmpfs_mounts.iter().enumerate() {
             let is_last = i == self.tmpfs_mounts.len() - 1;
             let tree_symbol = if is_last { "  └─ " } else { "  ├─ " };
-            
+
             let usage_text = if tmpfs.total_gb > 0.0 {
-                format!("{:.0}% {:.1}GB/{:.1}GB", 
-                    tmpfs.usage_percent, 
-                    tmpfs.used_gb, 
+                format!("{:.0}% {:.1}GB/{:.1}GB",
+                    tmpfs.usage_percent,
+                    tmpfs.used_gb,
                     tmpfs.total_gb)
             } else {
                 "— —/—".to_string()
             };
-            
+
             let mut tmpfs_spans = vec![
                 Span::styled(tree_symbol, Typography::tree()),
             ];
@@ -779,6 +871,16 @@ impl SystemWidget {
             lines.push(Line::from(tmpfs_spans));
         }
 
+        // Network section
+        if !self.network_interfaces.is_empty() {
+            lines.push(Line::from(vec![
+                Span::styled("Network:", Typography::widget_title())
+            ]));
+
+            let network_lines = self.render_network();
+            lines.extend(network_lines);
+        }
+
         // Storage section
         lines.push(Line::from(vec![
             Span::styled("Storage:", Typography::widget_title())
@@ -789,7 +891,7 @@ impl SystemWidget {
         lines.extend(storage_lines);
 
         // Backup section (if available)
-        if self.backup_status != "unavailable" && self.backup_status != "unknown" {
+        if !self.backup_repositories.is_empty() || !self.backup_disks.is_empty() {
             lines.push(Line::from(vec![
                 Span::styled("Backup:", Typography::widget_title())
             ]));

shared/Cargo.toml

@@ -1,6 +1,6 @@
 [package]
 name = "cm-dashboard-shared"
-version = "0.1.166"
+version = "0.1.230"
 edition = "2021"
 
 [dependencies]

shared/src/agent_data.rs

@@ -37,6 +37,14 @@ pub struct NetworkInterfaceData {
     pub is_physical: bool,
     pub link_status: Status,
     pub parent_interface: Option<String>,
+    pub vlan_id: Option<u16>,
+}
+
+/// CPU C-state usage information
+#[derive(Debug, Clone, Serialize, Deserialize)]
+pub struct CStateInfo {
+    pub name: String,
+    pub percent: f32,
 }
 
 /// CPU monitoring data
@@ -45,7 +53,7 @@ pub struct CpuData {
     pub load_1min: f32,
     pub load_5min: f32,
     pub load_15min: f32,
-    pub frequency_mhz: f32,
+    pub cstates: Vec<CStateInfo>, // C-state usage percentages (C1, C6, C10, etc.) - indicates CPU idle depth distribution
     pub temperature_celsius: Option<f32>,
     pub load_status: Status,
     pub temperature_status: Status,
@@ -135,11 +143,15 @@ pub struct PoolDriveData {
 #[derive(Debug, Clone, Serialize, Deserialize)]
 pub struct ServiceData {
     pub name: String,
-    pub memory_mb: f32,
-    pub disk_gb: f32,
     pub user_stopped: bool,
     pub service_status: Status,
     pub sub_services: Vec<SubServiceData>,
+    /// Memory usage in bytes (from MemoryCurrent)
+    pub memory_bytes: Option<u64>,
+    /// Number of service restarts (from NRestarts)
+    pub restart_count: Option<u32>,
+    /// Uptime in seconds (calculated from ExecMainStartTimestamp)
+    pub uptime_seconds: Option<u64>,
 }
 
 /// Sub-service data (nginx sites, docker containers, etc.)
@@ -148,6 +160,9 @@ pub struct SubServiceData {
     pub name: String,
     pub service_status: Status,
     pub metrics: Vec<SubServiceMetric>,
+    /// Type of sub-service: "nginx_site", "container", "image"
+    #[serde(default)]
+    pub service_type: String,
 }
 
 /// Individual metric for a sub-service
@@ -161,23 +176,27 @@ pub struct SubServiceMetric {
 /// Backup system data
 #[derive(Debug, Clone, Serialize, Deserialize)]
 pub struct BackupData {
-    pub status: String,
-    pub total_size_gb: Option<f32>,
-    pub repository_health: Option<String>,
-    pub repository_disk: Option<BackupDiskData>,
-    pub last_backup_size_gb: Option<f32>,
-    pub start_time_raw: Option<String>,
+    pub repositories: Vec<String>,
+    pub repository_status: Status,
+    pub disks: Vec<BackupDiskData>,
 }
 
 /// Backup repository disk information
 #[derive(Debug, Clone, Serialize, Deserialize)]
 pub struct BackupDiskData {
     pub serial: String,
-    pub usage_percent: f32,
-    pub used_gb: f32,
-    pub total_gb: f32,
+    pub product_name: Option<String>,
     pub wear_percent: Option<f32>,
     pub temperature_celsius: Option<f32>,
+    pub last_backup_time: Option<String>,
+    pub backup_status: Status,
+    pub disk_usage_percent: f32,
+    pub disk_used_gb: f32,
+    pub disk_total_gb: f32,
+    pub usage_status: Status,
+    pub services: Vec<String>,
+    pub archives_min: i64,
+    pub archives_max: i64,
 }
 
 impl AgentData {
@@ -196,7 +215,7 @@ impl AgentData {
                     load_1min: 0.0,
                     load_5min: 0.0,
                     load_15min: 0.0,
-                    frequency_mhz: 0.0,
+                    cstates: Vec::new(),
                     temperature_celsius: None,
                     load_status: Status::Unknown,
                     temperature_status: Status::Unknown,
@@ -218,12 +237,9 @@ impl AgentData {
             },
             services: Vec::new(),
             backup: BackupData {
-                status: "unknown".to_string(),
-                total_size_gb: None,
-                repository_health: None,
-                repository_disk: None,
-                last_backup_size_gb: None,
-                start_time_raw: None,
+                repositories: Vec::new(),
+                repository_status: Status::Unknown,
+                disks: Vec::new(),
             },
         }
     }