/* Copyright (C) 2017 Mike Fleetwood * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, see . */ /* Test PasswordRAMStore * * NOTE: * As well as calling the public API of PasswordRAMStore this unit testing also accesses * the private members of PasswordRAMStore and uses knowledge of the implementation, * making this white box testing. This is so that the hidden behaviour of zeroing * password storing memory before and after use can be tested. * * WARNING: * Each test fixture would normally initialise separate resources to make the tests * independent of each other. However the password store is a single long lived shared * resource. Therefore, so that each test fixture is independent of all the others, the * password store must be returned to it's original state of being empty before each * fixture completes. * * Reference: * Google Test, Advanced Guide, Sharing Resources Between Tests in the Same Test Case * https://github.com/google/googletest/blob/master/googletest/docs/AdvancedGuide.md#sharing-resources-between-tests-in-the-same-test-case */ #include "PasswordRAMStore.h" #include "gtest/gtest.h" #include #include #include #include #include namespace GParted { // Generate repeatable unique keys static const char * gen_key( unsigned int i ) { static char buf[14]; snprintf( buf, sizeof( buf ), "key%u", i ); return buf; } // Generate repeatable "passwords" exactly 20 characters long static const char * gen_passwd( unsigned int i ) { static char buf[21]; snprintf( buf, sizeof( buf ), "password%03u ", i ); return buf; } static bool mem_is_zero( const char * mem, size_t len ) { while ( len-- > 0 ) { if ( *mem++ != '\0' ) { return false; } } return true; } // Explicit test fixture class for common setup and sharing of the underlying password // store address. class PasswordRAMStoreTest : public ::testing::Test { protected: PasswordRAMStoreTest() : looked_up_pw( NULL ) {}; static void SetUpTestCase(); static void erase_all() { PasswordRAMStore::erase_all(); }; static const char * protected_mem; std::string pw; const char * looked_up_pw; size_t looked_up_len; }; // Initialise test case class static member. const char * PasswordRAMStoreTest::protected_mem = NULL; const size_t ProtectedMemSize = 4096; // [Implementation knowledge: size] // Common test case initialisation recording the underlying password store address. void PasswordRAMStoreTest::SetUpTestCase() { protected_mem = PasswordRAMStore::get_protected_mem(); ASSERT_TRUE( protected_mem != NULL ) << __func__ << "(): No locked virtual memory for password RAM store"; } TEST_F( PasswordRAMStoreTest, Initialisation ) { // Test locked memory is initialised with all zeros. EXPECT_TRUE( mem_is_zero( protected_mem, ProtectedMemSize ) ); } TEST_F( PasswordRAMStoreTest, UnknownPasswordLookup ) { // Test lookup of non-existent password fails. looked_up_pw = PasswordRAMStore::lookup( "key-unknown" ); EXPECT_TRUE( looked_up_pw == NULL ); } TEST_F( PasswordRAMStoreTest, UnknownPasswordErasure ) { // Test erase non-existent password fails. EXPECT_FALSE( PasswordRAMStore::erase( "key-unknown" ) ); } TEST_F( PasswordRAMStoreTest, SinglePassword ) { // Test a single password can be stored, looked up and erased (and zeroed). pw = "password"; EXPECT_TRUE( PasswordRAMStore::store( "key-single", pw.c_str() ) ); looked_up_pw = PasswordRAMStore::lookup( "key-single" ); EXPECT_STREQ( pw.c_str(), looked_up_pw ); looked_up_len = strlen( looked_up_pw ); EXPECT_TRUE( PasswordRAMStore::erase( "key-single" ) ); EXPECT_TRUE( mem_is_zero( looked_up_pw, looked_up_len ) ); EXPECT_TRUE( mem_is_zero( protected_mem, ProtectedMemSize ) ); } TEST_F( PasswordRAMStoreTest, IdenticalPassword ) { // Test a password can be saved twice with the same key and looked up (and the // single password can be erased and zeroed). pw = "password"; EXPECT_TRUE( PasswordRAMStore::store( "key-single", pw.c_str() ) ); EXPECT_TRUE( PasswordRAMStore::store( "key-single", pw.c_str() ) ); looked_up_pw = PasswordRAMStore::lookup( "key-single" ); EXPECT_STREQ( pw.c_str(), looked_up_pw ); looked_up_len = strlen( looked_up_pw ); EXPECT_TRUE( PasswordRAMStore::erase( "key-single" ) ); EXPECT_TRUE( mem_is_zero( looked_up_pw, looked_up_len ) ); EXPECT_TRUE( mem_is_zero( protected_mem, ProtectedMemSize ) ); } TEST_F( PasswordRAMStoreTest, ReplacePassword ) { // Test a password can be saved and looked up, then saved again with a different // password using the same key and looked up (and the single replaced password // is erased and zeroed). pw = "password"; EXPECT_TRUE( PasswordRAMStore::store( "key-single", pw.c_str() ) ); looked_up_pw = PasswordRAMStore::lookup( "key-single" ); EXPECT_STREQ( pw.c_str(), looked_up_pw ); pw = "password2"; EXPECT_TRUE( PasswordRAMStore::store( "key-single", pw.c_str() ) ); looked_up_pw = PasswordRAMStore::lookup( "key-single" ); EXPECT_STREQ( pw.c_str(), looked_up_pw ); looked_up_len = strlen( looked_up_pw ); EXPECT_TRUE( PasswordRAMStore::erase( "key-single" ) ); EXPECT_TRUE( mem_is_zero( looked_up_pw, looked_up_len ) ); EXPECT_TRUE( mem_is_zero( protected_mem, ProtectedMemSize ) ); } TEST_F( PasswordRAMStoreTest, OneHundredPasswordsForwards ) { // Test 100, 20 character passwords can be stored, looked up and erased (and // zeroed). Passwords are erased forwards (first stored to last stored). unsigned int i; for ( i = 0 ; i < 100 ; i ++ ) { pw = gen_passwd( i ); EXPECT_TRUE( PasswordRAMStore::store( gen_key(i), pw.c_str() ) ); } for ( i = 0 ; i < 100 ; i ++ ) { pw = gen_passwd( i ); looked_up_pw = PasswordRAMStore::lookup( gen_key(i) ); EXPECT_STREQ( pw.c_str(), looked_up_pw ); } for ( i = 0 ; i < 100 ; i ++ ) { pw = gen_passwd( i ); looked_up_pw = PasswordRAMStore::lookup( gen_key(i) ); looked_up_len = strlen( looked_up_pw ); EXPECT_TRUE( PasswordRAMStore::erase( gen_key(i) ) ); EXPECT_TRUE( mem_is_zero( looked_up_pw, looked_up_len ) ); } EXPECT_TRUE( mem_is_zero( protected_mem, ProtectedMemSize ) ); } TEST_F( PasswordRAMStoreTest, OneHundredPasswordsBackwards ) { // Test 100, 20 character passwords can be stored, looked up and erased (and // zeroed). Passwords are erased backwards (last stored to first stored). unsigned int i; for ( i = 0 ; i < 100 ; i ++ ) { pw = gen_passwd( i ); EXPECT_TRUE( PasswordRAMStore::store( gen_key(i), pw.c_str() ) ); } for ( i = 0 ; i < 100 ; i ++ ) { pw = gen_passwd( i ); looked_up_pw = PasswordRAMStore::lookup( gen_key(i) ); EXPECT_STREQ( pw.c_str(), looked_up_pw ); } for ( i = 100; i-- > 0 ; ) { pw = gen_passwd( i ); looked_up_pw = PasswordRAMStore::lookup( gen_key(i) ); looked_up_len = strlen( looked_up_pw ); EXPECT_TRUE( PasswordRAMStore::erase( gen_key(i) ) ); EXPECT_TRUE( mem_is_zero( looked_up_pw, looked_up_len ) ); } EXPECT_TRUE( mem_is_zero( protected_mem, ProtectedMemSize ) ); } TEST_F( PasswordRAMStoreTest, LongPassword ) { // Test a 4095 byte password can be stored and looked up (and erased and zeroed). // [Implementation knowledge: size] pw = std::string( ProtectedMemSize-1, 'X' ); EXPECT_TRUE( PasswordRAMStore::store( "key-long", pw.c_str() ) ); looked_up_pw = PasswordRAMStore::lookup( "key-long" ); EXPECT_STREQ( pw.c_str(), looked_up_pw ); looked_up_len = strlen( looked_up_pw ); EXPECT_TRUE( PasswordRAMStore::erase( "key-long" ) ); EXPECT_TRUE( mem_is_zero( looked_up_pw, looked_up_len ) ); EXPECT_TRUE( mem_is_zero( protected_mem, ProtectedMemSize ) ); } TEST_F( PasswordRAMStoreTest, TooLongPassword ) { // Test a 4096 byte password can't be stored nor looked up or erased. // [Implementation knowledge: size] std::string pw = std::string( ProtectedMemSize, 'X' ); EXPECT_FALSE( PasswordRAMStore::store( "key-too-long", pw.c_str() ) ); EXPECT_TRUE( mem_is_zero( protected_mem, ProtectedMemSize ) ); looked_up_pw = PasswordRAMStore::lookup( "key-too-long" ); EXPECT_TRUE( looked_up_pw == NULL ); EXPECT_FALSE(PasswordRAMStore::erase("key-too-long")); EXPECT_TRUE( mem_is_zero( protected_mem, ProtectedMemSize ) ); } TEST_F( PasswordRAMStoreTest, TotalErasure ) { // Test all passwords are erased (and zeroed using the same code called during // password cache destruction). unsigned int i; for ( i = 0 ; i < 100 ; i ++ ) { pw = gen_passwd( i ); EXPECT_TRUE( PasswordRAMStore::store( gen_key(i), pw.c_str() ) ); } EXPECT_FALSE( mem_is_zero( protected_mem, ProtectedMemSize ) ); PasswordRAMStoreTest::erase_all(); EXPECT_TRUE( mem_is_zero( protected_mem, ProtectedMemSize ) ); } } // namespace GParted