Thales Maciel
d1b9a8c102
The web UI shipped as "experimental" and was never finished — no nav
off the dashboard, no live updates, no settled design, never a
supported surface. It was opt-in by default already; leaving the code
in the tree for v0.1.0 only invited "does this work?" questions and
kept HostSummary/BangerSummary/SudoStatus types on the public RPC
surface that nothing else uses.
Removed:
internal/webui/ (all Go + templates + assets)
internal/daemon/web.go (server start / Layout / Config / ListVMs / ListImages)
internal/daemon/dashboard.go (DashboardSummary aggregator)
Simplified:
internal/api/types.go drop WebURL on PingResult, drop
HostSummary / SudoStatus / BangerSummary /
DashboardSummary / DashboardSummaryResult
internal/model/types.go drop DaemonConfig.WebListenAddr
internal/config/config.go drop web_listen_addr from fileConfig + Load
internal/daemon/daemon.go drop webListener / webServer / webURL fields +
startWebServer() call + ping WebURL population
internal/cli/banger.go `daemon status` output no longer branches on web
internal/daemon/{doc.go,ARCHITECTURE.md} drop web UI sections
README.md drop web_listen_addr config bullet + security paragraph
Tests updated to reflect the new shape. Coverage 57.3 -> 58.9% (the
webui package was largely untested; its removal lifts the ratio
without moving the numerator). `banger daemon status` output and
--help are web-free. Lint + full suite green.
100 lines
4.7 KiB
Markdown
100 lines
4.7 KiB
Markdown
# `internal/daemon` architecture
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This document describes the current daemon package layout: the `Daemon`
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composition root, the subpackages that own stateless helpers and shared
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primitives, and the lock ordering every caller must respect.
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## Composition
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`Daemon` is the composition root. Subsystem state and locks live on their
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owning types:
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- Layout, config, store, runner, logger, pid — infrastructure handles.
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- `vmLocks vmLockSet` — per-VM `*sync.Mutex`, one per VM ID. Held only
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across short, synchronous state validation and DB mutations so slow
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guest I/O does not block lifecycle ops on the same VM.
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- `workspaceLocks vmLockSet` — per-VM mutex scoped to
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`workspace.prepare` / `workspace.export`. Serialises concurrent
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workspace operations on a single VM (two simultaneous tar imports
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would clobber each other) without touching `vmLocks`, so
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`vm stop` / `delete` / `restart` never queue behind a slow import.
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- `handles *handleCache` — in-memory map of per-VM transient kernel/
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process handles (PID, tap device, loop devices, DM target). The
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cache is rebuildable: each VM directory holds a small
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`handles.json` scratch file that the daemon reads at startup to
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reconstruct the cache and verify processes against `/proc` via
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pgrep. Nothing in the durable `vms` SQLite row describes transient
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kernel state. See `internal/daemon/vm_handles.go`.
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- `createVMMu sync.Mutex` — serialises `CreateVM` (guards name uniqueness
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+ guest IP allocation window).
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- `imageOpsMu sync.Mutex` — serialises image-registry mutations
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(`PullImage`, `RegisterImage`, `PromoteImage`, `DeleteImage`).
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- `createOps opstate.Registry[*vmCreateOperationState]` — in-flight VM
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create operations; owns its own lock.
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- `tapPool tapPool` — TAP interface pool; owns its own lock.
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- `sessions sessionRegistry` — active guest session controllers; owns
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its own lock.
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- `listener`, `vmDNS` — networking.
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- `vmCaps` — registered VM capability hooks.
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- `pullAndFlatten`, `finalizePulledRootfs`, `bundleFetch`,
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`requestHandler`, `guestWaitForSSH`, `guestDial`,
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`waitForGuestSessionReady` — injectable seams used by tests.
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## Subpackages
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Pure helpers have moved into subpackages so the daemon package itself stays
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focused on orchestration. Each subpackage takes explicit dependencies
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(typically a `system.Runner`-compatible interface) and holds no global
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state beyond small test seams.
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| Subpackage | Purpose |
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| --------------------------------- | ---------------------------------------------------------------------- |
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| `internal/daemon/opstate` | Generic `Registry[T AsyncOp]` for async-operation bookkeeping. |
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| `internal/daemon/dmsnap` | Device-mapper COW snapshot create/cleanup/remove. |
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| `internal/daemon/fcproc` | Firecracker process primitives (bridge, tap, binary, PID, kill, wait). |
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| `internal/daemon/imagemgr` | Image subsystem pure helpers: validators, staging, build script gen. |
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| `internal/daemon/session` | Guest-session helpers: state paths, scripts, parsing, utilities. |
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| `internal/daemon/workspace` | Workspace helpers: git inspection, copy prep, guest import script. |
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`workspace` imports `session` for `ShellQuote` and `FormatStepError`; all
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other subpackages are leaves (no other intra-daemon subpackage imports).
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## Lock ordering
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Acquire in this order, release in reverse. Never acquire in the opposite
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direction.
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```
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vmLocks[id] → workspaceLocks[id] → {createVMMu, imageOpsMu} → subsystem-local locks
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```
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`vmLocks[id]` and `workspaceLocks[id]` are NEVER held at the same
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time. `workspace.prepare` acquires `vmLocks[id]` just long enough to
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validate VM state, releases it, then acquires `workspaceLocks[id]`
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for the guest I/O phase.
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Subsystem-local locks (`tapPool.mu`, `sessionRegistry.mu`,
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`opstate.Registry` mu, `guestSessionController.attachMu` /
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`writeMu`) are leaves. They do not contend with each other.
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Notes:
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- `vmLocks[id]` is the outer lock for any operation scoped to a single VM.
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Acquired via `withVMLockByID` / `withVMLockByRef`.
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- `createVMMu` and `imageOpsMu` are narrow: each guards one family of
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mutations and is released before any blocking guest I/O.
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- Holding a subsystem-local lock while calling into guest SSH is
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discouraged; copy needed state out under the lock and release before
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blocking I/O.
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## External API
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Only `internal/cli` imports this package. The surface is:
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- `daemon.Open(ctx) (*Daemon, error)`
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- `(*Daemon).Serve(ctx) error`
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- `(*Daemon).Close() error`
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- `daemon.Doctor(...)` — host diagnostics (no receiver).
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All other `*Daemon` methods are reached only through the RPC `dispatch`
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switch in `daemon.go` and are free to move/rename during refactoring.
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