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banger/internal/daemon/vm_create.go
Thales Maciel 466a7c30c4
daemon split (4/5): extract *VMService service 
Phase 4 of the daemon god-struct refactor. VM lifecycle, create-op
registry, handle cache, disk provisioning, stats polling, ports
query, and the per-VM lock set all move off *Daemon onto *VMService.

Daemon keeps thin forwarders only for FindVM / TouchVM (dispatch
surface) and is otherwise out of VM lifecycle. Lazy-init via
d.vmSvc() mirrors the earlier services so test literals like
\`&Daemon{store: db, runner: r}\` still get a functional service
without spelling one out.

Three small cleanups along the way:

  * preflight helpers (validateStartPrereqs / addBaseStartPrereqs
    / addBaseStartCommandPrereqs / validateWorkDiskResizePrereqs)
    move with the VM methods that call them.
  * cleanupRuntime / rebuildDNS move to *VMService, with
    HostNetwork primitives (findFirecrackerPID, cleanupDMSnapshot,
    killVMProcess, releaseTap, waitForExit, sendCtrlAltDel)
    reached through s.net instead of the hostNet() facade.
  * vsockAgentBinary becomes a package-level function so both
    *Daemon (doctor) and *VMService (preflight) call one entry
    point instead of each owning a forwarder method.

WorkspaceService's peer deps switch from eager method values to
closures — vmSvc() constructs VMService with WorkspaceService as a
peer, so resolving d.vmSvc().FindVM at construction time recursed
through workspaceSvc() → vmSvc(). Closures defer the lookup to call
time.

Pure code motion: build + unit tests green, lint clean. No RPC
surface or lock-ordering changes.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-04-20 20:57:05 -03:00

196 lines
6.2 KiB
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package daemon
import (
"context"
"database/sql"
"errors"
"fmt"
"os"
"path/filepath"
"strings"
"banger/internal/api"
"banger/internal/imagecat"
"banger/internal/model"
"banger/internal/vmdns"
)
// CreateVM is split into three phases so the global createVMMu guards
// only the narrow name+IP reservation window, not the slow image
// resolution or the multi-second boot flow:
//
// 1. Validate + resolve image. No global lock. Image auto-pull
// self-locks via imageOpsMu (which is also now publication-only).
// 2. Reserve a row: generate id, pick next IP, claim the name,
// UpsertVM the "created" record. Held under createVMMu so two
// concurrent `vm create --name foo` calls can't both think they
// won.
// 3. Boot. Only the per-VM lock is held — parallel creates against
// different VMs fully overlap.
func (s *VMService) CreateVM(ctx context.Context, params api.VMCreateParams) (vm model.VMRecord, err error) {
op := s.beginOperation("vm.create")
defer func() {
if err != nil {
op.fail(err)
return
}
op.done(vmLogAttrs(vm)...)
}()
if err := validateOptionalPositiveSetting("vcpu", params.VCPUCount); err != nil {
return model.VMRecord{}, err
}
if err := validateOptionalPositiveSetting("memory", params.MemoryMiB); err != nil {
return model.VMRecord{}, err
}
imageName := params.ImageName
if imageName == "" {
imageName = s.config.DefaultImageName
}
vmCreateStage(ctx, "resolve_image", "resolving image")
image, err := s.findOrAutoPullImage(ctx, imageName)
if err != nil {
return model.VMRecord{}, err
}
vmCreateStage(ctx, "resolve_image", "using image "+image.Name)
op.stage("image_resolved", imageLogAttrs(image)...)
systemOverlaySize := int64(model.DefaultSystemOverlaySize)
if params.SystemOverlaySize != "" {
systemOverlaySize, err = model.ParseSize(params.SystemOverlaySize)
if err != nil {
return model.VMRecord{}, err
}
}
workDiskSize := int64(model.DefaultWorkDiskSize)
if params.WorkDiskSize != "" {
workDiskSize, err = model.ParseSize(params.WorkDiskSize)
if err != nil {
return model.VMRecord{}, err
}
}
spec := model.VMSpec{
VCPUCount: optionalIntOrDefault(params.VCPUCount, model.DefaultVCPUCount),
MemoryMiB: optionalIntOrDefault(params.MemoryMiB, model.DefaultMemoryMiB),
SystemOverlaySizeByte: systemOverlaySize,
WorkDiskSizeBytes: workDiskSize,
NATEnabled: params.NATEnabled,
}
vm, err = s.reserveVM(ctx, strings.TrimSpace(params.Name), image, spec)
if err != nil {
return model.VMRecord{}, err
}
op.stage("persisted", vmLogAttrs(vm)...)
vmCreateBindVM(ctx, vm)
vmCreateStage(ctx, "reserve_vm", fmt.Sprintf("allocated %s (%s)", vm.Name, vm.Runtime.GuestIP))
unlockVM := s.lockVMID(vm.ID)
defer unlockVM()
if params.NoStart {
vm.State = model.VMStateStopped
vm.Runtime.State = model.VMStateStopped
if err := s.store.UpsertVM(ctx, vm); err != nil {
return model.VMRecord{}, err
}
return vm, nil
}
return s.startVMLocked(ctx, vm, image)
}
// reserveVM holds createVMMu only long enough to verify the name is
// free, allocate a guest IP from the store, and persist the "created"
// reservation row. Everything else (image resolution upstream, boot
// downstream) runs outside this lock.
func (s *VMService) reserveVM(ctx context.Context, requestedName string, image model.Image, spec model.VMSpec) (model.VMRecord, error) {
s.createVMMu.Lock()
defer s.createVMMu.Unlock()
name := requestedName
if name == "" {
generated, err := s.generateName(ctx)
if err != nil {
return model.VMRecord{}, err
}
name = generated
}
// Exact-name lookup. Using FindVM here would also match a new name
// that merely prefixes some existing VM's id or another VM's name,
// falsely rejecting perfectly valid names.
if _, err := s.store.GetVMByName(ctx, name); err == nil {
return model.VMRecord{}, fmt.Errorf("vm name already exists: %s", name)
} else if !errors.Is(err, sql.ErrNoRows) {
return model.VMRecord{}, err
}
id, err := model.NewID()
if err != nil {
return model.VMRecord{}, err
}
guestIP, err := s.store.NextGuestIP(ctx, bridgePrefix(s.config.BridgeIP))
if err != nil {
return model.VMRecord{}, err
}
vmDir := filepath.Join(s.layout.VMsDir, id)
if err := os.MkdirAll(vmDir, 0o755); err != nil {
return model.VMRecord{}, err
}
vsockCID, err := defaultVSockCID(guestIP)
if err != nil {
return model.VMRecord{}, err
}
now := model.Now()
vm := model.VMRecord{
ID: id,
Name: name,
ImageID: image.ID,
State: model.VMStateCreated,
CreatedAt: now,
UpdatedAt: now,
LastTouchedAt: now,
Spec: spec,
Runtime: model.VMRuntime{
State: model.VMStateCreated,
GuestIP: guestIP,
DNSName: vmdns.RecordName(name),
VMDir: vmDir,
VSockPath: defaultVSockPath(s.layout.RuntimeDir, id),
VSockCID: vsockCID,
SystemOverlay: filepath.Join(vmDir, "system.cow"),
WorkDiskPath: filepath.Join(vmDir, "root.ext4"),
LogPath: filepath.Join(vmDir, "firecracker.log"),
MetricsPath: filepath.Join(vmDir, "metrics.json"),
},
}
if err := s.store.UpsertVM(ctx, vm); err != nil {
return model.VMRecord{}, err
}
return vm, nil
}
// findOrAutoPullImage tries the local image store first; if the name
// isn't registered but matches an entry in the embedded imagecat
// catalog, it auto-pulls the bundle so `vm create --image foo` (and
// therefore `vm run`) works on a fresh host without the user having
// to run `image pull` first.
func (s *VMService) findOrAutoPullImage(ctx context.Context, idOrName string) (model.Image, error) {
image, err := s.img.FindImage(ctx, idOrName)
if err == nil {
return image, nil
}
catalog, loadErr := imagecat.LoadEmbedded()
if loadErr != nil {
return model.Image{}, err
}
entry, lookupErr := catalog.Lookup(idOrName)
if lookupErr != nil {
// Not in the catalog either — surface the original not-found.
return model.Image{}, err
}
vmCreateStage(ctx, "auto_pull_image", fmt.Sprintf("pulling %s from image catalog", entry.Name))
if _, pullErr := s.img.PullImage(ctx, api.ImagePullParams{Ref: entry.Name}); pullErr != nil {
return model.Image{}, fmt.Errorf("auto-pull image %q: %w", entry.Name, pullErr)
}
return s.img.FindImage(ctx, idOrName)
}
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