/*
ctdb database library
Copyright (C) Ronnie sahlberg 2010
Copyright (C) Rusty Russell 2010
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 3 of the License, or
(at your option) any later version.
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.
You should have received a copy of the GNU General Public License
along with this program; if not, see .
*/
#ifndef _CTDB_H
#define _CTDB_H
#include
#include
#include
#include
#include
#include
#include
#include
/**
* ctdb - a library for accessing tdbs controlled by ctdbd
*
* ctdbd (clustered tdb daemon) is a daemon designed to syncronize TDB
* databases across a cluster. Using this library, you can communicate with
* the daemon to access the databases, pass messages across the cluster, and
* control the daemon itself.
*
* The general API is event-driven and asynchronous: you call the
* *_send functions, supplying callbacks, then when the ctdbd file
* descriptor is usable, call ctdb_service() to perform read from it
* and call your callbacks, which use the *_recv functions to unpack
* the replies from ctdbd.
*
* There is also a synchronous wrapper for each function for trivial
* programs; these can be found in the section marked "Synchronous API".
*/
/**
* ctdb_log_fn_t - logging function for ctdbd
* @log_priv: private (typesafe) arg via ctdb_connect
* @severity: syslog-style severity
* @format: printf-style format string.
* @ap: arguments for formatting.
*
* The severity passed to log() are as per syslog(3). In particular,
* LOG_DEBUG is used for tracing, LOG_WARNING is used for unusual
* conditions which don't necessarily return an error through the API,
* LOG_ERR is used for errors such as lost communication with ctdbd or
* out-of-memory, LOG_ALERT is used for library usage bugs, LOG_CRIT is
* used for libctdb internal consistency checks.
*
* The log() function can be typesafe: the @log_priv arg to
* ctdb_donnect and signature of log() should match.
*/
typedef void (*ctdb_log_fn_t)(void *log_priv,
int severity, const char *format, va_list ap);
/**
* ctdb_connect - connect to ctdb using the specified domain socket.
* @addr: the socket address, or NULL for default
* @log: the logging function
* @log_priv: the private argument to the logging function.
*
* Returns a ctdb context if successful or NULL. Use ctdb_disconnect() to
* release the returned ctdb_connection when finished.
*
* See Also:
* ctdb_log_fn_t, ctdb_log_file()
*/
struct ctdb_connection *ctdb_connect(const char *addr,
ctdb_log_fn_t log_fn, void *log_priv);
/**
* ctdb_log_file - example logging function
*
* Logs everything at priority LOG_WARNING or above to the file given (via
* the log_priv argument, usually stderr).
*/
void ctdb_log_file(FILE *, int, const char *, va_list);
/**
* ctdb_log_level - level at which to call logging function
*
* This variable globally controls filtering on the logging function.
* It is initialized to LOG_WARNING, meaning that strange but nonfatal
* events, as well as errors and API misuses are reported.
*
* Set it to LOG_DEBUG to receive all messages.
*/
extern int ctdb_log_level;
/**
* ctdb_disconnect - close down a connection to ctdbd.
* @ctdb: the ctdb connectio returned from ctdb_connect.
*
* The @ctdb arg will be freed by this call, and must not be used again.
*/
void ctdb_disconnect(struct ctdb_connection *ctdb);
/***
*
* Asynchronous API
*
***/
/**
* ctdb_get_fd - get the filedescriptor to select/poll on
* @ctdb: the ctdb_connection from ctdb_connect.
*
* By using poll or select on this file descriptor, you will know when to call
* ctdb_service().
*
* See Also:
* ctdb_which_events(), ctdb_service()
*/
int ctdb_get_fd(struct ctdb_connection *ctdb);
/**
* ctdb_which_events - determine which events ctdb_service wants to see
* @ctdb: the ctdb_connection from ctdb_connect.
*
* This returns POLLIN, possibly or'd with POLLOUT if there are writes
* pending. You can set this straight into poll.events.
*
* See Also:
* ctdb_service()
*/
int ctdb_which_events(struct ctdb_connection *ctdb);
/**
* ctdb_service - service any I/O and callbacks from ctdbd communication
* @ctdb: the ctdb_connection from ctdb_connect.
* @revents: which events are available.
*
* This is the core of the library: it read and writes to the ctdbd
* socket. It may call callbacks registered with the various _send
* functions.
*
* revents is a bitset: POLLIN and/or POLLOUT may be set to indicate
* it is worth attempting to read/write the (nonblocking)
* filedescriptor respectively.
*
* Note that the synchronous functions call this internally.
* Returns false on catastrophic failure.
*/
bool ctdb_service(struct ctdb_connection *ctdb, int revents);
/**
* struct ctdb_request - handle for an outstanding request
*
* This opaque structure returned from various *_send functions gives
* you a handle by which you can cancel a request. You can't do
* anything else with it until the request is completed and it is
* handed to your callback function.
*/
struct ctdb_request;
/**
* ctdb_request_free - free a completed request
*
* This frees a request: you should only call it once it has been
* handed to your callback. For incomplete requests, see ctdb_cancel().
*/
void ctdb_request_free(struct ctdb_connection *ctdb, struct ctdb_request *req);
/**
* ctdb_callback_t - callback for completed requests.
*
* This would normally unpack the request using ctdb_*_recv(). You
* must free the request using ctdb_request_free().
*
* Note that due to macro magic, actual your callback can be typesafe:
* instead of taking a void *, it can take a type which matches the
* actual private parameter.
*/
typedef void (*ctdb_callback_t)(struct ctdb_connection *ctdb,
struct ctdb_request *req, void *private_data);
/**
* struct ctdb_db - connection to a particular open TDB
*
* This represents a particular open database: you receive it from
* ctdb_attachdb or ctdb_attachdb_recv to manipulate a database.
*
* You have to free the handle with ctdb_detachdb() when finished with it.
*/
struct ctdb_db;
/**
* ctdb_attachdb_send - open a clustered TDB
* @ctdb: the ctdb_connection from ctdb_connect.
* @name: the filename of the database (no /).
* @persistent: whether the database is persistent across ctdbd's life
* @tdb_flags: the flags to pass to tdb_open.
* @callback: the callback when we're attached or failed (typesafe)
* @cbdata: the argument to callback()
*
* This function connects to a TDB controlled by ctdbd. It can create
* a new TDB if it does not exist, depending on tdb_flags. Returns
* the pending request, or NULL on error.
*/
struct ctdb_request *
ctdb_attachdb_send(struct ctdb_connection *ctdb,
const char *name, bool persistent, uint32_t tdb_flags,
ctdb_callback_t callback, void *cbdata);
/**
* ctdb_attachdb_recv - read an ctdb_attach reply from ctdbd
* @ctdb: the ctdb_connection from ctdb_connect.
* @req: the completed request.
*
* This returns NULL if something went wrong, or otherwise the open database.
*/
struct ctdb_db *ctdb_attachdb_recv(struct ctdb_connection *ctdb,
struct ctdb_request *req);
/**
* struct ctdb_lock - a record lock on a clustered TDB database
*
* This locks a subset of the database across the entire cluster; it
* is the fundamental sychronization element for ctdb. You cannot have
* more than one lock at once.
*
* You MUST NOT block during holding this lock and MUST release it
* quickly by performing ctdb_release_lock(lock).
* Do NOT make any system calls that may block while holding the lock.
*
* Try to release the lock as quickly as possible.
*/
struct ctdb_lock;
/**
* ctdb_rrl_callback_t - callback for ctdb_readrecordlock_async
*
* This is not the standard ctdb_callback_t, because there is often no
* request required to access a database record (ie. if it is local already).
* So the callback is handed the lock directly: it might be NULL if there
* was an error obtaining the lock.
*
* See Also:
* ctdb_readrecordlock_async(), ctdb_readrecordlock()
*/
typedef void (*ctdb_rrl_callback_t)(struct ctdb_db *ctdb_db,
struct ctdb_lock *lock,
TDB_DATA data,
void *private_data);
/**
* ctdb_readrecordlock_async - read and lock a record
* @ctdb_db: the database handle from ctdb_attachdb/ctdb_attachdb_recv.
* @key: the key of the record to lock.
* @callback: the callback once the record is locked (typesafe).
* @cbdata: the argument to callback()
*
* This returns true on success. Commonly, we can obtain the record
* immediately and so the callback will be invoked. Otherwise a request
* will be queued to ctdbd for the record.
*
* If failure is immediate, false is returned. Otherwise, the callback
* may receive a NULL lock arg to indicate asynchronous failure.
*/
bool ctdb_readrecordlock_async(struct ctdb_db *ctdb_db, TDB_DATA key,
ctdb_rrl_callback_t callback, void *cbdata);
/**
* ctdb_writerecord - write a locked record in a TDB
* @ctdb_db: the database handle from ctdb_attachdb/ctdb_attachdb_recv.
* @lock: the lock from ctdb_readrecordlock/ctdb_readrecordlock_recv
* @data: the new data to place in the record.
*/
bool ctdb_writerecord(struct ctdb_db *ctdb_db,
struct ctdb_lock *lock, TDB_DATA data);
/**
* ctdb_release_lock - release a record lock on a TDB
* @ctdb_db: the database handle from ctdb_attachdb/ctdb_attachdb_recv.
* @lock: the lock from ctdb_readrecordlock/ctdb_readrecordlock_async
*/
void ctdb_release_lock(struct ctdb_db *ctdb_db, struct ctdb_lock *lock);
/**
* ctdb_traverse_callback_t - callback for ctdb_traverse_async.
* return 0 - to continue traverse
* return 1 - to abort the traverse
*
* See Also:
* ctdb_traverse_async()
*/
#define TRAVERSE_STATUS_RECORD 0
#define TRAVERSE_STATUS_FINISHED 1
#define TRAVERSE_STATUS_ERROR 2
typedef int (*ctdb_traverse_callback_t)(struct ctdb_connection *ctdb,
struct ctdb_db *ctdb_db,
int status,
TDB_DATA key,
TDB_DATA data,
void *private_data);
/**
* ctdb_traverse_async - traverse a database.
* @ctdb_db: the database handle from ctdb_attachdb/ctdb_attachdb_recv.
* @callback: the callback once the record is locked (typesafe).
* @cbdata: the argument to callback()
*
* This returns true on success.
* when successfull, the callback will be invoked for each record
* until the traversal is finished.
*
* status ==
* TRAVERSE_STATUS_RECORD key/data contains a record.
* TRAVERSE_STATUS_FINISHED traverse is finished. key/data is undefined.
* TRAVERSE_STATUS_ERROR an error occured during traverse.
* key/data is undefined.
*
* If failure is immediate, false is returned.
*/
bool ctdb_traverse_async(struct ctdb_db *ctdb_db,
ctdb_traverse_callback_t callback, void *cbdata);
/**
* ctdb_message_fn_t - messaging callback for ctdb messages
*
* ctdbd provides a simple messaging API; you can register for a particular
* 64-bit id on which you want to send messages, and send to other ids.
*
* See Also:
* ctdb_set_message_handler_send()
*/
typedef void (*ctdb_message_fn_t)(struct ctdb_connection *,
uint64_t srvid, TDB_DATA data, void *);
/**
* ctdb_set_message_handler_send - register for messages to a srvid
* @ctdb: the ctdb_connection from ctdb_connect.
* @srvid: the 64 bit identifier for our messages.
* @handler: the callback when we receive such a message (typesafe)
* @handler_data: the argument to handler()
* @callback: the callback when ctdb replies to our message (typesafe)
* @cbdata: the argument to callback()
*
* Note: our callback will always be called before handler.
*
* See Also:
* ctdb_set_message_handler_recv(), ctdb_remove_message_handler_send()
*/
struct ctdb_request *
ctdb_set_message_handler_send(struct ctdb_connection *ctdb, uint64_t srvid,
ctdb_message_fn_t handler,
void *handler_data,
ctdb_callback_t callback,
void *cbdata);
/**
* ctdb_set_message_handler_recv - read a set_message_handler result
* @ctdb: the ctdb_connection from ctdb_connect.
* @req: the completed request
*
* If this returns true, the registered handler may be called from the next
* ctdb_service(). If this returns false, the registration failed.
*/
bool ctdb_set_message_handler_recv(struct ctdb_connection *ctdb,
struct ctdb_request *handle);
/**
* ctdb_remove_message_handler_send - unregister for messages to a srvid
* @ctdb: the ctdb_connection from ctdb_connect.
* @srvid: the 64 bit identifier for our messages.
* @handler: the callback when we receive such a message (typesafe)
* @handler_data: the argument to handler()
* @callback: the callback when ctdb replies to our message (typesafe)
* @cbdata: the argument to callback()
*
* This undoes a successful ctdb_set_message_handler or
* ctdb_set_message_handler_recv.
*/
struct ctdb_request *
ctdb_remove_message_handler_send(struct ctdb_connection *ctdb, uint64_t srvid,
ctdb_message_fn_t handler, void *handler_data,
ctdb_callback_t callback, void *cbdata);
/**
* ctdb_remove_message_handler_recv - read a remove_message_handler result
* @ctdb: the ctdb_connection from ctdb_connect.
* @req: the completed request
*
* After this returns true, the registered handler will no longer be called.
* If this returns false, the de-registration failed.
*/
bool ctdb_remove_message_handler_recv(struct ctdb_connection *ctdb,
struct ctdb_request *req);
/**
* ctdb_send_message - send a message via ctdbd
* @ctdb: the ctdb_connection from ctdb_connect.
* @pnn: the physical node number to send to
* @srvid: the 64 bit identifier for this message type.
* @data: the data to send
*
* This allows arbitrary messages to be sent across the cluster to those
* listening (via ctdb_set_message_handler et al).
*
* This queues a message to be sent: you will need to call
* ctdb_service() to actually send the message. There is no callback
* because there is no acknowledgement.
*
* See Also:
* ctdb_getpnn_send(), ctdb_getpnn()
*/
bool ctdb_send_message(struct ctdb_connection *ctdb, uint32_t pnn, uint64_t srvid, TDB_DATA data);
/**
* ctdb_getpnn_send - read the pnn number of a node.
* @ctdb: the ctdb_connection from ctdb_connect.
* @destnode: the destination node (see below)
* @callback: the callback when ctdb replies to our message (typesafe)
* @cbdata: the argument to callback()
*
* There are several special values for destnode, detailed in
* ctdb_protocol.h, particularly CTDB_CURRENT_NODE which means the
* local ctdbd.
*/
struct ctdb_request *
ctdb_getpnn_send(struct ctdb_connection *ctdb,
uint32_t destnode,
ctdb_callback_t callback,
void *cbdata);
/**
* ctdb_getpnn_recv - read an ctdb_getpnn reply from ctdbd
* @ctdb: the ctdb_connection from ctdb_connect.
* @req: the completed request.
* @pnn: a pointer to the pnn to fill in
*
* This returns false if something went wrong, or otherwise fills in pnn.
*/
bool ctdb_getpnn_recv(struct ctdb_connection *ctdb,
struct ctdb_request *req, uint32_t *pnn);
/**
* ctdb_getnodemap_send - read the nodemap number from a node.
* @ctdb: the ctdb_connection from ctdb_connect.
* @destnode: the destination node (see below)
* @callback: the callback when ctdb replies to our message (typesafe)
* @cbdata: the argument to callback()
*
* There are several special values for destnode, detailed in
* ctdb_protocol.h, particularly CTDB_CURRENT_NODE which means the
* local ctdbd.
*/
struct ctdb_request *
ctdb_getnodemap_send(struct ctdb_connection *ctdb,
uint32_t destnode,
ctdb_callback_t callback,
void *cbdata);
/**
* ctdb_getnodemap_recv - read an ctdb_getnodemap reply from ctdbd
* @ctdb: the ctdb_connection from ctdb_connect.
* @req: the completed request.
* @nodemap: a pointer to the returned nodemap structure
*
* This returns false if something went wrong.
* If the command failed, it guarantees to set nodemap to NULL.
* A non-NULL value for nodemap means the command was successful.
*
* A non-NULL value of the nodemap must be release released/freed
* by ctdb_free_nodemap().
*/
bool ctdb_getnodemap_recv(struct ctdb_connection *ctdb,
struct ctdb_request *req, struct ctdb_node_map **nodemap);
/**
* ctdb_getpublicips_send - read the public ip list from a node.
* @ctdb: the ctdb_connection from ctdb_connect.
* @destnode: the destination node (see below)
* @callback: the callback when ctdb replies to our message (typesafe)
* @cbdata: the argument to callback()
*
* This control returns the list of public ips known to the local node.
* Deamons only know about those ips that are listed in the local
* public addresses file, which means the returned list of ips may
* be only a subset of all ips across the entire cluster.
*
* There are several special values for destnode, detailed in
* ctdb_protocol.h, particularly CTDB_CURRENT_NODE which means the
* local ctdbd.
*/
struct ctdb_request *
ctdb_getpublicips_send(struct ctdb_connection *ctdb,
uint32_t destnode,
ctdb_callback_t callback,
void *cbdata);
/**
* ctdb_getpublicips_recv - read the public ip list from a node
* @ctdb: the ctdb_connection from ctdb_connect.
* @req: the completed request.
* @ips: a pointer to the returned public ip list
*
* This returns false if something went wrong.
* If the command failed, it guarantees to set ips to NULL.
* A non-NULL value for nodemap means the command was successful.
*
* A non-NULL value of the nodemap must be release released/freed
* by ctdb_free_publicips().
*/
bool ctdb_getpublicips_recv(struct ctdb_connection *ctdb,
struct ctdb_request *req, struct ctdb_all_public_ips **ips);
/**
* ctdb_getrecmaster_send - read the recovery master of a node
* @ctdb: the ctdb_connection from ctdb_connect.
* @destnode: the destination node (see below)
* @callback: the callback when ctdb replies to our message (typesafe)
* @cbdata: the argument to callback()
*
* There are several special values for destnode, detailed in
* ctdb_protocol.h, particularly CTDB_CURRENT_NODE which means the
* local ctdbd.
*/
struct ctdb_request *
ctdb_getrecmaster_send(struct ctdb_connection *ctdb,
uint32_t destnode,
ctdb_callback_t callback, void *cbdata);
/**
* ctdb_getrecmaster_recv - read an ctdb_getrecmaster reply from ctdbd
* @ctdb: the ctdb_connection from ctdb_connect.
* @req: the completed request.
* @recmaster: a pointer to the recmaster to fill in
*
* This returns false if something went wrong, or otherwise fills in
* recmaster.
*/
bool ctdb_getrecmaster_recv(struct ctdb_connection *ctdb,
struct ctdb_request *handle,
uint32_t *recmaster);
/**
* ctdb_cancel - cancel an uncompleted request
* @ctdb: the ctdb_connection from ctdb_connect.
* @req: the uncompleted request.
*
* This cancels a request, returning true. You may not cancel a
* request which has already been completed (ie. once its callback has
* been called); you should simply use ctdb_request_free() in that case.
*/
void ctdb_cancel(struct ctdb_connection *ctdb, struct ctdb_request *req);
/***
*
* Synchronous API
*
***/
/**
* ctdb_attachdb - open a clustered TDB (synchronous)
* @ctdb: the ctdb_connection from ctdb_connect.
* @name: the filename of the database (no /).
* @persistent: whether the database is persistent across ctdbd's life
* @tdb_flags: the flags to pass to tdb_open.
*
* Do a ctdb_attachdb_send and wait for it to complete.
* Returns NULL on failure.
*/
struct ctdb_db *ctdb_attachdb(struct ctdb_connection *ctdb,
const char *name, bool persistent,
uint32_t tdb_flags);
/**
* ctdb_detachdb - close a clustered TDB.
* @ctdb: the ctdb_connection from ctdb_connect.
* @db: the database from ctdb_attachdb/ctdb_attachdb_send
*
* Closes a clustered tdb.
*/
void ctdb_detachdb(struct ctdb_connection *ctdb, struct ctdb_db *db);
/**
* ctdb_readrecordlock - read and lock a record (synchronous)
* @ctdb: the ctdb_connection from ctdb_connect.
* @ctdb_db: the database handle from ctdb_attachdb/ctdb_attachdb_recv.
* @key: the key of the record to lock.
* @req: a pointer to the request, if one is needed.
*
* Do a ctdb_readrecordlock_send and wait for it to complete.
* Returns NULL on failure.
*/
struct ctdb_lock *ctdb_readrecordlock(struct ctdb_connection *ctdb,
struct ctdb_db *ctdb_db, TDB_DATA key,
TDB_DATA *data);
/**
* ctdb_set_message_handler - register for messages to a srvid (synchronous)
* @ctdb: the ctdb_connection from ctdb_connect.
* @srvid: the 64 bit identifier for our messages.
* @handler: the callback when we receive such a message (typesafe)
* @cbdata: the argument to handler()
*
* If this returns true, the message handler can be called from any
* ctdb_service() (which is also called indirectly by other
* synchronous functions). If this returns false, the registration
* failed.
*/
bool ctdb_set_message_handler(struct ctdb_connection *ctdb, uint64_t srvid,
ctdb_message_fn_t handler, void *cbdata);
/**
* ctdb_remove_message_handler - deregister for messages (synchronous)
* @ctdb: the ctdb_connection from ctdb_connect.
* @srvid: the 64 bit identifier for our messages.
* @handler: the callback when we receive such a message (typesafe)
* @handler_data: the argument to handler()
*
* If this returns true, the message handler will no longer be called.
* If this returns false, the deregistration failed.
*/
bool ctdb_remove_message_handler(struct ctdb_connection *ctdb, uint64_t srvid,
ctdb_message_fn_t handler, void *handler_data);
/**
* ctdb_getpnn - read the pnn number of a node (synchronous)
* @ctdb: the ctdb_connection from ctdb_connect.
* @destnode: the destination node (see below)
* @pnn: a pointer to the pnn to fill in
*
* There are several special values for destnode, detailed in
* ctdb_protocol.h, particularly CTDB_CURRENT_NODE which means the
* local ctdbd.
*
* Returns true and fills in *pnn on success.
*/
bool ctdb_getpnn(struct ctdb_connection *ctdb,
uint32_t destnode,
uint32_t *pnn);
/**
* ctdb_getrecmaster - read the recovery master of a node (synchronous)
* @ctdb: the ctdb_connection from ctdb_connect.
* @destnode: the destination node (see below)
* @recmaster: a pointer to the recmaster to fill in
*
* There are several special values for destnode, detailed in
* ctdb_protocol.h, particularly CTDB_CURRENT_NODE which means the
* local ctdbd.
*
* Returns true and fills in *recmaster on success.
*/
bool ctdb_getrecmaster(struct ctdb_connection *ctdb,
uint32_t destnode,
uint32_t *recmaster);
/**
* ctdb_getnodemap - read the nodemap from a node (synchronous)
* @ctdb: the ctdb_connection from ctdb_connect.
* @destnode: the destination node (see below)
* @nodemap: a pointer to the nodemap to fill in
*
* There are several special values for destnode, detailed in
* ctdb_protocol.h, particularly CTDB_CURRENT_NODE which means the
* local ctdbd.
*
* Returns true and fills in *nodemap on success.
* A non-NULL nodemap must be freed by calling ctdb_free_nodemap.
*/
bool ctdb_getnodemap(struct ctdb_connection *ctdb,
uint32_t destnode, struct ctdb_node_map **nodemap);
/*
* This function is used to release/free the nodemap structure returned
* by ctdb_getnodemap() and ctdb_getnodemap_recv()
*/
void ctdb_free_nodemap(struct ctdb_node_map *nodemap);
/**
* ctdb_getpublicips - read the public ip list from a node.
* @ctdb: the ctdb_connection from ctdb_connect.
* @destnode: the destination node (see below)
* @ips: a pointer to the returned public ip list
*
* This control returns the list of public ips known to the local node.
* Deamons only know about those ips that are listed in the local
* public addresses file, which means the returned list of ips may
* be only a subset of all ips across the entire cluster.
*
* There are several special values for destnode, detailed in
* ctdb_protocol.h, particularly CTDB_CURRENT_NODE which means the
* local ctdbd.
*
* This returns false if something went wrong.
* If the command failed, it guarantees to set ips to NULL.
* A non-NULL value for nodemap means the command was successful.
*
* A non-NULL value of the nodemap must be release released/freed
* by ctdb_free_publicips().
*/
bool ctdb_getpublicips(struct ctdb_connection *ctdb,
uint32_t destnode, struct ctdb_all_public_ips **ips);
/*
* This function is used to release/free the public ip structure returned
* by ctdb_getpublicips() and ctdb_getpublicips_recv()
*/
void ctdb_free_publicips(struct ctdb_all_public_ips *ips);
/* These ugly macro wrappers make the callbacks typesafe. */
#include
#define ctdb_sendcb(cb, cbdata) \
typesafe_cb_preargs(void, (cb), (cbdata), \
struct ctdb_connection *, struct ctdb_request *)
#define ctdb_msgcb(cb, cbdata) \
typesafe_cb_preargs(void, (cb), (cbdata), \
struct ctdb_connection *, uint64_t, TDB_DATA)
#define ctdb_connect(addr, log, logpriv) \
ctdb_connect((addr), \
typesafe_cb_postargs(void, (log), (logpriv), \
int, const char *, va_list), \
(logpriv))
#define ctdb_set_message_handler(ctdb, srvid, handler, hdata) \
ctdb_set_message_handler((ctdb), (srvid), \
ctdb_msgcb((handler), (hdata)), (hdata))
#define ctdb_remove_message_handler(ctdb, srvid, handler, hdata) \
ctdb_remove_message_handler((ctdb), (srvid), \
ctdb_msgcb((handler), (hdata)), (hdata))
#define ctdb_attachdb_send(ctdb, name, persistent, tdb_flags, cb, cbdata) \
ctdb_attachdb_send((ctdb), (name), (persistent), (tdb_flags), \
ctdb_sendcb((cb), (cbdata)), (cbdata))
#define ctdb_readrecordlock_async(_ctdb_db, key, cb, cbdata) \
ctdb_readrecordlock_async((_ctdb_db), (key), \
typesafe_cb_preargs(void, (cb), (cbdata), \
struct ctdb_db *, struct ctdb_lock *, \
TDB_DATA), (cbdata))
#define ctdb_set_message_handler_send(ctdb, srvid, handler, hdata, cb, cbdata) \
ctdb_set_message_handler_send((ctdb), (srvid), \
ctdb_msgcb((handler), (hdata)), (hdata), \
ctdb_sendcb((cb), (cbdata)), (cbdata))
#define ctdb_remove_message_handler_send(ctdb, srvid, handler, hdata, cb, cbdata) \
ctdb_remove_message_handler_send((ctdb), (srvid), \
ctdb_msgcb((handler), (hdata)), (hdata), \
ctdb_sendcb((cb), (cbdata)), (cbdata))
#define ctdb_getpnn_send(ctdb, destnode, cb, cbdata) \
ctdb_getpnn_send((ctdb), (destnode), \
ctdb_sendcb((cb), (cbdata)), (cbdata))
#define ctdb_getrecmaster_send(ctdb, destnode, cb, cbdata) \
ctdb_getrecmaster_send((ctdb), (destnode), \
ctdb_sendcb((cb), (cbdata)), (cbdata))
#define ctdb_getnodemap_send(ctdb, destnode, cb, cbdata) \
ctdb_getnodemap_send((ctdb), (destnode), \
ctdb_sendcb((cb), (cbdata)), (cbdata))
#define ctdb_getpublicips_send(ctdb, destnode, cb, cbdata) \
ctdb_getpublicips_send((ctdb), (destnode), \
ctdb_sendcb((cb), (cbdata)), (cbdata))
#endif