/*
* Copyright 2015 WebAssembly Community Group participants
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
//
// WebAssembly intepreter for asm2wasm output, in a js environment.
//
// Receives asm.js, generates a runnable module that executes the code in a WebAssembly
// interpreter. This is suitable as a polyfill for WebAssembly support in browsers.
//
#include <emscripten.h>
#include "asm2wasm.h"
#include "wasm-interpreter.h"
#include "wasm-s-parser.h"
using namespace cashew;
using namespace wasm;
namespace wasm {
int debug = 0;
}
// global singletons
Asm2WasmBuilder* asm2wasm = nullptr;
SExpressionParser* sExpressionParser = nullptr;
SExpressionWasmBuilder* sExpressionWasmBuilder = nullptr;
ModuleInstance* instance = nullptr;
AllocatingModule* module = nullptr;
bool wasmJSDebug = false;
static void prepare2wasm() {
assert(asm2wasm == nullptr && sExpressionParser == nullptr && sExpressionWasmBuilder == nullptr && instance == nullptr); // singletons
#if WASM_JS_DEBUG
wasmJSDebug = 1;
#else
wasmJSDebug = EM_ASM_INT_V({ return !!Module['outside']['WASM_JS_DEBUG'] }); // Set WASM_JS_DEBUG on the outside Module to get debugging
#endif
}
// receives asm.js code, parses into wasm.
// note: this modifies the input.
extern "C" void EMSCRIPTEN_KEEPALIVE load_asm2wasm(char *input) {
prepare2wasm();
Asm2WasmPreProcessor pre;
input = pre.process(input);
// proceed to parse and wasmify
if (wasmJSDebug) std::cerr << "asm parsing...\n";
cashew::Parser<Ref, DotZeroValueBuilder> builder;
Ref asmjs = builder.parseToplevel(input);
module = new AllocatingModule();
module->memory.initial = EM_ASM_INT_V({
return Module['providedTotalMemory']; // we receive the size of memory from emscripten
});
module->memory.max = pre.memoryGrowth ? -1 : module->memory.initial;
if (wasmJSDebug) std::cerr << "wasming...\n";
asm2wasm = new Asm2WasmBuilder(*module, pre.memoryGrowth, debug);
asm2wasm->processAsm(asmjs);
if (wasmJSDebug) std::cerr << "optimizing...\n";
asm2wasm->optimize();
if (wasmJSDebug) std::cerr << "mapping globals...\n";
for (auto& pair : asm2wasm->mappedGlobals) {
auto name = pair.first;
auto& global = pair.second;
if (!global.import) continue; // non-imports are initialized to zero in the typed array anyhow, so nothing to do here
double value = EM_ASM_DOUBLE({ return Module['lookupImport'](Pointer_stringify($0), Pointer_stringify($1)) }, global.module.str, global.base.str);
unsigned address = global.address;
switch (global.type) {
case i32: EM_ASM_({ Module['info'].parent['HEAP32'][$0 >> 2] = $1 }, address, value); break;
case f32: EM_ASM_({ Module['info'].parent['HEAPF32'][$0 >> 2] = $1 }, address, value); break;
case f64: EM_ASM_({ Module['info'].parent['HEAPF64'][$0 >> 3] = $1 }, address, value); break;
default: abort();
}
}
}
// loads wasm code in s-expression format
extern "C" void EMSCRIPTEN_KEEPALIVE load_s_expr2wasm(char *input, char *mappedGlobals) {
prepare2wasm();
if (wasmJSDebug) std::cerr << "wasm-s-expression parsing...\n";
sExpressionParser = new SExpressionParser(input);
Element& root = *sExpressionParser->root;
if (wasmJSDebug) std::cout << root << '\n';
if (wasmJSDebug) std::cerr << "wasming...\n";
module = new AllocatingModule();
// A .wast may have multiple modules, with some asserts after them, but we just read the first here.
sExpressionWasmBuilder = new SExpressionWasmBuilder(*module, *root[0], [&]() {
std::cerr << "error in parsing s-expressions to wasm\n";
abort();
});
module->memory.initial = EM_ASM_INT_V({
return Module['providedTotalMemory']; // we receive the size of memory from emscripten
});
module->memory.max = (module->exportsMap.find(GROW_WASM_MEMORY) != module->exportsMap.end()) ? -1 : module->memory.initial;
// global mapping is done in js in post.js
}
// instantiates the loaded wasm (which might be from asm2wasm, or
// s-expressions, or something else) with a JS external interface.
extern "C" void EMSCRIPTEN_KEEPALIVE instantiate() {
if (wasmJSDebug) std::cerr << "instantiating module: \n" << *module << '\n';
if (wasmJSDebug) std::cerr << "generating exports...\n";
EM_ASM({
Module['asmExports'] = {};
});
for (auto& pair : module->exportsMap) {
auto& curr = pair.second;
EM_ASM_({
var name = Pointer_stringify($0);
Module['asmExports'][name] = function() {
Module['tempArguments'] = Array.prototype.slice.call(arguments);
Module['_call_from_js']($0);
return Module['tempReturn'];
};
}, curr->name.str);
}
if (wasmJSDebug) std::cerr << "creating instance...\n";
struct JSExternalInterface : ModuleInstance::ExternalInterface {
void init(Module& wasm) override {
// if we have memory segments, create a new buffer here, just like native wasm support would.
// otherwise, no need to.
if (wasm.memory.segments.size() > 0) {
EM_ASM_({
Module['outside']['newBuffer'] = new ArrayBuffer($0);
}, wasm.memory.initial);
for (auto segment : wasm.memory.segments) {
EM_ASM_({
var source = Module['HEAP8'].subarray($1, $1 + $2);
var target = new Int8Array(Module['outside']['newBuffer']);
target.set(source, $0);
}, segment.offset, segment.data, segment.size);
}
}
}
Literal callImport(Import *import, ModuleInstance::LiteralList& arguments) override {
if (wasmJSDebug) std::cout << "calling import " << import->name.str << '\n';
EM_ASM({
Module['tempArguments'] = [];
});
for (auto& argument : arguments) {
if (argument.type == i32) {
EM_ASM_({ Module['tempArguments'].push($0) }, argument.geti32());
} else if (argument.type == f32) {
EM_ASM_({ Module['tempArguments'].push($0) }, argument.getf32());
} else if (argument.type == f64) {
EM_ASM_({ Module['tempArguments'].push($0) }, argument.getf64());
} else {
abort();
}
}
double ret = EM_ASM_DOUBLE({
var mod = Pointer_stringify($0);
var base = Pointer_stringify($1);
var tempArguments = Module['tempArguments'];
Module['tempArguments'] = null;
var lookup = Module['lookupImport'](mod, base);
return lookup.apply(null, tempArguments);
}, import->module.str, import->base.str);
if (wasmJSDebug) std::cout << "calling import returning " << ret << '\n';
switch (import->type.result) {
case none: return Literal(0);
case i32: return Literal((int32_t)ret);
case f32: return Literal((float)ret);
case f64: return Literal((double)ret);
default: abort();
}
}
Literal load(Load* load, size_t addr) override {
assert(load->align == load->bytes);
if (!isWasmTypeFloat(load->type)) {
if (load->bytes == 1) {
if (load->signed_) {
return Literal(EM_ASM_INT({ return Module['info'].parent['HEAP8'][$0] }, addr));
} else {
return Literal(EM_ASM_INT({ return Module['info'].parent['HEAPU8'][$0] }, addr));
}
} else if (load->bytes == 2) {
if (load->signed_) {
return Literal(EM_ASM_INT({ return Module['info'].parent['HEAP16'][$0 >> 1] }, addr));
} else {
return Literal(EM_ASM_INT({ return Module['info'].parent['HEAPU16'][$0 >> 1] }, addr));
}
} else if (load->bytes == 4) {
if (load->signed_) {
return Literal(EM_ASM_INT({ return Module['info'].parent['HEAP32'][$0 >> 2] }, addr));
} else {
return Literal(EM_ASM_INT({ return Module['info'].parent['HEAPU32'][$0 >> 2] }, addr));
}
}
abort();
} else {
if (load->bytes == 4) {
return Literal((float)EM_ASM_DOUBLE({ return Module['info'].parent['HEAPF32'][$0 >> 2] }, addr));
} else if (load->bytes == 8) {
return Literal(EM_ASM_DOUBLE({ return Module['info'].parent['HEAPF64'][$0 >> 3] }, addr));
}
abort();
}
}
void store(Store* store, size_t addr, Literal value) override {
assert(store->align == store->bytes);
if (!isWasmTypeFloat(store->type)) {
if (store->bytes == 1) {
EM_ASM_INT({ Module['info'].parent['HEAP8'][$0] = $1 }, addr, value.geti32());
} else if (store->bytes == 2) {
EM_ASM_INT({ Module['info'].parent['HEAP16'][$0 >> 1] = $1 }, addr, value.geti32());
} else if (store->bytes == 4) {
EM_ASM_INT({ Module['info'].parent['HEAP32'][$0 >> 2] = $1 }, addr, value.geti32());
} else {
abort();
}
} else {
if (store->bytes == 4) {
EM_ASM_DOUBLE({ Module['info'].parent['HEAPF32'][$0 >> 2] = $1 }, addr, value.getf32());
} else if (store->bytes == 8) {
EM_ASM_DOUBLE({ Module['info'].parent['HEAPF64'][$0 >> 3] = $1 }, addr, value.getf64());
} else {
abort();
}
}
}
void growMemory(size_t oldSize, size_t newSize) override {
EM_ASM_({
var size = $0;
var buffer;
try {
buffer = new ArrayBuffer(size);
} catch(e) {
// fail to grow memory. post.js notices this since the buffer is unchanged
return;
}
var oldHEAP8 = Module['outside']['HEAP8'];
var temp = new Int8Array(buffer);
temp.set(oldHEAP8);
Module['outside']['buffer'] = buffer;
}, newSize);
}
void trap(const char* why) override {
EM_ASM_({
abort("wasm trap: " + Pointer_stringify($0));
}, why);
}
};
instance = new ModuleInstance(*module, new JSExternalInterface());
}
// Does a call from js into an export of the module.
extern "C" void EMSCRIPTEN_KEEPALIVE call_from_js(const char *target) {
if (wasmJSDebug) std::cout << "call_from_js " << target << '\n';
IString exportName(target);
IString functionName = instance->wasm.exportsMap[exportName]->value;
Function *function = instance->wasm.functionsMap[functionName];
assert(function);
size_t seen = EM_ASM_INT_V({ return Module['tempArguments'].length });
size_t actual = function->params.size();
ModuleInstance::LiteralList arguments;
for (size_t i = 0; i < actual; i++) {
WasmType type = function->params[i].type;
// add the parameter, with a zero value if JS did not provide it.
if (type == i32) {
arguments.push_back(Literal(i < seen ? EM_ASM_INT({ return Module['tempArguments'][$0] }, i) : (int32_t)0));
} else if (type == f32) {
arguments.push_back(Literal(i < seen ? (float)EM_ASM_DOUBLE({ return Module['tempArguments'][$0] }, i) : (float)0.0));
} else if (type == f64) {
arguments.push_back(Literal(i < seen ? EM_ASM_DOUBLE({ return Module['tempArguments'][$0] }, i) : (double)0.0));
} else {
abort();
}
}
Literal ret = instance->callExport(exportName, arguments);
if (wasmJSDebug) std::cout << "call_from_js returning " << ret << '\n';
if (ret.type == none) EM_ASM({ Module['tempReturn'] = undefined });
else if (ret.type == i32) EM_ASM_({ Module['tempReturn'] = $0 }, ret.i32);
else if (ret.type == f32) EM_ASM_({ Module['tempReturn'] = $0 }, ret.f32);
else if (ret.type == f64) EM_ASM_({ Module['tempReturn'] = $0 }, ret.f64);
else abort();
}