denoland-deno/ext/node/ops/vm_internal.rs

// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.

use crate::create_host_defined_options;
use deno_core::error::type_error;
use deno_core::error::AnyError;
use deno_core::v8;
use deno_core::v8::MapFnTo;

pub const PRIVATE_SYMBOL_NAME: v8::OneByteConst =
  v8::String::create_external_onebyte_const(b"node:contextify:context");

/// An unbounded script that can be run in a context.
#[derive(Debug)]
pub struct ContextifyScript {
  script: v8::Global<v8::UnboundScript>,
}

impl ContextifyScript {
  pub fn new(
    scope: &mut v8::HandleScope,
    source_str: v8::Local<v8::String>,
  ) -> Result<Self, AnyError> {
    let resource_name = v8::undefined(scope);
    let host_defined_options = create_host_defined_options(scope);
    let origin = v8::ScriptOrigin::new(
      scope,
      resource_name.into(),
      0,
      0,
      false,
      0,
      None,
      false,
      false,
      false,
      Some(host_defined_options),
    );
    let mut source =
      v8::script_compiler::Source::new(source_str, Some(&origin));

    let unbound_script = v8::script_compiler::compile_unbound_script(
      scope,
      &mut source,
      v8::script_compiler::CompileOptions::NoCompileOptions,
      v8::script_compiler::NoCacheReason::NoReason,
    )
    .ok_or_else(|| type_error("Failed to compile script"))?;
    let script = v8::Global::new(scope, unbound_script);
    Ok(Self { script })
  }

  // TODO(littledivy): Support `options`
  pub fn eval_machine<'s>(
    &self,
    scope: &mut v8::HandleScope<'s>,
    _context: v8::Local<v8::Context>,
  ) -> Option<v8::Local<'s, v8::Value>> {
    let tc_scope = &mut v8::TryCatch::new(scope);

    let unbound_script = v8::Local::new(tc_scope, self.script.clone());
    let script = unbound_script.bind_to_current_context(tc_scope);

    let result = script.run(tc_scope);

    if tc_scope.has_caught() {
      // If there was an exception thrown during script execution, re-throw it.
      if !tc_scope.has_terminated() {
        tc_scope.rethrow();
      }

      return None;
    }

    Some(result.unwrap())
  }
}

pub struct ContextifyContext {
  context: v8::TracedReference<v8::Context>,
  sandbox: v8::TracedReference<v8::Object>,
}

impl deno_core::GarbageCollected for ContextifyContext {
  fn trace(&self, visitor: &v8::cppgc::Visitor) {
    visitor.trace(&self.context);
    visitor.trace(&self.sandbox);
  }
}

impl ContextifyContext {
  pub fn attach(
    scope: &mut v8::HandleScope,
    sandbox_obj: v8::Local<v8::Object>,
  ) {
    let tmp = init_global_template(scope, ContextInitMode::UseSnapshot);
    let context = create_v8_context(scope, tmp, ContextInitMode::UseSnapshot);
    Self::from_context(scope, context, sandbox_obj);
  }

  fn from_context(
    scope: &mut v8::HandleScope,
    v8_context: v8::Local<v8::Context>,
    sandbox_obj: v8::Local<v8::Object>,
  ) {
    let main_context = scope.get_current_context();
    let context_state = main_context.get_aligned_pointer_from_embedder_data(
      deno_core::CONTEXT_STATE_SLOT_INDEX,
    );
    let module_map = main_context
      .get_aligned_pointer_from_embedder_data(deno_core::MODULE_MAP_SLOT_INDEX);

    v8_context.set_security_token(main_context.get_security_token(scope));
    // SAFETY: set embedder data from the creation context
    unsafe {
      v8_context.set_aligned_pointer_in_embedder_data(
        deno_core::CONTEXT_STATE_SLOT_INDEX,
        context_state,
      );
      v8_context.set_aligned_pointer_in_embedder_data(
        deno_core::MODULE_MAP_SLOT_INDEX,
        module_map,
      );
    }

    let context = v8::TracedReference::new(scope, v8_context);
    let sandbox = v8::TracedReference::new(scope, sandbox_obj);
    let wrapper =
      deno_core::cppgc::make_cppgc_object(scope, Self { context, sandbox });
    let ptr =
      deno_core::cppgc::try_unwrap_cppgc_object::<Self>(scope, wrapper.into());

    // SAFETY: We are storing a pointer to the ContextifyContext
    // in the embedder data of the v8::Context. The contextified wrapper
    // lives longer than the execution context, so this should be safe.
    unsafe {
      v8_context.set_aligned_pointer_in_embedder_data(
        3,
        &*ptr.unwrap() as *const ContextifyContext as _,
      );
    }

    let private_str =
      v8::String::new_from_onebyte_const(scope, &PRIVATE_SYMBOL_NAME);
    let private_symbol = v8::Private::for_api(scope, private_str);

    sandbox_obj.set_private(scope, private_symbol, wrapper.into());
  }

  pub fn from_sandbox_obj<'a>(
    scope: &mut v8::HandleScope<'a>,
    sandbox_obj: v8::Local<v8::Object>,
  ) -> Option<&'a Self> {
    let private_str =
      v8::String::new_from_onebyte_const(scope, &PRIVATE_SYMBOL_NAME);
    let private_symbol = v8::Private::for_api(scope, private_str);

    sandbox_obj
      .get_private(scope, private_symbol)
      .and_then(|wrapper| {
        deno_core::cppgc::try_unwrap_cppgc_object::<Self>(scope, wrapper)
          // SAFETY: the lifetime of the scope does not actually bind to
          // the lifetime of this reference at all, but the object we read
          // it from does, so it will be alive at least that long.
          .map(|r| unsafe { &*(&*r as *const _) })
      })
  }

  pub fn is_contextify_context(
    scope: &mut v8::HandleScope,
    object: v8::Local<v8::Object>,
  ) -> bool {
    Self::from_sandbox_obj(scope, object).is_some()
  }

  pub fn context<'a>(
    &self,
    scope: &mut v8::HandleScope<'a>,
  ) -> v8::Local<'a, v8::Context> {
    self.context.get(scope).unwrap()
  }

  fn global_proxy<'s>(
    &self,
    scope: &mut v8::HandleScope<'s>,
  ) -> v8::Local<'s, v8::Object> {
    let ctx = self.context(scope);
    ctx.global(scope)
  }

  fn sandbox<'a>(
    &self,
    scope: &mut v8::HandleScope<'a>,
  ) -> v8::Local<'a, v8::Object> {
    self.sandbox.get(scope).unwrap()
  }

  fn get<'a, 'c>(
    scope: &mut v8::HandleScope<'a>,
    object: v8::Local<'a, v8::Object>,
  ) -> Option<&'c ContextifyContext> {
    let context = object.get_creation_context(scope)?;

    let context_ptr = context.get_aligned_pointer_from_embedder_data(3);
    if context_ptr.is_null() {
      return None;
    }
    // SAFETY: We are storing a pointer to the ContextifyContext
    // in the embedder data of the v8::Context during creation.
    Some(unsafe { &*(context_ptr as *const ContextifyContext) })
  }
}

pub const VM_CONTEXT_INDEX: usize = 0;

#[derive(PartialEq)]
pub enum ContextInitMode {
  ForSnapshot,
  UseSnapshot,
}

pub fn create_v8_context<'a>(
  scope: &mut v8::HandleScope<'a, ()>,
  object_template: v8::Local<v8::ObjectTemplate>,
  mode: ContextInitMode,
) -> v8::Local<'a, v8::Context> {
  let scope = &mut v8::EscapableHandleScope::new(scope);

  let context = if mode == ContextInitMode::UseSnapshot {
    v8::Context::from_snapshot(scope, VM_CONTEXT_INDEX, Default::default())
      .unwrap()
  } else {
    let ctx = v8::Context::new(
      scope,
      v8::ContextOptions {
        global_template: Some(object_template),
        ..Default::default()
      },
    );
    // SAFETY: ContextifyContexts will update this to a pointer to the native object
    unsafe {
      ctx.set_aligned_pointer_in_embedder_data(1, std::ptr::null_mut());
      ctx.set_aligned_pointer_in_embedder_data(2, std::ptr::null_mut());
      ctx.set_aligned_pointer_in_embedder_data(3, std::ptr::null_mut());
      ctx.clear_all_slots();
    };
    ctx
  };

  scope.escape(context)
}

#[derive(Debug, Clone)]
struct SlotContextifyGlobalTemplate(v8::Global<v8::ObjectTemplate>);

pub fn init_global_template<'a>(
  scope: &mut v8::HandleScope<'a, ()>,
  mode: ContextInitMode,
) -> v8::Local<'a, v8::ObjectTemplate> {
  let maybe_object_template_slot =
    scope.get_slot::<SlotContextifyGlobalTemplate>();

  if maybe_object_template_slot.is_none() {
    let global_object_template = init_global_template_inner(scope);

    if mode == ContextInitMode::UseSnapshot {
      let contextify_global_template_slot = SlotContextifyGlobalTemplate(
        v8::Global::new(scope, global_object_template),
      );
      scope.set_slot(contextify_global_template_slot);
    }
    global_object_template
  } else {
    let object_template_slot = maybe_object_template_slot
      .expect("ContextifyGlobalTemplate slot should be already populated.")
      .clone();
    v8::Local::new(scope, object_template_slot.0)
  }
}

// Using thread_local! to get around compiler bug.
//
// See NOTE in ext/node/global.rs#L12
thread_local! {
  pub static GETTER_MAP_FN: v8::NamedPropertyGetterCallback<'static> = property_getter.map_fn_to();
  pub static SETTER_MAP_FN: v8::NamedPropertySetterCallback<'static> = property_setter.map_fn_to();
  pub static DELETER_MAP_FN: v8::NamedPropertyDeleterCallback<'static> = property_deleter.map_fn_to();
  pub static ENUMERATOR_MAP_FN: v8::NamedPropertyEnumeratorCallback<'static> = property_enumerator.map_fn_to();
  pub static DEFINER_MAP_FN: v8::NamedPropertyDefinerCallback<'static> = property_definer.map_fn_to();
  pub static DESCRIPTOR_MAP_FN: v8::NamedPropertyGetterCallback<'static> = property_descriptor.map_fn_to();
}

thread_local! {
  pub static INDEXED_GETTER_MAP_FN: v8::IndexedPropertyGetterCallback<'static> = indexed_property_getter.map_fn_to();
  pub static INDEXED_SETTER_MAP_FN: v8::IndexedPropertySetterCallback<'static> = indexed_property_setter.map_fn_to();
  pub static INDEXED_DELETER_MAP_FN: v8::IndexedPropertyDeleterCallback<'static> = indexed_property_deleter.map_fn_to();
  pub static INDEXED_DEFINER_MAP_FN: v8::IndexedPropertyDefinerCallback<'static> = indexed_property_definer.map_fn_to();
  pub static INDEXED_DESCRIPTOR_MAP_FN: v8::IndexedPropertyGetterCallback<'static> = indexed_property_descriptor.map_fn_to();
}

pub fn init_global_template_inner<'a>(
  scope: &mut v8::HandleScope<'a, ()>,
) -> v8::Local<'a, v8::ObjectTemplate> {
  let global_object_template = v8::ObjectTemplate::new(scope);
  global_object_template.set_internal_field_count(3);

  let named_property_handler_config = {
    let mut config = v8::NamedPropertyHandlerConfiguration::new()
      .flags(v8::PropertyHandlerFlags::HAS_NO_SIDE_EFFECT);

    config = GETTER_MAP_FN.with(|getter| config.getter_raw(*getter));
    config = SETTER_MAP_FN.with(|setter| config.setter_raw(*setter));
    config = DELETER_MAP_FN.with(|deleter| config.deleter_raw(*deleter));
    config =
      ENUMERATOR_MAP_FN.with(|enumerator| config.enumerator_raw(*enumerator));
    config = DEFINER_MAP_FN.with(|definer| config.definer_raw(*definer));
    config =
      DESCRIPTOR_MAP_FN.with(|descriptor| config.descriptor_raw(*descriptor));

    config
  };

  let indexed_property_handler_config = {
    let mut config = v8::IndexedPropertyHandlerConfiguration::new()
      .flags(v8::PropertyHandlerFlags::HAS_NO_SIDE_EFFECT);

    config = INDEXED_GETTER_MAP_FN.with(|getter| config.getter_raw(*getter));
    config = INDEXED_SETTER_MAP_FN.with(|setter| config.setter_raw(*setter));
    config =
      INDEXED_DELETER_MAP_FN.with(|deleter| config.deleter_raw(*deleter));
    config =
      ENUMERATOR_MAP_FN.with(|enumerator| config.enumerator_raw(*enumerator));
    config =
      INDEXED_DEFINER_MAP_FN.with(|definer| config.definer_raw(*definer));
    config = INDEXED_DESCRIPTOR_MAP_FN
      .with(|descriptor| config.descriptor_raw(*descriptor));

    config
  };

  global_object_template
    .set_named_property_handler(named_property_handler_config);
  global_object_template
    .set_indexed_property_handler(indexed_property_handler_config);

  global_object_template
}

fn property_getter<'s>(
  scope: &mut v8::HandleScope<'s>,
  key: v8::Local<'s, v8::Name>,
  args: v8::PropertyCallbackArguments<'s>,
  mut ret: v8::ReturnValue,
) -> v8::Intercepted {
  let Some(ctx) = ContextifyContext::get(scope, args.this()) else {
    return v8::Intercepted::No;
  };

  let sandbox = ctx.sandbox(scope);

  let tc_scope = &mut v8::TryCatch::new(scope);
  let maybe_rv = sandbox.get_real_named_property(tc_scope, key).or_else(|| {
    ctx
      .global_proxy(tc_scope)
      .get_real_named_property(tc_scope, key)
  });

  if let Some(mut rv) = maybe_rv {
    if tc_scope.has_caught() && !tc_scope.has_terminated() {
      tc_scope.rethrow();
    }

    if rv == sandbox {
      rv = ctx.global_proxy(tc_scope).into();
    }

    ret.set(rv);
    return v8::Intercepted::Yes;
  }

  v8::Intercepted::No
}

fn property_setter<'s>(
  scope: &mut v8::HandleScope<'s>,
  key: v8::Local<'s, v8::Name>,
  value: v8::Local<'s, v8::Value>,
  args: v8::PropertyCallbackArguments<'s>,
  mut rv: v8::ReturnValue<()>,
) -> v8::Intercepted {
  let Some(ctx) = ContextifyContext::get(scope, args.this()) else {
    return v8::Intercepted::No;
  };

  let (attributes, is_declared_on_global_proxy) = match ctx
    .global_proxy(scope)
    .get_real_named_property_attributes(scope, key)
  {
    Some(attr) => (attr, true),
    None => (v8::PropertyAttribute::NONE, false),
  };
  let mut read_only = attributes.is_read_only();

  let (attributes, is_declared_on_sandbox) = match ctx
    .sandbox(scope)
    .get_real_named_property_attributes(scope, key)
  {
    Some(attr) => (attr, true),
    None => (v8::PropertyAttribute::NONE, false),
  };
  read_only |= attributes.is_read_only();

  if read_only {
    return v8::Intercepted::No;
  }

  // true for x = 5
  // false for this.x = 5
  // false for Object.defineProperty(this, 'foo', ...)
  // false for vmResult.x = 5 where vmResult = vm.runInContext();
  let is_contextual_store = ctx.global_proxy(scope) != args.this();

  // Indicator to not return before setting (undeclared) function declarations
  // on the sandbox in strict mode, i.e. args.ShouldThrowOnError() = true.
  // True for 'function f() {}', 'this.f = function() {}',
  // 'var f = function()'.
  // In effect only for 'function f() {}' because
  // var f = function(), is_declared = true
  // this.f = function() {}, is_contextual_store = false.
  let is_function = value.is_function();

  let is_declared = is_declared_on_global_proxy || is_declared_on_sandbox;
  if !is_declared
    && args.should_throw_on_error()
    && is_contextual_store
    && !is_function
  {
    return v8::Intercepted::No;
  }

  if !is_declared && key.is_symbol() {
    return v8::Intercepted::No;
  };

  if ctx.sandbox(scope).set(scope, key.into(), value).is_none() {
    return v8::Intercepted::No;
  }

  if is_declared_on_sandbox {
    if let Some(desc) =
      ctx.sandbox(scope).get_own_property_descriptor(scope, key)
    {
      if !desc.is_undefined() {
        let desc_obj: v8::Local<v8::Object> = desc.try_into().unwrap();
        // We have to specify the return value for any contextual or get/set
        // property
        let get_key =
          v8::String::new_external_onebyte_static(scope, b"get").unwrap();
        let set_key =
          v8::String::new_external_onebyte_static(scope, b"get").unwrap();
        if desc_obj
          .has_own_property(scope, get_key.into())
          .unwrap_or(false)
          || desc_obj
            .has_own_property(scope, set_key.into())
            .unwrap_or(false)
        {
          rv.set_bool(true);
          return v8::Intercepted::Yes;
        }
      }
    }
  }

  v8::Intercepted::No
}

fn property_deleter<'s>(
  scope: &mut v8::HandleScope<'s>,
  key: v8::Local<'s, v8::Name>,
  args: v8::PropertyCallbackArguments<'s>,
  mut rv: v8::ReturnValue<v8::Boolean>,
) -> v8::Intercepted {
  let Some(ctx) = ContextifyContext::get(scope, args.this()) else {
    return v8::Intercepted::No;
  };

  let context = ctx.context(scope);
  let sandbox = ctx.sandbox(scope);
  let context_scope = &mut v8::ContextScope::new(scope, context);
  if !sandbox.delete(context_scope, key.into()).unwrap_or(false) {
    return v8::Intercepted::No;
  }

  rv.set_bool(false);
  v8::Intercepted::Yes
}

fn property_enumerator<'s>(
  scope: &mut v8::HandleScope<'s>,
  args: v8::PropertyCallbackArguments<'s>,
  mut rv: v8::ReturnValue<v8::Array>,
) {
  let Some(ctx) = ContextifyContext::get(scope, args.this()) else {
    return;
  };

  let context = ctx.context(scope);
  let sandbox = ctx.sandbox(scope);
  let context_scope = &mut v8::ContextScope::new(scope, context);
  let Some(properties) = sandbox
    .get_property_names(context_scope, v8::GetPropertyNamesArgs::default())
  else {
    return;
  };

  rv.set(properties);
}

fn property_definer<'s>(
  scope: &mut v8::HandleScope<'s>,
  key: v8::Local<'s, v8::Name>,
  desc: &v8::PropertyDescriptor,
  args: v8::PropertyCallbackArguments<'s>,
  _: v8::ReturnValue<()>,
) -> v8::Intercepted {
  let Some(ctx) = ContextifyContext::get(scope, args.this()) else {
    return v8::Intercepted::No;
  };

  let context = ctx.context(scope);
  let (attributes, is_declared) = match ctx
    .global_proxy(scope)
    .get_real_named_property_attributes(scope, key)
  {
    Some(attr) => (attr, true),
    None => (v8::PropertyAttribute::NONE, false),
  };

  let read_only = attributes.is_read_only();
  let dont_delete = attributes.is_dont_delete();

  // If the property is set on the global as read_only, don't change it on
  // the global or sandbox.
  if is_declared && read_only && dont_delete {
    return v8::Intercepted::No;
  }

  let sandbox = ctx.sandbox(scope);
  let scope = &mut v8::ContextScope::new(scope, context);

  let define_prop_on_sandbox =
    |scope: &mut v8::HandleScope,
     desc_for_sandbox: &mut v8::PropertyDescriptor| {
      if desc.has_enumerable() {
        desc_for_sandbox.set_enumerable(desc.enumerable());
      }

      if desc.has_configurable() {
        desc_for_sandbox.set_configurable(desc.configurable());
      }

      sandbox.define_property(scope, key, desc_for_sandbox);
    };

  if desc.has_get() || desc.has_set() {
    let mut desc_for_sandbox = v8::PropertyDescriptor::new_from_get_set(
      if desc.has_get() {
        desc.get()
      } else {
        v8::undefined(scope).into()
      },
      if desc.has_set() {
        desc.set()
      } else {
        v8::undefined(scope).into()
      },
    );

    define_prop_on_sandbox(scope, &mut desc_for_sandbox);
  } else {
    let value = if desc.has_value() {
      desc.value()
    } else {
      v8::undefined(scope).into()
    };

    if desc.has_writable() {
      let mut desc_for_sandbox =
        v8::PropertyDescriptor::new_from_value_writable(value, desc.writable());
      define_prop_on_sandbox(scope, &mut desc_for_sandbox);
    } else {
      let mut desc_for_sandbox = v8::PropertyDescriptor::new_from_value(value);
      define_prop_on_sandbox(scope, &mut desc_for_sandbox);
    }
  }

  v8::Intercepted::Yes
}

fn property_descriptor<'s>(
  scope: &mut v8::HandleScope<'s>,
  key: v8::Local<'s, v8::Name>,
  args: v8::PropertyCallbackArguments<'s>,
  mut rv: v8::ReturnValue,
) -> v8::Intercepted {
  let Some(ctx) = ContextifyContext::get(scope, args.this()) else {
    return v8::Intercepted::No;
  };

  let context = ctx.context(scope);
  let sandbox = ctx.sandbox(scope);
  let scope = &mut v8::ContextScope::new(scope, context);

  if sandbox.has_own_property(scope, key).unwrap_or(false) {
    if let Some(desc) = sandbox.get_own_property_descriptor(scope, key) {
      rv.set(desc);
      return v8::Intercepted::Yes;
    }
  }

  v8::Intercepted::No
}

fn uint32_to_name<'s>(
  scope: &mut v8::HandleScope<'s>,
  index: u32,
) -> v8::Local<'s, v8::Name> {
  let int = v8::Integer::new_from_unsigned(scope, index);
  let u32 = v8::Local::<v8::Uint32>::try_from(int).unwrap();
  u32.to_string(scope).unwrap().into()
}

fn indexed_property_getter<'s>(
  scope: &mut v8::HandleScope<'s>,
  index: u32,
  args: v8::PropertyCallbackArguments<'s>,
  rv: v8::ReturnValue,
) -> v8::Intercepted {
  let key = uint32_to_name(scope, index);
  property_getter(scope, key, args, rv)
}

fn indexed_property_setter<'s>(
  scope: &mut v8::HandleScope<'s>,
  index: u32,
  value: v8::Local<'s, v8::Value>,
  args: v8::PropertyCallbackArguments<'s>,
  rv: v8::ReturnValue<()>,
) -> v8::Intercepted {
  let key = uint32_to_name(scope, index);
  property_setter(scope, key, value, args, rv)
}

fn indexed_property_deleter<'s>(
  scope: &mut v8::HandleScope<'s>,
  index: u32,
  args: v8::PropertyCallbackArguments<'s>,
  mut rv: v8::ReturnValue<v8::Boolean>,
) -> v8::Intercepted {
  let Some(ctx) = ContextifyContext::get(scope, args.this()) else {
    return v8::Intercepted::No;
  };

  let context = ctx.context(scope);
  let sandbox = ctx.sandbox(scope);
  let context_scope = &mut v8::ContextScope::new(scope, context);
  if !sandbox.delete_index(context_scope, index).unwrap_or(false) {
    return v8::Intercepted::No;
  }

  // Delete failed on the sandbox, intercept and do not delete on
  // the global object.
  rv.set_bool(false);
  v8::Intercepted::No
}

fn indexed_property_definer<'s>(
  scope: &mut v8::HandleScope<'s>,
  index: u32,
  descriptor: &v8::PropertyDescriptor,
  args: v8::PropertyCallbackArguments<'s>,
  rv: v8::ReturnValue<()>,
) -> v8::Intercepted {
  let key = uint32_to_name(scope, index);
  property_definer(scope, key, descriptor, args, rv)
}

fn indexed_property_descriptor<'s>(
  scope: &mut v8::HandleScope<'s>,
  index: u32,
  args: v8::PropertyCallbackArguments<'s>,
  rv: v8::ReturnValue,
) -> v8::Intercepted {
  let key = uint32_to_name(scope, index);
  property_descriptor(scope, key, args, rv)
}