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src.rivoreo.one / compiler-explorer / compiler-overrides / . / test / base-compiler-tests.js
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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 {match, mock, restore, stub} from 'sinon';
import {BaseCompiler} from '../lib/base-compiler';
import {BuildEnvSetupBase} from '../lib/buildenvsetup';
import {Win32Compiler} from '../lib/compilers/win32';
import * as exec from '../lib/exec';
import {fs, makeCompilationEnvironment, path, should} from './utils';
const languages = {
'c++': {id: 'c++'},
};
describe('Basic compiler invariants', function () {
let ce, compiler;
const info = {
exe: null,
remote: true,
lang: languages['c++'].id,
ldPath: [],
};
before(() => {
ce = makeCompilationEnvironment({languages});
compiler = new BaseCompiler(info, ce);
});
it('should recognize when optOutput has been request', () => {
compiler.optOutputRequested(['please', 'recognize', '-fsave-optimization-record']).should.equal(true);
compiler.optOutputRequested(['please', "don't", 'recognize']).should.equal(false);
});
// Overkill test, but now we're safer!
it('should recognize cfg compilers', () => {
compiler
.isCfgCompiler(
'clang version 5.0.0 (https://github.com/asutton/clang.git 449c8c3e91355a3b2b6761e11d9fb5d3c125b791) (https://github.com/llvm-mirror/llvm.git 40b1e969f9cb2a0c697e247435193fb006ef1311)',
)
.should.equal(true);
compiler.isCfgCompiler('clang version 4.0.0 (tags/RELEASE_400/final 299826)').should.equal(true);
compiler.isCfgCompiler('clang version 7.0.0 (trunk 325868)').should.equal(true);
compiler.isCfgCompiler('clang version 3.3 (tags/RELEASE_33/final)').should.equal(true);
compiler
.isCfgCompiler('clang version 6.0.0 (tags/RELEASE_600/final 327031) (llvm/tags/RELEASE_600/final 327028)')
.should.equal(true);
compiler.isCfgCompiler('g++ (GCC-Explorer-Build) 4.9.4').should.equal(true);
compiler.isCfgCompiler('g++ (GCC-Explorer-Build) 8.0.1 20180223 (experimental)').should.equal(true);
compiler.isCfgCompiler('g++ (GCC-Explorer-Build) 8.0.1 20180223 (experimental)').should.equal(true);
compiler.isCfgCompiler('g++ (GCC) 4.1.2').should.equal(true);
compiler.isCfgCompiler('foo-bar-g++ (GCC-Explorer-Build) 4.9.4').should.equal(true);
compiler.isCfgCompiler('foo-bar-gcc (GCC-Explorer-Build) 4.9.4').should.equal(true);
compiler.isCfgCompiler('foo-bar-gdc (GCC-Explorer-Build) 4.9.4').should.equal(true);
compiler.isCfgCompiler('fake-for-test (Based on g++)').should.equal(false);
compiler.isCfgCompiler('gdc (crosstool-NG 203be35 - 20160205-2.066.1-e95a735b97) 5.2.0').should.equal(true);
compiler
.isCfgCompiler('gdc (crosstool-NG hg+unknown-20131212.080758 - 20140430-2.064.2-404a037d26) 4.8.2')
.should.equal(true);
compiler
.isCfgCompiler('gdc (crosstool-NG crosstool-ng-1.20.0-232-gc746732 - 20150830-2.066.1-d0dd4a83de) 4.9.3')
.should.equal(true);
compiler.isCfgCompiler('fake-for-test (Based on gdc)').should.equal(false);
});
it('should allow comments next to includes (Bug #874)', () => {
should.equal(compiler.checkSource('#include <cmath> // std::(sin, cos, ...)'), null);
const badSource = compiler.checkSource('#include </dev/null..> //Muehehehe');
should.exist(badSource);
badSource.should.equal('<stdin>:1:1: no absolute or relative includes please');
});
it('should not warn of path-likes outside C++ includes (Bug #3045)', () => {
function testIncludeG(text) {
should.equal(compiler.checkSource(text), null);
}
testIncludeG('#include <iostream>');
testIncludeG('#include <iostream> // <..>');
testIncludeG('#include <type_traits> // for std::is_same_v<...>');
testIncludeG('#include <ranges> // for std::ranges::range<...> and std::ranges::range_type_v<...>');
testIncludeG('#include <https://godbolt.com> // /home/');
});
it('should not allow path C++ includes', () => {
function testIncludeNotG(text) {
should.equal(compiler.checkSource(text), '<stdin>:1:1: no absolute or relative includes please');
}
testIncludeNotG('#include <./.bashrc>');
testIncludeNotG('#include </dev/null> // <..>');
testIncludeNotG('#include <../fish.config> // for std::is_same_v<...>');
testIncludeNotG('#include <./> // for std::ranges::range<...> and std::ranges::range_type_v<...>');
});
it('should skip version check if forced to', async () => {
const newConfig = {...info, explicitVersion: '123'};
const forcedVersionCompiler = new BaseCompiler(newConfig, ce);
const result = await forcedVersionCompiler.getVersion();
result.stdout.should.deep.equal(['123']);
});
});
describe('Compiler execution', function () {
let ce, compiler, compilerNoExec, win32compiler;
const executingCompilerInfo = {
exe: null,
remote: true,
lang: languages['c++'].id,
ldPath: [],
libPath: [],
supportsExecute: true,
supportsBinary: true,
options: '--hello-abc -I"/opt/some thing 1.0/include" -march="magic 8bit"',
};
const win32CompilerInfo = {
exe: null,
remote: true,
lang: languages['c++'].id,
ldPath: [],
supportsExecute: true,
supportsBinary: true,
options: '/std=c++17 /I"C:/program files (x86)/Company name/Compiler 1.2.3/include" /D "MAGIC=magic 8bit"',
};
const noExecuteSupportCompilerInfo = {
exe: null,
remote: true,
lang: languages['c++'].id,
ldPath: [],
libPath: [],
};
const someOptionsCompilerInfo = {
exe: null,
remote: true,
lang: languages['c++'].id,
ldPath: [],
libPath: [],
supportsExecute: true,
supportsBinary: true,
options: '--hello-abc -I"/opt/some thing 1.0/include"',
};
before(() => {
ce = makeCompilationEnvironment({languages});
compiler = new BaseCompiler(executingCompilerInfo, ce);
win32compiler = new Win32Compiler(win32CompilerInfo, ce);
compilerNoExec = new BaseCompiler(noExecuteSupportCompilerInfo, ce);
});
afterEach(() => restore());
function stubOutCallToExec(execStub, compiler, content, result, nthCall) {
execStub.onCall(nthCall || 0).callsFake((compiler, args) => {
const minusO = args.indexOf('-o');
minusO.should.be.gte(0);
const output = args[minusO + 1];
// Maybe we should mock out the FS too; but that requires a lot more work.
fs.writeFileSync(output, content);
result.filenameTransform = x => x;
return Promise.resolve(result);
});
}
it('basecompiler should handle spaces in options correctly', () => {
const userOptions = [];
const filters = {};
const backendOptions = {};
const inputFilename = 'example.cpp';
const outputFilename = 'example.s';
const libraries = [];
const args = compiler.prepareArguments(
userOptions,
filters,
backendOptions,
inputFilename,
outputFilename,
libraries,
);
args.should.deep.equal([
'-g',
'-o',
'example.s',
'-S',
'--hello-abc',
'-I/opt/some thing 1.0/include',
'-march=magic 8bit',
'example.cpp',
]);
});
it('win32 compiler should handle spaces in options correctly', () => {
const userOptions = [];
const filters = {};
const backendOptions = {};
const inputFilename = 'example.cpp';
const outputFilename = 'example.s';
const libraries = [];
const win32args = win32compiler.prepareArguments(
userOptions,
filters,
backendOptions,
inputFilename,
outputFilename,
libraries,
);
win32args.should.deep.equal([
'/nologo',
'/FA',
'/c',
'/Faexample.s',
'/Foexample.s.obj',
'/std=c++17',
'/IC:/program files (x86)/Company name/Compiler 1.2.3/include',
'/D',
'MAGIC=magic 8bit',
'example.cpp',
]);
});
it('buildenv should handle spaces correctly', () => {
const buildenv = new BuildEnvSetupBase(executingCompilerInfo, ce);
buildenv.getCompilerArch().should.equal('magic 8bit');
});
it('buildenv compiler without target/march', () => {
const buildenv = new BuildEnvSetupBase(noExecuteSupportCompilerInfo, ce);
buildenv.getCompilerArch().should.equal(false);
buildenv.compilerSupportsX86.should.equal(true);
});
it('buildenv compiler without target/march but with options', () => {
const buildenv = new BuildEnvSetupBase(someOptionsCompilerInfo, ce);
buildenv.getCompilerArch().should.equal(false);
buildenv.compilerSupportsX86.should.equal(true);
});
it('should compile', async () => {
const execStub = stub(compiler, 'exec');
stubOutCallToExec(execStub, compiler, 'This is the output file', {
code: 0,
okToCache: true,
stdout: 'stdout',
stderr: 'stderr',
});
const result = await compiler.compile('source', 'options', {}, {}, false, [], {}, []);
result.code.should.equal(0);
result.compilationOptions.should.contain('options');
result.compilationOptions.should.contain(result.inputFilename);
result.okToCache.should.be.true;
result.asm.should.deep.equal([{source: null, text: 'This is the output file', labels: []}]);
result.stdout.should.deep.equal([{text: 'stdout'}]);
result.stderr.should.deep.equal([{text: 'stderr'}]);
result.popularArguments.should.deep.equal({});
result.tools.should.deep.equal([]);
execStub.called.should.be.true;
});
it('should handle compilation failures', async () => {
const execStub = stub(compiler, 'exec');
stubOutCallToExec(execStub, compiler, 'This is the output file', {
code: 1,
okToCache: true,
stdout: '',
stderr: 'oh noes',
});
const result = await compiler.compile('source', 'options', {}, {}, false, [], {}, []);
result.code.should.equal(1);
result.asm.should.deep.equal([{labels: [], source: null, text: '<Compilation failed>'}]);
});
it('should cache results (when asked)', async () => {
const ceMock = mock(ce);
const fakeExecResults = {
code: 0,
okToCache: true,
stdout: 'stdout',
stderr: 'stderr',
};
const execStub = stub(compiler, 'exec');
stubOutCallToExec(execStub, compiler, 'This is the output file', fakeExecResults);
const source = 'Some cacheable source';
const options = 'Some cacheable options';
ceMock.expects('cachePut').withArgs(match({source, options}), match(fakeExecResults)).resolves();
const uncachedResult = await compiler.compile(source, options, {}, {}, false, [], {}, []);
uncachedResult.code.should.equal(0);
ceMock.verify();
});
it('should not cache results (when not asked)', async () => {
const ceMock = mock(ce);
const fakeExecResults = {
code: 0,
okToCache: false,
stdout: 'stdout',
stderr: 'stderr',
};
const execStub = stub(compiler, 'exec');
stubOutCallToExec(execStub, compiler, 'This is the output file', fakeExecResults);
ceMock.expects('cachePut').never();
const source = 'Some cacheable source';
const options = 'Some cacheable options';
const uncachedResult = await compiler.compile(source, options, {}, {}, false, [], {}, []);
uncachedResult.code.should.equal(0);
ceMock.verify();
});
it('should read from the cache (when asked)', async () => {
const ceMock = mock(ce);
const source = 'Some previously cached source';
const options = 'Some previously cached options';
ceMock.expects('cacheGet').withArgs(match({source, options})).resolves({code: 123});
const cachedResult = await compiler.compile(source, options, {}, {}, false, [], {}, []);
cachedResult.code.should.equal(123);
ceMock.verify();
});
it('should note read from the cache (when bypassed)', async () => {
const ceMock = mock(ce);
const fakeExecResults = {
code: 0,
okToCache: true,
stdout: 'stdout',
stderr: 'stderr',
};
const source = 'Some previously cached source';
const options = 'Some previously cached options';
ceMock.expects('cacheGet').never();
const execStub = stub(compiler, 'exec');
stubOutCallToExec(execStub, compiler, 'This is the output file', fakeExecResults);
const uncachedResult = await compiler.compile(source, options, {}, {}, true, [], {}, []);
uncachedResult.code.should.equal(0);
ceMock.verify();
});
it('should execute', async () => {
const execMock = mock(exec);
const execStub = stub(compiler, 'exec');
stubOutCallToExec(
execStub,
compiler,
'This is the output asm file',
{
code: 0,
okToCache: true,
stdout: 'asm stdout',
stderr: 'asm stderr',
},
0,
);
stubOutCallToExec(
execStub,
compiler,
'This is the output binary file',
{
code: 0,
okToCache: true,
stdout: 'binary stdout',
stderr: 'binary stderr',
},
1,
);
execMock.expects('sandbox').withArgs(match.string, match.array, match.object).resolves({
code: 0,
stdout: 'exec stdout',
stderr: 'exec stderr',
});
const result = await compiler.compile('source', 'options', {}, {execute: true}, false, [], {}, []);
result.code.should.equal(0);
result.execResult.didExecute.should.be.true;
result.stdout.should.deep.equal([{text: 'asm stdout'}]);
result.execResult.stdout.should.deep.equal([{text: 'exec stdout'}]);
result.execResult.buildResult.stdout.should.deep.equal([{text: 'binary stdout'}]);
result.stderr.should.deep.equal([{text: 'asm stderr'}]);
result.execResult.stderr.should.deep.equal([{text: 'exec stderr'}]);
result.execResult.buildResult.stderr.should.deep.equal([{text: 'binary stderr'}]);
execMock.verify();
});
it('should execute with an execution wrapper', async () => {
const executionWrapper = '/some/wrapper/script.sh';
compiler.compiler.executionWrapper = executionWrapper;
const execMock = mock(exec);
const execStub = stub(compiler, 'exec');
stubOutCallToExec(
execStub,
compiler,
'This is the output asm file',
{
code: 0,
okToCache: true,
stdout: 'asm stdout',
stderr: 'asm stderr',
},
0,
);
stubOutCallToExec(
execStub,
compiler,
'This is the output binary file',
{
code: 0,
okToCache: true,
stdout: 'binary stdout',
stderr: 'binary stderr',
},
1,
);
execMock.expects('sandbox').withArgs(executionWrapper, match.array, match.object).resolves({
code: 0,
stdout: 'exec stdout',
stderr: 'exec stderr',
});
await compiler.compile('source', 'options', {}, {execute: true}, false, [], {}, []);
execMock.verify();
});
it('should not execute where not supported', async () => {
const execMock = mock(exec);
const execStub = stub(compilerNoExec, 'exec');
stubOutCallToExec(
execStub,
compilerNoExec,
'This is the output asm file',
{
code: 0,
okToCache: true,
stdout: 'asm stdout',
stderr: 'asm stderr',
},
0,
);
stubOutCallToExec(
execStub,
compilerNoExec,
'This is the output binary file',
{
code: 0,
okToCache: true,
stdout: 'binary stdout',
stderr: 'binary stderr',
},
1,
);
const result = await compilerNoExec.compile('source', 'options', {}, {execute: true}, false, [], {}, []);
result.code.should.equal(0);
result.execResult.didExecute.should.be.false;
result.stdout.should.deep.equal([{text: 'asm stdout'}]);
result.execResult.stdout.should.deep.equal([]);
result.execResult.buildResult.stdout.should.deep.equal([{text: 'binary stdout'}]);
result.stderr.should.deep.equal([{text: 'asm stderr'}]);
result.execResult.stderr.should.deep.equal([{text: 'Compiler does not support execution'}]);
result.execResult.buildResult.stderr.should.deep.equal([{text: 'binary stderr'}]);
execMock.verify();
});
it('should demangle', async () => {
const withDemangler = {...noExecuteSupportCompilerInfo, demangler: 'demangler-exe', demanglerType: 'cpp'};
const compiler = new BaseCompiler(withDemangler, ce);
const execStub = stub(compiler, 'exec');
stubOutCallToExec(execStub, compiler, 'someMangledSymbol:\n', {
code: 0,
okToCache: true,
stdout: 'stdout',
stderr: 'stderr',
});
execStub.onCall(1).callsFake((demangler, args, options) => {
demangler.should.equal('demangler-exe');
options.input.should.equal('someMangledSymbol');
return Promise.resolve({
code: 0,
filenameTransform: x => x,
stdout: 'someDemangledSymbol\n',
stderr: '',
});
});
const result = await compiler.compile('source', 'options', {}, {demangle: true}, false, [], {}, []);
result.code.should.equal(0);
result.asm.should.deep.equal([{source: null, labels: [], text: 'someDemangledSymbol:'}]);
// TODO all with demangle: false
});
async function objdumpTest(type, expectedArgs) {
const withObjdumper = {
...noExecuteSupportCompilerInfo,
objdumper: 'objdump-exe',
objdumperType: type,
};
const compiler = new BaseCompiler(withObjdumper, ce);
const execStub = stub(compiler, 'exec');
execStub.onCall(0).callsFake((objdumper, args, options) => {
objdumper.should.equal('objdump-exe');
args.should.deep.equal(expectedArgs);
options.maxOutput.should.equal(123456);
return Promise.resolve({
code: 0,
filenameTransform: x => x,
stdout: '<No output file output>',
stderr: '',
});
});
compiler.supportsObjdump().should.be.true;
const result = await compiler.objdump('output', {}, 123456, true, true);
result.asm.should.deep.equal('<No output file output>');
}
it('should run default objdump properly', async () => {
return objdumpTest('default', ['-d', 'output', '-l', '--insn-width=16', '-C', '-M', 'intel']);
});
it('should run binutils objdump properly', async () => {
return objdumpTest('binutils', ['-d', 'output', '-l', '--insn-width=16', '-C', '-M', 'intel']);
});
it('should run ELF Tool Chain objdump properly', async () => {
return objdumpTest('elftoolchain', ['-d', 'output', '-l', '-C', '-M', 'intel']);
});
it('should run LLVM objdump properly', async () => {
return objdumpTest('llvm', ['-d', 'output', '-l', '-C', '--x86-asm-syntax=intel']);
});
it('should run process opt output', async () => {
const test = `--- !Missed
Pass: inline
Name: NeverInline
DebugLoc: { File: example.cpp, Line: 4, Column: 21 }
Function: main
Args: []
...
`;
const dirPath = await compiler.newTempDir();
const optPath = path.join(dirPath, 'temp.out');
await fs.writeFile(optPath, test);
const a = await compiler.processOptOutput(optPath);
a.should.deep.equal([
{
Args: [],
DebugLoc: {Column: 21, File: 'example.cpp', Line: 4},
Function: 'main',
Name: 'NeverInline',
Pass: 'inline',
displayString: '',
optType: 'Missed',
},
]);
});
it('should normalize extra file path', () => {
const withDemangler = {...noExecuteSupportCompilerInfo, demangler: 'demangler-exe', demanglerType: 'cpp'};
const compiler = new BaseCompiler(withDemangler, ce);
if (process.platform === 'win32') {
compiler.getExtraFilepath('c:/tmp/somefolder', 'test.h').should.equal('c:\\tmp\\somefolder\\test.h');
} else {
compiler.getExtraFilepath('/tmp/somefolder', 'test.h').should.equal('/tmp/somefolder/test.h');
}
try {
compiler.getExtraFilepath('/tmp/somefolder', '../test.h');
throw 'Should throw exception 1';
} catch (error) {
if (!(error instanceof Error)) {
throw error;
}
}
try {
compiler.getExtraFilepath('/tmp/somefolder', './../test.h');
throw 'Should throw exception 2';
} catch (error) {
if (!(error instanceof Error)) {
throw error;
}
}
try {
compiler
.getExtraFilepath('/tmp/somefolder', '/tmp/someotherfolder/test.h')
.should.equal('/tmp/somefolder/tmp/someotherfolder/test.h');
} catch (error) {
if (!(error instanceof Error)) {
throw error;
}
}
try {
compiler.getExtraFilepath('/tmp/somefolder', '\\test.h').should.equal('/tmp/somefolder/test.h');
} catch (error) {
if (!(error instanceof Error)) {
throw error;
}
}
try {
compiler.getExtraFilepath('/tmp/somefolder', 'test_hello/../../etc/passwd');
throw 'Should throw exception 5';
} catch (error) {
if (!(error instanceof Error)) {
throw error;
}
}
if (process.platform === 'win32') {
compiler.getExtraFilepath('c:/tmp/somefolder', 'test.txt').should.equal('c:\\tmp\\somefolder\\test.txt');
} else {
compiler.getExtraFilepath('/tmp/somefolder', 'test.txt').should.equal('/tmp/somefolder/test.txt');
}
try {
compiler
.getExtraFilepath('/tmp/somefolder', 'subfolder/hello.h')
.should.equal('/tmp/somefolder/subfolder/hello.h');
} catch (error) {
if (!(error instanceof Error)) {
throw error;
}
}
});
});