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/**
* @file bus.h
*
* @brief Interface of bus_t.
*
*/
/*
* Copyright (C) 2006 Martin Willi
* Hochschule fuer Technik Rapperswil
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation; either version 2 of the License, or (at your
* option) any later version. See <http://www.fsf.org/copyleft/gpl.txt>.
*
* This program 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 General Public License
* for more details.
*/
#ifndef BUS_H_
#define BUS_H_
typedef enum signal_t signal_t;
typedef enum level_t level_t;
typedef struct bus_listener_t bus_listener_t;
typedef struct bus_t bus_t;
#include <stdarg.h>
#include <sa/ike_sa.h>
#include <sa/child_sa.h>
#include <processing/jobs/job.h>
/**
* @brief signals emitted by the daemon.
*
* Signaling is for different purporses. First, it allows debugging via
* "debugging signal messages", sencondly, it allows to follow certain
* mechanisms currently going on in the daemon. As we are multithreaded,
* and multiple transactions are involved, it's not possible to follow
* one connection setup without further infrastructure. These infrastructure
* is provided by the bus and the signals the daemon emits to the bus.
*
* There are different scenarios to follow these signals, but all have
* the same scheme. First, a START signal is emitted to indicate the daemon
* has started to do something. After a start signal, a SUCCESS or a FAILED
* signal of the same type follows. This allows to track the operation. Any
* Debug signal betwee a START and a SUCCESS/FAILED belongs to that operation
* if the IKE_SA is the same. The thread may change, as multiple threads
* may be involved in a complex scenario.
*
* @ingroup bus
*/
enum signal_t {
/** pseudo signal, representing any other signal */
SIG_ANY,
/** debugging message from daemon main loop */
DBG_DMN,
/** debugging message from IKE_SA_MANAGER */
DBG_MGR,
/** debugging message from an IKE_SA */
DBG_IKE,
/** debugging message from a CHILD_SA */
DBG_CHD,
/** debugging message from job processing */
DBG_JOB,
/** debugging message from configuration backends */
DBG_CFG,
/** debugging message from kernel interface */
DBG_KNL,
/** debugging message from networking */
DBG_NET,
/** debugging message from message encoding/decoding */
DBG_ENC,
/** debugging message from libstrongswan via logging hook */
DBG_LIB,
/** number of debug signals */
DBG_MAX,
/** signals for IKE_SA establishment */
IKE_UP_START,
IKE_UP_SUCCESS,
IKE_UP_FAILED,
/** signals for IKE_SA delete */
IKE_DOWN_START,
IKE_DOWN_SUCCESS,
IKE_DOWN_FAILED,
/** signals for IKE_SA rekeying */
IKE_REKEY_START,
IKE_REKEY_SUCCESS,
IKE_REKEY_FAILED,
/** signals for CHILD_SA establishment */
CHILD_UP_START,
CHILD_UP_SUCCESS,
CHILD_UP_FAILED,
/** signals for CHILD_SA delete */
CHILD_DOWN_START,
CHILD_DOWN_SUCCESS,
CHILD_DOWN_FAILED,
/** signals for CHILD_SA rekeying */
CHILD_REKEY_START,
CHILD_REKEY_SUCCESS,
CHILD_REKEY_FAILED,
/** signals for CHILD_SA routing */
CHILD_ROUTE_START,
CHILD_ROUTE_SUCCESS,
CHILD_ROUTE_FAILED,
/** signals for CHILD_SA routing */
CHILD_UNROUTE_START,
CHILD_UNROUTE_SUCCESS,
CHILD_UNROUTE_FAILED,
SIG_MAX
};
/**
* short names of signals using 3 chars
*/
extern enum_name_t *signal_names;
/**
* Signal levels used to control output verbosity.
*/
enum level_t {
/** numerical levels from 0 to 4 */
LEVEL_0 = 0,
LEVEL_1 = 1,
LEVEL_2 = 2,
LEVEL_3 = 3,
LEVEL_4 = 4,
/** absolutely silent, no signal is emitted with this level */
LEVEL_SILENT = -1,
/** alias for numberical levels */
LEVEL_AUDIT = LEVEL_0,
LEVEL_CTRL = LEVEL_1,
LEVEL_CTRLMORE = LEVEL_2,
LEVEL_RAW = LEVEL_3,
LEVEL_PRIVATE = LEVEL_4,
};
#ifndef DEBUG_LEVEL
# define DEBUG_LEVEL 4
#endif /* DEBUG_LEVEL */
#if DEBUG_LEVEL >= 1
/**
* @brief Log a debug message via the signal bus.
*
* @param signal signal_t signal description
* @param format printf() style format string
* @param ... printf() style agument list
*/
# define DBG1(sig, format, ...) charon->bus->signal(charon->bus, sig, LEVEL_1, format, ##__VA_ARGS__)
#endif /* DEBUG_LEVEL */
#if DEBUG_LEVEL >= 2
#define DBG2(sig, format, ...) charon->bus->signal(charon->bus, sig, LEVEL_2, format, ##__VA_ARGS__)
#endif /* DEBUG_LEVEL */
#if DEBUG_LEVEL >= 3
#define DBG3(sig, format, ...) charon->bus->signal(charon->bus, sig, LEVEL_3, format, ##__VA_ARGS__)
#endif /* DEBUG_LEVEL */
#if DEBUG_LEVEL >= 4
#define DBG4(sig, format, ...) charon->bus->signal(charon->bus, sig, LEVEL_4, format, ##__VA_ARGS__)
#endif /* DEBUG_LEVEL */
#ifndef DBG1
# define DBG1(...) {}
#endif /* DBG1 */
#ifndef DBG2
# define DBG2(...) {}
#endif /* DBG2 */
#ifndef DBG3
# define DBG3(...) {}
#endif /* DBG3 */
#ifndef DBG4
# define DBG4(...) {}
#endif /* DBG4 */
/**
* @brief Raise a signal for an occured event.
*
* @param sig signal_t signal description
* @param format printf() style format string
* @param ... printf() style agument list
*/
#define SIG(sig, format, ...) charon->bus->signal(charon->bus, sig, LEVEL_0, format, ##__VA_ARGS__)
/**
* @brief Get the type of a signal.
*
* A signal may be a debugging signal with a specific context. They have
* a level specific for their context > 0. All audit signals use the
* type 0. This allows filtering of singals by their type.
*
* @param signal signal to get the type from
* @return type of the signal, between 0..(DBG_MAX-1)
*/
#define SIG_TYPE(sig) (sig > DBG_MAX ? SIG_ANY : sig)
/**
* @brief Interface for registering at the signal bus.
*
* To receive signals from the bus, the client implementing the
* bus_listener_t interface registers itself at the signal bus.
*
* @ingroup bus
*/
struct bus_listener_t {
/**
* @brief Send a signal to a bus listener.
*
* A numerical identification for the thread is included, as the
* associated IKE_SA, if any. Signal specifies the type of
* the event occured. The format string specifies
* an additional informational or error message with a printf() like
* variable argument list. This is in the va_list form, as forwarding
* a "..." parameters to functions is not (cleanly) possible.
* The implementing signal function returns TRUE to stay registered
* to the bus, or FALSE to unregister itself.
*
* @param this listener
* @param singal kind of the signal (up, down, rekeyed, ...)
* @param level verbosity level of the signal
* @param thread ID of the thread raised this signal
* @param ike_sa IKE_SA associated to the event
* @param format printf() style format string
* @param args vprintf() style va_list argument list
" @return TRUE to stay registered, FALSE to unregister
*/
bool (*signal) (bus_listener_t *this, signal_t signal, level_t level,
int thread, ike_sa_t *ike_sa, char* format, va_list args);
};
/**
* @brief Signal bus which sends signals to registered listeners.
*
* The signal bus is not much more than a multiplexer. A listener interested
* in receiving event signals registers at the bus. Any signals sent to
* are delivered to all registered listeners.
* To deliver signals to threads, the blocking listen() call may be used
* to wait for a signal.
*
* @ingroup bus
*/
struct bus_t {
/**
* @brief Register a listener to the bus.
*
* A registered listener receives all signals which are sent to the bus.
* The listener is passive; the thread which emitted the signal
* processes the listener routine.
*
* @param this bus
* @param listener listener to register.
*/
void (*add_listener) (bus_t *this, bus_listener_t *listener);
/**
* @brief Unregister a listener from the bus.
*
* @param this bus
* @param listener listener to unregister.
*/
void (*remove_listener) (bus_t *this, bus_listener_t *listener);
/**
* @brief Register a listener and block the calling thread.
*
* This call registers a listener and blocks the calling thread until
* its listeners function returns FALSE. This allows to wait for certain
* events. The associated job is executed after the listener has been
* registered, this allows to listen on events we initiate with the job
* without missing any signals.
*
* @param this bus
* @param listener listener to register
* @param job job to execute asynchronously when registered, or NULL
*/
void (*listen)(bus_t *this, bus_listener_t *listener, job_t *job);
/**
* @brief Set the IKE_SA the calling thread is using.
*
* To associate an received signal to an IKE_SA without passing it as
* parameter each time, the thread registers it's used IKE_SA each
* time it checked it out. Before checking it in, the thread unregisters
* the IKE_SA (by passing NULL). This IKE_SA is stored per-thread, so each
* thread has one IKE_SA registered (or not).
*
* @param this bus
* @param ike_sa ike_sa to register, or NULL to unregister
*/
void (*set_sa) (bus_t *this, ike_sa_t *ike_sa);
/**
* @brief Send a signal to the bus.
*
* The signal specifies the type of the event occured. The format string
* specifies an additional informational or error message with a
* printf() like variable argument list.
* Some useful macros are available to shorten this call.
* @see SIG(), DBG1()
*
* @param this bus
* @param singal kind of the signal (up, down, rekeyed, ...)
* @param level verbosity level of the signal
* @param format printf() style format string
* @param ... printf() style argument list
*/
void (*signal) (bus_t *this, signal_t signal, level_t level, char* format, ...);
/**
* @brief Send a signal to the bus using va_list arguments.
*
* Same as bus_t.signal(), but uses va_list argument list.
*
* @todo Improve performace of vsignal implementation. This method is
* called extensively and therefore shouldn't allocate heap memory or
* do other expensive tasks!
*
* @param this bus
* @param singal kind of the signal (up, down, rekeyed, ...)
* @param level verbosity level of the signal
* @param format printf() style format string
* @param args va_list arguments
*/
void (*vsignal) (bus_t *this, signal_t signal, level_t level, char* format, va_list args);
/**
* @brief Destroy the signal bus.
*
* @param this bus to destroy
*/
void (*destroy) (bus_t *this);
};
/**
* @brief Create the signal bus which multiplexes signals to its listeners.
*
* @return signal bus instance
*
* @ingroup bus
*/
bus_t *bus_create();
#endif /* BUS_H_ */
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