/* * Copyright (C) 2016 The Android Open Source Project * * Permission is hereby granted, free of charge, to any person * obtaining a copy of this software and associated documentation * files (the "Software"), to deal in the Software without * restriction, including without limitation the rights to use, copy, * modify, merge, publish, distribute, sublicense, and/or sell copies * of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include #include #include #include #include "avb_unittest_util.h" #include "fake_avb_ops.h" namespace avb { class AvbSlotVerifyTest : public BaseAvbToolTest { public: AvbSlotVerifyTest() {} virtual void SetUp() override { BaseAvbToolTest::SetUp(); ops_.set_partition_dir(testdir_); ops_.set_stored_rollback_indexes({{0, 0}, {1, 0}, {2, 0}, {3, 0}}); ops_.set_stored_is_device_unlocked(false); } void CmdlineWithHashtreeVerification(bool hashtree_verification_on); FakeAvbOps ops_; }; TEST_F(AvbSlotVerifyTest, Basic) { GenerateVBMetaImage("vbmeta_a.img", "SHA256_RSA2048", 0, base::FilePath("test/data/testkey_rsa2048.pem"), "--internal_release_string \"\""); ops_.set_expected_public_key( PublicKeyAVB(base::FilePath("test/data/testkey_rsa2048.pem"))); AvbSlotVerifyData* slot_data = NULL; const char* requested_partitions[] = {"boot", NULL}; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_OK, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); EXPECT_EQ( "androidboot.vbmeta.device=PARTUUID=1234-fake-guid-for:vbmeta_a " "androidboot.vbmeta.avb_version=1.0 " "androidboot.vbmeta.device_state=locked " "androidboot.vbmeta.hash_alg=sha256 androidboot.vbmeta.size=1152 " "androidboot.vbmeta.digest=" "4161a7e655eabe16c3fe714de5d43736e7c0a190cf08d36c946d2509ce071e4d", std::string(slot_data->cmdline)); avb_slot_verify_data_free(slot_data); } TEST_F(AvbSlotVerifyTest, BasicSha512) { GenerateVBMetaImage("vbmeta_a.img", "SHA512_RSA2048", 0, base::FilePath("test/data/testkey_rsa2048.pem"), "--internal_release_string \"\""); ops_.set_expected_public_key( PublicKeyAVB(base::FilePath("test/data/testkey_rsa2048.pem"))); AvbSlotVerifyData* slot_data = NULL; const char* requested_partitions[] = {"boot", NULL}; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_OK, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); EXPECT_EQ( "androidboot.vbmeta.device=PARTUUID=1234-fake-guid-for:vbmeta_a " "androidboot.vbmeta.avb_version=1.0 " "androidboot.vbmeta.device_state=locked " "androidboot.vbmeta.hash_alg=sha512 androidboot.vbmeta.size=1152 " "androidboot.vbmeta.digest=" "cb913d2f1a884f4e04c1db5bb181f3133fd16ac02fb367a20ef0776c0b07b3656ad1f081" "e01932cf70f38b8960877470b448f1588dff022808387cc52fa77e77", std::string(slot_data->cmdline)); avb_slot_verify_data_free(slot_data); } TEST_F(AvbSlotVerifyTest, BasicUnlocked) { GenerateVBMetaImage("vbmeta_a.img", "SHA256_RSA2048", 0, base::FilePath("test/data/testkey_rsa2048.pem"), "--internal_release_string \"\""); ops_.set_expected_public_key( PublicKeyAVB(base::FilePath("test/data/testkey_rsa2048.pem"))); ops_.set_stored_is_device_unlocked(true); AvbSlotVerifyData* slot_data = NULL; const char* requested_partitions[] = {"boot", NULL}; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_OK, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); EXPECT_EQ( "androidboot.vbmeta.device=PARTUUID=1234-fake-guid-for:vbmeta_a " "androidboot.vbmeta.avb_version=1.0 " "androidboot.vbmeta.device_state=unlocked " "androidboot.vbmeta.hash_alg=sha256 androidboot.vbmeta.size=1152 " "androidboot.vbmeta.digest=" "4161a7e655eabe16c3fe714de5d43736e7c0a190cf08d36c946d2509ce071e4d", std::string(slot_data->cmdline)); avb_slot_verify_data_free(slot_data); } TEST_F(AvbSlotVerifyTest, SlotDataIsCorrect) { GenerateVBMetaImage("vbmeta_a.img", "SHA256_RSA2048", 0, base::FilePath("test/data/testkey_rsa2048.pem"), "--internal_release_string \"\""); ops_.set_expected_public_key( PublicKeyAVB(base::FilePath("test/data/testkey_rsa2048.pem"))); AvbSlotVerifyData* slot_data = NULL; const char* requested_partitions[] = {"boot", NULL}; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_OK, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); avb_slot_verify_data_free(slot_data); } TEST_F(AvbSlotVerifyTest, WrongPublicKey) { GenerateVBMetaImage("vbmeta_a.img", "SHA256_RSA2048", 0, base::FilePath("test/data/testkey_rsa2048.pem"), "--internal_release_string \"\""); AvbSlotVerifyData* slot_data = NULL; const char* requested_partitions[] = {"boot", NULL}; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_PUBLIC_KEY_REJECTED, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_EQ(nullptr, slot_data); EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_PUBLIC_KEY_REJECTED, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", true /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); avb_slot_verify_data_free(slot_data); } TEST_F(AvbSlotVerifyTest, NoImage) { const char* requested_partitions[] = {"boot", NULL}; AvbSlotVerifyData* slot_data = NULL; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_IO, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_EQ(nullptr, slot_data); } TEST_F(AvbSlotVerifyTest, UnsignedVBMeta) { GenerateVBMetaImage("vbmeta_a.img", "", 0, base::FilePath(""), "--internal_release_string \"\""); AvbSlotVerifyData* slot_data = NULL; const char* requested_partitions[] = {"boot", NULL}; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_VERIFICATION, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_EQ(nullptr, slot_data); EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_VERIFICATION, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", true /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); avb_slot_verify_data_free(slot_data); } TEST_F(AvbSlotVerifyTest, CorruptedImage) { GenerateVBMetaImage("vbmeta_a.img", "SHA256_RSA2048", 0, base::FilePath("test/data/testkey_rsa2048.pem"), "--internal_release_string \"\""); // Corrupt four bytes of data in the end of the image. Since the aux // data is at the end and this data is signed, this will change the // value of the computed hash. uint8_t corrupt_data[4] = {0xff, 0xff, 0xff, 0xff}; EXPECT_EQ(AVB_IO_RESULT_OK, ops_.avb_ops()->write_to_partition(ops_.avb_ops(), "vbmeta_a", -4, // offset from end sizeof corrupt_data, corrupt_data)); AvbSlotVerifyData* slot_data = NULL; const char* requested_partitions[] = {"boot", NULL}; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_VERIFICATION, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_EQ(nullptr, slot_data); EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_VERIFICATION, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", true /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); avb_slot_verify_data_free(slot_data); } TEST_F(AvbSlotVerifyTest, CorruptedMetadata) { GenerateVBMetaImage("vbmeta_a.img", "SHA256_RSA2048", 0, base::FilePath("test/data/testkey_rsa2048.pem"), "--internal_release_string \"\""); // Corrupt four bytes of data in the beginning of the image. Unlike // the CorruptedImage test-case above (which is valid metadata) this // will make the metadata invalid and render the slot unbootable // even if the device is unlocked. Specifically no AvbSlotVerifyData // is returned. uint8_t corrupt_data[4] = {0xff, 0xff, 0xff, 0xff}; EXPECT_EQ(AVB_IO_RESULT_OK, ops_.avb_ops()->write_to_partition(ops_.avb_ops(), "vbmeta_a", 0, // offset: beginning sizeof corrupt_data, corrupt_data)); AvbSlotVerifyData* slot_data = NULL; const char* requested_partitions[] = {"boot", NULL}; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_INVALID_METADATA, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_EQ(nullptr, slot_data); } TEST_F(AvbSlotVerifyTest, RollbackIndex) { GenerateVBMetaImage("vbmeta_a.img", "SHA256_RSA2048", 42, base::FilePath("test/data/testkey_rsa2048.pem"), "--internal_release_string \"\""); ops_.set_expected_public_key( PublicKeyAVB(base::FilePath("test/data/testkey_rsa2048.pem"))); AvbSlotVerifyData* slot_data = NULL; const char* requested_partitions[] = {"boot", NULL}; // First try with 42 as the stored rollback index - this should // succeed since the image rollback index is 42 (as set above). ops_.set_stored_rollback_indexes({{0, 42}}); EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_OK, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); avb_slot_verify_data_free(slot_data); // Then try with 43 for the stored rollback index - this should fail // because the image has rollback index 42 which is less than 43. ops_.set_stored_rollback_indexes({{0, 43}}); EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_ROLLBACK_INDEX, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_EQ(nullptr, slot_data); EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_ROLLBACK_INDEX, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", true /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); avb_slot_verify_data_free(slot_data); } TEST_F(AvbSlotVerifyTest, HashDescriptorInVBMeta) { const size_t boot_partition_size = 16 * 1024 * 1024; const size_t boot_image_size = 5 * 1024 * 1024; base::FilePath boot_path = GenerateImage("boot_a.img", boot_image_size); EXPECT_COMMAND( 0, "./avbtool add_hash_footer" " --image %s" " --rollback_index 0" " --partition_name boot" " --partition_size %zd" " --kernel_cmdline 'cmdline in hash footer $(ANDROID_SYSTEM_PARTUUID)'" " --salt deadbeef" " --internal_release_string \"\"", boot_path.value().c_str(), boot_partition_size); GenerateVBMetaImage( "vbmeta_a.img", "SHA256_RSA2048", 4, base::FilePath("test/data/testkey_rsa2048.pem"), base::StringPrintf( "--include_descriptors_from_image %s" " --kernel_cmdline 'cmdline in vbmeta $(ANDROID_BOOT_PARTUUID)'" " --internal_release_string \"\"", boot_path.value().c_str())); EXPECT_EQ( "Minimum libavb version: 1.0\n" "Header Block: 256 bytes\n" "Authentication Block: 320 bytes\n" "Auxiliary Block: 896 bytes\n" "Algorithm: SHA256_RSA2048\n" "Rollback Index: 4\n" "Flags: 0\n" "Release String: ''\n" "Descriptors:\n" " Kernel Cmdline descriptor:\n" " Flags: 0\n" " Kernel Cmdline: 'cmdline in vbmeta " "$(ANDROID_BOOT_PARTUUID)'\n" " Hash descriptor:\n" " Image Size: 5242880 bytes\n" " Hash Algorithm: sha256\n" " Partition Name: boot\n" " Salt: deadbeef\n" " Digest: " "184cb36243adb8b87d2d8c4802de32125fe294ec46753d732144ee65df68a23d\n" " Kernel Cmdline descriptor:\n" " Flags: 0\n" " Kernel Cmdline: 'cmdline in hash footer " "$(ANDROID_SYSTEM_PARTUUID)'\n", InfoImage(vbmeta_image_path_)); EXPECT_COMMAND(0, "./avbtool erase_footer" " --image %s", boot_path.value().c_str()); // With no footer, 'avbtool info_image' should fail (exit status 1). EXPECT_COMMAND( 1, "./avbtool info_image --image %s", boot_path.value().c_str()); ops_.set_expected_public_key( PublicKeyAVB(base::FilePath("test/data/testkey_rsa2048.pem"))); AvbSlotVerifyData* slot_data = NULL; const char* requested_partitions[] = {"boot", NULL}; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_OK, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); // Now verify the slot data. The vbmeta data should match our // vbmeta_image_ member. EXPECT_EQ(size_t(1), slot_data->num_vbmeta_images); EXPECT_EQ("vbmeta", std::string(slot_data->vbmeta_images[0].partition_name)); EXPECT_EQ(slot_data->vbmeta_images[0].vbmeta_size, vbmeta_image_.size()); EXPECT_EQ(0, memcmp(vbmeta_image_.data(), slot_data->vbmeta_images[0].vbmeta_data, slot_data->vbmeta_images[0].vbmeta_size)); // The boot image data should match what is generated above with // GenerateImage(). EXPECT_EQ(size_t(1), slot_data->num_loaded_partitions); EXPECT_EQ("boot", std::string(slot_data->loaded_partitions[0].partition_name)); EXPECT_EQ(boot_image_size, slot_data->loaded_partitions[0].data_size); for (size_t n = 0; n < slot_data->loaded_partitions[0].data_size; n++) { EXPECT_EQ(slot_data->loaded_partitions[0].data[n], uint8_t(n)); } // This should match the two cmdlines with a space (U+0020) between // them and the $(ANDROID_SYSTEM_PARTUUID) and // $(ANDROID_BOOT_PARTUUID) variables replaced. EXPECT_EQ( "cmdline in vbmeta 1234-fake-guid-for:boot_a cmdline in hash footer " "1234-fake-guid-for:system_a " "androidboot.vbmeta.device=PARTUUID=1234-fake-guid-for:vbmeta_a " "androidboot.vbmeta.avb_version=1.0 " "androidboot.vbmeta.device_state=locked " "androidboot.vbmeta.hash_alg=sha256 androidboot.vbmeta.size=1472 " "androidboot.vbmeta.digest=" "34cdb59b955aa35d4da97701f304fabf7392eecca8c50ff1a0b7b6e1c9aaa1b8", std::string(slot_data->cmdline)); EXPECT_EQ(4UL, slot_data->rollback_indexes[0]); for (size_t n = 1; n < AVB_MAX_NUMBER_OF_ROLLBACK_INDEX_LOCATIONS; n++) { EXPECT_EQ(0UL, slot_data->rollback_indexes[n]); } avb_slot_verify_data_free(slot_data); } TEST_F(AvbSlotVerifyTest, HashDescriptorInVBMetaCorruptBoot) { size_t boot_partition_size = 16 * 1024 * 1024; base::FilePath boot_path = GenerateImage("boot_a.img", 5 * 1024 * 1024); const char* requested_partitions[] = {"boot", NULL}; EXPECT_COMMAND(0, "./avbtool add_hash_footer" " --image %s" " --rollback_index 0" " --partition_name boot" " --partition_size %zd" " --salt deadbeef" " --internal_release_string \"\"", boot_path.value().c_str(), boot_partition_size); GenerateVBMetaImage("vbmeta_a.img", "SHA256_RSA2048", 0, base::FilePath("test/data/testkey_rsa2048.pem"), base::StringPrintf("--include_descriptors_from_image %s" " --internal_release_string \"\"", boot_path.value().c_str())); EXPECT_COMMAND(0, "./avbtool erase_footer" " --image %s", boot_path.value().c_str()); ops_.set_expected_public_key( PublicKeyAVB(base::FilePath("test/data/testkey_rsa2048.pem"))); // So far, so good. AvbSlotVerifyData* slot_data = NULL; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_OK, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); avb_slot_verify_data_free(slot_data); // Now corrupt boot_a.img and expect verification error. uint8_t corrupt_data[4] = {0xff, 0xff, 0xff, 0xff}; EXPECT_EQ(AVB_IO_RESULT_OK, ops_.avb_ops()->write_to_partition(ops_.avb_ops(), "boot_a", 1024 * 1024, // offset: 1 MiB sizeof corrupt_data, corrupt_data)); EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_VERIFICATION, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_EQ(nullptr, slot_data); EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_VERIFICATION, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", true /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); avb_slot_verify_data_free(slot_data); } TEST_F(AvbSlotVerifyTest, HashDescriptorInChainedPartition) { size_t boot_partition_size = 16 * 1024 * 1024; const size_t boot_image_size = 5 * 1024 * 1024; base::FilePath boot_path = GenerateImage("boot_a.img", boot_image_size); const char* requested_partitions[] = {"boot", NULL}; EXPECT_COMMAND(0, "./avbtool add_hash_footer" " --image %s" " --kernel_cmdline 'cmdline2 in hash footer'" " --rollback_index 12" " --partition_name boot" " --partition_size %zd" " --algorithm SHA256_RSA4096" " --key test/data/testkey_rsa4096.pem" " --salt deadbeef" " --internal_release_string \"\"", boot_path.value().c_str(), boot_partition_size); base::FilePath pk_path = testdir_.Append("testkey_rsa4096.avbpubkey"); EXPECT_COMMAND( 0, "./avbtool extract_public_key --key test/data/testkey_rsa4096.pem" " --output %s", pk_path.value().c_str()); GenerateVBMetaImage( "vbmeta_a.img", "SHA256_RSA2048", 11, base::FilePath("test/data/testkey_rsa2048.pem"), base::StringPrintf("--chain_partition boot:1:%s" " --kernel_cmdline 'cmdline2 in vbmeta'" " --internal_release_string \"\"", pk_path.value().c_str())); EXPECT_EQ( "Minimum libavb version: 1.0\n" "Header Block: 256 bytes\n" "Authentication Block: 320 bytes\n" "Auxiliary Block: 1728 bytes\n" "Algorithm: SHA256_RSA2048\n" "Rollback Index: 11\n" "Flags: 0\n" "Release String: ''\n" "Descriptors:\n" " Chain Partition descriptor:\n" " Partition Name: boot\n" " Rollback Index Location: 1\n" " Public key (sha1): " "2597c218aae470a130f61162feaae70afd97f011\n" " Kernel Cmdline descriptor:\n" " Flags: 0\n" " Kernel Cmdline: 'cmdline2 in vbmeta'\n", InfoImage(vbmeta_image_path_)); EXPECT_EQ( "Footer version: 1.0\n" "Image size: 16777216 bytes\n" "Original image size: 5242880 bytes\n" "VBMeta offset: 5242880\n" "VBMeta size: 2112 bytes\n" "--\n" "Minimum libavb version: 1.0\n" "Header Block: 256 bytes\n" "Authentication Block: 576 bytes\n" "Auxiliary Block: 1280 bytes\n" "Algorithm: SHA256_RSA4096\n" "Rollback Index: 12\n" "Flags: 0\n" "Release String: ''\n" "Descriptors:\n" " Hash descriptor:\n" " Image Size: 5242880 bytes\n" " Hash Algorithm: sha256\n" " Partition Name: boot\n" " Salt: deadbeef\n" " Digest: " "184cb36243adb8b87d2d8c4802de32125fe294ec46753d732144ee65df68a23d\n" " Kernel Cmdline descriptor:\n" " Flags: 0\n" " Kernel Cmdline: 'cmdline2 in hash footer'\n", InfoImage(boot_path)); ops_.set_expected_public_key( PublicKeyAVB(base::FilePath("test/data/testkey_rsa2048.pem"))); AvbSlotVerifyData* slot_data = NULL; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_OK, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); // Now verify the slot data. We should have two vbmeta // structs. Verify both of them. Note that the A/B suffix isn't // appended. EXPECT_EQ(size_t(2), slot_data->num_vbmeta_images); EXPECT_EQ("vbmeta", std::string(slot_data->vbmeta_images[0].partition_name)); EXPECT_EQ(slot_data->vbmeta_images[0].vbmeta_size, vbmeta_image_.size()); EXPECT_EQ(0, memcmp(vbmeta_image_.data(), slot_data->vbmeta_images[0].vbmeta_data, slot_data->vbmeta_images[0].vbmeta_size)); // And for the second vbmeta struct we check that the descriptors // match the info_image output from above. EXPECT_EQ("boot", std::string(slot_data->vbmeta_images[1].partition_name)); const AvbDescriptor** descriptors = avb_descriptor_get_all(slot_data->vbmeta_images[1].vbmeta_data, slot_data->vbmeta_images[1].vbmeta_size, NULL); EXPECT_NE(nullptr, descriptors); AvbHashDescriptor hash_desc; EXPECT_EQ(true, avb_hash_descriptor_validate_and_byteswap( ((AvbHashDescriptor*)descriptors[0]), &hash_desc)); const uint8_t* desc_end = reinterpret_cast(descriptors[0]) + sizeof(AvbHashDescriptor); uint64_t o = 0; EXPECT_EQ("boot", std::string(reinterpret_cast(desc_end + o), hash_desc.partition_name_len)); o += hash_desc.partition_name_len; EXPECT_EQ("deadbeef", mem_to_hexstring(desc_end + o, hash_desc.salt_len)); o += hash_desc.salt_len; EXPECT_EQ("184cb36243adb8b87d2d8c4802de32125fe294ec46753d732144ee65df68a23d", mem_to_hexstring(desc_end + o, hash_desc.digest_len)); AvbKernelCmdlineDescriptor cmdline_desc; EXPECT_EQ(true, avb_kernel_cmdline_descriptor_validate_and_byteswap( ((AvbKernelCmdlineDescriptor*)descriptors[1]), &cmdline_desc)); desc_end = reinterpret_cast(descriptors[1]) + sizeof(AvbKernelCmdlineDescriptor); EXPECT_EQ("cmdline2 in hash footer", std::string(reinterpret_cast(desc_end), cmdline_desc.kernel_cmdline_length)); avb_free(descriptors); // The boot image data should match what is generated above with // GenerateImage(). EXPECT_EQ(size_t(1), slot_data->num_loaded_partitions); EXPECT_EQ("boot", std::string(slot_data->loaded_partitions[0].partition_name)); EXPECT_EQ(boot_image_size, slot_data->loaded_partitions[0].data_size); for (size_t n = 0; n < slot_data->loaded_partitions[0].data_size; n++) { EXPECT_EQ(slot_data->loaded_partitions[0].data[n], uint8_t(n)); } // This should match the two cmdlines with a space (U+0020) between them. EXPECT_EQ( "cmdline2 in hash footer cmdline2 in vbmeta " "androidboot.vbmeta.device=PARTUUID=1234-fake-guid-for:vbmeta_a " "androidboot.vbmeta.avb_version=1.0 " "androidboot.vbmeta.device_state=locked " "androidboot.vbmeta.hash_alg=sha256 androidboot.vbmeta.size=4416 " "androidboot.vbmeta.digest=" "4a45faa9adfeb94e9154fe682c11fef1a1a3d829b67cbf1a12ac7f0aa4f8e2e4", std::string(slot_data->cmdline)); EXPECT_EQ(11UL, slot_data->rollback_indexes[0]); EXPECT_EQ(12UL, slot_data->rollback_indexes[1]); for (size_t n = 2; n < AVB_MAX_NUMBER_OF_ROLLBACK_INDEX_LOCATIONS; n++) { EXPECT_EQ(0UL, slot_data->rollback_indexes[n]); } avb_slot_verify_data_free(slot_data); } TEST_F(AvbSlotVerifyTest, HashDescriptorInChainedPartitionCorruptBoot) { size_t boot_partition_size = 16 * 1024 * 1024; base::FilePath boot_path = GenerateImage("boot_a.img", 5 * 1024 * 1024); const char* requested_partitions[] = {"boot", NULL}; EXPECT_COMMAND(0, "./avbtool add_hash_footer" " --image %s" " --rollback_index 0" " --partition_name boot" " --partition_size %zd" " --algorithm SHA256_RSA4096" " --key test/data/testkey_rsa4096.pem" " --salt deadbeef" " --internal_release_string \"\"", boot_path.value().c_str(), boot_partition_size); base::FilePath pk_path = testdir_.Append("testkey_rsa4096.avbpubkey"); EXPECT_COMMAND( 0, "./avbtool extract_public_key --key test/data/testkey_rsa4096.pem" " --output %s", pk_path.value().c_str()); GenerateVBMetaImage("vbmeta_a.img", "SHA256_RSA2048", 0, base::FilePath("test/data/testkey_rsa2048.pem"), base::StringPrintf("--chain_partition boot:1:%s" " --internal_release_string \"\"", pk_path.value().c_str())); ops_.set_expected_public_key( PublicKeyAVB(base::FilePath("test/data/testkey_rsa2048.pem"))); AvbSlotVerifyData* slot_data = NULL; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_OK, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); avb_slot_verify_data_free(slot_data); // Now corrupt boot_a.img and expect verification error. uint8_t corrupt_data[4] = {0xff, 0xff, 0xff, 0xff}; EXPECT_EQ(AVB_IO_RESULT_OK, ops_.avb_ops()->write_to_partition(ops_.avb_ops(), "boot_a", 1024 * 1024, // offset: 1 MiB sizeof corrupt_data, corrupt_data)); EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_VERIFICATION, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_EQ(nullptr, slot_data); EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_VERIFICATION, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", true /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); avb_slot_verify_data_free(slot_data); } TEST_F(AvbSlotVerifyTest, HashDescriptorInChainedPartitionKeyMismatch) { size_t boot_partition_size = 16 * 1024 * 1024; base::FilePath boot_path = GenerateImage("boot_a.img", 5 * 1024 * 1024); const char* requested_partitions[] = {"boot", NULL}; // Use different key to sign vbmeta in boot_a (we use the 8192 bit // key) than what's in the chained partition descriptor (which is // the 4096 bit key) and expect // AVB_SLOT_VERIFY_RESULT_ERROR_PUBLIC_KEY_REJECTED. EXPECT_COMMAND(0, "./avbtool add_hash_footer" " --image %s" " --rollback_index 0" " --partition_name boot" " --partition_size %zd" " --algorithm SHA256_RSA8192" " --key test/data/testkey_rsa8192.pem" " --salt deadbeef" " --internal_release_string \"\"", boot_path.value().c_str(), boot_partition_size); base::FilePath pk_path = testdir_.Append("testkey_rsa4096.avbpubkey"); EXPECT_COMMAND( 0, "./avbtool extract_public_key --key test/data/testkey_rsa4096.pem" " --output %s", pk_path.value().c_str()); GenerateVBMetaImage("vbmeta_a.img", "SHA256_RSA2048", 0, base::FilePath("test/data/testkey_rsa2048.pem"), base::StringPrintf("--chain_partition boot:1:%s" " --internal_release_string \"\"", pk_path.value().c_str())); ops_.set_expected_public_key( PublicKeyAVB(base::FilePath("test/data/testkey_rsa2048.pem"))); AvbSlotVerifyData* slot_data = NULL; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_PUBLIC_KEY_REJECTED, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_EQ(nullptr, slot_data); EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_PUBLIC_KEY_REJECTED, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", true /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); avb_slot_verify_data_free(slot_data); } TEST_F(AvbSlotVerifyTest, HashDescriptorInChainedPartitionRollbackIndexFail) { size_t boot_partition_size = 16 * 1024 * 1024; base::FilePath boot_path = GenerateImage("boot_a.img", 5 * 1024 * 1024); const char* requested_partitions[] = {"boot", NULL}; EXPECT_COMMAND(0, "./avbtool add_hash_footer" " --image %s" " --rollback_index 10" " --partition_name boot" " --partition_size %zd" " --algorithm SHA256_RSA4096" " --key test/data/testkey_rsa4096.pem" " --salt deadbeef" " --internal_release_string \"\"", boot_path.value().c_str(), boot_partition_size); base::FilePath pk_path = testdir_.Append("testkey_rsa4096.avbpubkey"); EXPECT_COMMAND( 0, "./avbtool extract_public_key --key test/data/testkey_rsa4096.pem" " --output %s", pk_path.value().c_str()); GenerateVBMetaImage("vbmeta_a.img", "SHA256_RSA2048", 110, base::FilePath("test/data/testkey_rsa2048.pem"), base::StringPrintf("--chain_partition boot:1:%s" " --internal_release_string \"\"", pk_path.value().c_str())); ops_.set_expected_public_key( PublicKeyAVB(base::FilePath("test/data/testkey_rsa2048.pem"))); AvbSlotVerifyData* slot_data = NULL; // Both images (vbmeta_a and boot_a) have rollback index 10 and 11 // so it should work if the stored rollback indexes are 0 and 0. ops_.set_stored_rollback_indexes({{0, 0}, {1, 0}}); EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_OK, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); avb_slot_verify_data_free(slot_data); // Check failure if we set the stored rollback index of the chained // partition to 20 (see AvbSlotVerifyTest.RollbackIndex above // where we test rollback index checks for the vbmeta partition). ops_.set_stored_rollback_indexes({{0, 0}, {1, 20}}); EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_ROLLBACK_INDEX, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_EQ(nullptr, slot_data); EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_ROLLBACK_INDEX, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", true /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); avb_slot_verify_data_free(slot_data); // Check failure if there is no rollback index slot 1 - in that case // we expect an I/O error since ops->read_rollback_index() will // fail. ops_.set_stored_rollback_indexes({{0, 0}}); EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_IO, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_EQ(nullptr, slot_data); } TEST_F(AvbSlotVerifyTest, ChainedPartitionNoSlots) { size_t boot_partition_size = 16 * 1024 * 1024; const size_t boot_image_size = 5 * 1024 * 1024; base::FilePath boot_path = GenerateImage("boot.img", boot_image_size); const char* requested_partitions[] = {"boot", NULL}; EXPECT_COMMAND(0, "./avbtool add_hash_footer" " --image %s" " --kernel_cmdline 'cmdline2 in hash footer'" " --rollback_index 12" " --partition_name boot" " --partition_size %zd" " --algorithm SHA256_RSA4096" " --key test/data/testkey_rsa4096.pem" " --salt deadbeef" " --internal_release_string \"\"", boot_path.value().c_str(), boot_partition_size); base::FilePath pk_path = testdir_.Append("testkey_rsa4096.avbpubkey"); EXPECT_COMMAND( 0, "./avbtool extract_public_key --key test/data/testkey_rsa4096.pem" " --output %s", pk_path.value().c_str()); GenerateVBMetaImage( "vbmeta.img", "SHA256_RSA2048", 11, base::FilePath("test/data/testkey_rsa2048.pem"), base::StringPrintf("--chain_partition boot:1:%s" " --kernel_cmdline 'cmdline2 in vbmeta'" " --internal_release_string \"\"", pk_path.value().c_str())); EXPECT_EQ( "Minimum libavb version: 1.0\n" "Header Block: 256 bytes\n" "Authentication Block: 320 bytes\n" "Auxiliary Block: 1728 bytes\n" "Algorithm: SHA256_RSA2048\n" "Rollback Index: 11\n" "Flags: 0\n" "Release String: ''\n" "Descriptors:\n" " Chain Partition descriptor:\n" " Partition Name: boot\n" " Rollback Index Location: 1\n" " Public key (sha1): " "2597c218aae470a130f61162feaae70afd97f011\n" " Kernel Cmdline descriptor:\n" " Flags: 0\n" " Kernel Cmdline: 'cmdline2 in vbmeta'\n", InfoImage(vbmeta_image_path_)); ops_.set_expected_public_key( PublicKeyAVB(base::FilePath("test/data/testkey_rsa2048.pem"))); AvbSlotVerifyData* slot_data = NULL; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_OK, avb_slot_verify(ops_.avb_ops(), requested_partitions, "", false /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); // Now verify the slot data. The first vbmeta data should match our // vbmeta_image_ member and the second one should be for the 'boot' // partition. EXPECT_EQ(size_t(2), slot_data->num_vbmeta_images); EXPECT_EQ("vbmeta", std::string(slot_data->vbmeta_images[0].partition_name)); EXPECT_EQ(slot_data->vbmeta_images[0].vbmeta_size, vbmeta_image_.size()); EXPECT_EQ(0, memcmp(vbmeta_image_.data(), slot_data->vbmeta_images[0].vbmeta_data, slot_data->vbmeta_images[0].vbmeta_size)); EXPECT_EQ("boot", std::string(slot_data->vbmeta_images[1].partition_name)); // The boot image data should match what is generated above with // GenerateImage(). EXPECT_EQ(size_t(1), slot_data->num_loaded_partitions); EXPECT_EQ("boot", std::string(slot_data->loaded_partitions[0].partition_name)); EXPECT_EQ(boot_image_size, slot_data->loaded_partitions[0].data_size); for (size_t n = 0; n < slot_data->loaded_partitions[0].data_size; n++) { EXPECT_EQ(slot_data->loaded_partitions[0].data[n], uint8_t(n)); } // This should match the two cmdlines with a space (U+0020) between // them. EXPECT_EQ( "cmdline2 in hash footer cmdline2 in vbmeta " "androidboot.vbmeta.device=PARTUUID=1234-fake-guid-for:vbmeta " "androidboot.vbmeta.avb_version=1.0 " "androidboot.vbmeta.device_state=locked " "androidboot.vbmeta.hash_alg=sha256 androidboot.vbmeta.size=4416 " "androidboot.vbmeta.digest=" "4a45faa9adfeb94e9154fe682c11fef1a1a3d829b67cbf1a12ac7f0aa4f8e2e4", std::string(slot_data->cmdline)); EXPECT_EQ(11UL, slot_data->rollback_indexes[0]); EXPECT_EQ(12UL, slot_data->rollback_indexes[1]); for (size_t n = 2; n < AVB_MAX_NUMBER_OF_ROLLBACK_INDEX_LOCATIONS; n++) { EXPECT_EQ(0UL, slot_data->rollback_indexes[n]); } avb_slot_verify_data_free(slot_data); } TEST_F(AvbSlotVerifyTest, PartitionsOtherThanBoot) { const size_t foo_partition_size = 16 * 1024 * 1024; const size_t bar_partition_size = 32 * 1024 * 1024; const size_t foo_image_size = 5 * 1024 * 1024; const size_t bar_image_size = 10 * 1024 * 1024; base::FilePath foo_path = GenerateImage("foo_a.img", foo_image_size); base::FilePath bar_path = GenerateImage("bar_a.img", bar_image_size); EXPECT_COMMAND(0, "./avbtool add_hash_footer" " --image %s" " --partition_name foo" " --partition_size %zd" " --salt deadbeef" " --internal_release_string \"\"", foo_path.value().c_str(), foo_partition_size); EXPECT_COMMAND(0, "./avbtool add_hash_footer" " --image %s" " --partition_name bar" " --partition_size %zd" " --salt deadbeef" " --internal_release_string \"\"", bar_path.value().c_str(), bar_partition_size); GenerateVBMetaImage("vbmeta_a.img", "SHA256_RSA2048", 4, base::FilePath("test/data/testkey_rsa2048.pem"), base::StringPrintf("--include_descriptors_from_image %s" " --include_descriptors_from_image %s" " --internal_release_string \"\"", foo_path.value().c_str(), bar_path.value().c_str())); EXPECT_EQ( "Minimum libavb version: 1.0\n" "Header Block: 256 bytes\n" "Authentication Block: 320 bytes\n" "Auxiliary Block: 896 bytes\n" "Algorithm: SHA256_RSA2048\n" "Rollback Index: 4\n" "Flags: 0\n" "Release String: ''\n" "Descriptors:\n" " Hash descriptor:\n" " Image Size: 5242880 bytes\n" " Hash Algorithm: sha256\n" " Partition Name: foo\n" " Salt: deadbeef\n" " Digest: " "184cb36243adb8b87d2d8c4802de32125fe294ec46753d732144ee65df68a23d\n" " Hash descriptor:\n" " Image Size: 10485760 bytes\n" " Hash Algorithm: sha256\n" " Partition Name: bar\n" " Salt: deadbeef\n" " Digest: " "baea4bbd261d0edf4d1fe5e6e5a36976c291eeba66b6a46fa81dba691327a727\n", InfoImage(vbmeta_image_path_)); ops_.set_expected_public_key( PublicKeyAVB(base::FilePath("test/data/testkey_rsa2048.pem"))); AvbSlotVerifyData* slot_data = NULL; const char* requested_partitions[] = {"foo", "bar", NULL}; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_OK, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); // Now verify the slot data. The vbmeta data should match our // vbmeta_image_ member. EXPECT_EQ(size_t(1), slot_data->num_vbmeta_images); EXPECT_EQ("vbmeta", std::string(slot_data->vbmeta_images[0].partition_name)); EXPECT_EQ(slot_data->vbmeta_images[0].vbmeta_size, vbmeta_image_.size()); EXPECT_EQ(0, memcmp(vbmeta_image_.data(), slot_data->vbmeta_images[0].vbmeta_data, slot_data->vbmeta_images[0].vbmeta_size)); // The 'foo' and 'bar' image data should match what is generated // above with GenerateImage(). EXPECT_EQ(size_t(2), slot_data->num_loaded_partitions); EXPECT_EQ("foo", std::string(slot_data->loaded_partitions[0].partition_name)); EXPECT_EQ(foo_image_size, slot_data->loaded_partitions[0].data_size); for (size_t n = 0; n < slot_data->loaded_partitions[0].data_size; n++) { EXPECT_EQ(slot_data->loaded_partitions[0].data[n], uint8_t(n)); } EXPECT_EQ("bar", std::string(slot_data->loaded_partitions[1].partition_name)); EXPECT_EQ(bar_image_size, slot_data->loaded_partitions[1].data_size); for (size_t n = 0; n < slot_data->loaded_partitions[1].data_size; n++) { EXPECT_EQ(slot_data->loaded_partitions[1].data[n], uint8_t(n)); } avb_slot_verify_data_free(slot_data); } TEST_F(AvbSlotVerifyTest, PublicKeyMetadata) { base::FilePath md_path = GenerateImage("md.bin", 1536); GenerateVBMetaImage("vbmeta_a.img", "SHA256_RSA2048", 0, base::FilePath("test/data/testkey_rsa2048.pem"), base::StringPrintf("--public_key_metadata %s" " --internal_release_string \"\"", md_path.value().c_str())); ops_.set_expected_public_key( PublicKeyAVB(base::FilePath("test/data/testkey_rsa2048.pem"))); std::string md_data; ASSERT_TRUE(base::ReadFileToString(md_path, &md_data)); ops_.set_expected_public_key_metadata(md_data); AvbSlotVerifyData* slot_data = NULL; const char* requested_partitions[] = {"boot", NULL}; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_OK, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); EXPECT_EQ( "androidboot.vbmeta.device=PARTUUID=1234-fake-guid-for:vbmeta_a " "androidboot.vbmeta.avb_version=1.0 " "androidboot.vbmeta.device_state=locked " "androidboot.vbmeta.hash_alg=sha256 androidboot.vbmeta.size=2688 " "androidboot.vbmeta.digest=" "5edcaa54f40382ee6a2fc3b86cdf383348b35ed07955e83ea32d84b69a97eaa0", std::string(slot_data->cmdline)); avb_slot_verify_data_free(slot_data); } void AvbSlotVerifyTest::CmdlineWithHashtreeVerification( bool hashtree_verification_on) { const size_t rootfs_size = 1028 * 1024; const size_t partition_size = 1536 * 1024; // Generate a 1028 KiB file with known content. std::vector rootfs; rootfs.resize(rootfs_size); for (size_t n = 0; n < rootfs_size; n++) rootfs[n] = uint8_t(n); base::FilePath rootfs_path = testdir_.Append("rootfs.bin"); EXPECT_EQ(rootfs_size, static_cast( base::WriteFile(rootfs_path, reinterpret_cast(rootfs.data()), rootfs.size()))); EXPECT_COMMAND(0, "./avbtool add_hashtree_footer --salt d00df00d --image %s " "--partition_size %d --partition_name foobar " "--algorithm SHA256_RSA2048 " "--key test/data/testkey_rsa2048.pem " "--internal_release_string \"\"", rootfs_path.value().c_str(), (int)partition_size); // Check that we correctly generate dm-verity kernel cmdline // snippets, if requested. GenerateVBMetaImage( "vbmeta_a.img", "SHA256_RSA2048", 4, base::FilePath("test/data/testkey_rsa2048.pem"), base::StringPrintf("--setup_rootfs_from_kernel %s " "--kernel_cmdline should_be_in_both=1 " "--algorithm SHA256_RSA2048 " "--flags %d " "--internal_release_string \"\"", rootfs_path.value().c_str(), hashtree_verification_on ? 0 : AVB_VBMETA_IMAGE_FLAGS_HASHTREE_DISABLED)); EXPECT_EQ( base::StringPrintf( "Minimum libavb version: 1.0\n" "Header Block: 256 bytes\n" "Authentication Block: 320 bytes\n" "Auxiliary Block: 960 bytes\n" "Algorithm: SHA256_RSA2048\n" "Rollback Index: 4\n" "Flags: %d\n" "Release String: ''\n" "Descriptors:\n" " Kernel Cmdline descriptor:\n" " Flags: 1\n" " Kernel Cmdline: 'dm=\"1 vroot none ro 1,0 2056 verity " "1 PARTUUID=$(ANDROID_SYSTEM_PARTUUID) " "PARTUUID=$(ANDROID_SYSTEM_PARTUUID) 4096 4096 257 257 sha1 " "e811611467dcd6e8dc4324e45f706c2bdd51db67 d00df00d 2 " "restart_on_corruption ignore_zero_blocks\" root=/dev/dm-0'\n" " Kernel Cmdline descriptor:\n" " Flags: 2\n" " Kernel Cmdline: " "'root=PARTUUID=$(ANDROID_SYSTEM_PARTUUID)'\n" " Kernel Cmdline descriptor:\n" " Flags: 0\n" " Kernel Cmdline: 'should_be_in_both=1'\n", hashtree_verification_on ? 0 : AVB_VBMETA_IMAGE_FLAGS_HASHTREE_DISABLED), InfoImage(vbmeta_image_path_)); ops_.set_expected_public_key( PublicKeyAVB(base::FilePath("test/data/testkey_rsa2048.pem"))); // Check that avb_slot_verify() picks the cmdline decsriptors based // on their flags value. AvbSlotVerifyData* slot_data = NULL; const char* requested_partitions[] = {"boot", NULL}; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_OK, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); if (hashtree_verification_on) { EXPECT_EQ( "dm=\"1 vroot none ro 1,0 2056 verity 1 " "PARTUUID=1234-fake-guid-for:system_a " "PARTUUID=1234-fake-guid-for:system_a 4096 4096 257 257 sha1 " "e811611467dcd6e8dc4324e45f706c2bdd51db67 d00df00d 2 " "restart_on_corruption ignore_zero_blocks\" root=/dev/dm-0 " "should_be_in_both=1 " "androidboot.vbmeta.device=PARTUUID=1234-fake-guid-for:vbmeta_a " "androidboot.vbmeta.avb_version=1.0 " "androidboot.vbmeta.device_state=locked " "androidboot.vbmeta.hash_alg=sha256 androidboot.vbmeta.size=1536 " "androidboot.vbmeta.digest=" "51ea1638d8cc19a7a15b2bade22d155fb5150a6e376171ea1a89b7d6c89d6f17", std::string(slot_data->cmdline)); } else { EXPECT_EQ( "root=PARTUUID=1234-fake-guid-for:system_a should_be_in_both=1 " "androidboot.vbmeta.device=PARTUUID=1234-fake-guid-for:vbmeta_a " "androidboot.vbmeta.avb_version=1.0 " "androidboot.vbmeta.device_state=locked " "androidboot.vbmeta.hash_alg=sha256 androidboot.vbmeta.size=1536 " "androidboot.vbmeta.digest=" "877daa21c04df1d9e1776bc6169c98de947ce44b1b34b545021bb3f34e287da6", std::string(slot_data->cmdline)); } avb_slot_verify_data_free(slot_data); } TEST_F(AvbSlotVerifyTest, CmdlineWithHashtreeVerificationOff) { CmdlineWithHashtreeVerification(false); } TEST_F(AvbSlotVerifyTest, CmdlineWithHashtreeVerificationOn) { CmdlineWithHashtreeVerification(true); } // In the event that there's no vbmeta partition, we treat the vbmeta // struct from 'boot' as the top-level partition. Check that this // works. TEST_F(AvbSlotVerifyTest, NoVBMetaPartition) { const size_t MiB = 1024 * 1024; const size_t boot_size = 6 * MiB; const size_t boot_part_size = 8 * MiB; const size_t system_size = 16 * MiB; const size_t system_part_size = 32 * MiB; const size_t foobar_size = 8 * MiB; const size_t foobar_part_size = 16 * MiB; const size_t bazboo_size = 4 * MiB; const size_t bazboo_part_size = 8 * MiB; base::FilePath boot_path = GenerateImage("boot.img", boot_size); base::FilePath system_path = GenerateImage("system.img", system_size); base::FilePath foobar_path = GenerateImage("foobar.img", foobar_size); base::FilePath bazboo_path = GenerateImage("bazboo.img", bazboo_size); EXPECT_COMMAND(0, "./avbtool add_hashtree_footer --salt d00df00d --image %s " "--partition_size %d --partition_name system " "--algorithm SHA256_RSA2048 " "--key test/data/testkey_rsa2048.pem " "--internal_release_string \"\"", system_path.value().c_str(), (int)system_part_size); EXPECT_COMMAND(0, "./avbtool add_hashtree_footer --salt d00df00d --image %s " "--partition_size %d --partition_name foobar " "--algorithm SHA256_RSA2048 " "--key test/data/testkey_rsa2048.pem " "--internal_release_string \"\"", foobar_path.value().c_str(), (int)foobar_part_size); EXPECT_COMMAND(0, "./avbtool add_hashtree_footer --salt d00df00d --image %s " "--partition_size %d --partition_name bazboo " "--algorithm SHA512_RSA4096 " "--key test/data/testkey_rsa4096.pem " "--internal_release_string \"\"", bazboo_path.value().c_str(), (int)bazboo_part_size); base::FilePath pk_path = testdir_.Append("testkey_rsa4096.avbpubkey"); EXPECT_COMMAND( 0, "./avbtool extract_public_key --key test/data/testkey_rsa4096.pem" " --output %s", pk_path.value().c_str()); // Explicitly pass "--flags 2147483648" (i.e. 1<<31) to check that // boot.img is treated as top-level. Note the corresponding "Flags:" // field below in the avbtool info_image output. EXPECT_COMMAND(0, "./avbtool add_hash_footer --salt d00df00d " "--hash_algorithm sha256 --image %s " "--partition_size %d --partition_name boot " "--algorithm SHA256_RSA2048 " "--key test/data/testkey_rsa2048.pem " "--internal_release_string \"\" " "--include_descriptors_from_image %s " "--include_descriptors_from_image %s " "--setup_rootfs_from_kernel %s " "--chain_partition bazboo:1:%s " "--flags 2147483648", boot_path.value().c_str(), (int)boot_part_size, system_path.value().c_str(), foobar_path.value().c_str(), system_path.value().c_str(), pk_path.value().c_str()); ASSERT_EQ( "Footer version: 1.0\n" "Image size: 8388608 bytes\n" "Original image size: 6291456 bytes\n" "VBMeta offset: 6291456\n" "VBMeta size: 3200 bytes\n" "--\n" "Minimum libavb version: 1.0\n" "Header Block: 256 bytes\n" "Authentication Block: 320 bytes\n" "Auxiliary Block: 2624 bytes\n" "Algorithm: SHA256_RSA2048\n" "Rollback Index: 0\n" "Flags: 2147483648\n" "Release String: ''\n" "Descriptors:\n" " Hash descriptor:\n" " Image Size: 6291456 bytes\n" " Hash Algorithm: sha256\n" " Partition Name: boot\n" " Salt: d00df00d\n" " Digest: " "4c109399b20e476bab15363bff55740add83e1c1e97e0b132f5c713ddd8c7868\n" " Chain Partition descriptor:\n" " Partition Name: bazboo\n" " Rollback Index Location: 1\n" " Public key (sha1): " "2597c218aae470a130f61162feaae70afd97f011\n" " Kernel Cmdline descriptor:\n" " Flags: 1\n" " Kernel Cmdline: 'dm=\"1 vroot none ro 1,0 32768 verity 1 " "PARTUUID=$(ANDROID_SYSTEM_PARTUUID) PARTUUID=$(ANDROID_SYSTEM_PARTUUID) " "4096 4096 4096 4096 sha1 c9ffc3bfae5000269a55a56621547fd1fcf819df " "d00df00d 2 restart_on_corruption ignore_zero_blocks\" root=/dev/dm-0'\n" " Kernel Cmdline descriptor:\n" " Flags: 2\n" " Kernel Cmdline: " "'root=PARTUUID=$(ANDROID_SYSTEM_PARTUUID)'\n" " Hashtree descriptor:\n" " Version of dm-verity: 1\n" " Image Size: 16777216 bytes\n" " Tree Offset: 16777216\n" " Tree Size: 135168 bytes\n" " Data Block Size: 4096 bytes\n" " Hash Block Size: 4096 bytes\n" " FEC num roots: 0\n" " FEC offset: 0\n" " FEC size: 0 bytes\n" " Hash Algorithm: sha1\n" " Partition Name: system\n" " Salt: d00df00d\n" " Root Digest: c9ffc3bfae5000269a55a56621547fd1fcf819df\n" " Hashtree descriptor:\n" " Version of dm-verity: 1\n" " Image Size: 8388608 bytes\n" " Tree Offset: 8388608\n" " Tree Size: 69632 bytes\n" " Data Block Size: 4096 bytes\n" " Hash Block Size: 4096 bytes\n" " FEC num roots: 0\n" " FEC offset: 0\n" " FEC size: 0 bytes\n" " Hash Algorithm: sha1\n" " Partition Name: foobar\n" " Salt: d00df00d\n" " Root Digest: d52d93c988d336a79abe1c05240ae9a79a9b7d61\n", InfoImage(boot_path)); ops_.set_expected_public_key( PublicKeyAVB(base::FilePath("test/data/testkey_rsa2048.pem"))); // Now check that libavb will fall back to reading from 'boot' // instead of 'vbmeta' when encountering // AVB_IO_RESULT_ERROR_NO_SUCH_PARTITION on trying to read from // 'vbmeta'. AvbSlotVerifyData* slot_data = NULL; const char* requested_partitions[] = {"boot", NULL}; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_OK, avb_slot_verify(ops_.avb_ops(), requested_partitions, "", false /* allow_verification_error */, &slot_data)); EXPECT_NE(nullptr, slot_data); // Note 'boot' in the value androidboot.vbmeta.device since we've // read from 'boot' and not 'vbmeta'. EXPECT_EQ( "dm=\"1 vroot none ro 1,0 32768 verity 1 " "PARTUUID=1234-fake-guid-for:system PARTUUID=1234-fake-guid-for:system " "4096 4096 4096 4096 sha1 c9ffc3bfae5000269a55a56621547fd1fcf819df " "d00df00d 2 restart_on_corruption ignore_zero_blocks\" root=/dev/dm-0 " "androidboot.vbmeta.device=PARTUUID=1234-fake-guid-for:boot " "androidboot.vbmeta.avb_version=1.0 " "androidboot.vbmeta.device_state=locked " "androidboot.vbmeta.hash_alg=sha256 androidboot.vbmeta.size=5312 " "androidboot.vbmeta.digest=" "87bf39949a560f93d54aa0a5e9d158439110141246e40fb103f131633a3ca456", std::string(slot_data->cmdline)); avb_slot_verify_data_free(slot_data); } // Check that non-zero flags in chained partition are caught in // avb_slot_verify(). TEST_F(AvbSlotVerifyTest, ChainedPartitionEnforceFlagsZero) { size_t boot_partition_size = 16 * 1024 * 1024; const size_t boot_image_size = 5 * 1024 * 1024; base::FilePath boot_path = GenerateImage("boot_a.img", boot_image_size); const char* requested_partitions[] = {"boot", NULL}; EXPECT_COMMAND(0, "./avbtool add_hash_footer" " --image %s" " --kernel_cmdline 'cmdline2 in hash footer'" " --rollback_index 12" " --partition_name boot" " --partition_size %zd" " --algorithm SHA256_RSA4096" " --key test/data/testkey_rsa4096.pem" " --salt deadbeef" " --flags 1" " --internal_release_string \"\"", boot_path.value().c_str(), boot_partition_size); base::FilePath pk_path = testdir_.Append("testkey_rsa4096.avbpubkey"); EXPECT_COMMAND( 0, "./avbtool extract_public_key --key test/data/testkey_rsa4096.pem" " --output %s", pk_path.value().c_str()); GenerateVBMetaImage( "vbmeta_a.img", "SHA256_RSA2048", 11, base::FilePath("test/data/testkey_rsa2048.pem"), base::StringPrintf("--chain_partition boot:1:%s" " --kernel_cmdline 'cmdline2 in vbmeta'" " --internal_release_string \"\"", pk_path.value().c_str())); ops_.set_expected_public_key( PublicKeyAVB(base::FilePath("test/data/testkey_rsa2048.pem"))); AvbSlotVerifyData* slot_data = NULL; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_INVALID_METADATA, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_EQ(nullptr, slot_data); } // Check that chain descriptors in chained partitions are caught in // avb_slot_verify(). TEST_F(AvbSlotVerifyTest, ChainedPartitionEnforceNoChainPartitions) { size_t boot_partition_size = 16 * 1024 * 1024; const size_t boot_image_size = 5 * 1024 * 1024; base::FilePath boot_path = GenerateImage("boot_a.img", boot_image_size); const char* requested_partitions[] = {"boot", NULL}; base::FilePath pk_path = testdir_.Append("testkey_rsa4096.avbpubkey"); EXPECT_COMMAND( 0, "./avbtool extract_public_key --key test/data/testkey_rsa4096.pem" " --output %s", pk_path.value().c_str()); EXPECT_COMMAND(0, "./avbtool add_hash_footer" " --image %s" " --kernel_cmdline 'cmdline2 in hash footer'" " --rollback_index 12" " --partition_name boot" " --partition_size %zd" " --algorithm SHA256_RSA4096" " --key test/data/testkey_rsa4096.pem" " --salt deadbeef" " --chain_partition other:2:%s" " --internal_release_string \"\"", boot_path.value().c_str(), boot_partition_size, pk_path.value().c_str()); GenerateVBMetaImage( "vbmeta_a.img", "SHA256_RSA2048", 11, base::FilePath("test/data/testkey_rsa2048.pem"), base::StringPrintf("--chain_partition boot:1:%s" " --kernel_cmdline 'cmdline2 in vbmeta'" " --internal_release_string \"\"", pk_path.value().c_str())); ops_.set_expected_public_key( PublicKeyAVB(base::FilePath("test/data/testkey_rsa2048.pem"))); AvbSlotVerifyData* slot_data = NULL; EXPECT_EQ(AVB_SLOT_VERIFY_RESULT_ERROR_INVALID_METADATA, avb_slot_verify(ops_.avb_ops(), requested_partitions, "_a", false /* allow_verification_error */, &slot_data)); EXPECT_EQ(nullptr, slot_data); } } // namespace avb