From 3d6a89e8888b14ae5cb5640464e12b7811853c7e Mon Sep 17 00:00:00 2001 From: Chirayu Krishnappa Date: Thu, 17 Oct 2013 19:44:36 -0700 Subject: [PATCH] feat($parse): secure expressions by hiding "private" properties MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit BREAKING CHANGE: This commit introduces the notion of "private" properties (properties whose names begin and/or end with an underscore) on the scope chain. These properties will not be available to Angular expressions (i.e. {{ }} interpolation in templates and strings passed to `$parse`) They are freely available to JavaScript code (as before). Motivation ---------- Angular expressions execute in a limited context.  They do not have direct access to the global scope, Window, Document or the Function constructor.  However, they have direct access to names/properties on the scope chain.  It has been a long standing best practice to keep sensitive APIs outside of the scope chain (in a closure or your controller.)  That's easier said that done for two reasons: (1) JavaScript does not have a notion of private properties so if you need someone on the scope chain for JavaScript use, you also expose it to Angular expressions, and (2) the new "controller as" syntax that's now in increased usage exposes the entire controller on the scope chain greatly increaing the exposed surface.  Though Angular expressions are written and controlled by the developer, they (1) typically deal with user input and (2) don't get the kind of test coverage that JavaScript code would.  This commit provides a way, via a naming convention, to allow publishing/restricting properties from controllers/scopes to Angular expressions enabling one to only expose those properties that are actually needed by the expressions. --- docs/content/error/parse/isecprv.ngdoc | 50 +++++++++++++++++++ src/ng/parse.js | 34 +++++++++---- test/ng/parseSpec.js | 67 +++++++++++++++++++++++++- 3 files changed, 140 insertions(+), 11 deletions(-) create mode 100644 docs/content/error/parse/isecprv.ngdoc diff --git a/docs/content/error/parse/isecprv.ngdoc b/docs/content/error/parse/isecprv.ngdoc new file mode 100644 index 000000000000..4bb02426073a --- /dev/null +++ b/docs/content/error/parse/isecprv.ngdoc @@ -0,0 +1,50 @@ +@ngdoc error +@name $parse:isecprv +@fullName Referencing private Field in Expression + +@description + +Occurs when an Angular expression attempts to access a private field. + +Fields with names that begin or end with an underscore are considered +private fields.  Angular expressions are not allowed to reference such +fields on the scope chain.  This only applies to Angular expressions +(e.g. {{ }} interpolation and calls to `$parse` with a string expression +argument) – Javascript itself has no such notion. + +To resolve this error, use an alternate non-private field if available +or make the field public (by removing any leading and trailing +underscore characters from its name.) + +Example expression that would result in this error: + +```html +
{{user._private_field}}
+``` + +Background: +Though Angular expressions are written and controlled by the developer +and are trusted, they do represent an attack surface due to the +following two factors: + +- they typically deal with user input which is generally high risk +- they often don't get the kind of attention and test coverage that + JavaScript code would. + +If these expression were evaluated in a context with full trust, an +attacker, though unable to change the expression itself, can feed it +unexpected and dangerous input that could result in a security +breach/exploit. + +As such, Angular expressions are evaluated in a limited context.  They +do not have direct access to the global scope, Window, Document, the +Function constructor or "private" properties (names beginning or ending +with an underscore character) on the scope chain.  They should get their +work done via public properties and methods exposed on the scope chain +(keep in mind that this includes controllers as well as they are +published on the scope via the "controller as" syntax.) + +As a best practise, only "publish" properties on the scopes and +controllers that must be available to Angular expressions.  All other +members should either be in closures or be "private" by giving them +names with a leading or trailing underscore character. diff --git a/src/ng/parse.js b/src/ng/parse.js index c93d07de1860..ede3f24bcdf7 100644 --- a/src/ng/parse.js +++ b/src/ng/parse.js @@ -8,18 +8,23 @@ var promiseWarning; // ------------------------------ // Angular expressions are generally considered safe because these expressions only have direct // access to $scope and locals. However, one can obtain the ability to execute arbitrary JS code by -// obtaining a reference to native JS functions such as the Function constructor. +// obtaining a reference to native JS functions such as the Function constructor, thw global Window +// or Document object. In addition, many powerful functions for use by JavaScript code are +// published on scope that shouldn't be available from within an Angular expression. // // As an example, consider the following Angular expression: // // {}.toString.constructor(alert("evil JS code")) // // We want to prevent this type of access. For the sake of performance, during the lexing phase we -// disallow any "dotted" access to any member named "constructor". +// disallow any "dotted" access to any member named "constructor" or to any member whose name begins +// or ends with an underscore. The latter allows one to exclude the private / JavaScript only API +// available on the scope and controllers from the context of an Angular expression. // -// For reflective calls (a[b]) we check that the value of the lookup is not the Function constructor -// while evaluating the expression, which is a stronger but more expensive test. Since reflective -// calls are expensive anyway, this is not such a big deal compared to static dereferencing. +// For reflective calls (a[b]), we check that the value of the lookup is not the Function +// constructor, Window or DOM node while evaluating the expression, which is a stronger but more +// expensive test. Since reflective calls are expensive anyway, this is not such a big deal compared +// to static dereferencing. // // This sandboxing technique is not perfect and doesn't aim to be. The goal is to prevent exploits // against the expression language, but not to prevent exploits that were enabled by exposing @@ -33,12 +38,20 @@ var promiseWarning; // In general, it is not possible to access a Window object from an angular expression unless a // window or some DOM object that has a reference to window is published onto a Scope. -function ensureSafeMemberName(name, fullExpression) { - if (name === "constructor") { +function ensureSafeMemberName(name, fullExpression, allowConstructor) { + if (typeof name !== 'string' && toString.apply(name) !== "[object String]") { + return name; + } + if (name === "constructor" && !allowConstructor) { throw $parseMinErr('isecfld', 'Referencing "constructor" field in Angular expressions is disallowed! Expression: {0}', fullExpression); } + if (name.charAt(0) === '_' || name.charAt(name.length-1) === '_') { + throw $parseMinErr('isecprv', + 'Referencing private fields in Angular expressions is disallowed! Expression: {0}', + fullExpression); + } return name; } @@ -722,7 +735,10 @@ Parser.prototype = { return extend(function(self, locals) { var o = obj(self, locals), - i = indexFn(self, locals), + // In the getter, we will not block looking up "constructor" by name in order to support user defined + // constructors. However, if value looked up is the Function constructor, we will still block it in the + // ensureSafeObject call right after we look up o[i] (a few lines below.) + i = ensureSafeMemberName(indexFn(self, locals), parser.text, true /* allowConstructor */), v, p; if (!o) return undefined; @@ -738,7 +754,7 @@ Parser.prototype = { return v; }, { assign: function(self, value, locals) { - var key = indexFn(self, locals); + var key = ensureSafeMemberName(indexFn(self, locals), parser.text); // prevent overwriting of Function.constructor which would break ensureSafeObject check var safe = ensureSafeObject(obj(self, locals), parser.text); return safe[key] = value; diff --git a/test/ng/parseSpec.js b/test/ng/parseSpec.js index d7d0d94169de..c72b7e818749 100644 --- a/test/ng/parseSpec.js +++ b/test/ng/parseSpec.js @@ -591,6 +591,57 @@ describe('parser', function() { }); describe('sandboxing', function() { + describe('private members', function() { + it('should NOT allow access to private members', function() { + forEach(['_name', 'name_', '_', '_name_'], function(name) { + function _testExpression(expression) { + scope.a = {b: name}; + scope[name] = {a: scope.a}; + scope.piece_1 = "XX" + name.charAt(0) + "XX"; + scope.piece_2 = "XX" + name.substr(1) + "XX"; + expect(function() { + scope.$eval(expression); + }).toThrowMinErr( + '$parse', 'isecprv', 'Referencing private fields in Angular expressions is disallowed! ' + + 'Expression: ' + expression); + } + + function testExpression(expression) { + if (expression.indexOf('"NAME"') != -1) { + var concatExpr = 'piece_1.substr(2, 1) + piece_2.substr(2, LEN)'.replace('LEN', name.length-1); + _testExpression(expression.replace(/"NAME"/g, concatExpr)); + _testExpression(expression.replace(/"NAME"/g, '(' + concatExpr + ')')); + } + _testExpression(expression.replace(/NAME/g, name)); + } + + // Not all of these are exploitable. The tests ensure that the contract is honored + // without caring about the implementation or exploitability. + testExpression('NAME'); testExpression('NAME = 1'); + testExpression('(NAME)'); testExpression('(NAME) = 1'); + testExpression('a.NAME'); testExpression('a.NAME = 1'); + testExpression('NAME.b'); testExpression('NAME.b = 1'); + testExpression('a.NAME.b'); testExpression('a.NAME.b = 1'); + testExpression('NAME()'); testExpression('NAME() = 1'); + testExpression('(NAME)()'); testExpression('(NAME = 1)()'); + testExpression('(NAME).foo()'); testExpression('(NAME = 1).foo()'); + testExpression('a.NAME()'); testExpression('a.NAME() = 1'); + testExpression('a.NAME.foo()'); testExpression('a.NAME.foo()'); + testExpression('foo(NAME)'); testExpression('foo(NAME = 1)'); + testExpression('foo(a.NAME)'); testExpression('foo(a.NAME = 1)'); + testExpression('foo(1, a.NAME)'); testExpression('foo(1, a.NAME = 1)'); + testExpression('foo(a["NAME"])'); testExpression('foo(a["NAME"] = 1)'); + testExpression('foo(1, a["NAME"])'); testExpression('foo(1, a["NAME"] = 1)'); + testExpression('foo(b = a["NAME"])'); testExpression('foo(b = (a["NAME"] = 1))'); + testExpression('a["NAME"]'); testExpression('a["NAME"] = 1'); + testExpression('a["NAME"]()'); + testExpression('a["NAME"].foo()'); + testExpression('a.b["NAME"]'); testExpression('a.b["NAME"] = 1'); + testExpression('a["b"]["NAME"]'); testExpression('a["b"]["NAME"] = 1'); + }); + }); + }); + describe('Function constructor', function() { it('should NOT allow access to Function constructor in getter', function() { expect(function() { @@ -651,17 +702,29 @@ describe('parser', function() { expect(function() { scope.$eval('{}.toString["constructor"]["constructor"] = 1'); }).toThrowMinErr( - '$parse', 'isecfn', 'Referencing Function in Angular expressions is disallowed! ' + + '$parse', 'isecfld', 'Referencing "constructor" field in Angular expressions is disallowed! ' + 'Expression: {}.toString["constructor"]["constructor"] = 1'); scope.key1 = "const"; scope.key2 = "ructor"; + expect(function() { + scope.$eval('{}.toString[key1 + key2].foo'); + }).toThrowMinErr( + '$parse', 'isecfn', 'Referencing Function in Angular expressions is disallowed! ' + + 'Expression: {}.toString[key1 + key2].foo'); + + expect(function() { + scope.$eval('{}.toString[key1 + key2] = 1'); + }).toThrowMinErr( + '$parse', 'isecfld', 'Referencing "constructor" field in Angular expressions is disallowed! ' + + 'Expression: {}.toString[key1 + key2] = 1'); + expect(function() { scope.$eval('{}.toString[key1 + key2].foo = 1'); }).toThrowMinErr( '$parse', 'isecfn', 'Referencing Function in Angular expressions is disallowed! ' + - 'Expression: {}.toString[key1 + key2].foo = 1'); + 'Expression: {}.toString[key1 + key2].foo = 1'); expect(function() { scope.$eval('{}.toString["constructor"]["a"] = 1');