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denoland-deno/runtime/ops/os/mod.rs
2023-07-09 22:48:47 +00:00

471 lines
12 KiB
Rust

// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
use super::utils::into_string;
use crate::permissions::PermissionsContainer;
use crate::worker::ExitCode;
use deno_core::error::type_error;
use deno_core::error::AnyError;
use deno_core::op;
use deno_core::url::Url;
use deno_core::v8;
use deno_core::Op;
use deno_core::OpState;
use deno_node::NODE_ENV_VAR_ALLOWLIST;
use serde::Serialize;
use std::collections::HashMap;
use std::env;
mod sys_info;
deno_core::ops!(
deno_ops,
[
op_env,
op_exec_path,
op_exit,
op_delete_env,
op_get_env,
op_gid,
op_hostname,
op_loadavg,
op_network_interfaces,
op_os_release,
op_os_uptime,
op_node_unstable_os_uptime,
op_set_env,
op_set_exit_code,
op_system_memory_info,
op_uid,
op_runtime_memory_usage,
]
);
deno_core::extension!(
deno_os,
ops_fn = deno_ops,
options = {
exit_code: ExitCode,
},
state = |state, options| {
state.put::<ExitCode>(options.exit_code);
},
);
deno_core::extension!(
deno_os_worker,
ops_fn = deno_ops,
middleware = |op| match op.name {
"op_exit" | "op_set_exit_code" =>
op.with_implementation_from(&deno_core::op_void_sync::DECL),
_ => op,
},
);
#[op]
fn op_exec_path(state: &mut OpState) -> Result<String, AnyError> {
let current_exe = env::current_exe().unwrap();
state
.borrow_mut::<PermissionsContainer>()
.check_read_blind(&current_exe, "exec_path", "Deno.execPath()")?;
// Now apply URL parser to current exe to get fully resolved path, otherwise
// we might get `./` and `../` bits in `exec_path`
let exe_url = Url::from_file_path(current_exe).unwrap();
let path = exe_url.to_file_path().unwrap();
into_string(path.into_os_string())
}
#[op]
fn op_set_env(
state: &mut OpState,
key: &str,
value: &str,
) -> Result<(), AnyError> {
state.borrow_mut::<PermissionsContainer>().check_env(key)?;
if key.is_empty() {
return Err(type_error("Key is an empty string."));
}
if key.contains(&['=', '\0'] as &[char]) {
return Err(type_error(format!(
"Key contains invalid characters: {key:?}"
)));
}
if value.contains('\0') {
return Err(type_error(format!(
"Value contains invalid characters: {value:?}"
)));
}
env::set_var(key, value);
Ok(())
}
#[op]
fn op_env(state: &mut OpState) -> Result<HashMap<String, String>, AnyError> {
state.borrow_mut::<PermissionsContainer>().check_env_all()?;
Ok(env::vars().collect())
}
#[op]
fn op_get_env(
state: &mut OpState,
key: String,
) -> Result<Option<String>, AnyError> {
let skip_permission_check = NODE_ENV_VAR_ALLOWLIST.contains(&key);
if !skip_permission_check {
state.borrow_mut::<PermissionsContainer>().check_env(&key)?;
}
if key.is_empty() {
return Err(type_error("Key is an empty string."));
}
if key.contains(&['=', '\0'] as &[char]) {
return Err(type_error(format!(
"Key contains invalid characters: {key:?}"
)));
}
let r = match env::var(key) {
Err(env::VarError::NotPresent) => None,
v => Some(v?),
};
Ok(r)
}
#[op]
fn op_delete_env(state: &mut OpState, key: String) -> Result<(), AnyError> {
state.borrow_mut::<PermissionsContainer>().check_env(&key)?;
if key.is_empty() || key.contains(&['=', '\0'] as &[char]) {
return Err(type_error("Key contains invalid characters."));
}
env::remove_var(key);
Ok(())
}
#[op]
fn op_set_exit_code(state: &mut OpState, code: i32) {
state.borrow_mut::<ExitCode>().set(code);
}
#[op]
fn op_exit(state: &mut OpState) {
let code = state.borrow::<ExitCode>().get();
std::process::exit(code)
}
#[op]
fn op_loadavg(state: &mut OpState) -> Result<(f64, f64, f64), AnyError> {
state
.borrow_mut::<PermissionsContainer>()
.check_sys("loadavg", "Deno.loadavg()")?;
Ok(sys_info::loadavg())
}
#[op]
fn op_hostname(state: &mut OpState) -> Result<String, AnyError> {
state
.borrow_mut::<PermissionsContainer>()
.check_sys("hostname", "Deno.hostname()")?;
Ok(sys_info::hostname())
}
#[op]
fn op_os_release(state: &mut OpState) -> Result<String, AnyError> {
state
.borrow_mut::<PermissionsContainer>()
.check_sys("osRelease", "Deno.osRelease()")?;
Ok(sys_info::os_release())
}
#[op]
fn op_network_interfaces(
state: &mut OpState,
) -> Result<Vec<NetworkInterface>, AnyError> {
state
.borrow_mut::<PermissionsContainer>()
.check_sys("networkInterfaces", "Deno.networkInterfaces()")?;
Ok(netif::up()?.map(NetworkInterface::from).collect())
}
#[derive(serde::Serialize)]
struct NetworkInterface {
family: &'static str,
name: String,
address: String,
netmask: String,
scopeid: Option<u32>,
cidr: String,
mac: String,
}
impl From<netif::Interface> for NetworkInterface {
fn from(ifa: netif::Interface) -> Self {
let family = match ifa.address() {
std::net::IpAddr::V4(_) => "IPv4",
std::net::IpAddr::V6(_) => "IPv6",
};
let (address, range) = ifa.cidr();
let cidr = format!("{address:?}/{range}");
let name = ifa.name().to_owned();
let address = format!("{:?}", ifa.address());
let netmask = format!("{:?}", ifa.netmask());
let scopeid = ifa.scope_id();
let [b0, b1, b2, b3, b4, b5] = ifa.mac();
let mac = format!("{b0:02x}:{b1:02x}:{b2:02x}:{b3:02x}:{b4:02x}:{b5:02x}");
Self {
family,
name,
address,
netmask,
scopeid,
cidr,
mac,
}
}
}
#[op]
fn op_system_memory_info(
state: &mut OpState,
) -> Result<Option<sys_info::MemInfo>, AnyError> {
state
.borrow_mut::<PermissionsContainer>()
.check_sys("systemMemoryInfo", "Deno.systemMemoryInfo()")?;
Ok(sys_info::mem_info())
}
#[cfg(not(windows))]
#[op]
fn op_gid(state: &mut OpState) -> Result<Option<u32>, AnyError> {
state
.borrow_mut::<PermissionsContainer>()
.check_sys("gid", "Deno.gid()")?;
// TODO(bartlomieju):
#[allow(clippy::undocumented_unsafe_blocks)]
unsafe {
Ok(Some(libc::getgid()))
}
}
#[cfg(windows)]
#[op]
fn op_gid(state: &mut OpState) -> Result<Option<u32>, AnyError> {
state
.borrow_mut::<PermissionsContainer>()
.check_sys("gid", "Deno.gid()")?;
Ok(None)
}
#[cfg(not(windows))]
#[op]
fn op_uid(state: &mut OpState) -> Result<Option<u32>, AnyError> {
state
.borrow_mut::<PermissionsContainer>()
.check_sys("uid", "Deno.uid()")?;
// TODO(bartlomieju):
#[allow(clippy::undocumented_unsafe_blocks)]
unsafe {
Ok(Some(libc::getuid()))
}
}
#[cfg(windows)]
#[op]
fn op_uid(state: &mut OpState) -> Result<Option<u32>, AnyError> {
state
.borrow_mut::<PermissionsContainer>()
.check_sys("uid", "Deno.uid()")?;
Ok(None)
}
// HeapStats stores values from a isolate.get_heap_statistics() call
#[derive(Serialize)]
#[serde(rename_all = "camelCase")]
struct MemoryUsage {
rss: usize,
heap_total: usize,
heap_used: usize,
external: usize,
}
#[op(v8)]
fn op_runtime_memory_usage(scope: &mut v8::HandleScope) -> MemoryUsage {
let mut s = v8::HeapStatistics::default();
scope.get_heap_statistics(&mut s);
MemoryUsage {
rss: rss(),
heap_total: s.total_heap_size(),
heap_used: s.used_heap_size(),
external: s.external_memory(),
}
}
#[cfg(target_os = "linux")]
fn rss() -> usize {
// Inspired by https://github.com/Arc-blroth/memory-stats/blob/5364d0d09143de2a470d33161b2330914228fde9/src/linux.rs
// Extracts a positive integer from a string that
// may contain leading spaces and trailing chars.
// Returns the extracted number and the index of
// the next character in the string.
fn scan_int(string: &str) -> (usize, usize) {
let mut out = 0;
let mut idx = 0;
let mut chars = string.chars().peekable();
while let Some(' ') = chars.next_if_eq(&' ') {
idx += 1;
}
for n in chars {
idx += 1;
if n.is_ascii_digit() {
out *= 10;
out += n as usize - '0' as usize;
} else {
break;
}
}
(out, idx)
}
#[allow(clippy::disallowed_methods)]
let statm_content = if let Ok(c) = std::fs::read_to_string("/proc/self/statm")
{
c
} else {
return 0;
};
// statm returns the virtual size and rss, in
// multiples of the page size, as the first
// two columns of output.
// SAFETY: libc call
let page_size = unsafe { libc::sysconf(libc::_SC_PAGESIZE) };
if page_size < 0 {
return 0;
}
let (_total_size_pages, idx) = scan_int(&statm_content);
let (total_rss_pages, _) = scan_int(&statm_content[idx..]);
total_rss_pages * page_size as usize
}
#[cfg(target_os = "macos")]
fn rss() -> usize {
// Inspired by https://github.com/Arc-blroth/memory-stats/blob/5364d0d09143de2a470d33161b2330914228fde9/src/darwin.rs
let mut task_info =
std::mem::MaybeUninit::<libc::mach_task_basic_info_data_t>::uninit();
let mut count = libc::MACH_TASK_BASIC_INFO_COUNT;
// SAFETY: libc calls
let r = unsafe {
libc::task_info(
libc::mach_task_self(),
libc::MACH_TASK_BASIC_INFO,
task_info.as_mut_ptr() as libc::task_info_t,
&mut count as *mut libc::mach_msg_type_number_t,
)
};
// According to libuv this should never fail
assert_eq!(r, libc::KERN_SUCCESS);
// SAFETY: we just asserted that it was success
let task_info = unsafe { task_info.assume_init() };
task_info.resident_size as usize
}
#[cfg(target_os = "openbsd")]
fn rss() -> usize {
// Uses OpenBSD's KERN_PROC_PID sysctl(2)
// to retrieve information about the current
// process, part of which is the RSS (p_vm_rssize)
// SAFETY: libc call (get PID of own process)
let pid = unsafe { libc::getpid() };
// SAFETY: libc call (get system page size)
let pagesize = unsafe { libc::sysconf(libc::_SC_PAGESIZE) } as usize;
// KERN_PROC_PID returns a struct libc::kinfo_proc
let mut kinfoproc = std::mem::MaybeUninit::<libc::kinfo_proc>::uninit();
let mut size = std::mem::size_of_val(&kinfoproc) as libc::size_t;
let mut mib = [
libc::CTL_KERN,
libc::KERN_PROC,
libc::KERN_PROC_PID,
pid,
// mib is an array of integers, size is of type size_t
// conversion is safe, because the size of a libc::kinfo_proc
// structure will not exceed i32::MAX
size.try_into().unwrap(),
1,
];
// SAFETY: libc call, mib has been statically initialized,
// kinfoproc is a valid pointer to a libc::kinfo_proc struct
let res = unsafe {
libc::sysctl(
mib.as_mut_ptr(),
mib.len() as _,
kinfoproc.as_mut_ptr() as *mut libc::c_void,
&mut size,
std::ptr::null_mut(),
0,
)
};
if res == 0 {
// SAFETY: sysctl returns 0 on success and kinfoproc is initialized
// p_vm_rssize contains size in pages -> multiply with pagesize to
// get size in bytes.
pagesize * unsafe { (*kinfoproc.as_mut_ptr()).p_vm_rssize as usize }
} else {
0
}
}
#[cfg(windows)]
fn rss() -> usize {
use winapi::shared::minwindef::DWORD;
use winapi::shared::minwindef::FALSE;
use winapi::um::processthreadsapi::GetCurrentProcess;
use winapi::um::psapi::GetProcessMemoryInfo;
use winapi::um::psapi::PROCESS_MEMORY_COUNTERS;
// SAFETY: winapi calls
unsafe {
// this handle is a constant—no need to close it
let current_process = GetCurrentProcess();
let mut pmc: PROCESS_MEMORY_COUNTERS = std::mem::zeroed();
if GetProcessMemoryInfo(
current_process,
&mut pmc,
std::mem::size_of::<PROCESS_MEMORY_COUNTERS>() as DWORD,
) != FALSE
{
pmc.WorkingSetSize
} else {
0
}
}
}
fn os_uptime(state: &mut OpState) -> Result<u64, AnyError> {
state
.borrow_mut::<PermissionsContainer>()
.check_sys("osUptime", "Deno.osUptime()")?;
Ok(sys_info::os_uptime())
}
#[op]
fn op_os_uptime(state: &mut OpState) -> Result<u64, AnyError> {
os_uptime(state)
}
#[op]
fn op_node_unstable_os_uptime(state: &mut OpState) -> Result<u64, AnyError> {
os_uptime(state)
}