/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- * * Copyright 2015 Mozilla Foundation * * 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. */ #include "wasm/WasmBinaryToText.h" #include "jsnum.h" #include "jsprf.h" #include "vm/ArrayBufferObject.h" #include "vm/StringBuffer.h" #include "wasm/WasmAST.h" #include "wasm/WasmBinaryToAST.h" #include "wasm/WasmTextUtils.h" #include "wasm/WasmTypes.h" using namespace js; using namespace js::wasm; using mozilla::IsInfinite; using mozilla::IsNaN; using mozilla::IsNegativeZero; struct WasmRenderContext { JSContext* cx; AstModule* module; WasmPrintBuffer& buffer; GeneratedSourceMap* maybeSourceMap; uint32_t indent; uint32_t currentFuncIndex; WasmRenderContext(JSContext* cx, AstModule* module, WasmPrintBuffer& buffer, GeneratedSourceMap* sourceMap) : cx(cx), module(module), buffer(buffer), maybeSourceMap(sourceMap), indent(0), currentFuncIndex(0) {} StringBuffer& sb() { return buffer.stringBuffer(); } }; /*****************************************************************************/ // utilities // Return true on purpose, so that we have a useful error message to provide to // the user. static bool Fail(WasmRenderContext& c, const char* msg) { c.buffer.stringBuffer().clear(); return c.buffer.append("There was a problem when rendering the wasm text format: ") && c.buffer.append(msg, strlen(msg)) && c.buffer.append("\nYou should consider file a bug on Bugzilla in the " "Core:::JavaScript Engine::JIT component at " "https://bugzilla.mozilla.org/enter_bug.cgi."); } static bool RenderIndent(WasmRenderContext& c) { for (uint32_t i = 0; i < c.indent; i++) { if (!c.buffer.append(" ")) return false; } return true; } static bool RenderInt32(WasmRenderContext& c, int32_t num) { return NumberValueToStringBuffer(c.cx, Int32Value(num), c.sb()); } static bool RenderInt64(WasmRenderContext& c, int64_t num) { if (num < 0 && !c.buffer.append("-")) return false; if (!num) return c.buffer.append("0"); return RenderInBase<10>(c.sb(), mozilla::Abs(num)); } static bool RenderDouble(WasmRenderContext& c, RawF64 num) { double d = num.fp(); if (IsNaN(d)) return RenderNaN(c.sb(), num); if (IsNegativeZero(d)) return c.buffer.append("-0"); if (IsInfinite(d)) { if (d > 0) return c.buffer.append("infinity"); return c.buffer.append("-infinity"); } return NumberValueToStringBuffer(c.cx, DoubleValue(d), c.sb()); } static bool RenderFloat32(WasmRenderContext& c, RawF32 num) { float f = num.fp(); if (IsNaN(f)) return RenderNaN(c.sb(), num); return RenderDouble(c, RawF64(double(f))); } static bool RenderEscapedString(WasmRenderContext& c, const AstName& s) { size_t length = s.length(); const char16_t* p = s.begin(); for (size_t i = 0; i < length; i++) { char16_t byte = p[i]; switch (byte) { case '\n': if (!c.buffer.append("\\n")) return false; break; case '\r': if (!c.buffer.append("\\0d")) return false; break; case '\t': if (!c.buffer.append("\\t")) return false; break; case '\f': if (!c.buffer.append("\\0c")) return false; break; case '\b': if (!c.buffer.append("\\08")) return false; break; case '\\': if (!c.buffer.append("\\\\")) return false; break; case '"' : if (!c.buffer.append("\\\"")) return false; break; case '\'': if (!c.buffer.append("\\'")) return false; break; default: if (byte >= 32 && byte < 127) { if (!c.buffer.append((char)byte)) return false; } else { char digit1 = byte / 16, digit2 = byte % 16; if (!c.buffer.append("\\")) return false; if (!c.buffer.append((char)(digit1 < 10 ? digit1 + '0' : digit1 + 'a' - 10))) return false; if (!c.buffer.append((char)(digit2 < 10 ? digit2 + '0' : digit2 + 'a' - 10))) return false; } break; } } return true; } static bool RenderExprType(WasmRenderContext& c, ExprType type) { switch (type) { case ExprType::Void: return true; // ignoring void case ExprType::I32: return c.buffer.append("i32"); case ExprType::I64: return c.buffer.append("i64"); case ExprType::F32: return c.buffer.append("f32"); case ExprType::F64: return c.buffer.append("f64"); default:; } MOZ_CRASH("bad type"); } static bool RenderValType(WasmRenderContext& c, ValType type) { return RenderExprType(c, ToExprType(type)); } static bool RenderName(WasmRenderContext& c, const AstName& name) { return c.buffer.append(name.begin(), name.end()); } static bool RenderRef(WasmRenderContext& c, const AstRef& ref) { if (ref.name().empty()) return RenderInt32(c, ref.index()); return RenderName(c, ref.name()); } static bool RenderBlockNameAndSignature(WasmRenderContext& c, const AstName& name, ExprType type) { if (!name.empty()) { if (!c.buffer.append(' ')) return false; if (!RenderName(c, name)) return false; } if (!IsVoid(type)) { if (!c.buffer.append(' ')) return false; if (!RenderExprType(c, type)) return false; } return true; } static bool RenderExpr(WasmRenderContext& c, AstExpr& expr, bool newLine = true); #define MAP_AST_EXPR(c, expr) \ if (c.maybeSourceMap) { \ uint32_t lineno = c.buffer.lineno(); \ uint32_t column = c.buffer.column(); \ if (!c.maybeSourceMap->exprlocs().emplaceBack(lineno, column, expr.offset())) \ return false; \ } /*****************************************************************************/ // binary format parsing and rendering static bool RenderNop(WasmRenderContext& c, AstNop& nop) { if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, nop); return c.buffer.append("nop"); } static bool RenderDrop(WasmRenderContext& c, AstDrop& drop) { if (!RenderExpr(c, drop.value())) return false; if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, drop); return c.buffer.append("drop"); } static bool RenderUnreachable(WasmRenderContext& c, AstUnreachable& unreachable) { if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, unreachable); return c.buffer.append("unreachable"); } static bool RenderCallArgs(WasmRenderContext& c, const AstExprVector& args) { for (uint32_t i = 0; i < args.length(); i++) { if (!RenderExpr(c, *args[i])) return false; } return true; } static bool RenderCall(WasmRenderContext& c, AstCall& call) { if (!RenderCallArgs(c, call.args())) return false; if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, call); if (call.op() == Op::Call) { if (!c.buffer.append("call ")) return false; } else { return Fail(c, "unexpected operator"); } return RenderRef(c, call.func()); } static bool RenderCallIndirect(WasmRenderContext& c, AstCallIndirect& call) { if (!RenderCallArgs(c, call.args())) return false; if (!RenderExpr(c, *call.index())) return false; if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, call); if (!c.buffer.append("call_indirect ")) return false; return RenderRef(c, call.sig()); } static bool RenderConst(WasmRenderContext& c, AstConst& cst) { if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, cst); if (!RenderValType(c, cst.val().type())) return false; if (!c.buffer.append(".const ")) return false; switch (ToExprType(cst.val().type())) { case ExprType::I32: return RenderInt32(c, (int32_t)cst.val().i32()); case ExprType::I64: return RenderInt64(c, (int64_t)cst.val().i64()); case ExprType::F32: return RenderFloat32(c, cst.val().f32()); case ExprType::F64: return RenderDouble(c, cst.val().f64()); default: break; } return false; } static bool RenderGetLocal(WasmRenderContext& c, AstGetLocal& gl) { if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, gl); if (!c.buffer.append("get_local ")) return false; return RenderRef(c, gl.local()); } static bool RenderSetLocal(WasmRenderContext& c, AstSetLocal& sl) { if (!RenderExpr(c, sl.value())) return false; if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, sl); if (!c.buffer.append("set_local ")) return false; return RenderRef(c, sl.local()); } static bool RenderTeeLocal(WasmRenderContext& c, AstTeeLocal& tl) { if (!RenderExpr(c, tl.value())) return false; if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, tl); if (!c.buffer.append("tee_local ")) return false; return RenderRef(c, tl.local()); } static bool RenderGetGlobal(WasmRenderContext& c, AstGetGlobal& gg) { if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, gg); if (!c.buffer.append("get_global ")) return false; return RenderRef(c, gg.global()); } static bool RenderSetGlobal(WasmRenderContext& c, AstSetGlobal& sg) { if (!RenderExpr(c, sg.value())) return false; if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, sg); if (!c.buffer.append("set_global ")) return false; return RenderRef(c, sg.global()); } static bool RenderExprList(WasmRenderContext& c, const AstExprVector& exprs) { for (uint32_t i = 0; i < exprs.length(); i++) { if (!RenderExpr(c, *exprs[i])) return false; } return true; } static bool RenderBlock(WasmRenderContext& c, AstBlock& block) { if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, block); if (block.op() == Op::Block) { if (!c.buffer.append("block")) return false; } else if (block.op() == Op::Loop) { if (!c.buffer.append("loop")) return false; } else { return Fail(c, "unexpected block kind"); } if (!RenderBlockNameAndSignature(c, block.name(), block.type())) return false; if (!c.buffer.append('\n')) return false; c.indent++; if (!RenderExprList(c, block.exprs())) return false; c.indent--; if (!RenderIndent(c)) return false; return c.buffer.append("end"); } static bool RenderFirst(WasmRenderContext& c, AstFirst& first) { return RenderExprList(c, first.exprs()); } static bool RenderCurrentMemory(WasmRenderContext& c, AstCurrentMemory& cm) { if (!RenderIndent(c)) return false; return c.buffer.append("current_memory\n"); } static bool RenderGrowMemory(WasmRenderContext& c, AstGrowMemory& gm) { if (!RenderExpr(c, *gm.operand())) return false; if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, gm); return c.buffer.append("grow_memory\n"); } static bool RenderUnaryOperator(WasmRenderContext& c, AstUnaryOperator& unary) { if (!RenderExpr(c, *unary.operand())) return false; if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, unary); const char* opStr; switch (unary.op()) { case Op::I32Eqz: opStr = "i32.eqz"; break; case Op::I32Clz: opStr = "i32.clz"; break; case Op::I32Ctz: opStr = "i32.ctz"; break; case Op::I32Popcnt: opStr = "i32.popcnt"; break; case Op::I64Clz: opStr = "i64.clz"; break; case Op::I64Ctz: opStr = "i64.ctz"; break; case Op::I64Popcnt: opStr = "i64.popcnt"; break; case Op::F32Abs: opStr = "f32.abs"; break; case Op::F32Neg: opStr = "f32.neg"; break; case Op::F32Ceil: opStr = "f32.ceil"; break; case Op::F32Floor: opStr = "f32.floor"; break; case Op::F32Sqrt: opStr = "f32.sqrt"; break; case Op::F32Trunc: opStr = "f32.trunc"; break; case Op::F32Nearest: opStr = "f32.nearest"; break; case Op::F64Abs: opStr = "f64.abs"; break; case Op::F64Neg: opStr = "f64.neg"; break; case Op::F64Ceil: opStr = "f64.ceil"; break; case Op::F64Floor: opStr = "f64.floor"; break; case Op::F64Nearest: opStr = "f64.nearest"; break; case Op::F64Sqrt: opStr = "f64.sqrt"; break; case Op::F64Trunc: opStr = "f64.trunc"; break; default: return Fail(c, "unexpected unary operator"); } return c.buffer.append(opStr, strlen(opStr)); } static bool RenderBinaryOperator(WasmRenderContext& c, AstBinaryOperator& binary) { if (!RenderExpr(c, *binary.lhs())) return false; if (!RenderExpr(c, *binary.rhs())) return false; if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, binary); const char* opStr; switch (binary.op()) { case Op::I32Add: opStr = "i32.add"; break; case Op::I32Sub: opStr = "i32.sub"; break; case Op::I32Mul: opStr = "i32.mul"; break; case Op::I32DivS: opStr = "i32.div_s"; break; case Op::I32DivU: opStr = "i32.div_u"; break; case Op::I32RemS: opStr = "i32.rem_s"; break; case Op::I32RemU: opStr = "i32.rem_u"; break; case Op::I32And: opStr = "i32.and"; break; case Op::I32Or: opStr = "i32.or"; break; case Op::I32Xor: opStr = "i32.xor"; break; case Op::I32Shl: opStr = "i32.shl"; break; case Op::I32ShrS: opStr = "i32.shr_s"; break; case Op::I32ShrU: opStr = "i32.shr_u"; break; case Op::I32Rotl: opStr = "i32.rotl"; break; case Op::I32Rotr: opStr = "i32.rotr"; break; case Op::I64Add: opStr = "i64.add"; break; case Op::I64Sub: opStr = "i64.sub"; break; case Op::I64Mul: opStr = "i64.mul"; break; case Op::I64DivS: opStr = "i64.div_s"; break; case Op::I64DivU: opStr = "i64.div_u"; break; case Op::I64RemS: opStr = "i64.rem_s"; break; case Op::I64RemU: opStr = "i64.rem_u"; break; case Op::I64And: opStr = "i64.and"; break; case Op::I64Or: opStr = "i64.or"; break; case Op::I64Xor: opStr = "i64.xor"; break; case Op::I64Shl: opStr = "i64.shl"; break; case Op::I64ShrS: opStr = "i64.shr_s"; break; case Op::I64ShrU: opStr = "i64.shr_u"; break; case Op::I64Rotl: opStr = "i64.rotl"; break; case Op::I64Rotr: opStr = "i64.rotr"; break; case Op::F32Add: opStr = "f32.add"; break; case Op::F32Sub: opStr = "f32.sub"; break; case Op::F32Mul: opStr = "f32.mul"; break; case Op::F32Div: opStr = "f32.div"; break; case Op::F32Min: opStr = "f32.min"; break; case Op::F32Max: opStr = "f32.max"; break; case Op::F32CopySign: opStr = "f32.copysign"; break; case Op::F64Add: opStr = "f64.add"; break; case Op::F64Sub: opStr = "f64.sub"; break; case Op::F64Mul: opStr = "f64.mul"; break; case Op::F64Div: opStr = "f64.div"; break; case Op::F64Min: opStr = "f64.min"; break; case Op::F64Max: opStr = "f64.max"; break; case Op::F64CopySign: opStr = "f64.copysign"; break; default: return Fail(c, "unexpected binary operator"); } return c.buffer.append(opStr, strlen(opStr)); } static bool RenderTernaryOperator(WasmRenderContext& c, AstTernaryOperator& ternary) { if (!RenderExpr(c, *ternary.op0())) return false; if (!RenderExpr(c, *ternary.op1())) return false; if (!RenderExpr(c, *ternary.op2())) return false; if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, ternary); const char* opStr; switch (ternary.op()) { case Op::Select: opStr = "select"; break; default: return Fail(c, "unexpected ternary operator"); } return c.buffer.append(opStr, strlen(opStr)); } static bool RenderComparisonOperator(WasmRenderContext& c, AstComparisonOperator& comp) { if (!RenderExpr(c, *comp.lhs())) return false; if (!RenderExpr(c, *comp.rhs())) return false; if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, comp); const char* opStr; switch (comp.op()) { case Op::I32Eq: opStr = "i32.eq"; break; case Op::I32Ne: opStr = "i32.ne"; break; case Op::I32LtS: opStr = "i32.lt_s"; break; case Op::I32LtU: opStr = "i32.lt_u"; break; case Op::I32LeS: opStr = "i32.le_s"; break; case Op::I32LeU: opStr = "i32.le_u"; break; case Op::I32GtS: opStr = "i32.gt_s"; break; case Op::I32GtU: opStr = "i32.gt_u"; break; case Op::I32GeS: opStr = "i32.ge_s"; break; case Op::I32GeU: opStr = "i32.ge_u"; break; case Op::I64Eq: opStr = "i64.eq"; break; case Op::I64Ne: opStr = "i64.ne"; break; case Op::I64LtS: opStr = "i64.lt_s"; break; case Op::I64LtU: opStr = "i64.lt_u"; break; case Op::I64LeS: opStr = "i64.le_s"; break; case Op::I64LeU: opStr = "i64.le_u"; break; case Op::I64GtS: opStr = "i64.gt_s"; break; case Op::I64GtU: opStr = "i64.gt_u"; break; case Op::I64GeS: opStr = "i64.ge_s"; break; case Op::I64GeU: opStr = "i64.ge_u"; break; case Op::F32Eq: opStr = "f32.eq"; break; case Op::F32Ne: opStr = "f32.ne"; break; case Op::F32Lt: opStr = "f32.lt"; break; case Op::F32Le: opStr = "f32.le"; break; case Op::F32Gt: opStr = "f32.gt"; break; case Op::F32Ge: opStr = "f32.ge"; break; case Op::F64Eq: opStr = "f64.eq"; break; case Op::F64Ne: opStr = "f64.ne"; break; case Op::F64Lt: opStr = "f64.lt"; break; case Op::F64Le: opStr = "f64.le"; break; case Op::F64Gt: opStr = "f64.gt"; break; case Op::F64Ge: opStr = "f64.ge"; break; default: return Fail(c, "unexpected comparison operator"); } return c.buffer.append(opStr, strlen(opStr)); } static bool RenderConversionOperator(WasmRenderContext& c, AstConversionOperator& conv) { if (!RenderExpr(c, *conv.operand())) return false; if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, conv); const char* opStr; switch (conv.op()) { case Op::I32WrapI64: opStr = "i32.wrap/i64"; break; case Op::I32TruncSF32: opStr = "i32.trunc_s/f32"; break; case Op::I32TruncUF32: opStr = "i32.trunc_u/f32"; break; case Op::I32ReinterpretF32: opStr = "i32.reinterpret/f32"; break; case Op::I32TruncSF64: opStr = "i32.trunc_s/f64"; break; case Op::I32TruncUF64: opStr = "i32.trunc_u/f64"; break; case Op::I64ExtendSI32: opStr = "i64.extend_s/i32"; break; case Op::I64ExtendUI32: opStr = "i64.extend_u/i32"; break; case Op::I64TruncSF32: opStr = "i64.trunc_s/f32"; break; case Op::I64TruncUF32: opStr = "i64.trunc_u/f32"; break; case Op::I64TruncSF64: opStr = "i64.trunc_s/f64"; break; case Op::I64TruncUF64: opStr = "i64.trunc_u/f64"; break; case Op::I64ReinterpretF64: opStr = "i64.reinterpret/f64"; break; case Op::F32ConvertSI32: opStr = "f32.convert_s/i32"; break; case Op::F32ConvertUI32: opStr = "f32.convert_u/i32"; break; case Op::F32ReinterpretI32: opStr = "f32.reinterpret/i32"; break; case Op::F32ConvertSI64: opStr = "f32.convert_s/i64"; break; case Op::F32ConvertUI64: opStr = "f32.convert_u/i64"; break; case Op::F32DemoteF64: opStr = "f32.demote/f64"; break; case Op::F64ConvertSI32: opStr = "f64.convert_s/i32"; break; case Op::F64ConvertUI32: opStr = "f64.convert_u/i32"; break; case Op::F64ConvertSI64: opStr = "f64.convert_s/i64"; break; case Op::F64ConvertUI64: opStr = "f64.convert_u/i64"; break; case Op::F64ReinterpretI64: opStr = "f64.reinterpret/i64"; break; case Op::F64PromoteF32: opStr = "f64.promote/f32"; break; case Op::I32Eqz: opStr = "i32.eqz"; break; case Op::I64Eqz: opStr = "i64.eqz"; break; default: return Fail(c, "unexpected conversion operator"); } return c.buffer.append(opStr, strlen(opStr)); } static bool RenderIf(WasmRenderContext& c, AstIf& if_) { if (!RenderExpr(c, if_.cond())) return false; if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, if_); if (!c.buffer.append("if")) return false; if (!RenderBlockNameAndSignature(c, if_.name(), if_.type())) return false; if (!c.buffer.append('\n')) return false; c.indent++; if (!RenderExprList(c, if_.thenExprs())) return false; c.indent--; if (if_.hasElse()) { if (!RenderIndent(c)) return false; if (!c.buffer.append("else\n")) return false; c.indent++; if (!RenderExprList(c, if_.elseExprs())) return false; c.indent--; } if (!RenderIndent(c)) return false; return c.buffer.append("end"); } static bool RenderLoadStoreBase(WasmRenderContext& c, const AstLoadStoreAddress& lsa) { return RenderExpr(c, lsa.base()); } static bool RenderLoadStoreAddress(WasmRenderContext& c, const AstLoadStoreAddress& lsa, uint32_t defaultAlignLog2) { if (lsa.offset() != 0) { if (!c.buffer.append(" offset=")) return false; if (!RenderInt32(c, lsa.offset())) return false; } uint32_t alignLog2 = lsa.flags(); if (defaultAlignLog2 != alignLog2) { if (!c.buffer.append(" align=")) return false; if (!RenderInt32(c, 1 << alignLog2)) return false; } return true; } static bool RenderLoad(WasmRenderContext& c, AstLoad& load) { if (!RenderLoadStoreBase(c, load.address())) return false; if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, load); uint32_t defaultAlignLog2; switch (load.op()) { case Op::I32Load8S: if (!c.buffer.append("i32.load8_s")) return false; defaultAlignLog2 = 0; break; case Op::I64Load8S: if (!c.buffer.append("i64.load8_s")) return false; defaultAlignLog2 = 0; break; case Op::I32Load8U: if (!c.buffer.append("i32.load8_u")) return false; defaultAlignLog2 = 0; break; case Op::I64Load8U: if (!c.buffer.append("i64.load8_u")) return false; defaultAlignLog2 = 0; break; case Op::I32Load16S: if (!c.buffer.append("i32.load16_s")) return false; defaultAlignLog2 = 1; break; case Op::I64Load16S: if (!c.buffer.append("i64.load16_s")) return false; defaultAlignLog2 = 1; break; case Op::I32Load16U: if (!c.buffer.append("i32.load16_u")) return false; defaultAlignLog2 = 1; break; case Op::I64Load16U: if (!c.buffer.append("i64.load16_u")) return false; defaultAlignLog2 = 1; break; case Op::I64Load32S: if (!c.buffer.append("i64.load32_s")) return false; defaultAlignLog2 = 2; break; case Op::I64Load32U: if (!c.buffer.append("i64.load32_u")) return false; defaultAlignLog2 = 2; break; case Op::I32Load: if (!c.buffer.append("i32.load")) return false; defaultAlignLog2 = 2; break; case Op::I64Load: if (!c.buffer.append("i64.load")) return false; defaultAlignLog2 = 3; break; case Op::F32Load: if (!c.buffer.append("f32.load")) return false; defaultAlignLog2 = 2; break; case Op::F64Load: if (!c.buffer.append("f64.load")) return false; defaultAlignLog2 = 3; break; default: return Fail(c, "unexpected load operator"); } return RenderLoadStoreAddress(c, load.address(), defaultAlignLog2); } static bool RenderStore(WasmRenderContext& c, AstStore& store) { if (!RenderLoadStoreBase(c, store.address())) return false; if (!RenderExpr(c, store.value())) return false; if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, store); uint32_t defaultAlignLog2; switch (store.op()) { case Op::I32Store8: if (!c.buffer.append("i32.store8")) return false; defaultAlignLog2 = 0; break; case Op::I64Store8: if (!c.buffer.append("i64.store8")) return false; defaultAlignLog2 = 0; break; case Op::I32Store16: if (!c.buffer.append("i32.store16")) return false; defaultAlignLog2 = 1; break; case Op::I64Store16: if (!c.buffer.append("i64.store16")) return false; defaultAlignLog2 = 1; break; case Op::I64Store32: if (!c.buffer.append("i64.store32")) return false; defaultAlignLog2 = 2; break; case Op::I32Store: if (!c.buffer.append("i32.store")) return false; defaultAlignLog2 = 2; break; case Op::I64Store: if (!c.buffer.append("i64.store")) return false; defaultAlignLog2 = 3; break; case Op::F32Store: if (!c.buffer.append("f32.store")) return false; defaultAlignLog2 = 2; break; case Op::F64Store: if (!c.buffer.append("f64.store")) return false; defaultAlignLog2 = 3; break; default: return Fail(c, "unexpected store operator"); } return RenderLoadStoreAddress(c, store.address(), defaultAlignLog2); } static bool RenderBranch(WasmRenderContext& c, AstBranch& branch) { Op op = branch.op(); MOZ_ASSERT(op == Op::BrIf || op == Op::Br); if (op == Op::BrIf) { if (!RenderExpr(c, branch.cond())) return false; } if (branch.maybeValue()) { if (!RenderExpr(c, *(branch.maybeValue()))) return false; } if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, branch); if (op == Op::BrIf ? !c.buffer.append("br_if ") : !c.buffer.append("br ")) return false; return RenderRef(c, branch.target()); } static bool RenderBrTable(WasmRenderContext& c, AstBranchTable& table) { if (table.maybeValue()) { if (!RenderExpr(c, *(table.maybeValue()))) return false; } // Index if (!RenderExpr(c, table.index())) return false; if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, table); if (!c.buffer.append("br_table ")) return false; uint32_t tableLength = table.table().length(); for (uint32_t i = 0; i < tableLength; i++) { if (!RenderRef(c, table.table()[i])) return false; if (!c.buffer.append(" ")) return false; } return RenderRef(c, table.def()); } static bool RenderReturn(WasmRenderContext& c, AstReturn& ret) { if (ret.maybeExpr()) { if (!RenderExpr(c, *(ret.maybeExpr()))) return false; } if (!RenderIndent(c)) return false; MAP_AST_EXPR(c, ret); return c.buffer.append("return"); } static bool RenderExpr(WasmRenderContext& c, AstExpr& expr, bool newLine /* = true */) { switch (expr.kind()) { case AstExprKind::Drop: if (!RenderDrop(c, expr.as())) return false; break; case AstExprKind::Nop: if (!RenderNop(c, expr.as())) return false; break; case AstExprKind::Unreachable: if (!RenderUnreachable(c, expr.as())) return false; break; case AstExprKind::Call: if (!RenderCall(c, expr.as())) return false; break; case AstExprKind::CallIndirect: if (!RenderCallIndirect(c, expr.as())) return false; break; case AstExprKind::Const: if (!RenderConst(c, expr.as())) return false; break; case AstExprKind::GetLocal: if (!RenderGetLocal(c, expr.as())) return false; break; case AstExprKind::SetLocal: if (!RenderSetLocal(c, expr.as())) return false; break; case AstExprKind::GetGlobal: if (!RenderGetGlobal(c, expr.as())) return false; break; case AstExprKind::SetGlobal: if (!RenderSetGlobal(c, expr.as())) return false; break; case AstExprKind::TeeLocal: if (!RenderTeeLocal(c, expr.as())) return false; break; case AstExprKind::Block: if (!RenderBlock(c, expr.as())) return false; break; case AstExprKind::If: if (!RenderIf(c, expr.as())) return false; break; case AstExprKind::UnaryOperator: if (!RenderUnaryOperator(c, expr.as())) return false; break; case AstExprKind::BinaryOperator: if (!RenderBinaryOperator(c, expr.as())) return false; break; case AstExprKind::TernaryOperator: if (!RenderTernaryOperator(c, expr.as())) return false; break; case AstExprKind::ComparisonOperator: if (!RenderComparisonOperator(c, expr.as())) return false; break; case AstExprKind::ConversionOperator: if (!RenderConversionOperator(c, expr.as())) return false; break; case AstExprKind::Load: if (!RenderLoad(c, expr.as())) return false; break; case AstExprKind::Store: if (!RenderStore(c, expr.as())) return false; break; case AstExprKind::Branch: if (!RenderBranch(c, expr.as())) return false; break; case AstExprKind::BranchTable: if (!RenderBrTable(c, expr.as())) return false; break; case AstExprKind::Return: if (!RenderReturn(c, expr.as())) return false; break; case AstExprKind::First: newLine = false; if (!RenderFirst(c, expr.as())) return false; break; case AstExprKind::CurrentMemory: if (!RenderCurrentMemory(c, expr.as())) return false; break; case AstExprKind::GrowMemory: if (!RenderGrowMemory(c, expr.as())) return false; break; default: MOZ_CRASH("Bad AstExprKind"); } return !newLine || c.buffer.append("\n"); } static bool RenderSignature(WasmRenderContext& c, const AstSig& sig, const AstNameVector* maybeLocals = nullptr) { uint32_t paramsNum = sig.args().length(); if (maybeLocals) { for (uint32_t i = 0; i < paramsNum; i++) { if (!c.buffer.append(" (param ")) return false; const AstName& name = (*maybeLocals)[i]; if (!name.empty()) { if (!RenderName(c, name)) return false; if (!c.buffer.append(" ")) return false; } ValType arg = sig.args()[i]; if (!RenderValType(c, arg)) return false; if (!c.buffer.append(")")) return false; } } else if (paramsNum > 0) { if (!c.buffer.append(" (param")) return false; for (uint32_t i = 0; i < paramsNum; i++) { if (!c.buffer.append(" ")) return false; ValType arg = sig.args()[i]; if (!RenderValType(c, arg)) return false; } if (!c.buffer.append(")")) return false; } if (sig.ret() != ExprType::Void) { if (!c.buffer.append(" (result ")) return false; if (!RenderExprType(c, sig.ret())) return false; if (!c.buffer.append(")")) return false; } return true; } static bool RenderTypeSection(WasmRenderContext& c, const AstModule::SigVector& sigs) { uint32_t numSigs = sigs.length(); if (!numSigs) return true; for (uint32_t sigIndex = 0; sigIndex < numSigs; sigIndex++) { const AstSig* sig = sigs[sigIndex]; if (!RenderIndent(c)) return false; if (!c.buffer.append("(type")) return false; if (!sig->name().empty()) { if (!c.buffer.append(" ")) return false; if (!RenderName(c, sig->name())) return false; } if (!c.buffer.append(" (func")) return false; if (!RenderSignature(c, *sig)) return false; if (!c.buffer.append("))\n")) return false; } return true; } static bool RenderLimits(WasmRenderContext& c, const Limits& limits) { if (!RenderInt32(c, limits.initial)) return false; if (limits.maximum) { if (!c.buffer.append(" ")) return false; if (!RenderInt32(c, *limits.maximum)) return false; } return true; } static bool RenderResizableTable(WasmRenderContext& c, const Limits& table) { if (!c.buffer.append("(table ")) return false; if (!RenderLimits(c, table)) return false; return c.buffer.append(" anyfunc)"); } static bool RenderTableSection(WasmRenderContext& c, const AstModule& module) { if (!module.hasTable()) return true; for (const AstResizable& table : module.tables()) { if (table.imported) continue; if (!RenderIndent(c)) return false; if (!RenderResizableTable(c, table.limits)) return false; if (!c.buffer.append("\n")) return false; } return true; } static bool RenderInlineExpr(WasmRenderContext& c, AstExpr& expr) { if (!c.buffer.append("(")) return false; uint32_t prevIndent = c.indent; c.indent = 0; if (!RenderExpr(c, expr, /* newLine */ false)) return false; c.indent = prevIndent; return c.buffer.append(")"); } static bool RenderElemSection(WasmRenderContext& c, const AstModule& module) { for (const AstElemSegment* segment : module.elemSegments()) { if (!RenderIndent(c)) return false; if (!c.buffer.append("(elem ")) return false; if (!RenderInlineExpr(c, *segment->offset())) return false; for (const AstRef& elem : segment->elems()) { if (!c.buffer.append(" ")) return false; uint32_t index = elem.index(); AstName name = index < module.funcImportNames().length() ? module.funcImportNames()[index] : module.funcs()[index - module.funcImportNames().length()]->name(); if (name.empty()) { if (!RenderInt32(c, index)) return false; } else { if (!RenderName(c, name)) return false; } } if (!c.buffer.append(")\n")) return false; } return true; } static bool RenderGlobal(WasmRenderContext& c, const AstGlobal& glob, bool inImport = false) { if (!c.buffer.append("(global ")) return false; if (!inImport) { if (!RenderName(c, glob.name())) return false; if (!c.buffer.append(" ")) return false; } if (glob.isMutable()) { if (!c.buffer.append("(mut ")) return false; if (!RenderValType(c, glob.type())) return false; if (!c.buffer.append(")")) return false; } else { if (!RenderValType(c, glob.type())) return false; } if (glob.hasInit()) { if (!c.buffer.append(" ")) return false; if (!RenderInlineExpr(c, glob.init())) return false; } if (!c.buffer.append(")")) return false; return inImport || c.buffer.append("\n"); } static bool RenderGlobalSection(WasmRenderContext& c, const AstModule& module) { if (module.globals().empty()) return true; for (const AstGlobal* global : module.globals()) { if (!RenderIndent(c)) return false; if (!RenderGlobal(c, *global)) return false; } return true; } static bool RenderResizableMemory(WasmRenderContext& c, Limits memory) { if (!c.buffer.append("(memory ")) return false; MOZ_ASSERT(memory.initial % PageSize == 0); memory.initial /= PageSize; if (memory.maximum) { MOZ_ASSERT(*memory.maximum % PageSize == 0); *memory.maximum /= PageSize; } if (!RenderLimits(c, memory)) return false; return c.buffer.append(")"); } static bool RenderImport(WasmRenderContext& c, AstImport& import, const AstModule& module) { if (!RenderIndent(c)) return false; if (!c.buffer.append("(import ")) return false; if (!RenderName(c, import.name())) return false; if (!c.buffer.append(" \"")) return false; const AstName& moduleName = import.module(); if (!RenderEscapedString(c, moduleName)) return false; if (!c.buffer.append("\" \"")) return false; const AstName& fieldName = import.field(); if (!RenderEscapedString(c, fieldName)) return false; if (!c.buffer.append("\" ")) return false; switch (import.kind()) { case DefinitionKind::Function: { const AstSig* sig = module.sigs()[import.funcSig().index()]; if (!RenderSignature(c, *sig)) return false; break; } case DefinitionKind::Table: { if (!RenderResizableTable(c, import.limits())) return false; break; } case DefinitionKind::Memory: { if (!RenderResizableMemory(c, import.limits())) return false; break; } case DefinitionKind::Global: { const AstGlobal& glob = import.global(); if (!RenderGlobal(c, glob, /* inImport */ true)) return false; break; } } return c.buffer.append(")\n"); } static bool RenderImportSection(WasmRenderContext& c, const AstModule& module) { for (AstImport* import : module.imports()) { if (!RenderImport(c, *import, module)) return false; } return true; } static bool RenderExport(WasmRenderContext& c, AstExport& export_, const AstModule::NameVector& funcImportNames, const AstModule::FuncVector& funcs) { if (!RenderIndent(c)) return false; if (!c.buffer.append("(export \"")) return false; if (!RenderEscapedString(c, export_.name())) return false; if (!c.buffer.append("\" ")) return false; switch (export_.kind()) { case DefinitionKind::Function: { uint32_t index = export_.ref().index(); AstName name = index < funcImportNames.length() ? funcImportNames[index] : funcs[index - funcImportNames.length()]->name(); if (name.empty()) { if (!RenderInt32(c, index)) return false; } else { if (!RenderName(c, name)) return false; } break; } case DefinitionKind::Table: { if (!c.buffer.append("table")) return false; break; } case DefinitionKind::Memory: { if (!c.buffer.append("memory")) return false; break; } case DefinitionKind::Global: { if (!c.buffer.append("global")) return false; if (!RenderRef(c, export_.ref())) return false; break; } } return c.buffer.append(")\n"); } static bool RenderExportSection(WasmRenderContext& c, const AstModule::ExportVector& exports, const AstModule::NameVector& funcImportNames, const AstModule::FuncVector& funcs) { uint32_t numExports = exports.length(); for (uint32_t i = 0; i < numExports; i++) { if (!RenderExport(c, *exports[i], funcImportNames, funcs)) return false; } return true; } static bool RenderFunctionBody(WasmRenderContext& c, AstFunc& func, const AstModule::SigVector& sigs) { const AstSig* sig = sigs[func.sig().index()]; size_t startExprIndex = c.maybeSourceMap ? c.maybeSourceMap->exprlocs().length() : 0; uint32_t startLineno = c.buffer.lineno(); uint32_t argsNum = sig->args().length(); uint32_t localsNum = func.vars().length(); if (localsNum > 0) { if (!RenderIndent(c)) return false; for (uint32_t i = 0; i < localsNum; i++) { if (!c.buffer.append("(local ")) return false; const AstName& name = func.locals()[argsNum + i]; if (!name.empty()) { if (!RenderName(c, name)) return false; if (!c.buffer.append(" ")) return false; } ValType local = func.vars()[i]; if (!RenderValType(c, local)) return false; if (!c.buffer.append(") ")) return false; } if (!c.buffer.append("\n")) return false; } uint32_t exprsNum = func.body().length(); for (uint32_t i = 0; i < exprsNum; i++) { if (!RenderExpr(c, *func.body()[i])) return false; } size_t endExprIndex = c.maybeSourceMap ? c.maybeSourceMap->exprlocs().length() : 0; uint32_t endLineno = c.buffer.lineno(); if (c.maybeSourceMap) { if (!c.maybeSourceMap->functionlocs().emplaceBack(startExprIndex, endExprIndex, startLineno, endLineno)) return false; } return true; } static bool RenderCodeSection(WasmRenderContext& c, const AstModule::FuncVector& funcs, const AstModule::SigVector& sigs) { uint32_t numFuncBodies = funcs.length(); for (uint32_t funcIndex = 0; funcIndex < numFuncBodies; funcIndex++) { AstFunc* func = funcs[funcIndex]; uint32_t sigIndex = func->sig().index(); AstSig* sig = sigs[sigIndex]; if (!RenderIndent(c)) return false; if (!c.buffer.append("(func ")) return false; if (!func->name().empty()) { if (!RenderName(c, func->name())) return false; } if (!RenderSignature(c, *sig, &(func->locals()))) return false; if (!c.buffer.append("\n")) return false; c.currentFuncIndex = funcIndex; c.indent++; if (!RenderFunctionBody(c, *func, sigs)) return false; c.indent--; if (!RenderIndent(c)) return false; if (!c.buffer.append(")\n")) return false; } return true; } static bool RenderMemorySection(WasmRenderContext& c, const AstModule& module) { if (!module.hasMemory()) return true; for (const AstResizable& memory : module.memories()) { if (memory.imported) continue; if (!RenderIndent(c)) return false; if (!RenderResizableMemory(c, memory.limits)) return false; if (!c.buffer.append("\n")) return false; } return true; } static bool RenderDataSection(WasmRenderContext& c, const AstModule& module) { uint32_t numSegments = module.dataSegments().length(); if (!numSegments) return true; for (const AstDataSegment* seg : module.dataSegments()) { if (!RenderIndent(c)) return false; if (!c.buffer.append("(data ")) return false; if (!RenderInlineExpr(c, *seg->offset())) return false; if (!c.buffer.append("\n")) return false; c.indent++; for (const AstName& fragment : seg->fragments()) { if (!RenderIndent(c)) return false; if (!c.buffer.append("\"")) return false; if (!RenderEscapedString(c, fragment)) return false; if (!c.buffer.append("\"\n")) return false; } c.indent--; if (!RenderIndent(c)) return false; if (!c.buffer.append(")\n")) return false; } return true; } static bool RenderStartSection(WasmRenderContext& c, AstModule& module) { if (!module.hasStartFunc()) return true; if (!RenderIndent(c)) return false; if (!c.buffer.append("(start ")) return false; if (!RenderRef(c, module.startFunc().func())) return false; if (!c.buffer.append(")\n")) return false; return true; } static bool RenderModule(WasmRenderContext& c, AstModule& module) { if (!c.buffer.append("(module\n")) return false; c.indent++; if (!RenderTypeSection(c, module.sigs())) return false; if (!RenderImportSection(c, module)) return false; if (!RenderTableSection(c, module)) return false; if (!RenderMemorySection(c, module)) return false; if (!RenderGlobalSection(c, module)) return false; if (!RenderExportSection(c, module.exports(), module.funcImportNames(), module.funcs())) return false; if (!RenderStartSection(c, module)) return false; if (!RenderElemSection(c, module)) return false; if (!RenderCodeSection(c, module.funcs(), module.sigs())) return false; if (!RenderDataSection(c, module)) return false; c.indent--; if (!c.buffer.append(")")) return false; return true; } #undef MAP_AST_EXPR /*****************************************************************************/ // Top-level functions bool wasm::BinaryToText(JSContext* cx, const uint8_t* bytes, size_t length, StringBuffer& buffer, GeneratedSourceMap* sourceMap) { LifoAlloc lifo(AST_LIFO_DEFAULT_CHUNK_SIZE); AstModule* module; if (!BinaryToAst(cx, bytes, length, lifo, &module)) return false; WasmPrintBuffer buf(buffer); WasmRenderContext c(cx, module, buf, sourceMap); if (!RenderModule(c, *module)) { if (!cx->isExceptionPending()) ReportOutOfMemory(cx); return false; } return true; }