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denoland-deno/runtime/ops/process.rs

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// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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use deno_core::op2;
use deno_core::serde_json;
use deno_core::AsyncMutFuture;
use deno_core::AsyncRefCell;
use deno_core::OpState;
use deno_core::RcRef;
use deno_core::Resource;
use deno_core::ResourceId;
use deno_core::ToJsBuffer;
use deno_io::fs::FileResource;
use deno_io::ChildStderrResource;
use deno_io::ChildStdinResource;
use deno_io::ChildStdoutResource;
use deno_io::IntoRawIoHandle;
use deno_permissions::PermissionsContainer;
use deno_permissions::RunQueryDescriptor;
use serde::Deserialize;
use serde::Serialize;
use std::borrow::Cow;
use std::cell::RefCell;
use std::collections::HashMap;
use std::ffi::OsString;
use std::io::Write;
use std::path::Path;
use std::path::PathBuf;
use std::process::ExitStatus;
use std::rc::Rc;
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use tokio::process::Command;
#[cfg(windows)]
use std::os::windows::process::CommandExt;
use crate::ops::signal::SignalError;
#[cfg(unix)]
use std::os::unix::prelude::ExitStatusExt;
#[cfg(unix)]
use std::os::unix::process::CommandExt;
pub const UNSTABLE_FEATURE_NAME: &str = "process";
#[derive(Copy, Clone, Eq, PartialEq, Deserialize)]
#[serde(rename_all = "snake_case")]
pub enum Stdio {
Inherit,
Piped,
Null,
IpcForInternalUse,
}
impl Stdio {
pub fn as_stdio(&self) -> std::process::Stdio {
match &self {
Stdio::Inherit => std::process::Stdio::inherit(),
Stdio::Piped => std::process::Stdio::piped(),
Stdio::Null => std::process::Stdio::null(),
_ => unreachable!(),
}
}
}
#[derive(Copy, Clone, Eq, PartialEq)]
pub enum StdioOrRid {
Stdio(Stdio),
Rid(ResourceId),
}
impl<'de> Deserialize<'de> for StdioOrRid {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: serde::Deserializer<'de>,
{
use serde_json::Value;
let value = Value::deserialize(deserializer)?;
match value {
Value::String(val) => match val.as_str() {
"inherit" => Ok(StdioOrRid::Stdio(Stdio::Inherit)),
"piped" => Ok(StdioOrRid::Stdio(Stdio::Piped)),
"null" => Ok(StdioOrRid::Stdio(Stdio::Null)),
"ipc_for_internal_use" => {
Ok(StdioOrRid::Stdio(Stdio::IpcForInternalUse))
}
val => Err(serde::de::Error::unknown_variant(
val,
&["inherit", "piped", "null"],
)),
},
Value::Number(val) => match val.as_u64() {
Some(val) if val <= ResourceId::MAX as u64 => {
Ok(StdioOrRid::Rid(val as ResourceId))
}
_ => Err(serde::de::Error::custom("Expected a positive integer")),
},
_ => Err(serde::de::Error::custom(
r#"Expected a resource id, "inherit", "piped", or "null""#,
)),
}
}
}
impl StdioOrRid {
pub fn as_stdio(
&self,
state: &mut OpState,
) -> Result<std::process::Stdio, ProcessError> {
match &self {
StdioOrRid::Stdio(val) => Ok(val.as_stdio()),
StdioOrRid::Rid(rid) => {
FileResource::with_file(state, *rid, |file| Ok(file.as_stdio()?))
.map_err(ProcessError::Resource)
}
}
}
pub fn is_ipc(&self) -> bool {
matches!(self, StdioOrRid::Stdio(Stdio::IpcForInternalUse))
}
}
#[allow(clippy::disallowed_types)]
pub type NpmProcessStateProviderRc =
deno_fs::sync::MaybeArc<dyn NpmProcessStateProvider>;
pub trait NpmProcessStateProvider:
std::fmt::Debug + deno_fs::sync::MaybeSend + deno_fs::sync::MaybeSync
{
/// Gets a string containing the serialized npm state of the process.
///
/// This will be set on the `DENO_DONT_USE_INTERNAL_NODE_COMPAT_STATE` environment
/// variable when doing a `child_process.fork`. The implementor can then check this environment
/// variable on startup to repopulate the internal npm state.
fn get_npm_process_state(&self) -> String {
// This method is only used in the CLI.
String::new()
}
}
#[derive(Debug)]
pub struct EmptyNpmProcessStateProvider;
impl NpmProcessStateProvider for EmptyNpmProcessStateProvider {}
deno_core::extension!(
deno_process,
ops = [
op_spawn_child,
op_spawn_wait,
op_spawn_sync,
op_spawn_kill,
deprecated::op_run,
deprecated::op_run_status,
deprecated::op_kill,
],
options = { get_npm_process_state: Option<NpmProcessStateProviderRc> },
state = |state, options| {
state.put::<NpmProcessStateProviderRc>(options.get_npm_process_state.unwrap_or(deno_fs::sync::MaybeArc::new(EmptyNpmProcessStateProvider)));
},
);
/// Second member stores the pid separately from the RefCell. It's needed for
/// `op_spawn_kill`, where the RefCell is borrowed mutably by `op_spawn_wait`.
struct ChildResource(RefCell<tokio::process::Child>, u32);
impl Resource for ChildResource {
fn name(&self) -> Cow<str> {
"child".into()
}
}
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#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct SpawnArgs {
cmd: String,
args: Vec<String>,
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cwd: Option<String>,
clear_env: bool,
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env: Vec<(String, String)>,
#[cfg(unix)]
gid: Option<u32>,
#[cfg(unix)]
uid: Option<u32>,
#[cfg(windows)]
windows_raw_arguments: bool,
ipc: Option<i32>,
#[serde(flatten)]
stdio: ChildStdio,
extra_stdio: Vec<Stdio>,
detached: bool,
needs_npm_process_state: bool,
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}
#[derive(Debug, thiserror::Error)]
pub enum ProcessError {
#[error("Failed to spawn '{command}': {error}")]
SpawnFailed {
command: String,
#[source]
error: Box<ProcessError>,
},
#[error("{0}")]
Io(#[from] std::io::Error),
#[cfg(unix)]
#[error(transparent)]
Nix(nix::Error),
#[error("failed resolving cwd: {0}")]
FailedResolvingCwd(#[source] std::io::Error),
#[error(transparent)]
Permission(#[from] deno_permissions::PermissionCheckError),
#[error(transparent)]
RunPermission(#[from] CheckRunPermissionError),
#[error(transparent)]
Resource(deno_core::error::AnyError),
#[error(transparent)]
BorrowMut(std::cell::BorrowMutError),
#[error(transparent)]
Which(which::Error),
#[error("Child process has already terminated.")]
ChildProcessAlreadyTerminated,
#[error("Invalid pid")]
InvalidPid,
#[error(transparent)]
Signal(#[from] SignalError),
#[error("Missing cmd")]
MissingCmd, // only for Deno.run
}
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct ChildStdio {
stdin: StdioOrRid,
stdout: StdioOrRid,
stderr: StdioOrRid,
}
#[derive(Serialize)]
#[serde(rename_all = "camelCase")]
pub struct ChildStatus {
success: bool,
code: i32,
signal: Option<String>,
}
impl TryFrom<ExitStatus> for ChildStatus {
type Error = SignalError;
fn try_from(status: ExitStatus) -> Result<Self, Self::Error> {
let code = status.code();
#[cfg(unix)]
let signal = status.signal();
#[cfg(not(unix))]
let signal: Option<i32> = None;
let status = if let Some(signal) = signal {
ChildStatus {
success: false,
code: 128 + signal,
#[cfg(unix)]
signal: Some(
crate::ops::signal::signal_int_to_str(signal)?.to_string(),
),
#[cfg(not(unix))]
signal: None,
}
} else {
let code = code.expect("Should have either an exit code or a signal.");
ChildStatus {
success: code == 0,
code,
signal: None,
}
};
Ok(status)
}
}
#[derive(Serialize)]
#[serde(rename_all = "camelCase")]
pub struct SpawnOutput {
status: ChildStatus,
stdout: Option<ToJsBuffer>,
stderr: Option<ToJsBuffer>,
}
type CreateCommand = (
std::process::Command,
Option<ResourceId>,
Vec<Option<ResourceId>>,
Vec<deno_io::RawBiPipeHandle>,
);
pub fn npm_process_state_tempfile(
contents: &[u8],
) -> Result<deno_io::RawIoHandle, std::io::Error> {
let mut temp_file = tempfile::tempfile()?;
temp_file.write_all(contents)?;
let handle = temp_file.into_raw_io_handle();
#[cfg(windows)]
{
use windows_sys::Win32::Foundation::HANDLE_FLAG_INHERIT;
// make the handle inheritable
// SAFETY: winapi call, handle is valid
unsafe {
windows_sys::Win32::Foundation::SetHandleInformation(
handle as _,
HANDLE_FLAG_INHERIT,
HANDLE_FLAG_INHERIT,
);
}
Ok(handle)
}
#[cfg(unix)]
{
// SAFETY: libc call, fd is valid
let inheritable = unsafe {
// duplicate the FD to get a new one that doesn't have the CLOEXEC flag set
// so it can be inherited by the child process
libc::dup(handle)
};
// SAFETY: libc call, fd is valid
unsafe {
// close the old one
libc::close(handle);
}
Ok(inheritable)
}
}
pub const NPM_RESOLUTION_STATE_FD_ENV_VAR_NAME: &str =
"DENO_DONT_USE_INTERNAL_NODE_COMPAT_STATE_FD";
fn create_command(
state: &mut OpState,
mut args: SpawnArgs,
api_name: &str,
) -> Result<CreateCommand, ProcessError> {
let maybe_npm_process_state = if args.needs_npm_process_state {
let provider = state.borrow::<NpmProcessStateProviderRc>();
let process_state = provider.get_npm_process_state();
let fd = npm_process_state_tempfile(process_state.as_bytes())?;
args.env.push((
NPM_RESOLUTION_STATE_FD_ENV_VAR_NAME.to_string(),
(fd as usize).to_string(),
));
Some(fd)
} else {
None
};
let (cmd, run_env) = compute_run_cmd_and_check_permissions(
&args.cmd,
args.cwd.as_deref(),
&args.env,
args.clear_env,
state,
api_name,
)?;
let mut command = std::process::Command::new(cmd);
#[cfg(windows)]
{
if args.detached {
// TODO(nathanwhit): Currently this causes the process to hang
// until the detached process exits (so never). It repros with just the
// rust std library, so it's either a bug or requires more control than we have.
// To be resolved at the same time as additional stdio support.
log::warn!("detached processes are not currently supported on Windows");
}
if args.windows_raw_arguments {
for arg in args.args.iter() {
command.raw_arg(arg);
}
} else {
command.args(args.args);
}
}
#[cfg(not(windows))]
command.args(args.args);
command.current_dir(run_env.cwd);
command.env_clear();
command.envs(run_env.envs);
#[cfg(unix)]
if let Some(gid) = args.gid {
command.gid(gid);
}
#[cfg(unix)]
if let Some(uid) = args.uid {
command.uid(uid);
}
if args.stdio.stdin.is_ipc() {
args.ipc = Some(0);
} else {
command.stdin(args.stdio.stdin.as_stdio(state)?);
}
command.stdout(match args.stdio.stdout {
StdioOrRid::Stdio(Stdio::Inherit) => StdioOrRid::Rid(1).as_stdio(state)?,
value => value.as_stdio(state)?,
});
command.stderr(match args.stdio.stderr {
StdioOrRid::Stdio(Stdio::Inherit) => StdioOrRid::Rid(2).as_stdio(state)?,
value => value.as_stdio(state)?,
});
#[cfg(unix)]
// TODO(bartlomieju):
#[allow(clippy::undocumented_unsafe_blocks)]
unsafe {
let mut extra_pipe_rids = Vec::new();
let mut fds_to_dup = Vec::new();
let mut fds_to_close = Vec::new();
let mut ipc_rid = None;
if let Some(fd) = maybe_npm_process_state {
fds_to_close.push(fd);
}
if let Some(ipc) = args.ipc {
if ipc >= 0 {
let (ipc_fd1, ipc_fd2) = deno_io::bi_pipe_pair_raw()?;
fds_to_dup.push((ipc_fd2, ipc));
fds_to_close.push(ipc_fd2);
/* One end returned to parent process (this) */
let pipe_rid =
state
.resource_table
.add(deno_node::IpcJsonStreamResource::new(
ipc_fd1 as _,
deno_node::IpcRefTracker::new(state.external_ops_tracker.clone()),
)?);
/* The other end passed to child process via NODE_CHANNEL_FD */
command.env("NODE_CHANNEL_FD", format!("{}", ipc));
ipc_rid = Some(pipe_rid);
}
}
for (i, stdio) in args.extra_stdio.into_iter().enumerate() {
// index 0 in `extra_stdio` actually refers to fd 3
// because we handle stdin,stdout,stderr specially
let fd = (i + 3) as i32;
// TODO(nathanwhit): handle inherited, but this relies on the parent process having
// fds open already. since we don't generally support dealing with raw fds,
// we can't properly support this
if matches!(stdio, Stdio::Piped) {
let (fd1, fd2) = deno_io::bi_pipe_pair_raw()?;
fds_to_dup.push((fd2, fd));
fds_to_close.push(fd2);
let rid = state.resource_table.add(
match deno_io::BiPipeResource::from_raw_handle(fd1) {
Ok(v) => v,
Err(e) => {
log::warn!("Failed to open bidirectional pipe for fd {fd}: {e}");
extra_pipe_rids.push(None);
continue;
}
},
);
extra_pipe_rids.push(Some(rid));
} else {
extra_pipe_rids.push(None);
}
}
let detached = args.detached;
command.pre_exec(move || {
if detached {
libc::setsid();
}
for &(src, dst) in &fds_to_dup {
if src >= 0 && dst >= 0 {
let _fd = libc::dup2(src, dst);
libc::close(src);
}
}
libc::setgroups(0, std::ptr::null());
Ok(())
});
Ok((command, ipc_rid, extra_pipe_rids, fds_to_close))
}
#[cfg(windows)]
{
let mut ipc_rid = None;
let mut handles_to_close = Vec::with_capacity(1);
if let Some(handle) = maybe_npm_process_state {
handles_to_close.push(handle);
}
if let Some(ipc) = args.ipc {
if ipc >= 0 {
let (hd1, hd2) = deno_io::bi_pipe_pair_raw()?;
/* One end returned to parent process (this) */
let pipe_rid = Some(state.resource_table.add(
deno_node::IpcJsonStreamResource::new(
hd1 as i64,
deno_node::IpcRefTracker::new(state.external_ops_tracker.clone()),
)?,
));
/* The other end passed to child process via NODE_CHANNEL_FD */
command.env("NODE_CHANNEL_FD", format!("{}", hd2 as i64));
handles_to_close.push(hd2);
ipc_rid = pipe_rid;
}
}
if args.extra_stdio.iter().any(|s| matches!(s, Stdio::Piped)) {
log::warn!(
"Additional stdio pipes beyond stdin/stdout/stderr are not currently supported on windows"
);
}
Ok((command, ipc_rid, vec![], handles_to_close))
}
}
#[derive(Serialize)]
#[serde(rename_all = "camelCase")]
struct Child {
rid: ResourceId,
pid: u32,
stdin_rid: Option<ResourceId>,
stdout_rid: Option<ResourceId>,
stderr_rid: Option<ResourceId>,
ipc_pipe_rid: Option<ResourceId>,
extra_pipe_rids: Vec<Option<ResourceId>>,
}
fn spawn_child(
state: &mut OpState,
command: std::process::Command,
ipc_pipe_rid: Option<ResourceId>,
extra_pipe_rids: Vec<Option<ResourceId>>,
detached: bool,
) -> Result<Child, ProcessError> {
let mut command = tokio::process::Command::from(command);
// TODO(@crowlkats): allow detaching processes.
// currently deno will orphan a process when exiting with an error or Deno.exit()
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// We want to kill child when it's closed
if !detached {
command.kill_on_drop(true);
}
let mut child = match command.spawn() {
Ok(child) => child,
Err(err) => {
let command = command.as_std();
let command_name = command.get_program().to_string_lossy();
if let Some(cwd) = command.get_current_dir() {
// launching a sub process always depends on the real
// file system so using these methods directly is ok
#[allow(clippy::disallowed_methods)]
if !cwd.exists() {
return Err(
std::io::Error::new(
std::io::ErrorKind::NotFound,
format!(
"Failed to spawn '{}': No such cwd '{}'",
command_name,
cwd.to_string_lossy()
),
)
.into(),
);
}
#[allow(clippy::disallowed_methods)]
if !cwd.is_dir() {
return Err(
std::io::Error::new(
std::io::ErrorKind::NotFound,
format!(
"Failed to spawn '{}': cwd is not a directory '{}'",
command_name,
cwd.to_string_lossy()
),
)
.into(),
);
}
}
return Err(ProcessError::SpawnFailed {
command: command.get_program().to_string_lossy().to_string(),
error: Box::new(err.into()),
});
}
};
let pid = child.id().expect("Process ID should be set.");
let stdin_rid = child
.stdin
.take()
.map(|stdin| state.resource_table.add(ChildStdinResource::from(stdin)));
let stdout_rid = child
.stdout
.take()
.map(|stdout| state.resource_table.add(ChildStdoutResource::from(stdout)));
let stderr_rid = child
.stderr
.take()
.map(|stderr| state.resource_table.add(ChildStderrResource::from(stderr)));
let child_rid = state
.resource_table
.add(ChildResource(RefCell::new(child), pid));
Ok(Child {
rid: child_rid,
pid,
stdin_rid,
stdout_rid,
stderr_rid,
ipc_pipe_rid,
extra_pipe_rids,
})
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}
fn compute_run_cmd_and_check_permissions(
arg_cmd: &str,
arg_cwd: Option<&str>,
arg_envs: &[(String, String)],
arg_clear_env: bool,
state: &mut OpState,
api_name: &str,
) -> Result<(PathBuf, RunEnv), ProcessError> {
let run_env =
compute_run_env(arg_cwd, arg_envs, arg_clear_env).map_err(|e| {
ProcessError::SpawnFailed {
command: arg_cmd.to_string(),
error: Box::new(e),
}
})?;
let cmd =
resolve_cmd(arg_cmd, &run_env).map_err(|e| ProcessError::SpawnFailed {
command: arg_cmd.to_string(),
error: Box::new(e),
})?;
check_run_permission(
state,
&RunQueryDescriptor::Path {
requested: arg_cmd.to_string(),
resolved: cmd.clone(),
},
&run_env,
api_name,
)?;
Ok((cmd, run_env))
}
struct RunEnv {
envs: HashMap<OsString, OsString>,
cwd: PathBuf,
}
/// Computes the current environment, which will then be used to inform
/// permissions and finally spawning. This is very important to compute
/// ahead of time so that the environment used to verify permissions is
/// the same environment used to spawn the sub command. This protects against
/// someone doing timing attacks by changing the environment on a worker.
fn compute_run_env(
arg_cwd: Option<&str>,
arg_envs: &[(String, String)],
arg_clear_env: bool,
) -> Result<RunEnv, ProcessError> {
#[allow(clippy::disallowed_methods)]
let cwd =
std::env::current_dir().map_err(ProcessError::FailedResolvingCwd)?;
let cwd = arg_cwd
.map(|cwd_arg| resolve_path(cwd_arg, &cwd))
.unwrap_or(cwd);
let envs = if arg_clear_env {
arg_envs
.iter()
.map(|(k, v)| (OsString::from(k), OsString::from(v)))
.collect()
} else {
let mut envs = std::env::vars_os()
.map(|(k, v)| {
(
if cfg!(windows) {
k.to_ascii_uppercase()
} else {
k
},
v,
)
})
.collect::<HashMap<_, _>>();
for (key, value) in arg_envs {
envs.insert(
OsString::from(if cfg!(windows) {
key.to_ascii_uppercase()
} else {
key.clone()
}),
OsString::from(value.clone()),
);
}
envs
};
Ok(RunEnv { envs, cwd })
}
fn resolve_cmd(cmd: &str, env: &RunEnv) -> Result<PathBuf, ProcessError> {
let is_path = cmd.contains('/');
#[cfg(windows)]
let is_path = is_path || cmd.contains('\\') || Path::new(&cmd).is_absolute();
if is_path {
Ok(resolve_path(cmd, &env.cwd))
} else {
let path = env.envs.get(&OsString::from("PATH"));
match which::which_in(cmd, path, &env.cwd) {
Ok(cmd) => Ok(cmd),
Err(which::Error::CannotFindBinaryPath) => {
Err(std::io::Error::from(std::io::ErrorKind::NotFound).into())
}
Err(err) => Err(ProcessError::Which(err)),
}
}
}
fn resolve_path(path: &str, cwd: &Path) -> PathBuf {
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deno_path_util::normalize_path(cwd.join(path))
}
#[derive(Debug, thiserror::Error)]
pub enum CheckRunPermissionError {
#[error(transparent)]
Permission(#[from] deno_permissions::PermissionCheckError),
#[error("{0}")]
Other(deno_core::error::AnyError),
}
fn check_run_permission(
state: &mut OpState,
cmd: &RunQueryDescriptor,
run_env: &RunEnv,
api_name: &str,
) -> Result<(), CheckRunPermissionError> {
let permissions = state.borrow_mut::<PermissionsContainer>();
if !permissions.query_run_all(api_name) {
// error the same on all platforms
let env_var_names = get_requires_allow_all_env_vars(run_env);
if !env_var_names.is_empty() {
// we don't allow users to launch subprocesses with any LD_ or DYLD_*
// env vars set because this allows executing code (ex. LD_PRELOAD)
return Err(CheckRunPermissionError::Other(
deno_core::error::custom_error(
"NotCapable",
format!(
"Requires --allow-run permissions to spawn subprocess with {0} environment variable{1}. Alternatively, spawn with {2} environment variable{1} unset.",
env_var_names.join(", "),
if env_var_names.len() != 1 { "s" } else { "" },
if env_var_names.len() != 1 { "these" } else { "the" }
),
),
));
}
permissions.check_run(cmd, api_name)?;
}
Ok(())
}
fn get_requires_allow_all_env_vars(env: &RunEnv) -> Vec<&str> {
fn requires_allow_all(key: &str) -> bool {
let key = key.trim();
// we could be more targted here, but there are quite a lot of
// LD_* and DYLD_* env variables
key.starts_with("LD_") || key.starts_with("DYLD_")
}
fn is_empty(value: &OsString) -> bool {
value.is_empty()
|| value.to_str().map(|v| v.trim().is_empty()).unwrap_or(false)
}
let mut found_envs = env
.envs
.iter()
.filter_map(|(k, v)| {
let key = k.to_str()?;
if requires_allow_all(key) && !is_empty(v) {
Some(key)
} else {
None
}
})
.collect::<Vec<_>>();
found_envs.sort();
found_envs
}
#[op2(stack_trace)]
#[serde]
fn op_spawn_child(
state: &mut OpState,
#[serde] args: SpawnArgs,
#[string] api_name: String,
) -> Result<Child, ProcessError> {
let detached = args.detached;
let (command, pipe_rid, extra_pipe_rids, handles_to_close) =
create_command(state, args, &api_name)?;
let child = spawn_child(state, command, pipe_rid, extra_pipe_rids, detached);
for handle in handles_to_close {
deno_io::close_raw_handle(handle);
}
child
}
#[op2(async)]
#[allow(clippy::await_holding_refcell_ref)]
#[serde]
async fn op_spawn_wait(
state: Rc<RefCell<OpState>>,
#[smi] rid: ResourceId,
) -> Result<ChildStatus, ProcessError> {
let resource = state
.borrow_mut()
.resource_table
.get::<ChildResource>(rid)
.map_err(ProcessError::Resource)?;
let result = resource
.0
.try_borrow_mut()
.map_err(ProcessError::BorrowMut)?
.wait()
.await?
.try_into()?;
if let Ok(resource) = state.borrow_mut().resource_table.take_any(rid) {
resource.close();
}
Ok(result)
}
#[op2(stack_trace)]
#[serde]
fn op_spawn_sync(
state: &mut OpState,
#[serde] args: SpawnArgs,
) -> Result<SpawnOutput, ProcessError> {
let stdout = matches!(args.stdio.stdout, StdioOrRid::Stdio(Stdio::Piped));
let stderr = matches!(args.stdio.stderr, StdioOrRid::Stdio(Stdio::Piped));
let (mut command, _, _, _) =
create_command(state, args, "Deno.Command().outputSync()")?;
let output = command.output().map_err(|e| ProcessError::SpawnFailed {
command: command.get_program().to_string_lossy().to_string(),
error: Box::new(e.into()),
})?;
Ok(SpawnOutput {
status: output.status.try_into()?,
stdout: if stdout {
Some(output.stdout.into())
} else {
None
},
stderr: if stderr {
Some(output.stderr.into())
} else {
None
},
})
2019-08-26 08:50:21 -04:00
}
#[op2(fast)]
fn op_spawn_kill(
state: &mut OpState,
#[smi] rid: ResourceId,
#[string] signal: String,
) -> Result<(), ProcessError> {
if let Ok(child_resource) = state.resource_table.get::<ChildResource>(rid) {
deprecated::kill(child_resource.1 as i32, &signal)?;
return Ok(());
}
Err(ProcessError::ChildProcessAlreadyTerminated)
}
mod deprecated {
use super::*;
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct RunArgs {
cmd: Vec<String>,
cwd: Option<String>,
env: Vec<(String, String)>,
stdin: StdioOrRid,
stdout: StdioOrRid,
stderr: StdioOrRid,
}
struct ChildResource {
child: AsyncRefCell<tokio::process::Child>,
}
impl Resource for ChildResource {
fn name(&self) -> Cow<str> {
"child".into()
}
}
impl ChildResource {
fn borrow_mut(self: Rc<Self>) -> AsyncMutFuture<tokio::process::Child> {
RcRef::map(self, |r| &r.child).borrow_mut()
}
}
#[derive(Serialize)]
#[serde(rename_all = "camelCase")]
// TODO(@AaronO): maybe find a more descriptive name or a convention for return structs
pub struct RunInfo {
rid: ResourceId,
pid: Option<u32>,
stdin_rid: Option<ResourceId>,
stdout_rid: Option<ResourceId>,
stderr_rid: Option<ResourceId>,
}
#[op2(stack_trace)]
#[serde]
pub fn op_run(
state: &mut OpState,
#[serde] run_args: RunArgs,
) -> Result<RunInfo, ProcessError> {
let args = run_args.cmd;
let cmd = args.first().ok_or(ProcessError::MissingCmd)?;
let (cmd, run_env) = compute_run_cmd_and_check_permissions(
cmd,
run_args.cwd.as_deref(),
&run_args.env,
/* clear env */ false,
state,
"Deno.run()",
)?;
let mut c = Command::new(cmd);
for arg in args.iter().skip(1) {
c.arg(arg);
}
c.current_dir(run_env.cwd);
c.env_clear();
for (key, value) in run_env.envs {
c.env(key, value);
}
#[cfg(unix)]
// TODO(bartlomieju):
#[allow(clippy::undocumented_unsafe_blocks)]
unsafe {
c.pre_exec(|| {
libc::setgroups(0, std::ptr::null());
Ok(())
});
}
// TODO: make this work with other resources, eg. sockets
c.stdin(run_args.stdin.as_stdio(state)?);
c.stdout(
match run_args.stdout {
StdioOrRid::Stdio(Stdio::Inherit) => StdioOrRid::Rid(1),
value => value,
}
.as_stdio(state)?,
);
c.stderr(
match run_args.stderr {
StdioOrRid::Stdio(Stdio::Inherit) => StdioOrRid::Rid(2),
value => value,
}
.as_stdio(state)?,
);
// We want to kill child when it's closed
c.kill_on_drop(true);
// Spawn the command.
let mut child = c.spawn()?;
let pid = child.id();
let stdin_rid = match child.stdin.take() {
Some(child_stdin) => {
let rid = state
.resource_table
.add(ChildStdinResource::from(child_stdin));
Some(rid)
}
None => None,
};
let stdout_rid = match child.stdout.take() {
Some(child_stdout) => {
let rid = state
.resource_table
.add(ChildStdoutResource::from(child_stdout));
Some(rid)
}
None => None,
};
let stderr_rid = match child.stderr.take() {
Some(child_stderr) => {
let rid = state
.resource_table
.add(ChildStderrResource::from(child_stderr));
Some(rid)
}
None => None,
};
let child_resource = ChildResource {
child: AsyncRefCell::new(child),
};
let child_rid = state.resource_table.add(child_resource);
Ok(RunInfo {
rid: child_rid,
pid,
stdin_rid,
stdout_rid,
stderr_rid,
})
}
#[derive(Serialize)]
#[serde(rename_all = "camelCase")]
pub struct ProcessStatus {
got_signal: bool,
exit_code: i32,
exit_signal: i32,
}
#[op2(async)]
#[serde]
pub async fn op_run_status(
state: Rc<RefCell<OpState>>,
#[smi] rid: ResourceId,
) -> Result<ProcessStatus, ProcessError> {
let resource = state
.borrow_mut()
.resource_table
.get::<ChildResource>(rid)
.map_err(ProcessError::Resource)?;
let mut child = resource.borrow_mut().await;
let run_status = child.wait().await?;
let code = run_status.code();
#[cfg(unix)]
let signal = run_status.signal();
#[cfg(not(unix))]
let signal = Default::default();
code
.or(signal)
.expect("Should have either an exit code or a signal.");
let got_signal = signal.is_some();
Ok(ProcessStatus {
got_signal,
exit_code: code.unwrap_or(-1),
exit_signal: signal.unwrap_or(-1),
})
}
#[cfg(unix)]
pub fn kill(pid: i32, signal: &str) -> Result<(), ProcessError> {
let signo = super::super::signal::signal_str_to_int(signal)?;
use nix::sys::signal::kill as unix_kill;
use nix::sys::signal::Signal;
use nix::unistd::Pid;
let sig = Signal::try_from(signo).map_err(ProcessError::Nix)?;
unix_kill(Pid::from_raw(pid), Some(sig)).map_err(ProcessError::Nix)
}
#[cfg(not(unix))]
pub fn kill(pid: i32, signal: &str) -> Result<(), ProcessError> {
use std::io::Error;
use std::io::ErrorKind::NotFound;
use winapi::shared::minwindef::DWORD;
use winapi::shared::minwindef::FALSE;
use winapi::shared::minwindef::TRUE;
use winapi::shared::winerror::ERROR_INVALID_PARAMETER;
use winapi::um::errhandlingapi::GetLastError;
use winapi::um::handleapi::CloseHandle;
use winapi::um::processthreadsapi::OpenProcess;
use winapi::um::processthreadsapi::TerminateProcess;
use winapi::um::winnt::PROCESS_TERMINATE;
if !matches!(signal, "SIGKILL" | "SIGTERM") {
Err(SignalError::InvalidSignalStr(signal.to_string()).into())
} else if pid <= 0 {
Err(ProcessError::InvalidPid)
} else {
let handle =
// SAFETY: winapi call
unsafe { OpenProcess(PROCESS_TERMINATE, FALSE, pid as DWORD) };
if handle.is_null() {
// SAFETY: winapi call
let err = match unsafe { GetLastError() } {
ERROR_INVALID_PARAMETER => Error::from(NotFound), // Invalid `pid`.
errno => Error::from_raw_os_error(errno as i32),
};
Err(err.into())
} else {
// SAFETY: winapi calls
unsafe {
let is_terminated = TerminateProcess(handle, 1);
CloseHandle(handle);
match is_terminated {
FALSE => Err(Error::last_os_error().into()),
TRUE => Ok(()),
_ => unreachable!(),
}
}
}
}
}
#[op2(fast, stack_trace)]
pub fn op_kill(
state: &mut OpState,
#[smi] pid: i32,
#[string] signal: String,
#[string] api_name: String,
) -> Result<(), ProcessError> {
state
.borrow_mut::<PermissionsContainer>()
.check_run_all(&api_name)?;
kill(pid, &signal)
}
}