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|
/*++
/* NAME
/* abounce 3
/* SUMMARY
/* asynchronous bounce/defer/trace service client
/* SYNOPSIS
/* #include <abounce.h>
/*
/* void abounce_flush(flags, queue, id, encoding, smtputf8, sender,
/* dsn_envid, dsn_ret, callback, context)
/* int flags;
/* const char *queue;
/* const char *id;
/* const char *encoding;
/* int smtputf8;
/* const char *sender;
/* const char *dsn_envid;
/* int dsn_ret;
/* void (*callback)(int status, void *context);
/* void *context;
/*
/* void abounce_flush_verp(flags, queue, id, encoding, smtputf8, sender,
/* dsn_envid, dsn_ret, verp, callback, context)
/* int flags;
/* const char *queue;
/* const char *id;
/* const char *encoding;
/* int smtputf8;
/* const char *sender;
/* const char *dsn_envid;
/* int dsn_ret;
/* const char *verp;
/* void (*callback)(int status, void *context);
/* void *context;
/*
/* void adefer_flush(flags, queue, id, encoding, smtputf8, sender,
/* dsn_envid, dsn_ret, callback, context)
/* int flags;
/* const char *queue;
/* const char *id;
/* const char *encoding;
/* int smtputf8;
/* const char *sender;
/* const char *dsn_envid;
/* int dsn_ret;
/* void (*callback)(int status, void *context);
/* void *context;
/*
/* void adefer_flush_verp(flags, queue, id, encoding, smtputf8, sender,
/* dsn_envid, dsn_ret, verp, callback, context)
/* int flags;
/* const char *queue;
/* const char *id;
/* const char *encoding;
/* int smtputf8;
/* const char *sender;
/* const char *dsn_envid;
/* int dsn_ret;
/* const char *verp;
/* void (*callback)(int status, void *context);
/* void *context;
/*
/* void adefer_warn(flags, queue, id, encoding, smtputf8, sender,
/* dsn_envid, dsn_ret, callback, context)
/* int flags;
/* const char *queue;
/* const char *id;
/* const char *encoding;
/* int smtputf8;
/* const char *sender;
/* const char *dsn_envid;
/* int dsn_ret;
/* void (*callback)(int status, void *context);
/* void *context;
/*
/* void atrace_flush(flags, queue, id, encoding, smtputf8, sender,
/* dsn_envid, dsn_ret, callback, context)
/* int flags;
/* const char *queue;
/* const char *id;
/* const char *encoding;
/* int smtputf8;
/* const char *sender;
/* const char *dsn_envid;
/* int dsn_ret;
/* void (*callback)(int status, void *context);
/* void *context;
/* DESCRIPTION
/* This module implements an asynchronous interface to the
/* bounce/defer/trace service for submitting sender notifications
/* without waiting for completion of the request.
/*
/* abounce_flush() bounces the specified message to
/* the specified sender, including the bounce log that was
/* built with bounce_append().
/*
/* abounce_flush_verp() is like abounce_flush() but sends
/* one VERP style notification per undeliverable recipient.
/*
/* adefer_flush() bounces the specified message to
/* the specified sender, including the defer log that was
/* built with defer_append().
/* adefer_flush() requests that the deferred recipients are deleted
/* from the original queue file.
/*
/* adefer_flush_verp() is like adefer_flush() but sends
/* one VERP style notification per undeliverable recipient.
/*
/* adefer_warn() sends a "mail is delayed" notification to
/* the specified sender, including the defer log that was
/* built with defer_append().
/*
/* atrace_flush() returns the specified message to the specified
/* sender, including the message delivery record log that was
/* built with vtrace_append().
/*
/* Arguments:
/* .IP flags
/* The bitwise OR of zero or more of the following (specify
/* BOUNCE_FLAG_NONE to request no special processing):
/* .RS
/* .IP BOUNCE_FLAG_CLEAN
/* Delete the bounce log in case of an error (as in: pretend
/* that we never even tried to bounce this message).
/* .IP BOUNCE_FLAG_DELRCPT
/* When specified with a flush operation, request that
/* recipients be deleted from the queue file.
/*
/* Note: the bounce daemon ignores this request when the
/* recipient queue file offset is <= 0.
/* .IP BOUNCE_FLAG_COPY
/* Request that a postmaster copy is sent.
/* .RE
/* .IP queue
/* The message queue name of the original message file.
/* .IP id
/* The message queue id if the original message file. The bounce log
/* file has the same name as the original message file.
/* .IP encoding
/* The body content encoding: MAIL_ATTR_ENC_{7BIT,8BIT,NONE}.
/* .IP smtputf8
/* The level of SMTPUTF8 support (to be defined).
/* .IP sender
/* The sender envelope address.
/* .IP dsn_envid
/* Optional DSN envelope ID.
/* .IP ret
/* Optional DSN return full/headers option.
/* .IP verp
/* VERP delimiter characters.
/* .IP callback
/* Name of a routine that receives the notification status as
/* documented for bounce_flush() or defer_flush().
/* .IP context
/* Application-specific context that is passed through to the
/* callback routine. Use proper casts or the world will come
/* to an end.
/* DIAGNOSTICS
/* In case of success, these functions log the action, and return a
/* zero result via the callback routine. Otherwise, the functions
/* return a non-zero result via the callback routine, and when
/* BOUNCE_FLAG_CLEAN is disabled, log that message delivery is deferred.
/* 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
/*
/* Wietse Venema
/* Google, Inc.
/* 111 8th Avenue
/* New York, NY 10011, USA
/*--*/
/* System library. */
#include <sys_defs.h>
/* Utility library. */
#include <msg.h>
#include <mymalloc.h>
#include <events.h>
#include <vstream.h>
/* Global library. */
#include <mail_params.h>
#include <mail_proto.h>
#include <abounce.h>
/* Application-specific. */
/*
* Each bounce/defer flush/warn request is implemented by sending the
* request to the bounce/defer server, and by creating a pseudo thread that
* suspends itself until the server replies (or dies). Upon wakeup, the
* pseudo thread delivers the request completion status to the application
* and destroys itself. The structure below maintains all the necessary
* request state while the pseudo thread is suspended.
*/
typedef struct {
int command; /* bounce request type */
int flags; /* bounce options */
char *id; /* queue ID for logging */
VSTRING *request; /* serialized request */
ABOUNCE_FN callback; /* application callback */
void *context; /* application context */
VSTREAM *fp; /* server I/O handle */
} ABOUNCE_STATE;
/*
* Encapsulate common code.
*/
#define ABOUNCE_EVENT_ENABLE(fd, callback, context, timeout) do { \
event_enable_read((fd), (callback), (context)); \
event_request_timer((callback), (context), (timeout)); \
} while (0)
/*
* If we set the reply timeout too short, then we make the problem worse by
* increasing overload. With 1000s timeout mail will keep flowing, but there
* will be a large number of blocked bounce processes, and some resource is
* likely to run out.
*/
#define ABOUNCE_TIMEOUT 1000
/*
* The initial buffer size for a serialized request.
*/
#define ABOUNCE_BUFSIZE VSTREAM_BUFSIZE
/*
* We share most of the verp and non-verp code paths.
*/
#define ABOUNCE_NO_VERP ((char *) 0)
/*
* SLMs.
*/
#define STR(x) vstring_str(x)
#define LEN(x) VSTRING_LEN(x)
/* abounce_done - deliver status to application and clean up pseudo thread */
static void abounce_done(ABOUNCE_STATE *ap, int status)
{
if (ap->fp) {
event_disable_readwrite(vstream_fileno(ap->fp));
(void) vstream_fclose(ap->fp);
}
if (status != 0 && (ap->flags & BOUNCE_FLAG_CLEAN) == 0)
msg_info("%s: status=deferred (%s failed)", ap->id,
ap->command == BOUNCE_CMD_FLUSH ? "bounce" :
ap->command == BOUNCE_CMD_WARN ? "delay warning" :
ap->command == BOUNCE_CMD_VERP ? "verp" :
ap->command == BOUNCE_CMD_TRACE ? "trace" :
"whatever");
ap->callback(status, ap->context);
myfree(ap->id);
vstring_free(ap->request);
myfree((void *) ap);
}
/* abounce_receive - receive server reply */
static void abounce_receive(int event, void *context)
{
ABOUNCE_STATE *ap = (ABOUNCE_STATE *) context;
int status;
if (event != EVENT_TIME)
event_cancel_timer(abounce_receive, context);
if (event == EVENT_READ
&& attr_scan(ap->fp, ATTR_FLAG_STRICT,
RECV_ATTR_INT(MAIL_ATTR_STATUS, &status),
ATTR_TYPE_END) == 1) {
abounce_done(ap, status);
} else {
abounce_done(ap, -1);
}
}
/* abounce_send - send the request and suspend until the server replies */
static void abounce_send(int event, void *context)
{
ABOUNCE_STATE *ap = (ABOUNCE_STATE *) context;
/*
* Receive the server's protocol name announcement. At this point the
* server is ready to receive a request without blocking the sender. Send
* the request and suspend until the server replies (or dies).
*/
if (event != EVENT_TIME)
event_cancel_timer(abounce_send, context);
non_blocking(vstream_fileno(ap->fp), BLOCKING);
if (event == EVENT_READ
&& attr_scan(ap->fp, ATTR_FLAG_STRICT,
RECV_ATTR_STREQ(MAIL_ATTR_PROTO, MAIL_ATTR_PROTO_BOUNCE),
ATTR_TYPE_END) == 0
&& vstream_fwrite(ap->fp, STR(ap->request),
LEN(ap->request)) == LEN(ap->request)
&& vstream_fflush(ap->fp) == 0) {
ABOUNCE_EVENT_ENABLE(vstream_fileno(ap->fp), abounce_receive,
(void *) ap, ABOUNCE_TIMEOUT);
} else {
abounce_done(ap, -1);
}
}
/* abounce_connect - connect and suspend until the server replies */
static void abounce_connect(const char *class, const char *service,
int command, int flags,
const char *queue, const char *id,
const char *encoding, int smtputf8,
const char *sender,
const char *dsn_envid, int dsn_ret,
const char *verp, ABOUNCE_FN callback,
void *context)
{
ABOUNCE_STATE *ap;
/*
* Save pseudo thread state. Connect to the server. Prior to Postfix 3.6
* the asynchronous bounce flush/warn client called mail_connect_wait()
* which sleeps and retries several times before terminating with a fatal
* error. This block-and-sleep behavior was not consistent with a) the
* rest of the code in this module, and with b) the synchronous bounce
* client which gives up immediately. It should be safe to give up
* immediately because that leaves the bounce/defer/trace logs in the
* queue. In particular, this should not increase the simultaneous number
* of asynchronous bounce/defer/trace flush/warn requests that are in
* flight.
*/
ap = (ABOUNCE_STATE *) mymalloc(sizeof(*ap));
ap->command = command;
ap->flags = flags;
ap->id = mystrdup(id);
ap->request = vstring_alloc(ABOUNCE_BUFSIZE);
ap->callback = callback;
ap->context = context;
ap->fp = mail_connect(class, service, NON_BLOCKING);
/*
* Format the request now, so that we don't have to save a lot of
* arguments now and format the request later.
*/
if (ap->fp != 0) {
/* Note: all code paths must terminate or enable I/O events. */
VSTREAM *mp = vstream_memopen(ap->request, O_WRONLY);
if (attr_print(mp, ATTR_FLAG_MORE,
SEND_ATTR_INT(MAIL_ATTR_NREQ, command),
SEND_ATTR_INT(MAIL_ATTR_FLAGS, flags),
SEND_ATTR_STR(MAIL_ATTR_QUEUE, queue),
SEND_ATTR_STR(MAIL_ATTR_QUEUEID, id),
SEND_ATTR_STR(MAIL_ATTR_ENCODING, encoding),
SEND_ATTR_INT(MAIL_ATTR_SMTPUTF8, smtputf8),
SEND_ATTR_STR(MAIL_ATTR_SENDER, sender),
SEND_ATTR_STR(MAIL_ATTR_DSN_ENVID, dsn_envid),
SEND_ATTR_INT(MAIL_ATTR_DSN_RET, dsn_ret),
ATTR_TYPE_END) != 0
|| (verp != 0
&& attr_print(mp, ATTR_FLAG_MORE,
SEND_ATTR_STR(MAIL_ATTR_VERPDL, verp),
ATTR_TYPE_END) != 0)
|| attr_print(mp, ATTR_FLAG_NONE,
ATTR_TYPE_END) != 0
|| vstream_fclose(mp) != 0)
msg_panic("abounce_connect: write request to memory stream: %m");
/*
* Suspend until the server replies (or dies).
*/
ABOUNCE_EVENT_ENABLE(vstream_fileno(ap->fp), abounce_send,
(void *) ap, ABOUNCE_TIMEOUT);
} else {
abounce_done(ap, -1);
}
}
/* abounce_flush_verp - asynchronous bounce flush */
void abounce_flush_verp(int flags, const char *queue, const char *id,
const char *encoding, int smtputf8,
const char *sender, const char *dsn_envid,
int dsn_ret, const char *verp,
ABOUNCE_FN callback,
void *context)
{
abounce_connect(MAIL_CLASS_PRIVATE, var_bounce_service,
BOUNCE_CMD_VERP, flags, queue, id, encoding, smtputf8,
sender, dsn_envid, dsn_ret, verp, callback, context);
}
/* adefer_flush_verp - asynchronous defer flush */
void adefer_flush_verp(int flags, const char *queue, const char *id,
const char *encoding, int smtputf8,
const char *sender, const char *dsn_envid,
int dsn_ret, const char *verp,
ABOUNCE_FN callback, void *context)
{
flags |= BOUNCE_FLAG_DELRCPT;
abounce_connect(MAIL_CLASS_PRIVATE, var_defer_service,
BOUNCE_CMD_VERP, flags, queue, id, encoding, smtputf8,
sender, dsn_envid, dsn_ret, verp, callback, context);
}
/* abounce_flush - asynchronous bounce flush */
void abounce_flush(int flags, const char *queue, const char *id,
const char *encoding, int smtputf8,
const char *sender, const char *dsn_envid,
int dsn_ret, ABOUNCE_FN callback,
void *context)
{
abounce_connect(MAIL_CLASS_PRIVATE, var_bounce_service, BOUNCE_CMD_FLUSH,
flags, queue, id, encoding, smtputf8, sender, dsn_envid,
dsn_ret, ABOUNCE_NO_VERP, callback, context);
}
/* adefer_flush - asynchronous defer flush */
void adefer_flush(int flags, const char *queue, const char *id,
const char *encoding, int smtputf8,
const char *sender, const char *dsn_envid,
int dsn_ret, ABOUNCE_FN callback, void *context)
{
flags |= BOUNCE_FLAG_DELRCPT;
abounce_connect(MAIL_CLASS_PRIVATE, var_defer_service, BOUNCE_CMD_FLUSH,
flags, queue, id, encoding, smtputf8, sender, dsn_envid,
dsn_ret, ABOUNCE_NO_VERP, callback, context);
}
/* adefer_warn - send copy of defer log to sender as warning bounce */
void adefer_warn(int flags, const char *queue, const char *id,
const char *encoding, int smtputf8,
const char *sender, const char *dsn_envid,
int dsn_ret, ABOUNCE_FN callback, void *context)
{
abounce_connect(MAIL_CLASS_PRIVATE, var_defer_service, BOUNCE_CMD_WARN,
flags, queue, id, encoding, smtputf8, sender, dsn_envid,
dsn_ret, ABOUNCE_NO_VERP, callback, context);
}
/* atrace_flush - asynchronous trace flush */
void atrace_flush(int flags, const char *queue, const char *id,
const char *encoding, int smtputf8,
const char *sender, const char *dsn_envid,
int dsn_ret, ABOUNCE_FN callback, void *context)
{
abounce_connect(MAIL_CLASS_PRIVATE, var_trace_service, BOUNCE_CMD_TRACE,
flags, queue, id, encoding, smtputf8, sender, dsn_envid,
dsn_ret, ABOUNCE_NO_VERP, callback, context);
}
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