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|
/* Copyright (C) 2009-2013 Codership Oy <info@codership.com>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
/*!
@file wsrep API declaration.
HOW TO READ THIS FILE.
Due to C language rules this header layout doesn't lend itself to intuitive
reading. So here's the scoop: in the end this header declares two main types:
* struct wsrep_init_args
and
* struct wsrep
wsrep_init_args contains initialization parameters for wsrep provider like
names, addresses, etc. and pointers to callbacks. The callbacks will be called
by provider when it needs to do something application-specific, like log a
message or apply a writeset. It should be passed to init() call from
wsrep API. It is an application part of wsrep API contract.
struct wsrep is the interface to wsrep provider. It contains all wsrep API
calls. It is a provider part of wsrep API contract.
Finally, wsrep_load() method loads (dlopens) wsrep provider library. It is
defined in wsrep_loader.c unit and is part of libwsrep.a (which is not a
wsrep provider, but a convenience library).
wsrep_unload() does the reverse.
*/
#ifndef WSREP_H
#define WSREP_H
#include <stdint.h>
#include <stdbool.h>
#include <stdlib.h>
#include <unistd.h>
#include <time.h>
#ifdef __cplusplus
extern "C" {
#endif
/**************************************************************************
* *
* wsrep replication API *
* *
**************************************************************************/
#define WSREP_INTERFACE_VERSION "26"
/*! Empty backend spec */
#define WSREP_NONE "none"
/*!
* @brief log severity levels, passed as first argument to log handler
*/
typedef enum wsrep_log_level
{
WSREP_LOG_FATAL, //!< Unrecoverable error, application must quit.
WSREP_LOG_ERROR, //!< Operation failed, must be repeated.
WSREP_LOG_WARN, //!< Unexpected condition, but no operational failure.
WSREP_LOG_INFO, //!< Informational message.
WSREP_LOG_DEBUG //!< Debug message. Shows only of compiled with debug.
} wsrep_log_level_t;
/*!
* @brief error log handler
*
* All messages from wsrep provider are directed to this
* handler, if present.
*
* @param level log level
* @param message log message
*/
typedef void (*wsrep_log_cb_t)(wsrep_log_level_t, const char *);
/*!
* Certain provider capabilities application may want to know about
*/
#define WSREP_CAP_MULTI_MASTER ( 1ULL << 0 )
#define WSREP_CAP_CERTIFICATION ( 1ULL << 1 )
#define WSREP_CAP_PARALLEL_APPLYING ( 1ULL << 2 )
#define WSREP_CAP_TRX_REPLAY ( 1ULL << 3 )
#define WSREP_CAP_ISOLATION ( 1ULL << 4 )
#define WSREP_CAP_PAUSE ( 1ULL << 5 )
#define WSREP_CAP_CAUSAL_READS ( 1ULL << 6 )
#define WSREP_CAP_CAUSAL_TRX ( 1ULL << 7 )
#define WSREP_CAP_INCREMENTAL_WRITESET ( 1ULL << 8 )
#define WSREP_CAP_SESSION_LOCKS ( 1ULL << 9 )
#define WSREP_CAP_DISTRIBUTED_LOCKS ( 1ULL << 10 )
#define WSREP_CAP_CONSISTENCY_CHECK ( 1ULL << 11 )
#define WSREP_CAP_UNORDERED ( 1ULL << 12 )
#define WSREP_CAP_ANNOTATION ( 1ULL << 13 )
#define WSREP_CAP_PREORDERED ( 1ULL << 14 )
#define WSREP_CAP_STREAMING ( 1ULL << 15 )
#define WSREP_CAP_SNAPSHOT ( 1ULL << 16 )
#define WSREP_CAP_NBO ( 1ULL << 17 )
typedef uint32_t wsrep_cap_t; //!< capabilities bitmask
/*!
* Writeset flags
*
* TRX_END the writeset and all preceding writesets must be committed
* ROLLBACK all preceding writesets in a transaction must be rolled back
* ISOLATION the writeset must be applied AND committed in isolation
* PA_UNSAFE the writeset cannot be applied in parallel
* COMMUTATIVE the order in which the writeset is applied does not matter
* NATIVE the writeset contains another writeset in this provider format
*
* TRX_START shall be set on the first trx fragment by provider
* TRX_PREPARE shall be set on the fragment which prepares the transaction
*
* Note that some of the flags are mutually exclusive (e.g. TRX_END and
* ROLLBACK).
*/
#define WSREP_FLAG_TRX_END ( 1ULL << 0 )
#define WSREP_FLAG_ROLLBACK ( 1ULL << 1 )
#define WSREP_FLAG_ISOLATION ( 1ULL << 2 )
#define WSREP_FLAG_PA_UNSAFE ( 1ULL << 3 )
#define WSREP_FLAG_COMMUTATIVE ( 1ULL << 4 )
#define WSREP_FLAG_NATIVE ( 1ULL << 5 )
#define WSREP_FLAG_TRX_START ( 1ULL << 6 )
#define WSREP_FLAG_TRX_PREPARE ( 1ULL << 7 )
#define WSREP_FLAG_SNAPSHOT ( 1ULL << 8 )
#define WSREP_FLAG_IMPLICIT_DEPS ( 1ULL << 9 )
#define WSREP_FLAGS_LAST WSREP_FLAG_IMPLICIT_DEPS
#define WSREP_FLAGS_MASK ((WSREP_FLAGS_LAST << 1) - 1)
typedef uint64_t wsrep_trx_id_t; //!< application transaction ID
typedef uint64_t wsrep_conn_id_t; //!< application connection ID
typedef int64_t wsrep_seqno_t; //!< sequence number of a writeset, etc.
#ifdef __cplusplus
typedef bool wsrep_bool_t;
#else
typedef _Bool wsrep_bool_t; //!< should be the same as standard (C99) bool
#endif /* __cplusplus */
/*! undefined seqno */
#define WSREP_SEQNO_UNDEFINED (-1)
/*! wsrep provider status codes */
typedef enum wsrep_status
{
WSREP_OK = 0, //!< success
WSREP_WARNING, //!< minor warning, error logged
WSREP_TRX_MISSING, //!< transaction is not known by wsrep
WSREP_TRX_FAIL, //!< transaction aborted, server can continue
WSREP_BF_ABORT, //!< trx was victim of brute force abort
WSREP_SIZE_EXCEEDED, //!< data exceeded maximum supported size
WSREP_CONN_FAIL, //!< error in client connection, must abort
WSREP_NODE_FAIL, //!< error in node state, wsrep must reinit
WSREP_FATAL, //!< fatal error, server must abort
WSREP_NOT_IMPLEMENTED, //!< feature not implemented
WSREP_NOT_ALLOWED //!< operation not allowed
} wsrep_status_t;
/*! wsrep callbacks status codes */
typedef enum wsrep_cb_status
{
WSREP_CB_SUCCESS = 0, //!< success (as in "not critical failure")
WSREP_CB_FAILURE //!< critical failure (consistency violation)
/* Technically, wsrep provider has no use for specific failure codes since
* there is nothing it can do about it but abort execution. Therefore any
* positive number shall indicate a critical failure. Optionally that value
* may be used by provider to come to a consensus about state consistency
* in a group of nodes. */
} wsrep_cb_status_t;
/*!
* UUID type - for all unique IDs
*/
typedef union wsrep_uuid {
uint8_t data[16];
size_t alignment;
} wsrep_uuid_t;
/*! Undefined UUID */
static const wsrep_uuid_t WSREP_UUID_UNDEFINED = {{0,}};
/*! UUID string representation length, terminating '\0' not included */
#define WSREP_UUID_STR_LEN 36
/*!
* Scan UUID from string
* @return length of UUID string representation or negative error code
*/
extern int
wsrep_uuid_scan (const char* str, size_t str_len, wsrep_uuid_t* uuid);
/*!
* Print UUID to string
* @return length of UUID string representation or negative error code
*/
extern int
wsrep_uuid_print (const wsrep_uuid_t* uuid, char* str, size_t str_len);
/*!
* @brief Compare two UUIDs
*
* Performs a byte by byte comparison of lhs and rhs.
* Returns 0 if lhs and rhs match, otherwise -1 or 1 according to the
* difference of the first byte that differs in lsh and rhs.
*
* @return -1, 0, 1 if lhs is respectively smaller, equal, or greater than rhs
*/
extern int
wsrep_uuid_compare (const wsrep_uuid_t* lhs, const wsrep_uuid_t* rhs);
#define WSREP_MEMBER_NAME_LEN 32 //!< maximum logical member name length
#define WSREP_INCOMING_LEN 256 //!< max Domain Name length + 0x00
/*!
* Global transaction identifier
*/
typedef struct wsrep_gtid
{
wsrep_uuid_t uuid; /*!< History UUID */
wsrep_seqno_t seqno; /*!< Sequence number */
} wsrep_gtid_t;
/*! Undefined GTID */
static const wsrep_gtid_t WSREP_GTID_UNDEFINED = {{{0, }}, -1};
/*! Minimum number of bytes guaranteed to store GTID string representation,
* terminating '\0' not included (36 + 1 + 20) */
#define WSREP_GTID_STR_LEN 57
/*!
* Scan GTID from string
* @return length of GTID string representation or negative error code
*/
extern int
wsrep_gtid_scan(const char* str, size_t str_len, wsrep_gtid_t* gtid);
/*!
* Print GTID to string
* @return length of GTID string representation or negative error code
*/
extern int
wsrep_gtid_print(const wsrep_gtid_t* gtid, char* str, size_t str_len);
/*!
* Source/server transaction ID (trx ID assigned at originating node)
*/
typedef struct wsrep_stid {
wsrep_uuid_t node; //!< source node ID
wsrep_trx_id_t trx; //!< local trx ID at source
wsrep_conn_id_t conn; //!< local connection ID at source
} wsrep_stid_t;
/*!
* Transaction meta data
*/
typedef struct wsrep_trx_meta
{
wsrep_gtid_t gtid; /*!< Global transaction identifier */
wsrep_stid_t stid; /*!< Source transaction identifier */
wsrep_seqno_t depends_on; /*!< Sequence number of the last transaction
this transaction may depend on */
} wsrep_trx_meta_t;
/*! Abstract data buffer structure */
typedef struct wsrep_buf
{
const void* ptr; /*!< Pointer to data buffer */
size_t len; /*!< Length of buffer */
} wsrep_buf_t;
/*! Transaction handle struct passed for wsrep transaction handling calls */
typedef struct wsrep_ws_handle
{
wsrep_trx_id_t trx_id; //!< transaction ID
void* opaque; //!< opaque provider transaction context data
} wsrep_ws_handle_t;
/*!
* member status
*/
typedef enum wsrep_member_status {
WSREP_MEMBER_UNDEFINED, //!< undefined state
WSREP_MEMBER_JOINER, //!< incomplete state, requested state transfer
WSREP_MEMBER_DONOR, //!< complete state, donates state transfer
WSREP_MEMBER_JOINED, //!< complete state
WSREP_MEMBER_SYNCED, //!< complete state, synchronized with group
WSREP_MEMBER_ERROR, //!< this and above is provider-specific error code
WSREP_MEMBER_MAX
} wsrep_member_status_t;
/*!
* static information about a group member (some fields are tentative yet)
*/
typedef struct wsrep_member_info {
wsrep_uuid_t id; //!< group-wide unique member ID
char name[WSREP_MEMBER_NAME_LEN]; //!< human-readable name
char incoming[WSREP_INCOMING_LEN]; //!< address for client requests
} wsrep_member_info_t;
/*!
* group status
*/
typedef enum wsrep_view_status {
WSREP_VIEW_PRIMARY, //!< primary group configuration (quorum present)
WSREP_VIEW_NON_PRIMARY, //!< non-primary group configuration (quorum lost)
WSREP_VIEW_DISCONNECTED, //!< not connected to group, retrying.
WSREP_VIEW_MAX
} wsrep_view_status_t;
/*!
* view of the group
*/
typedef struct wsrep_view_info {
wsrep_gtid_t state_id; //!< global state ID
wsrep_seqno_t view; //!< global view number
wsrep_view_status_t status; //!< view status
wsrep_cap_t capabilities;//!< capabilities available in the view
int my_idx; //!< index of this member in the view
int memb_num; //!< number of members in the view
int proto_ver; //!< application protocol agreed on the view
wsrep_member_info_t members[1];//!< array of member information
} wsrep_view_info_t;
/*!
* @brief connected to group
*
* This handler is called once the first primary view is seen.
* The purpose of this call is to provide basic information only,
* like node UUID and group UUID.
*/
typedef enum wsrep_cb_status (*wsrep_connected_cb_t) (
void* app_ctx,
const wsrep_view_info_t* view
);
/*!
* @brief group view handler
*
* This handler is called in *total order* corresponding to the group
* configuration change. It is to provide a vital information about
* new group view.
*
* @param app_ctx application context
* @param recv_ctx receiver context
* @param view new view on the group
* @param state current state
* @param state_len length of current state
*/
typedef enum wsrep_cb_status (*wsrep_view_cb_t) (
void* app_ctx,
void* recv_ctx,
const wsrep_view_info_t* view,
const char* state,
size_t state_len
);
/*!
* Magic string to tell provider to engage into trivial (empty) state transfer.
* No data will be passed, but the node shall be considered JOINED.
* Should be passed in sst_req parameter of wsrep_sst_cb_t.
*/
#define WSREP_STATE_TRANSFER_TRIVIAL "trivial"
/*!
* Magic string to tell provider not to engage in state transfer at all.
* The member will stay in WSREP_MEMBER_UNDEFINED state but will keep on
* receiving all writesets.
* Should be passed in sst_req parameter of wsrep_sst_cb_t.
*/
#define WSREP_STATE_TRANSFER_NONE "none"
/*!
* @brief Creates and returns State Snapshot Transfer request for provider.
*
* This handler is called whenever the node is found to miss some of events
* from the cluster history (e.g. fresh node joining the cluster).
* SST will be used if it is impossible (or impractically long) to replay
* missing events, which may be not known in advance, so the node must always
* be ready to accept full SST or abort in case event replay is impossible.
*
* Normally SST request is an opaque buffer that is passed to the
* chosen SST donor node and must contain information sufficient for
* donor to deliver SST (typically SST method and delivery address).
* See above macros WSREP_STATE_TRANSFER_TRIVIAL and WSREP_STATE_TRANSFER_NONE
* to modify the standard provider behavior.
*
* @note Currently it is assumed that sst_req is allocated using
* malloc()/calloc()/realloc() and it will be freed by
* wsrep provider.
*
* @param app_ctx application context
* @param sst_req location to store SST request
* @param sst_req_len location to store SST request length or error code,
* value of 0 means no SST.
*/
typedef enum wsrep_cb_status (*wsrep_sst_request_cb_t) (
void* app_ctx,
void** sst_req,
size_t* sst_req_len
);
/*!
* @brief apply callback
*
* This handler is called from wsrep library to apply replicated writeset
* Must support brute force applying for multi-master operation
*
* @param recv_ctx receiver context pointer provided by the application
* @param ws_handle internal provider writeset handle
* @param flags WSREP_FLAG_... flags
* @param data data buffer containing the writeset
* @param meta transaction meta data of the writeset to be applied
* @param exit_loop set to true to exit receive loop
*
* @return error code:
* @retval 0 - success
* @retval non-0 - application-specific error code
*/
typedef enum wsrep_cb_status (*wsrep_apply_cb_t) (
void* recv_ctx,
const wsrep_ws_handle_t* ws_handle,
uint32_t flags,
const wsrep_buf_t* data,
const wsrep_trx_meta_t* meta,
wsrep_bool_t* exit_loop
);
/*!
* @brief unordered callback
*
* This handler is called to execute unordered actions (actions that need not
* to be executed in any particular order) attached to writeset.
*
* @param recv_ctx receiver context pointer provided by the application
* @param data data buffer containing the writeset
*/
typedef enum wsrep_cb_status (*wsrep_unordered_cb_t) (
void* recv_ctx,
const wsrep_buf_t* data
);
/*!
* @brief a callback to donate state snapshot
*
* This handler is called from wsrep library when it needs this node
* to deliver state to a new cluster member.
* No state changes will be committed for the duration of this call.
* Wsrep implementation may provide internal state to be transmitted
* to new cluster member for initial state.
*
* @param app_ctx application context
* @param recv_ctx receiver context
* @param str_msg state transfer request message
* @param gtid current state ID on this node
* @param state current wsrep internal state buffer
* @param bypass bypass snapshot transfer, only transfer uuid:seqno pair
*/
typedef enum wsrep_cb_status (*wsrep_sst_donate_cb_t) (
void* app_ctx,
void* recv_ctx,
const wsrep_buf_t* str_msg,
const wsrep_gtid_t* state_id,
const wsrep_buf_t* state,
wsrep_bool_t bypass
);
/*!
* @brief a callback to signal application that wsrep state is synced
* with cluster
*
* This callback is called after wsrep library has got in sync with
* rest of the cluster.
*
* @param app_ctx application context
*
* @return wsrep_cb_status enum
*/
typedef enum wsrep_cb_status (*wsrep_synced_cb_t) (void* app_ctx);
/*
* An opaque encryption key of arbitrary size - provided by the application
* May contain not only the key, but also algorithm specification and the like.
*/
typedef wsrep_buf_t wsrep_enc_key_t;
/*
* Initialization vector/nonce. Given that most symmetric ciphers use 16 byte
* blocks this can be made 32 bytes without much loss of generality.
* Must be set by provider to start an encryption/decrytpion operation.
*/
typedef char wsrep_enc_iv_t[32];
/*
* Encryption context that should be sufficient to deterministically encrypt/
* decrypt a data buffer either standalone or as part of a stream. May be used
* passed in apply_cb() along with the encrypted replication events to
* application as well.
*
* @param key [in] can be a pointer to const since provider will have to keep
* the keys until the last writeset that uses the key is in the
* cache
* @param iv [in] initialization vector for the beginning of the new
* operation.
* @param ctx [in/out] ongoing operation context
* To initialize a new context the encrypt_cb() caller sets it to
* NULL, which signals the encryption of a new continuous buffer.
* In that case the callback allocates the new context (using
* supplied key and iv) and stores the pointer to it for
* processing subsequent data.
* The end of the operation is signaled by passing TRUE in the
* parameter `last` to the encryption callback, the callback then
* finishes any pending encryption and deallocates the context.
*/
typedef struct
{
const wsrep_enc_key_t* key;
const wsrep_enc_iv_t* iv;
void* ctx;
}
wsrep_enc_ctx_t;
/*
* Encryption direction
*/
typedef enum
{
WSREP_ENC = 0, /* encryption */
WSREP_DEC = 1 /* decryption */
}
wsrep_enc_direction_t;
/*
* Encryption/decryption callback. Must be used by both provider and the
* application to obtain identical results. Can be NULL for no encryption.
*
* @param app_ctx application context
* @param enc_ctx current operation context
* @param input input data buffer
* @param output an output buffer, must be at least the size of the input
* data plus unwritten bytes from the previous call(s). E.g. in
* block mode, encryption/decryption operation will write data
* to output in multiples of the algoritm block size. So a call
* to encrypt a single byte won't normally write anything to
* output waiting for the next input chunk. So on the next call
* it may write one byte more than was given in the input.
* @param direction of the operation (encryption/decryption)
* @param last true if this is the last buffer to encrypt in the stream.
* In that case the callback shall write the remaining bytes of
* the stream to output (if any) and deallocate ctx->ctx if
* allocated previously
*
* @return a number of bytes written to output or a negative error code.
*/
typedef int (*wsrep_encrypt_cb_t)
(
void* app_ctx,
wsrep_enc_ctx_t* enc_ctx,
const wsrep_buf_t* input,
void* output,
wsrep_enc_direction_t direction,
bool last
);
/*!
* Initialization parameters for wsrep provider.
*/
struct wsrep_init_args
{
void* app_ctx; //!< Application context for callbacks
/* Configuration parameters */
const char* node_name; //!< Symbolic name of this node (e.g. hostname)
const char* node_address; //!< Address to be used by wsrep provider
const char* node_incoming; //!< Address for incoming client connections
const char* data_dir; //!< Directory where wsrep files are kept if any
const char* options; //!< Provider-specific configuration string
int proto_ver; //!< Max supported application protocol version
/* Application initial state information. */
const wsrep_gtid_t* state_id; //!< Application state GTID
const wsrep_buf_t* state; //!< Initial state for wsrep provider
/* Application callbacks */
wsrep_log_cb_t logger_cb; //!< logging handler
wsrep_connected_cb_t connected_cb; //!< connected to group
wsrep_view_cb_t view_cb; //!< group view change handler
wsrep_sst_request_cb_t sst_request_cb; //!< SST request creator
wsrep_encrypt_cb_t encrypt_cb; //!< Encryption callback
/* Applier callbacks */
wsrep_apply_cb_t apply_cb; //!< apply callback
wsrep_unordered_cb_t unordered_cb; //!< callback for unordered actions
/* State Snapshot Transfer callbacks */
wsrep_sst_donate_cb_t sst_donate_cb; //!< donate SST
wsrep_synced_cb_t synced_cb; //!< synced with group
};
/*! Type of the stats variable value in struct wsrep_status_var */
typedef enum wsrep_var_type
{
WSREP_VAR_STRING, //!< pointer to null-terminated string
WSREP_VAR_INT64, //!< int64_t
WSREP_VAR_DOUBLE //!< double
}
wsrep_var_type_t;
/*! Generalized stats variable representation */
struct wsrep_stats_var
{
const char* name; //!< variable name
wsrep_var_type_t type; //!< variable value type
union {
int64_t _int64;
double _double;
const char* _string;
} value; //!< variable value
};
/*! Key struct used to pass certification keys for transaction handling calls.
* A key consists of zero or more key parts. */
typedef struct wsrep_key
{
const wsrep_buf_t* key_parts; /*!< Array of key parts */
size_t key_parts_num; /*!< Number of key parts */
} wsrep_key_t;
/*! Key type:
* SHARED - higher level resource shared between clients, e.g. SQL table
* REFERENCE - resource referenced but not modified, e.g. parent row
* UPDATE - resource is modified
* EXCLUSIVE - resource is either created or deleted */
typedef enum wsrep_key_type
{
WSREP_KEY_SHARED = 0,
WSREP_KEY_REFERENCE,
WSREP_KEY_UPDATE,
WSREP_KEY_EXCLUSIVE
} wsrep_key_type_t;
/*! Data type:
* ORDERED state modification event that should be applied and committed
* in order.
* UNORDERED some action that does not modify state and execution of which is
* optional and does not need to happen in order.
* ANNOTATION (human readable) writeset annotation. */
typedef enum wsrep_data_type
{
WSREP_DATA_ORDERED = 0,
WSREP_DATA_UNORDERED,
WSREP_DATA_ANNOTATION
} wsrep_data_type_t;
/*!
* @brief Helper method to reset trx writeset handle state when trx id changes
*
* Instead of passing wsrep_ws_handle_t directly to wsrep calls,
* wrapping handle with this call offloads bookkeeping from
* application.
*/
static inline wsrep_ws_handle_t* wsrep_ws_handle_for_trx(
wsrep_ws_handle_t* ws_handle,
wsrep_trx_id_t trx_id)
{
if (ws_handle->trx_id != trx_id)
{
ws_handle->trx_id = trx_id;
ws_handle->opaque = NULL;
}
return ws_handle;
}
/*!
* A handle for processing preordered actions.
* Must be initialized to WSREP_PO_INITIALIZER before use.
*/
typedef struct wsrep_po_handle { void* opaque; } wsrep_po_handle_t;
static const wsrep_po_handle_t WSREP_PO_INITIALIZER = { NULL };
typedef struct wsrep_st wsrep_t;
/*!
* wsrep interface for dynamically loadable libraries
*/
struct wsrep_st {
const char *version; //!< interface version string
/*!
* @brief Initializes wsrep provider
*
* @param wsrep provider handle
* @param args wsrep initialization parameters
*/
wsrep_status_t (*init) (wsrep_t* wsrep,
const struct wsrep_init_args* args);
/*!
* @brief Returns provider capabilities bitmap
*
* Note that these are potential provider capabilities. Provider will
* offer only capabilities supported by all members in the view
* (see wsrep_view_info).
*
* @param wsrep provider handle
*/
wsrep_cap_t (*capabilities) (wsrep_t* wsrep);
/*!
* @brief Passes provider-specific configuration string to provider.
*
* @param wsrep provider handle
* @param conf configuration string
*
* @retval WSREP_OK configuration string was parsed successfully
* @retval WSREP_WARNING could not parse configuration string, no action taken
*/
wsrep_status_t (*options_set) (wsrep_t* wsrep, const char* conf);
/*!
* @brief Returns provider-specific string with current configuration values.
*
* @param wsrep provider handle
*
* @return a dynamically allocated string with current configuration
* parameter values
*/
char* (*options_get) (wsrep_t* wsrep);
/*!
* @brief A call to set/rotate the key in provider.
*
* This may happen asynchronously and so is a best effort operation.
* Some buffers may still be encrypted with a previous key.
*
* @param a key object for the encryption callback
*
* return success or an error code
*/
wsrep_status_t (*enc_set_key)(wsrep_t* wsrep, const wsrep_enc_key_t* key);
/*!
* @brief Opens connection to cluster
*
* Returns when either node is ready to operate as a part of the cluster
* or fails to reach operating status.
*
* @param wsrep provider handle
* @param cluster_name unique symbolic cluster name
* @param cluster_url URL-like cluster address (backend://address)
* @param state_donor name of the node to be asked for state transfer.
* @param bootstrap a flag to request initialization of a new wsrep
* service rather then a connection to the existing one.
* cluster_url may still carry important initialization
* parameters, like backend spec and/or listen address.
*/
wsrep_status_t (*connect) (wsrep_t* wsrep,
const char* cluster_name,
const char* cluster_url,
const char* state_donor,
wsrep_bool_t bootstrap);
/*!
* @brief Closes connection to cluster.
*
* @param wsrep this wsrep handler
*/
wsrep_status_t (*disconnect)(wsrep_t* wsrep);
/*!
* @brief start receiving replication events
*
* This function does not return until provider is closed or \p exit_loop
* parameter to wsrep_apply_cb_t() is set to true.
*
* @param wsrep provider handle
* @param recv_ctx receiver context
*/
wsrep_status_t (*recv)(wsrep_t* wsrep, void* recv_ctx);
/*!
* @brief Tells provider that a given writeset has a read view associated
* with it.
*
* @param wsrep provider handle
* @param handle writeset handle
* @param rv read view GTID established by the caller or if NULL,
* provider will infer it internally.
*/
wsrep_status_t (*assign_read_view)(wsrep_t* wsrep,
wsrep_ws_handle_t* handle,
const wsrep_gtid_t* rv);
/*!
* @brief Certifies transaction with provider.
*
* Must be called before transaction commit. Returns success code, which
* caller must check.
*
* In case of WSREP_OK, transaction can proceed to commit.
* Otherwise transaction must rollback.
*
* In case of a failure there are two conceptually different situations:
* - the writeset was not ordered. In that case meta struct shall contain
* undefined GTID: WSREP_UUID_UNDEFINED:WSREP_SEQNO_UNDEFINED.
* - the writeset was successfully ordered, but failed certification.
* In this case meta struct shall contain a valid GTID.
*
* Regardless of the return code, if meta struct contains a valid GTID
* the commit order critical section must be entered with that GTID.
*
* @param wsrep provider handle
* @param conn_id connection ID
* @param ws_handle writeset of committing transaction
* @param flags fine tuning the replication WSREP_FLAG_*
* @param meta transaction meta data
*
* @retval WSREP_OK writeset successfully certified, can commit
* @retval WSREP_TRX_FAIL must rollback transaction
* @retval WSREP_CONN_FAIL must close client connection
* @retval WSREP_NODE_FAIL must close all connections and reinit
*/
wsrep_status_t (*certify)(wsrep_t* wsrep,
wsrep_conn_id_t conn_id,
wsrep_ws_handle_t* ws_handle,
uint32_t flags,
wsrep_trx_meta_t* meta);
/*!
* @brief Enters commit order critical section.
*
* Anything executed between this call and commit_order_leave() will be
* executed in provider enforced order.
*
* @param wsrep provider handle
* @param ws_handle internal provider writeset handle
* @param meta transaction meta data
*
* @retval WSREP_OK commit order entered successfully
* @retval WSREP_NODE_FAIL must close all connections and reinit
*/
wsrep_status_t (*commit_order_enter)(wsrep_t* wsrep,
const wsrep_ws_handle_t* ws_handle,
const wsrep_trx_meta_t* meta);
/*!
* @brief Leaves commit order critical section
*
* Anything executed between commit_order_enter() and this call will be
* executed in provider enforced order.
*
* @param wsrep provider handle
* @param ws_handle internal provider writeset handle
* @param meta transaction meta data
* @param error buffer containing error info (null/empty for no error)
*
* @retval WSREP_OK commit order left successfully
* @retval WSREP_NODE_FAIL must close all connections and reinit
*/
wsrep_status_t (*commit_order_leave)(wsrep_t* wsrep,
const wsrep_ws_handle_t* ws_handle,
const wsrep_trx_meta_t* meta,
const wsrep_buf_t* error);
/*!
* @brief Releases resources after transaction commit/rollback.
*
* Ends total order critical section.
*
* @param wsrep provider handle
* @param ws_handle writeset of committing transaction
* @retval WSREP_OK release succeeded
*/
wsrep_status_t (*release) (wsrep_t* wsrep,
wsrep_ws_handle_t* ws_handle);
/*!
* @brief Replay trx as a slave writeset
*
* If local trx has been aborted by brute force, and it has already
* replicated before this abort, we must try if we can apply it as
* slave trx. Note that slave nodes see only trx writesets and certification
* test based on write set content can be different to DBMS lock conflicts.
*
* @param wsrep provider handle
* @param ws_handle writeset of committing transaction
* @param trx_ctx transaction context
*
* @retval WSREP_OK cluster commit succeeded
* @retval WSREP_TRX_FAIL must rollback transaction
* @retval WSREP_BF_ABORT brute force abort happened after trx replicated
* must rollback transaction and try to replay
* @retval WSREP_CONN_FAIL must close client connection
* @retval WSREP_NODE_FAIL must close all connections and reinit
*/
wsrep_status_t (*replay_trx)(wsrep_t* wsrep,
const wsrep_ws_handle_t* ws_handle,
void* trx_ctx);
/*!
* @brief Abort certify() call of another thread.
*
* It is possible, that some high-priority transaction needs to abort
* another transaction which is in certify() call waiting for resources.
*
* The kill routine checks that abort is not attempted against a transaction
* which is front of the caller (in total order).
*
* If the abort was successful, the victim sequence number is stored
* into location pointed by the victim_seqno.
*
* @param wsrep provider handle
* @param bf_seqno seqno of brute force trx, running this cancel
* @param victim_trx transaction to be aborted, and which is committing
* @param victim_seqno seqno of the victim transaction if assigned
*
* @retval WSREP_OK abort succeeded
* @retval WSREP_NOT_ALLOWED the provider declined the abort request
* @retval WSREP_TRX_MISSING the victim_trx was missing
* @retval WSREP_WARNING abort failed
*/
wsrep_status_t (*abort_certification)(wsrep_t* wsrep,
wsrep_seqno_t bf_seqno,
wsrep_trx_id_t victim_trx,
wsrep_seqno_t* victim_seqno);
/*!
* @brief Send a rollback fragment on behalf of trx
*
* @param wsrep provider handle
* @param trx transaction to be rolled back
* @param data data to append to the fragment
*
* @retval WSREP_OK rollback fragment sent successfully
*/
wsrep_status_t (*rollback)(wsrep_t* wsrep,
wsrep_trx_id_t trx,
const wsrep_buf_t* data);
/*!
* @brief Appends a row reference to transaction writeset
*
* Both copy flag and key_type can be ignored by provider (key type
* interpreted as WSREP_KEY_EXCLUSIVE).
*
* @param wsrep provider handle
* @param ws_handle writeset handle
* @param keys array of keys
* @param count length of the array of keys
* @param type type of the key
* @param copy can be set to FALSE if keys persist through commit.
*/
wsrep_status_t (*append_key)(wsrep_t* wsrep,
wsrep_ws_handle_t* ws_handle,
const wsrep_key_t* keys,
size_t count,
enum wsrep_key_type type,
wsrep_bool_t copy);
/*!
* @brief Appends data to transaction writeset
*
* This method can be called any time before certify() call and it appends
* a data buffer to the transaction writeset.
* Repeated calls of the method will result in direct buffer concatenation
* and all data will be passed as a single buffer to the apply callback.
*
* Both copy and unordered flags can be ignored by provider.
*
* @param wsrep provider handle
* @param ws_handle writeset handle
* @param data array of data buffers
* @param count buffer count
* @param type type of data
* @param copy can be set to FALSE if data persists through commit.
*/
wsrep_status_t (*append_data)(wsrep_t* wsrep,
wsrep_ws_handle_t* ws_handle,
const wsrep_buf_t* data,
size_t count,
enum wsrep_data_type type,
wsrep_bool_t copy);
/*!
* @brief Blocks until the given GTID is committed
*
* This call will block the caller until the given GTID
* is guaranteed to be committed, or until a timeout occurs.
* The timeout value is given in parameter tout, if tout is -1,
* then the global causal read timeout applies.
*
* If no pointer upto is provided the call will block until
* causal ordering with all possible preceding writes in the
* cluster is guaranteed.
*
* If pointer to gtid is non-null, the call stores the global
* transaction ID of the last transaction which is guaranteed
* to be committed when the call returns.
*
* @param wsrep provider handle
* @param upto gtid to wait upto
* @param tout timeout in seconds
* -1 wait for global causal read timeout
* @param gtid location to store GTID
*/
wsrep_status_t (*sync_wait)(wsrep_t* wsrep,
wsrep_gtid_t* upto,
int tout,
wsrep_gtid_t* gtid);
/*!
* @brief Returns the last committed gtid
*
* @param gtid location to store GTID
*/
wsrep_status_t (*last_committed_id)(wsrep_t* wsrep,
wsrep_gtid_t* gtid);
/*!
* @brief Clears allocated connection context.
*
* Whenever a new connection ID is passed to wsrep provider through
* any of the API calls, a connection context is allocated for this
* connection. This call is to explicitly notify provider of connection
* closing.
*
* @param wsrep provider handle
* @param conn_id connection ID
* @param query the 'set database' query
* @param query_len length of query (does not end with 0)
*/
wsrep_status_t (*free_connection)(wsrep_t* wsrep,
wsrep_conn_id_t conn_id);
/*!
* @brief Replicates a query and starts "total order isolation" section.
*
* Regular mode:
*
* Replicates the action spec and returns success code, which caller must
* check. Total order isolation continues until to_execute_end() is called.
* Regular "total order isolation" is achieved by calling to_execute_start()
* with WSREP_FLAG_TRX_START and WSREP_FLAG_TRX_END set.
*
* Two-phase mode:
*
* In this mode a query execution is split in two phases. The first phase is
* acquiring total order isolation to access critical section and the
* second phase is to release acquired resources in total order.
*
* To start the first phase the call is made with WSREP_FLAG_TRX_START set.
* The action is replicated and success code is returned. The total order
* isolation continues until to_execute_end() is called. However, the provider
* will keep the reference to the operation for conflict resolution purposes.
*
* The second phase is started with WSREP_FLAG_TRX_END set. Provider
* returns once it has achieved total ordering isolation for second phase.
* Total order isolation continues until to_execute_end() is called.
* All references to the operation are cleared by provider before
* call to to_execute_end() returns.
*
* @param wsrep provider handle
* @param conn_id connection ID
* @param keys array of keys
* @param keys_num length of the array of keys
* @param action action buffer array to be executed
* @param count action buffer count
* @param flags flags
* @param meta transaction meta data
*
* @retval WSREP_OK cluster commit succeeded
* @retval WSREP_CONN_FAIL must close client connection
* @retval WSREP_NODE_FAIL must close all connections and reinit
*/
wsrep_status_t (*to_execute_start)(wsrep_t* wsrep,
wsrep_conn_id_t conn_id,
const wsrep_key_t* keys,
size_t keys_num,
const wsrep_buf_t* action,
size_t count,
uint32_t flags,
wsrep_trx_meta_t* meta);
/*!
* @brief Ends the total order isolation section.
*
* Marks the end of total order isolation. TO locks are freed
* and other transactions are free to commit from this point on.
*
* @param wsrep provider handle
* @param conn_id connection ID
* @param error error information about TOI operation (empty for no error)
*
* @retval WSREP_OK cluster commit succeeded
* @retval WSREP_CONN_FAIL must close client connection
* @retval WSREP_NODE_FAIL must close all connections and reinit
*/
wsrep_status_t (*to_execute_end)(wsrep_t* wsrep,
wsrep_conn_id_t conn_id,
const wsrep_buf_t* error);
/*!
* @brief Collects preordered replication events into a writeset.
*
* @param wsrep wsrep provider handle
* @param handle a handle associated with a given writeset
* @param data an array of data buffers.
* @param count length of data buffer array.
* @param copy whether provider needs to make a copy of events.
*
* @retval WSREP_OK cluster-wide commit succeeded
* @retval WSREP_TRX_FAIL operation failed (e.g. trx size exceeded limit)
* @retval WSREP_NODE_FAIL must close all connections and reinit
*/
wsrep_status_t (*preordered_collect) (wsrep_t* wsrep,
wsrep_po_handle_t* handle,
const wsrep_buf_t* data,
size_t count,
wsrep_bool_t copy);
/*!
* @brief "Commits" preordered writeset to cluster.
*
* The contract is that the writeset will be committed in the same (partial)
* order this method was called. Frees resources associated with the writeset
* handle and reinitializes the handle.
*
* @param wsrep wsrep provider handle
* @param po_handle a handle associated with a given writeset
* @param source_id ID of the event producer, also serves as the partial order
* or stream ID - events with different source_ids won't be
* ordered with respect to each other.
* @param flags WSREP_FLAG_... flags
* @param pa_range the number of preceding events this event can be processed
* in parallel with. A value of 0 means strict serial
* processing. Note: commits always happen in wsrep order.
* @param commit 'true' to commit writeset to cluster (replicate) or
* 'false' to rollback (cancel) the writeset.
*
* @retval WSREP_OK cluster-wide commit succeeded
* @retval WSREP_TRX_FAIL operation failed (e.g. NON-PRIMARY component)
* @retval WSREP_NODE_FAIL must close all connections and reinit
*/
wsrep_status_t (*preordered_commit) (wsrep_t* wsrep,
wsrep_po_handle_t* handle,
const wsrep_uuid_t* source_id,
uint32_t flags,
int pa_range,
wsrep_bool_t commit);
/*!
* @brief Signals to wsrep provider that state snapshot has been sent to
* joiner.
*
* @param wsrep provider handle
* @param state_id state ID
* @param rcode 0 or negative error code of the operation.
*/
wsrep_status_t (*sst_sent)(wsrep_t* wsrep,
const wsrep_gtid_t* state_id,
int rcode);
/*!
* @brief Signals to wsrep provider that new state snapshot has been received.
* May deadlock if called from sst_prepare_cb.
*
* @param wsrep provider handle
* @param state_id state ID
* @param state initial state provided by SST donor
* @param rcode 0 or negative error code of the operation.
*/
wsrep_status_t (*sst_received)(wsrep_t* wsrep,
const wsrep_gtid_t* state_id,
const wsrep_buf_t* state,
int rcode);
/*!
* @brief Generate request for consistent snapshot.
*
* If successful, this call will generate internally SST request
* which in turn triggers calling SST donate callback on the nodes
* specified in donor_spec. If donor_spec is null, callback is
* called only locally. This call will block until sst_sent is called
* from callback.
*
* @param wsrep provider handle
* @param msg context message for SST donate callback
* @param msg_len length of context message
* @param donor_spec list of snapshot donors
*/
wsrep_status_t (*snapshot)(wsrep_t* wsrep,
const wsrep_buf_t* msg,
const char* donor_spec);
/*!
* @brief Returns an array of status variables.
* Array is terminated by Null variable name.
*
* @param wsrep provider handle
* @return array of struct wsrep_status_var.
*/
struct wsrep_stats_var* (*stats_get) (wsrep_t* wsrep);
/*!
* @brief Release resources that might be associated with the array.
*
* @param wsrep provider handle.
* @param var_array array returned by stats_get().
*/
void (*stats_free) (wsrep_t* wsrep, struct wsrep_stats_var* var_array);
/*!
* @brief Reset some stats variables to initial value, provider-dependent.
*
* @param wsrep provider handle.
*/
void (*stats_reset) (wsrep_t* wsrep);
/*!
* @brief Pauses writeset applying/committing.
*
* @return global sequence number of the paused state or negative error code.
*/
wsrep_seqno_t (*pause) (wsrep_t* wsrep);
/*!
* @brief Resumes writeset applying/committing.
*/
wsrep_status_t (*resume) (wsrep_t* wsrep);
/*!
* @brief Desynchronize from cluster
*
* Effectively turns off flow control for this node, allowing it
* to fall behind the cluster.
*/
wsrep_status_t (*desync) (wsrep_t* wsrep);
/*!
* @brief Request to resynchronize with cluster.
*
* Effectively turns on flow control. Asynchronous - actual synchronization
* event to be delivered via sync_cb.
*/
wsrep_status_t (*resync) (wsrep_t* wsrep);
/*!
* @brief Acquire global named lock
*
* @param wsrep wsrep provider handle
* @param name lock name
* @param shared shared or exclusive lock
* @param owner 64-bit owner ID
* @param tout timeout in nanoseconds.
* 0 - return immediately, -1 wait forever.
* @return wsrep status or negative error code
* @retval -EDEADLK lock was already acquired by this thread
* @retval -EBUSY lock was busy
*/
wsrep_status_t (*lock) (wsrep_t* wsrep,
const char* name, wsrep_bool_t shared,
uint64_t owner, int64_t tout);
/*!
* @brief Release global named lock
*
* @param wsrep wsrep provider handle
* @param name lock name
* @param owner 64-bit owner ID
* @return wsrep status or negative error code
* @retval -EPERM lock does not belong to this owner
*/
wsrep_status_t (*unlock) (wsrep_t* wsrep, const char* name, uint64_t owner);
/*!
* @brief Check if global named lock is locked
*
* @param wsrep wsrep provider handle
* @param name lock name
* @param owner if not NULL will contain 64-bit owner ID
* @param node if not NULL will contain owner's node UUID
* @return true if lock is locked
*/
wsrep_bool_t (*is_locked) (wsrep_t* wsrep, const char* name, uint64_t* conn,
wsrep_uuid_t* node);
/*!
* wsrep provider name
*/
const char* provider_name;
/*!
* wsrep provider version
*/
const char* provider_version;
/*!
* wsrep provider vendor name
*/
const char* provider_vendor;
/*!
* @brief Frees allocated resources before unloading the library.
* @param wsrep provider handle
*/
void (*free)(wsrep_t* wsrep);
void *dlh; //!< reserved for future use
void *ctx; //!< reserved for implementation private context
};
/*!
*
* @brief Loads wsrep library
*
* @param spec path to wsrep library. If NULL or WSREP_NONE initializes dummy
* pass-through implementation.
* @param hptr wsrep handle
* @param log_cb callback to handle loader messages. Otherwise writes to stderr.
*
* @return zero on success, errno on failure
*/
int wsrep_load(const char* spec, wsrep_t** hptr, wsrep_log_cb_t log_cb);
/*!
* @brief Unloads the wsrep library. The application must call
* wsrep->free() before unload to release library side resources.
*
* @param hptr wsrep handler pointer
*/
void wsrep_unload(wsrep_t* hptr);
#ifdef __cplusplus
}
#endif
#endif /* WSREP_H */
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