/* * Copyright (c) 1996 Regents of the University of Michigan. * All rights reserved. * * Redistribution and use in source and binary forms are permitted * provided that this notice is preserved and that due credit is given * to the University of Michigan at Ann Arbor. The name of the University * may not be used to endorse or promote products derived from this * software without specific prior written permission. This software * is provided ``as is'' without express or implied warranty. */ /* slurp.h - Standalone Ldap Update Replication Daemon (slurpd) */ #ifndef _SLURPD_H_ #define _SLURPD_H_ #ifndef LDAP_SYSLOG #define LDAP_SYSLOG 1 #endif #include #include #include #include #ifdef HAVE_SYS_PARAM_H #include #endif #include #include "lber.h" #include "ldap.h" #define ldap_debug slurp_debug #include "ldap_log.h" #include "ldap_pvt_thread.h" #include "ldap_defaults.h" #include "ldif.h" /* Default directory for slurpd's private copy of replication logs */ #define DEFAULT_SLURPD_REPLICA_DIR "/usr/tmp" /* Default name for slurpd's private copy of the replication log */ #define DEFAULT_SLURPD_REPLOGFILE "slurpd.replog" /* Name of file which stores saved slurpd state info, for restarting */ #define DEFAULT_SLURPD_STATUS_FILE "slurpd.status" /* slurpd dump file - contents of rq struct are written here (debugging) */ #define SLURPD_DUMPFILE "/tmp/slurpd.dump" /* default srvtab file. Can be overridden */ #define SRVTAB "/etc/srvtab" /* Amount of time to sleep if no more work to do */ #define DEFAULT_NO_WORK_INTERVAL 3 /* The time we wait between checks to see if the replog file needs trimming */ #define TRIMCHECK_INTERVAL ( 60 * 5 ) /* Only try to trim slurpd replica files larger than this size */ #define MIN_TRIM_FILESIZE ( 10L * 1024L ) /* Maximum line length we can read from replication log */ #define REPLBUFLEN 256 /* We support simple (plaintext password) and kerberos authentication */ #define AUTH_SIMPLE 1 #define AUTH_KERBEROS 2 /* Rejection records are prefaced with this string */ #define ERROR_STR "ERROR" /* Strings found in replication entries */ #define T_CHANGETYPESTR "changetype" #define T_CHANGETYPE 1 #define T_TIMESTR "time" #define T_TIME 2 #define T_DNSTR "dn" #define T_DN 3 #define T_ADDCTSTR "add" #define T_ADDCT 4 #define T_MODIFYCTSTR "modify" #define T_MODIFYCT 5 #define T_DELETECTSTR "delete" #define T_DELETECT 6 #define T_MODRDNCTSTR "modrdn" #define T_MODRDNCT 7 #define T_MODOPADDSTR "add" #define T_MODOPADD 8 #define T_MODOPREPLACESTR "replace" #define T_MODOPREPLACE 9 #define T_MODOPDELETESTR "delete" #define T_MODOPDELETE 10 #define T_MODSEPSTR "-" #define T_MODSEP 11 #define T_NEWRDNSTR "newrdn" #define T_DRDNFLAGSTR "deleteoldrdn" #define T_ERR -1 /* Config file keywords */ #define HOSTSTR "host" #define BINDDNSTR "binddn" #define BINDMETHSTR "bindmethod" #define KERBEROSSTR "kerberos" #define SIMPLESTR "simple" #define CREDSTR "credentials" #define BINDPSTR "bindprincipal" #define SRVTABSTR "srvtab" #define REPLICA_SLEEP_TIME ( 10 ) /* Enumeration of various types of bind failures */ #define BIND_OK 0 #define BIND_ERR_BADLDP 1 #define BIND_ERR_OPEN 2 #define BIND_ERR_BAD_ATYPE 3 #define BIND_ERR_SIMPLE_FAILED 4 #define BIND_ERR_KERBEROS_FAILED 5 #define BIND_ERR_BADRI 6 /* Return codes for do_ldap() */ #define DO_LDAP_OK 0 #define DO_LDAP_ERR_RETRYABLE 1 #define DO_LDAP_ERR_FATAL 2 /* * Types of counts one can request from the Rq rq_getcount() * member function */ /* all elements */ #define RQ_COUNT_ALL 1 /* all elements with nonzero refcnt */ #define RQ_COUNT_NZRC 2 /* Amount of time, in seconds, for a thread to sleep when it encounters * a retryable error in do_ldap(). */ #define RETRY_SLEEP_TIME 60 LDAP_BEGIN_DECL /* * **************************************************************************** * Data types for replication queue and queue elements. * **************************************************************************** */ /* * Replica host information. An Ri struct will contain an array of these, * with one entry for each replica. The end of the array is signaled * by a NULL value in the rh_hostname field. */ typedef struct rh { char *rh_hostname; /* replica hostname */ int rh_port; /* replica port */ } Rh; /* * Per-replica information. * * Notes: * - Private data should not be manipulated expect by Ri member functions. */ typedef struct ri Ri; struct ri { /* Private data */ char *ri_hostname; /* canonical hostname of replica */ int ri_port; /* port where slave slapd running */ LDAP *ri_ldp; /* LDAP struct for this replica */ int ri_bind_method; /* AUTH_SIMPLE or AUTH_KERBEROS */ char *ri_bind_dn; /* DN to bind as when replicating */ char *ri_password; /* Password for AUTH_SIMPLE */ char *ri_principal; /* principal for kerberos bind */ char *ri_srvtab; /* srvtab file for kerberos bind */ struct re *ri_curr; /* current repl entry being processed */ struct stel *ri_stel; /* pointer to Stel for this replica */ unsigned long ri_seq; /* seq number of last repl */ ldap_pvt_thread_t ri_tid; /* ID of thread for this replica */ /* Member functions */ int (*ri_process) LDAP_P(( Ri * )); /* process the next repl entry */ void (*ri_wake) LDAP_P(( Ri * )); /* wake up a sleeping thread */ }; /* * Information about one particular modification to make. This data should * be considered private to routines in re.c, and to routines in ri.c. */ typedef struct mi { /* Private data */ char *mi_type; /* attr or type */ char *mi_val; /* value */ int mi_len; /* length of mi_val */ } Mi; /* * Information about one particular replication entry. Only routines in * re.c and rq.c should touch the private data. Other routines should * only use member functions. */ typedef struct re Re; struct re { /* Private data */ ldap_pvt_thread_mutex_t re_mutex; /* mutex for this Re */ int re_refcnt; /* ref count, 0 = done */ char *re_timestamp; /* timestamp of this re */ int re_seq; /* sequence number */ Rh *re_replicas; /* array of replica info */ char *re_dn; /* dn of entry being modified */ int re_changetype; /* type of modification */ Mi *re_mods; /* array of modifications to make */ struct re *re_next; /* pointer to next element */ /* Public functions */ int (*re_free) LDAP_P(( Re * )); /* free an re struct */ Re *(*re_getnext) LDAP_P(( Re * )); /* return next Re in linked list */ int (*re_parse) LDAP_P(( Re *, char * )); /* parse replication log entry */ int (*re_write) LDAP_P(( Ri *, Re *, FILE * )); /* write repl. log entry */ void (*re_dump) LDAP_P(( Re *, FILE * )); /* debugging - print contents */ int (*re_lock) LDAP_P(( Re * )); /* lock this re */ int (*re_unlock) LDAP_P(( Re * )); /* unlock this re */ int (*re_decrefcnt) LDAP_P(( Re * )); /* decrement the refcnt */ int (*re_getrefcnt) LDAP_P(( Re * )); /* get the refcnt */ }; /* * Definition for the queue of replica information. Private data is * private to rq.c. Other routines should only touch public data or * use member functions. Note that although we have a member function * for locking the queue's mutex, we need to expose the rq_mutex * variable so routines in ri.c can use it as a mutex for the * rq_more condition variable. */ typedef struct rq Rq; struct rq { /* Private data */ Re *rq_head; /* pointer to head */ Re *rq_tail; /* pointer to tail */ int rq_nre; /* total number of Re's in queue */ int rq_ndel; /* number of deleted Re's in queue */ time_t rq_lasttrim; /* Last time we trimmed file */ /* Public data */ ldap_pvt_thread_mutex_t rq_mutex; /* mutex for whole queue */ ldap_pvt_thread_cond_t rq_more; /* condition var - more work added */ /* Member functions */ Re * (*rq_gethead) LDAP_P(( Rq * )); /* get the element at head */ Re * (*rq_getnext) LDAP_P(( Re * )); /* get the next element */ int (*rq_delhead) LDAP_P(( Rq * )); /* delete the element at head */ int (*rq_add) LDAP_P(( Rq *, char * )); /* add at tail */ void (*rq_gc) LDAP_P(( Rq * )); /* garbage-collect queue */ int (*rq_lock) LDAP_P(( Rq * )); /* lock the queue */ int (*rq_unlock) LDAP_P(( Rq * )); /* unlock the queue */ int (*rq_needtrim) LDAP_P(( Rq * )); /* see if queue needs trimming */ int (*rq_write) LDAP_P(( Rq *, FILE * )); /*write Rq contents to file*/ int (*rq_getcount) LDAP_P(( Rq *, int )); /* return queue counts */ void (*rq_dump) LDAP_P(( Rq * )); /* debugging - print contents */ }; /* * An Stel (status element) contains information about one replica. * Stel structs are associated with the St (status) struct, defined * below. */ typedef struct stel { char *hostname; /* host name of replica */ int port; /* port number of replica */ char last[ 64 ]; /* timestamp of last successful repl */ int seq; /* Sequence number of last repl */ } Stel; /* * An St struct in an in-core structure which contains the current * slurpd state. Most importantly, it contains an array of Stel * structs which contain the timestamp and sequence number of the last * successful replication for each replica. The st_write() member * function is called periodically to flush status information to * disk. At startup time, slurpd checks for the status file, and * if present, uses the timestamps to avoid "replaying" replications * which have already been sent to a given replica. */ typedef struct st St; struct st { /* Private data */ ldap_pvt_thread_mutex_t st_mutex; /* mutex to serialize access */ Stel **st_data; /* array of pointers to Stel structs */ int st_nreplicas; /* number of repl hosts */ int st_err_logged; /* 1 if fopen err logged */ FILE *st_fp; /* st file kept open */ FILE *st_lfp; /* lockfile fp */ /* Public member functions */ int (*st_update) LDAP_P(( St *, Stel*, Re* ));/*update entry for a host*/ Stel*(*st_add) LDAP_P(( St *, Ri * )); /*add a new repl host*/ int (*st_write) LDAP_P(( St * )); /* write status to disk */ int (*st_read) LDAP_P(( St * )); /* read status info from disk */ int (*st_lock) LDAP_P(( St * )); /* read status info from disk */ int (*st_unlock) LDAP_P(( St * )); /* read status info from disk */ }; #if defined( HAVE_LWP ) typedef struct tl { thread_t tl_tid; /* thread being managed */ time_t tl_wake; /* time thread should be resumed */ struct tl *tl_next; /* next node in list */ } tl_t; typedef struct tsl { tl_t *tsl_list; mon_t tsl_mon; } tsl_t; #endif /* HAVE_LWP */ /* * Public functions used to instantiate and initialize queue objects. */ extern int Ri_init LDAP_P(( Ri **ri )); extern int Rq_init LDAP_P(( Rq **rq )); extern int Re_init LDAP_P(( Re **re )); #include "proto-slurp.h" LDAP_END_DECL #endif /* _SLURPD_H_ */