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// Copyright (c) 2015, Matt Godbolt
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are met:
//
// * Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
// ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
// LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
// CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
// SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
// CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
// POSSIBILITY OF SUCH DAMAGE.
const _ = require('underscore'),
utils = require('./utils'),
AsmRegex = require('./asmregex').AsmRegex;
class AsmParser extends AsmRegex {
constructor(compilerProps) {
super();
this.labelFindNonMips = /[.a-zA-Z_][a-zA-Z0-9$_.]*/g;
// MIPS labels can start with a $ sign, but other assemblers use $ to mean literal.
this.labelFindMips = /[$.a-zA-Z_][a-zA-Z0-9$_.]*/g;
this.mipsLabelDefinition = /^\$[a-zA-Z0-9$_.]+:/;
this.dataDefn = /^\s*\.(string|asciz|ascii|[1248]?byte|short|x?word|long|quad|value|zero)/;
this.fileFind = /^\s*\.file\s+(\d+)\s+"([^"]+)"(\s+"([^"]+)")?.*/;
this.hasOpcodeRe = /^\s*[a-zA-Z]/;
this.definesFunction = /^\s*\.type.*,\s*[@%]function$/;
this.definesGlobal = /^\s*\.globa?l\s*([.a-zA-Z_][a-zA-Z0-9$_.]*)/;
this.indentedLabelDef = /^\s*([.a-zA-Z_$][a-zA-Z0-9$_.]*):/;
this.assignmentDef = /^\s*([.a-zA-Z_$][a-zA-Z0-9$_.]+)\s*=/;
this.directive = /^\s*\..*$/;
this.startAppBlock = /\s*#APP.*/;
this.endAppBlock = /\s*#NO_APP.*/;
this.startAsmNesting = /\s*# Begin ASM.*/;
this.endAsmNesting = /\s*# End ASM.*/;
this.cudaBeginDef = /\.(entry|func)\s+(?:\([^)]*\)\s*)?([.a-zA-Z_$][a-zA-Z0-9$_.]*)\($/;
this.cudaEndDef = /^\s*\)\s*$/;
this.binaryHideFuncRe = null;
this.maxAsmLines = 500;
this.inNvccDef = false;
if (compilerProps) {
const binaryHideFuncReValue = compilerProps('binaryHideFuncRe');
if (binaryHideFuncReValue) {
this.binaryHideFuncRe = new RegExp(binaryHideFuncReValue);
}
this.maxAsmLines = compilerProps('maxLinesOfAsm', this.maxAsmLines);
}
this.asmOpcodeRe = /^\s*([0-9a-f]+):\s*(([0-9a-f][0-9a-f] ?)+)\s*(.*)/;
this.lineRe = /^(\/[^:]+):([0-9]+).*/;
this.labelRe = /^([0-9a-f]+)\s+<([^>]+)>:$/;
this.destRe = /\s([0-9a-f]+)\s+<([^>]+)>$/;
}
hasOpcode(line) {
// Remove any leading label definition...
const match = line.match(this.labelDef);
if (match) {
line = line.substr(match[0].length);
}
// Strip any comments
line = line.split(/[#;]/, 1)[0];
// Detect assignment, that's not an opcode...
if (line.match(this.assignmentDef)) return false;
return !!line.match(this.hasOpcodeRe);
}
labelFindFor(asmLines) {
const isMips = _.any(asmLines, line => !!line.match(this.mipsLabelDefinition));
return isMips ? this.labelFindMips : this.labelFindNonMips;
}
findUsedLabels(asmLines, filterDirectives) {
const labelsUsed = {};
const weakUsages = {};
const labelFind = this.labelFindFor(asmLines);
let currentLabel = "";
let inCustomAssembly = 0;
// Scan through looking for definite label usages (ones used by opcodes),
// and ones that are weakly used: that is, their use is conditional on another label.
// For example:
// .foo: .string "moo"
// .baz: .quad .foo
// mov eax, .baz
// In this case, the '.baz' is used by an opcode, and so is strongly used.
// The '.foo' is weakly used by .baz.
asmLines.forEach(line => {
if (line.match(this.startAppBlock) || line.match(this.startAsmNesting)) {
inCustomAssembly++;
} else if (line.match(this.endAppBlock) || line.match(this.endAsmNesting)) {
inCustomAssembly--;
}
if (inCustomAssembly > 0)
line = this.fixLabelIndentation(line);
let match = line.match(this.labelDef);
if (match)
currentLabel = match[1];
match = line.match(this.definesGlobal);
if (!match)
match = line.match(this.cudaBeginDef);
if (match) {
labelsUsed[match[1]] = true;
}
if (!line || line[0] === '.') return;
match = line.match(labelFind);
if (!match) return;
if (!filterDirectives || this.hasOpcode(line) || line.match(this.definesFunction)) {
// Only count a label as used if it's used by an opcode, or else we're not filtering directives.
match.forEach(label => labelsUsed[label] = true);
} else if (currentLabel) {
// If we have a current label, then any subsequent opcode or data definition's labels are refered to
// weakly by that label.
const isDataDefinition = !!line.match(this.dataDefn);
const isOpcode = this.hasOpcode(line);
if (isDataDefinition || isOpcode) {
if (!weakUsages[currentLabel]) weakUsages[currentLabel] = [];
match.forEach(label => weakUsages[currentLabel].push(label));
}
}
});
// Now follow the chains of used labels, marking any weak references they refer
// to as also used. We iteratively do this until either no new labels are found,
// or we hit a limit (only here to prevent a pathological case from hanging).
function markUsed(label) {
labelsUsed[label] = true;
}
const MaxLabelIterations = 10;
for (let iter = 0; iter < MaxLabelIterations; ++iter) {
let toAdd = [];
_.each(labelsUsed, (t, label) => { // jshint ignore:line
_.each(weakUsages[label], nowused => {
if (labelsUsed[nowused]) return;
toAdd.push(nowused);
});
});
if (!toAdd) break;
_.each(toAdd, markUsed);
}
return labelsUsed;
}
parseFiles(asmLines) {
const files = {};
asmLines.forEach(line => {
const match = line.match(this.fileFind);
if (match) {
const lineNum = parseInt(match[1]);
if (match[3]) {
// Clang-style file directive '.file X "dir" "filename"'
files[lineNum] = match[2] + "/" + match[3];
} else {
files[lineNum] = match[2];
}
}
});
return files;
}
processAsm(asm, filters) {
if (filters.binary) return this.processBinaryAsm(asm, filters);
if (filters.commentOnly) {
// Remove any block comments that start and end on a line if we're removing comment-only lines.
const blockComments = /^\s*\/\*(\*(?!\/)|[^*])*\*\/\s*\r?\n/mg;
asm = asm.replace(blockComments, "");
}
const result = [];
let asmLines = utils.splitLines(asm);
if (filters.preProcessLines !== undefined) {
asmLines = filters.preProcessLines(asmLines);
}
const labelsUsed = this.findUsedLabels(asmLines, filters.directives);
const files = this.parseFiles(asmLines);
let prevLabel = "";
const commentOnly = /^\s*(((#|@|;|\/\/).*)|(\/\*.*\*\/))$/;
const sourceTag = /^\s*\.loc\s+(\d+)\s+(\d+).*/;
const sourceStab = /^\s*\.stabn\s+(\d+),0,(\d+),.*/;
const stdInLooking = /<stdin>|^-$|example\.[^/]+$|<source>/;
const endBlock = /\.(cfi_endproc|data|text|section)/;
let source = null;
let inCustomAssembly = 0;
asmLines.forEach(line => {
let match;
if (line.trim() === "") {
result.push({text: "", source: null});
return;
}
if (line.match(this.startAppBlock) || line.match(this.startAsmNesting)) {
inCustomAssembly++;
} else if (line.match(this.endAppBlock) || line.match(this.endAsmNesting)) {
inCustomAssembly--;
}
match = line.match(sourceTag);
if (match) {
const file = files[parseInt(match[1])];
const sourceLine = parseInt(match[2]);
if (file) {
source = {
file: !file.match(stdInLooking) ? file : null,
line: sourceLine
};
} else {
source = null;
}
}
match = line.match(sourceStab);
if (match) {
// cf http://www.math.utah.edu/docs/info/stabs_11.html#SEC48
switch (parseInt(match[1])) {
case 68:
source = {file: null, line: parseInt(match[2])};
break;
case 132:
case 100:
source = null;
prevLabel = null;
break;
}
}
if (line.match(endBlock)) {
source = null;
prevLabel = null;
}
if (filters.commentOnly && line.match(commentOnly)) return;
if (inCustomAssembly > 0)
line = this.fixLabelIndentation(line);
match = line.match(this.labelDef);
if (!match) match = line.match(this.assignmentDef);
if (!match) {
match = line.match(this.cudaBeginDef);
if (match)
this.inNvccDef = true;
}
if (match) {
// It's a label definition.
if (labelsUsed[match[1]] === undefined) {
// It's an unused label.
if (filters.labels) return;
} else {
// A used label.
prevLabel = match;
}
}
if (this.inNvccDef) {
if (line.match(this.cudaEndDef))
this.inNvccDef = false;
} else if (!match && filters.directives) {
// Check for directives only if it wasn't a label; the regexp would
// otherwise misinterpret labels as directives.
if (line.match(this.dataDefn) && prevLabel) {
// We're defining data that's being used somewhere.
} else {
if (line.match(this.directive)) return;
}
}
line = utils.expandTabs(line);
result.push({text: AsmRegex.filterAsmLine(line, filters), source: this.hasOpcode(line) ? source : null});
});
return result;
}
fixLabelIndentation(line) {
const match = line.match(this.indentedLabelDef);
if (match) {
return line.replace(/^\s+/, "");
} else {
return line;
}
}
isUserFunction(func) {
if (this.binaryHideFuncRe === null) return true;
return !func.match(this.binaryHideFuncRe);
}
processBinaryAsm(asm, filters) {
const result = [];
let asmLines = asm.split("\n");
let source = null;
let func = null;
// Handle "error" documents.
if (asmLines.length === 1 && asmLines[0][0] === '<') {
return [{text: asmLines[0], source: null}];
}
if (filters.preProcessBinaryAsmLines !== undefined) {
asmLines = filters.preProcessBinaryAsmLines(asmLines);
}
asmLines.forEach(line => {
if (result.length >= this.maxAsmLines) {
if (result.length === this.maxAsmLines) {
result.push({text: "[truncated; too many lines]", source: null});
}
return;
}
let match = line.match(this.lineRe);
if (match) {
source = {file: null, line: parseInt(match[2])};
return;
}
match = line.match(this.labelRe);
if (match) {
func = match[2];
if (this.isUserFunction(func)) {
result.push({text: func + ":", source: null});
}
return;
}
if (!func || !this.isUserFunction(func)) return;
match = line.match(this.asmOpcodeRe);
if (match) {
const address = parseInt(match[1], 16);
const opcodes = match[2].split(" ").filter(x => !!x);
const disassembly = " " + AsmRegex.filterAsmLine(match[4], filters);
let links = null;
const destMatch = line.match(this.destRe);
if (destMatch) {
links = [{
offset: disassembly.indexOf(destMatch[1]),
length: destMatch[1].length,
to: parseInt(destMatch[1], 16)
}];
}
result.push({opcodes: opcodes, address: address, text: disassembly, source: source, links: links});
}
});
return result;
}
process(asm, filters) {
return this.processAsm(asm, filters);
}
}
module.exports = AsmParser;