cdca784e6dfa87429bead21d00d7a9d7ad2fc2fd
7 Commits
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2c98c8e1e5 |
Fix sandbox git publishing and large workspace uploads (#8422)
## Thinking Path > - Paperclip is the open source app people use to manage AI agents for work > - Sandbox and SSH runtimes need to preserve agent work across isolated execution environments > - Git-backed workspaces were being copied mostly as filesystem archives, which breaks when `.git` points outside the mounted workspace and makes sandbox agents unable to publish their own branches > - Large ignored dependency trees could also be swept into the sandbox overlay, causing multi-GB transfers and max-string failures in some sandbox clients > - This pull request makes sandbox runtime setup use a git-backed HEAD sync plus a small dirty/untracked overlay, and bounds sandbox file transfers so large archives do not need one huge string > - The benefit is that sandbox agents can commit and push from a usable git checkout without uploading dependency trees such as `node_modules` ## Linked Issues or Issue Description Refs #8395 No public duplicate issue or PR was found after searches for `sandbox git workspace`, `git push sandbox`, and `node_modules sandbox upload`. Bug report: - What happened: sandbox-backed agent workspaces could receive a `.git` file that pointed at host-only git state, leaving the sandbox unable to run normal git workflows. The sandbox overlay upload could also include ignored dependency directories, creating very large transfers. - Expected behavior: sandbox and remote runtimes should prepare a usable git-backed workspace, copy only the necessary workspace overlay, and restore git history plus file changes without depending on a host-only `.git` path. - Steps to reproduce: 1. Run an agent in a sandbox-backed workspace whose local git checkout is a worktree. 2. Ask the agent to complete a GitHub workflow that requires commit/push access. 3. Observe that git operations can fail inside the sandbox, and ignored dependency trees can be uploaded as part of the workspace overlay. - Paperclip version or commit: reproduced against `master` before this PR, base `7aa212296eb1`. - Deployment mode: local dev / sandbox-backed runtime. - Installation method: built from source. - Agent adapters involved: local adapters using shared adapter-utils runtime preparation. - Database mode: not database-related. - Access context: agent runtime. - Local verification environment: Node.js v25.6.1, pnpm 9.15.4, macOS arm64. - Privacy checklist: all pasted output was reviewed for secrets, private hostnames, local usernames, and internal instance links. ## What Changed - Added a GitHub workflow push preflight so agent runs can detect missing push credentials when a workflow explicitly needs GitHub publishing. - Added shared git workspace sync helpers for shallow HEAD import/export and dirty/untracked overlay tracking. - Updated sandbox managed runtime setup to use git history plus a selected overlay instead of uploading the full local workspace for git-backed workspaces. - Bounded sandbox archive upload/download paths so large payloads stream or chunk instead of materializing one oversized string. - Excluded `.git` and ignored dependency trees from sandbox upload, download, and restore baselines while preserving local ignored directories during sync-back. - Added focused tests for git workspace sync, sandbox overlay selection, transfer chunking, and heartbeat push-preflight behavior. ## Verification - `pnpm exec vitest run packages/adapter-utils/src/git-workspace-sync.test.ts packages/adapter-utils/src/sandbox-managed-runtime.test.ts packages/adapter-utils/src/command-managed-runtime.test.ts server/src/__tests__/heartbeat-project-env.test.ts server/src/__tests__/heartbeat-workspace-session.test.ts` - `pnpm --filter @paperclipai/adapter-utils typecheck` - `pnpm --filter @paperclipai/server typecheck` - `pnpm build` - Public-hygiene scan of the PR diff and commit messages for internal issue ids, local paths, private hostnames, and obvious token patterns. ## Risks - Medium risk: this changes sandbox runtime synchronization semantics for git-backed workspaces, especially around dirty tracked files, untracked files, deleted paths, and ignored files. - The main mitigation is focused test coverage for upload contents, restore exclusions, and git round-trip behavior. - The SSH runtime keeps the current bundle-based implementation from `master`; this PR only aligns shared excludes and sandbox behavior with that model. ## Model Used OpenAI Codex, GPT-5-based coding agent, tool-enabled shell/git/GitHub workflow, with code execution and repository inspection. ## Checklist - [x] I have included a thinking path that traces from project context to this change - [x] I have specified the model used (with version and capability details) - [x] I have checked ROADMAP.md and confirmed this PR does not duplicate planned core work - [x] I have searched GitHub for duplicate or related PRs and linked them above - [x] I have either (a) linked existing issues with `Fixes: #` / `Closes #` / `Refs #` OR (b) described the issue in-PR following the relevant issue template - [x] I have not referenced internal/instance-local Paperclip issues or links (only public GitHub `#NNN` / `github.com/paperclipai/paperclip` URLs) - [x] My branch name describes the change (e.g. `docs/...`, `fix/...`) and contains no internal Paperclip ticket id or instance-derived details - [x] I have run tests locally and they pass - [x] I have added or updated tests where applicable - [x] If this change affects the UI, I have included before/after screenshots - [x] I have updated relevant documentation to reflect my changes - [x] I have considered and documented any risks above - [x] All Paperclip CI gates are green - [ ] Greptile is 5/5 with no open P2s, recommendations, or follow-ups - [x] I will address all Greptile and reviewer comments before requesting merge --------- Co-authored-by: Paperclip <noreply@paperclip.ing> |
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07e98d2b2c |
feat(adapter-utils): add observable sandbox sync progress (#8395)
## Thinking Path > - Paperclip is the control plane for running AI-agent companies, so long-running remote work needs to stay observable to human operators. > - Cloud / sandbox agents are an active roadmap area, and their workspace sync path is part of the runtime substrate every remote coding run depends on. > - In the sandbox and SSH execution-target flows, Paperclip logged that sync had started, then often went silent for the full transfer window. > - That made large remote syncs feel stalled and also hid a real performance problem in the command-managed sandbox upload path. > - The first part of this pull request threads a throttled progress-reporting surface through the adapter execution-target stack so sync and restore work can emit meaningful updates. > - The second part fixes the command-managed sandbox transport itself: it removes the old serial 32KB append bottleneck, but also falls back away from the single-stream path when a provider-backed sandbox runner cannot surface mid-flight stdin progress. > - The result is that sandbox and SSH transfers are both faster and more observable, including the live Daytona-style sandbox case that previously only emitted `0%` and `100%`. ## Linked Issues or Issue Description No public GitHub issue exists for this bug, so it is described inline below following the bug report template. ### What happened - Remote sandbox and SSH workspace syncs could spend a long time transferring data while only logging a start line (`Syncing workspace and runtime assets to sandbox environment`) and, at best, a terminal line. - In the command-managed sandbox path, the original upload implementation also paid a large performance cost by appending base64 data in many small sequential remote writes (thousands of serial 32KB round-trips on a large workspace). - After the initial transport rewrite, live provider-backed sandbox runs still only emitted `0%` and `100%` because the single-stream stdin RPC buffered progress until completion. ### Expected behavior - Long-running sandbox and SSH syncs should periodically report how much of the transfer is complete (a percentage and/or MB transferred) so an operator can tell the run is healthy and making progress rather than stuck. - The main sandbox upload path should not be artificially slow. - A transfer that fails partway should leave an explicit failure marker in the log rather than a dangling intermediate percentage. ### Steps to reproduce 1. Run an agent against a sandbox (command-managed) or SSH (remote-managed) execution target with a non-trivial workspace. 2. Watch the run log during the workspace/runtime asset sync phase. 3. Observe that the log shows the sync start line and then stays silent for the full transfer (live provider-backed sandbox runs only show `0%` then `100%`). ### Paperclip version or commit - Branch `PAPA-825-provide-status-updates-when-syncing-sandboxes` off `master`. ### Deployment mode - Self-hosted / local instance using sandbox (command-managed) and SSH (remote-managed) execution targets, including provider-backed sandbox runners. ## What Changed - Added shared throttled runtime progress reporting and threaded `onProgress` through the adapter execution-target surface and adapter `execute.ts` entrypoints. - Added sync and restore progress reporting for the command-managed sandbox path and the SSH/remote-managed path, including git import/export progress where totals are known. - Reworked command-managed sandbox transfer behavior so uploads use the faster single-stream path when appropriate, but fall back to chunked progress-emitting writes when the runner cannot expose mid-stream stdin progress. - Marked provider-backed environment sandbox runners as not supporting single-stream stdin progress so live sandbox runs emit meaningful intermediate updates instead of only `0%` and `100%`. - Emit an explicit terminal failure marker (`failed at NN% (x/y MB)`) when an SSH/tar transfer rejects, so a failed sync no longer leaves a dangling intermediate percentage in the log. - Run the SSH sync/restore size estimate (local directory walk / remote `du` probe) concurrently with the transfer instead of awaiting it before opening the pipe, so progress instrumentation no longer adds startup latency proportional to workspace file count. - Added and extended focused regression coverage for runtime progress throttling and the new failure marker, command-managed sandbox transfers, sandbox orchestration, SSH transfer progress, and environment execution-target wiring. ## Verification - `pnpm exec vitest run packages/adapter-utils/src/runtime-progress.test.ts packages/adapter-utils/src/ssh-fixture.test.ts packages/adapter-utils/src/command-managed-runtime.test.ts packages/adapter-utils/src/sandbox-managed-runtime.test.ts` - `pnpm exec vitest run packages/adapter-utils/src/command-managed-runtime.test.ts server/src/__tests__/environment-execution-target.test.ts` - `npx tsc --noEmit` for `packages/adapter-utils` ## Risks - The provider-backed sandbox fallback now prefers chunked command-managed writes when progress hooks are active, so small-to-medium uploads may trade some raw throughput for observable intermediate progress on runtimes that cannot surface true mid-stream stdin progress. - Progress percentages on tar-based transfers still depend on estimates in some cases, so operators may briefly see MB-only lines before the estimate resolves, then near-final clamping before the terminal `100%` line. - This PR changes shared execution-target behavior used by multiple adapters, so regressions would most likely appear in remote runtime setup/teardown flows rather than in a single adapter. ## Model Used - Initial implementation: OpenAI GPT-5.4 via Codex local agent (`codex_local`), high reasoning mode. - Observability follow-ups (failure marker, concurrent size estimate, added tests): Claude Opus 4.8 via Claude Code (`claude_local`). ## Checklist - [x] I have included a thinking path that traces from project context to this change - [x] I have specified the model used (with version and capability details) - [x] I have checked ROADMAP.md and confirmed this PR does not duplicate planned core work - [x] I have searched GitHub for duplicate or related PRs and linked them above - [x] I have either (a) linked existing issues with `Fixes: #` / `Closes #` / `Refs #` OR (b) described the issue in-PR following the relevant issue template - [x] I have not referenced internal/instance-local Paperclip issues or links (only public GitHub `#NNN` / `github.com/paperclipai/paperclip` URLs) - [x] I have run tests locally and they pass - [x] I have added or updated tests where applicable - [ ] If this change affects the UI, I have included before/after screenshots - [ ] I have updated relevant documentation to reflect my changes - [x] I have considered and documented any risks above - [ ] All Paperclip CI gates are green - [ ] Greptile is 5/5 with no open P2s, recommendations, or follow-ups - [ ] I will address all Greptile and reviewer comments before requesting merge --------- Co-authored-by: Paperclip <noreply@paperclip.ing> |
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486fb88a15 |
Add Cloudflare sandbox provider plugin (#5687)
> _Stacked on top of #5685 → #5686. Diff against master includes commits from earlier PRs in the stack — review focuses on the two new commits (`Extend sandbox callback bridge for Worker-hosted plugins` + `Add Cloudflare sandbox provider plugin`)._ ## Thinking Path > - Paperclip orchestrates AI agents for zero-human companies > - Each agent runs in a sandbox environment, and operators choose which provider backs that sandbox — today E2B and Daytona are bundled with the platform > - Cloudflare Workers + Durable Objects + the Sandbox SDK offer a credible new option: globally distributed, cheap idle, and operator-deployable as a single Worker > - To plug it in, Paperclip needs (a) a provider plugin that speaks the `PaperclipPluginManifestV1` lifecycle and (b) a small operator-deployed Worker — the **bridge** — that adapts Paperclip's runtime RPCs to the Cloudflare Sandbox SDK > - The plugin extends the existing sandbox-callback-bridge with a `bridge.transport: "worker"` discriminator so the platform routes runtime RPCs through the Worker bridge instead of the in-process runner > - This pull request adds the plugin, the bridge Worker template, and the supporting adapter-utils + server hooks the new transport needs > - The benefit is that operators can run sandboxes on Cloudflare's edge with no new platform code beyond installing the plugin and deploying the Worker ## What Changed **Shared support (`Extend sandbox callback bridge for Worker-hosted plugins`):** - `packages/adapter-utils/src/sandbox-callback-bridge.{ts,test.ts}`: expose `expectedHostHeader` so plugin-side bridge clients can verify the canonical request envelope before forwarding. - `packages/adapter-utils/src/command-managed-runtime.{ts,test.ts}`: relax the always-fresh runner construction so callers can re-use a runner across exec calls (Worker-hosted bridges hold the runner inside a Durable Object). - `server/src/services/environment-runtime.ts` + `environment-runtime.test.ts`: route Worker-hosted bridges through the same env-shaping path as E2B and pin the `requestEnv` contract. - `server/src/services/plugin-environment-driver.ts`: thread an optional `issueId` through the runtime descriptor so bridges can scope leases to the originating issue (used by Cloudflare to map a sandbox to the issue/workflow for billing and audit). - `packages/plugins/sdk/src/protocol.ts`: add `issueId?` to `PluginEnvironmentDriverBaseParams` and the new `bridge.transport: "worker"` discriminator that the new plugin declares. - `server/__tests__/heartbeat-plugin-environment.test.ts`: pin the heartbeat path against the new runtime descriptor. **The Cloudflare plugin itself (`Add Cloudflare sandbox provider plugin`):** - `packages/plugins/sandbox-providers/cloudflare/`: plugin entry, manifest, plugin runtime (lifecycle + bridge client), config parsing, and Vitest coverage. Manifest declares `bridge.transport: "worker"` so the platform routes runtime RPCs through the bridge client. - `bridge-template/`: a Worker template the operator deploys with `wrangler`. Owns Durable Object-backed sessions (`sessions.ts`), exec/stream routes (`exec.ts`, `routes.ts`), and an HMAC auth layer (`auth.ts`) that pins the `Host` header surface. Includes the SDK-contract-correct exec implementation, lease recovery, and chunked stdout/stderr streaming. - Tests cover lease/session handoff (`bridge-template/src/exec.test.ts`, `routes.test.ts`), bridge client request shaping (`src/bridge-client.test.ts`), and end-to-end plugin behavior (`src/plugin.test.ts`) including streamed exec output. 27 tests in total. - `README.md` walks the operator through deploying the bridge Worker, registering the plugin, and configuring the runtime. ## Verification - `pnpm typecheck` - `pnpm exec vitest run --no-coverage packages/adapter-utils/src/sandbox-callback-bridge.test.ts packages/adapter-utils/src/command-managed-runtime.test.ts server/src/__tests__/environment-runtime.test.ts server/src/__tests__/heartbeat-plugin-environment.test.ts` - `(cd packages/plugins/sandbox-providers/cloudflare && pnpm test)` — 27 passing For an operator-side smoke test: 1. Deploy the bridge: `cd packages/plugins/sandbox-providers/cloudflare/bridge-template && wrangler deploy` 2. Register the plugin in your Paperclip instance, point its bridge URL at the deployed Worker, set the HMAC shared secret. 3. Create a sandbox environment whose provider is `cloudflare`, then run a Codex or Claude job against it. ## Risks - Adds a new `bridge.transport: "worker"` code path, but the existing E2B / Daytona transports go through the same shaped helpers and have explicit test coverage that pins their behavior unchanged. - The Worker bridge stores session state in a Durable Object; operator instances must be aware of the corresponding Cloudflare costs (DO requests, storage). Documented in the README. - The `issueId` plumbing is optional throughout — existing plugins that don't supply it continue to work. ## Model Used - Provider: Anthropic - Model: Claude Opus 4.7 (1M context) - Capabilities used: extended reasoning, tool use (Read/Edit/Bash/Grep) ## Checklist - [x] I have included a thinking path that traces from project context to this change - [x] I have specified the model used (with version and capability details) - [x] I have checked ROADMAP.md and confirmed this PR does not duplicate planned core work - [x] I have run tests locally and they pass - [x] I have added or updated tests where applicable - [ ] If this change affects the UI, I have included before/after screenshots — N/A, no UI change - [x] I have updated relevant documentation to reflect my changes (plugin README, bridge-template README) - [x] I have considered and documented any risks above - [x] I will address all Greptile and reviewer comments before requesting merge --------- Co-authored-by: Paperclip <noreply@paperclip.ing> |
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778e775c35 |
Add secrets provider vaults and remote import (#5429)
## Thinking Path > - Paperclip orchestrates AI-agent companies and needs secrets handling to work across local development, hosted operators, and governed agent execution. > - The affected subsystem is the company-scoped secrets control plane: database schema, server services/routes, CLI workflows, and the Secrets settings UI. > - The gap was that secrets were local-only and operators could not manage provider vaults or import existing remote references without exposing plaintext. > - This branch adds provider vault configuration plus an AWS Secrets Manager remote-import path while preserving company boundaries, binding context, and audit trails. > - I kept the PR to a single branch PR, removed unrelated lockfile/package drift, rebased the full branch onto the current `public-gh/master`, and addressed fresh Greptile findings. > - The benefit is a reviewable implementation of provider-backed secrets with focused tests covering provider selection, import conflicts, deleted secret reuse, rotation guards, and AWS signing behavior. ## What Changed - Added provider vault support for company secrets, including provider config storage, default vault handling, health checks, binding usage, access events, and remote import preview/commit. - Added an AWS Secrets Manager provider using SigV4 request signing, bounded request timeouts, namespace guardrails, cached runtime credential resolution, and external-reference linking without plaintext reads. - Added Secrets UI surfaces for vault management and remote import, plus CLI/API documentation for setup and operations. - Stabilized routine webhook secret binding paths and SSH environment-driver fixture bindings discovered during verification. - Addressed Greptile and CI findings: no lockfile/package drift, monotonic migration metadata, disabled-vault default races, soft-deleted secret hiding/recreate behavior, remove behavior with disabled vaults, soft-deleted external-reference re-import, non-active rotation guards, managed-secret soft deletion through PATCH, and per-call AWS SDK credential client churn. - Rebased this branch onto `public-gh/master` at `0e1a5828` and force-pushed with lease to keep this as the single PR for the branch. ## Verification - `git fetch public-gh master` - `git rebase public-gh/master` - `git diff --name-only public-gh/master...HEAD | grep '^pnpm-lock\.yaml$' || true` confirmed `pnpm-lock.yaml` is not in the PR diff. - Confirmed migration ordering: master ends at `0081_optimal_dormammu`; this PR adds `0082_dry_vision` and `0083_company_secret_provider_configs`. - Inspected migrations for repeat safety: new tables/indexes use `IF NOT EXISTS`; foreign keys are guarded by `DO $$ ... IF NOT EXISTS`; column additions use `ADD COLUMN IF NOT EXISTS`. - `pnpm -r typecheck` passed before the Greptile follow-up commits. - `pnpm test:run` ran the full stable Vitest path before the Greptile follow-up commits; it completed with 3 timing-related failures under parallel load: `codex-local-execute.test.ts`, `cursor-local-execute.test.ts`, and `environment-service.test.ts`. - `pnpm --filter @paperclipai/server exec vitest run src/__tests__/codex-local-execute.test.ts src/__tests__/cursor-local-execute.test.ts src/__tests__/environment-service.test.ts` passed on targeted rerun (`24/24`). - `pnpm build` passed before the Greptile follow-up commits. Vite reported existing chunk-size/dynamic-import warnings. - After Greptile follow-up commits: `pnpm --filter @paperclipai/server exec vitest run src/__tests__/secrets-service.test.ts` passed (`26/26`). - After Greptile follow-up commits: `pnpm --filter @paperclipai/server exec vitest run src/__tests__/aws-secrets-manager-provider.test.ts src/__tests__/secrets-service.test.ts` passed (`39/39`). - After Greptile follow-up commits: `pnpm --filter @paperclipai/server typecheck` passed. - Captured Storybook screenshots from `ui/storybook-static` for visual review. - Latest PR checks on `5ca3a5cf`: `policy`, serialized server suites 1/4-4/4, `Canary Dry Run`, `e2e`, `security/snyk`, and `Greptile Review` pass; aggregate `verify` is still registering the completed child checks. - Greptile review loop continued through the latest requested pass; all Greptile review threads are resolved and the latest `Greptile Review` check on `5ca3a5cf` passed with 0 comments added. ## Screenshots Before: the provider-vault and remote-import surfaces did not exist on `master`; these are after-state screenshots from the Storybook fixtures.    ## Risks - Migration risk: this adds new secret provider tables and extends existing secret rows. The migrations were checked for monotonic ordering and idempotent guards, but reviewers should still inspect upgrade behavior carefully. - Provider risk: AWS support uses direct SigV4 requests. Automated tests cover signing, request timeouts, vault-config selection, namespace guardrails, pending-version archival, sanitized provider errors, and service-level cleanup paths. A real-vault AWS smoke test remains deployment validation for an operator with AWS credentials rather than an unverified merge blocker in this local branch. - UI risk: the Secrets page and import dialog are large new surfaces; screenshots are included above for reviewer inspection. - Verification risk: the full local stable test command hit parallel-load timing failures, although the exact failed files passed when rerun directly. - Operational risk: remote import intentionally avoids plaintext reads; operators must understand that imported external references resolve at runtime and may fail if AWS permissions change. > For core feature work, check [`ROADMAP.md`](ROADMAP.md) first and discuss it in `#dev` before opening the PR. Feature PRs that overlap with planned core work may need to be redirected — check the roadmap first. See `CONTRIBUTING.md`. ## Model Used - OpenAI Codex, GPT-5 coding agent with local shell/tool use in the Paperclip worktree. Exact context-window size was not exposed by the runtime. ## Checklist - [x] I have included a thinking path that traces from project context to this change - [x] I have specified the model used (with version and capability details) - [x] I have checked ROADMAP.md and confirmed this PR does not duplicate planned core work - [ ] I have run tests locally and they pass - [x] I have added or updated tests where applicable - [x] If this change affects the UI, I have included before/after screenshots - [x] I have updated relevant documentation to reflect my changes - [x] I have considered and documented any risks above - [x] I will address all Greptile and reviewer comments before requesting merge --------- Co-authored-by: Paperclip <noreply@paperclip.ing> Co-authored-by: Claude Sonnet 4.6 <noreply@anthropic.com> |
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fe3904f434 |
Stabilize runtime probes and Codex env tests (#5445)
## Thinking Path
> - Paperclip orchestrates AI agents for zero-human companies
> - Adapters expose a Test action that probes the configured runtime —
install, resolvability, hello — to give operators a fast yes/no on
whether an environment is healthy
> - The Codex test path was running its hello probe directly without
going through the managed-runtime preparation that production runs use,
so a healthy production setup could still report a probe failure
> - The plugin worker manager wasn't surfacing terminated workers
cleanly, leaving the runtime probe waiting on a dead worker until the
request timed out
> - This pull request routes the Codex test probe through
`prepareAdapterExecutionTargetRuntime` (so it sees the same managed
Codex home production sees), exposes `commandCwd` on
`createCommandManagedRuntimeClient` so callers can target a per-probe
directory without leaking the workspace `remoteCwd`, and propagates
plugin-worker termination as a usable error instead of a hang
> - The benefit is the Codex Test action mirrors production behavior
end-to-end, and probes against a terminated plugin worker fail fast
instead of timing out
## What Changed
- `packages/adapter-utils/src/command-managed-runtime.ts`: rename the
`remoteCwd` knob to `commandCwd` so callers can target a per-probe
directory without inheriting the workspace cwd; matching test coverage
in `command-managed-runtime.test.ts`
- `packages/adapter-utils/src/sandbox-callback-bridge.{ts,test.ts}`:
small fixes to keep callback bridge stop semantics deterministic
- `packages/adapters/codex-local/src/server/test.ts`: thread the Codex
hello probe through `prepareAdapterExecutionTargetRuntime` +
`prepareManagedCodexHome` so the probe sees the same managed home
production sees; new `test.remote.test.ts` covers the remote probe path
- `packages/adapters/cursor-local/src/server/execute.ts`: small
probe-side cleanup that aligns with the new commandCwd contract
- `server/src/services/plugin-worker-manager.ts`: surface plugin-worker
termination as a structured error so callers fail fast; new
`plugin-worker-terminated.cjs` fixture and
`plugin-worker-manager.test.ts` cases pin the behavior
## Verification
- `pnpm vitest run --no-coverage --project @paperclipai/adapter-utils
--project @paperclipai/adapter-codex-local --project
@paperclipai/adapter-cursor-local --project @paperclipai/server` —
1749/1750 passing (1 unrelated skip)
- `pnpm typecheck` clean
## Risks
Low–medium. The `remoteCwd → commandCwd` rename is a parameter renaming
on an internal helper used only by adapter test/execute paths in this
repo. The plugin-worker-terminated path was previously a hang; failing
fast may surface latent timeouts as explicit termination errors in
callers that already expected them.
## Model Used
Claude Opus 4.7 (1M context)
## Checklist
- [x] I have included a thinking path that traces from project context
to this change
- [x] I have specified the model used (with version and capability
details)
- [x] I have checked ROADMAP.md and confirmed this PR does not duplicate
planned core work
- [x] I have run tests locally and they pass
- [x] I have added or updated tests where applicable — new tests cover
commandCwd, plugin-worker termination, and Codex remote test path
- [x] If this change affects the UI, I have included before/after
screenshots — N/A (no UI)
- [x] I have updated relevant documentation to reflect my changes
- [x] I have considered and documented any risks above
- [x] I will address all Greptile and reviewer comments before
requesting merge
---
> **Stacked PR.** Sits on top of #5444 which adds the per-run runtime
API surface this PR builds on. Cumulative diff against `master` includes
that PR's content; the files touched by *this* PR's commit are listed
under "What Changed" above. Will rebase onto `master` and force-push
once #5444 merges.
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a7b45938b7 |
Let sandbox providers declare shell defaults (#5114)
## Thinking Path
> - Paperclip orchestrates AI agents for zero-human companies
> - Agents execute in sandboxed remote environments served by pluggable
sandbox
> providers (E2B today, more later)
> - Today every sandbox command runs under `sh -lc` regardless of what
the
> provider's container actually ships
> - That misses bash-only shell init on E2B (which ships bash) and
prevents
> future providers from declaring a different default — there's no way
for a
> provider to say "I have bash, use it"
> - This PR adds a `shellCommand` field to sandbox execution targets so
providers
> can declare their preferred shell ("bash" for E2B), threads it through
the
> sandbox-managed-runtime client, callback bridge, and execution-target
shell
> helper, and validates the value at the lease-metadata boundary
> - The benefit is that sandbox commands run under the right shell on
the right
> provider, and adding new sandbox providers only needs to declare a
shell
> preference
## What Changed
- Added `packages/adapter-utils/src/sandbox-shell.ts` exporting
`preferredShellForSandbox(shellCommand)` (returns `"bash"` if input is
`"bash"`,
else `"sh"`)
- Added `shellCommand?: "bash" | "sh" | null` to
`AdapterSandboxExecutionTarget`
and `CommandManagedRuntimeSpec`; threaded it through
`runAdapterExecutionTargetShellCommand`,
`prepareAdapterExecutionTargetRuntime`,
and `startAdapterExecutionTargetPaperclipBridge`
- `createCommandManagedRuntimeClient`, `prepareCommandManagedRuntime`,
and
`createCommandManagedSandboxCallbackBridgeQueueClient` now take an
optional
`shellCommand` and use `preferredShellForSandbox` to pick the shell
- `startSandboxCallbackBridgeServer` accepts a `shellCommand` for its
server
startup, readiness probe, and stop hook
- E2B sandbox plugin declares `shellCommand: "bash"` in `leaseMetadata`
- `resolveEnvironmentExecutionTarget` reads `shellCommand` from lease
metadata
(validating against `"bash" | "sh" | null`)
- `environment-runtime.ts` adds `"shellCommand"` to
`INTERNAL_PLUGIN_SANDBOX_CONFIG_KEYS`
so the field round-trips through internal plugin config without leaking
to
external plugin metadata
- Updated tests in `command-managed-runtime.test.ts`,
`execution-target-sandbox.test.ts`, `sandbox-callback-bridge.test.ts`,
`environment-execution-target.test.ts`
## Verification
- `pnpm --filter @paperclipai/adapter-utils test`
- `pnpm --filter @paperclipai/server test --
environment-execution-target`
- `pnpm --filter @paperclipai/sandbox-providers-e2b test`
- Manual QA: boot a Paperclip instance, create an E2B-backed
environment, run a
claude_local agent against it, and confirm the run completes (verifies
bash
shell semantics flow through the callback bridge end-to-end)
## Risks
- E2B sandbox commands now run under `bash -lc` instead of `sh -lc`.
Bash is a
strict superset for the commands we issue (no busybox-only flags in our
shell
scripts), so risk is low. The shellCommand field is opt-in via lease
metadata —
providers that don't declare it stay on `sh`.
- New optional field on `CommandManagedRuntimeSpec` and
`AdapterSandboxExecutionTarget`.
Consumers ignoring the field retain previous behaviour (sh).
- Lease metadata now carries an additional field. Existing leases
without
`shellCommand` resolve to `null` and fall back to sh — backwards
compatible.
## Model Used
- OpenAI GPT-5.4 (reasoning effort: high) via Codex CLI
- Provider: OpenAI
- Used to author the code changes in this PR
## Checklist
- [x] I have included a thinking path that traces from project context
to this change
- [x] I have specified the model used (with version and capability
details)
- [x] I have checked ROADMAP.md and confirmed this PR does not duplicate
planned core work
- [x] I have run tests locally and they pass
- [x] I have added or updated tests where applicable
- [ ] If this change affects the UI, I have included before/after
screenshots — N/A (no UI changes)
- [ ] I have updated relevant documentation to reflect my changes — N/A
- [x] I have considered and documented any risks above
- [x] I will address all Greptile and reviewer comments before
requesting merge
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a4ac6ff133 |
Add sandbox callback bridge for remote environment API access (#4801)
## Thinking Path > - Paperclip orchestrates AI agents for zero-human companies > - Agents can run inside sandboxed environments like E2B, which are isolated from the host network > - Sandboxed agents need to call back to the Paperclip API to report progress, post comments, and update issue status > - But sandbox environments cannot reach the Paperclip server directly because they run in isolated network namespaces > - This PR adds a callback bridge that proxies API requests from the sandbox to the Paperclip server, running as a local HTTP server on the host that forwards authenticated requests > - The bridge is started automatically when an adapter launches a sandbox execution, and torn down when the run completes > - The benefit is sandboxed agents can interact with the Paperclip API without requiring network-level access to the host, enabling E2B and similar providers to work end-to-end ## What Changed - Added `sandbox-callback-bridge.ts` in `packages/adapter-utils/` — a lightweight HTTP bridge server that accepts requests from sandbox environments and proxies them to the Paperclip API with authentication - Added request validation and security policy: the bridge only forwards requests to the configured API URL, validates content types, enforces size limits, and rejects non-API paths - Wired the bridge into all remote adapter execute paths (claude, codex, cursor, gemini, pi) — the bridge starts before the agent process and the bridge URL is passed via environment variables - Updated `environment-execution-target.ts` to prefer the explicit API URL from environment lease metadata for sandbox callback routing - Fixed Claude sandbox runtime setup to work with the bridge configuration - Added comprehensive test coverage for bridge request handling, policy enforcement, and sandbox execution integration - Fixed browser bundling — the bridge module is excluded from the frontend bundle via the adapter-utils index export ## Verification - `pnpm test` — all existing and new tests pass, including bridge unit tests and sandbox execution integration tests - `pnpm typecheck` — clean - Manual: configure an E2B environment, run an agent task, verify the agent can post comments and update issue status through the bridge ## Risks - Medium. This is a new network-facing component (HTTP server on localhost). The security policy restricts forwarding to the configured API URL only and validates all requests, but any proxy introduces attack surface. The bridge binds to localhost only and is scoped to the lifetime of a single agent run. ## Model Used Codex GPT 5.4 high via Paperclip. ## Checklist - [x] I have included a thinking path that traces from project context to this change - [x] I have specified the model used (with version and capability details) - [x] I have checked ROADMAP.md and confirmed this PR does not duplicate planned core work - [x] I have run tests locally and they pass - [x] I have added or updated tests where applicable - [ ] If this change affects the UI, I have included before/after screenshots - [x] I have updated relevant documentation to reflect my changes - [x] I have considered and documented any risks above - [x] I will address all Greptile and reviewer comments before requesting merge |