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pyro-mcp/docs/integrations.md
Thales Maciel 287f6d100f Add stopped-workspace disk export and inspection 
Finish the 3.1.0 secondary disk-tools milestone so stable workspaces can be
stopped, inspected offline, exported as raw ext4 images, and started again
without changing the primary workspace-first interaction model.

Add workspace stop/start plus workspace disk export/list/read across the CLI,
SDK, and MCP, backed by a new offline debugfs inspection helper and guest-only
validation. Scrub runtime-only guest state before disk inspection/export, and
fix the real guest reliability gaps by flushing the filesystem on stop and
removing stale Firecracker socket files before restart.

Update the docs, examples, changelog, and roadmap to mark 3.1.0 done, and
cover the new lifecycle/disk paths with API, CLI, manager, contract, and
package-surface tests.

Validation: uv lock; UV_CACHE_DIR=.uv-cache make check; UV_CACHE_DIR=.uv-cache
make dist-check; real guest-backed smoke for create, shell/service activity,
stop, workspace disk list/read/export, start, exec, and delete.
2026-03-12 20:57:16 -03:00

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# Integration Targets
These are the main ways to integrate `pyro-mcp` into an LLM application.
Use this page after you have already validated the host and guest execution through the
CLI path in [install.md](install.md) or [first-run.md](first-run.md).
## Recommended Default
Use `vm_run` first for one-shot commands, then move to the stable workspace surface when the
agent needs to inhabit one sandbox across multiple calls.
That keeps the model-facing contract small:
- one tool
- one command
- one ephemeral VM
- automatic cleanup
Move to `workspace_*` when the agent needs repeated commands, shells, services, snapshots, reset,
diff, or export in one stable workspace across multiple calls.
## OpenAI Responses API
Best when:
- your agent already uses OpenAI models directly
- you want a normal tool-calling loop instead of MCP transport
- you want the smallest amount of integration code
Recommended surface:
- `vm_run`
- `workspace_create(seed_path=...)` + `workspace_sync_push` + `workspace_exec` when the agent needs persistent workspace state
- `workspace_create(..., secrets=...)` + `workspace_exec(..., secret_env=...)` when the workspace needs private tokens or authenticated setup
- `workspace_create(..., network_policy="egress+published-ports")` + `start_service(..., published_ports=[...])` when the host must probe one workspace service
- `workspace_diff` + `workspace_export` when the agent needs explicit baseline comparison or host-out file transfer
- `stop_workspace(...)` + `list_workspace_disk(...)` / `read_workspace_disk(...)` / `export_workspace_disk(...)` when one stopped guest-backed workspace needs offline inspection or a raw ext4 copy
- `start_service` / `list_services` / `status_service` / `logs_service` / `stop_service` when the agent needs long-running processes inside that workspace
- `open_shell(..., secret_env=...)` / `read_shell` / `write_shell` when the agent needs an interactive PTY inside that workspace
Canonical example:
- [examples/openai_responses_vm_run.py](../examples/openai_responses_vm_run.py)
## MCP Clients
Best when:
- your host application already supports MCP
- you want `pyro` to run as an external stdio server
- you want tool schemas to be discovered directly from the server
Recommended entrypoint:
- `pyro mcp serve`
Starter config:
- [examples/mcp_client_config.md](../examples/mcp_client_config.md)
- [examples/claude_desktop_mcp_config.json](../examples/claude_desktop_mcp_config.json)
- [examples/cursor_mcp_config.json](../examples/cursor_mcp_config.json)
## Direct Python SDK
Best when:
- your application owns orchestration itself
- you do not need MCP transport
- you want direct access to `Pyro`
Recommended default:
- `Pyro.run_in_vm(...)`
- `Pyro.create_workspace(seed_path=...)` + `Pyro.push_workspace_sync(...)` + `Pyro.exec_workspace(...)` when repeated workspace commands are required
- `Pyro.create_workspace(..., secrets=...)` + `Pyro.exec_workspace(..., secret_env=...)` when the workspace needs private tokens or authenticated setup
- `Pyro.create_workspace(..., network_policy="egress+published-ports")` + `Pyro.start_service(..., published_ports=[...])` when the host must probe one workspace service
- `Pyro.diff_workspace(...)` + `Pyro.export_workspace(...)` when the agent needs baseline comparison or host-out file transfer
- `Pyro.start_service(..., secret_env=...)` + `Pyro.list_services(...)` + `Pyro.logs_service(...)` when the agent needs long-running background processes in one workspace
- `Pyro.open_shell(..., secret_env=...)` + `Pyro.write_shell(...)` + `Pyro.read_shell(...)` when the agent needs an interactive PTY inside the workspace
Lifecycle note:
- `Pyro.exec_vm(...)` runs one command and auto-cleans the VM afterward
- use `create_vm(...)` + `start_vm(...)` only when you need pre-exec inspection or status before
that final exec
- use `create_workspace(seed_path=...)` when the agent needs repeated commands in one persistent
`/workspace` that starts from host content
- use `push_workspace_sync(...)` when later host-side changes need to be imported into that
running workspace without recreating it
- use `create_workspace(..., secrets=...)` plus `secret_env` on exec, shell, or service start when
the agent needs private tokens or authenticated startup inside that workspace
- use `create_workspace(..., network_policy="egress+published-ports")` plus
`start_service(..., published_ports=[...])` when the host must probe one service from that
workspace
- use `diff_workspace(...)` when the agent needs a structured comparison against the immutable
create-time baseline
- use `export_workspace(...)` when the agent needs one file or directory copied back to the host
- use `stop_workspace(...)` plus `list_workspace_disk(...)`, `read_workspace_disk(...)`, or
`export_workspace_disk(...)` when the agent needs offline inspection or one raw ext4 copy from
a stopped guest-backed workspace
- use `start_service(...)` when the agent needs long-running processes and typed readiness inside
one workspace
- use `open_shell(...)` when the agent needs interactive shell state instead of one-shot execs
Examples:
- [examples/python_run.py](../examples/python_run.py)
- [examples/python_lifecycle.py](../examples/python_lifecycle.py)
- [examples/python_workspace.py](../examples/python_workspace.py)
- [examples/python_shell.py](../examples/python_shell.py)
## Agent Framework Wrappers
Examples:
- LangChain tools
- PydanticAI tools
- custom in-house orchestration layers
Best when:
- you already have an application framework that expects a Python callable tool
- you want to wrap `vm_run` behind framework-specific abstractions
Recommended pattern:
- keep the framework wrapper thin
- map one-shot framework tool input directly onto `vm_run`
- expose `workspace_*` only when the framework truly needs repeated commands in one workspace
Concrete example:
- [examples/langchain_vm_run.py](../examples/langchain_vm_run.py)
## Selection Rule
Choose the narrowest integration that matches the host environment:
1. OpenAI Responses API if you want a direct provider tool loop.
2. MCP if your host already speaks MCP.
3. Python SDK if you own orchestration and do not need transport.
4. Framework wrappers only as thin adapters over the same `vm_run` contract.
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