// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license. use deno_core::op2; use deno_core::v8; use deno_core::FastString; use deno_core::GarbageCollected; use deno_core::ToJsBuffer; use std::ptr::NonNull; use v8::ValueDeserializerHelper; use v8::ValueSerializerHelper; #[op2(fast)] pub fn op_v8_cached_data_version_tag() -> u32 { v8::script_compiler::cached_data_version_tag() } #[op2(fast)] pub fn op_v8_get_heap_statistics( scope: &mut v8::HandleScope, #[buffer] buffer: &mut [f64], ) { let mut stats = v8::HeapStatistics::default(); scope.get_heap_statistics(&mut stats); buffer[0] = stats.total_heap_size() as f64; buffer[1] = stats.total_heap_size_executable() as f64; buffer[2] = stats.total_physical_size() as f64; buffer[3] = stats.total_available_size() as f64; buffer[4] = stats.used_heap_size() as f64; buffer[5] = stats.heap_size_limit() as f64; buffer[6] = stats.malloced_memory() as f64; buffer[7] = stats.peak_malloced_memory() as f64; buffer[8] = stats.does_zap_garbage() as f64; buffer[9] = stats.number_of_native_contexts() as f64; buffer[10] = stats.number_of_detached_contexts() as f64; buffer[11] = stats.total_global_handles_size() as f64; buffer[12] = stats.used_global_handles_size() as f64; buffer[13] = stats.external_memory() as f64; } pub struct Serializer<'a> { inner: v8::ValueSerializer<'a>, } pub struct SerializerDelegate { obj: v8::Global, } impl<'a> v8::cppgc::GarbageCollected for Serializer<'a> { fn trace(&self, _visitor: &v8::cppgc::Visitor) {} } impl SerializerDelegate { fn obj<'s>( &self, scope: &mut v8::HandleScope<'s>, ) -> v8::Local<'s, v8::Object> { v8::Local::new(scope, &self.obj) } } impl v8::ValueSerializerImpl for SerializerDelegate { fn get_shared_array_buffer_id<'s>( &self, scope: &mut v8::HandleScope<'s>, shared_array_buffer: v8::Local<'s, v8::SharedArrayBuffer>, ) -> Option { let obj = self.obj(scope); let key = FastString::from_static("_getSharedArrayBufferId") .v8_string(scope) .unwrap() .into(); if let Some(v) = obj.get(scope, key) { if let Ok(fun) = v.try_cast::() { return fun .call(scope, obj.into(), &[shared_array_buffer.into()]) .and_then(|ret| ret.uint32_value(scope)); } } None } fn has_custom_host_object(&self, _isolate: &mut v8::Isolate) -> bool { false } fn throw_data_clone_error<'s>( &self, scope: &mut v8::HandleScope<'s>, message: v8::Local<'s, v8::String>, ) { let obj = self.obj(scope); let key = FastString::from_static("_getDataCloneError") .v8_string(scope) .unwrap() .into(); if let Some(v) = obj.get(scope, key) { let fun = v .try_cast::() .expect("_getDataCloneError should be a function"); if let Some(error) = fun.call(scope, obj.into(), &[message.into()]) { scope.throw_exception(error); return; } } let error = v8::Exception::type_error(scope, message); scope.throw_exception(error); } fn write_host_object<'s>( &self, scope: &mut v8::HandleScope<'s>, object: v8::Local<'s, v8::Object>, _value_serializer: &dyn ValueSerializerHelper, ) -> Option { let obj = self.obj(scope); let key = FastString::from_static("_writeHostObject") .v8_string(scope) .unwrap() .into(); if let Some(v) = obj.get(scope, key) { if let Ok(v) = v.try_cast::() { v.call(scope, obj.into(), &[object.into()])?; return Some(true); } } None } fn is_host_object<'s>( &self, _scope: &mut v8::HandleScope<'s>, _object: v8::Local<'s, v8::Object>, ) -> Option { // should never be called because has_custom_host_object returns false None } } #[op2] #[cppgc] pub fn op_v8_new_serializer( scope: &mut v8::HandleScope, obj: v8::Local, ) -> Serializer<'static> { let obj = v8::Global::new(scope, obj); let inner = v8::ValueSerializer::new(scope, Box::new(SerializerDelegate { obj })); Serializer { inner } } #[op2(fast)] pub fn op_v8_set_treat_array_buffer_views_as_host_objects( #[cppgc] ser: &Serializer, value: bool, ) { ser .inner .set_treat_array_buffer_views_as_host_objects(value); } #[op2] #[serde] pub fn op_v8_release_buffer(#[cppgc] ser: &Serializer) -> ToJsBuffer { ser.inner.release().into() } #[op2(fast)] pub fn op_v8_transfer_array_buffer( #[cppgc] ser: &Serializer, #[smi] id: u32, array_buffer: v8::Local, ) { ser.inner.transfer_array_buffer(id, array_buffer); } #[op2(fast)] pub fn op_v8_write_double(#[cppgc] ser: &Serializer, double: f64) { ser.inner.write_double(double); } #[op2(fast)] pub fn op_v8_write_header(#[cppgc] ser: &Serializer) { ser.inner.write_header(); } #[op2] pub fn op_v8_write_raw_bytes( #[cppgc] ser: &Serializer, #[anybuffer] source: &[u8], ) { ser.inner.write_raw_bytes(source); } #[op2(fast)] pub fn op_v8_write_uint32(#[cppgc] ser: &Serializer, num: u32) { ser.inner.write_uint32(num); } #[op2(fast)] pub fn op_v8_write_uint64(#[cppgc] ser: &Serializer, hi: u32, lo: u32) { let num = ((hi as u64) << 32) | (lo as u64); ser.inner.write_uint64(num); } #[op2(nofast, reentrant)] pub fn op_v8_write_value( scope: &mut v8::HandleScope, #[cppgc] ser: &Serializer, value: v8::Local, ) { let context = scope.get_current_context(); ser.inner.write_value(context, value); } struct DeserBuffer { ptr: Option>, // Hold onto backing store to keep the underlying buffer // alive while we hold a reference to it. _backing_store: v8::SharedRef, } pub struct Deserializer<'a> { buf: DeserBuffer, inner: v8::ValueDeserializer<'a>, } impl<'a> deno_core::GarbageCollected for Deserializer<'a> {} pub struct DeserializerDelegate { obj: v8::Global, } impl GarbageCollected for DeserializerDelegate { fn trace(&self, _visitor: &v8::cppgc::Visitor) {} } impl v8::ValueDeserializerImpl for DeserializerDelegate { fn read_host_object<'s>( &self, scope: &mut v8::HandleScope<'s>, _value_deserializer: &dyn v8::ValueDeserializerHelper, ) -> Option> { let obj = v8::Local::new(scope, &self.obj); let key = FastString::from_static("_readHostObject") .v8_string(scope) .unwrap() .into(); let scope = &mut v8::AllowJavascriptExecutionScope::new(scope); if let Some(v) = obj.get(scope, key) { if let Ok(v) = v.try_cast::() { let result = v.call(scope, obj.into(), &[])?; match result.try_cast() { Ok(res) => return Some(res), Err(_) => { let msg = FastString::from_static("readHostObject must return an object") .v8_string(scope) .unwrap(); let error = v8::Exception::type_error(scope, msg); scope.throw_exception(error); return None; } } } } None } } #[op2] #[cppgc] pub fn op_v8_new_deserializer( scope: &mut v8::HandleScope, obj: v8::Local, buffer: v8::Local, ) -> Result, deno_core::error::AnyError> { let offset = buffer.byte_offset(); let len = buffer.byte_length(); let backing_store = buffer.get_backing_store().ok_or_else(|| { deno_core::error::generic_error( "deserialization buffer has no backing store", ) })?; let (buf_slice, buf_ptr) = if let Some(data) = backing_store.data() { // SAFETY: the offset is valid for the underlying buffer because we're getting it directly from v8 let data_ptr = unsafe { data.as_ptr().cast::().add(offset) }; ( // SAFETY: the len is valid, from v8, and the data_ptr is valid (as above) unsafe { std::slice::from_raw_parts(data_ptr.cast_const().cast(), len) }, Some(data.cast()), ) } else { (&[] as &[u8], None::>) }; let obj = v8::Global::new(scope, obj); let inner = v8::ValueDeserializer::new( scope, Box::new(DeserializerDelegate { obj }), buf_slice, ); Ok(Deserializer { inner, buf: DeserBuffer { _backing_store: backing_store, ptr: buf_ptr, }, }) } #[op2(fast)] pub fn op_v8_transfer_array_buffer_de( #[cppgc] deser: &Deserializer, #[smi] id: u32, array_buffer: v8::Local, ) { // TODO(nathanwhit): also need binding for TransferSharedArrayBuffer, then call that if // array_buffer is shared deser.inner.transfer_array_buffer(id, array_buffer); } #[op2(fast)] pub fn op_v8_read_double( #[cppgc] deser: &Deserializer, ) -> Result { let mut double = 0f64; if !deser.inner.read_double(&mut double) { return Err(deno_core::error::type_error("ReadDouble() failed")); } Ok(double) } #[op2(nofast)] pub fn op_v8_read_header( scope: &mut v8::HandleScope, #[cppgc] deser: &Deserializer, ) -> bool { let context = scope.get_current_context(); let res = deser.inner.read_header(context); res.unwrap_or_default() } #[op2(fast)] #[number] pub fn op_v8_read_raw_bytes( #[cppgc] deser: &Deserializer, #[number] length: usize, ) -> usize { let Some(buf_ptr) = deser.buf.ptr else { return 0; }; if let Some(buf) = deser.inner.read_raw_bytes(length) { let ptr = buf.as_ptr(); (ptr as usize) - (buf_ptr.as_ptr() as usize) } else { 0 } } #[op2(fast)] pub fn op_v8_read_uint32( #[cppgc] deser: &Deserializer, ) -> Result { let mut value = 0; if !deser.inner.read_uint32(&mut value) { return Err(deno_core::error::type_error("ReadUint32() failed")); } Ok(value) } #[op2] #[serde] pub fn op_v8_read_uint64( #[cppgc] deser: &Deserializer, ) -> Result<(u32, u32), deno_core::error::AnyError> { let mut val = 0; if !deser.inner.read_uint64(&mut val) { return Err(deno_core::error::type_error("ReadUint64() failed")); } Ok(((val >> 32) as u32, val as u32)) } #[op2(fast)] pub fn op_v8_get_wire_format_version(#[cppgc] deser: &Deserializer) -> u32 { deser.inner.get_wire_format_version() } #[op2(reentrant)] pub fn op_v8_read_value<'s>( scope: &mut v8::HandleScope<'s>, #[cppgc] deser: &Deserializer, ) -> v8::Local<'s, v8::Value> { let context = scope.get_current_context(); let val = deser.inner.read_value(context); val.unwrap_or_else(|| v8::null(scope).into()) }