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molecule-core/workspace-server/internal/handlers/plugins.go
Hongming Wang d8026347e5 chore: open-source restructure — rename dirs, remove internal files, scrub secrets 
Renames:
- platform/ → workspace-server/ (Go module path stays as "platform" for
  external dep compat — will update after plugin module republish)
- workspace-template/ → workspace/

Removed (moved to separate repos or deleted):
- PLAN.md — internal roadmap (move to private project board)
- HANDOFF.md, AGENTS.md — one-time internal session docs
- .claude/ — gitignored entirely (local agent config)
- infra/cloudflare-worker/ → Molecule-AI/molecule-tenant-proxy
- org-templates/molecule-dev/ → standalone template repo
- .mcp-eval/ → molecule-mcp-server repo
- test-results/ — ephemeral, gitignored

Security scrubbing:
- Cloudflare account/zone/KV IDs → placeholders
- Real EC2 IPs → <EC2_IP> in all docs
- CF token prefix, Neon project ID, Fly app names → redacted
- Langfuse dev credentials → parameterized
- Personal runner username/machine name → generic

Community files:
- CONTRIBUTING.md — build, test, branch conventions
- CODE_OF_CONDUCT.md — Contributor Covenant 2.1

All Dockerfiles, CI workflows, docker-compose, railway.toml, render.yaml,
README, CLAUDE.md updated for new directory names.

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
2026-04-18 00:24:44 -07:00

195 lines
6.5 KiB
Go
Raw Blame History

package handlers
import (
"bytes"
"context"
"io"
"os"
"path/filepath"
"strings"
"github.com/Molecule-AI/molecule-monorepo/platform/internal/plugins"
"github.com/Molecule-AI/molecule-monorepo/platform/internal/provisioner"
"github.com/docker/docker/api/types/container"
"github.com/docker/docker/client"
"github.com/docker/docker/pkg/stdcopy"
"gopkg.in/yaml.v3"
)
// RuntimeLookup resolves a workspace's runtime identifier by ID. The
// handler uses this to filter the plugin registry to compatible plugins
// without needing a direct DB dependency. A nil lookup disables
// workspace-scoped filtering (handler falls back to unfiltered list).
type RuntimeLookup func(workspaceID string) (string, error)
// PluginsHandler manages the plugin registry and per-workspace plugin installation.
type PluginsHandler struct {
pluginsDir string // host path to plugins/ registry
docker *client.Client // Docker client for container operations
restartFunc func(string) // auto-restart workspace after install/uninstall
runtimeLookup RuntimeLookup // workspace_id → runtime (optional)
sources *plugins.Registry // pluggable install sources (local, github, clawhub, …)
}
// NewPluginsHandler constructs a PluginsHandler with the default source
// registry (local + github resolvers). Deployments can add more schemes
// via WithSourceResolver before routes are wired — e.g. a private
// enterprise registry or ClawHub. Logs the effective install limits
// exactly once per process on first construction.
func NewPluginsHandler(pluginsDir string, docker *client.Client, restartFunc func(string)) *PluginsHandler {
sources := plugins.NewRegistry()
sources.Register(plugins.NewLocalResolver(pluginsDir))
sources.Register(plugins.NewGithubResolver())
logInstallLimitsOnce(os.Stderr)
return &PluginsHandler{
pluginsDir: pluginsDir,
docker: docker,
restartFunc: restartFunc,
sources: sources,
}
}
// WithSourceResolver registers a custom source resolver (e.g. a ClawHub
// client) alongside the defaults. Call during router wiring, before the
// first request. Chainable.
func (h *PluginsHandler) WithSourceResolver(resolver plugins.SourceResolver) *PluginsHandler {
h.sources.Register(resolver)
return h
}
// WithRuntimeLookup installs a workspace-runtime resolver. Used by the
// router during wiring so tests don't need a real DB.
func (h *PluginsHandler) WithRuntimeLookup(lookup RuntimeLookup) *PluginsHandler {
h.runtimeLookup = lookup
return h
}
// pluginInfo is the API response for a plugin.
type pluginInfo struct {
Name string `json:"name"`
Version string `json:"version"`
Description string `json:"description"`
Author string `json:"author"`
Tags []string `json:"tags"`
Skills []string `json:"skills"`
// Runtimes declares which workspace runtimes this plugin ships an adaptor
// for. Empty means "unspecified" — the canvas still allows install (the
// raw-drop fallback surfaces a warning at install time). Runtime names
// use underscore form (e.g. "claude_code").
Runtimes []string `json:"runtimes"`
// SupportedOnRuntime is populated by ListInstalled/compatibility only.
// When a workspace changes runtime, plugins whose manifest doesn't
// declare the new runtime become inert (files present, tools unwired).
// The canvas reads this to grey out rows.
// Pointer so the field is omitted on endpoints that don't compute it.
SupportedOnRuntime *bool `json:"supported_on_runtime,omitempty"`
}
// supportsRuntime returns true if the plugin declares support for the given
// runtime OR if it declares no runtimes at all (treat as "unspecified, try it").
// Comparison is normalized — "claude-code" and "claude_code" are equal.
func (p pluginInfo) supportsRuntime(runtime string) bool {
if len(p.Runtimes) == 0 {
return true
}
want := strings.ReplaceAll(runtime, "-", "_")
for _, r := range p.Runtimes {
if strings.ReplaceAll(r, "-", "_") == want {
return true
}
}
return false
}
func (h *PluginsHandler) readPluginManifest(pluginPath, fallbackName string) pluginInfo {
data, err := os.ReadFile(filepath.Join(pluginPath, "plugin.yaml"))
if err != nil {
return pluginInfo{Name: fallbackName}
}
return parseManifestYAML(fallbackName, data)
}
// parseManifestYAML parses plugin.yaml bytes into pluginInfo.
func parseManifestYAML(fallbackName string, data []byte) pluginInfo {
info := pluginInfo{Name: fallbackName}
var raw map[string]interface{}
if yaml.Unmarshal(data, &raw) != nil {
return info
}
info.Version = strDefault(raw, "version", "")
info.Description = strDefault(raw, "description", "")
info.Author = strDefault(raw, "author", "")
if tags, ok := raw["tags"].([]interface{}); ok {
for _, t := range tags {
if s, ok := t.(string); ok {
info.Tags = append(info.Tags, s)
}
}
}
if skills, ok := raw["skills"].([]interface{}); ok {
for _, s := range skills {
if str, ok := s.(string); ok {
info.Skills = append(info.Skills, str)
}
}
}
if runtimes, ok := raw["runtimes"].([]interface{}); ok {
for _, r := range runtimes {
if str, ok := r.(string); ok {
info.Runtimes = append(info.Runtimes, str)
}
}
}
return info
}
func strDefault(m map[string]interface{}, key, fallback string) string {
if v, ok := m[key]; ok {
if s, ok := v.(string); ok {
return s
}
}
return fallback
}
func (h *PluginsHandler) findRunningContainer(ctx context.Context, workspaceID string) string {
if h.docker == nil {
return ""
}
name := provisioner.ContainerName(workspaceID)
info, err := h.docker.ContainerInspect(ctx, name)
if err == nil && info.State.Running {
return name
}
return ""
}
func (h *PluginsHandler) execAsRoot(ctx context.Context, containerName string, cmd []string) (string, error) {
return h.execInContainerAs(ctx, containerName, "root", cmd)
}
func (h *PluginsHandler) execInContainer(ctx context.Context, containerName string, cmd []string) (string, error) {
return h.execInContainerAs(ctx, containerName, "", cmd)
}
func (h *PluginsHandler) execInContainerAs(ctx context.Context, containerName, user string, cmd []string) (string, error) {
execCfg := container.ExecOptions{
Cmd: cmd,
AttachStdout: true,
AttachStderr: true,
User: user,
}
execID, err := h.docker.ContainerExecCreate(ctx, containerName, execCfg)
if err != nil {
return "", err
}
resp, err := h.docker.ContainerExecAttach(ctx, execID.ID, container.ExecAttachOptions{})
if err != nil {
return "", err
}
defer resp.Close()
var stdout bytes.Buffer
stdcopy.StdCopy(&stdout, io.Discard, resp.Reader)
return strings.TrimSpace(stdout.String()), nil
}
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