Compare commits
3 Commits
| Author | SHA1 | Date | |
|---|---|---|---|
| d1272a6c13 | |||
| 33b3beb342 | |||
| f9384d9df6 |
114
CLAUDE.md
114
CLAUDE.md
@@ -144,6 +144,120 @@ nix-build --no-out-link -E 'with import <nixpkgs> {}; fetchurl {
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- **Workspace builds**: `nix-shell -p openssl pkg-config --run "cargo build --workspace"`
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- **Clean compilation**: Remove `target/` between major changes
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## Enhanced Storage Pool Visualization
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### Auto-Discovery Architecture
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The dashboard uses automatic storage discovery to eliminate manual configuration complexity while providing intelligent storage pool grouping.
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### Discovery Process
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**At Agent Startup:**
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1. Parse `/proc/mounts` to identify all mounted filesystems
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2. Detect MergerFS pools by analyzing `fuse.mergerfs` mount sources
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3. Identify member disks and potential parity relationships via heuristics
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4. Store discovered storage topology for continuous monitoring
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5. Generate pool-aware metrics with hierarchical relationships
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**Continuous Monitoring:**
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- Use stored discovery data for efficient metric collection
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- Monitor individual drives for SMART data, temperature, wear
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- Calculate pool-level health based on member drive status
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- Generate enhanced metrics for dashboard visualization
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### Supported Storage Types
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**Single Disks:**
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- ext4, xfs, btrfs mounted directly
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- Individual drive monitoring with SMART data
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- Traditional single-disk display for root, boot, etc.
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**MergerFS Pools:**
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- Auto-detect from `/proc/mounts` fuse.mergerfs entries
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- Parse source paths to identify member disks (e.g., "/mnt/disk1:/mnt/disk2")
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- Heuristic parity disk detection (sequential device names, "parity" in path)
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- Pool health calculation (healthy/degraded/critical)
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- Hierarchical tree display with data/parity disk grouping
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**Future Extensions Ready:**
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- RAID arrays via `/proc/mdstat` parsing
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- ZFS pools via `zpool status` integration
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- LVM logical volumes via `lvs` discovery
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### Configuration
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```toml
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[collectors.disk]
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enabled = true
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auto_discover = true # Default: true
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# Optional exclusions for special filesystems
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exclude_mount_points = ["/tmp", "/proc", "/sys", "/dev"]
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exclude_fs_types = ["tmpfs", "devtmpfs", "sysfs", "proc"]
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```
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### Display Format
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```
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Storage:
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● /srv/media (mergerfs (2+1)):
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├─ Pool Status: ● Healthy (3 drives)
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├─ Total: ● 63% 2355.2GB/3686.4GB
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├─ Data Disks:
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│ ├─ ● sdb T: 24°C
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│ └─ ● sdd T: 27°C
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└─ Parity: ● sdc T: 24°C
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● /:
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├─ ● nvme0n1 W: 13%
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└─ ● 7% 14.5GB/218.5GB
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```
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### Implementation Benefits
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- **Zero Configuration**: No manual pool definitions required
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- **Always Accurate**: Reflects actual system state automatically
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- **Scales Automatically**: Handles any number of pools without config changes
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- **Backwards Compatible**: Single disks continue working unchanged
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- **Future Ready**: Easy extension for additional storage technologies
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### Current Status (v0.1.100)
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**✅ Completed:**
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- Auto-discovery system implemented and deployed
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- `/proc/mounts` parsing with smart heuristics for parity detection
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- Storage topology stored at agent startup for efficient monitoring
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- Universal zero-configuration for all hosts (cmbox, steambox, simonbox, srv01, srv02, srv03)
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- Enhanced pool health calculation (healthy/degraded/critical)
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- Hierarchical tree visualization with data/parity disk separation
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**🔄 In Progress - Unified Pool Visualization:**
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Current auto-discovery works but displays filesystems separately instead of grouped by physical drives. Need to implement unified pool concept where single drives are treated as pools.
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**Current Display (needs improvement):**
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```
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● /boot: (separate entry)
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● /nix_store: (separate entry)
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● /: (separate entry)
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```
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**Target Display (unified pools):**
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```
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● nvme0n1:
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├─ Drive: T: 35°C W: 1%
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├─ /boot: 11% 0.1GB/1.0GB
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├─ /nix_store: 23% 214.9GB/928.2GB
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└─ /: 23% 214.9GB/928.2GB
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```
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**Required Changes:**
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1. **Enhanced Auto-Discovery**: Group filesystems by backing physical drive during discovery
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2. **UI Pool Logic**: Treat single drives as "pools" with drive name as header
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3. **Drive Info Display**: Show temperature, wear, health at pool level for single drives
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4. **Filesystem Children**: Display mount points as children under their physical drives
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5. **Hybrid Rendering**: Physical grouping for single drives, logical grouping for mergerfs pools
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**Expected Result**: Consistent hierarchical storage visualization where everything follows pool->children pattern, regardless of underlying storage technology.
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## Important Communication Guidelines
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Keep responses concise and focused. Avoid extensive implementation summaries unless requested.
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6
Cargo.lock
generated
6
Cargo.lock
generated
@@ -279,7 +279,7 @@ checksum = "a1d728cc89cf3aee9ff92b05e62b19ee65a02b5702cff7d5a377e32c6ae29d8d"
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[[package]]
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name = "cm-dashboard"
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version = "0.1.97"
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version = "0.1.100"
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dependencies = [
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"anyhow",
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"chrono",
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@@ -301,7 +301,7 @@ dependencies = [
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[[package]]
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name = "cm-dashboard-agent"
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version = "0.1.97"
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version = "0.1.100"
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dependencies = [
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"anyhow",
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"async-trait",
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@@ -324,7 +324,7 @@ dependencies = [
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[[package]]
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name = "cm-dashboard-shared"
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version = "0.1.97"
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version = "0.1.100"
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dependencies = [
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"chrono",
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"serde",
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@@ -1,6 +1,6 @@
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[package]
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name = "cm-dashboard-agent"
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version = "0.1.98"
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version = "0.1.101"
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edition = "2021"
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[dependencies]
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@@ -5,22 +5,82 @@ use cm_dashboard_shared::{Metric, MetricValue, Status, StatusTracker, Hysteresis
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use crate::config::DiskConfig;
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use std::process::Command;
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use std::time::Instant;
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use std::fs;
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use tracing::debug;
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use super::{Collector, CollectorError};
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/// Mount point information from /proc/mounts
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#[derive(Debug, Clone)]
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struct MountInfo {
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device: String, // e.g., "/dev/sda1" or "/mnt/disk1:/mnt/disk2"
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mount_point: String, // e.g., "/", "/srv/media"
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fs_type: String, // e.g., "ext4", "xfs", "fuse.mergerfs"
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}
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/// Auto-discovered storage topology
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#[derive(Debug, Clone)]
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struct StorageTopology {
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single_disks: Vec<MountInfo>,
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mergerfs_pools: Vec<MergerfsPoolInfo>,
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}
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/// MergerFS pool information
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#[derive(Debug, Clone)]
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struct MergerfsPoolInfo {
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mount_point: String, // e.g., "/srv/media"
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data_members: Vec<String>, // e.g., ["/mnt/disk1", "/mnt/disk2"]
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parity_disks: Vec<String>, // e.g., ["/mnt/parity"]
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}
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/// Information about a storage pool (mount point with underlying drives)
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#[derive(Debug, Clone)]
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struct StoragePool {
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name: String, // e.g., "steampool", "root"
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mount_point: String, // e.g., "/mnt/steampool", "/"
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filesystem: String, // e.g., "mergerfs", "ext4", "zfs", "btrfs"
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storage_type: String, // e.g., "mergerfs", "single", "raid", "zfs"
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pool_type: StoragePoolType, // Enhanced pool type with configuration
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size: String, // e.g., "2.5TB"
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used: String, // e.g., "2.1TB"
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available: String, // e.g., "400GB"
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usage_percent: f32, // e.g., 85.0
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underlying_drives: Vec<DriveInfo>, // Individual physical drives
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pool_health: PoolHealth, // Overall pool health status
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}
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/// Enhanced storage pool types with specific configurations
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#[derive(Debug, Clone)]
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enum StoragePoolType {
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Single, // Traditional single disk (legacy)
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PhysicalDrive { // Physical drive with multiple filesystems
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filesystems: Vec<String>, // Mount points on this drive
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},
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MergerfsPool { // MergerFS with optional parity
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data_disks: Vec<String>, // Member disk names (sdb, sdd)
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parity_disks: Vec<String>, // Parity disk names (sdc)
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},
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#[allow(dead_code)]
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RaidArray { // Hardware RAID (future)
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level: String, // "RAID1", "RAID5", etc.
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member_disks: Vec<String>,
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spare_disks: Vec<String>,
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},
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#[allow(dead_code)]
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ZfsPool { // ZFS pool (future)
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pool_name: String,
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vdevs: Vec<String>,
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}
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}
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/// Pool health status for redundant storage
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#[derive(Debug, Clone, Copy, PartialEq)]
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enum PoolHealth {
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Healthy, // All drives OK, parity current
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Degraded, // One drive failed or parity outdated, still functional
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Critical, // Multiple failures, data at risk
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#[allow(dead_code)]
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Rebuilding, // Actively rebuilding/scrubbing (future: SnapRAID status integration)
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Unknown, // Cannot determine status
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}
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/// Information about an individual physical drive
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@@ -37,6 +97,7 @@ pub struct DiskCollector {
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config: DiskConfig,
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temperature_thresholds: HysteresisThresholds,
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detected_devices: std::collections::HashMap<String, Vec<String>>, // mount_point -> devices
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storage_topology: Option<StorageTopology>, // Auto-discovered storage layout
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}
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impl DiskCollector {
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@@ -49,12 +110,57 @@ impl DiskCollector {
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5.0, // 5°C gap for recovery
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);
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// Detect devices for all configured filesystems at startup
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// Perform auto-discovery of storage topology
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let storage_topology = match Self::auto_discover_storage() {
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Ok(topology) => {
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debug!("Auto-discovered storage topology: {} single disks, {} mergerfs pools",
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topology.single_disks.len(), topology.mergerfs_pools.len());
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Some(topology)
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}
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Err(e) => {
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debug!("Failed to auto-discover storage topology: {}", e);
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None
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}
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};
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// Detect devices for discovered storage
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let mut detected_devices = std::collections::HashMap::new();
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for fs_config in &config.filesystems {
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if fs_config.monitor {
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if let Ok(devices) = Self::detect_device_for_mount_point_static(&fs_config.mount_point) {
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detected_devices.insert(fs_config.mount_point.clone(), devices);
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if let Some(ref topology) = storage_topology {
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// Add single disks
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for disk in &topology.single_disks {
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if let Ok(devices) = Self::detect_device_for_mount_point_static(&disk.mount_point) {
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detected_devices.insert(disk.mount_point.clone(), devices);
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}
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}
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// Add mergerfs pools and their members
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for pool in &topology.mergerfs_pools {
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// Detect devices for the pool itself
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if let Ok(devices) = Self::detect_device_for_mount_point_static(&pool.mount_point) {
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detected_devices.insert(pool.mount_point.clone(), devices);
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}
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// Detect devices for member disks
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for member in &pool.data_members {
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if let Ok(devices) = Self::detect_device_for_mount_point_static(member) {
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detected_devices.insert(member.clone(), devices);
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}
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}
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// Detect devices for parity disks
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for parity in &pool.parity_disks {
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if let Ok(devices) = Self::detect_device_for_mount_point_static(parity) {
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detected_devices.insert(parity.clone(), devices);
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}
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}
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}
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} else {
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// Fallback: use legacy filesystem config detection
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for fs_config in &config.filesystems {
|
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if fs_config.monitor {
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if let Ok(devices) = Self::detect_device_for_mount_point_static(&fs_config.mount_point) {
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detected_devices.insert(fs_config.mount_point.clone(), devices);
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}
|
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}
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}
|
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}
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@@ -63,58 +169,419 @@ impl DiskCollector {
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config,
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temperature_thresholds,
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detected_devices,
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storage_topology,
|
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}
|
||||
}
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|
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/// Auto-discover storage topology by parsing system information
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fn auto_discover_storage() -> Result<StorageTopology> {
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let mounts = Self::parse_proc_mounts()?;
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let mut single_disks = Vec::new();
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let mut mergerfs_pools = Vec::new();
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|
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// Filter out unwanted filesystem types and mount points
|
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let exclude_fs_types = ["tmpfs", "devtmpfs", "sysfs", "proc", "cgroup", "cgroup2", "devpts"];
|
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let exclude_mount_prefixes = ["/proc", "/sys", "/dev", "/tmp", "/run"];
|
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|
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for mount in mounts {
|
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// Skip excluded filesystem types
|
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if exclude_fs_types.contains(&mount.fs_type.as_str()) {
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continue;
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}
|
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|
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// Skip excluded mount point prefixes
|
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if exclude_mount_prefixes.iter().any(|prefix| mount.mount_point.starts_with(prefix)) {
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continue;
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}
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|
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match mount.fs_type.as_str() {
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"fuse.mergerfs" => {
|
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// Parse mergerfs pool
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let data_members = Self::parse_mergerfs_sources(&mount.device);
|
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let parity_disks = Self::detect_parity_disks(&data_members);
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|
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mergerfs_pools.push(MergerfsPoolInfo {
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mount_point: mount.mount_point.clone(),
|
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data_members,
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parity_disks,
|
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});
|
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|
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debug!("Discovered mergerfs pool at {}", mount.mount_point);
|
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}
|
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"ext4" | "xfs" | "btrfs" | "ntfs" | "vfat" => {
|
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// Check if this mount is part of a mergerfs pool
|
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let is_mergerfs_member = mergerfs_pools.iter()
|
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.any(|pool| pool.data_members.contains(&mount.mount_point) ||
|
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pool.parity_disks.contains(&mount.mount_point));
|
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|
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if !is_mergerfs_member {
|
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debug!("Discovered single disk at {}", mount.mount_point);
|
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single_disks.push(mount);
|
||||
}
|
||||
}
|
||||
_ => {
|
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debug!("Skipping unsupported filesystem type: {}", mount.fs_type);
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
Ok(StorageTopology {
|
||||
single_disks,
|
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mergerfs_pools,
|
||||
})
|
||||
}
|
||||
|
||||
/// Parse /proc/mounts to get all mount information
|
||||
fn parse_proc_mounts() -> Result<Vec<MountInfo>> {
|
||||
let mounts_content = fs::read_to_string("/proc/mounts")?;
|
||||
let mut mounts = Vec::new();
|
||||
|
||||
for line in mounts_content.lines() {
|
||||
let parts: Vec<&str> = line.split_whitespace().collect();
|
||||
if parts.len() >= 3 {
|
||||
mounts.push(MountInfo {
|
||||
device: parts[0].to_string(),
|
||||
mount_point: parts[1].to_string(),
|
||||
fs_type: parts[2].to_string(),
|
||||
});
|
||||
}
|
||||
}
|
||||
|
||||
Ok(mounts)
|
||||
}
|
||||
|
||||
/// Parse mergerfs source string to extract member paths
|
||||
fn parse_mergerfs_sources(source: &str) -> Vec<String> {
|
||||
// MergerFS source format: "/mnt/disk1:/mnt/disk2:/mnt/disk3"
|
||||
source.split(':')
|
||||
.map(|s| s.trim().to_string())
|
||||
.filter(|s| !s.is_empty())
|
||||
.collect()
|
||||
}
|
||||
|
||||
/// Detect potential parity disks based on data member heuristics
|
||||
fn detect_parity_disks(data_members: &[String]) -> Vec<String> {
|
||||
let mut parity_disks = Vec::new();
|
||||
|
||||
// Heuristic 1: Look for mount points with "parity" in the name
|
||||
if let Ok(mounts) = Self::parse_proc_mounts() {
|
||||
for mount in mounts {
|
||||
if mount.mount_point.to_lowercase().contains("parity") &&
|
||||
(mount.fs_type == "xfs" || mount.fs_type == "ext4") {
|
||||
debug!("Detected parity disk by name: {}", mount.mount_point);
|
||||
parity_disks.push(mount.mount_point);
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
// Heuristic 2: Look for sequential device pattern
|
||||
// If data members are /mnt/disk1, /mnt/disk2, look for /mnt/disk* that's not in data
|
||||
if parity_disks.is_empty() {
|
||||
if let Some(pattern) = Self::extract_mount_pattern(data_members) {
|
||||
if let Ok(mounts) = Self::parse_proc_mounts() {
|
||||
for mount in mounts {
|
||||
if mount.mount_point.starts_with(&pattern) &&
|
||||
!data_members.contains(&mount.mount_point) &&
|
||||
(mount.fs_type == "xfs" || mount.fs_type == "ext4") {
|
||||
debug!("Detected parity disk by pattern: {}", mount.mount_point);
|
||||
parity_disks.push(mount.mount_point);
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
parity_disks
|
||||
}
|
||||
|
||||
/// Extract common mount point pattern from data members
|
||||
fn extract_mount_pattern(data_members: &[String]) -> Option<String> {
|
||||
if data_members.is_empty() {
|
||||
return None;
|
||||
}
|
||||
|
||||
// Find common prefix (e.g., "/mnt/disk" from "/mnt/disk1", "/mnt/disk2")
|
||||
let first = &data_members[0];
|
||||
if let Some(last_slash) = first.rfind('/') {
|
||||
let base = &first[..last_slash + 1]; // Include the slash
|
||||
|
||||
// Check if all members share this base
|
||||
if data_members.iter().all(|member| member.starts_with(base)) {
|
||||
return Some(base.to_string());
|
||||
}
|
||||
}
|
||||
|
||||
None
|
||||
}
|
||||
|
||||
/// Calculate disk temperature status using hysteresis thresholds
|
||||
fn calculate_temperature_status(&self, metric_name: &str, temperature: f32, status_tracker: &mut StatusTracker) -> Status {
|
||||
status_tracker.calculate_with_hysteresis(metric_name, temperature, &self.temperature_thresholds)
|
||||
}
|
||||
|
||||
|
||||
/// Get configured storage pools with individual drive information
|
||||
/// Get storage pools using auto-discovered topology or fallback to configuration
|
||||
fn get_configured_storage_pools(&self) -> Result<Vec<StoragePool>> {
|
||||
if let Some(ref topology) = self.storage_topology {
|
||||
self.get_auto_discovered_storage_pools(topology)
|
||||
} else {
|
||||
self.get_legacy_configured_storage_pools()
|
||||
}
|
||||
}
|
||||
|
||||
/// Get storage pools from auto-discovered topology
|
||||
fn get_auto_discovered_storage_pools(&self, topology: &StorageTopology) -> Result<Vec<StoragePool>> {
|
||||
let mut storage_pools = Vec::new();
|
||||
|
||||
// Group single disks by physical drive for unified pool display
|
||||
let grouped_disks = self.group_filesystems_by_physical_drive(&topology.single_disks)?;
|
||||
|
||||
// Process grouped single disks (each physical drive becomes a pool)
|
||||
for (drive_name, filesystems) in grouped_disks {
|
||||
// Create a unified pool for this physical drive
|
||||
let pool = self.create_physical_drive_pool(&drive_name, &filesystems)?;
|
||||
storage_pools.push(pool);
|
||||
}
|
||||
|
||||
// Process mergerfs pools (these remain as logical pools)
|
||||
for pool_info in &topology.mergerfs_pools {
|
||||
if let Ok((total_bytes, used_bytes)) = self.get_filesystem_info(&pool_info.mount_point) {
|
||||
let available_bytes = total_bytes - used_bytes;
|
||||
let usage_percent = if total_bytes > 0 {
|
||||
(used_bytes as f64 / total_bytes as f64) * 100.0
|
||||
} else { 0.0 };
|
||||
|
||||
let size = self.bytes_to_human_readable(total_bytes);
|
||||
let used = self.bytes_to_human_readable(used_bytes);
|
||||
let available = self.bytes_to_human_readable(available_bytes);
|
||||
|
||||
// Collect all member and parity drives
|
||||
let mut all_drives = Vec::new();
|
||||
|
||||
// Add data member drives
|
||||
for member in &pool_info.data_members {
|
||||
if let Some(devices) = self.detected_devices.get(member) {
|
||||
all_drives.extend(devices.clone());
|
||||
}
|
||||
}
|
||||
|
||||
// Add parity drives
|
||||
for parity in &pool_info.parity_disks {
|
||||
if let Some(devices) = self.detected_devices.get(parity) {
|
||||
all_drives.extend(devices.clone());
|
||||
}
|
||||
}
|
||||
|
||||
let underlying_drives = self.get_drive_info_for_devices(&all_drives)?;
|
||||
|
||||
// Calculate pool health
|
||||
let pool_health = self.calculate_mergerfs_pool_health(&pool_info.data_members, &pool_info.parity_disks, &underlying_drives);
|
||||
|
||||
// Generate pool name from mount point
|
||||
let name = pool_info.mount_point.trim_start_matches('/').replace('/', "_");
|
||||
|
||||
storage_pools.push(StoragePool {
|
||||
name,
|
||||
mount_point: pool_info.mount_point.clone(),
|
||||
filesystem: "fuse.mergerfs".to_string(),
|
||||
pool_type: StoragePoolType::MergerfsPool {
|
||||
data_disks: pool_info.data_members.iter()
|
||||
.filter_map(|member| self.detected_devices.get(member).and_then(|devices| devices.first().cloned()))
|
||||
.collect(),
|
||||
parity_disks: pool_info.parity_disks.iter()
|
||||
.filter_map(|parity| self.detected_devices.get(parity).and_then(|devices| devices.first().cloned()))
|
||||
.collect(),
|
||||
},
|
||||
size,
|
||||
used,
|
||||
available,
|
||||
usage_percent: usage_percent as f32,
|
||||
underlying_drives,
|
||||
pool_health,
|
||||
});
|
||||
|
||||
debug!("Auto-discovered mergerfs pool: {} with {} data + {} parity disks",
|
||||
pool_info.mount_point, pool_info.data_members.len(), pool_info.parity_disks.len());
|
||||
}
|
||||
}
|
||||
|
||||
Ok(storage_pools)
|
||||
}
|
||||
|
||||
/// Group filesystems by their backing physical drive
|
||||
fn group_filesystems_by_physical_drive(&self, filesystems: &[MountInfo]) -> Result<std::collections::HashMap<String, Vec<MountInfo>>> {
|
||||
let mut grouped = std::collections::HashMap::new();
|
||||
|
||||
for fs in filesystems {
|
||||
// Get the physical drive name for this mount point
|
||||
if let Some(devices) = self.detected_devices.get(&fs.mount_point) {
|
||||
if let Some(device_name) = devices.first() {
|
||||
// Extract drive name (e.g., "nvme0n1" from "nvme0n1")
|
||||
let drive_name = device_name.clone();
|
||||
grouped.entry(drive_name).or_insert_with(Vec::new).push(fs.clone());
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
Ok(grouped)
|
||||
}
|
||||
|
||||
/// Create a physical drive pool containing multiple filesystems
|
||||
fn create_physical_drive_pool(&self, drive_name: &str, filesystems: &[MountInfo]) -> Result<StoragePool> {
|
||||
if filesystems.is_empty() {
|
||||
return Err(anyhow::anyhow!("No filesystems for drive {}", drive_name));
|
||||
}
|
||||
|
||||
// Calculate total usage across all filesystems on this drive
|
||||
let mut total_capacity = 0u64;
|
||||
let mut total_used = 0u64;
|
||||
|
||||
for fs in filesystems {
|
||||
if let Ok((capacity, used)) = self.get_filesystem_info(&fs.mount_point) {
|
||||
total_capacity += capacity;
|
||||
total_used += used;
|
||||
}
|
||||
}
|
||||
|
||||
let total_available = total_capacity.saturating_sub(total_used);
|
||||
let usage_percent = if total_capacity > 0 {
|
||||
(total_used as f64 / total_capacity as f64) * 100.0
|
||||
} else { 0.0 };
|
||||
|
||||
// Get drive information for SMART data
|
||||
let device_names = vec![drive_name.to_string()];
|
||||
let underlying_drives = self.get_drive_info_for_devices(&device_names)?;
|
||||
|
||||
// Collect filesystem mount points for this drive
|
||||
let filesystem_mount_points: Vec<String> = filesystems.iter()
|
||||
.map(|fs| fs.mount_point.clone())
|
||||
.collect();
|
||||
|
||||
Ok(StoragePool {
|
||||
name: drive_name.to_string(),
|
||||
mount_point: format!("(physical drive)"), // Special marker for physical drives
|
||||
filesystem: "physical".to_string(),
|
||||
pool_type: StoragePoolType::PhysicalDrive {
|
||||
filesystems: filesystem_mount_points,
|
||||
},
|
||||
size: self.bytes_to_human_readable(total_capacity),
|
||||
used: self.bytes_to_human_readable(total_used),
|
||||
available: self.bytes_to_human_readable(total_available),
|
||||
usage_percent: usage_percent as f32,
|
||||
pool_health: if underlying_drives.iter().all(|d| d.health_status == "PASSED") {
|
||||
PoolHealth::Healthy
|
||||
} else {
|
||||
PoolHealth::Critical
|
||||
},
|
||||
underlying_drives,
|
||||
})
|
||||
}
|
||||
|
||||
/// Calculate pool health specifically for mergerfs pools
|
||||
fn calculate_mergerfs_pool_health(&self, data_members: &[String], parity_disks: &[String], drives: &[DriveInfo]) -> PoolHealth {
|
||||
// Get device names for data and parity drives
|
||||
let mut data_device_names = Vec::new();
|
||||
let mut parity_device_names = Vec::new();
|
||||
|
||||
for member in data_members {
|
||||
if let Some(devices) = self.detected_devices.get(member) {
|
||||
data_device_names.extend(devices.clone());
|
||||
}
|
||||
}
|
||||
|
||||
for parity in parity_disks {
|
||||
if let Some(devices) = self.detected_devices.get(parity) {
|
||||
parity_device_names.extend(devices.clone());
|
||||
}
|
||||
}
|
||||
|
||||
let failed_data = drives.iter()
|
||||
.filter(|d| data_device_names.contains(&d.device) && d.health_status != "PASSED")
|
||||
.count();
|
||||
let failed_parity = drives.iter()
|
||||
.filter(|d| parity_device_names.contains(&d.device) && d.health_status != "PASSED")
|
||||
.count();
|
||||
|
||||
match (failed_data, failed_parity) {
|
||||
(0, 0) => PoolHealth::Healthy,
|
||||
(1, 0) => PoolHealth::Degraded, // Can recover with parity
|
||||
(0, 1) => PoolHealth::Degraded, // Lost parity protection
|
||||
_ => PoolHealth::Critical, // Multiple failures
|
||||
}
|
||||
}
|
||||
|
||||
/// Fallback to legacy configuration-based storage pools
|
||||
fn get_legacy_configured_storage_pools(&self) -> Result<Vec<StoragePool>> {
|
||||
let mut storage_pools = Vec::new();
|
||||
let mut processed_pools = std::collections::HashSet::new();
|
||||
|
||||
// Legacy implementation: use filesystem configuration
|
||||
for fs_config in &self.config.filesystems {
|
||||
if !fs_config.monitor {
|
||||
continue;
|
||||
}
|
||||
|
||||
let (pool_type, skip_in_single_mode) = self.determine_pool_type(&fs_config.storage_type);
|
||||
|
||||
// Skip member disks if they're part of a pool
|
||||
if skip_in_single_mode {
|
||||
continue;
|
||||
}
|
||||
|
||||
// Check if this pool was already processed (in case of multiple member disks)
|
||||
let pool_key = match &pool_type {
|
||||
StoragePoolType::MergerfsPool { .. } => {
|
||||
// For mergerfs pools, use the main mount point
|
||||
if fs_config.fs_type == "fuse.mergerfs" {
|
||||
fs_config.mount_point.clone()
|
||||
} else {
|
||||
continue; // Skip member disks
|
||||
}
|
||||
}
|
||||
_ => fs_config.mount_point.clone()
|
||||
};
|
||||
|
||||
if processed_pools.contains(&pool_key) {
|
||||
continue;
|
||||
}
|
||||
processed_pools.insert(pool_key.clone());
|
||||
|
||||
// Get filesystem stats for the mount point
|
||||
match self.get_filesystem_info(&fs_config.mount_point) {
|
||||
Ok((total_bytes, used_bytes)) => {
|
||||
let available_bytes = total_bytes - used_bytes;
|
||||
let usage_percent = if total_bytes > 0 {
|
||||
(used_bytes as f64 / total_bytes as f64) * 100.0
|
||||
} else {
|
||||
0.0
|
||||
};
|
||||
} else { 0.0 };
|
||||
|
||||
// Convert bytes to human-readable format
|
||||
let size = self.bytes_to_human_readable(total_bytes);
|
||||
let used = self.bytes_to_human_readable(used_bytes);
|
||||
let available = self.bytes_to_human_readable(available_bytes);
|
||||
|
||||
// Get individual drive information using pre-detected devices
|
||||
let device_names = self.detected_devices.get(&fs_config.mount_point).cloned().unwrap_or_default();
|
||||
let underlying_drives = self.get_drive_info_for_devices(&device_names)?;
|
||||
// Get underlying drives based on pool type
|
||||
let underlying_drives = self.get_pool_drives(&pool_type, &fs_config.mount_point)?;
|
||||
|
||||
// Calculate pool health
|
||||
let pool_health = self.calculate_pool_health(&pool_type, &underlying_drives);
|
||||
let drive_count = underlying_drives.len();
|
||||
|
||||
storage_pools.push(StoragePool {
|
||||
name: fs_config.name.clone(),
|
||||
mount_point: fs_config.mount_point.clone(),
|
||||
filesystem: fs_config.fs_type.clone(),
|
||||
storage_type: fs_config.storage_type.clone(),
|
||||
pool_type: pool_type.clone(),
|
||||
size,
|
||||
used,
|
||||
available,
|
||||
usage_percent: usage_percent as f32,
|
||||
underlying_drives,
|
||||
pool_health,
|
||||
});
|
||||
|
||||
debug!(
|
||||
"Storage pool '{}' ({}) at {} with {} detected drives",
|
||||
fs_config.name, fs_config.storage_type, fs_config.mount_point, device_names.len()
|
||||
"Legacy configured storage pool '{}' ({:?}) at {} with {} drives, health: {:?}",
|
||||
fs_config.name, pool_type, fs_config.mount_point, drive_count, pool_health
|
||||
);
|
||||
}
|
||||
Err(e) => {
|
||||
@@ -129,6 +596,138 @@ impl DiskCollector {
|
||||
Ok(storage_pools)
|
||||
}
|
||||
|
||||
/// Determine the storage pool type from configuration
|
||||
fn determine_pool_type(&self, storage_type: &str) -> (StoragePoolType, bool) {
|
||||
match storage_type {
|
||||
"single" => (StoragePoolType::Single, false),
|
||||
"mergerfs_pool" | "mergerfs" => {
|
||||
// Find associated member disks
|
||||
let data_disks = self.find_pool_member_disks("mergerfs_member");
|
||||
let parity_disks = self.find_pool_member_disks("parity");
|
||||
(StoragePoolType::MergerfsPool { data_disks, parity_disks }, false)
|
||||
}
|
||||
"mergerfs_member" => (StoragePoolType::Single, true), // Skip, part of pool
|
||||
"parity" => (StoragePoolType::Single, true), // Skip, part of pool
|
||||
"raid1" | "raid5" | "raid6" => {
|
||||
let member_disks = self.find_pool_member_disks(&format!("{}_member", storage_type));
|
||||
(StoragePoolType::RaidArray {
|
||||
level: storage_type.to_uppercase(),
|
||||
member_disks,
|
||||
spare_disks: Vec::new()
|
||||
}, false)
|
||||
}
|
||||
_ => (StoragePoolType::Single, false) // Default to single
|
||||
}
|
||||
}
|
||||
|
||||
/// Find member disks for a specific storage type
|
||||
fn find_pool_member_disks(&self, member_type: &str) -> Vec<String> {
|
||||
let mut member_disks = Vec::new();
|
||||
|
||||
for fs_config in &self.config.filesystems {
|
||||
if fs_config.storage_type == member_type && fs_config.monitor {
|
||||
// Get device names for this mount point
|
||||
if let Some(devices) = self.detected_devices.get(&fs_config.mount_point) {
|
||||
member_disks.extend(devices.clone());
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
member_disks
|
||||
}
|
||||
|
||||
/// Get drive information for a specific pool type
|
||||
fn get_pool_drives(&self, pool_type: &StoragePoolType, mount_point: &str) -> Result<Vec<DriveInfo>> {
|
||||
match pool_type {
|
||||
StoragePoolType::Single => {
|
||||
// Single disk - use detected devices for this mount point
|
||||
let device_names = self.detected_devices.get(mount_point).cloned().unwrap_or_default();
|
||||
self.get_drive_info_for_devices(&device_names)
|
||||
}
|
||||
StoragePoolType::PhysicalDrive { .. } => {
|
||||
// Physical drive - get drive info for the drive directly (mount_point not used)
|
||||
let device_names = vec![mount_point.to_string()];
|
||||
self.get_drive_info_for_devices(&device_names)
|
||||
}
|
||||
StoragePoolType::MergerfsPool { data_disks, parity_disks } => {
|
||||
// Mergerfs pool - collect all member drives
|
||||
let mut all_disks = data_disks.clone();
|
||||
all_disks.extend(parity_disks.clone());
|
||||
self.get_drive_info_for_devices(&all_disks)
|
||||
}
|
||||
StoragePoolType::RaidArray { member_disks, spare_disks, .. } => {
|
||||
// RAID array - collect member and spare drives
|
||||
let mut all_disks = member_disks.clone();
|
||||
all_disks.extend(spare_disks.clone());
|
||||
self.get_drive_info_for_devices(&all_disks)
|
||||
}
|
||||
StoragePoolType::ZfsPool { .. } => {
|
||||
// ZFS pool - use detected devices (future implementation)
|
||||
let device_names = self.detected_devices.get(mount_point).cloned().unwrap_or_default();
|
||||
self.get_drive_info_for_devices(&device_names)
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
/// Calculate pool health based on drive status and pool type
|
||||
fn calculate_pool_health(&self, pool_type: &StoragePoolType, drives: &[DriveInfo]) -> PoolHealth {
|
||||
match pool_type {
|
||||
StoragePoolType::Single => {
|
||||
// Single disk - health is just the drive health
|
||||
if drives.is_empty() {
|
||||
PoolHealth::Unknown
|
||||
} else if drives.iter().all(|d| d.health_status == "PASSED") {
|
||||
PoolHealth::Healthy
|
||||
} else {
|
||||
PoolHealth::Critical
|
||||
}
|
||||
}
|
||||
StoragePoolType::PhysicalDrive { .. } => {
|
||||
// Physical drive - health is just the drive health (similar to Single)
|
||||
if drives.is_empty() {
|
||||
PoolHealth::Unknown
|
||||
} else if drives.iter().all(|d| d.health_status == "PASSED") {
|
||||
PoolHealth::Healthy
|
||||
} else {
|
||||
PoolHealth::Critical
|
||||
}
|
||||
}
|
||||
StoragePoolType::MergerfsPool { data_disks, parity_disks } => {
|
||||
let failed_data = drives.iter()
|
||||
.filter(|d| data_disks.contains(&d.device) && d.health_status != "PASSED")
|
||||
.count();
|
||||
let failed_parity = drives.iter()
|
||||
.filter(|d| parity_disks.contains(&d.device) && d.health_status != "PASSED")
|
||||
.count();
|
||||
|
||||
match (failed_data, failed_parity) {
|
||||
(0, 0) => PoolHealth::Healthy,
|
||||
(1, 0) => PoolHealth::Degraded, // Can recover with parity
|
||||
(0, 1) => PoolHealth::Degraded, // Lost parity protection
|
||||
_ => PoolHealth::Critical, // Multiple failures
|
||||
}
|
||||
}
|
||||
StoragePoolType::RaidArray { level, .. } => {
|
||||
let failed_drives = drives.iter().filter(|d| d.health_status != "PASSED").count();
|
||||
|
||||
// Basic RAID health logic (can be enhanced per RAID level)
|
||||
match failed_drives {
|
||||
0 => PoolHealth::Healthy,
|
||||
1 if level.contains('1') || level.contains('5') || level.contains('6') => PoolHealth::Degraded,
|
||||
_ => PoolHealth::Critical,
|
||||
}
|
||||
}
|
||||
StoragePoolType::ZfsPool { .. } => {
|
||||
// ZFS health would require zpool status parsing (future)
|
||||
if drives.iter().all(|d| d.health_status == "PASSED") {
|
||||
PoolHealth::Healthy
|
||||
} else {
|
||||
PoolHealth::Degraded
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
/// Get drive information for a list of device names
|
||||
fn get_drive_info_for_devices(&self, device_names: &[String]) -> Result<Vec<DriveInfo>> {
|
||||
let mut drives = Vec::new();
|
||||
@@ -448,8 +1047,8 @@ impl Collector for DiskCollector {
|
||||
let used_gb = self.parse_size_to_gb(&storage_pool.used);
|
||||
let avail_gb = self.parse_size_to_gb(&storage_pool.available);
|
||||
|
||||
// Calculate status based on configured thresholds
|
||||
let pool_status = if storage_pool.usage_percent >= self.config.usage_critical_percent {
|
||||
// Calculate status based on configured thresholds and pool health
|
||||
let usage_status = if storage_pool.usage_percent >= self.config.usage_critical_percent {
|
||||
Status::Critical
|
||||
} else if storage_pool.usage_percent >= self.config.usage_warning_percent {
|
||||
Status::Warning
|
||||
@@ -457,6 +1056,14 @@ impl Collector for DiskCollector {
|
||||
Status::Ok
|
||||
};
|
||||
|
||||
let pool_status = match storage_pool.pool_health {
|
||||
PoolHealth::Critical => Status::Critical,
|
||||
PoolHealth::Degraded => Status::Warning,
|
||||
PoolHealth::Rebuilding => Status::Warning,
|
||||
PoolHealth::Healthy => usage_status,
|
||||
PoolHealth::Unknown => Status::Unknown,
|
||||
};
|
||||
|
||||
// Storage pool info metrics
|
||||
metrics.push(Metric {
|
||||
name: format!("disk_{}_mount_point", pool_name),
|
||||
@@ -476,15 +1083,50 @@ impl Collector for DiskCollector {
|
||||
timestamp,
|
||||
});
|
||||
|
||||
// Enhanced pool type information
|
||||
let pool_type_str = match &storage_pool.pool_type {
|
||||
StoragePoolType::Single => "single".to_string(),
|
||||
StoragePoolType::PhysicalDrive { filesystems } => {
|
||||
format!("drive ({})", filesystems.len())
|
||||
}
|
||||
StoragePoolType::MergerfsPool { data_disks, parity_disks } => {
|
||||
format!("mergerfs ({}+{})", data_disks.len(), parity_disks.len())
|
||||
}
|
||||
StoragePoolType::RaidArray { level, member_disks, spare_disks } => {
|
||||
format!("{} ({}+{})", level, member_disks.len(), spare_disks.len())
|
||||
}
|
||||
StoragePoolType::ZfsPool { pool_name, .. } => {
|
||||
format!("zfs ({})", pool_name)
|
||||
}
|
||||
};
|
||||
|
||||
metrics.push(Metric {
|
||||
name: format!("disk_{}_storage_type", pool_name),
|
||||
value: MetricValue::String(storage_pool.storage_type.clone()),
|
||||
name: format!("disk_{}_pool_type", pool_name),
|
||||
value: MetricValue::String(pool_type_str.clone()),
|
||||
unit: None,
|
||||
description: Some(format!("Type: {}", storage_pool.storage_type)),
|
||||
description: Some(format!("Type: {}", pool_type_str)),
|
||||
status: Status::Ok,
|
||||
timestamp,
|
||||
});
|
||||
|
||||
// Pool health status
|
||||
let health_str = match storage_pool.pool_health {
|
||||
PoolHealth::Healthy => "healthy",
|
||||
PoolHealth::Degraded => "degraded",
|
||||
PoolHealth::Critical => "critical",
|
||||
PoolHealth::Rebuilding => "rebuilding",
|
||||
PoolHealth::Unknown => "unknown",
|
||||
};
|
||||
|
||||
metrics.push(Metric {
|
||||
name: format!("disk_{}_pool_health", pool_name),
|
||||
value: MetricValue::String(health_str.to_string()),
|
||||
unit: None,
|
||||
description: Some(format!("Health: {}", health_str)),
|
||||
status: pool_status,
|
||||
timestamp,
|
||||
});
|
||||
|
||||
// Storage pool size metrics
|
||||
metrics.push(Metric {
|
||||
name: format!("disk_{}_total_gb", pool_name),
|
||||
|
||||
@@ -1,6 +1,6 @@
|
||||
[package]
|
||||
name = "cm-dashboard"
|
||||
version = "0.1.98"
|
||||
version = "0.1.101"
|
||||
edition = "2021"
|
||||
|
||||
[dependencies]
|
||||
|
||||
@@ -45,12 +45,14 @@ pub struct SystemWidget {
|
||||
struct StoragePool {
|
||||
name: String,
|
||||
mount_point: String,
|
||||
pool_type: String, // "Single", "Raid0", etc.
|
||||
pool_type: String, // "single", "mergerfs (2+1)", "RAID5 (3+1)", etc.
|
||||
pool_health: Option<String>, // "healthy", "degraded", "critical", "rebuilding"
|
||||
drives: Vec<StorageDrive>,
|
||||
usage_percent: Option<f32>,
|
||||
used_gb: Option<f32>,
|
||||
total_gb: Option<f32>,
|
||||
status: Status,
|
||||
health_status: Status, // Separate status for pool health vs usage
|
||||
}
|
||||
|
||||
#[derive(Clone)]
|
||||
@@ -155,12 +157,14 @@ impl SystemWidget {
|
||||
let pool = pools.entry(pool_name.clone()).or_insert_with(|| StoragePool {
|
||||
name: pool_name.clone(),
|
||||
mount_point: mount_point.clone(),
|
||||
pool_type: "Single".to_string(), // Default, could be enhanced
|
||||
pool_type: "single".to_string(), // Default, will be updated
|
||||
pool_health: None,
|
||||
drives: Vec::new(),
|
||||
usage_percent: None,
|
||||
used_gb: None,
|
||||
total_gb: None,
|
||||
status: Status::Unknown,
|
||||
health_status: Status::Unknown,
|
||||
});
|
||||
|
||||
// Parse different metric types
|
||||
@@ -177,6 +181,15 @@ impl SystemWidget {
|
||||
if let MetricValue::Float(total) = metric.value {
|
||||
pool.total_gb = Some(total);
|
||||
}
|
||||
} else if metric.name.contains("_pool_type") {
|
||||
if let MetricValue::String(pool_type) = &metric.value {
|
||||
pool.pool_type = pool_type.clone();
|
||||
}
|
||||
} else if metric.name.contains("_pool_health") {
|
||||
if let MetricValue::String(health) = &metric.value {
|
||||
pool.pool_health = Some(health.clone());
|
||||
pool.health_status = metric.status.clone();
|
||||
}
|
||||
} else if metric.name.contains("_temperature") {
|
||||
if let Some(drive_name) = self.extract_drive_name(&metric.name) {
|
||||
// Find existing drive or create new one
|
||||
@@ -277,73 +290,149 @@ impl SystemWidget {
|
||||
None
|
||||
}
|
||||
|
||||
/// Render storage section with tree structure
|
||||
/// Render storage section with enhanced tree structure
|
||||
fn render_storage(&self) -> Vec<Line<'_>> {
|
||||
let mut lines = Vec::new();
|
||||
|
||||
for pool in &self.storage_pools {
|
||||
// Pool header line
|
||||
let usage_text = match (pool.usage_percent, pool.used_gb, pool.total_gb) {
|
||||
(Some(pct), Some(used), Some(total)) => {
|
||||
format!("{:.0}% {:.1}GB/{:.1}GB", pct, used, total)
|
||||
}
|
||||
_ => "—% —GB/—GB".to_string(),
|
||||
};
|
||||
|
||||
let pool_label = if pool.pool_type.to_lowercase() == "single" {
|
||||
// Pool header line with type and health
|
||||
let pool_label = if pool.pool_type == "single" {
|
||||
format!("{}:", pool.mount_point)
|
||||
} else {
|
||||
format!("{} ({}):", pool.mount_point, pool.pool_type)
|
||||
};
|
||||
let pool_spans = StatusIcons::create_status_spans(
|
||||
pool.status.clone(),
|
||||
pool.health_status.clone(),
|
||||
&pool_label
|
||||
);
|
||||
lines.push(Line::from(pool_spans));
|
||||
|
||||
// Drive lines with tree structure
|
||||
let has_usage_line = pool.usage_percent.is_some();
|
||||
for (i, drive) in pool.drives.iter().enumerate() {
|
||||
let is_last_drive = i == pool.drives.len() - 1;
|
||||
let tree_symbol = if is_last_drive && !has_usage_line { "└─" } else { "├─" };
|
||||
|
||||
let mut drive_info = Vec::new();
|
||||
if let Some(temp) = drive.temperature {
|
||||
drive_info.push(format!("T: {:.0}C", temp));
|
||||
// Pool health line (for multi-disk pools)
|
||||
if pool.pool_type != "single" {
|
||||
if let Some(health) = &pool.pool_health {
|
||||
let health_text = match health.as_str() {
|
||||
"healthy" => format!("Pool Status: {} Healthy",
|
||||
if pool.drives.len() > 1 { format!("({} drives)", pool.drives.len()) } else { String::new() }),
|
||||
"degraded" => "Pool Status: ⚠ Degraded".to_string(),
|
||||
"critical" => "Pool Status: ✗ Critical".to_string(),
|
||||
"rebuilding" => "Pool Status: ⟳ Rebuilding".to_string(),
|
||||
_ => format!("Pool Status: ? {}", health),
|
||||
};
|
||||
|
||||
let mut health_spans = vec![
|
||||
Span::raw(" "),
|
||||
Span::styled("├─ ", Typography::tree()),
|
||||
];
|
||||
health_spans.extend(StatusIcons::create_status_spans(pool.health_status.clone(), &health_text));
|
||||
lines.push(Line::from(health_spans));
|
||||
}
|
||||
if let Some(wear) = drive.wear_percent {
|
||||
drive_info.push(format!("W: {:.0}%", wear));
|
||||
}
|
||||
let drive_text = if drive_info.is_empty() {
|
||||
drive.name.clone()
|
||||
} else {
|
||||
format!("{} {}", drive.name, drive_info.join(" • "))
|
||||
};
|
||||
|
||||
let mut drive_spans = vec![
|
||||
Span::raw(" "),
|
||||
Span::styled(tree_symbol, Typography::tree()),
|
||||
Span::raw(" "),
|
||||
];
|
||||
drive_spans.extend(StatusIcons::create_status_spans(drive.status.clone(), &drive_text));
|
||||
lines.push(Line::from(drive_spans));
|
||||
}
|
||||
|
||||
// Usage line
|
||||
if pool.usage_percent.is_some() {
|
||||
let tree_symbol = "└─";
|
||||
let mut usage_spans = vec![
|
||||
Span::raw(" "),
|
||||
Span::styled(tree_symbol, Typography::tree()),
|
||||
Span::raw(" "),
|
||||
];
|
||||
usage_spans.extend(StatusIcons::create_status_spans(pool.status.clone(), &usage_text));
|
||||
lines.push(Line::from(usage_spans));
|
||||
// Total usage line (always show for pools)
|
||||
let usage_text = match (pool.usage_percent, pool.used_gb, pool.total_gb) {
|
||||
(Some(pct), Some(used), Some(total)) => {
|
||||
format!("Total: {:.0}% {:.1}GB/{:.1}GB", pct, used, total)
|
||||
}
|
||||
_ => "Total: —% —GB/—GB".to_string(),
|
||||
};
|
||||
|
||||
let has_drives = !pool.drives.is_empty();
|
||||
let tree_symbol = if has_drives { "├─" } else { "└─" };
|
||||
let mut usage_spans = vec![
|
||||
Span::raw(" "),
|
||||
Span::styled(tree_symbol, Typography::tree()),
|
||||
Span::raw(" "),
|
||||
];
|
||||
usage_spans.extend(StatusIcons::create_status_spans(pool.status.clone(), &usage_text));
|
||||
lines.push(Line::from(usage_spans));
|
||||
|
||||
// Drive lines with enhanced grouping
|
||||
if pool.pool_type != "single" && pool.drives.len() > 1 {
|
||||
// Group drives by type for mergerfs pools
|
||||
let (data_drives, parity_drives): (Vec<_>, Vec<_>) = pool.drives.iter().enumerate()
|
||||
.partition(|(_, drive)| {
|
||||
// Simple heuristic: drives with 'parity' in name or sdc (common parity drive)
|
||||
!drive.name.to_lowercase().contains("parity") && drive.name != "sdc"
|
||||
});
|
||||
|
||||
// Show data drives
|
||||
if !data_drives.is_empty() && pool.pool_type.contains("mergerfs") {
|
||||
lines.push(Line::from(vec![
|
||||
Span::raw(" "),
|
||||
Span::styled("├─ ", Typography::tree()),
|
||||
Span::styled("Data Disks:", Typography::secondary()),
|
||||
]));
|
||||
|
||||
for (i, (_, drive)) in data_drives.iter().enumerate() {
|
||||
let is_last = i == data_drives.len() - 1;
|
||||
if is_last && parity_drives.is_empty() {
|
||||
self.render_drive_line(&mut lines, drive, "│ └─");
|
||||
} else {
|
||||
self.render_drive_line(&mut lines, drive, "│ ├─");
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
// Show parity drives
|
||||
if !parity_drives.is_empty() && pool.pool_type.contains("mergerfs") {
|
||||
lines.push(Line::from(vec![
|
||||
Span::raw(" "),
|
||||
Span::styled("└─ ", Typography::tree()),
|
||||
Span::styled("Parity:", Typography::secondary()),
|
||||
]));
|
||||
|
||||
for (i, (_, drive)) in parity_drives.iter().enumerate() {
|
||||
let is_last = i == parity_drives.len() - 1;
|
||||
if is_last {
|
||||
self.render_drive_line(&mut lines, drive, " └─");
|
||||
} else {
|
||||
self.render_drive_line(&mut lines, drive, " ├─");
|
||||
}
|
||||
}
|
||||
} else {
|
||||
// Regular drive listing for non-mergerfs pools
|
||||
for (i, drive) in pool.drives.iter().enumerate() {
|
||||
let is_last = i == pool.drives.len() - 1;
|
||||
let tree_symbol = if is_last { "└─" } else { "├─" };
|
||||
self.render_drive_line(&mut lines, drive, tree_symbol);
|
||||
}
|
||||
}
|
||||
} else {
|
||||
// Single drive or simple pools
|
||||
for (i, drive) in pool.drives.iter().enumerate() {
|
||||
let is_last = i == pool.drives.len() - 1;
|
||||
let tree_symbol = if is_last { "└─" } else { "├─" };
|
||||
self.render_drive_line(&mut lines, drive, tree_symbol);
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
lines
|
||||
}
|
||||
|
||||
/// Helper to render a single drive line
|
||||
fn render_drive_line<'a>(&self, lines: &mut Vec<Line<'a>>, drive: &StorageDrive, tree_symbol: &'a str) {
|
||||
let mut drive_info = Vec::new();
|
||||
if let Some(temp) = drive.temperature {
|
||||
drive_info.push(format!("T: {:.0}°C", temp));
|
||||
}
|
||||
if let Some(wear) = drive.wear_percent {
|
||||
drive_info.push(format!("W: {:.0}%", wear));
|
||||
}
|
||||
let drive_text = if drive_info.is_empty() {
|
||||
drive.name.clone()
|
||||
} else {
|
||||
format!("{} {}", drive.name, drive_info.join(" • "))
|
||||
};
|
||||
|
||||
let mut drive_spans = vec![
|
||||
Span::raw(" "),
|
||||
Span::styled(tree_symbol, Typography::tree()),
|
||||
Span::raw(" "),
|
||||
];
|
||||
drive_spans.extend(StatusIcons::create_status_spans(drive.status.clone(), &drive_text));
|
||||
lines.push(Line::from(drive_spans));
|
||||
}
|
||||
}
|
||||
|
||||
impl Widget for SystemWidget {
|
||||
|
||||
@@ -1,6 +1,6 @@
|
||||
[package]
|
||||
name = "cm-dashboard-shared"
|
||||
version = "0.1.98"
|
||||
version = "0.1.101"
|
||||
edition = "2021"
|
||||
|
||||
[dependencies]
|
||||
|
||||
Reference in New Issue
Block a user