/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* 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 http://mozilla.org/MPL/2.0/. */ #ifndef nsJSUtils_h__ #define nsJSUtils_h__ /** * This is not a generated file. It contains common utility functions * invoked from the JavaScript code generated from IDL interfaces. * The goal of the utility functions is to cut down on the size of * the generated code itself. */ #include "mozilla/Assertions.h" #include "jsapi.h" #include "js/Conversions.h" #include "js/String.h" // JS::{,Lossy}CopyLinearStringChars, JS::CopyStringChars, JS::Get{,Linear}StringLength, JS::MaxStringLength, JS::StringHasLatin1Chars #include "nsString.h" #include "xpcpublic.h" class nsIScriptContext; class nsIScriptElement; class nsIScriptGlobalObject; class nsXBLPrototypeBinding; namespace mozilla { union Utf8Unit; namespace dom { class AutoJSAPI; class Element; } // namespace dom } // namespace mozilla class nsJSUtils { public: static bool GetCallingLocation(JSContext* aContext, nsACString& aFilename, uint32_t* aLineno = nullptr, uint32_t* aColumn = nullptr); static bool GetCallingLocation(JSContext* aContext, nsAString& aFilename, uint32_t* aLineno = nullptr, uint32_t* aColumn = nullptr); /** * Retrieve the inner window ID based on the given JSContext. * * @param JSContext aContext * The JSContext from which you want to find the inner window ID. * * @returns uint64_t the inner window ID. */ static uint64_t GetCurrentlyRunningCodeInnerWindowID(JSContext* aContext); static nsresult CompileFunction(mozilla::dom::AutoJSAPI& jsapi, JS::HandleVector aScopeChain, JS::CompileOptions& aOptions, const nsACString& aName, uint32_t aArgCount, const char** aArgArray, const nsAString& aBody, JSObject** aFunctionObject); static bool BinASTEncodingEnabled() { return false; } static nsresult CompileModule(JSContext* aCx, JS::SourceText& aSrcBuf, JS::Handle aEvaluationGlobal, JS::CompileOptions& aCompileOptions, JS::MutableHandle aModule); static nsresult CompileModule(JSContext* aCx, JS::SourceText& aSrcBuf, JS::Handle aEvaluationGlobal, JS::CompileOptions& aCompileOptions, JS::MutableHandle aModule); static nsresult ModuleInstantiate(JSContext* aCx, JS::Handle aModule); /* * Wrapper for JSAPI ModuleEvaluate function. * * @param JSContext aCx * The JSContext where this is executed. * @param JS::Handle aModule * The module to be evaluated. * @param JS::Handle aResult * If Top level await is enabled: * The evaluation promise returned from evaluating the module. * Otherwise: * Undefined */ static nsresult ModuleEvaluate(JSContext* aCx, JS::Handle aModule, JS::MutableHandle aResult); // Returns false if an exception got thrown on aCx. Passing a null // aElement is allowed; that wil produce an empty aScopeChain. static bool GetScopeChainForElement( JSContext* aCx, mozilla::dom::Element* aElement, JS::MutableHandleVector aScopeChain); static void ResetTimeZone(); static bool DumpEnabled(); }; inline void AssignFromStringBuffer(nsStringBuffer* buffer, size_t len, nsAString& dest) { buffer->ToString(len, dest); } template ::value>* = nullptr> inline bool AssignJSString(JSContext* cx, T& dest, JSString* s) { size_t len = JS::GetStringLength(s); static_assert(JS::MaxStringLength < (1 << 30), "Shouldn't overflow here or in SetCapacity"); const char16_t* chars; if (XPCStringConvert::MaybeGetDOMStringChars(s, &chars)) { // The characters represent an existing string buffer that we shared with // JS. We can share that buffer ourselves if the string corresponds to the // whole buffer; otherwise we have to copy. if (chars[len] == '\0') { AssignFromStringBuffer( nsStringBuffer::FromData(const_cast(chars)), len, dest); return true; } } else if (XPCStringConvert::MaybeGetLiteralStringChars(s, &chars)) { // The characters represent a literal char16_t string constant // compiled into libxul; we can just use it as-is. dest.AssignLiteral(chars, len); return true; } // We don't bother checking for a dynamic-atom external string, because we'd // just need to copy out of it anyway. if (MOZ_UNLIKELY(!dest.SetLength(len, mozilla::fallible))) { JS_ReportOutOfMemory(cx); return false; } return JS::CopyStringChars(cx, dest.BeginWriting(), s, len); } // Specialization for UTF8String. template ::value>* = nullptr> inline bool AssignJSString(JSContext* cx, T& dest, JSString* s) { using namespace mozilla; CheckedInt bufLen(JS::GetStringLength(s)); // From the contract for JS_EncodeStringToUTF8BufferPartial, to guarantee that // the whole string is converted. if (JS::StringHasLatin1Chars(s)) { bufLen *= 2; } else { bufLen *= 3; } if (MOZ_UNLIKELY(!bufLen.isValid())) { JS_ReportOutOfMemory(cx); return false; } // Shouldn't really matter, but worth being safe. const bool kAllowShrinking = true; auto handleOrErr = dest.BulkWrite(bufLen.value(), 0, kAllowShrinking); if (MOZ_UNLIKELY(handleOrErr.isErr())) { JS_ReportOutOfMemory(cx); return false; } auto handle = handleOrErr.unwrap(); auto maybe = JS_EncodeStringToUTF8BufferPartial(cx, s, handle.AsSpan()); if (MOZ_UNLIKELY(!maybe)) { JS_ReportOutOfMemory(cx); return false; } size_t read; size_t written; Tie(read, written) = *maybe; MOZ_ASSERT(read == JS::GetStringLength(s)); handle.Finish(written, kAllowShrinking); return true; } inline void AssignJSLinearString(nsAString& dest, JSLinearString* s) { size_t len = JS::GetLinearStringLength(s); static_assert(JS::MaxStringLength < (1 << 30), "Shouldn't overflow here or in SetCapacity"); dest.SetLength(len); JS::CopyLinearStringChars(dest.BeginWriting(), s, len); } inline void AssignJSLinearString(nsACString& dest, JSLinearString* s) { size_t len = JS::GetLinearStringLength(s); static_assert(JS::MaxStringLength < (1 << 30), "Shouldn't overflow here or in SetCapacity"); dest.SetLength(len); JS::LossyCopyLinearStringChars(dest.BeginWriting(), s, len); } template class nsTAutoJSLinearString : public nsTAutoString { public: explicit nsTAutoJSLinearString(JSLinearString* str) { AssignJSLinearString(*this, str); } }; using nsAutoJSLinearString = nsTAutoJSLinearString; using nsAutoJSLinearCString = nsTAutoJSLinearString; template class nsTAutoJSString : public nsTAutoString { public: /** * nsTAutoJSString should be default constructed, which leaves it empty * (this->IsEmpty()), and initialized with one of the init() methods below. */ nsTAutoJSString() = default; bool init(JSContext* aContext, JSString* str) { return AssignJSString(aContext, *this, str); } bool init(JSContext* aContext, const JS::Value& v) { if (v.isString()) { return init(aContext, v.toString()); } // Stringify, making sure not to run script. JS::Rooted str(aContext); if (v.isObject()) { str = JS_NewStringCopyZ(aContext, "[Object]"); } else { JS::Rooted rootedVal(aContext, v); str = JS::ToString(aContext, rootedVal); } return str && init(aContext, str); } bool init(JSContext* aContext, jsid id) { JS::Rooted v(aContext); return JS_IdToValue(aContext, id, &v) && init(aContext, v); } bool init(const JS::Value& v); ~nsTAutoJSString() = default; }; using nsAutoJSString = nsTAutoJSString; // Note that this is guaranteed to be UTF-8. using nsAutoJSCString = nsTAutoJSString; #endif /* nsJSUtils_h__ */