syncevolution/src/syncevolution.cpp
Patrick Ohly 5947ba419f CalDAV + syncevolution.org: fixed segfault without libical+libecal
When libical and libecal were not installed, trying to use the CalDAV
backend for VEVENTs segfaulted because it depends on libical and did
not check properly for it. Only affected syncevolution.org binaries.

The root cause is that libical functions were only looked up in
combination with libecal, when compiled with
--enable-evolution-compatibility. Now they are first checked via
libecal (for old libecal which embedded libical) and separately in
libical itself as fallback.
2012-07-10 15:10:14 +02:00

1125 lines
36 KiB
C++

/*
* Copyright (C) 2005-2009 Patrick Ohly <patrick.ohly@gmx.de>
* Copyright (C) 2009 Intel Corporation
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) version 3.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
* 02110-1301 USA
*/
#include "config.h"
#include <stddef.h>
#include <iostream>
#include <memory>
using namespace std;
#include <libgen.h>
#ifdef HAVE_GLIB
#include <glib-object.h>
#endif
#ifdef DBUS_SERVICE
// must come before other header files which pull in boost/intrusive_ptr.hpp
// because it defines some intrusive_ptr_release implementations
#include <gdbus-cxx-bridge.h>
struct SourceStatus {
string m_mode;
string m_status;
uint32_t m_error;
};
namespace GDBusCXX {
template<> struct dbus_traits<SourceStatus> :
public dbus_struct_traits<SourceStatus,
dbus_member<SourceStatus, string, &SourceStatus::m_mode,
dbus_member<SourceStatus, string, &SourceStatus::m_status,
dbus_member_single<SourceStatus, uint32_t, &SourceStatus::m_error> > > >
{};
}
using namespace GDBusCXX;
#endif
#include <syncevo/Cmdline.h>
#include <syncevo/SyncContext.h>
#include <syncevo/SuspendFlags.h>
#include <syncevo/LogRedirect.h>
#include <syncevo/LocalTransportAgent.h>
#include <syncevo/CmdlineSyncClient.h>
#include <dlfcn.h>
#include <signal.h>
#include <syncevo/declarations.h>
SE_BEGIN_CXX
#if defined(ENABLE_MAEMO) && defined (ENABLE_EBOOK)
// really override the symbol, even if redefined by EDSAbiWrapper
#undef e_contact_new_from_vcard
extern "C" EContact *e_contact_new_from_vcard(const char *vcard)
{
static typeof(e_contact_new_from_vcard) *impl;
if (!impl) {
impl = (typeof(impl))dlsym(RTLD_NEXT, "e_contact_new_from_vcard");
}
// Old versions of EDS-DBus parse_changes_array() call
// e_contact_new_from_vcard() with a pointer which starts
// with a line break; Evolution is not happy with that and
// refuses to parse it. This code forwards until it finds
// the first non-whitespace, presumably the BEGIN:VCARD.
while (*vcard && isspace(*vcard)) {
vcard++;
}
return impl ? impl(vcard) : NULL;
}
#endif
#ifdef DBUS_SERVICE
class RemoteSession;
typedef map<string, StringMap> Config_t;
/**
* Act as a dbus server. All requests to dbus server
* are passed through this class.
*/
class RemoteDBusServer : public DBusRemoteObject
{
public:
RemoteDBusServer();
GMainLoop *getLoop() { return m_loop; }
/**
* Check whether the server is started and can be attached.
* Printing an error message is optional, some callers might
* prefer a different kind of error handling.
*/
bool checkStarted(bool printError = true);
/**
* execute arguments from command line
* @param args the arguments of command line
* @param config the config name parsed from arguments if has
* @param runSync arguments to run a sync
* @return true if successfully
*/
bool execute(const vector<string> &args, const string &config, bool runSync);
/**
* To implement the feature of '--monitor' option, monitor a
* given config if there is a session running.
* If config is empty, then peak a running session to monitor.
* @param config the config name parsed from arguments if has
* @return true if successfully
*/
bool monitor(const string &config);
/**
* To implement the feature of '--status' without a server.
* get and print all running sessions in the dbus server
*/
void runningSessions();
/** whether the dbus call(s) has/have completed */
bool done() { return m_replyTotal == m_replyCounter; }
/** one reply returns. Increase reply counter. */
void replyInc();
/** set whether there is an error */
void setResult(bool result) { m_result = result; }
/** call 'Server.InfoResponse' */
void infoResponse(const string &id, const string &state, const StringMap &resp);
private:
/** call 'Attach' until it returns */
void attachSync();
/**
* callback of 'Server.Attach':
* also set up a watch and add watch callback when the daemon is gone,
* then do version check before returning
*/
void attachCb(const boost::shared_ptr<Watch> &watch, const string &error);
/**
* second half of attaching: check version and print warning
*/
void versionCb(const StringMap &versions, const string &error);
/** callback of 'Server.SessionChanged' */
void sessionChangedCb(const DBusObject_t &object, bool active);
/** callback of 'Server.LogOutput' */
void logOutputCb(const DBusObject_t &object, const string &level, const string &log, const string &procname);
/** callback of 'Server.InfoRequest' */
void infoReqCb(const string &,
const DBusObject_t &,
const string &,
const string &,
const string &,
const StringMap &);
/** callback of Server.InfoResponse */
void infoResponseCb(const string &error);
/** callback of calling 'Server.StartSession' */
void startSessionCb(const DBusObject_t &session, const string &error);
/**
* receives org.freedesktop.DBus.NameOwnerChanged signals,
* watches for changes of org.syncevolution.server
*/
void nameOwnerChangedCB(const std::string &name,
const std::string &oldOwner,
const std::string &newOwner)
{
if (name == "org.syncevolution") {
SE_LOG_ERROR(NULL, NULL, "The SyncEvolution D-Bus service died unexpectedly. A running sync might still be able to complete normally, but the command line cannot report progress anymore and has to quit.");
m_result = false;
g_main_loop_quit(m_loop);
}
}
/** update active session vector according to 'SessionChanged' signal */
void updateSessions(const string &session, bool active);
/** check m_session is active */
bool isActive();
/** get all running sessions. Used internally. */
void getRunningSessions();
/** called when daemon has gone */
void daemonGone();
/** set the total number of replies we must wait */
void resetReplies(int total = 1)
{
m_replyTotal = total;
m_replyCounter = 0;
}
/** signal handler for 'CTRL-C' */
static void handleSignal(int sig);
// session used for signal handler,
// used to call 'suspend' and 'abort'
static boost::weak_ptr<RemoteSession> g_session;
// the main loop
GMainLoop *m_loop;
// whether client can attach to the daemon.
// It is also used to indicate whether daemon is ready to use.
bool m_attached;
// error flag
bool m_result;
// config name
string m_configName;
// active session object path
boost::shared_ptr<string> m_activeSession;
// session created or monitored
boost::shared_ptr<RemoteSession> m_session;
// active sessions after listening to 'SessionChanged' signals
vector<string> m_activeSessions;
// the number of total dbus calls
unsigned int m_replyTotal;
// the number of returned dbus calls
unsigned int m_replyCounter;
// listen to dbus server signal 'SessionChanged'
SignalWatch2<DBusObject_t, bool> m_sessionChanged;
// listen to dbus server signal 'LogOutput'
SignalWatch4<DBusObject_t, string, string, string> m_logOutput;
// listen to dbus server signal 'InfoRequest'
SignalWatch6<string,
DBusObject_t,
string,
string,
string,
StringMap > m_infoReq;
/** watch daemon whether it is gone */
boost::shared_ptr<Watch> m_daemonWatch;
};
/**
* Act as a session. All requests to a session are passed
* through this class.
*/
class RemoteSession : public DBusRemoteObject
{
public:
RemoteSession(RemoteDBusServer &server, const std::string &path);
RemoteDBusServer &getServer() { return m_server; }
/**
* call 'Execute' method of 'Session' in dbus server
* without waiting for return
*/
void executeAsync(const vector<string> &args);
/**
* call 'Suspend' or 'Abort' method of 'Session' in dbus server
* without waiting for return
*/
void interruptAsync(const char *operation);
/** copy config name from server's config */
void setConfigName(const Config_t &config);
/** get config name of this session */
string configName() { return m_configName; }
/** status 'done' is sent by session */
bool statusDone() { return boost::iequals(m_status, "done"); }
/** get current status */
string status() { return m_status; }
/** set the flag to indicate the session is running sync */
void setRunSync(bool runSync) { m_runSync = runSync; }
/** pass through logoutput and print them if m_output is true */
void logOutput(Logger::Level level, const string &log, const string &procname);
/** set whether to print output */
void setOutput(bool output) { m_output = output; }
/** process signals from daemon */
void infoReq(const string &id,
const DBusObject_t &session,
const string &state,
const string &handler,
const string &type,
const StringMap &params);
/** remove InfoReq objects from map */
void removeInfoReq(const string &id);
typedef std::map<std::string, SourceStatus> SourceStatuses_t;
private:
/**
* InfoReq to handle info requests from daemon and
* call 'Server.InfoResponse' to send its response
*/
class InfoReq
{
/** the session reference */
RemoteSession &m_session;
/** the id of InfoRequest */
string m_id;
/** the type of InfoRequest */
string m_type;
/** the response map sent to the daemon*/
StringMap m_resp;
/** InfoRequest state */
enum State {
INIT, // init
WORKING, //'working'
RESPONSE, // 'response'
DONE // 'done'
};
/** the current state of InfoRequest */
State m_state;
public:
InfoReq(RemoteSession &session, const string &id, const string &type);
/**
* process the info request dispatched by session
*/
void process(const string &id,
const DBusObject_t &session,
const string &state,
const string &handler,
const string &type,
const StringMap &params);
};
/** callback of calling 'Session.Execute' */
void executeCb(const string &error);
/** callback of 'Session.StatusChanged' */
void statusChangedCb(const string &status,
uint32_t errorCode,
const SourceStatuses_t &sourceStatus);
/** callback of 'Session.Suspend' */
void suspendCb(const string &);
/** callback of 'Session.Abort' */
void abortCb(const string &);
/**
* implement requirements from info req. Called by InfoReq.
*/
void handleInfoReq(const string &type, const StringMap &params, StringMap &resp);
/** dbus server */
RemoteDBusServer &m_server;
/* whether to log output */
bool m_output;
/** config name of the session */
string m_configName;
/** current status */
string m_status;
/** session is running sync */
bool m_runSync;
/** signal watch 'StatusChanged' */
SignalWatch3<std::string, uint32_t, SourceStatuses_t> m_statusChanged;
/** InfoReq map. store all infoReq belongs to this session */
map<string, boost::shared_ptr<InfoReq> > m_infoReqs;
};
/**
* Get current known environment variables, which might be used
* in executing command line arguments. This is only necessary
* when using dbus daemon.
* @param vars the returned environment variables
*/
static void getEnvVars(map<string, string> &vars);
#endif
extern "C"
int main( int argc, char **argv )
{
if (boost::ends_with(argv[0], "syncevo-local-sync")) {
return LocalTransportMain(argc, argv);
}
// Intercept stderr and route it through our logging.
// stdout is printed normally. Deconstructing it when
// leaving main() does one final processing of pending
// output.
LogRedirect redirect(false);
setvbuf(stderr, NULL, _IONBF, 0);
setvbuf(stdout, NULL, _IONBF, 0);
SyncContext::initMain("syncevolution");
// Expand PATH to cover the directory we were started from?
// This might be needed to find normalize_vcard.
char *exe = strdup(argv[0]);
if (strchr(exe, '/') ) {
char *dir = dirname(exe);
string path;
char *oldpath = getenv("PATH");
if (oldpath) {
path += oldpath;
path += ":";
}
path += dir;
setenv("PATH", path.c_str(), 1);
}
free(exe);
try {
if (getenv("SYNCEVOLUTION_DEBUG")) {
LoggerBase::instance().setLevel(Logger::DEBUG);
}
SyncEvo::KeyringSyncCmdline cmdline(argc, argv);
vector<string> parsedArgs;
if(!cmdline.parse(parsedArgs)) {
return 1;
}
if (cmdline.dontRun()) {
return 0;
}
Bool useDaemon = cmdline.useDaemon();
if(cmdline.monitor()) {
#ifdef DBUS_SERVICE
// monitor a session
RemoteDBusServer server;
if(server.checkStarted() && server.monitor(cmdline.getConfigName())) {
return 0;
}
return 1;
#else
SE_LOG_ERROR(NULL, NULL, "this syncevolution binary was compiled without support for monitoring a background sync");
return 1;
#endif
} else if(cmdline.status() &&
cmdline.getConfigName().empty()) {
#ifdef DBUS_SERVICE
// '--status' and no server name, try to get running sessions
RemoteDBusServer server;
if(server.checkStarted()) {
server.runningSessions();
return 0;
}
return 1;
#else
SE_LOG_SHOW(NULL, NULL, "this syncevolution binary was compiled without support for monitoring a background sync");
return 1;
#endif
} else if (useDaemon ||
!useDaemon.wasSet()) {
#ifdef DBUS_SERVICE
RemoteDBusServer server;
// Running execute() without the server available will print errors.
// Avoid that unless the user explicitly asked for the daemon.
bool result = server.checkStarted(false);
if (useDaemon.wasSet() || result) {
return !server.execute(parsedArgs, cmdline.getConfigName(), cmdline.isSync());
} else {
// User didn't select --use-daemon and thus doesn't need to know about it
// not being available.
// SE_LOG_SHOW(NULL, NULL, "WARNING: cannot run syncevolution as daemon. "
// "Trying to run it without daemon.");
}
#else
if (useDaemon.wasSet()) {
SE_LOG_SHOW(NULL, NULL, "ERROR: this syncevolution binary was compiled without support of daemon. "
"Either run syncevolution with '--use-daemon=no' or without that option.");
return 1;
}
#endif
}
// if forcing not using daemon or trying to use daemon with failures,
// run arguments in the process
if (!useDaemon.wasSet() ||
!useDaemon) {
EDSAbiWrapperInit();
/*
* don't log errors to cerr: LogRedirect cannot distinguish
* between our valid error messages and noise from other
* libs, therefore it would get suppressed (logged at
* level DEVELOPER, while output is at most INFO)
*/
if (cmdline.run()) {
return 0;
} else {
return 1;
}
}
} catch ( const std::exception &ex ) {
SE_LOG_ERROR(NULL, NULL, "%s", ex.what());
} catch (...) {
SE_LOG_ERROR(NULL, NULL, "unknown error");
}
return 1;
}
#ifdef DBUS_SERVICE
/********************** RemoteDBusServer implementation **************************/
RemoteDBusServer::RemoteDBusServer() :
DBusRemoteObject(dbus_get_bus_connection("SESSION", NULL, true, NULL),
"/org/syncevolution/Server",
"org.syncevolution.Server",
"org.syncevolution",
true),
m_attached(false), m_result(true),
m_replyTotal(0), m_replyCounter(0),
m_sessionChanged(*this,"SessionChanged"),
m_logOutput(*this, "LogOutput"),
m_infoReq(*this, "InfoRequest")
{
m_loop = g_main_loop_new (NULL, FALSE);
if (getConnection()) {
//check whether we can attach to the daemon
//also set up the daemon watch when attaching to server
attachSync();
if(m_attached) {
m_sessionChanged.activate(boost::bind(&RemoteDBusServer::sessionChangedCb, this, _1, _2));
m_logOutput.activate(boost::bind(&RemoteDBusServer::logOutputCb, this, _1, _2, _3, _4));
m_infoReq.activate(boost::bind(&RemoteDBusServer::infoReqCb, this, _1, _2, _3, _4, _5, _6));
}
}
}
bool RemoteDBusServer::checkStarted(bool printError)
{
if(!m_attached) {
if (printError) {
SE_LOG_ERROR(NULL, NULL, "SyncEvolution D-Bus server not available.");
}
return false;
}
return true;
}
void RemoteDBusServer::attachSync()
{
resetReplies();
DBusClientCall1<boost::shared_ptr<Watch> > attach(*this, "Attach");
attach.start(boost::bind(&RemoteDBusServer::attachCb, this, _1, _2));
while(!done()) {
g_main_loop_run(m_loop);
}
}
void RemoteDBusServer::attachCb(const boost::shared_ptr<Watch> &watch, const string &error)
{
if(error.empty()) {
//if attach is successful, watch server whether it is gone
m_daemonWatch = watch;
m_daemonWatch->setCallback(boost::bind(&RemoteDBusServer::daemonGone,this));
// don't print error information, leave it to caller
m_attached = true;
// do a version check now before calling replyInc()
DBusClientCall1< StringMap > getVersions(*this, "GetVersions");
getVersions.start(boost::bind(&RemoteDBusServer::versionCb, this, _1, _2));
} else {
// done with attach phase, skip version check
replyInc();
}
}
void RemoteDBusServer::versionCb(const StringMap &versions,
const string &error)
{
replyInc();
if (!error.empty()) {
SE_LOG_DEBUG(NULL, NULL, "Server.GetVersions(): %s", error.c_str());
} else {
StringMap::const_iterator it = versions.find("version");
if (it != versions.end() &&
it->second != VERSION) {
SE_LOG_INFO(NULL, NULL,
"proceeding despite version mismatch between command line client 'syncevolution' and 'syncevo-dbus-server' (%s != %s)",
it->second.c_str(),
VERSION);
}
}
}
void RemoteDBusServer::logOutputCb(const DBusObject_t &object,
const string &level,
const string &log,
const string &procname)
{
if (m_session &&
(boost::equals(object, getPath()) ||
boost::equals(object, m_session->getPath()))) {
m_session->logOutput(Logger::strToLevel(level.c_str()), log, procname);
}
}
void RemoteDBusServer::infoReqCb(const string &id,
const DBusObject_t &session,
const string &state,
const string &handler,
const string &type,
const StringMap &params)
{
// if m_session is null, just ignore
if(m_session) {
m_session->infoReq(id, session, state, handler, type, params);
}
}
void RemoteDBusServer::infoResponse(const string &id,
const string &state,
const StringMap &resp)
{
//call Server.InfoResponse
DBusClientCall0 call(*this, "InfoResponse");
call.start(id, state, resp, boost::bind(&RemoteDBusServer::infoResponseCb, this, _1));
}
void RemoteDBusServer::infoResponseCb(const string &error)
{
replyInc();
if(!error.empty()) {
SE_LOG_ERROR(NULL, NULL, "information response failed.");
m_result = false;
}
g_main_loop_quit(m_loop);
}
void RemoteDBusServer::sessionChangedCb(const DBusObject_t &object, bool active)
{
// update active sessions if needed
updateSessions(object, active);
g_main_loop_quit(m_loop);
}
void RemoteDBusServer::daemonGone()
{
//print error info and exit
SE_LOG_ERROR(NULL, NULL, "Background sync daemon has gone.");
exit(1);
}
static void SuspendFlagsChanged(RemoteSession *session,
SuspendFlags &flags)
{
if (flags.getState() == SuspendFlags::SUSPEND) {
session->interruptAsync("Suspend");
} else if(flags.getState() == SuspendFlags::ABORT) {
session->interruptAsync("Abort");
}
}
bool RemoteDBusServer::execute(const vector<string> &args, const string &peer, bool runSync)
{
//the basic workflow is:
//1) start a session
//2) waiting for the session becomes active
//3) execute 'arguments' once it is active
// start a new session
DBusClientCall1<DBusObject_t> startSession(*this, "StartSessionWithFlags");
std::vector<std::string> flags;
if (!runSync) {
flags.push_back("no-sync");
}
startSession.start(peer, flags, boost::bind(&RemoteDBusServer::startSessionCb, this, _1, _2));
// wait until 'StartSession' returns
resetReplies();
while(!done()) {
g_main_loop_run(m_loop);
}
if(m_session) {
m_session->setRunSync(true);
// If the syncevo-dbus-server dies while we wait for some
// output from it, then we used to hang forever. Worse, if it
// happened while signal handling was active, then the command
// line tool couldn't even be killed with CTRL-C.
// To detect this case, we watch name owner changes for org.syncevolution.server.
// If it changes from now on, we know that our m_session became
// invalid. If it already changed, then the next calls for that
// session will fail.
#if 0
GDBusCXX::DBusRemoteObject daemon(getConnection(),
"/org/freedesktop/DBus",
"org.freedesktop.DBus",
"");
GDBusCXX::SignalWatch3<std::string, std::string, std::string> nameOwnerChanged(daemon,
"NameOwnerChanged");
nameOwnerChanged.activate(boost::bind(&RemoteDBusServer::nameOwnerChangedCB, this,
_1, _2, _3));
#endif
//if session is not active, just wait
while(!isActive()) {
g_main_loop_run(m_loop);
}
// Logger::Level level = LoggerBase::instance().getLevel();
// LoggerBase::instance().setLevel(Logger::DEBUG);
resetReplies();
m_session->executeAsync(args);
while(m_result && !done()) {
g_main_loop_run(m_loop);
}
//if encoutering errors, return
if(!m_result) {
return m_result;
}
// Acticate signal handling in all cases.
// We let SuspendFlags catch them and then
// react in the normal event loop.
SuspendFlags &flags(SuspendFlags::getSuspendFlags());
boost::shared_ptr<SuspendFlags::Guard> signalGuard = flags.activate();
flags.m_stateChanged.connect(SuspendFlags::StateChanged_t::slot_type(SuspendFlagsChanged, m_session.get(), _1).track(m_session));
//wait until status is 'done'
while(m_result && !m_session->statusDone()) {
g_main_loop_run(m_loop);
}
//restore logging level
// LoggerBase::instance().setLevel(level);
m_session->setRunSync(false);
}
return m_result;
}
void RemoteDBusServer::startSessionCb(const DBusObject_t &sessionPath, const string &error)
{
replyInc();
if(!error.empty()) {
SE_LOG_ERROR(NULL, NULL, "starting D-Bus session failed: %s", error.c_str());
if (error.find("org.freedesktop.DBus.Error.UnknownMethod") != error.npos) {
SE_LOG_INFO(NULL, NULL, "syncevo-dbus-server is most likely too old");
}
m_result = false;
g_main_loop_quit(m_loop);
return;
}
m_session.reset(new RemoteSession(*this, sessionPath));
g_main_loop_quit(m_loop);
}
bool RemoteDBusServer::isActive()
{
/** if current session is active and then start to call 'Execute' method */
if(m_session) {
BOOST_FOREACH(const string &session, m_activeSessions) {
if(boost::equals(m_session->getPath(), session.c_str())) {
return true;
}
}
}
return false;
}
void RemoteDBusServer::runningSessions()
{
//the basic working flow is:
//1) get all sessions
//2) check each session and collect running sessions
//3) get config name of running sessions and print them
vector<DBusObject_t> sessions = DBusClientCall1< vector<DBusObject_t> >(*this, "GetSessions")();
if (sessions.empty()) {
SE_LOG_SHOW(NULL, NULL, "Background sync daemon is idle.");
} else {
SE_LOG_SHOW(NULL, NULL, "Running session(s): ");
// create local objects for sessions
BOOST_FOREACH(const DBusObject_t &path, sessions) {
RemoteSession session(*this, path);
// Get status. Slight race condition here, session might
// disappear before we can ask. In that case we fail by
// showing the exception string instead of showing some
// more comprehensible error message. Unlikely, so don't
// bother...
boost::tuple<string, uint32_t, RemoteSession::SourceStatuses_t> status =
DBusClientCall3<string, uint32_t, RemoteSession::SourceStatuses_t>(session, "GetStatus")();
std::string syncStatus = boost::get<0>(status);
if (boost::istarts_with(syncStatus, "running")) {
Config_t config = DBusClientCall1<Config_t>(session, "GetConfig")(false);
session.setConfigName(config);
if (!session.configName().empty()) {
SE_LOG_SHOW(NULL, NULL, " %s (%s)", session.configName().c_str(), session.getPath());
}
}
}
}
}
void RemoteDBusServer::updateSessions(const string &session, bool active)
{
if(active) {
//add it into active list
m_activeSessions.push_back(session);
} else {
//if inactive, remove it from active list
for(vector<string>::iterator it = m_activeSessions.begin();
it != m_activeSessions.end(); ++it) {
if(boost::equals(session, *it)) {
m_activeSessions.erase(it);
break;
}
}
}
}
void RemoteDBusServer::replyInc()
{
// increase counter and check whether all replies are returned
m_replyCounter++;
if(done()) {
g_main_loop_quit(m_loop);
}
}
bool RemoteDBusServer::monitor(const string &peer)
{
//the basic working flow is:
//1) get all sessions
//2) check each session and collect running sessions or
//3) peak one session with the given peer and monitor it
vector<DBusObject_t> sessions = DBusClientCall1< vector<DBusObject_t> >(*this, "GetSessions")();
if (sessions.empty()) {
SE_LOG_SHOW(NULL, NULL, "Background sync daemon is idle, no session available to be be monitored.");
} else {
// cheating: client and server might normalize the peer name differently...
string peerNorm = SyncConfig::normalizeConfigString(peer);
// create local objects for sessions
BOOST_FOREACH(const DBusObject_t &path, sessions) {
boost::shared_ptr<RemoteSession> session(new RemoteSession(*this, path));
boost::tuple<string, uint32_t, RemoteSession::SourceStatuses_t> status =
DBusClientCall3<string, uint32_t, RemoteSession::SourceStatuses_t>(*session, "GetStatus")();
std::string syncStatus = boost::get<0>(status);
if (boost::istarts_with(syncStatus, "running")) {
Config_t config = DBusClientCall1<Config_t>(*session, "GetConfig")(false);
session->setConfigName(config);
if (peer.empty() ||
peerNorm == session->configName()) {
SE_LOG(Logger::SHOW, NULL, NULL, "Monitoring '%s' (%s)\n",
session->configName().c_str(),
session->getPath());
// set DBusServer::m_session so that RemoteSession::logOutput gets called
// and enable printing that output
m_session = session;
session->setOutput(true);
// now wait for session to complete
while (!session->statusDone()) {
g_main_loop_run(getLoop());
}
SE_LOG(Logger::SHOW, NULL, NULL, "Monitoring done");
return true;
}
}
}
SE_LOG_SHOW(NULL, NULL, "'%s' is not running.", peer.c_str());
}
return false;
}
/********************** RemoteSession implementation **************************/
RemoteSession::RemoteSession(RemoteDBusServer &server,
const string &path) :
DBusRemoteObject(server.getConnection(),
path,
"org.syncevolution.Session",
"org.syncevolution"),
m_server(server), m_output(false), m_runSync(false),
m_statusChanged(*this, "StatusChanged")
{
m_statusChanged.activate(boost::bind(&RemoteSession::statusChangedCb, this, _1, _2, _3));
}
void RemoteSession::executeAsync(const vector<string> &args)
{
//start to print outputs
m_output = true;
map<string, string> vars;
getEnvVars(vars);
DBusClientCall0 call(*this, "Execute");
call.start(args, vars, boost::bind(&RemoteSession::executeCb, this, _1));
}
void RemoteSession::executeCb(const string &error)
{
m_server.replyInc();
if(!error.empty()) {
SE_LOG_ERROR(NULL, NULL, "running the command line inside the D-Bus server failed");
m_server.setResult(false);
//end to print outputs
m_output = false;
return;
}
}
void RemoteSession::statusChangedCb(const string &status,
uint32_t errorCode,
const SourceStatuses_t &sourceStatus)
{
m_status = status;
if (errorCode) {
m_server.setResult(false);
g_main_loop_quit(m_server.getLoop());
}
if(status == "done") {
//if session is done, quit the loop
g_main_loop_quit(m_server.getLoop());
m_output = false;
}
}
void RemoteSession::setConfigName(const Config_t &config)
{
Config_t::const_iterator it = config.find("");
if(it != config.end()) {
StringMap global = it->second;
StringMap::iterator git = global.find("configName");
if(git != global.end()) {
m_configName = git->second;
}
}
}
static void interruptCb(const std::string &error)
{
if (!error.empty()) {
SE_LOG_DEBUG(NULL, NULL, "interruptAsync() error from remote: %s", error.c_str());
}
}
void RemoteSession::interruptAsync(const char *operation)
{
// call Suspend() without checking result
DBusClientCall0 suspend(*this, operation);
suspend.start(interruptCb);
}
void RemoteSession::logOutput(Logger::Level level, const string &log, const string &procname)
{
if(m_output) {
ProcNameGuard guard(procname);
SE_LOG(level, NULL, NULL, "%s", log.c_str());
}
}
void RemoteSession::infoReq(const string &id,
const DBusObject_t &session,
const string &state,
const string &handler,
const string &type,
const StringMap &params)
{
//if command line runs a sync, then try to handle req
if (m_runSync && boost::iequals(session, getPath())) {
//only handle password now
if (boost::iequals("password", type)) {
map<string, boost::shared_ptr<InfoReq> >::iterator it = m_infoReqs.find(id);
if (it != m_infoReqs.end()) {
it->second->process(id, session, state, handler, type, params);
} else {
boost::shared_ptr<InfoReq> passwd(new InfoReq(*this, id, type));
m_infoReqs[id] = passwd;
passwd->process(id, session, state, handler, type, params);
}
}
}
}
void RemoteSession::handleInfoReq(const string &type, const StringMap &params, StringMap &resp)
{
if (boost::iequals(type, "password")) {
char buffer[256];
string descr;
StringMap::const_iterator it = params.find("description");
if (it != params.end()) {
descr = it->second;
}
printf("Enter password for %s: ", descr.c_str());
fflush(stdout);
if (fgets(buffer, sizeof(buffer), stdin) &&
strcmp(buffer, "\n")) {
size_t len = strlen(buffer);
if (len && buffer[len - 1] == '\n') {
buffer[len - 1] = 0;
}
resp["password"] = string(buffer);
} else {
SE_LOG_ERROR(NULL, NULL, "could not read password for %s", descr.c_str());
}
}
}
void RemoteSession::removeInfoReq(const string &id)
{
map<string, boost::shared_ptr<InfoReq> >::iterator it = m_infoReqs.find(id);
if (it != m_infoReqs.end()) {
m_infoReqs.erase(it);
}
}
/********************** InfoReq implementation **************************/
RemoteSession::InfoReq::InfoReq(RemoteSession &session,
const string &id,
const string &type)
:m_session(session), m_id(id), m_type(type), m_state(INIT)
{
}
void RemoteSession::InfoReq::process(const string &id,
const DBusObject_t &session,
const string &state,
const string &handler,
const string &type,
const StringMap &params)
{
//only handle info belongs to this InfoReq
if (boost::equals(m_id, id)) {
//check the state and response if necessary
if (m_state == INIT && boost::iequals("request", state)) {
m_session.getServer().infoResponse(m_id, "working", StringMap());
m_state = WORKING;
m_session.handleInfoReq(type, params, m_resp);
} else if ((m_state == WORKING) && boost::iequals("waiting", state)) {
m_session.getServer().infoResponse(m_id, "response", m_resp);
m_state = RESPONSE;
} else if (boost::iequals("done", state)) {
//if request is 'done', remove it
m_session.removeInfoReq(m_id);
}
}
}
void getEnvVars(map<string, string> &vars)
{
//environment variables used to run command line
static const char *varNames[] = {
"http_proxy",
"HOME",
"PATH",
"SYNCEVOLUTION_BACKEND_DIR",
"SYNCEVOLUTION_DEBUG",
"SYNCEVOLUTION_GNUTLS_DEBUG",
"SYNCEVOLUTION_TEMPLATE_DIR",
"SYNCEVOLUTION_XML_CONFIG_DIR",
"SYNC_EVOLUTION_EVO_CALENDAR_DELAY",
"XDG_CACHE_HOME",
"XDG_CONFIG_HOME",
"XDG_DATA_HOME"
};
for (unsigned int i = 0; i < sizeof(varNames) / sizeof(const char*); i++) {
const char *value;
//get values of environment variables if they are set
if ((value = getenv(varNames[i])) != NULL) {
vars.insert(make_pair(varNames[i], value));
}
}
}
#endif
SE_END_CXX