freebsd-skq/contrib/sendmail/libmilter/libmilter.h
Gregory Neil Shapiro 5b0945b570 Merge sendmail 8.16.1 to HEAD: See contrib/sendmail/RELEASE_NOTES for details
Includes build infrastructure & config updates required for changes in 8.16.1

MFC after:	5 days
2020-07-15 18:28:54 +00:00

336 lines
9.5 KiB
C

/*
* Copyright (c) 1999-2003, 2006 Proofpoint, Inc. and its suppliers.
* All rights reserved.
*
* By using this file, you agree to the terms and conditions set
* forth in the LICENSE file which can be found at the top level of
* the sendmail distribution.
*/
/*
** LIBMILTER.H -- include file for mail filter library functions
*/
#ifndef _LIBMILTER_H
# define _LIBMILTER_H 1
#include <sm/gen.h>
#ifdef _DEFINE
# define EXTERN
# define INIT(x) = x
SM_IDSTR(MilterlId, "@(#)$Id: libmilter.h,v 8.78 2013-11-22 20:51:36 ca Exp $")
#else
# define EXTERN extern
# define INIT(x)
#endif
#include "sm/tailq.h"
#define NOT_SENDMAIL 1
#define _SOCK_ADDR union bigsockaddr
#include "sendmail.h"
#ifdef SM_ASSERT
#undef SM_ASSERT
#endif
#ifndef SM_ASSERT
#include <assert.h>
#define SM_ASSERT(x) assert(x)
#endif
#include "libmilter/milter.h"
#define MAX_MACROS_ENTRIES 7 /* max size of macro pointer array */
typedef SM_TAILQ_HEAD(, smfi_str) smfi_hd_T;
typedef struct smfi_str smfi_str_S;
/*
** Context for one milter session.
**
** Notes:
** There is a 1-1 correlation between a sendmail SMTP server process,
** an SMTP session, and an milter context. Due to the nature of SMTP
** session handling in sendmail 8, this libmilter implementation deals
** only with a single SMTP session per MTA - libmilter connection.
**
** There is no "global" context for libmilter, global variables are
** just that (they are not "collected" in a context).
**
** Implementation hint:
** macros are stored in mac_buf[] as sequence of:
** macro_name \0 macro_value
** (just as read from the MTA)
** mac_ptr is a list of pointers into mac_buf to the beginning of each
** entry, i.e., macro_name, macro_value, ...
*/
struct smfi_str
{
sthread_t ctx_id; /* thread id */
socket_t ctx_sd; /* socket descriptor */
int ctx_dbg; /* debug level */
time_t ctx_timeout; /* timeout */
int ctx_state; /* state */
smfiDesc_ptr ctx_smfi; /* filter description */
int ctx_prot_vers; /* libmilter protocol version */
unsigned long ctx_aflags; /* milter action flags */
unsigned long ctx_pflags; /* milter protocol flags */
/*
** milter protocol flags that are sent to the MTA;
** this is the same as ctx_pflags except for those flags that
** are not offered by the MTA but emulated in libmilter.
*/
unsigned long ctx_pflags2mta;
/*
** milter protocol version that is sent to the MTA;
** this is the same as ctx_prot_vers unless the
** MTA protocol version (ctx_mta_prot_vers) is smaller
** but still "acceptable".
*/
int ctx_prot_vers2mta;
char **ctx_mac_ptr[MAX_MACROS_ENTRIES];
char *ctx_mac_buf[MAX_MACROS_ENTRIES];
char *ctx_mac_list[MAX_MACROS_ENTRIES];
char *ctx_reply; /* reply code */
void *ctx_privdata; /* private data */
int ctx_mta_prot_vers; /* MTA protocol version */
unsigned long ctx_mta_pflags; /* MTA protocol flags */
unsigned long ctx_mta_aflags; /* MTA action flags */
#if _FFR_THREAD_MONITOR
time_t ctx_start; /* start time of thread */
SM_TAILQ_ENTRY(smfi_str) ctx_mon_link;
#endif
#if _FFR_WORKERS_POOL
long ctx_sid; /* session identifier */
int ctx_wstate; /* state of the session (worker pool) */
int ctx_wait; /* elapsed time waiting for sm cmd */
SM_TAILQ_ENTRY(smfi_str) ctx_link;
#endif /* _FFR_WORKERS_POOL */
};
# define ValidSocket(sd) ((sd) >= 0)
# define INVALID_SOCKET (-1)
# define closesocket close
# define MI_SOCK_READ(s, b, l) read(s, b, l)
# define MI_SOCK_READ_FAIL(x) ((x) < 0)
# define MI_SOCK_WRITE(s, b, l) write(s, b, l)
# define thread_create(ptid,wr,arg) pthread_create(ptid, NULL, wr, arg)
# define sthread_get_id() pthread_self()
typedef pthread_mutex_t smutex_t;
# define smutex_init(mp) (pthread_mutex_init(mp, NULL) == 0)
# define smutex_destroy(mp) (pthread_mutex_destroy(mp) == 0)
# define smutex_lock(mp) (pthread_mutex_lock(mp) == 0)
# define smutex_unlock(mp) (pthread_mutex_unlock(mp) == 0)
# define smutex_trylock(mp) (pthread_mutex_trylock(mp) == 0)
#if _FFR_WORKERS_POOL
/* SM_CONF_POLL shall be defined with _FFR_WORKERS_POOL */
# if !SM_CONF_POLL
# define SM_CONF_POLL 1
# endif
#endif /* _FFR_WORKERS_POOL */
typedef pthread_cond_t scond_t;
#define scond_init(cp) pthread_cond_init(cp, NULL)
#define scond_destroy(cp) pthread_cond_destroy(cp)
#define scond_wait(cp, mp) pthread_cond_wait(cp, mp)
#define scond_signal(cp) pthread_cond_signal(cp)
#define scond_broadcast(cp) pthread_cond_broadcast(cp)
#define scond_timedwait(cp, mp, to) \
do \
{ \
struct timespec timeout; \
struct timeval now; \
gettimeofday(&now, NULL); \
timeout.tv_sec = now.tv_sec + to; \
timeout.tv_nsec = now.tv_usec / 1000; \
r = pthread_cond_timedwait(cp,mp,&timeout); \
if (r != 0 && r != ETIMEDOUT) \
smi_log(SMI_LOG_ERR, \
"pthread_cond_timedwait error %d", r); \
} while (0)
#if SM_CONF_POLL
# include <poll.h>
# define MI_POLLSELECT "poll"
# define MI_POLL_RD_FLAGS (POLLIN | POLLPRI)
# define MI_POLL_WR_FLAGS (POLLOUT)
# define MI_MS(timeout) (((timeout)->tv_sec * 1000) + (((timeout)->tv_usec) / 1000))
# define FD_RD_VAR(rds, excs) struct pollfd rds
# define FD_WR_VAR(wrs) struct pollfd wrs
# define FD_RD_INIT(sd, rds, excs) \
(rds).fd = (sd); \
(rds).events = MI_POLL_RD_FLAGS; \
(rds).revents = 0
# define FD_WR_INIT(sd, wrs) \
(wrs).fd = (sd); \
(wrs).events = MI_POLL_WR_FLAGS; \
(wrs).revents = 0
# define FD_IS_RD_EXC(sd, rds, excs) \
(((rds).revents & (POLLERR | POLLHUP | POLLNVAL)) != 0)
# define FD_IS_WR_RDY(sd, wrs) \
(((wrs).revents & MI_POLL_WR_FLAGS) != 0)
# define FD_IS_RD_RDY(sd, rds, excs) \
(((rds).revents & MI_POLL_RD_FLAGS) != 0)
# define FD_WR_READY(sd, wrs, timeout) \
poll(&(wrs), 1, MI_MS(timeout))
# define FD_RD_READY(sd, rds, excs, timeout) \
poll(&(rds), 1, MI_MS(timeout))
#else /* SM_CONF_POLL */
# include <sm/fdset.h>
# define MI_POLLSELECT "select"
# define FD_RD_VAR(rds, excs) fd_set rds, excs
# define FD_WR_VAR(wrs) fd_set wrs
# define FD_RD_INIT(sd, rds, excs) \
FD_ZERO(&(rds)); \
FD_SET((unsigned int) (sd), &(rds)); \
FD_ZERO(&(excs)); \
FD_SET((unsigned int) (sd), &(excs))
# define FD_WR_INIT(sd, wrs) \
FD_ZERO(&(wrs)); \
FD_SET((unsigned int) (sd), &(wrs))
# define FD_IS_RD_EXC(sd, rds, excs) FD_ISSET(sd, &(excs))
# define FD_IS_WR_RDY(sd, wrs) FD_ISSET((sd), &(wrs))
# define FD_IS_RD_RDY(sd, rds, excs) FD_ISSET((sd), &(rds))
# define FD_WR_READY(sd, wrs, timeout) \
select((sd) + 1, NULL, &(wrs), NULL, (timeout))
# define FD_RD_READY(sd, rds, excs, timeout) \
select((sd) + 1, &(rds), NULL, &(excs), (timeout))
#endif /* SM_CONF_POLL */
#include <sys/time.h>
/* some defaults */
#define MI_TIMEOUT 7210 /* default timeout for read/write */
#define MI_CHK_TIME 5 /* checking whether to terminate */
#ifndef MI_SOMAXCONN
# if SOMAXCONN > 20
# define MI_SOMAXCONN SOMAXCONN
# else
# define MI_SOMAXCONN 20
# endif
#endif /* ! MI_SOMAXCONN */
/* maximum number of repeated failures in mi_listener() */
#define MAX_FAILS_M 16 /* malloc() */
#define MAX_FAILS_T 16 /* thread creation */
#define MAX_FAILS_A 16 /* accept() */
#define MAX_FAILS_S 16 /* select() */
/* internal "commands", i.e., error codes */
#define SMFIC_TIMEOUT ((char) 1) /* timeout */
#define SMFIC_SELECT ((char) 2) /* select error */
#define SMFIC_MALLOC ((char) 3) /* malloc error */
#define SMFIC_RECVERR ((char) 4) /* recv() error */
#define SMFIC_EOF ((char) 5) /* eof */
#define SMFIC_UNKNERR ((char) 6) /* unknown error */
#define SMFIC_TOOBIG ((char) 7) /* body chunk too big */
#define SMFIC_VALIDCMD ' ' /* first valid command */
/* hack */
#define smi_log syslog
#define sm_dprintf (void) printf
#define milter_ret int
#define SMI_LOG_ERR LOG_ERR
#define SMI_LOG_FATAL LOG_ERR
#define SMI_LOG_WARN LOG_WARNING
#define SMI_LOG_INFO LOG_INFO
#define SMI_LOG_DEBUG LOG_DEBUG
/* stop? */
#define MILTER_CONT 0
#define MILTER_STOP 1
#define MILTER_ABRT 2
/* functions */
extern int mi_handle_session __P((SMFICTX_PTR));
extern int mi_engine __P((SMFICTX_PTR));
extern int mi_listener __P((char *, int, smfiDesc_ptr, time_t, int));
extern void mi_clr_macros __P((SMFICTX_PTR, int));
extern void mi_clr_ctx __P((SMFICTX_PTR));
extern int mi_stop __P((void));
extern int mi_control_startup __P((char *));
extern void mi_stop_milters __P((int));
extern void mi_clean_signals __P((void));
extern struct hostent *mi_gethostbyname __P((char *, int));
extern int mi_inet_pton __P((int, const char *, void *));
extern void mi_closener __P((void));
extern int mi_opensocket __P((char *, int, int, bool, smfiDesc_ptr));
/* communication functions */
extern char *mi_rd_cmd __P((socket_t, struct timeval *, char *, size_t *, char *));
extern int mi_wr_cmd __P((socket_t, struct timeval *, int, char *, size_t));
extern bool mi_sendok __P((SMFICTX_PTR, int));
#if _FFR_THREAD_MONITOR
extern bool Monitor;
#define MI_MONITOR_INIT() mi_monitor_init()
#define MI_MONITOR_BEGIN(ctx, cmd) \
do \
{ \
if (Monitor) \
mi_monitor_work_begin(ctx, cmd);\
} while (0)
#define MI_MONITOR_END(ctx, cmd) \
do \
{ \
if (Monitor) \
mi_monitor_work_end(ctx, cmd); \
} while (0)
int mi_monitor_init __P((void));
int mi_monitor_work_begin __P((SMFICTX_PTR, int));
int mi_monitor_work_end __P((SMFICTX_PTR, int));
#else /* _FFR_THREAD_MONITOR */
#define MI_MONITOR_INIT() MI_SUCCESS
#define MI_MONITOR_BEGIN(ctx, cmd)
#define MI_MONITOR_END(ctx, cmd)
#endif /* _FFR_THREAD_MONITOR */
#if _FFR_WORKERS_POOL
extern int mi_pool_manager_init __P((void));
extern int mi_pool_controller_init __P((void));
extern int mi_start_session __P((SMFICTX_PTR));
#endif /* _FFR_WORKERS_POOL */
#endif /* ! _LIBMILTER_H */