/* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at https://mozilla.org/MPL/2.0/. */

//! Conversions of Rust values to and from `JSVal`.
//!
//! | IDL type                | Argument type   | Return type    |
//! |-------------------------|-----------------|----------------|
//! | any                     | `JSVal`         |                |
//! | boolean                 | `bool`          |                |
//! | byte                    | `i8`            |                |
//! | octet                   | `u8`            |                |
//! | short                   | `i16`           |                |
//! | unsigned short          | `u16`           |                |
//! | long                    | `i32`           |                |
//! | unsigned long           | `u32`           |                |
//! | long long               | `i64`           |                |
//! | unsigned long long      | `u64`           |                |
//! | unrestricted float      | `f32`           |                |
//! | float                   | `Finite<f32>`   |                |
//! | unrestricted double     | `f64`           |                |
//! | double                  | `Finite<f64>`   |                |
//! | DOMString               | `DOMString`     |                |
//! | USVString               | `USVString`     |                |
//! | ByteString              | `ByteString`    |                |
//! | object                  | `*mut JSObject` |                |
//! | interface types         | `&T`            | `DomRoot<T>`   |
//! | dictionary types        | `&T`            | *unsupported*  |
//! | enumeration types       | `T`             |                |
//! | callback function types | `Rc<T>`         |                |
//! | nullable types          | `Option<T>`     |                |
//! | sequences               | `Vec<T>`        |                |
//! | union types             | `T`             |                |

use crate::dom::bindings::error::{Error, Fallible};
use crate::dom::bindings::inheritance::Castable;
use crate::dom::bindings::num::Finite;
use crate::dom::bindings::reflector::{DomObject, Reflector};
use crate::dom::bindings::root::DomRoot;
use crate::dom::bindings::str::{ByteString, DOMString, USVString};
use crate::dom::bindings::trace::{JSTraceable, RootedTraceableBox};
use crate::dom::bindings::utils::DOMClass;
use crate::dom::filelist::FileList;
use crate::dom::htmlcollection::HTMLCollection;
use crate::dom::htmlformcontrolscollection::HTMLFormControlsCollection;
use crate::dom::htmloptionscollection::HTMLOptionsCollection;
use crate::dom::nodelist::NodeList;
use crate::dom::windowproxy::WindowProxy;
use js::conversions::latin1_to_string;
pub use js::conversions::ConversionBehavior;
pub use js::conversions::{ConversionResult, FromJSValConvertible, ToJSValConvertible};
use js::error::throw_type_error;
use js::glue::GetProxyReservedSlot;
use js::glue::JS_GetReservedSlot;
use js::glue::{IsWrapper, UnwrapObjectDynamic};
use js::jsapi::{Heap, JSContext, JSObject, JSString};
use js::jsapi::{IsWindowProxy, JS_DeprecatedStringHasLatin1Chars, JS_NewStringCopyN};
use js::jsapi::{
    JS_GetLatin1StringCharsAndLength, JS_GetTwoByteStringCharsAndLength, JS_IsExceptionPending,
};
use js::jsval::{ObjectValue, StringValue, UndefinedValue};
use js::rust::wrappers::{IsArrayObject, JS_GetProperty, JS_HasProperty};
use js::rust::{get_object_class, is_dom_class, is_dom_object, maybe_wrap_value, ToString};
use js::rust::{HandleId, HandleObject, HandleValue, MutableHandleValue};
use num_traits::Float;
use servo_config::opts;
use std::{char, ffi, ptr, slice};

/// A trait to check whether a given `JSObject` implements an IDL interface.
pub trait IDLInterface {
    /// Returns whether the given DOM class derives that interface.
    fn derives(_: &'static DOMClass) -> bool;
}

/// A trait to mark an IDL interface as deriving from another one.
pub trait DerivedFrom<T: Castable>: Castable {}

impl<T: Float + ToJSValConvertible> ToJSValConvertible for Finite<T> {
    #[inline]
    unsafe fn to_jsval(&self, cx: *mut JSContext, rval: MutableHandleValue) {
        let value = **self;
        value.to_jsval(cx, rval);
    }
}

impl<T: Float + FromJSValConvertible<Config = ()>> FromJSValConvertible for Finite<T> {
    type Config = ();

    unsafe fn from_jsval(
        cx: *mut JSContext,
        value: HandleValue,
        option: (),
    ) -> Result<ConversionResult<Finite<T>>, ()> {
        let result = match FromJSValConvertible::from_jsval(cx, value, option)? {
            ConversionResult::Success(v) => v,
            ConversionResult::Failure(error) => {
                // FIXME(emilio): Why throwing instead of propagating the error?
                throw_type_error(cx, &error);
                return Err(());
            },
        };
        match Finite::new(result) {
            Some(v) => Ok(ConversionResult::Success(v)),
            None => {
                throw_type_error(cx, "this argument is not a finite floating-point value");
                Err(())
            },
        }
    }
}

impl<T: DomObject + IDLInterface> FromJSValConvertible for DomRoot<T> {
    type Config = ();

    unsafe fn from_jsval(
        cx: *mut JSContext,
        value: HandleValue,
        _config: Self::Config,
    ) -> Result<ConversionResult<DomRoot<T>>, ()> {
        Ok(match root_from_handlevalue(value, cx) {
            Ok(result) => ConversionResult::Success(result),
            Err(()) => ConversionResult::Failure("value is not an object".into()),
        })
    }
}

impl<T: ToJSValConvertible + JSTraceable> ToJSValConvertible for RootedTraceableBox<T> {
    #[inline]
    unsafe fn to_jsval(&self, cx: *mut JSContext, rval: MutableHandleValue) {
        let value = &**self;
        value.to_jsval(cx, rval);
    }
}

impl<T> FromJSValConvertible for RootedTraceableBox<Heap<T>>
where
    T: FromJSValConvertible + js::rust::GCMethods + Copy,
    Heap<T>: JSTraceable + Default,
{
    type Config = T::Config;

    unsafe fn from_jsval(
        cx: *mut JSContext,
        value: HandleValue,
        config: Self::Config,
    ) -> Result<ConversionResult<Self>, ()> {
        T::from_jsval(cx, value, config).map(|result| match result {
            ConversionResult::Success(inner) => {
                ConversionResult::Success(RootedTraceableBox::from_box(Heap::boxed(inner)))
            },
            ConversionResult::Failure(msg) => ConversionResult::Failure(msg),
        })
    }
}

/// Convert `id` to a `DOMString`. Returns `None` if `id` is not a string or
/// integer.
///
/// Handling of invalid UTF-16 in strings depends on the relevant option.
pub unsafe fn jsid_to_string(cx: *mut JSContext, id: HandleId) -> Option<DOMString> {
    let id_raw = *id;
    if id_raw.is_string() {
        return Some(jsstring_to_str(cx, id_raw.to_string()));
    }

    if id_raw.is_int() {
        return Some(id_raw.to_int().to_string().into());
    }

    None
}

// http://heycam.github.io/webidl/#es-USVString
impl ToJSValConvertible for USVString {
    unsafe fn to_jsval(&self, cx: *mut JSContext, rval: MutableHandleValue) {
        self.0.to_jsval(cx, rval);
    }
}

/// Behavior for stringification of `JSVal`s.
#[derive(Clone, PartialEq)]
pub enum StringificationBehavior {
    /// Convert `null` to the string `"null"`.
    Default,
    /// Convert `null` to the empty string.
    Empty,
}

// https://heycam.github.io/webidl/#es-DOMString
impl ToJSValConvertible for DOMString {
    unsafe fn to_jsval(&self, cx: *mut JSContext, rval: MutableHandleValue) {
        (**self).to_jsval(cx, rval);
    }
}

// https://heycam.github.io/webidl/#es-DOMString
impl FromJSValConvertible for DOMString {
    type Config = StringificationBehavior;
    unsafe fn from_jsval(
        cx: *mut JSContext,
        value: HandleValue,
        null_behavior: StringificationBehavior,
    ) -> Result<ConversionResult<DOMString>, ()> {
        if null_behavior == StringificationBehavior::Empty && value.get().is_null() {
            Ok(ConversionResult::Success(DOMString::new()))
        } else {
            let jsstr = ToString(cx, value);
            if jsstr.is_null() {
                debug!("ToString failed");
                Err(())
            } else {
                Ok(ConversionResult::Success(jsstring_to_str(cx, jsstr)))
            }
        }
    }
}

/// Convert the given `JSString` to a `DOMString`. Fails if the string does not
/// contain valid UTF-16.
pub unsafe fn jsstring_to_str(cx: *mut JSContext, s: *mut JSString) -> DOMString {
    let latin1 = JS_DeprecatedStringHasLatin1Chars(s);
    DOMString::from_string(if latin1 {
        latin1_to_string(cx, s)
    } else {
        let mut length = 0;
        let chars = JS_GetTwoByteStringCharsAndLength(cx, ptr::null(), s, &mut length);
        assert!(!chars.is_null());
        let potentially_ill_formed_utf16 = slice::from_raw_parts(chars, length as usize);
        let mut s = String::with_capacity(length as usize);
        for item in char::decode_utf16(potentially_ill_formed_utf16.iter().cloned()) {
            match item {
                Ok(c) => s.push(c),
                Err(_) => {
                    // FIXME: Add more info like document URL in the message?
                    macro_rules! message {
                        () => {
                            "Found an unpaired surrogate in a DOM string. \
                             If you see this in real web content, \
                             please comment on https://github.com/servo/servo/issues/6564"
                        };
                    }
                    if opts::get().replace_surrogates {
                        error!(message!());
                        s.push('\u{FFFD}');
                    } else {
                        panic!(concat!(
                            message!(),
                            " Use `-Z replace-surrogates` \
                             on the command line to make this non-fatal."
                        ));
                    }
                },
            }
        }
        s
    })
}

// http://heycam.github.io/webidl/#es-USVString
impl FromJSValConvertible for USVString {
    type Config = ();
    unsafe fn from_jsval(
        cx: *mut JSContext,
        value: HandleValue,
        _: (),
    ) -> Result<ConversionResult<USVString>, ()> {
        let jsstr = ToString(cx, value);
        if jsstr.is_null() {
            debug!("ToString failed");
            return Err(());
        }
        let latin1 = JS_DeprecatedStringHasLatin1Chars(jsstr);
        if latin1 {
            // FIXME(ajeffrey): Convert directly from DOMString to USVString
            return Ok(ConversionResult::Success(USVString(String::from(
                jsstring_to_str(cx, jsstr),
            ))));
        }
        let mut length = 0;
        let chars = JS_GetTwoByteStringCharsAndLength(cx, ptr::null(), jsstr, &mut length);
        assert!(!chars.is_null());
        let char_vec = slice::from_raw_parts(chars as *const u16, length as usize);
        Ok(ConversionResult::Success(USVString(
            String::from_utf16_lossy(char_vec),
        )))
    }
}

// http://heycam.github.io/webidl/#es-ByteString
impl ToJSValConvertible for ByteString {
    unsafe fn to_jsval(&self, cx: *mut JSContext, mut rval: MutableHandleValue) {
        let jsstr = JS_NewStringCopyN(
            cx,
            self.as_ptr() as *const libc::c_char,
            self.len() as libc::size_t,
        );
        if jsstr.is_null() {
            panic!("JS_NewStringCopyN failed");
        }
        rval.set(StringValue(&*jsstr));
    }
}

// http://heycam.github.io/webidl/#es-ByteString
impl FromJSValConvertible for ByteString {
    type Config = ();
    unsafe fn from_jsval(
        cx: *mut JSContext,
        value: HandleValue,
        _option: (),
    ) -> Result<ConversionResult<ByteString>, ()> {
        let string = ToString(cx, value);
        if string.is_null() {
            debug!("ToString failed");
            return Err(());
        }

        let latin1 = JS_DeprecatedStringHasLatin1Chars(string);
        if latin1 {
            let mut length = 0;
            let chars = JS_GetLatin1StringCharsAndLength(cx, ptr::null(), string, &mut length);
            assert!(!chars.is_null());

            let char_slice = slice::from_raw_parts(chars as *mut u8, length as usize);
            return Ok(ConversionResult::Success(ByteString::new(
                char_slice.to_vec(),
            )));
        }

        let mut length = 0;
        let chars = JS_GetTwoByteStringCharsAndLength(cx, ptr::null(), string, &mut length);
        let char_vec = slice::from_raw_parts(chars, length as usize);

        if char_vec.iter().any(|&c| c > 0xFF) {
            throw_type_error(cx, "Invalid ByteString");
            Err(())
        } else {
            Ok(ConversionResult::Success(ByteString::new(
                char_vec.iter().map(|&c| c as u8).collect(),
            )))
        }
    }
}

impl ToJSValConvertible for Reflector {
    unsafe fn to_jsval(&self, cx: *mut JSContext, mut rval: MutableHandleValue) {
        let obj = self.get_jsobject().get();
        assert!(!obj.is_null());
        rval.set(ObjectValue(obj));
        maybe_wrap_value(cx, rval);
    }
}

/// Returns whether `obj` is a DOM object implemented as a proxy.
pub fn is_dom_proxy(obj: *mut JSObject) -> bool {
    use js::glue::IsProxyHandlerFamily;
    unsafe {
        let clasp = get_object_class(obj);
        ((*clasp).flags & js::JSCLASS_IS_PROXY) != 0 && IsProxyHandlerFamily(obj) != 0
    }
}

/// The index of the slot wherein a pointer to the reflected DOM object is
/// stored for non-proxy bindings.
// We use slot 0 for holding the raw object.  This is safe for both
// globals and non-globals.
pub const DOM_OBJECT_SLOT: u32 = 0;

/// Get the private pointer of a DOM object from a given reflector.
pub unsafe fn private_from_object(obj: *mut JSObject) -> *const libc::c_void {
    let mut value = UndefinedValue();
    if is_dom_object(obj) {
        JS_GetReservedSlot(obj, DOM_OBJECT_SLOT, &mut value);
    } else {
        debug_assert!(is_dom_proxy(obj));
        GetProxyReservedSlot(obj, 0, &mut value);
    };
    if value.is_undefined() {
        ptr::null()
    } else {
        value.to_private()
    }
}

/// Get the `DOMClass` from `obj`, or `Err(())` if `obj` is not a DOM object.
pub unsafe fn get_dom_class(obj: *mut JSObject) -> Result<&'static DOMClass, ()> {
    use crate::dom::bindings::utils::DOMJSClass;
    use js::glue::GetProxyHandlerExtra;

    let clasp = get_object_class(obj);
    if is_dom_class(&*clasp) {
        trace!("plain old dom object");
        let domjsclass: *const DOMJSClass = clasp as *const DOMJSClass;
        return Ok(&(&*domjsclass).dom_class);
    }
    if is_dom_proxy(obj) {
        trace!("proxy dom object");
        let dom_class: *const DOMClass = GetProxyHandlerExtra(obj) as *const DOMClass;
        return Ok(&*dom_class);
    }
    trace!("not a dom object");
    Err(())
}

pub(crate) enum PrototypeCheck {
    Derive(fn(&'static DOMClass) -> bool),
    Depth { depth: usize, proto_id: u16 },
}

/// Get a `*const libc::c_void` for the given DOM object, unwrapping any
/// wrapper around it first, and checking if the object is of the correct type.
///
/// Returns Err(()) if `obj` is an opaque security wrapper or if the object is
/// not an object for a DOM object of the given type (as defined by the
/// proto_id and proto_depth).
#[inline]
pub(crate) unsafe fn private_from_proto_check(
    mut obj: *mut JSObject,
    cx: *mut JSContext,
    proto_check: PrototypeCheck,
) -> Result<*const libc::c_void, ()> {
    let dom_class = get_dom_class(obj).or_else(|_| {
        if IsWrapper(obj) {
            trace!("found wrapper");
            obj = UnwrapObjectDynamic(obj, cx, /* stopAtWindowProxy = */ 0);
            if obj.is_null() {
                trace!("unwrapping security wrapper failed");
                Err(())
            } else {
                assert!(!IsWrapper(obj));
                trace!("unwrapped successfully");
                get_dom_class(obj)
            }
        } else {
            trace!("not a dom wrapper");
            Err(())
        }
    })?;

    let prototype_matches = match proto_check {
        PrototypeCheck::Derive(f) => (f)(dom_class),
        PrototypeCheck::Depth { depth, proto_id } => {
            dom_class.interface_chain[depth] as u16 == proto_id
        },
    };

    if prototype_matches {
        trace!("good prototype");
        Ok(private_from_object(obj))
    } else {
        trace!("bad prototype");
        Err(())
    }
}

/// Get a `*const libc::c_void` for the given DOM object, unless it is a DOM
/// wrapper, and checking if the object is of the correct type.
///
/// Returns Err(()) if `obj` is a wrapper or if the object is not an object
/// for a DOM object of the given type (as defined by the proto_id and proto_depth).
#[inline]
unsafe fn private_from_proto_check_static(
    obj: *mut JSObject,
    proto_check: fn(&'static DOMClass) -> bool,
) -> Result<*const libc::c_void, ()> {
    let dom_class = get_dom_class(obj).map_err(|_| ())?;
    if proto_check(dom_class) {
        trace!("good prototype");
        Ok(private_from_object(obj))
    } else {
        trace!("bad prototype");
        Err(())
    }
}

/// Get a `*const T` for a DOM object accessible from a `JSObject`.
pub fn native_from_object<T>(obj: *mut JSObject, cx: *mut JSContext) -> Result<*const T, ()>
where
    T: DomObject + IDLInterface,
{
    unsafe {
        private_from_proto_check(obj, cx, PrototypeCheck::Derive(T::derives))
            .map(|ptr| ptr as *const T)
    }
}

/// Get a `*const T` for a DOM object accessible from a `JSObject`, where the DOM object
/// is guaranteed not to be a wrapper.
pub fn native_from_object_static<T>(obj: *mut JSObject) -> Result<*const T, ()>
where
    T: DomObject + IDLInterface,
{
    unsafe { private_from_proto_check_static(obj, T::derives).map(|ptr| ptr as *const T) }
}

/// Get a `DomRoot<T>` for the given DOM object, unwrapping any wrapper
/// around it first, and checking if the object is of the correct type.
///
/// Returns Err(()) if `obj` is an opaque security wrapper or if the object is
/// not a reflector for a DOM object of the given type (as defined by the
/// proto_id and proto_depth).
pub fn root_from_object<T>(obj: *mut JSObject, cx: *mut JSContext) -> Result<DomRoot<T>, ()>
where
    T: DomObject + IDLInterface,
{
    native_from_object(obj, cx).map(|ptr| unsafe { DomRoot::from_ref(&*ptr) })
}

/// Get a `DomRoot<T>` for the given DOM object, unwrapping any wrapper
/// around it first, and checking if the object is of the correct type.
///
/// Returns Err(()) if `obj` is an opaque security wrapper or if the object is
/// not a reflector for a DOM object of the given type (as defined by the
/// proto_id and proto_depth).
pub fn root_from_object_static<T>(obj: *mut JSObject) -> Result<DomRoot<T>, ()>
where
    T: DomObject + IDLInterface,
{
    native_from_object_static(obj).map(|ptr| unsafe { DomRoot::from_ref(&*ptr) })
}

/// Get a `*const T` for a DOM object accessible from a `HandleValue`.
/// Caller is responsible for throwing a JS exception if needed in case of error.
pub fn native_from_handlevalue<T>(v: HandleValue, cx: *mut JSContext) -> Result<*const T, ()>
where
    T: DomObject + IDLInterface,
{
    if !v.get().is_object() {
        return Err(());
    }
    native_from_object(v.get().to_object(), cx)
}

/// Get a `DomRoot<T>` for a DOM object accessible from a `HandleValue`.
/// Caller is responsible for throwing a JS exception if needed in case of error.
pub fn root_from_handlevalue<T>(v: HandleValue, cx: *mut JSContext) -> Result<DomRoot<T>, ()>
where
    T: DomObject + IDLInterface,
{
    if !v.get().is_object() {
        return Err(());
    }
    root_from_object(v.get().to_object(), cx)
}

/// Get a `DomRoot<T>` for a DOM object accessible from a `HandleObject`.
pub fn root_from_handleobject<T>(obj: HandleObject, cx: *mut JSContext) -> Result<DomRoot<T>, ()>
where
    T: DomObject + IDLInterface,
{
    root_from_object(obj.get(), cx)
}

impl<T: DomObject> ToJSValConvertible for DomRoot<T> {
    unsafe fn to_jsval(&self, cx: *mut JSContext, rval: MutableHandleValue) {
        self.reflector().to_jsval(cx, rval);
    }
}

/// Returns whether `value` is an array-like object (Array, FileList,
/// HTMLCollection, HTMLFormControlsCollection, HTMLOptionsCollection,
/// NodeList).
pub unsafe fn is_array_like(cx: *mut JSContext, value: HandleValue) -> bool {
    let mut is_array = false;
    assert!(IsArrayObject(cx, value, &mut is_array));
    if is_array {
        return true;
    }

    let object: *mut JSObject = match FromJSValConvertible::from_jsval(cx, value, ()).unwrap() {
        ConversionResult::Success(object) => object,
        _ => return false,
    };

    if root_from_object::<FileList>(object, cx).is_ok() {
        return true;
    }
    if root_from_object::<HTMLCollection>(object, cx).is_ok() {
        return true;
    }
    if root_from_object::<HTMLFormControlsCollection>(object, cx).is_ok() {
        return true;
    }
    if root_from_object::<HTMLOptionsCollection>(object, cx).is_ok() {
        return true;
    }
    if root_from_object::<NodeList>(object, cx).is_ok() {
        return true;
    }

    false
}

/// Get a property from a JS object.
pub unsafe fn get_property_jsval(
    cx: *mut JSContext,
    object: HandleObject,
    name: &str,
    mut rval: MutableHandleValue,
) -> Fallible<()> {
    rval.set(UndefinedValue());
    let cname = match ffi::CString::new(name) {
        Ok(cname) => cname,
        Err(_) => return Ok(()),
    };
    let mut found = false;
    if JS_HasProperty(cx, object, cname.as_ptr(), &mut found) && found {
        JS_GetProperty(cx, object, cname.as_ptr(), rval);
        if JS_IsExceptionPending(cx) {
            return Err(Error::JSFailed);
        }
        Ok(())
    } else if JS_IsExceptionPending(cx) {
        Err(Error::JSFailed)
    } else {
        Ok(())
    }
}

/// Get a property from a JS object, and convert it to a Rust value.
pub unsafe fn get_property<T>(
    cx: *mut JSContext,
    object: HandleObject,
    name: &str,
    option: T::Config,
) -> Fallible<Option<T>>
where
    T: FromJSValConvertible,
{
    debug!("Getting property {}.", name);
    rooted!(in(cx) let mut result = UndefinedValue());
    get_property_jsval(cx, object, name, result.handle_mut())?;
    if result.is_undefined() {
        debug!("No property {}.", name);
        return Ok(None);
    }
    debug!("Converting property {}.", name);
    match T::from_jsval(cx, result.handle(), option) {
        Ok(ConversionResult::Success(value)) => Ok(Some(value)),
        Ok(ConversionResult::Failure(_)) => Ok(None),
        Err(()) => Err(Error::JSFailed),
    }
}

/// Get a `DomRoot<T>` for a WindowProxy accessible from a `HandleValue`.
/// Caller is responsible for throwing a JS exception if needed in case of error.
pub unsafe fn windowproxy_from_handlevalue(
    v: HandleValue,
    _cx: *mut JSContext,
) -> Result<DomRoot<WindowProxy>, ()> {
    if !v.get().is_object() {
        return Err(());
    }
    let object = v.get().to_object();
    if !IsWindowProxy(object) {
        return Err(());
    }
    let mut value = UndefinedValue();
    GetProxyReservedSlot(object, 0, &mut value);
    let ptr = value.to_private() as *const WindowProxy;
    Ok(DomRoot::from_ref(&*ptr))
}