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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-19 00:47:55 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-19 00:47:55 +0000
commit26a029d407be480d791972afb5975cf62c9360a6 (patch)
treef435a8308119effd964b339f76abb83a57c29483 /mfbt/tests/gtest/TestTainting.cpp
parentInitial commit. (diff)
downloadfirefox-upstream/124.0.1.tar.xz
firefox-upstream/124.0.1.zip
Adding upstream version 124.0.1.upstream/124.0.1
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to '')
-rw-r--r--mfbt/tests/gtest/TestTainting.cpp485
1 files changed, 485 insertions, 0 deletions
diff --git a/mfbt/tests/gtest/TestTainting.cpp b/mfbt/tests/gtest/TestTainting.cpp
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+/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
+/* vim: set ts=8 sts=2 et sw=2 tw=80: */
+/* This Source Code Form is subject to the terms of the Mozilla Public
+ * License, v. 2.0. If a copy of the MPL was not distributed with this file,
+ * You can obtain one at http://mozilla.org/MPL/2.0/. */
+
+#include "gtest/gtest.h"
+#include <math.h>
+
+#include "mozilla/Array.h"
+#include "mozilla/Assertions.h"
+#include "mozilla/Range.h"
+#include "mozilla/Tainting.h"
+#include "nsTHashtable.h"
+#include "nsHashKeys.h"
+#include "nsTArray.h"
+#include <array>
+#include <deque>
+#include <forward_list>
+#include <list>
+#include <map>
+#include <set>
+#include <unordered_map>
+#include <unordered_set>
+#include <vector>
+
+using mozilla::Tainted;
+
+#define EXPECTED_INT 10
+#define EXPECTED_CHAR 'z'
+
+static bool externalFunction(int arg) { return arg > 2; }
+
+// ==================================================================
+// MOZ_VALIDATE_AND_GET =============================================
+TEST(Tainting, moz_validate_and_get)
+{
+ int bar;
+ int comparisonVariable = 20;
+ Tainted<int> foo = Tainted<int>(EXPECTED_INT);
+
+ bar = MOZ_VALIDATE_AND_GET(foo, foo < 20);
+ ASSERT_EQ(bar, EXPECTED_INT);
+
+ // This test is for comparison to an external variable, testing the
+ // default capture mode of the lambda used inside the macro.
+ bar = MOZ_VALIDATE_AND_GET(foo, foo < comparisonVariable);
+ ASSERT_EQ(bar, EXPECTED_INT);
+
+ bar = MOZ_VALIDATE_AND_GET(
+ foo, foo < 20,
+ "foo must be less than 20 because higher values represent decibel"
+ "levels greater than a a jet engine inside your ear.");
+ ASSERT_EQ(bar, EXPECTED_INT);
+
+ // Test an external variable with a comment.
+ bar = MOZ_VALIDATE_AND_GET(foo, foo < comparisonVariable, "Test comment");
+ ASSERT_EQ(bar, EXPECTED_INT);
+
+ // Test an external function with a comment.
+ bar = MOZ_VALIDATE_AND_GET(foo, externalFunction(foo), "Test comment");
+ ASSERT_EQ(bar, EXPECTED_INT);
+
+ // Lambda Tests
+ bar =
+ MOZ_VALIDATE_AND_GET(foo, ([&foo]() { return externalFunction(foo); }()));
+ ASSERT_EQ(bar, EXPECTED_INT);
+
+ // This test is for the lambda variant with a supplied assertion
+ // string.
+ bar =
+ MOZ_VALIDATE_AND_GET(foo, ([&foo]() { return externalFunction(foo); }()),
+ "This tests a comment");
+ ASSERT_EQ(bar, EXPECTED_INT);
+
+ // This test is for the lambda variant with a captured variable
+ bar = MOZ_VALIDATE_AND_GET(foo, ([&foo, &comparisonVariable] {
+ bool intermediateResult = externalFunction(foo);
+ return intermediateResult ||
+ comparisonVariable < 4;
+ }()),
+ "This tests a comment");
+ ASSERT_EQ(bar, EXPECTED_INT);
+
+ // This test is for the lambda variant with full capture mode
+ bar = MOZ_VALIDATE_AND_GET(foo, ([&] {
+ bool intermediateResult = externalFunction(foo);
+ return intermediateResult ||
+ comparisonVariable < 4;
+ }()),
+ "This tests a comment");
+ ASSERT_EQ(bar, EXPECTED_INT);
+
+ // External lambdas
+ auto lambda1 = [](int foo) { return externalFunction(foo); };
+
+ auto lambda2 = [&](int foo) {
+ bool intermediateResult = externalFunction(foo);
+ return intermediateResult || comparisonVariable < 4;
+ };
+
+ // Test with an explicit capture
+ auto lambda3 = [&comparisonVariable](int foo) {
+ bool intermediateResult = externalFunction(foo);
+ return intermediateResult || comparisonVariable < 4;
+ };
+
+ bar = MOZ_VALIDATE_AND_GET(foo, lambda1(foo));
+ ASSERT_EQ(bar, EXPECTED_INT);
+
+ // Test with a comment
+ bar = MOZ_VALIDATE_AND_GET(foo, lambda1(foo), "Test comment.");
+ ASSERT_EQ(bar, EXPECTED_INT);
+
+ // Test with a default capture mode
+ bar = MOZ_VALIDATE_AND_GET(foo, lambda2(foo), "Test comment.");
+ ASSERT_EQ(bar, EXPECTED_INT);
+
+ bar = MOZ_VALIDATE_AND_GET(foo, lambda3(foo), "Test comment.");
+ ASSERT_EQ(bar, EXPECTED_INT);
+
+ // We can't test MOZ_VALIDATE_AND_GET failing, because that triggers
+ // a release assert.
+}
+
+// ==================================================================
+// MOZ_IS_VALID =====================================================
+TEST(Tainting, moz_is_valid)
+{
+ int comparisonVariable = 20;
+ Tainted<int> foo = Tainted<int>(EXPECTED_INT);
+
+ ASSERT_TRUE(MOZ_IS_VALID(foo, foo < 20));
+
+ ASSERT_FALSE(MOZ_IS_VALID(foo, foo > 20));
+
+ ASSERT_TRUE(MOZ_IS_VALID(foo, foo < comparisonVariable));
+
+ ASSERT_TRUE(
+ MOZ_IS_VALID(foo, ([&foo]() { return externalFunction(foo); }())));
+
+ ASSERT_TRUE(MOZ_IS_VALID(foo, ([&foo, &comparisonVariable]() {
+ bool intermediateResult = externalFunction(foo);
+ return intermediateResult ||
+ comparisonVariable < 4;
+ }())));
+
+ // External lambdas
+ auto lambda1 = [](int foo) { return externalFunction(foo); };
+
+ auto lambda2 = [&](int foo) {
+ bool intermediateResult = externalFunction(foo);
+ return intermediateResult || comparisonVariable < 4;
+ };
+
+ // Test with an explicit capture
+ auto lambda3 = [&comparisonVariable](int foo) {
+ bool intermediateResult = externalFunction(foo);
+ return intermediateResult || comparisonVariable < 4;
+ };
+
+ ASSERT_TRUE(MOZ_IS_VALID(foo, lambda1(foo)));
+
+ ASSERT_TRUE(MOZ_IS_VALID(foo, lambda2(foo)));
+
+ ASSERT_TRUE(MOZ_IS_VALID(foo, lambda3(foo)));
+}
+
+// ==================================================================
+// MOZ_VALIDATE_OR ==================================================
+TEST(Tainting, moz_validate_or)
+{
+ int result;
+ int comparisonVariable = 20;
+ Tainted<int> foo = Tainted<int>(EXPECTED_INT);
+
+ result = MOZ_VALIDATE_OR(foo, foo < 20, 100);
+ ASSERT_EQ(result, EXPECTED_INT);
+
+ result = MOZ_VALIDATE_OR(foo, foo > 20, 100);
+ ASSERT_EQ(result, 100);
+
+ result = MOZ_VALIDATE_OR(foo, foo < comparisonVariable, 100);
+ ASSERT_EQ(result, EXPECTED_INT);
+
+ // External lambdas
+ auto lambda1 = [](int foo) { return externalFunction(foo); };
+
+ auto lambda2 = [&](int foo) {
+ bool intermediateResult = externalFunction(foo);
+ return intermediateResult || comparisonVariable < 4;
+ };
+
+ // Test with an explicit capture
+ auto lambda3 = [&comparisonVariable](int foo) {
+ bool intermediateResult = externalFunction(foo);
+ return intermediateResult || comparisonVariable < 4;
+ };
+
+ result = MOZ_VALIDATE_OR(foo, lambda1(foo), 100);
+ ASSERT_EQ(result, EXPECTED_INT);
+
+ result = MOZ_VALIDATE_OR(foo, lambda2(foo), 100);
+ ASSERT_EQ(result, EXPECTED_INT);
+
+ result = MOZ_VALIDATE_OR(foo, lambda3(foo), 100);
+ ASSERT_EQ(result, EXPECTED_INT);
+
+ result =
+ MOZ_VALIDATE_OR(foo, ([&foo]() { return externalFunction(foo); }()), 100);
+ ASSERT_EQ(result, EXPECTED_INT);
+
+ // This test is for the lambda variant with a supplied assertion
+ // string.
+ result =
+ MOZ_VALIDATE_OR(foo, ([&foo] { return externalFunction(foo); }()), 100);
+ ASSERT_EQ(result, EXPECTED_INT);
+
+ // This test is for the lambda variant with a captured variable
+ result =
+ MOZ_VALIDATE_OR(foo, ([&foo, &comparisonVariable] {
+ bool intermediateResult = externalFunction(foo);
+ return intermediateResult || comparisonVariable < 4;
+ }()),
+ 100);
+ ASSERT_EQ(result, EXPECTED_INT);
+
+ // This test is for the lambda variant with full capture mode
+ result =
+ MOZ_VALIDATE_OR(foo, ([&] {
+ bool intermediateResult = externalFunction(foo);
+ return intermediateResult || comparisonVariable < 4;
+ }()),
+ 100);
+ ASSERT_EQ(result, EXPECTED_INT);
+}
+
+// ==================================================================
+// MOZ_FIND_AND_VALIDATE ============================================
+TEST(Tainting, moz_find_and_validate)
+{
+ Tainted<int> foo = Tainted<int>(EXPECTED_INT);
+ Tainted<char> baz = Tainted<char>(EXPECTED_CHAR);
+
+ //-------------------------------
+ const mozilla::Array<int, 6> mozarrayWithFoo(0, 5, EXPECTED_INT, 15, 20, 25);
+ const mozilla::Array<int, 5> mozarrayWithoutFoo(0, 5, 15, 20, 25);
+
+ ASSERT_TRUE(*MOZ_FIND_AND_VALIDATE(foo, list_item == foo, mozarrayWithFoo) ==
+ mozarrayWithFoo[2]);
+
+ ASSERT_TRUE(MOZ_FIND_AND_VALIDATE(foo, list_item == foo,
+ mozarrayWithoutFoo) == nullptr);
+
+ //-------------------------------
+ class TestClass {
+ public:
+ int a;
+ int b;
+
+ TestClass(int a, int b) {
+ this->a = a;
+ this->b = b;
+ }
+
+ bool operator==(const TestClass& other) const {
+ return this->a == other.a && this->b == other.b;
+ }
+ };
+
+ const mozilla::Array<TestClass, 5> mozarrayOfClassesWithFoo(
+ TestClass(0, 1), TestClass(2, 3), TestClass(EXPECTED_INT, EXPECTED_INT),
+ TestClass(4, 5), TestClass(6, 7));
+
+ ASSERT_TRUE(*MOZ_FIND_AND_VALIDATE(
+ foo, foo == list_item.a && foo == list_item.b,
+ mozarrayOfClassesWithFoo) == mozarrayOfClassesWithFoo[2]);
+
+ ASSERT_TRUE(*MOZ_FIND_AND_VALIDATE(
+ foo, (foo == list_item.a && foo == list_item.b),
+ mozarrayOfClassesWithFoo) == mozarrayOfClassesWithFoo[2]);
+
+ ASSERT_TRUE(
+ *MOZ_FIND_AND_VALIDATE(
+ foo,
+ (foo == list_item.a && foo == list_item.b && externalFunction(foo)),
+ mozarrayOfClassesWithFoo) == mozarrayOfClassesWithFoo[2]);
+
+ ASSERT_TRUE(*MOZ_FIND_AND_VALIDATE(
+ foo, ([](int tainted_val, TestClass list_item) {
+ return tainted_val == list_item.a &&
+ tainted_val == list_item.b;
+ }(foo, list_item)),
+ mozarrayOfClassesWithFoo) == mozarrayOfClassesWithFoo[2]);
+
+ auto lambda4 = [](int tainted_val, TestClass list_item) {
+ return tainted_val == list_item.a && tainted_val == list_item.b;
+ };
+
+ ASSERT_TRUE(*MOZ_FIND_AND_VALIDATE(foo, lambda4(foo, list_item),
+ mozarrayOfClassesWithFoo) ==
+ mozarrayOfClassesWithFoo[2]);
+
+ //-------------------------------
+ const char m[] = "m";
+ const char o[] = "o";
+ const char z[] = {EXPECTED_CHAR, '\0'};
+ const char l[] = "l";
+ const char a[] = "a";
+
+ nsTHashtable<nsCharPtrHashKey> hashtableWithBaz;
+ hashtableWithBaz.PutEntry(m);
+ hashtableWithBaz.PutEntry(o);
+ hashtableWithBaz.PutEntry(z);
+ hashtableWithBaz.PutEntry(l);
+ hashtableWithBaz.PutEntry(a);
+ nsTHashtable<nsCharPtrHashKey> hashtableWithoutBaz;
+ hashtableWithoutBaz.PutEntry(m);
+ hashtableWithoutBaz.PutEntry(o);
+ hashtableWithoutBaz.PutEntry(l);
+ hashtableWithoutBaz.PutEntry(a);
+
+ ASSERT_TRUE(MOZ_FIND_AND_VALIDATE(baz, *list_item.GetKey() == baz,
+ hashtableWithBaz) ==
+ hashtableWithBaz.GetEntry(z));
+
+ ASSERT_TRUE(MOZ_FIND_AND_VALIDATE(baz, *list_item.GetKey() == baz,
+ hashtableWithoutBaz) == nullptr);
+
+ //-------------------------------
+ const nsTArray<int> nsTArrayWithFoo = {0, 5, EXPECTED_INT, 15, 20, 25};
+ const nsTArray<int> nsTArrayWithoutFoo = {0, 5, 15, 20, 25};
+
+ ASSERT_TRUE(*MOZ_FIND_AND_VALIDATE(foo, list_item == foo, nsTArrayWithFoo) ==
+ nsTArrayWithFoo[2]);
+
+ ASSERT_TRUE(MOZ_FIND_AND_VALIDATE(foo, list_item == foo,
+ nsTArrayWithoutFoo) == nullptr);
+
+ //-------------------------------
+ const std::array<int, 6> arrayWithFoo{0, 5, EXPECTED_INT, 15, 20, 25};
+ const std::array<int, 5> arrayWithoutFoo{0, 5, 15, 20, 25};
+
+ ASSERT_TRUE(*MOZ_FIND_AND_VALIDATE(foo, list_item == foo, arrayWithFoo) ==
+ arrayWithFoo[2]);
+
+ ASSERT_TRUE(MOZ_FIND_AND_VALIDATE(foo, list_item == foo, arrayWithoutFoo) ==
+ nullptr);
+
+ //-------------------------------
+ const std::deque<int> dequeWithFoo{0, 5, EXPECTED_INT, 15, 20, 25};
+ const std::deque<int> dequeWithoutFoo{0, 5, 15, 20, 25};
+
+ ASSERT_TRUE(*MOZ_FIND_AND_VALIDATE(foo, list_item == foo, dequeWithFoo) ==
+ dequeWithFoo[2]);
+
+ ASSERT_TRUE(MOZ_FIND_AND_VALIDATE(foo, list_item == foo, dequeWithoutFoo) ==
+ nullptr);
+
+ //-------------------------------
+ const std::forward_list<int> forwardWithFoo{0, 5, EXPECTED_INT, 15, 20, 25};
+ const std::forward_list<int> forwardWithoutFoo{0, 5, 15, 20, 25};
+
+ auto forwardListIt = forwardWithFoo.begin();
+ std::advance(forwardListIt, 2);
+
+ ASSERT_TRUE(*MOZ_FIND_AND_VALIDATE(foo, list_item == foo, forwardWithFoo) ==
+ *forwardListIt);
+
+ ASSERT_TRUE(MOZ_FIND_AND_VALIDATE(foo, list_item == foo, forwardWithoutFoo) ==
+ nullptr);
+
+ //-------------------------------
+ const std::list<int> listWithFoo{0, 5, EXPECTED_INT, 15, 20, 25};
+ const std::list<int> listWithoutFoo{0, 5, 15, 20, 25};
+
+ auto listIt = listWithFoo.begin();
+ std::advance(listIt, 2);
+
+ ASSERT_TRUE(*MOZ_FIND_AND_VALIDATE(foo, list_item == foo, listWithFoo) ==
+ *listIt);
+
+ ASSERT_TRUE(MOZ_FIND_AND_VALIDATE(foo, list_item == foo, listWithoutFoo) ==
+ nullptr);
+
+ //-------------------------------
+ const std::map<std::string, int> mapWithFoo{{
+ {"zero", 0},
+ {"five", 5},
+ {"ten", EXPECTED_INT},
+ {"fifteen", 15},
+ {"twenty", 20},
+ {"twenty-five", 25},
+ }};
+ const std::map<std::string, int> mapWithoutFoo{{
+ {"zero", 0},
+ {"five", 5},
+ {"fifteen", 15},
+ {"twenty", 20},
+ {"twenty-five", 25},
+ }};
+
+ const auto map_it = mapWithFoo.find("ten");
+
+ ASSERT_TRUE(
+ MOZ_FIND_AND_VALIDATE(foo, list_item.second == foo, mapWithFoo)->second ==
+ map_it->second);
+
+ ASSERT_TRUE(MOZ_FIND_AND_VALIDATE(foo, list_item.second == foo,
+ mapWithoutFoo) == nullptr);
+
+ //-------------------------------
+ const std::set<int> setWithFoo{0, 5, EXPECTED_INT, 15, 20, 25};
+ const std::set<int> setWithoutFoo{0, 5, 15, 20, 25};
+
+ auto setIt = setWithFoo.find(EXPECTED_INT);
+
+ ASSERT_TRUE(*MOZ_FIND_AND_VALIDATE(foo, list_item == foo, setWithFoo) ==
+ *setIt);
+
+ ASSERT_TRUE(MOZ_FIND_AND_VALIDATE(foo, list_item == foo, setWithoutFoo) ==
+ nullptr);
+
+ //-------------------------------
+ const std::unordered_map<std::string, int> unordermapWithFoo = {
+ {"zero", 0}, {"five", 5}, {"ten", EXPECTED_INT},
+ {"fifteen", 15}, {"twenty", 20}, {"twenty-five", 25},
+ };
+ const std::unordered_map<std::string, int> unordermapWithoutFoo{{
+ {"zero", 0},
+ {"five", 5},
+ {"fifteen", 15},
+ {"twenty", 20},
+ {"twenty-five", 25},
+ }};
+
+ auto unorderedMapIt = unordermapWithFoo.find("ten");
+
+ ASSERT_TRUE(
+ MOZ_FIND_AND_VALIDATE(foo, list_item.second == foo, unordermapWithFoo)
+ ->second == unorderedMapIt->second);
+
+ ASSERT_TRUE(MOZ_FIND_AND_VALIDATE(foo, list_item.second == foo,
+ unordermapWithoutFoo) == nullptr);
+
+ //-------------------------------
+ const std::unordered_set<int> unorderedsetWithFoo{0, 5, EXPECTED_INT,
+ 15, 20, 25};
+ const std::unordered_set<int> unorderedsetWithoutFoo{0, 5, 15, 20, 25};
+
+ auto unorderedSetIt = unorderedsetWithFoo.find(EXPECTED_INT);
+
+ ASSERT_TRUE(*MOZ_FIND_AND_VALIDATE(foo, list_item == foo,
+ unorderedsetWithFoo) == *unorderedSetIt);
+
+ ASSERT_TRUE(MOZ_FIND_AND_VALIDATE(foo, list_item == foo,
+ unorderedsetWithoutFoo) == nullptr);
+
+ //-------------------------------
+ const std::vector<int> vectorWithFoo{0, 5, EXPECTED_INT, 15, 20, 25};
+ const std::vector<int> vectorWithoutFoo{0, 5, 15, 20, 25};
+
+ ASSERT_TRUE(*MOZ_FIND_AND_VALIDATE(foo, list_item == foo, vectorWithFoo) ==
+ vectorWithFoo[2]);
+
+ ASSERT_TRUE(MOZ_FIND_AND_VALIDATE(foo, list_item == foo, vectorWithoutFoo) ==
+ nullptr);
+}
+
+// ==================================================================
+// MOZ_NO_VALIDATE ==================================================
+TEST(Tainting, moz_no_validate)
+{
+ int result;
+ Tainted<int> foo = Tainted<int>(EXPECTED_INT);
+
+ result = MOZ_NO_VALIDATE(
+ foo,
+ "Value is used to match against a dictionary key in the parent."
+ "If there's no key present, there won't be a match."
+ "There is no risk of grabbing a cross-origin value from the dictionary,"
+ "because the IPC actor is instatiated per-content-process and the "
+ "dictionary is not shared between actors.");
+ ASSERT_TRUE(result == EXPECTED_INT);
+}