/* * Copyright (C) 2011 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 agreed 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 #include #define LOG_TAG "utils_test" #include #include extern "C" { #include "installd.h" } #define TEST_DATA_DIR "/data/" #define TEST_APP_DIR "/data/app/" #define TEST_APP_PRIVATE_DIR "/data/app-private/" #define TEST_ASEC_DIR "/mnt/asec/" #define TEST_SYSTEM_DIR1 "/system/app/" #define TEST_SYSTEM_DIR2 "/vendor/app/" #define REALLY_LONG_APP_NAME "com.example." \ "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa." \ "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa." \ "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa" #define REALLY_LONG_LEAF_NAME "shared_prefs_shared_prefs_shared_prefs_shared_prefs_shared_prefs_" \ "shared_prefs_shared_prefs_shared_prefs_shared_prefs_shared_prefs_shared_prefs_" \ "shared_prefs_shared_prefs_shared_prefs_shared_prefs_shared_prefs_shared_prefs_" \ "shared_prefs_shared_prefs_shared_prefs_shared_prefs_shared_prefs_shared_prefs_" namespace android { class UtilsTest : public testing::Test { protected: virtual void SetUp() { android_app_dir.path = TEST_APP_DIR; android_app_dir.len = strlen(TEST_APP_DIR); android_app_private_dir.path = TEST_APP_PRIVATE_DIR; android_app_private_dir.len = strlen(TEST_APP_PRIVATE_DIR); android_data_dir.path = TEST_DATA_DIR; android_data_dir.len = strlen(TEST_DATA_DIR); android_asec_dir.path = TEST_ASEC_DIR; android_asec_dir.len = strlen(TEST_ASEC_DIR); android_system_dirs.count = 2; android_system_dirs.dirs = (dir_rec_t*) calloc(android_system_dirs.count, sizeof(dir_rec_t)); android_system_dirs.dirs[0].path = TEST_SYSTEM_DIR1; android_system_dirs.dirs[0].len = strlen(TEST_SYSTEM_DIR1); android_system_dirs.dirs[1].path = TEST_SYSTEM_DIR2; android_system_dirs.dirs[1].len = strlen(TEST_SYSTEM_DIR2); } virtual void TearDown() { free(android_system_dirs.dirs); } }; TEST_F(UtilsTest, IsValidApkPath_BadPrefix) { // Bad prefixes directories const char *badprefix1 = "/etc/passwd"; EXPECT_EQ(-1, validate_apk_path(badprefix1)) << badprefix1 << " should be allowed as a valid path"; const char *badprefix2 = "../.." TEST_APP_DIR "../../../blah"; EXPECT_EQ(-1, validate_apk_path(badprefix2)) << badprefix2 << " should be allowed as a valid path"; const char *badprefix3 = "init.rc"; EXPECT_EQ(-1, validate_apk_path(badprefix3)) << badprefix3 << " should be allowed as a valid path"; const char *badprefix4 = "/init.rc"; EXPECT_EQ(-1, validate_apk_path(badprefix4)) << badprefix4 << " should be allowed as a valid path"; } TEST_F(UtilsTest, IsValidApkPath_Internal) { // Internal directories const char *internal1 = TEST_APP_DIR "example.apk"; EXPECT_EQ(0, validate_apk_path(internal1)) << internal1 << " should be allowed as a valid path"; const char *badint1 = TEST_APP_DIR "../example.apk"; EXPECT_EQ(-1, validate_apk_path(badint1)) << badint1 << " should be rejected as a invalid path"; const char *badint2 = TEST_APP_DIR "/../example.apk"; EXPECT_EQ(-1, validate_apk_path(badint2)) << badint2 << " should be rejected as a invalid path"; const char *badint3 = TEST_APP_DIR "example.com/pkg.apk"; EXPECT_EQ(-1, validate_apk_path(badint3)) << badint3 << " should be rejected as a invalid path"; } TEST_F(UtilsTest, IsValidApkPath_Private) { // Internal directories const char *private1 = TEST_APP_PRIVATE_DIR "example.apk"; EXPECT_EQ(0, validate_apk_path(private1)) << private1 << " should be allowed as a valid path"; const char *badpriv1 = TEST_APP_PRIVATE_DIR "../example.apk"; EXPECT_EQ(-1, validate_apk_path(badpriv1)) << badpriv1 << " should be rejected as a invalid path"; const char *badpriv2 = TEST_APP_PRIVATE_DIR "/../example.apk"; EXPECT_EQ(-1, validate_apk_path(badpriv2)) << badpriv2 << " should be rejected as a invalid path"; const char *badpriv3 = TEST_APP_PRIVATE_DIR "example.com/pkg.apk"; EXPECT_EQ(-1, validate_apk_path(badpriv3)) << badpriv3 << " should be rejected as a invalid path"; } TEST_F(UtilsTest, IsValidApkPath_AsecGood1) { const char *asec1 = TEST_ASEC_DIR "example.apk"; EXPECT_EQ(0, validate_apk_path(asec1)) << asec1 << " should be allowed as a valid path"; } TEST_F(UtilsTest, IsValidApkPath_AsecGood2) { const char *asec2 = TEST_ASEC_DIR "com.example.asec/pkg.apk"; EXPECT_EQ(0, validate_apk_path(asec2)) << asec2 << " should be allowed as a valid path"; } TEST_F(UtilsTest, IsValidApkPath_EscapeFail) { const char *badasec1 = TEST_ASEC_DIR "../example.apk"; EXPECT_EQ(-1, validate_apk_path(badasec1)) << badasec1 << " should be rejected as a invalid path"; } TEST_F(UtilsTest, IsValidApkPath_DoubleSlashFail) { const char *badasec2 = TEST_ASEC_DIR "com.example.asec//pkg.apk"; EXPECT_EQ(-1, validate_apk_path(badasec2)) << badasec2 << " should be rejected as a invalid path"; } TEST_F(UtilsTest, IsValidApkPath_SubdirEscapeFail) { const char *badasec3 = TEST_ASEC_DIR "com.example.asec/../../../pkg.apk"; EXPECT_EQ(-1, validate_apk_path(badasec3)) << badasec3 << " should be rejected as a invalid path"; } TEST_F(UtilsTest, IsValidApkPath_SlashEscapeFail) { const char *badasec4 = TEST_ASEC_DIR "/../example.apk"; EXPECT_EQ(-1, validate_apk_path(badasec4)) << badasec4 << " should be rejected as a invalid path"; } TEST_F(UtilsTest, IsValidApkPath_CrazyDirFail) { const char *badasec5 = TEST_ASEC_DIR ".//../.."; EXPECT_EQ(-1, validate_apk_path(badasec5)) << badasec5 << " should be rejected as a invalid path"; } TEST_F(UtilsTest, IsValidApkPath_SubdirEscapeSingleFail) { const char *badasec6 = TEST_ASEC_DIR "com.example.asec/../pkg.apk"; EXPECT_EQ(-1, validate_apk_path(badasec6)) << badasec6 << " should be rejected as a invalid path"; } TEST_F(UtilsTest, IsValidApkPath_TwoSubdirFail) { const char *badasec7 = TEST_ASEC_DIR "com.example.asec/subdir1/pkg.apk"; EXPECT_EQ(-1, validate_apk_path(badasec7)) << badasec7 << " should be rejected as a invalid path"; } TEST_F(UtilsTest, CheckSystemApp_Dir1) { const char *sysapp1 = TEST_SYSTEM_DIR1 "Voice.apk"; EXPECT_EQ(0, validate_system_app_path(sysapp1)) << sysapp1 << " should be allowed as a system path"; } TEST_F(UtilsTest, CheckSystemApp_Dir2) { const char *sysapp2 = TEST_SYSTEM_DIR2 "com.example.myapp.apk"; EXPECT_EQ(0, validate_system_app_path(sysapp2)) << sysapp2 << " should be allowed as a system path"; } TEST_F(UtilsTest, CheckSystemApp_EscapeFail) { const char *badapp1 = TEST_SYSTEM_DIR1 "../com.example.apk"; EXPECT_EQ(-1, validate_system_app_path(badapp1)) << badapp1 << " should be rejected not a system path"; } TEST_F(UtilsTest, CheckSystemApp_DoubleEscapeFail) { const char *badapp2 = TEST_SYSTEM_DIR2 "/../../com.example.apk"; EXPECT_EQ(-1, validate_system_app_path(badapp2)) << badapp2 << " should be rejected not a system path"; } TEST_F(UtilsTest, CheckSystemApp_BadPathEscapeFail) { const char *badapp3 = TEST_APP_DIR "/../../com.example.apk"; EXPECT_EQ(-1, validate_system_app_path(badapp3)) << badapp3 << " should be rejected not a system path"; } TEST_F(UtilsTest, GetPathFromString_NullPathFail) { dir_rec_t test1; EXPECT_EQ(-1, get_path_from_string(&test1, (const char *) NULL)) << "Should not allow NULL as a path."; } TEST_F(UtilsTest, GetPathFromString_EmptyPathFail) { dir_rec_t test1; EXPECT_EQ(-1, get_path_from_string(&test1, "")) << "Should not allow empty paths."; } TEST_F(UtilsTest, GetPathFromString_RelativePathFail) { dir_rec_t test1; EXPECT_EQ(-1, get_path_from_string(&test1, "mnt/asec")) << "Should not allow relative paths."; } TEST_F(UtilsTest, GetPathFromString_NonCanonical) { dir_rec_t test1; EXPECT_EQ(0, get_path_from_string(&test1, "/mnt/asec")) << "Should be able to canonicalize directory /mnt/asec"; EXPECT_STREQ("/mnt/asec/", test1.path) << "/mnt/asec should be canonicalized to /mnt/asec/"; EXPECT_EQ(10, (ssize_t) test1.len) << "path len should be equal to the length of /mnt/asec/ (10)"; free(test1.path); } TEST_F(UtilsTest, GetPathFromString_CanonicalPath) { dir_rec_t test3; EXPECT_EQ(0, get_path_from_string(&test3, "/data/app/")) << "Should be able to canonicalize directory /data/app/"; EXPECT_STREQ("/data/app/", test3.path) << "/data/app/ should be canonicalized to /data/app/"; EXPECT_EQ(10, (ssize_t) test3.len) << "path len should be equal to the length of /data/app/ (10)"; free(test3.path); } TEST_F(UtilsTest, CreatePkgPath_LongPkgNameSuccess) { char path[PKG_PATH_MAX]; // Create long packagename of "aaaaa..." size_t pkgnameSize = PKG_NAME_MAX; char pkgname[pkgnameSize + 1]; memset(pkgname, 'a', pkgnameSize); pkgname[pkgnameSize] = '\0'; EXPECT_EQ(0, create_pkg_path(path, pkgname, "", 0)) << "Should successfully be able to create package name."; const char *prefix = TEST_DATA_DIR PRIMARY_USER_PREFIX; size_t offset = strlen(prefix); EXPECT_STREQ(pkgname, path + offset) << "Package path should be a really long string of a's"; } TEST_F(UtilsTest, CreatePkgPath_LongPkgNameFail) { char path[PKG_PATH_MAX]; // Create long packagename of "aaaaa..." size_t pkgnameSize = PKG_NAME_MAX + 1; char pkgname[pkgnameSize + 1]; memset(pkgname, 'a', pkgnameSize); pkgname[pkgnameSize] = '\0'; EXPECT_EQ(-1, create_pkg_path(path, pkgname, "", 0)) << "Should return error because package name is too long."; } TEST_F(UtilsTest, CreatePkgPath_LongPostfixFail) { char path[PKG_PATH_MAX]; // Create long packagename of "aaaaa..." size_t postfixSize = PKG_PATH_MAX; char postfix[postfixSize + 1]; memset(postfix, 'a', postfixSize); postfix[postfixSize] = '\0'; EXPECT_EQ(-1, create_pkg_path(path, "com.example.package", postfix, 0)) << "Should return error because postfix is too long."; } TEST_F(UtilsTest, CreatePkgPath_PrimaryUser) { char path[PKG_PATH_MAX]; EXPECT_EQ(0, create_pkg_path(path, "com.example.package", "", 0)) << "Should return error because postfix is too long."; EXPECT_STREQ(TEST_DATA_DIR PRIMARY_USER_PREFIX "com.example.package", path) << "Package path should be in /data/data/"; } TEST_F(UtilsTest, CreatePkgPath_SecondaryUser) { char path[PKG_PATH_MAX]; EXPECT_EQ(0, create_pkg_path(path, "com.example.package", "", 1)) << "Should successfully create package path."; EXPECT_STREQ(TEST_DATA_DIR SECONDARY_USER_PREFIX "1/com.example.package", path) << "Package path should be in /data/user/"; } TEST_F(UtilsTest, CreatePkgPathInDir_ProtectedDir) { char path[PKG_PATH_MAX]; dir_rec_t dir; dir.path = "/data/app-private/"; dir.len = strlen(dir.path); EXPECT_EQ(0, create_pkg_path_in_dir(path, &dir, "com.example.package", ".apk")) << "Should successfully create package path."; EXPECT_STREQ("/data/app-private/com.example.package.apk", path) << "Package path should be in /data/app-private/"; } TEST_F(UtilsTest, CreatePersonaPath_Primary) { char path[PKG_PATH_MAX]; EXPECT_EQ(0, create_persona_path(path, 0)) << "Should successfully build primary user path."; EXPECT_STREQ("/data/data/", path) << "Primary user should have correct path"; } TEST_F(UtilsTest, CreatePersonaPath_Secondary) { char path[PKG_PATH_MAX]; EXPECT_EQ(0, create_persona_path(path, 1)) << "Should successfully build primary user path."; EXPECT_STREQ("/data/user/1/", path) << "Primary user should have correct path"; } TEST_F(UtilsTest, CreateMovePath_Primary) { char path[PKG_PATH_MAX]; EXPECT_EQ(0, create_move_path(path, "com.android.test", "shared_prefs", 0)) << "Should be able to create move path for primary user"; EXPECT_STREQ("/data/data/com.android.test/shared_prefs", path) << "Primary user package directory should be created correctly"; } TEST_F(UtilsTest, CreateMovePath_Fail_AppTooLong) { char path[PKG_PATH_MAX]; EXPECT_EQ(-1, create_move_path(path, REALLY_LONG_APP_NAME, "shared_prefs", 0)) << "Should fail to create move path for primary user"; } TEST_F(UtilsTest, CreateMovePath_Fail_LeafTooLong) { char path[PKG_PATH_MAX]; EXPECT_EQ(-1, create_move_path(path, "com.android.test", REALLY_LONG_LEAF_NAME, 0)) << "Should fail to create move path for primary user"; } TEST_F(UtilsTest, CopyAndAppend_Normal) { //int copy_and_append(dir_rec_t* dst, dir_rec_t* src, char* suffix) dir_rec_t dst; dir_rec_t src; src.path = "/data/"; src.len = strlen(src.path); EXPECT_EQ(0, copy_and_append(&dst, &src, "app/")) << "Should return error because postfix is too long."; EXPECT_STREQ("/data/app/", dst.path) << "Appended path should be correct"; EXPECT_EQ(10, (ssize_t) dst.len) << "Appended path should be length of '/data/app/' (10)"; } TEST_F(UtilsTest, AppendAndIncrement_Normal) { size_t dst_size = 10; char dst[dst_size]; char *dstp = dst; const char* src = "FOO"; EXPECT_EQ(0, append_and_increment(&dstp, src, &dst_size)) << "String should append successfully"; EXPECT_STREQ("FOO", dst) << "String should append correctly"; EXPECT_EQ(0, append_and_increment(&dstp, src, &dst_size)) << "String should append successfully again"; EXPECT_STREQ("FOOFOO", dst) << "String should append correctly again"; } TEST_F(UtilsTest, AppendAndIncrement_TooBig) { size_t dst_size = 5; char dst[dst_size]; char *dstp = dst; const char* src = "FOO"; EXPECT_EQ(0, append_and_increment(&dstp, src, &dst_size)) << "String should append successfully"; EXPECT_STREQ("FOO", dst) << "String should append correctly"; EXPECT_EQ(-1, append_and_increment(&dstp, src, &dst_size)) << "String should fail because it's too large to fit"; } }