// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*- // vim: ts=8 sw=2 smarttab /* * Ceph - scalable distributed file system * * Copyright (C) 2011 New Dream Network * * This is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License version 2.1, as published by the Free Software * Foundation. See file COPYING. * */ #include "common/ceph_mutex.h" #include "common/Cond.h" #include "common/admin_socket.h" #include "common/admin_socket_client.h" #include "common/ceph_argparse.h" #include "gtest/gtest.h" #include #include #include #include class AdminSocketTest { public: explicit AdminSocketTest(AdminSocket *asokc) : m_asokc(asokc) { } bool init(const std::string &uri) { return m_asokc->init(uri); } string bind_and_listen(const std::string &sock_path, int *fd) { return m_asokc->bind_and_listen(sock_path, fd); } bool shutdown() { m_asokc->shutdown(); return true; } AdminSocket *m_asokc; }; TEST(AdminSocket, Teardown) { std::unique_ptr asokc = std::make_unique(g_ceph_context); AdminSocketTest asoct(asokc.get()); ASSERT_EQ(true, asoct.shutdown()); } TEST(AdminSocket, TeardownSetup) { std::unique_ptr asokc = std::make_unique(g_ceph_context); AdminSocketTest asoct(asokc.get()); ASSERT_EQ(true, asoct.shutdown()); ASSERT_EQ(true, asoct.init(get_rand_socket_path())); ASSERT_EQ(true, asoct.shutdown()); } TEST(AdminSocket, SendHelp) { std::unique_ptr asokc = std::make_unique(g_ceph_context); AdminSocketTest asoct(asokc.get()); ASSERT_EQ(true, asoct.shutdown()); ASSERT_EQ(true, asoct.init(get_rand_socket_path())); AdminSocketClient client(get_rand_socket_path()); { string help; ASSERT_EQ("", client.do_request("{\"prefix\":\"help\"}", &help)); ASSERT_NE(string::npos, help.find("\"list available commands\"")); } { string help; ASSERT_EQ("", client.do_request("{" " \"prefix\":\"help\"," " \"format\":\"xml\"," "}", &help)); ASSERT_NE(string::npos, help.find(">list available commands<")); } { string help; ASSERT_EQ("", client.do_request("{" " \"prefix\":\"help\"," " \"format\":\"UNSUPPORTED\"," "}", &help)); ASSERT_NE(string::npos, help.find("\"list available commands\"")); } ASSERT_EQ(true, asoct.shutdown()); } TEST(AdminSocket, SendNoOp) { std::unique_ptr asokc = std::make_unique(g_ceph_context); AdminSocketTest asoct(asokc.get()); ASSERT_EQ(true, asoct.shutdown()); ASSERT_EQ(true, asoct.init(get_rand_socket_path())); AdminSocketClient client(get_rand_socket_path()); string version; ASSERT_EQ("", client.do_request("{\"prefix\":\"0\"}", &version)); ASSERT_EQ(CEPH_ADMIN_SOCK_VERSION, version); ASSERT_EQ(true, asoct.shutdown()); } TEST(AdminSocket, SendTooLongRequest) { std::unique_ptr asokc = std::make_unique(g_ceph_context); AdminSocketTest asoct(asokc.get()); ASSERT_EQ(true, asoct.shutdown()); ASSERT_EQ(true, asoct.init(get_rand_socket_path())); AdminSocketClient client(get_rand_socket_path()); string version; string request(16384, 'a'); //if admin_socket cannot handle it, segfault will happened. ASSERT_NE("", client.do_request(request, &version)); ASSERT_EQ(true, asoct.shutdown()); } class MyTest : public AdminSocketHook { int call(std::string_view command, const cmdmap_t& cmdmap, Formatter *f, std::ostream& ss, bufferlist& result) override { std::vector args; TOPNSPC::common::cmd_getval(cmdmap, "args", args); result.append(command); result.append("|"); string resultstr; for (std::vector::iterator it = args.begin(); it != args.end(); ++it) { if (it != args.begin()) resultstr += ' '; resultstr += *it; } result.append(resultstr); return 0; } }; TEST(AdminSocket, RegisterCommand) { std::unique_ptr asokc = std::make_unique(g_ceph_context); std::unique_ptr my_test_asok = std::make_unique(); AdminSocketTest asoct(asokc.get()); ASSERT_EQ(true, asoct.shutdown()); ASSERT_EQ(true, asoct.init(get_rand_socket_path())); AdminSocketClient client(get_rand_socket_path()); ASSERT_EQ(0, asoct.m_asokc->register_command("test", my_test_asok.get(), "")); string result; ASSERT_EQ("", client.do_request("{\"prefix\":\"test\"}", &result)); ASSERT_EQ("test|", result); ASSERT_EQ(true, asoct.shutdown()); } class MyTest2 : public AdminSocketHook { int call(std::string_view command, const cmdmap_t& cmdmap, Formatter *f, std::ostream& ss, bufferlist& result) override { std::vector args; TOPNSPC::common::cmd_getval(cmdmap, "args", args); result.append(command); result.append("|"); string resultstr; for (std::vector::iterator it = args.begin(); it != args.end(); ++it) { if (it != args.begin()) resultstr += ' '; resultstr += *it; } result.append(resultstr); ss << "error stream"; return 0; } }; TEST(AdminSocket, RegisterCommandPrefixes) { std::unique_ptr asokc = std::make_unique(g_ceph_context); std::unique_ptr my_test_asok = std::make_unique(); std::unique_ptr my_test2_asok = std::make_unique(); AdminSocketTest asoct(asokc.get()); ASSERT_EQ(true, asoct.shutdown()); ASSERT_EQ(true, asoct.init(get_rand_socket_path())); AdminSocketClient client(get_rand_socket_path()); ASSERT_EQ(0, asoct.m_asokc->register_command("test name=args,type=CephString,n=N", my_test_asok.get(), "")); ASSERT_EQ(0, asoct.m_asokc->register_command("test command name=args,type=CephString,n=N", my_test2_asok.get(), "")); string result; ASSERT_EQ("", client.do_request("{\"prefix\":\"test\"}", &result)); ASSERT_EQ("test|", result); ASSERT_EQ("", client.do_request("{\"prefix\":\"test command\"}", &result)); ASSERT_EQ("test command|", result); ASSERT_EQ("", client.do_request("{\"prefix\":\"test command\",\"args\":[\"post\"]}", &result)); ASSERT_EQ("test command|post", result); ASSERT_EQ("", client.do_request("{\"prefix\":\"test command\",\"args\":[\" post\"]}", &result)); ASSERT_EQ("test command| post", result); ASSERT_EQ("", client.do_request("{\"prefix\":\"test\",\"args\":[\"this thing\"]}", &result)); ASSERT_EQ("test|this thing", result); ASSERT_EQ("", client.do_request("{\"prefix\":\"test\",\"args\":[\" command post\"]}", &result)); ASSERT_EQ("test| command post", result); ASSERT_EQ("", client.do_request("{\"prefix\":\"test\",\"args\":[\" this thing\"]}", &result)); ASSERT_EQ("test| this thing", result); ASSERT_EQ(true, asoct.shutdown()); } class BlockingHook : public AdminSocketHook { public: ceph::mutex _lock = ceph::make_mutex("BlockingHook::_lock"); ceph::condition_variable _cond; BlockingHook() = default; int call(std::string_view command, const cmdmap_t& cmdmap, Formatter *f, std::ostream& ss, bufferlist& result) override { std::unique_lock l{_lock}; _cond.wait(l); return 0; } }; TEST(AdminSocketClient, Ping) { string path = get_rand_socket_path(); std::unique_ptr asokc = std::make_unique(g_ceph_context); AdminSocketClient client(path); // no socket { bool ok; std::string result = client.ping(&ok); #ifndef _WIN32 // TODO: convert WSA errors. EXPECT_NE(std::string::npos, result.find("No such file or directory")); #endif ASSERT_FALSE(ok); } // file exists but does not allow connections (no process, wrong type...) int fd = ::creat(path.c_str(), 0777); ASSERT_TRUE(fd); // On Windows, we won't be able to remove the file unless we close it // first. ASSERT_FALSE(::close(fd)); { bool ok; std::string result = client.ping(&ok); #ifndef _WIN32 #if defined(__APPLE__) || defined(__FreeBSD__) const char* errmsg = "Socket operation on non-socket"; #else const char* errmsg = "Connection refused"; #endif EXPECT_NE(std::string::npos, result.find(errmsg)); #endif /* _WIN32 */ ASSERT_FALSE(ok); } // a daemon is connected to the socket { AdminSocketTest asoct(asokc.get()); ASSERT_TRUE(asoct.init(path)); bool ok; std::string result = client.ping(&ok); EXPECT_EQ("", result); ASSERT_TRUE(ok); ASSERT_TRUE(asoct.shutdown()); } // hardcoded five seconds timeout prevents infinite blockage { AdminSocketTest asoct(asokc.get()); BlockingHook *blocking = new BlockingHook(); ASSERT_EQ(0, asoct.m_asokc->register_command("0", blocking, "")); ASSERT_TRUE(asoct.init(path)); bool ok; std::string result = client.ping(&ok); #ifndef _WIN32 EXPECT_NE(std::string::npos, result.find("Resource temporarily unavailable")); #endif ASSERT_FALSE(ok); { std::lock_guard l{blocking->_lock}; blocking->_cond.notify_all(); } ASSERT_TRUE(asoct.shutdown()); delete blocking; } } TEST(AdminSocket, bind_and_listen) { string path = get_rand_socket_path(); std::unique_ptr asokc = std::make_unique(g_ceph_context); AdminSocketTest asoct(asokc.get()); // successfull bind { int fd = 0; string message; message = asoct.bind_and_listen(path, &fd); ASSERT_NE(0, fd); ASSERT_EQ("", message); ASSERT_EQ(0, ::compat_closesocket(fd)); ASSERT_EQ(0, ::unlink(path.c_str())); } // silently discard an existing file { int fd = 0; string message; int fd2 = ::creat(path.c_str(), 0777); ASSERT_TRUE(fd2); // On Windows, we won't be able to remove the file unless we close it // first. ASSERT_FALSE(::close(fd2)); message = asoct.bind_and_listen(path, &fd); ASSERT_NE(0, fd); ASSERT_EQ("", message); ASSERT_EQ(0, ::compat_closesocket(fd)); ASSERT_EQ(0, ::unlink(path.c_str())); } // do not take over a live socket { ASSERT_TRUE(asoct.init(path)); int fd = 0; string message; message = asoct.bind_and_listen(path, &fd); std::cout << "message: " << message << std::endl; EXPECT_NE(std::string::npos, message.find("File exists")); ASSERT_TRUE(asoct.shutdown()); } } /* * Local Variables: * compile-command: "cd .. ; * make unittest_admin_socket && * valgrind \ * --max-stackframe=20000000 --tool=memcheck \ * ./unittest_admin_socket --debug-asok 20 # --gtest_filter=AdminSocket*.* * " * End: */