lyx_mirror/src/support/ForkedCalls.h

240 lines
5.9 KiB
C++

// -*- C++ -*-
/**
* \file ForkedCalls.h
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* \author Asger Alstrup
* \author Angus Leeming
* \author Alfredo Braunstein
*
* Full author contact details are available in file CREDITS.
*/
#ifndef FORKEDCALLS_H
#define FORKEDCALLS_H
#include "support/signals.h"
#include "support/strfwd.h"
#ifdef HAVE_SYS_TYPES_H
# include <sys/types.h>
#endif
#include <memory>
namespace lyx {
namespace support {
class ForkedProcess {
public:
///
enum Starttype {
///
Wait,
///
DontWait
};
///
ForkedProcess();
///
virtual ~ForkedProcess() {}
///
virtual std::shared_ptr<ForkedProcess> clone() const = 0;
/** A Signal signal can be emitted once the forked process
* has finished. It passes:
* the PID of the child and;
* the return value from the child.
*
* We use a signal rather than simply a callback function so that
* we can return easily to C++ methods, rather than just globally
* accessible functions.
*/
typedef signals2::signal<void(pid_t, int)> sig;
typedef sig::slot_type slot;
/** The signal is connected in the calling routine to the desired
* slot. We pass a shared_ptr rather than a reference to the signal
* because it is eminently possible for the instance of the calling
* class (and hence the signal) to be destructed before the forked
* call is complete.
*
* Use Slot::track or Signal::scoped_connection to ensure that the
* connection is closed before the slot expires.
*/
typedef std::shared_ptr<sig> sigPtr;
/** Invoking the following methods makes sense only if the command
* is running asynchronously!
*/
/** gets the PID of the child process.
* Used by the timer.
*/
pid_t pid() const { return pid_; }
/** Emit the signal.
* Used by the timer.
*/
void emitSignal();
/** Set the return value of the child process.
* Used by the timer.
*/
void setRetValue(int r) { retval_ = r; }
/// Returns the identifying command (for display in the GUI perhaps).
std::string const & command() const { return command_; }
/// is the process running ?
bool running() const;
/** Kill child prematurely.
* First, a SIGHUP is sent to the child.
* If that does not end the child process within "tolerance"
* seconds, the SIGKILL signal is sent to the child.
* When the child is dead, the callback is called.
*/
void kill(int tolerance = 5);
/// Returns true if this is a child process
static bool iAmAChild() { return IAmAChild; }
protected:
/** Spawn the child process.
* Returns returncode from child.
*/
int run(Starttype type);
/// implement our own version of fork()
/// it just returns -1 if ::fork() is not defined
/// otherwise, it forks and sets the global child-process
/// boolean IAmAChild
pid_t fork();
/// Callback function
sigPtr signal_;
/// identifying command (for display in the GUI perhaps).
std::string command_;
/// Process ID of child
pid_t pid_;
/// Return value from child
int retval_;
private:
/// generate child in background
virtual int generateChild() = 0;
///
static bool IAmAChild;
/// Wait for child process to finish. Updates returncode from child.
int waitForChild();
};
/**
* An instance of class ForkedCall represents a single child process.
*
* Class ForkedCall uses fork() and execvp() to launch the child process.
*
* Once launched, control is returned immediately to the parent process
* but a Signal can be emitted upon completion of the child.
*
* The child process is not killed when the ForkedCall instance goes out of
* scope, but it can be killed by an explicit invocation of the kill() member
* function.
*/
class ForkedCall : public ForkedProcess {
public:
///
ForkedCall(std::string const & path = empty_string(),
std::string const & lpath = empty_string());
///
std::shared_ptr<ForkedProcess> clone() const override {
return std::make_shared<ForkedCall>(*this);
}
/** Start the child process.
*
* The command "what" is passed to execvp() for execution. "$$s" is
* replaced accordingly by commandPrep().
*
* There are two startScript commands available. They differ in that
* the second receives a signal that is executed on completion of
* the command. This makes sense only for a command executed
* in the background, ie DontWait.
*
* The other startscript command can be executed either blocking
* or non-blocking, but no signal will be emitted on finishing.
*/
int startScript(Starttype, std::string const & what);
///
int startScript(std::string const & what, sigPtr ptr);
private:
///
int generateChild() override;
///
std::string cmd_prefix_;
};
/**
* This interfaces a queue of forked processes. In order not to
* hose the system with multiple processes running simultaneously, you can
* request the addition of your process to this queue and it will be
* executed when its turn comes.
*
*/
namespace ForkedCallQueue {
ForkedCall::sigPtr add(std::string const & process);
/// Query whether the queue is running a forked process now.
bool running();
} // namespace ForkedCallQueue
/**
* Control of child processes launched using fork() and execvp().
*/
namespace ForkedCallsController {
/// Add a new child process to the list of controlled processes.
void addCall(ForkedProcess const &);
/** Those child processes that are found to have finished are removed
* from the list and their callback function is passed the final
* return state.
*/
void handleCompletedProcesses();
/** Kill this process prematurely and remove it from the list.
* The process is killed within tolerance secs.
* See forkedcall.[Ch] for details.
*/
void kill(pid_t, int tolerance = 5);
} // namespace ForkedCallsController
#if defined(_WIN32)
// a wrapper for GetLastError() and FormatMessage().
std::string const getChildErrorMessage();
#endif
} // namespace support
} // namespace lyx
#endif // FORKEDCALLS_H