Files
AstrBot/astrbot/core/computer/booters/cua.py
エイカク 2c8736fe42 fix: harden sandbox file transfers (#8840)
* fix: harden sandbox file transfers

* fix: check CUA sandbox availability with shell probe

* fix: address sandbox transfer review feedback

* fix: preserve CUA health check cancellation

* fix: tighten CUA health probe checks
2026-06-17 22:25:51 +09:00

909 lines
30 KiB
Python

from __future__ import annotations
import asyncio
import base64
import inspect
import shlex
from dataclasses import asdict, dataclass, is_dataclass
from pathlib import Path
from typing import Any
from astrbot.api import logger
from ..olayer import FileSystemComponent, GUIComponent, PythonComponent, ShellComponent
from .base import ComputerBooter
from .cua_defaults import CUA_CONFIG_KEYS, CUA_DEFAULT_CONFIG
from .shipyard_search_file_util import search_files_via_shell
_POSIX_OS_TYPES = {"linux", "darwin", "macos"}
_CUA_SANDBOX_HEALTH_PROBE = "_astrbot_cua_ok_"
_CUA_BACKGROUND_LAUNCHER = """
import subprocess, sys, time
p = subprocess.Popen(
["sh", "-lc", sys.argv[1]],
stdin=subprocess.DEVNULL,
stdout=subprocess.DEVNULL,
stderr=subprocess.DEVNULL,
start_new_session=True,
)
sys.stdout.write(str(p.pid) + "\\n")
sys.stdout.flush()
time.sleep(0.2)
code = p.poll()
sys.exit(0 if code is None else code)
""".strip()
async def _maybe_await(value: Any) -> Any:
if inspect.isawaitable(value):
return await value
return value
def build_cua_booter_kwargs(sandbox_cfg: dict[str, Any]) -> dict[str, Any]:
return {
name: sandbox_cfg.get(config_key, CUA_DEFAULT_CONFIG[name])
for name, config_key in CUA_CONFIG_KEYS.items()
}
async def _write_base64_via_shell(
shell: ShellComponent,
path: str,
data: bytes,
) -> dict[str, Any]:
encoded = base64.b64encode(data).decode("ascii")
decoder = (
"import base64,pathlib,sys; "
"path=pathlib.Path(sys.argv[1]); "
"path.parent.mkdir(parents=True, exist_ok=True); "
"path.write_bytes(base64.b64decode(sys.stdin.read()))"
)
chunk_size = 60_000
encoded_lines = "\n".join(
encoded[index : index + chunk_size]
for index in range(0, len(encoded), chunk_size)
)
return await shell.exec(
f"python3 -c {shlex.quote(decoder)} {shlex.quote(path)} <<'EOF'\n"
f"{encoded_lines}\nEOF"
)
@dataclass(slots=True)
class ProcessResult:
stdout: str
stderr: str
exit_code: int | None
success: bool
def _maybe_model_dump(value: Any) -> dict[str, Any]:
if isinstance(value, dict):
return value
if is_dataclass(value) and not isinstance(value, type):
return asdict(value)
model_dump = getattr(value, "model_dump", None)
if callable(model_dump):
dumped = model_dump()
if isinstance(dumped, dict):
return dumped
dict_attr = getattr(value, "dict", None)
if callable(dict_attr):
dumped = dict_attr()
if isinstance(dumped, dict):
return dumped
attr_payload = {
key: getattr(value, key)
for key in (
"stdout",
"stderr",
"output",
"error",
"returncode",
"return_code",
"exit_code",
"success",
)
if hasattr(value, key)
}
if attr_payload:
return attr_payload
return {}
def _slice_content_by_lines(
content: str,
*,
offset: int | None = None,
limit: int | None = None,
) -> str:
lines = content.splitlines(keepends=True)
start = 0 if offset is None else offset
selected = lines[start:] if limit is None else lines[start : start + limit]
return "".join(selected)
def _normalize_process_result(raw: Any) -> ProcessResult:
"""Best-effort normalization for the process shapes returned by CUA SDKs."""
payload = _maybe_model_dump(raw)
if not payload and isinstance(raw, str):
payload = {"stdout": raw}
def first_text(*keys: str) -> str:
for key in keys:
value = payload.get(key)
if value is not None:
return str(value)
return ""
stdout = first_text("stdout", "output")
stderr = first_text("stderr", "error")
exit_code = payload.get("exit_code")
if exit_code is None:
exit_code = payload.get("returncode")
if exit_code is None:
exit_code = payload.get("return_code")
if exit_code is not None:
try:
exit_code = int(exit_code)
except Exception:
exit_code = None
if exit_code is None:
exit_code = 0 if not stderr else 1
success = bool(payload.get("success", not stderr and exit_code in (0, None)))
return ProcessResult(
stdout=stdout,
stderr=stderr,
exit_code=exit_code,
success=success,
)
def _is_missing_python3_error(stderr: str) -> bool:
lowered = stderr.lower()
return "python3" in lowered and (
"not found" in lowered
or "command not found" in lowered
or "no such file" in lowered
)
def _python3_requirement_error(operation: str, stderr: str) -> str:
return f"CUA {operation} requires python3 in the sandbox image: {stderr}"
def _normalize_with_python3_requirement(raw: Any, operation: str) -> ProcessResult:
proc = _normalize_process_result(raw)
if proc.stderr and _is_missing_python3_error(proc.stderr):
return ProcessResult(
stdout=proc.stdout,
stderr=_python3_requirement_error(operation, proc.stderr),
exit_code=proc.exit_code,
success=proc.success,
)
return proc
async def _exec_python3_or_error(
shell: ShellComponent,
code: str,
*,
operation: str,
timeout: int | None = 30,
) -> ProcessResult:
result = await shell.exec(f"python3 - <<'PY'\n{code}\nPY", timeout=timeout)
return _normalize_with_python3_requirement(result, operation)
def _is_posix_os_type(os_type: str) -> bool:
return os_type.lower() in _POSIX_OS_TYPES
def _posix_fs_error_message(os_type: str) -> str:
return (
"CUA filesystem shell fallback is only supported for POSIX images; "
f"os_type={os_type!r} does not support the required shell commands."
)
def _non_posix_filesystem_result(path: str, os_type: str) -> dict[str, Any]:
error = _posix_fs_error_message(os_type)
return {"success": False, "path": path, "error": error, "message": error}
def _raise_non_posix_filesystem_error(os_type: str) -> None:
raise RuntimeError(_posix_fs_error_message(os_type))
def _resolve_component_method(
component: Any,
method_names: str | tuple[str, ...],
) -> Any | None:
if component is None:
return None
names = (method_names,) if isinstance(method_names, str) else method_names
for method_name in names:
method = getattr(component, method_name, None)
if method is not None:
return method
return None
def _missing_component_method_error(
component_name: str,
method_names: str | tuple[str, ...],
) -> RuntimeError:
names = (method_names,) if isinstance(method_names, str) else method_names
candidates = ", ".join(f"{component_name}.{name}" for name in names)
return RuntimeError(
f"CUA sandbox does not provide any of: {candidates}. "
"Please check the installed CUA SDK version and sandbox backend."
)
def _has_component_method(root: Any, component_name: str, method_name: str) -> bool:
component = getattr(root, component_name, None)
return getattr(component, method_name, None) is not None
def _resolve_files_components(sandbox: Any) -> tuple[Any, ...]:
components: list[Any] = []
seen_ids: set[int] = set()
for name in ("files", "filesystem"):
component = getattr(sandbox, name, None)
if component is None:
continue
component_id = id(component)
if component_id in seen_ids:
continue
seen_ids.add(component_id)
components.append(component)
return tuple(components)
def _resolve_files_method(
components: tuple[Any, ...],
method_names: str | tuple[str, ...],
) -> Any | None:
for component in components:
method = _resolve_component_method(component, method_names)
if method is not None:
return method
return None
def _normalize_native_upload_result(raw: Any, file_name: str) -> dict[str, Any]:
payload = _maybe_model_dump(raw)
if not payload:
return {"success": True, "file_path": file_name}
if "file_path" not in payload and "path" not in payload:
payload["file_path"] = file_name
if "success" not in payload:
payload["success"] = not bool(payload.get("error") or payload.get("stderr"))
return payload
class CuaShellComponent(ShellComponent):
def __init__(self, sandbox: Any, os_type: str = "linux") -> None:
self._sandbox = sandbox
self._os_type = os_type.lower()
shell = sandbox.shell
self._exec_raw = getattr(shell, "exec", None) or getattr(shell, "run", None)
if self._exec_raw is None:
raise RuntimeError("CUA sandbox shell must provide `.exec` or `.run`.")
async def exec(
self,
command: str,
cwd: str | None = None,
env: dict[str, str] | None = None,
timeout: int | None = 30,
shell: bool = True,
background: bool = False,
) -> dict[str, Any]:
if not shell:
return {
"stdout": "",
"stderr": "error: only shell mode is supported in CUA booter.",
"exit_code": 2,
"success": False,
}
kwargs: dict[str, Any] = {}
if cwd is not None:
kwargs["cwd"] = cwd
if timeout is not None:
kwargs["timeout"] = timeout
if env:
kwargs["env"] = env
if background:
if not _is_posix_os_type(self._os_type):
return {
"stdout": "",
"stderr": "error: background shell execution is only supported for POSIX CUA images.",
"exit_code": 2,
"success": False,
}
command = _build_cua_background_command(command)
result = await _maybe_await(self._exec_raw(command, **kwargs))
proc = (
_normalize_with_python3_requirement(result, "background execution")
if background
else _normalize_process_result(result)
)
response = {
"stdout": proc.stdout,
"stderr": proc.stderr,
"exit_code": proc.exit_code,
"success": proc.success,
}
if background:
try:
response["pid"] = int(proc.stdout.strip().splitlines()[-1])
except Exception:
response["pid"] = None
return response
def _build_cua_background_command(command: str) -> str:
return f"python3 -c {shlex.quote(_CUA_BACKGROUND_LAUNCHER)} {shlex.quote(command)}"
class CuaPythonComponent(PythonComponent):
def __init__(self, sandbox: Any, os_type: str = "linux") -> None:
self._sandbox = sandbox
self._os_type = os_type
python = getattr(sandbox, "python", None)
self._python_exec = None
if python is not None:
self._python_exec = getattr(python, "exec", None) or getattr(
python, "run", None
)
async def exec(
self,
code: str,
kernel_id: str | None = None,
timeout: int = 30,
silent: bool = False,
) -> dict[str, Any]:
_ = kernel_id
if self._python_exec is not None:
result = await _maybe_await(self._python_exec(code, timeout=timeout))
proc = _normalize_process_result(result)
else:
shell = CuaShellComponent(self._sandbox, os_type=self._os_type)
proc = await _exec_python3_or_error(
shell,
code,
operation="Python execution fallback",
timeout=timeout,
)
output_text = "" if silent else proc.stdout
error_text = proc.stderr
return {
"success": proc.success if not silent else not bool(error_text),
"data": {
"output": {"text": output_text, "images": []},
"error": error_text,
},
"output": output_text,
"error": error_text,
}
def _write_result(path: str, result: dict[str, Any]) -> dict[str, Any]:
stderr = result.get("stderr", "")
if stderr and _is_missing_python3_error(stderr):
result = {
**result,
"stderr": _python3_requirement_error("filesystem write fallback", stderr),
}
if result.get("stderr") or result.get("success") is False:
return {"success": False, "path": path, **result}
return {"success": True, "path": path, **result}
class CuaFileSystemComponent(FileSystemComponent):
def __init__(
self, sandbox: Any, os_type: str = CUA_DEFAULT_CONFIG["os_type"]
) -> None:
self._shell = CuaShellComponent(sandbox, os_type=os_type)
self._fs_components = _resolve_files_components(sandbox)
self._os_type = os_type.lower()
self._fallback = _PosixShellFileSystem(self._shell, self._os_type)
async def create_file(
self,
path: str,
content: str = "",
mode: int = 0o644,
) -> dict[str, Any]:
write_result = await self.write_file(path, content)
if not write_result.get("success"):
return {**write_result, "mode": mode, "mode_applied": False}
return {"success": True, "path": path, "mode": mode, "mode_applied": False}
async def read_file(
self,
path: str,
encoding: str = "utf-8",
offset: int | None = None,
limit: int | None = None,
) -> dict[str, Any]:
read_file = _resolve_files_method(
self._fs_components, ("read_file", "read_text")
)
if read_file is None:
return await self._fallback.read_file(path, encoding, offset, limit)
else:
content = await _maybe_await(read_file(path))
if isinstance(content, bytes):
content = content.decode(encoding, errors="replace")
return {
"success": True,
"path": path,
"content": _slice_content_by_lines(
str(content), offset=offset, limit=limit
),
}
async def write_file(
self,
path: str,
content: str,
mode: str = "w",
encoding: str = "utf-8",
) -> dict[str, Any]:
_ = mode
write_file = _resolve_files_method(
self._fs_components, ("write_file", "write_text")
)
if write_file is None:
return await self._fallback.write_file(path, content, mode, encoding)
else:
await _maybe_await(write_file(path, content))
return {"success": True, "path": path}
async def delete_file(self, path: str) -> dict[str, Any]:
delete = _resolve_files_method(
self._fs_components, ("delete", "delete_file", "remove")
)
if delete is None:
return await self._fallback.delete_file(path)
else:
await _maybe_await(delete(path))
return {"success": True, "path": path}
async def list_dir(
self,
path: str = ".",
show_hidden: bool = False,
) -> dict[str, Any]:
list_dir = _resolve_files_method(self._fs_components, ("list_dir", "list"))
if list_dir is not None:
entries = await _maybe_await(list_dir(path))
return {"success": True, "path": path, "entries": entries}
return await self._fallback.list_dir(path, show_hidden)
async def search_files(
self,
pattern: str,
path: str | None = None,
glob: str | None = None,
after_context: int | None = None,
before_context: int | None = None,
) -> dict[str, Any]:
return await self._fallback.search_files(
pattern=pattern,
path=path,
glob=glob,
after_context=after_context,
before_context=before_context,
)
async def edit_file(
self,
path: str,
old_string: str,
new_string: str,
replace_all: bool = False,
encoding: str = "utf-8",
) -> dict[str, Any]:
read_result = await self.read_file(path, encoding=encoding)
if not read_result.get("success"):
return read_result
content = read_result.get("content", "")
occurrences = content.count(old_string)
if occurrences == 0:
return {
"success": False,
"error": "old string not found in file",
"replacements": 0,
}
updated = content.replace(old_string, new_string, -1 if replace_all else 1)
write_result = await self.write_file(path, updated, encoding=encoding)
if not write_result.get("success"):
return write_result
return {
"success": True,
"path": path,
"replacements": occurrences if replace_all else 1,
}
class _PosixShellFileSystem(FileSystemComponent):
def __init__(self, shell: CuaShellComponent, os_type: str) -> None:
self._shell = shell
self._os_type = os_type.lower()
def _ensure_posix(self, path: str) -> dict[str, Any] | None:
if _is_posix_os_type(self._os_type):
return None
return _non_posix_filesystem_result(path, self._os_type)
async def read_file(
self,
path: str,
encoding: str = "utf-8",
offset: int | None = None,
limit: int | None = None,
) -> dict[str, Any]:
_ = encoding
if error := self._ensure_posix(path):
return error
result = await self._shell.exec(f"cat {shlex.quote(path)}")
if result.get("stderr"):
return {"success": False, "path": path, "error": result["stderr"]}
return {
"success": True,
"path": path,
"content": _slice_content_by_lines(
str(result.get("stdout", "")), offset=offset, limit=limit
),
}
async def write_file(
self,
path: str,
content: str,
mode: str = "w",
encoding: str = "utf-8",
) -> dict[str, Any]:
_ = mode
if error := self._ensure_posix(path):
return error
result = await _write_base64_via_shell(
self._shell, path, content.encode(encoding)
)
return _write_result(path, result)
async def delete_file(self, path: str) -> dict[str, Any]:
if error := self._ensure_posix(path):
return error
result = await self._shell.exec(f"rm -rf {shlex.quote(path)}")
if result.get("stderr"):
return {"success": False, "path": path, "error": result["stderr"]}
return {"success": True, "path": path}
async def list_dir(
self,
path: str = ".",
show_hidden: bool = False,
) -> dict[str, Any]:
if error := self._ensure_posix(path):
return error
return await _list_dir_via_shell(self._shell, path, show_hidden)
async def search_files(
self,
pattern: str,
path: str | None = None,
glob: str | None = None,
after_context: int | None = None,
before_context: int | None = None,
) -> dict[str, Any]:
search_path = path or "."
if error := self._ensure_posix(search_path):
return error
return await search_files_via_shell(
self._shell,
pattern=pattern,
path=path,
glob=glob,
after_context=after_context,
before_context=before_context,
)
async def _list_dir_via_shell(
shell: CuaShellComponent,
path: str,
show_hidden: bool,
) -> dict[str, Any]:
flags = "-1A" if show_hidden else "-1"
result = await shell.exec(f"ls {flags} {shlex.quote(path)}")
stdout = result.get("stdout", "")
return {
"success": not bool(result.get("stderr")),
"path": path,
"entries": [line for line in stdout.splitlines() if line.strip()],
"error": result.get("stderr", ""),
}
class CuaGUIComponent(GUIComponent):
def __init__(self, sandbox: Any) -> None:
self._sandbox = sandbox
mouse = getattr(sandbox, "mouse", None)
keyboard = getattr(sandbox, "keyboard", None)
self._click = _resolve_component_method(mouse, "click")
self._type_text = _resolve_component_method(keyboard, "type")
self._press_key = _resolve_component_method(
keyboard, ("press", "key_press", "press_key")
)
async def screenshot(self, path: str | None = None) -> dict[str, Any]:
raw = await self._sandbox.screenshot()
data = _screenshot_to_bytes(raw)
if path:
Path(path).parent.mkdir(parents=True, exist_ok=True)
Path(path).write_bytes(data)
return {
"success": True,
"path": path,
"mime_type": "image/png",
"base64": base64.b64encode(data).decode("ascii"),
}
async def click(self, x: int, y: int, button: str = "left") -> dict[str, Any]:
if self._click is None:
raise _missing_component_method_error("mouse", "click")
result = await _maybe_await(self._click(x, y, button=button))
payload = _maybe_model_dump(result)
return {"success": bool(payload.get("success", True)), **payload}
async def type_text(self, text: str) -> dict[str, Any]:
if self._type_text is None:
raise _missing_component_method_error("keyboard", "type")
result = await _maybe_await(self._type_text(text))
payload = _maybe_model_dump(result)
return {"success": bool(payload.get("success", True)), **payload}
async def press_key(self, key: str) -> dict[str, Any]:
if self._press_key is None:
raise _missing_component_method_error(
"keyboard", ("press", "key_press", "press_key")
)
result = await _maybe_await(self._press_key(key))
payload = _maybe_model_dump(result)
return {"success": bool(payload.get("success", True)), **payload}
def _screenshot_to_bytes(raw: Any) -> bytes:
def from_str(value: str) -> bytes:
if value.startswith("data:image"):
value = value.split(",", 1)[1]
try:
return base64.b64decode(value, validate=True)
except Exception:
candidate = Path(value)
if candidate.is_file():
return candidate.read_bytes()
return value.encode("utf-8")
if isinstance(raw, (bytes, bytearray)):
return bytes(raw)
if isinstance(raw, str):
return from_str(raw)
if hasattr(raw, "save"):
import io
output = io.BytesIO()
raw.save(output, format="PNG")
return output.getvalue()
payload = _maybe_model_dump(raw)
for key in ("data", "base64", "image"):
value = payload.get(key)
if value:
return _screenshot_to_bytes(value)
raise TypeError(f"Unsupported CUA screenshot result: {type(raw)!r}")
@dataclass(slots=True)
class _CuaRuntime:
sandbox_cm: Any
sandbox: Any
shell: CuaShellComponent
python: CuaPythonComponent
fs: CuaFileSystemComponent
gui: CuaGUIComponent | None
class CuaBooter(ComputerBooter):
def __init__(
self,
image: str = CUA_DEFAULT_CONFIG["image"],
os_type: str = CUA_DEFAULT_CONFIG["os_type"],
ttl: int = CUA_DEFAULT_CONFIG["ttl"],
telemetry_enabled: bool = CUA_DEFAULT_CONFIG["telemetry_enabled"],
local: bool = CUA_DEFAULT_CONFIG["local"],
api_key: str = CUA_DEFAULT_CONFIG["api_key"],
) -> None:
self.image = image
self.os_type = os_type
self.ttl = ttl
self.telemetry_enabled = telemetry_enabled
self.local = local
self.api_key = api_key
self._runtime: _CuaRuntime | None = None
async def boot(self, session_id: str) -> None:
_ = session_id
try:
from cua import Image, Sandbox
except ImportError as exc:
raise RuntimeError(
"CUA sandbox support requires the optional `cua` package. "
"Install it with `pip install cua` in the AstrBot environment."
) from exc
image_obj = self._build_image(Image)
ephemeral_kwargs = self._build_ephemeral_kwargs(Sandbox.ephemeral)
sandbox_cm = Sandbox.ephemeral(image_obj, **ephemeral_kwargs)
sandbox = await sandbox_cm.__aenter__()
try:
self._runtime = _CuaRuntime(
sandbox_cm=sandbox_cm,
sandbox=sandbox,
shell=CuaShellComponent(sandbox, os_type=self.os_type),
python=CuaPythonComponent(sandbox, os_type=self.os_type),
fs=CuaFileSystemComponent(sandbox, os_type=self.os_type),
gui=CuaGUIComponent(sandbox),
)
except Exception:
await sandbox_cm.__aexit__(None, None, None)
self._runtime = None
raise
logger.info(
"[Computer] CUA sandbox booted: image=%s, os_type=%s",
self.image,
self.os_type,
)
def _build_image(self, image_cls: Any) -> Any:
image_name = (self.image or self.os_type or "linux").strip().lower()
factory = getattr(image_cls, image_name, None)
if callable(factory):
return factory()
os_factory = getattr(image_cls, (self.os_type or "linux").strip().lower(), None)
if callable(os_factory):
return os_factory()
return image_name
def _build_ephemeral_kwargs(self, ephemeral: Any) -> dict[str, Any]:
try:
parameters = inspect.signature(ephemeral).parameters
except (TypeError, ValueError):
return {}
kwargs: dict[str, Any] = {}
if "ttl" in parameters:
kwargs["ttl"] = self.ttl
if "telemetry_enabled" in parameters:
kwargs["telemetry_enabled"] = self.telemetry_enabled
if "local" in parameters:
kwargs["local"] = self.local
if "api_key" in parameters and self.api_key:
kwargs["api_key"] = self.api_key
return kwargs
async def shutdown(self) -> None:
if self._runtime is not None:
await self._runtime.sandbox_cm.__aexit__(None, None, None)
self._runtime = None
@property
def capabilities(self) -> tuple[str, ...] | None:
capabilities = ["python", "shell", "filesystem"]
if self._runtime is None:
return tuple(capabilities)
sandbox = self._runtime.sandbox
has_screenshot = getattr(sandbox, "screenshot", None) is not None
has_mouse = _has_component_method(sandbox, "mouse", "click")
has_keyboard = _has_component_method(sandbox, "keyboard", "type")
if has_screenshot or has_mouse or has_keyboard:
capabilities.append("gui")
if has_screenshot:
capabilities.append("screenshot")
if has_mouse:
capabilities.append("mouse")
if has_keyboard:
capabilities.append("keyboard")
return tuple(capabilities)
@property
def fs(self) -> FileSystemComponent:
if self._runtime is None:
raise RuntimeError("CuaBooter is not initialized.")
return self._runtime.fs
@property
def python(self) -> PythonComponent:
if self._runtime is None:
raise RuntimeError("CuaBooter is not initialized.")
return self._runtime.python
@property
def shell(self) -> ShellComponent:
if self._runtime is None:
raise RuntimeError("CuaBooter is not initialized.")
return self._runtime.shell
@property
def gui(self) -> GUIComponent | None:
return None if self._runtime is None else self._runtime.gui
async def upload_file(self, path: str, file_name: str) -> dict:
local_path = Path(path)
if not local_path.is_file():
return {"success": False, "error": f"File not found: {path}"}
sandbox = None if self._runtime is None else self._runtime.sandbox
if sandbox is not None and hasattr(sandbox, "upload_file"):
return _maybe_model_dump(
await sandbox.upload_file(str(local_path), file_name)
)
files_components = () if sandbox is None else _resolve_files_components(sandbox)
upload = _resolve_files_method(files_components, "upload")
if upload is not None:
result = await _maybe_await(upload(str(local_path), file_name))
return _normalize_native_upload_result(result, file_name)
write_bytes = _resolve_files_method(files_components, "write_bytes")
if write_bytes is not None:
result = await _maybe_await(write_bytes(file_name, local_path.read_bytes()))
return _normalize_native_upload_result(result, file_name)
if not _is_posix_os_type(self.os_type):
return _non_posix_filesystem_result(file_name, self.os_type)
result = await _write_base64_via_shell(
self.shell, file_name, local_path.read_bytes()
)
return {
"success": not bool(result.get("stderr")),
"file_path": file_name,
**result,
}
async def download_file(self, remote_path: str, local_path: str) -> None:
sandbox = None if self._runtime is None else self._runtime.sandbox
if sandbox is not None and hasattr(sandbox, "download_file"):
await sandbox.download_file(remote_path, local_path)
return
if not _is_posix_os_type(self.os_type):
_raise_non_posix_filesystem_error(self.os_type)
result = await self.shell.exec(f"base64 {shlex.quote(remote_path)}")
if result.get("stderr"):
raise RuntimeError(result["stderr"])
Path(local_path).parent.mkdir(parents=True, exist_ok=True)
Path(local_path).write_bytes(base64.b64decode(result.get("stdout", "")))
async def available(self) -> bool:
if self._runtime is None:
return False
try:
result = await self._runtime.shell.exec(
f"echo {_CUA_SANDBOX_HEALTH_PROBE}", timeout=10
)
except asyncio.CancelledError:
raise
except Exception as exc:
logger.debug("[Computer] CUA sandbox health check failed: %s", exc)
return False
if result.get("exit_code") != 0:
return False
return _CUA_SANDBOX_HEALTH_PROBE in str(result.get("stdout", ""))