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platform_bootable_recovery/tests/component/applypatch_test.cpp
Tianjie Xu c89d1e7e2a Turn on -Wall for recovery modules 
Turn on -Wall for all modules. Also remove the obsolete file_cmp() in
apply_patch test and now() in wear_ui.

The only exception is lib_edify due to the unused functions in the
intermediate cpp files generated from the lex files. It will be handled
in a seperate CL.

Bug: 64939312
Test: mma, unit tests pass
Change-Id: Ic53f76b60b6401ab20db3d98130d674c08e3702f
2017-08-28 21:56:33 -07:00

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/*
* Copyright (C) 2016 The Android Open Source Project
*
* Licensed under the Apache License, version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agree to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <fcntl.h>
#include <gtest/gtest.h>
#include <stdio.h>
#include <stdlib.h>
#include <sys/stat.h>
#include <sys/statvfs.h>
#include <sys/types.h>
#include <time.h>
#include <memory>
#include <string>
#include <vector>
#include <android-base/file.h>
#include <android-base/stringprintf.h>
#include <android-base/test_utils.h>
#include <openssl/sha.h>
#include "applypatch/applypatch.h"
#include "applypatch/applypatch_modes.h"
#include "common/test_constants.h"
#include "print_sha1.h"
static void sha1sum(const std::string& fname, std::string* sha1, size_t* fsize = nullptr) {
ASSERT_NE(nullptr, sha1);
std::string data;
ASSERT_TRUE(android::base::ReadFileToString(fname, &data));
if (fsize != nullptr) {
*fsize = data.size();
}
uint8_t digest[SHA_DIGEST_LENGTH];
SHA1(reinterpret_cast<const uint8_t*>(data.c_str()), data.size(), digest);
*sha1 = print_sha1(digest);
}
static void mangle_file(const std::string& fname) {
std::string content;
content.reserve(1024);
for (size_t i = 0; i < 1024; i++) {
content[i] = rand() % 256;
}
ASSERT_TRUE(android::base::WriteStringToFile(content, fname));
}
class ApplyPatchTest : public ::testing::Test {
public:
static void SetUpTestCase() {
// set up files
old_file = from_testdata_base("old.file");
new_file = from_testdata_base("new.file");
patch_file = from_testdata_base("patch.bsdiff");
rand_file = "/cache/applypatch_test_rand.file";
cache_file = "/cache/saved.file";
// write stuff to rand_file
ASSERT_TRUE(android::base::WriteStringToFile("hello", rand_file));
// set up SHA constants
sha1sum(old_file, &old_sha1, &old_size);
sha1sum(new_file, &new_sha1, &new_size);
srand(time(nullptr));
bad_sha1_a = android::base::StringPrintf("%040x", rand());
bad_sha1_b = android::base::StringPrintf("%040x", rand());
}
static std::string old_file;
static std::string new_file;
static std::string rand_file;
static std::string cache_file;
static std::string patch_file;
static std::string old_sha1;
static std::string new_sha1;
static std::string bad_sha1_a;
static std::string bad_sha1_b;
static size_t old_size;
static size_t new_size;
};
static void cp(const std::string& src, const std::string& tgt) {
std::string cmd = "cp " + src + " " + tgt;
system(cmd.c_str());
}
static void backup_old() {
cp(ApplyPatchTest::old_file, ApplyPatchTest::cache_file);
}
static void restore_old() {
cp(ApplyPatchTest::cache_file, ApplyPatchTest::old_file);
}
class ApplyPatchCacheTest : public ApplyPatchTest {
public:
virtual void SetUp() {
backup_old();
}
virtual void TearDown() {
restore_old();
}
};
std::string ApplyPatchTest::old_file;
std::string ApplyPatchTest::new_file;
std::string ApplyPatchTest::rand_file;
std::string ApplyPatchTest::patch_file;
std::string ApplyPatchTest::cache_file;
std::string ApplyPatchTest::old_sha1;
std::string ApplyPatchTest::new_sha1;
std::string ApplyPatchTest::bad_sha1_a;
std::string ApplyPatchTest::bad_sha1_b;
size_t ApplyPatchTest::old_size;
size_t ApplyPatchTest::new_size;
TEST_F(ApplyPatchTest, CheckModeSkip) {
std::vector<std::string> sha1s;
ASSERT_EQ(0, applypatch_check(&old_file[0], sha1s));
}
TEST_F(ApplyPatchTest, CheckModeSingle) {
std::vector<std::string> sha1s = { old_sha1 };
ASSERT_EQ(0, applypatch_check(&old_file[0], sha1s));
}
TEST_F(ApplyPatchTest, CheckModeMultiple) {
std::vector<std::string> sha1s = { bad_sha1_a, old_sha1, bad_sha1_b };
ASSERT_EQ(0, applypatch_check(&old_file[0], sha1s));
}
TEST_F(ApplyPatchTest, CheckModeFailure) {
std::vector<std::string> sha1s = { bad_sha1_a, bad_sha1_b };
ASSERT_NE(0, applypatch_check(&old_file[0], sha1s));
}
TEST_F(ApplyPatchTest, CheckModeEmmcTarget) {
// EMMC:old_file:size:sha1 should pass the check.
std::string src_file =
"EMMC:" + old_file + ":" + std::to_string(old_size) + ":" + old_sha1;
std::vector<std::string> sha1s;
ASSERT_EQ(0, applypatch_check(src_file.c_str(), sha1s));
// EMMC:old_file:(size-1):sha1:(size+1):sha1 should fail the check.
src_file = "EMMC:" + old_file + ":" + std::to_string(old_size - 1) + ":" + old_sha1 + ":" +
std::to_string(old_size + 1) + ":" + old_sha1;
ASSERT_EQ(1, applypatch_check(src_file.c_str(), sha1s));
// EMMC:old_file:(size-1):sha1:size:sha1:(size+1):sha1 should pass the check.
src_file = "EMMC:" + old_file + ":" +
std::to_string(old_size - 1) + ":" + old_sha1 + ":" +
std::to_string(old_size) + ":" + old_sha1 + ":" +
std::to_string(old_size + 1) + ":" + old_sha1;
ASSERT_EQ(0, applypatch_check(src_file.c_str(), sha1s));
// EMMC:old_file:(size+1):sha1:(size-1):sha1:size:sha1 should pass the check.
src_file = "EMMC:" + old_file + ":" +
std::to_string(old_size + 1) + ":" + old_sha1 + ":" +
std::to_string(old_size - 1) + ":" + old_sha1 + ":" +
std::to_string(old_size) + ":" + old_sha1;
ASSERT_EQ(0, applypatch_check(src_file.c_str(), sha1s));
// EMMC:new_file:(size+1):old_sha1:(size-1):old_sha1:size:old_sha1:size:new_sha1
// should pass the check.
src_file = "EMMC:" + new_file + ":" +
std::to_string(old_size + 1) + ":" + old_sha1 + ":" +
std::to_string(old_size - 1) + ":" + old_sha1 + ":" +
std::to_string(old_size) + ":" + old_sha1 + ":" +
std::to_string(new_size) + ":" + new_sha1;
ASSERT_EQ(0, applypatch_check(src_file.c_str(), sha1s));
}
TEST_F(ApplyPatchCacheTest, CheckCacheCorruptedSingle) {
mangle_file(old_file);
std::vector<std::string> sha1s = { old_sha1 };
ASSERT_EQ(0, applypatch_check(&old_file[0], sha1s));
}
TEST_F(ApplyPatchCacheTest, CheckCacheCorruptedMultiple) {
mangle_file(old_file);
std::vector<std::string> sha1s = { bad_sha1_a, old_sha1, bad_sha1_b };
ASSERT_EQ(0, applypatch_check(&old_file[0], sha1s));
}
TEST_F(ApplyPatchCacheTest, CheckCacheCorruptedFailure) {
mangle_file(old_file);
std::vector<std::string> sha1s = { bad_sha1_a, bad_sha1_b };
ASSERT_NE(0, applypatch_check(&old_file[0], sha1s));
}
TEST_F(ApplyPatchCacheTest, CheckCacheMissingSingle) {
unlink(&old_file[0]);
std::vector<std::string> sha1s = { old_sha1 };
ASSERT_EQ(0, applypatch_check(&old_file[0], sha1s));
}
TEST_F(ApplyPatchCacheTest, CheckCacheMissingMultiple) {
unlink(&old_file[0]);
std::vector<std::string> sha1s = { bad_sha1_a, old_sha1, bad_sha1_b };
ASSERT_EQ(0, applypatch_check(&old_file[0], sha1s));
}
TEST_F(ApplyPatchCacheTest, CheckCacheMissingFailure) {
unlink(&old_file[0]);
std::vector<std::string> sha1s = { bad_sha1_a, bad_sha1_b };
ASSERT_NE(0, applypatch_check(&old_file[0], sha1s));
}
TEST(ApplyPatchModesTest, InvalidArgs) {
// At least two args (including the filename).
ASSERT_EQ(2, applypatch_modes(1, (const char* []){ "applypatch" }));
// Unrecognized args.
ASSERT_EQ(2, applypatch_modes(2, (const char* []){ "applypatch", "-x" }));
}
TEST(ApplyPatchModesTest, PatchModeEmmcTarget) {
std::string boot_img = from_testdata_base("boot.img");
size_t boot_img_size;
std::string boot_img_sha1;
sha1sum(boot_img, &boot_img_sha1, &boot_img_size);
std::string recovery_img = from_testdata_base("recovery.img");
size_t size;
std::string recovery_img_sha1;
sha1sum(recovery_img, &recovery_img_sha1, &size);
std::string recovery_img_size = std::to_string(size);
std::string bonus_file = from_testdata_base("bonus.file");
// applypatch -b <bonus-file> <src-file> <tgt-file> <tgt-sha1> <tgt-size> <src-sha1>:<patch>
TemporaryFile tmp1;
std::string src_file =
"EMMC:" + boot_img + ":" + std::to_string(boot_img_size) + ":" + boot_img_sha1;
std::string tgt_file = "EMMC:" + std::string(tmp1.path);
std::string patch = boot_img_sha1 + ":" + from_testdata_base("recovery-from-boot.p");
std::vector<const char*> args = {
"applypatch",
"-b",
bonus_file.c_str(),
src_file.c_str(),
tgt_file.c_str(),
recovery_img_sha1.c_str(),
recovery_img_size.c_str(),
patch.c_str()
};
ASSERT_EQ(0, applypatch_modes(args.size(), args.data()));
// applypatch <src-file> <tgt-file> <tgt-sha1> <tgt-size> <src-sha1>:<patch>
TemporaryFile tmp2;
patch = boot_img_sha1 + ":" + from_testdata_base("recovery-from-boot-with-bonus.p");
tgt_file = "EMMC:" + std::string(tmp2.path);
std::vector<const char*> args2 = {
"applypatch",
src_file.c_str(),
tgt_file.c_str(),
recovery_img_sha1.c_str(),
recovery_img_size.c_str(),
patch.c_str()
};
ASSERT_EQ(0, applypatch_modes(args2.size(), args2.data()));
// applypatch -b <bonus-file> <src-file> <tgt-file> <tgt-sha1> <tgt-size> \
// <src-sha1-fake>:<patch1> <src-sha1>:<patch2>
TemporaryFile tmp3;
tgt_file = "EMMC:" + std::string(tmp3.path);
std::string bad_sha1_a = android::base::StringPrintf("%040x", rand());
std::string bad_sha1_b = android::base::StringPrintf("%040x", rand());
std::string patch1 = bad_sha1_a + ":" + from_testdata_base("recovery-from-boot.p");
std::string patch2 = boot_img_sha1 + ":" + from_testdata_base("recovery-from-boot.p");
std::string patch3 = bad_sha1_b + ":" + from_testdata_base("recovery-from-boot.p");
std::vector<const char*> args3 = {
"applypatch",
"-b",
bonus_file.c_str(),
src_file.c_str(),
tgt_file.c_str(),
recovery_img_sha1.c_str(),
recovery_img_size.c_str(),
patch1.c_str(),
patch2.c_str(),
patch3.c_str()
};
ASSERT_EQ(0, applypatch_modes(args3.size(), args3.data()));
}
TEST(ApplyPatchModesTest, PatchModeInvalidArgs) {
// Invalid bonus file.
ASSERT_NE(0, applypatch_modes(3, (const char* []){ "applypatch", "-b", "/doesntexist" }));
std::string bonus_file = from_testdata_base("bonus.file");
// With bonus file, but missing args.
ASSERT_EQ(2, applypatch_modes(3, (const char* []){ "applypatch", "-b", bonus_file.c_str() }));
std::string boot_img = from_testdata_base("boot.img");
size_t boot_img_size;
std::string boot_img_sha1;
sha1sum(boot_img, &boot_img_sha1, &boot_img_size);
std::string recovery_img = from_testdata_base("recovery.img");
size_t size;
std::string recovery_img_sha1;
sha1sum(recovery_img, &recovery_img_sha1, &size);
std::string recovery_img_size = std::to_string(size);
// Bonus file is not supported in flash mode.
// applypatch -b <bonus-file> <src-file> <tgt-file> <tgt-sha1> <tgt-size>
TemporaryFile tmp4;
std::vector<const char*> args4 = {
"applypatch",
"-b",
bonus_file.c_str(),
boot_img.c_str(),
tmp4.path,
recovery_img_sha1.c_str(),
recovery_img_size.c_str()
};
ASSERT_NE(0, applypatch_modes(args4.size(), args4.data()));
// Failed to parse patch args.
TemporaryFile tmp5;
std::string bad_arg1 =
"invalid-sha1:filename" + from_testdata_base("recovery-from-boot-with-bonus.p");
std::vector<const char*> args5 = {
"applypatch",
boot_img.c_str(),
tmp5.path,
recovery_img_sha1.c_str(),
recovery_img_size.c_str(),
bad_arg1.c_str()
};
ASSERT_NE(0, applypatch_modes(args5.size(), args5.data()));
// Target size cannot be zero.
TemporaryFile tmp6;
std::string patch = boot_img_sha1 + ":" + from_testdata_base("recovery-from-boot-with-bonus.p");
std::vector<const char*> args6 = {
"applypatch",
boot_img.c_str(),
tmp6.path,
recovery_img_sha1.c_str(),
"0", // target size
patch.c_str()
};
ASSERT_NE(0, applypatch_modes(args6.size(), args6.data()));
}
TEST(ApplyPatchModesTest, CheckModeInvalidArgs) {
// Insufficient args.
ASSERT_EQ(2, applypatch_modes(2, (const char* []){ "applypatch", "-c" }));
}
TEST(ApplyPatchModesTest, ShowLicenses) {
ASSERT_EQ(0, applypatch_modes(2, (const char* []){ "applypatch", "-l" }));
}
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