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swift-value.js
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const metadata = require('./metadata');
const types = require('./types');
const {convention: CC, makeCallTrampoline, checkTrampolineError, convertToCParams} = require('./calling-convention');
function swiftToString(obj) {
const { api } = require('./runtime-api');
let type = obj.$type;
let pointer = obj.$pointer;
/*
* built by disassembling the code for this snippet:
*
var str = String()
dump(x, to: &str)
let arr : [CChar] = str.cString(using: String.Encoding.utf8)!
let ptr = UnsafePointer<CChar>(arr)
strlen(ptr)
*/
function __swift_destroy_boxed_opaque_existential_0(pointer) {
let opaque = new metadata.OpaqueExistentialContainer(pointer);
let type = opaque.type;
let vwt = opaque.type.valueWitnessTable;
if (vwt.flags.IsNonInline) {
let _swift_release_ = new NativeFunction(Memory.readPointer(api._swift_release), 'void', ['pointer']);
_swift_release_(opaque.fixedSizeBuffer0);
} else {
vwt.destroy(pointer, type._ptr);
}
}
let nomSwiftString = new metadata.TargetNominalTypeDescriptor(api._T0SSMn);
let SwiftString = new types.Type(nomSwiftString, null, "Swift.String");
if (!SwiftString.canonicalType)
SwiftString = SwiftString.withGenericParams();
let dynamicType;
let copy = Memory.alloc(4 * Process.pointerSize);
let copyFn;
let vwt = type.canonicalType.valueWitnessTable;
if (type.kind === "Existential" && type.canonicalType.getRepresentation() === "Opaque") {
dynamicType = api.swift_getDynamicType(pointer, type.canonicalType._ptr, 1);
copyFn = vwt.initializeBufferWithCopyOfBuffer;
} else {
dynamicType = type.canonicalType._ptr;
copyFn = vwt.initializeBufferWithCopy;
}
copyFn.call(vwt, copy, pointer, dynamicType);
Memory.writePointer(copy.add(3 * Process.pointerSize), dynamicType);
let stringResult = Memory.alloc(Process.pointerSize * 3);
Memory.writePointer(stringResult, api._T0s19_emptyStringStorages6UInt32Vv);
Memory.writePointer(stringResult.add(Process.pointerSize), ptr(0));
Memory.writePointer(stringResult.add(2*Process.pointerSize), ptr(0));
let threadId = Process.getCurrentThreadId();
let textOutputStreamWitnessTableForString = api._T0SSs16TextOutputStreamsWP;
let Any = api.swift_getExistentialTypeMetadata(metadata.ProtocolClassConstraint.Any, ptr(0), 0, ptr(0));
let dump = api._T0s4dumpxx_q_z2toSSSg4nameSi6indentSi8maxDepthSi0E5Itemsts16TextOutputStreamR_r0_lF;
const LONG_MAX = ptr(0).not().shr(1);
let returnAlloc = Memory.alloc(4 * Process.pointerSize);
// TODO: default arguments should in theory be retrieved via generator functions
let params = [
/*value*/ copy,
/*to*/ stringResult,
/*name*/ ptr(0), ptr(0), ptr(0), 1, // nil
/*indent*/ ptr(0),
/*maxDepth*/ LONG_MAX,
/*maxItems*/ LONG_MAX,
/*static type of `value`*/ Any,
/*static type of `to`*/ SwiftString.canonicalType._ptr,
/*how to use `to` as a TextOutputStream*/ textOutputStreamWitnessTableForString
];
let trampoline;
if (CC.indirectResultRegister === undefined) {
// indirect return value is just another parameter
params.unshift(returnAlloc);
} else {
trampoline = makeCallTrampoline(dump, false, null, returnAlloc);
dump = new NativeFunction(trampoline.callAddr, 'void', ['pointer', 'pointer', 'pointer', 'pointer', 'pointer', 'int', 'pointer', 'pointer', 'pointer', 'pointer', 'pointer', 'pointer']);
}
dump.apply(null, params);
// Destroy the return value (a copy of the existential container for the dumped value).
__swift_destroy_boxed_opaque_existential_0(returnAlloc);
let encoding = Memory.readPointer(api._T0SS10FoundationE8EncodingV4utf8ACfau());
let witnessTableStringProtocol = api._T0SSs14StringProtocolsWP;
let listener;
let toCStringPtr = Module.findExportByName("libswiftFoundation.dylib", "_T0s14StringProtocolP10FoundationsAARzSS5IndexVADRtzlE01cA0Says4Int8VGSgSSACE8EncodingV5using_tF");
trampoline = makeCallTrampoline(toCStringPtr, false, stringResult, null);
let toCString = new NativeFunction(trampoline.callAddr, 'pointer', ['pointer', 'pointer', 'pointer']);
let array = toCString(encoding, SwiftString.canonicalType._ptr, witnessTableStringProtocol);
// the `BridgeObject` this `[CChar]?` contains somewhere deep down is Opaque, so we can't use type
// metadata to find this offset
let str = Memory.readUtf8String(array.add(8 + 3 * Process.pointerSize));
api.swift_unknownRelease(Memory.readPointer(stringResult.add(2*Process.pointerSize)));
api.swift_bridgeObjectRelease(array);
return str;
}
function isClassType(t) {
return t.kind === "Class" || (t.kind === "Existential" && t.canonicalType.getRepresentation() === "Class");
}
function makeFunctionWrapper(type, pointer) {
if (type.kind !== "Function")
throw new TypeError("this value has a non-function type, so it cannot be called");
return function(...argList) {
let flags = type.functionFlags;
if (argList.length < flags.numArguments) {
throw new TypeError("missing arguments: " + flags.numArguments + " arguments required");
} else if (argList.length > flags.numArguments) {
throw new TypeError("too many arguments: " + flags.numArguments + " arguments required");
}
if (flags.doesThrow) {
throw new Error("calling a function that can throw is not yet supported"); // TODO
}
switch (flags.convention) {
case metadata.FunctionMetadataConvention.Swift: {
if (params.length !== method.args.length)
throw new Error("wrong number of parameters");
let converted = [];
// see NativeConventionSchema::getCoercionTypes
for (let i = 0; i < params.length; i++) {
// TODO: floats/doubles, vectors
// see classifyArgumentType in swift-clang/lib/CodeGen/TargetInfo.cpp
let type = method.args[i].type;
let vwt = type.canonicalType.valueWitnessTable;
if (vwt.size === 0)
continue;
// TODO: verify these are the right conditions for indirect args
if (method.args[i].inout || vwt.flags.IsNonBitwiseTakable || vwt.size > CC.maxInlineArgument) {
let val = Memory.alloc(Process.pointerSize);
val.writePointer(method.args[i].$pointer);
// TODO: conversion from JS types
converted.push({val, size: Process.pointerSize, stride: Process.pointerSize});
} else {
let val = Memory.alloc(vwt.size);
if ("$pointer" in params[i] || !('fromJS' in type) || !type.fromJS(val, params[i]))
vwt.initializeWithCopy(val, params[i].$pointer, type.canonicalType._ptr);
converted.push({val, size: vwt.size, stide: vwt.stride});
}
}
let self = pointer;
let indirectReturn = false;
let cReturnType = 'void';
if (method.returnType) {
let vwt = method.returnType.valueWitnessTable;
// TODO: verify these are the right conditions for indirect returns
if (vwt.size > CC.maxInlineReturn || vwt.flags.IsNonPOD) {
indirectReturn = true;
let val = Memory.alloc(vwt.size);
converted.unshift({val, size: Process.pointerSize, stride: Process.pointerSize});
} else {
let alignedSize = vwt.size + vwt.stride;
let cReturnType = [];
const maxVoluntaryInt = Process.pointerSize;
for (let size of [8, 4, 2, 1]) {
// TODO: specify larger integers for int types larger than pointers
while (size <= maxVoluntaryInt && alignedSize > 0 && alignedSize % size === 0) {
// TODO: floats/doubles, vectors
cReturnType.push('uint' + (size * 8).toString());
alignedSize -= size;
}
}
}
}
let indirectResultPointer = undefined;
if (indirectReturn && CC.indirectResultRegister)
indirectResultPointer = converted.shift()[0];
cParams = convertToCParams(params);
let trampoline = makeCallTrampoline(method.address, method.doesThrow, self, indirectResultPointer);
let trampolineFn = new NativeFunction(trampoline.callAddr, cReturnType, cArgTypes);
trampolineFn(...cParams);
let err;
if (method.doesThrow) {
err = checkTrampolineError();
if (err !== undefined) {
// TODO: swift_getErrorValue
throw new Error("handling errors not yet implemented");
return err;
}
}
let retVal = undefined;
if (method.returnType) {
let vwt = method.returnType.valueWitnessTable;
let loc;
if (indirectReturn) {
loc = converted[0][0];
} else {
loc = Memory.alloc(vwt.size);
for (let i = 0; i < vwt.size; i += Process.pointerSize) {
Memory.writePointer(loc.add(i), registerState[CC.returnRegisters[i]]);
}
}
if ('toJS' in method.returnType)
retVal = field.type.toJS(loc);
if (retVal === undefined)
retVal = makeWrapper(method.returnType, loc, true);
else
vwt.destroy(loc, method.returnType.canonicalType._ptr);
}
return retVal;
}
case metadata.FunctionMetadataConvention.Block: {
let block = new ObjC.Block(pointer);
return block.implementation(...params);
}
case metadata.FunctionMetadataConvention.Thin:
throw new Error("calling thin functions not yet supported");
case metadata.FunctionMetadataConvention.CFunctionPointer: {
let params = [];
let fridaTypes = [];
let argTypes = type.getArguments();
function convertType(swiftType, swiftOrJSVal) {
let fridaType, jsVal;
jsVal = ("toJS" in argType) ? argType.toJS(swiftOrJSVal.$pointer) : swiftOrJSVal;
switch (argType.toString()) {
case "Builtin.Int8":
case "Swift.Int8":
fridaType = "int8";
break;
case "Builtin.UInt8":
case "Swift.UInt8":
fridaType = "uint8";
break;
case "Builtin.Int16":
case "Swift.Int16":
fridaType = "int16";
break;
case "Builtin.UInt16":
case "Swift.UInt16":
fridaType = "uint16";
break;
case "Builtin.Int32":
case "Swift.Int32":
fridaType = "int32";
break;
case "Builtin.UInt32":
case "Swift.UInt32":
fridaType = "uint32";
break;
case "Builtin.Int64":
case "Swift.Int64":
fridaType = "int64";
break;
case "Builtin.UInt64":
case "Swift.UInt64":
fridaType = "uint64";
break;
case "Swift.Double":
fridaType = "double";
break;
case "Swift.Float":
fridaType = "float";
break;
case "()":
fridaType = "void";
jsVal = undefined;
break;
default:
if (argType.nominalType && argType.nominalType.mangledName === "_T0SP") {
fridaType = "pointer";
if (swiftOrJsVal instanceof NativePointer)
jsVal = swiftOrJsVal;
else if (jsVal !== undefined)
jsVal = Memory.readPointer(swiftOrJsVal.$pointer);
} else {
throw new Error("don't know how to convert a '" + argType.toString() + "' to a C value!");
}
}
return { fridaType: fridaType, jsVal: jsVal };
}
for (let i = 0; i < flags.numArguments; i++) {
let res = convertType(argTypes[i], argList[i]);
if (res.jsVal === undefined && res.fridaType !== "void") {
throw new Error("argument " + i + " must not be undefined");
}
fridaTypes.push(res.fridaType);
params.push(res.jsVal);
}
let returnType = convertType(type.returnType, undefined);
let func = new NativeFunction(Memory.readPointer(pointer), returnType, fridaTypes);
return func(...params);
}
}
};
}
function escapeName(name, obj) {
if (name.startsWith("$"))
name = "$" + name;
while (name in obj) {
if (!name.startsWith("$"))
name = "$" + name;
name = "$" + name;
}
return obj;
}
function defineMember(wrapperObject, description, name, getAddr) {
const { api } = require('./runtime-api');
Object.defineProperty(wrapperObject, name, {
enumerable: true,
get() {
let addr = getAddr();
let pointer = addr;
if (description.weak) {
let strong = api.swift_weakLoadStrong(addr);
if (strong.isNull())
return null;
// weakLoadStrong() just incremented the strong reference count, undo that.
// If the user wants to keep this alive longer than right now, they need to manually increase
// the reference count for such a variable just like they'd have to for anything else.
// TODO: we probably should register a finalizer and release things there instead.
api.swift_release(strong);
pointer = strong;
// TODO: does this really work? I have a feeling we need to write this pointer to memory and pass that around.
}
if ("toJS" in description.type) {
let val = description.type.toJS(pointer);
if (val !== undefined)
return val;
}
return new description.type(pointer);
},
set(newVal) {
let addr = getAddr();
if (description.weak) {
api.swift_weakAssign(addr, newVal.$pointer);
} else {
let assigned = false;
if ("fromJS" in description.type && !("$pointer" in newVal))
assigned = description.type.fromJS(pointer, newVal);
if (!assigned) {
type.valueWitnessTable.assignWithCopy(addr, newVal.$pointer, newVal.$type.canonicalType._ptr);
}
}
},
});
}
function makeWrapper(type, pointer, owned) {
if (!pointer || pointer.isNull()) {
throw new Error("value can't be located at NULL");
}
let staticType = type;
if ("$kind" in type) { // an ObjC type
// TODO: check the `owned` variable
return ObjC.Object(Memory.readPointer(pointer));
}
const { api } = require('./runtime-api');
let wrapperObject = {};
if (type.kind === "Function") {
wrapperObject = makeFunctionWrapper(type, pointer);
} else if (isClassType(type)) {
let object = Memory.readPointer(pointer);
let canonical = ObjC.api.object_getClass(object);
type = new types.Type(null, canonical);
}
wrapperObject.$staticType = staticType;
wrapperObject.$type = type;
wrapperObject.$pointer = pointer;
wrapperObject.toString = swiftToString.bind(undefined, wrapperObject);
if (isClassType(type)) {
Object.defineProperties(wrapperObject, {
'$isa': {
enumerable: true,
get() {
let object = Memory.readPointer(pointer);
return Memory.readPointer(object.add(0));
},
},
'$retainCounts': {
enumerable: true,
get() {
let object = Memory.readPointer(pointer);
return api.CFGetRetainCount(object);
},
},
});
}
if ('enumCases' in type) {
let enumCases = type.enumCases();
if (enumCases.length === 1) {
wrapperObject.$enumCase = 0;
} else if (enumCases.length !== 0) {
let numPayloads = type.nominalType.enum_.getNumPayloadCases();
Object.defineProperty(wrapperObject, '$enumCase', {
enumerable: true,
get() {
let opaqueVal = pointer;
let tag = type.canonicalType.valueWitnessTable.getEnumTag(opaqueVal, type.canonicalType._ptr);
// tag is in range [-ElementsWithPayload..ElementsWithNoPayload-1]
// but we want an index into the array returned by enumCases()
return tag + numPayloads;
},
});
if (numPayloads > 0) {
Object.defineProperty(wrapperObject, '$enumPayloadCopy', {
enumerable: true,
value() {
let curCase = enumCases[this.$enumCase];
if (curCase.type === null)
return undefined;
let enumVwt = type.canonicalType.valueWitnessTable;
// we copy the whole enum, and then remove the tag
let payload = Memory.alloc(enumVwt.size.toInt32());
enumVwt.initializeWithCopy(payload, pointer, type.canonicalType._ptr);
enumVwt.destructiveProjectEnumData(payload, type.canonicalType._ptr);
let owned = true;
if (curCase.indirect) {
let payloadCanon = curCase.type.canonicalType;
let buf = Memory.alloc(payloadCanon.valueWitnessTable.size.toInt32());
payloadVwt.initalizeWithTake(buf, Memory.readPointer(payload), payloadCanon._ptr);
payload = buf;
} else if (curCase.weak) {
// TODO: document that we're returning the reference to the existing value
let strong = api.swift_weakLoadStrong(payload);
if (strong.isNull())
return null;
payload = buf;
owned = false;
}
// TODO: toJS
return makeWrapper(curCase.type, payload, owned);
},
});
}
Object.defineProperty(wrapperObject, '$setTo', {
enumerable: true,
value(caseObj, payloadValue) {
if (typeof caseObj === "number")
caseObj = enumCases[caseObj];
if (caseObj && enumCases.indexOf(caseObj) === -1) {
throw new Error(`invalid case tag ${caseObj.name} for $setTo on ${type}`);
}
let newCase = caseObj;
if (newCase.type && (payloadValue === null || payloadValue === undefined))
throw new Error(`$setTo called without a payload, but case '${newCase.name}' requires it`);
if (!newCase.type && payloadValue !== null && payloadValue !== undefined)
throw new Error(`$setTo called with a payload, but case '${newCase.name}' has none`);
let enumVwt = type.canonicalType.valueWitnessTable;
enumVwt.destroy(pointer, type.canonicalType._ptr);
if (newCase.type) {
// TODO: fromJS
let newCanon = newCase.type.canonicalType;
if (newCase.weak) {
// TODO: document that we're assigning the existing reference
api.swift_weakInit(payload, payloadValue.$pointer);
} else if (newCase.indirect) {
let box = api.swift_allocBox(newCase.type.canonicalType._ptr)[1];
newCanon.valueWitnessTable.initializeWithCopy(box, payloadValue.$pointer, newCanon._ptr);
Memory.writePointer(pointer, box);
} else {
newCanon.valueWitnessTable.initializeWithCopy(pointer, payloadValue.$pointer, newCanon._ptr);
}
}
enumVwt.destructiveInjectEnumTag(pointer, caseObj.tag, type.canonicalType._ptr);
},
});
}
}
if ("fields" in type) {
for (let field of type.fields()) {
let getAddr = function getAddr() {
let addr;
if (type.kind === "Struct") {
addr = pointer.add(field.offset);
} else { // Class
let object = Memory.readPointer(pointer);
addr = object.add(field.offset);
}
return addr;
};
let memberName = escapeName(field.name, wrapperObject);
defineMember(wrapperObject, field, memberName, getAddr);
}
}
if (type.kind === "Existential" && type.canonicalType.getRepresentation() === "Opaque") {
// TODO: read access to the witness tables
Object.defineProperty(wrapperObject, '$value', {
enumerable: true,
get() {
let cont = new metadata.OpaqueExistentialContainer(pointer);
let dynType = new types.Type(cont.type._ptr);
if (isClassType(dynType) || !dynType.canonicalType.valueWitnessTable.isValueInline) {
return makeWrapper(dynType, pointer, false);
} else {
return makeWrapper(dynType, cont.heapObject, false);
}
},
set(newVal) {
let witnesses = [];
let protocols = staticType.canonicalType.protocols.protocols;
for (let i = 0; i < protocols.length; i++) {
let proto = protocols[i];
let conformance = api.swift_conformsToProtocol(newVal.$type.canonicalType._ptr, proto._ptr);
if (conformance.isNull())
throw new Error(`this value does not implement the required protocol '${proto.name}'`);
witnesses.push(conformance);
}
// TODO: verify class and superclass bounds
let cont = new metadata.OpaqueExistentialContainer(pointer);
let oldVwt = cont.type.canonicalType.valueWitnessTable;
// TODO: support assigning ObjC.Object
if (isClassType(cont.type))
api.swift_release(cont.heapObject);
else if(oldVwt.isValueInline)
oldVwt.destroy(pointer);
else
oldVwt.destroy(cont.heapObject);
let newVwt = newVal.$type.canonicalType.valueWitnessTable;
newVwt.initializeBufferWithCopy(pointer, newVal.$pointer, newVal.$type.canonicalType._ptr);
cont.type = newVal.$type;
for (let i = 0; i < witnesses.length; i++) {
cont.setWitnessTable(i, witnesses[i]);
}
},
});
}
if ("tupleElements" in type) {
let cnt = 0;
for (let elem of type.tupleElements()) {
defineMember(wrapperObject, elem, cnt.toString(), () => pointer.add(elem.offset));
if (elem.label !== null) {
let curCnt = cnt;
Object.defineProperty(wrapperObject, escapeName(elem.label, wrapperObject), {
enumerable: true,
get() { return wrapperObject[curCnt]; },
set(val) { wrapperObject[curCnt] = val; },
});
}
cnt++;
}
}
/*if ('_methods' in type) {
for (let [name, method] of type._methods.entries()) {
Object.defineProperty(wrapperObject, name, {
enumerable: true,
value(...params) {
return makeFunctionWrapper(method.type, method.address)(...params);
},
});
}
}*/
let invalidateWrapper = function() {
Object.keys(wrapperObject).forEach(key => Reflect.deleteProperty(wrapperObject, key));
pointer = undefined;
type = undefined;
};
if (owned) {
wrapperObject.$destroy = function() {
type.canonicalType.valueWitnessTable.destroy(pointer, type.canonicalType._ptr);
invalidateWrapper();
};
let destruct = function() {
try {
if (pointer !== undefined)
wrapperObject.$destroy();
} catch (e) {
console.log(`unhandled error while cleaning up owned Swift value: ${e}`);
}
};
let oldFin = Duktape.fin(pointer);
Duktape.fin(pointer, function(obj, heapDestruction) {
// not calling destructor during heap destruction -- variables we require for this may already be gone
if (!heapDestruction)
destruct();
oldFin(obj, heapDestruction);
});
}
wrapperObject.$assignWithCopy = function(val) {
if ("$kind" in val) { // ObjC type
throw new Error("ObjC types not yet supported"); // TODO
} else if ("fromJS" in type && !("$pointer" in val)) {
type.fromJS(pointer, val);
return this;
} else {
// TODO: check that types are compatible
staticType.canonicalType.valueWitnessTable.assignWithCopy(pointer, val.$pointer, staticType.canonicalType._ptr);
let newWrapper = makeWrapper(val.$type, pointer, owned);
invalidateWrapper();
return newWrapper;
}
};
wrapperObject.$allocCopy = function() {
let vwt = type.canonicalType.valueWitnessTable;
let mem = Memory.alloc(vwt.size.toInt32());
vwt.initializeWithCopy(mem, pointer, type.canonicalType._ptr);
return makeWrapper(type, mem, true);
};
Object.preventExtensions(wrapperObject);
return wrapperObject;
}
function makeSwiftValue(type) {
if (!type.canonicalType) {
throw new Error("the type of a value must have a canonical type descriptor!");
}
let SwiftValue;
SwiftValue = function (pointer) {
return makeWrapper(SwiftValue, pointer, false);
};
Reflect.defineProperty(SwiftValue, 'name', { value: type.toString() });
return SwiftValue;
}
module.exports = {
makeSwiftValue,
};