/**************************************************************** * * * Copyright 2006, 2012 Fidelity Information Services, Inc * * * * This source code contains the intellectual property * * of its copyright holder(s), and is made available * * under a license. If you do not know the terms of * * the license, please stop and do not read further. * * * ****************************************************************/ #ifndef _REPL_MSG_H #define _REPL_MSG_H enum { REPL_INVALID = -1, /* -1 */ REPL_START_JNL_SEQNO = 0, /* 0 */ REPL_TR_JNL_RECS, /* 1 */ REPL_ROLLBACK_FIRST, /* 2 */ REPL_OBSOLETE_WILL_RESTART, /* 3 */ /* Obsoleted effective V4.4-002 since we no longer support dual site config with * V4.1 versions. But slot# preserved to not perturb other message #s */ REPL_XOFF, /* 4 */ REPL_XON, /* 5 */ REPL_BADTRANS, /* 6 */ REPL_HEARTBEAT, /* 7 */ REPL_FETCH_RESYNC, /* 8 */ REPL_RESYNC_SEQNO, /* 9 */ REPL_OBSOLETE_STOPSRCFILTER, /* 10 */ /* message no longer used but slot# 10 preserved to not perturb other message #s */ REPL_XOFF_ACK_ME, /* 11 */ REPL_XOFF_ACK, /* 12 */ REPL_WILL_RESTART_WITH_INFO, /* 13 */ REPL_MULTISITE_MSG_START, /* 14 */ /* All messages after this are newly introduced for multi-site support only */ REPL_OLD_NEED_INSTANCE_INFO, /* 15 */ REPL_OLD_INSTANCE_INFO, /* 16 */ REPL_NEED_HISTINFO, /* 17 */ REPL_OLD_TRIPLEINFO1, /* 18 */ REPL_OLD_TRIPLEINFO2, /* 19 */ REPL_OLD_TRIPLE, /* 20 */ REPL_INST_NOHIST, /* 21 */ REPL_LOSTTNCOMPLETE, /* 22 */ REPL_CMP_TEST, /* 23 */ REPL_CMP_SOLVE, /* 24 */ REPL_CMP2UNCMP, /* 25 */ /* used to signal a transition to uncompressed messages in case of errors */ REPL_TR_CMP_JNL_RECS, /* 26 */ /* used to send compressed messages whose pre-compressed length is < 2**24 */ REPL_TR_CMP_JNL_RECS2, /* 27 */ /* used to send compressed messages whose pre-compressed length is >= 2**24 */ REPL_NEED_INSTINFO, /* 28 */ REPL_INSTINFO, /* 29 */ REPL_HISTINFO, /* 30 */ /* used to exchange history information as part of a replication handshake */ REPL_HISTREC, /* 31 */ /* sent in the middle of a journal record stream to signal start of new history */ REPL_NEED_STRMINFO, /* 32 */ /* sent by a supplementary source server to a supplementary receiver server */ REPL_STRMINFO, /* 33 */ /* sent in response to a REPL_NEED_STRMINFO message */ REPL_MSGTYPE_LAST=256 /* 256 */ /* any new message need to be added before REPL_MSGTYPE_LAST */ }; #define REPL_PROTO_VER_UNINITIALIZED (char)0xFF /* -1, the least of the versions to denote an uninitialized version field */ #define REPL_PROTO_VER_DUALSITE (char)0x0 /* Versions GT.M V5.0 and prior that dont support multi site replication */ #define REPL_PROTO_VER_MULTISITE (char)0x1 /* Versions V5.1-000 and above that support multi site replication */ #define REPL_PROTO_VER_MULTISITE_CMP (char)0x2 /* Versions V5.3-003 and above that suport multisite replication with * the ability to compress the logical records in the replication pipe. */ #define REPL_PROTO_VER_SUPPLEMENTARY (char)0x3 /* Versions V5.5-000 and above that suport supplementary instances */ #define REPL_PROTO_VER_THIS REPL_PROTO_VER_SUPPLEMENTARY /* The current/latest version of the communication protocol between the * primary (source server) and secondary (receiver server or rollback) */ /* A few of these flag bits (e.g. START_FLAG_SRCSRV_IS_VMS) are no longer used but they should not be removed just in case prior * versions that used those bitslots communicate with a newer version that assigns a different meaning to those slots. Any new * slot additions need to happen at the end of the list. No replacements of unused slots. */ #define START_FLAG_NONE 0x00000000 #define START_FLAG_STOPSRCFILTER 0x00000001 #define START_FLAG_UPDATERESYNC 0x00000002 #define START_FLAG_HASINFO 0x00000004 #define START_FLAG_COLL_M 0x00000008 #define START_FLAG_VERSION_INFO 0x00000010 #define START_FLAG_TRIGGER_SUPPORT 0x00000020 #define START_FLAG_SRCSRV_IS_VMS 0x00000040 /* Obsolete but preserve slot */ #define START_FLAG_NORESYNC 0x00000080 #define MIN_REPL_MSGLEN 32 /* To keep compiler happy with * the definition of repl_msg_t as well * as to accommodate a seq_num */ #define REPL_MSG_CMPINFOLEN (SIZEOF(repl_cmpinfo_msg_t)) #define REPL_MSG_CMPDATALEN 256 /* length of data part of message exchanged between source/receiver to test compression */ #define REPL_MSG_CMPDATAMASK 0xff #define MAX_CMP_EXPAND_FACTOR 2 /* the worst case factor by which compression could actually expand input data */ #define REPL_MSG_CMPEXPDATALEN (MAX_CMP_EXPAND_FACTOR * REPL_MSG_CMPDATALEN) /* The "datalen" field of the REPL_CMP_SOLVE message is set to the following value by the receiver server in case of errors. */ #define REPL_RCVR_CMP_TEST_FAIL (-1) #define REPL_MSG_ALIGN 8 /* every message sent across the pipe is expected to be at least 8-byte aligned */ #define REPL_MSG_TYPE (uint4)(SIZEOF(int4)) #define REPL_MSG_LEN (uint4)(SIZEOF(int4)) #define REPL_MSG_HDRLEN (uint4)(REPL_MSG_TYPE + REPL_MSG_LEN) /* For type and len fields */ typedef struct /* Used also to send a message of type REPL_INST_NOHIST */ { int4 type; int4 len; /* Is 8-byte aligned for ALL messages except REPL_TR_CMP_JNL_RECS message */ unsigned char msg[MIN_REPL_MSGLEN - REPL_MSG_HDRLEN]; /* All that we need is msg[1], but keep the compiler happy with * this definition for msg. Also provide space to accommodate a seq_num * so that a static definition would suffice instead of malloc'ing a * small message buffer */ } repl_msg_t; /* To send a REPL_TR_CMP_JNL_RECS type of message, we include the pre-compressed length as part of the 4-byte type field * to keep the replication message header overhead to the current 8-bytes. Define macros to access those fields. * If the pre-compressed length cannot fit in 24 bits, then we send a REPL_TR_CMP_JNL_RECS2 message which has 8-more * byte overhead as part of the replication message header. It is considered ok to take this extra 8-byte hit for huge messages. * The threshold is defined as 2**23 (instead of 2**24) so we ensure the most significant bit is 0 and does not give us * problems while doing >> operations (e.g. (((repl_msg_ptr_t)buffp)->type >> REPL_TR_CMP_MSG_TYPE_BITS); */ #define REPL_TR_CMP_MSG_TYPE_BITS 8 #define REPL_TR_CMP_MSG_UNCMPLEN_BITS 24 #define REPL_TR_CMP_THRESHOLD (1 << (REPL_TR_CMP_MSG_UNCMPLEN_BITS - 1)) #define REPL_TR_CMP_MSG_TYPE_MASK ((1 << REPL_TR_CMP_MSG_TYPE_BITS) - 1) /* Defines for sending REPL_TR_CMP_JNL_RECS2 message */ #define REPL_MSG_UNCMPLEN SIZEOF(int4) #define REPL_MSG_CMPLEN SIZEOF(int4) #define REPL_MSG_HDRLEN2 (REPL_MSG_HDRLEN + REPL_MSG_UNCMPLEN + REPL_MSG_CMPLEN) /* 16-byte header */ typedef struct /* Used also to send a message of type REPL_TR_CMP_JNL_RECS2 */ { int4 type; int4 len; int4 uncmplen; int4 cmplen; unsigned char msg[MIN_REPL_MSGLEN - REPL_MSG_HDRLEN2]; /* All that we need is msg[1], but keep the compiler happy with * this definition for msg. Also provide space to accommodate a seq_num * so that a static definition would suffice instead of malloc'ing a * small message buffer */ } repl_cmpmsg_t; #define MAX_REPL_MSGLEN (1 * 1024 * 1024) /* should ideally match the TCP send (recv) bufsiz of source (receiver) server */ #define MAX_TR_BUFFSIZE (MAX_REPL_MSGLEN - REPL_MSG_HDRLEN2) /* allow for biggest replication message header */ typedef struct /* used to send a message of type REPL_START_JNL_SEQNO */ { int4 type; int4 len; unsigned char start_seqno[SIZEOF(seq_num)]; uint4 start_flags; unsigned char jnl_ver; char proto_ver; /* Needs to be "signed char" in order to be able to do signed comparisons of this with * the macros REPL_PROTO_VER_DUALSITE (0) and REPL_PROTO_VER_UNINITIALIZED (-1) */ char node_endianness; /* 'L' if this machine is little endian, 'B' if it is big endian */ char is_supplementary; /* TRUE for a supplementary instance; FALSE otherwise */ char filler_32[8]; } repl_start_msg_t; /* The first two fields should be as in repl_msg_t */ typedef struct /* used to send a message of type REPL_WILL_RESTART_WITH_INFO or REPL_ROLLBACK_FIRST or REPL_RESYNC_SEQNO */ { int4 type; int4 len; unsigned char start_seqno[SIZEOF(seq_num)]; unsigned char jnl_ver; char start_flags[4]; char proto_ver; /* Needs to be "signed char" in order to be able to do signed comparisons of this with * the macros REPL_PROTO_VER_DUALSITE (0) and REPL_PROTO_VER_UNINITIALIZED (-1) */ char node_endianness; /* 'L' if this machine is little endian, 'B' if it is big endian */ char is_supplementary; /* TRUE for a supplementary instance; FALSE otherwise */ char filler_32[8]; } repl_start_reply_msg_t; /* The first two fields should be as in repl_msg_t */ typedef struct /* used to send a message of type REPL_FETCH_RESYNC */ { int4 type; int4 len; seq_num resync_seqno; char proto_ver; /* Needs to be "signed char" in order to be able to do signed comparisons of this with * the macros REPL_PROTO_VER_DUALSITE (0) and REPL_PROTO_VER_UNINITIALIZED (-1) */ char node_endianness; /* 'L' if this machine is little endian, 'B' if it is big endian */ char is_supplementary; /* TRUE for a supplementary instance; FALSE otherwise */ char filler_32[13]; } repl_resync_msg_t; /* The first two fields should be as in repl_msg_t */ typedef struct /* used to send a message of type REPL_OLD_NEED_INSTANCE_INFO */ { int4 type; int4 len; unsigned char instname[MAX_INSTNAME_LEN]; char proto_ver; /* Needs to be "signed char" in order to be able to do signed comparisons of this with * the macros REPL_PROTO_VER_DUALSITE (0) and REPL_PROTO_VER_UNINITIALIZED (-1) */ char node_endianness; /* 'L' if this machine is little endian, 'B' if it is big endian */ char is_rootprimary; /* Whether the source server that is sending this message is a root primary or not. */ char filler_32[5]; } repl_old_needinst_msg_t; /* The first two fields should be as in repl_msg_t */ typedef struct /* used to send a message of type REPL_NEED_INSTINFO */ { int4 type; int4 len; unsigned char instname[MAX_INSTNAME_LEN]; repl_inst_uuid lms_group_info; char proto_ver; /* Needs to be "signed char" in order to be able to do signed comparisons of this with * the macros REPL_PROTO_VER_DUALSITE (0) and REPL_PROTO_VER_UNINITIALIZED (-1) */ char is_rootprimary; /* Whether the source server that is sending this message is a root primary or not. */ char is_supplementary; /* TRUE for a supplementary instance; FALSE otherwise */ char filler_32[5]; } repl_needinst_msg_t; /* The first two fields should be as in repl_msg_t */ typedef struct /* used to send a message of type REPL_OLD_INSTANCE_INFO */ { int4 type; int4 len; unsigned char instname[MAX_INSTNAME_LEN]; /* The name of this replication instance */ unsigned char was_rootprimary; char filler_32[7]; } repl_old_instinfo_msg_t; /* The first two fields should be as in repl_msg_t */ typedef struct /* used to send a message of type REPL_INSTINFO */ { int4 type; int4 len; unsigned char instname[MAX_INSTNAME_LEN]; /* The name of this replication instance */ seq_num strm_jnl_seqno; /* Whenever a supplementary receiver handshakes with a non-supplementary source, * the current jnl seqno (which is across all streams) is sent in the initial * REPL_START_JNL_SEQNO message. Only after the source server sends the * REPL_NEED_INSTINFO message does the receiver know which non-supplementary stream * the source corresponds to and can therefore determine the stream specific * jnl seqno. Once this is known, instead of re-sending the REPL_START_JNL_SEQNO * message, the receiver sends this new seqno in the "strm_jnl_seqno" field as * part of the REPL_INSTINFO message. In cases where the receiver is not * supplementary or if the soruce is supplementary, this field is set to 0. */ repl_inst_uuid lms_group_info; unsigned char was_rootprimary; char filler_32[7]; } repl_instinfo_msg_t; /* The first two fields should be as in repl_msg_t */ typedef struct /* used to send messages of type REPL_CMP_TEST or REPL_CMP_SOLVE */ { int4 type; int4 len; int4 datalen; /* length of compressed or uncompressed data */ char proto_ver; char filler_16[3]; char data[REPL_MSG_CMPDATALEN]; /* compressed (if REPL_CMP_TEST) or uncompressed (if REPL_CMP_SOLVE) data */ char overflowdata[(MAX_CMP_EXPAND_FACTOR - 1) * REPL_MSG_CMPDATALEN]; /* buffer to hold overflow in case compression expands data */ } repl_cmpinfo_msg_t; /* The first two fields should be as in repl_msg_t */ typedef struct /* used to send a message of type REPL_NEED_HISTINFO */ { int4 type; int4 len; seq_num seqno; /* The histinfo requested is that of "seqno-1" */ int4 strm_num; /* used only in case of supplementary instances */ int4 histinfo_num; /* if not INVALID_HISTINFO_NUM, then we want the histinfo_num'th history record * on the remote side. in this case ignore seqno & strm_num. */ char filler_32[8]; } repl_needhistinfo_msg_t; /* The first two fields should be as in repl_msg_t */ typedef struct /* used to send a message of type REPL_OLD_TRIPLEINFO1 */ { int4 type; int4 len; seq_num start_seqno; /* the starting seqno of the histinfo range */ unsigned char instname[MAX_INSTNAME_LEN]; } repl_histinfo1_msg_t; /* The first two fields should be as in repl_msg_t */ typedef struct /* used to send a message of type REPL_OLD_TRIPLEINFO2 */ { int4 type; int4 len; seq_num start_seqno; /* the starting seqno of the histinfo range */ uint4 cycle; int4 histinfo_num; char filler_32[8]; } repl_histinfo2_msg_t; /* The first two fields should be as in repl_msg_t */ typedef struct /* used to send a message of type REPL_HISTINFO */ { int4 type; int4 len; repl_histinfo history; } repl_histinfo_msg_t; /* The first two fields should be as in repl_msg_t */ /* A REPL_OLD_TRIPLE message is sent in such a form that the receiver server can copy it (after removing the 8-byte header * containing the "type" and "len") as such into the receive pool. The update process treats this content as yet another * journal record type. Therefore we need to introduce a new journal record type (JRT_TRIPLE) for this purpose and define a * structure (repl_old_triple_jnl_t) that has this type information and the triple related information. This will then be a * member of the REPL_OLD_TRIPLE message. * Note: GT.M versions that support supplementary instances send a REPL_HISTREC message instead of REPL_OLD_TRIPLE. */ typedef struct /* sub-structure used to send a message of type REPL_OLD_TRIPLE */ { uint4 jrec_type : 8; /* This definition is copied from that of "jrec_prefix" */ uint4 forwptr : 24; /* This definition is copied from that of "jrec_prefix" */ uint4 cycle; /* The cycle of the instance at the time of generating this triple */ seq_num start_seqno; /* The starting seqno of the triple range */ unsigned char instname[MAX_INSTNAME_LEN]; /* The instance name that generated this triple */ unsigned char rcvd_from_instname[MAX_INSTNAME_LEN]; /* instance name this triple was received from (on the secondary) */ } repl_old_triple_jnl_t; typedef struct /* used to send a message of type REPL_OLD_TRIPLE */ { int4 type; int4 len; repl_old_triple_jnl_t triplecontent; } repl_old_triple_msg_t; /* The first two fields should be as in repl_msg_t */ typedef struct /* sub-structure used to send a message of type REPL_HISTREC */ { uint4 jrec_type : 8; /* This definition is copied from that of "jrec_prefix" */ uint4 forwptr : 24; /* This definition is copied from that of "jrec_prefix" */ uint4 filler_8byte_align; repl_histinfo histcontent; /* the structure containing the history information */ } repl_histrec_jnl_t; typedef struct /* used to send a message of type REPL_HISTREC */ { int4 type; int4 len; repl_histrec_jnl_t histjrec; /* the journal record containing the history information */ } repl_histrec_msg_t; /* The first two fields should be as in repl_msg_t */ typedef struct /* used to send a message of type REPL_NEED_STRMINFO */ { int4 type; int4 len; seq_num seqno; /* The strminfo requested is that of "seqno-1" */ char filler_32[16]; } repl_needstrminfo_msg_t; /* The first two fields should be as in repl_msg_t */ typedef struct /* used to send a message of type REPL_STRMINFO */ { int4 type; int4 len; int4 last_histinfo_num[MAX_SUPPL_STRMS]; } repl_strminfo_msg_t; /* The first two fields should be as in repl_msg_t */ typedef struct { int4 type; int4 len; unsigned char ack_seqno[SIZEOF(seq_num)]; unsigned char ack_time[SIZEOF(gtm_time4_t)]; unsigned char filler_32[12]; } repl_heartbeat_msg_t; /* The first two fields should be as in repl_msg_t */ typedef struct { struct { sm_off_t fl; sm_off_t bl; } que; repl_heartbeat_msg_t heartbeat; } repl_heartbeat_que_entry_t; typedef struct /* Used to send a message of type REPL_BADTRANS or REPL_CMP2UNCMP */ { int4 type; int4 len; seq_num start_seqno; /* The seqno that source server should restart sending from */ char filler_32[16]; } repl_badtrans_msg_t; #if defined(__osf__) && defined(__alpha) # pragma pointer_size(save) # pragma pointer_size(long) #endif typedef repl_msg_t *repl_msg_ptr_t; typedef repl_cmpmsg_t *repl_cmpmsg_ptr_t; typedef repl_start_msg_t *repl_start_msg_ptr_t; typedef repl_start_reply_msg_t *repl_start_reply_msg_ptr_t; typedef repl_resync_msg_t *repl_resync_msg_ptr_t; typedef repl_old_needinst_msg_t *repl_old_needinst_msg_ptr_t; typedef repl_needinst_msg_t *repl_needinst_msg_ptr_t; typedef repl_old_instinfo_msg_t *repl_old_instinfo_msg_ptr_t; typedef repl_instinfo_msg_t *repl_instinfo_msg_ptr_t; typedef repl_needhistinfo_msg_t *repl_needhistinfo_msg_ptr_t; typedef repl_histinfo1_msg_t *repl_histinfo1_msg_ptr_t; typedef repl_histinfo2_msg_t *repl_histinfo2_msg_ptr_t; typedef repl_old_triple_jnl_t *repl_old_triple_jnl_ptr_t; typedef repl_histrec_jnl_t *repl_histrec_jnl_ptr_t; typedef repl_histinfo_msg_t *repl_histinfo_msg_ptr_t; typedef repl_needstrminfo_msg_t *repl_needstrminfo_msg_ptr_t; typedef repl_strminfo_msg_t *repl_strminfo_msg_ptr_t; typedef repl_heartbeat_msg_t *repl_heartbeat_msg_ptr_t; typedef repl_cmpinfo_msg_t *repl_cmpinfo_msg_ptr_t; #if defined(__osf__) && defined(__alpha) # pragma pointer_size(restore) #endif void gtmsource_repl_send(repl_msg_ptr_t msg, char *msgtypestr, seq_num optional_seqno, int4 optional_strm_num); void gtmsource_send_new_histrec(void); void gtmrecv_repl_send(repl_msg_ptr_t msgp, int4 type, int4 len, char *msgtypestr, seq_num optional_seqno); void gtmrecv_send_histinfo(repl_histinfo *histinfo); void gtmrecv_check_and_send_instinfo(repl_needinst_msg_ptr_t need_instinfo_msg, boolean_t is_rcvr_srvr); #endif