acl/lib_tls/attr/auto_clnt.c

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/*++
2014-11-19 00:25:21 +08:00
* NAME
* auto_clnt 3
* SUMMARY
* client endpoint maintenance
* SYNOPSIS
* #include <auto_clnt.h>
*
* AUTO_CLNT *auto_clnt_create(service, timeout, max_idle, max_ttl)
* const char *service;
* int timeout;
* int max_idle;
* int max_ttl;
*
* ACL_VSTREAM *auto_clnt_access(auto_clnt)
* AUTO_CLNT *auto_clnt;
*
* void auto_clnt_recover(auto_clnt)
* AUTO_CLNT *auto_clnt;
*
* const char *auto_clnt_name(auto_clnt)
* AUTO_CLNT *auto_clnt;
*
* void auto_clnt_free(auto_clnt)
* AUTO_CLNT *auto_clnt;
* DESCRIPTION
* This module maintains IPC client endpoints that automatically
* disconnect after a being idle for a configurable amount of time,
* that disconnect after a configurable time to live,
* and that transparently handle most server-initiated disconnects.
*
* This module tries each operation only a limited number of
* times and then reports an error. This is unlike the
* clnt_stream(3) module which will retry forever, so that
* the application never experiences an error.
*
* auto_clnt_create() instantiates a client endpoint.
*
* auto_clnt_access() returns an open stream to the service specified
* to auto_clnt_create(). The stream instance may change between calls.
* The result is a null pointer in case of failure.
*
* auto_clnt_recover() recovers from a server-initiated disconnect
* that happened in the middle of an I/O operation.
*
* auto_clnt_name() returns the name of the specified client endpoint.
*
* auto_clnt_free() destroys of the specified client endpoint.
*
* Arguments:
* .IP service
* The service argument specifies "transport:servername" where
* transport is currently limited to one of the following:
* .RS
* .IP inet
* servername has the form "inet:host:port".
* .IP local
* servername has the form "local:private/servicename" or
* "local:public/servicename". This is the preferred way to
* specify Postfix daemons that are configured as "unix" in
* master.cf.
* .IP unix
* servername has the form "unix:private/servicename" or
* "unix:public/servicename". This does not work on Solaris,
* where Postfix uses STREAMS instead of UNIX-domain sockets.
* .RE
* .IP timeout
* The time limit for sending, receiving, or for connecting
* to a server. Specify a value <=0 to disable the time limit.
* .IP max_idle
* Idle time after which the client disconnects. Specify 0 to
* disable the limit.
* .IP max_ttl
* Upper bound on the time that a connection is allowed to persist.
* Specify 0 to disable the limit.
* .IP open_action
* Application call-back routine that opens a stream or returns a
* null pointer upon failure. In case of success, the call-back routine
* is expected to set the stream pathname to the server endpoint name.
* .IP context
* Application context that is passed to the open_action routine.
* DIAGNOSTICS
* Warnings: communication failure. Fatal error: out of memory.
* LICENSE
* .ad
* .fi
* The Secure Mailer license must be distributed with this software.
* AUTHOR(S)
* Wietse Venema
* IBM T.J. Watson Research
* P.O. Box 704
* Yorktown Heights, NY 10598, USA
*--*/
#include "StdAfx.h"
#include <string.h>
#include "auto_clnt.h"
/* Application-specific. */
/*
* AUTO_CLNT is an opaque structure. None of the access methods can easily
* be implemented as a macro, and access is not performance critical anyway.
*/
struct AUTO_CLNT {
ACL_EVENT *event; /* event handle */
ACL_VSTREAM *vstream; /* buffered I/O */
char *endpoint; /* host:port or pathname */
int timeout; /* I/O time limit */
int max_idle; /* time before client disconnect */
int max_ttl; /* time before client disconnect */
ACL_SOCKET (*connect) (const char *, int, int); /* unix, local, inet */
};
static void auto_clnt_close(AUTO_CLNT *);
/* auto_clnt_event - server-initiated disconnect or client-side max_idle */
static void auto_clnt_event(int event_type acl_unused,
ACL_EVENT *event acl_unused, void *context)
{
AUTO_CLNT *auto_clnt = (AUTO_CLNT *) context;
/*
* Sanity check. This routine causes the stream to be closed, so it
* cannot be called when the stream is already closed.
*/
if (auto_clnt->vstream == 0)
acl_msg_panic("auto_clnt_event: stream is closed");
auto_clnt_close(auto_clnt);
}
static void auto_clnt_event_read(int event_type, ACL_EVENT *event,
ACL_VSTREAM *stream acl_unused, void *context)
{
auto_clnt_event(event_type, event, context);
}
/* auto_clnt_ttl_event - client-side expiration */
static void auto_clnt_ttl_event(int event_type, ACL_EVENT *event, void *context)
{
/*
* XXX This function is needed only because event_request_timer() cannot
* distinguish between requests that specify the same call-back routine
* and call-back context. The fix is obvious: specify a request ID along
* with the call-back routine, but there is too much code that would have
* to be changed.
*
* XXX Should we be concerned that an overly agressive optimizer will
* eliminate this function and replace calls to auto_clnt_ttl_event() by
* direct calls to auto_clnt_event()? It should not, because there exists
* code that takes the address of both functions.
*/
auto_clnt_event(event_type, event, context);
}
/* auto_clnt_open - connect to service */
static void auto_clnt_open(AUTO_CLNT *auto_clnt)
{
const char *myname = "auto_clnt_open";
ACL_SOCKET fd;
/*
* Sanity check.
*/
if (auto_clnt->vstream)
acl_msg_panic("auto_clnt_open: stream is open");
/*
* Schedule a read event so that we can clean up when the remote side
* disconnects, and schedule a timer event so that we can cleanup an idle
* connection. Note that both events are handled by the same routine.
*
* Finally, schedule an event to force disconnection even when the
* connection is not idle. This is to prevent one client from clinging on
* to a server forever.
*/
fd = auto_clnt->connect(auto_clnt->endpoint, ACL_BLOCKING, auto_clnt->timeout);
if (fd < 0) {
acl_msg_warn("%s: connect to %s: %s", myname, auto_clnt->endpoint, acl_last_serror());
} else {
if (acl_msg_verbose)
acl_msg_info("%s: connected to %s", myname, auto_clnt->endpoint);
auto_clnt->vstream = acl_vstream_fdopen(fd, O_RDWR, 4096,
auto_clnt->timeout, ACL_VSTREAM_TYPE_SOCK);
acl_vstream_ctl(auto_clnt->vstream,
ACL_VSTREAM_CTL_PATH, auto_clnt->endpoint,
/* ACL_VSTREAM_CTL_TIMEOUT, auto_clnt->timeout, */
ACL_VSTREAM_CTL_END);
}
if (auto_clnt->vstream != 0) {
#ifdef ACL_UNIX
acl_close_on_exec(ACL_VSTREAM_SOCK(auto_clnt->vstream), ACL_CLOSE_ON_EXEC);
#endif
acl_event_enable_read(auto_clnt->event, auto_clnt->vstream, 0,
auto_clnt_event_read, (char *) auto_clnt);
if (auto_clnt->max_idle > 0)
acl_event_request_timer(auto_clnt->event, auto_clnt_event,
(char *) auto_clnt, auto_clnt->max_idle, 0);
if (auto_clnt->max_ttl > 0)
acl_event_request_timer(auto_clnt->event, auto_clnt_ttl_event,
(char *) auto_clnt, auto_clnt->max_ttl, 0);
}
}
/* auto_clnt_close - disconnect from service */
static void auto_clnt_close(AUTO_CLNT *auto_clnt)
{
const char *myname = "auto_clnt_close";
/*
* Sanity check.
*/
if (auto_clnt->vstream == 0)
acl_msg_panic("%s: stream is closed", myname);
/*
* Be sure to disable read and timer events.
*/
if (acl_msg_verbose)
acl_msg_info("%s: disconnect %s stream",
myname, ACL_VSTREAM_PATH(auto_clnt->vstream));
acl_event_disable_readwrite(auto_clnt->event, auto_clnt->vstream);
acl_event_cancel_timer(auto_clnt->event, auto_clnt_event, (char *) auto_clnt);
acl_event_cancel_timer(auto_clnt->event, auto_clnt_ttl_event, (char *) auto_clnt);
(void) acl_vstream_fclose(auto_clnt->vstream);
auto_clnt->vstream = 0;
}
/* auto_clnt_recover - recover from server-initiated disconnect */
void auto_clnt_recover(AUTO_CLNT *auto_clnt)
{
/*
* Clean up. Don't re-connect until the caller needs it.
*/
if (auto_clnt->vstream)
auto_clnt_close(auto_clnt);
}
/* auto_clnt_access - access a client stream */
ACL_VSTREAM *auto_clnt_access(AUTO_CLNT *auto_clnt)
{
/*
* Open a stream or restart the idle timer.
*
* Important! Do not restart the TTL timer!
*/
if (auto_clnt->vstream == 0) {
auto_clnt_open(auto_clnt);
} else if (auto_clnt->max_idle > 0) {
acl_event_request_timer(auto_clnt->event, auto_clnt_event,
(char *) auto_clnt, auto_clnt->max_idle, 0);
}
return (auto_clnt->vstream);
}
/* auto_clnt_create - create client stream object */
AUTO_CLNT *auto_clnt_create(ACL_EVENT *eventp, const char *service,
int timeout, int max_idle, int max_ttl)
{
const char *myname = "auto_clnt_create";
char *transport = acl_mystrdup(service);
char *endpoint;
AUTO_CLNT *auto_clnt;
if (eventp == 0)
acl_msg_fatal("%s(%d): evenpt null", myname, __LINE__);
/*
* Don't open the stream until the caller needs it.
*/
if ((endpoint = acl_split_at(transport, ':')) == 0
|| *endpoint == 0 || *transport == 0)
acl_msg_fatal("%s: need service transport:endpoint instead of \"%s\"",
myname, service);
if (acl_msg_verbose)
acl_msg_info("%s: transport=%s endpoint=%s", myname, transport, endpoint);
auto_clnt = (AUTO_CLNT *) acl_mymalloc(sizeof(*auto_clnt));
auto_clnt->event = eventp;
auto_clnt->vstream = 0;
auto_clnt->endpoint = acl_mystrdup(endpoint);
auto_clnt->timeout = timeout;
auto_clnt->max_idle = max_idle;
auto_clnt->max_ttl = max_ttl;
if (strcmp(transport, "inet") == 0) {
auto_clnt->connect = acl_inet_connect;
}
#ifdef ACL_UNIX
else if (strcmp(transport, "local") == 0) {
auto_clnt->connect = LOCAL_CONNECT;
} else if (strcmp(transport, "unix") == 0) {
auto_clnt->connect = acl_unix_connect;
}
#endif
else {
acl_msg_fatal("%s: invalid transport name: %s in service: %s",
myname, transport, service);
}
acl_myfree(transport);
return (auto_clnt);
}
/* auto_clnt_name - return client stream name */
const char *auto_clnt_name(AUTO_CLNT *auto_clnt)
{
return (auto_clnt->endpoint);
}
/* auto_clnt_free - destroy client stream instance */
void auto_clnt_free(AUTO_CLNT *auto_clnt)
{
if (auto_clnt->vstream)
auto_clnt_close(auto_clnt);
acl_myfree(auto_clnt->endpoint);
acl_myfree(auto_clnt);
}