예제 #1
0
Ice::StringSeq
ReplicaGroupFilterI::filter(const string& /* replicaGroupId */, 
                            const Ice::StringSeq& adapters, 
                            const Ice::ConnectionPtr&, 
                            const Ice::Context& ctx)
{
    Ice::Context::const_iterator p = ctx.find("currency");
    if(p == ctx.end())
    {
        return adapters;
    }

    string currency = p->second;

    //
    // Get the Currencies property value from the server descriptor
    // that owns the adapter and only keep adapters for servers that
    // are configured with the currency specified in the client
    // context.
    //
    Ice::StringSeq filteredAdapters;
    for(Ice::StringSeq::const_iterator p = adapters.begin(); p != adapters.end(); ++p)
    {
        if(_facade->getPropertyForAdapter(*p, "Currencies").find(currency) != string::npos)
        {
            filteredAdapters.push_back(*p);
        }
    }
    return filteredAdapters;
}
예제 #2
0
bool AgentAdapter::init(const ::Ice::StringSeq& defaultAgents,const bool is_udp_protocol, const bool is_compress)
{  
    if (defaultAgents.empty())
    {
        XLOG_ERROR("AgentAdapter::init defaultAgent is empty!");
        return false;
    }

    srand(unsigned(time(NULL)));
    Ice::PropertiesPtr props=Ice::createProperties();
    props->setProperty("Ice.MessageSizeMax", ICE_MESSAGE_SIZE_MAX);
    props->setProperty("Ice.Override.Timeout", ICE_TIMEOUT_MILLISECONDS);
	Ice::InitializationData id;
    id.properties=props;
    _ic = ::Ice::initialize(id);

    srand((unsigned) time(NULL));
    current_agent_prx_number=0;

    std::vector<slice::AgentPrx> _prxs;
    for (::Ice::StringSeq::const_iterator it = defaultAgents.begin(); it != defaultAgents.end();
            ++it)
    {
        slice::AgentPrx prx = Util::getPrx<slice::AgentPrx>(_ic, *it, is_udp_protocol, 1000, is_compress);
	_prxs.push_back(prx);
    }
    agent_prxs.swap(_prxs);

    return true;
}
예제 #3
0
void
LibraryI::remove(const BookDescription& description)
{
    IceUtil::Mutex::Lock lock(*this);
    
    //
    // Note: no need to catch and retry on deadlock since all access to
    // _authors is serialized.
    //

    try
    {
        StringIsbnSeqDict::iterator p = _authors.find(description.authors);
        
        assert(p != _authors.end());

        //
        // Remove the isbn number from the sequence.
        //
        Ice::StringSeq isbnSeq  = p->second;
        isbnSeq.erase(remove_if(isbnSeq.begin(), isbnSeq.end(), bind2nd(equal_to<string>(), description.isbn)),
                         isbnSeq.end());
        
        if(isbnSeq.empty())
        {
            //
            // If there are no further associated isbn numbers then remove
            // the record.
            //
            _authors.erase(p);
        }
        else
        {
            //
            // Otherwise, write back the new record.
            //
            p.set(isbnSeq);
        }

        //
        // This can throw EvictorDeactivatedException (which indicates
        // an internal error). The exception is currently ignored.
        //
        _evictor->remove(createBookIdentity(description.isbn));
    }
    catch(const Freeze::DatabaseException& ex)
    {
        DatabaseException e;
        e.message = ex.message;
        throw e;
    }
}
예제 #4
0
파일: NodeI.cpp 프로젝트: chenbk85/ice
void
NodeI::checkConsistency(const NodeSessionPrx& session)
{
    //
    // Only do the consistency check on the startup. This ensures that servers can't
    // be removed by a bogus master when the master session is re-established.
    //
    if(_consistencyCheckDone)
    {
        return;
    }
    _consistencyCheckDone = true;

    //
    // We use a serial number to keep track of the concurrent changes
    // on the node. When a server is loaded/destroyed the serial is
    // incremented. This allows to ensure that the list of servers
    // returned by the registry is consistent with the servers
    // currently deployed on the node: if the serial didn't change
    // after getting the list of servers from the registry, we have
    // the accurate list of servers that should be deployed on the
    // node.
    //
    unsigned long serial = 0;
    Ice::StringSeq servers;
    vector<ServerCommandPtr> commands;
    while(true)
    {
        {
            Lock sync(*this);
            if(serial == _serial)
            {
                _serial = 1; // We can reset the serial number.
                commands = checkConsistencyNoSync(servers);
                break;
            }
            serial = _serial;
        }
        assert(session);
        try
        {
            servers = session->getServers();
        }
        catch(const Ice::LocalException&)
        {
            return; // The connection with the session was lost.
        }
        sort(servers.begin(), servers.end());
    }

    for_each(commands.begin(), commands.end(), IceUtil::voidMemFun(&ServerCommand::execute));
}
예제 #5
0
파일: Util.cpp 프로젝트: ming-hai/ice
bool
IcePHP::createStringArray(zval* zv, const Ice::StringSeq& seq)
{
    array_init(zv);
    for(Ice::StringSeq::const_iterator p = seq.begin(); p != seq.end(); ++p)
    {
        if(add_next_index_stringl(zv, STRCAST(p->c_str()), static_cast<uint>(p->length())) == FAILURE)
        {
            return false;
        }
    }

    return true;
}
예제 #6
0
파일: Util.cpp 프로젝트: yuanbaopapa/ice
bool
IcePy::stringSeqToList(const Ice::StringSeq& seq, PyObject* l)
{
    assert(PyList_Check(l));

    for(Ice::StringSeq::const_iterator p = seq.begin(); p != seq.end(); ++p)
    {
        PyObject* str = Py_BuildValue(STRCAST("s"), p->c_str());
        if(!str)
        {
            Py_DECREF(l);
            return false;
        }
        int status = PyList_Append(l, str);
        Py_DECREF(str); // Give ownership to the list.
        if(status < 0)
        {
            Py_DECREF(l);
            return false;
        }
    }

    return true;
}
예제 #7
0
PyObject*
IcePy_loadSlice(PyObject* /*self*/, PyObject* args)
{
    char* cmd;
    PyObject* list = 0;
    if(!PyArg_ParseTuple(args, STRCAST("s|O!"), &cmd, &PyList_Type, &list))
    {
        return 0;
    }

    vector<string> argSeq;
    try
    {
        argSeq = IceUtilInternal::Options::split(cmd);
    }
    catch(const IceUtilInternal::BadOptException& ex)
    {
        PyErr_Format(PyExc_RuntimeError, "error in Slice options: %s", ex.reason.c_str());
        return 0;
    }
    catch(const IceUtilInternal::APIException& ex)
    {
        PyErr_Format(PyExc_RuntimeError, "error in Slice options: %s", ex.reason.c_str());
        return 0;
    }

    if(list)
    {
        if(!listToStringSeq(list, argSeq))
        {
            return 0;
        }
    }

    IceUtilInternal::Options opts;
    opts.addOpt("D", "", IceUtilInternal::Options::NeedArg, "", IceUtilInternal::Options::Repeat);
    opts.addOpt("U", "", IceUtilInternal::Options::NeedArg, "", IceUtilInternal::Options::Repeat);
    opts.addOpt("I", "", IceUtilInternal::Options::NeedArg, "", IceUtilInternal::Options::Repeat);
    opts.addOpt("d", "debug");
    opts.addOpt("", "ice");
    opts.addOpt("", "underscore");
    opts.addOpt("", "checksum");
    opts.addOpt("", "all");

    vector<string> files;
    try
    {
        argSeq.insert(argSeq.begin(), ""); // dummy argv[0]
        files = opts.parse(argSeq);
        if(files.empty())
        {
            PyErr_Format(PyExc_RuntimeError, "no Slice files specified in `%s'", cmd);
            return 0;
        }
    }
    catch(const IceUtilInternal::BadOptException& ex)
    {
        PyErr_Format(PyExc_RuntimeError, "error in Slice options: %s", ex.reason.c_str());
        return 0;
    }
    catch(const IceUtilInternal::APIException& ex)
    {
        PyErr_Format(PyExc_RuntimeError, "error in Slice options: %s", ex.reason.c_str());
        return 0;
    }

    vector<string> cppArgs;
    Ice::StringSeq includePaths;
    bool debug = false;
    bool ice = true; // This must be true so that we can create Ice::Identity when necessary.
    bool underscore = opts.isSet("underscore");
    bool all = false;
    bool checksum = false;
    if(opts.isSet("D"))
    {
        vector<string> optargs = opts.argVec("D");
        for(vector<string>::const_iterator i = optargs.begin(); i != optargs.end(); ++i)
        {
            cppArgs.push_back("-D" + *i);
        }
    }
    if(opts.isSet("U"))
    {
        vector<string> optargs = opts.argVec("U");
        for(vector<string>::const_iterator i = optargs.begin(); i != optargs.end(); ++i)
        {
            cppArgs.push_back("-U" + *i);
        }
    }
    if(opts.isSet("I"))
    {
        includePaths = opts.argVec("I");
        for(vector<string>::const_iterator i = includePaths.begin(); i != includePaths.end(); ++i)
        {
            cppArgs.push_back("-I" + *i);
        }
    }
    debug = opts.isSet("d") || opts.isSet("debug");
    all = opts.isSet("all");
    checksum = opts.isSet("checksum");

    bool ignoreRedefs = false;
    bool keepComments = true;

    for(vector<string>::const_iterator p = files.begin(); p != files.end(); ++p)
    {
        string file = *p;
        Slice::PreprocessorPtr icecpp = Slice::Preprocessor::create("icecpp", file, cppArgs);
        FILE* cppHandle = icecpp->preprocess(keepComments, "-D__SLICE2PY__");

        if(cppHandle == 0)
        {
            PyErr_Format(PyExc_RuntimeError, "Slice preprocessing failed for `%s'", cmd);
            return 0;
        }

        UnitPtr u = Slice::Unit::createUnit(ignoreRedefs, all, ice, underscore);
        int parseStatus = u->parse(file, cppHandle, debug);

        if(!icecpp->close() || parseStatus == EXIT_FAILURE)
        {
            PyErr_Format(PyExc_RuntimeError, "Slice parsing failed for `%s'", cmd);
            u->destroy();
            return 0;
        }

        //
        // Generate the Python code into a string stream.
        //
        ostringstream codeStream;
        IceUtilInternal::Output out(codeStream);
        out.setUseTab(false);

        //
        // Emit a Python magic comment to set the file encoding.
        // It must be the first or second line.
        //
        out << "# -*- coding: utf-8 -*-\n";
        generate(u, all, checksum, includePaths, out);
        u->destroy();

        string code = codeStream.str();

        //
        // We need to invoke Ice.updateModules() so that all of the types we've just generated
        // are made "public".
        //
        code += "\nIce.updateModules()\n";

        PyObjectHandle src = Py_CompileString(const_cast<char*>(code.c_str()), const_cast<char*>(file.c_str()),
                                              Py_file_input);
        if(!src.get())
        {
            return 0;
        }

        PyObjectHandle globals = PyDict_New();
        if(!globals.get())
        {
            return 0;
        }
        PyDict_SetItemString(globals.get(), "__builtins__", PyEval_GetBuiltins());

#if PY_VERSION_HEX >= 0x03000000
        PyObjectHandle val = PyEval_EvalCode(src.get(), globals.get(), 0);
#else
        PyObjectHandle val = PyEval_EvalCode(reinterpret_cast<PyCodeObject*>(src.get()), globals.get(), 0);
#endif
        if(!val.get())
        {
            return 0;
        }
    }

    Py_INCREF(Py_None);
    return Py_None;
}
예제 #8
0
static int
communicatorInit(CommunicatorObject* self, PyObject* args, PyObject* /*kwds*/)
{
    //
    // The argument options are:
    //
    // Ice.initialize()
    // Ice.initialize(args)
    // Ice.initialize(initData)
    // Ice.initialize(configFile)
    // Ice.initialize(args, initData)
    // Ice.initialize(args, configFile)
    //

    PyObject* arg1 = 0;
    PyObject* arg2 = 0;
    if(!PyArg_ParseTuple(args, STRCAST("|OO"), &arg1, &arg2))
    {
        return -1;
    }

    PyObject* argList = 0;
    PyObject* initData = 0;
    PyObject* configFile = 0;

    if(arg1 == Py_None)
    {
        arg1 = 0;
    }

    if(arg2 == Py_None)
    {
        arg2 = 0;
    }

    PyObject* initDataType = lookupType("Ice.InitializationData");

    if(arg1)
    {
        if(PyList_Check(arg1))
        {
            argList = arg1;
        }
        else if(PyObject_IsInstance(arg1, initDataType))
        {
            initData = arg1;
        }
        else if(checkString(arg1))
        {
            configFile = arg1;
        }
        else
        {
            PyErr_Format(PyExc_ValueError,
                STRCAST("initialize expects an argument list, Ice.InitializationData or a configuration filename"));
            return -1;
        }
    }

    if(arg2)
    {
        if(PyList_Check(arg2))
        {
            if(argList)
            {
                PyErr_Format(PyExc_ValueError, STRCAST("unexpected list argument to initialize"));
                return -1;
            }
            argList = arg2;
        }
        else if(PyObject_IsInstance(arg2, initDataType))
        {
            if(initData)
            {
                PyErr_Format(PyExc_ValueError, STRCAST("unexpected Ice.InitializationData argument to initialize"));
                return -1;
            }
            initData = arg2;
        }
        else if(checkString(arg2))
        {
            if(configFile)
            {
                PyErr_Format(PyExc_ValueError, STRCAST("unexpected string argument to initialize"));
                return -1;
            }
            configFile = arg2;
        }
        else
        {
            PyErr_Format(PyExc_ValueError,
                STRCAST("initialize expects an argument list, Ice.InitializationData or a configuration filename"));
            return -1;
        }
    }

    if(initData && configFile)
    {
        PyErr_Format(PyExc_ValueError,
            STRCAST("initialize accepts either Ice.InitializationData or a configuration filename"));
        return -1;
    }

    Ice::StringSeq seq;
    if(argList && !listToStringSeq(argList, seq))
    {
        return -1;
    }

    Ice::InitializationData data;
    DispatcherPtr dispatcherWrapper;

    try
    {
        if(initData)
        {
            PyObjectHandle properties = getAttr(initData, "properties", false);
            PyObjectHandle logger = getAttr(initData, "logger", false);
            PyObjectHandle threadHook = getAttr(initData, "threadHook", false);
            PyObjectHandle threadStart = getAttr(initData, "threadStart", false);
            PyObjectHandle threadStop = getAttr(initData, "threadStop", false);
            PyObjectHandle batchRequestInterceptor = getAttr(initData, "batchRequestInterceptor", false);
            PyObjectHandle dispatcher = getAttr(initData, "dispatcher", false);

            if(properties.get())
            {
                //
                // Get the properties implementation.
                //
                PyObjectHandle impl = getAttr(properties.get(), "_impl", false);
                assert(impl.get());
                data.properties = getProperties(impl.get());
            }

            if(logger.get())
            {
                data.logger = new LoggerWrapper(logger.get());
            }

            if(threadHook.get() || threadStart.get() || threadStop.get())
            {
                data.threadHook = new ThreadHook(threadHook.get(), threadStart.get(), threadStop.get());
            }

            if(dispatcher.get())
            {
                dispatcherWrapper = new Dispatcher(dispatcher.get());
                data.dispatcher = dispatcherWrapper;
            }

            if(batchRequestInterceptor.get())
            {
                data.batchRequestInterceptor = new BatchRequestInterceptor(batchRequestInterceptor.get());
            }
        }

        //
        // We always supply our own implementation of ValueFactoryManager.
        //
        data.valueFactoryManager = new ValueFactoryManager;

        if(!data.properties)
        {
            data.properties = Ice::createProperties();
        }

        if(configFile)
        {
            data.properties->load(getString(configFile));
        }

        if(argList)
        {
            data.properties = Ice::createProperties(seq, data.properties);
        }
    }
    catch(const Ice::Exception& ex)
    {
        setPythonException(ex);
        return -1;
    }

    //
    // Remaining command line options are passed to the communicator
    // as an argument vector in case they contain plug-in properties.
    //
    int argc = static_cast<int>(seq.size());
    char** argv = new char*[argc + 1];
    int i = 0;
    for(Ice::StringSeq::const_iterator s = seq.begin(); s != seq.end(); ++s, ++i)
    {
        argv[i] = strdup(s->c_str());
    }
    argv[argc] = 0;

    data.compactIdResolver = new IdResolver;

    Ice::CommunicatorPtr communicator;
    try
    {
        AllowThreads allowThreads;
        if(argList)
        {
            communicator = Ice::initialize(argc, argv, data);
        }
        else
        {
            communicator = Ice::initialize(data);
        }
    }
    catch(const Ice::Exception& ex)
    {
        for(i = 0; i < argc; ++i)
        {
            free(argv[i]);
        }
        delete[] argv;

        setPythonException(ex);
        return -1;
    }

    //
    // Replace the contents of the given argument list with the filtered arguments.
    //
    if(argList)
    {
        PyList_SetSlice(argList, 0, PyList_Size(argList), 0); // Clear the list.

        for(i = 0; i < argc; ++i)
        {
            PyObjectHandle str = Py_BuildValue(STRCAST("s"), argv[i]);
            PyList_Append(argList, str.get());
        }
    }

    for(i = 0; i < argc; ++i)
    {
        free(argv[i]);
    }
    delete[] argv;

    self->communicator = new Ice::CommunicatorPtr(communicator);

    CommunicatorMap::iterator p = _communicatorMap.find(communicator);
    if(p != _communicatorMap.end())
    {
        _communicatorMap.erase(p);
    }
    _communicatorMap.insert(CommunicatorMap::value_type(communicator, reinterpret_cast<PyObject*>(self)));

    if(dispatcherWrapper)
    {
        self->dispatcher = new DispatcherPtr(dispatcherWrapper);
        dispatcherWrapper->setCommunicator(communicator);
    }

    return 0;
}
예제 #9
0
int
Activator::activate(const string& name,
                    const string& exePath,
                    const string& pwdPath,
#ifndef _WIN32
                    uid_t uid,
                    gid_t gid,
#endif
                    const Ice::StringSeq& options,
                    const Ice::StringSeq& envs,
                    const ServerIPtr& server)
{
    IceUtil::Monitor< IceUtil::Mutex>::Lock sync(*this);

    if(_deactivating)
    {
        throw string("The node is being shutdown.");
    }

    string path = exePath;
    if(path.empty())
    {
        throw string("The server executable path is empty.");
    }

    string pwd = IcePatch2Internal::simplify(pwdPath);
#ifdef _WIN32
    if(!IceUtilInternal::isAbsolutePath(path))
    {
        if(path.find('/') == string::npos)
        {
            //
            // Get the absolute pathname of the executable.
            //
            wchar_t absbuf[_MAX_PATH];
            wchar_t* fPart;
            wstring ext = path.size() <= 4 || path[path.size() - 4] != '.' ? L".exe" : L"";

            //
            // IceGrid doesn't support to use string converters, so don't need to use
            // any string converter in wstringToString conversions.
            //
            if(SearchPathW(NULL, IceUtil::stringToWstring(path).c_str(), ext.c_str(), _MAX_PATH, absbuf, &fPart) == 0)
            {
                if(_traceLevels->activator > 0)
                {
                    Trace out(_traceLevels->logger, _traceLevels->activatorCat);
                    out << "couldn't find `" << path << "' executable.";
                }
                throw string("Couldn't find `" + path + "' executable.");
            }
            path = IceUtil::wstringToString(absbuf);
        }
        else if(!pwd.empty())
        {
            path = pwd + "/" + path;
        }
    }

    //
    // Get the absolute pathname of the working directory.
    //
    // IceGrid doesn't support to use string converters, so
    // don't need to use any string converter in stringToWstring
    // conversions.
    //
    if(!pwd.empty())
    {
        wchar_t absbuf[_MAX_PATH];
        if(_wfullpath(absbuf, IceUtil::stringToWstring(pwd).c_str(), _MAX_PATH) == NULL)
        {
            if(_traceLevels->activator > 0)
            {
                Trace out(_traceLevels->logger, _traceLevels->activatorCat);
                out << "cannot convert `" << pwd << "' into an absolute path";
            }
            throw string("The server working directory path `" + pwd + "' can't be converted into an absolute path.");
        }
        pwd = IceUtil::wstringToString(absbuf);
    }
#endif

    //
    // Setup arguments.
    //
    StringSeq args;
    args.push_back(path);
    args.insert(args.end(), options.begin(), options.end());

    if(_traceLevels->activator > 0)
    {
        Ice::Trace out(_traceLevels->logger, _traceLevels->activatorCat);
        out << "activating server `" << name << "'";
        if(_traceLevels->activator > 1)
        {
            out << "\n";
            out << "path = " << path << "\n";
            if(pwd.empty())
            {
                string cwd;
                if(IceUtilInternal::getcwd(cwd) == 0)
                {
                    out << "pwd = " << cwd << "\n";
                }
            }
            else
            {
                out << "pwd = " << pwd << "\n";
            }
#ifndef _WIN32
            out << "uid/gid = " << uid << "/" << gid << "\n";
#endif
            if(!envs.empty())
            {
                out << "envs = " << toString(envs, ", ") << "\n";
            }
            if(!args.empty())
            {
                out << "args = " << toString(args);
            }
        }
    }

    //
    // Activate and create.
    //
#ifdef _WIN32

    //
    // Compose command line.
    //
    string cmd;
    for(StringSeq::const_iterator p = args.begin(); p != args.end(); ++p)
    {
        if(p != args.begin())
        {
            cmd.push_back(' ');
        }
        //
        // Enclose arguments containing spaces in double quotes.
        //
        if((*p).find(' ') != string::npos)
        {
            cmd.push_back('"');
            cmd.append(*p);
            cmd.push_back('"');
        }
        else
        {
            cmd.append(*p);
        }
    }

    //
    // IceGrid doesn't support to use string converters, so don't need to use
    // any string converter in stringToWstring conversions.
    //
    wstring wpwd = IceUtil::stringToWstring(pwd);
    const wchar_t* dir = !wpwd.empty() ? wpwd.c_str() : NULL;

    //
    // Make a copy of the command line.
    //
    wchar_t* cmdbuf = _wcsdup(IceUtil::stringToWstring(cmd).c_str());

    //
    // Create the environment block for the child process. We start with the environment
    // of this process, and then merge environment variables from the server description.
    // Since Windows is case insensitive wrt environment variables we convert the keys to
    // uppercase to ensure matches are found.
    //
    const wchar_t* env = NULL;
    wstring envbuf;
    if(!envs.empty())
    {
        map<wstring, wstring, UnicodeStringLess> envMap;
        LPVOID parentEnv = GetEnvironmentStringsW();
        const wchar_t* var = reinterpret_cast<const wchar_t*>(parentEnv);
        if(*var == L'=')
        {
            //
            // The environment block may start with some information about the
            // current drive and working directory. This is indicated by a leading
            // '=' character, so we skip to the first '\0' byte.
            //
            while(*var != L'\0')
                var++;
            var++;
        }
        while(*var != L'\0')
        {
            wstring s(var);
            wstring::size_type pos = s.find(L'=');
            if(pos != wstring::npos)
            {
                envMap[s.substr(0, pos)] = s.substr(pos + 1);
            }
            var += s.size();
            var++; // Skip the '\0' byte
        }
        FreeEnvironmentStringsW(static_cast<wchar_t*>(parentEnv));
        for(StringSeq::const_iterator p = envs.begin(); p != envs.end(); ++p)
        {
            //
            // IceGrid doesn't support to use string converters, so don't need to use
            // any string converter in stringToWstring conversions.
            //
            wstring s = IceUtil::stringToWstring(*p);
            wstring::size_type pos = s.find(L'=');
            if(pos != wstring::npos)
            {
                envMap[s.substr(0, pos)] = s.substr(pos + 1);
            }
        }

        for(map<wstring, wstring, UnicodeStringLess>::const_iterator q = envMap.begin(); q != envMap.end(); ++q)
        {
            envbuf.append(q->first);
            envbuf.push_back(L'=');
            envbuf.append(q->second);
            envbuf.push_back(L'\0');
        }
        envbuf.push_back(L'\0');
        env = envbuf.c_str();
    }

    Process process;

    STARTUPINFOW si;
    ZeroMemory(&si, sizeof(si));
    si.cb = sizeof(si);

    PROCESS_INFORMATION pi;
    ZeroMemory(&pi, sizeof(pi));
    BOOL b = CreateProcessW(
        NULL,                     // Executable
        cmdbuf,                   // Command line
        NULL,                     // Process attributes
        NULL,                     // Thread attributes
        FALSE,                    // Do NOT inherit handles
        CREATE_NEW_PROCESS_GROUP | CREATE_UNICODE_ENVIRONMENT, // Process creation flags
        (LPVOID)env,              // Process environment
        dir,                      // Current directory
        &si,                      // Startup info
        &pi                       // Process info
    );

    free(cmdbuf);

    if(!b)
    {
        throw IceUtilInternal::lastErrorToString();
    }

    //
    // Caller is responsible for closing handles in PROCESS_INFORMATION. We don't need to
    // keep the thread handle, so we close it now. The process handle will be closed later.
    //
    CloseHandle(pi.hThread);
    process.activator = this;
    process.pid = pi.dwProcessId;
    process.hnd = pi.hProcess;
    process.server = server;
    map<string, Process>::iterator it = _processes.insert(make_pair(name, process)).first;

    Process* pp = &it->second;
    if(!RegisterWaitForSingleObject(&pp->waithnd, pp->hnd, activatorWaitCallback, pp, INFINITE,
                                    WT_EXECUTEDEFAULT | WT_EXECUTEONLYONCE))
    {
        throw IceUtilInternal::lastErrorToString();
    }

    //
    // Don't print the following trace, this might interfer with the
    // output of the started process if it fails with an error message.
    //
//     if(_traceLevels->activator > 0)
//     {
//         Ice::Trace out(_traceLevels->logger, _traceLevels->activatorCat);
//         out << "activated server `" << name << "' (pid = " << pi.dwProcessId << ")";
//     }

    return static_cast<Ice::Int>(process.pid);
#else
    int fds[2];
    if(pipe(fds) != 0)
    {
        SyscallException ex(__FILE__, __LINE__);
        ex.error = getSystemErrno();
        throw ex;
    }

    int errorFds[2];
    if(pipe(errorFds) != 0)
    {
        SyscallException ex(__FILE__, __LINE__);
        ex.error = getSystemErrno();
        throw ex;
    }


    //
    // Convert to standard argc/argv.
    //
    IceUtilInternal::ArgVector av(args);
    IceUtilInternal::ArgVector env(envs);

    //
    // Current directory
    //
    const char* pwdCStr = pwd.c_str();

    pid_t pid = fork();
    if(pid == -1)
    {
        SyscallException ex(__FILE__, __LINE__);
        ex.error = getSystemErrno();
        throw ex;
    }

    if(pid == 0) // Child process.
    {
        //
        // Until exec, we can only use async-signal safe functions
        //

        //
        // Unblock signals blocked by IceUtil::CtrlCHandler.
        //
        sigset_t sigs;
        sigemptyset(&sigs);
        sigaddset(&sigs, SIGHUP);
        sigaddset(&sigs, SIGINT);
        sigaddset(&sigs, SIGTERM);
        sigprocmask(SIG_UNBLOCK, &sigs, 0);

        //
        // Change the uid/gid under which the process will run.
        //
        if(setgid(gid) == -1)
        {
            ostringstream os;
            os << gid;
            reportChildError(getSystemErrno(), errorFds[1], "cannot set process group id", os.str().c_str(),
                             _traceLevels);
        }

        errno = 0;
        struct passwd* pw = getpwuid(uid);
        if(!pw)
        {
            if(errno)
            {
                reportChildError(getSystemErrno(), errorFds[1], "cannot read the password database", "",
                                 _traceLevels);
            }
            else
            {
                ostringstream os;
                os << uid;
                reportChildError(getSystemErrno(), errorFds[1], "unknown user uid"  , os.str().c_str(),
                                 _traceLevels);
            }
        }

        //
        // Don't initialize supplementary groups if we are not running as root.
        //
        if(getuid() == 0 && initgroups(pw->pw_name, gid) == -1)
        {
            ostringstream os;
            os << pw->pw_name;
            reportChildError(getSystemErrno(), errorFds[1], "cannot initialize process supplementary group access list for user",
                             os.str().c_str(), _traceLevels);
        }

        if(setuid(uid) == -1)
        {
            ostringstream os;
            os << uid;
            reportChildError(getSystemErrno(), errorFds[1], "cannot set process user id", os.str().c_str(),
                             _traceLevels);
        }

        //
        // Assign a new process group for this process.
        //
        setpgid(0, 0);

        //
        // Close all file descriptors, except for standard input,
        // standard output, standard error, and the write side
        // of the newly created pipe.
        //
        int maxFd = static_cast<int>(sysconf(_SC_OPEN_MAX));
        for(int fd = 3; fd < maxFd; ++fd)
        {
            if(fd != fds[1] && fd != errorFds[1])
            {
                close(fd);
            }
        }

        for(int i = 0; i < env.argc; i++)
        {
            //
            // Each env is leaked on purpose ... see man putenv().
            //
            if(putenv(strdup(env.argv[i])) != 0)
            {
                reportChildError(errno, errorFds[1], "cannot set environment variable",  env.argv[i],
                                 _traceLevels);
            }
        }

        //
        // Change working directory.
        //
        if(strlen(pwdCStr) != 0)
        {
            if(chdir(pwdCStr) == -1)
            {
                reportChildError(errno, errorFds[1], "cannot change working directory to",  pwdCStr,
                                 _traceLevels);
            }
        }

        //
        // Close on exec the error message file descriptor.
        //
        int flags = fcntl(errorFds[1], F_GETFD);
        flags |= 1; // FD_CLOEXEC
        if(fcntl(errorFds[1], F_SETFD, flags) == -1)
        {
            close(errorFds[1]);
            errorFds[1] = -1;
        }

        if(execvp(av.argv[0], av.argv) == -1)
        {
            if(errorFds[1] != -1)
            {
                reportChildError(errno, errorFds[1], "cannot execute",  av.argv[0], _traceLevels);
            }
            else
            {
                reportChildError(errno, fds[1], "cannot execute",  av.argv[0], _traceLevels);
            }
        }
    }
    else // Parent process.
    {
        close(fds[1]);
        close(errorFds[1]);

        //
        // Read a potential error message over the error message pipe.
        //
        char s[16];
        ssize_t rs;
        string message;
        while((rs = read(errorFds[0], &s, 16)) > 0)
        {
            message.append(s, rs);
        }

        //
        // If an error occured before the exec() we do some cleanup and throw.
        //
        if(!message.empty())
        {
            close(fds[0]);
            close(errorFds[0]);
            waitPid(pid);
            throw message;
        }

        //
        // Otherwise, the exec() was successfull and we don't need the error message
        // pipe anymore.
        //
        close(errorFds[0]);

        Process process;
        process.pid = pid;
        process.pipeFd = fds[0];
        process.server = server;
        _processes.insert(make_pair(name, process));

        int flags = fcntl(process.pipeFd, F_GETFL);
        flags |= O_NONBLOCK;
        fcntl(process.pipeFd, F_SETFL, flags);

        setInterrupt();

    //
    // Don't print the following trace, this might interfere with the
    // output of the started process if it fails with an error message.
    //
//      if(_traceLevels->activator > 0)
//      {
//          Ice::Trace out(_traceLevels->logger, _traceLevels->activatorCat);
//          out << "activated server `" << name << "' (pid = " << pid << ")";
//      }
    }

    return pid;
#endif
}
예제 #10
0
static int
communicatorInit(CommunicatorObject* self, PyObject* args, PyObject* /*kwds*/)
{
    PyObject* argList = 0;
    PyObject* initData = 0;
    if(!PyArg_ParseTuple(args, STRCAST("|OO"), &argList, &initData))
    {
        return -1;
    }

    if(argList == Py_None)
    {
        argList = 0;
    }

    if(initData == Py_None)
    {
        initData = 0;
    }

    PyObject* initDataType = lookupType("Ice.InitializationData");

    if(argList && !initData)
    {
        if(PyObject_IsInstance(argList, initDataType))
        {
            initData = argList;
            argList = 0;
        }
        else if(!PyList_Check(argList))
        {
            PyErr_Format(PyExc_ValueError, STRCAST("initialize expects an argument list or Ice.InitializationData"));
            return -1;
        }
    }
    else if(argList && initData)
    {
        if(!PyList_Check(argList) || !PyObject_IsInstance(initData, initDataType))
        {
            PyErr_Format(PyExc_ValueError, STRCAST("initialize expects an argument list and Ice.InitializationData"));
            return -1;
        }
    }

    Ice::StringSeq seq;
    if(argList && !listToStringSeq(argList, seq))
    {
        return -1;
    }

    //
    // Use the with-args or the without-args version of initialize()?
    //
    bool hasArgs = argList != 0;

    Ice::InitializationData data;

    if(initData)
    {
        PyObjectHandle properties = PyObject_GetAttrString(initData, STRCAST("properties"));
        PyObjectHandle logger = PyObject_GetAttrString(initData, STRCAST("logger"));
        PyObjectHandle threadHook = PyObject_GetAttrString(initData, STRCAST("threadHook"));
        PyObjectHandle batchRequestInterceptor = PyObject_GetAttrString(initData, STRCAST("batchRequestInterceptor"));

        PyErr_Clear(); // PyObject_GetAttrString sets an error on failure.

        if(properties.get() && properties.get() != Py_None)
        {
            //
            // Get the properties implementation.
            //
            PyObjectHandle impl = PyObject_GetAttrString(properties.get(), STRCAST("_impl"));
            assert(impl.get());
            data.properties = getProperties(impl.get());
        }

        if(logger.get() && logger.get() != Py_None)
        {
            data.logger = new LoggerWrapper(logger.get());
        }

        if(threadHook.get() && threadHook.get() != Py_None)
        {
            data.threadHook = new ThreadHook(threadHook.get());
        }

        if(batchRequestInterceptor.get() && batchRequestInterceptor.get() != Py_None)
        {
            data.batchRequestInterceptor = new BatchRequestInterceptor(batchRequestInterceptor.get());
        }
    }

    //
    // We always supply our own implementation of ValueFactoryManager.
    //
    data.valueFactoryManager = new ValueFactoryManager;

    try
    {
        if(argList)
        {
            data.properties = Ice::createProperties(seq, data.properties);
        }
        else if(!data.properties)
        {
            data.properties = Ice::createProperties();
        }
    }
    catch(const Ice::Exception& ex)
    {
        setPythonException(ex);
        return -1;
    }

    //
    // Remaining command line options are passed to the communicator
    // as an argument vector in case they contain plug-in properties.
    //
    int argc = static_cast<int>(seq.size());
    char** argv = new char*[argc + 1];
    int i = 0;
    for(Ice::StringSeq::const_iterator s = seq.begin(); s != seq.end(); ++s, ++i)
    {
        argv[i] = strdup(s->c_str());
    }
    argv[argc] = 0;

    data.compactIdResolver = new IdResolver;

    Ice::CommunicatorPtr communicator;
    try
    {
        AllowThreads allowThreads;
        if(hasArgs)
        {
            communicator = Ice::initialize(argc, argv, data);
        }
        else
        {
            communicator = Ice::initialize(data);
        }
    }
    catch(const Ice::Exception& ex)
    {
        for(i = 0; i < argc; ++i)
        {
            free(argv[i]);
        }
        delete[] argv;

        setPythonException(ex);
        return -1;
    }

    //
    // Replace the contents of the given argument list with the filtered arguments.
    //
    if(argList)
    {
        PyList_SetSlice(argList, 0, PyList_Size(argList), 0); // Clear the list.

        for(i = 0; i < argc; ++i)
        {
            PyObjectHandle str = Py_BuildValue(STRCAST("s"), argv[i]);
            PyList_Append(argList, str.get());
        }
    }

    for(i = 0; i < argc; ++i)
    {
        free(argv[i]);
    }
    delete[] argv;

    self->communicator = new Ice::CommunicatorPtr(communicator);

    CommunicatorMap::iterator p = _communicatorMap.find(communicator);
    if(p != _communicatorMap.end())
    {
        _communicatorMap.erase(p);
    }
    _communicatorMap.insert(CommunicatorMap::value_type(communicator, reinterpret_cast<PyObject*>(self)));

    return 0;
}
예제 #11
0
파일: NodeI.cpp 프로젝트: chenbk85/ice
bool
NodeI::canRemoveServerDirectory(const string& name)
{
    //
    // Check if there's files which we didn't create.
    //
    Ice::StringSeq c = readDirectory(_serversDir + "/" + name);
    set<string> contents(c.begin(), c.end());
    contents.erase("dbs");
    contents.erase("config");
    contents.erase("distrib");
    contents.erase("revision");
    contents.erase("data");
    Ice::StringSeq serviceDataDirs;
    for(set<string>::const_iterator p = contents.begin(); p != contents.end(); ++p)
    {
        if(p->find("data_") != 0)
        {
            return false;
        }
        serviceDataDirs.push_back(*p);
    }
    if(!contents.empty())
    {
        return false;
    }

    c = readDirectory(_serversDir + "/" + name + "/config");
    for(Ice::StringSeq::const_iterator p = c.begin() ; p != c.end(); ++p)
    {
        if(p->find("config") != 0)
        {
            return false;
        }
    }

    if(IceUtilInternal::directoryExists(_serversDir + "/" + name + "/dbs"))
    {
        c = readDirectory(_serversDir + "/" + name + "/dbs");
        for(Ice::StringSeq::const_iterator p = c.begin() ; p != c.end(); ++p)
        {
            try
            {
                Ice::StringSeq files = readDirectory(_serversDir + "/" + name + "/dbs/" + *p);
                files.erase(remove(files.begin(), files.end(), "DB_CONFIG"), files.end());
                files.erase(remove(files.begin(), files.end(), "__Freeze"), files.end());
                if(!files.empty())
                {
                    return false;
                }
            }
            catch(const string&)
            {
                return false;
            }
        }
    }

    if(IceUtilInternal::directoryExists(_serversDir + "/" + name + "/data"))
    {
        if(!readDirectory(_serversDir + "/" + name + "/data").empty())
        {
            return false;
        }
    }

    for(Ice::StringSeq::const_iterator p = serviceDataDirs.begin(); p != serviceDataDirs.end(); ++p)
    {
        try
        {
            if(!readDirectory(_serversDir + "/" + name + "/" + *p).empty())
            {
                return false;
            }
        }
        catch(const string&)
        {
            return false;
        }
    }
    return true;
}
예제 #12
0
파일: NodeI.cpp 프로젝트: chenbk85/ice
vector<ServerCommandPtr>
NodeI::checkConsistencyNoSync(const Ice::StringSeq& servers)
{
    vector<ServerCommandPtr> commands;

    //
    // Check if the servers directory doesn't contain more servers
    // than the registry really knows.
    //
    Ice::StringSeq contents;
    try
    {
        contents = readDirectory(_serversDir);
    }
    catch(const string& msg)
    {
        Ice::Error out(_traceLevels->logger);
        out << "couldn't read directory `" << _serversDir << "':\n" << msg;
        return commands;
    }

    vector<string> remove;
    set_difference(contents.begin(), contents.end(), servers.begin(), servers.end(), back_inserter(remove));

    //
    // Remove the extra servers if possible.
    //
    try
    {
        vector<string>::iterator p = remove.begin();
        while(p != remove.end())
        {
            ServerIPtr server = ServerIPtr::dynamicCast(_adapter->find(createServerIdentity(*p)));
            if(server)
            {
                //
                // If the server is loaded, we invoke on it to destroy it.
                //
                try
                {
                    ServerCommandPtr command = server->destroy(0, "", 0, "Master", false);
                    if(command)
                    {
                        commands.push_back(command);
                    }
                    p = remove.erase(p);
                    continue;
                }
                catch(const Ice::LocalException& ex)
                {
                    Ice::Error out(_traceLevels->logger);
                    out << "server `" << *p << "' destroy failed:\n" << ex;
                }
                catch(const string&)
                {
                    assert(false);
                }
            }

            try
            {
                if(canRemoveServerDirectory(*p))
                {
                    //
                    // If the server directory can be removed and we
                    // either remove it or back it up before to remove it.
                    //
                    removeRecursive(_serversDir + "/" + *p);
                    p = remove.erase(p);
                    continue;
                }
            }
            catch(const string& msg)
            {
                Ice::Warning out(_traceLevels->logger);
                out << "removing server directory `" << _serversDir << "/" << *p << "' failed:\n" << msg;
            }

            *p = _serversDir + "/" + *p;
            ++p;
        }
    }
    catch(const Ice::ObjectAdapterDeactivatedException&)
    {
        //
        // Just return the server commands, we'll finish the
        // consistency check next time the node is started.
        //
        return commands;
    }

    if(!remove.empty())
    {
        Ice::Warning out(_traceLevels->logger);
        out << "server directories containing data not created or written by IceGrid were not removed:\n";
        out << toString(remove);
    }
    return commands;
}
예제 #13
0
파일: AllTests.cpp 프로젝트: hadoop835/ice
void
allTests(const Ice::CommunicatorPtr& comm)
{
    IceGrid::RegistryPrx registry = IceGrid::RegistryPrx::checkedCast(
        comm->stringToProxy(comm->getDefaultLocator()->ice_getIdentity().category + "/Registry"));
    test(registry);
    IceGrid::QueryPrx query = IceGrid::QueryPrx::checkedCast(
        comm->stringToProxy(comm->getDefaultLocator()->ice_getIdentity().category + "/Query"));
    test(query);

    AdminSessionPrx session = registry->createAdminSession("foo", "bar");

    session->ice_getConnection()->setACM(registry->getACMTimeout(), IceUtil::None, Ice::HeartbeatAlways);

    AdminPrx admin = session->getAdmin();
    test(admin);

    cout << "testing server registration... "  << flush;
    Ice::StringSeq serverIds = admin->getAllServerIds();
    test(find(serverIds.begin(), serverIds.end(), "Server1") != serverIds.end());
    test(find(serverIds.begin(), serverIds.end(), "Server2") != serverIds.end());
    test(find(serverIds.begin(), serverIds.end(), "IceBox1") != serverIds.end());
    test(find(serverIds.begin(), serverIds.end(), "IceBox2") != serverIds.end());
    test(find(serverIds.begin(), serverIds.end(), "SimpleServer") != serverIds.end());
    test(find(serverIds.begin(), serverIds.end(), "SimpleIceBox") != serverIds.end());
    cout << "ok" << endl;

    cout << "testing adapter registration... " << flush;
    Ice::StringSeq adapterIds = admin->getAllAdapterIds();
    test(find(adapterIds.begin(), adapterIds.end(), "Server1.Server") != adapterIds.end());
    test(find(adapterIds.begin(), adapterIds.end(), "Server2.Server") != adapterIds.end());
    test(find(adapterIds.begin(), adapterIds.end(), "SimpleServer.Server") != adapterIds.end());
    test(find(adapterIds.begin(), adapterIds.end(), "IceBox1.Service1.Service1") != adapterIds.end());
    test(find(adapterIds.begin(), adapterIds.end(), "IceBox1Service2Adapter") != adapterIds.end());
    test(find(adapterIds.begin(), adapterIds.end(), "IceBox2.Service1.Service1") != adapterIds.end());
    test(find(adapterIds.begin(), adapterIds.end(), "IceBox2Service2Adapter") != adapterIds.end());
    test(find(adapterIds.begin(), adapterIds.end(), "SimpleIceBox.SimpleService.SimpleService") != adapterIds.end());
    test(find(adapterIds.begin(), adapterIds.end(), "ReplicatedAdapter") != adapterIds.end());
    cout << "ok" << endl;

    cout << "testing object registration... " << flush;
    Ice::ObjectProxySeq objs = query->findAllObjectsByType("::Test");
    test(find_if(objs.begin(), objs.end(), bind2nd(ProxyIdentityEqual(comm),"Server1")) != objs.end());
    test(find_if(objs.begin(), objs.end(), bind2nd(ProxyIdentityEqual(comm),"Server2")) != objs.end());
    test(find_if(objs.begin(), objs.end(), bind2nd(ProxyIdentityEqual(comm),"SimpleServer")) != objs.end());
    test(find_if(objs.begin(), objs.end(), bind2nd(ProxyIdentityEqual(comm),"IceBox1-Service1")) != objs.end());
    test(find_if(objs.begin(), objs.end(), bind2nd(ProxyIdentityEqual(comm),"IceBox1-Service2")) != objs.end());
    test(find_if(objs.begin(), objs.end(), bind2nd(ProxyIdentityEqual(comm),"IceBox2-Service1")) != objs.end());
    test(find_if(objs.begin(), objs.end(), bind2nd(ProxyIdentityEqual(comm),"IceBox2-Service2")) != objs.end());
    test(find_if(objs.begin(), objs.end(), bind2nd(ProxyIdentityEqual(comm),"SimpleIceBox-SimpleService")) != objs.end());
    test(find_if(objs.begin(), objs.end(), bind2nd(ProxyIdentityEqual(comm),"ReplicatedObject")) != objs.end());

    {
        test(identityToString(query->findObjectByType("::TestId1")->ice_getIdentity()) == "cat/name1");
        test(identityToString(query->findObjectByType("::TestId2")->ice_getIdentity()) == "cat1/name1");
        test(identityToString(query->findObjectByType("::TestId3")->ice_getIdentity()) == "cat1/name1-bis");
        test(identityToString(query->findObjectByType("::TestId4")->ice_getIdentity()) == "c2\\/c2/n2\\/n2");
        test(identityToString(query->findObjectByType("::TestId5")->ice_getIdentity()) == "n2\\/n2");
    }

    {
        Ice::ObjectPrx obj = query->findObjectByType("::Test");
        string id = identityToString(obj->ice_getIdentity());
        test(id == "Server1" || id == "Server2" || id == "SimpleServer" ||
             id == "IceBox1-Service1" || id == "IceBox1-Service2" ||
             id == "IceBox2-Service1" || id == "IceBox2-Service2" ||
             id == "SimpleIceBox-SimpleService" || "ReplicatedObject");
    }

    {
        Ice::ObjectPrx obj = query->findObjectByTypeOnLeastLoadedNode("::Test", LoadSample5);
        string id = identityToString(obj->ice_getIdentity());
        test(id == "Server1" || id == "Server2" || id == "SimpleServer" ||
             id == "IceBox1-Service1" || id == "IceBox1-Service2" ||
             id == "IceBox2-Service1" || id == "IceBox2-Service2" ||
             id == "SimpleIceBox-SimpleService" || "ReplicatedObject");
    }

    {
        Ice::ObjectPrx obj = query->findObjectByType("::Foo");
        test(!obj);

        obj = query->findObjectByTypeOnLeastLoadedNode("::Foo", LoadSample15);
        test(!obj);
    }

    Ice::Identity encoding10_oneway;
    encoding10_oneway.name = "encoding10-oneway";
    test(query->findObjectById(encoding10_oneway)->ice_getEncodingVersion() == Ice::Encoding_1_0);
    test(query->findObjectById(encoding10_oneway)->ice_isOneway());
    Ice::Identity encoding10_secure;
    encoding10_secure.name = "encoding10-secure";
    test(query->findObjectById(encoding10_secure)->ice_getEncodingVersion() == Ice::Encoding_1_0);
    test(query->findObjectById(encoding10_secure)->ice_isSecure());
    Ice::Identity oaoptions;
    oaoptions.name = "oaoptions";
    test(query->findObjectById(oaoptions)->ice_getEncodingVersion() == Ice::stringToEncodingVersion("1.2"));
    test(query->findObjectById(oaoptions)->ice_isTwoway());
    Ice::Identity comoptions;
    comoptions.name = "communicatoroptions";
    test(query->findObjectById(comoptions)->ice_getEncodingVersion() == Ice::stringToEncodingVersion("1.3"));
    test(query->findObjectById(comoptions)->ice_isTwoway());
    Ice::Identity options34;
    options34.name = "34options";
    test(query->findObjectById(options34)->ice_getEncodingVersion() == Ice::Encoding_1_0);
    Ice::Identity simpleServer;
    simpleServer.name = "SimpleServer";
    test(query->findObjectById(simpleServer)->ice_getEncodingVersion() == Ice::Encoding_1_1);
    Ice::Identity replicated15;
    replicated15.name = "ReplicatedObject15";
    test(query->findObjectById(replicated15)->ice_getEncodingVersion() == Ice::stringToEncodingVersion("1.5"));
    Ice::Identity replicated14;
    replicated14.name = "ReplicatedObject14";
    test(query->findObjectById(replicated14)->ice_getEncodingVersion() == Ice::stringToEncodingVersion("1.4"));

    Ice::LocatorPrx locator = comm->getDefaultLocator();
    test(query->findObjectById(encoding10_oneway) == locator->findObjectById(encoding10_oneway));
    test(query->findObjectById(encoding10_secure) == locator->findObjectById(encoding10_secure));
    test(query->findObjectById(oaoptions) == locator->findObjectById(oaoptions));
    test(query->findObjectById(comoptions) == locator->findObjectById(comoptions));
    test(query->findObjectById(options34) == locator->findObjectById(options34));
    test(query->findObjectById(simpleServer) == locator->findObjectById(simpleServer));
    test(query->findObjectById(replicated15) == locator->findObjectById(replicated15));
    test(query->findObjectById(replicated14) == locator->findObjectById(replicated14));

    cout << "ok" << endl;

    //
    // Ensure that all server and service objects are reachable.
    //
    // The identity for the test object in deployed server or services
    // is the name of the service or server. The object adapter name
    // is Adapter prefixed with the name of the service or
    // server. Ensure we can reach each object.
    //
    cout << "pinging server objects... " << flush;
    TestIntfPrx obj;
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("*****@*****.**"));
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("*****@*****.**"));
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("*****@*****.**"));
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("[email protected]"));
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("IceBox1-Service2@IceBox1Service2Adapter"));
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("[email protected]"));
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("IceBox2-Service2@IceBox2Service2Adapter"));
    obj = TestIntfPrx::checkedCast(
        comm->stringToProxy("*****@*****.**"));
    cout << "ok" << endl;

    cout << "testing server configuration... " << flush;
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("*****@*****.**"));
    test(obj->getProperty("Type") == "Server");
    test(obj->getProperty("Name") == "Server1");
    test(obj->getProperty("NameName") == "Server1Server1");
    test(obj->getProperty("NameEscaped") == "${name}");
    test(obj->getProperty("NameEscapeEscaped") == "$Server1");
    test(obj->getProperty("NameEscapedEscapeEscaped") == "$${name}");
    test(obj->getProperty("ManyEscape") == "$$$${name}");
    test(obj->getProperty("TestServer1Identity") == "Server1");
    test(obj->getProperty("LogFilePath") == "test-Server1.log");
    test(obj->getProperty("LogFilePath-Server1") == "test.log");
    test(obj->getProperty("PropertyWithSpaces") == "   test   ");
    // \ is escaped in C++ string literals
    test(obj->getProperty("WindowsPath") == "C:\\Program Files (x86)\\ZeroC\\");
    test(obj->getProperty("UNCPath") == "\\\\server\\foo bar\\file");
    test(obj->getProperty("PropertyWith=") == "foo=bar");
    test(obj->getProperty("PropertyWithHash") == "foo#bar");
    test(obj->getProperty("PropertyWithTab") == "foo\tbar");
    test(obj->getProperty("PropertyWithEscapeSpace") == "foo\\ ");
    test(obj->getProperty("PropertyWithProperty") == "Plugin.EntryPoint=foo:bar --Ice.Config=\\\\\\server\\foo bar\\file.cfg");
    cout << "ok" << endl;

    cout << "testing service configuration... " << flush;
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("[email protected]"));
    test(obj->getProperty("Service1.Type") == "standard");
    test(obj->getProperty("Service1.ServiceName") == "Service1");
    test(obj->getProperty("TestService1Identity") == "IceBox1-Service1");
    test(obj->getProperty("LogFilePath") == "test-Service1.log");
    test(obj->getProperty("LogFilePath-Service1") == "test.log");
    test(obj->getProperty("PropertyWithSpaces") == "   test   ");
    // \ is escaped in C++ string literals
    test(obj->getProperty("WindowsPath") == "C:\\Program Files (x86)\\ZeroC\\");
    test(obj->getProperty("UNCPath") == "\\\\server\\foo bar\\file");
    test(obj->getProperty("PropertyWith=") == "foo=bar");
    test(obj->getProperty("PropertyWithHash") == "foo#bar");
    test(obj->getProperty("PropertyWithTab") == "foo\tbar");
    test(obj->getProperty("PropertyWithEscapeSpace") == "foo\\ ");
    test(obj->getProperty("PropertyWithProperty") == "Plugin.EntryPoint=foo:bar --Ice.Config=\\\\\\server\\foo bar\\file.cfg");

    obj = TestIntfPrx::checkedCast(comm->stringToProxy("IceBox2-Service2@IceBox2Service2Adapter"));
    test(obj->getProperty("Service2.Type") == "nonstandard");
    test(obj->getProperty("Service2.ServiceName") == "Service2");
    test(obj->getProperty("Service2.DebugProperty") == "");
    test(obj->getProperty("Service1.DebugProperty") == "");
    cout << "ok" << endl;

    cout << "testing server options... " << flush;
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("*****@*****.**"));
    test(obj->getProperty("Test.Test") == "2");
    test(obj->getProperty("Test.Test1") == "0");
    cout << "ok" << endl;

    cout << "testing variables... " << flush;
    vector<TestIntfPrx> proxies;
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("*****@*****.**"));
    proxies.push_back(obj);
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("[email protected]"));
    proxies.push_back(obj);
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("*****@*****.**"));
    proxies.push_back(obj);
    obj = TestIntfPrx::checkedCast(
        comm->stringToProxy("*****@*****.**"));
    proxies.push_back(obj);

    for(vector<TestIntfPrx>::const_iterator p = proxies.begin(); p != proxies.end(); ++p)
    {
        test((*p)->getProperty("AppVarProp") == "AppVar");
        test((*p)->getProperty("NodeVarProp") == "NodeVar");
        test((*p)->getProperty("RecursiveAppVarProp") == "Test");
        test((*p)->getProperty("AppVarOverridedProp") == "OverridedInNode");
        test((*p)->getProperty("AppVarDefinedInNodeProp") == "localnode");
        test((*p)->getProperty("EscapedAppVarProp") == "${escaped}");
        test((*p)->getProperty("RecursiveEscapedAppVarProp") == "${escaped}");
        test((*p)->getProperty("Recursive2EscapedAppVarProp") == "${escaped}");
        test((*p)->getProperty("RecursiveNodeVarProp") == "localnode");
        test((*p)->getProperty("TestDirProp") != "NotThisValue");
    }
    cout << "ok" << endl;

    cout << "testing parameters... " << flush;

    obj = TestIntfPrx::checkedCast(comm->stringToProxy("*****@*****.**"));
    test(obj->getProperty("Param1Prop") == "Param1");
    test(obj->getProperty("Param2Prop") == "AppVar");
    test(obj->getProperty("ParamEscapedProp") == "${escaped}");
    test(obj->getProperty("ParamDoubleEscapedProp") == "$escapedvalue");
    test(obj->getProperty("AppVarOverridedByParamProp") == "Overrided");
    test(obj->getProperty("NodeVarOverridedByParamProp") == "Test");
    test(obj->getProperty("DefaultParamProp") == "VALUE");
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("*****@*****.**"));
    test(obj->getProperty("Param1Prop") == "Param12");
    test(obj->getProperty("Param2Prop") == "OverridedInNode");
    test(obj->getProperty("ParamEscapedProp") == "${escaped}");
    test(obj->getProperty("ParamDoubleEscapedProp") == "$escapedvalue");
    test(obj->getProperty("AppVarOverridedByParamProp") == "Overrided");
    test(obj->getProperty("NodeVarOverridedByParamProp") == "Test");
    test(obj->getProperty("DefaultParamProp") == "OTHERVALUE");

    obj = TestIntfPrx::checkedCast(comm->stringToProxy("[email protected]"));
    test(obj->getProperty("AppVarOverridedByParamProp") == "Test");
    test(obj->getProperty("NodeVarOverridedByParamProp") == "Overrided");
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("IceBox1-Service2@IceBox1Service2Adapter"));
    test(obj->getProperty("AppVarOverridedByParamProp") == "Test");
    test(obj->getProperty("NodeVarOverridedByParamProp") == "Test");
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("[email protected]"));
    test(obj->getProperty("AppVarOverridedByParamProp") == "Test");
    test(obj->getProperty("NodeVarOverridedByParamProp") == "Overrided");
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("IceBox2-Service2@IceBox2Service2Adapter"));
    test(obj->getProperty("AppVarOverridedByParamProp") == "Test");
    test(obj->getProperty("NodeVarOverridedByParamProp") == "Test");

    cout << "ok" << endl;

    cout << "testing descriptions... " << flush;
    //
    // NOTE: We can't test the following since
    // getApplicationDescriptor doesn't return the instantiated
    // application descriptor...
    //
//     ApplicationDescriptor desc = admin->getApplicationDescriptor("test");
//     test(desc.description == "APP AppVar");
//     test(desc.nodes["localnode"].description == "NODE NodeVar");
//     test(desc.replicaGroups[0].description == "REPLICA GROUP AppVar");
//     test(desc.nodes["localnode"].servers.size() == 2);
//    const int idx = desc.nodes["localnode"].servers[0]->id == "SimpleServer" ? 0 : 1;
    ServerInfo info = admin->getServerInfo("SimpleServer");
    test(info.descriptor->id == "SimpleServer");
    test(info.descriptor->description == "SERVER NodeVar");
    test(info.descriptor->adapters[0].description == "ADAPTER NodeVar");
    test(info.descriptor->dbEnvs[0].description == "DBENV NodeVar");
    cout << "ok" << endl;

    cout << "testing property sets..." << flush;
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("*****@*****.**"));
    test(obj->getProperty("AppProperty") == "AppVar");
    test(obj->getProperty("AppProperty2") == "OverrideMe");
    test(obj->getProperty("AppProperty21") == "Override");
    test(obj->getProperty("NodeProperty") == "NodeVar");

    obj = TestIntfPrx::checkedCast(comm->stringToProxy("*****@*****.**"));
    test(obj->getProperty("AppProperty") == "AppVar");
    test(obj->getProperty("AppProperty2") == "OverrideMe");
    test(obj->getProperty("AppProperty21") == "Override");
    test(obj->getProperty("NodeProperty") == "NodeVar");
    test(obj->getProperty("ServerInstanceProperty") == "Server2");

    obj = TestIntfPrx::checkedCast(comm->stringToProxy("[email protected]"));
    test(obj->getProperty("AppProperty") == ""); // IceBox server properties aren't inherited for IceBox1
    test(obj->getProperty("AppProperty2") == "");
    test(obj->getProperty("AppProperty21") == "");
    test(obj->getProperty("NodeProperty") == "");

    obj = TestIntfPrx::checkedCast(comm->stringToProxy("[email protected]"));
    test(obj->getProperty("AppProperty") == "AppVar");
    test(obj->getProperty("AppProperty2") == "OverrideMe");
    test(obj->getProperty("AppProperty21") == "Override");
    test(obj->getProperty("NodeProperty") == "NodeVar");
    test(obj->getProperty("IceBoxInstanceProperty") == "IceBox2");

    obj = TestIntfPrx::checkedCast(comm->stringToProxy("IceBox2-Service2@IceBox2Service2Adapter"));
    test(obj->getProperty("AppProperty") == "AppVar");
    test(obj->getProperty("AppProperty2") == "OverrideMe");
    test(obj->getProperty("AppProperty21") == "Override");
    test(obj->getProperty("NodeProperty") == "NodeVar");
    test(obj->getProperty("IceBoxInstanceProperty") == "IceBox2");
    test(obj->getProperty("ServiceInstanceProperty") == "Service2");

    obj = TestIntfPrx::checkedCast(comm->stringToProxy("*****@*****.**"));
    test(obj->getProperty("AppProperty") == "AppVar");
    test(obj->getProperty("AppProperty2") == "OverrideMe");
    test(obj->getProperty("AppProperty21") == "Override");
    test(obj->getProperty("NodeProperty") == "NodeVar");

    obj = TestIntfPrx::checkedCast(comm->stringToProxy("[email protected]"));
    test(obj->getProperty("ServerInstanceServiceProperty") == "service1");
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("[email protected]"));
    test(obj->getProperty("ServerInstanceServiceProperty") == "service4");
    obj = TestIntfPrx::checkedCast(comm->stringToProxy("[email protected]"));
    test(obj->getProperty("IceBoxInstanceProperty") == "overriden");

    cout << "ok" << endl;

    cout << "testing validation... " << flush;
    TemplateDescriptor templ;
    templ.parameters.push_back("name");
    templ.parameters.push_back("nam3");
    templ.parameters.push_back("nam2");
    templ.parameters.push_back("nam3");
    templ.descriptor = new ServerDescriptor();
    ServerDescriptorPtr server = ServerDescriptorPtr::dynamicCast(templ.descriptor);
    server->id = "test";
    server->exe = "${test.dir}/server";
    server->applicationDistrib = false;
    server->allocatable = false;
    ApplicationDescriptor desc;
    desc.name = "App";
    desc.serverTemplates["ServerTemplate"] = templ;
    try
    {
        admin->addApplication(desc);
        test(false);
    }
    catch(const DeploymentException& ex)
    {
        test(ex.reason.find("duplicate parameters") != string::npos);
    }
    catch(const Ice::Exception& ex)
    {
        cerr << ex << endl;
        test(false);
    }
    cout << "ok" << endl;

    logTests(comm, session);

    session->destroy();
}