var U = require("./node"); var List = U.List; var sandbox = require("./sandbox"); // Reduce a ufuzz-style `console.log` based test case by iteratively replacing // AST nodes with various permutations. Each AST_Statement in the tree is also // speculatively dropped to determine whether it is needed. If the altered // tree and the last known good tree produce the same non-nil error-free output // after being run, then the permutation survives to the next generation and // is the basis for subsequent iterations. The test case is reduced as a // consequence of complex expressions being replaced with simpler ones. // This function assumes that the testcase will not result in a parse or // runtime Error. Note that a reduced test case will have different runtime // output - it is not functionally equivalent to the original. The only criteria // is that once the generated reduced test case is run without minification, it // will produce different output from the code minified with `minify_options`. // Returns a `minify` result object with an additonal boolean property `reduced`. module.exports = function reduce_test(testcase, minify_options, reduce_options) { minify_options = minify_options || { compress: {}, mangle: false }; reduce_options = reduce_options || {}; var max_iterations = reduce_options.max_iterations || 1000; var max_timeout = reduce_options.max_timeout || 15000; var verbose = reduce_options.verbose; var minify_options_json = JSON.stringify(minify_options, null, 2); var timeout = 1000; // start with a low timeout var differs; if (testcase instanceof U.AST_Node) testcase = testcase.print_to_string(); // the initial timeout to assess the viability of the test case must be large if (differs = producesDifferentResultWhenMinified(testcase, minify_options, max_timeout)) { if (differs.error) return differs; // Replace expressions with constants that will be parsed into // AST_Nodes as required. Each AST_Node has its own permutation count, // so these replacements can't be shared. // Although simpler replacements are generally faster and better, // feel free to experiment with a different replacement set. var REPLACEMENTS = [ // "null", "''", "false", "'foo'", "undefined", "9", "1", "0", ]; // There's a relationship between each node's _permute counter and // REPLACEMENTS.length which is why fractional _permutes were needed. // One could scale all _permute operations by a factor of `steps` // to only deal with integer operations, but this works well enough. var steps = 4; // must be a power of 2 var step = 1 / steps; // 0.25 is exactly representable in floating point var tt = new U.TreeTransformer(function(node, descend, in_list) { if (CHANGED) return; // quick ignores if (node instanceof U.AST_Accessor) return; if (node instanceof U.AST_Directive) return; if (node instanceof U.AST_Label) return; if (node instanceof U.AST_LabelRef) return; if (!in_list && node instanceof U.AST_SymbolDeclaration) return; if (node instanceof U.AST_Toplevel) return; var parent = tt.parent(); // ignore call expressions if (parent instanceof U.AST_Call && parent.expression === node) return; // ensure that the _permute prop is a number. // can not use `node.start._permute |= 0;` as it will erase fractional part. if (typeof node.start._permute === "undefined") node.start._permute = 0; // if node reached permutation limit - skip over it. // no structural AST changes before this point. if (node.start._permute >= REPLACEMENTS.length) return; if (parent instanceof U.AST_Assign && parent.left === node || parent instanceof U.AST_Unary && parent.expression === node && ["++", "--", "delete"].indexOf(parent.operator) >= 0) { // ignore lvalues return; } if ((parent instanceof U.AST_For || parent instanceof U.AST_ForIn) && parent.init === node && node instanceof U.AST_Var) { // preserve for (var ...) return node; } // node specific permutations with no parent logic if (node instanceof U.AST_Array) { var expr = node.elements[0]; if (expr && !(expr instanceof U.AST_Hole)) { node.start._permute++; CHANGED = true; return expr; } } else if (node instanceof U.AST_Binary) { CHANGED = true; return [ node.left, node.right, ][ ((node.start._permute += step) * steps | 0) % 2 ]; } else if (node instanceof U.AST_Catch || node instanceof U.AST_Finally) { // drop catch or finally block node.start._permute++; CHANGED = true; return null; } else if (node instanceof U.AST_Conditional) { CHANGED = true; return [ node.condition, node.consequent, node.alternative, ][ ((node.start._permute += step) * steps | 0) % 3 ]; } else if (node instanceof U.AST_BlockStatement) { if (in_list) { node.start._permute++; CHANGED = true; return List.splice(node.body); } } else if (node instanceof U.AST_Call) { var expr = [ node.expression, node.args[0], ][ node.start._permute++ % 2 ]; if (expr) { CHANGED = true; return expr; } } else if (node instanceof U.AST_DWLoop) { var expr = [ node.condition, node.body, null, // intentional ][ (node.start._permute * steps | 0) % 3 ]; node.start._permute += step; if (!expr) { if (node.body[0] instanceof U.AST_Break) { if (node instanceof U.AST_Do) { CHANGED = true; return List.skip; } expr = node.condition; // AST_While - fall through } } if (expr && (expr !== node.body || !has_loopcontrol(expr, node, parent))) { CHANGED = true; return to_statement(expr); } } else if (node instanceof U.AST_PropAccess) { var expr = [ node.expression, node.property instanceof U.AST_Node && node.property, ][ node.start._permute++ % 2 ]; if (expr) { CHANGED = true; return expr; } } else if (node instanceof U.AST_For) { var expr = [ node.init, node.condition, node.step, node.body, ][ (node.start._permute * steps | 0) % 4 ]; node.start._permute += step; if (expr && (expr !== node.body || !has_loopcontrol(expr, node, parent))) { CHANGED = true; return to_statement(expr); } } else if (node instanceof U.AST_ForIn) { var expr = [ node.init, node.object, node.body, ][ (node.start._permute * steps | 0) % 3 ]; node.start._permute += step; if (expr && (expr !== node.body || !has_loopcontrol(expr, node, parent))) { CHANGED = true; return to_statement(expr); } } else if (node instanceof U.AST_If) { var expr = [ node.condition, node.body, node.alternative, ][ (node.start._permute * steps | 0) % 3 ]; node.start._permute += step; if (expr) { // replace if statement with its condition, then block or else block CHANGED = true; return to_statement(expr); } } else if (node instanceof U.AST_Object) { // first property's value var expr = node.properties[0] instanceof U.AST_ObjectKeyVal && node.properties[0].value; if (expr) { node.start._permute++; CHANGED = true; return expr; } } else if (node instanceof U.AST_Switch) { var expr = [ node.expression, // switch expression node.body[0] && node.body[0].expression, // first case expression or undefined node.body[0] && node.body[0], // first case body or undefined ][ (node.start._permute * steps | 0) % 4 ]; node.start._permute += step; if (expr && (!(expr instanceof U.AST_Statement) || !has_loopcontrol(expr, node, parent))) { CHANGED = true; return expr instanceof U.AST_SwitchBranch ? new U.AST_BlockStatement({ body: expr.body.slice(), start: {}, }) : to_statement(expr); } } else if (node instanceof U.AST_Try) { var body = [ node.body, node.bcatch && node.bcatch.body, node.bfinally && node.bfinally.body, null, // intentional ][ (node.start._permute * steps | 0) % 4 ]; node.start._permute += step; if (body) { // replace try statement with try block, catch block, or finally block CHANGED = true; return new U.AST_BlockStatement({ body: body, start: {}, }); } else { // replace try with a break or return if first in try statement if (node.body[0] instanceof U.AST_Break || node.body[0] instanceof U.AST_Return) { CHANGED = true; return node.body[0]; } } } else if (node instanceof U.AST_Unary) { node.start._permute++; CHANGED = true; return node.expression; } else if (node instanceof U.AST_LabeledStatement) { if (node.body instanceof U.AST_Statement && !has_loopcontrol(node.body, node.body, node)) { // replace labelled statement with its non-labelled body node.start._permute = REPLACEMENTS.length; CHANGED = true; return node.body; } } if (in_list) { // special case to drop object properties and switch branches if (parent instanceof U.AST_Object || parent instanceof U.AST_Switch && parent.expression != node) { node.start._permute++; CHANGED = true; return List.skip; } // replace or skip statement if (node instanceof U.AST_Statement) { node.start._permute++; CHANGED = true; return List.skip; } // remove this node unless its the sole element of a (transient) sequence if (!(parent instanceof U.AST_Sequence) || parent.expressions.length > 1) { node.start._permute++; CHANGED = true; return List.skip; } } // replace this node var newNode = new U.parse(REPLACEMENTS[node.start._permute % REPLACEMENTS.length | 0], { expression: true, }); if (is_statement(node)) { newNode = new U.AST_SimpleStatement({ body: newNode, start: {}, }); } newNode.start._permute = ++node.start._permute; CHANGED = true; return newNode; }, function(node, in_list) { if (node instanceof U.AST_Sequence) { // expand single-element sequence if (node.expressions.length == 1) return node.expressions[0]; } else if (node instanceof U.AST_Try) { // expand orphaned try block if (!node.bcatch && !node.bfinally) return new U.AST_BlockStatement({ body: node.body, start: {}, }); } else if (node instanceof U.AST_Var) { // remove empty var statement if (node.definitions.length == 0) return in_list ? List.skip : new U.AST_EmptyStatement({ start: {}, }); } }); for (var pass = 1; pass <= 3; ++pass) { var testcase_ast = U.parse(testcase); testcase_ast.walk(new U.TreeWalker(function(node) { // unshare start props to retain visit data between iterations node.start = JSON.parse(JSON.stringify(node.start)); node.start._permute = 0; })); for (var c = 0; c < max_iterations; ++c) { if (verbose) { if (pass == 1 && c % 25 == 0) { console.error("// reduce test pass " + pass + ", iteration " + c + ": " + testcase.length + " bytes"); } } var CHANGED = false; var code_ast = testcase_ast.clone(true).transform(tt); if (!CHANGED) break; try { var code = code_ast.print_to_string(); } catch (ex) { // AST is not well formed. // no harm done - just log the error, ignore latest change and continue iterating. console.error("*** Error generating code from AST."); console.error(ex); console.error("*** Discarding permutation and continuing."); continue; } var diff = producesDifferentResultWhenMinified(code, minify_options, timeout); if (diff) { if (diff.timed_out) { // can't trust the validity of `code_ast` and `code` when timed out. // no harm done - just ignore latest change and continue iterating. if (timeout < max_timeout) timeout += 250; } else if (diff.error) { // something went wrong during minify() - could be malformed AST or genuine bug. // no harm done - just log code & error, ignore latest change and continue iterating. console.error("*** Error during minification."); console.error(code); console.error(diff.error); console.error("*** Discarding permutation and continuing."); } else if (is_error(diff.unminified_result) && is_error(diff.minified_result) && diff.unminified_result.name == diff.minified_result.name) { // ignore difference in error messages caused by minification } else { // latest permutation is valid, so use it as the basis of new changes testcase_ast = code_ast; testcase = code; differs = diff; } } } if (c == 0) break; if (verbose) { console.error("// reduce test pass " + pass + ": " + testcase.length + " bytes"); } } testcase += "\n// output: " + to_comment(differs.unminified_result) + "\n// minify: " + to_comment(differs.minified_result) + "\n// options: " + to_comment(minify_options_json); } else { // same stdout result produced when minified testcase = "// Can't reproduce test failure with minify options provided:" + "\n// " + to_comment(minify_options_json); } var result = U.minify(testcase.replace(/\u001b\[\d+m/g, ""), { compress: false, mangle: false, output: { beautify: true, braces: true, comments: true, } }); return result; }; function to_comment(value) { return ("" + value).replace(/\n/g, "\n// "); } function has_loopcontrol(body, loop, label) { var found = false; var tw = new U.TreeWalker(function(node) { if (found) return true; if (node instanceof U.AST_LoopControl && this.loopcontrol_target(node) === loop) { return found = true; } }); if (label instanceof U.AST_LabeledStatement) tw.push(label); tw.push(loop); body.walk(tw); return found; } function is_error(result) { return typeof result == "object" && typeof result.name == "string" && typeof result.message == "string"; } function is_statement(node) { return node instanceof U.AST_Statement && !(node instanceof U.AST_Function); } function to_statement(node) { return is_statement(node) ? node : new U.AST_SimpleStatement({ body: node, start: {}, }); } function producesDifferentResultWhenMinified(code, minify_options, timeout) { var minified = U.minify(code, minify_options); if (minified.error) return minified; var toplevel = minify_options.toplevel; var unminified_result = sandbox.run_code(code, toplevel, timeout); if (/timed out/i.test(unminified_result)) return false; var minified_result = sandbox.run_code(minified.code, toplevel, timeout); if (/timed out/i.test(minified_result)) return { timed_out: true }; return !sandbox.same_stdout(unminified_result, minified_result) ? { unminified_result: unminified_result, minified_result: minified_result, } : false; } Error.stackTraceLimit = Infinity;