// Copyright (c) 2017, 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 path from 'path'; import {PascalUtils} from '../lib/compilers/pascal-utils.js'; import {PascalWinCompiler} from '../lib/compilers/pascal-win.js'; import {FPCCompiler} from '../lib/compilers/pascal.js'; import {PascalDemangler} from '../lib/demangler/index.js'; import * as utils from '../lib/utils.js'; import {fs, makeCompilationEnvironment} from './utils.js'; const languages = { pascal: {id: 'pascal'}, }; describe('Pascal', () => { let compiler; before(() => { const ce = makeCompilationEnvironment({languages}); const info = { exe: null, remote: true, lang: languages.pascal.id, }; compiler = new FPCCompiler(info, ce); }); it('Basic compiler setup', () => { if (process.platform === 'win32') { compiler.getOutputFilename('/tmp/', 'output.pas').should.equal('\\tmp\\output.s'); } else { compiler.getOutputFilename('/tmp/', 'output.pas').should.equal('/tmp/output.s'); } }); describe('Pascal signature composer function', function () { const demangler = new PascalDemangler(); it('Handle 0 parameter methods', function () { demangler.composeReadableMethodSignature('', '', 'myfunc', '').should.equal('myfunc()'); demangler.composeReadableMethodSignature('output', '', 'myfunc', '').should.equal('myfunc()'); demangler .composeReadableMethodSignature('output', 'tmyclass', 'myfunc', '') .should.equal('tmyclass.myfunc()'); }); it('Handle 1 parameter methods', function () { demangler.composeReadableMethodSignature('output', '', 'myfunc', 'integer').should.equal('myfunc(integer)'); demangler .composeReadableMethodSignature('output', 'tmyclass', 'myfunc', 'integer') .should.equal('tmyclass.myfunc(integer)'); }); it('Handle 2 parameter methods', function () { demangler .composeReadableMethodSignature('output', '', 'myfunc', 'integer,string') .should.equal('myfunc(integer,string)'); demangler .composeReadableMethodSignature('output', 'tmyclass', 'myfunc', 'integer,string') .should.equal('tmyclass.myfunc(integer,string)'); }); }); describe('Pascal Demangling FPC 2.6', function () { const demangler = new PascalDemangler(); it('Should demangle OUTPUT_MAXARRAY$array_of_DOUBLE$array_of_DOUBLE', function () { demangler .demangle('OUTPUT_MAXARRAY$array_of_DOUBLE$array_of_DOUBLE:') .should.equal('maxarray(array_of_double,array_of_double)'); }); it('Should demangle OUTPUT_TMYCLASS_$__MYPROC$ANSISTRING', function () { demangler.demangle('OUTPUT_TMYCLASS_$__MYPROC$ANSISTRING:').should.equal('tmyclass.myproc(ansistring)'); }); it('Should demangle OUTPUT_TMYCLASS_$__MYFUNC$$ANSISTRING', function () { demangler.demangle('OUTPUT_TMYCLASS_$__MYFUNC$$ANSISTRING:').should.equal('tmyclass.myfunc()'); }); it('Should demangle OUTPUT_NOPARAMFUNC$$ANSISTRING', function () { demangler.demangle('OUTPUT_NOPARAMFUNC$$ANSISTRING:').should.equal('noparamfunc()'); }); it('Should demangle OUTPUT_NOPARAMPROC', function () { demangler.demangle('OUTPUT_NOPARAMPROC:').should.equal('noparamproc()'); }); it('Should demangle U_OUTPUT_MYGLOBALVAR', function () { demangler.demangle('U_OUTPUT_MYGLOBALVAR:').should.equal('myglobalvar'); }); it('Should demangle OUTPUT_INIT (custom method)', function () { demangler.demangle('OUTPUT_INIT:').should.equal('init()'); }); it('Should demangle OUTPUT_init (builtin symbol)', function () { demangler.demangle('OUTPUT_init:').should.equal('unit_initialization'); }); }); describe('Pascal Demangling FPC 3.2', function () { const demangler = new PascalDemangler(); it('Should demangle OUTPUT_$$_SQUARE$LONGINT$$LONGINT', function () { demangler.demangle('OUTPUT_$$_SQUARE$LONGINT$$LONGINT:').should.equal('square(longint)'); }); it('Should demangle OUTPUT_$$_MAXARRAY$array_of_DOUBLE$array_of_DOUBLE', function () { demangler .demangle('OUTPUT_$$_MAXARRAY$array_of_DOUBLE$array_of_DOUBLE:') .should.equal('maxarray(array_of_double,array_of_double)'); }); it('Should demangle OUTPUT$_$TMYCLASS_$__$$_MYPROC$ANSISTRING', function () { demangler .demangle('OUTPUT$_$TMYCLASS_$__$$_MYPROC$ANSISTRING:') .should.equal('tmyclass.myproc(ansistring)'); }); it('Should demangle OUTPUT$_$TMYCLASS_$__$$_MYFUNC$$ANSISTRING', function () { demangler.demangle('OUTPUT$_$TMYCLASS_$__$$_MYFUNC$$ANSISTRING:').should.equal('tmyclass.myfunc()'); }); it('Should demangle OUTPUT$_$TMYCLASS_$__$$_MYFUNC$ANSISTRING$$INTEGER', function () { demangler .demangle('OUTPUT$_$TMYCLASS_$__$$_MYFUNC$ANSISTRING$$INTEGER:') .should.equal('tmyclass.myfunc(ansistring)'); }); it('Should demangle OUTPUT$_$TMYCLASS_$__$$_MYFUNC$ANSISTRING$INTEGER$INTEGER$$INTEGER', function () { demangler .demangle('OUTPUT$_$TMYCLASS_$__$$_MYFUNC$ANSISTRING$INTEGER$INTEGER$$INTEGER:') .should.equal('tmyclass.myfunc(ansistring,integer,integer)'); }); it('Should demangle OUTPUT_$$_NOPARAMFUNC$$ANSISTRING', function () { demangler.demangle('OUTPUT_$$_NOPARAMFUNC$$ANSISTRING:').should.equal('noparamfunc()'); }); it('Should demangle OUTPUT_$$_NOPARAMPROC', function () { demangler.demangle('OUTPUT_$$_NOPARAMPROC:').should.equal('noparamproc()'); }); it('Should demangle OUTPUT_$$_INIT', function () { demangler.demangle('OUTPUT_$$_INIT:').should.equal('init()'); }); it('Should demangle U_$OUTPUT_$$_MYGLOBALVAR', function () { demangler.demangle('U_$OUTPUT_$$_MYGLOBALVAR:').should.equal('myglobalvar'); }); }); describe('Pascal Demangling Fixed Symbols FPC 2.6', function () { const demangler = new PascalDemangler(); it('Should demangle OUTPUT_finalize_implicit', function () { demangler.demangle('OUTPUT_finalize_implicit:').should.equal('unit_finalization_implicit'); }); }); describe('Pascal Demangling Fixed Symbols FPC 3.2', function () { const demangler = new PascalDemangler(); it('Should demangle OUTPUT_$$_init', function () { demangler.demangle('OUTPUT_$$_init:').should.equal('unit_initialization'); }); it('Should demangle OUTPUT_$$_finalize', function () { demangler.demangle('OUTPUT_$$_finalize:').should.equal('unit_finalization'); }); it('Should demangle OUTPUT_$$_init_implicit', function () { demangler.demangle('OUTPUT_$$_init_implicit:').should.equal('unit_initialization_implicit'); }); it('Should demangle OUTPUT_$$_finalize_implicit', function () { demangler.demangle('OUTPUT_$$_finalize_implicit:').should.equal('unit_finalization_implicit'); }); it('Should demangle OUTPUT_$$_finalize_implicit', function () { demangler.demangle('OUTPUT_$$_finalize_implicit:').should.equal('unit_finalization_implicit'); }); }); describe('Pascal NOT Demangling certain symbols FPC 2.6', function () { const demangler = new PascalDemangler(); it('Should NOT demangle VMT_OUTPUT_TMYCLASS', function () { demangler.demangle('VMT_OUTPUT_TMYCLASS:').should.equal(false); }); it('Should NOT demangle RTTI_OUTPUT_TMYCLASS', function () { demangler.demangle('RTTI_OUTPUT_TMYCLASS:').should.equal(false); }); it('Should NOT demangle INIT$_OUTPUT', function () { demangler.demangle('INIT$_OUTPUT:').should.equal(false); }); it('Should NOT demangle FINALIZE$_OUTPUT', function () { demangler.demangle('FINALIZE$_OUTPUT:').should.equal(false); }); it('Should NOT demangle DEBUGSTART_OUTPUT', function () { demangler.demangle('DEBUGSTART_OUTPUT:').should.equal(false); }); it('Should NOT demangle DBGREF_OUTPUT_THELLO', function () { demangler.demangle('DBGREF_OUTPUT_THELLO:').should.equal(false); }); it('Should NOT demangle non-label', function () { demangler.demangle(' call OUTPUT$_$TMYCLASS_$__$$_MYTEST2').should.equal(false); }); }); describe('Pascal NOT Demangling certain symbols FPC 3.2', function () { const demangler = new PascalDemangler(); it('Should NOT demangle RTTI_$OUTPUT_$$_TMYCLASS', function () { demangler.demangle('RTTI_$OUTPUT_$$_TMYCLASS:').should.equal(false); }); it('Should NOT demangle .Ld1', function () { demangler.demangle('.Ld1:').should.equal(false); }); it('Should NOT demangle _$OUTPUT$_Ld3 (Same in FPC 2.6 and 3.2)', function () { demangler.demangle('_$OUTPUT$_Ld3:').should.equal(false); }); it('Should NOT demangle INIT$_$OUTPUT', function () { demangler.demangle('INIT$_$OUTPUT:').should.equal(false); }); it('Should NOT demangle DEBUGSTART_$OUTPUT', function () { demangler.demangle('DEBUGSTART_$OUTPUT:').should.equal(false); }); it('Should NOT demangle DBGREF_$OUTPUT_$$_THELLO', function () { demangler.demangle('DBGREF_$OUTPUT_$$_THELLO:').should.equal(false); }); }); describe('Add, order and demangle inline', function () { const demangler = new PascalDemangler(); demangler.demangle('OUTPUT$_$TMYCLASS_$__$$_MYTEST:'); demangler.demangle('U_$OUTPUT_$$_MYGLOBALVAR:'); demangler.demangle('OUTPUT$_$TMYCLASS_$__$$_MYTEST2:'); demangler.demangle('OUTPUT$_$TMYCLASS_$__$$_MYOVERLOAD$ANSISTRING:'); demangler.demangle('OUTPUT$_$TMYCLASS_$__$$_MYOVERLOAD$INTEGER:'); demangler.demangleIfNeeded(' call OUTPUT$_$TMYCLASS_$__$$_MYTEST2').should.equal(' call tmyclass.mytest2()'); demangler.demangleIfNeeded(' movl U_$OUTPUT_$$_MYGLOBALVAR,%eax').should.equal(' movl myglobalvar,%eax'); demangler.demangleIfNeeded(' call OUTPUT$_$TMYCLASS_$__$$_MYTEST2').should.equal(' call tmyclass.mytest2()'); demangler.demangleIfNeeded(' call OUTPUT$_$TMYCLASS_$__$$_MYTEST').should.equal(' call tmyclass.mytest()'); demangler .demangleIfNeeded(' call OUTPUT$_$TMYCLASS_$__$$_MYOVERLOAD$ANSISTRING') .should.equal(' call tmyclass.myoverload(ansistring)'); demangler .demangleIfNeeded(' call OUTPUT$_$TMYCLASS_$__$$_MYOVERLOAD$INTEGER') .should.equal(' call tmyclass.myoverload(integer)'); demangler.demangleIfNeeded('.Le1').should.equal('.Le1'); demangler.demangleIfNeeded('_$SomeThing').should.equal('_$SomeThing'); }); describe('Add, order and demangle inline - using addDemangleToCache()', function () { const demangler = new PascalDemangler(); demangler.addDemangleToCache('OUTPUT$_$TMYCLASS_$__$$_MYTEST:'); demangler.addDemangleToCache('U_$OUTPUT_$$_MYGLOBALVAR:'); demangler.addDemangleToCache('OUTPUT$_$TMYCLASS_$__$$_MYTEST2:'); demangler.addDemangleToCache('OUTPUT$_$TMYCLASS_$__$$_MYOVERLOAD$ANSISTRING:'); demangler.addDemangleToCache('OUTPUT$_$TMYCLASS_$__$$_MYOVERLOAD$INTEGER:'); demangler.demangleIfNeeded(' call OUTPUT$_$TMYCLASS_$__$$_MYTEST2').should.equal(' call tmyclass.mytest2()'); demangler.demangleIfNeeded(' movl U_$OUTPUT_$$_MYGLOBALVAR,%eax').should.equal(' movl myglobalvar,%eax'); demangler.demangleIfNeeded(' call OUTPUT$_$TMYCLASS_$__$$_MYTEST2').should.equal(' call tmyclass.mytest2()'); demangler.demangleIfNeeded(' call OUTPUT$_$TMYCLASS_$__$$_MYTEST').should.equal(' call tmyclass.mytest()'); demangler .demangleIfNeeded(' call OUTPUT$_$TMYCLASS_$__$$_MYOVERLOAD$ANSISTRING') .should.equal(' call tmyclass.myoverload(ansistring)'); demangler .demangleIfNeeded(' call OUTPUT$_$TMYCLASS_$__$$_MYOVERLOAD$INTEGER') .should.equal(' call tmyclass.myoverload(integer)'); demangler.demangleIfNeeded('.Le1').should.equal('.Le1'); }); describe('Pascal Ignored Symbols', function () { const demangler = new PascalDemangler(); it('Should ignore certain labels', function () { demangler.shouldIgnoreSymbol('.Le1').should.equal(true); demangler.shouldIgnoreSymbol('_$SomeThing').should.equal(true); }); it('Should be able to differentiate between System and User functions', function () { demangler.shouldIgnoreSymbol('RTTI_OUTPUT_MyProperty').should.equal(true); demangler.shouldIgnoreSymbol('Rtti_Output_UserFunction').should.equal(false); }); }); describe('Pascal ASM line number injection', function () { before(() => { compiler.demanglerClass = PascalDemangler; compiler.demangler = new PascalDemangler(null, compiler); }); it('Should have line numbering', function () { return new Promise(function (resolve) { fs.readFile('test/pascal/asm-example.s', function (err, buffer) { const asmLines = utils.splitLines(buffer.toString()); compiler.preProcessLines(asmLines); resolve( Promise.all([ asmLines.should.include('# [output.pas]'), asmLines.should.include(' .file 1 "output.pas"'), asmLines.should.include('# [13] Square := num * num + 14;'), asmLines.should.include(' .loc 1 13 0'), asmLines.should.include('.Le0:'), asmLines.should.include(' .cfi_endproc'), ]), ); }); }); }); }); // describe('Pascal objdump filtering', function () { // it('Should filter out most of the runtime', function () { // return new Promise(function (resolve) { // fs.readFile('test/pascal/objdump-example.s', function (err, buffer) { // const output = FPCCompiler.preProcessBinaryAsm(buffer.toString()); // resolve(Promise.all([ // utils.splitLines(output).length.should.be.below(500), // output.should.not.include('fpc_zeromem():'), // output.should.include('SQUARE():'), // ])); // }); // }); // }); // }); describe('Pascal parseOutput', () => { it('should return parsed output', () => { const result = { stdout: 'Hello, world!', stderr: '', }; compiler.parseOutput(result, '/tmp/path/output.pas', '/tmp/path').should.deep.equal({ inputFilename: 'output.pas', stdout: [ { text: 'Hello, world!', }, ], stderr: [], }); }); }); describe('Pascal filetype detection', () => { const pasUtils = new PascalUtils(); const progSource = fs.readFileSync('test/pascal/prog.dpr').toString('utf8'); const unitSource = fs.readFileSync('test/pascal/example.pas').toString('utf8'); it('Should detect simple program', () => { pasUtils.isProgram(progSource).should.equal(true); pasUtils.isProgram(unitSource).should.equal(false); }); it('Should detect simple unit', () => { pasUtils.isUnit(progSource).should.equal(false); pasUtils.isUnit(unitSource).should.equal(true); }); }); describe('Multifile writing behaviour', function () { let compiler; before(() => { const ce = makeCompilationEnvironment({languages}); const info = { exe: null, remote: true, lang: languages.pascal.id, }; compiler = new FPCCompiler(info, ce); }); it('Original behaviour (old unitname)', async function () { const dirPath = await compiler.newTempDir(); const filters = {}; const files = []; const source = fs.readFileSync('examples/pascal/default.pas').toString('utf8'); const writeSummary = await compiler.writeAllFiles(dirPath, source, files, filters); return Promise.all([ writeSummary.inputFilename.should.equal(path.join(dirPath, 'output.pas')), utils.fileExists(path.join(dirPath, 'output.pas')).should.eventually.equal(true), utils.fileExists(path.join(dirPath, 'prog.dpr')).should.eventually.equal(false), // note: will be written somewhere else ]); }); it('Original behaviour (just a unit file)', async function () { const dirPath = await compiler.newTempDir(); const filters = {}; const files = []; const source = fs.readFileSync('test/pascal/example.pas').toString('utf8'); const writeSummary = await compiler.writeAllFiles(dirPath, source, files, filters); return Promise.all([ writeSummary.inputFilename.should.equal(path.join(dirPath, 'example.pas')), utils.fileExists(path.join(dirPath, 'example.pas')).should.eventually.equal(true), utils.fileExists(path.join(dirPath, 'prog.dpr')).should.eventually.equal(false), // note: will be written somewhere else ]); }); it('Writing program instead of a unit', async function () { const dirPath = await compiler.newTempDir(); const filters = {}; const files = []; const source = fs.readFileSync('test/pascal/prog.dpr').toString('utf8'); const writeSummary = await compiler.writeAllFiles(dirPath, source, files, filters); return Promise.all([ writeSummary.inputFilename.should.equal(path.join(dirPath, 'prog.dpr')), utils.fileExists(path.join(dirPath, 'example.pas')).should.eventually.equal(false), utils.fileExists(path.join(dirPath, 'prog.dpr')).should.eventually.equal(true), ]); }); it('Writing program with a unit', async function () { const dirPath = await compiler.newTempDir(); const filters = {}; const files = [ { filename: 'example.pas', contents: '{ hello\n world }', }, ]; const source = fs.readFileSync('test/pascal/prog.dpr').toString('utf8'); const writeSummary = await compiler.writeAllFiles(dirPath, source, files, filters); return Promise.all([ writeSummary.inputFilename.should.equal(path.join(dirPath, 'prog.dpr')), utils.fileExists(path.join(dirPath, 'example.pas')).should.eventually.equal(true), utils.fileExists(path.join(dirPath, 'prog.dpr')).should.eventually.equal(true), ]); }); }); describe('Multifile writing behaviour Pascal-WIN', function () { let compiler; before(() => { const ce = makeCompilationEnvironment({languages}); const info = { exe: null, remote: true, lang: languages.pascal.id, }; compiler = new PascalWinCompiler(info, ce); }); it('Original behaviour (old unitname)', async function () { const dirPath = await compiler.newTempDir(); const filters = {}; const files = []; const source = fs.readFileSync('examples/pascal/default.pas').toString('utf8'); const writeSummary = await compiler.writeAllFiles(dirPath, source, files, filters); return Promise.all([ writeSummary.inputFilename.should.equal(path.join(dirPath, 'output.pas')), utils.fileExists(path.join(dirPath, 'output.pas')).should.eventually.equal(true), utils.fileExists(path.join(dirPath, 'prog.dpr')).should.eventually.equal(false), // note: will be written somewhere else ]); }); it('Original behaviour (just a unit file)', async function () { const dirPath = await compiler.newTempDir(); const filters = {}; const files = []; const source = fs.readFileSync('test/pascal/example.pas').toString('utf8'); const writeSummary = await compiler.writeAllFiles(dirPath, source, files, filters); return Promise.all([ writeSummary.inputFilename.should.equal(path.join(dirPath, 'example.pas')), utils.fileExists(path.join(dirPath, 'example.pas')).should.eventually.equal(true), utils.fileExists(path.join(dirPath, 'prog.dpr')).should.eventually.equal(false), // note: will be written somewhere else ]); }); it('Writing program instead of a unit', async function () { const dirPath = await compiler.newTempDir(); const filters = {}; const files = []; const source = fs.readFileSync('test/pascal/prog.dpr').toString('utf8'); const writeSummary = await compiler.writeAllFiles(dirPath, source, files, filters); return Promise.all([ writeSummary.inputFilename.should.equal(path.join(dirPath, 'prog.dpr')), utils.fileExists(path.join(dirPath, 'example.pas')).should.eventually.equal(false), utils.fileExists(path.join(dirPath, 'prog.dpr')).should.eventually.equal(true), ]); }); it('Writing program with a unit', async function () { const dirPath = await compiler.newTempDir(); const filters = {}; const files = [ { filename: 'example.pas', contents: '{ hello\n world }', }, ]; const source = fs.readFileSync('test/pascal/prog.dpr').toString('utf8'); const writeSummary = await compiler.writeAllFiles(dirPath, source, files, filters); return Promise.all([ writeSummary.inputFilename.should.equal(path.join(dirPath, 'prog.dpr')), utils.fileExists(path.join(dirPath, 'example.pas')).should.eventually.equal(true), utils.fileExists(path.join(dirPath, 'prog.dpr')).should.eventually.equal(true), ]); }); }); });