123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232233234235236237238239240241242243244245246247248249250251252253254255256257258259260261262263264265266267268269270271272273274275276277278279280281282283284285286287288289290291292293294295296297298299300301302303304305306307308309310311312313314315316317318319320321322323324325326327328329330331332333334335336337338339340341342343344345346347348349350351352353354355356357358359360361362363364365366367368369370371372373374375376377378379380381382383384385386387388389390391392393394395396397398399400401402403404405406407408409410411412413414415416417418419420421422423424425426427428429430431432433434435436437438439440441442443444445446447448449450451452453454455456457458459460461462463464465466467468469470471472473474475476477478479480481482483484485486487488489490491492493494495496497498499500501502503504505506507508509510511512513514515516517518519520521522523524525526527528529530531532533534535536537538539540541542543 |
- // Copyright 2017 The Chromium Authors. All rights reserved.
- // Use of this source code is governed by a BSD-style license that can be
- // found in the LICENSE file.
- #include "components/zucchini/abs32_utils.h"
- #include <stdint.h>
- #include <algorithm>
- #include <string>
- #include <utility>
- #include "base/numerics/safe_conversions.h"
- #include "components/zucchini/address_translator.h"
- #include "components/zucchini/image_utils.h"
- #include "components/zucchini/test_utils.h"
- #include "testing/gtest/include/gtest/gtest.h"
- namespace zucchini {
- namespace {
- // A trivial AddressTranslator that applies constant shift.
- class TestAddressTranslator : public AddressTranslator {
- public:
- TestAddressTranslator(size_t image_size, rva_t rva_begin) {
- DCHECK_GE(rva_begin, 0U);
- CHECK_EQ(AddressTranslator::kSuccess,
- Initialize({{0, base::checked_cast<offset_t>(image_size),
- rva_begin, base::checked_cast<rva_t>(image_size)}}));
- }
- };
- // Helper to translate address |value| to RVA. May return |kInvalidRva|.
- rva_t AddrValueToRva(uint64_t value, AbsoluteAddress* addr) {
- *addr->mutable_value() = value;
- return addr->ToRva();
- }
- } // namespace
- TEST(Abs32UtilsTest, AbsoluteAddress32) {
- std::vector<uint8_t> data32 = ParseHexString(
- "00 00 32 00 21 43 65 4A 00 00 00 00 FF FF FF FF FF FF 31 00");
- ConstBufferView image32(data32.data(), data32.size());
- MutableBufferView mutable_image32(data32.data(), data32.size());
- AbsoluteAddress addr32(kBit32, 0x00320000U);
- EXPECT_TRUE(addr32.Read(0x0U, image32));
- EXPECT_EQ(0x00000000U, addr32.ToRva());
- EXPECT_TRUE(addr32.Read(0x4U, image32));
- EXPECT_EQ(0x4A334321U, addr32.ToRva());
- EXPECT_TRUE(addr32.Read(0x8U, image32));
- EXPECT_EQ(kInvalidRva, addr32.ToRva()); // Underflow.
- EXPECT_TRUE(addr32.Read(0xCU, image32));
- EXPECT_EQ(kInvalidRva, addr32.ToRva()); // Translated RVA would be too large.
- EXPECT_TRUE(addr32.Read(0x10U, image32));
- EXPECT_EQ(kInvalidRva, addr32.ToRva()); // Underflow (boundary case).
- EXPECT_FALSE(addr32.Read(0x11U, image32));
- EXPECT_FALSE(addr32.Read(0x14U, image32));
- EXPECT_FALSE(addr32.Read(0x100000U, image32));
- EXPECT_FALSE(addr32.Read(0x80000000U, image32));
- EXPECT_FALSE(addr32.Read(0xFFFFFFFFU, image32));
- EXPECT_TRUE(addr32.FromRva(0x11223344U));
- EXPECT_TRUE(addr32.Write(0x2U, &mutable_image32));
- EXPECT_TRUE(addr32.Write(0x10U, &mutable_image32));
- std::vector<uint8_t> expected_data32 = ParseHexString(
- "00 00 44 33 54 11 65 4A 00 00 00 00 FF FF FF FF 44 33 54 11");
- EXPECT_EQ(expected_data32, data32);
- EXPECT_FALSE(addr32.Write(0x11U, &mutable_image32));
- EXPECT_FALSE(addr32.Write(0xFFFFFFFFU, &mutable_image32));
- EXPECT_EQ(expected_data32, data32);
- }
- TEST(Abs32UtilsTest, AbsoluteAddress32Overflow) {
- AbsoluteAddress addr32(kBit32, 0xC0000000U);
- EXPECT_TRUE(addr32.FromRva(0x00000000U));
- EXPECT_TRUE(addr32.FromRva(0x11223344U));
- EXPECT_TRUE(addr32.FromRva(0x3FFFFFFFU));
- EXPECT_FALSE(addr32.FromRva(0x40000000U));
- EXPECT_FALSE(addr32.FromRva(0x40000001U));
- EXPECT_FALSE(addr32.FromRva(0x80000000U));
- EXPECT_FALSE(addr32.FromRva(0xFFFFFFFFU));
- EXPECT_EQ(0x00000000U, AddrValueToRva(0xC0000000U, &addr32));
- EXPECT_EQ(kInvalidRva, AddrValueToRva(0xBFFFFFFFU, &addr32));
- EXPECT_EQ(kInvalidRva, AddrValueToRva(0x00000000U, &addr32));
- EXPECT_EQ(0x3FFFFFFFU, AddrValueToRva(0xFFFFFFFFU, &addr32));
- }
- TEST(Abs32UtilsTest, AbsoluteAddress64) {
- std::vector<uint8_t> data64 = ParseHexString(
- "00 00 00 00 64 00 00 00 21 43 65 4A 64 00 00 00 "
- "00 00 00 00 00 00 00 00 FF FF FF FF FF FF FF FF "
- "00 00 00 00 64 00 00 80 FF FF FF FF 63 00 00 00");
- ConstBufferView image64(data64.data(), data64.size());
- MutableBufferView mutable_image64(data64.data(), data64.size());
- AbsoluteAddress addr64(kBit64, 0x0000006400000000ULL);
- EXPECT_TRUE(addr64.Read(0x0U, image64));
- EXPECT_EQ(0x00000000U, addr64.ToRva());
- EXPECT_TRUE(addr64.Read(0x8U, image64));
- EXPECT_EQ(0x4A654321U, addr64.ToRva());
- EXPECT_TRUE(addr64.Read(0x10U, image64)); // Succeeds, in spite of value.
- EXPECT_EQ(kInvalidRva, addr64.ToRva()); // Underflow.
- EXPECT_TRUE(addr64.Read(0x18U, image64));
- EXPECT_EQ(kInvalidRva, addr64.ToRva()); // Translated RVA too large.
- EXPECT_TRUE(addr64.Read(0x20U, image64));
- EXPECT_EQ(kInvalidRva, addr64.ToRva()); // Translated RVA toolarge.
- EXPECT_TRUE(addr64.Read(0x28U, image64));
- EXPECT_EQ(kInvalidRva, addr64.ToRva()); // Underflow.
- EXPECT_FALSE(addr64.Read(0x29U, image64)); // Extends outside.
- EXPECT_FALSE(addr64.Read(0x30U, image64)); // Entirely outside (note: hex).
- EXPECT_FALSE(addr64.Read(0x100000U, image64));
- EXPECT_FALSE(addr64.Read(0x80000000U, image64));
- EXPECT_FALSE(addr64.Read(0xFFFFFFFFU, image64));
- EXPECT_TRUE(addr64.FromRva(0x11223344U));
- EXPECT_TRUE(addr64.Write(0x13U, &mutable_image64));
- EXPECT_TRUE(addr64.Write(0x20U, &mutable_image64));
- std::vector<uint8_t> expected_data64 = ParseHexString(
- "00 00 00 00 64 00 00 00 21 43 65 4A 64 00 00 00 "
- "00 00 00 44 33 22 11 64 00 00 00 FF FF FF FF FF "
- "44 33 22 11 64 00 00 00 FF FF FF FF 63 00 00 00");
- EXPECT_EQ(expected_data64, data64);
- EXPECT_FALSE(addr64.Write(0x29U, &mutable_image64));
- EXPECT_FALSE(addr64.Write(0x30U, &mutable_image64));
- EXPECT_FALSE(addr64.Write(0xFFFFFFFFU, &mutable_image64));
- EXPECT_EQ(expected_data64, data64);
- EXPECT_FALSE(addr64.FromRva(0xFFFFFFFFU));
- }
- TEST(Abs32UtilsTest, AbsoluteAddress64Overflow) {
- {
- // Counterpart to AbsoluteAddress632verflow test.
- AbsoluteAddress addr64(kBit64, 0xFFFFFFFFC0000000ULL);
- EXPECT_TRUE(addr64.FromRva(0x00000000U));
- EXPECT_TRUE(addr64.FromRva(0x11223344U));
- EXPECT_TRUE(addr64.FromRva(0x3FFFFFFFU));
- EXPECT_FALSE(addr64.FromRva(0x40000000U));
- EXPECT_FALSE(addr64.FromRva(0x40000001U));
- EXPECT_FALSE(addr64.FromRva(0x80000000U));
- EXPECT_FALSE(addr64.FromRva(0xFFFFFFFFU));
- EXPECT_EQ(0x00000000U, AddrValueToRva(0xFFFFFFFFC0000000U, &addr64));
- EXPECT_EQ(kInvalidRva, AddrValueToRva(0xFFFFFFFFBFFFFFFFU, &addr64));
- EXPECT_EQ(kInvalidRva, AddrValueToRva(0x0000000000000000U, &addr64));
- EXPECT_EQ(kInvalidRva, AddrValueToRva(0xFFFFFFFF00000000U, &addr64));
- EXPECT_EQ(0x3FFFFFFFU, AddrValueToRva(0xFFFFFFFFFFFFFFFFU, &addr64));
- }
- {
- // Pseudo-counterpart to AbsoluteAddress632verflow test: Some now pass.
- AbsoluteAddress addr64(kBit64, 0xC0000000U);
- EXPECT_TRUE(addr64.FromRva(0x00000000U));
- EXPECT_TRUE(addr64.FromRva(0x11223344U));
- EXPECT_TRUE(addr64.FromRva(0x3FFFFFFFU));
- EXPECT_TRUE(addr64.FromRva(0x40000000U));
- EXPECT_TRUE(addr64.FromRva(0x40000001U));
- EXPECT_FALSE(addr64.FromRva(0x80000000U));
- EXPECT_FALSE(addr64.FromRva(0xFFFFFFFFU));
- // ToRva() still fail though.
- EXPECT_EQ(0x00000000U, AddrValueToRva(0xC0000000U, &addr64));
- EXPECT_EQ(kInvalidRva, AddrValueToRva(0xBFFFFFFFU, &addr64));
- EXPECT_EQ(kInvalidRva, AddrValueToRva(0x00000000U, &addr64));
- EXPECT_EQ(0x3FFFFFFFU, AddrValueToRva(0xFFFFFFFFU, &addr64));
- }
- {
- AbsoluteAddress addr64(kBit64, 0xC000000000000000ULL);
- EXPECT_TRUE(addr64.FromRva(0x00000000ULL));
- EXPECT_TRUE(addr64.FromRva(0x11223344ULL));
- EXPECT_TRUE(addr64.FromRva(0x3FFFFFFFULL));
- EXPECT_TRUE(addr64.FromRva(0x40000000ULL));
- EXPECT_TRUE(addr64.FromRva(0x40000001ULL));
- EXPECT_FALSE(addr64.FromRva(0x80000000ULL));
- EXPECT_FALSE(addr64.FromRva(0xFFFFFFFFULL));
- EXPECT_EQ(0x00000000U, AddrValueToRva(0xC000000000000000ULL, &addr64));
- EXPECT_EQ(kInvalidRva, AddrValueToRva(0xBFFFFFFFFFFFFFFFULL, &addr64));
- EXPECT_EQ(kInvalidRva, AddrValueToRva(0x0000000000000000ULL, &addr64));
- EXPECT_EQ(0x3FFFFFFFU, AddrValueToRva(0xC00000003FFFFFFFULL, &addr64));
- EXPECT_EQ(kInvalidRva, AddrValueToRva(0xFFFFFFFFFFFFFFFFULL, &addr64));
- }
- }
- TEST(Abs32UtilsTest, Win32Read32) {
- constexpr uint32_t kImageBase = 0xA0000000U;
- constexpr uint32_t kRvaBegin = 0x00C00000U;
- struct {
- std::vector<uint8_t> data32;
- std::deque<offset_t> abs32_locations; // Assumption: Sorted.
- offset_t lo; // Assumption: In range, does not straddle |abs32_location|.
- offset_t hi; // Assumption: Also >= |lo|.
- std::vector<Reference> expected_refs;
- } test_cases[] = {
- // Targets at beginning and end.
- {ParseHexString("FF FF FF FF 0F 00 C0 A0 00 00 C0 A0 FF FF FF FF"),
- {0x4U, 0x8U},
- 0x0U,
- 0x10U,
- {{0x4U, 0xFU}, {0x8U, 0x0U}}},
- // Targets at beginning and end are out of bound: Rejected.
- {ParseHexString("FF FF FF FF 10 00 C0 A0 FF FF BF A0 FF FF FF FF"),
- {0x4U, 0x8U},
- 0x0U,
- 0x10U,
- std::vector<Reference>()},
- // Same with more extreme target values: Rejected.
- {ParseHexString("FF FF FF FF FF FF FF FF 00 00 00 00 FF FF FF FF"),
- {0x4U, 0x8U},
- 0x0U,
- 0x10U,
- std::vector<Reference>()},
- // Locations at beginning and end, plus invalid locations.
- {ParseHexString("08 00 C0 A0 FF FF FF FF FF FF FF FF 04 00 C0 A0"),
- {0x0U, 0xCU, 0x10U, 0x1000U, 0x80000000U, 0xFFFFFFFFU},
- 0x0U,
- 0x10U,
- {{0x0U, 0x8U}, {0xCU, 0x4U}}},
- // Odd size, location, target.
- {ParseHexString("FF FF FF 09 00 C0 A0 FF FF FF FF FF FF FF FF FF "
- "FF FF FF"),
- {0x3U},
- 0x0U,
- 0x13U,
- {{0x3U, 0x9U}}},
- // No location given.
- {ParseHexString("FF FF FF FF 0C 00 C0 A0 00 00 C0 A0 FF FF FF FF"),
- std::deque<offset_t>(), 0x0U, 0x10U, std::vector<Reference>()},
- // Simple alternation.
- {ParseHexString("04 00 C0 A0 FF FF FF FF 0C 00 C0 A0 FF FF FF FF "
- "14 00 C0 A0 FF FF FF FF 1C 00 C0 A0 FF FF FF FF"),
- {0x0U, 0x8U, 0x10U, 0x18U},
- 0x0U,
- 0x20U,
- {{0x0U, 0x4U}, {0x8U, 0xCU}, {0x10U, 0x14U}, {0x18U, 0x1CU}}},
- // Same, with locations limited by |lo| and |hi|. By assumption these must
- // not cut accross Reference body.
- {ParseHexString("04 00 C0 A0 FF FF FF FF 0C 00 C0 A0 FF FF FF FF "
- "14 00 C0 A0 FF FF FF FF 1C 00 C0 A0 FF FF FF FF"),
- {0x0U, 0x8U, 0x10U, 0x18U},
- 0x04U,
- 0x17U,
- {{0x8U, 0xCU}, {0x10U, 0x14U}}},
- // Same, with very limiting |lo| and |hi|.
- {ParseHexString("04 00 C0 A0 FF FF FF FF 0C 00 C0 A0 FF FF FF FF "
- "14 00 C0 A0 FF FF FF FF 1C 00 C0 A0 FF FF FF FF"),
- {0x0U, 0x8U, 0x10U, 0x18U},
- 0x0CU,
- 0x10U,
- std::vector<Reference>()},
- // Same, |lo| == |hi|.
- {ParseHexString("04 00 C0 A0 FF FF FF FF 0C 00 C0 A0 FF FF FF FF "
- "14 00 C0 A0 FF FF FF FF 1C 00 C0 A0 FF FF FF FF"),
- {0x0U, 0x8U, 0x10U, 0x18U},
- 0x14U,
- 0x14U,
- std::vector<Reference>()},
- // Same, |lo| and |hi| at end.
- {ParseHexString("04 00 C0 A0 FF FF FF FF 0C 00 C0 A0 FF FF FF FF "
- "14 00 C0 A0 FF FF FF FF 1C 00 C0 A0 FF FF FF FF"),
- {0x0U, 0x8U, 0x10U, 0x18U},
- 0x20U,
- 0x20U,
- std::vector<Reference>()},
- // Mix. Note that targets can overlap.
- {ParseHexString("FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF "
- "06 00 C0 A0 2C 00 C0 A0 FF FF C0 A0 2B 00 C0 A0 "
- "FF 06 00 C0 A0 00 00 C0 A0 FF FF FF FF FF FF FF"),
- {0x10U, 0x14U, 0x18U, 0x1CU, 0x21U, 0x25U, 0xAAAAU},
- 0x07U,
- 0x25U,
- {{0x10U, 0x6U}, {0x14U, 0x2CU}, {0x1CU, 0x2BU}, {0x21, 0x6U}}},
- };
- for (const auto& test_case : test_cases) {
- ConstBufferView image32(test_case.data32.data(), test_case.data32.size());
- Abs32RvaExtractorWin32 extractor(image32, {kBit32, kImageBase},
- test_case.abs32_locations, test_case.lo,
- test_case.hi);
- TestAddressTranslator translator(test_case.data32.size(), kRvaBegin);
- Abs32ReaderWin32 reader(std::move(extractor), translator);
- // Loop over |expected_ref| to check element-by-element.
- absl::optional<Reference> ref;
- for (const auto& expected_ref : test_case.expected_refs) {
- ref = reader.GetNext();
- EXPECT_TRUE(ref.has_value());
- EXPECT_EQ(expected_ref, ref.value());
- }
- // Check that nothing is left.
- ref = reader.GetNext();
- EXPECT_FALSE(ref.has_value());
- }
- }
- TEST(Abs32UtilsTest, Win32Read64) {
- constexpr uint64_t kImageBase = 0x31415926A0000000U;
- constexpr uint32_t kRvaBegin = 0x00C00000U;
- // For simplicity, just test mixed case.
- std::vector<uint8_t> data64 = ParseHexString(
- "FF FF FF FF FF FF FF FF 00 00 C0 A0 26 59 41 31 "
- "06 00 C0 A0 26 59 41 31 02 00 C0 A0 26 59 41 31 "
- "FF FF FF BF 26 59 41 31 FF FF FF FF FF FF FF FF "
- "02 00 C0 A0 26 59 41 31 07 00 C0 A0 26 59 41 31");
- std::deque<offset_t> abs32_locations = {0x8U, 0x10U, 0x18U, 0x20U,
- 0x28U, 0x30U, 0x38U, 0x40U};
- offset_t lo = 0x10U;
- offset_t hi = 0x38U;
- std::vector<Reference> expected_refs = {
- {0x10U, 0x06U}, {0x18U, 0x02U}, {0x30U, 0x02U}};
- ConstBufferView image64(data64.data(), data64.size());
- Abs32RvaExtractorWin32 extractor(image64, {kBit64, kImageBase},
- abs32_locations, lo, hi);
- TestAddressTranslator translator(data64.size(), kRvaBegin);
- Abs32ReaderWin32 reader(std::move(extractor), translator);
- std::vector<Reference> refs;
- absl::optional<Reference> ref;
- for (ref = reader.GetNext(); ref.has_value(); ref = reader.GetNext())
- refs.push_back(ref.value());
- EXPECT_EQ(expected_refs, refs);
- }
- TEST(Abs32UtilsTest, Win32ReadFail) {
- // Make |bitness| a state to reduce repetition.
- Bitness bitness = kBit32;
- constexpr uint32_t kImageBase = 0xA0000000U; // Shared for 32-bit and 64-bit.
- std::vector<uint8_t> data(32U, 0xFFU);
- ConstBufferView image(data.data(), data.size());
- auto try_make = [&](std::deque<offset_t>&& abs32_locations, offset_t lo,
- offset_t hi) {
- Abs32RvaExtractorWin32 extractor(image, {bitness, kImageBase},
- abs32_locations, lo, hi);
- extractor.GetNext(); // Dummy call so |extractor| gets used.
- };
- // 32-bit tests.
- bitness = kBit32;
- try_make({8U, 24U}, 0U, 32U);
- EXPECT_DEATH(try_make({4U, 24U}, 32U, 0U), ""); // |lo| > |hi|.
- try_make({8U, 24U}, 0U, 12U);
- try_make({8U, 24U}, 0U, 28U);
- try_make({8U, 24U}, 8U, 32U);
- try_make({8U, 24U}, 24U, 32U);
- EXPECT_DEATH(try_make({8U, 24U}, 0U, 11U), ""); // |hi| straddles.
- EXPECT_DEATH(try_make({8U, 24U}, 26U, 32U), ""); // |lo| straddles.
- try_make({8U, 24U}, 12U, 24U);
- // 64-bit tests.
- bitness = kBit64;
- try_make({6U, 22U}, 0U, 32U);
- // |lo| > |hi|.
- EXPECT_DEATH(try_make(std::deque<offset_t>(), 32U, 31U), "");
- try_make({6U, 22U}, 0U, 14U);
- try_make({6U, 22U}, 0U, 30U);
- try_make({6U, 22U}, 6U, 32U);
- try_make({6U, 22U}, 22U, 32U);
- EXPECT_DEATH(try_make({6U, 22U}, 0U, 29U), ""); // |hi| straddles.
- EXPECT_DEATH(try_make({6U, 22U}, 7U, 32U), ""); // |lo| straddles.
- try_make({6U, 22U}, 14U, 20U);
- try_make({16U}, 16U, 24U);
- EXPECT_DEATH(try_make({16U}, 18U, 18U), ""); // |lo|, |hi| straddle.
- }
- TEST(Abs32UtilsTest, Win32Write32) {
- constexpr uint32_t kImageBase = 0xA0000000U;
- constexpr uint32_t kRvaBegin = 0x00C00000U;
- std::vector<uint8_t> data32(0x30, 0xFFU);
- MutableBufferView image32(data32.data(), data32.size());
- AbsoluteAddress addr(kBit32, kImageBase);
- TestAddressTranslator translator(data32.size(), kRvaBegin);
- Abs32WriterWin32 writer(image32, std::move(addr), translator);
- // Successful writes.
- writer.PutNext({0x02U, 0x10U});
- writer.PutNext({0x0BU, 0x21U});
- writer.PutNext({0x16U, 0x10U});
- writer.PutNext({0x2CU, 0x00U});
- // Invalid data: For simplicity, Abs32WriterWin32 simply ignores bad writes.
- // Invalid location.
- writer.PutNext({0x2DU, 0x20U});
- writer.PutNext({0x80000000U, 0x20U});
- writer.PutNext({0xFFFFFFFFU, 0x20U});
- // Invalid target.
- writer.PutNext({0x1CU, 0x00001111U});
- writer.PutNext({0x10U, 0xFFFFFF00U});
- std::vector<uint8_t> expected_data32 = ParseHexString(
- "FF FF 10 00 C0 A0 FF FF FF FF FF 21 00 C0 A0 FF "
- "FF FF FF FF FF FF 10 00 C0 A0 FF FF FF FF FF FF "
- "FF FF FF FF FF FF FF FF FF FF FF FF 00 00 C0 A0");
- EXPECT_EQ(expected_data32, data32);
- }
- TEST(Abs32UtilsTest, Win32Write64) {
- constexpr uint64_t kImageBase = 0x31415926A0000000U;
- constexpr uint32_t kRvaBegin = 0x00C00000U;
- std::vector<uint8_t> data64(0x30, 0xFFU);
- MutableBufferView image32(data64.data(), data64.size());
- AbsoluteAddress addr(kBit64, kImageBase);
- TestAddressTranslator translator(data64.size(), kRvaBegin);
- Abs32WriterWin32 writer(image32, std::move(addr), translator);
- // Successful writes.
- writer.PutNext({0x02U, 0x10U});
- writer.PutNext({0x0BU, 0x21U});
- writer.PutNext({0x16U, 0x10U});
- writer.PutNext({0x28U, 0x00U});
- // Invalid data: For simplicity, Abs32WriterWin32 simply ignores bad writes.
- // Invalid location.
- writer.PutNext({0x29U, 0x20U});
- writer.PutNext({0x80000000U, 0x20U});
- writer.PutNext({0xFFFFFFFFU, 0x20U});
- // Invalid target.
- writer.PutNext({0x1CU, 0x00001111U});
- writer.PutNext({0x10U, 0xFFFFFF00U});
- std::vector<uint8_t> expected_data64 = ParseHexString(
- "FF FF 10 00 C0 A0 26 59 41 31 FF 21 00 C0 A0 26 "
- "59 41 31 FF FF FF 10 00 C0 A0 26 59 41 31 FF FF "
- "FF FF FF FF FF FF FF FF 00 00 C0 A0 26 59 41 31");
- EXPECT_EQ(expected_data64, data64);
- }
- TEST(Abs32UtilsTest, RemoveUntranslatableAbs32) {
- Bitness kBitness = kBit32;
- uint64_t kImageBase = 0x2BCD0000;
- // Valid RVAs: [0x00001A00, 0x00001A28) and [0x00003A00, 0x00004000).
- // Valid AVAs: [0x2BCD1A00, 0x2BCD1A28) and [0x2BCD3A00, 0x2BCD4000).
- // Notice that the second section has has dangling RVA.
- AddressTranslator translator;
- ASSERT_EQ(AddressTranslator::kSuccess,
- translator.Initialize(
- {{0x04, +0x28, 0x1A00, +0x28}, {0x30, +0x30, 0x3A00, +0x600}}));
- std::vector<uint8_t> data = ParseHexString(
- "FF FF FF FF 0B 3A CD 2B 00 00 00 04 3A CD 2B 00 "
- "FC 3F CD 2B 14 1A CD 2B 44 00 00 00 CC 00 00 00 "
- "00 00 55 00 00 00 1E 1A CD 2B 00 99 FF FF FF FF "
- "10 3A CD 2B 22 00 00 00 00 00 00 11 00 00 00 00 "
- "66 00 00 00 28 1A CD 2B 00 00 CD 2B 27 1A CD 2B "
- "FF 39 CD 2B 00 00 00 00 18 1A CD 2B 00 00 00 00 "
- "FF FF FF FF FF FF FF FF");
- MutableBufferView image(data.data(), data.size());
- const offset_t kAbs1 = 0x04; // a:2BCD3A0B = r:3A0B = o:3B
- const offset_t kAbs2 = 0x0B; // a:2BCD3A04 = r:3A04 = o:34
- const offset_t kAbs3 = 0x10; // a:2BCD3FFF = r:3FFF (dangling)
- const offset_t kAbs4 = 0x14; // a:2BCD1A14 = r:1A14 = o:18
- const offset_t kAbs5 = 0x26; // a:2BCD1A1E = r:1A1E = o:22
- const offset_t kAbs6 = 0x30; // a:2BCD3A10 = r:3A10 = 0x40
- const offset_t kAbs7 = 0x44; // a:2BCD1A28 = r:1A28 (bad: sentinel)
- const offset_t kAbs8 = 0x48; // a:2BCD0000 = r:0000 (bad: not covered)
- const offset_t kAbs9 = 0x4C; // a:2BCD1A27 = r:1A27 = 0x2B
- const offset_t kAbsA = 0x50; // a:2BCD39FF (bad: not covered)
- const offset_t kAbsB = 0x54; // a:00000000 (bad: underflow)
- const offset_t kAbsC = 0x58; // a:2BCD1A18 = r:1A18 = 0x1C
- std::deque<offset_t> locations = {kAbs1, kAbs2, kAbs3, kAbs4, kAbs5, kAbs6,
- kAbs7, kAbs8, kAbs9, kAbsA, kAbsB, kAbsC};
- std::deque<offset_t> exp_locations = {kAbs1, kAbs2, kAbs3, kAbs4,
- kAbs5, kAbs6, kAbs9, kAbsC};
- size_t exp_num_removed = locations.size() - exp_locations.size();
- size_t num_removed = RemoveUntranslatableAbs32(image, {kBitness, kImageBase},
- translator, &locations);
- EXPECT_EQ(exp_num_removed, num_removed);
- EXPECT_EQ(exp_locations, locations);
- }
- TEST(Abs32UtilsTest, RemoveOverlappingAbs32Locations) {
- // Make |width| a state to reduce repetition.
- uint32_t width = WidthOf(kBit32);
- auto run_test = [&width](const std::deque<offset_t>& expected_locations,
- std::deque<offset_t>&& locations) {
- ASSERT_TRUE(std::is_sorted(locations.begin(), locations.end()));
- size_t expected_removals = locations.size() - expected_locations.size();
- size_t removals = RemoveOverlappingAbs32Locations(width, &locations);
- EXPECT_EQ(expected_removals, removals);
- EXPECT_EQ(expected_locations, locations);
- };
- // 32-bit tests.
- width = WidthOf(kBit32);
- run_test(std::deque<offset_t>(), std::deque<offset_t>());
- run_test({4U}, {4U});
- run_test({4U, 10U}, {4U, 10U});
- run_test({4U, 8U}, {4U, 8U});
- run_test({4U}, {4U, 7U});
- run_test({4U}, {4U, 4U});
- run_test({4U, 8U}, {4U, 7U, 8U});
- run_test({4U, 10U}, {4U, 7U, 10U});
- run_test({4U, 9U}, {4U, 9U, 10U});
- run_test({3U}, {3U, 5U, 6U});
- run_test({3U, 7U}, {3U, 4U, 5U, 6U, 7U, 8U, 9U, 10U});
- run_test({3U, 7U, 11U}, {3U, 4U, 5U, 6U, 7U, 8U, 9U, 10U, 11U, 12U});
- run_test({4U, 8U, 12U}, {4U, 6U, 8U, 10U, 12U});
- run_test({4U, 8U, 12U, 16U}, {4U, 8U, 12U, 16U});
- run_test({4U, 8U, 12U}, {4U, 8U, 9U, 12U});
- run_test({4U}, {4U, 4U, 4U, 4U, 4U, 4U});
- run_test({3U}, {3U, 4U, 4U, 4U, 5U, 5U});
- run_test({3U, 7U}, {3U, 4U, 4U, 4U, 7U, 7U, 8U});
- run_test({10U, 20U, 30U, 40U}, {10U, 20U, 22U, 22U, 30U, 40U});
- run_test({1000000U, 1000004U}, {1000000U, 1000004U});
- run_test({1000000U}, {1000000U, 1000002U});
- // 64-bit tests.
- width = WidthOf(kBit64);
- run_test(std::deque<offset_t>(), std::deque<offset_t>());
- run_test({4U}, {4U});
- run_test({4U, 20U}, {4U, 20U});
- run_test({4U, 12U}, {4U, 12U});
- run_test({4U}, {4U, 11U});
- run_test({4U}, {4U, 5U});
- run_test({4U}, {4U, 4U});
- run_test({4U, 12U, 20U}, {4U, 12U, 20U});
- run_test({1U, 9U, 17U}, {1U, 9U, 17U});
- run_test({1U, 17U}, {1U, 8U, 17U});
- run_test({1U, 10U}, {1U, 10U, 17U});
- run_test({3U, 11U}, {3U, 4U, 5U, 6U, 7U, 8U, 9U, 10U, 11U, 12U});
- run_test({4U, 12U}, {4U, 6U, 8U, 10U, 12U});
- run_test({4U, 12U}, {4U, 12U, 16U});
- run_test({4U, 12U, 20U, 28U}, {4U, 12U, 20U, 28U});
- run_test({4U}, {4U, 4U, 4U, 4U, 5U, 5U});
- run_test({3U, 11U}, {3U, 4U, 4U, 4U, 11U, 11U, 12U});
- run_test({10U, 20U, 30U, 40U}, {10U, 20U, 22U, 22U, 30U, 40U});
- run_test({1000000U, 1000008U}, {1000000U, 1000008U});
- run_test({1000000U}, {1000000U, 1000004U});
- }
- } // namespace zucchini
|