/* MIT License * * Copyright (c) The c-ares project and its contributors * * 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 (including the next * paragraph) 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. * * SPDX-License-Identifier: MIT */ // -*- mode: c++ -*- #ifndef ARES_TEST_H #define ARES_TEST_H #include "ares_setup.h" #include "dns-proto.h" // Include ares internal file for DNS protocol constants #include "ares_nameser.h" #include "gtest/gtest.h" #include "gmock/gmock.h" #if defined(HAVE_USER_NAMESPACE) && defined(HAVE_UTS_NAMESPACE) # define HAVE_CONTAINER #endif #include #include #include #include #include #include #include #include #include #include #include namespace ares { typedef unsigned char byte; namespace test { extern bool verbose; extern unsigned short mock_port; extern const std::vector both_families; extern const std::vector ipv4_family; extern const std::vector ipv6_family; extern const std::vector> both_families_both_modes; extern const std::vector> ipv4_family_both_modes; extern const std::vector> ipv6_family_both_modes; extern const std::vector> all_evsys_ipv4_family_both_modes; extern const std::vector> all_evsys_ipv6_family_both_modes; extern const std::vector> all_evsys_both_families_both_modes; extern const std::vector> all_evsys_ipv4_family; extern const std::vector> all_evsys_ipv6_family; extern const std::vector> all_evsys_both_families; // Which parameters to use in tests extern std::vector families; extern std::vector> evsys_families; extern std::vector> families_modes; extern std::vector> evsys_families_modes; // Hopefully a more accurate sleep than sleep_for() void ares_sleep_time(unsigned int ms); // Process all pending work on ares-owned file descriptors, plus // optionally the given set-of-FDs + work function. void ProcessWork(ares_channel_t *channel, std::function()> get_extrafds, std::function process_extra, unsigned int cancel_ms = 0); std::set NoExtraFDs(); const char *af_tostr(int af); const char *mode_tostr(bool mode); std::string PrintFamilyMode(const testing::TestParamInfo> &info); std::string PrintFamily(const testing::TestParamInfo &info); // Test fixture that ensures library initialization, and allows // memory allocations to be failed. class LibraryTest : public ::testing::Test { public: LibraryTest() { EXPECT_EQ(ARES_SUCCESS, ares_library_init_mem( ARES_LIB_INIT_ALL, &LibraryTest::amalloc, &LibraryTest::afree, &LibraryTest::arealloc)); } ~LibraryTest() { ares_library_cleanup(); ClearFails(); } // Set the n-th malloc call (of any size) from the library to fail. // (nth == 1 means the next call) static void SetAllocFail(int nth); // Set the next malloc call for the given size to fail. static void SetAllocSizeFail(size_t size); // Remove any pending alloc failures. static void ClearFails(); static void *amalloc(size_t size); static void *arealloc(void *ptr, size_t size); static void afree(void *ptr); private: static bool ShouldAllocFail(size_t size); static unsigned long long fails_; static std::map size_fails_; static std::mutex lock_; }; // Test fixture that uses a default channel. class DefaultChannelTest : public LibraryTest { public: DefaultChannelTest() : channel_(nullptr) { /* Enable query cache for live tests */ struct ares_options opts; memset(&opts, 0, sizeof(opts)); opts.qcache_max_ttl = 300; int optmask = ARES_OPT_QUERY_CACHE; EXPECT_EQ(ARES_SUCCESS, ares_init_options(&channel_, &opts, optmask)); EXPECT_NE(nullptr, channel_); } ~DefaultChannelTest() { ares_destroy(channel_); channel_ = nullptr; } // Process all pending work on ares-owned file descriptors. void Process(unsigned int cancel_ms = 0); protected: ares_channel_t *channel_; }; // Test fixture that uses a file-only channel. class FileChannelTest : public LibraryTest { public: FileChannelTest() : channel_(nullptr) { struct ares_options opts; memset(&opts, 0, sizeof(opts)); opts.lookups = strdup("f"); int optmask = ARES_OPT_LOOKUPS; EXPECT_EQ(ARES_SUCCESS, ares_init_options(&channel_, &opts, optmask)); EXPECT_NE(nullptr, channel_); free(opts.lookups); } ~FileChannelTest() { ares_destroy(channel_); channel_ = nullptr; } // Process all pending work on ares-owned file descriptors. void Process(unsigned int cancel_ms = 0); protected: ares_channel_t *channel_; }; // Test fixture that uses a default channel with the specified lookup mode. class DefaultChannelModeTest : public LibraryTest, public ::testing::WithParamInterface { public: DefaultChannelModeTest() : channel_(nullptr) { struct ares_options opts; memset(&opts, 0, sizeof(opts)); opts.lookups = strdup(GetParam().c_str()); int optmask = ARES_OPT_LOOKUPS; EXPECT_EQ(ARES_SUCCESS, ares_init_options(&channel_, &opts, optmask)); EXPECT_NE(nullptr, channel_); free(opts.lookups); } ~DefaultChannelModeTest() { ares_destroy(channel_); channel_ = nullptr; } // Process all pending work on ares-owned file descriptors. void Process(unsigned int cancel_ms = 0); protected: ares_channel_t *channel_; }; // Mock DNS server to allow responses to be scripted by tests. class MockServer { public: MockServer(int family, unsigned short port); ~MockServer(); // Mock method indicating the processing of a particular // request. MOCK_METHOD2(OnRequest, void(const std::string &name, int rrtype)); // Set the reply to be sent next; the query ID field will be overwritten // with the value from the request. void SetReplyData(const std::vector &reply) { exact_reply_ = reply; reply_ = nullptr; } void SetReply(const DNSPacket *reply) { reply_ = reply; exact_reply_.clear(); } // Set the reply to be sent next as well as the request (in string form) that // the server should expect to receive; the query ID field in the reply will // be overwritten with the value from the request. void SetReplyExpRequest(const DNSPacket *reply, const std::string &request) { expected_request_ = request; reply_ = reply; } void SetReplyQID(int qid) { qid_ = qid; } void Disconnect() { reply_ = nullptr; exact_reply_.clear(); for (ares_socket_t fd : connfds_) { sclose(fd); } connfds_.clear(); free(tcp_data_); tcp_data_ = NULL; tcp_data_len_ = 0; } // The set of file descriptors that the server handles. std::set fds() const; // Process activity on a file descriptor. void ProcessFD(ares_socket_t fd); // Ports the server is responding to unsigned short udpport() const { return udpport_; } unsigned short tcpport() const { return tcpport_; } private: void ProcessRequest(ares_socket_t fd, struct sockaddr_storage *addr, ares_socklen_t addrlen, const std::string &reqstr, int qid, const char *name, int rrtype); void ProcessPacket(ares_socket_t fd, struct sockaddr_storage *addr, ares_socklen_t addrlen, byte *data, int len); unsigned short udpport_; unsigned short tcpport_; ares_socket_t udpfd_; ares_socket_t tcpfd_; std::set connfds_; std::vector exact_reply_; const DNSPacket *reply_; std::string expected_request_; int qid_; unsigned char *tcp_data_; size_t tcp_data_len_; }; // Test fixture that uses a mock DNS server. class MockChannelOptsTest : public LibraryTest { public: MockChannelOptsTest(int count, int family, bool force_tcp, bool honor_sysconfig, struct ares_options *givenopts, int optmask); ~MockChannelOptsTest(); // Process all pending work on ares-owned and mock-server-owned file // descriptors. void Process(unsigned int cancel_ms = 0); protected: // NiceMockServer doesn't complain about uninteresting calls. typedef testing::NiceMock NiceMockServer; typedef std::vector> NiceMockServers; std::set fds() const; void ProcessFD(ares_socket_t fd); static NiceMockServers BuildServers(int count, int family, unsigned short base_port); NiceMockServers servers_; // Convenience reference to first server. NiceMockServer &server_; ares_channel_t *channel_; }; class MockChannelTest : public MockChannelOptsTest, public ::testing::WithParamInterface> { public: MockChannelTest() : MockChannelOptsTest(1, GetParam().first, GetParam().second, false, nullptr, 0) { } }; class MockUDPChannelTest : public MockChannelOptsTest, public ::testing::WithParamInterface { public: MockUDPChannelTest() : MockChannelOptsTest(1, GetParam(), false, false, nullptr, 0) { } }; class MockTCPChannelTest : public MockChannelOptsTest, public ::testing::WithParamInterface { public: MockTCPChannelTest() : MockChannelOptsTest(1, GetParam(), true, false, nullptr, 0) { } }; class MockEventThreadOptsTest : public MockChannelOptsTest { public: MockEventThreadOptsTest(int count, ares_evsys_t evsys, int family, bool force_tcp, struct ares_options *givenopts, int optmask) : MockChannelOptsTest(count, family, force_tcp, false, FillOptionsET(&evopts_, givenopts, evsys), optmask | ARES_OPT_EVENT_THREAD) { } ~MockEventThreadOptsTest() { } static struct ares_options *FillOptionsET(struct ares_options *opts, struct ares_options *givenopts, ares_evsys_t evsys) { if (givenopts) { memcpy(opts, givenopts, sizeof(*opts)); } else { memset(opts, 0, sizeof(*opts)); } opts->evsys = evsys; return opts; } void Process(unsigned int cancel_ms = 0); private: struct ares_options evopts_; }; class MockEventThreadTest : public MockEventThreadOptsTest, public ::testing::WithParamInterface> { public: MockEventThreadTest() : MockEventThreadOptsTest(1, std::get<0>(GetParam()), std::get<1>(GetParam()), std::get<2>(GetParam()), nullptr, 0) { } }; class MockUDPEventThreadTest : public MockEventThreadOptsTest, public ::testing::WithParamInterface> { public: MockUDPEventThreadTest() : MockEventThreadOptsTest(1, std::get<0>(GetParam()), std::get<1>(GetParam()), false, nullptr, 0) { } }; class MockTCPEventThreadTest : public MockEventThreadOptsTest, public ::testing::WithParamInterface> { public: MockTCPEventThreadTest() : MockEventThreadOptsTest(1, std::get<0>(GetParam()), std::get<1>(GetParam()), true, nullptr, 0) { } }; // gMock action to set the reply for a mock server. ACTION_P2(SetReplyData, mockserver, data) { mockserver->SetReplyData(data); } ACTION_P2(SetReply, mockserver, reply) { mockserver->SetReply(reply); } // gMock action to set the reply for a mock server, as well as the request (in // string form) that the server should expect to receive. ACTION_P3(SetReplyExpRequest, mockserver, reply, request) { mockserver->SetReplyExpRequest(reply, request); } ACTION_P2(SetReplyQID, mockserver, qid) { mockserver->SetReplyQID(qid); } // gMock action to cancel a channel. ACTION_P2(CancelChannel, mockserver, channel) { ares_cancel(channel); } // gMock action to disconnect all connections. ACTION_P(Disconnect, mockserver) { mockserver->Disconnect(); } // C++ wrapper for struct hostent. struct HostEnt { HostEnt() : addrtype_(-1) { } HostEnt(const struct hostent *hostent); std::string name_; std::vector aliases_; int addrtype_; // AF_INET or AF_INET6 std::vector addrs_; }; std::ostream &operator<<(std::ostream &os, const HostEnt &result); // Structure that describes the result of an ares_host_callback invocation. struct HostResult { HostResult() : done_(false), status_(0), timeouts_(0) { } // Whether the callback has been invoked. bool done_; // Explicitly provided result information. int status_; int timeouts_; // Contents of the hostent structure, if provided. HostEnt host_; }; std::ostream &operator<<(std::ostream &os, const HostResult &result); // C++ wrapper for ares_dns_record_t. struct AresDnsRecord { ~AresDnsRecord() { ares_dns_record_destroy(dnsrec_); dnsrec_ = NULL; } AresDnsRecord() : dnsrec_(NULL) { } void SetDnsRecord(const ares_dns_record_t *dnsrec) { if (dnsrec_ != NULL) { ares_dns_record_destroy(dnsrec_); } if (dnsrec == NULL) { return; } dnsrec_ = ares_dns_record_duplicate(dnsrec); } ares_dns_record_t *dnsrec_ = NULL; }; std::ostream &operator<<(std::ostream &os, const AresDnsRecord &result); // Structure that describes the result of an ares_host_callback invocation. struct QueryResult { QueryResult() : done_(false), status_(ARES_SUCCESS), timeouts_(0) { } // Whether the callback has been invoked. bool done_; // Explicitly provided result information. ares_status_t status_; size_t timeouts_; // Contents of the ares_dns_record_t structure if provided AresDnsRecord dnsrec_; }; std::ostream &operator<<(std::ostream &os, const QueryResult &result); // Structure that describes the result of an ares_callback invocation. struct SearchResult { // Whether the callback has been invoked. bool done_; // Explicitly provided result information. int status_; int timeouts_; std::vector data_; }; std::ostream &operator<<(std::ostream &os, const SearchResult &result); // Structure that describes the result of an ares_nameinfo_callback invocation. struct NameInfoResult { // Whether the callback has been invoked. bool done_; // Explicitly provided result information. int status_; int timeouts_; std::string node_; std::string service_; }; std::ostream &operator<<(std::ostream &os, const NameInfoResult &result); struct AddrInfoDeleter { void operator()(ares_addrinfo *ptr) { if (ptr) { ares_freeaddrinfo(ptr); } } }; // C++ wrapper for struct ares_addrinfo. using AddrInfo = std::unique_ptr; std::ostream &operator<<(std::ostream &os, const AddrInfo &result); // Structure that describes the result of an ares_addrinfo_callback invocation. struct AddrInfoResult { AddrInfoResult() : done_(false), status_(-1), timeouts_(0) { } // Whether the callback has been invoked. bool done_; // Explicitly provided result information. int status_; int timeouts_; // Contents of the ares_addrinfo structure, if provided. AddrInfo ai_; }; std::ostream &operator<<(std::ostream &os, const AddrInfoResult &result); // Standard implementation of ares callbacks that fill out the corresponding // structures. void HostCallback(void *data, int status, int timeouts, struct hostent *hostent); void QueryCallback(void *data, ares_status_t status, size_t timeouts, const ares_dns_record_t *dnsrec); void SearchCallback(void *data, int status, int timeouts, unsigned char *abuf, int alen); void SearchCallbackDnsRec(void *data, ares_status_t status, size_t timeouts, const ares_dns_record_t *dnsrec); void NameInfoCallback(void *data, int status, int timeouts, char *node, char *service); void AddrInfoCallback(void *data, int status, int timeouts, struct ares_addrinfo *res); // Retrieve the name servers used by a channel. std::string GetNameServers(ares_channel_t *channel); // RAII class to temporarily create a directory of a given name. class TransientDir { public: TransientDir(const std::string &dirname); ~TransientDir(); private: std::string dirname_; }; // C++ wrapper around tempnam() std::string TempNam(const char *dir, const char *prefix); // RAII class to temporarily create file of a given name and contents. class TransientFile { public: TransientFile(const std::string &filename, const std::string &contents); ~TransientFile(); protected: std::string filename_; }; // RAII class for a temporary file with the given contents. class TempFile : public TransientFile { public: TempFile(const std::string &contents); const char *filename() const { return filename_.c_str(); } }; #ifdef _WIN32 extern "C" { static int setenv(const char *name, const char *value, int overwrite) { char *buffer; size_t buf_size; if (name == NULL) { return -1; } if (value == NULL) { value = ""; /* For unset */ } if (!overwrite && getenv(name) != NULL) { return -1; } buf_size = strlen(name) + strlen(value) + 1 /* = */ + 1 /* NULL */; buffer = (char *)malloc(buf_size); _snprintf(buffer, buf_size, "%s=%s", name, value); _putenv(buffer); free(buffer); return 0; } static int unsetenv(const char *name) { return setenv(name, NULL, 1); } } /* extern "C" */ #endif // RAII class for a temporary environment variable value. class EnvValue { public: EnvValue(const char *name, const char *value) : name_(name), restore_(false) { char *original = getenv(name); if (original) { restore_ = true; original_ = original; } setenv(name_.c_str(), value, 1); } ~EnvValue() { if (restore_) { setenv(name_.c_str(), original_.c_str(), 1); } else { unsetenv(name_.c_str()); } } private: std::string name_; bool restore_; std::string original_; }; #ifdef HAVE_CONTAINER // Linux-specific functionality for running code in a container, implemented // in ares-test-ns.cc typedef std::function VoidToIntFn; typedef std::vector> NameContentList; class ContainerFilesystem { public: ContainerFilesystem(NameContentList files, const std::string &mountpt); ~ContainerFilesystem(); std::string root() const { return rootdir_; } std::string mountpt() const { return mountpt_; } private: void EnsureDirExists(const std::string &dir); std::string rootdir_; std::string mountpt_; std::list dirs_; std::vector> files_; }; int RunInContainer(ContainerFilesystem *fs, const std::string &hostname, const std::string &domainname, VoidToIntFn fn); # define ICLASS_NAME(casename, testname) Contained##casename##_##testname # define CONTAINED_TEST_F(casename, testname, hostname, domainname, files) \ class ICLASS_NAME(casename, testname) : public casename { \ public: \ ICLASS_NAME(casename, testname)() \ { \ } \ static int InnerTestBody(); \ }; \ TEST_F(ICLASS_NAME(casename, testname), _) \ { \ ContainerFilesystem chroot(files, ".."); \ VoidToIntFn fn(ICLASS_NAME(casename, testname)::InnerTestBody); \ EXPECT_EQ(0, RunInContainer(&chroot, hostname, domainname, fn)); \ } \ int ICLASS_NAME(casename, testname)::InnerTestBody() #define CONTAINED_TEST_P(test_suite_name, test_name, hostname, domainname, files) \ class GTEST_TEST_CLASS_NAME_(test_suite_name, test_name) \ : public test_suite_name { \ public: \ GTEST_TEST_CLASS_NAME_(test_suite_name, test_name)() {} \ int InnerTestBody(); \ void TestBody() \ { \ ContainerFilesystem chroot(files, ".."); \ VoidToIntFn fn = \ [this](void) -> int { \ ares_reinit(this->channel_); \ ares_sleep_time(100); \ return this->InnerTestBody(); \ }; \ EXPECT_EQ(0, RunInContainer(&chroot, hostname, domainname, fn)); \ } \ \ private: \ static int AddToRegistry() { \ ::testing::UnitTest::GetInstance() \ ->parameterized_test_registry() \ .GetTestSuitePatternHolder( \ GTEST_STRINGIFY_(test_suite_name), \ ::testing::internal::CodeLocation(__FILE__, __LINE__)) \ ->AddTestPattern( \ GTEST_STRINGIFY_(test_suite_name), GTEST_STRINGIFY_(test_name), \ new ::testing::internal::TestMetaFactory(), \ ::testing::internal::CodeLocation(__FILE__, __LINE__)); \ return 0; \ } \ static int gtest_registering_dummy_ GTEST_ATTRIBUTE_UNUSED_; \ GTEST_TEST_CLASS_NAME_(test_suite_name, test_name) \ (const GTEST_TEST_CLASS_NAME_(test_suite_name, test_name) &) = delete; \ GTEST_TEST_CLASS_NAME_(test_suite_name, test_name) & operator=( \ const GTEST_TEST_CLASS_NAME_(test_suite_name, \ test_name) &) = delete; /* NOLINT */ \ }; \ int GTEST_TEST_CLASS_NAME_(test_suite_name, \ test_name)::gtest_registering_dummy_ = \ GTEST_TEST_CLASS_NAME_(test_suite_name, test_name)::AddToRegistry(); \ int GTEST_TEST_CLASS_NAME_(test_suite_name, test_name)::InnerTestBody() #endif /* Assigns virtual IO functions to a channel. These functions simply call * the actual system functions. */ class VirtualizeIO { public: VirtualizeIO(ares_channel); ~VirtualizeIO(); static const ares_socket_functions default_functions; private: ares_channel_t *channel_; }; /* * Slightly white-box macro to generate two runs for a given test case: * One with no modifications, and one with all IO functions set to use * the virtual io structure. * Since no magic socket setup or anything is done in the latter case * this should probably only be used for test with very vanilla IO * requirements. */ #define VCLASS_NAME(casename, testname) Virt##casename##_##testname #define VIRT_NONVIRT_TEST_F(casename, testname) \ class VCLASS_NAME(casename, testname) : public casename { \ public: \ VCLASS_NAME(casename, testname)() \ { \ } \ void InnerTestBody(); \ }; \ GTEST_TEST_(casename, testname, VCLASS_NAME(casename, testname), \ ::testing::internal::GetTypeId()) \ { \ InnerTestBody(); \ } \ GTEST_TEST_(casename, testname##_virtualized, \ VCLASS_NAME(casename, testname), \ ::testing::internal::GetTypeId()) \ { \ VirtualizeIO vio(channel_); \ InnerTestBody(); \ } \ void VCLASS_NAME(casename, testname)::InnerTestBody() } // namespace test } // namespace ares #endif