int main(void) { plan(5); test_addr( "0.0.0.0", 0x0); test_addr( "127.0.0.0", 0x7f000000UL); test_addr("255.255.255.255", 0xffffffffUL); test_addr("172.200.232.199", 0xacc8e8c7UL); test_addr( "1.2.3.4", 0x01020304UL); return 0; }
bool Client::headerTest() { int length; bool unused_auth; QHostAddress test_addr("1.2.3.4"); QHostAddress test_addr_v6("2001:0db8:85a3:0000:0000:8a2e:1010:2020"); quint16 test_port = 56; QSS::Address test_res, test_v6(test_addr_v6, test_port); QByteArray packed = QSS::Common::packAddress(test_v6); QSS::Common::parseHeader(packed, test_res, length, unused_auth); bool success = (test_v6 == test_res); if (!success) { QSS::Common::qOut << test_v6.toString() << " --> " << test_res.toString() << endl; } packed = QSS::Common::packAddress(test_addr, test_port); QSS::Common::parseHeader(packed, test_res, length, unused_auth); bool success2 = ((test_res.getFirstIP() == test_addr) && (test_res.getPort() == test_port)); if (!success2) { QSS::Common::qOut << test_addr.toString().toLocal8Bit() << ":" << test_port << " --> " << test_res.toString() << endl; } return success & success2; }
TEST_F(AddrinfoTest, all) { std::string test_addr("192.168.0.1"); int test_port = 10000; linear::Addrinfo ai = linear::Addrinfo(test_addr, test_port); ASSERT_EQ(ai.addr, test_addr); ASSERT_EQ(ai.port, test_port); std::ostringstream os; struct addrinfo hints; struct addrinfo *res; test_addr = "192.168.0.2"; test_port = 10001; os << test_port; memset(&hints, 0, sizeof(hints)); getaddrinfo(test_addr.c_str(), os.str().c_str(), &hints, &res); ai = linear::Addrinfo(res->ai_addr); ASSERT_EQ(ai.addr, test_addr); ASSERT_EQ(ai.port, test_port); test_addr = "::1"; test_port = 10002; os.str(""); os.clear(std::stringstream::goodbit); os << test_port; memset(&hints, 0, sizeof(hints)); getaddrinfo(test_addr.c_str(), os.str().c_str(), &hints, &res); ai = linear::Addrinfo(res->ai_addr); ASSERT_EQ(ai.addr, test_addr); ASSERT_EQ(ai.port, test_port); }
int main(int argc, char *argv[]) { int raw_sock, tcp_sock, udp_sock; if (geteuid() != 0) errx(-1, "FAIL: root privilege required"); raw_sock = socket(PF_INET, SOCK_RAW, 0); if (raw_sock == -1) err(-1, "FAIL: socket(PF_INET, SOCK_RAW)"); tcp_sock = socket(PF_INET, SOCK_STREAM, 0); if (raw_sock == -1) err(-1, "FAIL: socket(PF_INET, SOCK_STREAM)"); udp_sock = socket(PF_INET, SOCK_DGRAM, 0); if (raw_sock == -1) err(-1, "FAIL: socket(PF_INET, SOCK_DGRAM)"); test_ttl(raw_sock, tcp_sock, udp_sock); test_loop(raw_sock, tcp_sock, udp_sock); test_if(raw_sock, tcp_sock, udp_sock); test_addr(raw_sock, tcp_sock, udp_sock); close(udp_sock); close(tcp_sock); close(raw_sock); test_udp(); return (0); }
int main(int argc, char** argv) { printf(" ICONV TESTS\n"); printf("====================\n\n"); init (argc, argv); test_addr(); printf("\ntest_backendhelpers RESULTS: %d test(s) done. %d error(s).\n", nbTest, nbError); return nbError; }
bool Client::headerTest() { int length; QHostAddress test_addr("1.2.3.4"); QHostAddress test_addr_v6("2001:0db8:85a3:0000:0000:8a2e:1010:2020"); uint16_t test_port = 56; QSS::Address test_res, test_v6(test_addr_v6, test_port); std::string packed = QSS::Common::packAddress(test_v6); QSS::Common::parseHeader(packed, test_res, length); bool success = (test_v6 == test_res); if (!success) { qWarning("%s --> %s", test_v6.toString().data(), test_res.toString().data()); } packed = QSS::Common::packAddress(test_addr, test_port); QSS::Common::parseHeader(packed, test_res, length); bool success2 = ((test_res.getFirstIP() == test_addr) && (test_res.getPort() == test_port)); if (!success2) { QDebug(QtMsgType::QtWarningMsg).noquote().nospace() << test_addr.toString() << ":" << test_port << " --> " << test_res.toString().data(); } return success & success2; }
int main(int argc, char **argv) { debug_init(stdout); save_fx(fx_orig); memcpy(&fx_orig[240], scratch_orig, 4*sizeof(long)); memcpy(&fx_orig[256], taint_orig, 8*sizeof(long)); offset = (long)taintmem_test - (long)mem_test; codeexec(NULL, 0, (long *)regs_orig); init_threads(); test_reg2(taint_copy_reg32_to_reg32, ref_copy_reg32_to_reg32); test_reg2(taint_copy_reg16_to_reg16, ref_copy_reg16_to_reg16); test_reg2(taint_copy_reg8_to_reg8, ref_copy_reg8_to_reg8); test_mem(taint_copy_mem32_to_reg32, ref_copy_mem32_to_reg32); test_mem(taint_copy_mem16_to_reg16, ref_copy_mem16_to_reg16); test_mem(taint_copy_mem8_to_reg8, ref_copy_mem8_to_reg8); test_mem(taint_copy_reg32_to_mem32, ref_copy_reg32_to_mem32); test_mem(taint_copy_reg16_to_mem16, ref_copy_reg16_to_mem16); test_mem(taint_copy_reg8_to_mem8, ref_copy_reg8_to_mem8); test_stackop(taint_copy_push_reg32, ref_copy_push_reg32); test_stackop(taint_copy_push_reg16, ref_copy_push_reg16); test_mem(taint_copy_push_mem32, ref_copy_push_mem32); test_mem(taint_copy_push_mem16, ref_copy_push_mem16); test_stackop(taint_copy_pop_reg32, ref_copy_pop_reg32); test_stackop(taint_copy_pop_reg16, ref_copy_pop_reg16); test_mem(taint_copy_pop_mem32, ref_copy_pop_mem32); test_mem(taint_copy_pop_mem16, ref_copy_pop_mem16); test_addr(taint_copy_eax_to_addr32, ref_copy_eax_to_addr32); test_addr(taint_copy_ax_to_addr16, ref_copy_ax_to_addr16); test_addr(taint_copy_al_to_addr8, ref_copy_al_to_addr8); test_addr(taint_copy_addr32_to_eax, ref_copy_addr32_to_eax); test_addr(taint_copy_addr16_to_ax, ref_copy_addr16_to_ax); test_addr(taint_copy_addr8_to_al, ref_copy_addr8_to_al); test_impl(taint_copy_eax_to_str32, ref_copy_eax_to_str32); test_impl(taint_copy_ax_to_str16, ref_copy_ax_to_str16); test_impl(taint_copy_al_to_str8, ref_copy_al_to_str8); test_impl(taint_copy_str32_to_eax, ref_copy_str32_to_eax); test_impl(taint_copy_str16_to_ax, ref_copy_str16_to_ax); test_impl(taint_copy_str8_to_al, ref_copy_str8_to_al); test_impl(taint_copy_str32_to_str32, ref_copy_str32_to_str32); test_impl(taint_copy_str16_to_str16, ref_copy_str16_to_str16); test_impl(taint_copy_str8_to_str8, ref_copy_str8_to_str8); test_reg(taint_erase_reg32, ref_erase_reg32); test_reg(taint_erase_reg16, ref_erase_reg16); test_reg(taint_erase_reg8, ref_erase_reg8); test_mem(taint_erase_mem32, ref_erase_mem32); test_mem(taint_erase_mem16, ref_erase_mem16); test_mem(taint_erase_mem8, ref_erase_mem8); test_reg(taint_erase_hireg16, ref_erase_hireg16); test_impl(taint_erase_push32, ref_erase_push32); test_impl(taint_erase_push16, ref_erase_push16); test_reg2(taint_or_reg32_to_reg32, ref_or_reg32_to_reg32); test_reg2(taint_or_reg16_to_reg16, ref_or_reg16_to_reg16); test_reg2(taint_or_reg8_to_reg8, ref_or_reg8_to_reg8); test_mem(taint_or_reg32_to_mem32, ref_or_reg32_to_mem32); test_mem(taint_or_reg16_to_mem16, ref_or_reg16_to_mem16); test_mem(taint_or_reg8_to_mem8, ref_or_reg8_to_mem8); test_mem(taint_or_mem32_to_reg32, ref_or_mem32_to_reg32); test_mem(taint_or_mem16_to_reg16, ref_or_mem16_to_reg16); test_mem(taint_or_mem8_to_reg8, ref_or_mem8_to_reg8); test_mem(taint_xor_reg32_to_mem32, ref_xor_reg32_to_mem32); test_mem(taint_xor_reg16_to_mem16, ref_xor_reg16_to_mem16); test_mem(taint_xor_reg8_to_mem8, ref_xor_reg8_to_mem8); test_mem(taint_xor_mem32_to_reg32, ref_xor_mem32_to_reg32); test_mem(taint_xor_mem16_to_reg16, ref_xor_mem16_to_reg16); test_mem(taint_xor_mem8_to_reg8, ref_xor_mem8_to_reg8); test_reg2(taint_swap_reg32_reg32, ref_swap_reg32_reg32); test_reg2(taint_swap_reg16_reg16, ref_swap_reg16_reg16); test_reg2(taint_swap_reg8_reg8, ref_swap_reg8_reg8); test_mem(taint_swap_reg32_mem32, ref_swap_reg32_mem32); test_mem(taint_swap_reg16_mem16, ref_swap_reg16_mem16); test_mem(taint_swap_reg8_mem8, ref_swap_reg8_mem8); test_reg2(taint_copy_reg16_to_reg32, ref_copy_reg16_to_reg32); test_reg2(taint_copy_reg8_to_reg32, ref_copy_reg8_to_reg32); test_reg2(taint_copy_reg8_to_reg16, ref_copy_reg8_to_reg16); test_mem(taint_copy_mem16_to_reg32, ref_copy_mem16_to_reg32); test_mem(taint_copy_mem8_to_reg32, ref_copy_mem8_to_reg32); test_mem(taint_copy_mem8_to_reg16, ref_copy_mem8_to_reg16); test_impl2(taint_erase_eax_edx, ref_erase_eax_edx); test_impl2(taint_erase_ax_dx, ref_erase_ax_dx); test_impl2(taint_erase_eax, ref_erase_eax); test_impl2(taint_erase_ax, ref_erase_ax); test_impl2(taint_erase_al, ref_erase_al); test_pushpop(taint_copy_popa32, ref_copy_popa32, (long)mem_test); test_pushpop(taint_copy_popa16, ref_copy_popa16, (long)mem_test); test_pushpop(taint_copy_pusha32, ref_copy_pusha32, 32+(long)mem_test); test_pushpop(taint_copy_pusha16, ref_copy_pusha16, 32+(long)mem_test); test_impl(taint_leave32, ref_leave32); test_impl(taint_leave16, ref_leave16); test_cmpxchg(taint_cmpxchg8_pre, taint_cmpxchg8_post, ref_cmpxchg8); test_cmpxchg(taint_cmpxchg16_pre, taint_cmpxchg16_post, ref_cmpxchg16); test_cmpxchg(taint_cmpxchg32_pre, taint_cmpxchg32_post, ref_cmpxchg32); test_cmpxchg(taint_cmpxchg8b_pre, taint_cmpxchg8b_post, ref_cmpxchg8b); mrm_generator(test_lea); exit(err); }