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// Copyright (c) 2018, Compiler Explorer Authors
// 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.
import {CppDemangler, Win32Demangler} from '../lib/demangler';
import {PrefixTree} from '../lib/demangler/prefix-tree';
import * as exec from '../lib/exec';
import {SymbolStore} from '../lib/symbol-store';
import * as utils from '../lib/utils';
import {chai, fs, path, resolvePathFromTestRoot} from './utils';
const cppfiltpath = 'c++filt';
class DummyCompiler {
exec(command, args, options) {
return exec.execute(command, args, options);
}
}
const catchCppfiltNonexistence = err => {
if (!err.message.startsWith('spawn c++filt')) {
throw err;
}
};
describe('Basic demangling', function () {
it('One line of asm', function () {
const result = {
asm: [{text: 'Hello, World!'}],
};
const demangler = new CppDemangler(cppfiltpath, new DummyCompiler());
demangler.demanglerArguments = ['-n'];
return Promise.all([
demangler.process(result).then(output => {
output.asm[0].text.should.equal('Hello, World!');
}),
]);
});
it('One label and some asm', function () {
const result = {asm: [{text: '_Z6squarei:'}, {text: ' ret'}]};
const demangler = new CppDemangler(cppfiltpath, new DummyCompiler());
demangler.demanglerArguments = ['-n'];
return Promise.all([
demangler
.process(result)
.then(output => {
output.asm[0].text.should.equal('square(int):');
output.asm[1].text.should.equal(' ret');
})
.catch(catchCppfiltNonexistence),
]);
});
it('One label and use of a label', function () {
const result = {asm: [{text: '_Z6squarei:'}, {text: ' mov eax, $_Z6squarei'}]};
const demangler = new CppDemangler(cppfiltpath, new DummyCompiler());
demangler.demanglerArguments = ['-n'];
return Promise.all([
demangler
.process(result)
.then(output => {
output.asm[0].text.should.equal('square(int):');
output.asm[1].text.should.equal(' mov eax, $square(int)');
})
.catch(catchCppfiltNonexistence),
]);
});
it('Two destructors', function () {
const result = {
asm: [
{text: '_ZN6NormalD0Ev:'},
{text: ' callq _ZdlPv'},
{text: '_Z7caller1v:'},
{text: ' rep ret'},
{text: '_Z7caller2P6Normal:'},
{text: ' cmp rax, OFFSET FLAT:_ZN6NormalD0Ev'},
{text: ' jmp _ZdlPvm'},
{text: '_ZN6NormalD2Ev:'},
{text: ' rep ret'},
],
};
const demangler = new CppDemangler(cppfiltpath, new DummyCompiler());
demangler.demanglerArguments = ['-n'];
return demangler
.process(result)
.then(output => {
output.asm[0].text.should.equal('Normal::~Normal() [deleting destructor]:');
output.asm[1].text.should.equal(' callq operator delete(void*)');
output.asm[6].text.should.equal(' jmp operator delete(void*, unsigned long)');
})
.catch(catchCppfiltNonexistence);
});
it('Should ignore comments (CL)', function () {
const result = {asm: [{text: ' call ??3@YAXPEAX_K@Z ; operator delete'}]};
const demangler = new Win32Demangler(cppfiltpath, new DummyCompiler());
demangler.result = result;
demangler.symbolstore = new SymbolStore();
demangler.collectLabels();
const output = demangler.win32RawSymbols;
output.should.deep.equal(['??3@YAXPEAX_K@Z']);
});
it('Should ignore comments (CPP)', function () {
const result = {asm: [{text: ' call hello ; operator delete'}]};
const demangler = new CppDemangler(cppfiltpath, new DummyCompiler());
demangler.demanglerArguments = ['-n'];
demangler.result = result;
demangler.symbolstore = new SymbolStore();
demangler.collectLabels();
const output = demangler.othersymbols.listSymbols();
output.should.deep.equal(['hello']);
});
it('Should also support ARM branch instructions', () => {
const result = {asm: [{text: ' bl _ZN3FooC1Ev'}]};
const demangler = new CppDemangler(cppfiltpath, new DummyCompiler());
demangler.demanglerArguments = ['-n'];
demangler.result = result;
demangler.symbolstore = new SymbolStore();
demangler.collectLabels();
const output = demangler.othersymbols.listSymbols();
output.should.deep.equal(['_ZN3FooC1Ev']);
});
it('Should NOT handle undecorated labels', () => {
const result = {asm: [{text: '$LN3@caller2:'}]};
const demangler = new Win32Demangler(cppfiltpath, new DummyCompiler());
demangler.result = result;
demangler.symbolstore = new SymbolStore();
demangler.collectLabels();
const output = demangler.win32RawSymbols;
output.should.deep.equal([]);
});
it('Should ignore comments after jmps', function () {
const result = {asm: [{text: ' jmp _Z1fP6mytype # TAILCALL'}]};
const demangler = new CppDemangler(cppfiltpath, new DummyCompiler());
demangler.demanglerArguments = ['-n'];
demangler.result = result;
demangler.symbolstore = new SymbolStore();
demangler.collectLabels();
const output = demangler.othersymbols.listSymbols();
output.should.deep.equal(['_Z1fP6mytype']);
});
it('Should still work with normal jmps', function () {
const result = {asm: [{text: ' jmp _Z1fP6mytype'}]};
const demangler = new CppDemangler(cppfiltpath, new DummyCompiler());
demangler.demanglerArguments = ['-n'];
demangler.result = result;
demangler.symbolstore = new SymbolStore();
demangler.collectLabels();
const output = demangler.othersymbols.listSymbols();
output.should.deep.equal(['_Z1fP6mytype']);
});
it('Should support CUDA PTX', function () {
const result = {
asm: [
{text: ' .visible .entry _Z6squarePii('},
{text: ' .param .u64 _Z6squarePii_param_0,'},
{text: ' ld.param.u64 %rd1, [_Z6squarePii_param_0];'},
{text: ' .func (.param .b32 func_retval0) _Z4cubePii('},
{text: '.global .attribute(.managed) .align 4 .b8 _ZN2ns9mymanagedE[16];'},
{text: '.global .texref _ZN2ns6texRefE;'},
{text: '.const .align 8 .u64 _ZN2ns5mystrE = generic($str);'},
],
};
const demangler = new CppDemangler(cppfiltpath, new DummyCompiler());
demangler.demanglerArguments = ['-n'];
return Promise.all([
demangler
.process(result)
.then(output => {
output.asm[0].text.should.equal(' .visible .entry square(int*, int)(');
output.asm[1].text.should.equal(' .param .u64 square(int*, int)_param_0,');
output.asm[2].text.should.equal(' ld.param.u64 %rd1, [square(int*, int)_param_0];');
output.asm[3].text.should.equal(' .func (.param .b32 func_retval0) cube(int*, int)(');
output.asm[4].text.should.equal('.global .attribute(.managed) .align 4 .b8 ns::mymanaged[16];');
output.asm[5].text.should.equal('.global .texref ns::texRef;');
output.asm[6].text.should.equal('.const .align 8 .u64 ns::mystr = generic($str);');
})
.catch(catchCppfiltNonexistence),
]);
});
});
async function readResultFile(filename) {
const data = await fs.readFile(filename);
const asm = utils.splitLines(data.toString()).map(line => {
return {text: line};
});
return {asm};
}
async function DoDemangleTest(filename) {
const resultIn = await readResultFile(filename);
const resultOut = await readResultFile(filename + '.demangle');
const demangler = new CppDemangler(cppfiltpath, new DummyCompiler());
demangler.demanglerArguments = ['-n'];
return demangler.process(resultIn).should.eventually.deep.equal(resultOut);
}
describe('File demangling', () => {
if (process.platform !== 'linux') {
it('Should be skipped', done => {
done();
});
return;
}
const testcasespath = resolvePathFromTestRoot('demangle-cases');
/*
* NB: this readdir must *NOT* be async
*
* Mocha calls the function passed to `describe` synchronously
* and expects the test suite to be fully configured upon return.
*
* If you pass an async function to describe and setup test cases
* after an await there is no guarantee they will be found, and
* if they are they will not end up in the expected suite.
*/
const files = fs.readdirSync(testcasespath);
for (const filename of files) {
if (filename.endsWith('.asm')) {
it(filename, async () => {
await DoDemangleTest(path.join(testcasespath, filename));
});
}
}
});
describe('Demangler prefix tree', () => {
const replacements = new PrefixTree();
replacements.add('a', 'short_a');
replacements.add('aa', 'long_a');
replacements.add('aa_shouldnotmatch', 'ERROR');
it('should replace a short match', () => {
replacements.replaceAll('a').should.eq('short_a');
});
it('should replace using the longest match', () => {
replacements.replaceAll('aa').should.eq('long_a');
});
it('should replace using both', () => {
replacements.replaceAll('aaa').should.eq('long_ashort_a');
});
it('should replace using both', () => {
replacements.replaceAll('a aa a aa').should.eq('short_a long_a short_a long_a');
});
it('should work with empty replacements', () => {
new PrefixTree().replaceAll('Testing 123').should.eq('Testing 123');
});
it('should leave unmatching text alone', () => {
replacements
.replaceAll('Some text with none of the first letter of the ordered letter list')
.should.eq('Some text with none of the first letter of the ordered letter list');
});
it('should handle a mixture', () => {
replacements.replaceAll('Everyone loves an aardvark').should.eq('Everyone loves short_an long_ardvshort_ark');
});
it('should find exact matches', () => {
replacements.findExact('a').should.eq('short_a');
replacements.findExact('aa').should.eq('long_a');
replacements.findExact('aa_shouldnotmatch').should.eq('ERROR');
});
it('should find not find mismatches', () => {
chai.expect(replacements.findExact('aaa')).to.be.null;
chai.expect(replacements.findExact(' aa')).to.be.null;
chai.expect(replacements.findExact(' a')).to.be.null;
chai.expect(replacements.findExact('Oh noes')).to.be.null;
chai.expect(replacements.findExact('')).to.be.null;
});
});