import { describe, expect, test } from "bun:test" import { promises as fs } from "fs" import path from "path" import os from "os" import { writeOpenCodeBundle } from "../src/targets/opencode" import { mergeJsonConfigAtKey } from "../src/utils/json-config" import type { OpenCodeBundle } from "../src/types/opencode" import { loadClaudePlugin } from "../src/parsers/claude" import { convertClaudeToOpenCode } from "../src/converters/claude-to-opencode" async function exists(filePath: string): Promise { try { await fs.access(filePath) return true } catch { return false } } const REPRODUCE_BUG_DESCRIPTION = "Systematically reproduce and investigate a bug from a GitHub issue. Use when the user provides a GitHub issue number or URL for a bug they want reproduced or investigated." const BUG_REPRODUCTION_VALIDATOR_DESCRIPTION = "Systematically reproduces and validates bug reports to confirm whether reported behavior is an actual bug. Use when you receive a bug report or issue that needs verification." function skillContent(name: string, description: string): string { return `---\nname: ${name}\ndescription: ${JSON.stringify(description)}\n---\n\n# ${name}\n` } function agentContent(name: string, description: string): string { return `---\nname: ${name}\ndescription: ${JSON.stringify(description)}\n---\n\nLegacy agent\n` } describe("writeOpenCodeBundle", () => { test("writes config, agents, plugins, and skills", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-test-")) const bundle: OpenCodeBundle = { pluginName: "compound-engineering", config: { $schema: "https://opencode.ai/config.json" }, agents: [{ name: "agent-one", content: "Agent content" }], plugins: [{ name: "hook.ts", content: "export {}" }], commandFiles: [], skillDirs: [ { name: "skill-one", sourceDir: path.join(import.meta.dir, "fixtures", "sample-plugin", "skills", "skill-one"), }, ], } await writeOpenCodeBundle(tempRoot, bundle) expect(await exists(path.join(tempRoot, "opencode.json"))).toBe(true) expect(await exists(path.join(tempRoot, ".opencode", "agents", "agent-one.md"))).toBe(true) expect(await exists(path.join(tempRoot, ".opencode", "plugins", "hook.ts"))).toBe(true) expect(await exists(path.join(tempRoot, ".opencode", "skills", "skill-one", "SKILL.md"))).toBe(true) expect(await exists(path.join(tempRoot, ".opencode", "compound-engineering", "install-manifest.json"))).toBe(true) }) test("writes directly into a .opencode output root", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-root-")) const outputRoot = path.join(tempRoot, ".opencode") const bundle: OpenCodeBundle = { config: { $schema: "https://opencode.ai/config.json" }, agents: [{ name: "agent-one", content: "Agent content" }], plugins: [], commandFiles: [], skillDirs: [ { name: "skill-one", sourceDir: path.join(import.meta.dir, "fixtures", "sample-plugin", "skills", "skill-one"), }, ], } await writeOpenCodeBundle(outputRoot, bundle) expect(await exists(path.join(outputRoot, "opencode.json"))).toBe(true) expect(await exists(path.join(outputRoot, "agents", "agent-one.md"))).toBe(true) expect(await exists(path.join(outputRoot, "skills", "skill-one", "SKILL.md"))).toBe(true) expect(await exists(path.join(outputRoot, ".opencode"))).toBe(false) }) test("writes directly into ~/.config/opencode style output root", async () => { // Simulates the global install path: ~/.config/opencode const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "config-opencode-")) const outputRoot = path.join(tempRoot, ".config", "opencode") const bundle: OpenCodeBundle = { config: { $schema: "https://opencode.ai/config.json" }, agents: [{ name: "agent-one", content: "Agent content" }], plugins: [], commandFiles: [], skillDirs: [ { name: "skill-one", sourceDir: path.join(import.meta.dir, "fixtures", "sample-plugin", "skills", "skill-one"), }, ], } await writeOpenCodeBundle(outputRoot, bundle) // Should write directly, not nested under .opencode expect(await exists(path.join(outputRoot, "opencode.json"))).toBe(true) expect(await exists(path.join(outputRoot, "agents", "agent-one.md"))).toBe(true) expect(await exists(path.join(outputRoot, "skills", "skill-one", "SKILL.md"))).toBe(true) expect(await exists(path.join(outputRoot, ".opencode"))).toBe(false) }) test("scope='global' forces flat layout for OPENCODE_CONFIG_DIR-style roots with non-conventional basenames", async () => { // Simulates OPENCODE_CONFIG_DIR pointing to a directory whose basename is // neither "opencode" nor ".opencode" (e.g. NixOS, Docker, custom XDG_CONFIG_HOME). const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-env-dir-")) const outputRoot = path.join(tempRoot, "custom-opencode-config") const bundle: OpenCodeBundle = { config: { $schema: "https://opencode.ai/config.json" }, agents: [{ name: "agent-one", content: "Agent content" }], plugins: [], commandFiles: [], skillDirs: [ { name: "skill-one", sourceDir: path.join(import.meta.dir, "fixtures", "sample-plugin", "skills", "skill-one"), }, ], } await writeOpenCodeBundle(outputRoot, bundle, "global") expect(await exists(path.join(outputRoot, "opencode.json"))).toBe(true) expect(await exists(path.join(outputRoot, "agents", "agent-one.md"))).toBe(true) expect(await exists(path.join(outputRoot, "skills", "skill-one", "SKILL.md"))).toBe(true) expect(await exists(path.join(outputRoot, ".opencode"))).toBe(false) }) test("merges plugin config into existing opencode.json without destroying user keys", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-backup-")) const outputRoot = path.join(tempRoot, ".opencode") const configPath = path.join(outputRoot, "opencode.json") // Create existing config with user keys await fs.mkdir(outputRoot, { recursive: true }) const originalConfig = { $schema: "https://opencode.ai/config.json", custom: "value" } await fs.writeFile(configPath, JSON.stringify(originalConfig, null, 2)) // Bundle adds mcp server but keeps user's custom key const bundle: OpenCodeBundle = { config: { $schema: "https://opencode.ai/config.json", mcp: { "plugin-server": { type: "local", command: "uvx", args: ["plugin-srv"] } } }, agents: [], plugins: [], commandFiles: [], skillDirs: [], } await writeOpenCodeBundle(outputRoot, bundle) // Merged config should have both user key and plugin key const newConfig = JSON.parse(await fs.readFile(configPath, "utf8")) expect(newConfig.custom).toBe("value") // user key preserved expect(newConfig.mcp).toBeDefined() expect(newConfig.mcp["plugin-server"]).toBeDefined() // Backup should exist with original content const files = await fs.readdir(outputRoot) const backupFileName = files.find((f) => f.startsWith("opencode.json.bak.")) expect(backupFileName).toBeDefined() const backupContent = JSON.parse(await fs.readFile(path.join(outputRoot, backupFileName!), "utf8")) expect(backupContent.custom).toBe("value") }) test("merges mcp servers without overwriting user entry", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-merge-mcp-")) const outputRoot = path.join(tempRoot, ".opencode") const configPath = path.join(outputRoot, "opencode.json") // Create existing config with user's mcp server await fs.mkdir(outputRoot, { recursive: true }) const existingConfig = { mcp: { "user-server": { type: "local", command: "uvx", args: ["user-srv"] } } } await fs.writeFile(configPath, JSON.stringify(existingConfig, null, 2)) // Bundle adds plugin server AND has conflicting user-server with different args const bundle: OpenCodeBundle = { config: { $schema: "https://opencode.ai/config.json", mcp: { "plugin-server": { type: "local", command: "uvx", args: ["plugin-srv"] }, "user-server": { type: "local", command: "uvx", args: ["plugin-override"] } // conflict } }, agents: [], plugins: [], commandFiles: [], skillDirs: [], } await writeOpenCodeBundle(outputRoot, bundle) // Merged config should have both servers, with user-server keeping user's original args const mergedConfig = JSON.parse(await fs.readFile(configPath, "utf8")) expect(mergedConfig.mcp).toBeDefined() expect(mergedConfig.mcp["plugin-server"]).toBeDefined() expect(mergedConfig.mcp["user-server"]).toBeDefined() expect(mergedConfig.mcp["user-server"].args[0]).toBe("user-srv") // user wins on conflict expect(mergedConfig.mcp["plugin-server"].args[0]).toBe("plugin-srv") // plugin entry present }) test("preserves unrelated user keys when merging opencode.json", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-preserve-")) const outputRoot = path.join(tempRoot, ".opencode") const configPath = path.join(outputRoot, "opencode.json") // Create existing config with multiple user keys await fs.mkdir(outputRoot, { recursive: true }) const existingConfig = { model: "my-model", theme: "dark", mcp: {} } await fs.writeFile(configPath, JSON.stringify(existingConfig, null, 2)) // Bundle adds plugin-specific keys const bundle: OpenCodeBundle = { config: { $schema: "https://opencode.ai/config.json", mcp: { "plugin-server": { type: "local", command: "uvx", args: ["plugin-srv"] } }, permission: { "bash": "allow" } }, agents: [], plugins: [], commandFiles: [], skillDirs: [], } await writeOpenCodeBundle(outputRoot, bundle) // All user keys preserved const mergedConfig = JSON.parse(await fs.readFile(configPath, "utf8")) expect(mergedConfig.model).toBe("my-model") expect(mergedConfig.theme).toBe("dark") expect(mergedConfig.mcp["plugin-server"]).toBeDefined() expect(mergedConfig.permission["bash"]).toBe("allow") }) test("writes command files as .md in commands/ directory", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-cmd-")) const outputRoot = path.join(tempRoot, ".config", "opencode") const bundle: OpenCodeBundle = { config: { $schema: "https://opencode.ai/config.json" }, agents: [], plugins: [], commandFiles: [{ name: "my-cmd", content: "---\ndescription: Test\n---\n\nDo something." }], skillDirs: [], } await writeOpenCodeBundle(outputRoot, bundle) const cmdPath = path.join(outputRoot, "commands", "my-cmd.md") expect(await exists(cmdPath)).toBe(true) const content = await fs.readFile(cmdPath, "utf8") expect(content).toBe("---\ndescription: Test\n---\n\nDo something.\n") }) test("rewrites FQ agent names in copied skill markdown (#477)", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-skill-transform-")) const skillSrcDir = path.join(tempRoot, "src-skill") const refsDir = path.join(skillSrcDir, "references") await fs.mkdir(refsDir, { recursive: true }) await fs.writeFile( path.join(skillSrcDir, "SKILL.md"), "---\nname: test-skill\n---\n\n- `compound-engineering:review:coherence-reviewer`\n" ) await fs.writeFile( path.join(refsDir, "agents.md"), "Use `compound-engineering:research:repo-research-analyst` for codebase analysis.\n" ) const outputRoot = path.join(tempRoot, ".opencode") const bundle: OpenCodeBundle = { config: { $schema: "https://opencode.ai/config.json" }, agents: [], plugins: [], commandFiles: [], skillDirs: [{ name: "test-skill", sourceDir: skillSrcDir }], } await writeOpenCodeBundle(outputRoot, bundle) const skillContent = await fs.readFile( path.join(outputRoot, "skills", "test-skill", "SKILL.md"), "utf8" ) expect(skillContent).toContain("`coherence-reviewer`") expect(skillContent).not.toContain("compound-engineering:review:coherence-reviewer") const refContent = await fs.readFile( path.join(outputRoot, "skills", "test-skill", "references", "agents.md"), "utf8" ) expect(refContent).toContain("`repo-research-analyst`") expect(refContent).not.toContain("compound-engineering:research:repo-research-analyst") }) test("does not transform non-markdown files in skill directories", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-skill-nonmd-")) const skillSrcDir = path.join(tempRoot, "src-skill") const scriptsDir = path.join(skillSrcDir, "scripts") await fs.mkdir(scriptsDir, { recursive: true }) await fs.writeFile( path.join(skillSrcDir, "SKILL.md"), "---\nname: test-skill\n---\n\nSkill body.\n" ) const scriptContent = "#!/bin/bash\n# compound-engineering:review:security-sentinel\necho done\n" await fs.writeFile(path.join(scriptsDir, "run.sh"), scriptContent) const outputRoot = path.join(tempRoot, ".opencode") const bundle: OpenCodeBundle = { config: { $schema: "https://opencode.ai/config.json" }, agents: [], plugins: [], commandFiles: [], skillDirs: [{ name: "test-skill", sourceDir: skillSrcDir }], } await writeOpenCodeBundle(outputRoot, bundle) const copiedScript = await fs.readFile( path.join(outputRoot, "skills", "test-skill", "scripts", "run.sh"), "utf8" ) // Non-markdown files should be copied verbatim — no FQ rewriting expect(copiedScript).toBe(scriptContent) }) test("backs up existing command .md file before overwriting", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-cmd-backup-")) const outputRoot = path.join(tempRoot, ".opencode") const commandsDir = path.join(outputRoot, "commands") const bundle: OpenCodeBundle = { pluginName: "compound-engineering", config: { $schema: "https://opencode.ai/config.json" }, agents: [], plugins: [], commandFiles: [{ name: "my-cmd", content: "---\ndescription: New\n---\n\nNew content." }], skillDirs: [], } // First install establishes ownership of my-cmd.md in the install // manifest -- an unowned pre-existing file would be preserved, not // backed up and overwritten. await writeOpenCodeBundle(outputRoot, bundle) const cmdPath = path.join(commandsDir, "my-cmd.md") // Simulate drift between two installs: same managed file, stale content. await fs.writeFile(cmdPath, "old content\n") await writeOpenCodeBundle(outputRoot, bundle) // New content should be written const content = await fs.readFile(cmdPath, "utf8") expect(content).toBe("---\ndescription: New\n---\n\nNew content.\n") // Backup should exist const files = await fs.readdir(commandsDir) const backupFileName = files.find((f) => f.startsWith("my-cmd.md.bak.")) expect(backupFileName).toBeDefined() const backupContent = await fs.readFile(path.join(commandsDir, backupFileName!), "utf8") expect(backupContent).toBe("old content\n") }) test("removes previously managed OpenCode artifacts that disappear on reinstall", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-managed-cleanup-")) const outputRoot = path.join(tempRoot, ".opencode") await writeOpenCodeBundle(outputRoot, { pluginName: "compound-engineering", config: { $schema: "https://opencode.ai/config.json" }, agents: [{ name: "old-agent", content: "Agent content" }], plugins: [{ name: "hook.ts", content: "export {}" }], commandFiles: [{ name: "old:cmd", content: "old" }], skillDirs: [ { name: "skill-one", sourceDir: path.join(import.meta.dir, "fixtures", "sample-plugin", "skills", "skill-one"), }, ], }) await writeOpenCodeBundle(outputRoot, { pluginName: "compound-engineering", config: { $schema: "https://opencode.ai/config.json" }, agents: [{ name: "new-agent", content: "Agent content" }], plugins: [], commandFiles: [{ name: "new:cmd", content: "new" }], skillDirs: [], }) expect(await exists(path.join(outputRoot, "agents", "old-agent.md"))).toBe(false) expect(await exists(path.join(outputRoot, "agents", "new-agent.md"))).toBe(true) expect(await exists(path.join(outputRoot, "plugins", "hook.ts"))).toBe(false) expect(await exists(path.join(outputRoot, "commands", "old", "cmd.md"))).toBe(false) expect(await exists(path.join(outputRoot, "commands", "new", "cmd.md"))).toBe(true) expect(await exists(path.join(outputRoot, "skills", "skill-one", "SKILL.md"))).toBe(false) }) test("namespaces managed install manifests per plugin so installs do not collide", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-multi-plugin-")) const outputRoot = path.join(tempRoot, ".opencode") // Install plugin A first, with a skill and an agent await writeOpenCodeBundle(outputRoot, { pluginName: "compound-engineering", config: { $schema: "https://opencode.ai/config.json" }, agents: [{ name: "ce-agent", content: "ce agent" }], plugins: [], commandFiles: [], skillDirs: [ { name: "ce-skill", sourceDir: path.join(import.meta.dir, "fixtures", "sample-plugin", "skills", "skill-one"), }, ], }) // Install plugin B into the same OpenCode root await writeOpenCodeBundle(outputRoot, { pluginName: "coding-tutor", config: { $schema: "https://opencode.ai/config.json" }, agents: [{ name: "tutor-agent", content: "tutor agent" }], plugins: [], commandFiles: [], skillDirs: [ { name: "tutor-skill", sourceDir: path.join(import.meta.dir, "fixtures", "sample-plugin", "skills", "skill-one"), }, ], }) // Both plugins must keep their own namespaced manifest expect(await exists(path.join(outputRoot, "compound-engineering", "install-manifest.json"))).toBe(true) expect(await exists(path.join(outputRoot, "coding-tutor", "install-manifest.json"))).toBe(true) // Reinstall plugin A with no agents/skills — it must clean up only its own // managed artifacts, leaving plugin B's intact (the bug the namespacing fix // addresses: a shared manifest path would have lost B's manifest after A was // installed, and a later A reinstall would skip B's stale-file cleanup). await writeOpenCodeBundle(outputRoot, { pluginName: "compound-engineering", config: { $schema: "https://opencode.ai/config.json" }, agents: [], plugins: [], commandFiles: [], skillDirs: [], }) expect(await exists(path.join(outputRoot, "agents", "ce-agent.md"))).toBe(false) expect(await exists(path.join(outputRoot, "skills", "ce-skill"))).toBe(false) expect(await exists(path.join(outputRoot, "agents", "tutor-agent.md"))).toBe(true) expect(await exists(path.join(outputRoot, "skills", "tutor-skill"))).toBe(true) expect(await exists(path.join(outputRoot, "coding-tutor", "install-manifest.json"))).toBe(true) }) test("moves legacy OpenCode CE artifacts to a namespaced backup", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-legacy-artifacts-")) const outputRoot = path.join(tempRoot, ".opencode") await fs.mkdir(path.join(outputRoot, "skills", "reproduce-bug"), { recursive: true }) await fs.writeFile(path.join(outputRoot, "skills", "reproduce-bug", "SKILL.md"), skillContent("reproduce-bug", REPRODUCE_BUG_DESCRIPTION)) await fs.mkdir(path.join(outputRoot, "agents"), { recursive: true }) await fs.writeFile(path.join(outputRoot, "agents", "bug-reproduction-validator.md"), agentContent("bug-reproduction-validator", BUG_REPRODUCTION_VALIDATOR_DESCRIPTION)) await fs.mkdir(path.join(outputRoot, "commands"), { recursive: true }) await fs.writeFile(path.join(outputRoot, "commands", "reproduce-bug.md"), "legacy removed command") await fs.writeFile(path.join(outputRoot, "commands", "report-bug.md"), "legacy deleted command") const plugin = await loadClaudePlugin(path.join(import.meta.dir, "..")) const bundle = convertClaudeToOpenCode(plugin, { agentMode: "subagent", inferTemperature: true, permissions: "none", }) await writeOpenCodeBundle(outputRoot, bundle) expect(await exists(path.join(outputRoot, "skills", "reproduce-bug"))).toBe(false) expect(await exists(path.join(outputRoot, "agents", "bug-reproduction-validator.md"))).toBe(false) expect(await exists(path.join(outputRoot, "commands", "reproduce-bug.md"))).toBe(false) expect(await exists(path.join(outputRoot, "commands", "report-bug.md"))).toBe(false) expect(await exists(path.join(outputRoot, "compound-engineering", "legacy-backup"))).toBe(true) }) test("preserves user-authored legacy-name OpenCode agents during install cleanup", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-legacy-agent-preserve-")) const outputRoot = path.join(tempRoot, ".opencode") const agentsRoot = path.join(outputRoot, "agents") await fs.mkdir(agentsRoot, { recursive: true }) const userAgent = agentContent("ce-repo-research-analyst", "Personal OpenCode research helper.") await fs.writeFile(path.join(agentsRoot, "ce-repo-research-analyst.md"), userAgent) const plugin = await loadClaudePlugin(path.join(import.meta.dir, "..")) const bundle = convertClaudeToOpenCode(plugin, { agentMode: "subagent", inferTemperature: true, permissions: "none", }) await writeOpenCodeBundle(outputRoot, bundle) expect(await exists(path.join(agentsRoot, "ce-repo-research-analyst.md"))).toBe(true) expect(await fs.readFile(path.join(agentsRoot, "ce-repo-research-analyst.md"), "utf8")).toBe(userAgent) }) test("upgrades from pre-namespacing legacy shared manifest for non-CE plugins", async () => { // Pre-namespacing, ALL plugins wrote their install manifest to the same // shared path: `/compound-engineering/install-manifest.json`. After // the namespacing fix, a plugin like `coding-tutor` reads from its own // scoped path (`/coding-tutor/install-manifest.json`), which does // not exist on the first reinstall after upgrade. Without a fallback, the // manifest resolves to null and the writer skips cleanup, leaving stale // files from the pre-namespacing install in place. This test exercises // the fallback read of the legacy shared manifest. const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-legacy-manifest-")) const outputRoot = path.join(tempRoot, ".opencode") // Seed the legacy shared manifest at the OLD path, recording artifacts // that the previous coding-tutor install placed in the root. await fs.mkdir(path.join(outputRoot, "compound-engineering"), { recursive: true }) await fs.writeFile( path.join(outputRoot, "compound-engineering", "install-manifest.json"), JSON.stringify({ version: 1, pluginName: "coding-tutor", groups: { agents: ["stale-tutor-agent.md"], commands: ["stale-tutor-cmd.md"], plugins: [], skills: ["stale-tutor-skill"], }, }), ) // Seed the stale artifacts on disk as they'd exist from the prior install. await fs.mkdir(path.join(outputRoot, "agents"), { recursive: true }) await fs.writeFile(path.join(outputRoot, "agents", "stale-tutor-agent.md"), "stale") await fs.mkdir(path.join(outputRoot, "commands"), { recursive: true }) await fs.writeFile(path.join(outputRoot, "commands", "stale-tutor-cmd.md"), "stale") await fs.mkdir(path.join(outputRoot, "skills", "stale-tutor-skill"), { recursive: true }) await fs.writeFile( path.join(outputRoot, "skills", "stale-tutor-skill", "SKILL.md"), "stale", ) // Reinstall coding-tutor with a new, non-overlapping set of artifacts. await writeOpenCodeBundle(outputRoot, { pluginName: "coding-tutor", config: { $schema: "https://opencode.ai/config.json" }, agents: [{ name: "fresh-tutor-agent", content: "fresh" }], plugins: [], commandFiles: [], skillDirs: [ { name: "fresh-tutor-skill", sourceDir: path.join(import.meta.dir, "fixtures", "sample-plugin", "skills", "skill-one"), }, ], }) // Stale artifacts from the legacy manifest must be cleaned up. expect(await exists(path.join(outputRoot, "agents", "stale-tutor-agent.md"))).toBe(false) expect(await exists(path.join(outputRoot, "commands", "stale-tutor-cmd.md"))).toBe(false) expect(await exists(path.join(outputRoot, "skills", "stale-tutor-skill"))).toBe(false) // Fresh artifacts must be written under the plugin-scoped manifest path. expect(await exists(path.join(outputRoot, "agents", "fresh-tutor-agent.md"))).toBe(true) expect(await exists(path.join(outputRoot, "skills", "fresh-tutor-skill", "SKILL.md"))).toBe(true) expect(await exists(path.join(outputRoot, "coding-tutor", "install-manifest.json"))).toBe(true) // The legacy shared manifest must be archived so it doesn't keep // misleading a future install (and must no longer exist at the old path). expect(await exists(path.join(outputRoot, "compound-engineering", "install-manifest.json"))).toBe(false) expect(await exists(path.join(outputRoot, "coding-tutor", "legacy-backup"))).toBe(true) }) test("leaves legacy shared manifest alone when it belongs to a different plugin", async () => { // Reinforces the cross-plugin safety: a legacy manifest owned by plugin // A must not be consumed or cleaned up by plugin B's first namespaced // install. Plugin A's own next install is responsible for migrating it. const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-legacy-other-plugin-")) const outputRoot = path.join(tempRoot, ".opencode") await fs.mkdir(path.join(outputRoot, "compound-engineering"), { recursive: true }) const legacyManifest = { version: 1, pluginName: "some-other-plugin", groups: { agents: ["other-plugin-agent.md"], commands: [], plugins: [], skills: [], }, } await fs.writeFile( path.join(outputRoot, "compound-engineering", "install-manifest.json"), JSON.stringify(legacyManifest), ) await fs.mkdir(path.join(outputRoot, "agents"), { recursive: true }) await fs.writeFile(path.join(outputRoot, "agents", "other-plugin-agent.md"), "other") await writeOpenCodeBundle(outputRoot, { pluginName: "coding-tutor", config: { $schema: "https://opencode.ai/config.json" }, agents: [{ name: "tutor-agent", content: "tutor" }], plugins: [], commandFiles: [], skillDirs: [], }) // Other plugin's artifact is left alone. expect(await exists(path.join(outputRoot, "agents", "other-plugin-agent.md"))).toBe(true) // Other plugin's legacy manifest is left at the legacy path. expect( await exists(path.join(outputRoot, "compound-engineering", "install-manifest.json")), ).toBe(true) const preserved = JSON.parse( await fs.readFile( path.join(outputRoot, "compound-engineering", "install-manifest.json"), "utf8", ), ) expect(preserved.pluginName).toBe("some-other-plugin") }) }) // Probed at module load (not beforeAll) because test.skipIf evaluates its // condition at registration time. Directory and file symlinks are probed // separately: on Windows without Developer Mode, junctions succeed while // file symlinks throw EPERM. async function probeSymlinkSupport(): Promise<{ canDirSymlink: boolean; canFileSymlink: boolean }> { const probeRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-symlink-probe-")) const probeTarget = path.join(probeRoot, "target") await fs.mkdir(probeTarget, { recursive: true }) let canDirSymlink = true try { await fs.symlink(probeTarget, path.join(probeRoot, "link"), "junction") } catch { canDirSymlink = false } const probeFile = path.join(probeRoot, "target.md") await fs.writeFile(probeFile, "probe") let canFileSymlink = true try { await fs.symlink(probeFile, path.join(probeRoot, "link.md")) } catch { canFileSymlink = false } return { canDirSymlink, canFileSymlink } } const { canDirSymlink, canFileSymlink } = await probeSymlinkSupport() describe("writeOpenCodeBundle preserves user-managed skill and command paths", () => { async function readInstallManifest(outputRoot: string): Promise<{ groups: Record }> { const raw = await fs.readFile( path.join(outputRoot, "compound-engineering", "install-manifest.json"), "utf8", ) return JSON.parse(raw) as { groups: Record } } test.skipIf(!canDirSymlink)( "preserves a symlinked skill directory and leaves its target content untouched", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-preserve-skill-symlink-")) const outputRoot = path.join(tempRoot, ".opencode") const forkDir = path.join(tempRoot, "user-fork", "skill-one") await fs.mkdir(forkDir, { recursive: true }) await fs.writeFile(path.join(forkDir, "SKILL.md"), "# user fork content\n") await fs.mkdir(path.join(outputRoot, "skills"), { recursive: true }) await fs.symlink(forkDir, path.join(outputRoot, "skills", "skill-one"), "junction") const bundle: OpenCodeBundle = { pluginName: "compound-engineering", config: { $schema: "https://opencode.ai/config.json" }, agents: [], plugins: [], commandFiles: [], skillDirs: [ { name: "skill-one", sourceDir: path.join(import.meta.dir, "fixtures", "sample-plugin", "skills", "skill-one"), }, ], } await writeOpenCodeBundle(outputRoot, bundle) const linkStat = await fs.lstat(path.join(outputRoot, "skills", "skill-one")) expect(linkStat.isSymbolicLink()).toBe(true) expect(await fs.readFile(path.join(forkDir, "SKILL.md"), "utf8")).toBe("# user fork content\n") const manifest = await readInstallManifest(outputRoot) expect(manifest.groups.skills).not.toContain("skill-one") }, ) test("preserves an unmanaged real skill directory (not previously owned by this tool)", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-preserve-skill-unmanaged-")) const outputRoot = path.join(tempRoot, ".opencode") await fs.mkdir(path.join(outputRoot, "skills", "skill-one"), { recursive: true }) await fs.writeFile( path.join(outputRoot, "skills", "skill-one", "SKILL.md"), "# hand-authored, never installed by this tool\n", ) const bundle: OpenCodeBundle = { pluginName: "compound-engineering", config: { $schema: "https://opencode.ai/config.json" }, agents: [], plugins: [], commandFiles: [], skillDirs: [ { name: "skill-one", sourceDir: path.join(import.meta.dir, "fixtures", "sample-plugin", "skills", "skill-one"), }, ], } await writeOpenCodeBundle(outputRoot, bundle) expect(await fs.readFile(path.join(outputRoot, "skills", "skill-one", "SKILL.md"), "utf8")).toBe( "# hand-authored, never installed by this tool\n", ) const manifest = await readInstallManifest(outputRoot) expect(manifest.groups.skills).not.toContain("skill-one") }) test("still replaces a real skill directory previously installed by this tool", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-replace-managed-skill-")) const outputRoot = path.join(tempRoot, ".opencode") const bundle: OpenCodeBundle = { pluginName: "compound-engineering", config: { $schema: "https://opencode.ai/config.json" }, agents: [], plugins: [], commandFiles: [], skillDirs: [ { name: "skill-one", sourceDir: path.join(import.meta.dir, "fixtures", "sample-plugin", "skills", "skill-one"), }, ], } await writeOpenCodeBundle(outputRoot, bundle) // Simulate drift between two installs: same managed dir, different upstream content. await fs.writeFile(path.join(outputRoot, "skills", "skill-one", "SKILL.md"), "stale managed content") await writeOpenCodeBundle(outputRoot, bundle) const content = await fs.readFile(path.join(outputRoot, "skills", "skill-one", "SKILL.md"), "utf8") expect(content).not.toBe("stale managed content") expect(content).toContain("Skill body") const manifest = await readInstallManifest(outputRoot) expect(manifest.groups.skills).toContain("skill-one") }) test.skipIf(!canDirSymlink)( "a preserved skill symlink survives a later install run where the skill is dropped from the bundle", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-preserve-skill-symlink-second-run-")) const outputRoot = path.join(tempRoot, ".opencode") const bundleWithSkill: OpenCodeBundle = { pluginName: "compound-engineering", config: { $schema: "https://opencode.ai/config.json" }, agents: [], plugins: [], commandFiles: [], skillDirs: [ { name: "skill-one", sourceDir: path.join(import.meta.dir, "fixtures", "sample-plugin", "skills", "skill-one"), }, ], } // First run: normal managed install, tracked in the manifest. await writeOpenCodeBundle(outputRoot, bundleWithSkill) const manifestAfterFirstRun = await readInstallManifest(outputRoot) expect(manifestAfterFirstRun.groups.skills).toContain("skill-one") // User swaps the managed directory for a symlink into a personal fork, // while the on-disk manifest from the first run still claims ownership. const forkDir = path.join(tempRoot, "user-fork", "skill-one") await fs.mkdir(forkDir, { recursive: true }) await fs.writeFile(path.join(forkDir, "SKILL.md"), "# user fork content\n") await fs.rm(path.join(outputRoot, "skills", "skill-one"), { recursive: true, force: true }) await fs.symlink(forkDir, path.join(outputRoot, "skills", "skill-one"), "junction") // Second run: the plugin drops the skill from the bundle entirely, which // exercises cleanupRemovedManagedDirectories against the stale manifest // entry. const bundleWithoutSkill: OpenCodeBundle = { pluginName: "compound-engineering", config: { $schema: "https://opencode.ai/config.json" }, agents: [], plugins: [], commandFiles: [], skillDirs: [], } await writeOpenCodeBundle(outputRoot, bundleWithoutSkill) const linkStat = await fs.lstat(path.join(outputRoot, "skills", "skill-one")) expect(linkStat.isSymbolicLink()).toBe(true) expect(await fs.readFile(path.join(forkDir, "SKILL.md"), "utf8")).toBe("# user fork content\n") const manifestAfterSecondRun = await readInstallManifest(outputRoot) expect(manifestAfterSecondRun.groups.skills).not.toContain("skill-one") }, ) test.skipIf(!canFileSymlink)( "preserves a symlinked agent file and leaves its target content untouched", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-preserve-agent-symlink-")) const outputRoot = path.join(tempRoot, ".opencode") const forkAgentPath = path.join(tempRoot, "user-fork-agent.md") await fs.writeFile(forkAgentPath, "# user fork agent content\n") await fs.mkdir(path.join(outputRoot, "agents"), { recursive: true }) await fs.symlink(forkAgentPath, path.join(outputRoot, "agents", "agent-one.md")) const bundle: OpenCodeBundle = { pluginName: "compound-engineering", config: { $schema: "https://opencode.ai/config.json" }, agents: [{ name: "agent-one", content: "Agent content" }], plugins: [], commandFiles: [], skillDirs: [], } await writeOpenCodeBundle(outputRoot, bundle) const linkStat = await fs.lstat(path.join(outputRoot, "agents", "agent-one.md")) expect(linkStat.isSymbolicLink()).toBe(true) expect(await fs.readFile(forkAgentPath, "utf8")).toBe("# user fork agent content\n") const manifest = await readInstallManifest(outputRoot) expect(manifest.groups.agents).not.toContain("agent-one.md") }, ) test.skipIf(!canFileSymlink)( "preserves a symlinked plugin file and leaves its target content untouched", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-preserve-plugin-symlink-")) const outputRoot = path.join(tempRoot, ".opencode") const forkPluginPath = path.join(tempRoot, "user-fork-plugin.ts") await fs.writeFile(forkPluginPath, "// user fork plugin content\n") await fs.mkdir(path.join(outputRoot, "plugins"), { recursive: true }) await fs.symlink(forkPluginPath, path.join(outputRoot, "plugins", "hook.ts")) const bundle: OpenCodeBundle = { pluginName: "compound-engineering", config: { $schema: "https://opencode.ai/config.json" }, agents: [], plugins: [{ name: "hook.ts", content: "export {}" }], commandFiles: [], skillDirs: [], } await writeOpenCodeBundle(outputRoot, bundle) const linkStat = await fs.lstat(path.join(outputRoot, "plugins", "hook.ts")) expect(linkStat.isSymbolicLink()).toBe(true) expect(await fs.readFile(forkPluginPath, "utf8")).toBe("// user fork plugin content\n") const manifest = await readInstallManifest(outputRoot) expect(manifest.groups.plugins).not.toContain("hook.ts") }, ) test.skipIf(!canFileSymlink)( "preserves a symlinked command file and leaves its target content untouched", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-preserve-command-symlink-")) const outputRoot = path.join(tempRoot, ".opencode") const forkCommandPath = path.join(tempRoot, "user-fork-command.md") await fs.writeFile(forkCommandPath, "# user fork command content\n") await fs.mkdir(path.join(outputRoot, "commands"), { recursive: true }) await fs.symlink(forkCommandPath, path.join(outputRoot, "commands", "my-cmd.md")) const bundle: OpenCodeBundle = { pluginName: "compound-engineering", config: { $schema: "https://opencode.ai/config.json" }, agents: [], plugins: [], commandFiles: [{ name: "my-cmd", content: "New content." }], skillDirs: [], } await writeOpenCodeBundle(outputRoot, bundle) const linkStat = await fs.lstat(path.join(outputRoot, "commands", "my-cmd.md")) expect(linkStat.isSymbolicLink()).toBe(true) expect(await fs.readFile(forkCommandPath, "utf8")).toBe("# user fork command content\n") // No stray backup should have been created either -- the guard must // fire before the pre-write backupFile call, not just before the write. const files = await fs.readdir(path.join(outputRoot, "commands")) expect(files.some((file) => file.startsWith("my-cmd.md.bak."))).toBe(false) const manifest = await readInstallManifest(outputRoot) expect(manifest.groups.commands).not.toContain("my-cmd.md") }, ) test.skipIf(!canDirSymlink)( "a legacy-named skill symlinked to a user fork is not swept into legacy-backup", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-preserve-legacy-skill-symlink-")) const outputRoot = path.join(tempRoot, ".opencode") // Worst case: the fork keeps the CE fingerprint (name + description), so // the readFile-based ownership check follows the symlink and matches. const forkDir = path.join(tempRoot, "user-fork", "reproduce-bug") await fs.mkdir(forkDir, { recursive: true }) const forkContent = skillContent("reproduce-bug", REPRODUCE_BUG_DESCRIPTION) await fs.writeFile(path.join(forkDir, "SKILL.md"), forkContent) await fs.mkdir(path.join(outputRoot, "skills"), { recursive: true }) await fs.symlink(forkDir, path.join(outputRoot, "skills", "reproduce-bug"), "junction") const plugin = await loadClaudePlugin(path.join(import.meta.dir, "..")) const bundle = convertClaudeToOpenCode(plugin, { agentMode: "subagent", inferTemperature: true, permissions: "none", }) await writeOpenCodeBundle(outputRoot, bundle) const linkStat = await fs.lstat(path.join(outputRoot, "skills", "reproduce-bug")) expect(linkStat.isSymbolicLink()).toBe(true) expect(await fs.readFile(path.join(forkDir, "SKILL.md"), "utf8")).toBe(forkContent) const legacyBackupRoot = path.join(outputRoot, "compound-engineering", "legacy-backup") if (await exists(legacyBackupRoot)) { for (const timestamp of await fs.readdir(legacyBackupRoot)) { const skillsBackup = path.join(legacyBackupRoot, timestamp, "skills") if (!(await exists(skillsBackup))) continue expect(await fs.readdir(skillsBackup)).not.toContain("reproduce-bug") } } }, ) }) describe("mergeJsonConfigAtKey", () => { test("incoming plugin entries overwrite same-named servers", async () => { const tempDir = await fs.mkdtemp(path.join(os.tmpdir(), "json-merge-")) const configPath = path.join(tempDir, "opencode.json") // User has an existing MCP server config const existingConfig = { model: "my-model", mcp: { "user-server": { type: "local", command: ["uvx", "user-srv"] }, }, } await fs.writeFile(configPath, JSON.stringify(existingConfig, null, 2)) // Plugin syncs its servers, overwriting same-named entries await mergeJsonConfigAtKey({ configPath, key: "mcp", incoming: { "plugin-server": { type: "local", command: ["uvx", "plugin-srv"] }, "user-server": { type: "local", command: ["uvx", "plugin-override"] }, }, }) const merged = JSON.parse(await fs.readFile(configPath, "utf8")) // User's top-level keys preserved expect(merged.model).toBe("my-model") // Plugin server added expect(merged.mcp["plugin-server"]).toBeDefined() // Plugin server overwrites same-named existing entry expect(merged.mcp["user-server"].command[1]).toBe("plugin-override") }) }) describe("writeOpenCodeBundle guards against ancestor-symlink traversal", () => { async function readInstallManifest(outputRoot: string): Promise<{ groups: Record }> { const raw = await fs.readFile(path.join(outputRoot, "compound-engineering", "install-manifest.json"), "utf8") return JSON.parse(raw) as { groups: Record } } test.skipIf(!canDirSymlink)( "does not write through a store dir that is itself a symlink into a user fork", async () => { const tempRoot = await fs.mkdtemp(path.join(os.tmpdir(), "opencode-ancestor-store-symlink-")) const outputRoot = path.join(tempRoot, ".opencode") const forkStore = path.join(tempRoot, "user-fork-store") await fs.mkdir(forkStore, { recursive: true }) await fs.writeFile(path.join(forkStore, "MARKER.md"), "# user store\n") await fs.mkdir(outputRoot, { recursive: true }) await fs.symlink(forkStore, path.join(outputRoot, "skills"), "junction") const bundle: OpenCodeBundle = { pluginName: "compound-engineering", config: { $schema: "https://opencode.ai/config.json" }, agents: [], plugins: [], commandFiles: [], skillDirs: [{ name: "skill-one", sourceDir: path.join(import.meta.dir, "fixtures", "sample-plugin", "skills", "skill-one") }], } await writeOpenCodeBundle(outputRoot, bundle) const linkStat = await fs.lstat(path.join(outputRoot, "skills")) expect(linkStat.isSymbolicLink()).toBe(true) expect(await exists(path.join(forkStore, "skill-one"))).toBe(false) expect(await fs.readFile(path.join(forkStore, "MARKER.md"), "utf8")).toBe("# user store\n") expect((await readInstallManifest(outputRoot)).groups.skills).not.toContain("skill-one") }, ) })