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denoland-deno/ext/ffi/dlfcn.rs

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// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license.
use crate::check_unstable;
use crate::symbol::NativeType;
use crate::symbol::Symbol;
use crate::turbocall;
use crate::FfiPermissions;
use deno_core::error::generic_error;
use deno_core::error::AnyError;
use deno_core::op;
use deno_core::serde_v8;
use deno_core::v8;
use deno_core::Resource;
use deno_core::ResourceId;
use dlopen::raw::Library;
use serde::Deserialize;
use std::borrow::Cow;
use std::collections::HashMap;
use std::ffi::c_void;
use std::path::PathBuf;
use std::rc::Rc;
pub struct DynamicLibraryResource {
lib: Library,
pub symbols: HashMap<String, Box<Symbol>>,
}
impl Resource for DynamicLibraryResource {
fn name(&self) -> Cow<str> {
"dynamicLibrary".into()
}
fn close(self: Rc<Self>) {
drop(self)
}
}
impl DynamicLibraryResource {
pub fn get_static(&self, symbol: String) -> Result<*const c_void, AnyError> {
// By default, Err returned by this function does not tell
// which symbol wasn't exported. So we'll modify the error
// message to include the name of symbol.
//
// SAFETY: The obtained T symbol is the size of a pointer.
match unsafe { self.lib.symbol::<*const c_void>(&symbol) } {
Ok(value) => Ok(Ok(value)),
Err(err) => Err(generic_error(format!(
"Failed to register symbol {}: {}",
symbol, err
))),
}?
}
}
pub fn needs_unwrap(rv: NativeType) -> bool {
matches!(
rv,
NativeType::Function
| NativeType::Pointer
| NativeType::Buffer
| NativeType::I64
| NativeType::ISize
| NativeType::U64
| NativeType::USize
)
}
fn is_i64(rv: NativeType) -> bool {
matches!(rv, NativeType::I64 | NativeType::ISize)
}
#[derive(Deserialize, Debug)]
#[serde(rename_all = "camelCase")]
pub struct ForeignFunction {
name: Option<String>,
pub parameters: Vec<NativeType>,
pub result: NativeType,
#[serde(rename = "nonblocking")]
non_blocking: Option<bool>,
#[serde(rename = "callback")]
#[serde(default = "default_callback")]
callback: bool,
}
fn default_callback() -> bool {
false
}
// ForeignStatic's name and type fields are read and used by
// serde_v8 to determine which variant a ForeignSymbol is.
// They are not used beyond that and are thus marked with underscores.
#[derive(Deserialize, Debug)]
struct ForeignStatic {
#[serde(rename(deserialize = "name"))]
_name: Option<String>,
#[serde(rename(deserialize = "type"))]
_type: String,
}
#[derive(Deserialize, Debug)]
#[serde(untagged)]
enum ForeignSymbol {
ForeignFunction(ForeignFunction),
ForeignStatic(ForeignStatic),
}
#[derive(Deserialize, Debug)]
pub struct FfiLoadArgs {
path: String,
symbols: HashMap<String, ForeignSymbol>,
}
#[op(v8)]
pub fn op_ffi_load<FP, 'scope>(
scope: &mut v8::HandleScope<'scope>,
state: &mut deno_core::OpState,
args: FfiLoadArgs,
) -> Result<(ResourceId, serde_v8::Value<'scope>), AnyError>
where
FP: FfiPermissions + 'static,
{
let path = args.path;
check_unstable(state, "Deno.dlopen");
let permissions = state.borrow_mut::<FP>();
permissions.check(Some(&PathBuf::from(&path)))?;
let lib = Library::open(&path).map_err(|e| {
dlopen::Error::OpeningLibraryError(std::io::Error::new(
std::io::ErrorKind::Other,
format_error(e, path),
))
})?;
let mut resource = DynamicLibraryResource {
lib,
symbols: HashMap::new(),
};
let obj = v8::Object::new(scope);
for (symbol_key, foreign_symbol) in args.symbols {
match foreign_symbol {
ForeignSymbol::ForeignStatic(_) => {
// No-op: Statics will be handled separately and are not part of the Rust-side resource.
}
ForeignSymbol::ForeignFunction(foreign_fn) => {
let symbol = match &foreign_fn.name {
Some(symbol) => symbol,
None => &symbol_key,
};
// By default, Err returned by this function does not tell
// which symbol wasn't exported. So we'll modify the error
// message to include the name of symbol.
let fn_ptr =
// SAFETY: The obtained T symbol is the size of a pointer.
match unsafe { resource.lib.symbol::<*const c_void>(symbol) } {
Ok(value) => Ok(value),
Err(err) => Err(generic_error(format!(
"Failed to register symbol {}: {}",
symbol, err
))),
}?;
let ptr = libffi::middle::CodePtr::from_ptr(fn_ptr as _);
let cif = libffi::middle::Cif::new(
foreign_fn
.parameters
.clone()
.into_iter()
.map(libffi::middle::Type::from),
foreign_fn.result.into(),
);
let func_key = v8::String::new(scope, &symbol_key).unwrap();
let sym = Box::new(Symbol {
cif,
ptr,
parameter_types: foreign_fn.parameters,
result_type: foreign_fn.result,
can_callback: foreign_fn.callback,
});
resource.symbols.insert(symbol_key, sym.clone());
match foreign_fn.non_blocking {
// Generate functions for synchronous calls.
Some(false) | None => {
let function = make_sync_fn(scope, sym);
obj.set(scope, func_key.into(), function.into());
}
// This optimization is not yet supported for non-blocking calls.
_ => {}
};
}
}
}
let rid = state.resource_table.add(resource);
Ok((
rid,
serde_v8::Value {
v8_value: obj.into(),
},
))
}
// Create a JavaScript function for synchronous FFI call to
// the given symbol.
fn make_sync_fn<'s>(
scope: &mut v8::HandleScope<'s>,
sym: Box<Symbol>,
) -> v8::Local<'s, v8::Function> {
let sym = Box::leak(sym);
let builder = v8::FunctionTemplate::builder(
|scope: &mut v8::HandleScope,
args: v8::FunctionCallbackArguments,
mut rv: v8::ReturnValue| {
let external: v8::Local<v8::External> = args.data().try_into().unwrap();
// SAFETY: The pointer will not be deallocated until the function is
// garbage collected.
let symbol = unsafe { &*(external.value() as *const Symbol) };
let needs_unwrap = match needs_unwrap(symbol.result_type) {
true => Some(args.get(symbol.parameter_types.len() as i32)),
false => None,
};
match crate::call::ffi_call_sync(scope, args, symbol) {
Ok(result) => {
match needs_unwrap {
Some(v) => {
let view: v8::Local<v8::ArrayBufferView> = v.try_into().unwrap();
let backing_store =
view.buffer(scope).unwrap().get_backing_store();
if is_i64(symbol.result_type) {
// SAFETY: v8::SharedRef<v8::BackingStore> is similar to Arc<[u8]>,
// it points to a fixed continuous slice of bytes on the heap.
let bs = unsafe {
&mut *(&backing_store[..] as *const _ as *mut [u8]
as *mut i64)
};
// SAFETY: We already checked that type == I64
let value = unsafe { result.i64_value };
*bs = value;
} else {
// SAFETY: v8::SharedRef<v8::BackingStore> is similar to Arc<[u8]>,
// it points to a fixed continuous slice of bytes on the heap.
let bs = unsafe {
&mut *(&backing_store[..] as *const _ as *mut [u8]
as *mut u64)
};
// SAFETY: We checked that type == U64
let value = unsafe { result.u64_value };
*bs = value;
}
}
None => {
// SAFETY: Same return type declared to libffi; trust user to have it right beyond that.
let result = unsafe { result.to_v8(scope, symbol.result_type) };
rv.set(result.v8_value);
}
}
}
Err(err) => {
deno_core::_ops::throw_type_error(scope, err.to_string());
}
};
},
)
.data(v8::External::new(scope, sym as *mut Symbol as *mut _).into());
let mut fast_call_alloc = None;
let func = if turbocall::is_compatible(sym) {
let trampoline = turbocall::compile_trampoline(sym);
let func = builder.build_fast(
scope,
&turbocall::make_template(sym, &trampoline),
None,
);
fast_call_alloc = Some(Box::into_raw(Box::new(trampoline)));
func
} else {
builder.build(scope)
};
let func = func.get_function(scope).unwrap();
let weak = v8::Weak::with_finalizer(
scope,
func,
Box::new(move |_| {
// SAFETY: This is never called twice. pointer obtained
// from Box::into_raw, hence, satisfies memory layout requirements.
let _ = unsafe { Box::from_raw(sym) };
if let Some(fast_call_ptr) = fast_call_alloc {
// fast-call compiled trampoline is unmapped when the MMAP handle is dropped
// SAFETY: This is never called twice. pointer obtained
// from Box::into_raw, hence, satisfies memory layout requirements.
let _ = unsafe { Box::from_raw(fast_call_ptr) };
}
}),
);
weak.to_local(scope).unwrap()
}
// `path` is only used on Windows.
#[allow(unused_variables)]
pub(crate) fn format_error(e: dlopen::Error, path: String) -> String {
match e {
#[cfg(target_os = "windows")]
// This calls FormatMessageW with library path
// as replacement for the insert sequences.
// Unlike libstd which passes the FORMAT_MESSAGE_IGNORE_INSERTS
// flag without any arguments.
//
// https://github.com/denoland/deno/issues/11632
dlopen::Error::OpeningLibraryError(e) => {
use std::ffi::OsStr;
use std::os::windows::ffi::OsStrExt;
use winapi::shared::minwindef::DWORD;
use winapi::shared::winerror::ERROR_INSUFFICIENT_BUFFER;
use winapi::um::errhandlingapi::GetLastError;
use winapi::um::winbase::FormatMessageW;
use winapi::um::winbase::FORMAT_MESSAGE_ARGUMENT_ARRAY;
use winapi::um::winbase::FORMAT_MESSAGE_FROM_SYSTEM;
use winapi::um::winnt::LANG_SYSTEM_DEFAULT;
use winapi::um::winnt::MAKELANGID;
use winapi::um::winnt::SUBLANG_SYS_DEFAULT;
let err_num = match e.raw_os_error() {
Some(err_num) => err_num,
// This should never hit unless dlopen changes its error type.
None => return e.to_string(),
};
// Language ID (0x0800)
let lang_id =
MAKELANGID(LANG_SYSTEM_DEFAULT, SUBLANG_SYS_DEFAULT) as DWORD;
let mut buf = vec![0; 500];
let path = OsStr::new(&path)
.encode_wide()
.chain(Some(0).into_iter())
.collect::<Vec<_>>();
let arguments = [path.as_ptr()];
loop {
// SAFETY:
// winapi call to format the error message
let length = unsafe {
FormatMessageW(
FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_ARGUMENT_ARRAY,
std::ptr::null_mut(),
err_num as DWORD,
lang_id as DWORD,
buf.as_mut_ptr(),
buf.len() as DWORD,
arguments.as_ptr() as _,
)
};
if length == 0 {
// SAFETY:
// winapi call to get the last error message
let err_num = unsafe { GetLastError() };
if err_num == ERROR_INSUFFICIENT_BUFFER {
buf.resize(buf.len() * 2, 0);
continue;
}
// Something went wrong, just return the original error.
return e.to_string();
}
let msg = String::from_utf16_lossy(&buf[..length as usize]);
return msg;
}
}
_ => e.to_string(),
}
}
#[cfg(test)]
mod tests {
#[cfg(target_os = "windows")]
#[test]
fn test_format_error() {
use super::format_error;
// BAD_EXE_FORMAT
let err = dlopen::Error::OpeningLibraryError(
std::io::Error::from_raw_os_error(0x000000C1),
);
assert_eq!(
format_error(err, "foo.dll".to_string()),
"foo.dll is not a valid Win32 application.\r\n".to_string(),
);
}
}