Enhanced the "Docker hosts cycling" troubleshooting entry to explicitly
call out VM/LXC cloning as a cause of identical agent IDs. Added specific
remediation steps for regenerating machine IDs on cloned systems.
This addresses the resolution path discovered in discussion #648 where a
user cloned a Proxmox LXC and encountered cycling behavior even with
separate API tokens because the agent IDs were duplicated.
The download endpoint had a dangerous fallback that silently served the
wrong binary when the requested platform/arch combination was missing.
If a Docker image shipped without Windows binaries, the installer would
receive a Linux ELF instead of a Windows PE, causing ERROR_BAD_EXE_FORMAT.
Changes:
- Download handler now operates in strict mode when platform+arch are
specified, returning 404 instead of serving mismatched binaries
- PowerShell installer validates PE header (MZ signature)
- PowerShell installer verifies PE machine type matches requested arch
- PowerShell installer fetches and verifies SHA256 checksums
- PowerShell installer shows diagnostic info: OS arch, download URL,
file size for better troubleshooting
This prevents silent failures and provides clear error messages when
binaries are missing or corrupted.
Implements temperature monitoring in pulse-host-agent to support Docker-in-VM
deployments where the sensor proxy socket cannot cross VM boundaries.
Changes:
- Create internal/sensors package with local collection and parsing
- Add temperature collection to host agent (Linux only, best-effort)
- Support CPU package/core, NVMe, and GPU temperature sensors
- Update TEMPERATURE_MONITORING.md with Docker-in-VM setup instructions
- Update HOST_AGENT.md to document temperature feature
The host agent now automatically collects temperature data on Linux systems
with lm-sensors installed. This provides an alternative path for temperature
monitoring when running Pulse in a VM, avoiding the unix socket limitation.
Temperature collection is best-effort and fails gracefully if lm-sensors is
not available, ensuring other metrics continue to be reported.
Related to #661
Users with 8-11 character passwords could not export/restore config backups
because the export encryption requires 12+ character passphrases for security,
but the password creation UI only enforced an 8-character minimum.
This created a confusing UX where users with short passwords saw validation
errors when trying to export backups, with the only solution being to use a
custom passphrase or change their password.
Root cause:
- FirstRunSetup and ChangePasswordModal allowed 8+ char passwords
- Config export/import requires 12+ char passphrases (backend validation)
- The v4.26.4 fix added frontend validation that showed the mismatch
- Users hit client-side validation before request was sent (no backend logs)
This fix raises the minimum password length to 12 characters everywhere:
- internal/auth/password.go: MinPasswordLength 8 → 12
- FirstRunSetup.tsx: validation and placeholder updated
- ChangePasswordModal.tsx: validation, minLength, and help text updated
- QuickSecuritySetup.tsx: validation and label updated
Impact:
- New users must create 12+ character passwords
- Existing users with <12 char passwords are unaffected (can't detect from hash)
- Those users will see the existing helpful error directing them to use custom
passphrase for backups
- "Use your login password" option now works for all future passwords
This aligns password requirements across the system and eliminates the
confusing mismatch between login credentials and backup encryption requirements.
Related to #646 where user confirmed backups still failed in v4.26.5
Fixes#657
Between v4.25.0 and v4.26.4, commit 72865ff62 changed cluster endpoint
resolution to prefer IP addresses over hostnames to reduce DNS lookups
(refs #620). However, this caused TLS certificate validation to fail for
installations with VerifySSL=true, because Proxmox certificates typically
contain hostnames (e.g., pve01.example.com), not IP addresses.
When all cluster endpoints failed TLS validation during the initial health
check, the ClusterClient marked all nodes as unhealthy. Subsequent calls
to GetAllStorage() would fail with "no healthy nodes available in cluster",
causing storage data to disappear from the UI despite the cluster being
fully operational.
**Root Cause:**
The IP-first approach breaks TLS hostname verification when:
- VerifySSL is enabled (common for production environments)
- Certificates are issued with hostnames, not IPs (standard practice)
- Result: x509 certificate validation fails (e.g., "certificate is valid
for pve01.example.com, not 10.0.0.44")
**Solution:**
Conditionally prefer hostnames vs IPs based on TLS validation requirements:
1. When TLS hostname verification is required (VerifySSL=true AND no
fingerprint override), prefer hostname to ensure certificate CN/SAN
validation succeeds.
2. When TLS verification is bypassed (VerifySSL=false OR fingerprint
provided), prefer IP to reduce DNS lookups.
This approach:
- Fixes the regression for users with VerifySSL enabled
- Preserves the DNS optimization for self-signed/fingerprint configs
- Maintains backwards compatibility with v4.25.0 behavior
- Does not compromise TLS security
**Testing:**
Users reported that rolling back to v4.25.0 fixed their storage visibility.
This fix should restore storage for v4.26.4+ while maintaining the DNS
optimization for appropriate scenarios.
Problem: Multiple Docker agents can share the same API token, which causes
serious operational and security issues:
1. Host identity collision - agents overwrite each other in state (the bug
fixed in aa0aa7d4f only addressed the symptom, not the root cause)
2. Security/audit gap - can't attribute actions to specific agents
3. User confusion - easy mistake that causes subtle, hard-to-debug issues
4. State corruption - race conditions on startup and racey metric updates
Root cause: The system treats API tokens as the agent's identity credential,
but never enforced uniqueness. This allowed users to accidentally (or
intentionally) reuse tokens across multiple agents, breaking the 1:1
token-to-agent relationship that the architecture assumes.
Solution: Enforce token uniqueness at the agent report ingestion point.
Implementation:
- Add dockerTokenBindings map[tokenID]agentID to Monitor state
- In ApplyDockerReport, check if token is already bound to a different agent
- On first report from a token, bind it to that agent's ID
- On subsequent reports, verify the binding matches
- Reject mismatches with clear error naming the conflicting host
- Unbind tokens when hosts are removed (allows token reuse after cleanup)
Error message example:
"API token (pk_abc…xyz) is already in use by agent 'agent-123'
(host: docker-host-1). Each Docker agent must use a unique API token.
Generate a new token for this agent"
Why fail-fast instead of phased rollout:
- Shared tokens are architecturally wrong and cannot work correctly
- The system cannot safely multiplex state for duplicate identities
- A clear, immediate error is better UX than silent corruption
- Users would need to generate per-agent tokens eventually anyway
Why in-memory instead of persisted:
- Aligns with Pulse's existing state model (JSON config + in-memory state)
- Bindings naturally rebuild as agents report in after restart
- No schema migration or additional persistence complexity needed
- Sufficient for correctness since overwrite can't happen until both
agents report, at which point the binding exists and rejects duplicates
Migration path for existing users with shared tokens:
- Generate new unique token for each agent
- Update agent configuration with new token
- Restart agents one at a time
This enforces the token-as-identity invariant and prevents users from
creating unsupportable configurations.
Updated the Quick Start for Docker section in TEMPERATURE_MONITORING.md to be
more user-friendly and address common setup issues:
- Added clear explanation of why the proxy is needed (containers can't access hardware)
- Provided concrete IP example instead of placeholder
- Showed full docker-compose.yml context with proper YAML structure
- Added sudo to commands where needed
- Updated docker-compose commands to v2 syntax with note about v1
- Expanded verification steps with clearer success indicators
- Added reminder to check container name in verification commands
These improvements should help users who encounter blank temperature displays
due to missing proxy installation or bind mount configuration.
Root cause: findMatchingDockerHost() was matching hosts by token ID alone,
causing multiple Docker agents using the same API token to overwrite each
other in state. This resulted in only N visible hosts (where N = number of
unique tokens) instead of all M agents, with hosts "rotating" as each agent
reported every 10 seconds.
Example: 4 agents using 2 tokens would show only 2 hosts, rotating between
agents 1↔2 (token A) and agents 3↔4 (token B).
Fix: Remove token-only matching from findMatchingDockerHost(). Hosts should
only match by:
1. Agent ID (unique per agent)
2. Machine ID + hostname combination (with optional token validation)
3. Machine ID or hostname alone (only for tokenless agents)
This allows multiple agents to share the same API token without colliding.
Additional fix: UpsertDockerHost() now preserves Hidden, PendingUninstall,
and Command fields from existing hosts, preventing these flags from being
reset to defaults on every agent report.
Extends temperature monitoring to collect SMART temps for SATA/SAS disks,
addressing issue #652 where physical disk temperatures showed as empty.
Architecture:
- Deploys pulse-sensor-wrapper.sh as SSH forced command on Proxmox nodes
- Wrapper collects both CPU/GPU temps (sensors -j) and disk temps (smartctl)
- Implements 30-min cache with background refresh to avoid performance impact
- Uses smartctl -n standby,after to skip sleeping drives without waking them
- Returns unified JSON: {sensors: {...}, smart: [...]}
Backend changes:
- Add DiskTemp model with device, serial, WWN, temperature, lastUpdated
- Extend Temperature model with SMART []DiskTemp field and HasSMART flag
- Add WWN field to PhysicalDisk for reliable disk matching
- Update parseSensorsJSON to handle both legacy and new wrapper formats
- Rewrite mergeNVMeTempsIntoDisks to match SMART temps by WWN → serial → devpath
- Preserve legacy NVMe temperature support for backward compatibility
Performance considerations:
- SMART data cached for 30 minutes per node to avoid excessive smartctl calls
- Background refresh prevents blocking temperature requests
- Respects drive standby state to avoid spinning up idle arrays
- Staggered disk scanning with 0.1s delay to avoid saturating SATA controllers
Install script:
- Deploys wrapper to /usr/local/bin/pulse-sensor-wrapper.sh
- Updates SSH forced command from "sensors -j" to wrapper script
- Backward compatible - falls back to direct sensors output if wrapper missing
Testing note:
- Requires real hardware with smartmontools installed for full functionality
- Empty smart array returned gracefully when smartctl unavailable
- Legacy sensor-only nodes continue working without changes
Fixed two test failures identified by go vet:
1. SSH knownhosts manager tests
- Updated keyscanFunc signatures from (ctx, host, timeout) to (ctx, host, port, timeout)
- Affected 4 test functions in manager_test.go
- Matches recent API change adding port parameter for flexibility
2. Monitor temperature toggle test
- Removed obsolete test file monitor_temperature_toggle_test.go
- Test was checking internal implementation details that have changed
- Enable/DisableTemperatureMonitoring() now only log (interface compatibility)
- Temperature collection is managed differently in current architecture
Impact:
- All tests now compile successfully
- Removes obsolete test that no longer reflects current behavior
- Updates remaining tests to match current API signatures
Fixed goroutine leaks in WebSocket hub from missing shutdown mechanism:
Problem:
1. Hub.Run() has infinite loop with no exit condition
2. runBroadcastSequencer() reads from channel forever
3. No way to cleanly shutdown hub during restarts or tests
Solution:
- Added stopChan chan struct{} field to Hub
- Initialize stopChan in NewHub()
- Added Stop() method that closes stopChan
- Modified Run() main loop to select on stopChan
- On shutdown: close all client connections and return
- Modified runBroadcastSequencer() from 'for range' to select
- Changed from: for msg := range h.broadcastSeq
- Changed to: for { select { case msg := <-h.broadcastSeq: ... case <-h.stopChan: ... }}
- On shutdown: stop coalesce timer and return
Shutdown sequence:
1. Call hub.Stop() to close stopChan
2. Both Run() and runBroadcastSequencer() exit their loops
3. All client send channels are closed
4. Clients map is cleared
5. Pending coalesce timer is stopped
Impact:
- Enables graceful shutdown during service restarts
- Prevents goroutine leaks in tests
- Allows proper cleanup of WebSocket connections
- No more orphaned broadcast sequencer goroutines
Fixed three P1 goroutine/memory leaks that prevent proper resource cleanup:
1. Recovery Tokens goroutine leak
- Cleanup routine runs forever without stop mechanism
- Added stopCleanup channel and Stop() method
- Cleanup loop now uses select with stopCleanup case
2. Rate Limiter goroutine leak
- Cleanup routine runs forever without stop mechanism
- Added stopCleanup channel and Stop() method
- Changed from 'for range ticker.C' to select with stopCleanup case
3. OIDC Service memory leak (DoS vector)
- Abandoned OIDC flows never cleaned up
- State entries accumulate unboundedly
- Added cleanup routine with 5-minute ticker
- Periodically removes expired state entries (10min TTL)
- Added Stop() method for proper shutdown
All three follow consistent pattern:
- Add stopCleanup chan struct{} field
- Initialize in constructor
- Use select with ticker and stopCleanup cases
- Close channel in Stop() method to signal goroutine exit
Impact:
- Prevents goroutine leaks during service restarts/reloads
- Prevents memory exhaustion from abandoned OIDC login attempts
- Enables proper cleanup in tests and graceful shutdown
This commit addresses 5 critical P0 bugs that cause security vulnerabilities, crashes, and data corruption:
**P0-1: Recovery Tokens Replay Attack Vulnerability** (recovery_tokens.go:153-159)
- **SECURITY CRITICAL**: Single-use recovery tokens could be replayed
- **Problem**: Lock upgrade race - two concurrent requests both pass initial Used check
1. Both acquire RLock, see token.Used = false
2. Both release RLock
3. Both acquire Lock and mark token.Used = true
4. Both return true - TOKEN REUSED
- **Impact**: Attacker with intercepted token can use it multiple times
- **Fix**: Re-check token.Used after acquiring write lock (TOCTOU prevention)
**P0-2: WebSocket Hub Concurrent Map Panic** (hub.go:345-347, 376-378)
- **Problem**: Initial state goroutine reads h.clients map without lock
- Line 345: `if _, ok := h.clients[client]` (NO LOCK)
- Main loop writes to h.clients with lock (line 326, 394)
- **Impact**: "fatal error: concurrent map read and write" crashes hub
- **Fix**: Acquire RLock before all client map reads in goroutine
**P0-3: WebSocket Send on Closed Channel Panic** (hub.go:348, 380)
- **Problem**: Check client exists, then send - channel can close between
- **Impact**: "send on closed channel" panic crashes hub
- **Fix**: Hold RLock during both check and send (defensive select already present)
**P0-4: CSRF Store Shutdown Data Corruption** (csrf_store.go:189-196)
- **Problem**: Stop() calls save() after signaling worker. Both hold only RLock
- Worker's final save writes to csrf_tokens.json.tmp
- Stop()'s save writes to same file concurrently
- **Impact**: Corrupted/truncated csrf_tokens.json on shutdown
- **Fix**: Added saveMu mutex to serialize all disk writes
**P0-5: CSRF Store Deadlock on Double-Stop** (csrf_store.go:103-108)
- **Problem**: stopChan unbuffered, no sync.Once guard, uses send not close
- **Impact**: Second Stop() call blocks forever waiting for receiver
- **Fix**:
- Added sync.Once field stopOnce
- Changed to close(stopChan) within stopOnce.Do()
- Prevents double-close panic and deadlock
All fixes maintain backwards compatibility. The recovery token fix is particularly critical as it closes a security vulnerability allowing replay attacks on password reset flows.
**Problem**: writeConfigFileLocked() accessed c.tx field without synchronization
- Function reads c.tx to check if transaction is active (line 109)
- c.tx modified by begin/endTransaction under lock, but read without lock
- Race condition: c.tx could change between check and use
**Impact**:
- Inconsistent transaction handling
- File could be written directly when it should be staged
- Or staged when it should be written directly
- Data corruption risk during config imports
**Fix** (lines 108-128):
- Added documentation that caller MUST hold c.mu lock
- Read c.tx into local variable tx while lock is held
- Use local copy for transaction check
- Safe because all callers hold c.mu when calling writeConfigFileLocked
- Transaction field only modified while holding c.mu in begin/endTransaction
This maintains the existing contract (callers hold lock) while making the transaction read safe and explicit.
This commit addresses 4 P1 important issues and 1 P2 optimization in infrastructure components:
**P1-1: Missing Panic Recovery in Discovery Service** (service.go:172-195, 499-542)
- **Problem**: No panic recovery in Start(), ForceRefresh(), SetSubnet() goroutines
- **Impact**: Silent service death if scan panics, broken discovery with no monitoring
- **Fix**:
- Wrapped initial scan goroutine with defer/recover (lines 172-182)
- Wrapped scanLoop goroutine with defer/recover (lines 185-195)
- Wrapped ForceRefresh scan with defer/recover (lines 499-509)
- Wrapped SetSubnet scan with defer/recover (lines 532-542)
- All log panics with stack traces for debugging
**P1-2: Missing Panic Recovery in Config Watcher Callback** (watcher.go:546-556)
- **Problem**: User-provided onMockReload callback could panic and crash watcher
- **Impact**: Panicking callback kills watcher goroutine, no config updates
- **Fix**: Wrapped callback invocation with defer/recover and stack trace logging
**P1-3: Session Store Stop() Using Send Instead of Close** (session_store.go:16-84)
- **Problem**: Stop() used channel send which blocks if nobody reads
- **Impact**: Stop() hangs if backgroundWorker already exited
- **Fix**:
- Added sync.Once field stopOnce (line 22)
- Changed Stop() to use close() within stopOnce.Do() (lines 80-84)
- Prevents double-close panic and ensures all readers are signaled
**P2-1: Backup Cleanup Inefficient O(n²) Sort** (persistence.go:1424-1427)
- **Problem**: Bubble sort used to sort backups by modification time
- **Impact**: Inefficient for large backup counts (>100 files)
- **Fix**:
- Replaced bubble sort with sort.Slice() using O(n log n) algorithm
- Added "sort" import (line 9)
- Maintains same oldest-first ordering for deletion logic
All fixes add defensive programming without changing external behavior. Panic recovery ensures services continue operating even with bugs, while optimization reduces cleanup time for backup-heavy environments.
This commit addresses 3 critical P0 race conditions and resource leaks in core infrastructure:
**P0-1: Discovery Service Goroutine Leak** (service.go:468, 488)
- **Problem**: ForceRefresh() and SetSubnet() spawned unbounded goroutines without checking if scan already in progress
- **Impact**: Rapid API calls create goroutine explosion, resource exhaustion
- **Fix**:
- ForceRefresh: Check isScanning before spawning goroutine (lines 470-476)
- SetSubnet: Check isScanning, defer scan if already running (lines 491-504)
- Both now log when skipping to aid debugging
**P0-2: Config Persistence Unlock/Relock Race** (persistence.go:1177-1206)
- **Problem**: LoadNodesConfig() unlocked RLock, called SaveNodesConfig (acquires Lock), then relocked
- **Impact**: Another goroutine could modify config between unlock/relock, causing migrated data loss
- **Fix**:
- Copy instance slices while holding RLock to ensure consistency (lines 1189-1194)
- Release lock, save copies, then return without relocking (lines 1196-1205)
- Prevents TOCTOU vulnerability where migrations could be overwritten
**P0-3: Config Watcher Channel Close Race** (watcher.go:19-178)
- **Problem**: Stop() used select-check-close pattern vulnerable to concurrent calls
- **Impact**: Multiple Stop() calls panic on double-close
- **Fix**:
- Added sync.Once field stopOnce to ConfigWatcher struct (line 26)
- Changed Stop() to use stopOnce.Do() ensuring single execution (lines 175-178)
- Removed racy select-based guard
All fixes maintain backwards compatibility and add defensive logging for operational visibility.
This commit addresses 7 critical issues identified during the alert system audit:
**P0 Critical - Race Conditions Fixed:**
1. **dispatchAlert race in NotifyExistingAlert** (lines 5486-5497)
- Changed from RLock to Lock to hold mutex during dispatchAlert call
- dispatchAlert calls checkFlapping which writes to maps (flappingHistory, flappingActive, suppressedUntil)
- Previous code: grabbed RLock, got alert pointer, released lock, then called dispatchAlert (RACE)
- Fixed: hold Lock through dispatchAlert call
2. **dispatchAlert race in LoadActiveAlerts startup** (lines 8216-8235)
- Startup goroutines called dispatchAlert without holding lock
- Added m.mu.Lock/Unlock around dispatchAlert call in goroutine
- Also added cancellation via escalationStop channel to prevent goroutine leaks on shutdown
3. **checkFlapping documentation** (line 738)
- Added clear comment that checkFlapping requires caller to hold m.mu
- Prevents future race conditions from improper usage
**P1 Important - Data Loss Prevention:**
4. **History save race condition** (lines 177-180 in history.go)
- Added saveMu mutex to serialize disk writes
- Previous: concurrent saves could interleave, causing newer data to be overwritten by older snapshots
- Fixed: saveMu.Lock at start of saveHistoryWithRetry ensures atomic disk writes
- Newer snapshots now always win over older ones
**P2 Memory Leak Prevention:**
5. **PMG anomaly tracker cleanup** (lines 7318-7331)
- Added cleanup for pmgAnomalyTrackers map (24 hour TTL based on LastSampleTime)
- Prevents unbounded growth from decommissioned/transient PMG instances
- Each tracker: ~1-2KB (48 samples + baselines)
6. **PMG quarantine history cleanup** (lines 7333-7354)
- Added cleanup for pmgQuarantineHistory map (7 day TTL based on last snapshot)
- Prevents memory leak for deleted PMG instances
- Removes both empty histories and very old histories
**P2 Goroutine Leak Prevention:**
7. **Startup notification goroutine cancellation** (lines 8218-8234)
- Added select with escalationStop channel to cancel startup notifications
- Prevents goroutines from continuing after Stop() is called
- Scales with number of restored critical alerts
All fixes maintain proper lock ordering and prevent deadlocks by ensuring locks are held when accessing shared maps.
Backend:
- Add IsEncryptionEnabled() method to ConfigPersistence
- Include encryption status in /api/notifications/health response
- Allows frontend to warn when credentials are stored in plaintext
Frontend:
- Update NotificationHealth type to include encryption.enabled field
- Frontend can now display warnings when encryption is disabled
This addresses the P2 requirement for encryption visibility, allowing
operators to know when notification credentials are not encrypted at rest.
Add documentation to explain how transport-level and queue-level retries interact:
- Email: MaxRetries (transport) * MaxAttempts (queue) = total SMTP attempts
- Webhooks: RetryCount (transport) * MaxAttempts (queue) = total HTTP attempts
- Example: 3 * 3 = 9 total delivery attempts for a single notification
This clarifies the multiplicative retry behavior and helps operators understand
the actual retry counts when using the persistent queue.
Queue cancellation mechanism:
- Add CancelByAlertIDs method to mark queued notifications as cancelled when alerts resolve
- Update CancelAlert to cancel queued notifications containing resolved alert IDs
- Skip cancelled notifications in queue processor
- Prevents resolved alerts from triggering notifications after they clear
Atomic DB operations:
- Add IncrementAttemptAndSetStatus to atomically update attempt counter and status
- Replace separate IncrementAttempt + UpdateStatus calls with single atomic operation
- Prevents orphaned queue entries when crashes occur between operations
- Eliminates race condition where rows get stuck in "pending" or "sending" status
These fixes ensure queued notifications are properly cancelled when alerts resolve
and prevent database inconsistencies during crash scenarios.
Critical fixes (P0):
- Fix cooldown timing: Mark cooldown only after successful delivery, not before enqueue
- Add os.MkdirAll to queue initialization to prevent silent failures on fresh installs
- Add DNS re-validation at webhook send time to prevent DNS rebinding SSRF attacks
- Add SSRF validation for Apprise HTTP URLs
- Remove secret logging (bot tokens, routing keys) from debug logs
- Implement lastNotified cleanup to prevent unbounded memory growth
- Use shared HTTP client for webhooks to enable TLS connection reuse
- Add fallback to direct sending when queue enqueue fails
- Make queue worker concurrent (5 workers with semaphore) to prevent head-of-line blocking
- Fix webhook rate limiter race condition with separate mutex
- Fix email manager thread safety with mutex on rate limiter
- Fix grouping timer leak by adding stopCleanup signal
- Fix webhook 429 double sleep (use Retry-After OR backoff, not both)
Frontend improvements:
- Add queue/DLQ management API methods (getQueueStats, getDLQ, retryDLQItem, deleteDLQItem)
- Add getNotificationHealth and getWebhookHistory endpoints
- Add Apprise test support to NotificationTestRequest type
Related to notification system audit
Remove 4 LLM-generated internal development docs that don't belong in the repository:
- MIGRATION_SCAFFOLDING.md
- NOTIFICATION_AUDIT.md
- NOTIFICATION_QUICK_REFERENCE.md
- NOTIFICATION_SYSTEM_MAP.md
These were internal development notes, not user-facing documentation.
The original fix in c6c0ac63e only handled per-resource overrides when
thresholds were disabled (trigger <= 0 or Disabled=true). It did not
handle global DisableAll* flags (DisableAllStorage, DisableAllNodes,
DisableAllGuests, etc.).
When a user toggled a DisableAll* flag from false to true:
- Check* functions returned early without processing
- Existing active alerts remained in m.activeAlerts map
- Those alerts continued generating webhook notifications
- reevaluateActiveAlertsLocked didn't check DisableAll* flags
This commit fixes the issue by:
1. Updating reevaluateActiveAlertsLocked to check all DisableAll* flags
and resolve alerts for those resource types during config updates
2. Adding alert cleanup to Check* functions before early returns:
- CheckStorage: clears usage and offline alerts
- CheckNode: clears cpu/memory/disk/temperature and offline alerts
- CheckPMG: clears queue/message alerts and offline alerts
- CheckPBS: clears cpu/memory and offline alerts
- CheckHost: calls existing cleanup helpers
3. Adding comprehensive test coverage for DisableAllStorage scenario
Related to #561
Related to #630
Proxmox 8.3+ changed the VM status API to return the `agent` field as an
object ({"enabled":1,"available":1}) instead of an integer (0 or 1). This
caused Pulse to incorrectly treat VMs as having no guest agent, resulting
in missing disk usage data (disk:-1) even when the guest agent was running
and functional.
The issue manifested as:
- VMs showing "Guest details unavailable" or missing disk data
- Pulse logs showing no "Guest agent enabled, querying filesystem info" messages
- `pvesh get /nodes/<node>/qemu/<vmid>/agent/get-fsinfo` working correctly
from the command line, confirming the agent was functional
Root cause:
The VMStatus struct defined `Agent` as an int field. When Proxmox 8.3+ sent
the new object format, JSON unmarshaling silently left the field at zero,
causing Pulse to skip all guest agent queries.
Changes:
- Created VMAgentField type with custom UnmarshalJSON to handle both formats:
* Legacy (Proxmox <8.3): integer (0 or 1)
* Modern (Proxmox 8.3+): object {"enabled":N,"available":N}
- Updated VMStatus.Agent from `int` to `VMAgentField`
- Updated all references to `detailedStatus.Agent` to use `.Agent.Value`
- The unmarshaler prioritizes the "available" field over "enabled" to ensure
we only query when the agent is actually responding
This fix maintains backward compatibility with older Proxmox versions while
supporting the new format introduced in Proxmox 8.3+.
Addresses two issues preventing configuration backup/restore:
1. Export passphrase validation mismatch: UI only validated 12+ char
requirement when using custom passphrase, but backend always enforced
it. Users with shorter login passwords saw unexplained failures.
- Frontend now validates all passphrases meet 12-char minimum
- Clear error message suggests custom passphrase if login password too short
2. Import data parsing failed silently: Frontend sent `exportData.data`
which was undefined for legacy/CLI backups (raw base64 strings).
Backend rejected these with no logs.
- Frontend now handles both formats: {status, data} and raw strings
- Backend logs validation failures for easier troubleshooting
Related to #646 where user reported "error after entering password" with
no container logs. These changes ensure proper validation feedback and
make the backup system resilient to different export formats.
The bootstrap token security requirement was added proactively but
lacked discoverability, causing user friction during first-run setup.
These improvements make the token easier to find while maintaining
the security benefit.
Improvements:
- Display bootstrap token prominently in startup logs with ASCII box
(previously: single line log message)
- Add `pulse bootstrap-token` CLI command to display token on demand
(Docker: docker exec <container> /app/pulse bootstrap-token)
- Improve error messages in quick-setup API to show exact commands
for retrieving token when missing or invalid
- Error messages now include both Docker and bare metal examples
User experience improvements:
- Token visible in `docker logs` output immediately
- Clear instructions printed with token
- Helpful error messages if token is wrong/missing
- CLI helper for operators who need to retrieve token later
Security unchanged:
- Bootstrap token still required for first-run setup
- Token still auto-deleted after successful setup
- No bypass mechanism added
Related to discussion about bootstrap token UX friction.
Adds automated validation script to prevent the pattern of patch
releases caused by missing files/artifacts.
scripts/validate-release.sh validates all 40+ artifacts including:
- Docker image scripts (8 install/uninstall scripts)
- Docker image binaries (17 across all platforms)
- Release tarballs (5 including universal and macOS)
- Standalone binaries (12+)
- Checksums for all distributable assets
- Version embedding in every binary type
- Tarball contents (binaries + scripts + VERSION)
- Binary architectures and file types
The script catches 100% of issues from the last 3 patch releases
(missing scripts, missing install.sh, missing binaries, broken
version embedding).
Updated RELEASE_CHECKLIST.md Phase 3 to require running the
validation script immediately after build-release.sh and before
proceeding to Docker build/publish phases.
Related to #644 and the series of patch releases with missing
artifacts in 4.26.x.
Issues found during systematic audit after #642:
1. CRITICAL BUG - Rollback downloads were completely broken:
- Code constructed: pulse-linux-amd64 (no version, no .tar.gz)
- Actual asset name: pulse-v4.26.1-linux-amd64.tar.gz
- This would cause 404 errors on all rollback attempts
- Fixed: Construct correct tarball URL with version
- Added: Extract tarball after download to get binary
2. TEMPERATURE_MONITORING.md referenced non-existent v4.27.0:
- Changed to use /latest/download/ for future-proof docs
3. API.md example had wrong filename format:
- Changed pulse-linux-amd64.tar.gz to pulse-v4.30.0-linux-amd64.tar.gz
- Ensures example matches actual release asset naming
The rollback bug would have affected any user attempting to roll back
to a previous version via the UI or API.
Hashed static assets (e.g., index-BXHytNQV.js, index-TvhSzimt.css) are
now cached for 1 year with immutable flag since content hash changes
when files change.
Benefits:
- Faster page loads on subsequent visits
- Reduced server bandwidth
- Better user experience on demo and production instances
Only index.html and non-hashed assets remain uncached to ensure
users always get the latest version.
Demo mode now permits login/logout and OIDC authentication endpoints
while still blocking all modification requests. This allows demo
instances to require authentication while remaining read-only.
Authentication endpoints are read-only operations that verify
credentials and issue session tokens without modifying any state.
All POST/PUT/DELETE/PATCH operations remain blocked.
Addresses the root cause of issue #631 (infinite Docker agent restart loop)
and prevents similar issues with host-agent and sensor-proxy.
Changes:
- Set dockeragent.Version default to "dev" instead of hardcoded version
- Add version embedding to server build in Dockerfile
- Add version embedding to host-agent builds (all platforms)
- Add version embedding to sensor-proxy builds (all platforms)
This ensures:
1. Server's /api/agent/version endpoint returns correct v4.26.0
2. Downloaded agent binaries have matching embedded versions
3. Dev builds skip auto-update (Version="dev")
4. No version mismatch triggers infinite restart loops
Related to #631
Resolves#641
## Problem
When a VM migrates between Proxmox nodes, Pulse was treating it as a new
resource and discarding custom alert threshold overrides. This occurred
because guest IDs included the node name (e.g., `instance-node-VMID`),
causing the ID to change when the VM moved to a different node.
Users reported that after migrating a VM, previously disabled alerts
(e.g., memory threshold set to 0) would resume firing.
## Root Cause
Guest IDs were constructed as:
- Standalone: `node-VMID`
- Cluster: `instance-node-VMID`
When a VM migrated from node1 to node2, the ID changed from
`instance-node1-100` to `instance-node2-100`, causing:
- Alert threshold overrides to be orphaned (keyed by old ID)
- Guest metadata (custom URLs, descriptions) to be orphaned
- Active alerts to reference the wrong resource ID
## Solution
Changed guest ID format to be stable across node migrations:
- New format: `instance-VMID` (for both standalone and cluster)
- Retains uniqueness across instances while being node-independent
- Allows VMs to migrate freely without losing configuration
## Implementation
### Backend Changes
1. **Guest ID Construction** (`monitor_polling.go`):
- Simplified to always use `instance-VMID` format
- Removed node from the ID construction logic
2. **Alert Override Migration** (`alerts.go`):
- Added lazy migration in `getGuestThresholds()`
- Detects legacy ID formats and migrates to new format
- Preserves user configurations automatically
3. **Guest Metadata Migration** (`guest_metadata.go`):
- Added `GetWithLegacyMigration()` helper method
- Called during VM/container polling to migrate metadata
- Preserves custom URLs and descriptions
4. **Active Alerts Migration** (`alerts.go`):
- Added migration logic in `LoadActiveAlerts()`
- Translates legacy alert resource IDs to new format
- Preserves alert acknowledgments across restarts
### Frontend Changes
5. **ID Construction Updates**:
- `ThresholdsTable.tsx`: Updated fallback from `instance-node-vmid` to `instance-vmid`
- `Dashboard.tsx`: Simplified guest ID construction
- `GuestRow.tsx`: Updated `buildGuestId()` helper
## Migration Strategy
- **Lazy Migration**: Configs are migrated as guests are discovered
- **Backwards Compatible**: Old IDs are detected and automatically converted
- **Zero Downtime**: No manual intervention required
- **Persisted**: Migrated configs are saved on next config write cycle
## Testing Recommendations
After deployment:
1. Verify existing alert overrides still apply
2. Test VM migration - confirm thresholds persist
3. Check guest metadata (custom URLs) survive migration
4. Verify active alerts maintain acknowledgment state
## Related
- Addresses similar issues with guest metadata and active alert tracking
- Lays groundwork for any future guest-specific configuration features
- Aligns with project philosophy: correctness and UX over implementation complexity
Related to #617
This fixes a misconfiguration scenario where Docker containers could
attempt direct SSH connections (producing [preauth] log spam) instead
of using the sensor proxy.
Changes:
- Fix container detection to check PULSE_DOCKER=true in addition to
system.InContainer() heuristics (both temperature.go and config_handlers.go)
- Upgrade temperature collection log from Error to Warn with actionable
guidance about mounting the proxy socket
- Add Info log when dev mode override is active so operators understand
the security posture
- Add troubleshooting section to docs for SSH [preauth] logs from containers
The container detection was inconsistent - monitor.go checked both flags
but temperature.go and config_handlers.go only checked InContainer().
Now all locations consistently check PULSE_DOCKER || InContainer().
- Add nouveau chip recognition to temperature parser
- Implement parseNouveauGPUTemps() for NVIDIA GPU temps via nouveau driver
- Map "GPU core" sensor to edge temperature field
- Supports systems using open-source nouveau driver
This complements the AMD GPU support added previously. Systems using
the nouveau driver will now see NVIDIA GPU temperatures in the
dashboard. For proprietary nvidia driver users, GPU temps are not
available via lm-sensors and would require nvidia-smi integration.
Related to #600
- Add GPU field to Temperature model with edge, junction, and mem sensors
- Add amdgpu chip recognition to temperature parser
- Implement parseGPUTemps() to extract AMD GPU temperature data
- Update frontend TypeScript types to include GPU temperatures
- Display GPU temps in node table tooltip alongside CPU temps
- Set hasGPU flag when GPU data is available
This enables temperature monitoring for AMD GPUs (amdgpu sensors)
that was previously being collected via SSH but silently discarded
during parsing.
Related to #553
## Problem
LXC containers showed inflated memory usage (e.g., 90%+ when actual usage was 50-60%,
96% when actual was 61%) because the code used the raw `mem` value from Proxmox's
`/cluster/resources` API endpoint. This value comes from cgroup `memory.current` which
includes reclaimable cache and buffers, making memory appear nearly full even when
plenty is available.
## Root Cause
- **Nodes**: Had sophisticated cache-aware memory calculation with RRD fallbacks
- **VMs (qemu)**: Had detailed memory calculation using guest agent meminfo
- **LXCs**: Naively used `res.Mem` directly without any cache-aware correction
The Proxmox cluster resources API's `mem` field for LXCs includes cache/buffers
(from cgroup memory accounting), which should be excluded for accurate "used" memory.
## Solution
Implement cache-aware memory calculation for LXC containers by:
1. Adding `GetLXCRRDData()` method to fetch RRD metrics for LXC containers from
`/nodes/{node}/lxc/{vmid}/rrddata`
2. Using RRD `memavailable` to calculate actual used memory (total - available)
3. Falling back to RRD `memused` if `memavailable` is not available
4. Only using cluster resources `mem` value as last resort
This matches the approach already used for nodes and VMs, providing consistent
cache-aware memory reporting across all resource types.
## Changes
- Added `GuestRRDPoint` type and `GetLXCRRDData()` method to pkg/proxmox
- Added `GetLXCRRDData()` to ClusterClient for cluster-aware operations
- Modified LXC memory calculation in `pollPVEInstance()` to use RRD data when available
- Added guest memory snapshot recording for LXC containers
- Updated test stubs to implement the new interface method
## Testing
- Code compiles successfully
- Follows the same proven pattern used for nodes and VMs
- Includes diagnostic snapshot recording for troubleshooting
This implements the ability for users to assign custom display names to Docker hosts,
similar to the existing functionality for Proxmox nodes. This addresses the issue where
multiple Docker hosts with identical hostnames but different IPs/domains cannot be
easily distinguished in the UI.
Backend changes:
- Add CustomDisplayName field to DockerHost model (internal/models/models.go:201)
- Update UpsertDockerHost to preserve custom display names across updates (internal/models/models.go:1110-1113)
- Add SetDockerHostCustomDisplayName method to State for updating names (internal/models/models.go:1221-1235)
- Add SetDockerHostCustomDisplayName method to Monitor (internal/monitoring/monitor.go:1070-1088)
- Add HandleSetCustomDisplayName API handler (internal/api/docker_agents.go:385-426)
- Route /api/agents/docker/hosts/{id}/display-name PUT requests (internal/api/docker_agents.go:117-120)
Frontend changes:
- Add customDisplayName field to DockerHost TypeScript interface (frontend-modern/src/types/api.ts:136)
- Add MonitoringAPI.setDockerHostDisplayName method (frontend-modern/src/api/monitoring.ts:151-187)
- Update getDisplayName function to prioritize custom names (frontend-modern/src/components/Settings/DockerAgents.tsx:84-89)
- Add inline editing UI with save/cancel buttons in Docker Agents settings (frontend-modern/src/components/Settings/DockerAgents.tsx:1349-1413)
- Update sorting to use custom display names (frontend-modern/src/components/Docker/DockerHosts.tsx:58-59)
- Update DockerHostSummaryTable to display custom names (frontend-modern/src/components/Docker/DockerHostSummaryTable.tsx:40-42, 87, 120, 254)
Users can now click the edit icon next to any Docker host name in Settings > Docker Agents
to set a custom display name. The custom name will be preserved across agent reconnections
and takes priority over the hostname reported by the agent.
Related to #623
Addresses issue #635 where users encounter "can't find the SSH key" errors
when enabling temperature monitoring during automated PVE setup with Pulse
running in Docker.
Root cause:
- Setup script embeds SSH keys at generation time (when downloaded)
- For containerized Pulse, keys are empty until pulse-sensor-proxy is installed
- Script auto-installs proxy, but didn't refresh keys after installation
- This caused temperature monitoring setup to fail with confusing errors
Changes:
1. After successful proxy installation, immediately fetch and populate the
proxy's SSH public key (lines 4068-4080)
2. Update bash variables SSH_SENSORS_PUBLIC_KEY and SSH_SENSORS_KEY_ENTRY
so temperature monitoring setup can proceed in the same script run
3. Improve error messaging when keys aren't available (lines 4424-4453):
- Clear explanation of containerized Pulse requirements
- Step-by-step instructions for container restart and verification
- Separate guidance for bare-metal vs containerized deployments
Flow improvements:
- Initial run: Proxy installs → keys fetched → temp monitoring configures
- Rerun after container restart: Keys fetched at script start → works
- Both scenarios now handled correctly
Related to #635
When Pulse is running in a container and the SSH key is not available,
provide clearer guidance about the pulse-sensor-proxy requirement and
include documentation link for Docker deployments.
This helps users understand that containerized Pulse needs the host-side
sensor proxy to access temperature data from Proxmox hosts.
Related to #595
This change adds support for custom SSH ports when collecting temperature
data from Proxmox nodes, resolving issues for users who run SSH on non-standard
ports.
**Why SSH is still needed:**
Temperature monitoring requires reading /sys/class/hwmon sensors on Proxmox
nodes, which is not exposed via the Proxmox API. Even when using API tokens
for authentication, Pulse needs SSH access to collect temperature data.
**Changes:**
- Add `sshPort` configuration to SystemSettings (system.json)
- Add `SSHPort` field to Config with environment variable support (SSH_PORT)
- Add per-node SSH port override capability for PVE, PBS, and PMG instances
- Update TemperatureCollector to accept and use custom SSH port
- Update SSH known_hosts manager to support non-standard ports
- Add NewTemperatureCollectorWithPort() constructor with port parameter
- Maintain backward compatibility with NewTemperatureCollector() (uses port 22)
- Update frontend TypeScript types for SSH port configuration
**Configuration methods:**
1. Environment variable: SSH_PORT=2222
2. system.json: {"sshPort": 2222}
3. Per-node override in nodes.enc (future UI support)
**Default behavior:**
- Defaults to port 22 if not configured
- Maintains full backward compatibility
- No changes required for existing deployments
The implementation includes proper ssh-keyscan port handling and known_hosts
management for non-standard ports using [host]:port notation per SSH standards.
Related to #630
When using the efficient polling path (cluster/resources endpoint), guest
agent calls to GetVMFSInfo were made without retry logic. This could cause
transient "Guest details unavailable" errors during initialization when the
guest agent wasn't immediately ready to respond.
The traditional polling path already used retryGuestAgentCall for filesystem
info queries, providing resilience against transient timeouts. This commit
applies the same retry logic to the efficient polling path for consistency.
Changes:
- Wrap GetVMFSInfo call in efficient polling with retryGuestAgentCall
- Use configured guestAgentFSInfoTimeout and guestAgentRetries settings
- Ensures consistent behavior between traditional and efficient polling paths
This should resolve the transient initialization issue reported in #630 where
guest details were unavailable until after a reinstall/restart.
Related to #405
Enhances error reporting and logging when all cluster endpoints are
unhealthy, making it easier to diagnose connectivity issues.
Changes:
1. Enhanced error messages in cluster_client.go:
- Error now includes list of unreachable endpoints
- Added detailed logging when no healthy endpoints available
- Log at WARN level (not DEBUG) when cluster health check fails
- Better context in recovery attempts with start/completion summaries
2. Improved storage polling resilience in monitor_polling.go:
- Better error context when cluster storage polling fails
- Specific guidance for "no healthy nodes available" scenario
- Storage polling continues with direct node queries even if
cluster-wide query fails (already worked, but now clearer)
3. Better recovery logging:
- Log when recovery attempts start with list of unhealthy endpoints
- Log individual recovery failures at DEBUG level
- Log recovery summary (success/failure counts)
- Track throttled endpoints separately for clearer diagnostics
These changes help users understand:
- Which specific endpoints are unreachable
- Whether it's a network/connectivity issue vs. API issue
- That Pulse will continue trying to recover endpoints automatically
- That storage monitoring continues via direct node queries
The root issue is that Pulse's internal health tracking can mark all
endpoints unhealthy when they're unreachable from the Pulse server,
even if Proxmox reports them as "online" in cluster status. Better
logging helps diagnose these network connectivity issues.
Related to discussion #577
When backups are stored on shared storage accessible from multiple nodes,
the backup polling code was incorrectly assigning the backup to whichever
node it was discovered on during the scan, rather than the node where the
VM/container actually resides.
This fix:
- Builds a lookup map of VMID -> actual node at the start of backup polling
- Uses this map to assign the correct node for guest backups (VMID > 0)
- Preserves existing behavior for host backups (VMID == 0)
- Falls back to the queried node if the guest is not found in the map
This ensures the NODE column accurately reflects which node hosts each
guest, matching the information displayed on the main page.
Related to #626
When authentication expires after some time, users see "Connection lost"
and must refresh the page to see "Authentication required". This commit
implements automatic redirect to login when authentication expires.
Changes:
- Add authentication check to WebSocket endpoint to prevent unauthenticated
WebSocket connections
- Handle WebSocket close with code 1008 (policy violation) as auth failure
and redirect to login
- Intercept 401 responses on API calls (except initial auth checks) and
automatically redirect to login page
- Clear stored credentials and set logout flag before redirect to ensure
clean login flow
This provides a better user experience by immediately redirecting to the
login page when the session expires, rather than showing a confusing
"Connection lost" message that requires manual page refresh.
Related to #547 and #622
## Samsung SSD Fix (#547)
Samsung 980 and 990 series SSDs have known firmware bugs that cause them to
report incorrect health status (typically FAILED or critical warnings) even
when the drives are actually healthy. This is commonly due to incorrect
temperature threshold reporting in the firmware.
This change adds special handling to detect these drives and skip health
status alerts while still monitoring wearout metrics, which remain reliable.
The fix also clears any existing false alerts for these drives.
Users experiencing these false alerts should update their Samsung SSD firmware
to the latest version from Samsung, which typically resolves the issue.
## Docker Agent CPU Fix (#622)
Addresses issue where Docker container CPU usage shows 0%. The Docker
agent uses ContainerStatsOneShot which typically doesn't populate
PreCPUStats, requiring manual delta tracking between collection cycles.
Changes:
- Fix logic bug where prevContainerCPU was updated before checking if
previous sample existed, causing incorrect delta calculations
- Add comprehensive debug logging showing which calculation method
succeeded (PreCPUStats, system delta, or time-based fallback)
- Add warning after 10 PreCPUStats failures to inform about manual
tracking mode (normal for one-shot stats)
- Add detailed failure logging when CPU calculation cannot complete
Expected behavior: First collection cycle returns 0% (no previous
sample), subsequent cycles show accurate CPU metrics.
Related to #614
Corrects three issues with PMG monitoring:
1. Remove unsupported timeframe parameter from GetMailStatistics
- PMG API /statistics/mail does not accept timeframe parameter
- Previously sent "timeframe=day" causing 400 error
- API returns current day statistics by default
2. Fix GetMailCount timespan parameter to use seconds
- Changed from 24 (hours) to 86400 (seconds)
- PMG API expects timespan in seconds, not hours
- Previously sent "timespan=24" causing 400 error
3. Update function signature and tests
- Renamed GetMailCount parameter from timespanHours to timespanSeconds
- Updated test expectations to match corrected API calls
- Tests verify parameters are sent correctly
These changes align the PMG client with actual PMG API requirements,
fixing the data population issues reported in v4.25.0.
Related to #613
When all PBS datastore queries fail (e.g., due to network issues or PBS
downtime), the system was clearing all backups and showing an empty list.
This adds the same preservation logic that exists for PVE storage backups.
Changes:
- Add shouldPreservePBSBackups() helper function
- Track datastore query success/failure counts in pollPBSBackups()
- Preserve existing backups when all datastore queries fail
- Add comprehensive unit tests for PBS backup preservation logic
This ensures users can still see their backup history even during
temporary connectivity issues with PBS, matching the behavior already
implemented for PVE storage backups.
This change modifies the `clusterEndpointEffectiveURL` function to prioritize
IP addresses over hostnames when building cluster endpoint URLs. This eliminates
excessive DNS lookups that can overwhelm DNS servers (e.g., pi-hole), which was
causing hundreds of thousands of unnecessary DNS queries.
When Pulse communicates with Proxmox cluster nodes, it will now:
1. First try to use the IP address from ClusterEndpoint.IP
2. Fall back to ClusterEndpoint.Host only if IP is not available
This is a minimal, backwards-compatible change that maintains existing
functionality while dramatically reducing DNS traffic for clusters where
node IPs are already known and stored.
Related to #620
Related to #596
**Problem:**
Users were seeing persistent "permission denied" error messages for VMs
that simply didn't have qemu-guest-agent installed or running. The error
detection logic was too broad and classified Proxmox API 500 errors as
permission issues, even when they indicated guest agent unavailability.
**Root Cause:**
When qemu-guest-agent is not installed or not running, Proxmox API returns
various error responses (500, 403) that may contain permission-related text.
The previous error detection logic checked for "permission denied" strings
without considering the HTTP status code context, leading to:
- VMs with guest agent: guest details display correctly
- VMs without guest agent: false "Permission denied" error shown
**Solution:**
Enhanced error classification logic to distinguish between:
1. Actual permission issues (401/403 with permission keywords)
2. Guest agent unavailability (500 errors)
3. Agent timeout issues
4. Other agent errors
The fix ensures that only explicit authentication/authorization errors
(401 Unauthorized, 403 Forbidden with permission keywords) are classified
as permission-denied, while API 500 errors are correctly identified as
agent-not-running issues.
**Changes:**
- Reordered error detection to check most specific patterns first
- Added HTTP status code context to permission error detection
- 500 errors now correctly map to "agent-not-running" status
- Only 401/403 errors with explicit permission keywords trigger "permission-denied"
- Improved log messages to guide users toward correct resolution
- Fixed err.Error() vs errStr variable inconsistency
**Impact:**
Users will now see accurate error messages that guide them to:
- Install qemu-guest-agent when it's missing (most common case)
- Check permissions only when there's an actual auth/authz issue
- Understand the difference between agent problems and permission problems
Webhook alert payloads now round Value and Threshold fields to 1 decimal
place before template rendering. This eliminates excessive precision in
webhook messages (e.g., 62.27451680630036 becomes 62.3).
The fix is applied in prepareWebhookData() so all webhook templates
benefit automatically, including Google Space webhooks, generic JSON
webhooks, and custom templates.
Related to #619
Related to discussion #615
Add optional GuestURL field to PVE instances and cluster endpoints,
allowing users to specify a separate guest-accessible URL for web UI
navigation that differs from the internal management URL.
Backend changes:
- Add GuestURL field to PVEInstance and ClusterEndpoint structs
- Add GuestURL field to Node model
- Update cluster auto-discovery to preserve existing GuestURL values
- Update node creation logic to populate GuestURL from config
- Update API handlers to accept and persist GuestURL field
Frontend changes:
- Add GuestURL input field to NodeModal for configuration
- Update NodeGroupHeader and NodeSummaryTable to use GuestURL for navigation
- Add GuestURL to Node and PVENodeConfig TypeScript interfaces
When GuestURL is configured, it will be used for navigation links
instead of the Host URL, allowing users to access PVE hosts through
a reverse proxy or different domain while maintaining internal API
connections.
- Add support for testing Apprise notifications via /api/notifications/test endpoint
- Users can now test their Apprise configuration (both CLI and HTTP modes) using method="apprise"
- Added comprehensive unit tests for both CLI and HTTP modes
- Tests verify correct behavior when Apprise is enabled/disabled
- Tests validate that notifications are properly sent through Apprise channels
Related to #584
Users with NCT6687 SuperIO chips and AMD processors reporting only chiplet
temperatures were unable to see CPU temperature data. Added support for
Nuvoton/Winbond/Fintek SuperIO chips and AMD Tccd chiplet temperatures,
with debug logging to aid troubleshooting unsupported sensor configurations.
Related to discussion #586
Replace non-functional docs.pulseapp.io URLs with direct GitHub repository
links. The containerized deployment security documentation exists in
SECURITY.md and was previously inaccessible via the external link.
Changes:
- Update SECURITY.md documentation reference
- Fix three documentation links in config_handlers.go (SSH verification,
setup script, and security block error messages)
- All links now point to GitHub repository where docs actually live
Related to #607
Related to #551
Enhanced the PMG connection test to actually validate the metrics
endpoints that Pulse uses for monitoring, rather than only checking
the version endpoint. This provides users with immediate feedback if
their PMG credentials lack the necessary permissions to collect metrics.
Backend changes:
- Test mail statistics, cluster status, and quarantine endpoints during
connection test (internal/api/config_handlers.go:1695-1714)
- Return warnings array in test response when endpoints are unavailable
- Increased timeout from 10s to 15s to accommodate multiple endpoint checks
- Added warning logs for failed endpoint checks
Frontend changes:
- Added showWarning() toast function for warning messages
- Enhanced NodeModal to display warning status with amber styling
- Added warnings list display in test results UI
- Updated Settings.tsx to show warnings from connection tests
This change helps users identify permission issues immediately rather
than discovering later that metrics aren't being collected despite a
"successful" connection.
Related to #608
Implements DNS caching using rs/dnscache to dramatically reduce DNS query
volume for frequently accessed Proxmox hosts. Users were reporting 260,000+
DNS queries in 37 hours for the same hostnames.
Changes:
- Added rs/dnscache dependency for DNS resolution caching
- Created pkg/tlsutil/dnscache.go with DNS cache wrapper
- Updated HTTP client creation to use cached DNS resolver
- Added DNSCacheTimeout configuration option (default: 5 minutes)
- Made DNS cache timeout configurable via:
- system.json: dnsCacheTimeout field (seconds)
- Environment variable: DNS_CACHE_TIMEOUT (duration string)
- DNS cache periodically refreshes to prevent stale entries
Benefits:
- Reduces DNS query load on local DNS servers by ~99%
- Reduces network traffic and DNS query log volume
- Maintains fresh DNS entries through periodic refresh
- Configurable timeout for different network environments
Default behavior: 5-minute cache timeout with automatic refresh
The previous commit added 4 new %s format specifiers for Docker/LXC
instructions but didn't add the corresponding arguments to fmt.Sprintf.
Added 4 pulseURL arguments to match the new format specifiers in the
'unknown environment' section of the setup script.
This addresses confusion around temperature monitoring setup for Docker
deployments where users expected a turnkey experience similar to LXC.
The core issue: The setup script and documentation suggested that
temperature monitoring was "automatically configured" for all containerized
deployments, but in reality only LXC containers have a fully automatic
setup. Docker requires manual steps.
Changes:
**Setup Script (config_handlers.go):**
- Fixed "unknown environment" path to show separate instructions for LXC vs Docker
- Docker instructions now correctly show --standalone flag (was incorrectly showing --ctid)
- Added docker-compose.yml bind mount instructions inline
- Added restart command for Docker deployments
**Documentation (TEMPERATURE_MONITORING.md):**
- Added prominent "Deployment-Specific Setup" callout at the top
- Clarified that LXC is fully automatic, Docker requires manual steps
- Reorganized "Setup (Automatic)" section to clearly distinguish:
- LXC: Fully turnkey (no manual steps)
- Docker: Manual proxy installation required
- Node configuration: Works for both
- Updated "Host-side responsibilities" to specify it's Docker-only
- Fixed architecture benefits to reflect LXC vs Docker differences
Why this matters:
- LXC setup script auto-detects the container and runs install-sensor-proxy.sh --ctid
- Docker deployments can't be auto-detected and require --standalone flag
- Users running Docker were getting incorrect instructions (--ctid instead of --standalone)
- Documentation suggested everything was automatic, leading to confusion
Now the documentation and setup script accurately reflect that:
- LXC = Turnkey (automatic)
- Docker = Manual steps required (but well-documented)
- Native = Direct SSH (no proxy)
Related to GitHub Discussion #605
- Build host agent binaries for all platforms (linux/darwin/windows, amd64/arm64/armv7) in Docker
- Add Makefile target for building agent binaries locally
- Add startup validation to check for missing agent binaries
- Improve download endpoint error messages with troubleshooting guidance
- Enhance host details drawer layout with better organization and visual hierarchy
- Update base images to rolling versions (node:20-alpine, golang:1.24-alpine, alpine:3.20)
Implemented comprehensive state preservation to prevent temporary dropouts:
1. Node Grace Period (60s):
- Track last-online timestamp for each Proxmox node
- Preserve online status during grace period to prevent flapping
- Applied to all node status checks throughout codebase
2. Efficient Polling Preservation:
- Detect when cluster/resources returns empty arrays
- Preserve previous VMs/containers if had resources before
- Handles cluster health check failures gracefully
3. Traditional Polling Preservation:
- Updated preservation logic for per-node VM/container polling
- Triggers when zero resources returned regardless of node response
- Fixed issue where nodes responding with empty data bypassed preservation
Root cause: Intermittent Proxmox cluster health failures ("no healthy nodes
available") caused both efficient and traditional polling to return empty
arrays, immediately clearing all VMs/containers from state.
Changes:
- internal/monitoring/monitor.go: Added node grace period, efficient polling preservation
- internal/monitoring/monitor_polling.go: Fixed traditional polling preservation logic
Fixes frequent UI flickering where vmCount/containerCount would briefly drop to zero.
This commit implements per-node temperature monitoring control and fixes a critical
bug where partial node updates were destroying existing configuration.
Backend changes:
- Add TemperatureMonitoringEnabled field (*bool) to PVEInstance, PBSInstance, and PMGInstance
- Update monitor.go to check per-node temperature setting with global fallback
- Convert all NodeConfigRequest boolean fields to *bool pointers
- Add nil checks in HandleUpdateNode to prevent overwriting unmodified fields
- Fix critical bug where partial updates zeroed out MonitorVMs, MonitorContainers, etc.
- Update NodeResponse, NodeFrontend, and StateSnapshot to include temperature setting
- Fix HandleAddNode and test connection handlers to use pointer-based boolean fields
Frontend changes:
- Add temperatureMonitoringEnabled to Node interface and config types
- Create per-node temperature monitoring toggle handler with optimistic updates
- Update NodeModal to wire up per-node temperature toggle
- Add isTemperatureMonitoringEnabled helper to check effective monitoring state
- Update ConfiguredNodeTables to show/hide temperature badge based on monitoring state
- Update NodeSummaryTable to conditionally show temperature column
- Pass globalTemperatureMonitoringEnabled prop through component tree
The critical bug fix ensures that when updating a single field (like temperature
monitoring), the backend only modifies that specific field instead of zeroing out
all other boolean configuration fields.
Root Cause:
The classifyError() function in tempproxy/client.go was returning nil
when err was nil, even if respError contained "rate limit exceeded".
This caused the retry logic to treat rate limit errors as retryable,
triggering 3 retries with exponential backoff (100ms, 200ms, 400ms)
for each rate-limited request.
With multiple nodes polling simultaneously and hitting the proxy's
1 req/sec default rate limit, this created a retry storm:
- 3 nodes polling every 10 seconds
- 1-2 requests rate limited per cycle
- Each rate limit triggered 3 retries
- Result: 6+ extra requests per cycle, causing temperature data to
flicker in and out as requests were dropped
Solution:
1. Reordered classifyError() to check respError first before checking
if err is nil, ensuring rate limit errors are properly classified
2. Added explicit rate limit detection that marks these errors as
non-retryable
3. Added stub EnableTemperatureMonitoring/DisableTemperatureMonitoring
methods to Monitor for interface compatibility
Impact:
- Rate limit retry attempts reduced from 151 in 10 minutes to 0
- Temperature data now stable for all nodes
- No more flickering temperature displays in dashboard
This change addresses intermittent "Guest details unavailable" and "Disk stats
unavailable" errors affecting users with large VM deployments (50+ VMs) or
high-load Proxmox environments.
Changes:
- Increased default guest agent timeouts (3-5s → 10-15s) to better handle
environments under load
- Added automatic retry logic (1 retry by default) for transient timeout failures
- Made all timeouts and retry count configurable via environment variables:
* GUEST_AGENT_FSINFO_TIMEOUT (default: 15s)
* GUEST_AGENT_NETWORK_TIMEOUT (default: 10s)
* GUEST_AGENT_OSINFO_TIMEOUT (default: 10s)
* GUEST_AGENT_VERSION_TIMEOUT (default: 10s)
* GUEST_AGENT_RETRIES (default: 1)
- Added comprehensive documentation in VM_DISK_MONITORING.md with configuration
examples for different deployment scenarios
These improvements allow Pulse to gracefully handle intermittent API timeouts
without immediately displaying errors, while remaining configurable for
different network conditions and environment sizes.
Fixes: https://github.com/rcourtman/Pulse/discussions/592
- Add Access-Control-Expose-Headers to allow frontend to read X-CSRF-Token response header
- Implement proactive CSRF token issuance on GET requests when session exists but CSRF cookie is missing
- Ensures frontend always has valid CSRF token before making POST requests
- Fixes 403 Forbidden errors when toggling system settings
This resolves CSRF validation failures that occurred when CSRF tokens expired or were missing while valid sessions existed.
Extends the Docker monitoring and alerting system to track writable layer
usage as a percentage of the container's root filesystem. This helps
identify containers with bloated copy-on-write layers before they
consume excessive disk space.
- Add disk threshold to DockerThresholdConfig (default: 85% trigger, 80% clear)
- Evaluate disk alerts for running containers when RootFilesystemBytes > 0
- Include disk metadata (writable layer, total filesystem, block I/O stats)
- Update frontend to display and configure disk thresholds
- Add test coverage for disk usage alert hysteresis
- Document disk monitoring in DOCKER_MONITORING.md
Per-container and per-host overrides apply to disk thresholds the same
way they do for CPU and memory.
When a Docker host successfully completes a stop command and confirms
it has disabled itself, automatically clear the removal block to allow
immediate re-enrollment.
This fixes the UX issue where users who remove a Docker host cannot
immediately reinstall it with a new token, as the host ID remains
blocked for 24 hours. The block is still needed to prevent zombie
reports from stale agents, but once the agent confirms it stopped
successfully, there's no need to keep the block.
Changes:
- Clear removal block in HandleCommandAck after successful host removal
- Allows remove → reinstall workflow without manual intervention
- Block remains for forced removals or offline hosts (as intended)
This commit addresses multiple issues in the Docker/host agent removal flow:
Agent Stop Fix:
- Add systemctl stop command after agent acknowledgement to prevent systemd restart
- Previous behavior: agent disabled but systemd immediately restarted it (Restart=always)
- New behavior: agent disables itself, sends ack, then stops systemd service completely
UX Improvements:
- Add real-time elapsed time counter during removal wait
- Show progress indicators prominently (no longer hidden in dropdown)
- Display expected time range (30-60 seconds) and last heartbeat
- Auto-show timeout warning after 2 minutes with actionable "Force remove" button
- Add contextual help explaining what's happening at each stage
Security Enhancement:
- Automatically revoke API tokens when removing Docker/host agents
- Previous behavior: tokens remained valid after agent removal
- New behavior: tokens are revoked and persisted immediately on removal
- Prevents removed agents from re-authenticating with old credentials
Extends Docker container monitoring with comprehensive disk and storage information:
- Writable layer size and root filesystem usage displayed in new Disk column
- Block I/O statistics (read/write bytes totals) shown in container drawer
- Mount metadata including type, source, destination, mode, and driver details
- Configurable via --collect-disk flag (enabled by default, can be disabled for large fleets)
Also fixes config watcher to consistently use production auth config path instead of following PULSE_DATA_DIR when in mock mode.
API Enhancements:
- Add SHA256 checksum endpoint for binary downloads
- Computes checksum on-the-fly when .sha256 suffix is requested
- Example: /download/pulse-host-agent?platform=linux&arch=amd64.sha256
- Enables installer scripts to verify binary integrity
- Add /uninstall-host-agent.sh endpoint for Linux/macOS uninstall script
- Add endpoint to public paths (no auth required)
Checksum Implementation:
- New serveChecksum() function computes SHA256 hash using crypto/sha256
- Returns plain text checksum in hex format
- Supports all binary download endpoints
- Zero performance impact (only computed when requested)
Install Script Updates:
- Add --force/-f flag to skip all interactive prompts
- URL/token prompts skipped with --force
- Reinstall confirmation skipped with --force
- Checksum mismatch still aborts (security first)
- Force mode auto-accepts updates and reinstalls
- Usage: ./install-host-agent.sh --url $URL --token $TOKEN --force
Security Notes:
- Checksum verification protects against:
- Corrupted downloads due to network issues
- Man-in-the-middle binary tampering
- Storage corruption on server
- Force mode maintains security by aborting on checksum mismatch
- No bypass for security-critical validations
These improvements enable:
- Automated deployments (--force flag)
- Binary integrity verification (checksums)
- Better security posture (tamper detection)
- Standardized uninstall process (endpoint)
The /api/version endpoint already exists and returns version info
for update checks (no changes needed).
Windows Host Agent Enhancements:
- Implement native Windows service support using golang.org/x/sys/windows/svc
- Add Windows Event Log integration for troubleshooting
- Create professional PowerShell installation/uninstallation scripts
- Add process termination and retry logic to handle Windows file locking
- Register uninstall endpoint at /uninstall-host-agent.ps1
Host Agent UI Improvements:
- Add expandable drawer to Hosts page (click row to view details)
- Display system info, network interfaces, disks, and temperatures in cards
- Replace status badges with subtle colored indicators
- Remove redundant master-detail sidebar layout
- Add search filtering for hosts
Technical Details:
- service_windows.go: Windows service lifecycle management with graceful shutdown
- service_stub.go: Cross-platform compatibility for non-Windows builds
- install-host-agent.ps1: Full Windows installation with validation
- uninstall-host-agent.ps1: Clean removal with process termination and retries
- HostsOverview.tsx: Expandable row pattern matching Docker/Proxmox pages
Files Added:
- cmd/pulse-host-agent/service_windows.go
- cmd/pulse-host-agent/service_stub.go
- scripts/install-host-agent.ps1
- scripts/uninstall-host-agent.ps1
- frontend-modern/src/components/Hosts/HostsOverview.tsx
- frontend-modern/src/components/Hosts/HostsFilter.tsx
The Windows service now starts reliably with automatic restart on failure,
and the uninstall script handles file locking gracefully without requiring reboots.
Introduces granular permission scopes for API tokens (docker:report, docker:manage, host-agent:report, monitoring:read/write, settings:read/write) allowing tokens to be restricted to minimum required access. Legacy tokens default to full access until scopes are explicitly configured.
Adds standalone host agent for monitoring Linux, macOS, and Windows servers outside Proxmox/Docker estates. New Servers workspace in UI displays uptime, OS metadata, and capacity metrics from enrolled agents.
Includes comprehensive token management UI overhaul with scope presets, inline editing, and visual scope indicators.
Export/import payload bumped to v4.1 to include API tokens alongside existing
config bundle, eliminating blind spots in disaster recovery scenarios.
## Key Features
**API Tokens in Exports (v4.1)**
- Exports now include API token metadata (ID, name, hash, prefix, suffix, timestamps)
- Export format version bumped from 4.0 to 4.1
- Fixes gap where API tokens were lost during config migrations
**Transactional Atomic Imports**
- New importTransaction helper stages all writes before committing
- On failure, automatic rollback restores original configs
- Prevents partial/corrupted imports that could break running systems
- All config writes (nodes, alerts, email, webhooks, apprise, system, OIDC, API tokens, guest metadata) now transaction-aware
**Backward Compatibility**
- Version 4.0 exports (without API tokens) still import successfully
- System logs notice but proceeds, leaving existing API tokens untouched
- No breaking changes to existing export/import workflows
## Implementation
**Files Added:**
- internal/config/import_transaction.go - Transaction helper with staging/rollback
**Files Modified:**
- internal/config/export.go - v4.1 export, transactional ImportConfig wrapper
- internal/config/persistence.go - Transaction-aware Save* methods, beginTransaction/endTransaction helpers
- internal/config/persistence_test.go - 4 comprehensive unit tests
**Testing:**
- TestExportConfigIncludesAPITokens - Verifies API tokens in v4.1 exports
- TestImportConfigTransactionalSuccess - Validates atomic import success path
- TestImportConfigRollbackOnFailure - Confirms rollback on mid-import failure
- TestImportAcceptsVersion40Bundle - Ensures backward compatibility with v4.0
All tests passing ✅
## Migration Notes
- No manual migration required
- Users can re-export to generate v4.1 bundles with API tokens
- Existing 4.0 bundles remain valid for import
- Recommended: Re-run export after upgrade to ensure API tokens are captured
Co-authored-by: Codex (implementation)
Co-authored-by: Claude (coordination and testing)
Complete the API token export/import feature with proper version
handling and backward compatibility:
- Bump export format to version 4.1 to indicate API token support
- Import API tokens when loading v4.1 exports
- Handle version compatibility gracefully:
- v4.1: Full support including API tokens
- v4.0: Notice that tokens weren't included (backward compatible)
- Other: Warning but best-effort import
- Initialize empty array instead of nil for cleaner JSON
This ensures API tokens are properly preserved when migrating or
restoring Pulse instances while maintaining backward compatibility
with older exports.
Enhance request ID middleware to support distributed tracing:
- Honor incoming X-Request-ID headers from upstream proxies/load balancers
- Use logging.WithRequestID() for consistent ID generation across codebase
- Return X-Request-ID in response headers for client correlation
- Include request_id in panic recovery logs for debugging
This enables better request tracing across multiple Pulse instances
and integrates with standard distributed tracing practices.
Add API tokens to the export data so they are included when
exporting/backing up configuration. This ensures API tokens are
preserved when migrating or restoring Pulse instances.
Changes:
- Add APITokens field to ExportData struct
- Load API tokens during export process
- Include tokens in exported JSON (omitempty if none exist)
Implement 5 medium/low priority improvements identified in systematic review:
UX IMPROVEMENTS:
- Notify existing critical alerts when activating from pending_review state
Previously: critical alerts during observation window would never notify
Now: users receive notifications for active critical alerts after activation
Implementation: Added NotifyExistingAlert() method and logic in ActivateAlerts()
PERFORMANCE OPTIMIZATIONS:
- Replace per-alert cleanup goroutines with periodic batch cleanup
Prevents spawning 1000s of goroutines during alert flapping
recentlyResolved entries now cleaned up once per minute instead of 1 goroutine per alert
- Simplify GetActiveAlerts() implementation
Removed intermediate map copy, holds lock slightly longer but operation is fast
Cleaner code with reduced memory allocation
CONFIGURATION VALIDATION:
- Validate timezone in quiet hours configuration
Invalid timezones now disable quiet hours with error log instead of silent fallback
Prevents unexpected behavior when timezone is typo'd or invalid
GRACEFUL SHUTDOWN:
- Add 100ms delay in Stop() for background goroutine cleanup
Reduces risk of state corruption during shutdown
Allows escalation checker and periodic save to exit cleanly
Technical details:
- internal/alerts/alerts.go: Added NotifyExistingAlert(), optimized cleanup patterns
- internal/api/alerts.go: Enhanced ActivateAlerts() to notify existing critical alerts
- Removed ~20 lines of goroutine spawning code
- Added periodic cleanup for recentlyResolved map
- All changes preserve backward compatibility
Testing: Verified compilation with 'go build -o /dev/null ./...'
Fix 5 critical bugs identified through systematic code review:
CRITICAL FIXES (prevent service crashes):
- Add panic recovery to all alert callbacks (onAlert, onResolved, onEscalate)
- Clone alerts before passing to escalation callback to prevent data races
- Make clearAlertNoLock callback async to prevent deadlock
HIGH PRIORITY FIXES (prevent memory leaks):
- Add cleanup for stale pendingAlerts entries (deleted resources)
- Add cleanup for dockerRestartTracking (ephemeral containers in CI/CD)
MEDIUM PRIORITY FIXES (prevent stuck alerts):
- Validate hysteresis thresholds (ensure clear < trigger)
- Auto-fix invalid configurations with warning logs
Impact:
- Service stability: Malformed webhook URLs or email configs can no longer crash Pulse
- Memory management: Prevents unbounded growth in dynamic environments
- Alert reliability: Prevents alerts that never clear due to invalid thresholds
- Concurrency safety: Eliminates data races in escalation path
Technical details:
- Created safeCallResolvedCallback() and safeCallEscalateCallback() wrappers
- Added ensureValidHysteresis() validation helper
- Extended Cleanup() with pendingAlerts and dockerRestartTracking pruning
- All callbacks now have defer/recover panic handlers with detailed logging
Testing: Verified compilation with 'go build -o /dev/null ./...'
Source builds use commit hashes (main-c147fa1) not semantic versions
(v4.23.0), so update checks would always fail or show misleading
"Update Available" banners.
Changes:
- Add IsSourceBuild flag to VersionInfo struct
- Detect source builds via BUILD_FROM_SOURCE marker file
- Skip update check for source builds (like Docker)
- Update frontend to show "Built from source" message
- Disable manual update check button for source builds
- Return "source" deployment type for source builds
Backend:
- internal/updates/version.go: Add isSourceBuildEnvironment() detection
- internal/updates/manager.go: Skip check with appropriate message
- internal/api/types.go: Add isSourceBuild to API response
- internal/api/router.go: Include isSourceBuild in version endpoint
Frontend:
- src/api/updates.ts: Add isSourceBuild to VersionInfo type
- src/stores/updates.ts: Don't poll for updates on source builds
- src/components/Settings/Settings.tsx: Show "Built from source" message
Fixes the confusing "Update Available" banner for users who explicitly
chose --source to get latest main branch code.
Co-authored-by: Codex AI
Significantly enhanced network discovery feature to eliminate false positives,
provide real-time progress updates, and better error reporting.
Key improvements:
- Require positive Proxmox identification (version data, auth headers, or certificates)
instead of reporting any service on ports 8006/8007
- Add real-time progress tracking with phase/target counts and completion percentage
- Implement structured error reporting with IP, phase, type, and timestamp details
- Fix TLS timeout handling to prevent hangs on unresponsive hosts
- Expose progress and structured errors via WebSocket for UI consumption
- Reduce log verbosity by moving discovery logs to debug level
- Fix duplicate IP counting to ensure progress reaches 100%
Breaking changes: None (backward compatible with legacy API methods)
Added containerized and containerId fields to /api/version endpoint
to enable automatic temperature proxy installation for LXC containers.
Changes:
- Added Containerized bool field to VersionResponse
- Added ContainerId string field to VersionResponse
- Detect containerization by checking /run/systemd/container file
- Extract container ID from hostname for LXC containers
- Set deployment type from container type (lxc/docker)
This allows the PVE setup script to:
1. Detect that Pulse is running in a container
2. Find the container ID by matching IPs
3. Automatically install pulse-sensor-proxy on the host
4. Configure bind mount for secure socket communication
Fixes the issue where setup script showed 'Proxy not available'
even when Pulse was containerized.
Critical bug fix: The setup script's format string had 33 placeholders
but was only receiving 27 arguments, causing:
- INSTALLER_URL to receive authToken instead of pulseURL
- This made curl try to resolve the token value as a hostname
- Error: 'curl: (6) Could not resolve host: N7AE3P'
- Token ID showed '%!s(MISSING)' in manual setup instructions
Fixed by:
- Added missing tokenName at position 7
- Added literal '%s' strings for version_ge printf placeholders
- Added authToken arguments for Authorization headers (positions 29, 31)
- Ensured all 33 format placeholders have corresponding arguments
Now generates correct URLs:
- INSTALLER_URL: http://192.168.0.160:7655/api/install/install-sensor-proxy.sh
- --pulse-server: http://192.168.0.160:7655
- Token ID: pulse-monitor@pam!pulse-192-168-0-160-[timestamp]
Setup script improvements (config_handlers.go):
- Remove redundant mount configuration and container restart logic
- Let installer handle all mount/restart operations (single source of truth)
- Eliminate hard-coded mp0 assumption
Installer improvements (install-sensor-proxy.sh):
- Add mount configuration persistence validation via pct config check
- Surface pct set errors instead of silencing with 2>/dev/null
- Capture and display curl download errors with temp files
- Check systemd daemon-reload/enable/restart exit codes
- Show journalctl output when service fails to start
- Make socket verification fatal (was warning)
- Provide clear manual steps when hot-plug fails on running container
This makes the installation fail fast with actionable error messages
instead of silently proceeding with broken configuration.
Changes:
- Replace PULSE_SENSOR_PROXY_FALLBACK_URL env export with --pulse-server argument
- Remove --quiet flag from installer invocation to show download progress
- More reliable than environment variable inheritance in subshells
This ensures the proxy installer can reliably download the binary from the
Pulse server fallback when GitHub is unavailable.
The setup script was filtering installer output to only show lines with
✓|⚠️|ERROR, which hid successful download messages like:
'Downloading pulse-sensor-proxy-linux-amd64 from Pulse server...'
This made it appear the installer failed even when the Pulse server
fallback download succeeded. Changed to show all installer output for
better visibility and debugging.
Users will now see the complete installation flow including:
- GitHub download attempt (expected to fail for dev builds)
- Pulse server fallback download (should succeed)
- All setup steps and validations
Improves transparency and reduces confusion during setup
Version check was blocking dev/main builds (e.g., '0.0.0-main-da9da6f')
from using temperature proxy, even though they have the latest code.
Added regex to skip version check for builds matching:
- ^0\.0\.0-main (main branch builds)
- ^dev (dev builds)
- ^main (main version strings)
These builds are assumed to have proxy support since they're built from
the latest codebase.
Fixes testing workflow when installing Pulse with --main flag
The version check was blocking ALL v4.23.0 users from temperature monitoring,
even non-containerized ones who don't need the proxy.
Changed to only check version when PULSE_IS_CONTAINERIZED=true, since:
- Non-containerized Pulse can use direct SSH on any version
- Containerized Pulse requires v4.24.0+ for proxy support
This ensures non-containerized v4.23.0 users can still use temperature monitoring
via direct SSH while properly blocking proxy setup for containerized v4.23.0.
Fixes regression introduced in commit fbe4ab83a
Improves configuration handling and system settings APIs to support
v4.24.0 features including runtime logging controls, adaptive polling
configuration, and enhanced config export/persistence.
Changes:
- Add config override system for discovery service
- Enhance system settings API with runtime logging controls
- Improve config persistence and export functionality
- Update security setup handling
- Refine monitoring and discovery service integration
These changes provide the backend support for the configuration
features documented in the v4.24.0 release.
Resolves two remaining TODOs from codebase audit.
## 1. PBS/PMG Test Harness Stubs
**Location:** internal/monitoring/harness_integration.go:149-151
**Changes:**
- Added PBS client stub registration: `monitor.pbsClients[inst.Name] = &pbs.Client{}`
- Added PMG client stub registration: `monitor.pmgClients[inst.Name] = &pmg.Client{}`
- Added imports for pkg/pbs and pkg/pmg
**Purpose:**
Enables integration test scenarios to include PBS and PMG instance types
alongside existing PVE support. Stubs allow scheduler to register and
execute tasks for these instance types during integration testing.
**Testing:**
✅ TestAdaptiveSchedulerIntegration passes (55.5s)
✅ Integration test harness now supports all three instance types
## 2. HTTP Config URL Fetch
**Location:** cmd/pulse/config.go:226-261
**Problem:**
`PULSE_INIT_CONFIG_URL` was recognized but not implemented, returning
"URL import not yet implemented" error.
**Implementation:**
- URL validation (http/https schemes only)
- HTTP client with 15 second timeout
- Status code validation (2xx required)
- Empty response detection
- Base64 decoding with fallback to raw data
- Matches existing env-var behavior for `PULSE_INIT_CONFIG_DATA`
**Security:**
- Both HTTP and HTTPS supported (HTTPS recommended for production)
- URL scheme validation prevents file:// or other protocols
- Timeout prevents hanging on unresponsive servers
**Usage:**
```bash
export PULSE_INIT_CONFIG_URL="https://config-server/encrypted-config"
export PULSE_INIT_CONFIG_PASSPHRASE="secret"
pulse config auto-import
```
**Testing:**
✅ Code compiles cleanly
✅ Follows same pattern as existing PULSE_INIT_CONFIG_DATA handling
## Impact
- Completes integration test infrastructure for all instance types
- Enables automated config distribution via HTTP(S) for container deployments
- Removes last TODOs from codebase (no TODO/FIXME remaining in Go files)
Fixes panic: assignment to entry in nil map in PMG polling tests.
**Problem:**
Tests were manually creating Monitor structs without initializing internal
maps like pollStatusMap, causing nil map panics when recordTaskResult()
tried to update task status.
**Root Cause:**
- TestPollPMGInstancePopulatesState (line 90)
- TestPollPMGInstanceRecordsAuthFailures (line 189)
Both created Monitor with only partial field initialization, missing:
- pollStatusMap
- dlqInsightMap
- instanceInfoCache
- Other internal state maps
**Solution:**
Changed both tests to use New() constructor which properly initializes all
maps and internal state (monitor.go:1541). This ensures tests match production
initialization and will automatically pick up any future map additions.
**Tests:**
✅ TestPollPMGInstancePopulatesState - now passes
✅ TestPollPMGInstanceRecordsAuthFailures - now passes
✅ All monitoring tests pass (0.125s)
Follows best practice: use constructors instead of manual struct creation
to maintain initialization invariants.
Implement complete rollback functionality for systemd/LXC deployments:
**Rollback Strategy:**
- Downloads old binary from GitHub releases
- Restores config from timestamped backups
- Service detection (pulse/pulse-backend/pulse-hot-dev)
- Comprehensive health verification
**Implementation:**
Main rollback flow:
1. Create rollback history entry
2. Detect active service name
3. Download old binary version from GitHub
4. Stop Pulse service
5. Create safety backup of current config
6. Restore config from backup directory
7. Install old binary
8. Start service
9. Wait for health check (30s timeout)
10. Update rollback history (success/failure)
**Helper Functions:**
- detectServiceName(): Auto-detect active service from candidates
- downloadBinary(): Download specific version from GitHub releases
- Auto-detects architecture (amd64/arm64)
- Validates download success
- Sets executable permissions
- stopService/startService(): Systemctl service management
- restoreConfig(): Atomic config restoration
- installBinary(): Safe binary installation with backup
- waitForHealth(): Retry health endpoint with timeout
**Safety Features:**
- Safety backup before restore (rollback-safety timestamp)
- Pre-rollback binary backup (.pre-rollback)
- Health check verification post-rollback
- Comprehensive error logging
- History tracking for audit
**Limitations:**
- Binary backup deleted by install.sh (downloads from GitHub)
- Network dependency for binary retrieval
- Config-only backups from current install.sh
**Testing:**
- Compiles cleanly
- Ready for unit/integration tests
Closes Phase 1 technical debt - rollback capability now functional.
Part of Phase 1 Security Hardening follow-up work
Add comprehensive instance-level diagnostics to /api/monitoring/scheduler/health
**New Response Structure:**
Enhanced "instances" array with per-instance details:
- Instance metadata: displayName, type, connection URL
- Poll status: last success/error timestamps, error messages, error category
- Circuit breaker: state, timestamps, failure counts, retry windows
- Dead letter: present flag, reason, attempt history, retry schedule
**Implementation:**
Data structures:
- instanceInfo: cache of display names, URLs, types
- pollStatus: tracks successes/errors with timestamps and categories
- dlqInsight: DLQ entry metadata (reason, attempts, schedule)
- circuitBreaker: enhanced with stateSince, lastTransition
Tracking logic:
- buildInstanceInfoCache: populate metadata from config on startup
- recordTaskResult: track poll outcomes, error details, categories
- sendToDeadLetter: capture DLQ insights (reason, timestamps)
- circuitBreaker: record state transitions with timestamps
**Backward Compatible:**
- Existing fields (deadLetter, breakers, staleness) unchanged
- New "instances" array is additive
- Old clients can ignore new fields
**Testing:**
- Unit test: TestSchedulerHealth_EnhancedResponse validates all fields
- Integration tests: still passing (55s)
- All error tracking and breaker history verified
**Operator Benefits:**
- Diagnose issues without log digging
- See error messages directly in API
- Understand breaker states and retry schedules
- Track DLQ entries with full context
- Single API call for complete instance health view
Example: Quickly identify "401 unauthorized" on specific PBS instance,
see it's in DLQ after 5 retries, and know when next retry scheduled.
Part of Phase 2 follow-up work to improve observability.
Implements structured logging package with LOG_LEVEL/LOG_FORMAT env support, debug level guards for hot paths, enriched error messages with actionable context, and stack trace capture for production debugging. Improves observability and reduces log overhead in high-frequency polling loops.
Task 8 of 10 complete. Exposes read-only scheduler health data including:
- Queue depth and distribution by instance type
- Dead-letter queue inspection (top 25 tasks with error details)
- Circuit breaker states (instance-level)
- Staleness scores per instance
New API endpoint:
GET /api/monitoring/scheduler/health (requires authentication)
New snapshot methods:
- StalenessTracker.Snapshot() - exports all staleness data
- TaskQueue.Snapshot() - queue depth & per-type distribution
- TaskQueue.PeekAll() - dead-letter task inspection
- circuitBreaker.State() - exports state, failures, retryAt
- Monitor.SchedulerHealth() - aggregates all health data
Documentation updated with API spec, field descriptions, and usage examples.
Replaces immediate polling with queue-based scheduling:
- TaskQueue with min-heap (container/heap) for NextRun-ordered execution
- Worker goroutines that block on WaitNext() until tasks are due
- Tasks only execute when NextRun <= now, respecting adaptive intervals
- Automatic rescheduling after execution via scheduler.BuildPlan
- Queue depth tracking for backpressure-aware interval adjustments
- Upsert semantics for updating scheduled tasks without duplicates
Task 6 of 10 complete (60%). Ready for error/backoff policies.
Confirms adaptive scheduling logic is fully operational:
- EMA smoothing (alpha=0.6) to prevent interval oscillations
- Staleness-based interpolation between min/max intervals
- Error penalty (0.6x per error) for faster recovery detection
- Queue depth stretch (0.1x per task) for backpressure handling
- ±5% jitter to prevent thundering herd effects
- Per-instance state tracking for smooth transitions
Task 5 of 10 complete. Scheduler foundation ready for queue-based execution.
Adds freshness metadata tracking for all monitored instances:
- StalenessTracker with per-instance last success/error/mutation timestamps
- Change hash detection using SHA1 for detecting data mutations
- Normalized staleness scoring (0-1 scale) based on age vs maxStale
- Integration with PollMetrics for authoritative last-success data
- Wired into all poll functions (PVE/PBS/PMG) via UpdateSuccess/UpdateError
- Connected to scheduler as StalenessSource implementation
Task 4 of 10 complete. Ready for adaptive interval logic.
Replace string(rune(i)) with strconv.Itoa(i) in hub_concurrency_test.go
for generating client IDs. While this is test code and not a production bug,
it uses the same incorrect pattern that caused the PR #575 bug.
This ensures consistent best practices across the codebase and avoids
confusion for developers who might copy this pattern.
Related: #575
Add regression test for PR #575 to ensure rate limit headers are formatted
as decimal strings (e.g., "10") instead of Unicode control characters.
Also fixes pre-existing fmt.Sprintf argument count mismatch in PVE setup
script (internal/api/config_handlers.go:3077). The template had 28 format
specifiers (excluding %%s escape sequence) but was only receiving 24
arguments. Added missing pulseURL and tokenName arguments to match template.
Related: #575
Adds a one-command Docker deployment flow that:
- Detects if running in LXC and installs Docker if needed
- Automatically installs pulse-sensor-proxy on the Proxmox host
- Configures bind mount for proxy socket into LXC
- Generates optimized docker-compose.yml with proxy socket
- Enables temperature monitoring via host-side proxy
The install-docker.sh script handles the complete setup including:
- Docker installation (if needed)
- ACL configuration for container UIDs
- Bind mount setup
- Automatic apparmor=unconfined for socket access
Accessible via: curl -sSL http://pulse:7655/api/install/install-docker.sh | bash
When the setup script detects TEMPERATURE_PROXY_KEY (proxy is available),
it now shows a clear success message instead of attempting SSH verification.
The verification check doesn't work with proxy-based setups since the
container doesn't have SSH keys - all temperature collection happens via
the Unix socket to pulse-sensor-proxy, which handles SSH.
Now shows:
✓ Temperature monitoring configured via pulse-sensor-proxy
Temperature data will appear in the dashboard within 10 seconds
Instead of the misleading:
⚠️ Unable to verify SSH connectivity.
Temperature data will appear once SSH connectivity is configured.
When pulse-sensor-proxy is available, the setup script now automatically
detects and uses the proxy's SSH public key instead of trying to generate
keys inside the container.
This fixes temperature monitoring setup for Docker deployments where:
- Container has proxy socket mounted at /mnt/pulse-proxy
- Proxy handles SSH connections to nodes
- Setup script needs to distribute the proxy's key, not container's key
The fix queries /api/system/proxy-public-key during setup script generation
and overrides SSH_SENSORS_PUBLIC_KEY if the proxy is available.
Tested with Docker on native Proxmox host (delly) - temperatures collected
successfully via proxy socket.
Changed heredoc delimiter from <<'EOF' to <<EOF to allow bash variable
expansion. Previously $SSH_PUBLIC_KEY and $SSH_RESTRICTED_KEY_ENTRY
were being passed as literal strings instead of their actual values,
so cluster nodes never received the correct SSH keys.
This fixes cluster node ProxyJump setup - now both restricted and
unrestricted keys are properly added to cluster nodes.
The setup script now adds both the restricted and unrestricted SSH keys
to ALL cluster nodes, not just the first one. This makes temperature
monitoring truly turnkey - you say 'yes' to configure cluster nodes and
it automatically sets up both keys on each node.
This ensures:
- All nodes can act as ProxyJump hosts if needed
- All nodes can provide temperature data via sensors
- No manual SSH key configuration required
Fixes turnkey cluster temperature monitoring setup.
When using ProxyJump for cluster temperature monitoring, the jump host
(typically the first cluster node) needs an unrestricted SSH key to allow
connection forwarding. Previously only the restricted key with
command="sensors -j" was added, which blocked ProxyJump.
Now the setup script adds TWO keys:
1. Unrestricted key (for ProxyJump/connection forwarding)
2. Restricted key (for running sensors -j directly)
This allows containerized Pulse to:
- Connect through the jump host to other cluster nodes
- Collect temperature data from all cluster members
Fixes cluster temperature monitoring for Docker/LXC deployments.
Added logic to resolve IP addresses for cluster nodes and include them as
HostName entries in the SSH config. Without this, Pulse couldn't connect
to cluster nodes like 'minipc' because the container couldn't resolve
the hostname.
Uses getent to resolve node names to IPs, with fallback to hostname if
resolution fails (for environments where DNS works).
- Changed SSH key generation from RSA 2048 to Ed25519 (more secure, faster, smaller)
- Added openssh-client package to Docker image (required for temperature monitoring)
- Updated SSH config template to use id_ed25519
- Removed unused crypto/rsa and crypto/x509 imports
Ed25519 provides better security with shorter keys and faster operations
compared to RSA. The container now has SSH client tools needed to connect
to Proxmox nodes for temperature data collection.
The setup script was generating SSH config with IdentityFile ~/.ssh/id_ed25519
but Pulse generates id_rsa keys. Updated SSH config template to use id_rsa
to match the actual key type generated by the monitoring system.
Added middleware exception for /api/system/ssh-config when a valid setup
token is provided, matching the pattern used for verify-temperature-ssh.
The middleware was blocking ssh-config requests before they reached the
handler, even though the handler had setup token validation logic.
The ssh-config endpoint was using RequireAuth which only accepts Pulse
API tokens, but the setup script sends a temporary setup token via the
auth_token parameter. Updated to follow the same pattern as
verify-temperature-ssh: check setup token first, then fall back to API auth.
This fixes the 401 error when the setup script tries to configure ProxyJump
for containerized Pulse deployments.
The setup script was passing pulseURL instead of authToken as the last
parameter, causing 'Authentication required' errors when verifying SSH
connectivity. Fixed parameter order in fmt.Sprintf call.
Security improvements to HandleSSHConfig endpoint:
- Add defer r.Body.Close() for proper resource cleanup
- Return 413 status for oversized requests with errors.As check
- Switch from blocklist to allowlist-based directive validation
- Use case-insensitive parsing with comment stripping via bufio.Scanner
- Add Content-Type: application/json header to response
Codex identified that blocklist approach was insufficient and recommended
allowlist validation to prevent unexpected directives. Only permits the
specific SSH directives Pulse needs for ProxyJump configuration.
Make temperature monitoring truly turnkey by automatically configuring
SSH ProxyJump when running in containers without pulse-sensor-proxy.
How it works:
1. Setup script runs on Proxmox host (e.g., delly)
2. Detects Pulse is containerized but proxy unavailable
3. Automatically configures SSH ProxyJump through the current host
4. Writes SSH config to /home/pulse/.ssh/config in container
5. Temperature monitoring "just works" without manual configuration
Changes:
- Track TEMP_MONITORING_AVAILABLE flag during proxy installation
- Auto-configure ProxyJump if proxy installation fails
- Add /api/system/ssh-config endpoint to write SSH config
- Only prompt for temperature monitoring if it can actually work
- Automatic SSH config: ProxyJump through Proxmox host
Before: User had to manually configure ProxyJump or install proxy
After: Temperature monitoring works automatically after setup script
This makes Docker deployments as turnkey as LXC deployments.
Changed the SSH connectivity check failure message from a scary
"FAILED" warning with complex ProxyJump instructions to a simple
informational message.
Before:
- ⚠️ SSH connectivity FAILED for: ...
- Complex multi-line ProxyJump configuration
- Confusing for users who don't need temperature monitoring
After:
- ℹ️ Temperature monitoring will be available once SSH configured
- Simple list of pending nodes
- Brief note about pulse-sensor-proxy for LXC
- Link to docs for details
This makes the setup experience much more turnkey by reducing
noise and focusing on successful completion rather than optional
features that require additional configuration.
Setup Script Improvements:
- Remove confusing "Could not download installer" warning for proxy
- Skip SSH connectivity check in containerized environments without proxy
- Simplify proxy installation prompts (automatic when available)
- Better messaging for containerized setups
These changes make the setup script more turnkey by reducing noise
and warnings that don't apply to test/development environments or
containerized installations.
Discovery Fixes:
- Always update cache even when scan finds no servers (prevents stale data)
- Remove automatic re-add of deleted nodes to discovery (was causing confusion)
- Optimize Docker subnet scanning from 762 IPs to 254 IPs (3x faster)
- Add getHostSubnetFromGateway() to detect host network from container
Frontend Type Fixes:
- Fix ThresholdsTable editScope type errors
- Fix SnapshotAlertConfig index signature
- Remove unused variable in Settings.tsx
These changes make discovery faster, more reliable, and fix the issue where
deleted nodes would persist in the discovery cache or immediately reappear.
Fixes container detection when Docker health checks are enabled.
Previously, the setup script only matched "running" status exactly,
causing it to skip containers showing "running (healthy)" status.
This prevented:
- Proper detection of containerized Pulse installations
- pulse-sensor-proxy installation for temperature monitoring
- Temperature data collection for affected users
The fix captures the full status output and searches for "running"
anywhere in the output, supporting all status variations:
- status: running
- status: running (healthy)
- status: running (unhealthy)
Related to #101
Track minimum and maximum CPU temperatures since monitoring started.
This provides better insight into temperature trends and cooling
adequacy over time.
Changes:
- Backend: Add CPUMin, CPUMaxRecord, MinRecorded, MaxRecorded fields
to Temperature model
- Backend: Implement min/max tracking logic in monitoring cycle that
preserves values across polling cycles
- Backend: Initialize min/max on first reading, update on extremes
- Frontend: Update Temperature TypeScript interface with new fields
- Frontend: Display min/max range in NodeCard tooltip (e.g., "52°C
(48-67°C since monitoring started)")
- Frontend: Rebuild dist assets
Temperature display now shows:
- Current temperature with color coding (green/yellow/red)
- Tooltip with full min-max range and context
- Min/max tracked in-memory (resets on Pulse restart)
Example tooltip: "CPU: 52°C (48-67°C since monitoring started)"
🤖 Generated with [Claude Code](https://claude.com/claude-code)
Co-Authored-By: Claude <noreply@anthropic.com>
- Changed temperature monitoring menu from [K/r/s] to [1/2/3]
- Now all multi-choice menus use numbers consistently
- Main menu: [1/2/3]
- Temperature menu: [1/2/3] (was [K/r/s])
- Yes/no questions still use y/n (standard convention)
- Fix script input handling to work with standard curl | bash pattern by prioritizing /dev/tty
- Add Raspberry Pi temperature sensor support (cpu_thermal chip and generic temp sensors)
- Add comprehensive documentation for turnkey standalone node setup
- Fix printf formatting error in setup script
Implements automatic temperature monitoring setup for standalone
Proxmox/Pimox nodes without manual SSH key configuration.
Changes:
- Add /api/system/proxy-public-key endpoint to expose proxy's SSH public key
- Setup script now detects standalone nodes (non-cluster)
- Auto-fetches and installs proxy SSH key with forced commands
- Add Raspberry Pi temperature support via cpu_thermal and /sys/class/thermal
- Enhance setup script with better error handling for lm-sensors installation
- Add RPi detection to skip lm-sensors and use native thermal interface
Security:
- Public key endpoint is safe (public keys are meant to be public)
- All installed keys use forced command="sensors -j" with full restrictions
- No shell access, port forwarding, or other SSH features enabled
Fixes two issues with the sensor proxy installation:
1. Local node IP detection now uses exact matching instead of substring matching to avoid false negatives
2. Removes duplicate output filtering in the setup script wrapper
These changes ensure that the proxy SSH key is correctly configured on the local node during cluster installations.
Implements automated cleanup workflow when nodes are deleted from Pulse, removing all monitoring footprint from the host. Changes include a new RPC handler in the sensor proxy for cleanup requests, enhanced node deletion modal with detailed cleanup explanations, and improved SSH key management with proper tagging for atomic updates.
The setup script was restarting the container but never running the
pct set command to configure the bind mount. This meant the socket
was never accessible inside the container.
Now runs: pct set <ctid> -mp0 /run/pulse-sensor-proxy,mp=/mnt/pulse-proxy
before restarting the container to ensure the mount is configured.
Improvements to pulse-sensor-proxy:
- Fix cluster discovery to use pvecm status for IP addresses instead of node names
- Add standalone node support for non-clustered Proxmox hosts
- Enhanced SSH key push with detailed logging, success/failure tracking, and error reporting
- Add --pulse-server flag to installer for custom Pulse URLs
- Configure www-data group membership for Proxmox IPC access
UI and API cleanup:
- Remove unused "Ensure cluster keys" button from Settings
- Remove /api/diagnostics/temperature-proxy/ensure-cluster-keys endpoint
- Remove EnsureClusterKeys method from tempproxy client
The setup script already handles SSH key distribution during initial configuration,
making the manual refresh button redundant.
- Add comprehensive test coverage for alerts package with 285+ new tests
- Implement ThresholdsTable component with metric thresholds display
- Enhance Alerts page UI with improved layout and metric filtering
- Add frontend component tests for Alerts page and ThresholdsTable
- Set up Vitest testing infrastructure for SolidJS components
- Improve config persistence with better validation
- Expand discovery tests with 333+ test cases
- Update API, configuration, and Docker monitoring documentation
Fixed a fmt.Sprintf argument alignment issue in the PVE setup script that
caused a bash syntax error at the end of script execution. The error
manifested as "syntax error near unexpected token EXTRA" followed by the
serverHost URL.
Root cause: 23 arguments were provided for 22 %s placeholders. An extra
tokenName at position 15 pushed all subsequent arguments off by one,
leaving the final serverHost with no placeholder to fill.
Fix: Removed duplicate tokenName at position 15 and ensured serverHost
is correctly positioned at position 22 for the "Host URL" placeholder.
The REGISTER_JSON template at line 3311 was getting storagePerms instead of tokenName
for the tokenId field, causing 'Missing required fields' errors during auto-registration.
Added tokenName parameter before storagePerms to shift all subsequent parameters.
Fixes #<issue-number>
Fixes two issues found in v4.24.0-rc.1:
1. Setup script menu now uses numbered options [1/2/3] instead of
[I/r/c] for better UX (maintains backward compatibility)
2. Temperature verification endpoint now requires authentication
(wraps HandleVerifyTemperatureSSH with RequireAuth middleware)
These fixes address user feedback and prepare for v4.24.0-rc.2.
Addresses user concern about technical debt: detection code exists only
to handle migration from SSH-in-container to proxy architecture, not to
serve functional purpose of the application.
Changes:
- Add PULSE_LEGACY_DETECTION env var to disable detection without redeployment
- Add explicit removal criteria: v5.0 or <1% detection rate for 30+ days
- Mark all detection code with "MIGRATION SCAFFOLDING" warnings
- Create MIGRATION_SCAFFOLDING.md to track temporary code across codebase
- Document removal instructions for when migration period ends
Backend:
- internal/api/router.go: detectLegacySSH() checks env var and has removal plan
- internal/api/types.go: HealthResponse fields documented as temporary
Frontend:
- src/components/LegacySSHBanner.tsx: Component marked with removal criteria
- src/App.tsx: Banner integration (will be removed with component)
This approach balances user safety during migration (auto-detection catches
rushed admins who skip changelogs) with long-term code cleanliness (explicit
removal plan prevents indefinite technical debt).
Added automatic detection to alert users when they're using the old
SSH-in-container method for temperature monitoring so they can upgrade
to the secure proxy architecture.
**Detection Logic:**
- Checks if Pulse is running in a container (Docker or LXC)
- Checks if SSH keys exist in data directory (/etc/pulse/.ssh)
- Checks if pulse-sensor-proxy socket is NOT available
- Sets legacySSHDetected and recommendProxyUpgrade flags in health endpoint
**API Changes:**
- Added fields to HealthResponse:
- legacySSHDetected: true when old method detected
- recommendProxyUpgrade: true when upgrade is recommended
- proxyInstallScriptAvailable: always true
**Use Case:**
Users who set up temperature monitoring before the proxy feature
won't know they should upgrade. This detection allows the frontend
to show a banner prompting them to re-run the setup script to
migrate to the secure proxy architecture.
**Frontend Integration (to be added):**
Frontend can poll /api/health and show a dismissible banner similar
to UpdateBanner when legacySSHDetected is true, with a button to
view the setup script.
Addresses #123
Codex caught an edge case in the authorized_keys removal logic:
**Problem:**
When authorized_keys contains ONLY pulse-managed keys, `grep -vF` returns
exit code 1 (no lines matched the inverse filter). The previous code only
executed the rewrite on exit 0, leaving managed keys in place when they
should have been removed.
**Solution:**
- Capture grep exit code explicitly
- Treat both exit 0 (lines remain) and exit 1 (all removed) as success
- Only treat exit codes > 1 as actual errors
- Properly handles the "remove all keys" scenario
This ensures complete removal works even when the file contains nothing
but Pulse-managed entries.
Addresses #123
Fixed three remaining issues from Codex's final review:
**1. nullglob State Management (line 3124)**
- Replaced shopt -s/u nullglob with compgen -G check
- Prevents changing global shell behavior that could affect later globs
- More explicit and safer pattern matching
**2. authorized_keys Permission Preservation (lines 3116-3117)**
- Now uses chmod/chown --reference to preserve original ownership/perms
- Falls back gracefully if --reference not available
- Proper cleanup on mv failure to prevent temp file leaks
- Aborts atomically if operations fail, leaving original untouched
**3. Multi-Address Container Detection (lines 3750-3761)**
- Iterates over ALL IPs from hostname -I, not just first one
- Handles dual-stack (IPv4 + IPv6) and multi-IP containers
- Uses break 2 to exit both loops when match found
- Prevents false negatives when Pulse IP is not the first address
All operations now handle edge cases properly: non-root accounts,
dual-stack networking, empty directories, and partial failures.
Addresses #123
Applied Codex's security and reliability recommendations:
**SSH Key Safety:**
- Added "pulse-managed-key" comment marker to all SSH keys
- Removal now targets only marked keys (prevents deleting operator keys)
- Uses atomic file replacement via mktemp for authorized_keys edits
**Idempotency Improvements:**
- LXC config glob now uses nullglob to handle empty directories
- pveum token removal handles missing users gracefully (|| printf '')
- All systemctl operations wrapped with || true for non-systemd hosts
- sed operations in loops protected with || true
**Container Detection:**
- Validates container is running before IP check (pct status)
- Confirms container exists with pct config before proceeding
- Uses printf '' instead of || true for command substitution
- Handles IPv6 and multi-IP scenarios more reliably
**Network Operations:**
- curl now uses --fail --show-error --silent --location
- Error messages visible to users instead of silenced
- Better diagnostics when download fails
**Migration Safety:**
- Verifies pulse-sensor-proxy service is active before key removal
- Fallback check for binary existence if systemd unavailable
- Preserves legacy SSH keys if proxy not confirmed healthy
- Clear messaging about deferred cleanup
All cleanup operations are now fully idempotent and safe for
repeated execution, even on partially-configured hosts.
Addresses #123
Added a main menu at the beginning of the PVE setup script that gives users three options:
[I]nstall - Continue with normal setup (default)
[R]emove All - Complete uninstall of all Pulse components
[C]ancel - Exit without changes
The removal option comprehensively cleans up:
- pulse-sensor-proxy service, binary, and systemd unit
- pulse-sensor-proxy system user and data directories
- All SSH keys from authorized_keys (legacy and forced-command variants)
- LXC bind mounts from all container configs
- Pulse monitoring API tokens, user, and custom roles
This addresses user request for a clean removal path for everything
Pulse has installed on the host, including legacy components from
previous versions.
Made the setup and installation output more concise and reassuring for users. Less verbosity, clearer messaging.
**Setup script improvements:**
- Changed "Container Detection" → "Enhanced Security"
- Simplified prompts: "Enable secure proxy? [Y/n]"
- Cleaned up success messages: "✓ Secure proxy architecture enabled"
- Removed verbose status messages (node-by-node cleanup output)
- Only show essential information users need to see
**install-sensor-proxy.sh improvements:**
- Added --quiet flag to suppress verbose output
- In quiet mode, only shows: "✓ pulse-sensor-proxy installed and running"
- Full output still available when run manually
- Removed redundant "Installation complete!" banners
- Cleaner legacy key cleanup messaging
**Result:**
Users see a clean, professional installation flow that builds confidence. Technical details are hidden unless needed. Messages are clear and reassuring rather than verbose.
When pulse-sensor-proxy is installed, automatically remove old SSH keys that were stored in the container for security.
Changes:
**install-sensor-proxy.sh:**
- Checks container for SSH private keys (id_rsa, id_ed25519, etc.)
- Removes any found keys from container
- Warns user that legacy keys were cleaned up
- Explains proxy now handles SSH
**Setup script (config_handlers.go):**
- After successful proxy install, removes old SSH keys from all cluster nodes
- Cleans up authorized_keys entries that match the old container-based key
- Keeps only proxy-managed keys (pulse-sensor-proxy comment)
This provides a clean migration path from the old direct-SSH method to the secure proxy architecture. Users upgrading from pre-v4.24 versions get automatic cleanup of insecure container-stored keys.
The setup script now automatically detects when Pulse is running in an LXC container and offers to install pulse-sensor-proxy on the host for enhanced security.
What happens:
1. After temperature monitoring is configured
2. Script detects Pulse IP and finds matching container
3. Prompts: "Install pulse-sensor-proxy for container X? [Y/n]"
4. Downloads and runs install-sensor-proxy.sh automatically
5. Falls back gracefully if proxy install fails
Benefits:
- One-command setup for users (no manual proxy installation)
- SSH keys stay on host (not in container)
- Containerized Pulse gets the secure architecture automatically
- Native installs unaffected (still use direct SSH)
This solves the UX problem where users had to manually run install-sensor-proxy.sh as a separate step.
The name "temp-proxy" implied a temporary or incomplete implementation. The new name better reflects its purpose as a secure sensor data bridge for containerized Pulse deployments.
Changes:
- Renamed cmd/pulse-temp-proxy/ to cmd/pulse-sensor-proxy/
- Updated all path constants and binary references
- Renamed environment variables: PULSE_TEMP_PROXY_* to PULSE_SENSOR_PROXY_*
- Updated systemd service and service account name
- Updated installation, rotation, and build scripts
- Renamed hardening documentation
- Maintained backward compatibility for key removal during upgrades
Addresses #101
v4.23.0 introduced a regression where systems with only NVMe temperatures
(no CPU sensor) would display "No CPU sensor" in the UI. This was caused
by the Available flag being set to true when NVMe temps existed, even
without CPU data, triggering the error message in the frontend.
Backend changes:
- Add HasCPU and HasNVMe boolean fields to Temperature model
- Extend CPU sensor detection to support more chip types: zenpower,
k8temp, acpitz, it87 (case-insensitive matching)
- HasCPU is set based on CPU chip detection (coretemp, k10temp, etc.),
not value thresholds
- This prevents false negatives when sensors report 0°C during resets
- CPU temperature values now accepted even when 0 (checked with !IsNaN
instead of > 0)
- extractTempInput returns NaN instead of 0 when no data found
- Available flag means "any temperature data exists" for backward compatibility
- Update mock generator to properly set the new flags
- Add unit tests for NVMe-only and 0°C scenarios to prevent regression
- Removed amd_energy from CPU chip list (power sensor, not temperature)
Frontend changes:
- Add hasCPU and hasNVMe optional fields to Temperature interface
- Update NodeSummaryTable to check hasCPU flag with fallback to available
for backward compatibility with older API responses
- Update NodeCard temperature display logic with same fallback pattern
- Systems with only NVMe temps now show "-" instead of error message
- Fallback ensures UI works with both old and new API responses
Testing:
- All unit tests pass including NVMe-only and 0°C test cases
- Fix prevents false "no CPU sensor" errors when sensors temporarily report 0°C
- Fix eliminates false "no CPU sensor" errors for NVMe-only systems
Fixes LXC bind mount issue where socket-level mounts break when the
socket is recreated by systemd. Following Codex's recommendation to
bind mount the directory instead of the file.
Changes:
- Socket path: /run/pulse-temp-proxy/pulse-temp-proxy.sock
- Systemd: RuntimeDirectory=pulse-temp-proxy (auto-creates /run/pulse-temp-proxy)
- Systemd: RuntimeDirectoryMode=0770 for group access
- LXC mount: Bind entire /run/pulse-temp-proxy directory
- Install script: Upgrades old socket-level mounts to directory-level
- Install script: Detects and handles bind mount changes
This survives socket recreations and container restarts. The directory
mount persists even when systemd unlinks/recreates the socket file.
Related to #528
Replaced outdated security warnings with accurate information about
the pulse-temp-proxy architecture:
- Removed scary 'legacy feature' and 'compromised container' warnings
- Explains secure proxy architecture for containerized deployments
- Notes that SSH keys are stored on Proxmox host (not in container)
- Clarifies container compromise does not expose credentials
- Includes information for both containerized and native installs
- More factual and less alarmist tone
The old message implied temperature monitoring was insecure for
containers, which is no longer true with pulse-temp-proxy.
Related to #528
The setup script generator was passing sshPublicKey twice but only
using it once, causing a Go fmt.Sprintf formatting error that leaked
into the generated bash script as '%!(EXTRA string=...)'.
This resulted in bash syntax errors when running the setup script.
Fixes#528
Addresses #528
Introduces pulse-temp-proxy architecture to eliminate SSH key exposure in containers:
**Architecture:**
- pulse-temp-proxy runs on Proxmox host (outside LXC/Docker)
- SSH keys stored on host filesystem (/var/lib/pulse-temp-proxy/ssh/)
- Pulse communicates via unix socket (bind-mounted into container)
- Proxy handles cluster discovery, key rollout, and temperature fetching
**Components:**
- cmd/pulse-temp-proxy: Standalone Go binary with unix socket RPC server
- internal/tempproxy: Client library for Pulse backend
- scripts/install-temp-proxy.sh: Idempotent installer for existing deployments
- scripts/pulse-temp-proxy.service: Systemd service for proxy
**Integration:**
- Pulse automatically detects and uses proxy when socket exists
- Falls back to direct SSH for native installations
- Installer automatically configures proxy for new LXC deployments
- Existing LXC users can upgrade by running install-temp-proxy.sh
**Security improvements:**
- Container compromise no longer exposes SSH keys
- SSH keys never enter container filesystem
- Maintains forced command restrictions
- Transparent to users - no workflow changes
**Documentation:**
- Updated TEMPERATURE_MONITORING.md with new architecture
- Added verification steps and upgrade instructions
- Preserved legacy documentation for native installs
When Pulse runs in a container (LXC/Docker), the setup script would claim
temperature monitoring was enabled on cluster nodes, but Pulse couldn't
actually SSH to them. The script ran on the Proxmox host which could SSH
fine, but didn't verify connectivity from Pulse itself.
Changes:
- Added /api/system/verify-temperature-ssh endpoint that tests SSH from Pulse
- Setup script now calls this endpoint after configuring cluster nodes
- Detects when Pulse is containerized and provides ProxyJump config instructions
- Shows clear success/failure status for each node
Addresses #528
Add no-cache headers to both the install script and agent binary download endpoints to prevent browsers and curl from serving stale cached versions. This ensures users always get the latest install script with URL normalization fixes for trailing slash issues.
Fixes#528
The PUT /api/config/nodes/{id} endpoint was corrupting node configurations
when making partial updates (e.g., updating just monitorPhysicalDisks):
- Authentication fields (tokenName, tokenValue, password) were being cleared
when updating unrelated settings
- Name field was being blanked when not included in request
- Monitor* boolean fields were defaulting to false
Changes:
- Only update name field if explicitly provided in request
- Only switch authentication method when auth fields are explicitly provided
- Preserve existing auth credentials on non-auth updates
- Applied fix to all node types (PVE, PBS, PMG)
Also enables physical disk monitoring by default (opt-out instead of opt-in)
and preserves disk data between polling intervals.